===============================================================================

About this build: this rebuild has been done as part of reproduce.debian.net
where we aim to reproduce Debian binary packages distributed via ftp.debian.org,
by rebuilding using the exact same packages as the original build on the buildds,
as described in the relevant .buildinfo file from buildinfos.debian.net.

For more information please go to https://reproduce.debian.net or join
#debian-reproducible on irc.debian.org

===============================================================================

Preparing download of sources for /srv/rebuilderd/tmp/rebuilderdybLdwX/inputs/octave-statistics_1.8.1-3_ppc64el.buildinfo
Source: octave-statistics
Version: 1.8.1-3
rebuilderd-worker node: osuosl6-ppc64el

+------------------------------------------------------------------------------+
| Downloading sources                          Wed, 25 Feb 2026 03:05:42 +0000 |
+------------------------------------------------------------------------------+

Get:1 https://deb.debian.org/debian trixie InRelease [140 kB]
Get:2 https://deb.debian.org/debian-security trixie-security InRelease [43.4 kB]
Get:3 https://deb.debian.org/debian trixie-updates InRelease [47.3 kB]
Get:4 https://deb.debian.org/debian trixie-proposed-updates InRelease [57.6 kB]
Get:5 https://deb.debian.org/debian trixie-backports InRelease [54.0 kB]
Get:6 https://deb.debian.org/debian forky InRelease [137 kB]
Get:7 https://deb.debian.org/debian sid InRelease [187 kB]
Get:8 https://deb.debian.org/debian experimental InRelease [91.7 kB]
Get:9 https://deb.debian.org/debian trixie/main Sources [10.5 MB]
Get:10 https://deb.debian.org/debian trixie/non-free-firmware Sources [6,552 B]
Get:11 https://deb.debian.org/debian-security trixie-security/non-free-firmware Sources [696 B]
Get:12 https://deb.debian.org/debian-security trixie-security/main Sources [136 kB]
Get:13 https://deb.debian.org/debian trixie-updates/main Sources [2,788 B]
Get:14 https://deb.debian.org/debian trixie-proposed-updates/main Sources [70.5 kB]
Get:15 https://deb.debian.org/debian trixie-backports/non-free-firmware Sources [2,468 B]
Get:16 https://deb.debian.org/debian trixie-backports/main Sources [147 kB]
Get:17 https://deb.debian.org/debian forky/main Sources [10.6 MB]
Get:18 https://deb.debian.org/debian forky/non-free-firmware Sources [8,304 B]
Get:19 https://deb.debian.org/debian sid/main Sources [11.3 MB]
Get:20 https://deb.debian.org/debian sid/non-free-firmware Sources [10.6 kB]
Get:21 https://deb.debian.org/debian experimental/main Sources [402 kB]
Get:22 https://deb.debian.org/debian experimental/non-free-firmware Sources [2,572 B]
Fetched 34.0 MB in 4s (7,777 kB/s)
Reading package lists...
'https://deb.debian.org/debian/pool/main/o/octave-statistics/octave-statistics_1.8.1-3.dsc' octave-statistics_1.8.1-3.dsc 2466 SHA256:e3a391972f4fc284071991f4d01d1210ee3a4506a21dc44e01ef2cb175b05bb9
'https://deb.debian.org/debian/pool/main/o/octave-statistics/octave-statistics_1.8.1.orig.tar.gz' octave-statistics_1.8.1.orig.tar.gz 1465996 SHA256:5174f80ddf182674ca06d871d9fbed439f3eaed3e3970892a0716ed480f5545d
'https://deb.debian.org/debian/pool/main/o/octave-statistics/octave-statistics_1.8.1-3.debian.tar.xz' octave-statistics_1.8.1-3.debian.tar.xz 10752 SHA256:ebde791e6ebde725ec4e565ebf18b2c20878a521e7c084a553d7b8c9d2350ae5
5174f80ddf182674ca06d871d9fbed439f3eaed3e3970892a0716ed480f5545d  octave-statistics_1.8.1.orig.tar.gz
ebde791e6ebde725ec4e565ebf18b2c20878a521e7c084a553d7b8c9d2350ae5  octave-statistics_1.8.1-3.debian.tar.xz
e3a391972f4fc284071991f4d01d1210ee3a4506a21dc44e01ef2cb175b05bb9  octave-statistics_1.8.1-3.dsc

+------------------------------------------------------------------------------+
| Calling debrebuild                           Wed, 25 Feb 2026 03:05:47 +0000 |
+------------------------------------------------------------------------------+

+ nice /usr/bin/debrebuild --buildresult=/srv/rebuilderd/tmp/rebuilderdybLdwX/out --builder=sbuild+unshare --cache=/srv/rebuilderd/cache -- /srv/rebuilderd/tmp/rebuilderdybLdwX/inputs/octave-statistics_1.8.1-3_ppc64el.buildinfo
Rebuilding octave-statistics=1.8.1-3 in /srv/rebuilderd/tmp/rebuilderdybLdwX/inputs now.
/srv/rebuilderd/tmp/rebuilderdybLdwX/inputs/octave-statistics_1.8.1-3_ppc64el.buildinfo contains a GPG signature which has NOT been validated
Using defined Build-Path: /build/reproducible-path/octave-statistics-1.8.1
I: verifying dsc... successful!
Get:1 http://deb.debian.org/debian unstable InRelease [187 kB]
Get:2 http://snapshot.debian.org/archive/debian/20260224T082140Z forky InRelease [137 kB]
Get:3 http://deb.debian.org/debian unstable/main ppc64el Packages [10.0 MB]
Get:4 http://snapshot.debian.org/archive/debian/20260224T082140Z forky/main ppc64el Packages [9380 kB]
Fetched 19.7 MB in 2s (8181 kB/s)
Reading package lists...
W: http://snapshot.debian.org/archive/debian/20260224T082140Z/dists/forky/InRelease: Loading /etc/apt/trusted.gpg from deprecated option Dir::Etc::Trusted
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfltk1.3t64 ppc64el 1.3.11-3 [588 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpt5c_olfq/libfltk1.3t64_1.3.11-3_ppc64el.deb'
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpif27ego2/libalgorithm-c3-perl_0.11-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el g++-15-powerpc64le-linux-gnu ppc64el 15.2.0-14 [11.1 MB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo32bunyt/g++-15-powerpc64le-linux-gnu_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-levenshtein-damerau-perl all 0.41-3 [12.3 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3bmdb1q8/libtext-levenshtein-damerau-perl_0.41-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsoftware-licensemoreutils-perl all 1.009-1 [22.0 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0i89u_15/libsoftware-licensemoreutils-perl_1.009-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-xsaccessor-perl ppc64el 1.19-4+b5 [37.0 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvsjwah6q/libclass-xsaccessor-perl_1.19-4+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhtml-tokeparser-simple-perl all 3.16-4 [39.1 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpht8nv7l9/libhtml-tokeparser-simple-perl_3.16-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libyaml-pp-perl all 0.39.0-1 [111 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpk463guns/libyaml-pp-perl_0.39.0-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhttp-negotiate-perl all 6.01-2 [13.1 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprifpo8kq/libhttp-negotiate-perl_6.01-2_all.deb'
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpn8ypos4d/liblzo2-2_2.10-3+b2_ppc64el.deb'
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx__oitwf/libnumber-compare-perl_0.03-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpod-spell-perl all 1.27-1 [32.0 kB]
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Get:1 http://deb.debian.org/debian unstable/main ppc64el libparams-util-perl ppc64el 1.102-3+b1 [24.3 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6oiu5sxc/libparams-util-perl_1.102-3+b1_ppc64el.deb'
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxkix1g1_/octave-dev_10.3.0-3_ppc64el.deb'
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpz3q_y0kp/libvorbis0a_1.3.7-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkrb5support0 ppc64el 1.22.1-2 [35.6 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqm024cud/libkrb5support0_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libasound2t64 ppc64el 1.2.15.3-1 [426 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcv53o7t0/libasound2t64_1.2.15.3-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhttp-cookies-perl all 6.11-1 [19.1 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4ig27te0/libhttp-cookies-perl_6.11-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gfortran-15-powerpc64le-linux-gnu ppc64el 15.2.0-14 [10.9 MB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmtmulofn/gfortran-15-powerpc64le-linux-gnu_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libyaml-tiny-perl all 1.76-1 [29.8 kB]
Fetched 29.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpho0mbv3e/libyaml-tiny-perl_1.76-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-find-rule-perl all 0.35-1 [25.9 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxn34f8_7/libfile-find-rule-perl_0.35-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-uplevel-perl all 0.2800-3 [14.0 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpn0suq1bm/libsub-uplevel-perl_0.2800-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el librtmp1 ppc64el 2.4+20151223.gitfa8646d.1-3+b1 [65.3 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_tg9ju4x/librtmp1_2.4+20151223.gitfa8646d.1-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el texinfo all 7.2-5 [1973 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzoxjkj1o/texinfo_7.2-5_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnettle8t64 ppc64el 3.10.2-1 [330 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpy1g9vron/libnettle8t64_3.10.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstemmer0d ppc64el 3.0.1-1+b1 [127 kB]
Fetched 127 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptplcw_nf/libstemmer0d_3.0.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el nettle-dev ppc64el 3.10.2-1 [1354 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa1d7ym58/nettle-dev_3.10.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el perl-modules-5.40 all 5.40.1-7 [3012 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg7tp1r5j/perl-modules-5.40_5.40.1-7_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpangoft2-1.0-0 ppc64el 1.57.0-1 [63.4 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpds93bf7d/libpangoft2-1.0-0_1.57.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxs-parse-sublike-perl ppc64el 0.41-1 [51.8 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqhq8hbvi/libxs-parse-sublike-perl_0.41-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-exporter-perl all 0.990-1 [50.6 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8om5zthh/libsub-exporter-perl_0.990-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkadm5clnt-mit12 ppc64el 1.22.1-2 [44.6 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgoy7qtyu/libkadm5clnt-mit12_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el sensible-utils all 0.0.26 [27.0 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpe76v93pd/sensible-utils_0.0.26_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-load-perl all 0.25-2 [15.3 kB]
Fetched 15.3 kB in 0s (1381 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprm2930hk/libclass-load-perl_0.25-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libblas-dev ppc64el 3.12.1-7+b1 [184 kB]
Fetched 184 kB in 0s (16.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6lzp1ybv/libblas-dev_3.12.1-7+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglu1-mesa ppc64el 9.0.2-1.1+b4 [201 kB]
Fetched 201 kB in 0s (18.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkxtzuukh/libglu1-mesa_9.0.2-1.1+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcursor1 ppc64el 1:1.2.3-1+b1 [43.9 kB]
Fetched 43.9 kB in 0s (4279 kB/s)
dpkg-name: info: moved 'libxcursor1_1%3a1.2.3-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmptrj6u8zg/libxcursor1_1.2.3-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjansson4 ppc64el 2.14-2+b4 [43.4 kB]
Fetched 43.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeqzj3qhm/libjansson4_2.14-2+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-validate-uri-perl all 0.07-3 [11.0 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdvptlr0k/libdata-validate-uri-perl_0.07-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxxf86vm1 ppc64el 1:1.1.4-2 [20.3 kB]
Fetched 20.3 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxxf86vm1_1%3a1.1.4-2_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp2pc9b3ln/libxxf86vm1_1.1.4-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-shm0 ppc64el 1.17.0-2+b2 [106 kB]
Fetched 106 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpabxvej_g/libxcb-shm0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcairo2 ppc64el 1.18.4-3 [585 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvm83mvkb/libcairo2_1.18.4-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxml-sax-perl all 1.02+dfsg-4 [53.4 kB]
Fetched 53.4 kB in 0s (4824 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0d92q66w/libxml-sax-perl_1.02+dfsg-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el grep ppc64el 3.12-1 [455 kB]
Fetched 455 kB in 0s (28.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7certxjl/grep_3.12-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnet-smtp-ssl-perl all 1.04-2 [6548 B]
Fetched 6548 B in 0s (526 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2yo3rbqu/libnet-smtp-ssl-perl_1.04-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsafe-isa-perl all 1.000010-1 [8288 B]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2af__mo1/libsafe-isa-perl_1.000010-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsereal-encoder-perl ppc64el 5.004+ds-1+b3 [108 kB]
Fetched 108 kB in 0s (9273 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbl_b1ifp/libsereal-encoder-perl_5.004+ds-1+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwmflite-0.2-7 ppc64el 0.2.13-2 [79.7 kB]
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dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo7xyclq5/libwmflite-0.2-7_0.2.13-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el octave-io ppc64el 2.7.1-1 [240 kB]
Fetched 240 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc1tlkq41/octave-io_2.7.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-dri3-0 ppc64el 1.17.0-2+b2 [107 kB]
Fetched 107 kB in 0s (10.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6bv8c4xj/libxcb-dri3-0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnetaddr-ip-perl ppc64el 4.079+dfsg-2+b4 [98.6 kB]
Fetched 98.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmrqvzhoz/libnetaddr-ip-perl_4.079+dfsg-2+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxrender1 ppc64el 1:0.9.12-1+b1 [29.4 kB]
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dpkg-name: info: moved 'libxrender1_1%3a0.9.12-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpikwue0xk/libxrender1_0.9.12-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjpeg62-turbo-dev ppc64el 1:2.1.5-4 [308 kB]
Fetched 308 kB in 0s (0 B/s)
dpkg-name: info: moved 'libjpeg62-turbo-dev_1%3a2.1.5-4_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp6d3yq01d/libjpeg62-turbo-dev_2.1.5-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libapt-pkg7.0 ppc64el 3.1.16 [1211 kB]
Fetched 1211 kB in 0s (82.9 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp47hgo3cr/libapt-pkg7.0_3.1.16_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnet-netmask-perl all 2.0003-1 [28.5 kB]
Fetched 28.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp80vg2_6c/libnet-netmask-perl_2.0003-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-hl-fortran-310 ppc64el 1.14.6+repack-2 [40.8 kB]
Fetched 40.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgjltkchg/libhdf5-hl-fortran-310_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el texinfo-lib ppc64el 7.2-5 [842 kB]
Fetched 842 kB in 0s (70.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdrrq5ji6/texinfo-lib_7.2-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libssh2-1-dev ppc64el 1.11.1-1+b1 [411 kB]
Fetched 411 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpos8105s2/libssh2-1-dev_1.11.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstring-copyright-perl all 0.003014-1 [23.4 kB]
Fetched 23.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpn9npffn9/libstring-copyright-perl_0.003014-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el g++-powerpc64le-linux-gnu ppc64el 4:15.2.0-5 [1208 B]
Fetched 1208 B in 0s (0 B/s)
dpkg-name: info: moved 'g++-powerpc64le-linux-gnu_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpejbdcsw1/g++-powerpc64le-linux-gnu_15.2.0-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libx11-data all 2:1.8.13-1 [346 kB]
Fetched 346 kB in 0s (0 B/s)
dpkg-name: info: moved 'libx11-data_2%3a1.8.13-1_all.deb' to '/srv/rebuilderd/tmp/tmpusd7f7pm/libx11-data_1.8.13-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libctf-nobfd0 ppc64el 2.46-2 [173 kB]
Fetched 173 kB in 0s (15.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwp8zy6ju/libctf-nobfd0_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconst-fast-perl all 0.014-2 [8792 B]
Fetched 8792 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9r4gzse9/libconst-fast-perl_0.014-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libaudit1 ppc64el 1:4.1.2-1+b1 [62.6 kB]
Fetched 62.6 kB in 0s (0 B/s)
dpkg-name: info: moved 'libaudit1_1%3a4.1.2-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp5ynxug6a/libaudit1_4.1.2-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el plzip ppc64el 1.13~rc1-3 [68.5 kB]
Fetched 68.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptnrqifuo/plzip_1.13~rc1-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el util-linux ppc64el 2.41.3-4 [1274 kB]
Fetched 1274 kB in 0s (88.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvwoqs2ce/util-linux_2.41.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtsan2 ppc64el 15.2.0-14 [2457 kB]
Fetched 2457 kB in 0s (116 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2k750t9q/libtsan2_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el librole-tiny-perl all 2.002004-1 [21.4 kB]
Fetched 21.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsgheloof/librole-tiny-perl_2.002004-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libice6 ppc64el 2:1.1.1-1+b1 [71.5 kB]
Fetched 71.5 kB in 0s (0 B/s)
dpkg-name: info: moved 'libice6_2%3a1.1.1-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpsnev8v9c/libice6_1.1.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtoml-tiny-perl all 0.20-1 [23.4 kB]
Fetched 23.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpoh79zyoj/libtoml-tiny-perl_0.20-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcarp-assert-more-perl all 2.9.0-1 [21.9 kB]
Fetched 21.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_6ldqk0t/libcarp-assert-more-perl_2.9.0-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libubsan1 ppc64el 15.2.0-14 [1178 kB]
Fetched 1178 kB in 0s (68.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6wwjkc7w/libubsan1_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxkbcommon-x11-0 ppc64el 1.13.1-1 [22.0 kB]
Fetched 22.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq4yllcst/libxkbcommon-x11-0_1.13.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblwp-mediatypes-perl all 6.04-2 [20.2 kB]
Fetched 20.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzrfyfe58/liblwp-mediatypes-perl_6.04-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgfortran5 ppc64el 15.2.0-14 [562 kB]
Fetched 562 kB in 0s (52.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvovyeojk/libgfortran5_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfyaml0 ppc64el 0.9.4-1 [289 kB]
Fetched 289 kB in 0s (26.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf3jzky96/libfyaml0_0.9.4-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gcc ppc64el 4:15.2.0-5 [5164 B]
Fetched 5164 B in 0s (0 B/s)
dpkg-name: info: moved 'gcc_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp41j98aej/gcc_15.2.0-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el base-passwd ppc64el 3.6.8 [55.8 kB]
Fetched 55.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpimhuv9e_/base-passwd_3.6.8_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnghttp2-14 ppc64el 1.68.0-1 [85.4 kB]
Fetched 85.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq5rnwi1d/libnghttp2-14_1.68.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmount1 ppc64el 2.41.3-4 [251 kB]
Fetched 251 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpd9l4ckzc/libmount1_2.41.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsereal-decoder-perl ppc64el 5.004+ds-1+b3 [105 kB]
Fetched 105 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv7wwamnj/libsereal-decoder-perl_5.004+ds-1+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmoox-aliases-perl all 0.001006-3 [6996 B]
Fetched 6996 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpli5a9rap/libmoox-aliases-perl_0.001006-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gcc-15-base ppc64el 15.2.0-14 [55.1 kB]
Fetched 55.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpldsa966c/gcc-15-base_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgraphite2-3 ppc64el 1.3.14-11+b1 [84.1 kB]
Fetched 84.1 kB in 0s (8107 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpovqt08gi/libgraphite2-3_1.3.14-11+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsyntax-keyword-try-perl ppc64el 0.31-1 [28.3 kB]
Fetched 28.3 kB in 0s (2723 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbxgxzeom/libsyntax-keyword-try-perl_0.31-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsensors5 ppc64el 1:3.6.2-2+b1 [41.3 kB]
Fetched 41.3 kB in 0s (4010 kB/s)
dpkg-name: info: moved 'libsensors5_1%3a3.6.2-2+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp1r_v_jv9/libsensors5_3.6.2-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libumfpack6 ppc64el 1:7.12.2+dfsg-1 [295 kB]
Fetched 295 kB in 0s (24.0 MB/s)
dpkg-name: info: moved 'libumfpack6_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmptf0733dr/libumfpack6_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpango-1.0-0 ppc64el 1.57.0-1 [241 kB]
Fetched 241 kB in 0s (19.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2y6u6vg7/libpango-1.0-0_1.57.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el sed ppc64el 4.9-2 [334 kB]
Fetched 334 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplumojkmp/sed_4.9-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gfortran-15 ppc64el 15.2.0-14 [18.6 kB]
Fetched 18.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4x4x177x/gfortran-15_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el bash ppc64el 5.3-2 [1614 kB]
Fetched 1614 kB in 0s (80.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxcf59_td/bash_5.3-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libc-bin ppc64el 2.42-13 [679 kB]
Fetched 679 kB in 0s (60.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp67n2pbvu/libc-bin_2.42-13_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libavif16 ppc64el 1.3.0-1+b2 [150 kB]
Fetched 150 kB in 0s (12.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdy2tj9rd/libavif16_1.3.0-1+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6sql6 ppc64el 6.9.2+dfsg-4 [158 kB]
Fetched 158 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcz6hitnm/libqt6sql6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el openssl-provider-legacy ppc64el 3.5.5-1 [313 kB]
Fetched 313 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprn5zvve6/openssl-provider-legacy_3.5.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtiff6 ppc64el 4.7.1-1 [369 kB]
Fetched 369 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp48gos0ds/libtiff6_4.7.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-xkb1 ppc64el 1.17.0-2+b2 [133 kB]
Fetched 133 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4apqjnkq/libxcb-xkb1_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtasn1-6-dev ppc64el 4.21.0-2 [105 kB]
Fetched 105 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpojhmon1x/libtasn1-6-dev_4.21.0-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libamd3 ppc64el 1:7.12.2+dfsg-1 [53.8 kB]
Fetched 53.8 kB in 0s (0 B/s)
dpkg-name: info: moved 'libamd3_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpapxmn8l3/libamd3_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-markdown-discount-perl ppc64el 0.18-1 [13.4 kB]
Fetched 13.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo564k5ph/libtext-markdown-discount-perl_0.18-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libogg0 ppc64el 1.3.6-2 [25.6 kB]
Fetched 25.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbgar46p2/libogg0_1.3.6-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libts0t64 ppc64el 1.22-1.1+b2 [67.6 kB]
Fetched 67.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg205tdd7/libts0t64_1.22-1.1+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libatomic1 ppc64el 15.2.0-14 [10.4 kB]
Fetched 10.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0jrolyd_/libatomic1_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqscintilla2-qt6-l10n all 2.14.1+dfsg-2 [105 kB]
Fetched 105 kB in 0s (10.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo5qsfncy/libqscintilla2-qt6-l10n_2.14.1+dfsg-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libaliased-perl all 0.34-3 [13.5 kB]
Fetched 13.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplglwctmz/libaliased-perl_0.34-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmpc3 ppc64el 1.3.1-2+b1 [72.8 kB]
Fetched 72.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvuq7e6uf/libmpc3_1.3.1-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcrypt1 ppc64el 1:4.5.1-1 [106 kB]
Fetched 106 kB in 0s (0 B/s)
dpkg-name: info: moved 'libcrypt1_1%3a4.5.1-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp2qzw07xq/libcrypt1_4.5.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libinput10 ppc64el 1.31.0-1 [169 kB]
Fetched 169 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpelqamsp8/libinput10_1.31.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconfig-model-backend-yaml-perl all 2.134-2 [10.8 kB]
Fetched 10.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5bdv2q4i/libconfig-model-backend-yaml-perl_2.134-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libbz2-1.0 ppc64el 1.0.8-6+b1 [44.7 kB]
Fetched 44.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpul071__5/libbz2-1.0_1.0.8-6+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblog-any-perl all 1.718-1 [75.0 kB]
Fetched 75.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp30z1iqt1/liblog-any-perl_1.718-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-optlist-perl all 0.114-1 [10.6 kB]
Fetched 10.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4maih342/libdata-optlist-perl_0.114-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el comerr-dev ppc64el 2.1-1.47.2-3+b8 [57.2 kB]
Fetched 57.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1zsz65n6/comerr-dev_2.1-1.47.2-3+b8_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgl1 ppc64el 1.7.0-3 [93.5 kB]
Fetched 93.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxrrcgox4/libgl1_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwayland-client0 ppc64el 1.24.0-2+b2 [31.4 kB]
Fetched 31.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwhzmdxjy/libwayland-client0_1.24.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwebpmux3 ppc64el 1.5.0-0.1+b1 [128 kB]
Fetched 128 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbfipfchc/libwebpmux3_1.5.0-0.1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgraphicsmagick++-q16-12t64 ppc64el 1.4+really1.3.46-2 [128 kB]
Fetched 128 kB in 0s (11.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpn2e3viwa/libgraphicsmagick++-q16-12t64_1.4+really1.3.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libp11-kit0 ppc64el 0.26.2-2 [459 kB]
Fetched 459 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7bgi__39/libp11-kit0_0.26.2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libheif1 ppc64el 1.21.2-3 [651 kB]
Fetched 651 kB in 0s (58.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkf4dx7qp/libheif1_1.21.2-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el fontconfig ppc64el 2.17.1-5 [193 kB]
Fetched 193 kB in 0s (17.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo5w4jreq/fontconfig_2.17.1-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcap2 ppc64el 1:2.75-10+b5 [32.1 kB]
Fetched 32.1 kB in 0s (0 B/s)
dpkg-name: info: moved 'libcap2_1%3a2.75-10+b5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmps1gckriv/libcap2_2.75-10+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el netbase all 6.5 [12.4 kB]
Fetched 12.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7_752cyd/netbase_6.5_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6xml6 ppc64el 6.9.2+dfsg-4 [91.8 kB]
Fetched 91.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1qgdogoi/libqt6xml6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsvtav1enc2 ppc64el 2.3.0+dfsg-1 [1396 kB]
Fetched 1396 kB in 0s (90.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2cu5pejl/libsvtav1enc2_2.3.0+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libc6-dev ppc64el 2.42-13 [1933 kB]
Fetched 1933 kB in 0s (80.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvq5mclb9/libc6-dev_2.42-13_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libzstd1 ppc64el 1.5.7+dfsg-3+b1 [331 kB]
Fetched 331 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpot07vb6_/libzstd1_1.5.7+dfsg-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libinput-bin ppc64el 1.31.0-1 [31.1 kB]
Fetched 31.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg5fcpr_5/libinput-bin_1.31.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libabsl20240722 ppc64el 20240722.0-4 [511 kB]
Fetched 511 kB in 0s (48.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsk0ml1m1/libabsl20240722_20240722.0-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el xorg-sgml-doctools all 1:1.11-1.1 [22.1 kB]
Fetched 22.1 kB in 0s (0 B/s)
dpkg-name: info: moved 'xorg-sgml-doctools_1%3a1.11-1.1_all.deb' to '/srv/rebuilderd/tmp/tmpr9i_kixp/xorg-sgml-doctools_1.11-1.1_all.deb'
Get:1 http://snapshot.debian.org/archive/debian/20260224T082140Z forky/main ppc64el liblz4-1 ppc64el 1.10.0-6 [82.7 kB]
Fetched 82.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqq_5m_qq/liblz4-1_1.10.0-6_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libavahi-common3 ppc64el 0.8-18 [46.2 kB]
Fetched 46.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkr2982he/libavahi-common3_0.8-18_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgomp1 ppc64el 15.2.0-14 [149 kB]
Fetched 149 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa5qggrfb/libgomp1_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgraphicsmagick-q16-3t64 ppc64el 1.4+really1.3.46-2 [1254 kB]
Fetched 1254 kB in 0s (86.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9xip_p2y/libgraphicsmagick-q16-3t64_1.4+really1.3.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el ncurses-base all 6.6+20251231-1 [277 kB]
Fetched 277 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpknmqrfks/ncurses-base_6.6+20251231-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libx11-dev ppc64el 2:1.8.13-1 [953 kB]
Fetched 953 kB in 0s (74.6 MB/s)
dpkg-name: info: moved 'libx11-dev_2%3a1.8.13-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpmwa3rogb/libx11-dev_1.8.13-1_ppc64el.deb'
Get:1 http://snapshot.debian.org/archive/debian/20260224T082140Z forky/main ppc64el ca-certificates all 20250419 [162 kB]
Fetched 162 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr7oge2a5/ca-certificates_20250419_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libbinutils ppc64el 2.46-2 [634 kB]
Fetched 634 kB in 0s (44.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp370ra87a/libbinutils_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdouble-conversion3 ppc64el 3.4.0-1 [44.2 kB]
Fetched 44.2 kB in 0s (4360 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpthz85kw4/libdouble-conversion3_3.4.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkrb5-dev ppc64el 1.22.1-2 [16.2 kB]
Fetched 16.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpymbphimt/libkrb5-dev_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libio-socket-ssl-perl all 2.098-1 [229 kB]
Fetched 229 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqi15f4qi/libio-socket-ssl-perl_2.098-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libseccomp2 ppc64el 2.6.0-2+b1 [59.0 kB]
Fetched 59.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprj629e24/libseccomp2_2.6.0-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libportaudio2 ppc64el 19.7.0-1 [68.4 kB]
Fetched 68.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp48dcnm2y/libportaudio2_19.7.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxshmfence1 ppc64el 1.3.3-1+b1 [11.5 kB]
Fetched 11.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpj0ie9odw/libxshmfence1_1.3.3-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el rpcsvc-proto ppc64el 1.4.3-1 [64.9 kB]
Fetched 64.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpiles73e3/rpcsvc-proto_1.4.3-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gettext ppc64el 0.23.2-1 [1758 kB]
Fetched 1758 kB in 0s (104 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpybttxmbl/gettext_0.23.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconfig-inifiles-perl all 3.000003-4 [44.9 kB]
Fetched 44.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpt_4x3ibb/libconfig-inifiles-perl_3.000003-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgudev-1.0-0 ppc64el 238-7+b1 [15.2 kB]
Fetched 15.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_ex4kvq3/libgudev-1.0-0_238-7+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-homedir-perl all 1.006-2 [42.4 kB]
Fetched 42.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfsex0trj/libfile-homedir-perl_1.006-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el g++ ppc64el 4:15.2.0-5 [1336 B]
Fetched 1336 B in 0s (0 B/s)
dpkg-name: info: moved 'g++_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpm2r06j3m/g++_15.2.0-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpod-pom-perl all 2.01-4 [65.0 kB]
Fetched 65.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2rjplixl/libpod-pom-perl_2.01-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libk5crypto3 ppc64el 1.22.1-2 [91.0 kB]
Fetched 91.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpaw5tuxdu/libk5crypto3_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmro-compat-perl all 0.15-2 [11.8 kB]
Fetched 11.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcutz25rg/libmro-compat-perl_0.15-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el g++-15 ppc64el 15.2.0-14 [26.1 kB]
Fetched 26.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7z6t56da/g++-15_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxpm4 ppc64el 1:3.5.17-1+b4 [61.3 kB]
Fetched 61.3 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxpm4_1%3a3.5.17-1+b4_ppc64el.deb' to '/srv/rebuilderd/tmp/tmptkdcmzi7/libxpm4_3.5.17-1+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libyaml-0-2 ppc64el 0.2.5-2+b1 [59.2 kB]
Fetched 59.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeqt4w1ak/libyaml-0-2_0.2.5-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gzip ppc64el 1.13-1 [141 kB]
Fetched 141 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpk4ctmtas/gzip_1.13-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb1 ppc64el 1.17.0-2+b2 [148 kB]
Fetched 148 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps2gkroe4/libxcb1_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgfortran-15-dev ppc64el 15.2.0-14 [596 kB]
Fetched 596 kB in 0s (49.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppl4e0470/libgfortran-15-dev_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpath-iterator-rule-perl all 1.015-2 [41.7 kB]
Fetched 41.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf8dgjv4l/libpath-iterator-rule-perl_1.015-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsasl2-2 ppc64el 2.1.28+dfsg1-10 [66.0 kB]
Fetched 66.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2fsmdv7c/libsasl2-2_2.1.28+dfsg1-10_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkeyutils1 ppc64el 1.6.3-6+b1 [11.0 kB]
Fetched 11.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpog4rvq1j/libkeyutils1_1.6.3-6+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libperlio-utf8-strict-perl ppc64el 0.010-1+b3 [12.0 kB]
Fetched 12.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcxpd6dru/libperlio-utf8-strict-perl_0.010-1+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libintl-perl all 1.37-1 [696 kB]
Fetched 696 kB in 0s (61.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6tukdyi5/libintl-perl_1.37-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libncurses6 ppc64el 6.6+20251231-1 [120 kB]
Fetched 120 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmfdklzkz/libncurses6_6.6+20251231-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcholmod5 ppc64el 1:7.12.2+dfsg-1 [723 kB]
Fetched 723 kB in 0s (60.8 MB/s)
dpkg-name: info: moved 'libcholmod5_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpnywkf25n/libcholmod5_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el patch ppc64el 2.8-2 [141 kB]
Fetched 141 kB in 0s (12.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjpdfec72/patch_2.8-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmoo-perl all 2.005005-1 [58.0 kB]
Fetched 58.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvqnwi98u/libmoo-perl_2.005005-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhtml-parser-perl ppc64el 3.83-1+b3 [102 kB]
Fetched 102 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsipkedif/libhtml-parser-perl_3.83-1+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmd4c0 ppc64el 0.5.2-2+b2 [51.7 kB]
Fetched 51.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpaqt1m7o7/libmd4c0_0.5.2-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnet-ipv6addr-perl all 1.02-1 [21.7 kB]
Fetched 21.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9zohq952/libnet-ipv6addr-perl_1.02-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gettext-base ppc64el 0.23.2-1 [246 kB]
Fetched 246 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpscckk_6s/gettext-base_0.23.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libppix-regexp-perl all 0.091-1 [248 kB]
Fetched 248 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmph0oymf2z/libppix-regexp-perl_0.091-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libuuid1 ppc64el 2.41.3-4 [40.4 kB]
Fetched 40.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv03pd21p/libuuid1_2.41.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6core6t64 ppc64el 6.9.2+dfsg-4 [1951 kB]
Fetched 1951 kB in 0s (97.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_m5p85te/libqt6core6t64_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxml-libxml-perl ppc64el 2.0207+dfsg+really+2.0134-7 [315 kB]
Fetched 315 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfwqrtplq/libxml-libxml-perl_2.0207+dfsg+really+2.0134-7_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblcms2-2 ppc64el 2.17-1 [182 kB]
Fetched 182 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq1g66mzz/liblcms2-2_2.17-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjxl0.11 ppc64el 0.11.1-6 [1216 kB]
Fetched 1216 kB in 0s (88.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvthexcl_/libjxl0.11_0.11.1-6_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-hl-cpp-310 ppc64el 1.14.6+repack-2 [20.2 kB]
Fetched 20.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgehjazhi/libhdf5-hl-cpp-310_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el cpp-15 ppc64el 15.2.0-14 [1288 B]
Fetched 1288 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzz9aq4n9/cpp-15_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjson-perl all 4.10000-1 [87.5 kB]
Fetched 87.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyqjcesr1/libjson-perl_4.10000-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpcre2-16-0 ppc64el 10.46-1+b1 [273 kB]
Fetched 273 kB in 0s (22.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpj4f8nodt/libpcre2-16-0_10.46-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdpkg-perl all 1.23.5 [668 kB]
Fetched 668 kB in 0s (65.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp87umty05/libdpkg-perl_1.23.5_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdebconfclient0 ppc64el 0.282+b2 [11.2 kB]
Fetched 11.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8ss4onfo/libdebconfclient0_0.282+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6network6 ppc64el 6.9.2+dfsg-4 [845 kB]
Fetched 845 kB in 0s (68.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp36tk0vmq/libqt6network6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libipc-run3-perl all 0.049-1 [31.5 kB]
Fetched 31.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfezxs81h/libipc-run3-perl_0.049-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsuitesparseconfig7 ppc64el 1:7.12.2+dfsg-1 [33.9 kB]
Fetched 33.9 kB in 0s (0 B/s)
dpkg-name: info: moved 'libsuitesparseconfig7_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpq66n_su7/libsuitesparseconfig7_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libthai0 ppc64el 0.1.30-1 [54.1 kB]
Fetched 54.1 kB in 0s (4220 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplqbxfr4r/libthai0_0.1.30-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblog-log4perl-perl all 1.57-1 [367 kB]
Fetched 367 kB in 0s (33.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppcqcd6j8/liblog-log4perl-perl_1.57-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libregexp-common-perl all 2024080801-1 [167 kB]
Fetched 167 kB in 0s (15.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzhuuvv53/libregexp-common-perl_2024080801-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsensors-config all 1:3.6.2-2 [16.2 kB]
Fetched 16.2 kB in 0s (0 B/s)
dpkg-name: info: moved 'libsensors-config_1%3a3.6.2-2_all.deb' to '/srv/rebuilderd/tmp/tmpxnr47ll5/libsensors-config_3.6.2-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-listing-perl all 6.16-1 [12.4 kB]
Fetched 12.4 kB in 0s (900 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxcz2qoe8/libfile-listing-perl_6.16-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libllvm21 ppc64el 1:21.1.8-3+b1 [27.7 MB]
Fetched 27.7 MB in 0s (149 MB/s)
dpkg-name: info: moved 'libllvm21_1%3a21.1.8-3+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp4qh4j_e5/libllvm21_21.1.8-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el octave-common all 10.3.0-3 [6653 kB]
Fetched 6653 kB in 0s (122 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpktzhj9wg/octave-common_10.3.0-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-hl-310 ppc64el 1.14.6+repack-2 [75.4 kB]
Fetched 75.4 kB in 0s (7296 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8frsg5__/libhdf5-hl-310_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconfig-tiny-perl all 2.30-1 [18.9 kB]
Fetched 18.9 kB in 0s (1756 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpb0l4c7v8/libconfig-tiny-perl_2.30-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgnutls28-dev ppc64el 3.8.12-3 [1513 kB]
Fetched 1513 kB in 0s (93.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptxuf64kt/libgnutls28-dev_3.8.12-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmtdev1t64 ppc64el 1.1.7-1+b1 [25.5 kB]
Fetched 25.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7ey83pf1/libmtdev1t64_1.1.7-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmailtools-perl all 2.22-1 [88.8 kB]
Fetched 88.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpydfzfr1z/libmailtools-perl_2.22-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-which-perl all 1.27-2 [15.1 kB]
Fetched 15.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9d0de7cx/libfile-which-perl_1.27-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libunistring5 ppc64el 1.3-2+b1 [496 kB]
Fetched 496 kB in 0s (42.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwuau1rer/libunistring5_1.3-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdevel-stacktrace-perl all 2.0500-1 [26.4 kB]
Fetched 26.4 kB in 0s (2490 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp694safus/libdevel-stacktrace-perl_2.0500-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libbsd0 ppc64el 0.12.2-2+b1 [136 kB]
Fetched 136 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjt71dozz/libbsd0_0.12.2-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgl2ps1.4 ppc64el 1.4.2+dfsg1-4 [46.4 kB]
Fetched 46.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc0l3njd8/libgl2ps1.4_1.4.2+dfsg1-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libisl23 ppc64el 0.27-1+b1 [739 kB]
Fetched 739 kB in 0s (57.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptf_s3iq3/libisl23_0.27-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnamespace-clean-perl all 0.27-2 [17.8 kB]
Fetched 17.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprkpno9o5/libnamespace-clean-perl_0.27-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-validate-ip-perl all 0.31-1 [20.6 kB]
Fetched 20.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4zuukdc5/libdata-validate-ip-perl_0.31-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfeature-compat-class-perl all 0.08-1 [12.4 kB]
Fetched 12.4 kB in 0s (1203 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqryxbd91/libfeature-compat-class-perl_0.08-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmarkdown2 ppc64el 2.2.7-2.1+b1 [40.2 kB]
Fetched 40.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpho6l1w8v/libmarkdown2_2.2.7-2.1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6gui6 ppc64el 6.9.2+dfsg-4 [3447 kB]
Fetched 3447 kB in 0s (120 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvg1zjn9f/libqt6gui6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el linux-libc-dev all 6.18.12-1 [2574 kB]
Fetched 2574 kB in 0s (108 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5pnumlvo/linux-libc-dev_6.18.12-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglx-mesa0 ppc64el 26.0.0-1 [130 kB]
Fetched 130 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmputyiin8n/libglx-mesa0_26.0.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgcc-s1 ppc64el 15.2.0-14 [52.4 kB]
Fetched 52.4 kB in 0s (4216 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp50vj7py8/libgcc-s1_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpcre2-8-0 ppc64el 10.46-1+b1 [289 kB]
Fetched 289 kB in 0s (25.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkkzxey8v/libpcre2-8-0_10.46-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libp11-kit-dev ppc64el 0.26.2-2 [223 kB]
Fetched 223 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxrs049b4/libp11-kit-dev_0.26.2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfftw3-double3 ppc64el 3.3.10-2+b2 [392 kB]
Fetched 392 kB in 0s (30.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdoep14zh/libfftw3-double3_3.3.10-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcurl4t64 ppc64el 8.19.0~rc2-2 [442 kB]
Fetched 442 kB in 0s (35.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6k2t9w75/libcurl4t64_8.19.0~rc2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libexporter-tiny-perl all 1.006003-1 [37.5 kB]
Fetched 37.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmnzfm7md/libexporter-tiny-perl_1.006003-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-keysyms1 ppc64el 0.4.1-1+b1 [17.5 kB]
Fetched 17.5 kB in 0s (1546 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprmslik_2/libxcb-keysyms1_0.4.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmagic1t64 ppc64el 1:5.46-5+b1 [118 kB]
Fetched 118 kB in 0s (0 B/s)
dpkg-name: info: moved 'libmagic1t64_1%3a5.46-5+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpuqh6h8sy/libmagic1t64_5.46-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-sync1 ppc64el 1.17.0-2+b2 [109 kB]
Fetched 109 kB in 0s (10.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpy1ryp5u7/libxcb-sync1_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libacl1 ppc64el 2.3.2-3 [34.4 kB]
Fetched 34.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf_fmx0ep/libacl1_2.3.2-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libegl1 ppc64el 1.7.0-3 [41.2 kB]
Fetched 41.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0n7wx0oz/libegl1_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el iso-codes all 4.20.1-1 [3319 kB]
Fetched 3319 kB in 0s (105 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc3g1ippj/iso-codes_4.20.1-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgdbm-compat4t64 ppc64el 1.26-1+b1 [53.4 kB]
Fetched 53.4 kB in 0s (5228 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcob5h12y/libgdbm-compat4t64_1.26-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpod-parser-perl all 1.67-1 [94.1 kB]
Fetched 94.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpz_eukfa8/libpod-parser-perl_1.67-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjpeg62-turbo ppc64el 1:2.1.5-4 [186 kB]
Fetched 186 kB in 0s (14.6 MB/s)
dpkg-name: info: moved 'libjpeg62-turbo_1%3a2.1.5-4_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpf134igg3/libjpeg62-turbo_2.1.5-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcxsparse4 ppc64el 1:7.12.2+dfsg-1 [107 kB]
Fetched 107 kB in 0s (0 B/s)
dpkg-name: info: moved 'libcxsparse4_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpgz62hhlk/libcxsparse4_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtask-weaken-perl all 1.06-2 [9364 B]
Fetched 9364 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpea9n2_jl/libtask-weaken-perl_1.06-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgmp10 ppc64el 2:6.3.0+dfsg-5+b1 [581 kB]
Fetched 581 kB in 0s (35.2 MB/s)
dpkg-name: info: moved 'libgmp10_2%3a6.3.0+dfsg-5+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpqyn4fzaj/libgmp10_6.3.0+dfsg-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxext6 ppc64el 2:1.3.4-1+b4 [51.5 kB]
Fetched 51.5 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxext6_2%3a1.3.4-1+b4_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpqimb_3od/libxext6_1.3.4-1+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libexporter-lite-perl all 0.09-2 [10.7 kB]
Fetched 10.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjz3vvb7i/libexporter-lite-perl_0.09-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el binutils ppc64el 2.46-2 [70.0 kB]
Fetched 70.0 kB in 0s (6559 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp000e522j/binutils_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxs-parse-keyword-perl ppc64el 0.49-1 [67.6 kB]
Fetched 67.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4yr9iikh/libxs-parse-keyword-perl_0.49-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-randr0 ppc64el 1.17.0-2+b2 [118 kB]
Fetched 118 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplll0na9i/libxcb-randr0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el tar ppc64el 1.35+dfsg-4 [850 kB]
Fetched 850 kB in 0s (55.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmquqi119/tar_1.35+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgpg-error0 ppc64el 1.58-2 [97.7 kB]
Fetched 97.7 kB in 0s (8431 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxa964b6f/libgpg-error0_1.58-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmouse-perl ppc64el 2.6.1-1 [146 kB]
Fetched 146 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp92kncgnt/libmouse-perl_2.6.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-autoformat-perl all 1.750000-2 [35.2 kB]
Fetched 35.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpn8qrtwx4/libtext-autoformat-perl_1.750000-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnghttp3-9 ppc64el 1.12.0-1 [72.6 kB]
Fetched 72.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpscp81z1f/libnghttp3-9_1.12.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libngtcp2-crypto-ossl-dev ppc64el 1.16.0-1 [29.6 kB]
Fetched 29.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphr1amxjq/libngtcp2-crypto-ossl-dev_1.16.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6printsupport6 ppc64el 6.9.2+dfsg-4 [230 kB]
Fetched 230 kB in 0s (20.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsju1u7qm/libqt6printsupport6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6core5compat6 ppc64el 6.9.2-3 [147 kB]
Fetched 147 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8e85qitl/libqt6core5compat6_6.9.2-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libz3-4 ppc64el 4.13.3-1+b1 [8729 kB]
Fetched 8729 kB in 0s (148 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq4bx3dm6/libz3-4_4.13.3-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libappstream5 ppc64el 1.1.2-1 [240 kB]
Fetched 240 kB in 0s (22.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjn2lr76r/libappstream5_1.1.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libevent-2.1-7t64 ppc64el 2.1.12-stable-10+b2 [190 kB]
Fetched 190 kB in 0s (16.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp73e6lh4w/libevent-2.1-7t64_2.1.12-stable-10+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libc-gconv-modules-extra ppc64el 2.42-13 [1150 kB]
Fetched 1150 kB in 0s (69.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpz5zqv4kd/libc-gconv-modules-extra_2.42-13_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcc1-0 ppc64el 15.2.0-14 [43.3 kB]
Fetched 43.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa4e6iag0/libcc1-0_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfribidi0 ppc64el 1.0.16-5 [27.7 kB]
Fetched 27.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2ejs5ufk/libfribidi0_1.0.16-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdb5.3t64 ppc64el 5.3.28+dfsg2-11 [749 kB]
Fetched 749 kB in 0s (55.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo4grl01w/libdb5.3t64_5.3.28+dfsg2-11_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libitm1 ppc64el 15.2.0-14 [29.0 kB]
Fetched 29.0 kB in 0s (2646 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphja0pz2n/libitm1_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgnutls-dane0t64 ppc64el 3.8.12-3 [476 kB]
Fetched 476 kB in 0s (30.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_6c9odug/libgnutls-dane0t64_3.8.12-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhwy1t64 ppc64el 1.3.0-2 [271 kB]
Fetched 271 kB in 0s (26.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppqd_5txh/libhwy1t64_1.3.0-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libiterator-util-perl all 0.02+ds1-2 [14.0 kB]
Fetched 14.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdmnxs1nc/libiterator-util-perl_0.02+ds1-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsharpyuv0 ppc64el 1.5.0-0.1+b1 [115 kB]
Fetched 115 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpplnn2974/libsharpyuv0_1.5.0-0.1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el m4 ppc64el 1.4.21-1 [340 kB]
Fetched 340 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx_6qiqet/m4_1.4.21-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpam0g ppc64el 1.7.0-5+b1 [75.0 kB]
Fetched 75.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdg75l68c/libpam0g_1.7.0-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libavahi-client3 ppc64el 0.8-18 [51.3 kB]
Fetched 51.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdh4vyerl/libavahi-client3_0.8-18_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdynaloader-functions-perl all 0.004-2 [12.2 kB]
Fetched 12.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9q7k9c8b/libdynaloader-functions-perl_0.004-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libperl-critic-perl all 1.156-1 [685 kB]
Fetched 685 kB in 0s (48.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9w8iaww6/libperl-critic-perl_1.156-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxinerama1 ppc64el 2:1.1.4-3+b5 [16.2 kB]
Fetched 16.2 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxinerama1_2%3a1.1.4-3+b5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp4x15sv_q/libxinerama1_1.1.4-3+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-icccm4 ppc64el 0.4.2-1+b1 [28.0 kB]
Fetched 28.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4nn_udze/libxcb-icccm4_0.4.2-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcamd3 ppc64el 1:7.12.2+dfsg-1 [49.2 kB]
Fetched 49.2 kB in 0s (4782 kB/s)
dpkg-name: info: moved 'libcamd3_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpijzu_j5m/libcamd3_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el pkgconf-bin ppc64el 2.5.1-4 [36.3 kB]
Fetched 36.3 kB in 0s (3476 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpiwcx1jcy/pkgconf-bin_2.5.1-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el coreutils ppc64el 9.7-3 [3042 kB]
Fetched 3042 kB in 0s (115 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphcwneqhq/coreutils_9.7-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjson-maybexs-perl all 1.004008-1 [12.9 kB]
Fetched 12.9 kB in 0s (1239 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmph3d_jn9q/libjson-maybexs-perl_1.004008-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libselinux1 ppc64el 3.9-4+b1 [96.0 kB]
Fetched 96.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc_5fng1k/libselinux1_3.9-4+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclone-choose-perl all 0.010-2 [8676 B]
Fetched 8676 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp80e3zni7/libclone-choose-perl_0.010-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libngtcp2-crypto-gnutls8 ppc64el 1.16.0-1 [25.4 kB]
Fetched 25.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp330qvi22/libngtcp2-crypto-gnutls8_1.16.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgssrpc4t64 ppc64el 1.22.1-2 [64.5 kB]
Fetched 64.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqtn67q3y/libgssrpc4t64_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblog-any-adapter-screen-perl all 0.141-2 [14.0 kB]
Fetched 14.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv_gdcobi/liblog-any-adapter-screen-perl_0.141-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libiterator-perl all 0.03+ds1-2 [18.8 kB]
Fetched 18.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbp5j6_4c/libiterator-perl_0.03+ds1-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libreadline8t64 ppc64el 8.3-4 [192 kB]
Fetched 192 kB in 0s (15.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeem89fkb/libreadline8t64_8.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgssapi-krb5-2 ppc64el 1.22.1-2 [153 kB]
Fetched 153 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3240az8j/libgssapi-krb5-2_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el bsdextrautils ppc64el 2.41.3-4 [126 kB]
Fetched 126 kB in 0s (12.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5xuvvhmk/bsdextrautils_2.41.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libb-hooks-op-check-perl ppc64el 0.22-3+b3 [11.1 kB]
Fetched 11.1 kB in 0s (1094 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0mh64irk/libb-hooks-op-check-perl_0.22-3+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-libmagic-perl ppc64el 1.23-2+b2 [31.2 kB]
Fetched 31.2 kB in 0s (2816 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphb7xv8jj/libfile-libmagic-perl_1.23-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtool all 2.5.4-9 [540 kB]
Fetched 540 kB in 0s (42.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpw9hzd2kb/libtool_2.5.4-9_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libimagequant0 ppc64el 4.4.1-1+b1 [297 kB]
Fetched 297 kB in 0s (24.9 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8u7n91of/libimagequant0_4.4.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libexception-class-perl all 1.45-1 [34.6 kB]
Fetched 34.6 kB in 0s (2936 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjojgh49m/libexception-class-perl_1.45-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el sysvinit-utils ppc64el 3.15-6 [37.3 kB]
Fetched 37.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4qxds7pu/sysvinit-utils_3.15-6_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdrm-common all 2.4.131-1 [9168 B]
Fetched 9168 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplqvnp84q/libdrm-common_2.4.131-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libblkid1 ppc64el 2.41.3-4 [210 kB]
Fetched 210 kB in 0s (19.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsg247o66/libblkid1_2.41.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el autotools-dev all 20240727.1 [60.2 kB]
Fetched 60.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3x_9__j5/autotools-dev_20240727.1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libngtcp2-16 ppc64el 1.16.0-1 [145 kB]
Fetched 145 kB in 0s (10.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp68p0gef7/libngtcp2-16_1.16.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libproxy1v5 ppc64el 0.5.12-1 [28.4 kB]
Fetched 28.4 kB in 0s (2769 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5ttrp4g0/libproxy1v5_0.5.12-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-present0 ppc64el 1.17.0-2+b2 [106 kB]
Fetched 106 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpye34jqw4/libxcb-present0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmpg123-0t64 ppc64el 1.33.3-2 [167 kB]
Fetched 167 kB in 0s (11.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpe6b9wup8/libmpg123-0t64_1.33.3-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-tiny-perl all 1.008-2 [18.6 kB]
Fetched 18.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptjhaq564/libclass-tiny-perl_1.008-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el cpp-15-powerpc64le-linux-gnu ppc64el 15.2.0-14 [10.1 MB]
Fetched 10.1 MB in 0s (148 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxoyhy3s6/cpp-15-powerpc64le-linux-gnu_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxkbcommon0 ppc64el 1.13.1-1 [154 kB]
Fetched 154 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpznpd97w0/libxkbcommon0_1.13.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libaec0 ppc64el 1.1.5-1 [25.6 kB]
Fetched 25.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpopqhzvk9/libaec0_1.1.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsasl2-modules-db ppc64el 2.1.28+dfsg1-10 [21.7 kB]
Fetched 21.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp01dipjl1/libsasl2-modules-db_2.1.28+dfsg1-10_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libreadline-dev ppc64el 8.3-4 [548 kB]
Fetched 548 kB in 0s (45.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpabtr33iy/libreadline-dev_8.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpangocairo-1.0-0 ppc64el 1.57.0-1 [37.6 kB]
Fetched 37.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpoopfxict/libpangocairo-1.0-0_1.57.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcolamd3 ppc64el 1:7.12.2+dfsg-1 [44.7 kB]
Fetched 44.7 kB in 0s (0 B/s)
dpkg-name: info: moved 'libcolamd3_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpb2p1m8kk/libcolamd3_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdrm2 ppc64el 2.4.131-1 [44.3 kB]
Fetched 44.3 kB in 0s (3643 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa93xz_ip/libdrm2_2.4.131-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgnutls30t64 ppc64el 3.8.12-3 [1481 kB]
Fetched 1481 kB in 0s (96.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpya2lkgpg/libgnutls30t64_3.8.12-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libb-keywords-perl all 1.29-1 [12.5 kB]
Fetched 12.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcg5xji6z/libb-keywords-perl_1.29-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libppix-utils-perl all 0.003-2 [28.0 kB]
Fetched 28.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnjffumjo/libppix-utils-perl_0.003-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libassuan9 ppc64el 3.0.2-2+b1 [64.9 kB]
Fetched 64.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr_klozkj/libassuan9_3.0.2-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblua5.4-0 ppc64el 5.4.8-1+b1 [156 kB]
Fetched 156 kB in 0s (13.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpl459xfoi/liblua5.4-0_5.4.8-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6widgets6 ppc64el 6.9.2+dfsg-4 [2829 kB]
Fetched 2829 kB in 0s (102 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx1gt62z5/libqt6widgets6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsoftware-copyright-perl all 0.015-1 [15.5 kB]
Fetched 15.5 kB in 0s (1303 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpw_ee6lbc/libsoftware-copyright-perl_0.015-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libopus0 ppc64el 1.6.1-1 [3482 kB]
Fetched 3482 kB in 0s (106 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2dh_mtj3/libopus0_1.6.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-messagepack-perl ppc64el 1.02-3 [33.5 kB]
Fetched 33.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps3wu6qsk/libdata-messagepack-perl_1.02-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libapp-cmd-perl all 0.339-1 [64.6 kB]
Fetched 64.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv6vedg9l/libapp-cmd-perl_0.339-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconfig-model-dpkg-perl all 3.017 [192 kB]
Fetched 192 kB in 0s (12.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp25dt8nqe/libconfig-model-dpkg-perl_3.017_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcurl4-openssl-dev ppc64el 8.19.0~rc2-2 [580 kB]
Fetched 580 kB in 0s (57.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp84do557f/libcurl4-openssl-dev_8.19.0~rc2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpixman-1-0 ppc64el 0.46.4-1+b1 [196 kB]
Fetched 196 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdezi1qp8/libpixman-1-0_0.46.4-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dh-strip-nondeterminism all 1.15.0-1 [8812 B]
Fetched 8812 B in 0s (828 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo5iwpncl/dh-strip-nondeterminism_1.15.0-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmagic-mgc ppc64el 1:5.46-5+b1 [338 kB]
Fetched 338 kB in 0s (0 B/s)
dpkg-name: info: moved 'libmagic-mgc_1%3a5.46-5+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp6zwqb8tm/libmagic-mgc_5.46-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfftw3-single3 ppc64el 3.3.10-2+b2 [405 kB]
Fetched 405 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpezhl93w4/libfftw3-single3_3.3.10-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdbus-1-3 ppc64el 1.16.2-4 [194 kB]
Fetched 194 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplw2p73n6/libdbus-1-3_1.16.2-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libattr1 ppc64el 1:2.5.2-4 [24.0 kB]
Fetched 24.0 kB in 0s (0 B/s)
dpkg-name: info: moved 'libattr1_1%3a2.5.2-4_ppc64el.deb' to '/srv/rebuilderd/tmp/tmplfd597ms/libattr1_2.5.2-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libencode-locale-perl all 1.05-3 [12.9 kB]
Fetched 12.9 kB in 0s (1129 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeonafkxk/libencode-locale-perl_1.05-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtry-tiny-perl all 0.32-1 [22.9 kB]
Fetched 22.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwl1gjmza/libtry-tiny-perl_0.32-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxau-dev ppc64el 1:1.0.11-1+b1 [24.7 kB]
Fetched 24.7 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxau-dev_1%3a1.0.11-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpzmts5reb/libxau-dev_1.0.11-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libheif-plugin-libde265 ppc64el 1.21.2-3 [18.2 kB]
Fetched 18.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzf9kokf8/libheif-plugin-libde265_1.21.2-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libuchardet0 ppc64el 0.0.8-2+b1 [71.2 kB]
Fetched 71.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjgnsna4j/libuchardet0_0.0.8-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el xkb-data all 2.46-2 [830 kB]
Fetched 830 kB in 0s (70.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzm00oc19/xkb-data_2.46-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libaom3 ppc64el 3.13.1-2 [1382 kB]
Fetched 1382 kB in 0s (96.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf12i10hq/libaom3_3.13.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglpk40 ppc64el 5.0-2+b1 [397 kB]
Fetched 397 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqc5s0zic/libglpk40_5.0-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libidn2-dev ppc64el 2.3.8-4+b1 [106 kB]
Fetched 106 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwvz64q46/libidn2-dev_2.3.8-4+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-exporter-progressive-perl all 0.001013-3 [7496 B]
Fetched 7496 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpldwv012o/libsub-exporter-progressive-perl_0.001013-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el cpp-powerpc64le-linux-gnu ppc64el 4:15.2.0-5 [5332 B]
Fetched 5332 B in 0s (0 B/s)
dpkg-name: info: moved 'cpp-powerpc64le-linux-gnu_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp7q_s_ure/cpp-powerpc64le-linux-gnu_15.2.0-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmpfr6 ppc64el 4.2.2-2+b1 [730 kB]
Fetched 730 kB in 0s (60.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx8r53b58/libmpfr6_4.2.2-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libx11-xcb1 ppc64el 2:1.8.13-1 [250 kB]
Fetched 250 kB in 0s (0 B/s)
dpkg-name: info: moved 'libx11-xcb1_2%3a1.8.13-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp15ioppqk/libx11-xcb1_1.8.13-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxxhash0 ppc64el 0.8.3-2+b1 [25.6 kB]
Fetched 25.6 kB in 0s (2166 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplw1tt2an/libxxhash0_0.8.3-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmldbm-perl all 2.05-4 [16.8 kB]
Fetched 16.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpiht1bblx/libmldbm-perl_2.05-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el perltidy all 20250105-1 [706 kB]
Fetched 706 kB in 0s (63.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7hsgike9/perltidy_20250105-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtinfo6 ppc64el 6.6+20251231-1 [363 kB]
Fetched 363 kB in 0s (35.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfq7nt9tp/libtinfo6_6.6+20251231-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libbrotli1 ppc64el 1.2.0-3 [340 kB]
Fetched 340 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqyceanc1/libbrotli1_1.2.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libasan8 ppc64el 15.2.0-14 [2719 kB]
Fetched 2719 kB in 0s (113 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppuqbxnhn/libasan8_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblist-moreutils-perl all 0.430-2 [46.9 kB]
Fetched 46.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_w3s8fm1/liblist-moreutils-perl_0.430-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libaec-dev ppc64el 1.1.5-1 [28.0 kB]
Fetched 28.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5dbo6yg8/libaec-dev_1.1.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libncurses-dev ppc64el 6.6+20251231-1 [403 kB]
Fetched 403 kB in 0s (36.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpoloupl10/libncurses-dev_6.6+20251231-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libparse-recdescent-perl all 1.967015+dfsg-4 [147 kB]
Fetched 147 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfwm_nuvf/libparse-recdescent-perl_1.967015+dfsg-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el x11-common all 1:7.7+26 [217 kB]
Fetched 217 kB in 0s (0 B/s)
dpkg-name: info: moved 'x11-common_1%3a7.7+26_all.deb' to '/srv/rebuilderd/tmp/tmprcr2o43a/x11-common_7.7+26_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el octave ppc64el 10.3.0-3 [9184 kB]
Fetched 9184 kB in 0s (159 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfyc99ivx/octave_10.3.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libyuv0 ppc64el 0.0.1922.20260106-1 [120 kB]
Fetched 120 kB in 0s (11.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2r_uj7ax/libyuv0_0.0.1922.20260106-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el build-essential ppc64el 12.12 [4628 B]
Fetched 4628 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpuio6rt_y/build-essential_12.12_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el binutils-powerpc64le-linux-gnu ppc64el 2.46-2 [905 kB]
Fetched 905 kB in 0s (64.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1hhhwjkn/binutils-powerpc64le-linux-gnu_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el man-db ppc64el 2.13.1-1 [1481 kB]
Fetched 1481 kB in 0s (90.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2hd1b6dl/man-db_2.13.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxml-namespacesupport-perl all 1.12-2 [15.1 kB]
Fetched 15.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpil9r81js/libxml-namespacesupport-perl_1.12-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblerc4 ppc64el 4.0.0+ds-5+b1 [221 kB]
Fetched 221 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnumsiafd/liblerc4_4.0.0+ds-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcapture-tiny-perl all 0.50-1 [24.6 kB]
Fetched 24.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx1any6pk/libcapture-tiny-perl_0.50-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libssl-dev ppc64el 3.5.5-1 [3152 kB]
Fetched 3152 kB in 0s (123 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7a5gaa37/libssl-dev_3.5.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liburi-perl all 5.34-2 [111 kB]
Fetched 111 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnl8tt4d_/liburi-perl_5.34-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjpeg-dev ppc64el 1:2.1.5-4 [72.2 kB]
Fetched 72.2 kB in 0s (0 B/s)
dpkg-name: info: moved 'libjpeg-dev_1%3a2.1.5-4_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp8nl9qwkf/libjpeg-dev_2.1.5-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libssl3t64 ppc64el 3.5.5-1 [2514 kB]
Fetched 2514 kB in 0s (102 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwhkzuxgu/libssl3t64_3.5.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el appstream ppc64el 1.1.2-1 [569 kB]
Fetched 569 kB in 0s (43.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0f6v6fsq/appstream_1.1.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-dev ppc64el 1.14.6+repack-2 [3358 kB]
Fetched 3358 kB in 0s (106 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_g1s4an7/libhdf5-dev_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libregexp-pattern-license-perl all 3.11.2-1 [94.6 kB]
Fetched 94.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxeuxbxum/libregexp-pattern-license-perl_3.11.2-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpod-constants-perl all 0.19-2 [17.3 kB]
Fetched 17.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp24bybgfr/libpod-constants-perl_0.19-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglvnd0 ppc64el 1.7.0-3 [51.3 kB]
Fetched 51.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7tyrs_ns/libglvnd0_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdebhelper-perl all 13.30 [92.7 kB]
Fetched 92.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbijldmlf/libdebhelper-perl_13.30_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpath-tiny-perl all 0.148-1 [56.7 kB]
Fetched 56.7 kB in 0s (4906 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq8nstzwc/libpath-tiny-perl_0.148-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-wrapper-perl all 1.05-4 [10.3 kB]
Fetched 10.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpydr3clxg/libtext-wrapper-perl_1.05-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwebp7 ppc64el 1.5.0-0.1+b1 [313 kB]
Fetched 313 kB in 0s (30.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm05u9onz/libwebp7_1.5.0-0.1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxmlb2 ppc64el 0.3.24-2 [67.9 kB]
Fetched 67.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzpj29nsb/libxmlb2_0.3.24-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el pkgconf ppc64el 2.5.1-4 [33.6 kB]
Fetched 33.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptwzbodrh/pkgconf_2.5.1-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsqlite3-0 ppc64el 3.46.1-9 [989 kB]
Fetched 989 kB in 0s (75.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2ljaefnz/libsqlite3-0_3.46.1-9_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el readline-common all 8.3-4 [74.8 kB]
Fetched 74.8 kB in 0s (7242 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfj5tgbel/readline-common_8.3-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el xtrans-dev all 1.6.0-1 [93.5 kB]
Fetched 93.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4z3jsr2l/xtrans-dev_1.6.0-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblist-someutils-perl all 0.59-1 [37.1 kB]
Fetched 37.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3e0xc7vs/liblist-someutils-perl_0.59-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el autoconf all 2.72-3.1 [494 kB]
Fetched 494 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2fw3v0q0/autoconf_2.72-3.1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libvorbisenc2 ppc64el 1.3.7-3+b1 [77.3 kB]
Fetched 77.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpe8hfb2e0/libvorbisenc2_1.3.7-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dpkg ppc64el 1.23.5 [1541 kB]
Fetched 1541 kB in 0s (94.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpotry83wn/dpkg_1.23.5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtime-moment-perl ppc64el 0.46-1 [81.4 kB]
Fetched 81.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvmm0ytd1/libtime-moment-perl_0.46-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxdmcp6 ppc64el 1:1.1.5-2 [28.8 kB]
Fetched 28.8 kB in 0s (2865 kB/s)
dpkg-name: info: moved 'libxdmcp6_1%3a1.1.5-2_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpebij5ezn/libxdmcp6_1.1.5-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-render-util0 ppc64el 0.3.10-1+b1 [19.4 kB]
Fetched 19.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpb8vunlak/libxcb-render-util0_0.3.10-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el intltool-debian all 0.35.0+20060710.6 [22.9 kB]
Fetched 22.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgtzz39nq/intltool-debian_0.35.0+20060710.6_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libx11-6 ppc64el 2:1.8.13-1 [863 kB]
Fetched 863 kB in 0s (74.3 MB/s)
dpkg-name: info: moved 'libx11-6_2%3a1.8.13-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpztw1_8kb/libx11-6_1.8.13-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el perl-openssl-defaults ppc64el 7+b2 [6716 B]
Fetched 6716 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptnpjn93f/perl-openssl-defaults_7+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-util1 ppc64el 0.4.1-1+b1 [24.1 kB]
Fetched 24.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_d1twgcs/libxcb-util1_0.4.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libltdl7 ppc64el 2.5.4-9 [419 kB]
Fetched 419 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpejewra7d/libltdl7_2.5.4-9_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfftw3-dev ppc64el 3.3.10-2+b2 [1089 kB]
Fetched 1089 kB in 0s (84.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmrxsxrp7/libfftw3-dev_3.3.10-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el debconf all 1.5.92 [123 kB]
Fetched 123 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxw096anp/debconf_1.5.92_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el mesa-libgallium ppc64el 26.0.0-1 [9636 kB]
Fetched 9636 kB in 0s (160 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpylf_d9b0/mesa-libgallium_26.0.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-install-perl all 0.929-1 [10.5 kB]
Fetched 10.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpu2zvynbb/libsub-install-perl_0.929-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libperlio-gzip-perl ppc64el 0.20-1+b4 [18.4 kB]
Fetched 18.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgc8wp9qw/libperlio-gzip-perl_0.20-1+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el init-system-helpers all 1.69 [39.3 kB]
Fetched 39.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyg18i8fr/init-system-helpers_1.69_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dpkg-dev all 1.23.5 [1318 kB]
Fetched 1318 kB in 0s (70.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_x87yoxm/dpkg-dev_1.23.5_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdevel-callchecker-perl ppc64el 0.009-3 [15.5 kB]
Fetched 15.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphivy8v49/libdevel-callchecker-perl_0.009-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el zlib1g ppc64el 1:1.3.dfsg+really1.3.1-3 [88.7 kB]
Fetched 88.7 kB in 0s (0 B/s)
dpkg-name: info: moved 'zlib1g_1%3a1.3.dfsg+really1.3.1-3_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpz7h9rh5c/zlib1g_1.3.dfsg+really1.3.1-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnghttp2-dev ppc64el 1.68.0-1 [125 kB]
Fetched 125 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphbimvm8w/libnghttp2-dev_1.68.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnpth0t64 ppc64el 1.8-3+b1 [23.5 kB]
Fetched 23.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0vybkw5p/libnpth0t64_1.8-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libegl-mesa0 ppc64el 26.0.0-1 [141 kB]
Fetched 141 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfr5oxcjx/libegl-mesa0_26.0.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-xslate-perl ppc64el 3.5.9-2+b2 [176 kB]
Fetched 176 kB in 0s (16.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1_6ox1rr/libtext-xslate-perl_3.5.9-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el ucf all 3.0052 [43.3 kB]
Fetched 43.3 kB in 0s (3849 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpk8khw1xu/ucf_3.0052_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libio-string-perl all 1.08-4 [12.1 kB]
Fetched 12.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwef8rtkk/libio-string-perl_1.08-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-section-perl all 0.200008-1 [13.1 kB]
Fetched 13.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcxv8_y6y/libdata-section-perl_0.200008-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el base-files ppc64el 14 [72.9 kB]
Fetched 72.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmc71jgo6/base-files_14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkdb5-10t64 ppc64el 1.22.1-2 [48.5 kB]
Fetched 48.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjnfio2yr/libkdb5-10t64_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpackage-stash-perl all 0.40-1 [22.0 kB]
Fetched 22.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpomgjp7bw/libpackage-stash-perl_0.40-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkrb5-3 ppc64el 1.22.1-2 [371 kB]
Fetched 371 kB in 0s (32.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpflfmmoso/libkrb5-3_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-levenshteinxs-perl ppc64el 0.03-5+b4 [9388 B]
Fetched 9388 B in 0s (912 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3dztqrhd/libtext-levenshteinxs-perl_0.03-5+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libboolean-perl all 0.46-3 [9924 B]
Fetched 9924 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_l7cowi5/libboolean-perl_0.46-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libexpat1 ppc64el 2.7.4-1 [112 kB]
Fetched 112 kB in 0s (9939 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5bx_inrw/libexpat1_2.7.4-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-method-modifiers-perl all 2.15-1 [18.0 kB]
Fetched 18.0 kB in 0s (1769 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc2hs3x87/libclass-method-modifiers-perl_2.15-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgl-dev ppc64el 1.7.0-3 [101 kB]
Fetched 101 kB in 0s (9328 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsejmzeyy/libgl-dev_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtimedate-perl all 2.3300-2 [39.3 kB]
Fetched 39.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpslm_ftis/libtimedate-perl_2.3300-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsamplerate0 ppc64el 0.2.2-4+b3 [950 kB]
Fetched 950 kB in 0s (72.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8y7tdgfs/libsamplerate0_0.2.2-4+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-shape0 ppc64el 1.17.0-2+b2 [106 kB]
Fetched 106 kB in 0s (9391 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf16vm13a/libxcb-shape0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libc-dev-bin ppc64el 2.42-13 [61.9 kB]
Fetched 61.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6ugrleyz/libc-dev-bin_2.42-13_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpsl5t64 ppc64el 0.21.2-1.1+b2 [61.4 kB]
Fetched 61.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppav1kv9p/libpsl5t64_0.21.2-1.1+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-cursor0 ppc64el 0.1.6-1 [19.4 kB]
Fetched 19.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptm_0cdqo/libxcb-cursor0_0.1.6-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libio-interactive-perl all 1.027-1 [11.8 kB]
Fetched 11.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpikjczw1m/libio-interactive-perl_1.027-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstdc++-15-dev ppc64el 15.2.0-14 [2575 kB]
Fetched 2575 kB in 0s (121 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_z3tbq_t/libstdc++-15-dev_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxft2 ppc64el 2.3.6-1+b5 [58.0 kB]
Fetched 58.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpduhuyn99/libxft2_2.3.6-1+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el aglfn all 1.7+git20191031.4036a9c-2 [30.5 kB]
Fetched 30.5 kB in 0s (2654 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkjg1or57/aglfn_1.7+git20191031.4036a9c-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtest-exception-perl all 0.43-3 [16.9 kB]
Fetched 16.9 kB in 0s (1552 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptkt0sqpn/libtest-exception-perl_0.43-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libb2-1 ppc64el 0.98.1-1.1+b3 [18.1 kB]
Fetched 18.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmxr3vc62/libb2-1_0.98.1-1.1+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfftw3-bin ppc64el 3.3.10-2+b2 [48.1 kB]
Fetched 48.1 kB in 0s (4333 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmbaoxxhq/libfftw3-bin_3.3.10-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfeature-compat-try-perl all 0.05-1 [10.4 kB]
Fetched 10.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2a2w4taa/libfeature-compat-try-perl_0.05-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-image0 ppc64el 0.4.0-2+b3 [23.1 kB]
Fetched 23.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpuauix0n4/libxcb-image0_0.4.0-2+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglib2.0-0t64 ppc64el 2.87.2-3 [1623 kB]
Fetched 1623 kB in 0s (92.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprfmwosls/libglib2.0-0t64_2.87.2-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstdc++6 ppc64el 15.2.0-14 [824 kB]
Fetched 824 kB in 0s (69.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpw_a69d5l/libstdc++6_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libindirect-perl ppc64el 0.39-2+b4 [27.9 kB]
Fetched 27.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr5jl48wd/libindirect-perl_0.39-2+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libemail-address-xs-perl ppc64el 1.05-1+b4 [30.7 kB]
Fetched 30.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1rlw0qen/libemail-address-xs-perl_1.05-1+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el debhelper all 13.30 [942 kB]
Fetched 942 kB in 0s (72.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprvyi3hqk/debhelper_13.30_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-unidecode-perl all 1.30-3 [101 kB]
Fetched 101 kB in 0s (8840 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpojl2f_r_/libtext-unidecode-perl_1.30-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libregexp-wildcards-perl all 1.05-3 [14.1 kB]
Fetched 14.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6qe1w2fl/libregexp-wildcards-perl_1.05-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdevel-size-perl ppc64el 0.86-1 [24.5 kB]
Fetched 24.5 kB in 0s (2423 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3huduvd0/libdevel-size-perl_0.86-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgl1-mesa-dri ppc64el 26.0.0-1 [49.1 kB]
Fetched 49.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzwfookms/libgl1-mesa-dri_26.0.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjbig0 ppc64el 2.1-6.1+b3 [34.5 kB]
Fetched 34.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8co65d2g/libjbig0_2.1-6.1+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6help6 ppc64el 6.9.2-5 [199 kB]
Fetched 199 kB in 0s (18.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyowhmm7w/libqt6help6_6.9.2-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcups2t64 ppc64el 2.4.16-1 [291 kB]
Fetched 291 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp66otu0v1/libcups2t64_2.4.16-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el cpp ppc64el 4:15.2.0-5 [1580 B]
Fetched 1580 B in 0s (0 B/s)
dpkg-name: info: moved 'cpp_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp8ar6nvy9/cpp_15.2.0-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libicu76 ppc64el 76.1-4+b1 [9877 kB]
Fetched 9877 kB in 0s (166 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxlgw_w0t/libicu76_76.1-4+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpam-runtime all 1.7.0-5 [249 kB]
Fetched 249 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv5vxqfh2/libpam-runtime_1.7.0-5_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsmartcols1 ppc64el 2.41.3-4 [174 kB]
Fetched 174 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7ir91rgg/libsmartcols1_2.41.3-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-render0 ppc64el 1.17.0-2+b2 [116 kB]
Fetched 116 kB in 0s (10.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpplae2pj4/libxcb-render0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblsan0 ppc64el 15.2.0-14 [1253 kB]
Fetched 1253 kB in 0s (88.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgu4962oz/liblsan0_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-inspector-perl all 1.36-3 [17.5 kB]
Fetched 17.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvg81wzpu/libclass-inspector-perl_1.36-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libbrotli-dev ppc64el 1.2.0-3 [358 kB]
Fetched 358 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpehv6h2wf/libbrotli-dev_1.2.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfftw3-long3 ppc64el 3.3.10-2+b2 [597 kB]
Fetched 597 kB in 0s (54.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm1uj4qis/libfftw3-long3_3.3.10-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblingua-en-inflect-perl all 1.905-2 [52.7 kB]
Fetched 52.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmi647cyi/liblingua-en-inflect-perl_1.905-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpam-modules ppc64el 1.7.0-5+b1 [205 kB]
Fetched 205 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfhn14dce/libpam-modules_1.7.0-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libde265-0 ppc64el 1.0.16-1+b1 [191 kB]
Fetched 191 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpe2lqhx0h/libde265-0_1.0.16-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el lintian all 2.130.0 [1068 kB]
Fetched 1068 kB in 0s (80.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnch1xx0f/lintian_2.130.0_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmp3lame0 ppc64el 3.101~svn6525+dfsg-2 [295 kB]
Fetched 295 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpu87d8sn8/libmp3lame0_3.101~svn6525+dfsg-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpng16-16t64 ppc64el 1.6.55-1 [296 kB]
Fetched 296 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpp_wwmpgc/libpng16-16t64_1.6.55-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el unzip ppc64el 6.0-29 [171 kB]
Fetched 171 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp12qw9_fs/unzip_6.0-29_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el patchutils ppc64el 0.4.3-1 [82.0 kB]
Fetched 82.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgvus83fm/patchutils_0.4.3-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libopengl0 ppc64el 1.7.0-3 [33.9 kB]
Fetched 33.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1a8hiiqb/libopengl0_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-basedir-perl all 0.09-2 [15.1 kB]
Fetched 15.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp80cuxisy/libfile-basedir-perl_0.09-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libctf0 ppc64el 2.46-2 [104 kB]
Fetched 104 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpygnlycsk/libctf0_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el zlib1g-dev ppc64el 1:1.3.dfsg+really1.3.1-3 [920 kB]
Fetched 920 kB in 0s (69.4 MB/s)
dpkg-name: info: moved 'zlib1g-dev_1%3a1.3.dfsg+really1.3.1-3_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpg3bcfi4g/zlib1g-dev_1.3.dfsg+really1.3.1-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblist-compare-perl all 0.55-2 [65.7 kB]
Fetched 65.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpane2n2du/liblist-compare-perl_0.55-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsndfile1 ppc64el 1.2.2-4 [233 kB]
Fetched 233 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqrcrywh9/libsndfile1_1.2.2-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el make ppc64el 4.4.1-3 [470 kB]
Fetched 470 kB in 0s (45.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmf47r2m_/make_4.4.1-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el binutils-common ppc64el 2.46-2 [2635 kB]
Fetched 2635 kB in 0s (125 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptc9gl7v6/binutils-common_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libunbound8 ppc64el 1.24.2-1 [642 kB]
Fetched 642 kB in 0s (59.3 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphn5ojz3h/libunbound8_1.24.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpipeline1 ppc64el 1.5.8-2 [43.7 kB]
Fetched 43.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1gceyfj9/libpipeline1_1.5.8-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gcc-15-powerpc64le-linux-gnu ppc64el 15.2.0-14 [19.4 MB]
Fetched 19.4 MB in 0s (174 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq3nbx8x2/gcc-15-powerpc64le-linux-gnu_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-template-perl all 1.61-1 [54.4 kB]
Fetched 54.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8_i6rnok/libtext-template-perl_1.61-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libb-hooks-endofscope-perl all 0.28-2 [17.6 kB]
Fetched 17.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp48fwrwl4/libb-hooks-endofscope-perl_0.28-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconvert-binhex-perl all 1.125-3 [27.4 kB]
Fetched 27.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpiqdzlxx0/libconvert-binhex-perl_1.125-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gnuplot-nox ppc64el 6.0.3+dfsg1-1 [942 kB]
Fetched 942 kB in 0s (79.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpummqqtr_/gnuplot-nox_6.0.3+dfsg1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsz2 ppc64el 1.1.5-1 [21.3 kB]
Fetched 21.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptgnxjmw9/libsz2_1.1.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libparse-debcontrol-perl all 2.005-6 [21.6 kB]
Fetched 21.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6f7yi6o_/libparse-debcontrol-perl_2.005-6_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-xfixes0 ppc64el 1.17.0-2+b2 [110 kB]
Fetched 110 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps19vz1lx/libxcb-xfixes0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-validate-domain-perl all 0.15-1 [11.9 kB]
Fetched 11.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8jzvgglg/libdata-validate-domain-perl_0.15-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsm6 ppc64el 2:1.2.6-1+b1 [38.6 kB]
Fetched 38.6 kB in 0s (0 B/s)
dpkg-name: info: moved 'libsm6_2%3a1.2.6-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpx9sgxc1h/libsm6_1.2.6-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libedit2 ppc64el 3.1-20251016-1 [102 kB]
Fetched 102 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp21ikm189/libedit2_3.1-20251016-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libimport-into-perl all 1.002005-2 [11.3 kB]
Fetched 11.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppz9tj6xe/libimport-into-perl_1.002005-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcap-ng0 ppc64el 0.9.1-1 [18.2 kB]
Fetched 18.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphtbq56et/libcap-ng0_0.9.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmime-tools-perl all 5.517-1 [204 kB]
Fetched 204 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3qacqzgc/libmime-tools-perl_5.517-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el file ppc64el 1:5.46-5+b1 [44.7 kB]
Fetched 44.7 kB in 0s (0 B/s)
dpkg-name: info: moved 'file_1%3a5.46-5+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp05pvlmgb/file_5.46-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-glx0 ppc64el 1.17.0-2+b2 [124 kB]
Fetched 124 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8ireb27f/libxcb-glx0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dwz ppc64el 0.16-2 [113 kB]
Fetched 113 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1w75owiv/dwz_0.16-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gpg ppc64el 2.4.8-5 [671 kB]
Fetched 671 kB in 0s (58.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7624tuva/gpg_2.4.8-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libperl5.40 ppc64el 5.40.1-7 [4379 kB]
Fetched 4379 kB in 0s (133 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9x9fswsq/libperl5.40_5.40.1-7_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libblas3 ppc64el 3.12.1-7+b1 [169 kB]
Fetched 169 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkw64dx_d/libblas3_3.12.1-7+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgbm1 ppc64el 26.0.0-1 [57.2 kB]
Fetched 57.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6kt5cxdf/libgbm1_26.0.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpsl-dev ppc64el 0.21.2-1.1+b2 [82.2 kB]
Fetched 82.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptpslutes/libpsl-dev_0.21.2-1.1+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgd3 ppc64el 2.3.3-13+b1 [140 kB]
Fetched 140 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpe7_qc7w1/libgd3_2.3.3-13+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhtml-form-perl all 6.13-1 [32.6 kB]
Fetched 32.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxjs7ymmp/libhtml-form-perl_6.13-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dh-octave-autopkgtest all 1.14.1 [11.8 kB]
Fetched 11.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkt5i9h4l/dh-octave-autopkgtest_1.14.1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgcc-15-dev ppc64el 15.2.0-14 [1466 kB]
Fetched 1466 kB in 0s (100 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpddask13k/libgcc-15-dev_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-quote-perl all 2.006009-1 [21.3 kB]
Fetched 21.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1b7u7394/libsub-quote-perl_2.006009-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfltk-gl1.3t64 ppc64el 1.3.11-3 [66.1 kB]
Fetched 66.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdgmt0ehx/libfltk-gl1.3t64_1.3.11-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmousex-strictconstructor-perl all 0.02-3 [5304 B]
Fetched 5304 B in 0s (484 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx9o1d9j5/libmousex-strictconstructor-perl_0.02-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libio-html-perl all 1.004-3 [16.2 kB]
Fetched 16.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprq42pnr8/libio-html-perl_1.004-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libquadmath0 ppc64el 15.2.0-14 [156 kB]
Fetched 156 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0jwxq2pm/libquadmath0_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgdbm6t64 ppc64el 1.26-1+b1 [83.0 kB]
Fetched 83.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8b8l31cy/libgdbm6t64_1.26-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libipc-system-simple-perl all 1.30-2 [26.8 kB]
Fetched 26.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa1n5fs4r/libipc-system-simple-perl_1.30-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgav1-2 ppc64el 0.20.0-2 [382 kB]
Fetched 382 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpek0n3huh/libgav1-2_0.20.0-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwacom-common all 2.18.0-1 [117 kB]
Fetched 117 kB in 0s (9438 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpouo20lup/libwacom-common_2.18.0-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el fontconfig-config ppc64el 2.17.1-5 [56.0 kB]
Fetched 56.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpehdh_tea/fontconfig-config_2.17.1-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libproc2-0 ppc64el 2:4.0.4-9+b1 [69.5 kB]
Fetched 69.5 kB in 0s (6715 kB/s)
dpkg-name: info: moved 'libproc2-0_2%3a4.0.4-9+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp1923aeci/libproc2-0_4.0.4-9+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6openglwidgets6 ppc64el 6.9.2+dfsg-4 [51.9 kB]
Fetched 51.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzujyhiig/libqt6openglwidgets6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liberror-perl all 0.17030-1 [26.9 kB]
Fetched 26.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpayhochjt/liberror-perl_0.17030-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblist-utilsby-perl all 0.12-2 [15.5 kB]
Fetched 15.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpj3xosajk/liblist-utilsby-perl_0.12-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libc6 ppc64el 2.42-13 [1698 kB]
Fetched 1698 kB in 0s (93.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpslwrcvqm/libc6_2.42-13_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblist-moreutils-xs-perl ppc64el 0.430-4+b2 [41.0 kB]
Fetched 41.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpi6l97zij/liblist-moreutils-xs-perl_0.430-4+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libzstd-dev ppc64el 1.5.7+dfsg-3+b1 [403 kB]
Fetched 403 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfp94h96n/libzstd-dev_1.5.7+dfsg-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libheif-plugin-dav1d ppc64el 1.21.2-3 [20.9 kB]
Fetched 20.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9ofm902l/libheif-plugin-dav1d_1.21.2-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libaudit-common all 1:4.1.2-1 [14.3 kB]
Fetched 14.3 kB in 0s (0 B/s)
dpkg-name: info: moved 'libaudit-common_1%3a4.1.2-1_all.deb' to '/srv/rebuilderd/tmp/tmp3ebz3ihm/libaudit-common_4.1.2-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-310 ppc64el 1.14.6+repack-2 [1260 kB]
Fetched 1260 kB in 0s (85.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps4v6qmra/libhdf5-310_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnet-ssleay-perl ppc64el 1.94-3+b1 [339 kB]
Fetched 339 kB in 0s (32.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplbj01ig1/libnet-ssleay-perl_1.94-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libarpack2t64 ppc64el 3.9.1-6+b1 [94.6 kB]
Fetched 94.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr3_nj_mi/libarpack2t64_3.9.1-6+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el debianutils ppc64el 5.23.2 [93.3 kB]
Fetched 93.3 kB in 0s (8552 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5qbs6kqo/debianutils_5.23.2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el hdf5-helpers ppc64el 1.14.6+repack-2 [22.1 kB]
Fetched 22.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpta0huxgn/hdf5-helpers_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-sharedir-perl all 1.118-3 [16.0 kB]
Fetched 16.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4t8uppg8/libfile-sharedir-perl_1.118-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libflac14 ppc64el 1.5.0+ds-5 [178 kB]
Fetched 178 kB in 0s (14.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvh92fyhw/libflac14_1.5.0+ds-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-glob-perl all 0.11-3 [7676 B]
Fetched 7676 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpylqfaf5k/libtext-glob-perl_0.11-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhttp-date-perl all 6.06-1 [10.7 kB]
Fetched 10.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1dhymdv3/libhttp-date-perl_6.06-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcurl3t64-gnutls ppc64el 8.19.0~rc2-2 [436 kB]
Fetched 436 kB in 0s (35.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp51ebgdcf/libcurl3t64-gnutls_8.19.0~rc2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el diffstat ppc64el 1.68-1 [37.1 kB]
Fetched 37.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpql7w0b8v/diffstat_1.68-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnghttp3-dev ppc64el 1.12.0-1 [101 kB]
Fetched 101 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpj3ihrr74/libnghttp3-dev_1.12.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqhull-r8.0 ppc64el 2020.2-8 [253 kB]
Fetched 253 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpva6zvjo1/libqhull-r8.0_2020.2-8_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libldap-dev ppc64el 2.6.10+dfsg-1+b1 [337 kB]
Fetched 337 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0438hln6/libldap-dev_2.6.10+dfsg-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqscintilla2-qt6-15 ppc64el 2.14.1+dfsg-2 [1253 kB]
Fetched 1253 kB in 0s (88.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_apbjcb3/libqscintilla2-qt6-15_2.14.1+dfsg-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsoftware-license-perl all 0.104007-1 [121 kB]
Fetched 121 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3shr53ng/libsoftware-license-perl_0.104007-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gnuplot-data all 6.0.3+dfsg1-1 [73.0 kB]
Fetched 73.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqem05j16/gnuplot-data_6.0.3+dfsg1-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhash-merge-perl all 0.302-1 [14.7 kB]
Fetched 14.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4aaqg9yo/libhash-merge-perl_0.302-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libparams-validate-perl ppc64el 1.31-2+b4 [63.8 kB]
Fetched 63.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpebt_o9cu/libparams-validate-perl_1.31-2+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmodule-pluggable-perl all 6.3-1 [24.1 kB]
Fetched 24.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpl9rkuzwc/libmodule-pluggable-perl_6.3-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dh-octave all 1.14.1 [25.8 kB]
Fetched 25.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1nqsyau1/dh-octave_1.14.1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhttp-message-perl all 7.01-1 [80.0 kB]
Fetched 80.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpoc8r48co/libhttp-message-perl_7.01-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libio-tiecombine-perl all 1.005-3 [10.8 kB]
Fetched 10.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjggl1fg1/libio-tiecombine-perl_1.005-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclone-perl ppc64el 0.47-1+b2 [14.4 kB]
Fetched 14.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppv0igmzn/libclone-perl_0.47-1+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libjack-jackd2-0 ppc64el 1.9.22~dfsg-5+b1 [297 kB]
Fetched 297 kB in 0s (25.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpae_522ru/libjack-jackd2-0_1.9.22~dfsg-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxml-sax-base-perl all 1.09-3 [20.6 kB]
Fetched 20.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7zrf9z63/libxml-sax-base-perl_1.09-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfile-stripnondeterminism-perl all 1.15.0-1 [19.9 kB]
Fetched 19.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgp035qrv/libfile-stripnondeterminism-perl_1.15.0-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libregexp-pattern-perl all 0.2.14-3 [18.3 kB]
Fetched 18.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp523haky0/libregexp-pattern-perl_0.2.14-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libldap2 ppc64el 2.6.10+dfsg-1+b1 [210 kB]
Fetched 210 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3k0jud7h/libldap2_2.6.10+dfsg-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-c3-perl all 0.35-2 [21.0 kB]
Fetched 21.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjwrjfw0l/libclass-c3-perl_0.35-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libarchive-zip-perl all 1.68-1 [104 kB]
Fetched 104 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr7mcp54j/libarchive-zip-perl_1.68-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgmp-dev ppc64el 2:6.3.0+dfsg-5+b1 [668 kB]
Fetched 668 kB in 0s (58.9 MB/s)
dpkg-name: info: moved 'libgmp-dev_2%3a6.3.0+dfsg-5+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp6oax70dm/libgmp-dev_6.3.0+dfsg-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpkgconf7 ppc64el 2.5.1-4 [51.5 kB]
Fetched 51.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmd421lmp/libpkgconf7_2.5.1-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libppix-quotelike-perl all 0.023-1 [74.6 kB]
Fetched 74.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwktn1g8f/libppix-quotelike-perl_0.023-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-reform-perl all 1.20-5 [36.0 kB]
Fetched 36.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc3tbawa0/libtext-reform-perl_1.20-5_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcgi-pm-perl all 4.71-1 [217 kB]
Fetched 217 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf4qjiiz5/libcgi-pm-perl_4.71-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmodule-runtime-perl all 0.018-1 [17.8 kB]
Fetched 17.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9jfa90rn/libmodule-runtime-perl_0.018-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el findutils ppc64el 4.10.0-3 [713 kB]
Fetched 713 kB in 0s (62.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4cyjq3m6/findutils_4.10.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-fortran-310 ppc64el 1.14.6+repack-2 [130 kB]
Fetched 130 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcu0n28z2/libhdf5-fortran-310_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libberkeleydb-perl ppc64el 0.66-2 [118 kB]
Fetched 118 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpuvgn6xa0/libberkeleydb-perl_0.66-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblwp-protocol-https-perl all 6.14-1 [10.8 kB]
Fetched 10.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp04aroj8h/liblwp-protocol-https-perl_6.14-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxfixes3 ppc64el 1:6.0.0-2+b5 [20.7 kB]
Fetched 20.7 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxfixes3_1%3a6.0.0-2+b5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpoqf2fsa0/libxfixes3_6.0.0-2+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libduktape207 ppc64el 2.7.0-2+b3 [137 kB]
Fetched 137 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprh4fi3pu/libduktape207_2.7.0-2+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdrm-amdgpu1 ppc64el 2.4.131-1 [26.3 kB]
Fetched 26.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpost70822/libdrm-amdgpu1_2.4.131-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el procps ppc64el 2:4.0.4-9+b1 [890 kB]
Fetched 890 kB in 0s (59.4 MB/s)
dpkg-name: info: moved 'procps_2%3a4.0.4-9+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp8aebl8ir/procps_4.0.4-9+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libngtcp2-crypto-ossl0 ppc64el 1.16.0-1 [27.9 kB]
Fetched 27.9 kB in 0s (2599 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpb25hjklo/libngtcp2-crypto-ossl0_1.16.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libssh2-1t64 ppc64el 1.11.1-1+b1 [258 kB]
Fetched 258 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpufwff1e8/libssh2-1t64_1.11.1-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnet-domain-tld-perl all 1.75-4 [31.5 kB]
Fetched 31.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp08hey50b/libnet-domain-tld-perl_1.75-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtime-duration-perl all 1.21-2 [13.1 kB]
Fetched 13.1 kB in 0s (1282 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp10tz6mkm/libtime-duration-perl_1.21-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwww-robotrules-perl all 6.02-1 [12.9 kB]
Fetched 12.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpq2hkgfjs/libwww-robotrules-perl_6.02-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libelf1t64 ppc64el 0.194-1 [195 kB]
Fetched 195 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa8s6ub8b/libelf1t64_0.194-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libapt-pkg-perl ppc64el 0.1.43 [67.8 kB]
Fetched 67.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2u6jmybf/libapt-pkg-perl_0.1.43_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhtml-tagset-perl all 3.24-1 [14.7 kB]
Fetched 14.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpj5roptdu/libhtml-tagset-perl_3.24-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6dbus6 ppc64el 6.9.2+dfsg-4 [285 kB]
Fetched 285 kB in 0s (23.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxm2iasrz/libqt6dbus6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-wrapi18n-perl all 0.06-10 [8808 B]
Fetched 8808 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx_b3fpu9/libtext-wrapi18n-perl_0.06-10_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcom-err2 ppc64el 1.47.2-3+b8 [25.3 kB]
Fetched 25.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf3sa2nk1/libcom-err2_1.47.2-3+b8_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libccolamd3 ppc64el 1:7.12.2+dfsg-1 [52.1 kB]
Fetched 52.1 kB in 0s (0 B/s)
dpkg-name: info: moved 'libccolamd3_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmptdc7_9eu/libccolamd3_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el diffutils ppc64el 1:3.12-1 [413 kB]
Fetched 413 kB in 0s (0 B/s)
dpkg-name: info: moved 'diffutils_1%3a3.12-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp6uld75ti/diffutils_3.12-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el automake all 1:1.18.1-3 [878 kB]
Fetched 878 kB in 0s (66.1 MB/s)
dpkg-name: info: moved 'automake_1%3a1.18.1-3_all.deb' to '/srv/rebuilderd/tmp/tmpalibhojw/automake_1.18.1-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstring-rewriteprefix-perl all 0.009-1 [7140 B]
Fetched 7140 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnwaf23fe/libstring-rewriteprefix-perl_0.009-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfontconfig1 ppc64el 2.17.1-5 [165 kB]
Fetched 165 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprigxdupr/libfontconfig1_2.17.1-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el octave-datatypes ppc64el 1.1.8-2 [534 kB]
Fetched 534 kB in 0s (40.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvq1xoful/octave-datatypes_1.1.8-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstring-license-perl all 0.0.11-1 [34.7 kB]
Fetched 34.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprj06o4re/libstring-license-perl_0.0.11-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gcc-15 ppc64el 15.2.0-14 [536 kB]
Fetched 536 kB in 0s (48.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7u1aj0xw/gcc-15_15.2.0-14_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhtml-html5-entities-perl all 0.004-3 [21.0 kB]
Fetched 21.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxi0ohanu/libhtml-html5-entities-perl_0.004-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el cme all 1.044-2 [72.5 kB]
Fetched 72.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg9yif_7m/cme_1.044-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el librtmp-dev ppc64el 2.4+20151223.gitfa8646d.1-3+b1 [75.6 kB]
Fetched 75.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa0uk89bx/librtmp-dev_2.4+20151223.gitfa8646d.1-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el licensecheck all 3.3.9-1 [50.1 kB]
Fetched 50.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpumo14lvx/licensecheck_3.3.9-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el fonts-freefont-otf all 20211204+svn4273-4 [4322 kB]
Fetched 4322 kB in 0s (140 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7r0_0p5v/fonts-freefont-otf_20211204+svn4273-4_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libffi8 ppc64el 3.5.2-3+b1 [26.9 kB]
Fetched 26.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpihvvy_b_/libffi8_3.5.2-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libobject-pad-perl ppc64el 0.823-2 [147 kB]
Fetched 147 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6l_n0yt0/libobject-pad-perl_0.823-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgmpxx4ldbl ppc64el 2:6.3.0+dfsg-5+b1 [330 kB]
Fetched 330 kB in 0s (22.7 MB/s)
dpkg-name: info: moved 'libgmpxx4ldbl_2%3a6.3.0+dfsg-5+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpxjaq33d9/libgmpxx4ldbl_6.3.0+dfsg-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstring-format-perl all 1.18-1 [9408 B]
Fetched 9408 B in 0s (851 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpp8jk9vzd/libstring-format-perl_1.18-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libterm-readkey-perl ppc64el 2.38-2+b4 [26.1 kB]
Fetched 26.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpto4eaufw/libterm-readkey-perl_2.38-2+b4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libparams-classify-perl ppc64el 0.015-2+b5 [23.6 kB]
Fetched 23.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpz4fvoogb/libparams-classify-perl_0.015-2+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxdmcp-dev ppc64el 1:1.1.5-2 [44.7 kB]
Fetched 44.7 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxdmcp-dev_1%3a1.1.5-2_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp7r_fcr2u/libxdmcp-dev_1.1.5-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el hostname ppc64el 3.25 [11.3 kB]
Fetched 11.3 kB in 0s (1011 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpukk6q2d6/hostname_3.25_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdeflate0 ppc64el 1.23-2+b1 [45.4 kB]
Fetched 45.4 kB in 0s (4001 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpuqlkou6i/libdeflate0_1.23-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libarray-intspan-perl all 2.004-2 [25.7 kB]
Fetched 25.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpii8io4bh/libarray-intspan-perl_2.004-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el bzip2 ppc64el 1.0.8-6+b1 [41.5 kB]
Fetched 41.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpk18p6jy6/bzip2_1.0.8-6+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libunicode-utf8-perl ppc64el 0.64-1 [20.2 kB]
Fetched 20.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm5q4bjo5/libunicode-utf8-perl_0.64-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libyaml-libyaml-perl ppc64el 0.904.0+ds-1 [49.1 kB]
Fetched 49.1 kB in 0s (4337 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo6kykcss/libyaml-libyaml-perl_0.904.0+ds-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libreadonly-perl all 2.050-3 [23.1 kB]
Fetched 23.1 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvqngrwa9/libreadonly-perl_2.050-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxml2-16 ppc64el 2.15.1+dfsg-2+b1 [678 kB]
Fetched 678 kB in 0s (44.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprwqhb10h/libxml2-16_2.15.1+dfsg-2+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdatrie1 ppc64el 0.2.14-1 [41.7 kB]
Fetched 41.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpikiuuhjc/libdatrie1_0.2.14-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblapack3 ppc64el 3.12.1-7+b1 [2157 kB]
Fetched 2157 kB in 0s (109 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpd_x8ix52/liblapack3_3.12.1-7+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libfont-ttf-perl all 1.06-2 [318 kB]
Fetched 318 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp62twf6r4/libfont-ttf-perl_1.06-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmd0 ppc64el 1.1.0-2+b2 [34.4 kB]
Fetched 34.4 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbydofr7y/libmd0_1.1.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdata-dpath-perl all 0.60-1 [41.8 kB]
Fetched 41.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpidfj8lrm/libdata-dpath-perl_0.60-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dash ppc64el 0.5.12-12 [104 kB]
Fetched 104 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4q9e9cg0/dash_0.5.12-12_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxau6 ppc64el 1:1.0.11-1+b1 [21.5 kB]
Fetched 21.5 kB in 0s (0 B/s)
dpkg-name: info: moved 'libxau6_1%3a1.0.11-1+b1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp1yy7fz7c/libxau6_1.0.11-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstrictures-perl all 2.000006-1 [18.6 kB]
Fetched 18.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_d1zb2qs/libstrictures-perl_2.000006-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtasn1-6 ppc64el 4.21.0-2 [54.8 kB]
Fetched 54.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps71bajmr/libtasn1-6_4.21.0-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libclass-data-inheritable-perl all 0.10-1 [8632 B]
Fetched 8632 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp95pwtfdr/libclass-data-inheritable-perl_0.10-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgcrypt20 ppc64el 1.11.2-3+b1 [893 kB]
Fetched 893 kB in 0s (69.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpk34optq1/libgcrypt20_1.11.2-3+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwww-perl all 6.81-1 [186 kB]
Fetched 186 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6j48l69r/libwww-perl_6.81-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libnet-http-perl all 6.24-1 [23.2 kB]
Fetched 23.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2ys8914e/libnet-http-perl_6.24-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gpgconf ppc64el 2.4.8-5 [139 kB]
Fetched 139 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpp3cwxuva/gpgconf_2.4.8-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libidn2-0 ppc64el 2.3.8-4+b1 [112 kB]
Fetched 112 kB in 0s (9603 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg0blxq74/libidn2-0_2.3.8-4+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libvulkan1 ppc64el 1.4.341.0-1 [156 kB]
Fetched 156 kB in 0s (14.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9229bzyk/libvulkan1_1.4.341.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb1-dev ppc64el 1.17.0-2+b2 [186 kB]
Fetched 186 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpt2apl52u/libxcb1-dev_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libstring-escape-perl all 2010.002-3 [18.7 kB]
Fetched 18.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps54le26l/libstring-escape-perl_2010.002-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libtext-charwidth-perl ppc64el 0.04-11+b5 [9868 B]
Fetched 9868 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2i9d13yv/libtext-charwidth-perl_0.04-11+b5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el perl ppc64el 5.40.1-7 [267 kB]
Fetched 267 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppovd7aqm/perl_5.40.1-7_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libcpanel-json-xs-perl ppc64el 4.40-1 [135 kB]
Fetched 135 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxzkhyfd4/libcpanel-json-xs-perl_4.40-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el xz-utils ppc64el 5.8.2-2 [708 kB]
Fetched 708 kB in 0s (68.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp06ykt14g/xz-utils_5.8.2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhogweed6t64 ppc64el 3.10.2-1 [340 kB]
Fetched 340 kB in 0s (28.9 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5udmkf3s/libhogweed6t64_3.10.2-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhdf5-cpp-310 ppc64el 1.14.6+repack-2 [123 kB]
Fetched 123 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdm152gwa/libhdf5-cpp-310_1.14.6+repack-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libharfbuzz0b ppc64el 12.3.2-2 [550 kB]
Fetched 550 kB in 0s (47.9 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_u5o9c6j/libharfbuzz0b_12.3.2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqrupdate1 ppc64el 1.1.5-3 [40.2 kB]
Fetched 40.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7jt1436b/libqrupdate1_1.1.5-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el dh-autoreconf all 21+nmu1 [11.7 kB]
Fetched 11.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjdyvrgsu/dh-autoreconf_21+nmu1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmousex-nativetraits-perl all 1.09-3 [53.5 kB]
Fetched 53.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8hrq0csn/libmousex-nativetraits-perl_1.09-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libgetopt-long-descriptive-perl all 0.117-1 [29.8 kB]
Fetched 29.8 kB in 0s (2502 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpndao3jd_/libgetopt-long-descriptive-perl_0.117-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglx-dev ppc64el 1.7.0-3 [15.8 kB]
Fetched 15.8 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5zn2d8b3/libglx-dev_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsort-versions-perl all 1.62-3 [8928 B]
Fetched 8928 B in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeua5fupg/libsort-versions-perl_1.62-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libthai-data all 0.1.30-1 [172 kB]
Fetched 172 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptpf4hc8e/libthai-data_0.1.30-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libavahi-common-data ppc64el 0.8-18 [113 kB]
Fetched 113 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphuth1y5g/libavahi-common-data_0.8-18_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libglx0 ppc64el 1.7.0-3 [39.3 kB]
Fetched 39.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5_frn137/libglx0_1.7.0-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libconfig-model-perl all 2.155-1 [398 kB]
Fetched 398 kB in 0s (38.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpchn6gt0b/libconfig-model-perl_2.155-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el openssl ppc64el 3.5.5-1 [1502 kB]
Fetched 1502 kB in 0s (71.5 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwlclnoey/openssl_3.5.5-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libncursesw6 ppc64el 6.6+20251231-1 [154 kB]
Fetched 154 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxglk4v4s/libncursesw6_6.6+20251231-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblzma5 ppc64el 5.8.2-2 [335 kB]
Fetched 335 kB in 0s (30.7 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2988qyq1/liblzma5_5.8.2-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libvariable-magic-perl ppc64el 0.64-1+b1 [45.9 kB]
Fetched 45.9 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9xlhv98m/libvariable-magic-perl_0.64-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el tex-common all 6.20 [29.7 kB]
Fetched 29.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprxyyv8fd/tex-common_6.20_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwacom9 ppc64el 2.18.0-1 [31.2 kB]
Fetched 31.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqb9er36v/libwacom9_2.18.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libudev1 ppc64el 259.1-1 [166 kB]
Fetched 166 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnku7uz8f/libudev1_259.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-identify-perl ppc64el 0.14-4 [11.3 kB]
Fetched 11.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7v_hghep/libsub-identify-perl_0.14-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libset-intspan-perl all 1.19-3 [25.3 kB]
Fetched 25.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpds1jmywg/libset-intspan-perl_1.19-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el mawk ppc64el 1.3.4.20260129-1 [146 kB]
Fetched 146 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpz39o_uf4/mawk_1.3.4.20260129-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el t1utils ppc64el 1.41-4 [64.7 kB]
Fetched 64.7 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvw178q02/t1utils_1.41-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el groff-base ppc64el 1.23.0-10 [1191 kB]
Fetched 1191 kB in 0s (77.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0wfovxcn/groff-base_1.23.0-10_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libdav1d7 ppc64el 1.5.3-1+b1 [390 kB]
Fetched 390 kB in 0s (38.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppatm4fo5/libdav1d7_1.5.3-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libxcb-xinput0 ppc64el 1.17.0-2+b2 [132 kB]
Fetched 132 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbl0yasia/libxcb-xinput0_1.17.0-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblz1 ppc64el 1.16~rc1-3 [43.2 kB]
Fetched 43.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwwjq492s/liblz1_1.16~rc1-3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el liblapack-dev ppc64el 3.12.1-7+b1 [4554 kB]
Fetched 4554 kB in 0s (130 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0_3unpsy/liblapack-dev_3.12.1-7+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el librav1e0.8 ppc64el 0.8.1-7 [731 kB]
Fetched 731 kB in 0s (60.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps0ef4xy5/librav1e0.8_0.8.1-7_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el x11proto-dev all 2025.1-1 [605 kB]
Fetched 605 kB in 0s (53.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpesad70wk/x11proto-dev_2025.1-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el perl-base ppc64el 5.40.1-7 [1702 kB]
Fetched 1702 kB in 0s (89.0 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfbtyx7np/perl-base_5.40.1-7_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libppi-perl all 1.284-1 [300 kB]
Fetched 300 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprvrfnbm8/libppi-perl_1.284-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libevdev2 ppc64el 1.13.6+dfsg-1 [33.6 kB]
Fetched 33.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbkw5xiic/libevdev2_1.13.6+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libksba8 ppc64el 1.6.7-2+b2 [146 kB]
Fetched 146 kB in 0s (14.1 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphua9jny5/libksba8_1.6.7-2+b2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libasound2-data all 1.2.15.3-1 [21.2 kB]
Fetched 21.2 kB in 0s (2122 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr81oy8s2/libasound2-data_1.2.15.3-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el krb5-multidev ppc64el 1.22.1-2 [127 kB]
Fetched 127 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxqeutarl/krb5-multidev_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el shared-mime-info ppc64el 2.4-5+b3 [761 kB]
Fetched 761 kB in 0s (51.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpi43plyk2/shared-mime-info_2.4-5+b3_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libpam-modules-bin ppc64el 1.7.0-5+b1 [53.0 kB]
Fetched 53.0 kB in 0s (4991 kB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp22osecb4/libpam-modules-bin_1.7.0-5+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsub-name-perl ppc64el 0.28-1+b1 [13.0 kB]
Fetched 13.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqhom2yk5/libsub-name-perl_0.28-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libhtml-tree-perl all 5.07-3 [211 kB]
Fetched 211 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpriw6w7ty/libhtml-tree-perl_5.07-3_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libwww-mechanize-perl all 2.20-1 [117 kB]
Fetched 117 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_fr_cyaw/libwww-mechanize-perl_2.20-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libmodule-implementation-perl all 0.09-2 [12.6 kB]
Fetched 12.6 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbc00cq0k/libmodule-implementation-perl_0.09-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsystemd0 ppc64el 259.1-1 [501 kB]
Fetched 501 kB in 0s (47.4 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm08q8i4u/libsystemd0_259.1-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libkadm5srv-mit12 ppc64el 1.22.1-2 [61.2 kB]
Fetched 61.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1wtybae6/libkadm5srv-mit12_1.22.1-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el po-debconf all 1.0.22 [216 kB]
Fetched 216 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpimwcy50c/po-debconf_1.0.22_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el ncurses-bin ppc64el 6.6+20251231-1 [450 kB]
Fetched 450 kB in 0s (29.8 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm8aacx6j/ncurses-bin_6.6+20251231-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libqt6opengl6 ppc64el 6.9.2+dfsg-4 [434 kB]
Fetched 434 kB in 0s (41.6 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpktg559i1/libqt6opengl6_6.9.2+dfsg-4_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libproc-processtable-perl ppc64el 0.637-1+b1 [43.2 kB]
Fetched 43.2 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzv4u3wig/libproc-processtable-perl_0.637-1+b1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libspqr4 ppc64el 1:7.12.2+dfsg-1 [170 kB]
Fetched 170 kB in 0s (0 B/s)
dpkg-name: info: moved 'libspqr4_1%3a7.12.2+dfsg-1_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpf4vkya64/libspqr4_7.12.2+dfsg-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el autopoint all 0.23.2-1 [772 kB]
Fetched 772 kB in 0s (63.2 MB/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptaulwy3t/autopoint_0.23.2-1_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libngtcp2-dev ppc64el 1.16.0-1 [206 kB]
Fetched 206 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgbk26c7h/libngtcp2-dev_1.16.0-1_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libsframe3 ppc64el 2.46-2 [87.0 kB]
Fetched 87.0 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppc_n0w5k/libsframe3_2.46-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el lzop ppc64el 1.04-2 [86.5 kB]
Fetched 86.5 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpav2x6584/lzop_1.04-2_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gfortran ppc64el 4:15.2.0-5 [1436 B]
Fetched 1436 B in 0s (0 B/s)
dpkg-name: info: moved 'gfortran_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmp2n9jd523/gfortran_15.2.0-5_ppc64el.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el libio-stringy-perl all 2.113-2 [48.3 kB]
Fetched 48.3 kB in 0s (0 B/s)
dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpy2av7mqg/libio-stringy-perl_2.113-2_all.deb'
Get:1 http://deb.debian.org/debian unstable/main ppc64el gcc-powerpc64le-linux-gnu ppc64el 4:15.2.0-5 [1448 B]
Fetched 1448 B in 0s (0 B/s)
dpkg-name: info: moved 'gcc-powerpc64le-linux-gnu_4%3a15.2.0-5_ppc64el.deb' to '/srv/rebuilderd/tmp/tmpm8bk0dbb/gcc-powerpc64le-linux-gnu_15.2.0-5_ppc64el.deb'
dpkg-buildpackage: info: source package debootsnap-dummy
dpkg-buildpackage: info: source version 1.0
dpkg-buildpackage: info: source distribution unstable
dpkg-buildpackage: info: source changed by Equivs Dummy Package Generator <rebuilderd@packer.local>
 dpkg-source --before-build .
dpkg-buildpackage: info: host architecture ppc64el
 debian/rules clean
dh clean
   dh_clean
 debian/rules binary
dh binary
   dh_update_autotools_config
   dh_autoreconf
   create-stamp debian/debhelper-build-stamp
   dh_prep
   dh_auto_install --destdir=debian/debootsnap-dummy/
   dh_install
   dh_installdocs
   dh_installchangelogs
   dh_perl
   dh_link
   dh_strip_nondeterminism
   dh_compress
   dh_fixperms
   dh_missing
   dh_installdeb
   dh_gencontrol
   dh_md5sums
   dh_builddeb
dpkg-deb: building package 'debootsnap-dummy' in '../debootsnap-dummy_1.0_all.deb'.
 dpkg-genbuildinfo --build=binary -O../debootsnap-dummy_1.0_ppc64el.buildinfo
 dpkg-genchanges --build=binary -O../debootsnap-dummy_1.0_ppc64el.changes
dpkg-genchanges: info: binary-only upload (no source code included)
 dpkg-source --after-build .
dpkg-buildpackage: info: binary-only upload (no source included)

The package has been created.
Attention, the package has been created in the /srv/rebuilderd/tmp/tmp9i96du7g/cache directory,
not in ".." as indicated by the message above!
I: automatically chosen mode: unshare
I: chroot architecture ppc64el is equal to the host's architecture
I: using /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI as tempdir
I: running --setup-hook directly: /usr/share/mmdebstrap/hooks/maybe-merged-usr/setup00.sh /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI
127.0.0.1 - - [25/Feb/2026 03:09:40] code 404, message File not found
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./InRelease HTTP/1.1" 404 -
Ign:1 http://localhost:36853 ./ InRelease
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./Release HTTP/1.1" 200 -
Get:2 http://localhost:36853 ./ Release [462 B]
127.0.0.1 - - [25/Feb/2026 03:09:40] code 404, message File not found
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./Release.gpg HTTP/1.1" 404 -
Ign:3 http://localhost:36853 ./ Release.gpg
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./Packages HTTP/1.1" 200 -
Get:4 http://localhost:36853 ./ Packages [824 kB]
Fetched 825 kB in 0s (32.5 MB/s)
Reading package lists...
usr-is-merged found but not real -- not running merged-usr setup hook
I: skipping apt-get update because it was already run
I: downloading packages with apt...
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./gcc-15-base_15.2.0-14_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libc-gconv-modules-extra_2.42-13_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libc6_2.42-13_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libgcc-s1_15.2.0-14_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./mawk_1.3.4.20260129-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./base-files_14_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libtinfo6_6.6%2b20251231-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./debianutils_5.23.2_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./bash_5.3-2_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libacl1_2.3.2-3_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libattr1_2.5.2-4_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libcap2_2.75-10%2bb5_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libgmp10_6.3.0%2bdfsg-5%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libpcre2-8-0_10.46-1%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libselinux1_3.9-4%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libzstd1_1.5.7%2bdfsg-3%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./zlib1g_1.3.dfsg%2breally1.3.1-3_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:40] "GET /./libssl3t64_3.5.5-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./openssl-provider-legacy_3.5.5-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libsystemd0_259.1-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./coreutils_9.7-3_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./dash_0.5.12-12_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./diffutils_3.12-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libbz2-1.0_1.0.8-6%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./liblzma5_5.8.2-2_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libmd0_1.1.0-2%2bb2_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./tar_1.35%2bdfsg-4_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./dpkg_1.23.5_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./findutils_4.10.0-3_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./grep_3.12-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./gzip_1.13-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./hostname_3.25_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./ncurses-bin_6.6%2b20251231-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libcrypt1_4.5.1-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./perl-base_5.40.1-7_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./sed_4.9-2_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libaudit-common_4.1.2-1_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libcap-ng0_0.9.1-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libaudit1_4.1.2-1%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libdb5.3t64_5.3.28%2bdfsg2-11_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./debconf_1.5.92_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libpam0g_1.7.0-5%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libpam-modules-bin_1.7.0-5%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libpam-modules_1.7.0-5%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libpam-runtime_1.7.0-5_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libblkid1_2.41.3-4_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:41] "GET /./libmount1_2.41.3-4_ppc64el.deb HTTP/1.1" 200 -
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I: extracting archives...
I: running --extract-hook directly: /usr/share/mmdebstrap/hooks/maybe-merged-usr/extract00.sh /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI
127.0.0.1 - - [25/Feb/2026 03:09:43] code 404, message File not found
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Ign:3 http://localhost:36853 ./ Release.gpg
Reading package lists...
usr-is-merged found but not real -- not running merged-usr extract hook
I: installing essential packages...
I: running --essential-hook directly: /usr/share/mmdebstrap/hooks/maybe-merged-usr/essential00.sh /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI
usr-is-merged was not installed in a previous hook -- not running merged-usr essential hook
I: installing remaining packages inside the chroot...
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libapt-pkg-perl_0.1.43_ppc64el.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libsort-versions-perl_1.62-3_all.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libio-interactive-perl_1.027-1_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libpod-constants-perl_0.19-2_all.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libregexp-pattern-license-perl_3.11.2-1_all.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libstring-license-perl_0.0.11-1_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./licensecheck_3.3.9-1_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./diffstat_1.68-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libgcrypt20_1.11.2-3%2bb1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./gpgconf_2.4.8-5_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libksba8_1.6.7-2%2bb2_ppc64el.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libberkeleydb-perl_0.66-2_ppc64el.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libdevel-size-perl_0.86-1_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libemail-address-xs-perl_1.05-1%2bb4_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libipc-system-simple-perl_1.30-2_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libfile-basedir-perl_0.09-2_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libio-string-perl_1.08-4_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libfont-ttf-perl_1.06-2_all.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libterm-readkey-perl_2.38-2%2bb4_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libtext-levenshteinxs-perl_0.03-5%2bb4_ppc64el.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libtext-xslate-perl_3.5.9-2%2bb2_ppc64el.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./lzop_1.04-2_ppc64el.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./lintian_2.130.0_all.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./gnuplot-data_6.0.3%2bdfsg1-1_all.deb HTTP/1.1" 200 -
127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libgd3_2.3.3-13%2bb1_ppc64el.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./libmime-tools-perl_5.517-1_all.deb HTTP/1.1" 200 -
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127.0.0.1 - - [25/Feb/2026 03:09:53] "GET /./debootsnap-dummy_1.0_all.deb HTTP/1.1" 200 -
I: running --customize-hook directly: /srv/rebuilderd/tmp/tmp9i96du7g/apt_install.sh /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI
Reading package lists...
Building dependency tree...
Reading state information...
libfltk1.3t64 is already the newest version (1.3.11-3).
libfltk1.3t64 set to manually installed.
libalgorithm-c3-perl is already the newest version (0.11-2).
libalgorithm-c3-perl set to manually installed.
g++-15-powerpc64le-linux-gnu is already the newest version (15.2.0-14).
g++-15-powerpc64le-linux-gnu set to manually installed.
libtext-levenshtein-damerau-perl is already the newest version (0.41-3).
libtext-levenshtein-damerau-perl set to manually installed.
libsoftware-licensemoreutils-perl is already the newest version (1.009-1).
libsoftware-licensemoreutils-perl set to manually installed.
libclass-xsaccessor-perl is already the newest version (1.19-4+b5).
libclass-xsaccessor-perl set to manually installed.
libhtml-tokeparser-simple-perl is already the newest version (3.16-4).
libhtml-tokeparser-simple-perl set to manually installed.
libyaml-pp-perl is already the newest version (0.39.0-1).
libyaml-pp-perl set to manually installed.
libhttp-negotiate-perl is already the newest version (6.01-2).
libhttp-negotiate-perl set to manually installed.
libfreetype6 is already the newest version (2.14.1+dfsg-2).
libfreetype6 set to manually installed.
liblzo2-2 is already the newest version (2.10-3+b2).
liblzo2-2 set to manually installed.
libnumber-compare-perl is already the newest version (0.03-3).
libnumber-compare-perl set to manually installed.
libpod-spell-perl is already the newest version (1.27-1).
libpod-spell-perl set to manually installed.
gfortran-powerpc64le-linux-gnu is already the newest version (4:15.2.0-5).
gfortran-powerpc64le-linux-gnu set to manually installed.
libparams-util-perl is already the newest version (1.102-3+b1).
libparams-util-perl set to manually installed.
octave-dev is already the newest version (10.3.0-3).
octave-dev set to manually installed.
libvorbis0a is already the newest version (1.3.7-3+b1).
libvorbis0a set to manually installed.
libkrb5support0 is already the newest version (1.22.1-2).
libkrb5support0 set to manually installed.
libasound2t64 is already the newest version (1.2.15.3-1).
libasound2t64 set to manually installed.
libhttp-cookies-perl is already the newest version (6.11-1).
libhttp-cookies-perl set to manually installed.
gfortran-15-powerpc64le-linux-gnu is already the newest version (15.2.0-14).
gfortran-15-powerpc64le-linux-gnu set to manually installed.
libyaml-tiny-perl is already the newest version (1.76-1).
libyaml-tiny-perl set to manually installed.
libfile-find-rule-perl is already the newest version (0.35-1).
libfile-find-rule-perl set to manually installed.
libsub-uplevel-perl is already the newest version (0.2800-3).
libsub-uplevel-perl set to manually installed.
librtmp1 is already the newest version (2.4+20151223.gitfa8646d.1-3+b1).
librtmp1 set to manually installed.
texinfo is already the newest version (7.2-5).
texinfo set to manually installed.
libnettle8t64 is already the newest version (3.10.2-1).
libnettle8t64 set to manually installed.
libstemmer0d is already the newest version (3.0.1-1+b1).
libstemmer0d set to manually installed.
nettle-dev is already the newest version (3.10.2-1).
nettle-dev set to manually installed.
perl-modules-5.40 is already the newest version (5.40.1-7).
perl-modules-5.40 set to manually installed.
libpangoft2-1.0-0 is already the newest version (1.57.0-1).
libpangoft2-1.0-0 set to manually installed.
libxs-parse-sublike-perl is already the newest version (0.41-1).
libxs-parse-sublike-perl set to manually installed.
libsub-exporter-perl is already the newest version (0.990-1).
libsub-exporter-perl set to manually installed.
libkadm5clnt-mit12 is already the newest version (1.22.1-2).
libkadm5clnt-mit12 set to manually installed.
sensible-utils is already the newest version (0.0.26).
sensible-utils set to manually installed.
libclass-load-perl is already the newest version (0.25-2).
libclass-load-perl set to manually installed.
libblas-dev is already the newest version (3.12.1-7+b1).
libblas-dev set to manually installed.
libglu1-mesa is already the newest version (9.0.2-1.1+b4).
libglu1-mesa set to manually installed.
libxcursor1 is already the newest version (1:1.2.3-1+b1).
libxcursor1 set to manually installed.
libjansson4 is already the newest version (2.14-2+b4).
libjansson4 set to manually installed.
libdata-validate-uri-perl is already the newest version (0.07-3).
libdata-validate-uri-perl set to manually installed.
libxxf86vm1 is already the newest version (1:1.1.4-2).
libxxf86vm1 set to manually installed.
libxcb-shm0 is already the newest version (1.17.0-2+b2).
libxcb-shm0 set to manually installed.
libcairo2 is already the newest version (1.18.4-3).
libcairo2 set to manually installed.
libxml-sax-perl is already the newest version (1.02+dfsg-4).
libxml-sax-perl set to manually installed.
grep is already the newest version (3.12-1).
libnet-smtp-ssl-perl is already the newest version (1.04-2).
libnet-smtp-ssl-perl set to manually installed.
libsafe-isa-perl is already the newest version (1.000010-1).
libsafe-isa-perl set to manually installed.
libsereal-encoder-perl is already the newest version (5.004+ds-1+b3).
libsereal-encoder-perl set to manually installed.
libwmflite-0.2-7 is already the newest version (0.2.13-2).
libwmflite-0.2-7 set to manually installed.
octave-io is already the newest version (2.7.1-1).
octave-io set to manually installed.
libxcb-dri3-0 is already the newest version (1.17.0-2+b2).
libxcb-dri3-0 set to manually installed.
libnetaddr-ip-perl is already the newest version (4.079+dfsg-2+b4).
libnetaddr-ip-perl set to manually installed.
libxrender1 is already the newest version (1:0.9.12-1+b1).
libxrender1 set to manually installed.
libjpeg62-turbo-dev is already the newest version (1:2.1.5-4).
libjpeg62-turbo-dev set to manually installed.
libapt-pkg7.0 is already the newest version (3.1.16).
libapt-pkg7.0 set to manually installed.
libnet-netmask-perl is already the newest version (2.0003-1).
libnet-netmask-perl set to manually installed.
libhdf5-hl-fortran-310 is already the newest version (1.14.6+repack-2).
libhdf5-hl-fortran-310 set to manually installed.
texinfo-lib is already the newest version (7.2-5).
texinfo-lib set to manually installed.
libssh2-1-dev is already the newest version (1.11.1-1+b1).
libssh2-1-dev set to manually installed.
libstring-copyright-perl is already the newest version (0.003014-1).
libstring-copyright-perl set to manually installed.
g++-powerpc64le-linux-gnu is already the newest version (4:15.2.0-5).
g++-powerpc64le-linux-gnu set to manually installed.
libx11-data is already the newest version (2:1.8.13-1).
libx11-data set to manually installed.
libctf-nobfd0 is already the newest version (2.46-2).
libctf-nobfd0 set to manually installed.
libconst-fast-perl is already the newest version (0.014-2).
libconst-fast-perl set to manually installed.
libaudit1 is already the newest version (1:4.1.2-1+b1).
plzip is already the newest version (1.13~rc1-3).
plzip set to manually installed.
util-linux is already the newest version (2.41.3-4).
libtsan2 is already the newest version (15.2.0-14).
libtsan2 set to manually installed.
librole-tiny-perl is already the newest version (2.002004-1).
librole-tiny-perl set to manually installed.
libice6 is already the newest version (2:1.1.1-1+b1).
libice6 set to manually installed.
libtoml-tiny-perl is already the newest version (0.20-1).
libtoml-tiny-perl set to manually installed.
libcarp-assert-more-perl is already the newest version (2.9.0-1).
libcarp-assert-more-perl set to manually installed.
libubsan1 is already the newest version (15.2.0-14).
libubsan1 set to manually installed.
libxkbcommon-x11-0 is already the newest version (1.13.1-1).
libxkbcommon-x11-0 set to manually installed.
liblwp-mediatypes-perl is already the newest version (6.04-2).
liblwp-mediatypes-perl set to manually installed.
libgfortran5 is already the newest version (15.2.0-14).
libgfortran5 set to manually installed.
libfyaml0 is already the newest version (0.9.4-1).
libfyaml0 set to manually installed.
gcc is already the newest version (4:15.2.0-5).
gcc set to manually installed.
base-passwd is already the newest version (3.6.8).
libnghttp2-14 is already the newest version (1.68.0-1).
libnghttp2-14 set to manually installed.
libmount1 is already the newest version (2.41.3-4).
libsereal-decoder-perl is already the newest version (5.004+ds-1+b3).
libsereal-decoder-perl set to manually installed.
libmoox-aliases-perl is already the newest version (0.001006-3).
libmoox-aliases-perl set to manually installed.
gcc-15-base is already the newest version (15.2.0-14).
libgraphite2-3 is already the newest version (1.3.14-11+b1).
libgraphite2-3 set to manually installed.
libsyntax-keyword-try-perl is already the newest version (0.31-1).
libsyntax-keyword-try-perl set to manually installed.
libsensors5 is already the newest version (1:3.6.2-2+b1).
libsensors5 set to manually installed.
libumfpack6 is already the newest version (1:7.12.2+dfsg-1).
libumfpack6 set to manually installed.
libpango-1.0-0 is already the newest version (1.57.0-1).
libpango-1.0-0 set to manually installed.
sed is already the newest version (4.9-2).
gfortran-15 is already the newest version (15.2.0-14).
gfortran-15 set to manually installed.
bash is already the newest version (5.3-2).
libc-bin is already the newest version (2.42-13).
libavif16 is already the newest version (1.3.0-1+b2).
libavif16 set to manually installed.
libqt6sql6 is already the newest version (6.9.2+dfsg-4).
libqt6sql6 set to manually installed.
openssl-provider-legacy is already the newest version (3.5.5-1).
libtiff6 is already the newest version (4.7.1-1).
libtiff6 set to manually installed.
libxcb-xkb1 is already the newest version (1.17.0-2+b2).
libxcb-xkb1 set to manually installed.
libtasn1-6-dev is already the newest version (4.21.0-2).
libtasn1-6-dev set to manually installed.
libamd3 is already the newest version (1:7.12.2+dfsg-1).
libamd3 set to manually installed.
libtext-markdown-discount-perl is already the newest version (0.18-1).
libtext-markdown-discount-perl set to manually installed.
libogg0 is already the newest version (1.3.6-2).
libogg0 set to manually installed.
libts0t64 is already the newest version (1.22-1.1+b2).
libts0t64 set to manually installed.
libatomic1 is already the newest version (15.2.0-14).
libatomic1 set to manually installed.
libqscintilla2-qt6-l10n is already the newest version (2.14.1+dfsg-2).
libqscintilla2-qt6-l10n set to manually installed.
libaliased-perl is already the newest version (0.34-3).
libaliased-perl set to manually installed.
libmpc3 is already the newest version (1.3.1-2+b1).
libmpc3 set to manually installed.
libcrypt1 is already the newest version (1:4.5.1-1).
libinput10 is already the newest version (1.31.0-1).
libinput10 set to manually installed.
libconfig-model-backend-yaml-perl is already the newest version (2.134-2).
libconfig-model-backend-yaml-perl set to manually installed.
libbz2-1.0 is already the newest version (1.0.8-6+b1).
liblog-any-perl is already the newest version (1.718-1).
liblog-any-perl set to manually installed.
libdata-optlist-perl is already the newest version (0.114-1).
libdata-optlist-perl set to manually installed.
comerr-dev is already the newest version (2.1-1.47.2-3+b8).
comerr-dev set to manually installed.
libgl1 is already the newest version (1.7.0-3).
libgl1 set to manually installed.
libwayland-client0 is already the newest version (1.24.0-2+b2).
libwayland-client0 set to manually installed.
libwebpmux3 is already the newest version (1.5.0-0.1+b1).
libwebpmux3 set to manually installed.
libgraphicsmagick++-q16-12t64 is already the newest version (1.4+really1.3.46-2).
libgraphicsmagick++-q16-12t64 set to manually installed.
libp11-kit0 is already the newest version (0.26.2-2).
libp11-kit0 set to manually installed.
libheif1 is already the newest version (1.21.2-3).
libheif1 set to manually installed.
fontconfig is already the newest version (2.17.1-5).
fontconfig set to manually installed.
libcap2 is already the newest version (1:2.75-10+b5).
netbase is already the newest version (6.5).
netbase set to manually installed.
libqt6xml6 is already the newest version (6.9.2+dfsg-4).
libqt6xml6 set to manually installed.
libsvtav1enc2 is already the newest version (2.3.0+dfsg-1).
libsvtav1enc2 set to manually installed.
libc6-dev is already the newest version (2.42-13).
libc6-dev set to manually installed.
libzstd1 is already the newest version (1.5.7+dfsg-3+b1).
libinput-bin is already the newest version (1.31.0-1).
libinput-bin set to manually installed.
libabsl20240722 is already the newest version (20240722.0-4).
libabsl20240722 set to manually installed.
xorg-sgml-doctools is already the newest version (1:1.11-1.1).
xorg-sgml-doctools set to manually installed.
liblz4-1 is already the newest version (1.10.0-6).
liblz4-1 set to manually installed.
libavahi-common3 is already the newest version (0.8-18).
libavahi-common3 set to manually installed.
libgomp1 is already the newest version (15.2.0-14).
libgomp1 set to manually installed.
libgraphicsmagick-q16-3t64 is already the newest version (1.4+really1.3.46-2).
libgraphicsmagick-q16-3t64 set to manually installed.
ncurses-base is already the newest version (6.6+20251231-1).
libx11-dev is already the newest version (2:1.8.13-1).
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ca-certificates is already the newest version (20250419).
ca-certificates set to manually installed.
libbinutils is already the newest version (2.46-2).
libbinutils set to manually installed.
libdouble-conversion3 is already the newest version (3.4.0-1).
libdouble-conversion3 set to manually installed.
libkrb5-dev is already the newest version (1.22.1-2).
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libio-socket-ssl-perl is already the newest version (2.098-1).
libio-socket-ssl-perl set to manually installed.
libseccomp2 is already the newest version (2.6.0-2+b1).
libseccomp2 set to manually installed.
libportaudio2 is already the newest version (19.7.0-1).
libportaudio2 set to manually installed.
libxshmfence1 is already the newest version (1.3.3-1+b1).
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rpcsvc-proto is already the newest version (1.4.3-1).
rpcsvc-proto set to manually installed.
gettext is already the newest version (0.23.2-1).
gettext set to manually installed.
libconfig-inifiles-perl is already the newest version (3.000003-4).
libconfig-inifiles-perl set to manually installed.
libgudev-1.0-0 is already the newest version (238-7+b1).
libgudev-1.0-0 set to manually installed.
libfile-homedir-perl is already the newest version (1.006-2).
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g++ is already the newest version (4:15.2.0-5).
g++ set to manually installed.
libpod-pom-perl is already the newest version (2.01-4).
libpod-pom-perl set to manually installed.
libk5crypto3 is already the newest version (1.22.1-2).
libk5crypto3 set to manually installed.
libmro-compat-perl is already the newest version (0.15-2).
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g++-15 is already the newest version (15.2.0-14).
g++-15 set to manually installed.
libxpm4 is already the newest version (1:3.5.17-1+b4).
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libyaml-0-2 is already the newest version (0.2.5-2+b1).
libyaml-0-2 set to manually installed.
gzip is already the newest version (1.13-1).
libxcb1 is already the newest version (1.17.0-2+b2).
libxcb1 set to manually installed.
libgfortran-15-dev is already the newest version (15.2.0-14).
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libpath-iterator-rule-perl is already the newest version (1.015-2).
libpath-iterator-rule-perl set to manually installed.
libsasl2-2 is already the newest version (2.1.28+dfsg1-10).
libsasl2-2 set to manually installed.
libkeyutils1 is already the newest version (1.6.3-6+b1).
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libperlio-utf8-strict-perl is already the newest version (0.010-1+b3).
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libintl-perl is already the newest version (1.37-1).
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libncurses6 is already the newest version (6.6+20251231-1).
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libcholmod5 is already the newest version (1:7.12.2+dfsg-1).
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patch is already the newest version (2.8-2).
patch set to manually installed.
libmoo-perl is already the newest version (2.005005-1).
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libhtml-parser-perl is already the newest version (3.83-1+b3).
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libmd4c0 is already the newest version (0.5.2-2+b2).
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libnet-ipv6addr-perl is already the newest version (1.02-1).
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gettext-base is already the newest version (0.23.2-1).
gettext-base set to manually installed.
libppix-regexp-perl is already the newest version (0.091-1).
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libuuid1 is already the newest version (2.41.3-4).
libqt6core6t64 is already the newest version (6.9.2+dfsg-4).
libqt6core6t64 set to manually installed.
libxml-libxml-perl is already the newest version (2.0207+dfsg+really+2.0134-7).
libxml-libxml-perl set to manually installed.
liblcms2-2 is already the newest version (2.17-1).
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libjxl0.11 is already the newest version (0.11.1-6).
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libhdf5-hl-cpp-310 is already the newest version (1.14.6+repack-2).
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cpp-15 is already the newest version (15.2.0-14).
cpp-15 set to manually installed.
libjson-perl is already the newest version (4.10000-1).
libjson-perl set to manually installed.
libpcre2-16-0 is already the newest version (10.46-1+b1).
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libdpkg-perl is already the newest version (1.23.5).
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libdebconfclient0 is already the newest version (0.282+b2).
libqt6network6 is already the newest version (6.9.2+dfsg-4).
libqt6network6 set to manually installed.
libipc-run3-perl is already the newest version (0.049-1).
libipc-run3-perl set to manually installed.
libsuitesparseconfig7 is already the newest version (1:7.12.2+dfsg-1).
libsuitesparseconfig7 set to manually installed.
libthai0 is already the newest version (0.1.30-1).
libthai0 set to manually installed.
liblog-log4perl-perl is already the newest version (1.57-1).
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libregexp-common-perl is already the newest version (2024080801-1).
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libsensors-config is already the newest version (1:3.6.2-2).
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libfile-listing-perl is already the newest version (6.16-1).
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libllvm21 is already the newest version (1:21.1.8-3+b1).
libllvm21 set to manually installed.
octave-common is already the newest version (10.3.0-3).
octave-common set to manually installed.
libhdf5-hl-310 is already the newest version (1.14.6+repack-2).
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libconfig-tiny-perl is already the newest version (2.30-1).
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libgnutls28-dev is already the newest version (3.8.12-3).
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libmtdev1t64 is already the newest version (1.1.7-1+b1).
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libmailtools-perl is already the newest version (2.22-1).
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libfile-which-perl is already the newest version (1.27-2).
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libunistring5 is already the newest version (1.3-2+b1).
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libdevel-stacktrace-perl is already the newest version (2.0500-1).
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libbsd0 is already the newest version (0.12.2-2+b1).
libbsd0 set to manually installed.
libgl2ps1.4 is already the newest version (1.4.2+dfsg1-4).
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libisl23 is already the newest version (0.27-1+b1).
libisl23 set to manually installed.
libnamespace-clean-perl is already the newest version (0.27-2).
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libdata-validate-ip-perl is already the newest version (0.31-1).
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libfeature-compat-class-perl is already the newest version (0.08-1).
libfeature-compat-class-perl set to manually installed.
libmarkdown2 is already the newest version (2.2.7-2.1+b1).
libmarkdown2 set to manually installed.
libqt6gui6 is already the newest version (6.9.2+dfsg-4).
libqt6gui6 set to manually installed.
linux-libc-dev is already the newest version (6.18.12-1).
linux-libc-dev set to manually installed.
libglx-mesa0 is already the newest version (26.0.0-1).
libglx-mesa0 set to manually installed.
libgcc-s1 is already the newest version (15.2.0-14).
libpcre2-8-0 is already the newest version (10.46-1+b1).
libp11-kit-dev is already the newest version (0.26.2-2).
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libfftw3-double3 is already the newest version (3.3.10-2+b2).
libfftw3-double3 set to manually installed.
libcurl4t64 is already the newest version (8.19.0~rc2-2).
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libexporter-tiny-perl is already the newest version (1.006003-1).
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libxcb-keysyms1 is already the newest version (0.4.1-1+b1).
libxcb-keysyms1 set to manually installed.
libmagic1t64 is already the newest version (1:5.46-5+b1).
libmagic1t64 set to manually installed.
libxcb-sync1 is already the newest version (1.17.0-2+b2).
libxcb-sync1 set to manually installed.
libacl1 is already the newest version (2.3.2-3).
libegl1 is already the newest version (1.7.0-3).
libegl1 set to manually installed.
iso-codes is already the newest version (4.20.1-1).
iso-codes set to manually installed.
libgdbm-compat4t64 is already the newest version (1.26-1+b1).
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libpod-parser-perl is already the newest version (1.67-1).
libpod-parser-perl set to manually installed.
libjpeg62-turbo is already the newest version (1:2.1.5-4).
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libcxsparse4 is already the newest version (1:7.12.2+dfsg-1).
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libtask-weaken-perl is already the newest version (1.06-2).
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libgmp10 is already the newest version (2:6.3.0+dfsg-5+b1).
libxext6 is already the newest version (2:1.3.4-1+b4).
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libexporter-lite-perl is already the newest version (0.09-2).
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binutils is already the newest version (2.46-2).
binutils set to manually installed.
libxs-parse-keyword-perl is already the newest version (0.49-1).
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libxcb-randr0 is already the newest version (1.17.0-2+b2).
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tar is already the newest version (1.35+dfsg-4).
libgpg-error0 is already the newest version (1.58-2).
libgpg-error0 set to manually installed.
libmouse-perl is already the newest version (2.6.1-1).
libmouse-perl set to manually installed.
libtext-autoformat-perl is already the newest version (1.750000-2).
libtext-autoformat-perl set to manually installed.
libnghttp3-9 is already the newest version (1.12.0-1).
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libngtcp2-crypto-ossl-dev is already the newest version (1.16.0-1).
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libqt6printsupport6 is already the newest version (6.9.2+dfsg-4).
libqt6printsupport6 set to manually installed.
libqt6core5compat6 is already the newest version (6.9.2-3).
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libz3-4 is already the newest version (4.13.3-1+b1).
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libappstream5 is already the newest version (1.1.2-1).
libappstream5 set to manually installed.
libevent-2.1-7t64 is already the newest version (2.1.12-stable-10+b2).
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libc-gconv-modules-extra is already the newest version (2.42-13).
libcc1-0 is already the newest version (15.2.0-14).
libcc1-0 set to manually installed.
libfribidi0 is already the newest version (1.0.16-5).
libfribidi0 set to manually installed.
libdb5.3t64 is already the newest version (5.3.28+dfsg2-11).
libitm1 is already the newest version (15.2.0-14).
libitm1 set to manually installed.
libgnutls-dane0t64 is already the newest version (3.8.12-3).
libgnutls-dane0t64 set to manually installed.
libhwy1t64 is already the newest version (1.3.0-2).
libhwy1t64 set to manually installed.
libiterator-util-perl is already the newest version (0.02+ds1-2).
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libsharpyuv0 is already the newest version (1.5.0-0.1+b1).
libsharpyuv0 set to manually installed.
m4 is already the newest version (1.4.21-1).
m4 set to manually installed.
libpam0g is already the newest version (1.7.0-5+b1).
libavahi-client3 is already the newest version (0.8-18).
libavahi-client3 set to manually installed.
libdynaloader-functions-perl is already the newest version (0.004-2).
libdynaloader-functions-perl set to manually installed.
libperl-critic-perl is already the newest version (1.156-1).
libperl-critic-perl set to manually installed.
libxinerama1 is already the newest version (2:1.1.4-3+b5).
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libxcb-icccm4 is already the newest version (0.4.2-1+b1).
libxcb-icccm4 set to manually installed.
libcamd3 is already the newest version (1:7.12.2+dfsg-1).
libcamd3 set to manually installed.
pkgconf-bin is already the newest version (2.5.1-4).
pkgconf-bin set to manually installed.
coreutils is already the newest version (9.7-3).
libjson-maybexs-perl is already the newest version (1.004008-1).
libjson-maybexs-perl set to manually installed.
libselinux1 is already the newest version (3.9-4+b1).
libclone-choose-perl is already the newest version (0.010-2).
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libngtcp2-crypto-gnutls8 is already the newest version (1.16.0-1).
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libgssrpc4t64 is already the newest version (1.22.1-2).
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liblog-any-adapter-screen-perl is already the newest version (0.141-2).
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libiterator-perl is already the newest version (0.03+ds1-2).
libiterator-perl set to manually installed.
libreadline8t64 is already the newest version (8.3-4).
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libgssapi-krb5-2 is already the newest version (1.22.1-2).
libgssapi-krb5-2 set to manually installed.
bsdextrautils is already the newest version (2.41.3-4).
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libb-hooks-op-check-perl is already the newest version (0.22-3+b3).
libb-hooks-op-check-perl set to manually installed.
libfile-libmagic-perl is already the newest version (1.23-2+b2).
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libtool is already the newest version (2.5.4-9).
libtool set to manually installed.
libimagequant0 is already the newest version (4.4.1-1+b1).
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libexception-class-perl is already the newest version (1.45-1).
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sysvinit-utils is already the newest version (3.15-6).
libdrm-common is already the newest version (2.4.131-1).
libdrm-common set to manually installed.
libblkid1 is already the newest version (2.41.3-4).
autotools-dev is already the newest version (20240727.1).
autotools-dev set to manually installed.
libngtcp2-16 is already the newest version (1.16.0-1).
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libproxy1v5 is already the newest version (0.5.12-1).
libproxy1v5 set to manually installed.
libxcb-present0 is already the newest version (1.17.0-2+b2).
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libmpg123-0t64 is already the newest version (1.33.3-2).
libmpg123-0t64 set to manually installed.
libclass-tiny-perl is already the newest version (1.008-2).
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cpp-15-powerpc64le-linux-gnu is already the newest version (15.2.0-14).
cpp-15-powerpc64le-linux-gnu set to manually installed.
libxkbcommon0 is already the newest version (1.13.1-1).
libxkbcommon0 set to manually installed.
libaec0 is already the newest version (1.1.5-1).
libaec0 set to manually installed.
libsasl2-modules-db is already the newest version (2.1.28+dfsg1-10).
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libreadline-dev is already the newest version (8.3-4).
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libpangocairo-1.0-0 is already the newest version (1.57.0-1).
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libcolamd3 is already the newest version (1:7.12.2+dfsg-1).
libcolamd3 set to manually installed.
libdrm2 is already the newest version (2.4.131-1).
libdrm2 set to manually installed.
libgnutls30t64 is already the newest version (3.8.12-3).
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libb-keywords-perl is already the newest version (1.29-1).
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libppix-utils-perl is already the newest version (0.003-2).
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libassuan9 is already the newest version (3.0.2-2+b1).
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liblua5.4-0 is already the newest version (5.4.8-1+b1).
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libqt6widgets6 is already the newest version (6.9.2+dfsg-4).
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libsoftware-copyright-perl is already the newest version (0.015-1).
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libopus0 is already the newest version (1.6.1-1).
libopus0 set to manually installed.
libdata-messagepack-perl is already the newest version (1.02-3).
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libapp-cmd-perl is already the newest version (0.339-1).
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libconfig-model-dpkg-perl is already the newest version (3.017).
libconfig-model-dpkg-perl set to manually installed.
libcurl4-openssl-dev is already the newest version (8.19.0~rc2-2).
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libpixman-1-0 is already the newest version (0.46.4-1+b1).
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dh-strip-nondeterminism is already the newest version (1.15.0-1).
dh-strip-nondeterminism set to manually installed.
libmagic-mgc is already the newest version (1:5.46-5+b1).
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libfftw3-single3 is already the newest version (3.3.10-2+b2).
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libdbus-1-3 is already the newest version (1.16.2-4).
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libattr1 is already the newest version (1:2.5.2-4).
libencode-locale-perl is already the newest version (1.05-3).
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libtry-tiny-perl is already the newest version (0.32-1).
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libxau-dev is already the newest version (1:1.0.11-1+b1).
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libheif-plugin-libde265 is already the newest version (1.21.2-3).
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libuchardet0 is already the newest version (0.0.8-2+b1).
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xkb-data is already the newest version (2.46-2).
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libaom3 is already the newest version (3.13.1-2).
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libglpk40 is already the newest version (5.0-2+b1).
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libidn2-dev is already the newest version (2.3.8-4+b1).
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libsub-exporter-progressive-perl is already the newest version (0.001013-3).
libsub-exporter-progressive-perl set to manually installed.
cpp-powerpc64le-linux-gnu is already the newest version (4:15.2.0-5).
cpp-powerpc64le-linux-gnu set to manually installed.
libmpfr6 is already the newest version (4.2.2-2+b1).
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libx11-xcb1 is already the newest version (2:1.8.13-1).
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libxxhash0 is already the newest version (0.8.3-2+b1).
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libmldbm-perl is already the newest version (2.05-4).
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perltidy is already the newest version (20250105-1).
perltidy set to manually installed.
libtinfo6 is already the newest version (6.6+20251231-1).
libbrotli1 is already the newest version (1.2.0-3).
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libasan8 is already the newest version (15.2.0-14).
libasan8 set to manually installed.
liblist-moreutils-perl is already the newest version (0.430-2).
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libaec-dev is already the newest version (1.1.5-1).
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libncurses-dev is already the newest version (6.6+20251231-1).
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libparse-recdescent-perl is already the newest version (1.967015+dfsg-4).
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x11-common is already the newest version (1:7.7+26).
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octave is already the newest version (10.3.0-3).
octave set to manually installed.
libyuv0 is already the newest version (0.0.1922.20260106-1).
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build-essential is already the newest version (12.12).
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binutils-powerpc64le-linux-gnu is already the newest version (2.46-2).
binutils-powerpc64le-linux-gnu set to manually installed.
man-db is already the newest version (2.13.1-1).
man-db set to manually installed.
libxml-namespacesupport-perl is already the newest version (1.12-2).
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liblerc4 is already the newest version (4.0.0+ds-5+b1).
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libcapture-tiny-perl is already the newest version (0.50-1).
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libssl-dev is already the newest version (3.5.5-1).
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liburi-perl is already the newest version (5.34-2).
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libjpeg-dev is already the newest version (1:2.1.5-4).
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libssl3t64 is already the newest version (3.5.5-1).
appstream is already the newest version (1.1.2-1).
appstream set to manually installed.
libhdf5-dev is already the newest version (1.14.6+repack-2).
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libregexp-pattern-license-perl is already the newest version (3.11.2-1).
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libpod-constants-perl is already the newest version (0.19-2).
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libglvnd0 is already the newest version (1.7.0-3).
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libdebhelper-perl is already the newest version (13.30).
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libpath-tiny-perl is already the newest version (0.148-1).
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libtext-wrapper-perl is already the newest version (1.05-4).
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libwebp7 is already the newest version (1.5.0-0.1+b1).
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libxmlb2 is already the newest version (0.3.24-2).
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pkgconf is already the newest version (2.5.1-4).
pkgconf set to manually installed.
libsqlite3-0 is already the newest version (3.46.1-9).
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readline-common is already the newest version (8.3-4).
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xtrans-dev is already the newest version (1.6.0-1).
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liblist-someutils-perl is already the newest version (0.59-1).
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autoconf is already the newest version (2.72-3.1).
autoconf set to manually installed.
libvorbisenc2 is already the newest version (1.3.7-3+b1).
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dpkg is already the newest version (1.23.5).
libtime-moment-perl is already the newest version (0.46-1).
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libxdmcp6 is already the newest version (1:1.1.5-2).
libxdmcp6 set to manually installed.
libxcb-render-util0 is already the newest version (0.3.10-1+b1).
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intltool-debian is already the newest version (0.35.0+20060710.6).
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libx11-6 is already the newest version (2:1.8.13-1).
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perl-openssl-defaults is already the newest version (7+b2).
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libxcb-util1 is already the newest version (0.4.1-1+b1).
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libltdl7 is already the newest version (2.5.4-9).
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libfftw3-dev is already the newest version (3.3.10-2+b2).
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debconf is already the newest version (1.5.92).
mesa-libgallium is already the newest version (26.0.0-1).
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libsub-install-perl is already the newest version (0.929-1).
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libperlio-gzip-perl is already the newest version (0.20-1+b4).
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init-system-helpers is already the newest version (1.69).
dpkg-dev is already the newest version (1.23.5).
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libdevel-callchecker-perl is already the newest version (0.009-3).
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zlib1g is already the newest version (1:1.3.dfsg+really1.3.1-3).
libnghttp2-dev is already the newest version (1.68.0-1).
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libnpth0t64 is already the newest version (1.8-3+b1).
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libegl-mesa0 is already the newest version (26.0.0-1).
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libtext-xslate-perl is already the newest version (3.5.9-2+b2).
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ucf is already the newest version (3.0052).
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libio-string-perl is already the newest version (1.08-4).
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libdata-section-perl is already the newest version (0.200008-1).
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base-files is already the newest version (14).
libkdb5-10t64 is already the newest version (1.22.1-2).
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libpackage-stash-perl is already the newest version (0.40-1).
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libkrb5-3 is already the newest version (1.22.1-2).
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libtext-levenshteinxs-perl is already the newest version (0.03-5+b4).
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libboolean-perl is already the newest version (0.46-3).
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libexpat1 is already the newest version (2.7.4-1).
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libclass-method-modifiers-perl is already the newest version (2.15-1).
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libgl-dev is already the newest version (1.7.0-3).
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libtimedate-perl is already the newest version (2.3300-2).
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libsamplerate0 is already the newest version (0.2.2-4+b3).
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libxcb-shape0 is already the newest version (1.17.0-2+b2).
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libc-dev-bin is already the newest version (2.42-13).
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libpsl5t64 is already the newest version (0.21.2-1.1+b2).
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libxcb-cursor0 is already the newest version (0.1.6-1).
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libio-interactive-perl is already the newest version (1.027-1).
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libstdc++-15-dev is already the newest version (15.2.0-14).
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libxft2 is already the newest version (2.3.6-1+b5).
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aglfn is already the newest version (1.7+git20191031.4036a9c-2).
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libtest-exception-perl is already the newest version (0.43-3).
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libb2-1 is already the newest version (0.98.1-1.1+b3).
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libfftw3-bin is already the newest version (3.3.10-2+b2).
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libfeature-compat-try-perl is already the newest version (0.05-1).
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libxcb-image0 is already the newest version (0.4.0-2+b3).
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libglib2.0-0t64 is already the newest version (2.87.2-3).
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libstdc++6 is already the newest version (15.2.0-14).
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libindirect-perl is already the newest version (0.39-2+b4).
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libemail-address-xs-perl is already the newest version (1.05-1+b4).
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debhelper is already the newest version (13.30).
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libtext-unidecode-perl is already the newest version (1.30-3).
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libregexp-wildcards-perl is already the newest version (1.05-3).
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libdevel-size-perl is already the newest version (0.86-1).
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libgl1-mesa-dri is already the newest version (26.0.0-1).
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libjbig0 is already the newest version (2.1-6.1+b3).
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libqt6help6 is already the newest version (6.9.2-5).
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libcups2t64 is already the newest version (2.4.16-1).
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cpp is already the newest version (4:15.2.0-5).
cpp set to manually installed.
libicu76 is already the newest version (76.1-4+b1).
libicu76 set to manually installed.
libpam-runtime is already the newest version (1.7.0-5).
libsmartcols1 is already the newest version (2.41.3-4).
libxcb-render0 is already the newest version (1.17.0-2+b2).
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liblsan0 is already the newest version (15.2.0-14).
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libclass-inspector-perl is already the newest version (1.36-3).
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libbrotli-dev is already the newest version (1.2.0-3).
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libfftw3-long3 is already the newest version (3.3.10-2+b2).
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liblingua-en-inflect-perl is already the newest version (1.905-2).
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libpam-modules is already the newest version (1.7.0-5+b1).
libde265-0 is already the newest version (1.0.16-1+b1).
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lintian is already the newest version (2.130.0).
lintian set to manually installed.
libmp3lame0 is already the newest version (3.101~svn6525+dfsg-2).
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libpng16-16t64 is already the newest version (1.6.55-1).
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unzip is already the newest version (6.0-29).
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patchutils is already the newest version (0.4.3-1).
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libopengl0 is already the newest version (1.7.0-3).
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libfile-basedir-perl is already the newest version (0.09-2).
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libctf0 is already the newest version (2.46-2).
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zlib1g-dev is already the newest version (1:1.3.dfsg+really1.3.1-3).
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liblist-compare-perl is already the newest version (0.55-2).
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libsndfile1 is already the newest version (1.2.2-4).
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make is already the newest version (4.4.1-3).
make set to manually installed.
binutils-common is already the newest version (2.46-2).
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libunbound8 is already the newest version (1.24.2-1).
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libpipeline1 is already the newest version (1.5.8-2).
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gcc-15-powerpc64le-linux-gnu is already the newest version (15.2.0-14).
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libtext-template-perl is already the newest version (1.61-1).
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libb-hooks-endofscope-perl is already the newest version (0.28-2).
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libconvert-binhex-perl is already the newest version (1.125-3).
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gnuplot-nox is already the newest version (6.0.3+dfsg1-1).
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libsz2 is already the newest version (1.1.5-1).
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libparse-debcontrol-perl is already the newest version (2.005-6).
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libxcb-xfixes0 is already the newest version (1.17.0-2+b2).
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libdata-validate-domain-perl is already the newest version (0.15-1).
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libsm6 is already the newest version (2:1.2.6-1+b1).
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libedit2 is already the newest version (3.1-20251016-1).
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libimport-into-perl is already the newest version (1.002005-2).
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libcap-ng0 is already the newest version (0.9.1-1).
libmime-tools-perl is already the newest version (5.517-1).
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file is already the newest version (1:5.46-5+b1).
file set to manually installed.
libxcb-glx0 is already the newest version (1.17.0-2+b2).
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dwz is already the newest version (0.16-2).
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gpg is already the newest version (2.4.8-5).
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libperl5.40 is already the newest version (5.40.1-7).
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libblas3 is already the newest version (3.12.1-7+b1).
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libgbm1 is already the newest version (26.0.0-1).
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libpsl-dev is already the newest version (0.21.2-1.1+b2).
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libgd3 is already the newest version (2.3.3-13+b1).
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libhtml-form-perl is already the newest version (6.13-1).
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dh-octave-autopkgtest is already the newest version (1.14.1).
dh-octave-autopkgtest set to manually installed.
libgcc-15-dev is already the newest version (15.2.0-14).
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libsub-quote-perl is already the newest version (2.006009-1).
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libfltk-gl1.3t64 is already the newest version (1.3.11-3).
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libmousex-strictconstructor-perl is already the newest version (0.02-3).
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libio-html-perl is already the newest version (1.004-3).
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libquadmath0 is already the newest version (15.2.0-14).
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libgdbm6t64 is already the newest version (1.26-1+b1).
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libipc-system-simple-perl is already the newest version (1.30-2).
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libgav1-2 is already the newest version (0.20.0-2).
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libwacom-common is already the newest version (2.18.0-1).
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fontconfig-config is already the newest version (2.17.1-5).
fontconfig-config set to manually installed.
libproc2-0 is already the newest version (2:4.0.4-9+b1).
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libqt6openglwidgets6 is already the newest version (6.9.2+dfsg-4).
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liberror-perl is already the newest version (0.17030-1).
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liblist-utilsby-perl is already the newest version (0.12-2).
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libc6 is already the newest version (2.42-13).
liblist-moreutils-xs-perl is already the newest version (0.430-4+b2).
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libzstd-dev is already the newest version (1.5.7+dfsg-3+b1).
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libheif-plugin-dav1d is already the newest version (1.21.2-3).
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libaudit-common is already the newest version (1:4.1.2-1).
libhdf5-310 is already the newest version (1.14.6+repack-2).
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libnet-ssleay-perl is already the newest version (1.94-3+b1).
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libarpack2t64 is already the newest version (3.9.1-6+b1).
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debianutils is already the newest version (5.23.2).
hdf5-helpers is already the newest version (1.14.6+repack-2).
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libfile-sharedir-perl is already the newest version (1.118-3).
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libflac14 is already the newest version (1.5.0+ds-5).
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libtext-glob-perl is already the newest version (0.11-3).
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libhttp-date-perl is already the newest version (6.06-1).
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libcurl3t64-gnutls is already the newest version (8.19.0~rc2-2).
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diffstat is already the newest version (1.68-1).
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libnghttp3-dev is already the newest version (1.12.0-1).
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libqhull-r8.0 is already the newest version (2020.2-8).
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libldap-dev is already the newest version (2.6.10+dfsg-1+b1).
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libqscintilla2-qt6-15 is already the newest version (2.14.1+dfsg-2).
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libsoftware-license-perl is already the newest version (0.104007-1).
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gnuplot-data is already the newest version (6.0.3+dfsg1-1).
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libhash-merge-perl is already the newest version (0.302-1).
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libparams-validate-perl is already the newest version (1.31-2+b4).
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libmodule-pluggable-perl is already the newest version (6.3-1).
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dh-octave is already the newest version (1.14.1).
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libhttp-message-perl is already the newest version (7.01-1).
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libio-tiecombine-perl is already the newest version (1.005-3).
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libclone-perl is already the newest version (0.47-1+b2).
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libjack-jackd2-0 is already the newest version (1.9.22~dfsg-5+b1).
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libxml-sax-base-perl is already the newest version (1.09-3).
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libfile-stripnondeterminism-perl is already the newest version (1.15.0-1).
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libregexp-pattern-perl is already the newest version (0.2.14-3).
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libldap2 is already the newest version (2.6.10+dfsg-1+b1).
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libclass-c3-perl is already the newest version (0.35-2).
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libarchive-zip-perl is already the newest version (1.68-1).
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libgmp-dev is already the newest version (2:6.3.0+dfsg-5+b1).
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libpkgconf7 is already the newest version (2.5.1-4).
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libppix-quotelike-perl is already the newest version (0.023-1).
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libtext-reform-perl is already the newest version (1.20-5).
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libcgi-pm-perl is already the newest version (4.71-1).
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libmodule-runtime-perl is already the newest version (0.018-1).
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findutils is already the newest version (4.10.0-3).
libhdf5-fortran-310 is already the newest version (1.14.6+repack-2).
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libberkeleydb-perl is already the newest version (0.66-2).
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liblwp-protocol-https-perl is already the newest version (6.14-1).
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libxfixes3 is already the newest version (1:6.0.0-2+b5).
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libduktape207 is already the newest version (2.7.0-2+b3).
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libdrm-amdgpu1 is already the newest version (2.4.131-1).
libdrm-amdgpu1 set to manually installed.
procps is already the newest version (2:4.0.4-9+b1).
procps set to manually installed.
libngtcp2-crypto-ossl0 is already the newest version (1.16.0-1).
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libssh2-1t64 is already the newest version (1.11.1-1+b1).
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libnet-domain-tld-perl is already the newest version (1.75-4).
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libtime-duration-perl is already the newest version (1.21-2).
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libwww-robotrules-perl is already the newest version (6.02-1).
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libelf1t64 is already the newest version (0.194-1).
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libapt-pkg-perl is already the newest version (0.1.43).
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libhtml-tagset-perl is already the newest version (3.24-1).
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libqt6dbus6 is already the newest version (6.9.2+dfsg-4).
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libtext-wrapi18n-perl is already the newest version (0.06-10).
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libcom-err2 is already the newest version (1.47.2-3+b8).
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libccolamd3 is already the newest version (1:7.12.2+dfsg-1).
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diffutils is already the newest version (1:3.12-1).
automake is already the newest version (1:1.18.1-3).
automake set to manually installed.
libstring-rewriteprefix-perl is already the newest version (0.009-1).
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libfontconfig1 is already the newest version (2.17.1-5).
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octave-datatypes is already the newest version (1.1.8-2).
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libstring-license-perl is already the newest version (0.0.11-1).
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gcc-15 is already the newest version (15.2.0-14).
gcc-15 set to manually installed.
libhtml-html5-entities-perl is already the newest version (0.004-3).
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cme is already the newest version (1.044-2).
cme set to manually installed.
librtmp-dev is already the newest version (2.4+20151223.gitfa8646d.1-3+b1).
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licensecheck is already the newest version (3.3.9-1).
licensecheck set to manually installed.
fonts-freefont-otf is already the newest version (20211204+svn4273-4).
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libffi8 is already the newest version (3.5.2-3+b1).
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libobject-pad-perl is already the newest version (0.823-2).
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libgmpxx4ldbl is already the newest version (2:6.3.0+dfsg-5+b1).
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libstring-format-perl is already the newest version (1.18-1).
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libterm-readkey-perl is already the newest version (2.38-2+b4).
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libparams-classify-perl is already the newest version (0.015-2+b5).
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libxdmcp-dev is already the newest version (1:1.1.5-2).
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hostname is already the newest version (3.25).
libdeflate0 is already the newest version (1.23-2+b1).
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libarray-intspan-perl is already the newest version (2.004-2).
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bzip2 is already the newest version (1.0.8-6+b1).
bzip2 set to manually installed.
libunicode-utf8-perl is already the newest version (0.64-1).
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libyaml-libyaml-perl is already the newest version (0.904.0+ds-1).
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libreadonly-perl is already the newest version (2.050-3).
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libxml2-16 is already the newest version (2.15.1+dfsg-2+b1).
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libdatrie1 is already the newest version (0.2.14-1).
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liblapack3 is already the newest version (3.12.1-7+b1).
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libfont-ttf-perl is already the newest version (1.06-2).
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libmd0 is already the newest version (1.1.0-2+b2).
libdata-dpath-perl is already the newest version (0.60-1).
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dash is already the newest version (0.5.12-12).
libxau6 is already the newest version (1:1.0.11-1+b1).
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libstrictures-perl is already the newest version (2.000006-1).
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libtasn1-6 is already the newest version (4.21.0-2).
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libclass-data-inheritable-perl is already the newest version (0.10-1).
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libgcrypt20 is already the newest version (1.11.2-3+b1).
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libwww-perl is already the newest version (6.81-1).
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libnet-http-perl is already the newest version (6.24-1).
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gpgconf is already the newest version (2.4.8-5).
gpgconf set to manually installed.
libidn2-0 is already the newest version (2.3.8-4+b1).
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libvulkan1 is already the newest version (1.4.341.0-1).
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libxcb1-dev is already the newest version (1.17.0-2+b2).
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libstring-escape-perl is already the newest version (2010.002-3).
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libtext-charwidth-perl is already the newest version (0.04-11+b5).
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perl is already the newest version (5.40.1-7).
perl set to manually installed.
libcpanel-json-xs-perl is already the newest version (4.40-1).
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xz-utils is already the newest version (5.8.2-2).
xz-utils set to manually installed.
libhogweed6t64 is already the newest version (3.10.2-1).
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libhdf5-cpp-310 is already the newest version (1.14.6+repack-2).
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I: running --customize-hook in shell: sh -c 'chroot "$1" dpkg-query --showformat '${binary:Package}=${Version}\n' --show > "$1/pkglist"' exec /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI
I: running special hook: download /pkglist ./pkglist
I: running --customize-hook in shell: sh -c 'rm "$1/pkglist"' exec /srv/rebuilderd/tmp/mmdebstrap.6EsnQI9dgI
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env --chdir=/srv/rebuilderd/tmp/rebuilderdybLdwX/out DEB_BUILD_OPTIONS=parallel=8 LANG=C.UTF-8 LC_COLLATE=C.UTF-8 LC_CTYPE=C.UTF-8 SOURCE_DATE_EPOCH=1771932468 SBUILD_CONFIG=/srv/rebuilderd/tmp/debrebuildKIarK6/debrebuild.sbuildrc.FKncqnVhqiSW sbuild --build=ppc64el --host=ppc64el --no-source --arch-any --no-arch-all --chroot=/srv/rebuilderd/tmp/debrebuildKIarK6/debrebuild.tar.fYEUXED1Ipve --chroot-mode=unshare --dist=unstable --no-run-lintian --no-run-piuparts --no-run-autopkgtest --no-apt-update --no-apt-upgrade --no-apt-distupgrade --verbose --nolog --bd-uninstallable-explainer= --build-path=/build/reproducible-path --dsc-dir=octave-statistics-1.8.1 /srv/rebuilderd/tmp/rebuilderdybLdwX/inputs/octave-statistics_1.8.1-3.dsc
I: consider moving your ~/.sbuildrc to /srv/rebuilderd/.config/sbuild/config.pl
The Debian buildds switched to the "unshare" backend and sbuild will default to it in the future.
To start using "unshare" add this to your `~/.config/sbuild/config.pl`:
	$chroot_mode = "unshare";
If you want to keep the old "schroot" mode even in the future, add the following to your `~/.config/sbuild/config.pl`:
	$chroot_mode = "schroot";
	$schroot = "schroot";
sbuild (Debian sbuild) 0.89.3+deb13u4 (28 December 2025) on osuosl6-ppc64el.debian.net

+==============================================================================+
| octave-statistics 1.8.1-3 (ppc64el)          Wed, 25 Feb 2026 03:11:13 +0000 |
+==============================================================================+

Package: octave-statistics
Version: 1.8.1-3
Source Version: 1.8.1-3
Distribution: unstable
Machine Architecture: ppc64el
Host Architecture: ppc64el
Build Architecture: ppc64el
Build Type: any

I: No tarballs found in /srv/rebuilderd/.cache/sbuild
I: Unpacking /srv/rebuilderd/tmp/debrebuildKIarK6/debrebuild.tar.fYEUXED1Ipve to /srv/rebuilderd/tmp/tmp.sbuild.OBtmkaZEBt...
I: Setting up the chroot...
I: Creating chroot session...
I: Setting up log color...
I: Setting up apt archive...

+------------------------------------------------------------------------------+
| Fetch source files                           Wed, 25 Feb 2026 03:11:22 +0000 |
+------------------------------------------------------------------------------+


Local sources
-------------

/srv/rebuilderd/tmp/rebuilderdybLdwX/inputs/octave-statistics_1.8.1-3.dsc exists in /srv/rebuilderd/tmp/rebuilderdybLdwX/inputs; copying to chroot

+------------------------------------------------------------------------------+
| Install package build dependencies           Wed, 25 Feb 2026 03:11:23 +0000 |
+------------------------------------------------------------------------------+


Setup apt archive
-----------------

Merged Build-Depends: debhelper-compat (= 13), dh-octave (>= 1.11.1), dh-sequence-octave, octave, octave-datatypes (>= 1.1.8), octave-io, build-essential
Merged Build-Conflicts: octave-nan
Filtered Build-Depends: debhelper-compat (= 13), dh-octave (>= 1.11.1), dh-sequence-octave, octave, octave-datatypes (>= 1.1.8), octave-io, build-essential
Filtered Build-Conflicts: octave-nan
dpkg-deb: building package 'sbuild-build-depends-main-dummy' in '/build/reproducible-path/resolver-uqy0Mg/apt_archive/sbuild-build-depends-main-dummy.deb'.

Install main build dependencies (apt-based resolver)
----------------------------------------------------

Installing build dependencies

+------------------------------------------------------------------------------+
| Check architectures                          Wed, 25 Feb 2026 03:11:27 +0000 |
+------------------------------------------------------------------------------+

Arch check ok (ppc64el included in any all)

+------------------------------------------------------------------------------+
| Build environment                            Wed, 25 Feb 2026 03:11:27 +0000 |
+------------------------------------------------------------------------------+

Kernel: Linux 6.12.73+deb13-powerpc64le-64k #1 SMP Debian 6.12.73-1 (2026-02-17) ppc64el (ppc64le)
Toolchain package versions: binutils_2.46-2 dpkg-dev_1.23.5 g++-15_15.2.0-14 gcc-15_15.2.0-14 libc6-dev_2.42-13 libstdc++-15-dev_15.2.0-14 libstdc++6_15.2.0-14 linux-libc-dev_6.18.12-1
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libtsan2_15.2.0-14 libubsan1_15.2.0-14 libuchardet0_0.0.8-2+b1 libudev1_259.1-1 libumfpack6_1:7.12.2+dfsg-1 libunbound8_1.24.2-1 libunicode-utf8-perl_0.64-1 libunistring5_1.3-2+b1 liburi-perl_5.34-2 libuuid1_2.41.3-4 libvariable-magic-perl_0.64-1+b1 libvorbis0a_1.3.7-3+b1 libvorbisenc2_1.3.7-3+b1 libvulkan1_1.4.341.0-1 libwacom-common_2.18.0-1 libwacom9_2.18.0-1 libwayland-client0_1.24.0-2+b2 libwebp7_1.5.0-0.1+b1 libwebpmux3_1.5.0-0.1+b1 libwmflite-0.2-7_0.2.13-2 libwww-mechanize-perl_2.20-1 libwww-perl_6.81-1 libwww-robotrules-perl_6.02-1 libx11-6_2:1.8.13-1 libx11-data_2:1.8.13-1 libx11-dev_2:1.8.13-1 libx11-xcb1_2:1.8.13-1 libxau-dev_1:1.0.11-1+b1 libxau6_1:1.0.11-1+b1 libxcb-cursor0_0.1.6-1 libxcb-dri3-0_1.17.0-2+b2 libxcb-glx0_1.17.0-2+b2 libxcb-icccm4_0.4.2-1+b1 libxcb-image0_0.4.0-2+b3 libxcb-keysyms1_0.4.1-1+b1 libxcb-present0_1.17.0-2+b2 libxcb-randr0_1.17.0-2+b2 libxcb-render-util0_0.3.10-1+b1 libxcb-render0_1.17.0-2+b2 libxcb-shape0_1.17.0-2+b2 libxcb-shm0_1.17.0-2+b2 libxcb-sync1_1.17.0-2+b2 libxcb-util1_0.4.1-1+b1 libxcb-xfixes0_1.17.0-2+b2 libxcb-xinput0_1.17.0-2+b2 libxcb-xkb1_1.17.0-2+b2 libxcb1_1.17.0-2+b2 libxcb1-dev_1.17.0-2+b2 libxcursor1_1:1.2.3-1+b1 libxdmcp-dev_1:1.1.5-2 libxdmcp6_1:1.1.5-2 libxext6_2:1.3.4-1+b4 libxfixes3_1:6.0.0-2+b5 libxft2_2.3.6-1+b5 libxinerama1_2:1.1.4-3+b5 libxkbcommon-x11-0_1.13.1-1 libxkbcommon0_1.13.1-1 libxml-libxml-perl_2.0207+dfsg+really+2.0134-7 libxml-namespacesupport-perl_1.12-2 libxml-sax-base-perl_1.09-3 libxml-sax-perl_1.02+dfsg-4 libxml2-16_2.15.1+dfsg-2+b1 libxmlb2_0.3.24-2 libxpm4_1:3.5.17-1+b4 libxrender1_1:0.9.12-1+b1 libxs-parse-keyword-perl_0.49-1 libxs-parse-sublike-perl_0.41-1 libxshmfence1_1.3.3-1+b1 libxxf86vm1_1:1.1.4-2 libxxhash0_0.8.3-2+b1 libyaml-0-2_0.2.5-2+b1 libyaml-libyaml-perl_0.904.0+ds-1 libyaml-pp-perl_0.39.0-1 libyaml-tiny-perl_1.76-1 libyuv0_0.0.1922.20260106-1 libz3-4_4.13.3-1+b1 libzstd-dev_1.5.7+dfsg-3+b1 libzstd1_1.5.7+dfsg-3+b1 licensecheck_3.3.9-1 lintian_2.130.0 linux-libc-dev_6.18.12-1 lzop_1.04-2 m4_1.4.21-1 make_4.4.1-3 man-db_2.13.1-1 mawk_1.3.4.20260129-1 mesa-libgallium_26.0.0-1 ncurses-base_6.6+20251231-1 ncurses-bin_6.6+20251231-1 netbase_6.5 nettle-dev_3.10.2-1 octave_10.3.0-3 octave-common_10.3.0-3 octave-datatypes_1.1.8-2 octave-dev_10.3.0-3 octave-io_2.7.1-1 openssl_3.5.5-1 openssl-provider-legacy_3.5.5-1 patch_2.8-2 patchutils_0.4.3-1 perl_5.40.1-7 perl-base_5.40.1-7 perl-modules-5.40_5.40.1-7 perl-openssl-defaults_7+b2 perltidy_20250105-1 pkgconf_2.5.1-4 pkgconf-bin_2.5.1-4 plzip_1.13~rc1-3 po-debconf_1.0.22 procps_2:4.0.4-9+b1 readline-common_8.3-4 rpcsvc-proto_1.4.3-1 sed_4.9-2 sensible-utils_0.0.26 shared-mime-info_2.4-5+b3 sysvinit-utils_3.15-6 t1utils_1.41-4 tar_1.35+dfsg-4 tex-common_6.20 texinfo_7.2-5 texinfo-lib_7.2-5 ucf_3.0052 unzip_6.0-29 util-linux_2.41.3-4 x11-common_1:7.7+26 x11proto-dev_2025.1-1 xkb-data_2.46-2 xorg-sgml-doctools_1:1.11-1.1 xtrans-dev_1.6.0-1 xz-utils_5.8.2-2 zlib1g_1:1.3.dfsg+really1.3.1-3 zlib1g-dev_1:1.3.dfsg+really1.3.1-3

+------------------------------------------------------------------------------+
| Build                                        Wed, 25 Feb 2026 03:11:27 +0000 |
+------------------------------------------------------------------------------+


Unpack source
-------------

-----BEGIN PGP SIGNED MESSAGE-----
Hash: SHA512

Format: 3.0 (quilt)
Source: octave-statistics
Binary: octave-statistics, octave-statistics-common
Architecture: any all
Version: 1.8.1-3
Maintainer: Debian Octave Group <team+pkg-octave-team@tracker.debian.org>
Uploaders: Sébastien Villemot <sebastien@debian.org>, Rafael Laboissière <rafael@debian.org>
Homepage: https://gnu-octave.github.io/packages/statistics/
Standards-Version: 4.7.3
Vcs-Browser: https://salsa.debian.org/pkg-octave-team/octave-statistics
Vcs-Git: https://salsa.debian.org/pkg-octave-team/octave-statistics.git
Testsuite: autopkgtest-pkg-octave
Build-Depends: debhelper-compat (= 13), dh-octave (>= 1.11.1), dh-sequence-octave, octave, octave-datatypes (>= 1.1.8), octave-io
Build-Conflicts: octave-nan
Package-List:
 octave-statistics deb math optional arch=any
 octave-statistics-common deb math optional arch=all
Checksums-Sha1:
 b4003dc5a80b0516221c89fdc0ea3c032974607f 1465996 octave-statistics_1.8.1.orig.tar.gz
 0775d429d8e2150c4098ac1c69967c8667e793f3 10752 octave-statistics_1.8.1-3.debian.tar.xz
Checksums-Sha256:
 5174f80ddf182674ca06d871d9fbed439f3eaed3e3970892a0716ed480f5545d 1465996 octave-statistics_1.8.1.orig.tar.gz
 ebde791e6ebde725ec4e565ebf18b2c20878a521e7c084a553d7b8c9d2350ae5 10752 octave-statistics_1.8.1-3.debian.tar.xz
Files:
 efe66a1d5028fc71d416b72b08de9742 1465996 octave-statistics_1.8.1.orig.tar.gz
 a56e8e407a47278ed7f1a14230c4132e 10752 octave-statistics_1.8.1-3.debian.tar.xz
Dgit: 005aba858d23dc3174eb23a1cfbed7a940e6e700 debian archive/debian/1.8.1-3 https://git.dgit.debian.org/octave-statistics

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dpkg-source: warning: cannot verify inline signature for ./octave-statistics_1.8.1-3.dsc: missing OpenPGP keyrings
dpkg-source: info: verifying ./octave-statistics_1.8.1-3.dsc
dpkg-source: info: skipping absent keyring /usr/share/keyrings/debian-keyring.pgp
dpkg-source: info: skipping absent keyring /usr/share/keyrings/debian-tag2upload.pgp
dpkg-source: info: skipping absent keyring /usr/share/keyrings/debian-nonupload.pgp
dpkg-source: info: skipping absent keyring /usr/share/keyrings/debian-maintainers.pgp
dpkg-source: info: extracting octave-statistics in /build/reproducible-path/octave-statistics-1.8.1
dpkg-source: info: unpacking octave-statistics_1.8.1.orig.tar.gz
dpkg-source: info: unpacking octave-statistics_1.8.1-3.debian.tar.xz
dpkg-source: info: using patch list from debian/patches/series
dpkg-source: info: applying relax-tolerance-unit-test-grpstats.patch

Check disk space
----------------

Sufficient free space for build

User Environment
----------------

APT_CONFIG=/var/lib/sbuild/apt.conf
DEB_BUILD_OPTIONS=parallel=8
HOME=/sbuild-nonexistent
LANG=C.UTF-8
LC_ALL=C.UTF-8
LC_COLLATE=C.UTF-8
LC_CTYPE=C.UTF-8
LOGNAME=sbuild
PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games
SHELL=/bin/sh
SOURCE_DATE_EPOCH=1771932468
USER=sbuild

dpkg-buildpackage
-----------------

Command: dpkg-buildpackage --sanitize-env -us -uc -B
dpkg-buildpackage: info: source package octave-statistics
dpkg-buildpackage: info: source version 1.8.1-3
dpkg-buildpackage: info: source distribution unstable
dpkg-buildpackage: info: source changed by Rafael Laboissière <rafael@debian.org>
 dpkg-source --before-build .
dpkg-buildpackage: info: host architecture ppc64el
 debian/rules clean
dh clean --buildsystem=octave
   dh_auto_clean -O--buildsystem=octave
	dh_octave_clean
make[1]: Entering directory '/build/reproducible-path/octave-statistics-1.8.1'
make[1]: *** No rule to make target 'clean'.
make[1]: *** No rule to make target 'distclean'.
make[1]: Leaving directory '/build/reproducible-path/octave-statistics-1.8.1'
make[1]: Entering directory '/build/reproducible-path/octave-statistics-1.8.1/src'
rm -f editDistance.oct libsvmread.oct libsvmwrite.oct svmpredict.oct svmtrain.oct fcnntrain.oct fcnnpredict.oct
make[1]: *** No rule to make target 'distclean'.
make[1]: Leaving directory '/build/reproducible-path/octave-statistics-1.8.1/src'
   dh_autoreconf_clean -O--buildsystem=octave
   dh_clean -O--buildsystem=octave
 debian/rules binary-arch
dh binary-arch --buildsystem=octave
   dh_update_autotools_config -a -O--buildsystem=octave
   dh_autoreconf -a -O--buildsystem=octave
   dh_octave_version -a -O--buildsystem=octave
Checking the Octave version... ok
   dh_auto_configure -a -O--buildsystem=octave
   dh_auto_build -a -O--buildsystem=octave
   dh_auto_test -a -O--buildsystem=octave
   create-stamp debian/debhelper-build-stamp
   dh_testroot -a -O--buildsystem=octave
   dh_prep -a -O--buildsystem=octave
   dh_auto_install -a -O--buildsystem=octave
	octave --no-gui --no-history --silent --no-init-file --no-window-system /usr/share/dh-octave/install-pkg.m /build/reproducible-path/octave-statistics-1.8.1/debian/tmp/usr/share/octave/packages /build/reproducible-path/octave-statistics-1.8.1/debian/tmp/usr/lib/powerpc64le-linux-gnu/octave/packages
mkdir (/tmp/oct-s7zptu)
untar (/tmp//octave-statistics-1.8.1.tar.gz, /tmp/oct-s7zptu)
make[1]: Entering directory '/tmp/oct-s7zptu/octave-statistics-1.8.1/src'
/usr/bin/mkoctfile --verbose editDistance.cc
/usr/bin/mkoctfile --verbose libsvmread.cc
/usr/bin/mkoctfile --verbose libsvmwrite.cc
/usr/bin/mkoctfile --verbose svmpredict.cc svm.cpp svm_model_octave.cc
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    libsvmread.cc -o /tmp/oct-ucYd8x.o
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    libsvmwrite.cc -o /tmp/oct-Ndgprj.o
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    svmpredict.cc -o /tmp/oct-PMSCts.o
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    editDistance.cc -o /tmp/oct-nREUu2.o
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from libsvmwrite.cc:22:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from editDistance.cc:26:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from libsvmread.cc:22:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from svmpredict.cc:23:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o libsvmwrite.oct  /tmp/oct-Ndgprj.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
/usr/bin/mkoctfile --verbose svmtrain.cc svm.cpp svm_model_octave.cc
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    svmtrain.cc -o /tmp/oct-DgdC5Q.o
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o libsvmread.oct  /tmp/oct-ucYd8x.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
/usr/bin/mkoctfile --verbose fcnntrain.cc
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    fcnntrain.cc -o /tmp/oct-TjmPdb.o
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from svmtrain.cc:23:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    svm.cpp -o /tmp/oct-kr3tcW.o
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from fcnntrain.cc:26:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/c++/15/iomanip:53,
                 from fcnntrain.cc:22:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    svm.cpp -o /tmp/oct-9Gjbyf.o
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    svm_model_octave.cc -o /tmp/oct-jN2Sc5.o
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o editDistance.oct  /tmp/oct-nREUu2.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
/usr/bin/mkoctfile --verbose fcnnpredict.cc
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    fcnnpredict.cc -o /tmp/oct-qbrD2L.o
g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security    svm_model_octave.cc -o /tmp/oct-WifPc7.o
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from svm_model_octave.cc:25:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from fcnnpredict.cc:26:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/c++/15/iomanip:53,
                 from fcnnpredict.cc:22:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
In file included from /usr/include/octave-10.3.0/octave/../octave/ov.h:71,
                 from /usr/include/octave-10.3.0/octave/../octave/ovl.h:38,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-fcn.h:37,
                 from /usr/include/octave-10.3.0/octave/../octave/ov-builtin.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-int.h:33,
                 from /usr/include/octave-10.3.0/octave/../octave/defun-dld.h:35,
                 from /usr/include/octave-10.3.0/octave/../octave/oct.h:35,
                 from svm_model_octave.cc:25:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:236:24: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  236 |   std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>> m_converter;
      |                        ^~~~~~~~~~~~~~~
In file included from /usr/include/c++/15/locale:47,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-string.h:31,
                 from /usr/include/octave-10.3.0/octave/../octave/oct-stream.h:38:
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h: In member function ‘std::ostream* octave::base_stream::preferred_output_stream()’:
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:148:34: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  148 |           = std::unique_ptr<std::wbuffer_convert<convfacet_u8, char>>
      |                                  ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
/usr/include/octave-10.3.0/octave/../octave/oct-stream.h:149:23: warning: ‘template<class _Codecvt, class _Elem, class _Tr> class std::wbuffer_convert’ is deprecated [-Wdeprecated-declarations]
  149 |             (new std::wbuffer_convert<convfacet_u8, char>
      |                       ^~~~~~~~~~~~~~~
/usr/include/c++/15/bits/locale_conv.h:409:33: note: declared here
  409 |     class _GLIBCXX17_DEPRECATED wbuffer_convert
      |                                 ^~~~~~~~~~~~~~~
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o svmpredict.oct  /tmp/oct-PMSCts.o /tmp/oct-kr3tcW.o /tmp/oct-jN2Sc5.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o fcnntrain.oct  /tmp/oct-TjmPdb.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o svmtrain.oct  /tmp/oct-DgdC5Q.o /tmp/oct-9Gjbyf.o /tmp/oct-WifPc7.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
g++ -I/usr/include/octave-10.3.0/octave/.. -I/usr/include/octave-10.3.0/octave  -pthread -fopenmp -g -O2 -ffile-prefix-map=/build/reproducible-path/octave-statistics-1.8.1=. -fstack-protector-strong -Wformat -Werror=format-security  -o fcnnpredict.oct  /tmp/oct-qbrD2L.o   -shared -Wl,-Bsymbolic -Wl,-z,relro  -flto=auto -ffat-lto-objects -Wl,-z,relro 
make[1]: Leaving directory '/tmp/oct-s7zptu/octave-statistics-1.8.1/src'
copyfile /tmp/oct-s7zptu/octave-statistics-1.8.1/src/editDistance.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/fcnnpredict.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/fcnntrain.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/libsvmread.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/libsvmwrite.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/svmpredict.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/svmtrain.oct /tmp/oct-s7zptu/octave-statistics-1.8.1/src/editDistance.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/src/fcnnpredict.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/src/fcnntrain.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/src/libsvmread.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/src/libsvmwrite.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/src/svmpredict.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/src/svmtrain.cc-tst /tmp/oct-s7zptu/octave-statistics-1.8.1/inst/powerpc64le-unknown-linux-gnu-api-v60
For information about changes from previous versions of the statistics package, run 'news statistics'.
Please report any issues with the statistics package at "https://github.com/gnu-octave/statistics/issues"
rm: cannot remove '/build/reproducible-path/octave-statistics-1.8.1/debian/tmp/usr/share/octave/packages/statistics-1.8.1/doc': Is a directory
   dh_octave_check -a -O--buildsystem=octave
Checking package...
Run the unit tests...
Checking m files ...
[inst/anova2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/anova2.m
***** demo

 # Factorial (Crossed) Two-way ANOVA with Interaction

 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];

 [p, atab, stats] = anova2(popcorn, 3, "on");
***** demo

 # One-way Repeated Measures ANOVA (Rows are a crossed random factor)

 data = [54, 43, 78, 111;
         23, 34, 37, 41;
         45, 65, 99, 78;
         31, 33, 36, 35;
         15, 25, 30, 26];

 [p, atab, stats] = anova2 (data, 1, "on", "linear");
***** demo

 # Balanced Nested One-way ANOVA (Rows are a nested random factor)

 data = [4.5924 7.3809 21.322; -0.5488 9.2085 25.0426; ...
         6.1605 13.1147 22.66; 2.3374 15.2654 24.1283; ...
         5.1873 12.4188 16.5927; 3.3579 14.3951 10.2129; ...
         6.3092 8.5986 9.8934; 3.2831 3.4945 10.0203];

 [p, atab, stats] = anova2 (data, 4, "on", "nested");
***** test
 ## Test for anova2 ("interaction")
 ## comparison with results from Matlab for column effect
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 [p, atab, stats] = anova2 (popcorn, 3, "off");
 assert (p(1), 7.678957383294716e-07, 1e-14);
 assert (p(2), 0.0001003738963050171, 1e-14);
 assert (p(3), 0.7462153966366274, 1e-14);
 assert (atab{2,5}, 56.700, 1e-14);
 assert (atab{2,3}, 2, 0);
 assert (atab{4,2}, 0.08333333333333348, 1e-14);
 assert (atab{5,4}, 0.1388888888888889, 1e-14);
 assert (atab{5,2}, 1.666666666666667, 1e-14);
 assert (atab{6,2}, 22);
 assert (stats.source, "anova2");
 assert (stats.colmeans, [6.25, 4.75, 4]);
 assert (stats.inter, true);
 assert (stats.pval, 0.7462153966366274, 1e-14);
 assert (stats.df, 12);
***** test
 ## Test for anova2 ("linear") - comparison with results from GraphPad Prism 8
 data = [54, 43, 78, 111;
         23, 34, 37, 41;
         45, 65, 99, 78;
         31, 33, 36, 35;
         15, 25, 30, 26];
 [p, atab, stats] = anova2 (data, 1, "off", "linear");
 assert (atab{2,2}, 2174.95, 1e-10);
 assert (atab{3,2}, 8371.7, 1e-10);
 assert (atab{4,2}, 2404.3, 1e-10);
 assert (atab{5,2}, 12950.95, 1e-10);
 assert (atab{2,4}, 724.983333333333, 1e-10);
 assert (atab{3,4}, 2092.925, 1e-10);
 assert (atab{4,4}, 200.358333333333, 1e-10);
 assert (atab{2,5}, 3.61843363972882, 1e-10);
 assert (atab{3,5}, 10.445909412303, 1e-10);
 assert (atab{2,6}, 0.087266112738617, 1e-10);
 assert (atab{3,6}, 0.000698397753556, 1e-10);
***** test
 ## Test for anova2 ("nested") - comparison with results from GraphPad Prism 8
 data = [4.5924 7.3809 21.322; -0.5488 9.2085 25.0426; ...
         6.1605 13.1147 22.66; 2.3374 15.2654 24.1283; ...
         5.1873 12.4188 16.5927; 3.3579 14.3951 10.2129; ...
         6.3092 8.5986 9.8934; 3.2831 3.4945 10.0203];
 [p, atab, stats] = anova2 (data, 4, "off", "nested");
 assert (atab{2,2}, 745.360306290833, 1e-10);
 assert (atab{3,2}, 278.01854140125, 1e-10);
 assert (atab{4,2}, 180.180377467501, 1e-10);
 assert (atab{5,2}, 1203.55922515958, 1e-10);
 assert (atab{2,4}, 372.680153145417, 1e-10);
 assert (atab{3,4}, 92.67284713375, 1e-10);
 assert (atab{4,4}, 10.0100209704167, 1e-10);
 assert (atab{2,5}, 4.02146005730833, 1e-10);
 assert (atab{3,5}, 9.25800729165627, 1e-10);
 assert (atab{2,6}, 0.141597630656771, 1e-10);
 assert (atab{3,6}, 0.000636643812875719, 1e-10);
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/wblplot.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/wblplot.m
***** demo
 x = [16 34 53 75 93 120];
 wblplot (x);
***** demo
 x = [2 3 5 7 11 13 17 19 23 29 31 37 41 43 47 53 59 61 67]';
 c = [0 1 0 1 0 1 1 1 0 0 1 0 1 0 1 1 0 1 1]';
 [h, p] = wblplot (x, c);
 p
***** demo
 x = [16, 34, 53, 75, 93, 120, 150, 191, 240 ,339];
 [h, p] = wblplot (x, [], [], 0.05);
 p
 ## Benchmark Reliasoft eta = 146.2545 beta 1.1973 rho = 0.9999
***** demo
 x = [46 64 83 105 123 150 150];
 c = [0 0 0 0 0 0 1];
 f = [1 1 1 1 1 1 4];
 wblplot (x, c, f, 0.05);
***** demo
 x = [46 64 83 105 123 150 150];
 c = [0 0 0 0 0 0 1];
 f = [1 1 1 1 1 1 4];
 ## Subtract 30.92 from x to simulate a 3 parameter wbl with gamma = 30.92
 wblplot (x - 30.92, c, f, 0.05);
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [16, 34, 53, 75, 93, 120, 150, 191, 240 ,339];
   [h, p] = wblplot (x, [], [], 0.05);
   assert (numel (h), 4)
   assert (p(1), 146.2545, 1E-4)
   assert (p(2), 1.1973, 1E-4)
   assert (p(3), 0.9999, 5E-5)
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
warning: using the gnuplot graphics toolkit is discouraged

The gnuplot graphics toolkit is not actively maintained and has a number
of limitations that are unlikely to be fixed.  Communication with gnuplot
uses a one-directional pipe and limited information is passed back to the
Octave interpreter so most changes made interactively in the plot window
will not be reflected in the graphics properties managed by Octave.  For
example, if the plot window is closed with a mouse click, Octave will not
be notified and will not update its internal list of open figure windows.
The qt toolkit is recommended instead.
1 test, 1 passed, 0 known failure, 0 skipped
[inst/dist_stat/fstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/fstat.m
***** error<fstat: function called with too few input arguments.> fstat ()
***** error<fstat: function called with too few input arguments.> fstat (1)
***** error<fstat: DF1 and DF2 must be numeric.> fstat ({}, 2)
***** error<fstat: DF1 and DF2 must be numeric.> fstat (1, "")
***** error<fstat: DF1 and DF2 must not be complex.> fstat (i, 2)
***** error<fstat: DF1 and DF2 must not be complex.> fstat (1, i)
***** error<fstat: DF1 and DF2 must be of common size or scalars.> ...
 fstat (ones (3), ones (2))
***** error<fstat: DF1 and DF2 must be of common size or scalars.> ...
 fstat (ones (2), ones (3))
***** test
 df1 = 1:6;
 df2 = 5:10;
 [m, v] = fstat (df1, df2);
 expected_mn = [1.6667, 1.5000, 1.4000, 1.3333, 1.2857, 1.2500];
 expected_v = [22.2222, 6.7500, 3.4844, 2.2222, 1.5869, 1.2153];
 assert (m, expected_mn, 0.001);
 assert (v, expected_v, 0.001);
***** test
 df1 = 1:6;
 [m, v] = fstat (df1, 5);
 expected_mn = [1.6667, 1.6667, 1.6667, 1.6667, 1.6667, 1.6667];
 expected_v = [22.2222, 13.8889, 11.1111, 9.7222, 8.8889, 8.3333];
 assert (m, expected_mn, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/ncfstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/ncfstat.m
***** error<ncfstat: function called with too few input arguments.> ncfstat ()
***** error<ncfstat: function called with too few input arguments.> ncfstat (1)
***** error<ncfstat: function called with too few input arguments.> ncfstat (1, 2)
***** error<ncfstat: DF1, DF2, and LAMBDA must be numeric.> ncfstat ({}, 2, 3)
***** error<ncfstat: DF1, DF2, and LAMBDA must be numeric.> ncfstat (1, "", 3)
***** error<ncfstat: DF1, DF2, and LAMBDA must be numeric.> ncfstat (1, 2, "")
***** error<ncfstat: DF1, DF2, and LAMBDA must not be complex.> ncfstat (i, 2, 3)
***** error<ncfstat: DF1, DF2, and LAMBDA must not be complex.> ncfstat (1, i, 3)
***** error<ncfstat: DF1, DF2, and LAMBDA must not be complex.> ncfstat (1, 2, i)
***** error<ncfstat: DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfstat (ones (3), ones (2), 3)
***** error<ncfstat: DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfstat (ones (2), 2, ones (3))
***** error<ncfstat: DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfstat (1, ones (2), ones (3))
***** shared df1, df2, lambda
 df1 = [2, 0, -1, 1, 4, 5];
 df2 = [2, 4, -1, 5, 6, 7];
 lambda = [1, NaN, 3, 0, 2, -1];
***** assert (ncfstat (df1, df2, lambda), [NaN, NaN, NaN, 1.6667, 2.25, 1.12], 1e-4);
***** assert (ncfstat (df1(4:6), df2(4:6), 1), [3.3333, 1.8750, 1.6800], 1e-4);
***** assert (ncfstat (df1(4:6), df2(4:6), 2), [5.0000, 2.2500, 1.9600], 1e-4);
***** assert (ncfstat (df1(4:6), df2(4:6), 3), [6.6667, 2.6250, 2.2400], 1e-4);
***** assert (ncfstat (2, [df2(1), df2(4:6)], 5), [NaN,5.8333,5.2500,4.9000], 1e-4);
***** assert (ncfstat (0, [df2(1), df2(4:6)], 5), [NaN, Inf, Inf, Inf]);
***** assert (ncfstat (1, [df2(1), df2(4:6)], 5), [NaN, 10, 9, 8.4], 1e-14);
***** assert (ncfstat (4, [df2(1), df2(4:6)], 5), [NaN, 3.75, 3.375, 3.15], 1e-14);
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_stat/invgstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/invgstat.m
***** error<invgstat: function called with too few input arguments.> invgstat ()
***** error<invgstat: function called with too few input arguments.> invgstat (1)
***** error<invgstat: MU and LAMBDA must be numeric.> invgstat ({}, 2)
***** error<invgstat: MU and LAMBDA must be numeric.> invgstat (1, "")
***** error<invgstat: MU and LAMBDA must not be complex.> invgstat (i, 2)
***** error<invgstat: MU and LAMBDA must not be complex.> invgstat (1, i)
***** error<invgstat: MU and LAMBDA must be of common size or scalars.> ...
 invgstat (ones (3), ones (2))
***** error<invgstat: MU and LAMBDA must be of common size or scalars.> ...
 invgstat (ones (2), ones (3))
***** test
 [m, v] = invgstat (1, 1);
 assert (m, 1);
 assert (v, 1);
***** test
 [m, v] = invgstat (2, 1);
 assert (m, 2);
 assert (v, 8);
***** test
 [m, v] = invgstat (2, 2);
 assert (m, 2);
 assert (v, 4);
***** test
 [m, v] = invgstat (2, 2.5);
 assert (m, 2);
 assert (v, 3.2);
***** test
 [m, v] = invgstat (1.5, 0.5);
 assert (m, 1.5);
 assert (v, 6.75);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_stat/lognstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/lognstat.m
***** error<lognstat: function called with too few input arguments.> lognstat ()
***** error<lognstat: function called with too few input arguments.> lognstat (1)
***** error<lognstat: MU and SIGMA must be numeric.> lognstat ({}, 2)
***** error<lognstat: MU and SIGMA must be numeric.> lognstat (1, "")
***** error<lognstat: MU and SIGMA must not be complex.> lognstat (i, 2)
***** error<lognstat: MU and SIGMA must not be complex.> lognstat (1, i)
***** error<lognstat: MU and SIGMA must be of common size or scalars.> ...
 lognstat (ones (3), ones (2))
***** error<lognstat: MU and SIGMA must be of common size or scalars.> ...
 lognstat (ones (2), ones (3))
***** test
 mu = 0:0.2:1;
 sigma = 0.2:0.2:1.2;
 [m, v] = lognstat (mu, sigma);
 expected_m = [1.0202, 1.3231, 1.7860, 2.5093,  3.6693,   5.5845];
 expected_v = [0.0425, 0.3038, 1.3823, 5.6447, 23.1345, 100.4437];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 sigma = 0.2:0.2:1.2;
 [m, v] = lognstat (0, sigma);
 expected_m = [1.0202, 1.0833, 1.1972, 1.3771, 1.6487,  2.0544];
 expected_v = [0.0425, 0.2036, 0.6211, 1.7002, 4.6708, 13.5936];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/normstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/normstat.m
***** error<normstat: function called with too few input arguments.> normstat ()
***** error<normstat: function called with too few input arguments.> normstat (1)
***** error<normstat: MU and SIGMA must be numeric.> normstat ({}, 2)
***** error<normstat: MU and SIGMA must be numeric.> normstat (1, "")
***** error<normstat: MU and SIGMA must not be complex.> normstat (i, 2)
***** error<normstat: MU and SIGMA must not be complex.> normstat (1, i)
***** error<normstat: MU and SIGMA must be of common size or scalars.> ...
 normstat (ones (3), ones (2))
***** error<normstat: MU and SIGMA must be of common size or scalars.> ...
 normstat (ones (2), ones (3))
***** test
 mu = 1:6;
 sigma = 0.2:0.2:1.2;
 [m, v] = normstat (mu, sigma);
 expected_v = [0.0400, 0.1600, 0.3600, 0.6400, 1.0000, 1.4400];
 assert (m, mu);
 assert (v, expected_v, 0.001);
***** test
 sigma = 0.2:0.2:1.2;
 [m, v] = normstat (0, sigma);
 expected_mn = [0, 0, 0, 0, 0, 0];
 expected_v = [0.0400, 0.1600, 0.3600, 0.6400, 1.0000, 1.4400];
 assert (m, expected_mn, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/hnstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/hnstat.m
***** error<hnstat: function called with too few input arguments.> hnstat ()
***** error<hnstat: function called with too few input arguments.> hnstat (1)
***** error<hnstat: MU and SIGMA must be numeric.> hnstat ({}, 2)
***** error<hnstat: MU and SIGMA must be numeric.> hnstat (1, "")
***** error<hnstat: MU and SIGMA must not be complex.> hnstat (i, 2)
***** error<hnstat: MU and SIGMA must not be complex.> hnstat (1, i)
***** error<hnstat: MU and SIGMA must be of common size or scalars.> ...
 hnstat (ones (3), ones (2))
***** error<hnstat: MU and SIGMA must be of common size or scalars.> ...
 hnstat (ones (2), ones (3))
***** test
 [m, v] = hnstat (0, 1);
 assert (m, 0.7979, 1e-4);
 assert (v, 0.3634, 1e-4);
***** test
 [m, v] = hnstat (2, 1);
 assert (m, 2.7979, 1e-4);
 assert (v, 0.3634, 1e-4);
***** test
 [m, v] = hnstat (2, 2);
 assert (m, 3.5958, 1e-4);
 assert (v, 1.4535, 1e-4);
***** test
 [m, v] = hnstat (2, 2.5);
 assert (m, 3.9947, 1e-4);
 assert (v, 2.2711, 1e-4);
***** test
 [m, v] = hnstat (1.5, 0.5);
 assert (m, 1.8989, 1e-4);
 assert (v, 0.0908, 1e-4);
***** test
 [m, v] = hnstat (-1.5, 0.5);
 assert (m, -1.1011, 1e-4);
 assert (v, 0.0908, 1e-4);
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_stat/unidstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/unidstat.m
***** error<unidstat: function called with too few input arguments.> unidstat ()
***** error<unidstat: N must be numeric.> unidstat ({})
***** error<unidstat: N must be numeric.> unidstat ("")
***** error<unidstat: N must not be complex.> unidstat (i)
***** test
 N = 1:6;
 [m, v] = unidstat (N);
 expected_m = [1.0000, 1.5000, 2.0000, 2.5000, 3.0000, 3.5000];
 expected_v = [0.0000, 0.2500, 0.6667, 1.2500, 2.0000, 2.9167];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/gamstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/gamstat.m
***** error<gamstat: function called with too few input arguments.> gamstat ()
***** error<gamstat: function called with too few input arguments.> gamstat (1)
***** error<gamstat: A and B must be numeric.> gamstat ({}, 2)
***** error<gamstat: A and B must be numeric.> gamstat (1, "")
***** error<gamstat: A and B must not be complex.> gamstat (i, 2)
***** error<gamstat: A and B must not be complex.> gamstat (1, i)
***** error<gamstat: A and B must be of common size or scalars.> ...
 gamstat (ones (3), ones (2))
***** error<gamstat: A and B must be of common size or scalars.> ...
 gamstat (ones (2), ones (3))
***** test
 a = 1:6;
 b = 1:0.2:2;
 [m, v] = gamstat (a, b);
 expected_m = [1.00, 2.40, 4.20,  6.40,  9.00, 12.00];
 expected_v = [1.00, 2.88, 5.88, 10.24, 16.20, 24.00];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 a = 1:6;
 [m, v] = gamstat (a, 1.5);
 expected_m = [1.50, 3.00, 4.50, 6.00,  7.50,  9.00];
 expected_v = [2.25, 4.50, 6.75, 9.00, 11.25, 13.50];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/betastat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/betastat.m
***** error<betastat: function called with too few input arguments.> betastat ()
***** error<betastat: function called with too few input arguments.> betastat (1)
***** error<betastat: A and B must be numeric.> betastat ({}, 2)
***** error<betastat: A and B must be numeric.> betastat (1, "")
***** error<betastat: A and B must not be complex.> betastat (i, 2)
***** error<betastat: A and B must not be complex.> betastat (1, i)
***** error<betastat: A and B must be of common size or scalars.> ...
 betastat (ones (3), ones (2))
***** error<betastat: A and B must be of common size or scalars.> ...
 betastat (ones (2), ones (3))
***** test
 a = -2:6;
 b = 0.4:0.2:2;
 [m, v] = betastat (a, b);
 expected_m = [NaN NaN NaN 1/2 2/3.2 3/4.4 4/5.6 5/6.8 6/8];
 expected_v = [NaN NaN NaN 0.0833, 0.0558, 0.0402, 0.0309, 0.0250, 0.0208];
 assert (m, expected_m, eps*100);
 assert (v, expected_v, 0.001);
***** test
 a = -2:1:6;
 [m, v] = betastat (a, 1.5);
 expected_m = [NaN NaN NaN 1/2.5 2/3.5 3/4.5 4/5.5 5/6.5 6/7.5];
 expected_v = [NaN NaN NaN 0.0686, 0.0544, 0.0404, 0.0305, 0.0237, 0.0188];
 assert (m, expected_m);
 assert (v, expected_v, 0.001);
***** test
 a = [14  Inf   10  NaN  10];
 b = [12    9  NaN  Inf  12];
 [m, v] = betastat (a, b);
 expected_m = [14/26 NaN NaN NaN 10/22];
 expected_v = [168/18252 NaN NaN NaN 120/11132];
 assert (m, expected_m);
 assert (v, expected_v);
***** assert (nthargout (1:2, @betastat, 5, []), {[], []})
***** assert (nthargout (1:2, @betastat, [], 5), {[], []})
***** assert (size (betastat (rand (10, 5, 4), rand (10, 5, 4))), [10 5 4])
***** assert (size (betastat (rand (10, 5, 4), 7)), [10 5 4])
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_stat/ricestat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/ricestat.m
***** error<ricestat: function called with too few input arguments.> ricestat ()
***** error<ricestat: function called with too few input arguments.> ricestat (1)
***** error<ricestat: S and SIGMA must be numeric.> ricestat ({}, 2)
***** error<ricestat: S and SIGMA must be numeric.> ricestat (1, "")
***** error<ricestat: S and SIGMA must not be complex.> ricestat (i, 2)
***** error<ricestat: S and SIGMA must not be complex.> ricestat (1, i)
***** error<ricestat: S and SIGMA must be of common size or scalars.> ...
 ricestat (ones (3), ones (2))
***** error<ricestat: S and SIGMA must be of common size or scalars.> ...
 ricestat (ones (2), ones (3))
***** shared s, sigma
 s = [2, 0, -1, 1, 4];
 sigma = [1, NaN, 3, -1, 2];
***** assert (ricestat (s, sigma), [2.2724, NaN, NaN, NaN, 4.5448], 1e-4);
***** assert (ricestat ([s(1:2), s(4:5)], 1), [2.2724, 1.2533, 1.5486, 4.1272], 1e-4);
***** assert (ricestat ([s(1:2), s(4:5)], 3), [4.1665, 3.7599, 3.8637, 5.2695], 1e-4);
***** assert (ricestat ([s(1:2), s(4:5)], 2), [3.0971, 2.5066, 2.6609, 4.5448], 1e-4);
***** assert (ricestat (2, [sigma(1), sigma(3:5)]), [2.2724, 4.1665, NaN, 3.0971], 1e-4);
***** assert (ricestat (0, [sigma(1), sigma(3:5)]), [1.2533, 3.7599, NaN, 2.5066], 1e-4);
***** assert (ricestat (1, [sigma(1), sigma(3:5)]), [1.5486, 3.8637, NaN, 2.6609], 1e-4);
***** assert (ricestat (4, [sigma(1), sigma(3:5)]), [4.1272, 5.2695, NaN, 4.5448], 1e-4);
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_stat/tristat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/tristat.m
***** error<tristat: function called with too few input arguments.> tristat ()
***** error<tristat: function called with too few input arguments.> tristat (1)
***** error<tristat: function called with too few input arguments.> tristat (1, 2)
***** error<tristat: A, B, and C must be numeric.> tristat ("i", 2, 1)
***** error<tristat: A, B, and C must be numeric.> tristat (0, "d", 1)
***** error<tristat: A, B, and C must be numeric.> tristat (0, 3, {})
***** error<tristat: A, B, and C must be real.> tristat (i, 2, 1)
***** error<tristat: A, B, and C must be real.> tristat (0, i, 1)
***** error<tristat: A, B, and C must be real.> tristat (0, 3, i)
***** test
 a = 1:5;
 b = 3:7;
 c = 5:9;
 [m, v] = tristat (a, b, c);
 expected_m = [3, 4, 5, 6, 7];
 assert (m, expected_m);
 assert (v, ones (1, 5) * (2/3));
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/wblstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/wblstat.m
***** error<wblstat: function called with too few input arguments.> wblstat ()
***** error<wblstat: function called with too few input arguments.> wblstat (1)
***** error<wblstat: LAMBDA and K must be numeric.> wblstat ({}, 2)
***** error<wblstat: LAMBDA and K must be numeric.> wblstat (1, "")
***** error<wblstat: LAMBDA and K must not be complex.> wblstat (i, 2)
***** error<wblstat: LAMBDA and K must not be complex.> wblstat (1, i)
***** error<wblstat: LAMBDA and K must be of common size or scalars.> ...
 wblstat (ones (3), ones (2))
***** error<wblstat: LAMBDA and K must be of common size or scalars.> ...
 wblstat (ones (2), ones (3))
***** test
 lambda = 3:8;
 k = 1:6;
 [m, v] = wblstat (lambda, k);
 expected_m = [3.0000, 3.5449, 4.4649, 5.4384, 6.4272, 7.4218];
 expected_v = [9.0000, 3.4336, 2.6333, 2.3278, 2.1673, 2.0682];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 k = 1:6;
 [m, v] = wblstat (6, k);
 expected_m = [ 6.0000, 5.3174, 5.3579, 5.4384, 5.5090, 5.5663];
 expected_v = [36.0000, 7.7257, 3.7920, 2.3278, 1.5923, 1.1634];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/nakastat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/nakastat.m
***** error<nakastat: function called with too few input arguments.> nakastat ()
***** error<nakastat: function called with too few input arguments.> nakastat (1)
***** error<nakastat: MU and OMEGA must be numeric.> nakastat ({}, 2)
***** error<nakastat: MU and OMEGA must be numeric.> nakastat (1, "")
***** error<nakastat: MU and OMEGA must not be complex.> nakastat (i, 2)
***** error<nakastat: MU and OMEGA must not be complex.> nakastat (1, i)
***** error<nakastat: MU and OMEGA must be of common size or scalars.> ...
 nakastat (ones (3), ones (2))
***** error<nakastat: MU and OMEGA must be of common size or scalars.> ...
 nakastat (ones (2), ones (3))
***** test
 [m, v] = nakastat (1, 1);
 assert (m, 0.8862269254, 1e-10);
 assert (v, 0.2146018366, 1e-10);
***** test
 [m, v] = nakastat (1, 2);
 assert (m, 1.25331413731, 1e-10);
 assert (v, 0.42920367321, 1e-10);
***** test
 [m, v] = nakastat (2, 1);
 assert (m, 0.93998560299, 1e-10);
 assert (v, 0.11642706618, 1e-10);
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_stat/nbinstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/nbinstat.m
***** error<nbinstat: function called with too few input arguments.> nbinstat ()
***** error<nbinstat: function called with too few input arguments.> nbinstat (1)
***** error<nbinstat: R and PS must be numeric.> nbinstat ({}, 2)
***** error<nbinstat: R and PS must be numeric.> nbinstat (1, "")
***** error<nbinstat: R and PS must not be complex.> nbinstat (i, 2)
***** error<nbinstat: R and PS must not be complex.> nbinstat (1, i)
***** error<nbinstat: R and PS must be of common size or scalars.> ...
 nbinstat (ones (3), ones (2))
***** error<nbinstat: R and PS must be of common size or scalars.> ...
 nbinstat (ones (2), ones (3))
***** test
 r = 1:4;
 ps = 0.2:0.2:0.8;
 [m, v] = nbinstat (r, ps);
 expected_m = [ 4.0000, 3.0000, 2.0000, 1.0000];
 expected_v = [20.0000, 7.5000, 3.3333, 1.2500];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 r = 1:4;
 [m, v] = nbinstat (r, 0.5);
 expected_m = [1, 2, 3, 4];
 expected_v = [2, 4, 6, 8];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/binostat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/binostat.m
***** error<binostat: function called with too few input arguments.> binostat ()
***** error<binostat: function called with too few input arguments.> binostat (1)
***** error<binostat: N and PS must be numeric.> binostat ({}, 2)
***** error<binostat: N and PS must be numeric.> binostat (1, "")
***** error<binostat: N and PS must not be complex.> binostat (i, 2)
***** error<binostat: N and PS must not be complex.> binostat (1, i)
***** error<binostat: N and PS must be of common size or scalars.> ...
 binostat (ones (3), ones (2))
***** error<binostat: N and PS must be of common size or scalars.> ...
 binostat (ones (2), ones (3))
***** test
 n = 1:6;
 ps = 0:0.2:1;
 [m, v] = binostat (n, ps);
 expected_m = [0.00, 0.40, 1.20, 2.40, 4.00, 6.00];
 expected_v = [0.00, 0.32, 0.72, 0.96, 0.80, 0.00];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 n = 1:6;
 [m, v] = binostat (n, 0.5);
 expected_m = [0.50, 1.00, 1.50, 2.00, 2.50, 3.00];
 expected_v = [0.25, 0.50, 0.75, 1.00, 1.25, 1.50];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 n = [-Inf -3 5 0.5 3 NaN 100, Inf];
 [m, v] = binostat (n, 0.5);
 assert (isnan (m), [true true false true false true false false])
 assert (isnan (v), [true true false true false true false false])
 assert (m(end), Inf);
 assert (v(end), Inf);
***** assert (nthargout (1:2, @binostat, 5, []), {[], []})
***** assert (nthargout (1:2, @binostat, [], 5), {[], []})
***** assert (size (binostat (randi (100, 10, 5, 4), rand (10, 5, 4))), [10 5 4])
***** assert (size (binostat (randi (100, 10, 5, 4), 7)), [10 5 4])
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_stat/tlsstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/tlsstat.m
***** error<tlsstat: function called with too few input arguments.> tlsstat ()
***** error<tlsstat: function called with too few input arguments.> tlsstat (1)
***** error<tlsstat: function called with too few input arguments.> tlsstat (1, 2)
***** error<tlsstat: MU, SIGMA, and NU must be numeric.> tlsstat ({}, 2, 3)
***** error<tlsstat: MU, SIGMA, and NU must be numeric.> tlsstat (1, "", 3)
***** error<tlsstat: MU, SIGMA, and NU must be numeric.> tlsstat (1, 2, ["d"])
***** error<tlsstat: MU, SIGMA, and NU must not be complex.> tlsstat (i, 2, 3)
***** error<tlsstat: MU, SIGMA, and NU must not be complex.> tlsstat (1, i, 3)
***** error<tlsstat: MU, SIGMA, and NU must not be complex.> tlsstat (1, 2, i)
***** error<tlsstat: MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsstat (ones (3), ones (2), 1)
***** error<tlsstat: MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsstat (ones (2), 1, ones (3))
***** error<tlsstat: MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsstat (1, ones (2), ones (3))
***** test
 [m, v] = tlsstat (0, 1, 0);
 assert (m, NaN);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (0, 1, 1);
 assert (m, NaN);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (2, 1, 1);
 assert (m, NaN);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (-2, 1, 1);
 assert (m, NaN);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (0, 1, 2);
 assert (m, 0);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (2, 1, 2);
 assert (m, 2);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (-2, 1, 2);
 assert (m, -2);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (0, 2, 2);
 assert (m, 0);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (2, 2, 2);
 assert (m, 2);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (-2, 2, 2);
 assert (m, -2);
 assert (v, NaN);
***** test
 [m, v] = tlsstat (0, 1, 3);
 assert (m, 0);
 assert (v, 3);
***** test
 [m, v] = tlsstat (0, 2, 3);
 assert (m, 0);
 assert (v, 6);
***** test
 [m, v] = tlsstat (2, 1, 3);
 assert (m, 2);
 assert (v, 3);
***** test
 [m, v] = tlsstat (2, 2, 3);
 assert (m, 2);
 assert (v, 6);
***** test
 [m, v] = tlsstat (-2, 1, 3);
 assert (m, -2);
 assert (v, 3);
***** test
 [m, v] = tlsstat (-2, 2, 3);
 assert (m, -2);
 assert (v, 6);
28 tests, 28 passed, 0 known failure, 0 skipped
[inst/dist_stat/raylstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/raylstat.m
***** error<raylstat: function called with too few input arguments.> raylstat ()
***** error<raylstat: SIGMA must be numeric.> raylstat ({})
***** error<raylstat: SIGMA must be numeric.> raylstat ("")
***** error<raylstat: SIGMA must not be complex.> raylstat (i)
***** test
 sigma = 1:6;
 [m, v] = raylstat (sigma);
 expected_m = [1.2533, 2.5066, 3.7599, 5.0133, 6.2666, 7.5199];
 expected_v = [0.4292, 1.7168, 3.8628, 6.8673, 10.7301, 15.4513];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/tstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/tstat.m
***** error<tstat: function called with too few input arguments.> tstat ()
***** error<tstat: DF must be numeric.> tstat ({})
***** error<tstat: DF must be numeric.> tstat ("")
***** error<tstat: DF must not be complex.> tstat (i)
***** test
 df = 3:8;
 [m, v] = tstat (df);
 expected_m = [0, 0, 0, 0, 0, 0];
 expected_v = [3.0000, 2.0000, 1.6667, 1.5000, 1.4000, 1.3333];
 assert (m, expected_m);
 assert (v, expected_v, 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/burrstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/burrstat.m
***** error<burrstat: function called with too few input arguments.> burrstat ()
***** error<burrstat: function called with too few input arguments.> burrstat (1)
***** error<burrstat: function called with too few input arguments.> burrstat (1, 2)
***** error<burrstat: LAMBDA, C, and K must be numeric.> burrstat ({}, 2, 3)
***** error<burrstat: LAMBDA, C, and K must be numeric.> burrstat (1, "", 3)
***** error<burrstat: LAMBDA, C, and K must be numeric.> burrstat (1, 2, "")
***** error<burrstat: LAMBDA, C, and K must not be complex.> burrstat (i, 2, 3)
***** error<burrstat: LAMBDA, C, and K must not be complex.> burrstat (1, i, 3)
***** error<burrstat: LAMBDA, C, and K must not be complex.> burrstat (1, 2, i)
***** error<burrstat: LAMBDA, C, and K must be of common size or scalars.> ...
 burrstat (ones (3), ones (2), 3)
***** error<burrstat: LAMBDA, C, and K must be of common size or scalars.> ...
 burrstat (ones (2), 2, ones (3))
***** error<burrstat: LAMBDA, C, and K must be of common size or scalars.> ...
 burrstat (1, ones (2), ones (3))
***** test
 [m, v] = burrstat (1, 2, 5);
 assert (m, 0.4295, 1e-4);
 assert (v, 0.0655, 1e-4);
***** test
 [m, v] = burrstat (1, 1, 1);
 assert (m, Inf);
 assert (v, Inf);
***** test
 [m, v] = burrstat (2, 4, 1);
 assert (m, 2.2214, 1e-4);
 assert (v, 1.3484, 1e-4);
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_stat/hygestat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/hygestat.m
***** error<hygestat: function called with too few input arguments.> hygestat ()
***** error<hygestat: function called with too few input arguments.> hygestat (1)
***** error<hygestat: function called with too few input arguments.> hygestat (1, 2)
***** error<hygestat: M, K, and N must be numeric.> hygestat ({}, 2, 3)
***** error<hygestat: M, K, and N must be numeric.> hygestat (1, "", 3)
***** error<hygestat: M, K, and N must be numeric.> hygestat (1, 2, "")
***** error<hygestat: M, K, and N must not be complex.> hygestat (i, 2, 3)
***** error<hygestat: M, K, and N must not be complex.> hygestat (1, i, 3)
***** error<hygestat: M, K, and N must not be complex.> hygestat (1, 2, i)
***** error<hygestat: M, K, and N must be of common size or scalars.> ...
 hygestat (ones (3), ones (2), 3)
***** error<hygestat: M, K, and N must be of common size or scalars.> ...
 hygestat (ones (2), 2, ones (3))
***** error<hygestat: M, K, and N must be of common size or scalars.> ...
 hygestat (1, ones (2), ones (3))
***** test
 m = 4:9;
 k = 0:5;
 n = 1:6;
 [mn, v] = hygestat (m, k, n);
 expected_mn = [0.0000, 0.4000, 1.0000, 1.7143, 2.5000, 3.3333];
 expected_v = [0.0000, 0.2400, 0.4000, 0.4898, 0.5357, 0.5556];
 assert (mn, expected_mn, 0.001);
 assert (v, expected_v, 0.001);
***** test
 m = 4:9;
 k = 0:5;
 [mn, v] = hygestat (m, k, 2);
 expected_mn = [0.0000, 0.4000, 0.6667, 0.8571, 1.0000, 1.1111];
 expected_v = [0.0000, 0.2400, 0.3556, 0.4082, 0.4286, 0.4321];
 assert (mn, expected_mn, 0.001);
 assert (v, expected_v, 0.001);
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_stat/gpstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/gpstat.m
***** error<gpstat: function called with too few input arguments.> gpstat ()
***** error<gpstat: function called with too few input arguments.> gpstat (1)
***** error<gpstat: function called with too few input arguments.> gpstat (1, 2)
***** error<gpstat: K, SIGMA, and MU must be numeric.> gpstat ({}, 2, 3)
***** error<gpstat: K, SIGMA, and MU must be numeric.> gpstat (1, "", 3)
***** error<gpstat: K, SIGMA, and MU must be numeric.> gpstat (1, 2, "")
***** error<gpstat: K, SIGMA, and MU must not be complex.> gpstat (i, 2, 3)
***** error<gpstat: K, SIGMA, and MU must not be complex.> gpstat (1, i, 3)
***** error<gpstat: K, SIGMA, and MU must not be complex.> gpstat (1, 2, i)
***** error<gpstat: K, SIGMA, and MU must be of common size or scalars.> ...
 gpstat (ones (3), ones (2), 3)
***** error<gpstat: K, SIGMA, and MU must be of common size or scalars.> ...
 gpstat (ones (2), 2, ones (3))
***** error<gpstat: K, SIGMA, and MU must be of common size or scalars.> ...
 gpstat (1, ones (2), ones (3))
***** shared x, y
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 y = [0, 0.5, 1, 2, Inf, Inf];
***** assert (gpstat (x, ones (1,6), zeros (1,6)), y, eps)
***** assert (gpstat (single (x), 1, 0), single (y), eps("single"))
***** assert (gpstat (x, single (1), 0), single (y), eps("single"))
***** assert (gpstat (x, 1, single (0)), single (y), eps("single"))
***** assert (gpstat (single ([x, NaN]), 1, 0), single ([y, NaN]), eps("single"))
***** assert (gpstat ([x, NaN], single (1), 0), single ([y, NaN]), eps("single"))
***** assert (gpstat ([x, NaN], 1, single (0)), single ([y, NaN]), eps("single"))
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_stat/unifstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/unifstat.m
***** error<unifstat: function called with too few input arguments.> unifstat ()
***** error<unifstat: function called with too few input arguments.> unifstat (1)
***** error<unifstat: A and B must be numeric.> unifstat ({}, 2)
***** error<unifstat: A and B must be numeric.> unifstat (1, "")
***** error<unifstat: A and B must not be complex.> unifstat (i, 2)
***** error<unifstat: A and B must not be complex.> unifstat (1, i)
***** error<unifstat: A and B must be of common size or scalars.> ...
 unifstat (ones (3), ones (2))
***** error<unifstat: A and B must be of common size or scalars.> ...
 unifstat (ones (2), ones (3))
***** test
 a = 1:6;
 b = 2:2:12;
 [m, v] = unifstat (a, b);
 expected_m = [1.5000, 3.0000, 4.5000, 6.0000, 7.5000, 9.0000];
 expected_v = [0.0833, 0.3333, 0.7500, 1.3333, 2.0833, 3.0000];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
***** test
 a = 1:6;
 [m, v] = unifstat (a, 10);
 expected_m = [5.5000, 6.0000, 6.5000, 7.0000, 7.5000, 8.0000];
 expected_v = [6.7500, 5.3333, 4.0833, 3.0000, 2.0833, 1.3333];
 assert (m, expected_m, 0.001);
 assert (v, expected_v, 0.001);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/plstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/plstat.m
***** shared x, Fx
 x = [0, 1, 3, 4, 7, 10];
 Fx = [0, 0.2, 0.5, 0.6, 0.7, 1];
***** assert (plstat (x, Fx), 4.15)
***** test
 [m, v] = plstat (x, Fx);
 assert (v, 10.3775, 1e-14)
***** error<plstat: function called with too few input arguments.> plstat ()
***** error<plstat: function called with too few input arguments.> plstat (1)
***** error<plstat: X and FX must be vectors of equal size.> ...
 plstat ([0, 1, 2], [0, 1])
***** error<plstat: X and FX must be at least two-elements long.> ...
 plstat ([0], [1])
***** error<plstat: FX must be bounded in the range> ...
 plstat ([0, 1, 2], [0, 1, 1.5])
***** error<plstat: FX must be bounded in the range> ...
 plstat ([0, 1, 2], [0, i, 1])
***** error<plstat: X and FX must not be complex.> ...
 plstat ([0, i, 2], [0, 0.5, 1])
***** error<plstat: X and FX must not be complex.> ...
 plstat ([0, i, 2], [0, 0.5i, 1])
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_stat/chi2stat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/chi2stat.m
***** error<chi2stat: function called with too few input arguments.> chi2stat ()
***** error<chi2stat: DF must be numeric.> chi2stat ({})
***** error<chi2stat: DF must be numeric.> chi2stat ("")
***** error<chi2stat: DF must not be complex.> chi2stat (i)
***** test
 df = 1:6;
 [m, v] = chi2stat (df);
 assert (m, df);
 assert (v, [2, 4, 6, 8, 10, 12], 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/ncx2stat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/ncx2stat.m
***** error<ncx2stat: function called with too few input arguments.> ncx2stat ()
***** error<ncx2stat: function called with too few input arguments.> ncx2stat (1)
***** error<ncx2stat: DF and LAMBDA must be numeric.> ncx2stat ({}, 2)
***** error<ncx2stat: DF and LAMBDA must be numeric.> ncx2stat (1, "")
***** error<ncx2stat: DF and LAMBDA must not be complex.> ncx2stat (i, 2)
***** error<ncx2stat: DF and LAMBDA must not be complex.> ncx2stat (1, i)
***** error<ncx2stat: DF and LAMBDA must be of common size or scalars.> ...
 ncx2stat (ones (3), ones (2))
***** error<ncx2stat: DF and LAMBDA must be of common size or scalars.> ...
 ncx2stat (ones (2), ones (3))
***** shared df, d1
 df = [2, 0, -1, 1, 4];
 d1 = [1, NaN, 3, -1, 2];
***** assert (ncx2stat (df, d1), [3, NaN, NaN, NaN, 6]);
***** assert (ncx2stat ([df(1:2), df(4:5)], 1), [3, NaN, 2, 5]);
***** assert (ncx2stat ([df(1:2), df(4:5)], 3), [5, NaN, 4, 7]);
***** assert (ncx2stat ([df(1:2), df(4:5)], 2), [4, NaN, 3, 6]);
***** assert (ncx2stat (2, [d1(1), d1(3:5)]), [3, 5, NaN, 4]);
***** assert (ncx2stat (0, [d1(1), d1(3:5)]), [NaN, NaN, NaN, NaN]);
***** assert (ncx2stat (1, [d1(1), d1(3:5)]), [2, 4, NaN, 3]);
***** assert (ncx2stat (4, [d1(1), d1(3:5)]), [5, 7, NaN, 6]);
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_stat/expstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/expstat.m
***** error<expstat: function called with too few input arguments.> expstat ()
***** error<expstat: MU must be numeric.> expstat ({})
***** error<expstat: MU must be numeric.> expstat ("")
***** error<expstat: MU must not be complex.> expstat (i)
***** test
 mu = 1:6;
 [m, v] = expstat (mu);
 assert (m, [1, 2, 3, 4, 5, 6], 0.001);
 assert (v, [1, 4, 9, 16, 25, 36], 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/gevstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/gevstat.m
***** error<gevstat: function called with too few input arguments.> gevstat ()
***** error<gevstat: function called with too few input arguments.> gevstat (1)
***** error<gevstat: function called with too few input arguments.> gevstat (1, 2)
***** error<gevstat: K, SIGMA, and MU must be numeric.> gevstat ({}, 2, 3)
***** error<gevstat: K, SIGMA, and MU must be numeric.> gevstat (1, "", 3)
***** error<gevstat: K, SIGMA, and MU must be numeric.> gevstat (1, 2, "")
***** error<gevstat: K, SIGMA, and MU must not be complex.> gevstat (i, 2, 3)
***** error<gevstat: K, SIGMA, and MU must not be complex.> gevstat (1, i, 3)
***** error<gevstat: K, SIGMA, and MU must not be complex.> gevstat (1, 2, i)
***** error<gevstat: K, SIGMA, and MU must be of common size or scalars.> ...
 gevstat (ones (3), ones (2), 3)
***** error<gevstat: K, SIGMA, and MU must be of common size or scalars.> ...
 gevstat (ones (2), 2, ones (3))
***** error<gevstat: K, SIGMA, and MU must be of common size or scalars.> ...
 gevstat (1, ones (2), ones (3))
***** test
 k = [-1, -0.5, 0, 0.2, 0.4, 0.5, 1];
 sigma = 2;
 mu = 1;
 [m, v] = gevstat (k, sigma, mu);
 expected_m = [1, 1.4551, 2.1544, 2.6423, 3.4460, 4.0898, Inf];
 expected_v = [4, 3.4336, 6.5797, 13.3761, 59.3288, Inf, Inf];
 assert (m, expected_m, -0.001);
 assert (v, expected_v, -0.001);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_stat/poisstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/poisstat.m
***** error<poisstat: function called with too few input arguments.> poisstat ()
***** error<poisstat: SIGMA must be numeric.> poisstat ({})
***** error<poisstat: SIGMA must be numeric.> poisstat ("")
***** error<poisstat: SIGMA must not be complex.> poisstat (i)
***** test
 lambda = 1 ./ (1:6);
 [m, v] = poisstat (lambda);
 assert (m, lambda);
 assert (v, lambda);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/geostat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/geostat.m
***** error<geostat: function called with too few input arguments.> geostat ()
***** error<geostat: PS must be numeric.> geostat ({})
***** error<geostat: PS must be numeric.> geostat ("")
***** error<geostat: PS must not be complex.> geostat (i)
***** test
 ps = 1 ./ (1:6);
 [m, v] = geostat (ps);
 assert (m, [0, 1, 2, 3, 4, 5], 0.001);
 assert (v, [0, 2, 6, 12, 20, 30], 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_stat/loglstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/loglstat.m
***** error<loglstat: function called with too few input arguments.> loglstat ()
***** error<loglstat: function called with too few input arguments.> loglstat (1)
***** error<loglstat: MU and SIGMA must be numeric.> loglstat ({}, 2)
***** error<loglstat: MU and SIGMA must be numeric.> loglstat (1, "")
***** error<loglstat: MU and SIGMA must not be complex.> loglstat (i, 2)
***** error<loglstat: MU and SIGMA must not be complex.> loglstat (1, i)
***** error<loglstat: MU and SIGMA must be of common size or scalars.> ...
 loglstat (ones (3), ones (2))
***** error<loglstat: MU and SIGMA must be of common size or scalars.> ...
 loglstat (ones (2), ones (3))
***** test
 [m, v] = loglstat (0, 1);
 assert (m, Inf, 0.001);
 assert (v, Inf, 0.001);
***** test
 [m, v] = loglstat (0, 0.8);
 assert (m, 4.2758, 0.001);
 assert (v, Inf, 0.001);
***** test
 [m, v] = loglstat (0, 0.6);
 assert (m, 1.9820, 0.001);
 assert (v, Inf, 0.001);
***** test
 [m, v] = loglstat (0, 0.4);
 assert (m, 1.3213, 0.001);
 assert (v, 2.5300, 0.001);
***** test
 [m, v] = loglstat (0, 0.2);
 assert (m, 1.0690, 0.001);
 assert (v, 0.1786, 0.001);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_stat/nctstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/nctstat.m
***** error<nctstat: function called with too few input arguments.> nctstat ()
***** error<nctstat: function called with too few input arguments.> nctstat (1)
***** error<nctstat: DF and MU must be numeric.> nctstat ({}, 2)
***** error<nctstat: DF and MU must be numeric.> nctstat (1, "")
***** error<nctstat: DF and MU must not be complex.> nctstat (i, 2)
***** error<nctstat: DF and MU must not be complex.> nctstat (1, i)
***** error<nctstat: DF and MU must be of common size or scalars.> ...
 nctstat (ones (3), ones (2))
***** error<nctstat: DF and MU must be of common size or scalars.> ...
 nctstat (ones (2), ones (3))
***** shared df, mu
 df = [2, 0, -1, 1, 4];
 mu = [1, NaN, 3, -1, 2];
***** assert (nctstat (df, mu), [1.7725, NaN, NaN, NaN, 2.5066], 1e-4);
***** assert (nctstat ([df(1:2), df(4:5)], 1), [1.7725, NaN, NaN, 1.2533], 1e-4);
***** assert (nctstat ([df(1:2), df(4:5)], 3), [5.3174, NaN, NaN, 3.7599], 1e-4);
***** assert (nctstat ([df(1:2), df(4:5)], 2), [3.5449, NaN, NaN, 2.5066], 1e-4);
***** assert (nctstat (2, [mu(1), mu(3:5)]), [1.7725,5.3174,-1.7725,3.5449], 1e-4);
***** assert (nctstat (0, [mu(1), mu(3:5)]), [NaN, NaN, NaN, NaN]);
***** assert (nctstat (1, [mu(1), mu(3:5)]), [NaN, NaN, NaN, NaN]);
***** assert (nctstat (4, [mu(1), mu(3:5)]), [1.2533,3.7599,-1.2533,2.5066], 1e-4);
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_stat/logistat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/logistat.m
***** error<logistat: function called with too few input arguments.> logistat ()
***** error<logistat: function called with too few input arguments.> logistat (1)
***** error<logistat: MU and SIGMA must be numeric.> logistat ({}, 2)
***** error<logistat: MU and SIGMA must be numeric.> logistat (1, "")
***** error<logistat: MU and SIGMA must not be complex.> logistat (i, 2)
***** error<logistat: MU and SIGMA must not be complex.> logistat (1, i)
***** error<logistat: MU and SIGMA must be of common size or scalars.> ...
 logistat (ones (3), ones (2))
***** error<logistat: MU and SIGMA must be of common size or scalars.> ...
 logistat (ones (2), ones (3))
***** test
 [m, v] = logistat (0, 1);
 assert (m, 0);
 assert (v, 3.2899, 0.001);
***** test
 [m, v] = logistat (0, 0.8);
 assert (m, 0);
 assert (v, 2.1055, 0.001);
***** test
 [m, v] = logistat (1, 0.6);
 assert (m, 1);
 assert (v, 1.1844, 0.001);
***** test
 [m, v] = logistat (0, 0.4);
 assert (m, 0);
 assert (v, 0.5264, 0.001);
***** test
 [m, v] = logistat (-1, 0.2);
 assert (m, -1);
 assert (v, 0.1316, 0.001);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_stat/evstat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/evstat.m
***** error<evstat: function called with too few input arguments.> evstat ()
***** error<evstat: function called with too few input arguments.> evstat (1)
***** error<evstat: MU and SIGMA must be numeric.> evstat ({}, 2)
***** error<evstat: MU and SIGMA must be numeric.> evstat (1, "")
***** error<evstat: MU and SIGMA must not be complex.> evstat (i, 2)
***** error<evstat: MU and SIGMA must not be complex.> evstat (1, i)
***** error<evstat: MU and SIGMA must be of common size or scalars.> ...
 evstat (ones (3), ones (2))
***** error<evstat: MU and SIGMA must be of common size or scalars.> ...
 evstat (ones (2), ones (3))
***** shared x, y0, y1
 x = [-5, 0, 1, 2, 3];
 y0 = [NaN, NaN, 0.4228, 0.8456, 1.2684];
 y1 = [-5.5772, -3.4633, -3.0405, -2.6177, -2.1949];
***** assert (evstat (x, x), y0, 1e-4)
***** assert (evstat (x, x+6), y1, 1e-4)
***** assert (evstat (x, x-6), NaN (1,5))
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_stat/bisastat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_stat/bisastat.m
***** error<bisastat: function called with too few input arguments.> bisastat ()
***** error<bisastat: function called with too few input arguments.> bisastat (1)
***** error<bisastat: BETA and GAMMA must be numeric.> bisastat ({}, 2)
***** error<bisastat: BETA and GAMMA must be numeric.> bisastat (1, "")
***** error<bisastat: BETA and GAMMA must not be complex.> bisastat (i, 2)
***** error<bisastat: BETA and GAMMA must not be complex.> bisastat (1, i)
***** error<bisastat: BETA and GAMMA must be of common size or scalars.> ...
 bisastat (ones (3), ones (2))
***** error<bisastat: BETA and GAMMA must be of common size or scalars.> ...
 bisastat (ones (2), ones (3))
***** test
 beta = 1:6;
 gamma = 1:0.2:2;
 [m, v] = bisastat (beta, gamma);
 expected_m = [1.50, 3.44, 5.94,  9.12,  13.10, 18];
 expected_v = [2.25, 16.128, 60.858, 172.032, 409.050, 864];
 assert (m, expected_m, 1e-2);
 assert (v, expected_v, 1e-3);
***** test
 beta = 1:6;
 [m, v] = bisastat (beta, 1.5);
 expected_m = [2.125, 4.25, 6.375, 8.5, 10.625, 12.75];
 expected_v = [8.5781, 34.3125, 77.2031, 137.2500, 214.4531, 308.8125];
 assert (m, expected_m, 1e-3);
 assert (v, expected_v, 1e-4);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/mnrfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/mnrfit.m
***** error<mnrfit: too few input arguments.> mnrfit (ones (50,1))
***** error<mnrfit: Predictors must be numeric.> ...
 mnrfit ({1 ;2 ;3 ;4 ;5}, ones (5,1))
***** error<mnrfit: Predictors must be a vector or a 2D matrix.> ...
 mnrfit (ones (50, 4, 2), ones (50, 1))
***** error<mnrfit: Response must be a vector or a 2D matrix.> ...
 mnrfit (ones (50, 4), ones (50, 1, 3))
***** error<mnrfit: Y must have the same number of rows as X.> ...
 mnrfit (ones (50, 4), ones (45,1))
***** error<mnrfit: Response labels must be a character array, a cell vector> ...
 mnrfit (ones (5, 4), {1 ;2 ;3 ;4 ;5})
***** error<mnrfit: optional arguments must be in pairs.> ...
 mnrfit (ones (5, 4), ones (5, 1), "model")
***** error<mnrfit: Y must be a column vector when given as cellstr.> ...
 mnrfit (ones (5, 4), {"q","q";"w","w";"q","q";"w","w";"q","q"})
***** error<mnrfit: Y must contain only 1 and 0 when given as a 2D matrix.> ...
 mnrfit (ones (5, 4), [1, 2; 1, 2; 1, 2; 1, 2; 1, 2])
***** error<mnrfit: Y must contain positive integer category numbers.> ...
 mnrfit (ones (5, 4), [1; -1; 1; 2; 1])
***** error<mnrfit: fitting more than 2 nominal responses not supported.> ...
 mnrfit (ones (5, 4), [1; 2; 3; 2; 1], "model", "nominal")
***** error<mnrfit: fitting hierarchical responses not supported.> ...
 mnrfit (ones (5, 4), [1; 2; 3; 2; 1], "model", "hierarchical")
***** error<mnrfit: model type not recognised.> ...
 mnrfit (ones (5, 4), [1; 2; 3; 2; 1], "model", "whatever")
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/boxplot.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/boxplot.m
***** demo
 axis ([0, 3]);
 randn ("seed", 1);    # for reproducibility
 girls = randn (10, 1) * 5 + 140;
 randn ("seed", 2);    # for reproducibility
 boys = randn (13, 1) * 8 + 135;
 boxplot ({girls, boys});
 set (gca (), "xtick", [1 2], "xticklabel", {"girls", "boys"})
 title ("Grade 3 heights");
***** demo
 randn ("seed", 7);    # for reproducibility
 A = randn (10, 1) * 5 + 140;
 randn ("seed", 8);    # for reproducibility
 B = randn (25, 1) * 8 + 135;
 randn ("seed", 9);    # for reproducibility
 C = randn (20, 1) * 6 + 165;
 data = [A; B; C];
 groups = [(ones (10, 1)); (ones (25, 1) * 2); (ones (20, 1) * 3)];
 labels = {"Team A", "Team B", "Team C"};
 pos = [2, 1, 3];
 boxplot (data, groups, "Notch", "on", "Labels", labels, "Positions", pos, ...
          "OutlierTags", "on", "BoxStyle", "filled");
 title ("Example of Group splitting with paired vectors");
***** demo
 randn ("seed", 1);    # for reproducibility
 data = randn (100, 9);
 boxplot (data, "notch", "on", "boxstyle", "filled", ...
          "colors", "ygcwkmb", "whisker", 1.2);
 title ("Example of different colors specified with characters");
***** demo
 randn ("seed", 5);    # for reproducibility
 data = randn (100, 13);
 colors = [0.7 0.7 0.7; ...
           0.0 0.4 0.9; ...
           0.7 0.4 0.3; ...
           0.7 0.1 0.7; ...
           0.8 0.7 0.4; ...
           0.1 0.8 0.5; ...
           0.9 0.9 0.2];
 boxplot (data, "notch", "on", "boxstyle", "filled", ...
          "colors", colors, "whisker", 1.3, "boxwidth", "proportional");
 title ("Example of different colors specified as RGB values");
***** error <numerical array or cell array containing> boxplot ("a")
***** error <data cells must contain> boxplot ({[1 2 3], "a"})
***** error <grouping vector may only be passed> boxplot ([1 2 3], 1, {2, 3})
***** error <grouping vector must be numerical> boxplot ([1 2 3], {"a", "b"})
***** error <'Notch' input argument accepts> boxplot ([1:10], "notch", "any")
***** error <boxplot: invalid 'Notch' value.> boxplot ([1:10], "notch", i)
***** error <boxplot: invalid 'Notch' value.> boxplot ([1:10], "notch", {})
***** error <must be character> boxplot (1, "symbol", 1)
***** error <'Orientation' input argument accepts only> boxplot (1, "orientation", "diagonal")
***** error <boxplot: invalid 'Orientation' value.> boxplot (1, "orientation", {})
***** error <'Whisker' input argument accepts only> boxplot (1, "whisker", "a")
***** error <'Whisker' input argument accepts only> boxplot (1, "whisker", [1 3])
***** error <'OutlierTags' input argument accepts only> boxplot (3, "OutlierTags", "maybe")
***** error <boxplot: invalid 'OutlierTags' value.> boxplot (3, "OutlierTags", {})
***** error <'Sample_IDs' input argument accepts only> boxplot (1, "sample_IDs", 1)
***** error <'BoxWidth' input argument accepts only> boxplot (1, "boxwidth", 2)
***** error <'BoxWidth' input argument accepts only> boxplot (1, "boxwidth", "anything")
***** error <'Widths' input argument accepts only> boxplot (5, "widths", "a")
***** error <'Widths' input argument accepts only> boxplot (5, "widths", [1:4])
***** error <'Widths' input argument accepts only> boxplot (5, "widths", [])
***** error <'CapWidths' input argument accepts only> boxplot (5, "capwidths", "a")
***** error <'CapWidths' input argument accepts only> boxplot (5, "capwidths", [1:4])
***** error <'CapWidths' input argument accepts only> boxplot (5, "capwidths", [])
***** error <'BoxStyle' input argument accepts only> boxplot (1, "Boxstyle", 1)
***** error <'BoxStyle' input argument accepts only> boxplot (1, "Boxstyle", "garbage")
***** error <'Positions' input argument accepts only> boxplot (1, "positions", "aa")
***** error <'Labels' input argument accepts only> boxplot (3, "labels", [1 5])
***** error <'Colors' input argument accepts only> boxplot (1, "colors", {})
***** error <'Colors' input argument accepts only> boxplot (2, "colors", [1 2 3 4])
***** error <Sample_IDs must match the data> boxplot (randn (10, 3), 'Sample_IDs', {"a", "b"})
***** error <with the formalism> boxplot (rand (3, 3), [1 2])
***** test
 hf = figure ("visible", "off");
 unwind_protect
   [a, b] = boxplot (rand (10, 3));
   assert (size (a), [7, 3]);
   assert (numel (b.box), 3);
   assert (numel (b.whisker), 12);
   assert (numel (b.median), 3);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   [~, b] = boxplot (rand (10, 3), "BoxStyle", "filled", "colors", "ybc");
   assert (numel (b.box_fill), 3);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   hold on
   [a, b] = boxplot (rand (10, 3));
   assert (ishold, true);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
34 tests, 34 passed, 0 known failure, 0 skipped
[inst/ttest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ttest.m
***** test
 x = 8:0.1:12;
 [h, pval, ci] = ttest (x, 10);
 assert (h, 0)
 assert (pval, 1, 10*eps)
 assert (ci, [9.6219 10.3781], 1E-5)
 [h, pval, ci0] = ttest (x, 0);
 assert (h, 1)
 assert (pval, 0)
 assert (ci0, ci, 2e-15)
 [h, pval, ci] = ttest (x, 10, "tail", "right", "dim", 2, "alpha", 0.05);
 assert (h, 0)
 assert (pval, 0.5, 10*eps)
 assert (ci, [9.68498 Inf], 1E-5)
***** error ttest ([8:0.1:12], 10, "tail", "invalid");
***** error ttest ([8:0.1:12], 10, "tail", 25);
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/dist_fun/binornd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/binornd.m
***** assert (size (binornd (2, 1/2)), [1 1])
***** assert (size (binornd (2 * ones (2, 1), 1/2)), [2, 1])
***** assert (size (binornd (2 * ones (2, 2), 1/2)), [2, 2])
***** assert (size (binornd (2, 1/2 * ones (2, 1))), [2, 1])
***** assert (size (binornd (1, 1/2 * ones (2, 2))), [2, 2])
***** assert (size (binornd (ones (2, 1), 1)), [2, 1])
***** assert (size (binornd (ones (2, 2), 1)), [2, 2])
***** assert (size (binornd (2, 1/2, 3)), [3, 3])
***** assert (size (binornd (1, 1, [4, 1])), [4, 1])
***** assert (size (binornd (1, 1, 4, 1)), [4, 1])
***** assert (size (binornd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (binornd (1, 1, 0, 1)), [0, 1])
***** assert (size (binornd (1, 1, 1, 0)), [1, 0])
***** assert (size (binornd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (binornd (1, 1, [])), [0, 0])
***** assert (size (binornd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (binornd (1, 1)), "double")
***** assert (class (binornd (1, single (0))), "single")
***** assert (class (binornd (1, single ([0, 0]))), "single")
***** assert (class (binornd (1, single (1), 2)), "single")
***** assert (class (binornd (1, single ([1, 1]), 1, 2)), "single")
***** assert (class (binornd (single (1), 1, 2)), "single")
***** assert (class (binornd (single ([1, 1]), 1, 1, 2)), "single")
***** error<binornd: function called with too few input arguments.> binornd ()
***** error<binornd: function called with too few input arguments.> binornd (1)
***** error<binornd: N and PS must be of common size or scalars.> ...
 binornd (ones (3), ones (2))
***** error<binornd: N and PS must be of common size or scalars.> ...
 binornd (ones (2), ones (3))
***** error<binornd: N and PS must not be complex.> binornd (i, 2)
***** error<binornd: N and PS must not be complex.> binornd (1, i)
***** error<binornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 binornd (1, 1/2, -1)
***** error<binornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 binornd (1, 1/2, 1.2)
***** error<binornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 binornd (1, 1/2, ones (2))
***** error<binornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 binornd (1, 1/2, [2 -1 2])
***** error<binornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 binornd (1, 1/2, [2 0 2.5])
***** error<binornd: dimensions must be non-negative integers.> ...
 binornd (1, 1/2, 2, -1, 5)
***** error<binornd: dimensions must be non-negative integers.> ...
 binornd (1, 1/2, 2, 1.5, 5)
***** error<binornd: N and PS must be scalars or of size SZ.> ...
 binornd (2, 1/2 * ones (2), 3)
***** error<binornd: N and PS must be scalars or of size SZ.> ...
 binornd (2, 1/2 * ones (2), [3, 2])
***** error<binornd: N and PS must be scalars or of size SZ.> ...
 binornd (2, 1/2 * ones (2), 3, 2)
***** error<binornd: N and PS must be scalars or of size SZ.> ...
 binornd (2 * ones (2), 1/2, 3)
***** error<binornd: N and PS must be scalars or of size SZ.> ...
 binornd (2 * ones (2), 1/2, [3, 2])
***** error<binornd: N and PS must be scalars or of size SZ.> ...
 binornd (2 * ones (2), 1/2, 3, 2)
42 tests, 42 passed, 0 known failure, 0 skipped
[inst/dist_fun/hninv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hninv.m
***** demo
 ## Plot various iCDFs from the half-normal distribution
 p = 0.001:0.001:0.999;
 x1 = hninv (p, 0, 1);
 x2 = hninv (p, 0, 2);
 x3 = hninv (p, 0, 3);
 x4 = hninv (p, 0, 5);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([0, 10])
 legend ({"μ = 0, σ = 1", "μ = 0, σ = 2", ...
          "μ = 0, σ = 3", "μ = 0, σ = 5"}, "location", "northwest")
 title ("Half-normal iCDF")
 xlabel ("probability")
 ylabel ("x")
***** shared p, x
 p = [0, 0.3829, 0.6827, 1];
 x = [0, 1/2, 1, Inf];
***** assert (hninv (p, 0, 1), x, 1e-4);
***** assert (hninv (p, 5, 1), x + 5, 1e-4);
***** assert (hninv (p, 0, ones (1,4)), x, 1e-4);
***** assert (hninv (p, 0, [-1, 0, 1, 1]), [NaN, NaN, x(3:4)], 1e-4)
***** assert (class (hninv (single ([p, NaN]), 0, 1)), "single")
***** assert (class (hninv ([p, NaN], single (0), 1)), "single")
***** assert (class (hninv ([p, NaN], 0, single (1))), "single")
***** error<hninv: function called with too few input arguments.> hninv (1)
***** error<hninv: function called with too few input arguments.> hninv (1, 2)
***** error<hninv: P, MU, and SIGMA must be of common size or scalars.> ...
 hninv (1, ones (2), ones (3))
***** error<hninv: P, MU, and SIGMA must be of common size or scalars.> ...
 hninv (ones (2), 1, ones (3))
***** error<hninv: P, MU, and SIGMA must be of common size or scalars.> ...
 hninv (ones (2), ones (3), 1)
***** error<hninv: P, MU, and SIGMA must not be complex.> hninv (i, 2, 3)
***** error<hninv: P, MU, and SIGMA must not be complex.> hninv (1, i, 3)
***** error<hninv: P, MU, and SIGMA must not be complex.> hninv (1, 2, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/bisarnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/bisarnd.m
***** assert (size (bisarnd (1, 1)), [1 1])
***** assert (size (bisarnd (1, ones (2,1))), [2, 1])
***** assert (size (bisarnd (1, ones (2,2))), [2, 2])
***** assert (size (bisarnd (ones (2,1), 1)), [2, 1])
***** assert (size (bisarnd (ones (2,2), 1)), [2, 2])
***** assert (size (bisarnd (1, 1, 3)), [3, 3])
***** assert (size (bisarnd (1, 1, [4, 1])), [4, 1])
***** assert (size (bisarnd (1, 1, 4, 1)), [4, 1])
***** assert (size (bisarnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (bisarnd (1, 1, 0, 1)), [0, 1])
***** assert (size (bisarnd (1, 1, 1, 0)), [1, 0])
***** assert (size (bisarnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (bisarnd (1, 1, [])), [0, 0])
***** assert (size (bisarnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (bisarnd (1, 1)), "double")
***** assert (class (bisarnd (1, single (1))), "single")
***** assert (class (bisarnd (1, single ([1, 1]))), "single")
***** assert (class (bisarnd (single (1), 1)), "single")
***** assert (class (bisarnd (single ([1, 1]), 1)), "single")
***** error<bisarnd: function called with too few input arguments.> bisarnd ()
***** error<bisarnd: function called with too few input arguments.> bisarnd (1)
***** error<bisarnd: BETA and GAMMA must be of common size or scalars.> ...
 bisarnd (ones (3), ones (2))
***** error<bisarnd: BETA and GAMMA must be of common size or scalars.> ...
 bisarnd (ones (2), ones (3))
***** error<bisarnd: BETA and GAMMA must not be complex.> bisarnd (i, 2, 3)
***** error<bisarnd: BETA and GAMMA must not be complex.> bisarnd (1, i, 3)
***** error<bisarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 bisarnd (1, 2, -1)
***** error<bisarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 bisarnd (1, 2, 1.2)
***** error<bisarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 bisarnd (1, 2, ones (2))
***** error<bisarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 bisarnd (1, 2, [2 -1 2])
***** error<bisarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 bisarnd (1, 2, [2 0 2.5])
***** error<bisarnd: dimensions must be non-negative integers.> ...
 bisarnd (1, 2, 2, -1, 5)
***** error<bisarnd: dimensions must be non-negative integers.> ...
 bisarnd (1, 2, 2, 1.5, 5)
***** error<bisarnd: BETA and GAMMA must be scalars or of size SZ.> ...
 bisarnd (2, ones (2), 3)
***** error<bisarnd: BETA and GAMMA must be scalars or of size SZ.> ...
 bisarnd (2, ones (2), [3, 2])
***** error<bisarnd: BETA and GAMMA must be scalars or of size SZ.> ...
 bisarnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/tcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tcdf.m
***** demo
 ## Plot various CDFs from the Student's T distribution
 x = -5:0.01:5;
 p1 = tcdf (x, 1);
 p2 = tcdf (x, 2);
 p3 = tcdf (x, 5);
 p4 = tcdf (x, Inf);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-m")
 grid on
 xlim ([-5, 5])
 ylim ([0, 1])
 legend ({"df = 1", "df = 2", ...
          "df = 5", 'df = \infty'}, "location", "southeast")
 title ("Student's T CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x,y
 x = [-Inf 0 1 Inf];
 y = [0 1/2 3/4 1];
***** assert (tcdf (x, ones (1,4)), y, eps)
***** assert (tcdf (x, 1), y, eps)
***** assert (tcdf (x, [0 1 NaN 1]), [NaN 1/2 NaN 1], eps)
***** assert (tcdf ([x(1:2) NaN x(4)], 1), [y(1:2) NaN y(4)], eps)
***** assert (tcdf (2, 3, "upper"), 0.0697, 1e-4)
***** assert (tcdf (205, 5, "upper"), 2.6206e-11, 1e-14)
***** assert (tcdf ([x, NaN], 1), [y, NaN], eps)
***** assert (tcdf (single ([x, NaN]), 1), single ([y, NaN]), eps ("single"))
***** assert (tcdf ([x, NaN], single (1)), single ([y, NaN]), eps ("single"))
***** error<tcdf: function called with too few input arguments.> tcdf ()
***** error<tcdf: function called with too few input arguments.> tcdf (1)
***** error<tcdf: invalid argument for upper tail.> tcdf (1, 2, "uper")
***** error<tcdf: invalid argument for upper tail.> tcdf (1, 2, 3)
***** error<tcdf: X and DF must be of common size or scalars.> ...
 tcdf (ones (3), ones (2))
***** error<tcdf: X and DF must be of common size or scalars.> ...
 tcdf (ones (3), ones (2))
***** error<tcdf: X and DF must be of common size or scalars.> ...
 tcdf (ones (3), ones (2), "upper")
***** error<tcdf: X and DF must not be complex.> tcdf (i, 2)
***** error<tcdf: X and DF must not be complex.> tcdf (2, i)
***** shared tol_rel
 tol_rel = 10 * eps;
***** assert (tcdf (10^(-10), 2.5), 0.50000000003618087, -tol_rel)
***** assert (tcdf (10^(-11), 2.5), 0.50000000000361809, -tol_rel)
***** assert (tcdf (10^(-12), 2.5), 0.50000000000036181, -tol_rel)
***** assert (tcdf (10^(-13), 2.5), 0.50000000000003618, -tol_rel)
***** assert (tcdf (10^(-14), 2.5), 0.50000000000000362, -tol_rel)
***** assert (tcdf (10^(-15), 2.5), 0.50000000000000036, -tol_rel)
***** assert (tcdf (10^(-16), 2.5), 0.50000000000000004, -tol_rel)
***** assert (tcdf (-10^1, 2.5), 2.2207478836537124e-03, -tol_rel)
***** assert (tcdf (-10^2, 2.5), 7.1916492116661878e-06, -tol_rel)
***** assert (tcdf (-10^3, 2.5), 2.2747463948307452e-08, -tol_rel)
***** assert (tcdf (-10^4, 2.5), 7.1933970159922115e-11, -tol_rel)
***** assert (tcdf (-10^5, 2.5), 2.2747519231756221e-13, -tol_rel)
30 tests, 30 passed, 0 known failure, 0 skipped
[inst/dist_fun/betapdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/betapdf.m
***** demo
 ## Plot various PDFs from the Beta distribution
 x = 0.001:0.001:0.999;
 y1 = betapdf (x, 0.5, 0.5);
 y2 = betapdf (x, 5, 1);
 y3 = betapdf (x, 1, 3);
 y4 = betapdf (x, 2, 2);
 y5 = betapdf (x, 2, 5);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-m")
 grid on
 ylim ([0, 2.5])
 legend ({"α = β = 0.5", "α = 5, β = 1", "α = 1, β = 3", ...
          "α = 2, β = 2", "α = 2, β = 5"}, "location", "north")
 title ("Beta PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 0.5 1 2];
 y = [0 2 1 0 0];
***** assert (betapdf (x, ones (1, 5), 2 * ones (1, 5)), y)
***** assert (betapdf (x, 1, 2 * ones (1, 5)), y)
***** assert (betapdf (x, ones (1, 5), 2), y)
***** assert (betapdf (x, [0 NaN 1 1 1], 2), [NaN NaN y(3:5)])
***** assert (betapdf (x, 1, 2 * [0 NaN 1 1 1]), [NaN NaN y(3:5)])
***** assert (betapdf ([x, NaN], 1, 2), [y, NaN])
***** assert (betapdf (single ([x, NaN]), 1, 2), single ([y, NaN]))
***** assert (betapdf ([x, NaN], single (1), 2), single ([y, NaN]))
***** assert (betapdf ([x, NaN], 1, single (2)), single ([y, NaN]))
***** test
 x = rand (10,1);
 y = 1 ./ (pi * sqrt (x .* (1 - x)));
 assert (betapdf (x, 1/2, 1/2), y, 1e-12);
***** assert (betapdf (0.5, 1000, 1000), 35.678, 1e-3)
***** error<betapdf: function called with too few input arguments.> betapdf ()
***** error<betapdf: function called with too few input arguments.> betapdf (1)
***** error<betapdf: function called with too few input arguments.> betapdf (1,2)
***** error<betapdf: function called with too many inputs> betapdf (1,2,3,4)
***** error<betapdf: X, A, and B must be of common size or scalars.> ...
 betapdf (ones (3), ones (2), ones (2))
***** error<betapdf: X, A, and B must be of common size or scalars.> ...
 betapdf (ones (2), ones (3), ones (2))
***** error<betapdf: X, A, and B must be of common size or scalars.> ...
 betapdf (ones (2), ones (2), ones (3))
***** error<betapdf: X, A, and B must not be complex.> betapdf (i, 2, 2)
***** error<betapdf: X, A, and B must not be complex.> betapdf (2, i, 2)
***** error<betapdf: X, A, and B must not be complex.> betapdf (2, 2, i)
21 tests, 21 passed, 0 known failure, 0 skipped
[inst/dist_fun/gevinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gevinv.m
***** demo
 ## Plot various iCDFs from the generalized extreme value distribution
 p = 0.001:0.001:0.999;
 x1 = gevinv (p, 1, 1, 1);
 x2 = gevinv (p, 0.5, 1, 1);
 x3 = gevinv (p, 1, 1, 5);
 x4 = gevinv (p, 1, 2, 5);
 x5 = gevinv (p, 1, 5, 5);
 x6 = gevinv (p, 1, 0.5, 5);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", ...
       p, x4, "-c", p, x5, "-m", p, x6, "-k")
 grid on
 ylim ([-1, 10])
 legend ({"k = 1, σ = 1, μ = 1", "k = 0.5, σ = 1, μ = 1", ...
          "k = 1, σ = 1, μ = 5", "k = 1, σ = 2, μ = 5", ...
          "k = 1, σ = 5, μ = 5", "k = 1, σ = 0.5, μ = 5"}, ...
         "location", "northwest")
 title ("Generalized extreme value iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** test
 p = 0.1:0.1:0.9;
 k = 0;
 sigma = 1;
 mu = 0;
 x = gevinv (p, k, sigma, mu);
 c = gevcdf(x, k, sigma, mu);
 assert (c, p, 0.001);
***** test
 p = 0.1:0.1:0.9;
 k = 1;
 sigma = 1;
 mu = 0;
 x = gevinv (p, k, sigma, mu);
 c = gevcdf(x, k, sigma, mu);
 assert (c, p, 0.001);
***** test
 p = 0.1:0.1:0.9;
 k = 0.3;
 sigma = 1;
 mu = 0;
 x = gevinv (p, k, sigma, mu);
 c = gevcdf(x, k, sigma, mu);
 assert (c, p, 0.001);
***** error<gevinv: function called with too few input arguments.> gevinv ()
***** error<gevinv: function called with too few input arguments.> gevinv (1)
***** error<gevinv: function called with too few input arguments.> gevinv (1, 2)
***** error<gevinv: function called with too few input arguments.> gevinv (1, 2, 3)
***** error<gevinv: P, K, SIGMA, and MU must be of common size or scalars.> ...
 gevinv (ones (3), ones (2), ones(2), ones(2))
***** error<gevinv: P, K, SIGMA, and MU must be of common size or scalars.> ...
 gevinv (ones (2), ones (3), ones(2), ones(2))
***** error<gevinv: P, K, SIGMA, and MU must be of common size or scalars.> ...
 gevinv (ones (2), ones (2), ones(3), ones(2))
***** error<gevinv: P, K, SIGMA, and MU must be of common size or scalars.> ...
 gevinv (ones (2), ones (2), ones(2), ones(3))
***** error<gevinv: P, K, SIGMA, and MU must not be complex.> gevinv (i, 2, 3, 4)
***** error<gevinv: P, K, SIGMA, and MU must not be complex.> gevinv (1, i, 3, 4)
***** error<gevinv: P, K, SIGMA, and MU must not be complex.> gevinv (1, 2, i, 4)
***** error<gevinv: P, K, SIGMA, and MU must not be complex.> gevinv (1, 2, 3, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/lognrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/lognrnd.m
***** assert (size (lognrnd (1, 1)), [1, 1])
***** assert (size (lognrnd (1, ones (2, 1))), [2, 1])
***** assert (size (lognrnd (1, ones (2, 2))), [2, 2])
***** assert (size (lognrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (lognrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (lognrnd (1, 1, 3)), [3, 3])
***** assert (size (lognrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (lognrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (lognrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (lognrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (lognrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (lognrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (lognrnd (1, 1, [])), [0, 0])
***** assert (size (lognrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (lognrnd (1, 1)), "double")
***** assert (class (lognrnd (1, single (1))), "single")
***** assert (class (lognrnd (1, single ([1, 1]))), "single")
***** assert (class (lognrnd (single (1), 1)), "single")
***** assert (class (lognrnd (single ([1, 1]), 1)), "single")
***** error<lognrnd: function called with too few input arguments.> lognrnd ()
***** error<lognrnd: function called with too few input arguments.> lognrnd (1)
***** error<lognrnd: MU and SIGMA must be of common size or scalars.> ...
 lognrnd (ones (3), ones (2))
***** error<lognrnd: MU and SIGMA must be of common size or scalars.> ...
 lognrnd (ones (2), ones (3))
***** error<lognrnd: MU and SIGMA must not be complex.> lognrnd (i, 2, 3)
***** error<lognrnd: MU and SIGMA must not be complex.> lognrnd (1, i, 3)
***** error<lognrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 lognrnd (1, 2, -1)
***** error<lognrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 lognrnd (1, 2, 1.2)
***** error<lognrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 lognrnd (1, 2, ones (2))
***** error<lognrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 lognrnd (1, 2, [2 -1 2])
***** error<lognrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 lognrnd (1, 2, [2 0 2.5])
***** error<lognrnd: dimensions must be non-negative integers.> ...
 lognrnd (1, 2, 2, -1, 5)
***** error<lognrnd: dimensions must be non-negative integers.> ...
 lognrnd (1, 2, 2, 1.5, 5)
***** error<lognrnd: MU and SIGMA must be scalars or of size SZ.> ...
 lognrnd (2, ones (2), 3)
***** error<lognrnd: MU and SIGMA must be scalars or of size SZ.> ...
 lognrnd (2, ones (2), [3, 2])
***** error<lognrnd: MU and SIGMA must be scalars or of size SZ.> ...
 lognrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/unidpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unidpdf.m
***** demo
 ## Plot various PDFs from the discrete uniform distribution
 x = 0:10;
 y1 = unidpdf (x, 5);
 y2 = unidpdf (x, 9);
 plot (x, y1, "*b", x, y2, "*g")
 grid on
 xlim ([0, 10])
 ylim ([0, 0.25])
 legend ({"N = 5", "N = 9"}, "location", "northeast")
 title ("Discrete uniform PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 1 2 10 11];
 y = [0 0 0.1 0.1 0.1 0];
***** assert (unidpdf (x, 10*ones (1,6)), y)
***** assert (unidpdf (x, 10), y)
***** assert (unidpdf (x, 10*[0 NaN 1 1 1 1]), [NaN NaN y(3:6)])
***** assert (unidpdf ([x, NaN], 10), [y, NaN])
***** assert (unidpdf (single ([x, NaN]), 10), single ([y, NaN]))
***** assert (unidpdf ([x, NaN], single (10)), single ([y, NaN]))
***** error<unidpdf: function called with too few input arguments.> unidpdf ()
***** error<unidpdf: function called with too few input arguments.> unidpdf (1)
***** error<unidpdf: X and N must be of common size or scalars.> ...
 unidpdf (ones (3), ones (2))
***** error<unidpdf: X and N must be of common size or scalars.> ...
 unidpdf (ones (2), ones (3))
***** error<unidpdf: X and N must not be complex.> unidpdf (i, 2)
***** error<unidpdf: X and N must not be complex.> unidpdf (2, i)
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fun/hygernd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hygernd.m
***** assert (size (hygernd (4, 2, 2)), [1, 1])
***** assert (size (hygernd (4 * ones (2, 1), 2,2)), [2, 1])
***** assert (size (hygernd (4 * ones (2, 2), 2,2)), [2, 2])
***** assert (size (hygernd (4, 2 * ones (2, 1), 2)), [2, 1])
***** assert (size (hygernd (4, 2 * ones (2, 2), 2)), [2, 2])
***** assert (size (hygernd (4, 2, 2 * ones (2, 1))), [2, 1])
***** assert (size (hygernd (4, 2, 2 * ones (2, 2))), [2, 2])
***** assert (size (hygernd (4, 2, 2, 3)), [3, 3])
***** assert (size (hygernd (4, 2, 2, [4, 1])), [4, 1])
***** assert (size (hygernd (4, 2, 2, 4, 1)), [4, 1])
***** assert (size (hygernd (4, 2, 2, [])), [0, 0])
***** assert (size (hygernd (4, 2, 2, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (hygernd (4, 2, 2)), "double")
***** assert (class (hygernd (single (4), 2, 2)), "single")
***** assert (class (hygernd (single ([4, 4]), 2, 2)), "single")
***** assert (class (hygernd (4, single (2), 2)), "single")
***** assert (class (hygernd (4, single ([2, 2]),2)), "single")
***** assert (class (hygernd (4, 2, single (2))), "single")
***** assert (class (hygernd (4, 2, single ([2, 2]))), "single")
***** error<hygernd: function called with too few input arguments.> hygernd ()
***** error<hygernd: function called with too few input arguments.> hygernd (1)
***** error<hygernd: function called with too few input arguments.> hygernd (1, 2)
***** error<hygernd: T, M, and N must be of common size or scalars.> ...
 hygernd (ones (3), ones (2), ones (2))
***** error<hygernd: T, M, and N must be of common size or scalars.> ...
 hygernd (ones (2), ones (3), ones (2))
***** error<hygernd: T, M, and N must be of common size or scalars.> ...
 hygernd (ones (2), ones (2), ones (3))
***** error<hygernd: T, M, and N must not be complex.> hygernd (i, 2, 3)
***** error<hygernd: T, M, and N must not be complex.> hygernd (1, i, 3)
***** error<hygernd: T, M, and N must not be complex.> hygernd (1, 2, i)
***** error<hygernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hygernd (1, 2, 3, -1)
***** error<hygernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hygernd (1, 2, 3, 1.2)
***** error<hygernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hygernd (1, 2, 3, ones (2))
***** error<hygernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hygernd (1, 2, 3, [2 -1 2])
***** error<hygernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hygernd (1, 2, 3, [2 0 2.5])
***** error<hygernd: dimensions must be non-negative integers.> ...
 hygernd (1, 2, 3, 2, -1, 5)
***** error<hygernd: dimensions must be non-negative integers.> ...
 hygernd (1, 2, 3, 2, 1.5, 5)
***** error<hygernd: T, M, and N must be scalars or of size SZ.> ...
 hygernd (2, ones (2), 2, 3)
***** error<hygernd: T, M, and N must be scalars or of size SZ.> ...
 hygernd (2, ones (2), 2, [3, 2])
***** error<hygernd: T, M, and N must be scalars or of size SZ.> ...
 hygernd (2, ones (2), 2, 3, 2)
38 tests, 38 passed, 0 known failure, 0 skipped
[inst/dist_fun/gamrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gamrnd.m
***** assert (size (gamrnd (1, 1)), [1 1])
***** assert (size (gamrnd (1, ones (2,1))), [2, 1])
***** assert (size (gamrnd (1, ones (2,2))), [2, 2])
***** assert (size (gamrnd (ones (2,1), 1)), [2, 1])
***** assert (size (gamrnd (ones (2,2), 1)), [2, 2])
***** assert (size (gamrnd (1, 1, 3)), [3, 3])
***** assert (size (gamrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (gamrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (gamrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (gamrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (gamrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (gamrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (gamrnd (1, 1, [])), [0, 0])
***** assert (size (gamrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (gamrnd (1, 1)), "double")
***** assert (class (gamrnd (1, single (1))), "single")
***** assert (class (gamrnd (1, single ([1, 1]))), "single")
***** assert (class (gamrnd (single (1), 1)), "single")
***** assert (class (gamrnd (single ([1, 1]), 1)), "single")
***** error<gamrnd: function called with too few input arguments.> gamrnd ()
***** error<gamrnd: function called with too few input arguments.> gamrnd (1)
***** error<gamrnd: A and B must be of common size or scalars.> ...
 gamrnd (ones (3), ones (2))
***** error<gamrnd: A and B must be of common size or scalars.> ...
 gamrnd (ones (2), ones (3))
***** error<gamrnd: A and B must not be complex.> gamrnd (i, 2, 3)
***** error<gamrnd: A and B must not be complex.> gamrnd (1, i, 3)
***** error<gamrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gamrnd (1, 2, -1)
***** error<gamrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gamrnd (1, 2, 1.2)
***** error<gamrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gamrnd (1, 2, ones (2))
***** error<gamrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gamrnd (1, 2, [2 -1 2])
***** error<gamrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gamrnd (1, 2, [2 0 2.5])
***** error<gamrnd: dimensions must be non-negative integers.> ...
 gamrnd (1, 2, 2, -1, 5)
***** error<gamrnd: dimensions must be non-negative integers.> ...
 gamrnd (1, 2, 2, 1.5, 5)
***** error<gamrnd: A and B must be scalars or of size SZ.> ...
 gamrnd (2, ones (2), 3)
***** error<gamrnd: A and B must be scalars or of size SZ.> ...
 gamrnd (2, ones (2), [3, 2])
***** error<gamrnd: A and B must be scalars or of size SZ.> ...
 gamrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/exppdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/exppdf.m
***** demo
 ## Plot various PDFs from the exponential distribution
 x = 0:0.01:5;
 y1 = exppdf (x, 2/3);
 y2 = exppdf (x, 1.0);
 y3 = exppdf (x, 2.0);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r")
 grid on
 ylim ([0, 1.5])
 legend ({"μ = 2/3", "μ = 1", "μ = 2"}, "location", "northeast")
 title ("Exponential PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x,y
 x = [-1 0 0.5 1 Inf];
 y = gampdf (x, 1, 2);
***** assert (exppdf (x, 2*ones (1,5)), y)
***** assert (exppdf (x, 2*[1 0 NaN 1 1]), [y(1) NaN NaN y(4:5)])
***** assert (exppdf ([x, NaN], 2), [y, NaN])
***** assert (exppdf (single ([x, NaN]), 2), single ([y, NaN]))
***** assert (exppdf ([x, NaN], single (2)), single ([y, NaN]))
***** error<exppdf: function called with too few input arguments.> exppdf ()
***** error<exppdf: function called with too many inputs> exppdf (1,2,3)
***** error<exppdf: X and MU must be of common size or scalars.> ...
 exppdf (ones (3), ones (2))
***** error<exppdf: X and MU must be of common size or scalars.> ...
 exppdf (ones (2), ones (3))
***** error<exppdf: X and MU must not be complex.> exppdf (i, 2)
***** error<exppdf: X and MU must not be complex.> exppdf (2, i)
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fun/binocdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/binocdf.m
***** demo
 ## Plot various CDFs from the binomial distribution
 x = 0:40;
 p1 = binocdf (x, 20, 0.5);
 p2 = binocdf (x, 20, 0.7);
 p3 = binocdf (x, 40, 0.5);
 plot (x, p1, "*b", x, p2, "*g", x, p3, "*r")
 grid on
 legend ({"n = 20, ps = 0.5", "n = 20, ps = 0.7", ...
          "n = 40, ps = 0.5"}, "location", "southeast")
 title ("Binomial CDF")
 xlabel ("values in x (number of successes)")
 ylabel ("probability")
***** shared x, p, p1
 x = [-1 0 1 2 3];
 p = [0 1/4 3/4 1 1];
 p1 = 1 - p;
***** assert (binocdf (x, 2 * ones (1, 5), 0.5 * ones (1, 5)), p, eps)
***** assert (binocdf (x, 2, 0.5 * ones (1, 5)), p, eps)
***** assert (binocdf (x, 2 * ones (1, 5), 0.5), p, eps)
***** assert (binocdf (x, 2 * [0 -1 NaN 1.1 1], 0.5), [0 NaN NaN NaN 1])
***** assert (binocdf (x, 2, 0.5 * [0 -1 NaN 3 1]), [0 NaN NaN NaN 1])
***** assert (binocdf ([x(1:2) NaN x(4:5)], 2, 0.5), [p(1:2) NaN p(4:5)], eps)
***** assert (binocdf (99, 100, 0.1, "upper"), 1e-100, 1e-112);
***** assert (binocdf (x, 2 * ones (1, 5), 0.5*ones (1,5), "upper"), p1, eps)
***** assert (binocdf (x, 2, 0.5 * ones (1, 5), "upper"), p1, eps)
***** assert (binocdf (x, 2 * ones (1, 5), 0.5, "upper"), p1, eps)
***** assert (binocdf (x, 2 * [0 -1 NaN 1.1 1], 0.5, "upper"), [1 NaN NaN NaN 0])
***** assert (binocdf (x, 2, 0.5 * [0 -1 NaN 3 1], "upper"), [1 NaN NaN NaN 0])
***** assert (binocdf ([x(1:2) NaN x(4:5)], 2, 0.5, "upper"), [p1(1:2) NaN p1(4:5)])
***** assert (binocdf ([x, NaN], 2, 0.5), [p, NaN], eps)
***** assert (binocdf (single ([x, NaN]), 2, 0.5), single ([p, NaN]))
***** assert (binocdf ([x, NaN], single (2), 0.5), single ([p, NaN]))
***** assert (binocdf ([x, NaN], 2, single (0.5)), single ([p, NaN]))
***** error<binocdf: function called with too few input arguments.> binocdf ()
***** error<binocdf: function called with too few input arguments.> binocdf (1)
***** error<binocdf: function called with too few input arguments.> binocdf (1, 2)
***** error<binocdf: function called with too many inputs> binocdf (1, 2, 3, 4, 5)
***** error<binocdf: invalid argument for upper tail.> binocdf (1, 2, 3, "tail")
***** error<binocdf: invalid argument for upper tail.> binocdf (1, 2, 3, 4)
***** error<binocdf: X, N, and PS must be of common size or scalars.> ...
 binocdf (ones (3), ones (2), ones (2))
***** error<binocdf: X, N, and PS must be of common size or scalars.> ...
 binocdf (ones (2), ones (3), ones (2))
***** error<binocdf: X, N, and PS must be of common size or scalars.> ...
 binocdf (ones (2), ones (2), ones (3))
***** error<binocdf: X, N, and PS must not be complex.> binocdf (i, 2, 2)
***** error<binocdf: X, N, and PS must not be complex.> binocdf (2, i, 2)
***** error<binocdf: X, N, and PS must not be complex.> binocdf (2, 2, i)
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/dist_fun/riceinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/riceinv.m
***** demo
 ## Plot various iCDFs from the Rician distribution
 p = 0.001:0.001:0.999;
 x1 = riceinv (p, 0, 1);
 x2 = riceinv (p, 0.5, 1);
 x3 = riceinv (p, 1, 1);
 x4 = riceinv (p, 2, 1);
 x5 = riceinv (p, 4, 1);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-m", p, x5, "-k")
 grid on
 legend ({"s = 0, σ = 1", "s = 0.5, σ = 1", "s = 1, σ = 1", ...
          "s = 2, σ = 1", "s = 4, σ = 1"}, "location", "northwest")
 title ("Rician iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.75 1 2];
***** assert (riceinv (p, ones (1,5), 2*ones (1,5)), [NaN 0 3.5354 Inf NaN], 1e-4)
***** assert (riceinv (p, 1, 2*ones (1,5)), [NaN 0 3.5354 Inf NaN], 1e-4)
***** assert (riceinv (p, ones (1,5), 2), [NaN 0 3.5354 Inf NaN], 1e-4)
***** assert (riceinv (p, [1 0 NaN 1 1], 2), [NaN 0 NaN Inf NaN])
***** assert (riceinv (p, 1, 2*[1 0 NaN 1 1]), [NaN NaN NaN Inf NaN])
***** assert (riceinv ([p(1:2) NaN p(4:5)], 1, 2), [NaN 0 NaN Inf NaN])
***** assert (riceinv ([p, NaN], 1, 2), [NaN 0 3.5354 Inf NaN NaN], 1e-4)
***** assert (riceinv (single ([p, NaN]), 1, 2), ...
        single ([NaN 0 3.5354 Inf NaN NaN]), 1e-4)
***** assert (riceinv ([p, NaN], single (1), 2), ...
        single ([NaN 0 3.5354 Inf NaN NaN]), 1e-4)
***** assert (riceinv ([p, NaN], 1, single (2)), ...
        single ([NaN 0 3.5354 Inf NaN NaN]), 1e-4)
***** error<riceinv: function called with too few input arguments.> riceinv ()
***** error<riceinv: function called with too few input arguments.> riceinv (1)
***** error<riceinv: function called with too few input arguments.> riceinv (1,2)
***** error<riceinv: function called with too many inputs> riceinv (1,2,3,4)
***** error<riceinv: P, S, and B must be of common size or scalars.> ...
 riceinv (ones (3), ones (2), ones (2))
***** error<riceinv: P, S, and B must be of common size or scalars.> ...
 riceinv (ones (2), ones (3), ones (2))
***** error<riceinv: P, S, and B must be of common size or scalars.> ...
 riceinv (ones (2), ones (2), ones (3))
***** error<riceinv: P, S, and B must not be complex.> riceinv (i, 2, 2)
***** error<riceinv: P, S, and B must not be complex.> riceinv (2, i, 2)
***** error<riceinv: P, S, and B must not be complex.> riceinv (2, 2, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/nakacdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nakacdf.m
***** demo
 ## Plot various CDFs from the Nakagami distribution
 x = 0:0.01:3;
 p1 = nakacdf (x, 0.5, 1);
 p2 = nakacdf (x, 1, 1);
 p3 = nakacdf (x, 1, 2);
 p4 = nakacdf (x, 1, 3);
 p5 = nakacdf (x, 2, 1);
 p6 = nakacdf (x, 2, 2);
 p7 = nakacdf (x, 5, 1);
 plot (x, p1, "-r", x, p2, "-g", x, p3, "-y", x, p4, "-m", ...
       x, p5, "-k", x, p6, "-b", x, p7, "-c")
 grid on
 xlim ([0, 3])
 legend ({"μ = 0.5, ω = 1", "μ = 1, ω = 1", "μ = 1, ω = 2", ...
          "μ = 1, ω = 3", "μ = 2, ω = 1", "μ = 2, ω = 2", ...
          "μ = 5, ω = 1"}, "location", "southeast")
 title ("Nakagami CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1, 0, 1, 2, Inf];
 y = [0, 0, 0.63212055882855778, 0.98168436111126578, 1];
***** assert (nakacdf (x, ones (1,5), ones (1,5)), y, eps)
***** assert (nakacdf (x, 1, 1), y, eps)
***** assert (nakacdf (x, [1, 1, NaN, 1, 1], 1), [y(1:2), NaN, y(4:5)])
***** assert (nakacdf (x, 1, [1, 1, NaN, 1, 1]), [y(1:2), NaN, y(4:5)])
***** assert (nakacdf ([x, NaN], 1, 1), [y, NaN], eps)
***** assert (nakacdf (single ([x, NaN]), 1, 1), single ([y, NaN]), eps("single"))
***** assert (nakacdf ([x, NaN], single (1), 1), single ([y, NaN]), eps("single"))
***** assert (nakacdf ([x, NaN], 1, single (1)), single ([y, NaN]), eps("single"))
***** error<nakacdf: function called with too few input arguments.> nakacdf ()
***** error<nakacdf: function called with too few input arguments.> nakacdf (1)
***** error<nakacdf: function called with too few input arguments.> nakacdf (1, 2)
***** error<nakacdf: invalid argument for upper tail.> nakacdf (1, 2, 3, "tail")
***** error<nakacdf: invalid argument for upper tail.> nakacdf (1, 2, 3, 4)
***** error<nakacdf: X, MU, and OMEGA must be of common size or scalars.> ...
 nakacdf (ones (3), ones (2), ones (2))
***** error<nakacdf: X, MU, and OMEGA must be of common size or scalars.> ...
 nakacdf (ones (2), ones (3), ones (2))
***** error<nakacdf: X, MU, and OMEGA must be of common size or scalars.> ...
 nakacdf (ones (2), ones (2), ones (3))
***** error<nakacdf: X, MU, and OMEGA must not be complex.> nakacdf (i, 2, 2)
***** error<nakacdf: X, MU, and OMEGA must not be complex.> nakacdf (2, i, 2)
***** error<nakacdf: X, MU, and OMEGA must not be complex.> nakacdf (2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/nctcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nctcdf.m
***** demo
 ## Plot various CDFs from the noncentral Τ distribution
 x = -5:0.01:5;
 p1 = nctcdf (x, 1, 0);
 p2 = nctcdf (x, 4, 0);
 p3 = nctcdf (x, 1, 2);
 p4 = nctcdf (x, 4, 2);
 plot (x, p1, "-r", x, p2, "-g", x, p3, "-k", x, p4, "-m")
 grid on
 xlim ([-5, 5])
 legend ({"df = 1, μ = 0", "df = 4, μ = 0", ...
          "df = 1, μ = 2", "df = 4, μ = 2"}, "location", "southeast")
 title ("Noncentral Τ CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** demo
 ## Compare the noncentral T CDF with MU = 1 to the T CDF
 ## with the same number of degrees of freedom (10).

 x = -5:0.1:5;
 p1 = nctcdf (x, 10, 1);
 p2 = tcdf (x, 10);
 plot (x, p1, "-", x, p2, "-")
 grid on
 xlim ([-5, 5])
 legend ({"Noncentral T(10,1)", "T(10)"}, "location", "southeast")
 title ("Noncentral T vs T CDFs")
 xlabel ("values in x")
 ylabel ("probability")
***** test
 x = -2:0.1:2;
 p = nctcdf (x, 10, 1);
 assert (p(1), 0.003302485766631558, 1e-14);
 assert (p(2), 0.004084668193532631, 1e-14);
 assert (p(3), 0.005052800319478737, 1e-14);
 assert (p(41), 0.8076115625303751, 1e-14);
***** test
 p = nctcdf (12, 10, 3);
 assert (p, 0.9997719343243797, 1e-14);
***** test
 p = nctcdf (2, 3, 2);
 assert (p, 0.4430757822176028, 1e-14);
***** test
 p = nctcdf (2, 3, 2, "upper");
 assert (p, 0.5569242177823971, 1e-14);
***** test
 p = nctcdf ([3, 6], 3, 2, "upper");
 assert (p, [0.3199728259444777, 0.07064855592441913], 1e-14);
***** error<nctcdf: function called with too few input arguments.> nctcdf ()
***** error<nctcdf: function called with too few input arguments.> nctcdf (1)
***** error<nctcdf: function called with too few input arguments.> nctcdf (1, 2)
***** error<nctcdf: invalid argument for upper tail.> nctcdf (1, 2, 3, "tail")
***** error<nctcdf: invalid argument for upper tail.> nctcdf (1, 2, 3, 4)
***** error<nctcdf: X, DF, and MU must be of common size or scalars.> ...
 nctcdf (ones (3), ones (2), ones (2))
***** error<nctcdf: X, DF, and MU must be of common size or scalars.> ...
 nctcdf (ones (2), ones (3), ones (2))
***** error<nctcdf: X, DF, and MU must be of common size or scalars.> ...
 nctcdf (ones (2), ones (2), ones (3))
***** error<nctcdf: X, DF, and MU must not be complex.> nctcdf (i, 2, 2)
***** error<nctcdf: X, DF, and MU must not be complex.> nctcdf (2, i, 2)
***** error<nctcdf: X, DF, and MU must not be complex.> nctcdf (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncfcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncfcdf.m
***** demo
 ## Plot various CDFs from the noncentral F distribution
 x = 0:0.01:5;
 p1 = ncfcdf (x, 2, 5, 1);
 p2 = ncfcdf (x, 2, 5, 2);
 p3 = ncfcdf (x, 5, 10, 1);
 p4 = ncfcdf (x, 10, 20, 10);
 plot (x, p1, "-r", x, p2, "-g", x, p3, "-k", x, p4, "-m")
 grid on
 xlim ([0, 5])
 legend ({"df1 = 2, df2 = 5, λ = 1", "df1 = 2, df2 = 5, λ = 2", ...
          "df1 = 5, df2 = 10, λ = 1", "df1 = 10, df2 = 20, λ = 10"}, ...
         "location", "southeast")
 title ("Noncentral F CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** demo
 ## Compare the noncentral F CDF with LAMBDA = 10 to the F CDF with the
 ## same number of numerator and denominator degrees of freedom (5, 20)

 x = 0.01:0.1:10.01;
 p1 = ncfcdf (x, 5, 20, 10);
 p2 = fcdf (x, 5, 20);
 plot (x, p1, "-", x, p2, "-");
 grid on
 xlim ([0, 10])
 legend ({"Noncentral F(5,20,10)", "F(5,20)"}, "location", "southeast")
 title ("Noncentral F vs F CDFs")
 xlabel ("values in x")
 ylabel ("probability")
***** test
 x = -2:0.1:2;
 p = ncfcdf (x, 10, 1, 3);
 assert (p([1:21]), zeros (1, 21), 1e-76);
 assert (p(22), 0.004530737275319753, 1e-14);
 assert (p(30), 0.255842099135669, 1e-14);
 assert (p(41), 0.4379890998457305, 1e-14);
***** test
 p = ncfcdf (12, 10, 3, 2);
 assert (p, 0.9582287900447416, 1e-14);
***** test
 p = ncfcdf (2, 3, 2, 1);
 assert (p, 0.5731985522994989, 1e-14);
***** test
 p = ncfcdf (2, 3, 2, 1, "upper");
 assert (p, 0.4268014477004823, 1e-14);
***** test
 p = ncfcdf ([3, 6], 3, 2, 5, "upper");
 assert (p, [0.530248523596927, 0.3350482341323044], 1e-14);
***** error<ncfcdf: function called with too few input arguments.> ncfcdf ()
***** error<ncfcdf: function called with too few input arguments.> ncfcdf (1)
***** error<ncfcdf: function called with too few input arguments.> ncfcdf (1, 2)
***** error<ncfcdf: function called with too few input arguments.> ncfcdf (1, 2, 3)
***** error<ncfcdf: invalid argument for upper tail.> ncfcdf (1, 2, 3, 4, "tail")
***** error<ncfcdf: invalid argument for upper tail.> ncfcdf (1, 2, 3, 4, 5)
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfcdf (ones (3), ones (2), ones (2), ones (2))
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfcdf (ones (2), ones (3), ones (2), ones (2))
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfcdf (ones (2), ones (2), ones (3), ones (2))
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfcdf (ones (2), ones (2), ones (2), ones (3))
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfcdf (i, 2, 2, 2)
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfcdf (2, i, 2, 2)
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfcdf (2, 2, i, 2)
***** error<ncfcdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfcdf (2, 2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/tripdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tripdf.m
***** demo
 ## Plot various CDFs from the triangular distribution
 x = 0.001:0.001:10;
 y1 = tripdf (x, 3, 4, 6);
 y2 = tripdf (x, 1, 2, 5);
 y3 = tripdf (x, 2, 3, 9);
 y4 = tripdf (x, 2, 5, 9);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 xlim ([0, 10])
 legend ({"a = 3, b = 4, c = 6", "a = 1, b = 2, c = 5", ...
          "a = 2, b = 3, c = 9", "a = 2, b = 5, c = 9"}, ...
         "location", "northeast")
 title ("Triangular CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y, deps
 x = [-1, 0, 0.1, 0.5, 0.9, 1, 2] + 1;
 y = [0, 0, 0.4, 2, 0.4, 0, 0];
 deps = 2*eps;
***** assert (tripdf (x, ones (1,7), 1.5*ones (1,7), 2*ones (1,7)), y, deps)
***** assert (tripdf (x, 1*ones (1,7), 1.5, 2), y, deps)
***** assert (tripdf (x, 1, 1.5, 2*ones (1,7)), y, deps)
***** assert (tripdf (x, 1, 1.5*ones (1,7), 2), y, deps)
***** assert (tripdf (x, 1, 1.5, 2), y, deps)
***** assert (tripdf (x, [1, 1, NaN, 1, 1, 1, 1], 1.5, 2), [y(1:2), NaN, y(4:7)], deps)
***** assert (tripdf (x, 1, 1.5, 2*[1, 1, NaN, 1, 1, 1, 1]), [y(1:2), NaN, y(4:7)], deps)
***** assert (tripdf (x, 1, 1.5*[1, 1, NaN, 1, 1, 1, 1], 2), [y(1:2), NaN, y(4:7)], deps)
***** assert (tripdf ([x, NaN], 1, 1.5, 2), [y, NaN], deps)
***** assert (tripdf (single ([x, NaN]), 1, 1.5, 2), single ([y, NaN]), eps("single"))
***** assert (tripdf ([x, NaN], single (1), 1.5, 2), single ([y, NaN]), eps("single"))
***** assert (tripdf ([x, NaN], 1, 1.5, single (2)), single ([y, NaN]), eps("single"))
***** assert (tripdf ([x, NaN], 1, single (1.5), 2), single ([y, NaN]), eps("single"))
***** error<tripdf: function called with too few input arguments.> tripdf ()
***** error<tripdf: function called with too few input arguments.> tripdf (1)
***** error<tripdf: function called with too few input arguments.> tripdf (1, 2)
***** error<tripdf: function called with too few input arguments.> tripdf (1, 2, 3)
***** error<tripdf: function called with too many inputs> ...
 tripdf (1, 2, 3, 4, 5)
***** error<tripdf: X, A, B, and C must be of common size or scalars.> ...
 tripdf (ones (3), ones (2), ones(2), ones(2))
***** error<tripdf: X, A, B, and C must be of common size or scalars.> ...
 tripdf (ones (2), ones (3), ones(2), ones(2))
***** error<tripdf: X, A, B, and C must be of common size or scalars.> ...
 tripdf (ones (2), ones (2), ones(3), ones(2))
***** error<tripdf: X, A, B, and C must be of common size or scalars.> ...
 tripdf (ones (2), ones (2), ones(2), ones(3))
***** error<tripdf: X, A, B, and C must not be complex.> tripdf (i, 2, 3, 4)
***** error<tripdf: X, A, B, and C must not be complex.> tripdf (1, i, 3, 4)
***** error<tripdf: X, A, B, and C must not be complex.> tripdf (1, 2, i, 4)
***** error<tripdf: X, A, B, and C must not be complex.> tripdf (1, 2, 3, i)
26 tests, 26 passed, 0 known failure, 0 skipped
[inst/dist_fun/geopdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/geopdf.m
***** demo
 ## Plot various PDFs from the geometric distribution
 x = 0:10;
 y1 = geopdf (x, 0.2);
 y2 = geopdf (x, 0.5);
 y3 = geopdf (x, 0.7);
 plot (x, y1, "*b", x, y2, "*g", x, y3, "*r")
 grid on
 ylim ([0, 0.8])
 legend ({"ps = 0.2", "ps = 0.5", "ps = 0.7"}, "location", "northeast")
 title ("Geometric PDF")
 xlabel ("values in x (number of failures)")
 ylabel ("density")
***** shared x, y
 x = [-1 0 1 Inf];
 y = [0, 1/2, 1/4, NaN];
***** assert (geopdf (x, 0.5*ones (1,4)), y)
***** assert (geopdf (x, 0.5), y)
***** assert (geopdf (x, 0.5*[-1 NaN 4 1]), [NaN NaN NaN y(4)])
***** assert (geopdf ([x, NaN], 0.5), [y, NaN])
***** assert (geopdf (single ([x, NaN]), 0.5), single ([y, NaN]), 5*eps ("single"))
***** assert (geopdf ([x, NaN], single (0.5)), single ([y, NaN]), 5*eps ("single"))
***** error geopdf ()
***** error geopdf (1)
***** error geopdf (1,2,3)
***** error geopdf (ones (3), ones (2))
***** error geopdf (ones (2), ones (3))
***** error geopdf (i, 2)
***** error geopdf (2, i)
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fun/hncdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hncdf.m
***** demo
 ## Plot various CDFs from the half-normal distribution
 x = 0:0.001:10;
 p1 = hncdf (x, 0, 1);
 p2 = hncdf (x, 0, 2);
 p3 = hncdf (x, 0, 3);
 p4 = hncdf (x, 0, 5);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 xlim ([0, 10])
 legend ({"μ = 0, σ = 1", "μ = 0, σ = 2", ...
          "μ = 0, σ = 3", "μ = 0, σ = 5"}, "location", "southeast")
 title ("Half-normal CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** demo
 ## Plot half-normal against normal cumulative distribution function
 x = -5:0.001:5;
 p1 = hncdf (x, 0, 1);
 p2 = normcdf (x);
 plot (x, p1, "-b", x, p2, "-g")
 grid on
 xlim ([-5, 5])
 legend ({"half-normal with μ = 0, σ = 1", ...
          "standart normal (μ = 0, σ = 1)"}, "location", "southeast")
 title ("Half-normal against standard normal CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, p1, p1u, y2, y2u, y3, y3u
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 p1 = [0, 0, 0, 0.3829, 0.6827, 1];
 p1u = [1, 1, 1, 0.6171, 0.3173, 0];
***** assert (hncdf (x, zeros (1,6), ones (1,6)), p1, 1e-4)
***** assert (hncdf (x, 0, 1), p1, 1e-4)
***** assert (hncdf (x, 0, ones (1,6)), p1, 1e-4)
***** assert (hncdf (x, zeros (1,6), 1), p1, 1e-4)
***** assert (hncdf (x, 0, [1, 1, 1, NaN, 1, 1]), [p1(1:3), NaN, p1(5:6)], 1e-4)
***** assert (hncdf (x, [0, 0, 0, NaN, 0, 0], 1), [p1(1:3), NaN, p1(5:6)], 1e-4)
***** assert (hncdf ([x(1:3), NaN, x(5:6)], 0, 1), [p1(1:3), NaN, p1(5:6)], 1e-4)
***** assert (hncdf (x, zeros (1,6), ones (1,6), "upper"), p1u, 1e-4)
***** assert (hncdf (x, 0, 1, "upper"), p1u, 1e-4)
***** assert (hncdf (x, 0, ones (1,6), "upper"), p1u, 1e-4)
***** assert (hncdf (x, zeros (1,6), 1, "upper"), p1u, 1e-4)
***** assert (class (hncdf (single ([x, NaN]), 0, 1)), "single")
***** assert (class (hncdf ([x, NaN], 0, single (1))), "single")
***** assert (class (hncdf ([x, NaN], single (0), 1)), "single")
***** error<hncdf: function called with too few input arguments.> hncdf ()
***** error<hncdf: function called with too few input arguments.> hncdf (1)
***** error<hncdf: function called with too few input arguments.> hncdf (1, 2)
***** error<hncdf: invalid argument for upper tail.> hncdf (1, 2, 3, "tail")
***** error<hncdf: invalid argument for upper tail.> hncdf (1, 2, 3, 5)
***** error<hncdf: X, MU, and SIGMA must be of common size or scalars.> ...
 hncdf (ones (3), ones (2), ones(2))
***** error<hncdf: X, MU, and SIGMA must be of common size or scalars.> ...
 hncdf (ones (2), ones (3), ones(2))
***** error<hncdf: X, MU, and SIGMA must be of common size or scalars.> ...
 hncdf (ones (2), ones (2), ones(3))
***** error<hncdf: X, MU, and SIGMA must not be complex.> hncdf (i, 2, 3)
***** error<hncdf: X, MU, and SIGMA must not be complex.> hncdf (1, i, 3)
***** error<hncdf: X, MU, and SIGMA must not be complex.> hncdf (1, 2, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/ricecdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ricecdf.m
***** demo
 ## Plot various CDFs from the Rician distribution
 x = 0:0.01:10;
 p1 = ricecdf (x, 0, 1);
 p2 = ricecdf (x, 0.5, 1);
 p3 = ricecdf (x, 1, 1);
 p4 = ricecdf (x, 2, 1);
 p5 = ricecdf (x, 4, 1);
 plot (x, p1, "-b", x, p2, "g", x, p3, "-r", x, p4, "-m", x, p5, "-k")
 grid on
 ylim ([0, 1])
 xlim ([0, 8])
 legend ({"s = 0, σ = 1", "s = 0.5, σ = 1", "s = 1, σ = 1", ...
          "s = 2, σ = 1", "s = 4, σ = 1"}, "location", "southeast")
 title ("Rician CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** demo
 ## Plot various CDFs from the Rician distribution
 x = 0:0.01:10;
 p1 = ricecdf (x, 0, 0.5);
 p2 = ricecdf (x, 0, 2);
 p3 = ricecdf (x, 0, 3);
 p4 = ricecdf (x, 2, 2);
 p5 = ricecdf (x, 4, 2);
 plot (x, p1, "-b", x, p2, "g", x, p3, "-r", x, p4, "-m", x, p5, "-k")
 grid on
 ylim ([0, 1])
 xlim ([0, 8])
 legend ({"ν = 0, σ = 0.5", "ν = 0, σ = 2", "ν = 0, σ = 3", ...
          "ν = 2, σ = 2", "ν = 4, σ = 2"}, "location", "southeast")
 title ("Rician CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** test
 x = 0:0.5:2.5;
 s = 1:6;
 p = ricecdf (x, s, 1);
 expected_p = [0.0000, 0.0179, 0.0108, 0.0034, 0.0008, 0.0001];
 assert (p, expected_p, 0.001);
***** test
 x = 0:0.5:2.5;
 sigma = 1:6;
 p = ricecdf (x, 1, sigma);
 expected_p = [0.0000, 0.0272, 0.0512, 0.0659, 0.0754, 0.0820];
 assert (p, expected_p, 0.001);
***** test
 x = 0:0.5:2.5;
 p = ricecdf (x, 0, 1);
 expected_p = [0.0000, 0.1175, 0.3935, 0.6753, 0.8647, 0.9561];
 assert (p, expected_p, 0.001);
***** test
 x = 0:0.5:2.5;
 p = ricecdf (x, 1, 1);
 expected_p = [0.0000, 0.0735, 0.2671, 0.5120, 0.7310, 0.8791];
 assert (p, expected_p, 0.001);
***** shared x, p
 x = [-1, 0, 1, 2, Inf];
 p = [0, 0, 0.26712019620318, 0.73098793996409, 1];
***** assert (ricecdf (x, 1, 1), p, 1e-14)
***** assert (ricecdf (x, 1, 1, "upper"), 1 - p, 1e-14)
***** error<ricecdf: function called with too few input arguments.> ricecdf ()
***** error<ricecdf: function called with too few input arguments.> ricecdf (1)
***** error<ricecdf: function called with too few input arguments.> ricecdf (1, 2)
***** error<ricecdf: invalid argument for upper tail.> ricecdf (1, 2, 3, "uper")
***** error<ricecdf: invalid argument for upper tail.> ricecdf (1, 2, 3, 4)
***** error<ricecdf: X, S, and SIGMA must be of common size or scalars.> ...
 ricecdf (ones (3), ones (2), ones (2))
***** error<ricecdf: X, S, and SIGMA must be of common size or scalars.> ...
 ricecdf (ones (2), ones (3), ones (2))
***** error<ricecdf: X, S, and SIGMA must be of common size or scalars.> ...
 ricecdf (ones (2), ones (2), ones (3))
***** error<ricecdf: X, S, and SIGMA must not be complex.> ricecdf (i, 2, 3)
***** error<ricecdf: X, S, and SIGMA must not be complex.> ricecdf (2, i, 3)
***** error<ricecdf: X, S, and SIGMA must not be complex.> ricecdf (2, 2, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncx2inv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncx2inv.m
***** demo
 ## Plot various iCDFs from the noncentral chi-squared distribution
 p = 0.001:0.001:0.999;
 x1 = ncx2inv (p, 2, 1);
 x2 = ncx2inv (p, 2, 2);
 x3 = ncx2inv (p, 2, 3);
 x4 = ncx2inv (p, 4, 1);
 x5 = ncx2inv (p, 4, 2);
 x6 = ncx2inv (p, 4, 3);
 plot (p, x1, "-r", p, x2, "-g", p, x3, "-k", ...
       p, x4, "-m", p, x5, "-c", p, x6, "-y")
 grid on
 ylim ([0, 10])
 legend ({"df = 2, λ = 1", "df = 2, λ = 2", ...
          "df = 2, λ = 3", "df = 4, λ = 1", ...
          "df = 4, λ = 2", "df = 4, λ = 3"}, "location", "northwest")
 title ("Noncentral chi-squared iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** demo
 ## Compare the noncentral chi-squared CDF with LAMBDA = 2 to the
 ## chi-squared CDF with the same number of degrees of freedom (4).

 p = 0.001:0.001:0.999;
 x1 = ncx2inv (p, 4, 2);
 x2 = chi2inv (p, 4);
 plot (p, x1, "-", p, x2, "-");
 grid on
 ylim ([0, 10])
 legend ({"Noncentral χ^2(4,2)", "χ^2(4)"}, "location", "northwest")
 title ("Noncentral chi-squared vs chi-squared quantile functions")
 xlabel ("probability")
 ylabel ("values in x")
***** test
 x = [0,0.3443,0.7226,1.1440,1.6220,2.1770,2.8436,3.6854,4.8447,6.7701,Inf];
 assert (ncx2inv ([0:0.1:1], 2, 1), x, 1e-4);
***** test
 x = [0,0.8295,1.6001,2.3708,3.1785,4.0598,5.0644,6.2765,7.8763,10.4199,Inf];
 assert (ncx2inv ([0:0.1:1], 2, 3), x, 1e-4);
***** test
 x = [0,0.5417,1.3483,2.1796,3.0516,4.0003,5.0777,6.3726,8.0748,10.7686,Inf];
 assert (ncx2inv ([0:0.1:1], 1, 4), x, 1e-4);
***** test
 x = [0.1808, 0.6456, 1.1842, 1.7650, 2.3760, 3.0105];
 assert (ncx2inv (0.05, [1, 2, 3, 4, 5, 6], 4), x, 1e-4);
***** test
 x = [0.4887, 0.6699, 0.9012, 1.1842, 1.5164, 1.8927];
 assert (ncx2inv (0.05, 3, [1, 2, 3, 4, 5, 6]), x, 1e-4);
***** test
 x = [1.3941, 1.6824, 2.0103, 2.3760, NaN, 3.2087];
 assert (ncx2inv (0.05, 5, [1, 2, 3, 4, -1, 6]), x, 1e-4);
***** test
 assert (ncx2inv (0.996, 5, 8), 35.51298862765576, 3e-13);
***** error<ncx2inv: function called with too few input arguments.> ncx2inv ()
***** error<ncx2inv: function called with too few input arguments.> ncx2inv (1)
***** error<ncx2inv: function called with too few input arguments.> ncx2inv (1, 2)
***** error<ncx2inv: P, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2inv (ones (3), ones (2), ones (2))
***** error<ncx2inv: P, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2inv (ones (2), ones (3), ones (2))
***** error<ncx2inv: P, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2inv (ones (2), ones (2), ones (3))
***** error<ncx2inv: P, DF, and LAMBDA must not be complex.> ncx2inv (i, 2, 2)
***** error<ncx2inv: P, DF, and LAMBDA must not be complex.> ncx2inv (2, i, 2)
***** error<ncx2inv: P, DF, and LAMBDA must not be complex.> ncx2inv (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/nbincdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nbincdf.m
***** demo
 ## Plot various CDFs from the negative binomial distribution
 x = 0:50;
 p1 = nbincdf (x, 2, 0.15);
 p2 = nbincdf (x, 5, 0.2);
 p3 = nbincdf (x, 4, 0.4);
 p4 = nbincdf (x, 10, 0.3);
 plot (x, p1, "*r", x, p2, "*g", x, p3, "*k", x, p4, "*m")
 grid on
 xlim ([0, 40])
 legend ({"r = 2, ps = 0.15", "r = 5, ps = 0.2", "r = 4, p = 0.4", ...
          "r = 10, ps = 0.3"}, "location", "southeast")
 title ("Negative binomial CDF")
 xlabel ("values in x (number of failures)")
 ylabel ("probability")
***** shared x, y
 x = [-1 0 1 2 Inf];
 y = [0 1/2 3/4 7/8 1];
***** assert (nbincdf (x, ones (1,5), 0.5*ones (1,5)), y)
***** assert (nbincdf (x, 1, 0.5*ones (1,5)), y)
***** assert (nbincdf (x, ones (1,5), 0.5), y)
***** assert (nbincdf (x, ones (1,5), 0.5, "upper"), 1 - y, eps)
***** assert (nbincdf ([x(1:3) 0 x(5)], [0 1 NaN 1.5 Inf], 0.5), ...
 [NaN 1/2 NaN nbinpdf(0,1.5,0.5) NaN], eps)
***** assert (nbincdf (x, 1, 0.5*[-1 NaN 4 1 1]), [NaN NaN NaN y(4:5)])
***** assert (nbincdf ([x(1:2) NaN x(4:5)], 1, 0.5), [y(1:2) NaN y(4:5)])
***** assert (nbincdf ([x, NaN], 1, 0.5), [y, NaN])
***** assert (nbincdf (single ([x, NaN]), 1, 0.5), single ([y, NaN]))
***** assert (nbincdf ([x, NaN], single (1), 0.5), single ([y, NaN]))
***** assert (nbincdf ([x, NaN], 1, single (0.5)), single ([y, NaN]))
***** error<nbincdf: function called with too few input arguments.> nbincdf ()
***** error<nbincdf: function called with too few input arguments.> nbincdf (1)
***** error<nbincdf: function called with too few input arguments.> nbincdf (1, 2)
***** error<nbincdf: invalid argument for upper tail.> nbincdf (1, 2, 3, 4)
***** error<nbincdf: invalid argument for upper tail.> nbincdf (1, 2, 3, "some")
***** error<nbincdf: X, R, and PS must be of common size or scalars.> ...
 nbincdf (ones (3), ones (2), ones (2))
***** error<nbincdf: X, R, and PS must be of common size or scalars.> ...
 nbincdf (ones (2), ones (3), ones (2))
***** error<nbincdf: X, R, and PS must be of common size or scalars.> ...
 nbincdf (ones (2), ones (2), ones (3))
***** error<nbincdf: X, R, and PS must not be complex.> nbincdf (i, 2, 2)
***** error<nbincdf: X, R, and PS must not be complex.> nbincdf (2, i, 2)
***** error<nbincdf: X, R, and PS must not be complex.> nbincdf (2, 2, i)
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/dist_fun/logiinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/logiinv.m
***** demo
 ## Plot various iCDFs from the logistic distribution
 p = 0.001:0.001:0.999;
 x1 = logiinv (p, 5, 2);
 x2 = logiinv (p, 9, 3);
 x3 = logiinv (p, 9, 4);
 x4 = logiinv (p, 6, 2);
 x5 = logiinv (p, 2, 1);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-m")
 grid on
 legend ({"μ = 5, σ = 2", "μ = 9, σ = 3", "μ = 9, σ = 4", ...
          "μ = 6, σ = 2", "μ = 2, σ = 1"}, "location", "southeast")
 title ("Logistic iCDF")
 xlabel ("probability")
 ylabel ("x")
***** test
 p = [0.01:0.01:0.99];
 assert (logiinv (p, 0, 1), log (p ./ (1-p)), 25*eps);
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (logiinv (p, 0, 1), [NaN -Inf 0 Inf NaN])
***** assert (logiinv (p, 0, [-1, 0, 1, 2, 3]), [NaN NaN 0 Inf NaN])
***** assert (logiinv ([p, NaN], 0, 1), [NaN -Inf 0 Inf NaN NaN])
***** assert (logiinv (single ([p, NaN]), 0, 1), single ([NaN -Inf 0 Inf NaN NaN]))
***** assert (logiinv ([p, NaN], single (0), 1), single ([NaN -Inf 0 Inf NaN NaN]))
***** assert (logiinv ([p, NaN], 0, single (1)), single ([NaN -Inf 0 Inf NaN NaN]))
***** error<logiinv: function called with too few input arguments.> logiinv ()
***** error<logiinv: function called with too few input arguments.> logiinv (1)
***** error<logiinv: function called with too few input arguments.> ...
 logiinv (1, 2)
***** error<logiinv: P, MU, and SIGMA must be of common size or scalars.> ...
 logiinv (1, ones (2), ones (3))
***** error<logiinv: P, MU, and SIGMA must be of common size or scalars.> ...
 logiinv (ones (2), 1, ones (3))
***** error<logiinv: P, MU, and SIGMA must be of common size or scalars.> ...
 logiinv (ones (2), ones (3), 1)
***** error<logiinv: P, MU, and SIGMA must not be complex.> logiinv (i, 2, 3)
***** error<logiinv: P, MU, and SIGMA must not be complex.> logiinv (1, i, 3)
***** error<logiinv: P, MU, and SIGMA must not be complex.> logiinv (1, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/vmpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/vmpdf.m
***** demo
 ## Plot various PDFs from the von Mises distribution
 x1 = [-pi:0.1:pi];
 y1 = vmpdf (x1, 0, 0.5);
 y2 = vmpdf (x1, 0, 1);
 y3 = vmpdf (x1, 0, 2);
 y4 = vmpdf (x1, 0, 4);
 plot (x1, y1, "-r", x1, y2, "-g", x1, y3, "-b", x1, y4, "-c")
 grid on
 xlim ([-pi, pi])
 ylim ([0, 0.8])
 legend ({"μ = 0, k = 0.5", "μ = 0, k = 1", ...
          "μ = 0, k = 2", "μ = 0, k = 4"}, "location", "northwest")
 title ("Von Mises PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y0, y1
 x = [-pi:pi/2:pi];
 y0 = [0.046245, 0.125708, 0.341710, 0.125708, 0.046245];
 y1 = [0.046245, 0.069817, 0.654958, 0.014082, 0.000039];
***** assert (vmpdf (x, 0, 1), y0, 1e-5)
***** assert (vmpdf (x, zeros (1,5), ones (1,5)), y0, 1e-6)
***** assert (vmpdf (x, 0, [1 2 3 4 5]), y1, 1e-6)
***** assert (isa (vmpdf (single (pi), 0, 1), "single"), true)
***** assert (isa (vmpdf (pi, single (0), 1), "single"), true)
***** assert (isa (vmpdf (pi, 0, single (1)), "single"), true)
***** error<vmpdf: function called with too few input arguments.> vmpdf ()
***** error<vmpdf: function called with too few input arguments.> vmpdf (1)
***** error<vmpdf: function called with too few input arguments.> vmpdf (1, 2)
***** error<vmpdf: X, MU, and K must be of common size or scalars.> ...
 vmpdf (ones (3), ones (2), ones (2))
***** error<vmpdf: X, MU, and K must be of common size or scalars.> ...
 vmpdf (ones (2), ones (3), ones (2))
***** error<vmpdf: X, MU, and K must be of common size or scalars.> ...
 vmpdf (ones (2), ones (2), ones (3))
***** error<vmpdf: X, MU, and K must not be complex.> vmpdf (i, 2, 2)
***** error<vmpdf: X, MU, and K must not be complex.> vmpdf (2, i, 2)
***** error<vmpdf: X, MU, and K must not be complex.> vmpdf (2, 2, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/nakarnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nakarnd.m
***** assert (size (nakarnd (1, 1)), [1, 1])
***** assert (size (nakarnd (1, ones (2, 1))), [2, 1])
***** assert (size (nakarnd (1, ones (2, 2))), [2, 2])
***** assert (size (nakarnd (ones (2, 1), 1)), [2, 1])
***** assert (size (nakarnd (ones (2, 2), 1)), [2, 2])
***** assert (size (nakarnd (1, 1, 3)), [3, 3])
***** assert (size (nakarnd (1, 1, [4, 1])), [4, 1])
***** assert (size (nakarnd (1, 1, 4, 1)), [4, 1])
***** assert (size (nakarnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (nakarnd (1, 1, 0, 1)), [0, 1])
***** assert (size (nakarnd (1, 1, 1, 0)), [1, 0])
***** assert (size (nakarnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (nakarnd (1, 1, [])), [0, 0])
***** assert (size (nakarnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (nakarnd (1, 1)), "double")
***** assert (class (nakarnd (1, single (1))), "single")
***** assert (class (nakarnd (1, single ([1, 1]))), "single")
***** assert (class (nakarnd (single (1), 1)), "single")
***** assert (class (nakarnd (single ([1, 1]), 1)), "single")
***** error<nakarnd: function called with too few input arguments.> nakarnd ()
***** error<nakarnd: function called with too few input arguments.> nakarnd (1)
***** error<nakarnd: MU and OMEGA must be of common size or scalars.> ...
 nakarnd (ones (3), ones (2))
***** error<nakarnd: MU and OMEGA must be of common size or scalars.> ...
 nakarnd (ones (2), ones (3))
***** error<nakarnd: MU and OMEGA must not be complex.> nakarnd (i, 2, 3)
***** error<nakarnd: MU and OMEGA must not be complex.> nakarnd (1, i, 3)
***** error<nakarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nakarnd (1, 2, -1)
***** error<nakarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nakarnd (1, 2, 1.2)
***** error<nakarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nakarnd (1, 2, ones (2))
***** error<nakarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nakarnd (1, 2, [2 -1 2])
***** error<nakarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nakarnd (1, 2, [2 0 2.5])
***** error<nakarnd: dimensions must be non-negative integers.> ...
 nakarnd (1, 2, 2, -1, 5)
***** error<nakarnd: dimensions must be non-negative integers.> ...
 nakarnd (1, 2, 2, 1.5, 5)
***** error<nakarnd: MU and OMEGA must be scalars or of size SZ.> ...
 nakarnd (2, ones (2), 3)
***** error<nakarnd: MU and OMEGA must be scalars or of size SZ.> ...
 nakarnd (2, ones (2), [3, 2])
***** error<nakarnd: MU and OMEGA must be scalars or of size SZ.> ...
 nakarnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/bisainv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/bisainv.m
***** demo
 ## Plot various iCDFs from the Birnbaum-Saunders distribution
 p = 0.001:0.001:0.999;
 x1 = bisainv (p, 1, 0.5);
 x2 = bisainv (p, 1, 1);
 x3 = bisainv (p, 1, 2);
 x4 = bisainv (p, 1, 5);
 x5 = bisainv (p, 1, 10);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-m")
 grid on
 ylim ([0, 10])
 legend ({"β = 1, γ = 0.5", "β = 1, γ = 1", "β = 1, γ = 2", ...
          "β = 1, γ = 5", "β = 1, γ = 10"}, "location", "northwest")
 title ("Birnbaum-Saunders iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** demo
 ## Plot various iCDFs from the Birnbaum-Saunders distribution
 p = 0.001:0.001:0.999;
 x1 = bisainv (p, 1, 0.3);
 x2 = bisainv (p, 2, 0.3);
 x3 = bisainv (p, 1, 0.5);
 x4 = bisainv (p, 3, 0.5);
 x5 = bisainv (p, 5, 0.5);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-m")
 grid on
 ylim ([0, 10])
 legend ({"β = 1, γ = 0.3", "β = 2, γ = 0.3", "β = 1, γ = 0.5", ...
          "β = 3, γ = 0.5", "β = 5, γ = 0.5"}, "location", "northwest")
 title ("Birnbaum-Saunders iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, y, f
 f = @(p,b,c) (b * (c * norminv (p) + sqrt (4 + (c * norminv(p))^2))^2) / 4;
 p = [-1, 0, 1/4, 1/2, 1, 2];
 y = [NaN, 0, f(1/4, 1, 1), 1, Inf, NaN];
***** assert (bisainv (p, ones (1,6), ones (1,6)), y)
***** assert (bisainv (p, 1, ones (1,6)), y)
***** assert (bisainv (p, ones (1,6), 1), y)
***** assert (bisainv (p, 1, 1), y)
***** assert (bisainv (p, 1, [1, 1, 1, NaN, 1, 1]), [y(1:3), NaN, y(5:6)])
***** assert (bisainv (p, [1, 1, 1, NaN, 1, 1], 1), [y(1:3), NaN, y(5:6)])
***** assert (bisainv ([p, NaN], 1, 1), [y, NaN])
***** assert (bisainv (single ([p, NaN]), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (bisainv ([p, NaN], 1, single (1)), single ([y, NaN]), eps ("single"))
***** assert (bisainv ([p, NaN], single (1), 1), single ([y, NaN]), eps ("single"))
***** error<bisainv: function called with too few input arguments.> bisainv ()
***** error<bisainv: function called with too few input arguments.> bisainv (1)
***** error<bisainv: function called with too few input arguments.> bisainv (1, 2)
***** error<bisainv: function called with too many inputs> bisainv (1, 2, 3, 4)
***** error<bisainv: P, BETA, and GAMMA must be of common size or scalars.> ...
 bisainv (ones (3), ones (2), ones(2))
***** error<bisainv: P, BETA, and GAMMA must be of common size or scalars.> ...
 bisainv (ones (2), ones (3), ones(2))
***** error<bisainv: P, BETA, and GAMMA must be of common size or scalars.> ...
 bisainv (ones (2), ones (2), ones(3))
***** error<bisainv: P, BETA, and GAMMA must not be complex.> bisainv (i, 4, 3)
***** error<bisainv: P, BETA, and GAMMA must not be complex.> bisainv (1, i, 3)
***** error<bisainv: P, BETA, and GAMMA must not be complex.> bisainv (1, 4, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/hygeinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hygeinv.m
***** demo
 ## Plot various iCDFs from the hypergeometric distribution
 p = 0.001:0.001:0.999;
 x1 = hygeinv (p, 500, 50, 100);
 x2 = hygeinv (p, 500, 60, 200);
 x3 = hygeinv (p, 500, 70, 300);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r")
 grid on
 ylim ([0, 60])
 legend ({"m = 500, k = 50, n = 100", "m = 500, k = 60, n = 200", ...
          "m = 500, k = 70, n = 300"}, "location", "northwest")
 title ("Hypergeometric iCDF")
 xlabel ("probability")
 ylabel ("values in p (number of successes)")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (hygeinv (p, 4*ones (1,5), 2*ones (1,5), 2*ones (1,5)), [NaN 0 1 2 NaN])
***** assert (hygeinv (p, 4*ones (1,5), 2, 2), [NaN 0 1 2 NaN])
***** assert (hygeinv (p, 4, 2*ones (1,5), 2), [NaN 0 1 2 NaN])
***** assert (hygeinv (p, 4, 2, 2*ones (1,5)), [NaN 0 1 2 NaN])
***** assert (hygeinv (p, 4*[1 -1 NaN 1.1 1], 2, 2), [NaN NaN NaN NaN NaN])
***** assert (hygeinv (p, 4, 2*[1 -1 NaN 1.1 1], 2), [NaN NaN NaN NaN NaN])
***** assert (hygeinv (p, 4, 5, 2), [NaN NaN NaN NaN NaN])
***** assert (hygeinv (p, 4, 2, 2*[1 -1 NaN 1.1 1]), [NaN NaN NaN NaN NaN])
***** assert (hygeinv (p, 4, 2, 5), [NaN NaN NaN NaN NaN])
***** assert (hygeinv ([p(1:2) NaN p(4:5)], 4, 2, 2), [NaN 0 NaN 2 NaN])
***** assert (hygeinv ([p, NaN], 4, 2, 2), [NaN 0 1 2 NaN NaN])
***** assert (hygeinv (single ([p, NaN]), 4, 2, 2), single ([NaN 0 1 2 NaN NaN]))
***** assert (hygeinv ([p, NaN], single (4), 2, 2), single ([NaN 0 1 2 NaN NaN]))
***** assert (hygeinv ([p, NaN], 4, single (2), 2), single ([NaN 0 1 2 NaN NaN]))
***** assert (hygeinv ([p, NaN], 4, 2, single (2)), single ([NaN 0 1 2 NaN NaN]))
***** error<hygeinv: function called with too few input arguments.> hygeinv ()
***** error<hygeinv: function called with too few input arguments.> hygeinv (1)
***** error<hygeinv: function called with too few input arguments.> hygeinv (1,2)
***** error<hygeinv: function called with too few input arguments.> hygeinv (1,2,3)
***** error<hygeinv: P, T, M, and N must be of common size or scalars.> ...
 hygeinv (ones (2), ones (3), 1, 1)
***** error<hygeinv: P, T, M, and N must be of common size or scalars.> ...
 hygeinv (1, ones (2), ones (3), 1)
***** error<hygeinv: P, T, M, and N must be of common size or scalars.> ...
 hygeinv (1, 1, ones (2), ones (3))
***** error<hygeinv: P, T, M, and N must not be complex.> hygeinv (i, 2, 2, 2)
***** error<hygeinv: P, T, M, and N must not be complex.> hygeinv (2, i, 2, 2)
***** error<hygeinv: P, T, M, and N must not be complex.> hygeinv (2, 2, i, 2)
***** error<hygeinv: P, T, M, and N must not be complex.> hygeinv (2, 2, 2, i)
26 tests, 26 passed, 0 known failure, 0 skipped
[inst/dist_fun/laplacecdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/laplacecdf.m
***** demo
 ## Plot various CDFs from the Laplace distribution
 x = -10:0.01:10;
 p1 = laplacecdf (x, 0, 1);
 p2 = laplacecdf (x, 0, 2);
 p3 = laplacecdf (x, 0, 4);
 p4 = laplacecdf (x, -5, 4);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 xlim ([-10, 10])
 legend ({"μ = 0, β = 1", "μ = 0, β = 2", ...
          "μ = 0, β = 4", "μ = -5, β = 4"}, "location", "southeast")
 title ("Laplace CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-Inf, -log(2), 0, log(2), Inf];
 y = [0, 1/4, 1/2, 3/4, 1];
***** assert (laplacecdf ([x, NaN], 0, 1), [y, NaN])
***** assert (laplacecdf (x, 0, [-2, -1, 0, 1, 2]), [nan(1, 3), 0.75, 1])
***** assert (laplacecdf (single ([x, NaN]), 0, 1), single ([y, NaN]), eps ("single"))
***** assert (laplacecdf ([x, NaN], single (0), 1), single ([y, NaN]), eps ("single"))
***** assert (laplacecdf ([x, NaN], 0, single (1)), single ([y, NaN]), eps ("single"))
***** error<laplacecdf: function called with too few input arguments.> laplacecdf ()
***** error<laplacecdf: function called with too few input arguments.> laplacecdf (1)
***** error<laplacecdf: function called with too few input arguments.> ...
 laplacecdf (1, 2)
***** error<laplacecdf: function called with too many inputs> ...
 laplacecdf (1, 2, 3, 4, 5)
***** error<laplacecdf: invalid argument for upper tail.> laplacecdf (1, 2, 3, "tail")
***** error<laplacecdf: invalid argument for upper tail.> laplacecdf (1, 2, 3, 4)
***** error<laplacecdf: X, MU, and BETA must be of common size or scalars.> ...
 laplacecdf (ones (3), ones (2), ones (2))
***** error<laplacecdf: X, MU, and BETA must be of common size or scalars.> ...
 laplacecdf (ones (2), ones (3), ones (2))
***** error<laplacecdf: X, MU, and BETA must be of common size or scalars.> ...
 laplacecdf (ones (2), ones (2), ones (3))
***** error<laplacecdf: X, MU, and BETA must not be complex.> laplacecdf (i, 2, 2)
***** error<laplacecdf: X, MU, and BETA must not be complex.> laplacecdf (2, i, 2)
***** error<laplacecdf: X, MU, and BETA must not be complex.> laplacecdf (2, 2, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/jsucdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/jsucdf.m
***** error jsucdf ()
***** error jsucdf (1, 2, 3, 4)
***** error<jsucdf: X, ALPHA1, and ALPHA2 must be of common size or scalars.> ...
 jsucdf (1, ones (2), ones (3))
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/dist_fun/gampdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gampdf.m
***** demo
 ## Plot various PDFs from the Gamma distribution
 x = 0:0.01:20;
 y1 = gampdf (x, 1, 2);
 y2 = gampdf (x, 2, 2);
 y3 = gampdf (x, 3, 2);
 y4 = gampdf (x, 5, 1);
 y5 = gampdf (x, 9, 0.5);
 y6 = gampdf (x, 7.5, 1);
 y7 = gampdf (x, 0.5, 1);
 plot (x, y1, "-r", x, y2, "-g", x, y3, "-y", x, y4, "-m", ...
       x, y5, "-k", x, y6, "-b", x, y7, "-c")
 grid on
 ylim ([0,0.5])
 legend ({"α = 1, β = 2", "α = 2, β = 2", "α = 3, β = 2", ...
          "α = 5, β = 1", "α = 9, β = 0.5", "α = 7.5, β = 1", ...
          "α = 0.5, β = 1"}, "location", "northeast")
 title ("Gamma PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 0.5 1 Inf];
 y = [0 exp(-x(2:end))];
***** assert (gampdf (x, ones (1,5), ones (1,5)), y)
***** assert (gampdf (x, 1, ones (1,5)), y)
***** assert (gampdf (x, ones (1,5), 1), y)
***** assert (gampdf (x, [0 -Inf NaN Inf 1], 1), [NaN NaN NaN 0 y(5)])
***** assert (gampdf (x, [0 Inf NaN Inf 1], 1), [NaN 0 NaN 0 y(5)])
***** assert (gampdf (x, 1, [0 -Inf NaN Inf 1]), [NaN NaN NaN 0 y(5)])
***** assert (gampdf ([x, NaN], 1, 1), [y, NaN])
***** assert (gampdf (2, Inf, 4), 0)
***** assert (gampdf (2, 4, Inf), 0)
***** assert (gampdf (2, Inf, Inf), 0)
***** assert (gampdf (single ([x, NaN]), 1, 1), single ([y, NaN]))
***** assert (gampdf ([x, NaN], single (1), 1), single ([y, NaN]))
***** assert (gampdf ([x, NaN], 1, single (1)), single ([y, NaN]))
***** error<gampdf: function called with too few input arguments.> gampdf ()
***** error<gampdf: function called with too few input arguments.> gampdf (1)
***** error<gampdf: function called with too few input arguments.> gampdf (1,2)
***** error<gampdf: X, A, and B must be of common size or scalars.> ...
 gampdf (ones (3), ones (2), ones (2))
***** error<gampdf: X, A, and B must be of common size or scalars.> ...
 gampdf (ones (2), ones (3), ones (2))
***** error<gampdf: X, A, and B must be of common size or scalars.> ...
 gampdf (ones (2), ones (2), ones (3))
***** error<gampdf: X, A, and B must not be complex.> gampdf (i, 2, 2)
***** error<gampdf: X, A, and B must not be complex.> gampdf (2, i, 2)
***** error<gampdf: X, A, and B must not be complex.> gampdf (2, 2, i)
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/dist_fun/nakainv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nakainv.m
***** demo
 ## Plot various iCDFs from the Nakagami distribution
 p = 0.001:0.001:0.999;
 x1 = nakainv (p, 0.5, 1);
 x2 = nakainv (p, 1, 1);
 x3 = nakainv (p, 1, 2);
 x4 = nakainv (p, 1, 3);
 x5 = nakainv (p, 2, 1);
 x6 = nakainv (p, 2, 2);
 x7 = nakainv (p, 5, 1);
 plot (p, x1, "-r", p, x2, "-g", p, x3, "-y", p, x4, "-m", ...
       p, x5, "-k", p, x6, "-b", p, x7, "-c")
 grid on
 ylim ([0, 3])
 legend ({"μ = 0.5, ω = 1", "μ = 1, ω = 1", "μ = 1, ω = 2", ...
          "μ = 1, ω = 3", "μ = 2, ω = 1", "μ = 2, ω = 2", ...
          "μ = 5, ω = 1"}, "location", "northwest")
 title ("Nakagami iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, y
 p = [-Inf, -1, 0, 1/2, 1, 2, Inf];
 y = [NaN, NaN, 0, 0.83255461115769769, Inf, NaN, NaN];
***** assert (nakainv (p, ones (1,7), ones (1,7)), y, eps)
***** assert (nakainv (p, 1, 1), y, eps)
***** assert (nakainv (p, [1, 1, 1, NaN, 1, 1, 1], 1), [y(1:3), NaN, y(5:7)], eps)
***** assert (nakainv (p, 1, [1, 1, 1, NaN, 1, 1, 1]), [y(1:3), NaN, y(5:7)], eps)
***** assert (nakainv ([p, NaN], 1, 1), [y, NaN], eps)
***** assert (nakainv (single ([p, NaN]), 1, 1), single ([y, NaN]))
***** assert (nakainv ([p, NaN], single (1), 1), single ([y, NaN]))
***** assert (nakainv ([p, NaN], 1, single (1)), single ([y, NaN]))
***** error<nakainv: function called with too few input arguments.> nakainv ()
***** error<nakainv: function called with too few input arguments.> nakainv (1)
***** error<nakainv: function called with too few input arguments.> nakainv (1, 2)
***** error<nakainv: P, MU, and OMEGA must be of common size or scalars.> ...
 nakainv (ones (3), ones (2), ones(2))
***** error<nakainv: P, MU, and OMEGA must be of common size or scalars.> ...
 nakainv (ones (2), ones (3), ones(2))
***** error<nakainv: P, MU, and OMEGA must be of common size or scalars.> ...
 nakainv (ones (2), ones (2), ones(3))
***** error<nakainv: P, MU, and OMEGA must not be complex.> nakainv (i, 4, 3)
***** error<nakainv: P, MU, and OMEGA must not be complex.> nakainv (1, i, 3)
***** error<nakainv: P, MU, and OMEGA must not be complex.> nakainv (1, 4, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/gumbelpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gumbelpdf.m
***** demo
 ## Plot various PDFs from the Extreme value distribution
 x = -5:0.001:20;
 y1 = gumbelpdf (x, 0.5, 2);
 y2 = gumbelpdf (x, 1.0, 2);
 y3 = gumbelpdf (x, 1.5, 3);
 y4 = gumbelpdf (x, 3.0, 4);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 ylim ([0, 0.2])
 legend ({"μ = 0.5, β = 2", "μ = 1.0, β = 2", ...
          "μ = 1.5, β = 3", "μ = 3.0, β = 4"}, "location", "northeast")
 title ("Extreme value PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y0, y1
 x = [-5, 0, 1, 2, 3];
 y0 = [0, 0.3679, 0.2547, 0.1182, 0.0474];
 y1 = [0, 0.1794, 0.3679, 0.2547, 0.1182];
***** assert (gumbelpdf (x), y0, 1e-4)
***** assert (gumbelpdf (x, zeros (1,5), ones (1,5)), y0, 1e-4)
***** assert (gumbelpdf (x, ones (1,5), ones (1,5)), y1, 1e-4)
***** error<gumbelpdf: too few input arguments.> gumbelpdf ()
***** error<gumbelpdf: X, MU, and BETA must be of common size or scalars.> ...
 gumbelpdf (ones (3), ones (2), ones (2))
***** error<gumbelpdf: X, MU, and BETA must not be complex.> gumbelpdf (i, 2, 2)
***** error<gumbelpdf: X, MU, and BETA must not be complex.> gumbelpdf (2, i, 2)
***** error<gumbelpdf: X, MU, and BETA must not be complex.> gumbelpdf (2, 2, i)
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fun/wishrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wishrnd.m
***** assert (size (wishrnd (1,2)), [1, 1]);
***** assert (size (wishrnd (1,2,[])), [1, 1]);
***** assert (size (wishrnd (1,2,1)), [1, 1]);
***** assert (size (wishrnd ([],2,1)), [1, 1]);
***** assert (size (wishrnd ([3 1; 1 3], 2.00001, [], 1)), [2, 2]);
***** assert (size (wishrnd (eye(2), 2, [], 3)), [2, 2, 3]);
***** error wishrnd ()
***** error wishrnd (1)
***** error wishrnd ([1; 1], 2)
***** test
 W = wishrnd (eye (3), 2.5);
 assert (size (W), [3, 3]);
***** warning <Wishart distribution undefined> wishrnd (eye (3), 1.5);
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fun/copulapdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/copulapdf.m
***** test
 x = [0.2:0.2:0.6; 0.2:0.2:0.6];
 theta = [1; 2];
 y = copulapdf ("Clayton", x, theta);
 expected_p = [0.9872; 0.7295];
 assert (y, expected_p, 0.001);
***** test
 x = [0.2:0.2:0.6; 0.2:0.2:0.6];
 y = copulapdf ("Gumbel", x, 2);
 expected_p = [0.9468; 0.9468];
 assert (y, expected_p, 0.001);
***** test
 x = [0.2, 0.6; 0.2, 0.6];
 theta = [1; 2];
 y = copulapdf ("Frank", x, theta);
 expected_p = [0.9378; 0.8678];
 assert (y, expected_p, 0.001);
***** test
 x = [0.2, 0.6; 0.2, 0.6];
 theta = [0.3; 0.7];
 y = copulapdf ("AMH", x, theta);
 expected_p = [0.9540; 0.8577];
 assert (y, expected_p, 0.001);
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/dist_fun/nctrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nctrnd.m
***** assert (size (nctrnd (1, 1)), [1, 1])
***** assert (size (nctrnd (1, ones (2, 1))), [2, 1])
***** assert (size (nctrnd (1, ones (2, 2))), [2, 2])
***** assert (size (nctrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (nctrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (nctrnd (1, 1, 3)), [3, 3])
***** assert (size (nctrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (nctrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (nctrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (nctrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (nctrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (nctrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (nctrnd (1, 1, [])), [0, 0])
***** assert (size (nctrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (nctrnd (1, 1)), "double")
***** assert (class (nctrnd (1, single (1))), "single")
***** assert (class (nctrnd (1, single ([1, 1]))), "single")
***** assert (class (nctrnd (single (1), 1)), "single")
***** assert (class (nctrnd (single ([1, 1]), 1)), "single")
***** error<nctrnd: function called with too few input arguments.> nctrnd ()
***** error<nctrnd: function called with too few input arguments.> nctrnd (1)
***** error<nctrnd: DF and MU must be of common size or scalars.> ...
 nctrnd (ones (3), ones (2))
***** error<nctrnd: DF and MU must be of common size or scalars.> ...
 nctrnd (ones (2), ones (3))
***** error<nctrnd: DF and MU must not be complex.> nctrnd (i, 2)
***** error<nctrnd: DF and MU must not be complex.> nctrnd (1, i)
***** error<nctrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nctrnd (1, 2, -1)
***** error<nctrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nctrnd (1, 2, 1.2)
***** error<nctrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nctrnd (1, 2, ones (2))
***** error<nctrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nctrnd (1, 2, [2 -1 2])
***** error<nctrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nctrnd (1, 2, [2 0 2.5])
***** error<nctrnd: dimensions must be non-negative integers.> ...
 nctrnd (1, 2, 2, -1, 5)
***** error<nctrnd: dimensions must be non-negative integers.> ...
 nctrnd (1, 2, 2, 1.5, 5)
***** error<nctrnd: DF and MU must be scalars or of size SZ.> ...
 nctrnd (2, ones (2), 3)
***** error<nctrnd: DF and MU must be scalars or of size SZ.> ...
 nctrnd (2, ones (2), [3, 2])
***** error<nctrnd: DF and MU must be scalars or of size SZ.> ...
 nctrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/burrinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/burrinv.m
***** demo
 ## Plot various iCDFs from the Burr type XII distribution
 p = 0.001:0.001:0.999;
 x1 = burrinv (p, 1, 1, 1);
 x2 = burrinv (p, 1, 1, 2);
 x3 = burrinv (p, 1, 1, 3);
 x4 = burrinv (p, 1, 2, 1);
 x5 = burrinv (p, 1, 3, 1);
 x6 = burrinv (p, 1, 0.5, 2);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", ...
       p, x4, "-c", p, x5, "-m", p, x6, "-k")
 grid on
 ylim ([0, 5])
 legend ({"λ = 1, c = 1, k = 1", "λ = 1, c = 1, k = 2", ...
          "λ = 1, c = 1, k = 3", "λ = 1, c = 2, k = 1", ...
          "λ = 1, c = 3, k = 1", "λ = 1, c = 0.5, k = 2"}, ...
         "location", "northwest")
 title ("Burr type XII iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, y
 p = [-Inf, -1, 0, 1/2, 1, 2, Inf];
 y = [NaN, NaN, 0, 1 , Inf, NaN, NaN];
***** assert (burrinv (p, ones (1,7), ones (1,7), ones(1,7)), y, eps)
***** assert (burrinv (p, 1, 1, 1), y, eps)
***** assert (burrinv (p, [1, 1, 1, NaN, 1, 1, 1], 1, 1), [y(1:3), NaN, y(5:7)], eps)
***** assert (burrinv (p, 1, [1, 1, 1, NaN, 1, 1, 1], 1), [y(1:3), NaN, y(5:7)], eps)
***** assert (burrinv (p, 1, 1, [1, 1, 1, NaN, 1, 1, 1]), [y(1:3), NaN, y(5:7)], eps)
***** assert (burrinv ([p, NaN], 1, 1, 1), [y, NaN], eps)
***** assert (burrinv (single ([p, NaN]), 1, 1, 1), single ([y, NaN]), eps("single"))
***** assert (burrinv ([p, NaN], single (1), 1, 1), single ([y, NaN]), eps("single"))
***** assert (burrinv ([p, NaN], 1, single (1), 1), single ([y, NaN]), eps("single"))
***** assert (burrinv ([p, NaN], 1, 1, single (1)), single ([y, NaN]), eps("single"))
***** error<burrinv: function called with too few input arguments.> burrinv ()
***** error<burrinv: function called with too few input arguments.> burrinv (1)
***** error<burrinv: function called with too few input arguments.> burrinv (1, 2)
***** error<burrinv: function called with too few input arguments.> burrinv (1, 2, 3)
***** error<burrinv: function called with too many inputs> ...
 burrinv (1, 2, 3, 4, 5)
***** error<burrinv: P, LAMBDA, C, and K must be of common size or scalars.> ...
 burrinv (ones (3), ones (2), ones(2), ones(2))
***** error<burrinv: P, LAMBDA, C, and K must be of common size or scalars.> ...
 burrinv (ones (2), ones (3), ones(2), ones(2))
***** error<burrinv: P, LAMBDA, C, and K must be of common size or scalars.> ...
 burrinv (ones (2), ones (2), ones(3), ones(2))
***** error<burrinv: P, LAMBDA, C, and K must be of common size or scalars.> ...
 burrinv (ones (2), ones (2), ones(2), ones(3))
***** error<burrinv: P, LAMBDA, C, and K must not be complex.> burrinv (i, 2, 3, 4)
***** error<burrinv: P, LAMBDA, C, and K must not be complex.> burrinv (1, i, 3, 4)
***** error<burrinv: P, LAMBDA, C, and K must not be complex.> burrinv (1, 2, i, 4)
***** error<burrinv: P, LAMBDA, C, and K must not be complex.> burrinv (1, 2, 3, i)
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fun/gevpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gevpdf.m
***** demo
 ## Plot various PDFs from the generalized extreme value distribution
 x = -1:0.001:10;
 y1 = gevpdf (x, 1, 1, 1);
 y2 = gevpdf (x, 0.5, 1, 1);
 y3 = gevpdf (x, 1, 1, 5);
 y4 = gevpdf (x, 1, 2, 5);
 y5 = gevpdf (x, 1, 5, 5);
 y6 = gevpdf (x, 1, 0.5, 5);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", ...
       x, y4, "-c", x, y5, "-m", x, y6, "-k")
 grid on
 xlim ([-1, 10])
 ylim ([0, 1.1])
 legend ({"k = 1, σ = 1, μ = 1", "k = 0.5, σ = 1, μ = 1", ...
          "k = 1, σ = 1, μ = 5", "k = 1, σ = 2, μ = 5", ...
          "k = 1, σ = 5, μ = 5", "k = 1, σ = 0.5, μ = 5"}, ...
         "location", "northeast")
 title ("Generalized extreme value PDF")
 xlabel ("values in x")
 ylabel ("density")
***** test
 x = 0:0.5:2.5;
 sigma = 1:6;
 k = 1;
 mu = 0;
 y = gevpdf (x, k, sigma, mu);
 expected_y = [0.367879   0.143785   0.088569   0.063898   0.049953   0.040997];
 assert (y, expected_y, 0.001);
***** test
 x = -0.5:0.5:2.5;
 sigma = 0.5;
 k = 1;
 mu = 0;
 y = gevpdf (x, k, sigma, mu);
 expected_y = [0 0.735759   0.303265   0.159229   0.097350   0.065498   0.047027];
 assert (y, expected_y, 0.001);
***** test # check for continuity for k near 0
 x = 1;
 sigma = 0.5;
 k = -0.03:0.01:0.03;
 mu = 0;
 y = gevpdf (x, k, sigma, mu);
 expected_y = [0.23820   0.23764   0.23704   0.23641   0.23576   0.23508   0.23438];
 assert (y, expected_y, 0.001);
***** error<gevpdf: function called with too few input arguments.> gevpdf ()
***** error<gevpdf: function called with too few input arguments.> gevpdf (1)
***** error<gevpdf: function called with too few input arguments.> gevpdf (1, 2)
***** error<gevpdf: function called with too few input arguments.> gevpdf (1, 2, 3)
***** error<gevpdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevpdf (ones (3), ones (2), ones(2), ones(2))
***** error<gevpdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevpdf (ones (2), ones (3), ones(2), ones(2))
***** error<gevpdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevpdf (ones (2), ones (2), ones(3), ones(2))
***** error<gevpdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevpdf (ones (2), ones (2), ones(2), ones(3))
***** error<gevpdf: X, K, SIGMA, and MU must not be complex.> gevpdf (i, 2, 3, 4)
***** error<gevpdf: X, K, SIGMA, and MU must not be complex.> gevpdf (1, i, 3, 4)
***** error<gevpdf: X, K, SIGMA, and MU must not be complex.> gevpdf (1, 2, i, 4)
***** error<gevpdf: X, K, SIGMA, and MU must not be complex.> gevpdf (1, 2, 3, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/betarnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/betarnd.m
***** assert (size (betarnd (2, 1/2)), [1 1])
***** assert (size (betarnd (2 * ones (2, 1), 1/2)), [2, 1])
***** assert (size (betarnd (2 * ones (2, 2), 1/2)), [2, 2])
***** assert (size (betarnd (2, 1/2 * ones (2, 1))), [2, 1])
***** assert (size (betarnd (1, 1/2 * ones (2, 2))), [2, 2])
***** assert (size (betarnd (ones (2, 1), 1)), [2, 1])
***** assert (size (betarnd (ones (2, 2), 1)), [2, 2])
***** assert (size (betarnd (2, 1/2, 3)), [3, 3])
***** assert (size (betarnd (1, 1, [4, 1])), [4, 1])
***** assert (size (betarnd (1, 1, 4, 1)), [4, 1])
***** assert (size (betarnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (betarnd (1, 1, 0, 1)), [0, 1])
***** assert (size (betarnd (1, 1, 1, 0)), [1, 0])
***** assert (size (betarnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (betarnd (1, 1, [])), [0, 0])
***** assert (size (betarnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (betarnd (1, 1)), "double")
***** assert (class (betarnd (1, single (0))), "single")
***** assert (class (betarnd (1, single ([0, 0]))), "single")
***** assert (class (betarnd (1, single (1), 2)), "single")
***** assert (class (betarnd (1, single ([1, 1]), 1, 2)), "single")
***** assert (class (betarnd (single (1), 1, 2)), "single")
***** assert (class (betarnd (single ([1, 1]), 1, 1, 2)), "single")
***** error<betarnd: function called with too few input arguments.> betarnd ()
***** error<betarnd: function called with too few input arguments.> betarnd (1)
***** error<betarnd: A and B must be of common size or scalars.> ...
 betarnd (ones (3), ones (2))
***** error<betarnd: A and B must be of common size or scalars.> ...
 betarnd (ones (2), ones (3))
***** error<betarnd: A and B must not be complex.> betarnd (i, 2)
***** error<betarnd: A and B must not be complex.> betarnd (1, i)
***** error<betarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 betarnd (1, 1/2, -1)
***** error<betarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 betarnd (1, 1/2, 1.2)
***** error<betarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 betarnd (1, 1/2, ones (2))
***** error<betarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 betarnd (1, 1/2, [2 -1 2])
***** error<betarnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 betarnd (1, 1/2, [2 0 2.5])
***** error<betarnd: dimensions must be non-negative integers.> ...
 betarnd (1, 1/2, 2, -1, 5)
***** error<betarnd: dimensions must be non-negative integers.> ...
 betarnd (1, 1/2, 2, 1.5, 5)
***** error<betarnd: A and B must be scalars or of size SZ.> ...
 betarnd (2, 1/2 * ones (2), 3)
***** error<betarnd: A and B must be scalars or of size SZ.> ...
 betarnd (2, 1/2 * ones (2), [3, 2])
***** error<betarnd: A and B must be scalars or of size SZ.> ...
 betarnd (2, 1/2 * ones (2), 3, 2)
***** error<betarnd: A and B must be scalars or of size SZ.> ...
 betarnd (2 * ones (2), 1/2, 3)
***** error<betarnd: A and B must be scalars or of size SZ.> ...
 betarnd (2 * ones (2), 1/2, [3, 2])
***** error<betarnd: A and B must be scalars or of size SZ.> ...
 betarnd (2 * ones (2), 1/2, 3, 2)
42 tests, 42 passed, 0 known failure, 0 skipped
[inst/dist_fun/betainv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/betainv.m
***** demo
 ## Plot various iCDFs from the Beta distribution
 p = 0.001:0.001:0.999;
 x1 = betainv (p, 0.5, 0.5);
 x2 = betainv (p, 5, 1);
 x3 = betainv (p, 1, 3);
 x4 = betainv (p, 2, 2);
 x5 = betainv (p, 2, 5);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-m")
 grid on
 legend ({"α = β = 0.5", "α = 5, β = 1", "α = 1, β = 3", ...
          "α = 2, β = 2", "α = 2, β = 5"}, "location", "southeast")
 title ("Beta iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.75 1 2];
***** assert (betainv (p, ones (1,5), 2*ones (1,5)), [NaN 0 0.5 1 NaN], eps)
***** assert (betainv (p, 1, 2*ones (1,5)), [NaN 0 0.5 1 NaN], eps)
***** assert (betainv (p, ones (1,5), 2), [NaN 0 0.5 1 NaN], eps)
***** assert (betainv (p, [1 0 NaN 1 1], 2), [NaN NaN NaN 1 NaN])
***** assert (betainv (p, 1, 2*[1 0 NaN 1 1]), [NaN NaN NaN 1 NaN])
***** assert (betainv ([p(1:2) NaN p(4:5)], 1, 2), [NaN 0 NaN 1 NaN])
***** assert (betainv ([p, NaN], 1, 2), [NaN 0 0.5 1 NaN NaN], eps)
***** assert (betainv (single ([p, NaN]), 1, 2), single ([NaN 0 0.5 1 NaN NaN]))
***** assert (betainv ([p, NaN], single (1), 2), single ([NaN 0 0.5 1 NaN NaN]), eps("single"))
***** assert (betainv ([p, NaN], 1, single (2)), single ([NaN 0 0.5 1 NaN NaN]), eps("single"))
***** error<betainv: function called with too few input arguments.> betainv ()
***** error<betainv: function called with too few input arguments.> betainv (1)
***** error<betainv: function called with too few input arguments.> betainv (1,2)
***** error<betainv: function called with too many inputs> betainv (1,2,3,4)
***** error<betainv: P, A, and B must be of common size or scalars.> ...
 betainv (ones (3), ones (2), ones (2))
***** error<betainv: P, A, and B must be of common size or scalars.> ...
 betainv (ones (2), ones (3), ones (2))
***** error<betainv: P, A, and B must be of common size or scalars.> ...
 betainv (ones (2), ones (2), ones (3))
***** error<betainv: P, A, and B must not be complex.> betainv (i, 2, 2)
***** error<betainv: P, A, and B must not be complex.> betainv (2, i, 2)
***** error<betainv: P, A, and B must not be complex.> betainv (2, 2, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/chi2rnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/chi2rnd.m
***** assert (size (chi2rnd (2)), [1, 1])
***** assert (size (chi2rnd (ones (2,1))), [2, 1])
***** assert (size (chi2rnd (ones (2,2))), [2, 2])
***** assert (size (chi2rnd (1, 3)), [3, 3])
***** assert (size (chi2rnd (1, [4, 1])), [4, 1])
***** assert (size (chi2rnd (1, 4, 1)), [4, 1])
***** assert (size (chi2rnd (1, 4, 1)), [4, 1])
***** assert (size (chi2rnd (1, 4, 1, 5)), [4, 1, 5])
***** assert (size (chi2rnd (1, 0, 1)), [0, 1])
***** assert (size (chi2rnd (1, 1, 0)), [1, 0])
***** assert (size (chi2rnd (1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (chi2rnd (1, [])), [0, 0])
***** assert (size (chi2rnd (1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (chi2rnd (2)), "double")
***** assert (class (chi2rnd (single (2))), "single")
***** assert (class (chi2rnd (single ([2 2]))), "single")
***** error<chi2rnd: function called with too few input arguments.> chi2rnd ()
***** error<chi2rnd: DF must not be complex.> chi2rnd (i)
***** error<chi2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 chi2rnd (1, -1)
***** error<chi2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 chi2rnd (1, 1.2)
***** error<chi2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 chi2rnd (1, ones (2))
***** error<chi2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 chi2rnd (1, [2 -1 2])
***** error<chi2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 chi2rnd (1, [2 0 2.5])
***** error<chi2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 chi2rnd (ones (2), ones (2))
***** error<chi2rnd: dimensions must be non-negative integers.> ...
 chi2rnd (1, 2, -1, 5)
***** error<chi2rnd: dimensions must be non-negative integers.> ...
 chi2rnd (1, 2, 1.5, 5)
***** error<chi2rnd: DF must be scalar or of size SZ.> chi2rnd (ones (2,2), 3)
***** error<chi2rnd: DF must be scalar or of size SZ.> chi2rnd (ones (2,2), [3, 2])
***** error<chi2rnd: DF must be scalar or of size SZ.> chi2rnd (ones (2,2), 2, 3)
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvtpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvtpdf.m
***** demo
 ## Compute the pdf of a multivariate t distribution with correlation
 ## parameters rho = [1 .4; .4 1] and 2 degrees of freedom.

 rho = [1, 0.4; 0.4, 1];
 df = 2;
 [X1, X2] = meshgrid (linspace (-2, 2, 25)', linspace (-2, 2, 25)');
 X = [X1(:), X2(:)];
 y = mvtpdf (X, rho, df);
 surf (X1, X2, reshape (y, 25, 25));
 title ("Bivariate Student's t probability density function");
***** assert (mvtpdf ([0 0], eye(2), 1), 0.1591549, 1E-7)
***** assert (mvtpdf ([1 0], [1 0.5; 0.5 1], 2), 0.06615947, 1E-7)
***** assert (mvtpdf ([1 0.4 0; 1.2 0.5 0.5; 1.4 0.6 1], ...
 [1 0.5 0.3; 0.5 1 0.6; 0.3 0.6 1], [5 6 7]), ...
 [0.04713313 0.03722421 0.02069011]', 1E-7)
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/dist_fun/burrpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/burrpdf.m
***** demo
 ## Plot various PDFs from the Burr type XII distribution
 x = 0.001:0.001:3;
 y1 = burrpdf (x, 1, 1, 1);
 y2 = burrpdf (x, 1, 1, 2);
 y3 = burrpdf (x, 1, 1, 3);
 y4 = burrpdf (x, 1, 2, 1);
 y5 = burrpdf (x, 1, 3, 1);
 y6 = burrpdf (x, 1, 0.5, 2);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", ...
       x, y4, "-c", x, y5, "-m", x, y6, "-k")
 grid on
 ylim ([0, 2])
 legend ({"λ = 1, c = 1, k = 1", "λ = 1, c = 1, k = 2", ...
          "λ = 1, c = 1, k = 3", "λ = 1, c = 2, k = 1", ...
          "λ = 1, c = 3, k = 1", "λ = 1, c = 0.5, k = 2"}, ...
         "location", "northeast")
 title ("Burr type XII PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1, 0, 1, 2, Inf];
 y = [0, 1, 1/4, 1/9, 0];
***** assert (burrpdf (x, ones(1,5), ones (1,5), ones (1,5)), y)
***** assert (burrpdf (x, 1, 1, 1), y)
***** assert (burrpdf (x, [1, 1, NaN, 1, 1], 1, 1), [y(1:2), NaN, y(4:5)])
***** assert (burrpdf (x, 1, [1, 1, NaN, 1, 1], 1), [y(1:2), NaN, y(4:5)])
***** assert (burrpdf (x, 1, 1, [1, 1, NaN, 1, 1]), [y(1:2), NaN, y(4:5)])
***** assert (burrpdf ([x, NaN], 1, 1, 1), [y, NaN])
***** assert (burrpdf (single ([x, NaN]), 1, 1, 1), single ([y, NaN]))
***** assert (burrpdf ([x, NaN], single (1), 1, 1), single ([y, NaN]))
***** assert (burrpdf ([x, NaN], 1, single (1), 1), single ([y, NaN]))
***** assert (burrpdf ([x, NaN], 1, 1, single (1)), single ([y, NaN]))
***** error<burrpdf: function called with too few input arguments.> burrpdf ()
***** error<burrpdf: function called with too few input arguments.> burrpdf (1)
***** error<burrpdf: function called with too few input arguments.> burrpdf (1, 2)
***** error<burrpdf: function called with too few input arguments.> burrpdf (1, 2, 3)
***** error<burrpdf: function called with too many inputs> ...
 burrpdf (1, 2, 3, 4, 5)
***** error<burrpdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrpdf (ones (3), ones (2), ones(2), ones(2))
***** error<burrpdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrpdf (ones (2), ones (3), ones(2), ones(2))
***** error<burrpdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrpdf (ones (2), ones (2), ones(3), ones(2))
***** error<burrpdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrpdf (ones (2), ones (2), ones(2), ones(3))
***** error<burrpdf: X, LAMBDA, C, and K must not be complex.> burrpdf (i, 2, 3, 4)
***** error<burrpdf: X, LAMBDA, C, and K must not be complex.> burrpdf (1, i, 3, 4)
***** error<burrpdf: X, LAMBDA, C, and K must not be complex.> burrpdf (1, 2, i, 4)
***** error<burrpdf: X, LAMBDA, C, and K must not be complex.> burrpdf (1, 2, 3, i)
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fun/gumbelcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gumbelcdf.m
***** demo
 ## Plot various CDFs from the Gumbel distribution
 x = -5:0.01:20;
 p1 = gumbelcdf (x, 0.5, 2);
 p2 = gumbelcdf (x, 1.0, 2);
 p3 = gumbelcdf (x, 1.5, 3);
 p4 = gumbelcdf (x, 3.0, 4);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 legend ({"μ = 0.5, β = 2", "μ = 1.0, β = 2", ...
          "μ = 1.5, β = 3", "μ = 3.0, β = 4"}, "location", "southeast")
 title ("Gumbel CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-Inf, 1, 2, Inf];
 y = [0, 0.3679, 0.6922, 1];
***** assert (gumbelcdf (x, ones (1,4), ones (1,4)), y, 1e-4)
***** assert (gumbelcdf (x, 1, ones (1,4)), y, 1e-4)
***** assert (gumbelcdf (x, ones (1,4), 1), y, 1e-4)
***** assert (gumbelcdf (x, [0, -Inf, NaN, Inf], 1), [0, 1, NaN, NaN], 1e-4)
***** assert (gumbelcdf (x, 1, [Inf, NaN, -1, 0]), [NaN, NaN, NaN, NaN], 1e-4)
***** assert (gumbelcdf ([x(1:2), NaN, x(4)], 1, 1), [y(1:2), NaN, y(4)], 1e-4)
***** assert (gumbelcdf (x, "upper"), [1, 0.3078, 0.1266, 0], 1e-4)
***** assert (gumbelcdf ([x, NaN], 1, 1), [y, NaN], 1e-4)
***** assert (gumbelcdf (single ([x, NaN]), 1, 1), single ([y, NaN]), 1e-4)
***** assert (gumbelcdf ([x, NaN], single (1), 1), single ([y, NaN]), 1e-4)
***** assert (gumbelcdf ([x, NaN], 1, single (1)), single ([y, NaN]), 1e-4)
***** error<gumbelcdf: invalid number of input arguments.> gumbelcdf ()
***** error<gumbelcdf: invalid number of input arguments.> gumbelcdf (1,2,3,4,5,6,7)
***** error<gumbelcdf: invalid argument for upper tail.> gumbelcdf (1, 2, 3, 4, "uper")
***** error<gumbelcdf: X, MU, and BETA must be of common size or scalars.> ...
 gumbelcdf (ones (3), ones (2), ones (2))
***** error<gumbelcdf: invalid size of covariance matrix.> gumbelcdf (2, 3, 4, [1, 2])
***** error<gumbelcdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = gumbelcdf (1, 2, 3)
***** error<gumbelcdf: invalid value for alpha.> [p, plo, pup] = ...
 gumbelcdf (1, 2, 3, [1, 0; 0, 1], 0)
***** error<gumbelcdf: invalid value for alpha.> [p, plo, pup] = ...
 gumbelcdf (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<gumbelcdf: invalid value for alpha.> [p, plo, pup] = ...
 gumbelcdf (1, 2, 3, [1, 0; 0, 1], "alpha", "upper")
***** error<gumbelcdf: X, MU, and BETA must not be complex.> gumbelcdf (i, 2, 2)
***** error<gumbelcdf: X, MU, and BETA must not be complex.> gumbelcdf (2, i, 2)
***** error<gumbelcdf: X, MU, and BETA must not be complex.> gumbelcdf (2, 2, i)
***** error<gumbelcdf: bad covariance matrix.> ...
 [p, plo, pup] = gumbelcdf (1, 2, 3, [1, 0; 0, -inf], 0.04)
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/dist_fun/expinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/expinv.m
***** demo
 ## Plot various iCDFs from the exponential distribution
 p = 0.001:0.001:0.999;
 x1 = expinv (p, 2/3);
 x2 = expinv (p, 1.0);
 x3 = expinv (p, 2.0);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r")
 grid on
 ylim ([0, 5])
 legend ({"μ = 2/3", "μ = 1", "μ = 2"}, "location", "northwest")
 title ("Exponential iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.3934693402873666 1 2];
***** assert (expinv (p, 2*ones (1,5)), [NaN 0 1 Inf NaN], eps)
***** assert (expinv (p, 2), [NaN 0 1 Inf NaN], eps)
***** assert (expinv (p, 2*[1 0 NaN 1 1]), [NaN NaN NaN Inf NaN], eps)
***** assert (expinv ([p(1:2) NaN p(4:5)], 2), [NaN 0 NaN Inf NaN], eps)
***** assert (expinv ([p, NaN], 2), [NaN 0 1 Inf NaN NaN], eps)
***** assert (expinv (single ([p, NaN]), 2), single ([NaN 0 1 Inf NaN NaN]), eps)
***** assert (expinv ([p, NaN], single (2)), single ([NaN 0 1 Inf NaN NaN]), eps)
***** error<expinv: invalid number of input arguments.> expinv ()
***** error<expinv: invalid number of input arguments.> expinv (1, 2 ,3 ,4 ,5)
***** error<expinv: P and MU must be of common size or scalars.> ...
 expinv (ones (3), ones (2))
***** error<expinv: invalid size of variance, PCOV must be a scalar.> ...
 expinv (2, 3, [1, 2])
***** error<expinv: variance, PCOV, is required for confidence bounds.> ...
 [x, xlo, xup] = expinv (1, 2)
***** error<expinv: invalid value for alpha.> [x, xlo, xup] = ...
 expinv (1, 2, 3, 0)
***** error<expinv: invalid value for alpha.> [x, xlo, xup] = ...
 expinv (1, 2, 3, 1.22)
***** error<expinv: invalid value for alpha.> [x, xlo, xup] = ...
 expinv (1, 2, 3, [0.05, 0.1])
***** error<expinv: P and MU must not be complex.> expinv (i, 2)
***** error<expinv: P and MU must not be complex.> expinv (2, i)
***** error<expinv: variance, PCOV, cannot be negative.> ...
 [x, xlo, xup] = expinv (1, 2, -1, 0.04)
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/dist_fun/poissrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/poissrnd.m
***** assert (size (poissrnd (2)), [1, 1])
***** assert (size (poissrnd (ones (2, 1))), [2, 1])
***** assert (size (poissrnd (ones (2, 2))), [2, 2])
***** assert (size (poissrnd (1, 3)), [3, 3])
***** assert (size (poissrnd (1, [4, 1])), [4, 1])
***** assert (size (poissrnd (1, 4, 1)), [4, 1])
***** assert (size (poissrnd (1, 4, 1)), [4, 1])
***** assert (size (poissrnd (1, 4, 1, 5)), [4, 1, 5])
***** assert (size (poissrnd (1, 0, 1)), [0, 1])
***** assert (size (poissrnd (1, 1, 0)), [1, 0])
***** assert (size (poissrnd (1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (poissrnd (1, [])), [0, 0])
***** assert (size (poissrnd (1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (poissrnd (0, 1, 1), 0)
***** assert (poissrnd ([0, 0, 0], [1, 3]), [0 0 0])
***** assert (class (poissrnd (2)), "double")
***** assert (class (poissrnd (single (2))), "single")
***** assert (class (poissrnd (single ([2 2]))), "single")
***** error<poissrnd: function called with too few input arguments.> poissrnd ()
***** error<poissrnd: LAMBDA must not be complex.> poissrnd (i)
***** error<poissrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 poissrnd (1, -1)
***** error<poissrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 poissrnd (1, 1.2)
***** error<poissrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 poissrnd (1, ones (2))
***** error<poissrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 poissrnd (1, [2 -1 2])
***** error<poissrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 poissrnd (1, [2 0 2.5])
***** error<poissrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 poissrnd (ones (2), ones (2))
***** error<poissrnd: dimensions must be non-negative integers.> ...
 poissrnd (1, 2, -1, 5)
***** error<poissrnd: dimensions must be non-negative integers.> ...
 poissrnd (1, 2, 1.5, 5)
***** error<poissrnd: LAMBDA must be scalar or of size SZ.> poissrnd (ones (2,2), 3)
***** error<poissrnd: LAMBDA must be scalar or of size SZ.> poissrnd (ones (2,2), [3, 2])
***** error<poissrnd: LAMBDA must be scalar or of size SZ.> poissrnd (ones (2,2), 2, 3)
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/dist_fun/bisapdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/bisapdf.m
***** demo
 ## Plot various PDFs from the Birnbaum-Saunders distribution
 x = 0.01:0.01:4;
 y1 = bisapdf (x, 1, 0.5);
 y2 = bisapdf (x, 1, 1);
 y3 = bisapdf (x, 1, 2);
 y4 = bisapdf (x, 1, 5);
 y5 = bisapdf (x, 1, 10);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-m")
 grid on
 ylim ([0, 1.5])
 legend ({"β = 1 ,γ = 0.5", "β = 1, γ = 1", "β = 1, γ = 2", ...
          "β = 1, γ = 5", "β = 1, γ = 10"}, "location", "northeast")
 title ("Birnbaum-Saunders PDF")
 xlabel ("values in x")
 ylabel ("density")
***** demo
 ## Plot various PDFs from the Birnbaum-Saunders distribution
 x = 0.01:0.01:6;
 y1 = bisapdf (x, 1, 0.3);
 y2 = bisapdf (x, 2, 0.3);
 y3 = bisapdf (x, 1, 0.5);
 y4 = bisapdf (x, 3, 0.5);
 y5 = bisapdf (x, 5, 0.5);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-m")
 grid on
 ylim ([0, 1.5])
 legend ({"β = 1, γ = 0.3", "β = 2, γ = 0.3", "β = 1, γ = 0.5", ...
          "β = 3, γ = 0.5", "β = 5, γ = 0.5"}, "location", "northeast")
 title ("Birnbaum-Saunders CDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1, 0, 1, 2, Inf];
 y = [0, 0, 0.3989422804014327, 0.1647717335503959, 0];
***** assert (bisapdf (x, ones (1,5), ones (1,5)), y, eps)
***** assert (bisapdf (x, 1, 1), y, eps)
***** assert (bisapdf (x, 1, ones (1,5)), y, eps)
***** assert (bisapdf (x, ones (1,5), 1), y, eps)
***** assert (bisapdf (x, 1, [1, 1, NaN, 1, 1]), [y(1:2), NaN, y(4:5)], eps)
***** assert (bisapdf (x, [1, 1, NaN, 1, 1], 1), [y(1:2), NaN, y(4:5)], eps)
***** assert (bisapdf ([x, NaN], 1, 1), [y, NaN], eps)
***** assert (bisapdf (single ([x, NaN]), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (bisapdf ([x, NaN], 1, single (1)), single ([y, NaN]), eps ("single"))
***** assert (bisapdf ([x, NaN], single (1), 1), single ([y, NaN]), eps ("single"))
***** error<bisapdf: function called with too few input arguments.> bisapdf ()
***** error<bisapdf: function called with too few input arguments.> bisapdf (1)
***** error<bisapdf: function called with too few input arguments.> bisapdf (1, 2)
***** error<bisapdf: function called with too many inputs> bisapdf (1, 2, 3, 4)
***** error<bisapdf: X, BETA, and GAMMA must be of common size or scalars.> ...
 bisapdf (ones (3), ones (2), ones(2))
***** error<bisapdf: X, BETA, and GAMMA must be of common size or scalars.> ...
 bisapdf (ones (2), ones (3), ones(2))
***** error<bisapdf: X, BETA, and GAMMA must be of common size or scalars.> ...
 bisapdf (ones (2), ones (2), ones(3))
***** error<bisapdf: X, BETA, and GAMMA must not be complex.> bisapdf (i, 4, 3)
***** error<bisapdf: X, BETA, and GAMMA must not be complex.> bisapdf (1, i, 3)
***** error<bisapdf: X, BETA, and GAMMA must not be complex.> bisapdf (1, 4, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/logicdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/logicdf.m
***** demo
 ## Plot various CDFs from the logistic distribution
 x = -5:0.01:20;
 p1 = logicdf (x, 5, 2);
 p2 = logicdf (x, 9, 3);
 p3 = logicdf (x, 9, 4);
 p4 = logicdf (x, 6, 2);
 p5 = logicdf (x, 2, 1);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-m")
 grid on
 legend ({"μ = 5, σ = 2", "μ = 9, σ = 3", "μ = 9, σ = 4", ...
          "μ = 6, σ = 2", "μ = 2, σ = 1"}, "location", "southeast")
 title ("Logistic CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-Inf -log(3) 0 log(3) Inf];
 y = [0, 1/4, 1/2, 3/4, 1];
***** assert (logicdf ([x, NaN], 0, 1), [y, NaN], eps)
***** assert (logicdf (x, 0, [-2, -1, 0, 1, 2]), [nan(1, 3), 0.75, 1], eps)
***** assert (logicdf (single ([x, NaN]), 0, 1), single ([y, NaN]), eps ("single"))
***** assert (logicdf ([x, NaN], single (0), 1), single ([y, NaN]), eps ("single"))
***** assert (logicdf ([x, NaN], 0, single (1)), single ([y, NaN]), eps ("single"))
***** error<logicdf: function called with too few input arguments.> logicdf ()
***** error<logicdf: function called with too few input arguments.> logicdf (1)
***** error<logicdf: function called with too few input arguments.> ...
 logicdf (1, 2)
***** error<logicdf: invalid argument for upper tail.> logicdf (1, 2, 3, "tail")
***** error<logicdf: invalid argument for upper tail.> logicdf (1, 2, 3, 4)
***** error<logicdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logicdf (1, ones (2), ones (3))
***** error<logicdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logicdf (ones (2), 1, ones (3))
***** error<logicdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logicdf (ones (2), ones (3), 1)
***** error<logicdf: X, MU, and SIGMA must not be complex.> logicdf (i, 2, 3)
***** error<logicdf: X, MU, and SIGMA must not be complex.> logicdf (1, i, 3)
***** error<logicdf: X, MU, and SIGMA must not be complex.> logicdf (1, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/ricernd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ricernd.m
***** assert (size (ricernd (2, 1/2)), [1, 1])
***** assert (size (ricernd (2 * ones (2, 1), 1/2)), [2, 1])
***** assert (size (ricernd (2 * ones (2, 2), 1/2)), [2, 2])
***** assert (size (ricernd (2, 1/2 * ones (2, 1))), [2, 1])
***** assert (size (ricernd (1, 1/2 * ones (2, 2))), [2, 2])
***** assert (size (ricernd (ones (2, 1), 1)), [2, 1])
***** assert (size (ricernd (ones (2, 2), 1)), [2, 2])
***** assert (size (ricernd (2, 1/2, 3)), [3, 3])
***** assert (size (ricernd (1, 1, [4, 1])), [4, 1])
***** assert (size (ricernd (1, 1, 4, 1)), [4, 1])
***** assert (size (ricernd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (ricernd (1, 1, 0, 1)), [0, 1])
***** assert (size (ricernd (1, 1, 1, 0)), [1, 0])
***** assert (size (ricernd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (ricernd (1, 1, [])), [0, 0])
***** assert (size (ricernd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (ricernd (1, 1)), "double")
***** assert (class (ricernd (1, single (0))), "single")
***** assert (class (ricernd (1, single ([0, 0]))), "single")
***** assert (class (ricernd (1, single (1), 2)), "single")
***** assert (class (ricernd (1, single ([1, 1]), 1, 2)), "single")
***** assert (class (ricernd (single (1), 1, 2)), "single")
***** assert (class (ricernd (single ([1, 1]), 1, 1, 2)), "single")
***** error<ricernd: function called with too few input arguments.> ricernd ()
***** error<ricernd: function called with too few input arguments.> ricernd (1)
***** error<ricernd: S and SIGMA must be of common size or scalars.> ...
 ricernd (ones (3), ones (2))
***** error<ricernd: S and SIGMA must be of common size or scalars.> ...
 ricernd (ones (2), ones (3))
***** error<ricernd: S and SIGMA must not be complex.> ricernd (i, 2)
***** error<ricernd: S and SIGMA must not be complex.> ricernd (1, i)
***** error<ricernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ricernd (1, 1/2, -1)
***** error<ricernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ricernd (1, 1/2, 1.2)
***** error<ricernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ricernd (1, 1/2, ones (2))
***** error<ricernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ricernd (1, 1/2, [2 -1 2])
***** error<ricernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ricernd (1, 1/2, [2 0 2.5])
***** error<ricernd: dimensions must be non-negative integers.> ...
 ricernd (1, 1/2, 2, -1, 5)
***** error<ricernd: dimensions must be non-negative integers.> ...
 ricernd (1, 1/2, 2, 1.5, 5)
***** error<ricernd: S and SIGMA must be scalars or of size SZ.> ...
 ricernd (2, 1/2 * ones (2), 3)
***** error<ricernd: S and SIGMA must be scalars or of size SZ.> ...
 ricernd (2, 1/2 * ones (2), [3, 2])
***** error<ricernd: S and SIGMA must be scalars or of size SZ.> ...
 ricernd (2, 1/2 * ones (2), 3, 2)
***** error<ricernd: S and SIGMA must be scalars or of size SZ.> ...
 ricernd (2 * ones (2), 1/2, 3)
***** error<ricernd: S and SIGMA must be scalars or of size SZ.> ...
 ricernd (2 * ones (2), 1/2, [3, 2])
***** error<ricernd: S and SIGMA must be scalars or of size SZ.> ...
 ricernd (2 * ones (2), 1/2, 3, 2)
42 tests, 42 passed, 0 known failure, 0 skipped
[inst/dist_fun/hnrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hnrnd.m
***** assert (size (hnrnd (1, 1, 1)), [1, 1])
***** assert (size (hnrnd (1, 1, 2)), [2, 2])
***** assert (size (hnrnd (1, 1, [2, 1])), [2, 1])
***** assert (size (hnrnd (1, zeros (2, 2))), [2, 2])
***** assert (size (hnrnd (1, ones (2, 1))), [2, 1])
***** assert (size (hnrnd (1, ones (2, 2))), [2, 2])
***** assert (size (hnrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (hnrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (hnrnd (1, 1, 3)), [3, 3])
***** assert (size (hnrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (hnrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (hnrnd (1, 1, [])), [0, 0])
***** assert (size (hnrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** test
 r =  hnrnd (1, [1, 0, -1]);
 assert (r([2:3]), [NaN, NaN])
***** assert (class (hnrnd (1, 0)), "double")
***** assert (class (hnrnd (1, single (0))), "single")
***** assert (class (hnrnd (1, single ([0, 0]))), "single")
***** assert (class (hnrnd (1, single (1))), "single")
***** assert (class (hnrnd (1, single ([1, 1]))), "single")
***** assert (class (hnrnd (single (1), 1)), "single")
***** assert (class (hnrnd (single ([1, 1]), 1)), "single")
***** error<hnrnd: function called with too few input arguments.> hnrnd ()
***** error<hnrnd: function called with too few input arguments.> hnrnd (1)
***** error<hnrnd: MU and SIGMA must be of common size or scalars.> ...
 hnrnd (ones (3), ones (2))
***** error<hnrnd: MU and SIGMA must be of common size or scalars.> ...
 hnrnd (ones (2), ones (3))
***** error<hnrnd: MU and SIGMA must not be complex.> hnrnd (i, 2, 3)
***** error<hnrnd: MU and SIGMA must not be complex.> hnrnd (1, i, 3)
***** error<hnrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hnrnd (1, 2, -1)
***** error<hnrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hnrnd (1, 2, 1.2)
***** error<hnrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hnrnd (1, 2, ones (2))
***** error<hnrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hnrnd (1, 2, [2 -1 2])
***** error<hnrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 hnrnd (1, 2, [2 0 2.5])
***** error<hnrnd: dimensions must be non-negative integers.> ...
 hnrnd (1, 2, 2, -1, 5)
***** error<hnrnd: dimensions must be non-negative integers.> ...
 hnrnd (1, 2, 2, 1.5, 5)
***** error<hnrnd: MU and SIGMA must be scalars or of size SZ.> ...
 hnrnd (2, ones (2), 3)
***** error<hnrnd: MU and SIGMA must be scalars or of size SZ.> ...
 hnrnd (2, ones (2), [3, 2])
***** error<hnrnd: MU and SIGMA must be scalars or of size SZ.> ...
 hnrnd (2, ones (2), 3, 2)
37 tests, 37 passed, 0 known failure, 0 skipped
[inst/dist_fun/unifcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unifcdf.m
***** demo
 ## Plot various CDFs from the continuous uniform distribution
 x = 0:0.1:10;
 p1 = unifcdf (x, 2, 5);
 p2 = unifcdf (x, 3, 9);
 plot (x, p1, "-b", x, p2, "-g")
 grid on
 xlim ([0, 10])
 ylim ([0, 1])
 legend ({"a = 2, b = 5", "a = 3, b = 9"}, "location", "southeast")
 title ("Continuous uniform CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1 0 0.5 1 2] + 1;
 y = [0 0 0.5 1 1];
***** assert (unifcdf (x, ones (1,5), 2*ones (1,5)), y)
***** assert (unifcdf (x, ones (1,5), 2*ones (1,5), "upper"), 1 - y)
***** assert (unifcdf (x, 1, 2*ones (1,5)), y)
***** assert (unifcdf (x, 1, 2*ones (1,5), "upper"), 1 - y)
***** assert (unifcdf (x, ones (1,5), 2), y)
***** assert (unifcdf (x, ones (1,5), 2, "upper"), 1 - y)
***** assert (unifcdf (x, [2 1 NaN 1 1], 2), [NaN 0 NaN 1 1])
***** assert (unifcdf (x, [2 1 NaN 1 1], 2, "upper"), 1 - [NaN 0 NaN 1 1])
***** assert (unifcdf (x, 1, 2*[0 1 NaN 1 1]), [NaN 0 NaN 1 1])
***** assert (unifcdf (x, 1, 2*[0 1 NaN 1 1], "upper"), 1 - [NaN 0 NaN 1 1])
***** assert (unifcdf ([x(1:2) NaN x(4:5)], 1, 2), [y(1:2) NaN y(4:5)])
***** assert (unifcdf ([x(1:2) NaN x(4:5)], 1, 2, "upper"), 1 - [y(1:2) NaN y(4:5)])
***** assert (unifcdf ([x, NaN], 1, 2), [y, NaN])
***** assert (unifcdf (single ([x, NaN]), 1, 2), single ([y, NaN]))
***** assert (unifcdf ([x, NaN], single (1), 2), single ([y, NaN]))
***** assert (unifcdf ([x, NaN], 1, single (2)), single ([y, NaN]))
***** error<unifcdf: function called with too few input arguments.> unifcdf ()
***** error<unifcdf: function called with too few input arguments.> unifcdf (1)
***** error<unifcdf: function called with too few input arguments.> unifcdf (1, 2)
***** error<unifcdf: invalid argument for upper tail.> unifcdf (1, 2, 3, 4)
***** error<unifcdf: invalid argument for upper tail.> unifcdf (1, 2, 3, "tail")
***** error<unifcdf: X, A, and B must be of common size or scalars.> ...
 unifcdf (ones (3), ones (2), ones (2))
***** error<unifcdf: X, A, and B must be of common size or scalars.> ...
 unifcdf (ones (2), ones (3), ones (2))
***** error<unifcdf: X, A, and B must be of common size or scalars.> ...
 unifcdf (ones (2), ones (2), ones (3))
***** error<unifcdf: X, A, and B must not be complex.> unifcdf (i, 2, 2)
***** error<unifcdf: X, A, and B must not be complex.> unifcdf (2, i, 2)
***** error<unifcdf: X, A, and B must not be complex.> unifcdf (2, 2, i)
27 tests, 27 passed, 0 known failure, 0 skipped
[inst/dist_fun/gevcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gevcdf.m
***** demo
 ## Plot various CDFs from the generalized extreme value distribution
 x = -1:0.001:10;
 p1 = gevcdf (x, 1, 1, 1);
 p2 = gevcdf (x, 0.5, 1, 1);
 p3 = gevcdf (x, 1, 1, 5);
 p4 = gevcdf (x, 1, 2, 5);
 p5 = gevcdf (x, 1, 5, 5);
 p6 = gevcdf (x, 1, 0.5, 5);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", ...
       x, p4, "-c", x, p5, "-m", x, p6, "-k")
 grid on
 xlim ([-1, 10])
 legend ({"k = 1, σ = 1, μ = 1", "k = 0.5, σ = 1, μ = 1", ...
          "k = 1, σ = 1, μ = 5", "k = 1, σ = 2, μ = 5", ...
          "k = 1, σ = 5, μ = 5", "k = 1, σ = 0.5, μ = 5"}, ...
         "location", "southeast")
 title ("Generalized extreme value CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** test
 x = 0:0.5:2.5;
 sigma = 1:6;
 k = 1;
 mu = 0;
 p = gevcdf (x, k, sigma, mu);
 expected_p = [0.36788, 0.44933, 0.47237, 0.48323, 0.48954, 0.49367];
 assert (p, expected_p, 0.001);
***** test
 x = -0.5:0.5:2.5;
 sigma = 0.5;
 k = 1;
 mu = 0;
 p = gevcdf (x, k, sigma, mu);
 expected_p = [0, 0.36788, 0.60653, 0.71653, 0.77880, 0.81873, 0.84648];
 assert (p, expected_p, 0.001);
***** test # check for continuity for k near 0
 x = 1;
 sigma = 0.5;
 k = -0.03:0.01:0.03;
 mu = 0;
 p = gevcdf (x, k, sigma, mu);
 expected_p = [0.88062, 0.87820, 0.87580, 0.87342, 0.87107, 0.86874, 0.86643];
 assert (p, expected_p, 0.001);
***** error<gevcdf: function called with too few input arguments.> gevcdf ()
***** error<gevcdf: function called with too few input arguments.> gevcdf (1)
***** error<gevcdf: function called with too few input arguments.> gevcdf (1, 2)
***** error<gevcdf: function called with too few input arguments.> gevcdf (1, 2, 3)
***** error<gevcdf: function called with too many inputs> ...
 gevcdf (1, 2, 3, 4, 5, 6)
***** error<gevcdf: invalid argument for upper tail.> gevcdf (1, 2, 3, 4, "tail")
***** error<gevcdf: invalid argument for upper tail.> gevcdf (1, 2, 3, 4, 5)
***** error<gevcdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevcdf (ones (3), ones (2), ones(2), ones(2))
***** error<gevcdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevcdf (ones (2), ones (3), ones(2), ones(2))
***** error<gevcdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevcdf (ones (2), ones (2), ones(3), ones(2))
***** error<gevcdf: X, K, SIGMA, and MU must be of common size or scalars.> ...
 gevcdf (ones (2), ones (2), ones(2), ones(3))
***** error<gevcdf: X, K, SIGMA, and MU must not be complex.> gevcdf (i, 2, 3, 4)
***** error<gevcdf: X, K, SIGMA, and MU must not be complex.> gevcdf (1, i, 3, 4)
***** error<gevcdf: X, K, SIGMA, and MU must not be complex.> gevcdf (1, 2, i, 4)
***** error<gevcdf: X, K, SIGMA, and MU must not be complex.> gevcdf (1, 2, 3, i)
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/dist_fun/mnrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mnrnd.m
***** test
 n = 10;
 pk = [0.2, 0.5, 0.3];
 r = mnrnd (n, pk);
 assert (size (r), size (pk));
 assert (all (r >= 0));
 assert (all (round (r) == r));
 assert (sum (r) == n);
***** test
 n = 10 * ones (3, 1);
 pk = [0.2, 0.5, 0.3];
 r = mnrnd (n, pk);
 assert (size (r), [length(n), length(pk)]);
 assert (all (r >= 0));
 assert (all (round (r) == r));
 assert (all (sum (r, 2) == n));
***** test
 n = (1:2)';
 pk = [0.2, 0.5, 0.3; 0.1, 0.1, 0.8];
 r = mnrnd (n, pk);
 assert (size (r), size (pk));
 assert (all (r >= 0));
 assert (all (round (r) == r));
 assert (all (sum (r, 2) == n));
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/dist_fun/plpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/plpdf.m
***** demo
 ## Plot various PDFs from the Piecewise linear distribution
 data = 0:0.01:10;
 x1 = [0, 1, 3, 4, 7, 10];
 Fx1 = [0, 0.2, 0.5, 0.6, 0.7, 1];
 x2 = [0, 2, 5, 6, 7, 8];
 Fx2 = [0, 0.1, 0.3, 0.6, 0.9, 1];
 y1 = plpdf (data, x1, Fx1);
 y2 = plpdf (data, x2, Fx2);
 plot (data, y1, "-b", data, y2, "g")
 grid on
 ylim ([0, 0.6])
 xlim ([0, 10])
 legend ({"x1, Fx1", "x2, Fx2"}, "location", "northeast")
 title ("Piecewise linear CDF")
 xlabel ("values in data")
 ylabel ("density")
***** shared x, Fx
 x = [0, 1, 3, 4, 7, 10];
 Fx = [0, 0.2, 0.5, 0.6, 0.7, 1];
***** assert (plpdf (0.5, x, Fx), 0.2, eps);
***** assert (plpdf (1.5, x, Fx), 0.15, eps);
***** assert (plpdf (3.5, x, Fx), 0.1, eps);
***** assert (plpdf (5, x, Fx), 0.1/3, eps);
***** assert (plpdf (8, x, Fx), 0.1, eps);
***** error<plpdf: function called with too few input arguments.> plpdf ()
***** error<plpdf: function called with too few input arguments.> plpdf (1)
***** error<plpdf: function called with too few input arguments.> plpdf (1, 2)
***** error<plpdf: X and FX must be vectors of equal size.> ...
 plpdf (1, [0, 1, 2], [0, 1])
***** error<plpdf: X and FX must be at least two-elements long.> ...
 plpdf (1, [0], [1])
***** error<plpdf: FX must be bounded in the range> ...
 plpdf (1, [0, 1, 2], [0, 1, 1.5])
***** error<plpdf: FX must be bounded in the range> ...
 plpdf (1, [0, 1, 2], [0, i, 1])
***** error<plpdf: DATA, X, and FX must not be complex.> ...
 plpdf (i, [0, 1, 2], [0, 0.5, 1])
***** error<plpdf: DATA, X, and FX must not be complex.> ...
 plpdf (1, [0, i, 2], [0, 0.5, 1])
***** error<plpdf: DATA, X, and FX must not be complex.> ...
 plpdf (1, [0, 1, 2], [0, 0.5i, 1])
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/chi2cdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/chi2cdf.m
***** demo
 ## Plot various CDFs from the chi-squared distribution
 x = 0:0.01:8;
 p1 = chi2cdf (x, 1);
 p2 = chi2cdf (x, 2);
 p3 = chi2cdf (x, 3);
 p4 = chi2cdf (x, 4);
 p5 = chi2cdf (x, 6);
 p6 = chi2cdf (x, 9);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", ...
       x, p4, "-c", x, p5, "-m", x, p6, "-y")
 grid on
 xlim ([0, 8])
 legend ({"df = 1", "df = 2", "df = 3", ...
          "df = 4", "df = 6", "df = 9"}, "location", "southeast")
 title ("Chi-squared CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, p, u
 x = [-1, 0, 0.5, 1, 2];
 p = [0, (1 - exp (-x(2:end) / 2))];
 u = [1, 0, NaN, 0.606530659712633, 0.367879441171442];
***** assert (chi2cdf (x, 2 * ones (1,5)), p, eps)
***** assert (chi2cdf (x, 2), p, eps)
***** assert (chi2cdf (x, 2 * [1, 0, NaN, 1, 1]), [0, 1, NaN, p(4:5)], eps)
***** assert (chi2cdf (x, 2 * [1, 0, NaN, 1, 1], "upper"), u, 3 * eps)
***** assert (chi2cdf ([x(1:2), NaN, x(4:5)], 2), [p(1:2), NaN, p(4:5)], eps)
***** assert (chi2cdf ([x, NaN], 2), [p, NaN], eps)
***** assert (chi2cdf (single ([x, NaN]), 2), single ([p, NaN]), eps ("single"))
***** assert (chi2cdf ([x, NaN], single (2)), single ([p, NaN]), eps ("single"))
***** error<chi2cdf: function called with too few input arguments.> chi2cdf ()
***** error<chi2cdf: function called with too few input arguments.> chi2cdf (1)
***** error<chi2cdf: function called with too many inputs> chi2cdf (1, 2, 3, 4)
***** error<chi2cdf: invalid argument for upper tail.> chi2cdf (1, 2, 3)
***** error<chi2cdf: invalid argument for upper tail.> chi2cdf (1, 2, "uper")
***** error<chi2cdf: X and DF must be of common size or scalars.> ...
 chi2cdf (ones (3), ones (2))
***** error<chi2cdf: X and DF must be of common size or scalars.> ...
 chi2cdf (ones (2), ones (3))
***** error<chi2cdf: X and DF must not be complex.> chi2cdf (i, 2)
***** error<chi2cdf: X and DF must not be complex.> chi2cdf (2, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncx2cdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncx2cdf.m
***** demo
 ## Plot various CDFs from the noncentral chi-squared distribution
 x = 0:0.1:10;
 p1 = ncx2cdf (x, 2, 1);
 p2 = ncx2cdf (x, 2, 2);
 p3 = ncx2cdf (x, 2, 3);
 p4 = ncx2cdf (x, 4, 1);
 p5 = ncx2cdf (x, 4, 2);
 p6 = ncx2cdf (x, 4, 3);
 plot (x, p1, "-r", x, p2, "-g", x, p3, "-k", ...
       x, p4, "-m", x, p5, "-c", x, p6, "-y")
 grid on
 xlim ([0, 10])
 legend ({"df = 2, λ = 1", "df = 2, λ = 2", ...
          "df = 2, λ = 3", "df = 4, λ = 1", ...
          "df = 4, λ = 2", "df = 4, λ = 3"}, "location", "southeast")
 title ("Noncentral chi-squared CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** demo
 ## Compare the noncentral chi-squared CDF with LAMBDA = 2 to the
 ## chi-squared CDF with the same number of degrees of freedom (4).

 x = 0:0.1:10;
 p1 = ncx2cdf (x, 4, 2);
 p2 = chi2cdf (x, 4);
 plot (x, p1, "-", x, p2, "-")
 grid on
 xlim ([0, 10])
 legend ({"Noncentral χ^2(4,2)", "χ^2(4)"}, "location", "northwest")
 title ("Noncentral chi-squared vs chi-squared CDFs")
 xlabel ("values in x")
 ylabel ("probability")
***** test
 x = -2:0.1:2;
 p = ncx2cdf (x, 10, 1);
 assert (p([1:21]), zeros (1, 21), 3e-84);
 assert (p(22), 1.521400636466575e-09, 1e-14);
 assert (p(30), 6.665480510026046e-05, 1e-14);
 assert (p(41), 0.002406447308399836, 1e-14);
***** test
 p = ncx2cdf (12, 10, 3);
 assert (p, 0.4845555602398649, 1e-14);
***** test
 p = ncx2cdf (2, 3, 2);
 assert (p, 0.2207330870741212, 1e-14);
***** test
 p = ncx2cdf (2, 3, 2, "upper");
 assert (p, 0.7792669129258789, 1e-14);
***** test
 p = ncx2cdf ([3, 6], 3, 2, "upper");
 assert (p, [0.6423318186400054, 0.3152299878943012], 1e-14);
***** error<ncx2cdf: function called with too few input arguments.> ncx2cdf ()
***** error<ncx2cdf: function called with too few input arguments.> ncx2cdf (1)
***** error<ncx2cdf: function called with too few input arguments.> ncx2cdf (1, 2)
***** error<ncx2cdf: invalid argument for upper tail.> ncx2cdf (1, 2, 3, "tail")
***** error<ncx2cdf: invalid argument for upper tail.> ncx2cdf (1, 2, 3, 4)
***** error<ncx2cdf: X, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2cdf (ones (3), ones (2), ones (2))
***** error<ncx2cdf: X, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2cdf (ones (2), ones (3), ones (2))
***** error<ncx2cdf: X, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2cdf (ones (2), ones (2), ones (3))
***** error<ncx2cdf: X, DF, and LAMBDA must not be complex.> ncx2cdf (i, 2, 2)
***** error<ncx2cdf: X, DF, and LAMBDA must not be complex.> ncx2cdf (2, i, 2)
***** error<ncx2cdf: X, DF, and LAMBDA must not be complex.> ncx2cdf (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/nctpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nctpdf.m
***** demo
 ## Plot various PDFs from the noncentral T distribution
 x = -5:0.01:10;
 y1 = nctpdf (x, 1, 0);
 y2 = nctpdf (x, 4, 0);
 y3 = nctpdf (x, 1, 2);
 y4 = nctpdf (x, 4, 2);
 plot (x, y1, "-r", x, y2, "-g", x, y3, "-k", x, y4, "-m")
 grid on
 xlim ([-5, 10])
 ylim ([0, 0.4])
 legend ({"df = 1, μ = 0", "df = 4, μ = 0", ...
          "df = 1, μ = 2", "df = 4, μ = 2"}, "location", "northeast")
 title ("Noncentral T PDF")
 xlabel ("values in x")
 ylabel ("density")
***** demo
 ## Compare the noncentral T PDF with MU = 1 to the T PDF
 ## with the same number of degrees of freedom (10).

 x = -5:0.1:5;
 y1 = nctpdf (x, 10, 1);
 y2 = tpdf (x, 10);
 plot (x, y1, "-", x, y2, "-");
 grid on
 xlim ([-5, 5])
 ylim ([0, 0.4])
 legend ({"Noncentral χ^2(4,2)", "χ^2(4)"}, "location", "northwest")
 title ("Noncentral T vs T PDFs")
 xlabel ("values in x")
 ylabel ("density")
***** shared x1, df, mu
 x1 = [-Inf, 2, NaN, 4, Inf];
 df = [2, 0, -1, 1, 4];
 mu = [1, NaN, 3, -1, 2];
***** assert (nctpdf (x1, df, mu), [0, NaN, NaN, 0.00401787561306999, 0], 1e-14);
***** assert (nctpdf (x1, df, 1), [0, NaN, NaN, 0.0482312135423008, 0], 1e-14);
***** assert (nctpdf (x1, df, 3), [0, NaN, NaN, 0.1048493126401585, 0], 1e-14);
***** assert (nctpdf (x1, df, 2), [0, NaN, NaN, 0.08137377919890307, 0], 1e-14);
***** assert (nctpdf (x1, 3, mu), [0, NaN, NaN, 0.001185305171654381, 0], 1e-14);
***** assert (nctpdf (2, df, mu), [0.1791097459405861, NaN, NaN, ...
                             0.0146500727180389, 0.3082302682110299], 1e-14);
***** assert (nctpdf (4, df, mu), [0.04467929612254971, NaN, NaN, ...
                             0.00401787561306999, 0.0972086534042828], 1e-14);
***** error<nctpdf: function called with too few input arguments.> nctpdf ()
***** error<nctpdf: function called with too few input arguments.> nctpdf (1)
***** error<nctpdf: function called with too few input arguments.> nctpdf (1, 2)
***** error<nctpdf: X, DF, and MU must be of common size or scalars.> ...
 nctpdf (ones (3), ones (2), ones (2))
***** error<nctpdf: X, DF, and MU must be of common size or scalars.> ...
 nctpdf (ones (2), ones (3), ones (2))
***** error<nctpdf: X, DF, and MU must be of common size or scalars.> ...
 nctpdf (ones (2), ones (2), ones (3))
***** error<nctpdf: X, DF, and MU must not be complex.> nctpdf (i, 2, 2)
***** error<nctpdf: X, DF, and MU must not be complex.> nctpdf (2, i, 2)
***** error<nctpdf: X, DF, and MU must not be complex.> nctpdf (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/unidcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unidcdf.m
***** demo
 ## Plot various CDFs from the discrete uniform distribution
 x = 0:10;
 p1 = unidcdf (x, 5);
 p2 = unidcdf (x, 9);
 plot (x, p1, "*b", x, p2, "*g")
 grid on
 xlim ([0, 10])
 ylim ([0, 1])
 legend ({"N = 5", "N = 9"}, "location", "southeast")
 title ("Discrete uniform CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [0 1 2.5 10 11];
 y = [0, 0.1 0.2 1.0 1.0];
***** assert (unidcdf (x, 10*ones (1,5)), y)
***** assert (unidcdf (x, 10*ones (1,5), "upper"), 1 - y)
***** assert (unidcdf (x, 10), y)
***** assert (unidcdf (x, 10, "upper"), 1 - y)
***** assert (unidcdf (x, 10*[0 1 NaN 1 1]), [NaN 0.1 NaN y(4:5)])
***** assert (unidcdf ([x(1:2) NaN Inf x(5)], 10), [y(1:2) NaN 1 y(5)])
***** assert (unidcdf ([x, NaN], 10), [y, NaN])
***** assert (unidcdf (single ([x, NaN]), 10), single ([y, NaN]))
***** assert (unidcdf ([x, NaN], single (10)), single ([y, NaN]))
***** error<unidcdf: function called with too few input arguments.> unidcdf ()
***** error<unidcdf: function called with too few input arguments.> unidcdf (1)
***** error<unidcdf: invalid argument for upper tail.> unidcdf (1, 2, 3)
***** error<unidcdf: invalid argument for upper tail.> unidcdf (1, 2, "tail")
***** error<unidcdf: X and N must be of common size or scalars.> ...
 unidcdf (ones (3), ones (2))
***** error<unidcdf: X and N must be of common size or scalars.> ...
 unidcdf (ones (2), ones (3))
***** error<unidcdf: X and N must not be complex.> unidcdf (i, 2)
***** error<unidcdf: X and N must not be complex.> unidcdf (2, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncx2rnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncx2rnd.m
***** assert (size (ncx2rnd (1, 1)), [1, 1])
***** assert (size (ncx2rnd (1, ones (2, 1))), [2, 1])
***** assert (size (ncx2rnd (1, ones (2, 2))), [2, 2])
***** assert (size (ncx2rnd (ones (2, 1), 1)), [2, 1])
***** assert (size (ncx2rnd (ones (2, 2), 1)), [2, 2])
***** assert (size (ncx2rnd (1, 1, 3)), [3, 3])
***** assert (size (ncx2rnd (1, 1, [4, 1])), [4, 1])
***** assert (size (ncx2rnd (1, 1, 4, 1)), [4, 1])
***** assert (size (ncx2rnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (ncx2rnd (1, 1, 0, 1)), [0, 1])
***** assert (size (ncx2rnd (1, 1, 1, 0)), [1, 0])
***** assert (size (ncx2rnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (ncx2rnd (1, 1, [])), [0, 0])
***** assert (size (ncx2rnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (ncx2rnd (1, 1)), "double")
***** assert (class (ncx2rnd (1, single (1))), "single")
***** assert (class (ncx2rnd (1, single ([1, 1]))), "single")
***** assert (class (ncx2rnd (single (1), 1)), "single")
***** assert (class (ncx2rnd (single ([1, 1]), 1)), "single")
***** error<ncx2rnd: function called with too few input arguments.> ncx2rnd ()
***** error<ncx2rnd: function called with too few input arguments.> ncx2rnd (1)
***** error<ncx2rnd: DF and LAMBDA must be of common size or scalars.> ...
 ncx2rnd (ones (3), ones (2))
***** error<ncx2rnd: DF and LAMBDA must be of common size or scalars.> ...
 ncx2rnd (ones (2), ones (3))
***** error<ncx2rnd: DF and LAMBDA must not be complex.> ncx2rnd (i, 2)
***** error<ncx2rnd: DF and LAMBDA must not be complex.> ncx2rnd (1, i)
***** error<ncx2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncx2rnd (1, 2, -1)
***** error<ncx2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncx2rnd (1, 2, 1.2)
***** error<ncx2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncx2rnd (1, 2, ones (2))
***** error<ncx2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncx2rnd (1, 2, [2 -1 2])
***** error<ncx2rnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncx2rnd (1, 2, [2 0 2.5])
***** error<ncx2rnd: dimensions must be non-negative integers.> ...
 ncx2rnd (1, 2, 2, -1, 5)
***** error<ncx2rnd: dimensions must be non-negative integers.> ...
 ncx2rnd (1, 2, 2, 1.5, 5)
***** error<ncx2rnd: DF and LAMBDA must be scalars or of size SZ.> ...
 ncx2rnd (2, ones (2), 3)
***** error<ncx2rnd: DF and LAMBDA must be scalars or of size SZ.> ...
 ncx2rnd (2, ones (2), [3, 2])
***** error<ncx2rnd: DF and LAMBDA must be scalars or of size SZ.> ...
 ncx2rnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/iwishrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/iwishrnd.m
***** assert(size (iwishrnd (1,2,1)), [1, 1]);
***** assert(size (iwishrnd ([],2,1)), [1, 1]);
***** assert(size (iwishrnd ([3 1; 1 3], 2.00001, [], 1)), [2, 2]);
***** assert(size (iwishrnd (eye(2), 2, [], 3)), [2, 2, 3]);
***** error iwishrnd ()
***** error iwishrnd (1)
***** error iwishrnd ([-3 1; 1 3],1)
***** error iwishrnd ([1; 1],1)
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fun/gppdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gppdf.m
***** demo
 ## Plot various PDFs from the generalized Pareto distribution
 x = 0:0.001:5;
 y1 = gppdf (x, 1, 1, 0);
 y2 = gppdf (x, 5, 1, 0);
 y3 = gppdf (x, 20, 1, 0);
 y4 = gppdf (x, 1, 2, 0);
 y5 = gppdf (x, 5, 2, 0);
 y6 = gppdf (x, 20, 2, 0);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", ...
       x, y4, "-c", x, y5, "-m", x, y6, "-k")
 grid on
 xlim ([0, 5])
 ylim ([0, 1])
 legend ({"k = 1, σ = 1, θ = 0", "k = 5, σ = 1, θ = 0", ...
          "k = 20, σ = 1, θ = 0", "k = 1, σ = 2, θ = 0", ...
          "k = 5, σ = 2, θ = 0", "k = 20, σ = 2, θ = 0"}, ...
         "location", "northeast")
 title ("Generalized Pareto PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y1, y2, y3
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 y1 = [0, 0, 1, 0.6065306597126334, 0.36787944117144233, 0];
 y2 = [0, 0, 1, 4/9, 1/4, 0];
 y3 = [0, 0, 1, 1, 1, 0];
***** assert (gppdf (x, zeros (1,6), ones (1,6), zeros (1,6)), y1, eps)
***** assert (gppdf (x, 0, 1, zeros (1,6)), y1, eps)
***** assert (gppdf (x, 0, ones (1,6), 0), y1, eps)
***** assert (gppdf (x, zeros (1,6), 1, 0), y1, eps)
***** assert (gppdf (x, 0, 1, 0), y1, eps)
***** assert (gppdf (x, 0, 1, [0, 0, 0, NaN, 0, 0]), [y1(1:3), NaN, y1(5:6)])
***** assert (gppdf (x, 0, [1, 1, 1, NaN, 1, 1], 0), [y1(1:3), NaN, y1(5:6)])
***** assert (gppdf (x, [0, 0, 0, NaN, 0, 0], 1, 0), [y1(1:3), NaN, y1(5:6)])
***** assert (gppdf ([x(1:3), NaN, x(5:6)], 0, 1, 0), [y1(1:3), NaN, y1(5:6)])
***** assert (gppdf (x, ones (1,6), ones (1,6), zeros (1,6)), y2, eps)
***** assert (gppdf (x, 1, 1, zeros (1,6)), y2, eps)
***** assert (gppdf (x, 1, ones (1,6), 0), y2, eps)
***** assert (gppdf (x, ones (1,6), 1, 0), y2, eps)
***** assert (gppdf (x, 1, 1, 0), y2, eps)
***** assert (gppdf (x, 1, 1, [0, 0, 0, NaN, 0, 0]), [y2(1:3), NaN, y2(5:6)])
***** assert (gppdf (x, 1, [1, 1, 1, NaN, 1, 1], 0), [y2(1:3), NaN, y2(5:6)])
***** assert (gppdf (x, [1, 1, 1, NaN, 1, 1], 1, 0), [y2(1:3), NaN, y2(5:6)])
***** assert (gppdf ([x(1:3), NaN, x(5:6)], 1, 1, 0), [y2(1:3), NaN, y2(5:6)])
***** assert (gppdf (x, -ones (1,6), ones (1,6), zeros (1,6)), y3, eps)
***** assert (gppdf (x, -1, 1, zeros (1,6)), y3, eps)
***** assert (gppdf (x, -1, ones (1,6), 0), y3, eps)
***** assert (gppdf (x, -ones (1,6), 1, 0), y3, eps)
***** assert (gppdf (x, -1, 1, 0), y3, eps)
***** assert (gppdf (x, -1, 1, [0, 0, 0, NaN, 0, 0]), [y3(1:3), NaN, y3(5:6)])
***** assert (gppdf (x, -1, [1, 1, 1, NaN, 1, 1], 0), [y3(1:3), NaN, y3(5:6)])
***** assert (gppdf (x, [-1, -1, -1, NaN, -1, -1], 1, 0), [y3(1:3), NaN, y3(5:6)])
***** assert (gppdf ([x(1:3), NaN, x(5:6)], -1, 1, 0), [y3(1:3), NaN, y3(5:6)])
***** assert (gppdf (single ([x, NaN]), 0, 1, 0), single ([y1, NaN]))
***** assert (gppdf ([x, NaN], 0, 1, single (0)), single ([y1, NaN]))
***** assert (gppdf ([x, NaN], 0, single (1), 0), single ([y1, NaN]))
***** assert (gppdf ([x, NaN], single (0), 1, 0), single ([y1, NaN]))
***** assert (gppdf (single ([x, NaN]), 1, 1, 0), single ([y2, NaN]))
***** assert (gppdf ([x, NaN], 1, 1, single (0)), single ([y2, NaN]))
***** assert (gppdf ([x, NaN], 1, single (1), 0), single ([y2, NaN]))
***** assert (gppdf ([x, NaN], single (1), 1, 0), single ([y2, NaN]))
***** assert (gppdf (single ([x, NaN]), -1, 1, 0), single ([y3, NaN]))
***** assert (gppdf ([x, NaN], -1, 1, single (0)), single ([y3, NaN]))
***** assert (gppdf ([x, NaN], -1, single (1), 0), single ([y3, NaN]))
***** assert (gppdf ([x, NaN], single (-1), 1, 0), single ([y3, NaN]))
***** error<gpcdf: function called with too few input arguments.> gpcdf ()
***** error<gpcdf: function called with too few input arguments.> gpcdf (1)
***** error<gpcdf: function called with too few input arguments.> gpcdf (1, 2)
***** error<gpcdf: function called with too few input arguments.> gpcdf (1, 2, 3)
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (3), ones (2), ones(2), ones(2))
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (2), ones (3), ones(2), ones(2))
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (2), ones (2), ones(3), ones(2))
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (2), ones (2), ones(2), ones(3))
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (i, 2, 3, 4)
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (1, i, 3, 4)
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (1, 2, i, 4)
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (1, 2, 3, i)
51 tests, 51 passed, 0 known failure, 0 skipped
[inst/dist_fun/wblcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wblcdf.m
***** demo
 ## Plot various CDFs from the Weibull distribution
 x = 0:0.001:2.5;
 p1 = wblcdf (x, 1, 0.5);
 p2 = wblcdf (x, 1, 1);
 p3 = wblcdf (x, 1, 1.5);
 p4 = wblcdf (x, 1, 5);
 plot (x, p1, "-b", x, p2, "-r", x, p3, "-m", x, p4, "-g")
 grid on
 legend ({"λ = 1, k = 0.5", "λ = 1, k = 1", ...
          "λ = 1, k = 1.5", "λ = 1, k = 5"}, "location", "southeast")
 title ("Weibull CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1 0 0.5 1 Inf];
 y = [0, 1-exp(-x(2:4)), 1];
***** assert (wblcdf (x, ones (1,5), ones (1,5)), y, 1e-16)
***** assert (wblcdf (x, ones (1,5), ones (1,5), "upper"), 1 - y)
***** assert (wblcdf (x, "upper"), 1 - y)
***** assert (wblcdf (x, 1, ones (1,5)), y, 1e-16)
***** assert (wblcdf (x, ones (1,5), 1), y, 1e-16)
***** assert (wblcdf (x, [0 1 NaN Inf 1], 1), [NaN 0 NaN 0 1])
***** assert (wblcdf (x, [0 1 NaN Inf 1], 1, "upper"), 1 - [NaN 0 NaN 0 1])
***** assert (wblcdf (x, 1, [0 1 NaN Inf 1]), [NaN 0 NaN y(4:5)])
***** assert (wblcdf (x, 1, [0 1 NaN Inf 1], "upper"), 1 - [NaN 0 NaN y(4:5)])
***** assert (wblcdf ([x(1:2) NaN x(4:5)], 1, 1), [y(1:2) NaN y(4:5)])
***** assert (wblcdf ([x(1:2) NaN x(4:5)], 1, 1, "upper"), 1 - [y(1:2) NaN y(4:5)])
***** assert (wblcdf ([x, NaN], 1, 1), [y, NaN], 1e-16)
***** assert (wblcdf (single ([x, NaN]), 1, 1), single ([y, NaN]))
***** assert (wblcdf ([x, NaN], single (1), 1), single ([y, NaN]))
***** assert (wblcdf ([x, NaN], 1, single (1)), single ([y, NaN]))
***** error<wblcdf: invalid number of input arguments.> wblcdf ()
***** error<wblcdf: invalid number of input arguments.> wblcdf (1,2,3,4,5,6,7)
***** error<wblcdf: invalid argument for upper tail.> wblcdf (1, 2, 3, 4, "uper")
***** error<wblcdf: X, LAMBDA, and K must be of common size or scalars.> ...
 wblcdf (ones (3), ones (2), ones (2))
***** error<wblcdf: invalid size of covariance matrix.> wblcdf (2, 3, 4, [1, 2])
***** error<wblcdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = wblcdf (1, 2, 3)
***** error<wblcdf: invalid value for alpha.> [p, plo, pup] = ...
 wblcdf (1, 2, 3, [1, 0; 0, 1], 0)
***** error<wblcdf: invalid value for alpha.> [p, plo, pup] = ...
 wblcdf (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<wblcdf: invalid value for alpha.> [p, plo, pup] = ...
 wblcdf (1, 2, 3, [1, 0; 0, 1], "alpha", "upper")
***** error<wblcdf: X, LAMBDA, and K must not be complex.> wblcdf (i, 2, 2)
***** error<wblcdf: X, LAMBDA, and K must not be complex.> wblcdf (2, i, 2)
***** error<wblcdf: X, LAMBDA, and K must not be complex.> wblcdf (2, 2, i)
***** error<wblcdf: bad covariance matrix.> ...
 [p, plo, pup] =wblcdf (1, 2, 3, [1, 0; 0, -inf], 0.04)
28 tests, 28 passed, 0 known failure, 0 skipped
[inst/dist_fun/evpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/evpdf.m
***** demo
 ## Plot various PDFs from the Extreme value distribution
 x = -10:0.001:10;
 y1 = evpdf (x, 0.5, 2);
 y2 = evpdf (x, 1.0, 2);
 y3 = evpdf (x, 1.5, 3);
 y4 = evpdf (x, 3.0, 4);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 ylim ([0, 0.2])
 legend ({"μ = 0.5, σ = 2", "μ = 1.0, σ = 2", ...
          "μ = 1.5, σ = 3", "μ = 3.0, σ = 4"}, "location", "northeast")
 title ("Extreme value PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y0, y1
 x = [-5, 0, 1, 2, 3];
 y0 = [0.0067, 0.3679, 0.1794, 0.0046, 0];
 y1 = [0.0025, 0.2546, 0.3679, 0.1794, 0.0046];
***** assert (evpdf (x), y0, 1e-4)
***** assert (evpdf (x, zeros (1,5), ones (1,5)), y0, 1e-4)
***** assert (evpdf (x, ones (1,5), ones (1,5)), y1, 1e-4)
***** error<evpdf: function called with too few input arguments.> evpdf ()
***** error<evpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 evpdf (ones (3), ones (2), ones (2))
***** error<evpdf: X, MU, and SIGMA must not be complex.> evpdf (i, 2, 2)
***** error<evpdf: X, MU, and SIGMA must not be complex.> evpdf (2, i, 2)
***** error<evpdf: X, MU, and SIGMA must not be complex.> evpdf (2, 2, i)
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fun/poissinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/poissinv.m
***** demo
 ## Plot various iCDFs from the Poisson distribution
 p = 0.001:0.001:0.999;
 x1 = poissinv (p, 13);
 x2 = poissinv (p, 4);
 x3 = poissinv (p, 10);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r")
 grid on
 ylim ([0, 20])
 legend ({"λ = 1", "λ = 4", "λ = 10"}, "location", "northwest")
 title ("Poisson iCDF")
 xlabel ("probability")
 ylabel ("values in x (number of occurences)")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (poissinv (p, ones (1,5)), [NaN 0 1 Inf NaN])
***** assert (poissinv (p, 1), [NaN 0 1 Inf NaN])
***** assert (poissinv (p, [1 0 NaN 1 1]), [NaN NaN NaN Inf NaN])
***** assert (poissinv ([p(1:2) NaN p(4:5)], 1), [NaN 0 NaN Inf NaN])
***** assert (poissinv ([p, NaN], 1), [NaN 0 1 Inf NaN NaN])
***** assert (poissinv (single ([p, NaN]), 1), single ([NaN 0 1 Inf NaN NaN]))
***** assert (poissinv ([p, NaN], single (1)), single ([NaN 0 1 Inf NaN NaN]))
***** error<poissinv: function called with too few input arguments.> poissinv ()
***** error<poissinv: function called with too few input arguments.> poissinv (1)
***** error<poissinv: P and LAMBDA must be of common size or scalars.> ...
 poissinv (ones (3), ones (2))
***** error<poissinv: P and LAMBDA must be of common size or scalars.> ...
 poissinv (ones (2), ones (3))
***** error<poissinv: P and LAMBDA must not be complex.> poissinv (i, 2)
***** error<poissinv: P and LAMBDA must not be complex.> poissinv (2, i)
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fun/cauchyrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/cauchyrnd.m
***** assert (size (cauchyrnd (1, 1)), [1 1])
***** assert (size (cauchyrnd (1, ones (2,1))), [2, 1])
***** assert (size (cauchyrnd (1, ones (2,2))), [2, 2])
***** assert (size (cauchyrnd (ones (2,1), 1)), [2, 1])
***** assert (size (cauchyrnd (ones (2,2), 1)), [2, 2])
***** assert (size (cauchyrnd (1, 1, 3)), [3, 3])
***** assert (size (cauchyrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (cauchyrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (cauchyrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (cauchyrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (cauchyrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (cauchyrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (cauchyrnd (1, 1, [])), [0, 0])
***** assert (size (cauchyrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (cauchyrnd (1, 1)), "double")
***** assert (class (cauchyrnd (1, single (1))), "single")
***** assert (class (cauchyrnd (1, single ([1, 1]))), "single")
***** assert (class (cauchyrnd (single (1), 1)), "single")
***** assert (class (cauchyrnd (single ([1, 1]), 1)), "single")
***** error<cauchyrnd: function called with too few input arguments.> cauchyrnd ()
***** error<cauchyrnd: function called with too few input arguments.> cauchyrnd (1)
***** error<cauchyrnd: X0 and GAMMA must be of common size or scalars.> ...
 cauchyrnd (ones (3), ones (2))
***** error<cauchyrnd: X0 and GAMMA must be of common size or scalars.> ...
 cauchyrnd (ones (2), ones (3))
***** error<cauchyrnd: X0 and GAMMA must not be complex.> cauchyrnd (i, 2, 3)
***** error<cauchyrnd: X0 and GAMMA must not be complex.> cauchyrnd (1, i, 3)
***** error<cauchyrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 cauchyrnd (1, 2, -1)
***** error<cauchyrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 cauchyrnd (1, 2, 1.2)
***** error<cauchyrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 cauchyrnd (1, 2, ones (2))
***** error<cauchyrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 cauchyrnd (1, 2, [2 -1 2])
***** error<cauchyrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 cauchyrnd (1, 2, [2 0 2.5])
***** error<cauchyrnd: dimensions must be non-negative integers.> ...
 cauchyrnd (1, 2, 2, -1, 5)
***** error<cauchyrnd: dimensions must be non-negative integers.> ...
 cauchyrnd (1, 2, 2, 1.5, 5)
***** error<cauchyrnd: X0 and GAMMA must be scalars or of size SZ.> ...
 cauchyrnd (2, ones (2), 3)
***** error<cauchyrnd: X0 and GAMMA must be scalars or of size SZ.> ...
 cauchyrnd (2, ones (2), [3, 2])
***** error<cauchyrnd: X0 and GAMMA must be scalars or of size SZ.> ...
 cauchyrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/gamcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gamcdf.m
***** demo
 ## Plot various CDFs from the Gamma distribution
 x = 0:0.01:20;
 p1 = gamcdf (x, 1, 2);
 p2 = gamcdf (x, 2, 2);
 p3 = gamcdf (x, 3, 2);
 p4 = gamcdf (x, 5, 1);
 p5 = gamcdf (x, 9, 0.5);
 p6 = gamcdf (x, 7.5, 1);
 p7 = gamcdf (x, 0.5, 1);
 plot (x, p1, "-r", x, p2, "-g", x, p3, "-y", x, p4, "-m", ...
       x, p5, "-k", x, p6, "-b", x, p7, "-c")
 grid on
 legend ({"α = 1, β = 2", "α = 2, β = 2", "α = 3, β = 2", ...
          "α = 5, β = 1", "α = 9, β = 0.5", "α = 7.5, β = 1", ...
          "α = 0.5, β = 1"}, "location", "southeast")
 title ("Gamma CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y, u
 x = [-1, 0, 0.5, 1, 2, Inf];
 y = [0, gammainc(x(2:end), 1)];
 u = [0, NaN, NaN, 1, 0.1353352832366127, 0];
***** assert (gamcdf (x, ones (1,6), ones (1,6)), y, eps)
***** assert (gamcdf (x, ones (1,6), ones (1,6), []), y, eps)
***** assert (gamcdf (x, 1, ones (1,6)), y, eps)
***** assert (gamcdf (x, ones (1,6), 1), y, eps)
***** assert (gamcdf (x, [0, -Inf, NaN, Inf, 1, 1], 1), [1, NaN, NaN, 0, y(5:6)], eps)
***** assert (gamcdf (x, [0, -Inf, NaN, Inf, 1, 1], 1, "upper"), u, eps)
***** assert (gamcdf (x, 1, [0, -Inf, NaN, Inf, 1, 1]), [NaN, NaN, NaN, 0, y(5:6)], eps)
***** assert (gamcdf ([x(1:2), NaN, x(4:6)], 1, 1), [y(1:2), NaN, y(4:6)], eps)
***** assert (gamcdf ([x, NaN], 1, 1), [y, NaN])
***** assert (gamcdf (single ([x, NaN]), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (gamcdf ([x, NaN], single (1), 1), single ([y, NaN]), eps ("single"))
***** assert (gamcdf ([x, NaN], 1, single (1)), single ([y, NaN]), eps ("single"))
***** error<gamcdf: invalid number of input arguments.> gamcdf ()
***** error<gamcdf: invalid number of input arguments.> gamcdf (1)
***** error<gamcdf: invalid number of input arguments.> gamcdf (1, 2, 3, 4, 5, 6, 7)
***** error<gamcdf: invalid argument for upper tail.> gamcdf (1, 2, 3, "uper")
***** error<gamcdf: invalid argument for upper tail.> gamcdf (1, 2, 3, 4, 5, "uper")
***** error<gamcdf: invalid size of covariance matrix.> gamcdf (2, 3, 4, [1, 2])
***** error<gamcdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = gamcdf (1, 2, 3)
***** error<gamcdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = gamcdf (1, 2, 3, "upper")
***** error<gamcdf: invalid value for alpha.> [p, plo, pup] = ...
 gamcdf (1, 2, 3, [1, 0; 0, 1], 0)
***** error<gamcdf: invalid value for alpha.> [p, plo, pup] = ...
 gamcdf (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<gamcdf: invalid value for alpha.> [p, plo, pup] = ...
 gamcdf (1, 2, 3, [1, 0; 0, 1], "alpha", "upper")
***** error<gamcdf: X, A, and B must be of common size or scalars.> ...
 gamcdf (ones (3), ones (2), ones (2))
***** error<gamcdf: X, A, and B must be of common size or scalars.> ...
 gamcdf (ones (2), ones (3), ones (2))
***** error<gamcdf: X, A, and B must be of common size or scalars.> ...
 gamcdf (ones (2), ones (2), ones (3))
***** error<gamcdf: X, A, and B must not be complex.> gamcdf (i, 2, 2)
***** error<gamcdf: X, A, and B must not be complex.> gamcdf (2, i, 2)
***** error<gamcdf: X, A, and B must not be complex.> gamcdf (2, 2, i)
***** error<gamcdf: bad covariance matrix.> ...
 [p, plo, pup] = gamcdf (1, 2, 3, [1, 0; 0, -inf], 0.04)
30 tests, 30 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvtrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvtrnd.m
***** test
 rho = [1, 0.5; 0.5, 1];
 df = 3;
 n = 10;
 r = mvtrnd (rho, df, n);
 assert (size (r), [10, 2]);
***** test
 rho = [1, 0.5; 0.5, 1];
 df = [2; 3];
 n = 2;
 r = mvtrnd (rho, df, 2);
 assert (size (r), [2, 2]);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvnpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvnpdf.m
***** demo
 mu = [1, -1];
 sigma = [0.9, 0.4; 0.4, 0.3];
 [X1, X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 x = [X1(:), X2(:)];
 p = mvnpdf (x, mu, sigma);
 surf (X1, X2, reshape (p, 25, 25));
***** error<mvnpdf: too few input arguments.> y = mvnpdf ();
***** error<mvnpdf: too few dimensions in X.> y = mvnpdf ([]);
***** error<mvnpdf: wrong dimensions in X.> y = mvnpdf (ones (3,3,3));
***** error<mvnpdf: columns in X and MU mismatch.> ...
 y = mvnpdf (ones (10, 2), [4, 2, 3]);
***** error<mvnpdf: rows in X and MU mismatch.> ...
 y = mvnpdf (ones (10, 2), [4, 2; 3, 2]);
***** error<mvnpdf: wrong size of MU.> ...
 y = mvnpdf (ones (10, 2), ones (3, 3, 3));
***** shared x, mu, sigma
 x = [1, 2, 5, 4, 6];
 mu = [2, 0, -1, 1, 4];
 sigma = [2, 2, 2, 2, 2];
***** assert (mvnpdf (x), 1.579343404440977e-20, 1e-30);
***** assert (mvnpdf (x, mu), 1.899325144348102e-14, 1e-25);
***** assert (mvnpdf (x, mu, sigma), 2.449062307156273e-09, 1e-20);
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fun/wblrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wblrnd.m
***** assert (size (wblrnd (1, 1)), [1, 1])
***** assert (size (wblrnd (1, ones (2, 1))), [2, 1])
***** assert (size (wblrnd (1, ones (2, 2))), [2, 2])
***** assert (size (wblrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (wblrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (wblrnd (1, 1, 3)), [3, 3])
***** assert (size (wblrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (wblrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (wblrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (wblrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (wblrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (wblrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (wblrnd (1, 1, [])), [0, 0])
***** assert (size (wblrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (wblrnd (1, 1)), "double")
***** assert (class (wblrnd (1, single (1))), "single")
***** assert (class (wblrnd (1, single ([1, 1]))), "single")
***** assert (class (wblrnd (single (1), 1)), "single")
***** assert (class (wblrnd (single ([1, 1]), 1)), "single")
***** error<wblrnd: function called with too few input arguments.> wblrnd ()
***** error<wblrnd: function called with too few input arguments.> wblrnd (1)
***** error<wblrnd: LAMBDA and K must be of common size or scalars.> ...
 wblrnd (ones (3), ones (2))
***** error<wblrnd: LAMBDA and K must be of common size or scalars.> ...
 wblrnd (ones (2), ones (3))
***** error<wblrnd: LAMBDA and K must not be complex.> wblrnd (i, 2, 3)
***** error<wblrnd: LAMBDA and K must not be complex.> wblrnd (1, i, 3)
***** error<wblrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 wblrnd (1, 2, -1)
***** error<wblrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 wblrnd (1, 2, 1.2)
***** error<wblrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 wblrnd (1, 2, ones (2))
***** error<wblrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 wblrnd (1, 2, [2 -1 2])
***** error<wblrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 wblrnd (1, 2, [2 0 2.5])
***** error<wblrnd: dimensions must be non-negative integers.> ...
 wblrnd (1, 2, 2, -1, 5)
***** error<wblrnd: dimensions must be non-negative integers.> ...
 wblrnd (1, 2, 2, 1.5, 5)
***** error<wblrnd: LAMBDA and K must be scalar or of size SZ.> ...
 wblrnd (2, ones (2), 3)
***** error<wblrnd: LAMBDA and K must be scalar or of size SZ.> ...
 wblrnd (2, ones (2), [3, 2])
***** error<wblrnd: LAMBDA and K must be scalar or of size SZ.> ...
 wblrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/geoinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/geoinv.m
***** demo
 ## Plot various iCDFs from the geometric distribution
 p = 0.001:0.001:0.999;
 x1 = geoinv (p, 0.2);
 x2 = geoinv (p, 0.5);
 x3 = geoinv (p, 0.7);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r")
 grid on
 ylim ([0, 10])
 legend ({"ps = 0.2", "ps = 0.5", "ps = 0.7"}, "location", "northwest")
 title ("Geometric iCDF")
 xlabel ("probability")
 ylabel ("values in x (number of failures)")
***** shared p
 p = [-1 0 0.75 1 2];
***** assert (geoinv (p, 0.5*ones (1,5)), [NaN 0 1 Inf NaN])
***** assert (geoinv (p, 0.5), [NaN 0 1 Inf NaN])
***** assert (geoinv (p, 0.5*[1 -1 NaN 4 1]), [NaN NaN NaN NaN NaN])
***** assert (geoinv ([p(1:2) NaN p(4:5)], 0.5), [NaN 0 NaN Inf NaN])
***** assert (geoinv ([p, NaN], 0.5), [NaN 0 1 Inf NaN NaN])
***** assert (geoinv (single ([p, NaN]), 0.5), single ([NaN 0 1 Inf NaN NaN]))
***** assert (geoinv ([p, NaN], single (0.5)), single ([NaN 0 1 Inf NaN NaN]))
***** error<geoinv: function called with too few input arguments.> geoinv ()
***** error<geoinv: function called with too few input arguments.> geoinv (1)
***** error<geoinv: P and PS must be of common size or scalars.> ...
 geoinv (ones (3), ones (2))
***** error<geoinv: P and PS must be of common size or scalars.> ...
 geoinv (ones (2), ones (3))
***** error<geoinv: P and PS must not be complex.> ...
 geoinv (i, 2)
***** error<geoinv: P and PS must not be complex.> ...
 geoinv (2, i)
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fun/gprnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gprnd.m
***** assert (size (gprnd (0, 1, 0)), [1, 1])
***** assert (size (gprnd (0, 1, zeros (2,1))), [2, 1])
***** assert (size (gprnd (0, 1, zeros (2,2))), [2, 2])
***** assert (size (gprnd (0, ones (2,1), 0)), [2, 1])
***** assert (size (gprnd (0, ones (2,2), 0)), [2, 2])
***** assert (size (gprnd (zeros (2,1), 1, 0)), [2, 1])
***** assert (size (gprnd (zeros (2,2), 1, 0)), [2, 2])
***** assert (size (gprnd (0, 1, 0, 3)), [3, 3])
***** assert (size (gprnd (0, 1, 0, [4 1])), [4, 1])
***** assert (size (gprnd (0, 1, 0, 4, 1)), [4, 1])
***** assert (size (gprnd (1,1,0)), [1, 1])
***** assert (size (gprnd (1, 1, zeros (2,1))), [2, 1])
***** assert (size (gprnd (1, 1, zeros (2,2))), [2, 2])
***** assert (size (gprnd (1, ones (2,1), 0)), [2, 1])
***** assert (size (gprnd (1, ones (2,2), 0)), [2, 2])
***** assert (size (gprnd (ones (2,1), 1, 0)), [2, 1])
***** assert (size (gprnd (ones (2,2), 1, 0)), [2, 2])
***** assert (size (gprnd (1, 1, 0, 3)), [3, 3])
***** assert (size (gprnd (1, 1, 0, [4 1])), [4, 1])
***** assert (size (gprnd (1, 1, 0, 4, 1)), [4, 1])
***** assert (size (gprnd (-1, 1, 0)), [1, 1])
***** assert (size (gprnd (-1, 1, zeros (2,1))), [2, 1])
***** assert (size (gprnd (1, -1, zeros (2,2))), [2, 2])
***** assert (size (gprnd (-1, ones (2,1), 0)), [2, 1])
***** assert (size (gprnd (-1, ones (2,2), 0)), [2, 2])
***** assert (size (gprnd (-ones (2,1), 1, 0)), [2, 1])
***** assert (size (gprnd (-ones (2,2), 1, 0)), [2, 2])
***** assert (size (gprnd (-1, 1, 0, 3)), [3, 3])
***** assert (size (gprnd (-1, 1, 0, [4, 1])), [4, 1])
***** assert (size (gprnd (-1, 1, 0, 4, 1)), [4, 1])
***** assert (size (gprnd (-1, 1, 0, [])), [0, 0])
***** assert (size (gprnd (-1, 1, 0, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (gprnd (0, 1, 0)), "double")
***** assert (class (gprnd (0, 1, single (0))), "single")
***** assert (class (gprnd (0, 1, single ([0, 0]))), "single")
***** assert (class (gprnd (0, single (1),0)), "single")
***** assert (class (gprnd (0, single ([1, 1]),0)), "single")
***** assert (class (gprnd (single (0), 1, 0)), "single")
***** assert (class (gprnd (single ([0, 0]), 1, 0)), "single")
***** error<gprnd: function called with too few input arguments.> gprnd ()
***** error<gprnd: function called with too few input arguments.> gprnd (1)
***** error<gprnd: function called with too few input arguments.> gprnd (1, 2)
***** error<gprnd: K, SIGMA, and THETA must be of common size or scalars.> ...
 gprnd (ones (3), ones (2), ones (2))
***** error<gprnd: K, SIGMA, and THETA must be of common size or scalars.> ...
 gprnd (ones (2), ones (3), ones (2))
***** error<gprnd: K, SIGMA, and THETA must be of common size or scalars.> ...
 gprnd (ones (2), ones (2), ones (3))
***** error<gprnd: K, SIGMA, and THETA must not be complex.> gprnd (i, 2, 3)
***** error<gprnd: K, SIGMA, and THETA must not be complex.> gprnd (1, i, 3)
***** error<gprnd: K, SIGMA, and THETA must not be complex.> gprnd (1, 2, i)
***** error<gprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gprnd (1, 2, 3, -1)
***** error<gprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gprnd (1, 2, 3, 1.2)
***** error<gprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gprnd (1, 2, 3, ones (2))
***** error<gprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gprnd (1, 2, 3, [2 -1 2])
***** error<gprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gprnd (1, 2, 3, [2 0 2.5])
***** error<gprnd: dimensions must be non-negative integers.> ...
 gprnd (1, 2, 3, 2, -1, 5)
***** error<gprnd: dimensions must be non-negative integers.> ...
 gprnd (1, 2, 3, 2, 1.5, 5)
***** error<gprnd: K, SIGMA, and THETA must be scalars or of size SZ.> ...
 gprnd (2, ones (2), 2, 3)
***** error<gprnd: K, SIGMA, and THETA must be scalars or of size SZ.> ...
 gprnd (2, ones (2), 2, [3, 2])
***** error<gprnd: K, SIGMA, and THETA must be scalars or of size SZ.> ...
 gprnd (2, ones (2), 2, 3, 2)
58 tests, 58 passed, 0 known failure, 0 skipped
[inst/dist_fun/ricepdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ricepdf.m
***** demo
 ## Plot various PDFs from the Rician distribution
 x = 0:0.01:8;
 y1 = ricepdf (x, 0, 1);
 y2 = ricepdf (x, 0.5, 1);
 y3 = ricepdf (x, 1, 1);
 y4 = ricepdf (x, 2, 1);
 y5 = ricepdf (x, 4, 1);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-m", x, y5, "-k")
 grid on
 ylim ([0, 0.65])
 xlim ([0, 8])
 legend ({"s = 0, σ = 1", "s = 0.5, σ = 1", "s = 1, σ = 1", ...
          "s = 2, σ = 1", "s = 4, σ = 1"}, "location", "northeast")
 title ("Rician PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 0.5 1 2];
 y = [0 0 0.1073 0.1978 0.2846];
***** assert (ricepdf (x, ones (1, 5), 2 * ones (1, 5)), y, 1e-4)
***** assert (ricepdf (x, 1, 2 * ones (1, 5)), y, 1e-4)
***** assert (ricepdf (x, ones (1, 5), 2), y, 1e-4)
***** assert (ricepdf (x, [0 NaN 1 1 1], 2), [0 NaN y(3:5)], 1e-4)
***** assert (ricepdf (x, 1, 2 * [0 NaN 1 1 1]), [0 NaN y(3:5)], 1e-4)
***** assert (ricepdf ([x, NaN], 1, 2), [y, NaN], 1e-4)
***** assert (ricepdf (single ([x, NaN]), 1, 2), single ([y, NaN]), 1e-4)
***** assert (ricepdf ([x, NaN], single (1), 2), single ([y, NaN]), 1e-4)
***** assert (ricepdf ([x, NaN], 1, single (2)), single ([y, NaN]), 1e-4)
***** error<ricepdf: function called with too few input arguments.> ricepdf ()
***** error<ricepdf: function called with too few input arguments.> ricepdf (1)
***** error<ricepdf: function called with too few input arguments.> ricepdf (1,2)
***** error<ricepdf: function called with too many inputs> ricepdf (1,2,3,4)
***** error<ricepdf: X, S, and SIGMA must be of common size or scalars.> ...
 ricepdf (ones (3), ones (2), ones (2))
***** error<ricepdf: X, S, and SIGMA must be of common size or scalars.> ...
 ricepdf (ones (2), ones (3), ones (2))
***** error<ricepdf: X, S, and SIGMA must be of common size or scalars.> ...
 ricepdf (ones (2), ones (2), ones (3))
***** error<ricepdf: X, S, and SIGMA must not be complex.> ricepdf (i, 2, 2)
***** error<ricepdf: X, S, and SIGMA must not be complex.> ricepdf (2, i, 2)
***** error<ricepdf: X, S, and SIGMA must not be complex.> ricepdf (2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/invgpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/invgpdf.m
***** demo
 ## Plot various PDFs from the inverse Gaussian distribution
 x = 0:0.001:3;
 y1 = invgpdf (x, 1, 0.2);
 y2 = invgpdf (x, 1, 1);
 y3 = invgpdf (x, 1, 3);
 y4 = invgpdf (x, 3, 0.2);
 y5 = invgpdf (x, 3, 1);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-y")
 grid on
 xlim ([0, 3])
 ylim ([0, 3])
 legend ({"μ = 1, σ = 0.2", "μ = 1, σ = 1", "μ = 1, σ = 3", ...
          "μ = 3, σ = 0.2", "μ = 3, σ = 1"}, "location", "northeast")
 title ("Inverse Gaussian PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 y = [0, 0, 0, 0.8788, 0.3989, 0];
***** assert (invgpdf ([x, NaN], 1, 1), [y, NaN], 1e-4)
***** assert (invgpdf (x, 1, [-2, -1, 0, 1, 1, 1]), [nan(1,3), y([4:6])], 1e-4)
***** assert (class (hncdf (single ([x, NaN]), 1, 1)), "single")
***** assert (class (hncdf ([x, NaN], 1, single (1))), "single")
***** assert (class (hncdf ([x, NaN], single (1), 1)), "single")
***** error<invgpdf: function called with too few input arguments.> invgpdf ()
***** error<invgpdf: function called with too few input arguments.> invgpdf (1)
***** error<invgpdf: function called with too few input arguments.> invgpdf (1, 2)
***** error<invgpdf: X, MU, and LAMBDA must be of common size or scalars.> ...
 invgpdf (1, ones (2), ones (3))
***** error<invgpdf: X, MU, and LAMBDA must be of common size or scalars.> ...
 invgpdf (ones (2), 1, ones (3))
***** error<invgpdf: X, MU, and LAMBDA must be of common size or scalars.> ...
 invgpdf (ones (2), ones (3), 1)
***** error<invgpdf: X, MU, and LAMBDA must not be complex.> invgpdf (i, 2, 3)
***** error<invgpdf: X, MU, and LAMBDA must not be complex.> invgpdf (1, i, 3)
***** error<invgpdf: X, MU, and LAMBDA must not be complex.> invgpdf (1, 2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/jsupdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/jsupdf.m
***** error jsupdf ()
***** error jsupdf (1, 2, 3, 4)
***** error<jsupdf: X, ALPHA1, and ALPHA2 must be of common size or scalars.> ...
 jsupdf (1, ones (2), ones (3))
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/dist_fun/fpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/fpdf.m
***** demo
 ## Plot various PDFs from the F distribution
 x = 0.01:0.01:4;
 y1 = fpdf (x, 1, 1);
 y2 = fpdf (x, 2, 1);
 y3 = fpdf (x, 5, 2);
 y4 = fpdf (x, 10, 1);
 y5 = fpdf (x, 100, 100);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-m")
 grid on
 ylim ([0, 2.5])
 legend ({"df1 = 1, df2 = 2", "df1 = 2, df2 = 1", ...
          "df1 = 5, df2 = 2", "df1 = 10, df2 = 1", ...
          "df1 = 100, df2 = 100"}, "location", "northeast")
 title ("F PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1, 0, 0.5, 1, 2];
 y = [0, 0, 4/9, 1/4, 1/9];
***** assert (fpdf (x, 2*ones (1,5), 2*ones (1,5)), y, eps)
***** assert (fpdf (x, 2, 2*ones (1,5)), y, eps)
***** assert (fpdf (x, 2*ones (1,5), 2), y, eps)
***** assert (fpdf (x, [0, NaN, Inf, 2, 2], 2), [NaN, NaN, 0.5413, y(4:5)], 1e-4)
***** assert (fpdf (x, 2, [0, NaN, Inf, 2, 2]), [NaN, NaN, 0.6065, y(4:5)], 1e-4)
***** assert (fpdf ([x, NaN], 2, 2), [y, NaN], eps)
***** test #F (x, 1, df1) == T distribution (sqrt (x), df1) / sqrt (x)
 rand ("seed", 1234);    # for reproducibility
 xr = rand (10,1);
 xr = xr(x > 0.1 & x < 0.9);
 yr = tpdf (sqrt (xr), 2) ./ sqrt (xr);
 assert (fpdf (xr, 1, 2), yr, 5*eps);
***** test
 yy = fpdf (2, 4, Inf);
 assert (yy, 0.1465, 1e-4)
***** test
 yy = fpdf (2, 4, 1000000000000000);
 assert (yy, 0.1465, 1e-4)
***** test
 yy = fpdf (2, Inf, 4);
 assert (yy, 0.1839, 1e-4)
***** test
 yy = fpdf (2, 10000000000000000, 4);
 assert (yy, 0.1839, 1e-4)
***** test
 yy = fpdf (2, Inf, Inf);
 assert (yy, 0)
***** test
 yy = fpdf (NaN, Inf, Inf);
 assert (yy, NaN)
***** assert (fpdf (single ([x, NaN]), 2, 2), single ([y, NaN]), eps ("single"))
***** assert (fpdf ([x, NaN], single (2), 2), single ([y, NaN]), eps ("single"))
***** assert (fpdf ([x, NaN], 2, single (2)), single ([y, NaN]), eps ("single"))
***** error<fpdf: function called with too few input arguments.> fpdf ()
***** error<fpdf: function called with too few input arguments.> fpdf (1)
***** error<fpdf: function called with too few input arguments.> fpdf (1,2)
***** error<fpdf: X, DF1, and DF2 must be of common size or scalars.> ...
 fpdf (ones (3), ones (2), ones (2))
***** error<fpdf: X, DF1, and DF2 must be of common size or scalars.> ...
 fpdf (ones (2), ones (3), ones (2))
***** error<fpdf: X, DF1, and DF2 must be of common size or scalars.> ...
 fpdf (ones (2), ones (2), ones (3))
***** error<fpdf: X, DF1, and DF2 must not be complex.> fpdf (i, 2, 2)
***** error<fpdf: X, DF1, and DF2 must not be complex.> fpdf (2, i, 2)
***** error<fpdf: X, DF1, and DF2 must not be complex.> fpdf (2, 2, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvnrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvnrnd.m
***** error<mvnrnd: too few input arguments.> mvnrnd ()
***** error<mvnrnd: too few input arguments.> mvnrnd ([2, 3, 4])
***** error<mvnrnd: wrong size of MU.> mvnrnd (ones (2, 2, 2), ones (1, 2, 3, 4))
***** error<mvnrnd: wrong size of SIGMA.> mvnrnd (ones (1, 3), ones (1, 2, 3, 4))
***** assert (size (mvnrnd ([2, 3, 4], [2, 2, 2])), [1, 3])
***** assert (size (mvnrnd ([2, 3, 4], [2, 2, 2], 10)), [10, 3])
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/dist_fun/cauchyinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/cauchyinv.m
***** demo
 ## Plot various iCDFs from the Cauchy distribution
 p = 0.001:0.001:0.999;
 x1 = cauchyinv (p, 0, 0.5);
 x2 = cauchyinv (p, 0, 1);
 x3 = cauchyinv (p, 0, 2);
 x4 = cauchyinv (p, -2, 1);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([-5, 5])
 legend ({"x0 = 0, γ = 0.5", "x0 = 0, γ = 1", ...
          "x0 = 0, γ = 2", "x0 = -2, γ = 1"}, "location", "northwest")
 title ("Cauchy iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (cauchyinv (p, ones (1,5), 2 * ones (1,5)), [NaN -Inf 1 Inf NaN], eps)
***** assert (cauchyinv (p, 1, 2 * ones (1,5)), [NaN -Inf 1 Inf NaN], eps)
***** assert (cauchyinv (p, ones (1,5), 2), [NaN -Inf 1 Inf NaN], eps)
***** assert (cauchyinv (p, [1 -Inf NaN Inf 1], 2), [NaN NaN NaN NaN NaN])
***** assert (cauchyinv (p, 1, 2 * [1 0 NaN Inf 1]), [NaN NaN NaN NaN NaN])
***** assert (cauchyinv ([p(1:2) NaN p(4:5)], 1, 2), [NaN -Inf NaN Inf NaN])
***** assert (cauchyinv ([p, NaN], 1, 2), [NaN -Inf 1 Inf NaN NaN], eps)
***** assert (cauchyinv (single ([p, NaN]), 1, 2), ...
 single ([NaN -Inf 1 Inf NaN NaN]), eps ("single"))
***** assert (cauchyinv ([p, NaN], single (1), 2), ...
 single ([NaN -Inf 1 Inf NaN NaN]), eps ("single"))
***** assert (cauchyinv ([p, NaN], 1, single (2)), ...
 single ([NaN -Inf 1 Inf NaN NaN]), eps ("single"))
***** error<cauchyinv: function called with too few input arguments.> cauchyinv ()
***** error<cauchyinv: function called with too few input arguments.> cauchyinv (1)
***** error<cauchyinv: function called with too few input arguments.> ...
 cauchyinv (1, 2)
***** error<cauchyinv: function called with too many inputs> cauchyinv (1, 2, 3, 4)
***** error<cauchyinv: P, X0, and GAMMA must be of common size or scalars.> ...
 cauchyinv (ones (3), ones (2), ones(2))
***** error<cauchyinv: P, X0, and GAMMA must be of common size or scalars.> ...
 cauchyinv (ones (2), ones (3), ones(2))
***** error<cauchyinv: P, X0, and GAMMA must be of common size or scalars.> ...
 cauchyinv (ones (2), ones (2), ones(3))
***** error<cauchyinv: P, X0, and GAMMA must not be complex.> cauchyinv (i, 4, 3)
***** error<cauchyinv: P, X0, and GAMMA must not be complex.> cauchyinv (1, i, 3)
***** error<cauchyinv: P, X0, and GAMMA must not be complex.> cauchyinv (1, 4, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/gumbelrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gumbelrnd.m
***** assert (size (gumbelrnd (1, 1)), [1 1])
***** assert (size (gumbelrnd (1, ones (2,1))), [2, 1])
***** assert (size (gumbelrnd (1, ones (2,2))), [2, 2])
***** assert (size (gumbelrnd (ones (2,1), 1)), [2, 1])
***** assert (size (gumbelrnd (ones (2,2), 1)), [2, 2])
***** assert (size (gumbelrnd (1, 1, 3)), [3, 3])
***** assert (size (gumbelrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (gumbelrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (gumbelrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (gumbelrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (gumbelrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (gumbelrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (gumbelrnd (1, 1, [])), [0, 0])
***** assert (size (gumbelrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (gumbelrnd (1, 1)), "double")
***** assert (class (gumbelrnd (1, single (1))), "single")
***** assert (class (gumbelrnd (1, single ([1, 1]))), "single")
***** assert (class (gumbelrnd (single (1), 1)), "single")
***** assert (class (gumbelrnd (single ([1, 1]), 1)), "single")
***** error<gumbelrnd: function called with too few input arguments.> gumbelrnd ()
***** error<gumbelrnd: function called with too few input arguments.> gumbelrnd (1)
***** error<gumbelrnd: MU and BETA must be of common size or scalars.> ...
 gumbelrnd (ones (3), ones (2))
***** error<gumbelrnd: MU and BETA must be of common size or scalars.> ...
 gumbelrnd (ones (2), ones (3))
***** error<gumbelrnd: MU and BETA must not be complex.> gumbelrnd (i, 2, 3)
***** error<gumbelrnd: MU and BETA must not be complex.> gumbelrnd (1, i, 3)
***** error<gumbelrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gumbelrnd (1, 2, -1)
***** error<gumbelrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gumbelrnd (1, 2, 1.2)
***** error<gumbelrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gumbelrnd (1, 2, ones (2))
***** error<gumbelrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gumbelrnd (1, 2, [2 -1 2])
***** error<gumbelrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gumbelrnd (1, 2, [2 0 2.5])
***** error<gumbelrnd: dimensions must be non-negative integers.> ...
 gumbelrnd (1, 2, 2, -1, 5)
***** error<gumbelrnd: dimensions must be non-negative integers.> ...
 gumbelrnd (1, 2, 2, 1.5, 5)
***** error<gumbelrnd: MU and BETA must be scalars or of size SZ.> ...
 gumbelrnd (2, ones (2), 3)
***** error<gumbelrnd: MU and BETA must be scalars or of size SZ.> ...
 gumbelrnd (2, ones (2), [3, 2])
***** error<gumbelrnd: MU and BETA must be scalars or of size SZ.> ...
 gumbelrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/poisscdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/poisscdf.m
***** demo
 ## Plot various CDFs from the Poisson distribution
 x = 0:20;
 p1 = poisscdf (x, 1);
 p2 = poisscdf (x, 4);
 p3 = poisscdf (x, 10);
 plot (x, p1, "*b", x, p2, "*g", x, p3, "*r")
 grid on
 ylim ([0, 1])
 legend ({"λ = 1", "λ = 4", "λ = 10"}, "location", "southeast")
 title ("Poisson CDF")
 xlabel ("values in x (number of occurences)")
 ylabel ("probability")
***** shared x, y
 x = [-1 0 1 2 Inf];
 y = [0, gammainc(1, (x(2:4) +1), "upper"), 1];
***** assert (poisscdf (x, ones (1,5)), y)
***** assert (poisscdf (x, 1), y)
***** assert (poisscdf (x, [1 0 NaN 1 1]), [y(1) 1 NaN y(4:5)])
***** assert (poisscdf ([x(1:2) NaN Inf x(5)], 1), [y(1:2) NaN 1 y(5)])
***** assert (poisscdf ([x, NaN], 1), [y, NaN])
***** assert (poisscdf (single ([x, NaN]), 1), single ([y, NaN]), eps ("single"))
***** assert (poisscdf ([x, NaN], single (1)), single ([y, NaN]), eps ("single"))
***** error<poisscdf: function called with too few input arguments.> poisscdf ()
***** error<poisscdf: function called with too few input arguments.> poisscdf (1)
***** error<poisscdf: invalid argument for upper tail.> poisscdf (1, 2, 3)
***** error<poisscdf: invalid argument for upper tail.> poisscdf (1, 2, "tail")
***** error<poisscdf: X and LAMBDA must be of common size or scalars.> ...
 poisscdf (ones (3), ones (2))
***** error<poisscdf: X and LAMBDA must be of common size or scalars.> ...
 poisscdf (ones (2), ones (3))
***** error<poisscdf: X and LAMBDA must not be complex.> poisscdf (i, 2)
***** error<poisscdf: X and LAMBDA must not be complex.> poisscdf (2, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/binoinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/binoinv.m
***** demo
 ## Plot various iCDFs from the binomial distribution
 p = 0.001:0.001:0.999;
 x1 = binoinv (p, 20, 0.5);
 x2 = binoinv (p, 20, 0.7);
 x3 = binoinv (p, 40, 0.5);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r")
 grid on
 legend ({"n = 20, ps = 0.5", "n = 20, ps = 0.7", ...
          "n = 40, ps = 0.5"}, "location", "southeast")
 title ("Binomial iCDF")
 xlabel ("probability")
 ylabel ("values in x (number of successes)")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (binoinv (p, 2*ones (1,5), 0.5*ones (1,5)), [NaN 0 1 2 NaN])
***** assert (binoinv (p, 2, 0.5*ones (1,5)), [NaN 0 1 2 NaN])
***** assert (binoinv (p, 2*ones (1,5), 0.5), [NaN 0 1 2 NaN])
***** assert (binoinv (p, 2*[0 -1 NaN 1.1 1], 0.5), [NaN NaN NaN NaN NaN])
***** assert (binoinv (p, 2, 0.5*[0 -1 NaN 3 1]), [NaN NaN NaN NaN NaN])
***** assert (binoinv ([p(1:2) NaN p(4:5)], 2, 0.5), [NaN 0 NaN 2 NaN])
***** assert (binoinv ([p, NaN], 2, 0.5), [NaN 0 1 2 NaN NaN])
***** assert (binoinv (single ([p, NaN]), 2, 0.5), single ([NaN 0 1 2 NaN NaN]))
***** assert (binoinv ([p, NaN], single (2), 0.5), single ([NaN 0 1 2 NaN NaN]))
***** assert (binoinv ([p, NaN], 2, single (0.5)), single ([NaN 0 1 2 NaN NaN]))
***** shared x, tol
 x = magic (3) + 1;
 tol = 1;
***** assert (binoinv (binocdf (1:10, 11, 0.1), 11, 0.1), 1:10, tol)
***** assert (binoinv (binocdf (1:10, 2*(1:10), 0.1), 2*(1:10), 0.1), 1:10, tol)
***** assert (binoinv (binocdf (x, 2*x, 1./x), 2*x, 1./x), x, tol)
***** error<binoinv: function called with too few input arguments.> binoinv ()
***** error<binoinv: function called with too few input arguments.> binoinv (1)
***** error<binoinv: function called with too few input arguments.> binoinv (1,2)
***** error<binoinv: function called with too many inputs> binoinv (1,2,3,4)
***** error<binoinv: P, N, and PS must be of common size or scalars.> ...
 binoinv (ones (3), ones (2), ones (2))
***** error<binoinv: P, N, and PS must be of common size or scalars.> ...
 binoinv (ones (2), ones (3), ones (2))
***** error<binoinv: P, N, and PS must be of common size or scalars.> ...
 binoinv (ones (2), ones (2), ones (3))
***** error<binoinv: P, N, and PS must not be complex.> binoinv (i, 2, 2)
***** error<binoinv: P, N, and PS must not be complex.> binoinv (2, i, 2)
***** error<binoinv: P, N, and PS must not be complex.> binoinv (2, 2, i)
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fun/bvncdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/bvncdf.m
***** demo
 mu = [1, -1];
 sigma = [0.9, 0.4; 0.4, 0.3];
 [X1, X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 x = [X1(:), X2(:)];
 p = bvncdf (x, mu, sigma);
 Z = reshape (p, 25, 25);
 surf (X1, X2, Z);
 title ("Bivariate Normal Distribution");
 ylabel "X1"
 xlabel "X2"
***** test
 mu = [1, -1];
 sigma = [0.9, 0.4; 0.4, 0.3];
 [X1,X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 x = [X1(:), X2(:)];
 p = bvncdf (x, mu, sigma);
 p_out = [0.00011878988774500, 0.00034404112322371, ...
          0.00087682502191813, 0.00195221905058185, ...
          0.00378235566873474, 0.00638175749734415, ...
          0.00943764224329656, 0.01239164888125426, ...
          0.01472750274376648, 0.01623228313374828]';
 assert (p([1:10]), p_out, 1e-16);
***** test
 mu = [1, -1];
 sigma = [0.9, 0.4; 0.4, 0.3];
 [X1,X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 x = [X1(:), X2(:)];
 p = bvncdf (x, mu, sigma);
 p_out = [0.8180695783608276, 0.8854485749482751, ...
          0.9308108777385832, 0.9579855743025508, ...
          0.9722897881414742, 0.9788150170059926, ...
          0.9813597788804785, 0.9821977956568989, ...
          0.9824283794464095, 0.9824809345614861]';
 assert (p([616:625]), p_out, 3e-16);
***** test
 ## Test infinite limits
 mu = [0, 0];
 sigma = [1 0.5; 0.5 1];
 assert (bvncdf ([Inf, Inf], mu, sigma), 1);
 assert (bvncdf ([-Inf, 2], mu, sigma), 0);
 assert (bvncdf ([1, -Inf], mu, sigma), 0);
 assert (bvncdf ([0.5, Inf], mu, sigma), normcdf (0.5), eps);
 assert (bvncdf ([Inf, 0.5], mu, sigma), normcdf (0.5), eps);
***** error bvncdf (randn (25,3), [], [1, 1; 1, 1]);
***** error bvncdf (randn (25,2), [], [1, 1; 1, 1]);
***** error bvncdf (randn (25,2), [], ones (3, 2));
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/dist_fun/unifrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unifrnd.m
***** assert (size (unifrnd (1, 1)), [1 1])
***** assert (size (unifrnd (1, ones (2,1))), [2, 1])
***** assert (size (unifrnd (1, ones (2,2))), [2, 2])
***** assert (size (unifrnd (ones (2,1), 1)), [2, 1])
***** assert (size (unifrnd (ones (2,2), 1)), [2, 2])
***** assert (size (unifrnd (1, 1, 3)), [3, 3])
***** assert (size (unifrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (unifrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (unifrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (unifrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (unifrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (unifrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (unifrnd (1, 1, [])), [0, 0])
***** assert (size (unifrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (unifrnd (1, 1)), "double")
***** assert (class (unifrnd (1, single (1))), "single")
***** assert (class (unifrnd (1, single ([1, 1]))), "single")
***** assert (class (unifrnd (single (1), 1)), "single")
***** assert (class (unifrnd (single ([1, 1]), 1)), "single")
***** error<unifrnd: function called with too few input arguments.> unifrnd ()
***** error<unifrnd: function called with too few input arguments.> unifrnd (1)
***** error<unifrnd: A and B must be of common size or scalars.> ...
 unifrnd (ones (3), ones (2))
***** error<unifrnd: A and B must be of common size or scalars.> ...
 unifrnd (ones (2), ones (3))
***** error<unifrnd: A and B must not be complex.> unifrnd (i, 2, 3)
***** error<unifrnd: A and B must not be complex.> unifrnd (1, i, 3)
***** error<unifrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unifrnd (1, 2, -1)
***** error<unifrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unifrnd (1, 2, 1.2)
***** error<unifrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unifrnd (1, 2, ones (2))
***** error<unifrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unifrnd (1, 2, [2 -1 2])
***** error<unifrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unifrnd (1, 2, [2 0 2.5])
***** error<unifrnd: dimensions must be non-negative integers.> ...
 unifrnd (1, 2, 2, -1, 5)
***** error<unifrnd: dimensions must be non-negative integers.> ...
 unifrnd (1, 2, 2, 1.5, 5)
***** error<unifrnd: A and B must be scalars or of size SZ.> ...
 unifrnd (2, ones (2), 3)
***** error<unifrnd: A and B must be scalars or of size SZ.> ...
 unifrnd (2, ones (2), [3, 2])
***** error<unifrnd: A and B must be scalars or of size SZ.> ...
 unifrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/betacdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/betacdf.m
***** demo
 ## Plot various CDFs from the Beta distribution
 x = 0:0.005:1;
 p1 = betacdf (x, 0.5, 0.5);
 p2 = betacdf (x, 5, 1);
 p3 = betacdf (x, 1, 3);
 p4 = betacdf (x, 2, 2);
 p5 = betacdf (x, 2, 5);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-m")
 grid on
 legend ({"α = β = 0.5", "α = 5, β = 1", "α = 1, β = 3", ...
          "α = 2, β = 2", "α = 2, β = 5"}, "location", "northwest")
 title ("Beta CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y, x1, x2
 x = [-1 0 0.5 1 2];
 y = [0 0 0.75 1 1];
***** assert (betacdf (x, ones (1, 5), 2 * ones (1, 5)), y)
***** assert (betacdf (x, 1, 2 * ones (1, 5)), y)
***** assert (betacdf (x, ones (1, 5), 2), y)
***** assert (betacdf (x, [0 1 NaN 1 1], 2), [NaN 0 NaN 1 1])
***** assert (betacdf (x, 1, 2 * [0 1 NaN 1 1]), [NaN 0 NaN 1 1])
***** assert (betacdf ([x(1:2) NaN x(4:5)], 1, 2), [y(1:2) NaN y(4:5)])
 x1 = [0.1:0.2:0.9];
***** assert (betacdf (x1, 2, 2), [0.028, 0.216, 0.5, 0.784, 0.972], 1e-14);
***** assert (betacdf (x1, 2, 2, "upper"), 1 - [0.028, 0.216, 0.5, 0.784, 0.972],...
        1e-14);
 x2 = [1, 2, 3];
***** assert (betacdf (0.5, x2, x2), [0.5, 0.5, 0.5], 1e-14);
***** assert (betacdf ([x, NaN], 1, 2), [y, NaN])
***** assert (betacdf (single ([x, NaN]), 1, 2), single ([y, NaN]))
***** assert (betacdf ([x, NaN], single (1), 2), single ([y, NaN]))
***** assert (betacdf ([x, NaN], 1, single (2)), single ([y, NaN]))
***** error<betacdf: function called with too few input arguments.> betacdf ()
***** error<betacdf: function called with too few input arguments.> betacdf (1)
***** error<betacdf: function called with too few input arguments.> betacdf (1, 2)
***** error<betacdf: function called with too many inputs> betacdf (1, 2, 3, 4, 5)
***** error<betacdf: invalid argument for upper tail.> betacdf (1, 2, 3, "tail")
***** error<betacdf: invalid argument for upper tail.> betacdf (1, 2, 3, 4)
***** error<betacdf: X, A, and B must be of common size or scalars.> ...
 betacdf (ones (3), ones (2), ones (2))
***** error<betacdf: X, A, and B must be of common size or scalars.> ...
 betacdf (ones (2), ones (3), ones (2))
***** error<betacdf: X, A, and B must be of common size or scalars.> ...
 betacdf (ones (2), ones (2), ones (3))
***** error<betacdf: X, A, and B must not be complex.> betacdf (i, 2, 2)
***** error<betacdf: X, A, and B must not be complex.> betacdf (2, i, 2)
***** error<betacdf: X, A, and B must not be complex.> betacdf (2, 2, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/cauchypdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/cauchypdf.m
***** demo
 ## Plot various PDFs from the Cauchy distribution
 x = -5:0.01:5;
 y1 = cauchypdf (x, 0, 0.5);
 y2 = cauchypdf (x, 0, 1);
 y3 = cauchypdf (x, 0, 2);
 y4 = cauchypdf (x, -2, 1);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 xlim ([-5, 5])
 ylim ([0, 0.7])
 legend ({"x0 = 0, γ = 0.5", "x0 = 0, γ = 1", ...
          "x0 = 0, γ = 2", "x0 = -2, γ = 1"}, "location", "northeast")
 title ("Cauchy PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 0.5 1 2];
 y = 1/pi * ( 2 ./ ((x-1).^2 + 2^2) );
***** assert (cauchypdf (x, ones (1,5), 2*ones (1,5)), y)
***** assert (cauchypdf (x, 1, 2*ones (1,5)), y)
***** assert (cauchypdf (x, ones (1,5), 2), y)
***** assert (cauchypdf (x, [-Inf 1 NaN 1 Inf], 2), [NaN y(2) NaN y(4) NaN])
***** assert (cauchypdf (x, 1, 2*[0 1 NaN 1 Inf]), [NaN y(2) NaN y(4) NaN])
***** assert (cauchypdf ([x, NaN], 1, 2), [y, NaN])
***** assert (cauchypdf (single ([x, NaN]), 1, 2), single ([y, NaN]), eps ("single"))
***** assert (cauchypdf ([x, NaN], single (1), 2), single ([y, NaN]), eps ("single"))
***** assert (cauchypdf ([x, NaN], 1, single (2)), single ([y, NaN]), eps ("single"))
***** test
 x = rand (10, 1);
 assert (cauchypdf (x, 0, 1), tpdf (x, 1), eps);
***** error<cauchypdf: function called with too few input arguments.> cauchypdf ()
***** error<cauchypdf: function called with too few input arguments.> cauchypdf (1)
***** error<cauchypdf: function called with too few input arguments.> ...
 cauchypdf (1, 2)
***** error<cauchypdf: function called with too many inputs> cauchypdf (1, 2, 3, 4)
***** error<cauchypdf: X, X0, and GAMMA must be of common size or scalars.> ...
 cauchypdf (ones (3), ones (2), ones(2))
***** error<cauchypdf: X, X0, and GAMMA must be of common size or scalars.> ...
 cauchypdf (ones (2), ones (3), ones(2))
***** error<cauchypdf: X, X0, and GAMMA must be of common size or scalars.> ...
 cauchypdf (ones (2), ones (2), ones(3))
***** error<cauchypdf: X, X0, and GAMMA must not be complex.> cauchypdf (i, 4, 3)
***** error<cauchypdf: X, X0, and GAMMA must not be complex.> cauchypdf (1, i, 3)
***** error<cauchypdf: X, X0, and GAMMA must not be complex.> cauchypdf (1, 4, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/raylpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/raylpdf.m
***** demo
 ## Plot various PDFs from the Rayleigh distribution
 x = 0:0.01:10;
 y1 = raylpdf (x, 0.5);
 y2 = raylpdf (x, 1);
 y3 = raylpdf (x, 2);
 y4 = raylpdf (x, 3);
 y5 = raylpdf (x, 4);
 plot (x, y1, "-b", x, y2, "g", x, y3, "-r", x, y4, "-m", x, y5, "-k")
 grid on
 ylim ([0, 1.25])
 legend ({"σ = 0,5", "σ = 1", "σ = 2", ...
          "σ = 3", "σ = 4"}, "location", "northeast")
 title ("Rayleigh PDF")
 xlabel ("values in x")
 ylabel ("density")
***** test
 x = 0:0.5:2.5;
 sigma = 1:6;
 y = raylpdf (x, sigma);
 expected_y = [0.0000, 0.1212, 0.1051, 0.0874, 0.0738, 0.0637];
 assert (y, expected_y, 0.001);
***** test
 x = 0:0.5:2.5;
 y = raylpdf (x, 0.5);
 expected_y = [0.0000, 1.2131, 0.5413, 0.0667, 0.0027, 0.0000];
 assert (y, expected_y, 0.001);
***** error<raylpdf: function called with too few input arguments.> raylpdf ()
***** error<raylpdf: function called with too few input arguments.> raylpdf (1)
***** error<raylpdf: X and SIGMA must be of common size or scalars.> ...
 raylpdf (ones (3), ones (2))
***** error<raylpdf: X and SIGMA must be of common size or scalars.> ...
 raylpdf (ones (2), ones (3))
***** error<raylpdf: X and SIGMA must not be complex.> raylpdf (i, 2)
***** error<raylpdf: X and SIGMA must not be complex.> raylpdf (2, i)
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fun/gpinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gpinv.m
***** demo
 ## Plot various iCDFs from the generalized Pareto distribution
 p = 0.001:0.001:0.999;
 x1 = gpinv (p, 1, 1, 0);
 x2 = gpinv (p, 5, 1, 0);
 x3 = gpinv (p, 20, 1, 0);
 x4 = gpinv (p, 1, 2, 0);
 x5 = gpinv (p, 5, 2, 0);
 x6 = gpinv (p, 20, 2, 0);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", ...
       p, x4, "-c", p, x5, "-m", p, x6, "-k")
 grid on
 ylim ([0, 5])
 legend ({"k = 1, σ = 1, θ = 0", "k = 5, σ = 1, θ = 0", ...
          "k = 20, σ = 1, θ = 0", "k = 1, σ = 2, θ = 0", ...
          "k = 5, σ = 2, θ = 0", "k = 20, σ = 2, θ = 0"}, ...
         "location", "southeast")
 title ("Generalized Pareto iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, y1, y2, y3
 p = [-1, 0, 1/2, 1, 2];
 y1 = [NaN, 0, 0.6931471805599453, Inf, NaN];
 y2 = [NaN, 0, 1, Inf, NaN];
 y3 = [NaN, 0, 1/2, 1, NaN];
***** assert (gpinv (p, zeros (1,5), ones (1,5), zeros (1,5)), y1)
***** assert (gpinv (p, 0, 1, zeros (1,5)), y1)
***** assert (gpinv (p, 0, ones (1,5), 0), y1)
***** assert (gpinv (p, zeros (1,5), 1, 0), y1)
***** assert (gpinv (p, 0, 1, 0), y1)
***** assert (gpinv (p, 0, 1, [0, 0, NaN, 0, 0]), [y1(1:2), NaN, y1(4:5)])
***** assert (gpinv (p, 0, [1, 1, NaN, 1, 1], 0), [y1(1:2), NaN, y1(4:5)])
***** assert (gpinv (p, [0, 0, NaN, 0, 0], 1, 0), [y1(1:2), NaN, y1(4:5)])
***** assert (gpinv ([p(1:2), NaN, p(4:5)], 0, 1, 0), [y1(1:2), NaN, y1(4:5)])
***** assert (gpinv (p, ones (1,5), ones (1,5), zeros (1,5)), y2)
***** assert (gpinv (p, 1, 1, zeros (1,5)), y2)
***** assert (gpinv (p, 1, ones (1,5), 0), y2)
***** assert (gpinv (p, ones (1,5), 1, 0), y2)
***** assert (gpinv (p, 1, 1, 0), y2)
***** assert (gpinv (p, 1, 1, [0, 0, NaN, 0, 0]), [y2(1:2), NaN, y2(4:5)])
***** assert (gpinv (p, 1, [1, 1, NaN, 1, 1], 0), [y2(1:2), NaN, y2(4:5)])
***** assert (gpinv (p, [1, 1, NaN, 1, 1], 1, 0), [y2(1:2), NaN, y2(4:5)])
***** assert (gpinv ([p(1:2), NaN, p(4:5)], 1, 1, 0), [y2(1:2), NaN, y2(4:5)])
***** assert (gpinv (p, -ones (1,5), ones (1,5), zeros (1,5)), y3)
***** assert (gpinv (p, -1, 1, zeros (1,5)), y3)
***** assert (gpinv (p, -1, ones (1,5), 0), y3)
***** assert (gpinv (p, -ones (1,5), 1, 0), y3)
***** assert (gpinv (p, -1, 1, 0), y3)
***** assert (gpinv (p, -1, 1, [0, 0, NaN, 0, 0]), [y3(1:2), NaN, y3(4:5)])
***** assert (gpinv (p, -1, [1, 1, NaN, 1, 1], 0), [y3(1:2), NaN, y3(4:5)])
***** assert (gpinv (p, -[1, 1, NaN, 1, 1], 1, 0), [y3(1:2), NaN, y3(4:5)])
***** assert (gpinv ([p(1:2), NaN, p(4:5)], -1, 1, 0), [y3(1:2), NaN, y3(4:5)])
***** assert (gpinv (single ([p, NaN]), 0, 1, 0), single ([y1, NaN]))
***** assert (gpinv ([p, NaN], 0, 1, single (0)), single ([y1, NaN]))
***** assert (gpinv ([p, NaN], 0, single (1), 0), single ([y1, NaN]))
***** assert (gpinv ([p, NaN], single (0), 1, 0), single ([y1, NaN]))
***** assert (gpinv (single ([p, NaN]), 1, 1, 0), single ([y2, NaN]))
***** assert (gpinv ([p, NaN], 1, 1, single (0)), single ([y2, NaN]))
***** assert (gpinv ([p, NaN], 1, single (1), 0), single ([y2, NaN]))
***** assert (gpinv ([p, NaN], single (1), 1, 0), single ([y2, NaN]))
***** assert (gpinv (single ([p, NaN]), -1, 1, 0), single ([y3, NaN]))
***** assert (gpinv ([p, NaN], -1, 1, single (0)), single ([y3, NaN]))
***** assert (gpinv ([p, NaN], -1, single (1), 0), single ([y3, NaN]))
***** assert (gpinv ([p, NaN], single (-1), 1, 0), single ([y3, NaN]))
***** error<gpinv: function called with too few input arguments.> gpinv ()
***** error<gpinv: function called with too few input arguments.> gpinv (1)
***** error<gpinv: function called with too few input arguments.> gpinv (1, 2)
***** error<gpinv: function called with too few input arguments.> gpinv (1, 2, 3)
***** error<gpinv: P, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpinv (ones (3), ones (2), ones(2), ones(2))
***** error<gpinv: P, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpinv (ones (2), ones (3), ones(2), ones(2))
***** error<gpinv: P, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpinv (ones (2), ones (2), ones(3), ones(2))
***** error<gpinv: P, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpinv (ones (2), ones (2), ones(2), ones(3))
***** error<gpinv: P, K, SIGMA, and THETA must not be complex.> gpinv (i, 2, 3, 4)
***** error<gpinv: P, K, SIGMA, and THETA must not be complex.> gpinv (1, i, 3, 4)
***** error<gpinv: P, K, SIGMA, and THETA must not be complex.> gpinv (1, 2, i, 4)
***** error<gpinv: P, K, SIGMA, and THETA must not be complex.> gpinv (1, 2, 3, i)
51 tests, 51 passed, 0 known failure, 0 skipped
[inst/dist_fun/raylinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/raylinv.m
***** demo
 ## Plot various iCDFs from the Rayleigh distribution
 p = 0.001:0.001:0.999;
 x1 = raylinv (p, 0.5);
 x2 = raylinv (p, 1);
 x3 = raylinv (p, 2);
 x4 = raylinv (p, 3);
 x5 = raylinv (p, 4);
 plot (p, x1, "-b", p, x2, "g", p, x3, "-r", p, x4, "-m", p, x5, "-k")
 grid on
 ylim ([0, 10])
 legend ({"σ = 0,5", "σ = 1", "σ = 2", ...
          "σ = 3", "σ = 4"}, "location", "northwest")
 title ("Rayleigh iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** test
 p = 0:0.1:0.5;
 sigma = 1:6;
 x = raylinv (p, sigma);
 expected_x = [0.0000, 0.9181, 2.0041, 3.3784, 5.0538, 7.0645];
 assert (x, expected_x, 0.001);
***** test
 p = 0:0.1:0.5;
 x = raylinv (p, 0.5);
 expected_x = [0.0000, 0.2295, 0.3340, 0.4223, 0.5054, 0.5887];
 assert (x, expected_x, 0.001);
***** error<raylinv: function called with too few input arguments.> raylinv ()
***** error<raylinv: function called with too few input arguments.> raylinv (1)
***** error<raylinv: P and SIGMA must be of common size or scalars.> ...
 raylinv (ones (3), ones (2))
***** error<raylinv: P and SIGMA must be of common size or scalars.> ...
 raylinv (ones (2), ones (3))
***** error<raylinv: P and SIGMA must not be complex.> raylinv (i, 2)
***** error<raylinv: P and SIGMA must not be complex.> raylinv (2, i)
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fun/wishpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wishpdf.m
***** assert(wishpdf(4, 3, 3.1), 0.07702496, 1E-7);
***** assert(wishpdf([2 -0.3;-0.3 4], [1 0.3;0.3 1], 4), 0.004529741, 1E-7);
***** assert(wishpdf([6 2 5; 2 10 -5; 5 -5 25], [9 5 5; 5 10 -8; 5 -8 22], 5.1), 4.474865e-10, 1E-15);
***** error wishpdf ()
***** error wishpdf (1, 2)
***** error wishpdf (1, 2, 0)
***** error wishpdf (1, 2)
7 tests, 7 passed, 0 known failure, 0 skipped
[inst/dist_fun/plrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/plrnd.m
***** shared x, Fx
 x = [0, 1, 3, 4, 7, 10];
 Fx = [0, 0.2, 0.5, 0.6, 0.7, 1];
***** assert (size (plrnd (x, Fx)), [1, 1])
***** assert (size (plrnd (x, Fx, 3)), [3, 3])
***** assert (size (plrnd (x, Fx, [4, 1])), [4, 1])
***** assert (size (plrnd (x, Fx, 4, 1)), [4, 1])
***** assert (size (plrnd (x, Fx, 4, 1, 5)), [4, 1, 5])
***** assert (size (plrnd (x, Fx, 0, 1)), [0, 1])
***** assert (size (plrnd (x, Fx, 1, 0)), [1, 0])
***** assert (size (plrnd (x, Fx, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (plrnd (x, Fx, [])), [0, 0])
***** assert (size (plrnd (x, Fx, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (plrnd (x, Fx)), "double")
***** assert (class (plrnd (x, single (Fx))), "single")
***** assert (class (plrnd (single (x), Fx)), "single")
***** error<plrnd: function called with too few input arguments.> plrnd ()
***** error<plrnd: function called with too few input arguments.> plrnd (1)
***** error<plrnd: X and FX must be vectors of equal size.> ...
 plrnd ([0, 1, 2], [0, 1])
***** error<plrnd: X and FX must be at least two-elements long.> ...
 plrnd ([0], [1])
***** error<plrnd: FX must be bounded in the range> ...
 plrnd ([0, 1, 2], [0, 1, 1.5])
***** error<plrnd: FX must be bounded in the range> ...
 plrnd ([0, 1, 2], [0, i, 1])
***** error<plrnd: X and FX must not be complex.> ...
 plrnd ([0, i, 2], [0, 0.5, 1])
***** error<plrnd: X and FX must not be complex.> ...
 plrnd ([0, i, 2], [0, 0.5i, 1])
***** error<plrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 plrnd (x, Fx, -1)
***** error<plrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 plrnd (x, Fx, 1.2)
***** error<plrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 plrnd (x, Fx, ones (2))
***** error<plrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 plrnd (x, Fx, [2 -1 2])
***** error<plrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 plrnd (x, Fx, [2 0 2.5])
***** error<plrnd: dimensions must be non-negative integers.> ...
 plrnd (x, Fx, 2, -1, 5)
***** error<plrnd: dimensions must be non-negative integers.> ...
 plrnd (x, Fx, 2, 1.5, 5)
28 tests, 28 passed, 0 known failure, 0 skipped
[inst/dist_fun/nbininv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nbininv.m
***** demo
 ## Plot various iCDFs from the negative binomial distribution
 p = 0.001:0.001:0.999;
 x1 = nbininv (p, 2, 0.15);
 x2 = nbininv (p, 5, 0.2);
 x3 = nbininv (p, 4, 0.4);
 x4 = nbininv (p, 10, 0.3);
 plot (p, x1, "-r", p, x2, "-g", p, x3, "-k", p, x4, "-m")
 grid on
 ylim ([0, 40])
 legend ({"r = 2, ps = 0.15", "r = 5, ps = 0.2", "r = 4, p = 0.4", ...
          "r = 10, ps = 0.3"}, "location", "northwest")
 title ("Negative binomial iCDF")
 xlabel ("probability")
 ylabel ("values in x (number of failures)")
***** shared p
 p = [-1 0 3/4 1 2];
***** assert (nbininv (p, ones (1,5), 0.5*ones (1,5)), [NaN 0 1 Inf NaN])
***** assert (nbininv (p, 1, 0.5*ones (1,5)), [NaN 0 1 Inf NaN])
***** assert (nbininv (p, ones (1,5), 0.5), [NaN 0 1 Inf NaN])
***** assert (nbininv (p, [1 0 NaN Inf 1], 0.5), [NaN NaN NaN NaN NaN])
***** assert (nbininv (p, [1 0 1.5 Inf 1], 0.5), [NaN NaN 2 NaN NaN])
***** assert (nbininv (p, 1, 0.5*[1 -Inf NaN Inf 1]), [NaN NaN NaN NaN NaN])
***** assert (nbininv ([p(1:2) NaN p(4:5)], 1, 0.5), [NaN 0 NaN Inf NaN])
***** assert (nbininv ([p, NaN], 1, 0.5), [NaN 0 1 Inf NaN NaN])
***** assert (nbininv (single ([p, NaN]), 1, 0.5), single ([NaN 0 1 Inf NaN NaN]))
***** assert (nbininv ([p, NaN], single (1), 0.5), single ([NaN 0 1 Inf NaN NaN]))
***** assert (nbininv ([p, NaN], 1, single (0.5)), single ([NaN 0 1 Inf NaN NaN]))
***** shared y, tol
 y = magic (3) + 1;
 tol = 1;
***** assert (nbininv (nbincdf (1:10, 3, 0.1), 3, 0.1), 1:10, tol)
***** assert (nbininv (nbincdf (1:10, 3./(1:10), 0.1), 3./(1:10), 0.1), 1:10, tol)
***** assert (nbininv (nbincdf (y, 3./y, 1./y), 3./y, 1./y), y, tol)
***** error<nbininv: function called with too few input arguments.> nbininv ()
***** error<nbininv: function called with too few input arguments.> nbininv (1)
***** error<nbininv: function called with too few input arguments.> nbininv (1, 2)
***** error<nbininv: P, R, and PS must be of common size or scalars.> ...
 nbininv (ones (3), ones (2), ones (2))
***** error<nbininv: P, R, and PS must be of common size or scalars.> ...
 nbininv (ones (2), ones (3), ones (2))
***** error<nbininv: P, R, and PS must be of common size or scalars.> ...
 nbininv (ones (2), ones (2), ones (3))
***** error<nbininv: P, R, and PS must not be complex.> nbininv (i, 2, 2)
***** error<nbininv: P, R, and PS must not be complex.> nbininv (2, i, 2)
***** error<nbininv: P, R, and PS must not be complex.> nbininv (2, 2, i)
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncfrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncfrnd.m
***** assert (size (ncfrnd (1, 1, 1)), [1, 1])
***** assert (size (ncfrnd (1, ones (2, 1), 1)), [2, 1])
***** assert (size (ncfrnd (1, ones (2, 2), 1)), [2, 2])
***** assert (size (ncfrnd (ones (2, 1), 1, 1)), [2, 1])
***** assert (size (ncfrnd (ones (2, 2), 1, 1)), [2, 2])
***** assert (size (ncfrnd (1, 1, 1, 3)), [3, 3])
***** assert (size (ncfrnd (1, 1, 1, [4, 1])), [4, 1])
***** assert (size (ncfrnd (1, 1, 1, 4, 1)), [4, 1])
***** assert (size (ncfrnd (1, 1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (ncfrnd (1, 1, 1, 0, 1)), [0, 1])
***** assert (size (ncfrnd (1, 1, 1, 1, 0)), [1, 0])
***** assert (size (ncfrnd (1, 1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (ncfrnd (1, 1, 1, [])), [0, 0])
***** assert (size (ncfrnd (1, 1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (ncfrnd (1, 1, 1)), "double")
***** assert (class (ncfrnd (1, single (1), 1)), "single")
***** assert (class (ncfrnd (1, 1, single (1))), "single")
***** assert (class (ncfrnd (1, single ([1, 1]), 1)), "single")
***** assert (class (ncfrnd (1, 1, single ([1, 1]))), "single")
***** assert (class (ncfrnd (single (1), 1, 1)), "single")
***** assert (class (ncfrnd (single ([1, 1]), 1, 1)), "single")
***** error<ncfrnd: function called with too few input arguments.> ncfrnd ()
***** error<ncfrnd: function called with too few input arguments.> ncfrnd (1)
***** error<ncfrnd: function called with too few input arguments.> ncfrnd (1, 2)
***** error<ncfrnd: DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfrnd (ones (3), ones (2), ones (2))
***** error<ncfrnd: DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfrnd (ones (2), ones (3), ones (2))
***** error<ncfrnd: DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfrnd (ones (2), ones (2), ones (3))
***** error<ncfrnd: DF1, DF2, and LAMBDA must not be complex.> ncfrnd (i, 2, 3)
***** error<ncfrnd: DF1, DF2, and LAMBDA must not be complex.> ncfrnd (1, i, 3)
***** error<ncfrnd: DF1, DF2, and LAMBDA must not be complex.> ncfrnd (1, 2, i)
***** error<ncfrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncfrnd (1, 2, 3, -1)
***** error<ncfrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncfrnd (1, 2, 3, 1.2)
***** error<ncfrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncfrnd (1, 2, 3, ones (2))
***** error<ncfrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncfrnd (1, 2, 3, [2 -1 2])
***** error<ncfrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 ncfrnd (1, 2, 3, [2 0 2.5])
***** error<ncfrnd: dimensions must be non-negative integers.> ...
 ncfrnd (1, 2, 3, 2, -1, 5)
***** error<ncfrnd: dimensions must be non-negative integers.> ...
 ncfrnd (1, 2, 3, 2, 1.5, 5)
***** error<ncfrnd: DF1, DF2, and LAMBDA must be scalars or of size SZ.> ...
 ncfrnd (2, ones (2), 2, 3)
***** error<ncfrnd: DF1, DF2, and LAMBDA must be scalars or of size SZ.> ...
 ncfrnd (2, ones (2), 2, [3, 2])
***** error<ncfrnd: DF1, DF2, and LAMBDA must be scalars or of size SZ.> ...
 ncfrnd (2, ones (2), 2, 3, 2)
40 tests, 40 passed, 0 known failure, 0 skipped
[inst/dist_fun/geornd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/geornd.m
***** assert (size (geornd (0.5)), [1, 1])
***** assert (size (geornd (0.5*ones (2,1))), [2, 1])
***** assert (size (geornd (0.5*ones (2,2))), [2, 2])
***** assert (size (geornd (0.5, 3)), [3, 3])
***** assert (size (geornd (0.5, [4 1])), [4, 1])
***** assert (size (geornd (0.5, 4, 1)), [4, 1])
***** assert (size (geornd (0.5, [])), [0, 0])
***** assert (size (geornd (0.5, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (geornd (0.5)), "double")
***** assert (class (geornd (single (0.5))), "single")
***** assert (class (geornd (single ([0.5 0.5]))), "single")
***** assert (class (geornd (single (0))), "single")
***** assert (class (geornd (single (1))), "single")
***** error<geornd: function called with too few input arguments.> geornd ()
***** error<geornd: PS must not be complex.> geornd (i)
***** error<geornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 geornd (1, -1)
***** error<geornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 geornd (1, 1.2)
***** error<geornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 geornd (1, ones (2))
***** error<geornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 geornd (1, [2 -1 2])
***** error<geornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 geornd (1, [2 0 2.5])
***** error<geornd: SZ must be a scalar or a row vector of non-negative integers.> ...
 geornd (ones (2), ones (2))
***** error<geornd: dimensions must be non-negative integers.> ...
 geornd (1, 2, -1, 5)
***** error<geornd: dimensions must be non-negative integers.> ...
 geornd (1, 2, 1.5, 5)
***** error<geornd: PS must be scalar or of size SZ.> geornd (ones (2,2), 3)
***** error<geornd: PS must be scalar or of size SZ.> geornd (ones (2,2), [3, 2])
***** error<geornd: PS must be scalar or of size SZ.> geornd (ones (2,2), 2, 3)
26 tests, 26 passed, 0 known failure, 0 skipped
[inst/dist_fun/burrrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/burrrnd.m
***** assert (size (burrrnd (1, 1, 1)), [1 1])
***** assert (size (burrrnd (ones (2,1), 1, 1)), [2, 1])
***** assert (size (burrrnd (ones (2,2), 1, 1)), [2, 2])
***** assert (size (burrrnd (1, ones (2,1), 1)), [2, 1])
***** assert (size (burrrnd (1, ones (2,2), 1)), [2, 2])
***** assert (size (burrrnd (1, 1, ones (2,1))), [2, 1])
***** assert (size (burrrnd (1, 1, ones (2,2))), [2, 2])
***** assert (size (burrrnd (1, 1, 1, 3)), [3, 3])
***** assert (size (burrrnd (1, 1, 1, [4 1])), [4, 1])
***** assert (size (burrrnd (1, 1, 1, 4, 1)), [4, 1])
***** assert (size (burrrnd (1, 1, 1, [])), [0, 0])
***** assert (size (burrrnd (1, 1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (burrrnd (1,1,1)), "double")
***** assert (class (burrrnd (single (1),1,1)), "single")
***** assert (class (burrrnd (single ([1 1]),1,1)), "single")
***** assert (class (burrrnd (1,single (1),1)), "single")
***** assert (class (burrrnd (1,single ([1 1]),1)), "single")
***** assert (class (burrrnd (1,1,single (1))), "single")
***** assert (class (burrrnd (1,1,single ([1 1]))), "single")
***** error<burrrnd: function called with too few input arguments.> burrrnd ()
***** error<burrrnd: function called with too few input arguments.> burrrnd (1)
***** error<burrrnd: function called with too few input arguments.> burrrnd (1, 2)
***** error<burrrnd: LAMBDA, C, and K must be of common size or scalars.> ...
 burrrnd (ones (3), ones (2), ones (2))
***** error<burrrnd: LAMBDA, C, and K must be of common size or scalars.> ...
 burrrnd (ones (2), ones (3), ones (2))
***** error<burrrnd: LAMBDA, C, and K must be of common size or scalars.> ...
 burrrnd (ones (2), ones (2), ones (3))
***** error<burrrnd: LAMBDA, C, and K must not be complex.> burrrnd (i, 2, 3)
***** error<burrrnd: LAMBDA, C, and K must not be complex.> burrrnd (1, i, 3)
***** error<burrrnd: LAMBDA, C, and K must not be complex.> burrrnd (1, 2, i)
***** error<burrrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 burrrnd (1, 2, 3, -1)
***** error<burrrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 burrrnd (1, 2, 3, 1.2)
***** error<burrrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 burrrnd (1, 2, 3, ones (2))
***** error<burrrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 burrrnd (1, 2, 3, [2 -1 2])
***** error<burrrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 burrrnd (1, 2, 3, [2 0 2.5])
***** error<burrrnd: dimensions must be non-negative integers.> ...
 burrrnd (1, 2, 3, 2, -1, 5)
***** error<burrrnd: dimensions must be non-negative integers.> ...
 burrrnd (1, 2, 3, 2, 1.5, 5)
***** error<burrrnd: LAMBDA, C, and K must be scalars or of size SZ.> ...
 burrrnd (2, ones (2), 2, 3)
***** error<burrrnd: LAMBDA, C, and K must be scalars or of size SZ.> ...
 burrrnd (2, ones (2), 2, [3, 2])
***** error<burrrnd: LAMBDA, C, and K must be scalars or of size SZ.> ...
 burrrnd (2, ones (2), 2, 3, 2)
38 tests, 38 passed, 0 known failure, 0 skipped
[inst/dist_fun/evrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/evrnd.m
***** assert (size (evrnd (1, 1)), [1 1])
***** assert (size (evrnd (1, ones (2,1))), [2, 1])
***** assert (size (evrnd (1, ones (2,2))), [2, 2])
***** assert (size (evrnd (ones (2,1), 1)), [2, 1])
***** assert (size (evrnd (ones (2,2), 1)), [2, 2])
***** assert (size (evrnd (1, 1, 3)), [3, 3])
***** assert (size (evrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (evrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (evrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (evrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (evrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (evrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (evrnd (1, 1, [])), [0, 0])
***** assert (size (evrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (evrnd (1, 1)), "double")
***** assert (class (evrnd (1, single (1))), "single")
***** assert (class (evrnd (1, single ([1, 1]))), "single")
***** assert (class (evrnd (single (1), 1)), "single")
***** assert (class (evrnd (single ([1, 1]), 1)), "single")
***** error<evrnd: function called with too few input arguments.> evrnd ()
***** error<evrnd: function called with too few input arguments.> evrnd (1)
***** error<evrnd: MU and SIGMA must be of common size or scalars.> ...
 evrnd (ones (3), ones (2))
***** error<evrnd: MU and SIGMA must be of common size or scalars.> ...
 evrnd (ones (2), ones (3))
***** error<evrnd: MU and SIGMA must not be complex.> evrnd (i, 2, 3)
***** error<evrnd: MU and SIGMA must not be complex.> evrnd (1, i, 3)
***** error<evrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 evrnd (1, 2, -1)
***** error<evrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 evrnd (1, 2, 1.2)
***** error<evrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 evrnd (1, 2, ones (2))
***** error<evrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 evrnd (1, 2, [2 -1 2])
***** error<evrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 evrnd (1, 2, [2 0 2.5])
***** error<evrnd: dimensions must be non-negative integers.> ...
 evrnd (1, 2, 2, -1, 5)
***** error<evrnd: dimensions must be non-negative integers.> ...
 evrnd (1, 2, 2, 1.5, 5)
***** error<evrnd: MU and SIGMA must be scalars or of size SZ.> ...
 evrnd (2, ones (2), 3)
***** error<evrnd: MU and SIGMA must be scalars or of size SZ.> ...
 evrnd (2, ones (2), [3, 2])
***** error<evrnd: MU and SIGMA must be scalars or of size SZ.> ...
 evrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncx2pdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncx2pdf.m
***** demo
 ## Plot various PDFs from the noncentral chi-squared distribution
 x = 0:0.1:10;
 y1 = ncx2pdf (x, 2, 1);
 y2 = ncx2pdf (x, 2, 2);
 y3 = ncx2pdf (x, 2, 3);
 y4 = ncx2pdf (x, 4, 1);
 y5 = ncx2pdf (x, 4, 2);
 y6 = ncx2pdf (x, 4, 3);
 plot (x, y1, "-r", x, y2, "-g", x, y3, "-k", ...
       x, y4, "-m", x, y5, "-c", x, y6, "-y")
 grid on
 xlim ([0, 10])
 ylim ([0, 0.32])
 legend ({"df = 2, λ = 1", "df = 2, λ = 2", ...
          "df = 2, λ = 3", "df = 4, λ = 1", ...
          "df = 4, λ = 2", "df = 4, λ = 3"}, "location", "northeast")
 title ("Noncentral chi-squared PDF")
 xlabel ("values in x")
 ylabel ("density")
***** demo
 ## Compare the noncentral chi-squared PDF with LAMBDA = 2 to the
 ## chi-squared PDF with the same number of degrees of freedom (4).

 x = 0:0.1:10;
 y1 = ncx2pdf (x, 4, 2);
 y2 = chi2pdf (x, 4);
 plot (x, y1, "-", x, y2, "-");
 grid on
 xlim ([0, 10])
 ylim ([0, 0.32])
 legend ({"Noncentral T(10,1)", "T(10)"}, "location", "northwest")
 title ("Noncentral chi-squared vs chi-squared PDFs")
 xlabel ("values in x")
 ylabel ("density")
***** shared x1, df, d1
 x1 = [-Inf, 2, NaN, 4, Inf];
 df = [2, 0, -1, 1, 4];
 d1 = [1, NaN, 3, -1, 2];
***** assert (ncx2pdf (x1, df, d1), [0, NaN, NaN, NaN, 0]);
***** assert (ncx2pdf (x1, df, 1), [0, 0.07093996461786045, NaN, ...
                              0.06160064323277038, 0], 1e-14);
***** assert (ncx2pdf (x1, df, 3), [0, 0.1208364909271113, NaN, ...
                              0.09631299762429098, 0], 1e-14);
***** assert (ncx2pdf (x1, df, 2), [0, 0.1076346446244688, NaN, ...
                              0.08430464047296625, 0], 1e-14);
***** assert (ncx2pdf (x1, 2, d1), [0, NaN, NaN, NaN, 0]);
***** assert (ncx2pdf (2, df, d1), [0.1747201674611283, NaN, NaN, ...
                              NaN, 0.1076346446244688], 1e-14);
***** assert (ncx2pdf (4, df, d1), [0.09355987820265799, NaN, NaN, ...
                              NaN, 0.1192317192431485], 1e-14);
***** error<ncx2pdf: function called with too few input arguments.> ncx2pdf ()
***** error<ncx2pdf: function called with too few input arguments.> ncx2pdf (1)
***** error<ncx2pdf: function called with too few input arguments.> ncx2pdf (1, 2)
***** error<ncx2pdf: X, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2pdf (ones (3), ones (2), ones (2))
***** error<ncx2pdf: X, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2pdf (ones (2), ones (3), ones (2))
***** error<ncx2pdf: X, DF, and LAMBDA must be of common size or scalars.> ...
 ncx2pdf (ones (2), ones (2), ones (3))
***** error<ncx2pdf: X, DF, and LAMBDA must not be complex.> ncx2pdf (i, 2, 2)
***** error<ncx2pdf: X, DF, and LAMBDA must not be complex.> ncx2pdf (2, i, 2)
***** error<ncx2pdf: X, DF, and LAMBDA must not be complex.> ncx2pdf (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/evcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/evcdf.m
***** demo
 ## Plot various CDFs from the extreme value distribution
 x = -10:0.01:10;
 p1 = evcdf (x, 0.5, 2);
 p2 = evcdf (x, 1.0, 2);
 p3 = evcdf (x, 1.5, 3);
 p4 = evcdf (x, 3.0, 4);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 legend ({"μ = 0.5, σ = 2", "μ = 1.0, σ = 2", ...
          "μ = 1.5, σ = 3", "μ = 3.0, σ = 4"}, "location", "southeast")
 title ("Extreme value CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-Inf, 1, 2, Inf];
 y = [0, 0.6321, 0.9340, 1];
***** assert (evcdf (x, ones (1,4), ones (1,4)), y, 1e-4)
***** assert (evcdf (x, 1, ones (1,4)), y, 1e-4)
***** assert (evcdf (x, ones (1,4), 1), y, 1e-4)
***** assert (evcdf (x, [0, -Inf, NaN, Inf], 1), [0, 1, NaN, NaN], 1e-4)
***** assert (evcdf (x, 1, [Inf, NaN, -1, 0]), [NaN, NaN, NaN, NaN], 1e-4)
***** assert (evcdf ([x(1:2), NaN, x(4)], 1, 1), [y(1:2), NaN, y(4)], 1e-4)
***** assert (evcdf (x, "upper"), [1, 0.0660, 0.0006, 0], 1e-4)
***** assert (evcdf ([x, NaN], 1, 1), [y, NaN], 1e-4)
***** assert (evcdf (single ([x, NaN]), 1, 1), single ([y, NaN]), 1e-4)
***** assert (evcdf ([x, NaN], single (1), 1), single ([y, NaN]), 1e-4)
***** assert (evcdf ([x, NaN], 1, single (1)), single ([y, NaN]), 1e-4)
***** error<evcdf: invalid number of input arguments.> evcdf ()
***** error<evcdf: invalid number of input arguments.> evcdf (1,2,3,4,5,6,7)
***** error<evcdf: invalid argument for upper tail.> evcdf (1, 2, 3, 4, "uper")
***** error<evcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 evcdf (ones (3), ones (2), ones (2))
***** error<evcdf: invalid size of covariance matrix.> evcdf (2, 3, 4, [1, 2])
***** error<evcdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = evcdf (1, 2, 3)
***** error<evcdf: invalid value for alpha.> [p, plo, pup] = ...
 evcdf (1, 2, 3, [1, 0; 0, 1], 0)
***** error<evcdf: invalid value for alpha.> [p, plo, pup] = ...
 evcdf (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<evcdf: invalid value for alpha.> [p, plo, pup] = ...
 evcdf (1, 2, 3, [1, 0; 0, 1], "alpha", "upper")
***** error<evcdf: X, MU, and SIGMA must not be complex.> evcdf (i, 2, 2)
***** error<evcdf: X, MU, and SIGMA must not be complex.> evcdf (2, i, 2)
***** error<evcdf: X, MU, and SIGMA must not be complex.> evcdf (2, 2, i)
***** error<evcdf: bad covariance matrix.> ...
 [p, plo, pup] = evcdf (1, 2, 3, [1, 0; 0, -inf], 0.04)
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/dist_fun/vminv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/vminv.m
***** demo
 ## Plot various iCDFs from the von Mises distribution
 p1 = [0,0.005,0.01:0.01:0.1,0.15,0.2:0.1:0.8,0.85,0.9:0.01:0.99,0.995,1];
 x1 = vminv (p1, 0, 0.5);
 x2 = vminv (p1, 0, 1);
 x3 = vminv (p1, 0, 2);
 x4 = vminv (p1, 0, 4);
 plot (p1, x1, "-r", p1, x2, "-g", p1, x3, "-b", p1, x4, "-c")
 grid on
 ylim ([-pi, pi])
 legend ({"μ = 0, k = 0.5", "μ = 0, k = 1", ...
          "μ = 0, k = 2", "μ = 0, k = 4"}, "location", "northwest")
 title ("Von Mises iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared x, p0, p1
 x = [-pi:pi/2:pi];
 p0 = [0, 0.10975, 0.5, 0.89025, 1];
 p1 = [0, 0.03752, 0.5, 0.99622, 1];
***** assert (vminv (p0, 0, 1), x, 5e-5)
***** assert (vminv (p0, zeros (1,5), ones (1,5)), x, 5e-5)
***** assert (vminv (p1, 0, [1 2 3 4 5]), x, [5e-5, 5e-4, 5e-5, 5e-4, 5e-5])
***** error<vminv: function called with too few input arguments.> vminv ()
***** error<vminv: function called with too few input arguments.> vminv (1)
***** error<vminv: function called with too few input arguments.> vminv (1, 2)
***** error<vminv: P, MU, and K must be of common size or scalars.> ...
 vminv (ones (3), ones (2), ones (2))
***** error<vminv: P, MU, and K must be of common size or scalars.> ...
 vminv (ones (2), ones (3), ones (2))
***** error<vminv: P, MU, and K must be of common size or scalars.> ...
 vminv (ones (2), ones (2), ones (3))
***** error<vminv: P, MU, and K must not be complex.> vminv (i, 2, 2)
***** error<vminv: P, MU, and K must not be complex.> vminv (2, i, 2)
***** error<vminv: P, MU, and K must not be complex.> vminv (2, 2, i)
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fun/bvtcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/bvtcdf.m
***** test
 x = [1, 2];
 rho = [1, 0.5; 0.5, 1];
 df = 4;
 assert (bvtcdf(x, rho(2), df), mvtcdf(x, rho, df), 1e-14);
***** test
 x = [3, 2;2, 4;1, 5];
 rho = [1, 0.5; 0.5, 1];
 df = 4;
 assert (bvtcdf(x, rho(2), df), mvtcdf(x, rho, df), 1e-14);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/dist_fun/hnpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hnpdf.m
***** demo
 ## Plot various PDFs from the half-normal distribution
 x = 0:0.001:10;
 y1 = hnpdf (x, 0, 1);
 y2 = hnpdf (x, 0, 2);
 y3 = hnpdf (x, 0, 3);
 y4 = hnpdf (x, 0, 5);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 xlim ([0, 10])
 ylim ([0, 0.9])
 legend ({"μ = 0, σ = 1", "μ = 0, σ = 2", ...
          "μ = 0, σ = 3", "μ = 0, σ = 5"}, "location", "northeast")
 title ("Half-normal PDF")
 xlabel ("values in x")
 ylabel ("density")
***** demo
 ## Plot half-normal against normal probability density function
 x = -5:0.001:5;
 y1 = hnpdf (x, 0, 1);
 y2 = normpdf (x);
 plot (x, y1, "-b", x, y2, "-g")
 grid on
 xlim ([-5, 5])
 ylim ([0, 0.9])
 legend ({"half-normal with μ = 0, σ = 1", ...
          "standart normal (μ = 0, σ = 1)"}, "location", "northeast")
 title ("Half-normal against standard normal PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 y = [0, 0, 0.7979, 0.7041, 0.4839, 0];
***** assert (hnpdf ([x, NaN], 0, 1), [y, NaN], 1e-4)
***** assert (hnpdf (x, 0, [-2, -1, 0, 1, 1, 1]), [nan(1,3), y([4:6])], 1e-4)
***** assert (class (hncdf (single ([x, NaN]), 0, 1)), "single")
***** assert (class (hncdf ([x, NaN], 0, single (1))), "single")
***** assert (class (hncdf ([x, NaN], single (0), 1)), "single")
***** error<hnpdf: function called with too few input arguments.> hnpdf ()
***** error<hnpdf: function called with too few input arguments.> hnpdf (1)
***** error<hnpdf: function called with too few input arguments.> hnpdf (1, 2)
***** error<hnpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 hnpdf (1, ones (2), ones (3))
***** error<hnpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 hnpdf (ones (2), 1, ones (3))
***** error<hnpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 hnpdf (ones (2), ones (3), 1)
***** error<hnpdf: X, MU, and SIGMA must not be complex.> hnpdf (i, 2, 3)
***** error<hnpdf: X, MU, and SIGMA must not be complex.> hnpdf (1, i, 3)
***** error<hnpdf: X, MU, and SIGMA must not be complex.> hnpdf (1, 2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/tlsinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tlsinv.m
***** demo
 ## Plot various iCDFs from the location-scale Student's T distribution
 p = 0.001:0.001:0.999;
 x1 = tlsinv (p, 0, 1, 1);
 x2 = tlsinv (p, 0, 2, 2);
 x3 = tlsinv (p, 3, 2, 5);
 x4 = tlsinv (p, -1, 3, Inf);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-m")
 grid on
 xlim ([0, 1])
 ylim ([-8, 8])
 legend ({"mu = 0, sigma = 1, nu = 1", "mu = 0, sigma = 2, nu = 2", ...
          "mu = 3, sigma = 2, nu = 5", 'mu = -1, sigma = 3, nu = \infty'}, ...
         "location", "southeast")
 title ("Location-scale Student's T iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (tlsinv (p, 0, 1, ones (1,5)), [NaN -Inf 0 Inf NaN])
***** assert (tlsinv (p, 0, 1, 1), [NaN -Inf 0 Inf NaN], eps)
***** assert (tlsinv (p, 0, 1, [1 0 NaN 1 1]), [NaN NaN NaN Inf NaN], eps)
***** assert (tlsinv ([p(1:2) NaN p(4:5)], 0, 1, 1), [NaN -Inf NaN Inf NaN])
***** assert (class (tlsinv ([p, NaN], 0, 1, 1)), "double")
***** assert (class (tlsinv (single ([p, NaN]), 0, 1, 1)), "single")
***** assert (class (tlsinv ([p, NaN], single (0), 1, 1)), "single")
***** assert (class (tlsinv ([p, NaN], 0, single (1), 1)), "single")
***** assert (class (tlsinv ([p, NaN], 0, 1, single (1))), "single")
***** error<tlsinv: function called with too few input arguments.> tlsinv ()
***** error<tlsinv: function called with too few input arguments.> tlsinv (1)
***** error<tlsinv: function called with too few input arguments.> tlsinv (1, 2)
***** error<tlsinv: function called with too few input arguments.> tlsinv (1, 2, 3)
***** error<tlsinv: P, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsinv (ones (3), ones (2), 1, 1)
***** error<tlsinv: P, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsinv (ones (2), 1, ones (3), 1)
***** error<tlsinv: P, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsinv (ones (2), 1, 1, ones (3))
***** error<tlsinv: P, MU, SIGMA, and NU must not be complex.> tlsinv (i, 2, 3, 4)
***** error<tlsinv: P, MU, SIGMA, and NU must not be complex.> tlsinv (2, i, 3, 4)
***** error<tlsinv: P, MU, SIGMA, and NU must not be complex.> tlsinv (2, 2, i, 4)
***** error<tlsinv: P, MU, SIGMA, and NU must not be complex.> tlsinv (2, 2, 3, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/unifpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unifpdf.m
***** demo
 ## Plot various PDFs from the continuous uniform distribution
 x = 0:0.001:10;
 y1 = unifpdf (x, 2, 5);
 y2 = unifpdf (x, 3, 9);
 plot (x, y1, "-b", x, y2, "-g")
 grid on
 xlim ([0, 10])
 ylim ([0, 0.4])
 legend ({"a = 2, b = 5", "a = 3, b = 9"}, "location", "northeast")
 title ("Continuous uniform PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 0.5 1 2] + 1;
 y = [0 1 1 1 0];
***** assert (unifpdf (x, ones (1,5), 2*ones (1,5)), y)
***** assert (unifpdf (x, 1, 2*ones (1,5)), y)
***** assert (unifpdf (x, ones (1,5), 2), y)
***** assert (unifpdf (x, [2 NaN 1 1 1], 2), [NaN NaN y(3:5)])
***** assert (unifpdf (x, 1, 2*[0 NaN 1 1 1]), [NaN NaN y(3:5)])
***** assert (unifpdf ([x, NaN], 1, 2), [y, NaN])
***** assert (unifpdf (x, 0, 1), [1 1 0 0 0])
***** assert (unifpdf (single ([x, NaN]), 1, 2), single ([y, NaN]))
***** assert (unifpdf (single ([x, NaN]), single (1), 2), single ([y, NaN]))
***** assert (unifpdf ([x, NaN], 1, single (2)), single ([y, NaN]))
***** error<unifpdf: function called with too few input arguments.> unifpdf ()
***** error<unifpdf: function called with too few input arguments.> unifpdf (1)
***** error<unifpdf: function called with too few input arguments.> unifpdf (1, 2)
***** error<unifpdf: X, A, and B must be of common size or scalars.> ...
 unifpdf (ones (3), ones (2), ones (2))
***** error<unifpdf: X, A, and B must be of common size or scalars.> ...
 unifpdf (ones (2), ones (3), ones (2))
***** error<unifpdf: X, A, and B must be of common size or scalars.> ...
 unifpdf (ones (2), ones (2), ones (3))
***** error<unifpdf: X, A, and B must not be complex.> unifpdf (i, 2, 2)
***** error<unifpdf: X, A, and B must not be complex.> unifpdf (2, i, 2)
***** error<unifpdf: X, A, and B must not be complex.> unifpdf (2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/laplacernd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/laplacernd.m
***** assert (size (laplacernd (1, 1)), [1, 1])
***** assert (size (laplacernd (1, ones (2, 1))), [2, 1])
***** assert (size (laplacernd (1, ones (2, 2))), [2, 2])
***** assert (size (laplacernd (ones (2, 1), 1)), [2, 1])
***** assert (size (laplacernd (ones (2, 2), 1)), [2, 2])
***** assert (size (laplacernd (1, 1, 3)), [3, 3])
***** assert (size (laplacernd (1, 1, [4, 1])), [4, 1])
***** assert (size (laplacernd (1, 1, 4, 1)), [4, 1])
***** assert (size (laplacernd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (laplacernd (1, 1, 0, 1)), [0, 1])
***** assert (size (laplacernd (1, 1, 1, 0)), [1, 0])
***** assert (size (laplacernd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (laplacernd (1, 1, [])), [0, 0])
***** assert (size (laplacernd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (laplacernd (1, 1)), "double")
***** assert (class (laplacernd (1, single (1))), "single")
***** assert (class (laplacernd (1, single ([1, 1]))), "single")
***** assert (class (laplacernd (single (1), 1)), "single")
***** assert (class (laplacernd (single ([1, 1]), 1)), "single")
***** error<laplacernd: function called with too few input arguments.> laplacernd ()
***** error<laplacernd: function called with too few input arguments.> laplacernd (1)
***** error<laplacernd: MU and BETA must be of common size or scalars.> ...
 laplacernd (ones (3), ones (2))
***** error<laplacernd: MU and BETA must be of common size or scalars.> ...
 laplacernd (ones (2), ones (3))
***** error<laplacernd: MU and BETA must not be complex.> laplacernd (i, 2, 3)
***** error<laplacernd: MU and BETA must not be complex.> laplacernd (1, i, 3)
***** error<laplacernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 laplacernd (1, 2, -1)
***** error<laplacernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 laplacernd (1, 2, 1.2)
***** error<laplacernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 laplacernd (1, 2, ones (2))
***** error<laplacernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 laplacernd (1, 2, [2 -1 2])
***** error<laplacernd: SZ must be a scalar or a row vector of non-negative integers.> ...
 laplacernd (1, 2, [2 0 2.5])
***** error<laplacernd: dimensions must be non-negative integers.> ...
 laplacernd (1, 2, 2, -1, 5)
***** error<laplacernd: dimensions must be non-negative integers.> ...
 laplacernd (1, 2, 2, 1.5, 5)
***** error<laplacernd: MU and BETA must be scalars or of size SZ.> ...
 laplacernd (2, ones (2), 3)
***** error<laplacernd: MU and BETA must be scalars or of size SZ.> ...
 laplacernd (2, ones (2), [3, 2])
***** error<laplacernd: MU and BETA must be scalars or of size SZ.> ...
 laplacernd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/exprnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/exprnd.m
***** assert (size (exprnd (2)), [1, 1])
***** assert (size (exprnd (ones (2,1))), [2, 1])
***** assert (size (exprnd (ones (2,2))), [2, 2])
***** assert (size (exprnd (1, 3)), [3, 3])
***** assert (size (exprnd (1, [4 1])), [4, 1])
***** assert (size (exprnd (1, 4, 1)), [4, 1])
***** assert (size (exprnd (1, 4, 1)), [4, 1])
***** assert (size (exprnd (1, 4, 1, 5)), [4, 1, 5])
***** assert (size (exprnd (1, 0, 1)), [0, 1])
***** assert (size (exprnd (1, 1, 0)), [1, 0])
***** assert (size (exprnd (1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (exprnd (1, [])), [0, 0])
***** assert (size (exprnd (1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (exprnd (2)), "double")
***** assert (class (exprnd (single (2))), "single")
***** assert (class (exprnd (single ([2 2]))), "single")
***** error<exprnd: function called with too few input arguments.> exprnd ()
***** error<exprnd: MU must not be complex.> exprnd (i)
***** error<exprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 exprnd (1, -1)
***** error<exprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 exprnd (1, 1.2)
***** error<exprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 exprnd (1, ones (2))
***** error<exprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 exprnd (1, [2 -1 2])
***** error<exprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 exprnd (1, [2 0 2.5])
***** error<exprnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 exprnd (ones (2), ones (2))
***** error<exprnd: dimensions must be non-negative integers.> ...
 exprnd (1, 2, -1, 5)
***** error<exprnd: dimensions must be non-negative integers.> ...
 exprnd (1, 2, 1.5, 5)
***** error<exprnd: MU must be scalar or of size SZ.> exprnd (ones (2,2), 3)
***** error<exprnd: MU must be scalar or of size SZ.> exprnd (ones (2,2), [3, 2])
***** error<exprnd: MU must be scalar or of size SZ.> exprnd (ones (2,2), 2, 3)
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvtcdfqmc.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvtcdfqmc.m
***** error mvtcdfqmc (1, 2, 3);
***** error mvtcdfqmc (1, 2, 3, 4, 5, 6, 7, 8);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/dist_fun/plcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/plcdf.m
***** demo
 ## Plot various CDFs from the Piecewise linear distribution
 data = 0:0.01:10;
 x1 = [0, 1, 3, 4, 7, 10];
 Fx1 = [0, 0.2, 0.5, 0.6, 0.7, 1];
 x2 = [0, 2, 5, 6, 7, 8];
 Fx2 = [0, 0.1, 0.3, 0.6, 0.9, 1];
 p1 = plcdf (data, x1, Fx1);
 p2 = plcdf (data, x2, Fx2);
 plot (data, p1, "-b", data, p2, "g")
 grid on
 ylim ([0, 1])
 xlim ([0, 10])
 legend ({"x1, Fx1", "x2, Fx2"}, "location", "southeast")
 title ("Piecewise linear CDF")
 xlabel ("values in data")
 ylabel ("probability")
***** test
 data = 0:0.2:1;
 p = plcdf (data, [0, 1], [0, 1]);
 assert (p, data);
***** test
 data = 0:0.2:1;
 p = plcdf (data, [0, 2], [0, 1]);
 assert (p, 0.5 * data);
***** test
 data = 0:0.2:1;
 p = plcdf (data, [0, 1], [0, 0.5]);
 assert (p, 0.5 * data);
***** test
 data = 0:0.2:1;
 p = plcdf (data, [0, 0.5], [0, 1]);
 assert (p, [0, 0.4, 0.8, 1, 1, 1]);
***** test
 data = 0:0.2:1;
 p = plcdf (data, [0, 1], [0, 1], "upper");
 assert (p, 1 - data);
***** error<plcdf: function called with too few input arguments.> plcdf ()
***** error<plcdf: function called with too few input arguments.> plcdf (1)
***** error<plcdf: function called with too few input arguments.> plcdf (1, 2)
***** error<plcdf: invalid argument for upper tail.> plcdf (1, 2, 3, "uper")
***** error<plcdf: invalid argument for upper tail.> plcdf (1, 2, 3, 4)
***** error<plcdf: X and FX must be vectors of equal size.> ...
 plcdf (1, [0, 1, 2], [0, 1])
***** error<plcdf: X and FX must be at least two-elements long.> ...
 plcdf (1, [0], [1])
***** error<plcdf: FX must be bounded in the range> ...
 plcdf (1, [0, 1, 2], [0, 1, 1.5])
***** error<plcdf: FX must be bounded in the range> ...
 plcdf (1, [0, 1, 2], [0, i, 1])
***** error<plcdf: DATA, X, and FX must not be complex.> ...
 plcdf (i, [0, 1, 2], [0, 0.5, 1])
***** error<plcdf: DATA, X, and FX must not be complex.> ...
 plcdf (1, [0, i, 2], [0, 0.5, 1])
***** error<plcdf: DATA, X, and FX must not be complex.> ...
 plcdf (1, [0, 1, 2], [0, 0.5i, 1])
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/expcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/expcdf.m
***** demo
 ## Plot various CDFs from the exponential distribution
 x = 0:0.01:5;
 p1 = expcdf (x, 2/3);
 p2 = expcdf (x, 1.0);
 p3 = expcdf (x, 2.0);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r")
 grid on
 legend ({"μ = 2/3", "μ = 1", "μ = 2"}, "location", "southeast")
 title ("Exponential CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, p
 x = [-1 0 0.5 1 Inf];
 p = [0, 1 - exp(-x(2:end)/2)];
***** assert (expcdf (x, 2 * ones (1, 5)), p, 1e-16)
***** assert (expcdf (x, 2), p, 1e-16)
***** assert (expcdf (x, 2 * [1, 0, NaN, 1, 1]), [0, NaN, NaN, p(4:5)], 1e-16)
***** assert (expcdf ([x, NaN], 2), [p, NaN], 1e-16)
***** assert (expcdf (single ([x, NaN]), 2), single ([p, NaN]))
***** assert (expcdf ([x, NaN], single (2)), single ([p, NaN]))
***** test
 [p, plo, pup] = expcdf (1, 2, 3);
 assert (p, 0.39346934028737, 1e-14);
 assert (plo, 0.08751307220484, 1e-14);
 assert (pup, 0.93476821257933, 1e-14);
***** test
 [p, plo, pup] = expcdf (1, 2, 2, 0.1);
 assert (p, 0.39346934028737, 1e-14);
 assert (plo, 0.14466318041675, 1e-14);
 assert (pup, 0.79808291849140, 1e-14);
***** test
 [p, plo, pup] = expcdf (1, 2, 2, 0.1, "upper");
 assert (p, 0.60653065971263, 1e-14);
 assert (plo, 0.20191708150860, 1e-14);
 assert (pup, 0.85533681958325, 1e-14);
***** error<expcdf: invalid number of input arguments.> expcdf ()
***** error<expcdf: invalid number of input arguments.> expcdf (1, 2 ,3 ,4 ,5, 6)
***** error<expcdf: invalid argument for upper tail.> expcdf (1, 2, 3, 4, "uper")
***** error<expcdf: X and MU must be of common size or scalars.> ...
 expcdf (ones (3), ones (2))
***** error<expcdf: invalid size of variance, PCOV must be a scalar.> ...
 expcdf (2, 3, [1, 2])
***** error<expcdf: variance, PCOV, is required for confidence bounds.> ...
 [p, plo, pup] = expcdf (1, 2)
***** error<expcdf: invalid value for alpha.> [p, plo, pup] = ...
 expcdf (1, 2, 3, 0)
***** error<expcdf: invalid value for alpha.> [p, plo, pup] = ...
 expcdf (1, 2, 3, 1.22)
***** error<expcdf: invalid value for alpha.> [p, plo, pup] = ...
 expcdf (1, 2, 3, "alpha", "upper")
***** error<expcdf: X and MU must not be complex.> expcdf (i, 2)
***** error<expcdf: X and MU must not be complex.> expcdf (2, i)
***** error<expcdf: variance, PCOV, cannot be negative.> ...
 [p, plo, pup] = expcdf (1, 2, -1, 0.04)
21 tests, 21 passed, 0 known failure, 0 skipped
[inst/dist_fun/normpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/normpdf.m
***** demo
 ## Plot various PDFs from the normal distribution
 x = -5:0.01:5;
 y1 = normpdf (x, 0, 0.5);
 y2 = normpdf (x, 0, 1);
 y3 = normpdf (x, 0, 2);
 y4 = normpdf (x, -2, 0.8);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 xlim ([-5, 5])
 ylim ([0, 0.9])
 legend ({"μ = 0, σ = 0.5", "μ = 0, σ = 1", ...
          "μ = 0, σ = 2", "μ = -2, σ = 0.8"}, "location", "northeast")
 title ("Normal PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-Inf, 1, 2, Inf];
 y = 1 / sqrt (2 * pi) * exp (-(x - 1) .^ 2 / 2);
***** assert (normpdf (x, ones (1,4), ones (1,4)), y, eps)
***** assert (normpdf (x, 1, ones (1,4)), y, eps)
***** assert (normpdf (x, ones (1,4), 1), y, eps)
***** assert (normpdf (x, [0 -Inf NaN Inf], 1), [y(1) NaN NaN NaN], eps)
***** assert (normpdf (x, 1, [Inf NaN -1 0]), [NaN NaN NaN NaN], eps)
***** assert (normpdf ([x, NaN], 1, 1), [y, NaN], eps)
***** assert (normpdf (single ([x, NaN]), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (normpdf ([x, NaN], single (1), 1), single ([y, NaN]), eps ("single"))
***** assert (normpdf ([x, NaN], 1, single (1)), single ([y, NaN]), eps ("single"))
***** error<normpdf: function called with too few input arguments.> normpdf ()
***** error<normpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 normpdf (ones (3), ones (2), ones (2))
***** error<normpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 normpdf (ones (2), ones (3), ones (2))
***** error<normpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 normpdf (ones (2), ones (2), ones (3))
***** error<normpdf: X, MU, and SIGMA must not be complex.> normpdf (i, 2, 2)
***** error<normpdf: X, MU, and SIGMA must not be complex.> normpdf (2, i, 2)
***** error<normpdf: X, MU, and SIGMA must not be complex.> normpdf (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/wblpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wblpdf.m
***** demo
 ## Plot various PDFs from the Weibul distribution
 x = 0:0.001:2.5;
 y1 = wblpdf (x, 1, 0.5);
 y2 = wblpdf (x, 1, 1);
 y3 = wblpdf (x, 1, 1.5);
 y4 = wblpdf (x, 1, 5);
 plot (x, y1, "-b", x, y2, "-r", x, y3, "-m", x, y4, "-g")
 grid on
 ylim ([0, 2.5])
 legend ({"λ = 5, k = 0.5", "λ = 9, k = 1", ...
          "λ = 6, k = 1.5", "λ = 2, k = 5"}, "location", "northeast")
 title ("Weibul PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x,y
 x = [-1 0 0.5 1 Inf];
 y = [0, exp(-x(2:4)), NaN];
***** assert (wblpdf (x, ones (1,5), ones (1,5)), y)
***** assert (wblpdf (x, 1, ones (1,5)), y)
***** assert (wblpdf (x, ones (1,5), 1), y)
***** assert (wblpdf (x, [0 NaN Inf 1 1], 1), [NaN NaN NaN y(4:5)])
***** assert (wblpdf (x, 1, [0 NaN Inf 1 1]), [NaN NaN NaN y(4:5)])
***** assert (wblpdf ([x, NaN], 1, 1), [y, NaN])
***** assert (wblpdf (single ([x, NaN]), 1, 1), single ([y, NaN]))
***** assert (wblpdf ([x, NaN], single (1), 1), single ([y, NaN]))
***** assert (wblpdf ([x, NaN], 1, single (1)), single ([y, NaN]))
***** error wblpdf ()
***** error wblpdf (1,2,3,4)
***** error wblpdf (ones (3), ones (2), ones (2))
***** error wblpdf (ones (2), ones (3), ones (2))
***** error wblpdf (ones (2), ones (2), ones (3))
***** error wblpdf (i, 2, 2)
***** error wblpdf (2, i, 2)
***** error wblpdf (2, 2, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/lognpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/lognpdf.m
***** demo
 ## Plot various PDFs from the log-normal distribution
 x = 0:0.01:5;
 y1 = lognpdf (x, 0, 1);
 y2 = lognpdf (x, 0, 0.5);
 y3 = lognpdf (x, 0, 0.25);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r")
 grid on
 ylim ([0, 2])
 legend ({"μ = 0, σ = 1", "μ = 0, σ = 0.5", "μ = 0, σ = 0.25"}, ...
          "location", "northeast")
 title ("Log-normal PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 e Inf];
 y = [0, 0, 1/(e*sqrt(2*pi)) * exp(-1/2), 0];
***** assert (lognpdf (x, zeros (1,4), ones (1,4)), y, eps)
***** assert (lognpdf (x, 0, ones (1,4)), y, eps)
***** assert (lognpdf (x, zeros (1,4), 1), y, eps)
***** assert (lognpdf (x, [0 1 NaN 0], 1), [0 0 NaN y(4)], eps)
***** assert (lognpdf (x, 0, [0 NaN Inf 1]), [NaN NaN NaN y(4)], eps)
***** assert (lognpdf ([x, NaN], 0, 1), [y, NaN], eps)
***** assert (lognpdf (single ([x, NaN]), 0, 1), single ([y, NaN]), eps ("single"))
***** assert (lognpdf ([x, NaN], single (0), 1), single ([y, NaN]), eps ("single"))
***** assert (lognpdf ([x, NaN], 0, single (1)), single ([y, NaN]), eps ("single"))
***** error lognpdf ()
***** error lognpdf (1,2,3,4)
***** error lognpdf (ones (3), ones (2), ones (2))
***** error lognpdf (ones (2), ones (3), ones (2))
***** error lognpdf (ones (2), ones (2), ones (3))
***** error lognpdf (i, 2, 2)
***** error lognpdf (2, i, 2)
***** error lognpdf (2, 2, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/chi2inv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/chi2inv.m
***** demo
 ## Plot various iCDFs from the chi-squared distribution
 p = 0.001:0.001:0.999;
 x1 = chi2inv (p, 1);
 x2 = chi2inv (p, 2);
 x3 = chi2inv (p, 3);
 x4 = chi2inv (p, 4);
 x5 = chi2inv (p, 6);
 x6 = chi2inv (p, 9);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", ...
       p, x4, "-c", p, x5, "-m", p, x6, "-y")
 grid on
 ylim ([0, 8])
 legend ({"df = 1", "df = 2", "df = 3", ...
          "df = 4", "df = 6", "df = 9"}, "location", "northwest")
 title ("Chi-squared iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.3934693402873666 1 2];
***** assert (chi2inv (p, 2*ones (1,5)), [NaN 0 1 Inf NaN], 5*eps)
***** assert (chi2inv (p, 2), [NaN 0 1 Inf NaN], 5*eps)
***** assert (chi2inv (p, 2*[0 1 NaN 1 1]), [NaN 0 NaN Inf NaN], 5*eps)
***** assert (chi2inv ([p(1:2) NaN p(4:5)], 2), [NaN 0 NaN Inf NaN], 5*eps)
***** assert (chi2inv ([p, NaN], 2), [NaN 0 1 Inf NaN NaN], 5*eps)
***** assert (chi2inv (single ([p, NaN]), 2), single ([NaN 0 1 Inf NaN NaN]), 5*eps ("single"))
***** assert (chi2inv ([p, NaN], single (2)), single ([NaN 0 1 Inf NaN NaN]), 5*eps ("single"))
***** error<chi2inv: function called with too few input arguments.> chi2inv ()
***** error<chi2inv: function called with too few input arguments.> chi2inv (1)
***** error<chi2inv: function called with too many inputs> chi2inv (1,2,3)
***** error<chi2inv: P and DF must be of common size or scalars.> ...
 chi2inv (ones (3), ones (2))
***** error<chi2inv: P and DF must be of common size or scalars.> ...
 chi2inv (ones (2), ones (3))
***** error<chi2inv: P and DF must not be complex.> chi2inv (i, 2)
***** error<chi2inv: P and DF must not be complex.> chi2inv (2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/nbinpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nbinpdf.m
***** demo
 ## Plot various PDFs from the negative binomial distribution
 x = 0:40;
 y1 = nbinpdf (x, 2, 0.15);
 y2 = nbinpdf (x, 5, 0.2);
 y3 = nbinpdf (x, 4, 0.4);
 y4 = nbinpdf (x, 10, 0.3);
 plot (x, y1, "*r", x, y2, "*g", x, y3, "*k", x, y4, "*m")
 grid on
 xlim ([0, 40])
 ylim ([0, 0.12])
 legend ({"r = 2, ps = 0.15", "r = 5, ps = 0.2", "r = 4, p = 0.4", ...
          "r = 10, ps = 0.3"}, "location", "northeast")
 title ("Negative binomial PDF")
 xlabel ("values in x (number of failures)")
 ylabel ("density")
***** shared x, y
 x = [-1 0 1 2 Inf];
 y = [0 1/2 1/4 1/8 NaN];
***** assert (nbinpdf (x, ones (1,5), 0.5*ones (1,5)), y)
***** assert (nbinpdf (x, 1, 0.5*ones (1,5)), y)
***** assert (nbinpdf (x, ones (1,5), 0.5), y)
***** assert (nbinpdf (x, [0 1 NaN 1.5 Inf], 0.5), [NaN 1/2 NaN 1.875*0.5^1.5/4 NaN], eps)
***** assert (nbinpdf (x, 1, 0.5*[-1 NaN 4 1 1]), [NaN NaN NaN y(4:5)])
***** assert (nbinpdf ([x, NaN], 1, 0.5), [y, NaN])
***** assert (nbinpdf (single ([x, NaN]), 1, 0.5), single ([y, NaN]))
***** assert (nbinpdf ([x, NaN], single (1), 0.5), single ([y, NaN]))
***** assert (nbinpdf ([x, NaN], 1, single (0.5)), single ([y, NaN]))
***** error<nbinpdf: function called with too few input arguments.> nbinpdf ()
***** error<nbinpdf: function called with too few input arguments.> nbinpdf (1)
***** error<nbinpdf: function called with too few input arguments.> nbinpdf (1, 2)
***** error<nbinpdf: X, R, and PS must be of common size or scalars.> ...
 nbinpdf (ones (3), ones (2), ones (2))
***** error<nbinpdf: X, R, and PS must be of common size or scalars.> ...
 nbinpdf (ones (2), ones (3), ones (2))
***** error<nbinpdf: X, R, and PS must be of common size or scalars.> ...
 nbinpdf (ones (2), ones (2), ones (3))
***** error<nbinpdf: X, R, and PS must not be complex.> nbinpdf (i, 2, 2)
***** error<nbinpdf: X, R, and PS must not be complex.> nbinpdf (2, i, 2)
***** error<nbinpdf: X, R, and PS must not be complex.> nbinpdf (2, 2, i)
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/dist_fun/nctinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nctinv.m
***** demo
 ## Plot various iCDFs from the noncentral T distribution
 p = 0.001:0.001:0.999;
 x1 = nctinv (p, 1, 0);
 x2 = nctinv (p, 4, 0);
 x3 = nctinv (p, 1, 2);
 x4 = nctinv (p, 4, 2);
 plot (p, x1, "-r", p, x2, "-g", p, x3, "-k", p, x4, "-m")
 grid on
 ylim ([-5, 5])
 legend ({"df = 1, μ = 0", "df = 4, μ = 0", ...
          "df = 1, μ = 2", "df = 4, μ = 2"}, "location", "northwest")
 title ("Noncentral T iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** demo
 ## Compare the noncentral T iCDF with MU = 1 to the T iCDF
 ## with the same number of degrees of freedom (10).

 p = 0.001:0.001:0.999;
 x1 = nctinv (p, 10, 1);
 x2 = tinv (p, 10);
 plot (p, x1, "-", p, x2, "-");
 grid on
 ylim ([-5, 5])
 legend ({"Noncentral T(10,1)", "T(10)"}, "location", "northwest")
 title ("Noncentral T vs T quantile functions")
 xlabel ("probability")
 ylabel ("values in x")
***** test
 x = [-Inf,-0.3347,0.1756,0.5209,0.8279,1.1424,1.5021,1.9633,2.6571,4.0845,Inf];
 assert (nctinv ([0:0.1:1], 2, 1), x, 1e-4);
***** test
 x = [-Inf,1.5756,2.0827,2.5343,3.0043,3.5406,4.2050,5.1128,6.5510,9.6442,Inf];
 assert (nctinv ([0:0.1:1], 2, 3), x, 1e-4);
***** test
 x = [-Inf,2.2167,2.9567,3.7276,4.6464,5.8455,7.5619,10.3327,15.7569,31.8159,Inf];
 assert (nctinv ([0:0.1:1], 1, 4), x, 1e-4);
***** test
 x = [1.7791   1.9368   2.0239   2.0801   2.1195   2.1489];
 assert (nctinv (0.05, [1, 2, 3, 4, 5, 6], 4), x, 1e-4);
***** test
 x = [-0.7755, 0.3670, 1.2554, 2.0239, 2.7348, 3.4154];
 assert (nctinv (0.05, 3, [1, 2, 3, 4, 5, 6]), x, 1e-4);
***** test
 x = [-0.7183, 0.3624, 1.2878, 2.1195, -3.5413, 3.6430];
 assert (nctinv (0.05, 5, [1, 2, 3, 4, -1, 6]), x, 1e-4);
***** test
 assert (nctinv (0.996, 5, 8), 30.02610554063658, 2e-11);
***** error<nctinv: function called with too few input arguments.> nctinv ()
***** error<nctinv: function called with too few input arguments.> nctinv (1)
***** error<nctinv: function called with too few input arguments.> nctinv (1, 2)
***** error<nctinv: P, DF, and MU must be of common size or scalars.> ...
 nctinv (ones (3), ones (2), ones (2))
***** error<nctinv: P, DF, and MU must be of common size or scalars.> ...
 nctinv (ones (2), ones (3), ones (2))
***** error<nctinv: P, DF, and MU must be of common size or scalars.> ...
 nctinv (ones (2), ones (2), ones (3))
***** error<nctinv: P, DF, and MU must not be complex.> nctinv (i, 2, 2)
***** error<nctinv: P, DF, and MU must not be complex.> nctinv (2, i, 2)
***** error<nctinv: P, DF, and MU must not be complex.> nctinv (2, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/finv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/finv.m
***** demo
 ## Plot various iCDFs from the F distribution
 p = 0.001:0.001:0.999;
 x1 = finv (p, 1, 1);
 x2 = finv (p, 2, 1);
 x3 = finv (p, 5, 2);
 x4 = finv (p, 10, 1);
 x5 = finv (p, 100, 100);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-m")
 grid on
 ylim ([0, 4])
 legend ({"df1 = 1, df2 = 2", "df1 = 2, df2 = 1", ...
          "df1 = 5, df2 = 2", "df1 = 10, df2 = 1", ...
          "df1 = 100, df2 = 100"}, "location", "northwest")
 title ("F iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (finv (p, 2*ones (1,5), 2*ones (1,5)), [NaN 0 1 Inf NaN])
***** assert (finv (p, 2, 2*ones (1,5)), [NaN 0 1 Inf NaN])
***** assert (finv (p, 2*ones (1,5), 2), [NaN 0 1 Inf NaN])
***** assert (finv (p, [2 -Inf NaN Inf 2], 2), [NaN NaN NaN Inf NaN])
***** assert (finv (p, 2, [2 -Inf NaN Inf 2]), [NaN NaN NaN Inf NaN])
***** assert (finv ([p(1:2) NaN p(4:5)], 2, 2), [NaN 0 NaN Inf NaN])
***** assert (finv (0.025, 10, 1e6), 0.3247, 1e-4)
***** assert (finv (0.025, 10, 1e7), 0.3247, 1e-4)
***** assert (finv (0.025, 10, 1e10), 0.3247, 1e-4)
***** assert (finv (0.025, 10, 1e255), 0.3247, 1e-4)
***** assert (finv (0.025, 10, Inf), 0.3247, 1e-4)
***** test
 x = finv (0.35, Inf, 4);
 assert (x, 0.9014, 1e-4)
***** test
 x = finv (0, Inf, 4);
 assert (x, 0)
***** test
 x = finv (1, Inf, 4);
 assert (x, Inf)
***** test
 x = finv (0.35, 4, Inf);
 assert (x, 0.6175, 1e-4)
***** test
 x = finv (0, 4, Inf);
 assert (x, 0)
***** test
 x = finv (1, 4, Inf);
 assert (x, Inf)
***** test
 x = finv ([0, 0.000001, 0.35, 1, 1.2], Inf, Inf);
 assert (x, [0, 1, 1, 1, NaN]);
***** assert (finv ([p, NaN], 2, 2), [NaN 0 1 Inf NaN NaN])
***** assert (finv (single ([p, NaN]), 2, 2), single ([NaN 0 1 Inf NaN NaN]))
***** assert (finv ([p, NaN], single (2), 2), single ([NaN 0 1 Inf NaN NaN]))
***** assert (finv ([p, NaN], 2, single (2)), single ([NaN 0 1 Inf NaN NaN]))
***** error<finv: function called with too few input arguments.> finv ()
***** error<finv: function called with too few input arguments.> finv (1)
***** error<finv: function called with too few input arguments.> finv (1,2)
***** error<finv: P, DF1, and DF2 must be of common size or scalars.> ...
 finv (ones (3), ones (2), ones (2))
***** error<finv: P, DF1, and DF2 must be of common size or scalars.> ...
 finv (ones (2), ones (3), ones (2))
***** error<finv: P, DF1, and DF2 must be of common size or scalars.> ...
 finv (ones (2), ones (2), ones (3))
***** error<finv: P, DF1, and DF2 must not be complex.> finv (i, 2, 2)
***** error<finv: P, DF1, and DF2 must not be complex.> finv (2, i, 2)
***** error<finv: P, DF1, and DF2 must not be complex.> finv (2, 2, i)
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/dist_fun/gumbelinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gumbelinv.m
***** demo
 ## Plot various iCDFs from the Gumbel distribution
 p = 0.001:0.001:0.999;
 x1 = gumbelinv (p, 0.5, 2);
 x2 = gumbelinv (p, 1.0, 2);
 x3 = gumbelinv (p, 1.5, 3);
 x4 = gumbelinv (p, 3.0, 4);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([-5, 20])
 legend ({"μ = 0.5, β = 2", "μ = 1.0, β = 2", ...
          "μ = 1.5, β = 3", "μ = 3.0, β = 4"}, "location", "northwest")
 title ("Gumbel iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, x
 p = [0, 0.05, 0.5 0.95];
 x = [-Inf, -1.0972, 0.3665, 2.9702];
***** assert (gumbelinv (p), x, 1e-4)
***** assert (gumbelinv (p, zeros (1,4), ones (1,4)), x, 1e-4)
***** assert (gumbelinv (p, 0, ones (1,4)), x, 1e-4)
***** assert (gumbelinv (p, zeros (1,4), 1), x, 1e-4)
***** assert (gumbelinv (p, [0, -Inf, NaN, Inf], 1), [-Inf, -Inf, NaN, Inf], 1e-4)
***** assert (gumbelinv (p, 0, [Inf, NaN, -1, 0]), [-Inf, NaN, NaN, NaN], 1e-4)
***** assert (gumbelinv ([p(1:2), NaN, p(4)], 0, 1), [x(1:2), NaN, x(4)], 1e-4)
***** assert (gumbelinv ([p, NaN], 0, 1), [x, NaN], 1e-4)
***** assert (gumbelinv (single ([p, NaN]), 0, 1), single ([x, NaN]), 1e-4)
***** assert (gumbelinv ([p, NaN], single (0), 1), single ([x, NaN]), 1e-4)
***** assert (gumbelinv ([p, NaN], 0, single (1)), single ([x, NaN]), 1e-4)
 p = [0.05, 0.5, 0.95];
 x = gumbelinv(p);
***** assert (gumbelcdf(x), p, 1e-4)
***** error<gumbelinv: invalid number of input arguments.> gumbelinv ()
***** error gumbelinv (1,2,3,4,5,6)
***** error<gumbelinv: P, MU, and BETA must be of common size or scalars.> ...
 gumbelinv (ones (3), ones (2), ones (2))
***** error<gumbelinv: invalid size of covariance matrix.> ...
 [p, plo, pup] = gumbelinv (2, 3, 4, [1, 2])
***** error<gumbelinv: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = gumbelinv (1, 2, 3)
***** error<gumbelinv: invalid value for alpha.> [p, plo, pup] = ...
 gumbelinv (1, 2, 3, [1, 0; 0, 1], 0)
***** error<gumbelinv: invalid value for alpha.> [p, plo, pup] = ...
 gumbelinv (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<gumbelinv: P, MU, and BETA must not be complex.> gumbelinv (i, 2, 2)
***** error<gumbelinv: P, MU, and BETA must not be complex.> gumbelinv (2, i, 2)
***** error<gumbelinv: P, MU, and BETA must not be complex.> gumbelinv (2, 2, i)
***** error<gumbelinv: bad covariance matrix.> ...
 [p, plo, pup] = gumbelinv (1, 2, 3, [-1, 10; -Inf, -Inf], 0.04)
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fun/invginv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/invginv.m
***** demo
 ## Plot various iCDFs from the inverse Gaussian distribution
 p = 0.001:0.001:0.999;
 x1 = invginv (p, 1, 0.2);
 x2 = invginv (p, 1, 1);
 x3 = invginv (p, 1, 3);
 x4 = invginv (p, 3, 0.2);
 x5 = invginv (p, 3, 1);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-y")
 grid on
 ylim ([0, 3])
 legend ({"μ = 1, σ = 0.2", "μ = 1, σ = 1", "μ = 1, σ = 3", ...
          "μ = 3, σ = 0.2", "μ = 3, σ = 1"}, "location", "northwest")
 title ("Inverse Gaussian iCDF")
 xlabel ("probability")
 ylabel ("x")
***** shared p, x
 p = [0, 0.3829, 0.6827, 1];
 x = [0, 0.5207, 1.0376, Inf];
***** assert (invginv (p, 1, 1), x, 1e-4);
***** assert (invginv (p, 1, ones (1,4)), x, 1e-4);
***** assert (invginv (p, 1, [-1, 0, 1, 1]), [NaN, NaN, x(3:4)], 1e-4)
***** assert (invginv (p, [-1, 0, 1, 1], 1), [NaN, NaN, x(3:4)], 1e-4)
***** assert (class (invginv (single ([p, NaN]), 0, 1)), "single")
***** assert (class (invginv ([p, NaN], single (0), 1)), "single")
***** assert (class (invginv ([p, NaN], 0, single (1))), "single")
***** error<invginv: function called with too few input arguments.> invginv (1)
***** error<invginv: function called with too few input arguments.> invginv (1, 2)
***** error<invginv: P, MU, and LAMBDA must be of common size or scalars.> ...
 invginv (1, ones (2), ones (3))
***** error<invginv: P, MU, and LAMBDA must be of common size or scalars.> ...
 invginv (ones (2), 1, ones (3))
***** error<invginv: P, MU, and LAMBDA must be of common size or scalars.> ...
 invginv (ones (2), ones (3), 1)
***** error<invginv: P, MU, and LAMBDA must not be complex.> invginv (i, 2, 3)
***** error<invginv: P, MU, and LAMBDA must not be complex.> invginv (1, i, 3)
***** error<invginv: P, MU, and LAMBDA must not be complex.> invginv (1, 2, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/loglinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/loglinv.m
***** demo
 ## Plot various iCDFs from the log-logistic distribution
 p = 0.001:0.001:0.999;
 x1 = loglinv (p, log (1), 1/0.5);
 x2 = loglinv (p, log (1), 1);
 x3 = loglinv (p, log (1), 1/2);
 x4 = loglinv (p, log (1), 1/4);
 x5 = loglinv (p, log (1), 1/8);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c", p, x5, "-m")
 ylim ([0, 20])
 grid on
 legend ({"σ = 2 (β = 0.5)", "σ = 1 (β = 1)", "σ = 0.5 (β = 2)", ...
          "σ = 0.25 (β = 4)", "σ = 0.125 (β = 8)"}, "location", "northwest")
 title ("Log-logistic iCDF")
 xlabel ("probability")
 ylabel ("x")
 text (0.03, 12.5, "μ = 0 (α = 1), values of σ (β) as shown in legend")
***** shared p, out1, out2
 p = [-1, 0, 0.2, 0.5, 0.8, 0.95, 1, 2];
 out1 = [NaN, 0, 0.25, 1, 4, 19, Inf, NaN];
 out2 = [NaN, 0, 0.0424732, 2.718282, 173.970037, 18644.695061, Inf, NaN];
***** assert (loglinv (p, 0, 1), out1, 1e-8)
***** assert (loglinv (p, 0, 1), out1, 1e-8)
***** assert (loglinv (p, 1, 3), out2, 1e-6)
***** assert (class (loglinv (single (1), 2, 3)), "single")
***** assert (class (loglinv (1, single (2), 3)), "single")
***** assert (class (loglinv (1, 2, single (3))), "single")
***** error<loglinv: function called with too few input arguments.> loglinv (1)
***** error<loglinv: function called with too few input arguments.> loglinv (1, 2)
***** error<loglinv: P, MU, and SIGMA must be of common size or scalars.> ...
 loglinv (1, ones (2), ones (3))
***** error<loglinv: P, MU, and SIGMA must be of common size or scalars.> ...
 loglinv (ones (2), 1, ones (3))
***** error<loglinv: P, MU, and SIGMA must be of common size or scalars.> ...
 loglinv (ones (2), ones (3), 1)
***** error<loglinv: P, MU, and SIGMA must not be complex.> loglinv (i, 2, 3)
***** error<loglinv: P, MU, and SIGMA must not be complex.> loglinv (1, i, 3)
***** error<loglinv: P, MU, and SIGMA must not be complex.> loglinv (1, 2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/normrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/normrnd.m
***** assert (size (normrnd (1, 1)), [1, 1])
***** assert (size (normrnd (1, ones (2, 1))), [2, 1])
***** assert (size (normrnd (1, ones (2, 2))), [2, 2])
***** assert (size (normrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (normrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (normrnd (1, 1, 3)), [3, 3])
***** assert (size (normrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (normrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (normrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (normrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (normrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (normrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (normrnd (1, 1, [])), [0, 0])
***** assert (size (normrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (normrnd (1, 1)), "double")
***** assert (class (normrnd (1, single (1))), "single")
***** assert (class (normrnd (1, single ([1, 1]))), "single")
***** assert (class (normrnd (single (1), 1)), "single")
***** assert (class (normrnd (single ([1, 1]), 1)), "single")
***** error<normrnd: function called with too few input arguments.> normrnd ()
***** error<normrnd: function called with too few input arguments.> normrnd (1)
***** error<normrnd: MU and SIGMA must be of common size or scalars.> ...
 normrnd (ones (3), ones (2))
***** error<normrnd: MU and SIGMA must be of common size or scalars.> ...
 normrnd (ones (2), ones (3))
***** error<normrnd: MU and SIGMA must not be complex.> normrnd (i, 2, 3)
***** error<normrnd: MU and SIGMA must not be complex.> normrnd (1, i, 3)
***** error<normrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 normrnd (1, 2, -1)
***** error<normrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 normrnd (1, 2, 1.2)
***** error<normrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 normrnd (1, 2, ones (2))
***** error<normrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 normrnd (1, 2, [2 -1 2])
***** error<normrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 normrnd (1, 2, [2 0 2.5])
***** error<normrnd: dimensions must be non-negative integers.> ...
 normrnd (1, 2, 2, -1, 5)
***** error<normrnd: dimensions must be non-negative integers.> ...
 normrnd (1, 2, 2, 1.5, 5)
***** error<normrnd: MU and SIGMA must be scalars or of size SZ.> ...
 normrnd (2, ones (2), 3)
***** error<normrnd: MU and SIGMA must be scalars or of size SZ.> ...
 normrnd (2, ones (2), [3, 2])
***** error<normrnd: MU and SIGMA must be scalars or of size SZ.> ...
 normrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/copulacdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/copulacdf.m
***** test
 x = [0.2:0.2:0.6; 0.2:0.2:0.6];
 theta = [1; 2];
 p = copulacdf ("Clayton", x, theta);
 expected_p = [0.1395; 0.1767];
 assert (p, expected_p, 0.001);
***** test
 x = [0.2:0.2:0.6; 0.2:0.2:0.6];
 p = copulacdf ("Gumbel", x, 2);
 expected_p = [0.1464; 0.1464];
 assert (p, expected_p, 0.001);
***** test
 x = [0.2:0.2:0.6; 0.2:0.2:0.6];
 theta = [1; 2];
 p = copulacdf ("Frank", x, theta);
 expected_p = [0.0699; 0.0930];
 assert (p, expected_p, 0.001);
***** test
 x = [0.2:0.2:0.6; 0.2:0.2:0.6];
 theta = [0.3; 0.7];
 p = copulacdf ("AMH", x, theta);
 expected_p = [0.0629; 0.0959];
 assert (p, expected_p, 0.001);
***** test
 x = [0.2:0.2:0.6; 0.2:0.1:0.4];
 theta = [0.2, 0.1, 0.1, 0.05];
 p = copulacdf ("FGM", x, theta);
 expected_p = [0.0558; 0.0293];
 assert (p, expected_p, 0.001);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_fun/trirnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/trirnd.m
***** assert (size (trirnd (1, 1.5, 2)), [1, 1])
***** assert (size (trirnd (1 * ones (2, 1), 1.5, 2)), [2, 1])
***** assert (size (trirnd (1 * ones (2, 2), 1.5, 2)), [2, 2])
***** assert (size (trirnd (1, 1.5 * ones (2, 1), 2)), [2, 1])
***** assert (size (trirnd (1, 1.5 * ones (2, 2), 2)), [2, 2])
***** assert (size (trirnd (1, 1.5, 2 * ones (2, 1))), [2, 1])
***** assert (size (trirnd (1, 1.5, 2 * ones (2, 2))), [2, 2])
***** assert (size (trirnd (1, 1.5, 2, 3)), [3, 3])
***** assert (size (trirnd (1, 1.5, 2, [4, 1])), [4, 1])
***** assert (size (trirnd (1, 1.5, 2, 4, 1)), [4, 1])
***** assert (size (trirnd (1, 1.5, 2, [])), [0, 0])
***** assert (size (trirnd (1, 1.5, 2, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (trirnd (1, 1.5, 2)), "double")
***** assert (class (trirnd (single (1), 1.5, 2)), "single")
***** assert (class (trirnd (single ([1, 1]), 1.5, 2)), "single")
***** assert (class (trirnd (1, single (1.5), 2)), "single")
***** assert (class (trirnd (1, single ([1.5, 1.5]), 2)), "single")
***** assert (class (trirnd (1, 1.5, single (1.5))), "single")
***** assert (class (trirnd (1, 1.5, single ([2, 2]))), "single")
***** error<trirnd: function called with too few input arguments.> trirnd ()
***** error<trirnd: function called with too few input arguments.> trirnd (1)
***** error<trirnd: function called with too few input arguments.> trirnd (1, 2)
***** error<trirnd: A, B, and C must be of common size or scalars.> ...
 trirnd (ones (3), 5 * ones (2), ones (2))
***** error<trirnd: A, B, and C must be of common size or scalars.> ...
 trirnd (ones (2), 5 * ones (3), ones (2))
***** error<trirnd: A, B, and C must be of common size or scalars.> ...
 trirnd (ones (2), 5 * ones (2), ones (3))
***** error<trirnd: A, B, and C must not be complex.> trirnd (i, 5, 3)
***** error<trirnd: A, B, and C must not be complex.> trirnd (1, 5+i, 3)
***** error<trirnd: A, B, and C must not be complex.> trirnd (1, 5, i)
***** error<trirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trirnd (1, 5, 3, -1)
***** error<trirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trirnd (1, 5, 3, 1.2)
***** error<trirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trirnd (1, 5, 3, ones (2))
***** error<trirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trirnd (1, 5, 3, [2 -1 2])
***** error<trirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trirnd (1, 5, 3, [2 0 2.5])
***** error<trirnd: dimensions must be non-negative integers.> ...
 trirnd (1, 5, 3, 2, -1, 5)
***** error<trirnd: dimensions must be non-negative integers.> ...
 trirnd (1, 5, 3, 2, 1.5, 5)
***** error<trirnd: A, B, and C must be scalar or of size SZ.> ...
 trirnd (2, 5 * ones (2), 2, 3)
***** error<trirnd: A, B, and C must be scalar or of size SZ.> ...
 trirnd (2, 5 * ones (2), 2, [3, 2])
***** error<trirnd: A, B, and C must be scalar or of size SZ.> ...
 trirnd (2, 5 * ones (2), 2, 3, 2)
38 tests, 38 passed, 0 known failure, 0 skipped
[inst/dist_fun/logirnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/logirnd.m
***** assert (size (logirnd (1, 1)), [1, 1])
***** assert (size (logirnd (1, ones (2, 1))), [2, 1])
***** assert (size (logirnd (1, ones (2, 2))), [2, 2])
***** assert (size (logirnd (ones (2, 1), 1)), [2, 1])
***** assert (size (logirnd (ones (2, 2), 1)), [2, 2])
***** assert (size (logirnd (1, 1, 3)), [3, 3])
***** assert (size (logirnd (1, 1, [4, 1])), [4, 1])
***** assert (size (logirnd (1, 1, 4, 1)), [4, 1])
***** assert (size (logirnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (logirnd (1, 1, 0, 1)), [0, 1])
***** assert (size (logirnd (1, 1, 1, 0)), [1, 0])
***** assert (size (logirnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (logirnd (1, 1, [])), [0, 0])
***** assert (size (logirnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (logirnd (1, 1)), "double")
***** assert (class (logirnd (1, single (1))), "single")
***** assert (class (logirnd (1, single ([1, 1]))), "single")
***** assert (class (logirnd (single (1), 1)), "single")
***** assert (class (logirnd (single ([1, 1]), 1)), "single")
***** error<logirnd: function called with too few input arguments.> logirnd ()
***** error<logirnd: function called with too few input arguments.> logirnd (1)
***** error<logirnd: MU and SIGMA must be of common size or scalars.> ...
 logirnd (ones (3), ones (2))
***** error<logirnd: MU and SIGMA must be of common size or scalars.> ...
 logirnd (ones (2), ones (3))
***** error<logirnd: MU and SIGMA must not be complex.> logirnd (i, 2, 3)
***** error<logirnd: MU and SIGMA must not be complex.> logirnd (1, i, 3)
***** error<logirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 logirnd (1, 2, -1)
***** error<logirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 logirnd (1, 2, 1.2)
***** error<logirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 logirnd (1, 2, ones (2))
***** error<logirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 logirnd (1, 2, [2 -1 2])
***** error<logirnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 logirnd (1, 2, [2 0 2.5])
***** error<logirnd: dimensions must be non-negative integers.> ...
 logirnd (1, 2, 2, -1, 5)
***** error<logirnd: dimensions must be non-negative integers.> ...
 logirnd (1, 2, 2, 1.5, 5)
***** error<logirnd: MU and SIGMA must be scalars or of size SZ.> ...
 logirnd (2, ones (2), 3)
***** error<logirnd: MU and SIGMA must be scalars or of size SZ.> ...
 logirnd (2, ones (2), [3, 2])
***** error<logirnd: MU and SIGMA must be scalars or of size SZ.> ...
 logirnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncfinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncfinv.m
***** demo
 ## Plot various iCDFs from the noncentral F distribution
 p = 0.001:0.001:0.999;
 x1 = ncfinv (p, 2, 5, 1);
 x2 = ncfinv (p, 2, 5, 2);
 x3 = ncfinv (p, 5, 10, 1);
 x4 = ncfinv (p, 10, 20, 10);
 plot (p, x1, "-r", p, x2, "-g", p, x3, "-k", p, x4, "-m")
 grid on
 ylim ([0, 5])
 legend ({"df1 = 2, df2 = 5, λ = 1", "df1 = 2, df2 = 5, λ = 2", ...
          "df1 = 5, df2 = 10, λ = 1", "df1 = 10, df2 = 20, λ = 10"}, ...
         "location", "northwest")
 title ("Noncentral F iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** demo
 ## Compare the noncentral F iCDF with LAMBDA = 10 to the F iCDF with the
 ## same number of numerator and denominator degrees of freedom (5, 20)

 p = 0.001:0.001:0.999;
 x1 = ncfinv (p, 5, 20, 10);
 x2 = finv (p, 5, 20);
 plot (p, x1, "-", p, x2, "-");
 grid on
 ylim ([0, 10])
 legend ({"Noncentral F(5,20,10)", "F(5,20)"}, "location", "northwest")
 title ("Noncentral F vs F quantile functions")
 xlabel ("probability")
 ylabel ("values in x")
***** test
 x = [0,0.1775,0.3864,0.6395,0.9564,1.3712,1.9471,2.8215,4.3679,8.1865,Inf];
 assert (ncfinv ([0:0.1:1], 2, 3, 1), x, 1e-4);
***** test
 x = [0,0.7492,1.3539,2.0025,2.7658,3.7278,5.0324,6.9826,10.3955,18.7665,Inf];
 assert (ncfinv ([0:0.1:1], 2, 3, 5), x, 1e-4);
***** test
 x = [0,0.2890,0.8632,1.5653,2.4088,3.4594,4.8442,6.8286,10.0983,17.3736,Inf];
 assert (ncfinv ([0:0.1:1], 1, 4, 3), x, 1e-4);
***** test
 x = [0.078410, 0.212716, 0.288618, 0.335752, 0.367963, 0.391460];
 assert (ncfinv (0.05, [1, 2, 3, 4, 5, 6], 10, 3), x, 1e-6);
***** test
 x = [0.2574, 0.2966, 0.3188, 0.3331, 0.3432, 0.3507];
 assert (ncfinv (0.05, 5, [1, 2, 3, 4, 5, 6], 3), x, 1e-4);
***** test
 x = [1.6090, 1.8113, 1.9215, 1.9911, NaN, 2.0742];
 assert (ncfinv (0.05, 1, [1, 2, 3, 4, -1, 6], 10), x, 1e-4);
***** test
 assert (ncfinv (0.996, 3, 5, 8), 58.0912074080671, 4e-12);
***** error<ncfinv: function called with too few input arguments.> ncfinv ()
***** error<ncfinv: function called with too few input arguments.> ncfinv (1)
***** error<ncfinv: function called with too few input arguments.> ncfinv (1, 2)
***** error<ncfinv: function called with too few input arguments.> ncfinv (1, 2, 3)
***** error<ncfinv: P, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfinv (ones (3), ones (2), ones (2), ones (2))
***** error<ncfinv: P, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfinv (ones (2), ones (3), ones (2), ones (2))
***** error<ncfinv: P, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfinv (ones (2), ones (2), ones (3), ones (2))
***** error<ncfinv: P, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfinv (ones (2), ones (2), ones (2), ones (3))
***** error<ncfinv: P, DF1, DF2, and LAMBDA must not be complex.> ncfinv (i, 2, 2, 2)
***** error<ncfinv: P, DF1, DF2, and LAMBDA must not be complex.> ncfinv (2, i, 2, 2)
***** error<ncfinv: P, DF1, DF2, and LAMBDA must not be complex.> ncfinv (2, 2, i, 2)
***** error<ncfinv: P, DF1, DF2, and LAMBDA must not be complex.> ncfinv (2, 2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/ncfpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/ncfpdf.m
***** demo
 ## Plot various PDFs from the noncentral F distribution
 x = 0:0.01:5;
 y1 = ncfpdf (x, 2, 5, 1);
 y2 = ncfpdf (x, 2, 5, 2);
 y3 = ncfpdf (x, 5, 10, 1);
 y4 = ncfpdf (x, 10, 20, 10);
 plot (x, y1, "-r", x, y2, "-g", x, y3, "-k", x, y4, "-m")
 grid on
 xlim ([0, 5])
 ylim ([0, 0.8])
 legend ({"df1 = 2, df2 = 5, λ = 1", "df1 = 2, df2 = 5, λ = 2", ...
          "df1 = 5, df2 = 10, λ = 1", "df1 = 10, df2 = 20, λ = 10"}, ...
         "location", "northeast")
 title ("Noncentral F PDF")
 xlabel ("values in x")
 ylabel ("density")
***** demo
 ## Compare the noncentral F PDF with LAMBDA = 10 to the F PDF with the
 ## same number of numerator and denominator degrees of freedom (5, 20)

 x = 0.01:0.1:10.01;
 y1 = ncfpdf (x, 5, 20, 10);
 y2 = fpdf (x, 5, 20);
 plot (x, y1, "-", x, y2, "-");
 grid on
 xlim ([0, 10])
 ylim ([0, 0.8])
 legend ({"Noncentral F(5,20,10)", "F(5,20)"}, "location", "northeast")
 title ("Noncentral F vs F PDFs")
 xlabel ("values in x")
 ylabel ("density")
***** shared x1, df1, df2, lambda
 x1 = [-Inf, 2, NaN, 4, Inf];
 df1 = [2, 0, -1, 1, 4];
 df2 = [2, 4, 5, 6, 8];
 lambda = [1, NaN, 3, -1, 2];
***** assert (ncfpdf (x1, df1, df2, lambda), [0, NaN, NaN, NaN, NaN]);
***** assert (ncfpdf (x1, df1, df2, 1), [0, NaN, NaN, ...
                                   0.05607937264237208, NaN], 1e-14);
***** assert (ncfpdf (x1, df1, df2, 3), [0, NaN, NaN, ...
                                   0.080125760971946518, NaN], 1e-14);
***** assert (ncfpdf (x1, df1, df2, 2), [0, NaN, NaN, ...
                                   0.0715902008258656, NaN], 1e-14);
***** assert (ncfpdf (x1, 3, 5, lambda), [0, NaN, NaN, NaN, NaN]);
***** assert (ncfpdf (2, df1, df2, lambda), [0.1254046999837947, NaN, NaN, ...
                                      NaN, 0.2152571783045893], 1e-14);
***** assert (ncfpdf (4, df1, df2, lambda), [0.05067089541001374, NaN, NaN, ...
                                      NaN, 0.05560846335398539], 1e-14);
***** error<ncfpdf: function called with too few input arguments.> ncfpdf ()
***** error<ncfpdf: function called with too few input arguments.> ncfpdf (1)
***** error<ncfpdf: function called with too few input arguments.> ncfpdf (1, 2)
***** error<ncfpdf: function called with too few input arguments.> ncfpdf (1, 2, 3)
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfpdf (ones (3), ones (2), ones (2), ones (2))
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfpdf (ones (2), ones (3), ones (2), ones (2))
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfpdf (ones (2), ones (2), ones (3), ones (2))
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must be of common size or scalars.> ...
 ncfpdf (ones (2), ones (2), ones (2), ones (3))
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfpdf (i, 2, 2, 2)
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfpdf (2, i, 2, 2)
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfpdf (2, 2, i, 2)
***** error<ncfpdf: X, DF1, DF2, and LAMBDA must not be complex.> ncfpdf (2, 2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/hygepdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hygepdf.m
***** demo
 ## Plot various PDFs from the hypergeometric distribution
 x = 0:60;
 y1 = hygepdf (x, 500, 50, 100);
 y2 = hygepdf (x, 500, 60, 200);
 y3 = hygepdf (x, 500, 70, 300);
 plot (x, y1, "*b", x, y2, "*g", x, y3, "*r")
 grid on
 xlim ([0, 60])
 ylim ([0, 0.18])
 legend ({"m = 500, k = 50, μ = 100", "m = 500, k = 60, μ = 200", ...
          "m = 500, k = 70, μ = 300"}, "location", "northeast")
 title ("Hypergeometric PDF")
 xlabel ("values in x (number of successes)")
 ylabel ("density")
***** shared x, y
 x = [-1 0 1 2 3];
 y = [0 1/6 4/6 1/6 0];
***** assert (hygepdf (x, 4 * ones (1, 5), 2, 2), y, 3 * eps)
***** assert (hygepdf (x, 4, 2 * ones (1, 5), 2), y, 3 * eps)
***** assert (hygepdf (x, 4, 2, 2 * ones (1, 5)), y, 3 * eps)
***** assert (hygepdf (x, 4 * [1, -1, NaN, 1.1, 1], 2, 2), [0, NaN, NaN, NaN, 0])
***** assert (hygepdf (x, 4, 2 * [1, -1, NaN, 1.1, 1], 2), [0, NaN, NaN, NaN, 0])
***** assert (hygepdf (x, 4, 5, 2), [NaN, NaN, NaN, NaN, NaN], 3 * eps)
***** assert (hygepdf (x, 4, 2, 2 * [1, -1, NaN, 1.1, 1]), [0, NaN, NaN, NaN, 0])
***** assert (hygepdf (x, 4, 2, 5), [NaN, NaN, NaN, NaN, NaN], 3 * eps)
***** assert (hygepdf ([x, NaN], 4, 2, 2), [y, NaN], 3 * eps)
***** assert (hygepdf (single ([x, NaN]), 4, 2, 2), single ([y, NaN]), eps ("single"))
***** assert (hygepdf ([x, NaN], single (4), 2, 2), single ([y, NaN]), eps ("single"))
***** assert (hygepdf ([x, NaN], 4, single (2), 2), single ([y, NaN]), eps ("single"))
***** assert (hygepdf ([x, NaN], 4, 2, single (2)), single ([y, NaN]), eps ("single"))
***** test
 z = zeros(3,5);
 z([4,5,6,8,9,12]) = [1, 0.5, 1/6, 0.5, 2/3, 1/6];
 assert (hygepdf (x, 4, [0, 1, 2], 2, "vectorexpand"), z, 3 * eps);
 assert (hygepdf (x, 4, [0, 1, 2]', 2, "vectorexpand"), z, 3 * eps);
 assert (hygepdf (x', 4, [0, 1, 2], 2, "vectorexpand"), z, 3 * eps);
 assert (hygepdf (2, 4, [0 ,1, 2], 2, "vectorexpand"), z(:,4), 3 * eps);
 assert (hygepdf (x, 4, 1, 2, "vectorexpand"), z(2,:), 3 *eps);
 assert (hygepdf ([NaN, x], 4, [0 1 2]', 2, "vectorexpand"), [NaN(3, 1), z], 3 * eps);
***** error<hygepdf: function called with too few input arguments.> hygepdf ()
***** error<hygepdf: function called with too few input arguments.> hygepdf (1)
***** error<hygepdf: function called with too few input arguments.> hygepdf (1,2)
***** error<hygepdf: function called with too few input arguments.> hygepdf (1,2,3)
***** error<hygepdf: X, T, M, and N must be of common size or scalars.> ...
 hygepdf (1, ones (3), ones (2), ones (2))
***** error<hygepdf: X, T, M, and N must be of common size or scalars.> ...
 hygepdf (1, ones (2), ones (3), ones (2))
***** error<hygepdf: X, T, M, and N must be of common size or scalars.> ...
 hygepdf (1, ones (2), ones (2), ones (3))
***** error<hygepdf: X, T, M, and N must not be complex.> hygepdf (i, 2, 2, 2)
***** error<hygepdf: X, T, M, and N must not be complex.> hygepdf (2, i, 2, 2)
***** error<hygepdf: X, T, M, and N must not be complex.> hygepdf (2, 2, i, 2)
***** error<hygepdf: X, T, M, and N must not be complex.> hygepdf (2, 2, 2, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/loglpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/loglpdf.m
***** demo
 ## Plot various PDFs from the log-logistic distribution
 x = 0.001:0.001:2;
 y1 = loglpdf (x, log (1), 1/0.5);
 y2 = loglpdf (x, log (1), 1);
 y3 = loglpdf (x, log (1), 1/2);
 y4 = loglpdf (x, log (1), 1/4);
 y5 = loglpdf (x, log (1), 1/8);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-m")
 grid on
 ylim ([0,3])
 legend ({"σ = 2 (β = 0.5)", "σ = 1 (β = 1)", "σ = 0.5 (β = 2)", ...
          "σ = 0.25 (β = 4)", "σ = 0.125 (β = 8)"}, "location", "northeast")
 title ("Log-logistic PDF")
 xlabel ("values in x")
 ylabel ("density")
 text (0.1, 2.8, "μ = 0 (α = 1), values of σ (β) as shown in legend")
***** shared out1, out2
 out1 = [0, 0, 1, 0.2500, 0.1111, 0.0625, 0.0400, 0.0278, 0];
 out2 = [0, 0, 0.0811, 0.0416, 0.0278, 0.0207, 0.0165, 0];
***** assert (loglpdf ([-1,0,realmin,1:5,Inf], 0, 1), out1, 1e-4)
***** assert (loglpdf ([-1,0,realmin,1:5,Inf], 0, 1), out1, 1e-4)
***** assert (loglpdf ([-1:5,Inf], 1, 3), out2, 1e-4)
***** assert (class (loglpdf (single (1), 2, 3)), "single")
***** assert (class (loglpdf (1, single (2), 3)), "single")
***** assert (class (loglpdf (1, 2, single (3))), "single")
***** error<loglpdf: function called with too few input arguments.> loglpdf (1)
***** error<loglpdf: function called with too few input arguments.> loglpdf (1, 2)
***** error<loglpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglpdf (1, ones (2), ones (3))
***** error<loglpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglpdf (ones (2), 1, ones (3))
***** error<loglpdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglpdf (ones (2), ones (3), 1)
***** error<loglpdf: X, MU, and SIGMA must not be complex.> loglpdf (i, 2, 3)
***** error<loglpdf: X, MU, and SIGMA must not be complex.> loglpdf (1, i, 3)
***** error<loglpdf: X, MU, and SIGMA must not be complex.> loglpdf (1, 2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/binopdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/binopdf.m
***** demo
 ## Plot various PDFs from the binomial distribution
 x = 0:40;
 y1 = binopdf (x, 20, 0.5);
 y2 = binopdf (x, 20, 0.7);
 y3 = binopdf (x, 40, 0.5);
 plot (x, y1, "*b", x, y2, "*g", x, y3, "*r")
 grid on
 ylim ([0, 0.25])
 legend ({"n = 20, ps = 0.5", "n = 20, ps = 0.7", ...
          "n = 40, ps = 0.5"}, "location", "northeast")
 title ("Binomial PDF")
 xlabel ("values in x (number of successes)")
 ylabel ("density")
***** shared x, y
 x = [-1 0 1 2 3];
 y = [0 1/4 1/2 1/4 0];
***** assert (binopdf (x, 2 * ones (1, 5), 0.5 * ones (1, 5)), y, eps)
***** assert (binopdf (x, 2, 0.5 * ones (1, 5)), y, eps)
***** assert (binopdf (x, 2 * ones (1, 5), 0.5), y, eps)
***** assert (binopdf (x, 2 * [0 -1 NaN 1.1 1], 0.5), [0 NaN NaN NaN 0])
***** assert (binopdf (x, 2, 0.5 * [0 -1 NaN 3 1]), [0 NaN NaN NaN 0])
***** assert (binopdf ([x, NaN], 2, 0.5), [y, NaN], eps)
***** assert (binopdf (cat (3, x, x), 2, 0.5), cat (3, y, y), eps)
***** assert (binopdf (1, 1, 1), 1)
***** assert (binopdf (0, 3, 0), 1)
***** assert (binopdf (2, 2, 1), 1)
***** assert (binopdf (1, 2, 1), 0)
***** assert (binopdf (0, 1.1, 0), NaN)
***** assert (binopdf (1, 2, -1), NaN)
***** assert (binopdf (1, 2, 1.5), NaN)
***** assert (binopdf ([], 1, 1), [])
***** assert (binopdf (1, [], 1), [])
***** assert (binopdf (1, 1, []), [])
***** assert (binopdf (ones (1, 0), 2, .5), ones(1, 0))
***** assert (binopdf (ones (0, 1), 2, .5), ones(0, 1))
***** assert (binopdf (ones (0, 1, 2), 2, .5), ones(0, 1, 2))
***** assert (binopdf (1, ones (0, 1, 2), .5), ones(0, 1, 2))
***** assert (binopdf (1, 2, ones (0, 1, 2)), ones(0, 1, 2))
***** assert (binopdf (ones (1, 0, 2), 2, .5), ones(1, 0, 2))
***** assert (binopdf (ones (1, 2, 0), 2, .5), ones(1, 2, 0))
***** assert (binopdf (ones (0, 1, 2), NaN, .5), ones(0, 1, 2))
***** assert (binopdf (ones (0, 1, 2), 2, NaN), ones(0, 1, 2))
***** assert (binopdf (single ([x, NaN]), 2, 0.5), single ([y, NaN]))
***** assert (binopdf ([x, NaN], single (2), 0.5), single ([y, NaN]))
***** assert (binopdf ([x, NaN], 2, single (0.5)), single ([y, NaN]))
***** error<binopdf: function called with too few input arguments.> binopdf ()
***** error<binopdf: function called with too few input arguments.> binopdf (1)
***** error<binopdf: function called with too few input arguments.> binopdf (1, 2)
***** error<binopdf: function called with too many inputs> binopdf (1, 2, 3, 4)
***** error<binopdf: X, N, and PS must be of common size or scalars.> ...
 binopdf (ones (3), ones (2), ones (2))
***** error<binopdf: X, N, and PS must be of common size or scalars.> ...
 binopdf (ones (2), ones (3), ones (2))
***** error<binopdf: X, N, and PS must be of common size or scalars.> ...
 binopdf (ones (2), ones (2), ones (3))
***** error<binopdf: X, N, and PS must not be complex.> binopdf (i, 2, 2)
***** error<binopdf: X, N, and PS must not be complex.> binopdf (2, i, 2)
***** error<binopdf: X, N, and PS must not be complex.> binopdf (2, 2, i)
39 tests, 39 passed, 0 known failure, 0 skipped
[inst/dist_fun/iwishpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/iwishpdf.m
***** assert(iwishpdf(4, 3, 3.1), 0.04226595, 1E-7);
***** assert(iwishpdf([2 -0.3;-0.3 4], [1 0.3;0.3 1], 4), 1.60166e-05, 1E-10);
***** assert(iwishpdf([6 2 5; 2 10 -5; 5 -5 25], ...
 [9 5 5; 5 10 -8; 5 -8 22], 5.1), 4.946831e-12, 1E-17);
***** error iwishpdf ()
***** error iwishpdf (1, 2)
***** error iwishpdf (1, 2, 0)
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/dist_fun/chi2pdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/chi2pdf.m
***** demo
 ## Plot various PDFs from the chi-squared distribution
 x = 0:0.01:8;
 y1 = chi2pdf (x, 1);
 y2 = chi2pdf (x, 2);
 y3 = chi2pdf (x, 3);
 y4 = chi2pdf (x, 4);
 y5 = chi2pdf (x, 6);
 y6 = chi2pdf (x, 9);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", ...
       x, y4, "-c", x, y5, "-m", x, y6, "-y")
 grid on
 xlim ([0, 8])
 ylim ([0, 0.5])
 legend ({"df = 1", "df = 2", "df = 3", ...
          "df = 4", "df = 6", "df = 9"}, "location", "northeast")
 title ("Chi-squared PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1 0 0.5 1 Inf];
 y = [0, 1/2 * exp(-x(2:5)/2)];
***** assert (chi2pdf (x, 2*ones (1,5)), y)
***** assert (chi2pdf (x, 2), y)
***** assert (chi2pdf (x, 2*[1 0 NaN 1 1]), [y(1) NaN NaN y(4:5)])
***** assert (chi2pdf ([x, NaN], 2), [y, NaN])
***** assert (chi2pdf (2, Inf), 0)
***** assert (chi2pdf (single ([x, NaN]), 2), single ([y, NaN]))
***** assert (chi2pdf ([x, NaN], single (2)), single ([y, NaN]))
***** error<chi2pdf: function called with too few input arguments.> chi2pdf ()
***** error<chi2pdf: function called with too few input arguments.> chi2pdf (1)
***** error<chi2pdf: function called with too many inputs> chi2pdf (1,2,3)
***** error<chi2pdf: X and DF must be of common size or scalars.> ...
 chi2pdf (ones (3), ones (2))
***** error<chi2pdf: X and DF must be of common size or scalars.> ...
 chi2pdf (ones (2), ones (3))
***** error<chi2pdf: X and DF must not be complex.> chi2pdf (i, 2)
***** error<chi2pdf: X and DF must not be complex.> chi2pdf (2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/logipdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/logipdf.m
***** demo
 ## Plot various PDFs from the logistic distribution
 x = -5:0.01:20;
 y1 = logipdf (x, 5, 2);
 y2 = logipdf (x, 9, 3);
 y3 = logipdf (x, 9, 4);
 y4 = logipdf (x, 6, 2);
 y5 = logipdf (x, 2, 1);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c", x, y5, "-m")
 grid on
 ylim ([0, 0.3])
 legend ({"μ = 5, σ = 2", "μ = 9, σ = 3", "μ = 9, σ = 4", ...
          "μ = 6, σ = 2", "μ = 2, σ = 1"}, "location", "northeast")
 title ("Logistic PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-Inf -log(4) 0 log(4) Inf];
 y = [0, 0.16, 1/4, 0.16, 0];
***** assert (logipdf ([x, NaN], 0, 1), [y, NaN], eps)
***** assert (logipdf (x, 0, [-2, -1, 0, 1, 2]), [nan(1, 3), y([4:5])], eps)
***** assert (logipdf (single ([x, NaN]), 0, 1), single ([y, NaN]), eps ("single"))
***** assert (logipdf ([x, NaN], single (0), 1), single ([y, NaN]), eps ("single"))
***** assert (logipdf ([x, NaN], 0, single (1)), single ([y, NaN]), eps ("single"))
***** error<logipdf: function called with too few input arguments.> logipdf ()
***** error<logipdf: function called with too few input arguments.> logipdf (1)
***** error<logipdf: function called with too few input arguments.> ...
 logipdf (1, 2)
***** error<logipdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logipdf (1, ones (2), ones (3))
***** error<logipdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logipdf (ones (2), 1, ones (3))
***** error<logipdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logipdf (ones (2), ones (3), 1)
***** error<logipdf: X, MU, and SIGMA must not be complex.> logipdf (i, 2, 3)
***** error<logipdf: X, MU, and SIGMA must not be complex.> logipdf (1, i, 3)
***** error<logipdf: X, MU, and SIGMA must not be complex.> logipdf (1, 2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/tlspdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tlspdf.m
***** demo
 ## Plot various PDFs from the Student's T distribution
 x = -8:0.01:8;
 y1 = tlspdf (x, 0, 1, 1);
 y2 = tlspdf (x, 0, 2, 2);
 y3 = tlspdf (x, 3, 2, 5);
 y4 = tlspdf (x, -1, 3, Inf);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-m")
 grid on
 xlim ([-8, 8])
 ylim ([0, 0.41])
 legend ({"mu = 0, sigma = 1, nu = 1", "mu = 0, sigma = 2, nu = 2", ...
          "mu = 3, sigma = 2, nu = 5", 'mu = -1, sigma = 3, nu = \infty'}, ...
         "location", "northwest")
 title ("Location-scale Student's T PDF")
 xlabel ("values in x")
 ylabel ("density")
***** test
 x = rand (10,1);
 y = 1./(pi * (1 + x.^2));
 assert (tlspdf (x, 0, 1, 1), y, 5*eps);
 assert (tlspdf (x+5, 5, 1, 1), y, 5*eps);
 assert (tlspdf (x.*2, 0, 2, 1), y./2, 5*eps);
***** shared x, y
 x = [-Inf 0 0.5 1 Inf];
 y = 1./(pi * (1 + x.^2));
***** assert (tlspdf (x, 0, 1, ones (1,5)), y, eps)
***** assert (tlspdf (x, 0, 1, 1), y, eps)
***** assert (tlspdf (x, 0, 1, [0 NaN 1 1 1]), [NaN NaN y(3:5)], eps)
***** assert (tlspdf (x, 0, 1, Inf), normpdf (x))
***** assert (class (tlspdf ([x, NaN], 1, 1, 1)), "double")
***** assert (class (tlspdf (single ([x, NaN]), 1, 1, 1)), "single")
***** assert (class (tlspdf ([x, NaN], single (1), 1, 1)), "single")
***** assert (class (tlspdf ([x, NaN], 1, single (1), 1)), "single")
***** assert (class (tlspdf ([x, NaN], 1, 1, single (1))), "single")
***** error<tlspdf: function called with too few input arguments.> tlspdf ()
***** error<tlspdf: function called with too few input arguments.> tlspdf (1)
***** error<tlspdf: function called with too few input arguments.> tlspdf (1, 2)
***** error<tlspdf: function called with too few input arguments.> tlspdf (1, 2, 3)
***** error<tlspdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlspdf (ones (3), ones (2), 1, 1)
***** error<tlspdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlspdf (ones (2), 1, ones (3), 1)
***** error<tlspdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlspdf (ones (2), 1, 1, ones (3))
***** error<tlspdf: X, MU, SIGMA, and NU must not be complex.> tlspdf (i, 2, 1, 1)
***** error<tlspdf: X, MU, SIGMA, and NU must not be complex.> tlspdf (2, i, 1, 1)
***** error<tlspdf: X, MU, SIGMA, and NU must not be complex.> tlspdf (2, 1, i, 1)
***** error<tlspdf: X, MU, SIGMA, and NU must not be complex.> tlspdf (2, 1, 1, i)
21 tests, 21 passed, 0 known failure, 0 skipped
[inst/dist_fun/nakapdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nakapdf.m
***** demo
 ## Plot various PDFs from the Nakagami distribution
 x = 0:0.01:3;
 y1 = nakapdf (x, 0.5, 1);
 y2 = nakapdf (x, 1, 1);
 y3 = nakapdf (x, 1, 2);
 y4 = nakapdf (x, 1, 3);
 y5 = nakapdf (x, 2, 1);
 y6 = nakapdf (x, 2, 2);
 y7 = nakapdf (x, 5, 1);
 plot (x, y1, "-r", x, y2, "-g", x, y3, "-y", x, y4, "-m", ...
       x, y5, "-k", x, y6, "-b", x, y7, "-c")
 grid on
 xlim ([0, 3])
 ylim ([0, 2])
 legend ({"μ = 0.5, ω = 1", "μ = 1, ω = 1", "μ = 1, ω = 2", ...
          "μ = 1, ω = 3", "μ = 2, ω = 1", "μ = 2, ω = 2", ...
          "μ = 5, ω = 1"}, "location", "northeast")
 title ("Nakagami PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-1, 0, 1, 2, Inf];
 y = [0, 0, 0.73575888234288467, 0.073262555554936715, 0];
***** assert (nakapdf (x, ones (1,5), ones (1,5)), y, eps)
***** assert (nakapdf (x, 1, 1), y, eps)
***** assert (nakapdf (x, [1, 1, NaN, 1, 1], 1), [y(1:2), NaN, y(4:5)], eps)
***** assert (nakapdf (x, 1, [1, 1, NaN, 1, 1]), [y(1:2), NaN, y(4:5)], eps)
***** assert (nakapdf ([x, NaN], 1, 1), [y, NaN], eps)
***** assert (nakapdf (single ([x, NaN]), 1, 1), single ([y, NaN]))
***** assert (nakapdf ([x, NaN], single (1), 1), single ([y, NaN]))
***** assert (nakapdf ([x, NaN], 1, single (1)), single ([y, NaN]))
***** error<nakapdf: function called with too few input arguments.> nakapdf ()
***** error<nakapdf: function called with too few input arguments.> nakapdf (1)
***** error<nakapdf: function called with too few input arguments.> nakapdf (1, 2)
***** error<nakapdf: X, MU, and OMEGA must be of common size or scalars.> ...
 nakapdf (ones (3), ones (2), ones(2))
***** error<nakapdf: X, MU, and OMEGA must be of common size or scalars.> ...
 nakapdf (ones (2), ones (3), ones(2))
***** error<nakapdf: X, MU, and OMEGA must be of common size or scalars.> ...
 nakapdf (ones (2), ones (2), ones(3))
***** error<nakapdf: X, MU, and OMEGA must not be complex.> nakapdf (i, 4, 3)
***** error<nakapdf: X, MU, and OMEGA must not be complex.> nakapdf (1, i, 3)
***** error<nakapdf: X, MU, and OMEGA must not be complex.> nakapdf (1, 4, i)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/vmcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/vmcdf.m
***** demo
 ## Plot various CDFs from the von Mises distribution
 x1 = [-pi:0.1:pi];
 p1 = vmcdf (x1, 0, 0.5);
 p2 = vmcdf (x1, 0, 1);
 p3 = vmcdf (x1, 0, 2);
 p4 = vmcdf (x1, 0, 4);
 plot (x1, p1, "-r", x1, p2, "-g", x1, p3, "-b", x1, p4, "-c")
 grid on
 xlim ([-pi, pi])
 legend ({"μ = 0, k = 0.5", "μ = 0, k = 1", ...
          "μ = 0, k = 2", "μ = 0, k = 4"}, "location", "northwest")
 title ("Von Mises CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, p0, p1
 x = [-pi:pi/2:pi];
 p0 = [0, 0.10975, 0.5, 0.89025, 1];
 p1 = [0, 0.03752, 0.5, 0.99622, 1];
***** assert (vmcdf (x, 0, 1), p0, 1e-5)
***** assert (vmcdf (x, 0, 1, "upper"), 1 - p0, 1e-5)
***** assert (vmcdf (x, zeros (1,5), ones (1,5)), p0, 1e-5)
***** assert (vmcdf (x, zeros (1,5), ones (1,5), "upper"), 1 - p0, 1e-5)
***** assert (vmcdf (x, 0, [1 2 3 4 5]), p1, 1e-5)
***** assert (vmcdf (x, 0, [1 2 3 4 5], "upper"), 1 - p1, 1e-5)
***** assert (isa (vmcdf (single (pi), 0, 1), "single"), true)
***** assert (isa (vmcdf (pi, single (0), 1), "single"), true)
***** assert (isa (vmcdf (pi, 0, single (1)), "single"), true)
***** error<vmcdf: function called with too few input arguments.> vmcdf ()
***** error<vmcdf: function called with too few input arguments.> vmcdf (1)
***** error<vmcdf: function called with too few input arguments.> vmcdf (1, 2)
***** error<vmcdf: invalid argument for upper tail.> vmcdf (1, 2, 3, "tail")
***** error<vmcdf: invalid argument for upper tail.> vmcdf (1, 2, 3, 4)
***** error<vmcdf: X, MU, and K must be of common size or scalars.> ...
 vmcdf (ones (3), ones (2), ones (2))
***** error<vmcdf: X, MU, and K must be of common size or scalars.> ...
 vmcdf (ones (2), ones (3), ones (2))
***** error<vmcdf: X, MU, and K must be of common size or scalars.> ...
 vmcdf (ones (2), ones (2), ones (3))
***** error<vmcdf: X, MU, and K must not be complex.> vmcdf (i, 2, 2)
***** error<vmcdf: X, MU, and K must not be complex.> vmcdf (2, i, 2)
***** error<vmcdf: X, MU, and K must not be complex.> vmcdf (2, 2, i)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fun/raylcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/raylcdf.m
***** demo
 ## Plot various CDFs from the Rayleigh distribution
 x = 0:0.01:10;
 p1 = raylcdf (x, 0.5);
 p2 = raylcdf (x, 1);
 p3 = raylcdf (x, 2);
 p4 = raylcdf (x, 3);
 p5 = raylcdf (x, 4);
 plot (x, p1, "-b", x, p2, "g", x, p3, "-r", x, p4, "-m", x, p5, "-k")
 grid on
 ylim ([0, 1])
 legend ({"σ = 0.5", "σ = 1", "σ = 2", ...
          "σ = 3", "σ = 4"}, "location", "southeast")
 title ("Rayleigh CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** test
 x = 0:0.5:2.5;
 sigma = 1:6;
 p = raylcdf (x, sigma);
 expected_p = [0.0000, 0.0308, 0.0540, 0.0679, 0.0769, 0.0831];
 assert (p, expected_p, 0.001);
***** test
 x = 0:0.5:2.5;
 p = raylcdf (x, 0.5);
 expected_p = [0.0000, 0.3935, 0.8647, 0.9889, 0.9997, 1.0000];
 assert (p, expected_p, 0.001);
***** shared x, p
 x = [-1, 0, 1, 2, Inf];
 p = [0, 0, 0.39346934028737, 0.86466471676338, 1];
***** assert (raylcdf (x, 1), p, 1e-14)
***** assert (raylcdf (x, 1, "upper"), 1 - p, 1e-14)
***** error<raylcdf: function called with too few input arguments.> raylcdf ()
***** error<raylcdf: function called with too few input arguments.> raylcdf (1)
***** error<raylcdf: invalid argument for upper tail.> raylcdf (1, 2, "uper")
***** error<raylcdf: invalid argument for upper tail.> raylcdf (1, 2, 3)
***** error<raylcdf: X and SIGMA must be of common size or scalars.> ...
 raylcdf (ones (3), ones (2))
***** error<raylcdf: X and SIGMA must be of common size or scalars.> ...
 raylcdf (ones (2), ones (3))
***** error<raylcdf: X and SIGMA must not be complex.> raylcdf (i, 2)
***** error<raylcdf: X and SIGMA must not be complex.> raylcdf (2, i)
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fun/invgrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/invgrnd.m
***** assert (size (invgrnd (1, 1, 1)), [1, 1])
***** assert (size (invgrnd (1, 1, 2)), [2, 2])
***** assert (size (invgrnd (1, 1, [2, 1])), [2, 1])
***** assert (size (invgrnd (1, zeros (2, 2))), [2, 2])
***** assert (size (invgrnd (1, ones (2, 1))), [2, 1])
***** assert (size (invgrnd (1, ones (2, 2))), [2, 2])
***** assert (size (invgrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (invgrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (invgrnd (1, 1, 3)), [3, 3])
***** assert (size (invgrnd (1, 1, [4 1])), [4, 1])
***** assert (size (invgrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (invgrnd (1, 1, [])), [0, 0])
***** assert (size (invgrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** test
 r =  invgrnd (1, [1, 0, -1]);
 assert (r([2:3]), [NaN, NaN])
***** assert (class (invgrnd (1, 0)), "double")
***** assert (class (invgrnd (1, single (0))), "single")
***** assert (class (invgrnd (1, single ([0, 0]))), "single")
***** assert (class (invgrnd (1, single (1))), "single")
***** assert (class (invgrnd (1, single ([1, 1]))), "single")
***** assert (class (invgrnd (single (1), 1)), "single")
***** assert (class (invgrnd (single ([1, 1]), 1)), "single")
***** error<invgrnd: function called with too few input arguments.> invgrnd ()
***** error<invgrnd: function called with too few input arguments.> invgrnd (1)
***** error<invgrnd: MU and LAMBDA must be of common size or scalars.> ...
 invgrnd (ones (3), ones (2))
***** error<invgrnd: MU and LAMBDA must be of common size or scalars.> ...
 invgrnd (ones (2), ones (3))
***** error<invgrnd: MU and LAMBDA must not be complex.> invgrnd (i, 2, 3)
***** error<invgrnd: MU and LAMBDA must not be complex.> invgrnd (1, i, 3)
***** error<invgrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 invgrnd (1, 2, -1)
***** error<invgrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 invgrnd (1, 2, 1.2)
***** error<invgrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 invgrnd (1, 2, ones (2))
***** error<invgrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 invgrnd (1, 2, [2 -1 2])
***** error<invgrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 invgrnd (1, 2, [2 0 2.5])
***** error<invgrnd: dimensions must be non-negative integers.> ...
 invgrnd (1, 2, 2, -1, 5)
***** error<invgrnd: dimensions must be non-negative integers.> ...
 invgrnd (1, 2, 2, 1.5, 5)
***** error<invgrnd: MU and LAMBDA must be scalars or of size SZ.> ...
 invgrnd (2, ones (2), 3)
***** error<invgrnd: MU and LAMBDA must be scalars or of size SZ.> ...
 invgrnd (2, ones (2), [3, 2])
***** error<invgrnd: MU and LAMBDA must be scalars or of size SZ.> ...
 invgrnd (2, ones (2), 3, 2)
37 tests, 37 passed, 0 known failure, 0 skipped
[inst/dist_fun/vmrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/vmrnd.m
***** assert (size (vmrnd (1, 1)), [1, 1])
***** assert (size (vmrnd (1, ones (2, 1))), [2, 1])
***** assert (size (vmrnd (1, ones (2, 2))), [2, 2])
***** assert (size (vmrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (vmrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (vmrnd (1, 1, 3)), [3, 3])
***** assert (size (vmrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (vmrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (vmrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (vmrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (vmrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (vmrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (vmrnd (1, 1, [])), [0, 0])
***** assert (size (vmrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (vmrnd (1, 1)), "double")
***** assert (class (vmrnd (1, single (1))), "single")
***** assert (class (vmrnd (1, single ([1, 1]))), "single")
***** assert (class (vmrnd (single (1), 1)), "single")
***** assert (class (vmrnd (single ([1, 1]), 1)), "single")
***** error<vmrnd: function called with too few input arguments.> vmrnd ()
***** error<vmrnd: function called with too few input arguments.> vmrnd (1)
***** error<vmrnd: MU and K must be of common size or scalars.> ...
 vmrnd (ones (3), ones (2))
***** error<vmrnd: MU and K must be of common size or scalars.> ...
 vmrnd (ones (2), ones (3))
***** error<vmrnd: MU and K must not be complex.> vmrnd (i, 2, 3)
***** error<vmrnd: MU and K must not be complex.> vmrnd (1, i, 3)
***** error<vmrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 vmrnd (1, 2, -1)
***** error<vmrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 vmrnd (1, 2, 1.2)
***** error<vmrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 vmrnd (1, 2, ones (2))
***** error<vmrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 vmrnd (1, 2, [2 -1 2])
***** error<vmrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 vmrnd (1, 2, [2 0 2.5])
***** error<vmrnd: dimensions must be non-negative integers.> ...
 vmrnd (1, 2, 2, -1, 5)
***** error<vmrnd: dimensions must be non-negative integers.> ...
 vmrnd (1, 2, 2, 1.5, 5)
***** error<vmrnd: MU and K must be scalars or of size SZ.> ...
 vmrnd (2, ones (2), 3)
***** error<vmrnd: MU and K must be scalars or of size SZ.> ...
 vmrnd (2, ones (2), [3, 2])
***** error<vmrnd: MU and K must be scalars or of size SZ.> ...
 vmrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/unidrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unidrnd.m
***** assert (size (unidrnd (2)), [1, 1])
***** assert (size (unidrnd (ones (2, 1))), [2, 1])
***** assert (size (unidrnd (ones (2, 2))), [2, 2])
***** assert (size (unidrnd (1, 3)), [3, 3])
***** assert (size (unidrnd (1, [4, 1])), [4, 1])
***** assert (size (unidrnd (1, 4, 1)), [4, 1])
***** assert (size (unidrnd (1, 4, 1)), [4, 1])
***** assert (size (unidrnd (1, 4, 1, 5)), [4, 1, 5])
***** assert (size (unidrnd (1, 0, 1)), [0, 1])
***** assert (size (unidrnd (1, 1, 0)), [1, 0])
***** assert (size (unidrnd (1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (unidrnd (1, [])), [0, 0])
***** assert (size (unidrnd (1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (unidrnd (0, 1, 1), NaN)
***** assert (unidrnd ([0, 0, 0], [1, 3]), [NaN, NaN, NaN])
***** assert (class (unidrnd (2)), "double")
***** assert (class (unidrnd (single (2))), "single")
***** assert (class (unidrnd (single ([2, 2]))), "single")
***** error<unidrnd: function called with too few input arguments.> unidrnd ()
***** error<unidrnd: N must not be complex.> unidrnd (i)
***** error<unidrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unidrnd (1, -1)
***** error<unidrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unidrnd (1, 1.2)
***** error<unidrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unidrnd (1, ones (2))
***** error<unidrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unidrnd (1, [2 -1 2])
***** error<unidrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unidrnd (1, [2 0 2.5])
***** error<unidrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 unidrnd (ones (2), ones (2))
***** error<unidrnd: dimensions must be non-negative integers.> ...
 unidrnd (1, 2, -1, 5)
***** error<unidrnd: dimensions must be non-negative integers.> ...
 unidrnd (1, 2, 1.5, 5)
***** error<unidrnd: N must be scalar or of size SZ.> unidrnd (ones (2,2), 3)
***** error<unidrnd: N must be scalar or of size SZ.> unidrnd (ones (2,2), [3, 2])
***** error<unidrnd: N must be scalar or of size SZ.> unidrnd (ones (2,2), 2, 3)
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/dist_fun/laplaceinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/laplaceinv.m
***** demo
 ## Plot various iCDFs from the Laplace distribution
 p = 0.001:0.001:0.999;
 x1 = cauchyinv (p, 0, 1);
 x2 = cauchyinv (p, 0, 2);
 x3 = cauchyinv (p, 0, 4);
 x4 = cauchyinv (p, -5, 4);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([-10, 10])
 legend ({"μ = 0, β = 1", "μ = 0, β = 2", ...
          "μ = 0, β = 4", "μ = -5, β = 4"}, "location", "northwest")
 title ("Laplace iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, x
 p = [-1 0 0.5 1 2];
 x = [NaN, -Inf, 0, Inf, NaN];
***** assert (laplaceinv (p, 0, 1), x)
***** assert (laplaceinv (p, 0, [-2, -1, 0, 1, 2]), [nan(1, 3), Inf, NaN])
***** assert (laplaceinv ([p, NaN], 0, 1), [x, NaN])
***** assert (laplaceinv (single ([p, NaN]), 0, 1), single ([x, NaN]))
***** assert (laplaceinv ([p, NaN], single (0), 1), single ([x, NaN]))
***** assert (laplaceinv ([p, NaN], 0, single (1)), single ([x, NaN]))
***** error<laplaceinv: function called with too few input arguments.> laplaceinv ()
***** error<laplaceinv: function called with too few input arguments.> laplaceinv (1)
***** error<laplaceinv: function called with too few input arguments.> ...
 laplaceinv (1, 2)
***** error<laplaceinv: function called with too many inputs> laplaceinv (1, 2, 3, 4)
***** error<laplaceinv: P, MU, and BETA must be of common size or scalars.> ...
 laplaceinv (1, ones (2), ones (3))
***** error<laplaceinv: P, MU, and BETA must be of common size or scalars.> ...
 laplaceinv (ones (2), 1, ones (3))
***** error<laplaceinv: P, MU, and BETA must be of common size or scalars.> ...
 laplaceinv (ones (2), ones (3), 1)
***** error<laplaceinv: P, MU, and BETA must not be complex.> laplaceinv (i, 2, 3)
***** error<laplaceinv: P, MU, and BETA must not be complex.> laplaceinv (1, i, 3)
***** error<laplaceinv: P, MU, and BETA must not be complex.> laplaceinv (1, 2, i)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fun/copularnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/copularnd.m
***** test
 theta = 0.5;
 r = copularnd ("Gaussian", theta);
 assert (size (r), [1, 2]);
 assert (all ((r >= 0) & (r <= 1)));
***** test
 theta = 0.5;
 df = 2;
 r = copularnd ("t", theta, df);
 assert (size (r), [1, 2]);
 assert (all ((r >= 0) & (r <= 1)));
***** test
 theta = 0.5;
 r = copularnd ("Clayton", theta);
 assert (size (r), [1, 2]);
 assert (all ((r >= 0) & (r <= 1)));
***** test
 theta = 0.5;
 n = 2;
 r = copularnd ("Clayton", theta, n);
 assert (size (r), [n, 2]);
 assert (all ((r >= 0) & (r <= 1)));
***** test
 theta = [1; 2];
 n = 2;
 d = 3;
 r = copularnd ("Clayton", theta, n, d);
 assert (size (r), [n, d]);
 assert (all ((r >= 0) & (r <= 1)));
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_fun/tricdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tricdf.m
***** demo
 ## Plot various CDFs from the triangular distribution
 x = 0.001:0.001:10;
 p1 = tricdf (x, 3, 4, 6);
 p2 = tricdf (x, 1, 2, 5);
 p3 = tricdf (x, 2, 3, 9);
 p4 = tricdf (x, 2, 5, 9);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 xlim ([0, 10])
 legend ({"a = 3, b = 4, c = 6", "a = 1, b = 2, c = 5", ...
          "a = 2, b = 3, c = 9", "a = 2, b = 5, c = 9"}, ...
         "location", "southeast")
 title ("Triangular CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1, 0, 0.1, 0.5, 0.9, 1, 2] + 1;
 y = [0, 0, 0.02, 0.5, 0.98, 1 1];
***** assert (tricdf (x, ones (1,7), 1.5 * ones (1, 7), 2 * ones (1, 7)), y, eps)
***** assert (tricdf (x, 1 * ones (1, 7), 1.5, 2), y, eps)
***** assert (tricdf (x, 1 * ones (1, 7), 1.5, 2, "upper"), 1 - y, eps)
***** assert (tricdf (x, 1, 1.5, 2 * ones (1, 7)), y, eps)
***** assert (tricdf (x, 1, 1.5 * ones (1, 7), 2), y, eps)
***** assert (tricdf (x, 1, 1.5, 2), y, eps)
***** assert (tricdf (x, [1, 1, NaN, 1, 1, 1, 1], 1.5, 2), ...
 [y(1:2), NaN, y(4:7)], eps)
***** assert (tricdf (x, 1, 1.5, 2*[1, 1, NaN, 1, 1, 1, 1]), ...
 [y(1:2), NaN, y(4:7)], eps)
***** assert (tricdf (x, 1, 1.5, 2*[1, 1, NaN, 1, 1, 1, 1]), ...
 [y(1:2), NaN, y(4:7)], eps)
***** assert (tricdf ([x, NaN], 1, 1.5, 2), [y, NaN], eps)
***** assert (tricdf (single ([x, NaN]), 1, 1.5, 2), ...
 single ([y, NaN]), eps("single"))
***** assert (tricdf ([x, NaN], single (1), 1.5, 2), ...
 single ([y, NaN]), eps("single"))
***** assert (tricdf ([x, NaN], 1, single (1.5), 2), ...
 single ([y, NaN]), eps("single"))
***** assert (tricdf ([x, NaN], 1, 1.5, single (2)), ...
 single ([y, NaN]), eps("single"))
***** error<tricdf: function called with too few input arguments.> tricdf ()
***** error<tricdf: function called with too few input arguments.> tricdf (1)
***** error<tricdf: function called with too few input arguments.> tricdf (1, 2)
***** error<tricdf: function called with too few input arguments.> tricdf (1, 2, 3)
***** error<tricdf: function called with too many inputs> ...
 tricdf (1, 2, 3, 4, 5, 6)
***** error<tricdf: invalid argument for upper tail.> tricdf (1, 2, 3, 4, "tail")
***** error<tricdf: invalid argument for upper tail.> tricdf (1, 2, 3, 4, 5)
***** error<tricdf: X, A, B, and C must be of common size or scalars.> ...
 tricdf (ones (3), ones (2), ones(2), ones(2))
***** error<tricdf: X, A, B, and C must be of common size or scalars.> ...
 tricdf (ones (2), ones (3), ones(2), ones(2))
***** error<tricdf: X, A, B, and C must be of common size or scalars.> ...
 tricdf (ones (2), ones (2), ones(3), ones(2))
***** error<tricdf: X, A, B, and C must be of common size or scalars.> ...
 tricdf (ones (2), ones (2), ones(2), ones(3))
***** error<tricdf: X, A, B, and C must not be complex.> tricdf (i, 2, 3, 4)
***** error<tricdf: X, A, B, and C must not be complex.> tricdf (1, i, 3, 4)
***** error<tricdf: X, A, B, and C must not be complex.> tricdf (1, 2, i, 4)
***** error<tricdf: X, A, B, and C must not be complex.> tricdf (1, 2, 3, i)
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/dist_fun/gpcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gpcdf.m
***** demo
 ## Plot various CDFs from the generalized Pareto distribution
 x = 0:0.001:5;
 p1 = gpcdf (x, 1, 1, 0);
 p2 = gpcdf (x, 5, 1, 0);
 p3 = gpcdf (x, 20, 1, 0);
 p4 = gpcdf (x, 1, 2, 0);
 p5 = gpcdf (x, 5, 2, 0);
 p6 = gpcdf (x, 20, 2, 0);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", ...
       x, p4, "-c", x, p5, "-m", x, p6, "-k")
 grid on
 xlim ([0, 5])
 legend ({"k = 1, σ = 1, θ = 0", "k = 5, σ = 1, θ = 0", ...
          "k = 20, σ = 1, θ = 0", "k = 1, σ = 2, θ = 0", ...
          "k = 5, σ = 2, θ = 0", "k = 20, σ = 2, θ = 0"}, ...
         "location", "northwest")
 title ("Generalized Pareto CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y1, y1u, y2, y2u, y3, y3u
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 y1 = [0, 0, 0, 0.3934693402873666, 0.6321205588285577, 1];
 y1u = [1, 1, 1, 0.6065306597126334, 0.3678794411714423, 0];
 y2 = [0, 0, 0, 1/3, 1/2, 1];
 y2u = [1, 1, 1, 2/3, 1/2, 0];
 y3 = [0, 0, 0, 1/2, 1, 1];
 y3u = [1, 1, 1, 1/2, 0, 0];
***** assert (gpcdf (x, zeros (1,6), ones (1,6), zeros (1,6)), y1, eps)
***** assert (gpcdf (x, 0, 1, zeros (1,6)), y1, eps)
***** assert (gpcdf (x, 0, ones (1,6), 0), y1, eps)
***** assert (gpcdf (x, zeros (1,6), 1, 0), y1, eps)
***** assert (gpcdf (x, 0, 1, 0), y1, eps)
***** assert (gpcdf (x, 0, 1, [0, 0, 0, NaN, 0, 0]), [y1(1:3), NaN, y1(5:6)], eps)
***** assert (gpcdf (x, 0, [1, 1, 1, NaN, 1, 1], 0), [y1(1:3), NaN, y1(5:6)], eps)
***** assert (gpcdf (x, [0, 0, 0, NaN, 0, 0], 1, 0), [y1(1:3), NaN, y1(5:6)], eps)
***** assert (gpcdf ([x(1:3), NaN, x(5:6)], 0, 1, 0), [y1(1:3), NaN, y1(5:6)], eps)
***** assert (gpcdf (x, zeros (1,6), ones (1,6), zeros (1,6), "upper"), y1u, eps)
***** assert (gpcdf (x, 0, 1, zeros (1,6), "upper"), y1u, eps)
***** assert (gpcdf (x, 0, ones (1,6), 0, "upper"), y1u, eps)
***** assert (gpcdf (x, zeros (1,6), 1, 0, "upper"), y1u, eps)
***** assert (gpcdf (x, 0, 1, 0, "upper"), y1u, eps)
***** assert (gpcdf (x, ones (1,6), ones (1,6), zeros (1,6)), y2, eps)
***** assert (gpcdf (x, 1, 1, zeros (1,6)), y2, eps)
***** assert (gpcdf (x, 1, ones (1,6), 0), y2, eps)
***** assert (gpcdf (x, ones (1,6), 1, 0), y2, eps)
***** assert (gpcdf (x, 1, 1, 0), y2, eps)
***** assert (gpcdf (x, 1, 1, [0, 0, 0, NaN, 0, 0]), [y2(1:3), NaN, y2(5:6)], eps)
***** assert (gpcdf (x, 1, [1, 1, 1, NaN, 1, 1], 0), [y2(1:3), NaN, y2(5:6)], eps)
***** assert (gpcdf (x, [1, 1, 1, NaN, 1, 1], 1, 0), [y2(1:3), NaN, y2(5:6)], eps)
***** assert (gpcdf ([x(1:3), NaN, x(5:6)], 1, 1, 0), [y2(1:3), NaN, y2(5:6)], eps)
***** assert (gpcdf (x, ones (1,6), ones (1,6), zeros (1,6), "upper"), y2u, eps)
***** assert (gpcdf (x, 1, 1, zeros (1,6), "upper"), y2u, eps)
***** assert (gpcdf (x, 1, ones (1,6), 0, "upper"), y2u, eps)
***** assert (gpcdf (x, ones (1,6), 1, 0, "upper"), y2u, eps)
***** assert (gpcdf (x, 1, 1, 0, "upper"), y2u, eps)
***** assert (gpcdf (x, 1, 1, [0, 0, 0, NaN, 0, 0], "upper"), ...
                        [y2u(1:3), NaN, y2u(5:6)], eps)
***** assert (gpcdf (x, 1, [1, 1, 1, NaN, 1, 1], 0, "upper"), ...
                        [y2u(1:3), NaN, y2u(5:6)], eps)
***** assert (gpcdf (x, [1, 1, 1, NaN, 1, 1], 1, 0, "upper"), ...
                        [y2u(1:3), NaN, y2u(5:6)], eps)
***** assert (gpcdf ([x(1:3), NaN, x(5:6)], 1, 1, 0, "upper"), ...
                        [y2u(1:3), NaN, y2u(5:6)], eps)
***** assert (gpcdf (x, -ones (1,6), ones (1,6), zeros (1,6)), y3, eps)
***** assert (gpcdf (x, -1, 1, zeros (1,6)), y3, eps)
***** assert (gpcdf (x, -1, ones (1,6), 0), y3, eps)
***** assert (gpcdf (x, -ones (1,6), 1, 0), y3, eps)
***** assert (gpcdf (x, -1, 1, 0), y3, eps)
***** assert (gpcdf (x, -1, 1, [0, 0, 0, NaN, 0, 0]), [y3(1:3), NaN, y3(5:6)], eps)
***** assert (gpcdf (x, -1, [1, 1, 1, NaN, 1, 1], 0), [y3(1:3), NaN, y3(5:6)], eps)
***** assert (gpcdf (x, [-1, -1, -1, NaN, -1, -1], 1, 0), [y3(1:3), NaN, y3(5:6)], eps)
***** assert (gpcdf ([x(1:3), NaN, x(5:6)], -1, 1, 0), [y3(1:3), NaN, y3(5:6)], eps)
***** assert (gpcdf (x, -ones (1,6), ones (1,6), zeros (1,6), "upper"), y3u, eps)
***** assert (gpcdf (x, -1, 1, zeros (1,6), "upper"), y3u, eps)
***** assert (gpcdf (x, -1, ones (1,6), 0, "upper"), y3u, eps)
***** assert (gpcdf (x, -ones (1,6), 1, 0, "upper"), y3u, eps)
***** assert (gpcdf (x, -1, 1, 0, "upper"), y3u, eps)
***** assert (gpcdf (x, -1, 1, [0, 0, 0, NaN, 0, 0], "upper"), ...
                         [y3u(1:3), NaN, y3u(5:6)], eps)
***** assert (gpcdf (x, -1, [1, 1, 1, NaN, 1, 1], 0, "upper"), ...
                          [y3u(1:3), NaN, y3u(5:6)], eps)
***** assert (gpcdf (x, [-1, -1, -1, NaN, -1, -1], 1, 0, "upper"), ...
                          [y3u(1:3), NaN, y3u(5:6)], eps)
***** assert (gpcdf ([x(1:3), NaN, x(5:6)], -1, 1, 0, "upper"), ...
                          [y3u(1:3), NaN, y3u(5:6)], eps)
***** assert (gpcdf (single ([x, NaN]), 0, 1, 0), single ([y1, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], 0, 1, single (0)), single ([y1, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], 0, single (1), 0), single ([y1, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], single (0), 1, 0), single ([y1, NaN]), eps("single"))
***** assert (gpcdf (single ([x, NaN]), 1, 1, 0), single ([y2, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], 1, 1, single (0)), single ([y2, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], 1, single (1), 0), single ([y2, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], single (1), 1, 0), single ([y2, NaN]), eps("single"))
***** assert (gpcdf (single ([x, NaN]), -1, 1, 0), single ([y3, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], -1, 1, single (0)), single ([y3, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], -1, single (1), 0), single ([y3, NaN]), eps("single"))
***** assert (gpcdf ([x, NaN], single (-1), 1, 0), single ([y3, NaN]), eps("single"))
***** error<gpcdf: function called with too few input arguments.> gpcdf ()
***** error<gpcdf: function called with too few input arguments.> gpcdf (1)
***** error<gpcdf: function called with too few input arguments.> gpcdf (1, 2)
***** error<gpcdf: function called with too few input arguments.> gpcdf (1, 2, 3)
***** error<gpcdf: invalid argument for upper tail.> gpcdf (1, 2, 3, 4, "tail")
***** error<gpcdf: invalid argument for upper tail.> gpcdf (1, 2, 3, 4, 5)
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (3), ones (2), ones(2), ones(2))
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (2), ones (3), ones(2), ones(2))
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (2), ones (2), ones(3), ones(2))
***** error<gpcdf: X, K, SIGMA, and THETA must be of common size or scalars.> ...
 gpcdf (ones (2), ones (2), ones(2), ones(3))
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (i, 2, 3, 4)
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (1, i, 3, 4)
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (1, 2, i, 4)
***** error<gpcdf: X, K, SIGMA, and THETA must not be complex.> gpcdf (1, 2, 3, i)
76 tests, 76 passed, 0 known failure, 0 skipped
[inst/dist_fun/laplacepdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/laplacepdf.m
***** demo
 ## Plot various PDFs from the Laplace distribution
 x = -10:0.01:10;
 y1 = laplacepdf (x, 0, 1);
 y2 = laplacepdf (x, 0, 2);
 y3 = laplacepdf (x, 0, 4);
 y4 = laplacepdf (x, -5, 4);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-c")
 grid on
 xlim ([-10, 10])
 ylim ([0, 0.6])
 legend ({"μ = 0, β = 1", "μ = 0, β = 2", ...
          "μ = 0, β = 4", "μ = -5, β = 4"}, "location", "northeast")
 title ("Laplace PDF")
 xlabel ("values in x")
 ylabel ("density")
***** shared x, y
 x = [-Inf -log(2) 0 log(2) Inf];
 y = [0, 1/4, 1/2, 1/4, 0];
***** assert (laplacepdf ([x, NaN], 0, 1), [y, NaN])
***** assert (laplacepdf (x, 0, [-2, -1, 0, 1, 2]), [nan(1, 3), 0.25, 0])
***** assert (laplacepdf (single ([x, NaN]), 0, 1), single ([y, NaN]))
***** assert (laplacepdf ([x, NaN], single (0), 1), single ([y, NaN]))
***** assert (laplacepdf ([x, NaN], 0, single (1)), single ([y, NaN]))
***** error<laplacepdf: function called with too few input arguments.> laplacepdf ()
***** error<laplacepdf: function called with too few input arguments.> laplacepdf (1)
***** error<laplacepdf: function called with too few input arguments.> ...
 laplacepdf (1, 2)
***** error<laplacepdf: function called with too many inputs> laplacepdf (1, 2, 3, 4)
***** error<laplacepdf: X, MU, and BETA must be of common size or scalars.> ...
 laplacepdf (1, ones (2), ones (3))
***** error<laplacepdf: X, MU, and BETA must be of common size or scalars.> ...
 laplacepdf (ones (2), 1, ones (3))
***** error<laplacepdf: X, MU, and BETA must be of common size or scalars.> ...
 laplacepdf (ones (2), ones (3), 1)
***** error<laplacepdf: X, MU, and BETA must not be complex.> laplacepdf (i, 2, 3)
***** error<laplacepdf: X, MU, and BETA must not be complex.> laplacepdf (1, i, 3)
***** error<laplacepdf: X, MU, and BETA must not be complex.> laplacepdf (1, 2, i)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fun/normcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/normcdf.m
***** demo
 ## Plot various CDFs from the normal distribution
 x = -5:0.01:5;
 p1 = normcdf (x, 0, 0.5);
 p2 = normcdf (x, 0, 1);
 p3 = normcdf (x, 0, 2);
 p4 = normcdf (x, -2, 0.8);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 xlim ([-5, 5])
 legend ({"μ = 0, σ = 0.5", "μ = 0, σ = 1", ...
          "μ = 0, σ = 2", "μ = -2, σ = 0.8"}, "location", "southeast")
 title ("Normal CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-Inf 1 2 Inf];
 y = [0, 0.5, 1/2*(1+erf(1/sqrt(2))), 1];
***** assert (normcdf (x, ones (1,4), ones (1,4)), y)
***** assert (normcdf (x, 1, ones (1,4)), y)
***** assert (normcdf (x, ones (1,4), 1), y)
***** assert (normcdf (x, [0, -Inf, NaN, Inf], 1), [0, 1, NaN, NaN])
***** assert (normcdf (x, 1, [Inf, NaN, -1, 0]), [NaN, NaN, NaN, 1])
***** assert (normcdf ([x(1:2), NaN, x(4)], 1, 1), [y(1:2), NaN, y(4)])
***** assert (normcdf (x, "upper"), [1, 0.1587, 0.0228, 0], 1e-4)
***** assert (normcdf ([x, NaN], 1, 1), [y, NaN])
***** assert (normcdf (single ([x, NaN]), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (normcdf ([x, NaN], single (1), 1), single ([y, NaN]), eps ("single"))
***** assert (normcdf ([x, NaN], 1, single (1)), single ([y, NaN]), eps ("single"))
***** error<normcdf: invalid number of input arguments.> normcdf ()
***** error<normcdf: invalid number of input arguments.> normcdf (1,2,3,4,5,6,7)
***** error<normcdf: invalid argument for upper tail.> normcdf (1, 2, 3, 4, "uper")
***** error<normcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 normcdf (ones (3), ones (2), ones (2))
***** error<normcdf: invalid size of covariance matrix.> normcdf (2, 3, 4, [1, 2])
***** error<normcdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = normcdf (1, 2, 3)
***** error<normcdf: invalid value for alpha.> [p, plo, pup] = ...
 normcdf (1, 2, 3, [1, 0; 0, 1], 0)
***** error<normcdf: invalid value for alpha.> [p, plo, pup] = ...
 normcdf (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<normcdf: invalid value for alpha.> [p, plo, pup] = ...
 normcdf (1, 2, 3, [1, 0; 0, 1], "alpha", "upper")
***** error<normcdf: X, MU, and SIGMA must not be complex.> normcdf (i, 2, 2)
***** error<normcdf: X, MU, and SIGMA must not be complex.> normcdf (2, i, 2)
***** error<normcdf: X, MU, and SIGMA must not be complex.> normcdf (2, 2, i)
***** error<normcdf: bad covariance matrix.> ...
 [p, plo, pup] =normcdf (1, 2, 3, [1, 0; 0, -inf], 0.04)
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/dist_fun/evinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/evinv.m
***** demo
 ## Plot various iCDFs from the extreme value distribution
 p = 0.001:0.001:0.999;
 x1 = evinv (p, 0.5, 2);
 x2 = evinv (p, 1.0, 2);
 x3 = evinv (p, 1.5, 3);
 x4 = evinv (p, 3.0, 4);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([-10, 10])
 legend ({"μ = 0.5, σ = 2", "μ = 1.0, σ = 2", ...
          "μ = 1.5, σ = 3", "μ = 3.0, σ = 4"}, "location", "northwest")
 title ("Extreme value iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, x
 p = [0, 0.05, 0.5 0.95];
 x = [-Inf, -2.9702, -0.3665, 1.0972];
***** assert (evinv (p), x, 1e-4)
***** assert (evinv (p, zeros (1,4), ones (1,4)), x, 1e-4)
***** assert (evinv (p, 0, ones (1,4)), x, 1e-4)
***** assert (evinv (p, zeros (1,4), 1), x, 1e-4)
***** assert (evinv (p, [0, -Inf, NaN, Inf], 1), [-Inf, -Inf, NaN, Inf], 1e-4)
***** assert (evinv (p, 0, [Inf, NaN, -1, 0]), [-Inf, NaN, NaN, NaN], 1e-4)
***** assert (evinv ([p(1:2), NaN, p(4)], 0, 1), [x(1:2), NaN, x(4)], 1e-4)
***** assert (evinv ([p, NaN], 0, 1), [x, NaN], 1e-4)
***** assert (evinv (single ([p, NaN]), 0, 1), single ([x, NaN]), 1e-4)
***** assert (evinv ([p, NaN], single (0), 1), single ([x, NaN]), 1e-4)
***** assert (evinv ([p, NaN], 0, single (1)), single ([x, NaN]), 1e-4)
***** error<evinv: invalid number of input arguments.> evinv ()
***** error evinv (1,2,3,4,5,6)
***** error<evinv: P, MU, and SIGMA must be of common size or scalars.> ...
 evinv (ones (3), ones (2), ones (2))
***** error<evinv: invalid size of covariance matrix.> ...
 [p, plo, pup] = evinv (2, 3, 4, [1, 2])
***** error<evinv: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = evinv (1, 2, 3)
***** error<evinv: invalid value for alpha.> [p, plo, pup] = ...
 evinv (1, 2, 3, [1, 0; 0, 1], 0)
***** error<evinv: invalid value for alpha.> [p, plo, pup] = ...
 evinv (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<evinv: P, MU, and SIGMA must not be complex.> evinv (i, 2, 2)
***** error<evinv: P, MU, and SIGMA must not be complex.> evinv (2, i, 2)
***** error<evinv: P, MU, and SIGMA must not be complex.> evinv (2, 2, i)
***** error<evinv: bad covariance matrix.> ...
 [p, plo, pup] = evinv (1, 2, 3, [-1, -10; -Inf, -Inf], 0.04)
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvtcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvtcdf.m
***** demo
 ## Compute the cdf of a multivariate Student's t distribution with
 ## correlation parameters rho = [1, 0.4; 0.4, 1] and 2 degrees of freedom.

 rho = [1, 0.4; 0.4, 1];
 df = 2;
 [X1, X2] = meshgrid (linspace (-2, 2, 25)', linspace (-2, 2, 25)');
 X = [X1(:), X2(:)];
 p = mvtcdf (X, rho, df);
 surf (X1, X2, reshape (p, 25, 25));
 title ("Bivariate Student's t cumulative distribution function");
***** test
 x = [1, 2];
 rho = [1, 0.5; 0.5, 1];
 df = 4;
 a = [-1, 0];
 assert (mvtcdf(a, x, rho, df), 0.294196905339283, 1e-14);
***** test
 x = [1, 2;2, 4;1, 5];
 rho = [1, 0.5; 0.5, 1];
 df = 4;
 p =[0.790285178602166; 0.938703291727784; 0.81222737321336];
 assert (mvtcdf(x, rho, df), p, 1e-14);
***** test
 x = [1, 2, 2, 4, 1, 5];
 rho = eye (6);
 rho(rho == 0) = 0.5;
 df = 4;
 assert (mvtcdf(x, rho, df), 0.6874, 1e-4);
***** error mvtcdf (1)
***** error mvtcdf (1, 2)
***** error<mvtcdf: correlation matrix RHO does not match dimensions in data.> ...
 mvtcdf (1, [2, 3; 3, 2], 1)
***** error<mvtcdf: correlation matrix RHO does not match dimensions in data.> ...
 mvtcdf ([2, 3, 4], ones (2), 1)
***** error<mvtcdf: X_LO and X_UP must be of the same size.> ...
 mvtcdf ([1, 2, 3], [2, 3], ones (2), 1)
***** error<mvtcdf: correlation matrix RHO must be positive semi-definite.> ...
 mvtcdf ([2, 3], ones (2), [1, 2, 3])
***** error<mvtcdf: DF must be a scalar or a vector with the same samples as in> ...
 mvtcdf ([2, 3], [1, 0.5; 0.5, 1], [1, 2, 3])
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_fun/plinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/plinv.m
***** demo
 ## Plot various iCDFs from the Piecewise linear distribution
 p = 0.001:0.001:0.999;
 x1 = [0, 1, 3, 4, 7, 10];
 Fx1 = [0, 0.2, 0.5, 0.6, 0.7, 1];
 x2 = [0, 2, 5, 6, 7, 8];
 Fx2 = [0, 0.1, 0.3, 0.6, 0.9, 1];
 data1 = plinv (p, x1, Fx1);
 data2 = plinv (p, x2, Fx2);
 plot (p, data1, "-b", p, data2, "-g")
 grid on
 legend ({"x1, Fx1", "x2, Fx2"}, "location", "northwest")
 title ("Piecewise linear iCDF")
 xlabel ("probability")
 ylabel ("values in data")
***** test
 p = 0:0.2:1;
 data = plinv (p, [0, 1], [0, 1]);
 assert (data, p);
***** test
 p = 0:0.2:1;
 data = plinv (p, [0, 2], [0, 1]);
 assert (data, 2 * p);
***** test
 p = 0:0.2:1;
 data_out = 1:6;
 data = plinv (p, [0, 1], [0, 0.5]);
 assert (data, [0, 0.4, 0.8, NA, NA, NA]);
***** test
 p = 0:0.2:1;
 data_out = 1:6;
 data = plinv (p, [0, 0.5], [0, 1]);
 assert (data, [0:0.1:0.5]);
***** error<plinv: function called with too few input arguments.> plinv ()
***** error<plinv: function called with too few input arguments.> plinv (1)
***** error<plinv: function called with too few input arguments.> plinv (1, 2)
***** error<plinv: X and FX must be vectors of equal size.> ...
 plinv (1, [0, 1, 2], [0, 1])
***** error<plinv: X and FX must be at least two-elements long.> ...
 plinv (1, [0], [1])
***** error<plinv: FX must be bounded in the range> ...
 plinv (1, [0, 1, 2], [0, 1, 1.5])
***** error<plinv: FX must be bounded in the range> ...
 plinv (1, [0, 1, 2], [0, i, 1])
***** error<plinv: P, X, and FX must not be complex.> ...
 plinv (i, [0, 1, 2], [0, 0.5, 1])
***** error<plinv: P, X, and FX must not be complex.> ...
 plinv (1, [0, i, 2], [0, 0.5, 1])
***** error<plinv: P, X, and FX must not be complex.> ...
 plinv (1, [0, 1, 2], [0, 0.5i, 1])
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/unifinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unifinv.m
***** demo
 ## Plot various iCDFs from the continuous uniform distribution
 p = 0.001:0.001:0.999;
 x1 = unifinv (p, 2, 5);
 x2 = unifinv (p, 3, 9);
 plot (p, x1, "-b", p, x2, "-g")
 grid on
 xlim ([0, 1])
 ylim ([0, 10])
 legend ({"a = 2, b = 5", "a = 3, b = 9"}, "location", "northwest")
 title ("Continuous uniform iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (unifinv (p, ones (1,5), 2*ones (1,5)), [NaN 1 1.5 2 NaN])
***** assert (unifinv (p, 0, 1), [NaN 1 1.5 2 NaN] - 1)
***** assert (unifinv (p, 1, 2*ones (1,5)), [NaN 1 1.5 2 NaN])
***** assert (unifinv (p, ones (1,5), 2), [NaN 1 1.5 2 NaN])
***** assert (unifinv (p, [1 2 NaN 1 1], 2), [NaN NaN NaN 2 NaN])
***** assert (unifinv (p, 1, 2*[1 0 NaN 1 1]), [NaN NaN NaN 2 NaN])
***** assert (unifinv ([p(1:2) NaN p(4:5)], 1, 2), [NaN 1 NaN 2 NaN])
***** assert (unifinv ([p, NaN], 1, 2), [NaN 1 1.5 2 NaN NaN])
***** assert (unifinv (single ([p, NaN]), 1, 2), single ([NaN 1 1.5 2 NaN NaN]))
***** assert (unifinv ([p, NaN], single (1), 2), single ([NaN 1 1.5 2 NaN NaN]))
***** assert (unifinv ([p, NaN], 1, single (2)), single ([NaN 1 1.5 2 NaN NaN]))
***** error<unifinv: function called with too few input arguments.> unifinv ()
***** error<unifinv: function called with too few input arguments.> unifinv (1, 2)
***** error<unifinv: P, A, and B must be of common size or scalars.> ...
 unifinv (ones (3), ones (2), ones (2))
***** error<unifinv: P, A, and B must be of common size or scalars.> ...
 unifinv (ones (2), ones (3), ones (2))
***** error<unifinv: P, A, and B must be of common size or scalars.> ...
 unifinv (ones (2), ones (2), ones (3))
***** error<unifinv: P, A, and B must not be complex.> unifinv (i, 2, 2)
***** error<unifinv: P, A, and B must not be complex.> unifinv (2, i, 2)
***** error<unifinv: P, A, and B must not be complex.> unifinv (2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/invgcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/invgcdf.m
***** demo
 ## Plot various CDFs from the inverse Gaussian distribution
 x = 0:0.001:3;
 p1 = invgcdf (x, 1, 0.2);
 p2 = invgcdf (x, 1, 1);
 p3 = invgcdf (x, 1, 3);
 p4 = invgcdf (x, 3, 0.2);
 p5 = invgcdf (x, 3, 1);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-y")
 grid on
 xlim ([0, 3])
 legend ({"μ = 1, σ = 0.2", "μ = 1, σ = 1", "μ = 1, σ = 3", ...
          "μ = 3, σ = 0.2", "μ = 3, σ = 1"}, "location", "southeast")
 title ("Inverse Gaussian CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, p1, p1u, y2, y2u, y3, y3u
 x = [-Inf, -1, 0, 1/2, 1, Inf];
 p1 = [0, 0, 0, 0.3650, 0.6681, 1];
 p1u = [1, 1, 1, 0.6350, 0.3319, 0];
***** assert (invgcdf (x, ones (1,6), ones (1,6)), p1, 1e-4)
***** assert (invgcdf (x, 1, 1), p1, 1e-4)
***** assert (invgcdf (x, 1, ones (1,6)), p1, 1e-4)
***** assert (invgcdf (x, ones (1,6), 1), p1, 1e-4)
***** assert (invgcdf (x, 1, [1, 1, 1, NaN, 1, 1]), [p1(1:3), NaN, p1(5:6)], 1e-4)
***** assert (invgcdf (x, [1, 1, 1, NaN, 1, 1], 1), [p1(1:3), NaN, p1(5:6)], 1e-4)
***** assert (invgcdf ([x(1:3), NaN, x(5:6)], 1, 1), [p1(1:3), NaN, p1(5:6)], 1e-4)
***** assert (invgcdf (x, ones (1,6), ones (1,6), "upper"), p1u, 1e-4)
***** assert (invgcdf (x, 1, 1, "upper"), p1u, 1e-4)
***** assert (invgcdf (x, 1, ones (1,6), "upper"), p1u, 1e-4)
***** assert (invgcdf (x, ones (1,6), 1, "upper"), p1u, 1e-4)
***** assert (class (invgcdf (single ([x, NaN]), 1, 1)), "single")
***** assert (class (invgcdf ([x, NaN], 1, single (1))), "single")
***** assert (class (invgcdf ([x, NaN], single (1), 1)), "single")
***** error<invgcdf: function called with too few input arguments.> invgcdf ()
***** error<invgcdf: function called with too few input arguments.> invgcdf (1)
***** error<invgcdf: function called with too few input arguments.> invgcdf (1, 2)
***** error<invgcdf: invalid argument for upper tail.> invgcdf (1, 2, 3, "tail")
***** error<invgcdf: invalid argument for upper tail.> invgcdf (1, 2, 3, 5)
***** error<invgcdf: X, MU, and LAMBDA must be of common size or scalars.> ...
 invgcdf (ones (3), ones (2), ones(2))
***** error<invgcdf: X, MU, and LAMBDA must be of common size or scalars.> ...
 invgcdf (ones (2), ones (3), ones(2))
***** error<invgcdf: X, MU, and LAMBDA must be of common size or scalars.> ...
 invgcdf (ones (2), ones (2), ones(3))
***** error<invgcdf: X, MU, and LAMBDA must not be complex.> invgcdf (i, 2, 3)
***** error<invgcdf: X, MU, and LAMBDA must not be complex.> invgcdf (1, i, 3)
***** error<invgcdf: X, MU, and LAMBDA must not be complex.> invgcdf (1, 2, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/nbinrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/nbinrnd.m
***** assert (size (nbinrnd (1, 0.5)), [1, 1])
***** assert (size (nbinrnd (1, 0.5 * ones (2, 1))), [2, 1])
***** assert (size (nbinrnd (1, 0.5 * ones (2, 2))), [2, 2])
***** assert (size (nbinrnd (ones (2, 1), 0.5)), [2, 1])
***** assert (size (nbinrnd (ones (2, 2), 0.5)), [2, 2])
***** assert (size (nbinrnd (1, 0.5, 3)), [3, 3])
***** assert (size (nbinrnd (1, 0.5, [4, 1])), [4, 1])
***** assert (size (nbinrnd (1, 0.5, 4, 1)), [4, 1])
***** assert (size (nbinrnd (1, 0.5, 4, 1, 5)), [4, 1, 5])
***** assert (size (nbinrnd (1, 0.5, 0, 1)), [0, 1])
***** assert (size (nbinrnd (1, 0.5, 1, 0)), [1, 0])
***** assert (size (nbinrnd (1, 0.5, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (nbinrnd (1, 0.5, [])), [0, 0])
***** assert (size (nbinrnd (1, 0.5, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (nbinrnd (1, 0.5)), "double")
***** assert (class (nbinrnd (1, single (0.5))), "single")
***** assert (class (nbinrnd (1, single ([0.5, 0.5]))), "single")
***** assert (class (nbinrnd (single (1), 0.5)), "single")
***** assert (class (nbinrnd (single ([1, 1]), 0.5)), "single")
***** error<nbinrnd: function called with too few input arguments.> nbinrnd ()
***** error<nbinrnd: function called with too few input arguments.> nbinrnd (1)
***** error<nbinrnd: R and PS must be of common size or scalars.> ...
 nbinrnd (ones (3), ones (2))
***** error<nbinrnd: R and PS must be of common size or scalars.> ...
 nbinrnd (ones (2), ones (3))
***** error<nbinrnd: R and PS must not be complex.> nbinrnd (i, 2, 3)
***** error<nbinrnd: R and PS must not be complex.> nbinrnd (1, i, 3)
***** error<nbinrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nbinrnd (1, 2, -1)
***** error<nbinrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nbinrnd (1, 2, 1.2)
***** error<nbinrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nbinrnd (1, 2, ones (2))
***** error<nbinrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nbinrnd (1, 2, [2 -1 2])
***** error<nbinrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 nbinrnd (1, 2, [2 0 2.5])
***** error<nbinrnd: dimensions must be non-negative integers.> ...
 nbinrnd (1, 2, 2, -1, 5)
***** error<nbinrnd: dimensions must be non-negative integers.> ...
 nbinrnd (1, 2, 2, 1.5, 5)
***** error<nbinrnd: R and PS must be scalars or of size SZ.> ...
 nbinrnd (2, ones (2), 3)
***** error<nbinrnd: R and PS must be scalars or of size SZ.> ...
 nbinrnd (2, ones (2), [3, 2])
***** error<nbinrnd: R and PS must be scalars or of size SZ.> ...
 nbinrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/raylrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/raylrnd.m
***** assert (size (raylrnd (2)), [1, 1])
***** assert (size (raylrnd (ones (2, 1))), [2, 1])
***** assert (size (raylrnd (ones (2, 2))), [2, 2])
***** assert (size (raylrnd (1, 3)), [3, 3])
***** assert (size (raylrnd (1, [4, 1])), [4, 1])
***** assert (size (raylrnd (1, 4, 1)), [4, 1])
***** assert (size (raylrnd (1, 4, 1)), [4, 1])
***** assert (size (raylrnd (1, 4, 1, 5)), [4, 1, 5])
***** assert (size (raylrnd (1, 0, 1)), [0, 1])
***** assert (size (raylrnd (1, 1, 0)), [1, 0])
***** assert (size (raylrnd (1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (raylrnd (1, [])), [0, 0])
***** assert (size (raylrnd (1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (raylrnd (0, 1, 1), NaN)
***** assert (raylrnd ([0, 0, 0], [1, 3]), [NaN, NaN, NaN])
***** assert (class (raylrnd (2)), "double")
***** assert (class (raylrnd (single (2))), "single")
***** assert (class (raylrnd (single ([2, 2]))), "single")
***** error<raylrnd: function called with too few input arguments.> raylrnd ()
***** error<raylrnd: SIGMA must not be complex.> raylrnd (i)
***** error<raylrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 raylrnd (1, -1)
***** error<raylrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 raylrnd (1, 1.2)
***** error<raylrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 raylrnd (1, ones (2))
***** error<raylrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 raylrnd (1, [2 -1 2])
***** error<raylrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 raylrnd (1, [2 0 2.5])
***** error<raylrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 raylrnd (ones (2), ones (2))
***** error<raylrnd: dimensions must be non-negative integers.> ...
 raylrnd (1, 2, -1, 5)
***** error<raylrnd: dimensions must be non-negative integers.> ...
 raylrnd (1, 2, 1.5, 5)
***** error<raylrnd: SIGMA must be scalar or of size SZ.> raylrnd (ones (2,2), 3)
***** error<raylrnd: SIGMA must be scalar or of size SZ.> raylrnd (ones (2,2), [3, 2])
***** error<raylrnd: SIGMA must be scalar or of size SZ.> raylrnd (ones (2,2), 2, 3)
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/dist_fun/tpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tpdf.m
***** demo
 ## Plot various PDFs from the Student's T distribution
 x = -5:0.01:5;
 y1 = tpdf (x, 1);
 y2 = tpdf (x, 2);
 y3 = tpdf (x, 5);
 y4 = tpdf (x, Inf);
 plot (x, y1, "-b", x, y2, "-g", x, y3, "-r", x, y4, "-m")
 grid on
 xlim ([-5, 5])
 ylim ([0, 0.41])
 legend ({"df = 1", "df = 2", ...
          "df = 5", 'df = \infty'}, "location", "northeast")
 title ("Student's T PDF")
 xlabel ("values in x")
 ylabel ("density")
***** test
 x = rand (10,1);
 y = 1./(pi * (1 + x.^2));
 assert (tpdf (x, 1), y, 5*eps);
***** shared x, y
 x = [-Inf 0 0.5 1 Inf];
 y = 1./(pi * (1 + x.^2));
***** assert (tpdf (x, ones (1,5)), y, eps)
***** assert (tpdf (x, 1), y, eps)
***** assert (tpdf (x, [0 NaN 1 1 1]), [NaN NaN y(3:5)], eps)
***** assert (tpdf (x, Inf), normpdf (x))
***** assert (tpdf ([x, NaN], 1), [y, NaN], eps)
***** assert (tpdf (single ([x, NaN]), 1), single ([y, NaN]), eps ("single"))
***** assert (tpdf ([x, NaN], single (1)), single ([y, NaN]), eps ("single"))
***** error<tpdf: function called with too few input arguments.> tpdf ()
***** error<tpdf: function called with too few input arguments.> tpdf (1)
***** error<tpdf: X and DF must be of common size or scalars.> ...
 tpdf (ones (3), ones (2))
***** error<tpdf: X and DF must be of common size or scalars.> ...
 tpdf (ones (2), ones (3))
***** error<tpdf: X and DF must not be complex.> tpdf (i, 2)
***** error<tpdf: X and DF must not be complex.> tpdf (2, i)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/dist_fun/gaminv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gaminv.m
***** demo
 ## Plot various iCDFs from the Gamma distribution
 p = 0.001:0.001:0.999;
 x1 = gaminv (p, 1, 2);
 x2 = gaminv (p, 2, 2);
 x3 = gaminv (p, 3, 2);
 x4 = gaminv (p, 5, 1);
 x5 = gaminv (p, 9, 0.5);
 x6 = gaminv (p, 7.5, 1);
 x7 = gaminv (p, 0.5, 1);
 plot (p, x1, "-r", p, x2, "-g", p, x3, "-y", p, x4, "-m", ...
       p, x5, "-k", p, x6, "-b", p, x7, "-c")
 ylim ([0, 20])
 grid on
 legend ({"α = 1, β = 2", "α = 2, β = 2", "α = 3, β = 2", ...
          "α = 5, β = 1", "α = 9, β = 0.5", "α = 7.5, β = 1", ...
          "α = 0.5, β = 1"}, "location", "northwest")
 title ("Gamma iCDF")
 xlabel ("probability")
 ylabel ("x")
***** shared p
 p = [-1 0 0.63212055882855778 1 2];
***** assert (gaminv (p, ones (1,5), ones (1,5)), [NaN 0 1 Inf NaN], eps)
***** assert (gaminv (p, 1, ones (1,5)), [NaN 0 1 Inf NaN], eps)
***** assert (gaminv (p, ones (1,5), 1), [NaN 0 1 Inf NaN], eps)
***** assert (gaminv (p, [1 -Inf NaN Inf 1], 1), [NaN NaN NaN NaN NaN])
***** assert (gaminv (p, 1, [1 -Inf NaN Inf 1]), [NaN NaN NaN NaN NaN])
***** assert (gaminv ([p(1:2) NaN p(4:5)], 1, 1), [NaN 0 NaN Inf NaN])
***** assert (gaminv ([p(1:2) NaN p(4:5)], 1, 1), [NaN 0 NaN Inf NaN])
***** assert (gaminv (1e-16, 1, 1), 1e-16, eps)
***** assert (gaminv (1e-16, 1, 2), 2e-16, eps)
***** assert (gaminv (1e-20, 3, 5), 1.957434012161815e-06, eps)
***** assert (gaminv (1e-15, 1, 1), 1e-15, eps)
***** assert (gaminv (1e-35, 1, 1), 1e-35, eps)
***** assert (gaminv ([p, NaN], 1, 1), [NaN 0 1 Inf NaN NaN], eps)
***** assert (gaminv (single ([p, NaN]), 1, 1), single ([NaN 0 1 Inf NaN NaN]), ...
 eps ("single"))
***** assert (gaminv ([p, NaN], single (1), 1), single ([NaN 0 1 Inf NaN NaN]), ...
 eps ("single"))
***** assert (gaminv ([p, NaN], 1, single (1)), single ([NaN 0 1 Inf NaN NaN]), ...
 eps ("single"))
***** error<gaminv: function called with too few input arguments.> gaminv ()
***** error<gaminv: function called with too few input arguments.> gaminv (1)
***** error<gaminv: function called with too few input arguments.> gaminv (1,2)
***** error<gaminv: P, Α, and Β must be of common size or scalars.> ...
 gaminv (ones (3), ones (2), ones (2))
***** error<gaminv: P, Α, and Β must be of common size or scalars.> ...
 gaminv (ones (2), ones (3), ones (2))
***** error<gaminv: P, Α, and Β must be of common size or scalars.> ...
 gaminv (ones (2), ones (2), ones (3))
***** error<gaminv: P, Α, and Β must not be complex.> gaminv (i, 2, 2)
***** error<gaminv: P, Α, and Β must not be complex.> gaminv (2, i, 2)
***** error<gaminv: P, Α, and Β must not be complex.> gaminv (2, 2, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/wienrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wienrnd.m
***** error wienrnd (0)
***** error wienrnd (1, 3, -50)
***** error wienrnd (5, 0)
***** error wienrnd (0.4, 3, 5)
***** error wienrnd ([1 4], 3, 5)
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/dist_fun/frnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/frnd.m
***** assert (size (frnd (1, 1)), [1 1])
***** assert (size (frnd (1, ones (2,1))), [2, 1])
***** assert (size (frnd (1, ones (2,2))), [2, 2])
***** assert (size (frnd (ones (2,1), 1)), [2, 1])
***** assert (size (frnd (ones (2,2), 1)), [2, 2])
***** assert (size (frnd (1, 1, 3)), [3, 3])
***** assert (size (frnd (1, 1, [4, 1])), [4, 1])
***** assert (size (frnd (1, 1, 4, 1)), [4, 1])
***** assert (size (frnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (frnd (1, 1, 0, 1)), [0, 1])
***** assert (size (frnd (1, 1, 1, 0)), [1, 0])
***** assert (size (frnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (frnd (1, 1, [])), [0, 0])
***** assert (size (frnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (frnd (1, 1)), "double")
***** assert (class (frnd (1, single (1))), "single")
***** assert (class (frnd (1, single ([1, 1]))), "single")
***** assert (class (frnd (single (1), 1)), "single")
***** assert (class (frnd (single ([1, 1]), 1)), "single")
***** error<frnd: function called with too few input arguments.> frnd ()
***** error<frnd: function called with too few input arguments.> frnd (1)
***** error<frnd: DF1 and DF2 must be of common size or scalars.> ...
 frnd (ones (3), ones (2))
***** error<frnd: DF1 and DF2 must be of common size or scalars.> ...
 frnd (ones (2), ones (3))
***** error<frnd: DF1 and DF2 must not be complex.> frnd (i, 2, 3)
***** error<frnd: DF1 and DF2 must not be complex.> frnd (1, i, 3)
***** error<frnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 frnd (1, 2, -1)
***** error<frnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 frnd (1, 2, 1.2)
***** error<frnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 frnd (1, 2, ones (2))
***** error<frnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 frnd (1, 2, [2 -1 2])
***** error<frnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 frnd (1, 2, [2 0 2.5])
***** error<frnd: dimensions must be non-negative integers.> ...
 frnd (1, 2, 2, -1, 5)
***** error<frnd: dimensions must be non-negative integers.> ...
 frnd (1, 2, 2, 1.5, 5)
***** error<frnd: DF1 and DF2 must be scalars or of size SZ.> ...
 frnd (2, ones (2), 3)
***** error<frnd: DF1 and DF2 must be scalars or of size SZ.> ...
 frnd (2, ones (2), [3, 2])
***** error<frnd: DF1 and DF2 must be scalars or of size SZ.> ...
 frnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/tinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tinv.m
***** demo
 ## Plot various iCDFs from the Student's T distribution
 p = 0.001:0.001:0.999;
 x1 = tinv (p, 1);
 x2 = tinv (p, 2);
 x3 = tinv (p, 5);
 x4 = tinv (p, Inf);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-m")
 grid on
 xlim ([0, 1])
 ylim ([-5, 5])
 legend ({"df = 1", "df = 2", ...
          "df = 5", 'df = \infty'}, "location", "northwest")
 title ("Student's T iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (tinv (p, ones (1,5)), [NaN -Inf 0 Inf NaN])
***** assert (tinv (p, 1), [NaN -Inf 0 Inf NaN], eps)
***** assert (tinv (p, [1 0 NaN 1 1]), [NaN NaN NaN Inf NaN], eps)
***** assert (tinv ([p(1:2) NaN p(4:5)], 1), [NaN -Inf NaN Inf NaN])
***** assert (tinv ([p, NaN], 1), [NaN -Inf 0 Inf NaN NaN], eps)
***** assert (tinv (single ([p, NaN]), 1), single ([NaN -Inf 0 Inf NaN NaN]), eps ("single"))
***** assert (tinv ([p, NaN], single (1)), single ([NaN -Inf 0 Inf NaN NaN]), eps ("single"))
***** error<tinv: function called with too few input arguments.> tinv ()
***** error<tinv: function called with too few input arguments.> tinv (1)
***** error<tinv: P and DF must be of common size or scalars.> ...
 tinv (ones (3), ones (2))
***** error<tinv: P and DF must be of common size or scalars.> ...
 tinv (ones (2), ones (3))
***** error<tinv: P and DF must not be complex.> tinv (i, 2)
***** error<tinv: P and DF must not be complex.> tinv (2, i)
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fun/cauchycdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/cauchycdf.m
***** demo
 ## Plot various CDFs from the Cauchy distribution
 x = -5:0.01:5;
 p1 = cauchycdf (x, 0, 0.5);
 p2 = cauchycdf (x, 0, 1);
 p3 = cauchycdf (x, 0, 2);
 p4 = cauchycdf (x, -2, 1);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c")
 grid on
 xlim ([-5, 5])
 legend ({"x0 = 0, γ = 0.5", "x0 = 0, γ = 1", ...
          "x0 = 0, γ = 2", "x0 = -2, γ = 1"}, "location", "southeast")
 title ("Cauchy CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1 0 0.5 1 2];
 y = 1/pi * atan ((x-1) / 2) + 1/2;
***** assert (cauchycdf (x, ones (1,5), 2*ones (1,5)), y)
***** assert (cauchycdf (x, 1, 2*ones (1,5)), y)
***** assert (cauchycdf (x, ones (1,5), 2), y)
***** assert (cauchycdf (x, [-Inf 1 NaN 1 Inf], 2), [NaN y(2) NaN y(4) NaN])
***** assert (cauchycdf (x, 1, 2*[0 1 NaN 1 Inf]), [NaN y(2) NaN y(4) NaN])
***** assert (cauchycdf ([x(1:2) NaN x(4:5)], 1, 2), [y(1:2) NaN y(4:5)])
***** assert (cauchycdf ([x, NaN], 1, 2), [y, NaN])
***** assert (cauchycdf (single ([x, NaN]), 1, 2), single ([y, NaN]), eps ("single"))
***** assert (cauchycdf ([x, NaN], single (1), 2), single ([y, NaN]), eps ("single"))
***** assert (cauchycdf ([x, NaN], 1, single (2)), single ([y, NaN]), eps ("single"))
***** error<cauchycdf: function called with too few input arguments.> cauchycdf ()
***** error<cauchycdf: function called with too few input arguments.> cauchycdf (1)
***** error<cauchycdf: function called with too few input arguments.> ...
 cauchycdf (1, 2)
***** error<cauchycdf: function called with too many inputs> ...
 cauchycdf (1, 2, 3, 4, 5)
***** error<cauchycdf: invalid argument for upper tail.> cauchycdf (1, 2, 3, "tail")
***** error<cauchycdf: invalid argument for upper tail.> cauchycdf (1, 2, 3, 4)
***** error<cauchycdf: X, X0, and GAMMA must be of common size or scalars.> ...
 cauchycdf (ones (3), ones (2), ones (2))
***** error<cauchycdf: X, X0, and GAMMA must be of common size or scalars.> ...
 cauchycdf (ones (2), ones (3), ones (2))
***** error<cauchycdf: X, X0, and GAMMA must be of common size or scalars.> ...
 cauchycdf (ones (2), ones (2), ones (3))
***** error<cauchycdf: X, X0, and GAMMA must not be complex.> cauchycdf (i, 2, 2)
***** error<cauchycdf: X, X0, and GAMMA must not be complex.> cauchycdf (2, i, 2)
***** error<cauchycdf: X, X0, and GAMMA must not be complex.> cauchycdf (2, 2, i)
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/dist_fun/burrcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/burrcdf.m
***** demo
 ## Plot various CDFs from the Burr type XII distribution
 x = 0.001:0.001:5;
 p1 = burrcdf (x, 1, 1, 1);
 p2 = burrcdf (x, 1, 1, 2);
 p3 = burrcdf (x, 1, 1, 3);
 p4 = burrcdf (x, 1, 2, 1);
 p5 = burrcdf (x, 1, 3, 1);
 p6 = burrcdf (x, 1, 0.5, 2);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", ...
       x, p4, "-c", x, p5, "-m", x, p6, "-k")
 grid on
 legend ({"λ = 1, c = 1, k = 1", "λ = 1, c = 1, k = 2", ...
          "λ = 1, c = 1, k = 3", "λ = 1, c = 2, k = 1", ...
          "λ = 1, c = 3, k = 1", "λ = 1, c = 0.5, k = 2"}, ...
         "location", "southeast")
 title ("Burr type XII CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1, 0, 1, 2, Inf];
 y = [0, 0, 1/2, 2/3, 1];
***** assert (burrcdf (x, ones(1,5), ones (1,5), ones (1,5)), y, eps)
***** assert (burrcdf (x, 1, 1, 1), y, eps)
***** assert (burrcdf (x, [1, 1, NaN, 1, 1], 1, 1), [y(1:2), NaN, y(4:5)], eps)
***** assert (burrcdf (x, 1, [1, 1, NaN, 1, 1], 1), [y(1:2), NaN, y(4:5)], eps)
***** assert (burrcdf (x, 1, 1, [1, 1, NaN, 1, 1]), [y(1:2), NaN, y(4:5)], eps)
***** assert (burrcdf ([x, NaN], 1, 1, 1), [y, NaN], eps)
***** assert (burrcdf (single ([x, NaN]), 1, 1, 1), single ([y, NaN]), eps("single"))
***** assert (burrcdf ([x, NaN], single (1), 1, 1), single ([y, NaN]), eps("single"))
***** assert (burrcdf ([x, NaN], 1, single (1), 1), single ([y, NaN]), eps("single"))
***** assert (burrcdf ([x, NaN], 1, 1, single (1)), single ([y, NaN]), eps("single"))
***** error<burrcdf: function called with too few input arguments.> burrcdf ()
***** error<burrcdf: function called with too few input arguments.> burrcdf (1)
***** error<burrcdf: function called with too few input arguments.> burrcdf (1, 2)
***** error<burrcdf: function called with too few input arguments.> burrcdf (1, 2, 3)
***** error<burrcdf: function called with too many inputs> ...
 burrcdf (1, 2, 3, 4, 5, 6)
***** error<burrcdf: invalid argument for upper tail.> burrcdf (1, 2, 3, 4, "tail")
***** error<burrcdf: invalid argument for upper tail.> burrcdf (1, 2, 3, 4, 5)
***** error<burrcdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrcdf (ones (3), ones (2), ones(2), ones(2))
***** error<burrcdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrcdf (ones (2), ones (3), ones(2), ones(2))
***** error<burrcdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrcdf (ones (2), ones (2), ones(3), ones(2))
***** error<burrcdf: X, LAMBDA, C, and K must be of common size or scalars.> ...
 burrcdf (ones (2), ones (2), ones(2), ones(3))
***** error<burrcdf: X, LAMBDA, C, and K must not be complex.> burrcdf (i, 2, 3, 4)
***** error<burrcdf: X, LAMBDA, C, and K must not be complex.> burrcdf (1, i, 3, 4)
***** error<burrcdf: X, LAMBDA, C, and K must not be complex.> burrcdf (1, 2, i, 4)
***** error<burrcdf: X, LAMBDA, C, and K must not be complex.> burrcdf (1, 2, 3, i)
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/fcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/fcdf.m
***** demo
 ## Plot various CDFs from the F distribution
 x = 0.01:0.01:4;
 p1 = fcdf (x, 1, 2);
 p2 = fcdf (x, 2, 1);
 p3 = fcdf (x, 5, 2);
 p4 = fcdf (x, 10, 1);
 p5 = fcdf (x, 100, 100);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-m")
 grid on
 legend ({"df1 = 1, df2 = 2", "df1 = 2, df2 = 1", ...
          "df1 = 5, df2 = 2", "df1 = 10, df2 = 1", ...
          "df1 = 100, df2 = 100"}, "location", "southeast")
 title ("F CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1, 0, 0.5, 1, 2, Inf];
 y = [0, 0, 1/3, 1/2, 2/3, 1];
***** assert (fcdf (x, 2*ones (1,6), 2*ones (1,6)), y, eps)
***** assert (fcdf (x, 2, 2*ones (1,6)), y, eps)
***** assert (fcdf (x, 2*ones (1,6), 2), y, eps)
***** assert (fcdf (x, [0 NaN Inf 2 2 2], 2), [NaN NaN 0.1353352832366127 y(4:6)], eps)
***** assert (fcdf (x, 2, [0 NaN Inf 2 2 2]), [NaN NaN 0.3934693402873666 y(4:6)], eps)
***** assert (fcdf ([x(1:2) NaN x(4:6)], 2, 2), [y(1:2) NaN y(4:6)], eps)
***** assert (fcdf ([x, NaN], 2, 2), [y, NaN], eps)
***** assert (fcdf (single ([x, NaN]), 2, 2), single ([y, NaN]), eps ("single"))
***** assert (fcdf ([x, NaN], single (2), 2), single ([y, NaN]), eps ("single"))
***** assert (fcdf ([x, NaN], 2, single (2)), single ([y, NaN]), eps ("single"))
***** error<fcdf: function called with too few input arguments.> fcdf ()
***** error<fcdf: function called with too few input arguments.> fcdf (1)
***** error<fcdf: function called with too few input arguments.> fcdf (1, 2)
***** error<fcdf: invalid argument for upper tail.> fcdf (1, 2, 3, 4)
***** error<fcdf: invalid argument for upper tail.> fcdf (1, 2, 3, "tail")
***** error<fcdf: X, DF1, and DF2 must be of common size or scalars.> ...
 fcdf (ones (3), ones (2), ones (2))
***** error<fcdf: X, DF1, and DF2 must be of common size or scalars.> ...
 fcdf (ones (2), ones (3), ones (2))
***** error<fcdf: X, DF1, and DF2 must be of common size or scalars.> ...
 fcdf (ones (2), ones (2), ones (3))
***** error<fcdf: X, DF1, and DF2 must not be complex.> fcdf (i, 2, 2)
***** error<fcdf: X, DF1, and DF2 must not be complex.> fcdf (2, i, 2)
***** error<fcdf: X, DF1, and DF2 must not be complex.> fcdf (2, 2, i)
21 tests, 21 passed, 0 known failure, 0 skipped
[inst/dist_fun/triinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/triinv.m
***** demo
 ## Plot various iCDFs from the triangular distribution
 p = 0.001:0.001:0.999;
 x1 = triinv (p, 3, 6, 4);
 x2 = triinv (p, 1, 5, 2);
 x3 = triinv (p, 2, 9, 3);
 x4 = triinv (p, 2, 9, 5);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([0, 10])
 legend ({"a = 3, b = 6, c = 4", "a = 1, b = 5, c = 2", ...
          "a = 2, b = 9, c = 3", "a = 2, b = 9, c = 5"}, ...
         "location", "northwest")
 title ("Triangular CDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p, y
 p = [-1, 0, 0.02, 0.5, 0.98, 1, 2];
 y = [NaN, 0, 0.1, 0.5, 0.9, 1, NaN] + 1;
***** assert (triinv (p, ones (1, 7), 1.5 * ones (1, 7), 2 * ones (1, 7)), y, eps)
***** assert (triinv (p, 1 * ones (1, 7), 1.5, 2), y, eps)
***** assert (triinv (p, 1, 1.5, 2 * ones (1, 7)), y, eps)
***** assert (triinv (p, 1, 1.5*ones (1,7), 2), y, eps)
***** assert (triinv (p, 1, 1.5, 2), y, eps)
***** assert (triinv (p, [1, 1, NaN, 1, 1, 1, 1], 1.5, 2), [y(1:2), NaN, y(4:7)], eps)
***** assert (triinv (p, 1, 1.5 * [1, 1, NaN, 1, 1, 1, 1], 2), [y(1:2), NaN, y(4:7)], eps)
***** assert (triinv (p, 1, 1.5, 2 * [1, 1, NaN, 1, 1, 1, 1]), [y(1:2), NaN, y(4:7)], eps)
***** assert (triinv ([p, NaN], 1, 1.5, 2), [y, NaN], eps)
***** assert (triinv (single ([p, NaN]), 1, 1.5, 2), single ([y, NaN]), eps('single'))
***** assert (triinv ([p, NaN], single (1), 1.5, 2), single ([y, NaN]), eps('single'))
***** assert (triinv ([p, NaN], 1, single (1.5), 2), single ([y, NaN]), eps('single'))
***** assert (triinv ([p, NaN], 1, 1.5, single (2)), single ([y, NaN]), eps('single'))
***** error<triinv: function called with too few input arguments.> triinv ()
***** error<triinv: function called with too few input arguments.> triinv (1)
***** error<triinv: function called with too few input arguments.> triinv (1, 2)
***** error<triinv: function called with too few input arguments.> triinv (1, 2, 3)
***** error<triinv: function called with too many inputs> ...
 triinv (1, 2, 3, 4, 5)
***** error<triinv: P, A, B, and C must be of common size or scalars.> ...
 triinv (ones (3), ones (2), ones(2), ones(2))
***** error<triinv: P, A, B, and C must be of common size or scalars.> ...
 triinv (ones (2), ones (3), ones(2), ones(2))
***** error<triinv: P, A, B, and C must be of common size or scalars.> ...
 triinv (ones (2), ones (2), ones(3), ones(2))
***** error<triinv: P, A, B, and C must be of common size or scalars.> ...
 triinv (ones (2), ones (2), ones(2), ones(3))
***** error<triinv: P, A, B, and C must not be complex.> triinv (i, 2, 3, 4)
***** error<triinv: P, A, B, and C must not be complex.> triinv (1, i, 3, 4)
***** error<triinv: P, A, B, and C must not be complex.> triinv (1, 2, i, 4)
***** error<triinv: P, A, B, and C must not be complex.> triinv (1, 2, 3, i)
26 tests, 26 passed, 0 known failure, 0 skipped
[inst/dist_fun/loglrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/loglrnd.m
***** assert (size (loglrnd (1, 1)), [1, 1])
***** assert (size (loglrnd (1, ones (2, 1))), [2, 1])
***** assert (size (loglrnd (1, ones (2, 2))), [2, 2])
***** assert (size (loglrnd (ones (2, 1), 1)), [2, 1])
***** assert (size (loglrnd (ones (2, 2), 1)), [2, 2])
***** assert (size (loglrnd (1, 1, 3)), [3, 3])
***** assert (size (loglrnd (1, 1, [4, 1])), [4, 1])
***** assert (size (loglrnd (1, 1, 4, 1)), [4, 1])
***** assert (size (loglrnd (1, 1, 4, 1, 5)), [4, 1, 5])
***** assert (size (loglrnd (1, 1, 0, 1)), [0, 1])
***** assert (size (loglrnd (1, 1, 1, 0)), [1, 0])
***** assert (size (loglrnd (1, 1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (loglrnd (1, 1, [])), [0, 0])
***** assert (size (loglrnd (1, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (loglrnd (1, 1)), "double")
***** assert (class (loglrnd (1, single (1))), "single")
***** assert (class (loglrnd (1, single ([1, 1]))), "single")
***** assert (class (loglrnd (single (1), 1)), "single")
***** assert (class (loglrnd (single ([1, 1]), 1)), "single")
***** error<loglrnd: function called with too few input arguments.> loglrnd ()
***** error<loglrnd: function called with too few input arguments.> loglrnd (1)
***** error<loglrnd: MU and SIGMA must be of common size or scalars.> ...
 loglrnd (ones (3), ones (2))
***** error<loglrnd: MU and SIGMA must be of common size or scalars.> ...
 loglrnd (ones (2), ones (3))
***** error<loglrnd: MU and SIGMA must not be complex.> loglrnd (i, 2, 3)
***** error<loglrnd: MU and SIGMA must not be complex.> loglrnd (1, i, 3)
***** error<loglrnd: SZ must be mu scalar or mu row vector of non-negative integers.> ...
 loglrnd (1, 2, -1)
***** error<loglrnd: SZ must be mu scalar or mu row vector of non-negative integers.> ...
 loglrnd (1, 2, 1.2)
***** error<loglrnd: SZ must be mu scalar or mu row vector of non-negative integers.> ...
 loglrnd (1, 2, ones (2))
***** error<loglrnd: SZ must be mu scalar or mu row vector of non-negative integers.> ...
 loglrnd (1, 2, [2 -1 2])
***** error<loglrnd: SZ must be mu scalar or mu row vector of non-negative integers.> ...
 loglrnd (1, 2, [2 0 2.5])
***** error<loglrnd: dimensions must be non-negative integers.> ...
 loglrnd (1, 2, 2, -1, 5)
***** error<loglrnd: dimensions must be non-negative integers.> ...
 loglrnd (1, 2, 2, 1.5, 5)
***** error<loglrnd: MU and SIGMA must be scalars or of size SZ.> ...
 loglrnd (2, ones (2), 3)
***** error<loglrnd: MU and SIGMA must be scalars or of size SZ.> ...
 loglrnd (2, ones (2), [3, 2])
***** error<loglrnd: MU and SIGMA must be scalars or of size SZ.> ...
 loglrnd (2, ones (2), 3, 2)
35 tests, 35 passed, 0 known failure, 0 skipped
[inst/dist_fun/poisspdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/poisspdf.m
***** demo
 ## Plot various PDFs from the Poisson distribution
 x = 0:20;
 y1 = poisspdf (x, 1);
 y2 = poisspdf (x, 4);
 y3 = poisspdf (x, 10);
 plot (x, y1, "*b", x, y2, "*g", x, y3, "*r")
 grid on
 ylim ([0, 0.4])
 legend ({"λ = 1", "λ = 4", "λ = 10"}, "location", "northeast")
 title ("Poisson PDF")
 xlabel ("values in x (number of occurences)")
 ylabel ("density")
***** shared x, y
 x = [-1 0 1 2 Inf];
 y = [0, exp(-1)*[1 1 0.5], 0];
***** assert (poisspdf (x, ones (1,5)), y, eps)
***** assert (poisspdf (x, 1), y, eps)
***** assert (poisspdf (x, [1 0 NaN 1 1]), [y(1) NaN NaN y(4:5)], eps)
***** assert (poisspdf ([x, NaN], 1), [y, NaN], eps)
***** assert (poisspdf (single ([x, NaN]), 1), single ([y, NaN]), eps ("single"))
***** assert (poisspdf ([x, NaN], single (1)), single ([y, NaN]), eps ("single"))
***** error<poisspdf: function called with too few input arguments.> poisspdf ()
***** error<poisspdf: function called with too few input arguments.> poisspdf (1)
***** error<poisspdf: X and LAMBDA must be of common size or scalars.> ...
 poisspdf (ones (3), ones (2))
***** error<poisspdf: X and LAMBDA must be of common size or scalars.> ...
 poisspdf (ones (2), ones (3))
***** error<poisspdf: X and LAMBDA must not be complex.> poisspdf (i, 2)
***** error<poisspdf: X and LAMBDA must not be complex.> poisspdf (2, i)
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fun/logncdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/logncdf.m
***** demo
 ## Plot various CDFs from the log-normal distribution
 x = 0:0.01:3;
 p1 = logncdf (x, 0, 1);
 p2 = logncdf (x, 0, 0.5);
 p3 = logncdf (x, 0, 0.25);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r")
 grid on
 legend ({"μ = 0, σ = 1", "μ = 0, σ = 0.5", "μ = 0, σ = 0.25"}, ...
         "location", "southeast")
 title ("Log-normal CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1, 0, 1, e, Inf];
 y = [0, 0, 0.5, 1/2+1/2*erf(1/2), 1];
***** assert (logncdf (x, zeros (1,5), sqrt(2)*ones (1,5)), y, eps)
***** assert (logncdf (x, zeros (1,5), sqrt(2)*ones (1,5), []), y, eps)
***** assert (logncdf (x, 0, sqrt(2)*ones (1,5)), y, eps)
***** assert (logncdf (x, zeros (1,5), sqrt(2)), y, eps)
***** assert (logncdf (x, [0 1 NaN 0 1], sqrt(2)), [0 0 NaN y(4:5)], eps)
***** assert (logncdf (x, 0, sqrt(2)*[0 NaN Inf 1 1]), [NaN NaN y(3:5)], eps)
***** assert (logncdf ([x(1:3) NaN x(5)], 0, sqrt(2)), [y(1:3) NaN y(5)], eps)
***** assert (logncdf ([x, NaN], 0, sqrt(2)), [y, NaN], eps)
***** assert (logncdf (single ([x, NaN]), 0, sqrt(2)), single ([y, NaN]), eps ("single"))
***** assert (logncdf ([x, NaN], single (0), sqrt(2)), single ([y, NaN]), eps ("single"))
***** assert (logncdf ([x, NaN], 0, single (sqrt(2))), single ([y, NaN]), eps ("single"))
***** error<logncdf: invalid number of input arguments.> logncdf ()
***** error<logncdf: invalid number of input arguments.> logncdf (1,2,3,4,5,6,7)
***** error<logncdf: invalid argument for upper tail.> logncdf (1, 2, 3, 4, "uper")
***** error<logncdf: X, MU, and SIGMA must be of common size or scalars.> ...
 logncdf (ones (3), ones (2), ones (2))
***** error<logncdf: invalid size of covariance matrix.> logncdf (2, 3, 4, [1, 2])
***** error<logncdf: covariance matrix is required for confidence bounds.> ...
 [p, plo, pup] = logncdf (1, 2, 3)
***** error<logncdf: invalid value for alpha.> [p, plo, pup] = ...
 logncdf (1, 2, 3, [1, 0; 0, 1], 0)
***** error<logncdf: invalid value for alpha.> [p, plo, pup] = ...
 logncdf (1, 2, 3, [1, 0; 0, 1], 1.22)
***** error<logncdf: invalid value for alpha.> [p, plo, pup] = ...
 logncdf (1, 2, 3, [1, 0; 0, 1], "alpha", "upper")
***** error<logncdf: X, MU, and SIGMA must not be complex.> logncdf (i, 2, 2)
***** error<logncdf: X, MU, and SIGMA must not be complex.> logncdf (2, i, 2)
***** error<logncdf: X, MU, and SIGMA must not be complex.> logncdf (2, 2, i)
***** error<logncdf: bad covariance matrix.> ...
 [p, plo, pup] =logncdf (1, 2, 3, [1, 0; 0, -inf], 0.04)
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/dist_fun/bisacdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/bisacdf.m
***** demo
 ## Plot various CDFs from the Birnbaum-Saunders distribution
 x = 0.01:0.01:4;
 p1 = bisacdf (x, 1, 0.5);
 p2 = bisacdf (x, 1, 1);
 p3 = bisacdf (x, 1, 2);
 p4 = bisacdf (x, 1, 5);
 p5 = bisacdf (x, 1, 10);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-m")
 grid on
 legend ({"β = 1, γ = 0.5", "β = 1, γ = 1", "β = 1, γ = 2", ...
          "β = 1, γ = 5", "β = 1, γ = 10"}, "location", "southeast")
 title ("Birnbaum-Saunders CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** demo
 ## Plot various CDFs from the Birnbaum-Saunders distribution
 x = 0.01:0.01:6;
 p1 = bisacdf (x, 1, 0.3);
 p2 = bisacdf (x, 2, 0.3);
 p3 = bisacdf (x, 1, 0.5);
 p4 = bisacdf (x, 3, 0.5);
 p5 = bisacdf (x, 5, 0.5);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-m")
 grid on
 legend ({"β = 1, γ = 0.3", "β = 2, γ = 0.3", "β = 1, γ = 0.5", ...
          "β = 3, γ = 0.5", "β = 5, γ = 0.5"}, "location", "southeast")
 title ("Birnbaum-Saunders CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x, y
 x = [-1, 0, 1, 2, Inf];
 y = [0, 0, 1/2, 0.76024993890652337, 1];
***** assert (bisacdf (x, ones (1,5), ones (1,5)), y, eps)
***** assert (bisacdf (x, 1, 1), y, eps)
***** assert (bisacdf (x, 1, ones (1,5)), y, eps)
***** assert (bisacdf (x, ones (1,5), 1), y, eps)
***** assert (bisacdf (x, 1, 1), y, eps)
***** assert (bisacdf (x, 1, [1, 1, NaN, 1, 1]), [y(1:2), NaN, y(4:5)], eps)
***** assert (bisacdf (x, [1, 1, NaN, 1, 1], 1), [y(1:2), NaN, y(4:5)], eps)
***** assert (bisacdf ([x, NaN], 1, 1), [y, NaN], eps)
***** assert (bisacdf (single ([x, NaN]), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (bisacdf ([x, NaN], 1, single (1)), single ([y, NaN]), eps ("single"))
***** assert (bisacdf ([x, NaN], single (1), 1), single ([y, NaN]), eps ("single"))
***** error<bisacdf: function called with too few input arguments.> bisacdf ()
***** error<bisacdf: function called with too few input arguments.> bisacdf (1)
***** error<bisacdf: function called with too few input arguments.> bisacdf (1, 2)
***** error<bisacdf: function called with too many inputs> ...
 bisacdf (1, 2, 3, 4, 5)
***** error<bisacdf: invalid argument for upper tail.> bisacdf (1, 2, 3, "tail")
***** error<bisacdf: invalid argument for upper tail.> bisacdf (1, 2, 3, 4)
***** error<bisacdf: X, BETA, and GAMMA must be of common size or scalars.> ...
 bisacdf (ones (3), ones (2), ones(2))
***** error<bisacdf: X, BETA, and GAMMA must be of common size or scalars.> ...
 bisacdf (ones (2), ones (3), ones(2))
***** error<bisacdf: X, BETA, and GAMMA must be of common size or scalars.> ...
 bisacdf (ones (2), ones (2), ones(3))
***** error<bisacdf: X, BETA, and GAMMA must not be complex.> bisacdf (i, 4, 3)
***** error<bisacdf: X, BETA, and GAMMA must not be complex.> bisacdf (1, i, 3)
***** error<bisacdf: X, BETA, and GAMMA must not be complex.> bisacdf (1, 4, i)
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fun/gevrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/gevrnd.m
***** assert (size (gevrnd (1, 2, 1)), [1, 1]);
***** assert (size (gevrnd (ones (2, 1), 2, 1)), [2, 1]);
***** assert (size (gevrnd (ones (2, 2), 2, 1)), [2, 2]);
***** assert (size (gevrnd (1, 2 * ones (2, 1), 1)), [2, 1]);
***** assert (size (gevrnd (1, 2 * ones (2, 2), 1)), [2, 2]);
***** assert (size (gevrnd (1, 2, 1, 3)), [3, 3]);
***** assert (size (gevrnd (1, 2, 1, [4, 1])), [4, 1]);
***** assert (size (gevrnd (1, 2, 1, 4, 1)), [4, 1]);
***** assert (size (gevrnd (1, 2, 1, [])), [0, 0])
***** assert (size (gevrnd (1, 2, 1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (class (gevrnd (1,1,1)), "double")
***** assert (class (gevrnd (single (1),1,1)), "single")
***** assert (class (gevrnd (single ([1 1]),1,1)), "single")
***** assert (class (gevrnd (1,single (1),1)), "single")
***** assert (class (gevrnd (1,single ([1 1]),1)), "single")
***** assert (class (gevrnd (1,1,single (1))), "single")
***** assert (class (gevrnd (1,1,single ([1 1]))), "single")
***** error<gevrnd: function called with too few input arguments.> gevrnd ()
***** error<gevrnd: function called with too few input arguments.> gevrnd (1)
***** error<gevrnd: function called with too few input arguments.> gevrnd (1, 2)
***** error<gevrnd: K, SIGMA, and MU must be of common size or scalars.> ...
 gevrnd (ones (3), ones (2), ones (2))
***** error<gevrnd: K, SIGMA, and MU must be of common size or scalars.> ...
 gevrnd (ones (2), ones (3), ones (2))
***** error<gevrnd: K, SIGMA, and MU must be of common size or scalars.> ...
 gevrnd (ones (2), ones (2), ones (3))
***** error<gevrnd: K, SIGMA, and MU must not be complex.> gevrnd (i, 2, 3)
***** error<gevrnd: K, SIGMA, and MU must not be complex.> gevrnd (1, i, 3)
***** error<gevrnd: K, SIGMA, and MU must not be complex.> gevrnd (1, 2, i)
***** error<gevrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gevrnd (1, 2, 3, -1)
***** error<gevrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gevrnd (1, 2, 3, 1.2)
***** error<gevrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gevrnd (1, 2, 3, ones (2))
***** error<gevrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gevrnd (1, 2, 3, [2 -1 2])
***** error<gevrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 gevrnd (1, 2, 3, [2 0 2.5])
***** error<gevrnd: dimensions must be non-negative integers.> ...
 gevrnd (1, 2, 3, 2, -1, 5)
***** error<gevrnd: dimensions must be non-negative integers.> ...
 gevrnd (1, 2, 3, 2, 1.5, 5)
***** error<gevrnd: K, SIGMA, and MU must be scalars or of size SZ.> ...
 gevrnd (2, ones (2), 2, 3)
***** error<gevrnd: K, SIGMA, and MU must be scalars or of size SZ.> ...
 gevrnd (2, ones (2), 2, [3, 2])
***** error<gevrnd: K, SIGMA, and MU must be scalars or of size SZ.> ...
 gevrnd (2, ones (2), 2, 3, 2)
36 tests, 36 passed, 0 known failure, 0 skipped
[inst/dist_fun/geocdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/geocdf.m
***** demo
 ## Plot various CDFs from the geometric distribution
 x = 0:10;
 p1 = geocdf (x, 0.2);
 p2 = geocdf (x, 0.5);
 p3 = geocdf (x, 0.7);
 plot (x, p1, "*b", x, p2, "*g", x, p3, "*r")
 grid on
 xlim ([0, 10])
 legend ({"ps = 0.2", "ps = 0.5", "ps = 0.7"}, "location", "southeast")
 title ("Geometric CDF")
 xlabel ("values in x (number of failures)")
 ylabel ("probability")
***** test
 p = geocdf ([1, 2, 3, 4], 0.25);
 assert (p(1), 0.4375000000, 1e-14);
 assert (p(2), 0.5781250000, 1e-14);
 assert (p(3), 0.6835937500, 1e-14);
 assert (p(4), 0.7626953125, 1e-14);
***** test
 p = geocdf ([1, 2, 3, 4], 0.25, "upper");
 assert (p(1), 0.5625000000, 1e-14);
 assert (p(2), 0.4218750000, 1e-14);
 assert (p(3), 0.3164062500, 1e-14);
 assert (p(4), 0.2373046875, 1e-14);
***** shared x, p
 x = [-1 0 1 Inf];
 p = [0 0.5 0.75 1];
***** assert (geocdf (x, 0.5*ones (1,4)), p)
***** assert (geocdf (x, 0.5), p)
***** assert (geocdf (x, 0.5*[-1 NaN 4 1]), [NaN NaN NaN p(4)])
***** assert (geocdf ([x(1:2) NaN x(4)], 0.5), [p(1:2) NaN p(4)])
***** assert (geocdf ([x, NaN], 0.5), [p, NaN])
***** assert (geocdf (single ([x, NaN]), 0.5), single ([p, NaN]))
***** assert (geocdf ([x, NaN], single (0.5)), single ([p, NaN]))
***** error<geocdf: function called with too few input arguments.> geocdf ()
***** error<geocdf: function called with too few input arguments.> geocdf (1)
***** error<geocdf: X and PS must be of common size or scalars.> ...
 geocdf (ones (3), ones (2))
***** error<geocdf: X and PS must be of common size or scalars.> ...
 geocdf (ones (2), ones (3))
***** error<geocdf: X and PS must not be complex.> geocdf (i, 2)
***** error<geocdf: X and PS must not be complex.> geocdf (2, i)
***** error<geocdf: invalid argument for upper tail.> geocdf (2, 3, "tail")
***** error<geocdf: invalid argument for upper tail.> geocdf (2, 3, 5)
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/dist_fun/tlsrnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tlsrnd.m
***** assert (size (tlsrnd (1, 2, 3)), [1, 1])
***** assert (size (tlsrnd (ones (2, 1), 2, 3)), [2, 1])
***** assert (size (tlsrnd (ones (2, 2), 2, 3)), [2, 2])
***** assert (size (tlsrnd (1, 2, 3, 3)), [3, 3])
***** assert (size (tlsrnd (1, 2, 3, [4, 1])), [4, 1])
***** assert (size (tlsrnd (1, 2, 3, 4, 1)), [4, 1])
***** assert (size (tlsrnd (1, 2, 3, 4, 1)), [4, 1])
***** assert (size (tlsrnd (1, 2, 3, 4, 1, 5)), [4, 1, 5])
***** assert (size (tlsrnd (1, 2, 3, 0, 1)), [0, 1])
***** assert (size (tlsrnd (1, 2, 3, 1, 0)), [1, 0])
***** assert (size (tlsrnd (1, 2, 3, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (tlsrnd (1, 2, 3, [])), [0, 0])
***** assert (size (tlsrnd (1, 2, 3, [2, 0, 2, 1])), [2, 0, 2])
***** assert (tlsrnd (1, 2, 0, 1, 1), NaN)
***** assert (tlsrnd (1, 2, [0, 0, 0], [1, 3]), [NaN, NaN, NaN])
***** assert (class (tlsrnd (1, 2, 3)), "double")
***** assert (class (tlsrnd (single (1), 2, 3)), "single")
***** assert (class (tlsrnd (single ([1, 1]), 2, 3)), "single")
***** assert (class (tlsrnd (1, single (2), 3)), "single")
***** assert (class (tlsrnd (1, single ([2, 2]), 3)), "single")
***** assert (class (tlsrnd (1, 2, single (3))), "single")
***** assert (class (tlsrnd (1, 2, single ([3, 3]))), "single")
***** error<tlsrnd: function called with too few input arguments.> tlsrnd ()
***** error<tlsrnd: function called with too few input arguments.> tlsrnd (1)
***** error<tlsrnd: function called with too few input arguments.> tlsrnd (1, 2)
***** error<tlsrnd: MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsrnd (ones (3), ones (2), 1)
***** error<tlsrnd: MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsrnd (ones (2), 1, ones (3))
***** error<tlsrnd: MU, SIGMA, and NU must be of common size or scalars.> ...
 tlsrnd (1, ones (2), ones (3))
***** error<tlsrnd: MU, SIGMA, and NU must not be complex.> tlsrnd (i, 2, 3)
***** error<tlsrnd: MU, SIGMA, and NU must not be complex.> tlsrnd (1, i, 3)
***** error<tlsrnd: MU, SIGMA, and NU must not be complex.> tlsrnd (1, 2, i)
***** error<tlsrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 tlsrnd (1, 2, 3, -1)
***** error<tlsrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 tlsrnd (1, 2, 3, 1.2)
***** error<tlsrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 tlsrnd (1, 2, 3, ones (2))
***** error<tlsrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 tlsrnd (1, 2, 3, [2 -1 2])
***** error<tlsrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 tlsrnd (1, 2, 3, [2 0 2.5])
***** error<tlsrnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 tlsrnd (ones (2), 2, 3, ones (2))
***** error<tlsrnd: dimensions must be non-negative integers.> ...
 tlsrnd (1, 2, 3, 2, -1, 5)
***** error<tlsrnd: dimensions must be non-negative integers.> ...
 tlsrnd (1, 2, 3, 2, 1.5, 5)
***** error<tlsrnd: MU, SIGMA, and NU must be scalar or of size SZ.> ...
 tlsrnd (ones (2,2), 2, 3, 3)
***** error<tlsrnd: MU, SIGMA, and NU must be scalar or of size SZ.> ...
 tlsrnd (1, ones (2,2), 3, 3)
***** error<tlsrnd: MU, SIGMA, and NU must be scalar or of size SZ.> ...
 tlsrnd (1, 2, ones (2,2), 3)
***** error<tlsrnd: MU, SIGMA, and NU must be scalar or of size SZ.> ...
 tlsrnd (1, 2, ones (2,2), [3, 3])
***** error<tlsrnd: MU, SIGMA, and NU must be scalar or of size SZ.> ...
 tlsrnd (1, 2, ones (2,2), 2, 3)
44 tests, 44 passed, 0 known failure, 0 skipped
[inst/dist_fun/hygecdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/hygecdf.m
***** demo
 ## Plot various CDFs from the hypergeometric distribution
 x = 0:60;
 p1 = hygecdf (x, 500, 50, 100);
 p2 = hygecdf (x, 500, 60, 200);
 p3 = hygecdf (x, 500, 70, 300);
 plot (x, p1, "*b", x, p2, "*g", x, p3, "*r")
 grid on
 xlim ([0, 60])
 legend ({"m = 500, k = 50, n = 100", "m = 500, k = 60, n = 200", ...
          "m = 500, k = 70, n = 300"}, "location", "southeast")
 title ("Hypergeometric CDF")
 xlabel ("values in x (number of successes)")
 ylabel ("probability")
***** shared x, y
 x = [-1 0 1 2 3];
 y = [0 1/6 5/6 1 1];
***** assert (hygecdf (x, 4*ones (1,5), 2, 2), y, 5*eps)
***** assert (hygecdf (x, 4, 2*ones (1,5), 2), y, 5*eps)
***** assert (hygecdf (x, 4, 2, 2*ones (1,5)), y, 5*eps)
***** assert (hygecdf (x, 4*[1 -1 NaN 1.1 1], 2, 2), [y(1) NaN NaN NaN y(5)], 5*eps)
***** assert (hygecdf (x, 4*[1 -1 NaN 1.1 1], 2, 2, "upper"), ...
 [y(5) NaN NaN NaN y(1)], 5*eps)
***** assert (hygecdf (x, 4, 2*[1 -1 NaN 1.1 1], 2), [y(1) NaN NaN NaN y(5)], 5*eps)
***** assert (hygecdf (x, 4, 2*[1 -1 NaN 1.1 1], 2, "upper"), ...
 [y(5) NaN NaN NaN y(1)], 5*eps)
***** assert (hygecdf (x, 4, 5, 2), [NaN NaN NaN NaN NaN])
***** assert (hygecdf (x, 4, 2, 2*[1 -1 NaN 1.1 1]), [y(1) NaN NaN NaN y(5)], 5*eps)
***** assert (hygecdf (x, 4, 2, 2*[1 -1 NaN 1.1 1], "upper"), ...
 [y(5) NaN NaN NaN y(1)], 5*eps)
***** assert (hygecdf (x, 4, 2, 5), [NaN NaN NaN NaN NaN])
***** assert (hygecdf ([x(1:2) NaN x(4:5)], 4, 2, 2), [y(1:2) NaN y(4:5)], 5*eps)
***** test
 p = hygecdf (x, 10, [1 2 3 4 5], 2, "upper");
 assert (p, [1, 34/90, 2/30, 0, 0], 10*eps);
***** test
 p = hygecdf (2*x, 10, [1 2 3 4 5], 2, "upper");
 assert (p, [1, 34/90, 0, 0, 0], 10*eps);
***** assert (hygecdf ([x, NaN], 4, 2, 2), [y, NaN], 5*eps)
***** assert (hygecdf (single ([x, NaN]), 4, 2, 2), single ([y, NaN]), ...
 eps ("single"))
***** assert (hygecdf ([x, NaN], single (4), 2, 2), single ([y, NaN]), ...
 eps ("single"))
***** assert (hygecdf ([x, NaN], 4, single (2), 2), single ([y, NaN]), ...
 eps ("single"))
***** assert (hygecdf ([x, NaN], 4, 2, single (2)), single ([y, NaN]), ...
 eps ("single"))
***** error<hygecdf: function called with too few input arguments.> hygecdf ()
***** error<hygecdf: function called with too few input arguments.> hygecdf (1)
***** error<hygecdf: function called with too few input arguments.> hygecdf (1,2)
***** error<hygecdf: function called with too few input arguments.> hygecdf (1,2,3)
***** error<hygecdf: invalid argument for upper tail.> hygecdf (1,2,3,4,5)
***** error<hygecdf: invalid argument for upper tail.> hygecdf (1,2,3,4,"uper")
***** error<hygecdf: X, T, k, and N must be of common size or scalars.> ...
 hygecdf (ones (2), ones (3), 1, 1)
***** error<hygecdf: X, T, k, and N must be of common size or scalars.> ...
 hygecdf (1, ones (2), ones (3), 1)
***** error<hygecdf: X, T, k, and N must be of common size or scalars.> ...
 hygecdf (1, 1, ones (2), ones (3))
***** error<hygecdf: X, T, k, and N must not be complex.> hygecdf (i, 2, 2, 2)
***** error<hygecdf: X, T, k, and N must not be complex.> hygecdf (2, i, 2, 2)
***** error<hygecdf: X, T, k, and N must not be complex.> hygecdf (2, 2, i, 2)
***** error<hygecdf: X, T, k, and N must not be complex.> hygecdf (2, 2, 2, i)
32 tests, 32 passed, 0 known failure, 0 skipped
[inst/dist_fun/tlscdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/tlscdf.m
***** demo
 ## Plot various CDFs from the location-scale Student's T distribution
 x = -8:0.01:8;
 p1 = tlscdf (x, 0, 1, 1);
 p2 = tlscdf (x, 0, 2, 2);
 p3 = tlscdf (x, 3, 2, 5);
 p4 = tlscdf (x, -1, 3, Inf);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-m")
 grid on
 xlim ([-8, 8])
 ylim ([0, 1])
 legend ({"mu = 0, sigma = 1, nu = 1", "mu = 0, sigma = 2, nu = 2", ...
          "mu = 3, sigma = 2, nu = 5", 'mu = -1, sigma = 3, nu = \infty'}, ...
         "location", "northwest")
 title ("Location-scale Student's T CDF")
 xlabel ("values in x")
 ylabel ("probability")
***** shared x,y
 x = [-Inf 0 1 Inf];
 y = [0 1/2 3/4 1];
***** assert (tlscdf (x, 0, 1, ones (1,4)), y, eps)
***** assert (tlscdf (x, 0, 1, 1), y, eps)
***** assert (tlscdf (x, 0, 1, [0 1 NaN 1]), [NaN 1/2 NaN 1], eps)
***** assert (tlscdf ([x(1:2) NaN x(4)], 0, 1, 1), [y(1:2) NaN y(4)], eps)
***** assert (tlscdf (2, 0, 1, 3, "upper"), 0.0697, 1e-4)
***** assert (tlscdf (205, 0, 1, 5, "upper"), 2.6206e-11, 1e-14)
***** assert (tlscdf ([x, NaN], 0, 1, 1), [y, NaN], eps)
***** assert (tlscdf (single ([x, NaN]), 0, 1, 1), single ([y, NaN]), eps ("single"))
***** assert (tlscdf ([x, NaN], single (0), 1, 1), single ([y, NaN]), eps ("single"))
***** assert (tlscdf ([x, NaN], 0, single (1), 1), single ([y, NaN]), eps ("single"))
***** assert (tlscdf ([x, NaN], 0, 1, single (1)), single ([y, NaN]), eps ("single"))
***** error<tlscdf: function called with too few input arguments.> tlscdf ()
***** error<tlscdf: function called with too few input arguments.> tlscdf (1)
***** error<tlscdf: function called with too few input arguments.> tlscdf (1, 2)
***** error<tlscdf: function called with too few input arguments.> tlscdf (1, 2, 3)
***** error<tlscdf: invalid argument for upper tail.> tlscdf (1, 2, 3, 4, "uper")
***** error<tlscdf: invalid argument for upper tail.> tlscdf (1, 2, 3, 4, 5)
***** error<tlscdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlscdf (ones (3), ones (2), 1, 1)
***** error<tlscdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlscdf (ones (3), 1, ones (2), 1)
***** error<tlscdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlscdf (ones (3), 1, 1, ones (2))
***** error<tlscdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlscdf (ones (3), ones (2), 1, 1, "upper")
***** error<tlscdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlscdf (ones (3), 1, ones (2), 1, "upper")
***** error<tlscdf: X, MU, SIGMA, and NU must be of common size or scalars.> ...
 tlscdf (ones (3), 1, 1, ones (2), "upper")
***** error<tlscdf: X, MU, SIGMA, and NU must not be complex.> tlscdf (i, 2, 1, 1)
***** error<tlscdf: X, MU, SIGMA, and NU must not be complex.> tlscdf (2, i, 1, 1)
***** error<tlscdf: X, MU, SIGMA, and NU must not be complex.> tlscdf (2, 1, i, 1)
***** error<tlscdf: X, MU, SIGMA, and NU must not be complex.> tlscdf (2, 1, 1, i)
27 tests, 27 passed, 0 known failure, 0 skipped
[inst/dist_fun/mvncdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mvncdf.m
***** demo
 mu = [1, -1];
 Sigma = [0.9, 0.4; 0.4, 0.3];
 [X1, X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 X = [X1(:), X2(:)];
 p = mvncdf (X, mu, Sigma);
 Z = reshape (p, 25, 25);
 surf (X1, X2, Z);
 title ("Bivariate Normal Distribution");
 ylabel "X1"
 xlabel "X2"
***** demo
 mu = [0, 0];
 Sigma = [0.25, 0.3; 0.3, 1];
 p = mvncdf ([0 0], [1 1], mu, Sigma);
 x1 = -3:.2:3;
 x2 = -3:.2:3;
 [X1, X2] = meshgrid (x1, x2);
 X = [X1(:), X2(:)];
 p = mvnpdf (X, mu, Sigma);
 p = reshape (p, length (x2), length (x1));
 contour (x1, x2, p, [0.0001, 0.001, 0.01, 0.05, 0.15, 0.25, 0.35]);
 xlabel ("x");
 ylabel ("p");
 title ("Probability over Rectangular Region");
 line ([0, 0, 1, 1, 0], [1, 0, 0, 1, 1], "Linestyle", "--", "Color", "k");
***** test
 fD = (-2:2)';
 X = repmat (fD, 1, 4);
 p = mvncdf (X);
 assert (p, [0; 0.0006; 0.0625; 0.5011; 0.9121], ones (5, 1) * 1e-4);
***** test
 mu = [1, -1];
 Sigma = [0.9, 0.4; 0.4, 0.3];
 [X1,X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 X = [X1(:), X2(:)];
 p = mvncdf (X, mu, Sigma);
 p_out = [0.00011878988774500, 0.00034404112322371, ...
          0.00087682502191813, 0.00195221905058185, ...
          0.00378235566873474, 0.00638175749734415, ...
          0.00943764224329656, 0.01239164888125426, ...
          0.01472750274376648, 0.01623228313374828]';
 assert (p([1:10]), p_out, 1e-16);
***** test
 mu = [1, -1];
 Sigma = [0.9, 0.4; 0.4, 0.3];
 [X1,X2] = meshgrid (linspace (-1, 3, 25)', linspace (-3, 1, 25)');
 X = [X1(:), X2(:)];
 p = mvncdf (X, mu, Sigma);
 p_out = [0.8180695783608276, 0.8854485749482751, ...
          0.9308108777385832, 0.9579855743025508, ...
          0.9722897881414742, 0.9788150170059926, ...
          0.9813597788804785, 0.9821977956568989, ...
          0.9824283794464095, 0.9824809345614861]';
 assert (p([616:625]), p_out, 3e-16);
***** test
 mu = [0, 0];
 Sigma = [0.25, 0.3; 0.3, 1];
 [p, err] = mvncdf ([0, 0], [1, 1], mu, Sigma);
 assert (p, 0.2097424404755626, 1e-16);
 assert (err, 1e-08);
***** test
 x = [1 2];
 mu = [0.5 1.5];
 sigma = [1.0, 0.5; 0.5, 1.0];
 p = mvncdf (x, mu, sigma);
 assert (p, 0.546244443857090, 1e-15);
***** test
 x = [1 2];
 mu = [0.5 1.5];
 sigma = [1.0, 0.5; 0.5, 1.0];
 a = [-inf 0];
 p = mvncdf (a, x, mu, sigma);
 assert (p, 0.482672935215631, 1e-15);
***** error p = mvncdf (randn (25,26), [], eye (26));
***** error p = mvncdf (randn (25,8), [], eye (9));
***** error p = mvncdf (randn (25,4), randn (25,5), [], eye (4));
***** error p = mvncdf (randn (25,4), randn (25,4), [2, 3; 2, 3], eye (4));
***** error p = mvncdf (randn (25,4), randn (25,4), ones (1, 5), eye (4));
***** error p = mvncdf ([-inf, 0], [1, 2], [0.5, 1.5], [1.0, 0.5; 0.5, 1.0], option)
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fun/wblinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/wblinv.m
***** demo
 ## Plot various iCDFs from the Weibull distribution
 p = 0.001:0.001:0.999;
 x1 = wblinv (p, 1, 0.5);
 x2 = wblinv (p, 1, 1);
 x3 = wblinv (p, 1, 1.5);
 x4 = wblinv (p, 1, 5);
 plot (p, x1, "-b", p, x2, "-r", p, x3, "-m", p, x4, "-g")
 ylim ([0, 2.5])
 grid on
 legend ({"λ = 1, k = 0.5", "λ = 1, k = 1",  ...
          "λ = 1, k = 1.5", "λ = 1, k = 5"}, "location", "northwest")
 title ("Weibull iCDF")
 xlabel ("probability")
 ylabel ("x")
***** shared p
 p = [-1 0 0.63212055882855778 1 2];
***** assert (wblinv (p, ones (1,5), ones (1,5)), [NaN 0 1 Inf NaN], eps)
***** assert (wblinv (p, 1, ones (1,5)), [NaN 0 1 Inf NaN], eps)
***** assert (wblinv (p, ones (1,5), 1), [NaN 0 1 Inf NaN], eps)
***** assert (wblinv (p, [1 -1 NaN Inf 1], 1), [NaN NaN NaN NaN NaN])
***** assert (wblinv (p, 1, [1 -1 NaN Inf 1]), [NaN NaN NaN NaN NaN])
***** assert (wblinv ([p(1:2) NaN p(4:5)], 1, 1), [NaN 0 NaN Inf NaN])
***** assert (wblinv ([p, NaN], 1, 1), [NaN 0 1 Inf NaN NaN], eps)
***** assert (wblinv (single ([p, NaN]), 1, 1), single ([NaN 0 1 Inf NaN NaN]), eps ("single"))
***** assert (wblinv ([p, NaN], single (1), 1), single ([NaN 0 1 Inf NaN NaN]), eps ("single"))
***** assert (wblinv ([p, NaN], 1, single (1)), single ([NaN 0 1 Inf NaN NaN]), eps ("single"))
***** error<wblinv: invalid number of input arguments.> wblinv ()
***** error<wblinv: invalid number of input arguments.> wblinv (1,2,3,4)
***** error<wblinv: P, LAMBDA, and K must be of common size or scalars.> ...
 wblinv (ones (3), ones (2), ones (2))
***** error<wblinv: P, LAMBDA, and K must be of common size or scalars.> ...
 wblinv (ones (2), ones (3), ones (2))
***** error<wblinv: P, LAMBDA, and K must be of common size or scalars.> ...
 wblinv (ones (2), ones (2), ones (3))
***** error<wblinv: P, LAMBDA, and K must not be complex.> wblinv (i, 2, 2)
***** error<wblinv: P, LAMBDA, and K must not be complex.> wblinv (2, i, 2)
***** error<wblinv: P, LAMBDA, and K must not be complex.> wblinv (2, 2, i)
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/dist_fun/loglcdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/loglcdf.m
***** demo
 ## Plot various CDFs from the log-logistic distribution
 x = 0:0.001:2;
 p1 = loglcdf (x, log (1), 1/0.5);
 p2 = loglcdf (x, log (1), 1);
 p3 = loglcdf (x, log (1), 1/2);
 p4 = loglcdf (x, log (1), 1/4);
 p5 = loglcdf (x, log (1), 1/8);
 plot (x, p1, "-b", x, p2, "-g", x, p3, "-r", x, p4, "-c", x, p5, "-m")
 legend ({"σ = 2 (β = 0.5)", "σ = 1 (β = 1)", "σ = 0.5 (β = 2)", ...
          "σ = 0.25 (β = 4)", "σ = 0.125 (β = 8)"}, "location", "northwest")
 grid on
 title ("Log-logistic CDF")
 xlabel ("values in x")
 ylabel ("probability")
 text (0.05, 0.64, "μ = 0 (α = 1), values of σ (β) as shown in legend")
***** shared out1, out2
 out1 = [0, 0.5, 0.66666667, 0.75, 0.8, 0.83333333];
 out2 = [0, 0.4174, 0.4745, 0.5082, 0.5321, 0.5506];
***** assert (loglcdf ([0:5], 0, 1), out1, 1e-8)
***** assert (loglcdf ([0:5], 0, 1, "upper"), 1 - out1, 1e-8)
***** assert (loglcdf ([0:5], 0, 1), out1, 1e-8)
***** assert (loglcdf ([0:5], 0, 1, "upper"), 1 - out1, 1e-8)
***** assert (loglcdf ([0:5], 1, 3), out2, 1e-4)
***** assert (loglcdf ([0:5], 1, 3, "upper"), 1 - out2, 1e-4)
***** assert (class (loglcdf (single (1), 2, 3)), "single")
***** assert (class (loglcdf (1, single (2), 3)), "single")
***** assert (class (loglcdf (1, 2, single (3))), "single")
***** error<loglcdf: function called with too few input arguments.> loglcdf (1)
***** error<loglcdf: function called with too few input arguments.> loglcdf (1, 2)
***** error<loglcdf: invalid argument for upper tail.> ...
 loglcdf (1, 2, 3, 4)
***** error<loglcdf: invalid argument for upper tail.> ...
 loglcdf (1, 2, 3, "uper")
***** error<loglcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglcdf (1, ones (2), ones (3))
***** error<loglcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglcdf (1, ones (2), ones (3), "upper")
***** error<loglcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglcdf (ones (2), 1, ones (3))
***** error<loglcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglcdf (ones (2), 1, ones (3), "upper")
***** error<loglcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglcdf (ones (2), ones (3), 1)
***** error<loglcdf: X, MU, and SIGMA must be of common size or scalars.> ...
 loglcdf (ones (2), ones (3), 1, "upper")
***** error<loglcdf: X, MU, and SIGMA must not be complex.> loglcdf (i, 2, 3)
***** error<loglcdf: X, MU, and SIGMA must not be complex.> loglcdf (i, 2, 3, "upper")
***** error<loglcdf: X, MU, and SIGMA must not be complex.> loglcdf (1, i, 3)
***** error<loglcdf: X, MU, and SIGMA must not be complex.> loglcdf (1, i, 3, "upper")
***** error<loglcdf: X, MU, and SIGMA must not be complex.> loglcdf (1, 2, i)
***** error<loglcdf: X, MU, and SIGMA must not be complex.> loglcdf (1, 2, i, "upper")
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_fun/logninv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/logninv.m
***** demo
 ## Plot various iCDFs from the log-normal distribution
 p = 0.001:0.001:0.999;
 x1 = logninv (p, 0, 1);
 x2 = logninv (p, 0, 0.5);
 x3 = logninv (p, 0, 0.25);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r")
 grid on
 ylim ([0, 3])
 legend ({"μ = 0, σ = 1", "μ = 0, σ = 0.5", "μ = 0, σ = 0.25"}, ...
         "location", "northwest")
 title ("Log-normal iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (logninv (p, ones (1,5), ones (1,5)), [NaN 0 e Inf NaN], 2*eps)
***** assert (logninv (p, 1, ones (1,5)), [NaN 0 e Inf NaN], 2*eps)
***** assert (logninv (p, ones (1,5), 1), [NaN 0 e Inf NaN], 2*eps)
***** assert (logninv (p, [1 1 NaN 0 1], 1), [NaN 0 NaN Inf NaN])
***** assert (logninv (p, 1, [1 0 NaN Inf 1]), [NaN NaN NaN NaN NaN])
***** assert (logninv ([p(1:2) NaN p(4:5)], 1, 2), [NaN 0 NaN Inf NaN])
***** assert (logninv ([p, NaN], 1, 1), [NaN 0 e Inf NaN NaN], 2*eps)
***** assert (logninv (single ([p, NaN]), 1, 1), single ([NaN 0 e Inf NaN NaN]))
***** assert (logninv ([p, NaN], single (1), 1), single ([NaN 0 e Inf NaN NaN]))
***** assert (logninv ([p, NaN], 1, single (1)), single ([NaN 0 e Inf NaN NaN]))
***** error logninv ()
***** error logninv (1,2,3,4)
***** error logninv (ones (3), ones (2), ones (2))
***** error logninv (ones (2), ones (3), ones (2))
***** error logninv (ones (2), ones (2), ones (3))
***** error logninv (i, 2, 2)
***** error logninv (2, i, 2)
***** error logninv (2, 2, i)
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/dist_fun/mnpdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/mnpdf.m
***** test
 x = [1, 4, 2];
 pk = [0.2, 0.5, 0.3];
 y = mnpdf (x, pk);
 assert (y, 0.11812, 0.001);
***** test
 x = [1, 4, 2; 1, 0, 9];
 pk = [0.2, 0.5, 0.3; 0.1, 0.1, 0.8];
 y = mnpdf (x, pk);
 assert (y, [0.11812; 0.13422], 0.001);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/dist_fun/trnd.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/trnd.m
***** assert (size (trnd (2)), [1, 1])
***** assert (size (trnd (ones (2, 1))), [2, 1])
***** assert (size (trnd (ones (2, 2))), [2, 2])
***** assert (size (trnd (1, 3)), [3, 3])
***** assert (size (trnd (1, [4, 1])), [4, 1])
***** assert (size (trnd (1, 4, 1)), [4, 1])
***** assert (size (trnd (1, 4, 1)), [4, 1])
***** assert (size (trnd (1, 4, 1, 5)), [4, 1, 5])
***** assert (size (trnd (1, 0, 1)), [0, 1])
***** assert (size (trnd (1, 1, 0)), [1, 0])
***** assert (size (trnd (1, 1, 2, 0, 5)), [1, 2, 0, 5])
***** assert (size (trnd (1, [])), [0, 0])
***** assert (size (trnd (1, [2, 0, 2, 1])), [2, 0, 2])
***** assert (trnd (0, 1, 1), NaN)
***** assert (trnd ([0, 0, 0], [1, 3]), [NaN, NaN, NaN])
***** assert (class (trnd (2)), "double")
***** assert (class (trnd (single (2))), "single")
***** assert (class (trnd (single ([2, 2]))), "single")
***** error<trnd: function called with too few input arguments.> trnd ()
***** error<trnd: DF must not be complex.> trnd (i)
***** error<trnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trnd (1, -1)
***** error<trnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trnd (1, 1.2)
***** error<trnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trnd (1, ones (2))
***** error<trnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trnd (1, [2 -1 2])
***** error<trnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trnd (1, [2 0 2.5])
***** error<trnd: SZ must be a scalar or a row vector of non-negative integers.> ...
 trnd (ones (2), ones (2))
***** error<trnd: dimensions must be non-negative integers.> ...
 trnd (1, 2, -1, 5)
***** error<trnd: dimensions must be non-negative integers.> ...
 trnd (1, 2, 1.5, 5)
***** error<trnd: DF must be scalar or of size SZ.> trnd (ones (2,2), 3)
***** error<trnd: DF must be scalar or of size SZ.> trnd (ones (2,2), [3, 2])
***** error<trnd: DF must be scalar or of size SZ.> trnd (ones (2,2), 2, 3)
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/dist_fun/norminv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/norminv.m
***** demo
 ## Plot various iCDFs from the normal distribution
 p = 0.001:0.001:0.999;
 x1 = norminv (p, 0, 0.5);
 x2 = norminv (p, 0, 1);
 x3 = norminv (p, 0, 2);
 x4 = norminv (p, -2, 0.8);
 plot (p, x1, "-b", p, x2, "-g", p, x3, "-r", p, x4, "-c")
 grid on
 ylim ([-5, 5])
 legend ({"μ = 0, σ = 0.5", "μ = 0, σ = 1", ...
          "μ = 0, σ = 2", "μ = -2, σ = 0.8"}, "location", "northwest")
 title ("Normal iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (norminv (p, ones (1,5), ones (1,5)), [NaN -Inf 1 Inf NaN])
***** assert (norminv (p, 1, ones (1,5)), [NaN -Inf 1 Inf NaN])
***** assert (norminv (p, ones (1,5), 1), [NaN -Inf 1 Inf NaN])
***** assert (norminv (p, [1 -Inf NaN Inf 1], 1), [NaN NaN NaN NaN NaN])
***** assert (norminv (p, 1, [1 0 NaN Inf 1]), [NaN NaN NaN NaN NaN])
***** assert (norminv ([p(1:2) NaN p(4:5)], 1, 1), [NaN -Inf NaN Inf NaN])
***** assert (norminv (p), probit (p))
***** assert (norminv (0.31254), probit (0.31254))
***** assert (norminv ([p, NaN], 1, 1), [NaN -Inf 1 Inf NaN NaN])
***** assert (norminv (single ([p, NaN]), 1, 1), single ([NaN -Inf 1 Inf NaN NaN]))
***** assert (norminv ([p, NaN], single (1), 1), single ([NaN -Inf 1 Inf NaN NaN]))
***** assert (norminv ([p, NaN], 1, single (1)), single ([NaN -Inf 1 Inf NaN NaN]))
***** error<norminv: function called with too few input arguments.> norminv ()
***** error<norminv: P, MU, and SIGMA must be of common size or scalars.> ...
 norminv (ones (3), ones (2), ones (2))
***** error<norminv: P, MU, and SIGMA must be of common size or scalars.> ...
 norminv (ones (2), ones (3), ones (2))
***** error<norminv: P, MU, and SIGMA must be of common size or scalars.> ...
 norminv (ones (2), ones (2), ones (3))
***** error<norminv: P, MU, and SIGMA must not be complex.> norminv (i, 2, 2)
***** error<norminv: P, MU, and SIGMA must not be complex.> norminv (2, i, 2)
***** error<norminv: P, MU, and SIGMA must not be complex.> norminv (2, 2, i)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fun/unidinv.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fun/unidinv.m
***** demo
 ## Plot various iCDFs from the discrete uniform distribution
 p = 0.001:0.001:0.999;
 x1 = unidinv (p, 5);
 x2 = unidinv (p, 9);
 plot (p, x1, "-b", p, x2, "-g")
 grid on
 xlim ([0, 1])
 ylim ([0, 10])
 legend ({"N = 5", "N = 9"}, "location", "northwest")
 title ("Discrete uniform iCDF")
 xlabel ("probability")
 ylabel ("values in x")
***** shared p
 p = [-1 0 0.5 1 2];
***** assert (unidinv (p, 10*ones (1,5)), [NaN NaN 5 10 NaN], eps)
***** assert (unidinv (p, 10), [NaN NaN 5 10 NaN], eps)
***** assert (unidinv (p, 10*[0 1 NaN 1 1]), [NaN NaN NaN 10 NaN], eps)
***** assert (unidinv ([p(1:2) NaN p(4:5)], 10), [NaN NaN NaN 10 NaN], eps)
***** assert (unidinv ([p, NaN], 10), [NaN NaN 5 10 NaN NaN], eps)
***** assert (unidinv (single ([p, NaN]), 10), single ([NaN NaN 5 10 NaN NaN]), eps)
***** assert (unidinv ([p, NaN], single (10)), single ([NaN NaN 5 10 NaN NaN]), eps)
***** error<unidinv: function called with too few input arguments.> unidinv ()
***** error<unidinv: function called with too few input arguments.> unidinv (1)
***** error<unidinv: P and N must be of common size or scalars.> ...
 unidinv (ones (3), ones (2))
***** error<unidinv: P and N must be of common size or scalars.> ...
 unidinv (ones (2), ones (3))
***** error<unidinv: P and N must not be complex.> unidinv (i, 2)
***** error<unidinv: P and N must not be complex.> unidinv (2, i)
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/ranksum.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ranksum.m
***** test
 mileage = [33.3, 34.5, 37.4; 33.4, 34.8, 36.8; ...
            32.9, 33.8, 37.6; 32.6, 33.4, 36.6; ...
            32.5, 33.7, 37.0; 33.0, 33.9, 36.7];
 [p,h,stats] = ranksum(mileage(:,1),mileage(:,2));
 assert (p, 0.004329004329004329, 1e-14);
 assert (h, true);
 assert (stats.ranksum, 21.5);
***** test
 year1 = [51 52 62 62 52 52 51 53 59 63 59 56 63 74 68 86 82 70 69 75 73 ...
          49 47 50 60 59 60 62 61 71]';
 year2 = [54 53 64 66 57 53 54 54 62 66 59 59 67 76 75 86 82 67 74 80 75 ...
          54 50 53 62 62 62 72 60 67]';
 [p,h,stats] = ranksum(year1, year2, "alpha", 0.01, "tail", "left");
 assert (p, 0.1270832752950605, 1e-14);
 assert (h, false);
 assert (stats.ranksum, 837.5);
 assert (stats.zval, -1.140287483634606, 1e-14);
 [p,h,stats] = ranksum(year1, year2, "alpha", 0.01, "tail", "left", ...
                       "method", "exact");
 assert (p, 0.127343916432862, 1e-14);
 assert (h, false);
 assert (stats.ranksum, 837.5);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/knnsearch.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/knnsearch.m
***** demo
 ## find 10 nearest neighbour of a point using different distance metrics
 ## and compare the results by plotting
 load fisheriris
 X = meas(:,3:4);
 Y = species;
 point = [5, 1.45];

 ## calculate 10 nearest-neighbours by minkowski distance
 [id, d] = knnsearch (X, point, "K", 10);

 ## calculate 10 nearest-neighbours by minkowski distance
 [idm, dm] = knnsearch (X, point, "K", 10, "distance", "minkowski", "p", 5);

 ## calculate 10 nearest-neighbours by chebychev distance
 [idc, dc] = knnsearch (X, point, "K", 10, "distance", "chebychev");

 ## plotting the results
 gscatter (X(:,1), X(:,2), species, [.75 .75 0; 0 .75 .75; .75 0 .75], ".", 20);
 title ("Fisher's Iris Data - Nearest Neighbors with different types of distance metrics");
 xlabel("Petal length (cm)");
 ylabel("Petal width (cm)");

 line (point(1), point(2), "marker", "X", "color", "k", ...
       "linewidth", 2, "displayname", "query point")
 line (X(id,1), X(id,2), "color", [0.5 0.5 0.5], "marker", "o", ...
       "linestyle", "none", "markersize", 10, "displayname", "euclidean")
 line (X(idm,1), X(idm,2), "color", [0.5 0.5 0.5], "marker", "d", ...
       "linestyle", "none", "markersize", 10, "displayname", "Minkowski")
 line (X(idc,1), X(idc,2), "color", [0.5 0.5 0.5], "marker", "p", ...
       "linestyle", "none", "markersize", 10, "displayname", "chebychev")
 xlim ([4.5 5.5]);
 ylim ([1 2]);
 axis square;
***** demo
 ## knnsearch on iris dataset using kdtree method
 load fisheriris
 X = meas(:,3:4);
 gscatter (X(:,1), X(:,2), species, [.75 .75 0; 0 .75 .75; .75 0 .75], ".", 20);
 title ("Fisher's iris dataset : Nearest Neighbors with kdtree search");

 ## new point to be predicted
 point = [5 1.45];

 line (point(1), point(2), "marker", "X", "color", "k", ...
       "linewidth", 2, "displayname", "query point")

 ## knnsearch using kdtree method
 [idx, d] = knnsearch (X, point, "K", 10, "NSMethod", "kdtree");

 ## plotting predicted neighbours
 line (X(idx,1), X(idx,2), "color", [0.5 0.5 0.5], "marker", "o", ...
       "linestyle", "none", "markersize", 10, ...
       "displayname", "nearest neighbour")
 xlim ([4 6])
 ylim ([1 3])
 axis square
 ## details of predicted labels
 tabulate (species(idx))

 ctr = point - d(end);
 diameter = 2 * d(end);
 ##  Draw a circle around the 10 nearest neighbors.
 h = rectangle ("position", [ctr, diameter, diameter], "curvature", [1 1]);

 ## here only 8 neighbours are plotted instead of 10 since the dataset
 ## contains duplicate values
***** shared X, Y
 X = [1, 2, 3, 4; 2, 3, 4, 5; 3, 4, 5, 6];
 Y = [1, 2, 2, 3; 2, 3, 3, 4];
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "euclidean");
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * sqrt (2));
***** test
 eucldist = @(v,m) sqrt(sumsq(repmat(v,rows(m),1)-m,2));
 [idx, D] = knnsearch (X, Y, "Distance", eucldist);
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * sqrt (2));
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "euclidean", "includeties", true);
 assert (iscell (idx), true);
 assert (iscell (D), true)
 assert (idx {1}, [1]);
 assert (idx {2}', [1, 2]);
 assert (D{1}, ones (1, 1) * sqrt (2));
 assert (D{2}', ones (1, 2) * sqrt (2));
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "euclidean", "k", 2);
 assert (idx, [1, 2; 1, 2]);
 assert (D, [sqrt(2), 3.162277660168380; sqrt(2), sqrt(2)], 1e-14);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "seuclidean");
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * sqrt (2));
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "seuclidean", "k", 2);
 assert (idx, [1, 2; 1, 2]);
 assert (D, [sqrt(2), 3.162277660168380; sqrt(2), sqrt(2)], 1e-14);
***** test
 xx = [1, 2; 1, 3; 2, 4; 3, 6];
 yy = [2, 4; 2, 6];
 [idx, D] = knnsearch (xx, yy, "Distance", "mahalanobis");
 assert (idx, [3; 2]);
 assert (D, [0; 3.162277660168377], 1e-14);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "minkowski");
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * sqrt (2));
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "minkowski", "p", 3);
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * 1.259921049894873, 1e-14);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "cityblock");
 assert (idx, [1; 1]);
 assert (D, [2; 2]);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "chebychev");
 assert (idx, [1; 1]);
 assert (D, [1; 1]);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "cosine");
 assert (idx, [2; 3]);
 assert (D, [0.005674536395645; 0.002911214328620], 1e-14);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "correlation");
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * 0.051316701949486, 1e-14);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "spearman");
 assert (idx, [1; 1]);
 assert (D, ones (2, 1) * 0.051316701949486, 1e-14);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "hamming");
 assert (idx, [1; 1]);
 assert (D, [0.5; 0.5]);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "jaccard");
 assert (idx, [1; 1]);
 assert (D, [0.5; 0.5]);
***** test
 [idx, D] = knnsearch (X, Y, "Distance", "jaccard", "k", 2);
 assert (idx, [1, 2; 1, 2]);
 assert (D, [0.5, 1; 0.5, 0.5]);
***** test
 a = [1, 5; 1, 2; 2, 2; 1.5, 1.5; 5, 1; 2 -1.34; 1, -3; 4, -4; -3, 1; 8, 9];
 b = [1, 1];
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "kdtree", "includeties", true);
 assert (iscell (idx), true);
 assert (iscell (D), true)
 assert (cell2mat (idx)', [4, 2, 3, 6, 1, 5, 7, 9]);
 assert (cell2mat (D)', [0.7071, 1.0000, 1.4142, 2.5447, 4.0000, 4.0000, 4.0000, 4.0000], 1e-4);
***** test
 a = [1, 5; 1, 2; 2, 2; 1.5, 1.5; 5, 1; 2 -1.34; 1, -3; 4, -4; -3, 1; 8, 9];
 b = [1, 1];
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "exhaustive", "includeties", true);
 assert (iscell (idx), true);
 assert (iscell (D), true)
 assert (cell2mat (idx), [4, 2, 3, 6, 1, 5, 7, 9]);
 assert (cell2mat (D), [0.7071, 1.0000, 1.4142, 2.5447, 4.0000, 4.0000, 4.0000, 4.0000], 1e-4);
***** test
 a = [1, 5; 1, 2; 2, 2; 1.5, 1.5; 5, 1; 2 -1.34; 1, -3; 4, -4; -3, 1; 8, 9];
 b = [1, 1];
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "kdtree", "includeties", false);
 assert (iscell (idx), false);
 assert (iscell (D), false)
 assert (idx, [4, 2, 3, 6, 1]);
 assert (D, [0.7071, 1.0000, 1.4142, 2.5447, 4.0000], 1e-4);
***** test
 a = [1, 5; 1, 2; 2, 2; 1.5, 1.5; 5, 1; 2 -1.34; 1, -3; 4, -4; -3, 1; 8, 9];
 b = [1, 1];
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "exhaustive", "includeties", false);
 assert (iscell (idx), false);
 assert (iscell (D), false)
 assert (idx, [4, 2, 3, 6, 1]);
 assert (D, [0.7071, 1.0000, 1.4142, 2.5447, 4.0000], 1e-4);
***** test
 load fisheriris
 a = meas;
 b = min(meas);
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "kdtree");
 assert (idx, [42, 9, 14, 39, 13]);
 assert (D, [0.5099, 0.9950, 1.0050, 1.0536, 1.1874], 1e-4);
***** test
 load fisheriris
 a = meas;
 b = mean(meas);
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "kdtree");
 assert (idx, [65, 83, 89, 72, 100]);
 assert (D, [0.3451, 0.3869, 0.4354, 0.4481, 0.4625], 1e-4);
***** test
 load fisheriris
 a = meas;
 b = max(meas);
 [idx, D] = knnsearch (a, b, "K", 5, "NSMethod", "kdtree");
 assert (idx, [118, 132, 110, 106, 136]);
 assert (D, [0.7280, 0.9274, 1.3304, 1.5166, 1.6371], 1e-4);

***** test
 load fisheriris
 a = meas;
 b = max(meas);
 [idx, D] = knnsearch (a, b, "K", 5, "includeties", true);
 assert (iscell (idx), true);
 assert (iscell (D), true);
 assert (cell2mat (idx)', [118, 132, 110, 106, 136]);
 assert (cell2mat (D)', [0.7280, 0.9274, 1.3304, 1.5166, 1.6371], 1e-4);
***** error<knnsearch: too few input arguments.> knnsearch (1)
***** error<knnsearch: number of columns in X and Y must match.> ...
 knnsearch (ones (4, 5), ones (4))
***** error<knnsearch: invalid NAME in optional pairs of arguments.> ...
 knnsearch (ones (4, 2), ones (3, 2), "Distance", "euclidean", "some", "some")
***** error<knnsearch: only a single distance parameter can be defined.> ...
 knnsearch (ones (4, 5), ones (1, 5), "scale", ones (1, 5), "P", 3)
***** error<knnsearch: invalid value of K.> ...
 knnsearch (ones (4, 5), ones (1, 5), "K", 0)
***** error<knnsearch: invalid value of Minkowski Exponent.> ...
 knnsearch (ones (4, 5), ones (1, 5), "P", -2)
***** error<knnsearch: invalid value in Scale or the size of Scale.> ...
 knnsearch (ones (4, 5), ones (1, 5), "scale", ones(4,5), "distance", "euclidean")
***** error<knnsearch: invalid value in Cov, Cov can only be given for mahalanobis distance.> ...
 knnsearch (ones (4, 5), ones (1, 5), "cov", ["some" "some"])
***** error<knnsearch: invalid value in Cov, Cov can only be given for mahalanobis distance.> ...
 knnsearch (ones (4, 5), ones (1, 5), "cov", ones(4,5), "distance", "euclidean")
***** error<knnsearch: invalid value of bucketsize.> ...
 knnsearch (ones (4, 5), ones (1, 5), "bucketsize", -1)
***** error<knnsearch: invalid value of bucketsize.> ...
 knnsearch (ones (4, 5), ones (1, 5), "bucketsize", 2.5)
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "cosine")
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "mahalanobis")
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "correlation")
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "seuclidean")
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "spearman")
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "hamming")
***** error<knnsearch: 'kdtree' cannot be used with the given distance metric.> ...
 knnsearch (ones (4, 5), ones (1, 5), "NSmethod", "kdtree", "distance", "jaccard")
43 tests, 43 passed, 0 known failure, 0 skipped
[inst/createns.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/createns.m
***** test
 ## Default ExhaustiveSearcher
 X = [1, 2; 3, 4; 5, 6];
 obj = createns (X);
 assert (isa (obj, "ExhaustiveSearcher"));
 assert (obj.X, X);
 assert (obj.Distance, "euclidean");
***** test
 ## KDTreeSearcher with default parameters
 X = [1, 2; 3, 4; 5, 6];
 obj = createns (X, "NSMethod", "kdtree");
 assert (isa (obj, "KDTreeSearcher"));
 assert (obj.X, X);
 assert (obj.Distance, "euclidean");
***** test
 ## hnswSearcher with custom parameters
 X = [1, 2; 3, 4; 5, 6];
 obj = createns (X, "NSMethod", "hnsw", "MaxNumLinksPerNode", 2, "TrainSetSize", 3);
 assert (isa (obj, "hnswSearcher"));
 assert (obj.X, X);
 assert (obj.MaxNumLinksPerNode, 2);
 assert (obj.TrainSetSize, 3);
***** test
 ## ExhaustiveSearcher with custom distance
 X = [1, 2; 3, 4];
 obj = createns (X, "NSMethod", "exhaustive", "Distance", "cityblock");
 assert (isa (obj, "ExhaustiveSearcher"));
 assert (obj.Distance, "cityblock");
***** error<createns: too few input arguments.>
 createns ()
***** error<createns: Name-Value arguments must be in pairs.>
 X = [1, 2; 3, 4]; createns (X, "NSMethod")
***** error<createns: X must be a finite numeric matrix.>
 createns ([1; Inf; 3])
***** error<createns: 'NSMethod' must be a string.>
 X = [1, 2; 3, 4]; createns (X, "NSMethod", 1)
***** error<createns: invalid 'NSMethod' value: 'invalid'.>
 X = [1, 2; 3, 4]; createns (X, "NSMethod", "invalid")
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/kmeans.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/kmeans.m
***** demo
 ## Generate a two-cluster problem
 randn ("seed", 31)  # for reproducibility
 C1 = randn (100, 2) + 1;
 randn ("seed", 32)  # for reproducibility
 C2 = randn (100, 2) - 1;
 data = [C1; C2];

 ## Perform clustering
 rand ("seed", 1)  # for reproducibility
 [idx, centers] = kmeans (data, 2);

 ## Plot the result
 figure;
 plot (data (idx==1, 1), data (idx==1, 2), "ro");
 hold on;
 plot (data (idx==2, 1), data (idx==2, 2), "bs");
 plot (centers (:, 1), centers (:, 2), "kv", "markersize", 10);
 title ("A simple two-clusters example");
 hold off;
***** demo
 ## Cluster data using k-means clustering, then plot the cluster regions
 ## Load Fisher's iris data set and use the petal lengths and widths as
 ## predictors

 load fisheriris
 X = meas(:,3:4);

 plot (X(:,1), X(:,2), "k*", "MarkerSize", 5);
 title ("Fisher's Iris Data");
 xlabel ("Petal Lengths (cm)");
 ylabel ("Petal Widths (cm)");

 ## Cluster the data. Specify k = 3 clusters
 rand ("seed", 1)  # for reproducibility
 [idx, C] = kmeans (X, 3);
 x1 = min (X(:,1)):0.01:max (X(:,1));
 x2 = min (X(:,2)):0.01:max (X(:,2));
 [x1G, x2G] = meshgrid (x1, x2);
 XGrid = [x1G(:), x2G(:)];

 idx2Region = kmeans (XGrid, 3, "MaxIter", 10, "Start", C);
 figure;
 gscatter (XGrid(:,1), XGrid(:,2), idx2Region, ...
           [0, 0.75, 0.75; 0.75, 0, 0.75; 0.75, 0.75, 0], "..");
 hold on;
 plot (X(:,1), X(:,2), "k*", "MarkerSize", 5);
 title ("Fisher's Iris Data");
 xlabel ("Petal Lengths (cm)");
 ylabel ("Petal Widths (cm)");
 legend ("Region 1", "Region 2", "Region 3", "Data", "Location", "SouthEast");
 hold off
***** demo
 ## Partition Data into Two Clusters

 randn ("seed", 1)  # for reproducibility
 r1 = randn (100, 2) * 0.75 + ones (100, 2);
 randn ("seed", 2)  # for reproducibility
 r2 = randn (100, 2) * 0.5 - ones (100, 2);
 X = [r1; r2];

 plot (X(:,1), X(:,2), ".");
 title ("Randomly Generated Data");
 rand ("seed", 1)  # for reproducibility
 [idx, C] = kmeans (X, 2, "Distance", "cityblock", ...
                          "Replicates", 5, "Display", "final");
 figure;
 plot (X(idx==1,1), X(idx==1,2), "r.", "MarkerSize", 12);
 hold on
 plot(X(idx==2,1), X(idx==2,2), "b.", "MarkerSize", 12);
 plot (C(:,1), C(:,2), "kx", "MarkerSize", 15, "LineWidth", 3);
 legend ("Cluster 1", "Cluster 2", "Centroids", "Location", "NorthWest");
 title ("Cluster Assignments and Centroids");
 hold off
***** demo
 ## Assign New Data to Existing Clusters

 ## Generate a training data set using three distributions
 randn ("seed", 5)  # for reproducibility
 r1 = randn (100, 2) * 0.75 + ones (100, 2);
 randn ("seed", 7)  # for reproducibility
 r2 = randn (100, 2) * 0.5 - ones (100, 2);
 randn ("seed", 9)  # for reproducibility
 r3 = randn (100, 2) * 0.75;
 X = [r1; r2; r3];

 ## Partition the training data into three clusters by using kmeans

 rand ("seed", 1)  # for reproducibility
 [idx, C] = kmeans (X, 3);

 ## Plot the clusters and the cluster centroids

 gscatter (X(:,1), X(:,2), idx, "bgm", "***");
 hold on
 plot (C(:,1), C(:,2), "kx");
 legend ("Cluster 1", "Cluster 2", "Cluster 3", "Cluster Centroid")

 ## Generate a test data set
 randn ("seed", 25)  # for reproducibility
 r1 = randn (100, 2) * 0.75 + ones (100, 2);
 randn ("seed", 27)  # for reproducibility
 r2 = randn (100, 2) * 0.5 - ones (100, 2);
 randn ("seed", 29)  # for reproducibility
 r3 = randn (100, 2) * 0.75;
 Xtest = [r1; r2; r3];

 ## Classify the test data set using the existing clusters
 ## Find the nearest centroid from each test data point by using pdist2

 D = pdist2 (C, Xtest, "euclidean");
 [group, ~] = find (D == min (D));

 ## Plot the test data and label the test data using idx_test with gscatter

 gscatter (Xtest(:,1), Xtest(:,2), group, "bgm", "ooo");
 box on;
 legend ("Cluster 1", "Cluster 2", "Cluster 3", "Cluster Centroid", ...
         "Data classified to Cluster 1", "Data classified to Cluster 2", ...
         "Data classified to Cluster 3", "Location", "NorthWest");
 title ("Assign New Data to Existing Clusters");
***** test
 samples = 4;
 dims = 3;
 k = 2;
 [cls, c, d, z] = kmeans (rand (samples,dims), k, "start", rand (k,dims, 5),
                          "emptyAction", "singleton");
 assert (size (cls), [samples, 1]);
 assert (size (c), [k, dims]);
 assert (size (d), [k, 1]);
 assert (size (z), [samples, k]);
***** test
 samples = 4;
 dims = 3;
 k = 2;
 [cls, c, d, z] = kmeans (rand (samples,dims), [], "start", rand (k,dims, 5),
                          "emptyAction", "singleton");
 assert (size (cls), [samples, 1]);
 assert (size (c), [k, dims]);
 assert (size (d), [k, 1]);
 assert (size (z), [samples, k]);
***** test
 [cls, c] = kmeans ([1 0; 2 0], 2, "start", [8,0;0,8], "emptyaction", "drop");
 assert (cls, [1; 1]);
 assert (c, [1.5, 0; NA, NA]);
***** test
 kmeans (rand (4,3), 2, "start", rand (2,3, 5), "replicates", 5,
         "emptyAction", "singleton");
***** test
 kmeans (rand (3,4), 2, "start", "sample", "emptyAction", "singleton");
***** test
 kmeans (rand (3,4), 2, "start", "plus", "emptyAction", "singleton");
***** test
 kmeans (rand (3,4), 2, "start", "cluster", "emptyAction", "singleton");
***** test
 kmeans (rand (3,4), 2, "start", "uniform", "emptyAction", "singleton");
***** test
 kmeans (rand (4,3), 2, "distance", "sqeuclidean", "emptyAction", "singleton");
***** test
 kmeans (rand (4,3), 2, "distance", "cityblock", "emptyAction", "singleton");
***** test
 kmeans (rand (4,3), 2, "distance", "cosine", "emptyAction", "singleton");
***** test
 kmeans (rand (4,3), 2, "distance", "correlation", "emptyAction", "singleton");
***** test
 kmeans (rand (4,3), 2, "distance", "hamming", "emptyAction", "singleton");
***** test
 kmeans ([1 0; 1.1 0], 2, "start", eye(2), "emptyaction", "singleton");
***** error kmeans (rand (3,2), 4);
***** error kmeans ([1 0; 1.1 0], 2, "start", eye(2), "emptyaction", "panic");
***** error kmeans (rand (4,3), 2, "start", rand (2,3, 5), "replicates", 1);
***** error kmeans (rand (4,3), 2, "start", rand (2,2));
***** error kmeans (rand (4,3), 2, "distance", "manhattan");
***** error kmeans (rand (3,4), 2, "start", "normal");
***** error kmeans (rand (4,3), 2, "replicates", i);
***** error kmeans (rand (4,3), 2, "replicates", -1);
***** error kmeans (rand (4,3), 2, "replicates", []);
***** error kmeans (rand (4,3), 2, "replicates", [1 2]);
***** error kmeans (rand (4,3), 2, "replicates", "one");
***** error kmeans (rand (4,3), 2, "MAXITER", i);
***** error kmeans (rand (4,3), 2, "MaxIter", -1);
***** error kmeans (rand (4,3), 2, "maxiter", []);
***** error kmeans (rand (4,3), 2, "maxiter", [1 2]);
***** error kmeans (rand (4,3), 2, "maxiter", "one");
***** error <empty cluster created> kmeans ([1 0; 1.1 0], 2, "start", eye(2), "emptyaction", "error");
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/regress_gp.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/regress_gp.m
***** demo
 ## Linear fitting of 1D Data
 rand ("seed", 125);
 X = 2 * rand (5, 1) - 1;
 randn ("seed", 25);
 Y = 2 * X - 1 + 0.3 * randn (5, 1);

 ## Points for interpolation/extrapolation
 Xfit = linspace (-2, 2, 10)';

 ## Fit regression model
 [Yfit, Yint, m] = regress_gp (X, Y, Xfit);

 ## Plot fitted data
 plot (X, Y, "xk", Xfit, Yfit, "r-", Xfit, Yint, "b-");
 title ("Gaussian process regression with linear kernel");
***** demo
 ## Linear fitting of 2D Data
 rand ("seed", 135);
 X = 2 * rand (4, 2) - 1;
 randn ("seed", 35);
 Y = 2 * X(:,1) - 3 * X(:,2) - 1 + 1 * randn (4, 1);

 ## Mesh for interpolation/extrapolation
 [x1, x2] = meshgrid (linspace (-1, 1, 10));
 Xfit = [x1(:), x2(:)];

 ## Fit regression model
 [Ypred, Yint, Ysd] = regress_gp (X, Y, Xfit);
 Ypred = reshape (Ypred, 10, 10);
 YintU = reshape (Yint(:,1), 10, 10);
 YintL = reshape (Yint(:,2), 10, 10);

 ## Plot fitted data
 plot3 (X(:,1), X(:,2), Y, ".k", "markersize", 16);
 hold on;
 h = mesh (x1, x2, Ypred, zeros (10, 10));
 set (h, "facecolor", "none", "edgecolor", "yellow");
 h = mesh (x1, x2, YintU, ones (10, 10));
 set (h, "facecolor", "none", "edgecolor", "cyan");
 h = mesh (x1, x2, YintL, ones (10, 10));
 set (h, "facecolor", "none", "edgecolor", "cyan");
 hold off
 axis tight
 view (75, 25)
 title ("Gaussian process regression with linear kernel");
***** demo
 ## Projection over basis function with linear kernel
 pp = [2, 2, 0.3, 1];
 n = 10;
 rand ("seed", 145);
 X = 2 * rand (n, 1) - 1;
 randn ("seed", 45);
 Y = polyval (pp, X) + 0.3 * randn (n, 1);

 ## Powers
 px = [sqrt(abs(X)), X, X.^2, X.^3];

 ## Points for interpolation/extrapolation
 Xfit = linspace (-1, 1, 100)';
 pxi = [sqrt(abs(Xfit)), Xfit, Xfit.^2, Xfit.^3];

 ## Define a prior covariance assuming that the sqrt component is not present
 Sp = 100 * eye (size (px, 2) + 1);
 Sp(2,2) = 1; # We don't believe the sqrt(abs(X)) is present

 ## Fit regression model
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi, Sp);

 ## Plot fitted data
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("Linear kernel over basis function with prior covariance");
***** demo
 ## Projection over basis function with linear kernel
 pp = [2, 2, 0.3, 1];
 n = 10;
 rand ("seed", 145);
 X = 2 * rand (n, 1) - 1;
 randn ("seed", 45);
 Y = polyval (pp, X) + 0.3 * randn (n, 1);

 ## Powers
 px = [sqrt(abs(X)), X, X.^2, X.^3];

 ## Points for interpolation/extrapolation
 Xfit = linspace (-1, 1, 100)';
 pxi = [sqrt(abs(Xfit)), Xfit, Xfit.^2, Xfit.^3];

 ## Fit regression model without any assumption on prior covariance
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi);

 ## Plot fitted data
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("Linear kernel over basis function without prior covariance");
***** demo
 ## Projection over basis function with rbf kernel
 pp = [2, 2, 0.3, 1];
 n = 10;
 rand ("seed", 145);
 X = 2 * rand (n, 1) - 1;
 randn ("seed", 45);
 Y = polyval (pp, X) + 0.3 * randn (n, 1);

 ## Powers
 px = [sqrt(abs(X)), X, X.^2, X.^3];

 ## Points for interpolation/extrapolation
 Xfit = linspace (-1, 1, 100)';
 pxi = [sqrt(abs(Xfit)), Xfit, Xfit.^2, Xfit.^3];

 ## Fit regression model with RBF kernel (standard parameters)
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi, "rbf");

 ## Plot fitted data
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("RBF kernel over basis function with standard parameters");
 text (-0.5, 4, "theta = 5\n g = 0.01");
***** demo
 ## Projection over basis function with rbf kernel
 pp = [2, 2, 0.3, 1];
 n = 10;
 rand ("seed", 145);
 X = 2 * rand (n, 1) - 1;
 randn ("seed", 45);
 Y = polyval (pp, X) + 0.3 * randn (n, 1);

 ## Powers
 px = [sqrt(abs(X)), X, X.^2, X.^3];

 ## Points for interpolation/extrapolation
 Xfit = linspace (-1, 1, 100)';
 pxi = [sqrt(abs(Xfit)), Xfit, Xfit.^2, Xfit.^3];

 ## Fit regression model with RBF kernel with different parameters
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi, "rbf", 10, 0.01);

 ## Plot fitted data
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("GP regression with RBF kernel and non default parameters");
 text (-0.5, 4, "theta = 10\n g = 0.01");

 ## Fit regression model with RBF kernel with different parameters
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi, "rbf", 50, 0.01);

 ## Plot fitted data
 figure
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("GP regression with RBF kernel and non default parameters");
 text (-0.5, 4, "theta = 50\n g = 0.01");

 ## Fit regression model with RBF kernel with different parameters
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi, "rbf", 50, 0.001);

 ## Plot fitted data
 figure
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("GP regression with RBF kernel and non default parameters");
 text (-0.5, 4, "theta = 50\n g = 0.001");

 ## Fit regression model with RBF kernel with different parameters
 [Yfit, Yint, Ysd] = regress_gp (px, Y, pxi, "rbf", 50, 0.05);

 ## Plot fitted data
 figure
 plot (X, Y, "xk;Data;", Xfit, Yfit, "r-;Estimation;", ...
                         Xfit, polyval (pp, Xfit), "g-;True;");
 axis tight
 axis manual
 hold on
 plot (Xfit, Yint(:,1), "m-;Upper bound;", Xfit, Yint(:,2), "b-;Lower bound;");
 hold off
 title ("GP regression with RBF kernel and non default parameters");
 text (-0.5, 4, "theta = 50\n g = 0.05");
***** demo
 ## RBF fitting on noiseless 1D Data
 x = [0:2*pi/7:2*pi]';
 y = 5 * sin (x);

 ## Predictive grid of 500 equally spaced locations
 xi = [-0.5:(2*pi+1)/499:2*pi+0.5]';

 ## Fit regression model with RBF kernel
 [Yfit, Yint, Ysd] = regress_gp (x, y, xi, "rbf");

 ## Plot fitted data
 r = mvnrnd (Yfit, diag (Ysd)', 50);
 plot (xi, r', "c-");
 hold on
 plot (xi, Yfit, "r-;Estimation;", xi, Yint, "b-;Confidence interval;");
 plot (x, y, ".k;Predictor points;", "markersize", 20)
 plot (xi, 5 * sin (xi), "-y;True Function;");
 xlim ([-0.5,2*pi+0.5]);
 ylim ([-10,10]);
 hold off
 title ("GP regression with RBF kernel on noiseless 1D data");
 text (0, -7, "theta = 5\n g = 0.01");
***** demo
 ## RBF fitting on noisy 1D Data
 x = [0:2*pi/7:2*pi]';
 x = [x; x];
 y = 5 * sin (x) + randn (size (x));

 ## Predictive grid of 500 equally spaced locations
 xi = [-0.5:(2*pi+1)/499:2*pi+0.5]';

 ## Fit regression model with RBF kernel
 [Yfit, Yint, Ysd] = regress_gp (x, y, xi, "rbf");

 ## Plot fitted data
 r = mvnrnd (Yfit, diag (Ysd)', 50);
 plot (xi, r', "c-");
 hold on
 plot (xi, Yfit, "r-;Estimation;", xi, Yint, "b-;Confidence interval;");
 plot (x, y, ".k;Predictor points;", "markersize", 20)
 plot (xi, 5 * sin (xi), "-y;True Function;");
 xlim ([-0.5,2*pi+0.5]);
 ylim ([-10,10]);
 hold off
 title ("GP regression with RBF kernel on noisy 1D data");
 text (0, -7, "theta = 5\n g = 0.01");
***** error<Invalid call to regress_gp.> regress_gp (ones (20, 2))
***** error<Invalid call to regress_gp.> regress_gp (ones (20, 2), ones (20, 1))
***** error<regress_gp: X must be a 2-D matrix.> ...
 regress_gp (ones (20, 2, 3), ones (20, 1), ones (20, 2))
***** error<regress_gp: Y must be a column vector.> ...
 regress_gp (ones (20, 2), ones (20, 2), ones (20, 2))
***** error<regress_gp: rows in X must equal the length of Y.> ...
 regress_gp (ones (20, 2), ones (15, 1), ones (20, 2))
***** error<regress_gp: X and XI must have the same number of columns.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (20, 3))
***** error<regress_gp: invalid 4th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), {[3]})
***** error<regress_gp: invalid 4th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "kernel")
***** error<regress_gp: theta must be a scalar when using RBF kernel.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", ones (4))
***** error<regress_gp: wrong size for prior covariance matrix Sp.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "linear", 1)
***** error<regress_gp: invalid 5th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", "value")
***** error<regress_gp: invalid 5th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", {5})
***** error<regress_gp: invalid 5th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), ones (3), 5)
***** error<regress_gp: wrong size for prior covariance matrix Sp.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "linear", 5)
***** error<regress_gp: invalid 6th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", 5, {5})
***** error<regress_gp: invalid 6th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", 5, ones (2))
***** error<regress_gp: invalid 6th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), 5, 0.01, [1, 1])
***** error<regress_gp: invalid 6th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), 5, 0.01, "f")
***** error<regress_gp: invalid 6th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), 5, 0.01, "f")
***** error<regress_gp: invalid 7th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", 5, 0.01, "f")
***** error<regress_gp: invalid 7th argument.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "rbf", 5, 0.01, [1, 1])
***** error<regress_gp: wrong size for prior covariance matrix Sp.> ...
 regress_gp (ones (20, 2), ones (20, 1), ones (10, 2), "linear", 1)
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/cmdscale.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cmdscale.m
***** shared m, n, X, D
 m = randi(100) + 1; n = randi(100) + 1; X = rand(m, n); D = pdist(X);
***** assert(norm(pdist(cmdscale(D))), norm(D), sqrt(eps))
***** assert(norm(pdist(cmdscale(squareform(D)))), norm(D), sqrt(eps))
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/vartest2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/vartest2.m
***** error<vartest2: too few input arguments.> vartest2 ();
***** error<vartest2: too few input arguments.> vartest2 (ones (20,1));
***** error<vartest2: X and Y must be vectors or matrices or N-D arrays.> ...
 vartest2 (rand (20,1), 5);
***** error<vartest2: invalid value for alpha.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "alpha", 0);
***** error<vartest2: invalid value for alpha.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "alpha", 1.2);
***** error<vartest2: invalid value for alpha.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "alpha", "some");
***** error<vartest2: invalid value for alpha.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "alpha", [0.05, 0.001]);
***** error<vartest2: invalid value for tail.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "tail", [0.05, 0.001]);
***** error<vartest2: invalid value for tail.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "tail", "some");
***** error<vartest2: invalid value for operating dimension.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "dim", 3);
***** error<vartest2: invalid value for operating dimension.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "alpha", 0.001, "dim", 3);
***** error<vartest2: invalid name for optional arguments.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "some", 3);
***** error<vartest2: optional arguments must be in name/value pairs.> ...
 vartest2 (rand (20,1), rand (25,1)*2, "some");
***** test
 load carsmall
 [h, pval, ci, stat] = vartest2 (MPG(Model_Year==82), MPG(Model_Year==76));
 assert (h, 0);
 assert (pval, 0.6288022362718455, 1e-13);
 assert (ci, [0.4139; 1.7193], 1e-4);
 assert (stat.fstat, 0.8384, 1e-4);
 assert (stat.df1, 30);
 assert (stat.df2, 33);
***** test
 load carsmall
 [h, pval, ci, stat] = vartest2 (MPG(Model_Year==82), MPG(Model_Year==76), ...
                                 "tail", "left");
 assert (h, 0);
 assert (pval, 0.314401118135922, 1e-13);
 assert (ci, [0; 1.5287], 1e-4);
 assert (stat.fstat, 0.8384, 1e-4);
 assert (stat.df1, 30);
 assert (stat.df2, 33);
***** test
 load carsmall
 [h, pval, ci, stat] = vartest2 (MPG(Model_Year==82), MPG(Model_Year==76), ...
                                 "tail", "right");
 assert (h, 0);
 assert (pval, 0.685598881864077, 1e-13);
 assert (ci, [0.4643; Inf], 1e-4);
 assert (stat.fstat, 0.8384, 1e-4);
 assert (stat.df1, 30);
 assert (stat.df2, 33);
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/fullfact.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fullfact.m
***** demo
 ## Full factorial design with 3 ordinal variables
 fullfact ([2, 3, 4])
***** error<fullfact: one input argument is required.> fullfact ();
***** error<fullfact: input argument must be a finite real numeric vector.> ...
 fullfact (Inf);
***** error<fullfact: input argument must be a finite real numeric vector.> ...
 fullfact (NaN);
***** error<fullfact: input argument must be a finite real numeric vector.> ...
 fullfact (ones (2));
***** error<fullfact: input argument must be a finite real numeric vector.> ...
 fullfact ([1, 2, NaN]);
***** error<fullfact: input argument must be a finite real numeric vector.> ...
 fullfact ([1, 2, Inf]);
***** error<fullfact: factor levels must be real positive integers.> fullfact (2.5);
***** error<fullfact: factor levels must be real positive integers.> fullfact (0);
***** error<fullfact: factor levels must be real positive integers.> fullfact (-3);
***** error<fullfact: factor levels must be real positive integers.> fullfact (3+2i);
***** error<fullfact: factor levels must be real positive integers.> fullfact ([1, 2, -3]);
***** error<fullfact: factor levels must be real positive integers.> fullfact ([0, 1, 2]);
***** test
 A = fullfact (1);
 assert (A, 1);
***** test
 A = fullfact (2);
 assert (A, [1; 2]);
***** test
***** test
 A = fullfact (3);
 assert (A, [1; 2; 3]);
***** test
 A = fullfact ([1, 2, 4]);
 A_out = [1, 1, 1; 1, 2, 1; 1, 1, 2; 1, 2, 2; ...
          1, 1, 3; 1, 2, 3; 1, 1, 4; 1, 2, 4];
 assert (A, A_out);
***** test
 A = fullfact ([2, 2]);
 assert (A, [1, 1; 2, 1; 1, 2; 2, 2]);
***** test
 A = fullfact ([2, 2, 4]);
 A_out = [1, 1, 1; 2, 1, 1; 1, 2, 1; 2, 2, 1; ...
          1, 1, 2; 2, 1, 2; 1, 2, 2; 2, 2, 2; ...
          1, 1, 3; 2, 1, 3; 1, 2, 3; 2, 2, 3; ...
          1, 1, 4; 2, 1, 4; 1, 2, 4; 2, 2, 4];
 assert (A, A_out);
***** test
 A = fullfact ([3, 2, 4]);
 A_out = [1, 1, 1; 2, 1, 1; 3, 1, 1; 1, 2, 1; 2, 2, 1; 3, 2, 1; ...
          1, 1, 2; 2, 1, 2; 3, 1, 2; 1, 2, 2; 2, 2, 2; 3, 2, 2; ...
          1, 1, 3; 2, 1, 3; 3, 1, 3; 1, 2, 3; 2, 2, 3; 3, 2, 3; ...
          1, 1, 4; 2, 1, 4; 3, 1, 4; 1, 2, 4; 2, 2, 4; 3, 2, 4];
 assert (A, A_out);
***** test
 A = fullfact ([4, 2]);
 assert (A, [1, 1; 2, 1; 3, 1; 4, 1; 1, 2; 2, 2; 3, 2; 4, 2]);
21 tests, 21 passed, 0 known failure, 0 skipped
[inst/cdfcalc.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cdfcalc.m
***** test
 x = [2, 4, 3, 2, 4, 3, 2, 5, 6, 4];
 [yCDF, xCDF, n, emsg, eid] = cdfcalc (x);
 assert (yCDF, [0, 0.3, 0.5, 0.8, 0.9, 1]');
 assert (xCDF, [2, 3, 4, 5, 6]');
 assert (n, 10);
***** shared x
 x = [2, 4, 3, 2, 4, 3, 2, 5, 6, 4];
***** error yCDF = cdfcalc (x);
***** error [yCDF, xCDF] = cdfcalc ();
***** error [yCDF, xCDF] = cdfcalc (x, x);
***** warning [yCDF, xCDF] = cdfcalc (ones(10,2));
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/fitcsvm.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitcsvm.m
***** demo
 ## Use a subset of Fisher's iris data set

 load fisheriris
 inds = ! strcmp (species, 'setosa');
 X = meas(inds, [3,4]);
 Y = species(inds);

 ## Train a linear SVM classifier
 SVMModel = fitcsvm (X, Y)

 ## Plot a scatter diagram of the data and circle the support vectors.
 sv = SVMModel.SupportVectors;
 figure
 gscatter (X(:,1), X(:,2), Y)
 hold on
 plot (sv(:,1), sv(:,2), 'ko', 'MarkerSize', 10)
 legend ('versicolor', 'virginica', 'Support Vector')
 hold off
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = {"a"; "a"; "b"; "b"};
 a = fitcsvm (x, y);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y}, {x, y})
 assert (a.NumObservations, 4)
 assert ({a.ResponseName, a.PredictorNames}, {"Y", {"x1", "x2", "x3"}})
 assert (a.ModelParameters.SVMtype, "c_svc")
 assert (a.ClassNames, {"a"; "b"})
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = fitcsvm (x, y);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "linear"})
 assert (a.ModelParameters.BoxConstraint, 1)
 assert (a.ModelParameters.KernelOffset, 0)
 assert (a.ClassNames, [-1; 1])
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = fitcsvm (x, y, "KernelFunction", "rbf", "BoxConstraint", 2, ...
 "KernelOffset", 2);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "rbf"})
 assert (a.ModelParameters.BoxConstraint, 2)
 assert (a.ModelParameters.KernelOffset, 2)
 assert (isempty (a.Alpha), true)
 assert (isempty (a.Beta), false)
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = fitcsvm (x, y, "KernelFunction", "polynomial", "PolynomialOrder", 3);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "polynomial"})
 assert (a.ModelParameters.PolynomialOrder, 3)
 assert (isempty (a.Alpha), true)
 assert (isempty (a.Beta), false)
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = fitcsvm (x, y, "KernelFunction", "linear", "PolynomialOrder", 3);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "linear"})
 assert (a.ModelParameters.PolynomialOrder, 3)
 assert (isempty (a.Alpha), false)
 assert (isempty (a.Beta), true)
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 status = warning;
 warning ('off');
 rand ("seed", 23);
 a = fitcsvm (x, y, "KernelFunction", "linear", "CrossVal", 'on');
 warning (status);
 assert (class (a), "ClassificationPartitionedModel");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "linear"})
 assert (a.ModelParameters.PolynomialOrder, 3)
 assert (isempty (a.Trained{1}.Alpha), false)
 assert (isempty (a.Trained{1}.Beta), true)
***** error<fitcsvm: too few arguments.> fitcsvm ()
***** error<fitcsvm: too few arguments.> fitcsvm (ones (4,1))
***** error<fitcsvm: Name-Value arguments must be in pairs.>
 fitcsvm (ones (4,2), ones (4, 1), 'KFold')
***** error<fitcsvm: number of rows in X and Y must be equal.>
 fitcsvm (ones (4,2), ones (3, 1))
***** error<fitcsvm: number of rows in X and Y must be equal.>
 fitcsvm (ones (4,2), ones (3, 1), 'KFold', 2)
***** error <fitcsvm: 'CrossVal' must be either 'off' or 'on'.>
 fitcsvm (ones (4,2), ones (4, 1), "CrossVal", 2)
***** error <fitcsvm: 'CrossVal' must be either 'off' or 'on'.>
 fitcsvm (ones (4,2), ones (4, 1), "CrossVal", 'a')
***** error <fitcsvm: You can use only one cross-validation name-value pair argument> ...
 fitcsvm (ones (4,2), ones (4, 1), "KFold", 10, "Holdout", 0.3)
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/geomean.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/geomean.m
***** test
 x = [0:10];
 y = [x;x+5;x+10];
 assert (geomean (x), 0);
 m = [0 9.462942809849169 14.65658770861967];
 assert (geomean (y, 2), m', 4e-14);
 assert (geomean (y, "all"), 0);
 y(2,4) = NaN;
 m(2) = 9.623207231679554;
 assert (geomean (y, 2), [0 NaN m(3)]', 4e-14);
 assert (geomean (y', "omitnan"), m, 4e-14);
 z = y + 20;
 assert (geomean (z, "all"), NaN);
 assert (geomean (z, "all", "includenan"), NaN);
 assert (geomean (z, "all", "omitnan"), 29.59298474535024, 4e-14);
 m = [24.79790781765634 NaN 34.85638839503932];
 assert (geomean (z'), m, 4e-14);
 assert (geomean (z', "includenan"), m, 4e-14);
 m(2) = 30.02181156156319;
 assert (geomean (z', "omitnan"), m, 4e-14);
 assert (geomean (z, 2, "omitnan"), m', 4e-14);
***** test
 x = repmat ([1:20;6:25], [5 2 6 3]);
 assert (size (geomean (x, [3 2])), [10 1 1 3]);
 assert (size (geomean (x, [1 2])), [1 1 6 3]);
 assert (size (geomean (x, [1 2 4])), [1 1 6]);
 assert (size (geomean (x, [1 4 3])), [1 40]);
 assert (size (geomean (x, [1 2 3 4])), [1 1]);
***** test
 x = repmat ([1:20;6:25], [5 2 6 3]);
 m = repmat ([8.304361203739333;14.3078118884256], [5 1 1 3]);
 assert (geomean (x, [3 2]), m, 4e-13);
 x(2,5,6,3) = NaN;
 m(2,3) = NaN;
 assert (geomean (x, [3 2]), m, 4e-13);
 m(2,3) = 14.3292729579901;
 assert (geomean (x, [3 2], "omitnan"), m, 4e-13);
***** error <geomean: X must contain real nonnegative values.> geomean ("char")
***** error <geomean: X must contain real nonnegative values.> geomean ([1 -1 3])
***** error <geomean: DIM must be a positive integer scalar or vector.> ...
 geomean (repmat ([1:20;6:25], [5 2 6 3 5]), -1)
***** error <geomean: DIM must be a positive integer scalar or vector.> ...
 geomean (repmat ([1:20;6:25], [5 2 6 3 5]), 0)
***** error <geomean: VECDIM must contain non-repeating positive integers.> ...
 geomean (repmat ([1:20;6:25], [5 2 6 3 5]), [1 1])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/manovacluster.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/manovacluster.m
***** demo
 load carbig
 X = [MPG Acceleration Weight Displacement];
 [d, p, stats] = manova1 (X, Origin);
 manovacluster (stats)
***** test
 hf = figure ("visible", "off");
 unwind_protect
   load carbig
   X = [MPG Acceleration Weight Displacement];
   [d, p, stats] = manova1 (X, Origin);
   manovacluster (stats);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error manovacluster (stats, "some");
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/mcnemar_test.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/mcnemar_test.m
***** test
 [h, pval, chisq] = mcnemar_test ([101,121;59,33]);
 assert (h, 1);
 assert (pval, 3.8151e-06, 1e-10);
 assert (chisq, 21.356, 1e-3);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80]);
 assert (h, 1);
 assert (pval, 0.034690, 1e-6);
 assert (isempty (chisq), true);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80], 0.01);
 assert (h, 0);
 assert (pval, 0.034690, 1e-6);
 assert (isempty (chisq), true);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80], "mid-p");
 assert (h, 1);
 assert (pval, 0.034690, 1e-6);
 assert (isempty (chisq), true);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80], "asymptotic");
 assert (h, 1);
 assert (pval, 0.033006, 1e-6);
 assert (chisq, 4.5455, 1e-4);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80], "exact");
 assert (h, 0);
 assert (pval, 0.052479, 1e-6);
 assert (isempty (chisq), true);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80], "corrected");
 assert (h, 0);
 assert (pval, 0.055009, 1e-6);
 assert (chisq, 3.6818, 1e-4);
***** test
 [h, pval, chisq] = mcnemar_test ([59,6;16,80], 0.1, "corrected");
 assert (h, 1);
 assert (pval, 0.055009, 1e-6);
 assert (chisq, 3.6818, 1e-4);
***** error<mcnemar_test: too many input arguments.> mcnemar_test (59, 6, 16, 80)
***** error<mcnemar_test: X must be a 2x2 matrix.> mcnemar_test (ones (3, 3))
***** error<mcnemar_test: all entries of X must be non-negative integers.> ...
 mcnemar_test ([59,6;16,-80])
***** error<mcnemar_test: all entries of X must be non-negative integers.> ...
 mcnemar_test ([59,6;16,4.5])
***** error<mcnemar_test: invalid 2nd input argument.> ...
 mcnemar_test ([59,6;16,80], {""})
***** error<mcnemar_test: invalid value for ALPHA.> ...
 mcnemar_test ([59,6;16,80], -0.2)
***** error<mcnemar_test: invalid value for ALPHA.> ...
 mcnemar_test ([59,6;16,80], [0.05, 0.1])
***** error<mcnemar_test: invalid value for ALPHA.> ...
 mcnemar_test ([59,6;16,80], 1)
***** error<mcnemar_test: invalid value for TESTTYPE.> ...
 mcnemar_test ([59,6;16,80], "")
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/clusterdata.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/clusterdata.m
***** demo
 randn ("seed", 1)  # for reproducibility
 r1 = randn (10, 2) * 0.25 + 1;
 randn ("seed", 5)  # for reproducibility
 r2 = randn (20, 2) * 0.5 - 1;
 X = [r1; r2];

 wnl = warning ("off", "Octave:linkage_savemem", "local");
 T = clusterdata (X, "linkage", "ward", "MaxClust", 2);
 scatter (X(:,1), X(:,2), 36, T, "filled");
***** error<clusterdata: function called with too few input arguments.> ...
 clusterdata ()
***** error<clusterdata: function called with too few input arguments.> ...
 clusterdata (1)
***** error <unknown property .*> clusterdata ([1 1], "Bogus", 1)
***** error <specify .* 'MaxClust' or 'Cutoff' .*> clusterdata ([1 1], "Depth", 1)
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/fitgmdist.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitgmdist.m
***** demo
 ## Generate a two-cluster problem
 C1 = randn (100, 2) + 2;
 C2 = randn (100, 2) - 2;
 data = [C1; C2];

 ## Perform clustering
 GMModel = fitgmdist (data, 2);

 ## Plot the result
 figure
 [heights, bins] = hist3([C1; C2]);
 [xx, yy] = meshgrid(bins{1}, bins{2});
 bbins = [xx(:), yy(:)];
 contour (reshape (GMModel.pdf (bbins), size (heights)));
***** demo
 Angle_Theta = [ 30 + 10 * randn(1, 10),  60 + 10 * randn(1, 10) ]';
 nbOrientations = 2;
 initial_orientations = [38.0; 18.0];
 initial_weights = ones (1, nbOrientations) / nbOrientations;
 initial_Sigma = 10 * ones (1, 1, nbOrientations);
 start = struct ("mu", initial_orientations, "Sigma", initial_Sigma, ...
                 "ComponentProportion", initial_weights);
 GMModel_Theta = fitgmdist (Angle_Theta, nbOrientations, "Start", start , ...
                            "RegularizationValue", 0.0001)
***** test
 load fisheriris
 classes = unique (species);
 [~, score] = pca (meas, "NumComponents", 2);
 options.MaxIter = 1000;
 options.TolFun = 1e-6;
 options.Display = "off";
 GMModel = fitgmdist (score, 2, "Options", options);
 assert (isa (GMModel, "gmdistribution"), true);
 assert (GMModel.mu, [1.3212, -0.0954; -2.6424, 0.1909], 1e-4);
1 test, 1 passed, 0 known failure, 0 skipped
[inst/ztest2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ztest2.m
***** error ztest2 ();
***** error ztest2 (1);
***** error ztest2 (1, 2);
***** error ztest2 (1, 2, 3);
***** error ztest2 (1, 2, 3, 2);
***** error<ztest2: optional arguments must be in NAME-VALUE pairs.> ...
 ztest2 (1, 2, 3, 4, "alpha")
***** error<ztest2: invalid VALUE for alpha.> ...
 ztest2 (1, 2, 3, 4, "alpha", 0);
***** error<ztest2: invalid VALUE for alpha.> ...
 ztest2 (1, 2, 3, 4, "alpha", 1.2);
***** error<ztest2: invalid VALUE for alpha.> ...
 ztest2 (1, 2, 3, 4, "alpha", "val");
***** error<ztest2: invalid VALUE for tail.>  ...
 ztest2 (1, 2, 3, 4, "tail", "val");
***** error<ztest2: invalid VALUE for tail.>  ...
 ztest2 (1, 2, 3, 4, "alpha", 0.01, "tail", "val");
***** error<ztest2: invalid NAME for optional arguments.> ...
 ztest2 (1, 2, 3, 4, "alpha", 0.01, "tail", "both", "badoption", 3);
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/signrank.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/signrank.m
***** test
 load gradespaired.mat
 [p, h, stats] = signrank (gradespaired(:,1), ...
                           gradespaired(:,2), 'tail', 'left');
 assert (p, 0.0047, 1e-4);
 assert (h, true);
 assert (stats.zval, -2.5982, 1e-4);
 assert (stats.signedrank, 2017.5);
***** test
 load ('gradespaired.mat');
 [p, h, stats] = signrank (gradespaired(:,1), gradespaired(:,2), ...
                           'tail', 'left', 'method', 'exact');
 assert (p, 0.0045, 1e-4);
 assert (h, true);
 assert (stats.zval, NaN);
 assert (stats.signedrank, 2017.5);
***** test
 load mileage
 [p, h, stats] = signrank (mileage(:,2), 33);
 assert (p, 0.0312, 1e-4);
 assert (h, true);
 assert (stats.zval, NaN);
 assert (stats.signedrank, 21);
***** test
 load mileage
 [p, h, stats] = signrank (mileage(:,2), 33, 'tail', 'right');
 assert (p, 0.0156, 1e-4);
 assert (h, true);
 assert (stats.zval, NaN);
 assert (stats.signedrank, 21);
***** test
 load mileage
 [p, h, stats] = signrank (mileage(:,2), 33, 'tail', 'right', ...
                           'alpha', 0.01, 'method', 'approximate');
 assert (p, 0.0180, 1e-4);
 assert (h, false);
 assert (stats.zval, 2.0966, 1e-4);
 assert (stats.signedrank, 21);
***** error <signrank: X must be a vector.> signrank (ones (2))
***** error <signrank: Y must be either a scalar of a vector.> ...
 signrank ([1, 2, 3, 4], ones (2))
***** error <signrank: X and Y vectors have different lengths.> ...
 signrank ([1, 2, 3, 4], [1, 2, 3])
***** error <signrank: optional arguments must be in pairs.> ...
 signrank ([1, 2, 3, 4], [], 'tail')
***** error <signrank: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signrank ([1, 2, 3, 4], [], 'alpha', 1.2)
***** error <signrank: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signrank ([1, 2, 3, 4], [], 'alpha', 0)
***** error <signrank: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signrank ([1, 2, 3, 4], [], 'alpha', -0.05)
***** error <signrank: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signrank ([1, 2, 3, 4], [], 'alpha', "a")
***** error <signrank: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signrank ([1, 2, 3, 4], [], 'alpha', [0.01, 0.05])
***** error <signrank: 'tail' argument must be a character vector.> ...
 signrank ([1, 2, 3, 4], [], 'tail', 0.01)
***** error <signrank: 'tail' argument must be a character vector.> ...
 signrank ([1, 2, 3, 4], [], 'tail', {"both"})
***** error <signrank: 'tail' value must be either 'both', right' or 'left'.> ...
 signrank ([1, 2, 3, 4], [], 'tail', "some")
***** error <signrank: 'tail' value must be either 'both', right' or 'left'.> ...
 signrank ([1, 2, 3, 4], [], 'method', 'exact', 'tail', "some")
***** error <signrank: 'method' argument must be a character vector.> ...
 signrank ([1, 2, 3, 4], [], 'method', 0.01)
***** error <signrank: 'method' argument must be a character vector.> ...
 signrank ([1, 2, 3, 4], [], 'method', {"exact"})
***** error <signrank: 'method' value must be either 'exact' or 'approximate'.> ...
 signrank ([1, 2, 3, 4], [], 'method', "some")
***** error <signrank: 'method' value must be either 'exact' or 'approximate'.> ...
 signrank ([1, 2, 3, 4], [], 'tail', "both", 'method', "some")
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/friedman.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/friedman.m
***** demo
 load popcorn;
 friedman (popcorn, 3);
***** demo
 load popcorn;
 [p, atab] = friedman (popcorn, 3);
 disp (p);
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 [p, atab] = friedman (popcorn, 3);
 assert (p, 0.001028853354594794, 1e-14);
 assert (atab.SS(1), 99.75, 1e-14);
 assert (atab.df(1), 2, 0);
 assert (atab.MS(1), 49.875, 1e-14);
 assert (atab.Chi_sq(1), 13.75862068965517, 1e-14);
 assert (atab.Prob_Chi_sq(1), 0.001028853354594794, 1e-14);
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 [p, atab, stats] = friedman (popcorn, 3);
 assert (atab.SS(end), 116, 0);
 assert (atab.df(end), 17, 0);
 assert (stats.source, 'friedman');
 assert (stats.n, 2);
 assert (stats.meanranks, [8, 4.75, 2.25], 0);
 assert (stats.sigma, 2.692582403567252, 1e-14);
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 s = evalc ('[p, atab] = friedman (popcorn, 3);');
 assert (isempty (strtrim (s)));
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 s = evalc ('[p, atab] = friedman (popcorn, 3, "on");');
 assert (! isempty (strtrim (s)));
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 [p, atab] = friedman (popcorn, 3);
 assert (size (atab, 1), 4, 0);
 assert (numel (atab.SS), size (atab, 1), 0);
***** test
 x = [1, 2, 3; 2, 1, 3; 3, 2, 1];
 [p, atab] = friedman (x);
 assert (size (atab, 1), 3, 0);
 assert (numel (atab.SS), size (atab, 1), 0);
***** error<friedman: displayopt must be either 'on' or 'off'.> ...
 friedman ([5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; 6.5, 5.0, 4.0; ...
            7.0, 5.5, 5.0; 7.0, 5.0, 4.5], 3, 'invalid_displayopt');
***** error<friedman: NaN values in input are not allowed.> ...
 friedman ([1, 2; NaN, 4]);
***** error<friedman: repetitions and observations do not match.> ...
 friedman ([1,2; 3,4; 5,6], 2);
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/Classification/ConfusionMatrixChart.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ConfusionMatrixChart.m
***** demo
 ## Create a simple ConfusionMatrixChart Object

 cm = ConfusionMatrixChart (gca, [1 2; 1 2], {"A","B"}, {"XLabel","LABEL A"})
 NormalizedValues = cm.NormalizedValues
 ClassLabels = cm.ClassLabels
***** test
 hf = figure ("visible", "off");
 unwind_protect
   cm = ConfusionMatrixChart (gca, [1 2; 1 2], {"A","B"}, {"XLabel","LABEL A"});
   assert (isa (cm, "ConfusionMatrixChart"), true);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
1 test, 1 passed, 0 known failure, 0 skipped
[inst/Classification/CompactClassificationSVM.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/CompactClassificationSVM.m
***** demo
 ## Create a support vectors machine classifier and its compact version
 # and compare their size

 load fisheriris
 X = meas;
 Y = species;

 selected_classes = unique (Y)(randperm (3, 2));
 selected_indices = ismember (Y, selected_classes);
 X_selected = X(selected_indices, :);
 Y_selected = Y(selected_indices);
 Mdl = fitcsvm (X_selected, Y_selected, 'ClassNames', selected_classes);
 CMdl = crossval (Mdl)
***** error<CompactClassificationSVM: invalid classification object.> ...
 CompactClassificationSVM (1)
***** shared x, y, CMdl
 load fisheriris
 inds = ! strcmp (species, 'setosa');
 x = meas(inds, 3:4);
 y = grp2idx (species(inds));
***** test
 xc = [min(x); mean(x); max(x)];
 Mdl = fitcsvm (x, y, 'KernelFunction', 'rbf', 'Tolerance', 1e-7);
 CMdl = compact (Mdl);
 assert (isempty (CMdl.Alpha), true)
 assert (sum (CMdl.IsSupportVector), numel (CMdl.Beta))
 [label, score] = predict (CMdl, xc);
 assert (label, [1; 2; 2]);
 assert (score(:,1), [0.99285; -0.080296; -0.93694], 1e-5);
 assert (score(:,1), -score(:,2), eps)
***** test
 Mdl = fitcsvm (x, y);
 CMdl = compact (Mdl);
 assert (isempty (CMdl.Beta), true)
 assert (sum (CMdl.IsSupportVector), numel (CMdl.Alpha))
 assert (numel (CMdl.Alpha), 24)
 assert (CMdl.Bias, -14.415, 1e-3)
 xc = [min(x); mean(x); max(x)];
 label = predict (CMdl, xc);
 assert (label, [1; 2; 2]);
***** error<CompactClassificationSVM.predict: too few input arguments.> ...
 predict (CMdl)
***** error<CompactClassificationSVM.predict: XC is empty.> ...
 predict (CMdl, [])
***** error<CompactClassificationSVM.predict: XC must have the same number of predictors as the trained SVM model.> ...
 predict (CMdl, 1)
***** test
 CMdl.ScoreTransform = "a";
***** error<CompactClassificationSVM.predict: 'ScoreTransform' must be a 'function_handle' object.> ...
 [labels, scores] = predict (CMdl, x);
***** test
 rand ("seed", 1);
 C = cvpartition (y, 'HoldOut', 0.15);
 Mdl = fitcsvm (x(training (C),:), y(training (C)), ...
                'KernelFunction', 'rbf', 'Tolerance', 1e-7);
 CMdl = compact (Mdl);
 testInds = test (C);
 expected_margin = [2.0000;  0.8579;  1.6690;  3.4141;  3.4552; ...
                    2.6605;  3.5251; -4.0000; -6.3411; -6.4511; ...
                   -3.0532; -7.5054; -1.6700; -5.6227; -7.3640];
 computed_margin = margin (CMdl, x(testInds,:), y(testInds,:));
 assert (computed_margin, expected_margin, 1e-4);
***** error<CompactClassificationSVM.margin: too few input arguments.> ...
 margin (CMdl)
***** error<CompactClassificationSVM.margin: too few input arguments.> ...
 margin (CMdl, zeros (2))
***** error<CompactClassificationSVM.margin: X is empty.> ...
 margin (CMdl, [], 1)
***** error<CompactClassificationSVM.margin: X must have the same number of predictors as the trained SVM model.> ...
 margin (CMdl, 1, 1)
***** error<CompactClassificationSVM.margin: Y is empty.> ...
 margin (CMdl, [1, 2], [])
***** error<CompactClassificationSVM.margin: Y must have the same number of rows as X.> ...
 margin (CMdl, [1, 2], [1; 2])
***** test
 rand ("seed", 1);
 C = cvpartition (y, 'HoldOut', 0.15);
 Mdl = fitcsvm (x(training (C),:), y(training (C)), ...
                'KernelFunction', 'rbf', 'Tolerance', 1e-7);
 CMdl = compact (Mdl);
 testInds = test (C);
 L1 = loss (CMdl, x(testInds,:), y(testInds,:), 'LossFun', 'binodeviance');
 L2 = loss (CMdl, x(testInds,:), y(testInds,:), 'LossFun', 'classiferror');
 L3 = loss (CMdl, x(testInds,:), y(testInds,:), 'LossFun', 'exponential');
 L4 = loss (CMdl, x(testInds,:), y(testInds,:), 'LossFun', 'hinge');
 L5 = loss (CMdl, x(testInds,:), y(testInds,:), 'LossFun', 'logit');
 L6 = loss (CMdl, x(testInds,:), y(testInds,:), 'LossFun', 'quadratic');
 assert (L1, 2.8711, 1e-4);
 assert (L2, 0.5333, 1e-4);
 assert (L3, 10.9685, 1e-4);
 assert (L4, 1.9827, 1e-4);
 assert (L5, 1.5849, 1e-4);
 assert (L6, 7.6739, 1e-4);
***** error<CompactClassificationSVM.loss: too few input arguments.> ...
 loss (CMdl)
***** error<CompactClassificationSVM.loss: too few input arguments.> ...
 loss (CMdl, zeros (2))
***** error<CompactClassificationSVM.loss: Name-Value arguments must be in pairs.> ...
 loss (CMdl, [1, 2], 1, "LossFun")
***** error<CompactClassificationSVM.loss: X is empty.> ...
 loss (CMdl, [], zeros (2))
***** error<CompactClassificationSVM.loss: X must have the same number of predictors as the trained SVM model.> ...
 loss (CMdl, 1, zeros (2))
***** error<CompactClassificationSVM.loss: Y is empty.> ...
 loss (CMdl, [1, 2], [])
***** error<CompactClassificationSVM.loss: Y must have the same number of rows as X.> ...
 loss (CMdl, [1, 2], [1; 2])
***** error<CompactClassificationSVM.loss: 'LossFun' must be a character vector.> ...
 loss (CMdl, [1, 2], 1, "LossFun", 1)
***** error<CompactClassificationSVM.loss: unsupported Loss function.> ...
 loss (CMdl, [1, 2], 1, "LossFun", "some")
***** error<CompactClassificationSVM.loss: 'Weights' must be a numeric vector.> ...
 loss (CMdl, [1, 2], 1, "Weights", ['a', 'b'])
***** error<CompactClassificationSVM.loss: 'Weights' must be a numeric vector.> ...
 loss (CMdl, [1, 2], 1, "Weights", 'a')
***** error<CompactClassificationSVM.loss: size of 'Weights' must be equal to the number of rows in X.> ...
 loss (CMdl, [1, 2], 1, "Weights", [1, 2])
***** error<CompactClassificationSVM.loss: invalid parameter name in optional pair arguments.> ...
 loss (CMdl, [1, 2], 1, "some", "some")
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/Classification/CompactClassificationDiscriminant.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/CompactClassificationDiscriminant.m
***** demo
 ## Create a discriminant analysis classifier and its compact version
 # and compare their size

 load fisheriris
 X = meas;
 Y = species;

 Mdl = fitcdiscr (X, Y, 'ClassNames', unique (species))
 CMdl = crossval (Mdl)
***** test
 load fisheriris
 x = meas;
 y = species;
 PredictorNames = {'Sepal Length', 'Sepal Width', 'Petal Length', 'Petal Width'};
 Mdl = fitcdiscr (x, y, "PredictorNames", PredictorNames);
 CMdl = compact (Mdl);
 sigma = [0.265008, 0.092721, 0.167514, 0.038401; ...
          0.092721, 0.115388, 0.055244, 0.032710; ...
          0.167514, 0.055244, 0.185188, 0.042665; ...
          0.038401, 0.032710, 0.042665, 0.041882];
 mu = [5.0060, 3.4280, 1.4620, 0.2460; ...
       5.9360, 2.7700, 4.2600, 1.3260; ...
       6.5880, 2.9740, 5.5520, 2.0260];
 xCentered = [ 9.4000e-02,  7.2000e-02, -6.2000e-02, -4.6000e-02; ...
              -1.0600e-01, -4.2800e-01, -6.2000e-02, -4.6000e-02; ...
              -3.0600e-01, -2.2800e-01, -1.6200e-01, -4.6000e-02];
 assert (class (CMdl), "CompactClassificationDiscriminant");
 assert ({CMdl.DiscrimType, CMdl.ResponseName}, {"linear", "Y"})
 assert ({CMdl.Gamma, CMdl.MinGamma}, {0, 0}, 1e-15)
 assert (CMdl.ClassNames, unique (species))
 assert (CMdl.Sigma, sigma, 1e-6)
 assert (CMdl.Mu, mu, 1e-14)
 assert (CMdl.LogDetSigma, -9.9585, 1e-4)
 assert (CMdl.PredictorNames, PredictorNames)
***** test
 load fisheriris
 x = meas;
 y = species;
 Mdl = fitcdiscr (x, y, "Gamma", 0.5);
 CMdl = compact (Mdl);
 sigma = [0.265008, 0.046361, 0.083757, 0.019201; ...
          0.046361, 0.115388, 0.027622, 0.016355; ...
          0.083757, 0.027622, 0.185188, 0.021333; ...
          0.019201, 0.016355, 0.021333, 0.041882];
 mu = [5.0060, 3.4280, 1.4620, 0.2460; ...
       5.9360, 2.7700, 4.2600, 1.3260; ...
       6.5880, 2.9740, 5.5520, 2.0260];
 xCentered = [ 9.4000e-02,  7.2000e-02, -6.2000e-02, -4.6000e-02; ...
              -1.0600e-01, -4.2800e-01, -6.2000e-02, -4.6000e-02; ...
              -3.0600e-01, -2.2800e-01, -1.6200e-01, -4.6000e-02];
 assert (class (CMdl), "CompactClassificationDiscriminant");
 assert ({CMdl.DiscrimType, CMdl.ResponseName}, {"linear", "Y"})
 assert ({CMdl.Gamma, CMdl.MinGamma}, {0.5, 0})
 assert (CMdl.ClassNames, unique (species))
 assert (CMdl.Sigma, sigma, 1e-6)
 assert (CMdl.Mu, mu, 1e-14)
 assert (CMdl.LogDetSigma, -8.6884, 1e-4)
***** error<CompactClassificationDiscriminant: invalid classification object.> ...
 CompactClassificationDiscriminant (1)
***** test
 load fisheriris
 x = meas;
 y = species;
 Mdl = fitcdiscr (meas, species, "Gamma", 0.5);
 CMdl = compact (Mdl);
 [label, score, cost] = predict (CMdl, [2, 2, 2, 2]);
 assert (label, {'versicolor'})
 assert (score, [0, 0.9999, 0.0001], 1e-4)
 assert (cost, [1, 0.0001, 0.9999], 1e-4)
 [label, score, cost] = predict (CMdl, [2.5, 2.5, 2.5, 2.5]);
 assert (label, {'versicolor'})
 assert (score, [0, 0.6368, 0.3632], 1e-4)
 assert (cost, [1, 0.3632, 0.6368], 1e-4)
***** test
 load fisheriris
 x = meas;
 y = species;
 xc = [min(x); mean(x); max(x)];
 Mdl = fitcdiscr (x, y);
 CMdl = compact (Mdl);
 [label, score, cost] = predict (CMdl, xc);
 l = {'setosa'; 'versicolor'; 'virginica'};
 s = [1, 0, 0; 0, 1, 0; 0, 0, 1];
 c = [0, 1, 1; 1, 0, 1; 1, 1, 0];
 assert (label, l)
 assert (score, s, 1e-4)
 assert (cost, c, 1e-4)
***** shared MODEL
 X = rand (10,2);
 Y = [ones(5,1);2*ones(5,1)];
 MODEL = compact (ClassificationDiscriminant (X, Y));
***** error<CompactClassificationDiscriminant.predict: too few input arguments.> ...
 predict (MODEL)
***** error<CompactClassificationDiscriminant.predict: XC is empty.> ...
 predict (MODEL, [])
***** error<CompactClassificationDiscriminant.predict: XC must have the same number of features as the trained model.> ...
 predict (MODEL, 1)
***** test
 load fisheriris
 model = fitcdiscr (meas, species);
 x = mean (meas);
 y = {'versicolor'};
 L = loss (model, x, y);
 assert (L, 0)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y, "Gamma", 0.4);
 x_test = [1, 6; 3, 3];
 y_test = {'A'; 'B'};
 L = loss (model, x_test, y_test);
 assert (L, 0.3333, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3];
 y_test = ['1'];
 L = loss (model, x_test, y_test, 'LossFun', 'quadratic');
 assert (L, 0.2423, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3; 5, 7];
 y_test = ['1'; '2'];
 L = loss (model, x_test, y_test, 'LossFun', 'classifcost');
 assert (L, 0.3333, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3; 5, 7];
 y_test = ['1'; '2'];
 L = loss (model, x_test, y_test, 'LossFun', 'hinge');
 assert (L, 0.5886, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3; 5, 7];
 y_test = ['1'; '2'];
 W = [1; 2];
 L = loss (model, x_test, y_test, 'LossFun', 'logit', 'Weights', W);
 assert (L, 0.5107, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_with_nan = [1, 2; NaN, 4];
 y_test = {'A'; 'B'};
 L = loss (model, x_with_nan, y_test);
 assert (L, 0.3333, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y);
 x_with_nan = [1, 2; NaN, 4];
 y_test = {'A'; 'B'};
 L = loss (model, x_with_nan, y_test, 'LossFun', 'logit');
 assert (isnan (L))
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y);
 customLossFun = @(C, S, W, Cost) sum (W .* sum (abs (C - S), 2));
 L = loss (model, x, y, 'LossFun', customLossFun);
 assert (L, 0.8889, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = [1; 2; 1];
 model = fitcdiscr (x, y);
 L = loss (model, x, y, 'LossFun', 'classiferror');
 assert (L, 0.3333, 1e-4)
***** error<CompactClassificationDiscriminant.loss: too few input arguments.> ...
 loss (MODEL)
***** error<CompactClassificationDiscriminant.loss: too few input arguments.> ...
 loss (MODEL, ones (4,2))
***** error<CompactClassificationDiscriminant.loss: name-value arguments must be in pairs.> ...
 loss (MODEL, ones (4,2), ones (4,1), 'LossFun')
***** error<CompactClassificationDiscriminant.loss: Y must have the same number of rows as X.> ...
 loss (MODEL, ones (4,2), ones (3,1))
***** error<CompactClassificationDiscriminant.loss: invalid loss function.> ...
 loss (MODEL, ones (4,2), ones (4,1), 'LossFun', 'a')
***** error<CompactClassificationDiscriminant.loss: invalid 'Weights'.> ...
 loss (MODEL, ones (4,2), ones (4,1), 'Weights', 'w')
 load fisheriris
 mdl = fitcdiscr (meas, species);
 X = mean (meas);
 Y = {'versicolor'};
 m = margin (mdl, X, Y);
 assert (m, 1, 1e-6)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = [1; 2; 1];
 mdl = fitcdiscr (X, Y, "gamma", 0.5);
 m = margin (mdl, X, Y);
 assert (m, [0.3333; -0.3333; 0.3333], 1e-4)
***** error<CompactClassificationDiscriminant.margin: too few input arguments.> ...
 margin (MODEL)
***** error<CompactClassificationDiscriminant.margin: too few input arguments.> ...
 margin (MODEL, ones (4,2))
***** error<CompactClassificationDiscriminant.margin: Y must have the same number of rows as X.> ...
 margin (MODEL, ones (4,2), ones (3,1))
28 tests, 28 passed, 0 known failure, 0 skipped
[inst/Classification/ClassificationSVM.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ClassificationSVM.m
***** demo
 ## Create a Support Vector Machine classifier and determine margin for test
 ## data.
 load fisheriris
 rng(1);  ## For reproducibility

 ## Select indices of the non-setosa species
 inds = !strcmp(species, 'setosa');

  ## Select features and labels for non-setosa species
 X = meas(inds, 3:4);
 Y = grp2idx(species(inds));

 ##  Convert labels to +1 and -1
 unique_classes = unique(Y);
 Y(Y == unique_classes(1)) = -1;
 Y(Y == unique_classes(2)) = 1;

 ## Partition data for training and testing
 cv = cvpartition(Y, 'HoldOut', 0.15);
 X_train = X(training(cv), :);
 Y_train = Y(training(cv));
 X_test = X(test(cv), :);
 Y_test = Y(test(cv));

 ## Train the SVM model
 CVSVMModel = fitcsvm(X_train, Y_train);

 ## Calculate margins
 m = margin(CVSVMModel, X_test, Y_test);
 disp(m);
***** demo
 ## Create a Support Vector Machine classifier and determine loss for test
 ## data.
 load fisheriris
 rng(1);  ## For reproducibility

  ## Select indices of the non-setosa species
 inds = !strcmp(species, 'setosa');

  ## Select features and labels for non-setosa species
 X = meas(inds, 3:4);
 Y = grp2idx(species(inds));

 ##  Convert labels to +1 and -1
 unique_classes = unique(Y);
 Y(Y == unique_classes(1)) = -1;
 Y(Y == unique_classes(2)) = 1;

 ## Randomly partition the data into training and testing sets
 cv = cvpartition(Y, 'HoldOut', 0.3); # 30% data for testing, 60% for training

 X_train = X(training(cv), :);
 Y_train = Y(training(cv));

 X_test = X(test(cv), :);
 Y_test = Y(test(cv));

 ## Train the SVM model
 SVMModel = fitcsvm(X_train, Y_train);

 ## Calculate loss

 L = loss(SVMModel,X_test,Y_test,'LossFun','binodeviance')
 L = loss(SVMModel,X_test,Y_test,'LossFun','classiferror')
 L = loss(SVMModel,X_test,Y_test,'LossFun','exponential')
 L = loss(SVMModel,X_test,Y_test,'LossFun','hinge')
 L = loss(SVMModel,X_test,Y_test,'LossFun','logit')
 L = loss(SVMModel,X_test,Y_test,'LossFun','quadratic')
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1; 4, 5, 6; 7, 8, 9; ...
 3, 2, 1; 4, 5, 6; 7, 8, 9; 3, 2, 1; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [1; 2; 3; 4; 2; 3; 4; 2; 3; 4; 2; 3; 4];
 a = ClassificationSVM (x, y, "ClassNames", [1, 2]);
 assert (class (a), "ClassificationSVM");
 assert (a.RowsUsed, [1, 1, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0]');
 assert ({a.X, a.Y}, {x, y})
 assert (a.NumObservations, 5)
 assert ({a.ResponseName, a.PredictorNames}, {"Y", {"x1", "x2", "x3"}})
 assert ({a.ClassNames, a.ModelParameters.SVMtype}, {[1; 2], "c_svc"})
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = ClassificationSVM (x, y);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "linear"})
 assert (a.ModelParameters.BoxConstraint, 1)
 assert (a.ClassNames, [-1; 1])
 assert (a.ModelParameters.KernelOffset, 0)
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = ClassificationSVM (x, y, "KernelFunction", "rbf", "BoxConstraint", 2, ...
 "KernelOffset", 2);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "rbf"})
 assert (a.ModelParameters.BoxConstraint, 2)
 assert (a.ModelParameters.KernelOffset, 2)
***** test
 x = [1, 2; 2, 3; 3, 4; 4, 5; 2, 3; 3, 4; 2, 3; 3, 4; 2, 3; 3, 4];
 y = [1; 1; -1; -1; 1; -1; -1; -1; -1; -1];
 a = ClassificationSVM (x, y, "KernelFunction", "polynomial", ...
 "PolynomialOrder", 3);
 assert (class (a), "ClassificationSVM");
 assert ({a.X, a.Y, a.ModelParameters.KernelFunction}, {x, y, "polynomial"})
 assert (a.ModelParameters.PolynomialOrder, 3)
***** error<ClassificationSVM: too few input arguments.> ClassificationSVM ()
***** error<ClassificationSVM: too few input arguments.> ...
 ClassificationSVM (ones(10,2))
***** error<ClassificationSVM: number of rows in X and Y must be equal.> ...
 ClassificationSVM (ones(10,2), ones (5,1))
***** error<ClassificationSVM: 'Standardize' must be either true or false.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "Standardize", 'a')
***** error<ClassificationSVM: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "PredictorNames", ['x1';'x2'])
***** error<ClassificationSVM: 'PredictorNames' must have the same number of columns as X.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "PredictorNames", {'x1','x2','x3'})
***** error<ClassificationSVM: 'ResponseName' must be a character vector.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "ResponseName", {'Y'})
***** error<ClassificationSVM: 'ResponseName' must be a character vector.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "ResponseName", 21)
***** error<ClassificationSVM: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "ClassNames", @(x)x)
***** error<ClassificationSVM: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "ClassNames", {1})
***** error<ClassificationSVM: not all 'ClassNames' are present in Y.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "ClassNames", [1, 2])
***** error<ClassificationSVM: not all 'ClassNames' are present in Y.> ...
 ClassificationSVM (ones(5,2), ['a';'b';'a';'a';'b'], "ClassNames", ['a';'c'])
***** error<ClassificationSVM: not all 'ClassNames' are present in Y.> ...
 ClassificationSVM (ones(5,2), {'a';'b';'a';'a';'b'}, "ClassNames", {'a','c'})
***** error<ClassificationSVM: not all 'ClassNames' are present in Y.> ...
 ClassificationSVM (ones(10,2), logical (ones (10,1)), "ClassNames", [true, false])
***** error<ClassificationSVM: 'SVMtype' must be 'c_svc', 'nu_svc', or 'one_class_svm'.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "svmtype", 123)
***** error<ClassificationSVM: 'SVMtype' must be 'c_svc', 'nu_svc', or 'one_class_svm'.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "svmtype", 'some_type')
***** error<ClassificationSVM: 'OutlierFraction' must be a positive scalar in the range 0 =< OutlierFraction < 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "OutlierFraction", -1)
***** error<ClassificationSVM: 'KernelFunction' must be a character vector.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "KernelFunction", 123)
***** error<ClassificationSVM: unsupported Kernel function.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "KernelFunction", "fcn")
***** error<ClassificationSVM: 'PolynomialOrder' must be a positive integer.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "PolynomialOrder", -1)
***** error<ClassificationSVM: 'PolynomialOrder' must be a positive integer.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "PolynomialOrder", 0.5)
***** error<ClassificationSVM: 'PolynomialOrder' must be a positive integer.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "PolynomialOrder", [1,2])
***** error<ClassificationSVM: 'KernelScale' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "KernelScale", -1)
***** error<ClassificationSVM: 'KernelScale' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "KernelScale", 0)
***** error<ClassificationSVM: 'KernelScale' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "KernelScale", [1, 2])
***** error<ClassificationSVM: 'KernelScale' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "KernelScale", "invalid")
***** error<ClassificationSVM: 'KernelOffset' must be a non-negative scalar.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "KernelOffset", -1)
***** error<ClassificationSVM: 'KernelOffset' must be a non-negative scalar.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "KernelOffset", [1,2])
***** error<ClassificationSVM: 'BoxConstraint' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "BoxConstraint", -1)
***** error<ClassificationSVM: 'BoxConstraint' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "BoxConstraint", 0)
***** error<ClassificationSVM: 'BoxConstraint' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "BoxConstraint", [1, 2])
***** error<ClassificationSVM: 'BoxConstraint' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones (10,1), "BoxConstraint", "invalid")
***** error<ClassificationSVM: 'Nu' must be a positive scalar in the range 0 < Nu <= 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "nu", -0.5)
***** error<ClassificationSVM: 'Nu' must be a positive scalar in the range 0 < Nu <= 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "nu", 0)
***** error<ClassificationSVM: 'Nu' must be a positive scalar in the range 0 < Nu <= 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "nu", 1.5)
***** error<ClassificationSVM: 'CacheSize' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "CacheSize", -1)
***** error<ClassificationSVM: 'CacheSize' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "CacheSize", [1,2])
***** error<ClassificationSVM: 'Tolerance' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "Tolerance", -0.1)
***** error<ClassificationSVM: 'Tolerance' must be a positive scalar.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "Tolerance", [0.1,0.2])
***** error<ClassificationSVM: 'Shrinking' must be either 0 or 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "shrinking", 2)
***** error<ClassificationSVM: 'Shrinking' must be either 0 or 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "shrinking", -1)
***** error<ClassificationSVM: 'Shrinking' must be either 0 or 1.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "shrinking", [1 0])
***** error<ClassificationSVM: invalid parameter name in optional pair arguments.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "invalid_name", 'c_svc')
***** error<ClassificationSVM: cannot train a binary problem with only one class available.> ...
 ClassificationSVM (ones(10,2), ones(10,1), "SVMtype", 'c_svc')
***** error<ClassificationSVM: can only be used for one-class or two-class learning.> ...
 ClassificationSVM (ones(10,2), [1;1;1;1;2;2;2;2;3;3])
***** error<ClassificationSVM: invalid values in X.> ...
 ClassificationSVM ([ones(9,2);2,Inf], ones(10,1))
***** shared x, y, x_train, x_test, y_train, y_test, objST
 load fisheriris
 inds = ! strcmp (species, 'setosa');
 x = meas(inds, 3:4);
 y = grp2idx (species(inds));
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcsvm (x, y, 'KernelFunction', 'rbf', 'Tolerance', 1e-7);
 assert (isempty (obj.Alpha), true)
 assert (sum (obj.IsSupportVector), numel (obj.Beta))
 [label, score] = predict (obj, xc);
 assert (label, [1; 2; 2]);
 assert (score(:,1), [0.99285; -0.080296; -0.93694], 2e-5);
 assert (score(:,1), -score(:,2), eps)
***** test
 obj = fitcsvm (x, y);
 assert (isempty (obj.Beta), true)
 assert (sum (obj.IsSupportVector), numel (obj.Alpha))
 assert (numel (obj.Alpha), 24)
 assert (obj.Bias, -14.415, 1e-3)
 xc = [min(x); mean(x); max(x)];
 label = predict (obj, xc);
 assert (label, [1; 2; 2]);
***** error<ClassificationSVM.predict: too few input arguments.> ...
 predict (ClassificationSVM (ones (40,2), ones (40,1)))
***** error<ClassificationSVM.predict: XC is empty.> ...
 predict (ClassificationSVM (ones (40,2), ones (40,1)), [])
***** error<ClassificationSVM.predict: XC must have the same number of predictors as the trained model.> ...
 predict (ClassificationSVM (ones (40,2), ones (40,1)), 1)
***** test
 objST = fitcsvm (x, y);
***** error<ClassificationSVM.subsasgn: 'ScoreTransform' must be a 'function_handle' object.> ...
 objST.ScoreTransform = "a";
 [labels, scores] = predict (objST, x);
 [labels, scores] = resubPredict (objST);
***** test
 rand ("seed", 1);
 CVSVMModel = fitcsvm (x, y, 'KernelFunction', 'rbf', 'HoldOut', 0.15, ...
                       'Tolerance', 1e-7);
 obj = CVSVMModel.Trained{1};
 testInds = test (CVSVMModel.Partition);
 expected_margin = [2.0000;  0.8579;  1.6690;  3.4141;  3.4552; ...
                    2.6605;  3.5251; -4.0000; -6.3411; -6.4511; ...
                   -3.0532; -7.5054; -1.6700; -5.6227; -7.3640];
 computed_margin = margin (obj, x(testInds,:), y(testInds,:));
 assert (computed_margin, expected_margin, 1e-4);
***** error<ClassificationSVM.margin: too few input arguments.> ...
 margin (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)))
***** error<ClassificationSVM.margin: too few input arguments.> ...
 margin (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2))
***** error<ClassificationSVM.margin: X is empty.> ...
 margin (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), [], zeros (2))
***** error<ClassificationSVM.margin: X must have the same number of predictors as the trained model.> ...
 margin (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), 1, zeros (2))
***** error<ClassificationSVM.margin: Y is empty.> ...
 margin (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), [])
***** error<ClassificationSVM.margin: Y must have the same number of rows as X.> ...
 margin (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), 1)
***** test
 rand ("seed", 1);
 CVSVMModel = fitcsvm (x, y, 'KernelFunction', 'rbf', 'HoldOut', 0.15);
 obj = CVSVMModel.Trained{1};
 testInds = test (CVSVMModel.Partition);
 L1 = loss (obj, x(testInds,:), y(testInds,:), 'LossFun', 'binodeviance');
 L2 = loss (obj, x(testInds,:), y(testInds,:), 'LossFun', 'classiferror');
 L3 = loss (obj, x(testInds,:), y(testInds,:), 'LossFun', 'exponential');
 L4 = loss (obj, x(testInds,:), y(testInds,:), 'LossFun', 'hinge');
 L5 = loss (obj, x(testInds,:), y(testInds,:), 'LossFun', 'logit');
 L6 = loss (obj, x(testInds,:), y(testInds,:), 'LossFun', 'quadratic');
 assert (L1, 2.8711, 1e-4);
 assert (L2, 0.5333, 1e-4);
 assert (L3, 10.9685, 1e-4);
 assert (L4, 1.9827, 1e-4);
 assert (L5, 1.5849, 1e-4);
 assert (L6, 7.6739, 1e-4);
***** error<ClassificationSVM.loss: too few input arguments.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)))
***** error<ClassificationSVM.loss: too few input arguments.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2))
***** error<ClassificationSVM.loss: Name-Value arguments must be in pairs.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones(2,1), "LossFun")
***** error<ClassificationSVM.loss: X is empty.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), [], zeros (2))
***** error<ClassificationSVM.loss: X must have the same number of predictors as the trained model.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), 1, zeros (2))
***** error<ClassificationSVM.loss: Y is empty.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), [])
***** error<ClassificationSVM.loss: Y must have the same number of rows as X.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), 1)
***** error<ClassificationSVM.loss: 'LossFun' must be a character vector.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "LossFun", 1)
***** error<ClassificationSVM.loss: unsupported Loss function.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "LossFun", "some")
***** error<ClassificationSVM.loss: 'Weights' must be a numeric vector.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "Weights", ['a','b'])
***** error<ClassificationSVM.loss: 'Weights' must be a numeric vector.> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "Weights", 'a')
***** error<ClassificationSVM.loss: size of 'Weights' must be equal to the number> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "Weights", [1,2,3])
***** error<ClassificationSVM.loss: size of 'Weights' must be equal to the number> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "Weights", 3)
***** error<ClassificationSVM.loss: invalid parameter name in optional pair arg> ...
 loss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), zeros (2), ...
 ones (2,1), "some", "some")
***** error<ClassificationSVM.resubLoss: Name-Value arguments must be in pairs.> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "LossFun")
***** error<ClassificationSVM.resubLoss: 'LossFun' must be a character vector.> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "LossFun", 1)
***** error<ClassificationSVM.resubLoss: unsupported Loss function.> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "LossFun", "some")
***** error<ClassificationSVM.resubLoss: 'Weights' must be a numeric vector.> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "Weights", ['a','b'])
***** error<ClassificationSVM.resubLoss: 'Weights' must be a numeric vector.> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "Weights", 'a')
***** error<ClassificationSVM.resubLoss: size of 'Weights' must be equal to the n> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "Weights", [1,2,3])
***** error<ClassificationSVM.resubLoss: size of 'Weights' must be equal to the n> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "Weights", 3)
***** error<ClassificationSVM.resubLoss: invalid parameter name in optional pai> ...
 resubLoss (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1)), "some", "some")
***** test
 SVMModel = fitcsvm (x, y);
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (SVMModel, "KFold", 5);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 5)
 assert (class (CVMdl.Trained{1}), "CompactClassificationSVM")
 assert (CVMdl.CrossValidatedModel, "ClassificationSVM")
***** test
 obj = fitcsvm (x, y);
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "HoldOut", 0.2);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationSVM")
 assert (CVMdl.CrossValidatedModel, "ClassificationSVM")
***** test
 obj = fitcsvm (x, y);
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "LeaveOut", 'on');
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationSVM")
 assert (CVMdl.CrossValidatedModel, "ClassificationSVM")
***** error<ClassificationSVM.crossval: Name-Value arguments must be in pairs.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "KFold")
***** error<ClassificationSVM.crossval: specify only one of the optional Name-Value paired arguments.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), ...
 "KFold", 5, "leaveout", 'on')
***** error<ClassificationSVM.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "KFold", 'a')
***** error<ClassificationSVM.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "KFold", 1)
***** error<ClassificationSVM.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "KFold", -1)
***** error<ClassificationSVM.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "KFold", 11.5)
***** error<ClassificationSVM.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "KFold", [1,2])
***** error<ClassificationSVM.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "Holdout", 'a')
***** error<ClassificationSVM.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "Holdout", 11.5)
***** error<ClassificationSVM.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "Holdout", -1)
***** error<ClassificationSVM.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "Holdout", 0)
***** error<ClassificationSVM.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "Holdout", 1)
***** error<ClassificationSVM.crossval: 'Leaveout' must be either 'on' or 'off'.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "Leaveout", 1)
***** error<ClassificationSVM.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "CVPartition", 1)
***** error<ClassificationSVM.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "CVPartition", 'a')
***** error<ClassificationSVM.crossval: invalid parameter name in optional paired arguments> ...
 crossval (ClassificationSVM (ones (40,2),randi([1, 2], 40, 1)), "some", "some")
106 tests, 106 passed, 0 known failure, 0 skipped
[inst/Classification/ClassificationKNN.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ClassificationKNN.m
***** demo
 ## Create a k-nearest neighbor classifier for Fisher's iris data with k = 5.
 ## Evaluate some model predictions on new data.

 load fisheriris
 x = meas;
 y = species;
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 5, "Standardize", 1);
 [label, score, cost] = predict (obj, xc)
***** demo
 load fisheriris
 x = meas;
 y = species;
 obj = fitcknn (x, y, "NumNeighbors", 5, "Standardize", 1);

 ## Create a cross-validated model
 CVMdl = crossval (obj)
***** demo
 load fisheriris
 x = meas;
 y = species;
 covMatrix = cov (x);

 ## Fit the k-NN model using the 'mahalanobis' distance
 ## and the custom covariance matrix
 obj = fitcknn(x, y, 'NumNeighbors', 5, 'Distance','mahalanobis', ...
 'Cov', covMatrix);

 ## Create a partition model using cvpartition
 Partition = cvpartition (size (x, 1), 'kfold', 12);

 ## Create cross-validated model using 'cvPartition' name-value argument
 CVMdl = crossval (obj, 'cvPartition', Partition)

 ## Access the trained model from first fold of cross-validation
 CVMdl.Trained{1}
***** demo
 X = [1, 2; 3, 4; 5, 6];
 Y = {'A'; 'B'; 'A'};
 model = fitcknn (X, Y);
 customLossFun = @(C, S, W, Cost) sum (W .* sum (abs (C - S), 2));
 ## Calculate loss using custom loss function
 L = loss (model, X, Y, 'LossFun', customLossFun)
***** demo
 X = [1, 2; 3, 4; 5, 6];
 Y = {'A'; 'B'; 'A'};
 model = fitcknn (X, Y);
 ## Calculate loss using 'mincost' loss function
 L = loss (model, X, Y, 'LossFun', 'mincost')
***** demo
 X = [1, 2; 3, 4; 5, 6];
 Y = ['1'; '2'; '3'];
 model = fitcknn (X, Y);
 X_test = [3, 3; 5, 7];
 Y_test = ['1'; '2'];
 ## Specify custom Weights
 W = [1; 2];
 L = loss (model, X_test, Y_test, 'LossFun', 'logit', 'Weights', W);
***** demo
 load fisheriris
 mdl = fitcknn (meas, species);
 X = mean (meas);
 Y = {'versicolor'};
 m = margin (mdl, X, Y)
***** demo
 X = [1, 2; 4, 5; 7, 8; 3, 2];
 Y = [2; 1; 3; 2];
 ## Train the model
 mdl = fitcknn (X, Y);
 ## Specify Vars and Labels
 Vars = 1;
 Labels = 2;
 ## Calculate partialDependence
 [pd, x, y] = partialDependence (mdl, Vars, Labels);
***** demo
 X = [1, 2; 4, 5; 7, 8; 3, 2];
 Y = [2; 1; 3; 2];
 ## Train the model
 mdl = fitcknn (X, Y);
 ## Specify Vars and Labels
 Vars = 1;
 Labels = 1;
 queryPoints = [linspace(0, 1, 3)', linspace(0, 1, 3)'];
 ## Calculate partialDependence using queryPoints
 [pd, x, y] = partialDependence (mdl, Vars, Labels, 'QueryPoints', ...
 queryPoints)
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y, "NSMethod", "exhaustive");
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = ClassificationKNN (x, y, "NumNeighbors" ,k);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = ones (4, 11);
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = ClassificationKNN (x, y, "NumNeighbors" ,k);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = ClassificationKNN (x, y, "NumNeighbors" ,k, "NSMethod", "exhaustive");
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = ClassificationKNN (x, y, "NumNeighbors" ,k, "Distance", "hamming");
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "hamming"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 weights = ones (4,1);
 a = ClassificationKNN (x, y, "Standardize", 1);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.Standardize}, {true})
 assert ({a.Sigma}, {std(x, [], 1)})
 assert ({a.Mu}, {[3.75, 4.25, 4.75]})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 weights = ones (4,1);
 a = ClassificationKNN (x, y, "Standardize", false);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.Standardize}, {false})
 assert ({a.Sigma}, {[]})
 assert ({a.Mu}, {[]})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 s = ones (1, 3);
 a = ClassificationKNN (x, y, "Scale" , s, "Distance", "seuclidean");
 assert (class (a), "ClassificationKNN");
 assert ({a.DistParameter}, {s})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "seuclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y, "Exponent" , 5, "Distance", "minkowski");
 assert (class (a), "ClassificationKNN");
 assert (a.DistParameter, 5)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "minkowski"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y, "Exponent" , 5, "Distance", "minkowski", ...
                        "NSMethod", "exhaustive");
 assert (class (a), "ClassificationKNN");
 assert (a.DistParameter, 5)
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "minkowski"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y, "BucketSize" , 20, "distance", "mahalanobis");
 assert (class (a), "ClassificationKNN");
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "mahalanobis"})
 assert ({a.BucketSize}, {20})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y, "IncludeTies", true);
 assert (class (a), "ClassificationKNN");
 assert (a.IncludeTies, true);
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y);
 assert (class (a), "ClassificationKNN");
 assert (a.IncludeTies, false);
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = ClassificationKNN (x, y);
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, [0.5; 0.5])
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 prior = [0.5; 0.5];
 a = ClassificationKNN (x, y, "Prior", "empirical");
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, prior)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "a"; "b"];
 prior = [0.75; 0.25];
 a = ClassificationKNN (x, y, "Prior", "empirical");
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, prior)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "a"; "b"];
 prior = [0.5; 0.5];
 a = ClassificationKNN (x, y, "Prior", "uniform");
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, prior)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 cost = eye (2);
 a = ClassificationKNN (x, y, "Cost", cost);
 assert (class (a), "ClassificationKNN")
 assert (a.Cost, [1, 0; 0, 1])
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 cost = eye (2);
 a = ClassificationKNN (x, y, "Cost", cost, "Distance", "hamming" );
 assert (class (a), "ClassificationKNN")
 assert (a.Cost, [1, 0; 0, 1])
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "hamming"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2; 3, 4; 5,6; 5, 8];
 y = {'9'; '9'; '6'; '7'};
 a = ClassificationKNN (x, y);
 assert (a.Prior, [0.25; 0.25; 0.5])
***** test
 load fisheriris
 x = meas;
 y = species;
 ClassNames = {'setosa', 'versicolor', 'virginica'};
 a = ClassificationKNN (x, y, 'ClassNames', ClassNames);
 assert (a.ClassNames, ClassNames')
***** error<ClassificationKNN: too few input arguments.> ClassificationKNN ()
***** error<ClassificationKNN: too few input arguments.> ...
 ClassificationKNN (ones(4, 1))
***** error<ClassificationKNN: number of rows in X and Y must be equal.> ...
 ClassificationKNN (ones (4,2), ones (1,4))
***** error<ClassificationKNN: 'Standardize' must be either true or false.> ...
 ClassificationKNN (ones (5,3), ones (5,1), "standardize", "a")
***** error<ClassificationKNN: 'Standardize' cannot simultaneously be specified with> ...
 ClassificationKNN (ones (5,2), ones (5,1), "scale", [1 1], "standardize", true)
***** error<ClassificationKNN: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "PredictorNames", ["A"])
***** error<ClassificationKNN: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "PredictorNames", "A")
***** error<ClassificationKNN: 'PredictorNames' must have the same number of columns as X.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "PredictorNames", {"A", "B", "C"})
***** error<ClassificationKNN: 'ResponseName' must be a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "ResponseName", {"Y"})
***** error<ClassificationKNN: 'ResponseName' must be a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "ResponseName", 1)
***** error<ClassificationKNN: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationKNN (ones(10,2), ones (10,1), "ClassNames", @(x)x)
***** error<ClassificationKNN: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationKNN (ones(10,2), ones (10,1), "ClassNames", {1})
***** error<ClassificationKNN: not all 'ClassNames' are present in Y.> ...
 ClassificationKNN (ones(10,2), ones (10,1), "ClassNames", [1, 2])
***** error<ClassificationKNN: not all 'ClassNames' are present in Y.> ...
 ClassificationKNN (ones(5,2), ['a';'b';'a';'a';'b'], "ClassNames", ['a';'c'])
***** error<ClassificationKNN: not all 'ClassNames' are present in Y.> ...
 ClassificationKNN (ones(5,2), {'a';'b';'a';'a';'b'}, "ClassNames", {'a','c'})
***** error<ClassificationKNN: not all 'ClassNames' are present in Y.> ...
 ClassificationKNN (ones(10,2), logical (ones (10,1)), "ClassNames", [true, false])
***** error<ClassificationKNN: 'BreakTies' must be a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BreakTies", 1)
***** error<ClassificationKNN: 'BreakTies' must be a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BreakTies", {"1"})
***** error<ClassificationKNN: invalid value for 'BreakTies'.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BreakTies", "some")
***** error<ClassificationKNN: 'Prior' must be either a numeric vector or a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Prior", {"1", "2"})
***** error<ClassificationKNN: 'Cost' must be a numeric square matrix.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cost", [1, 2])
***** error<ClassificationKNN: 'Cost' must be a numeric square matrix.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cost", "string")
***** error<ClassificationKNN: 'Cost' must be a numeric square matrix.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cost", {eye(2)})
***** error<ClassificationKNN: 'NumNeighbors' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "NumNeighbors", 0)
***** error<ClassificationKNN: 'NumNeighbors' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "NumNeighbors", 15.2)
***** error<ClassificationKNN: 'NumNeighbors' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "NumNeighbors", "asd")
***** error<ClassificationKNN: unsupported distance metric.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", "somemetric")
***** error<ClassificationKNN: invalid function handle for distance metric.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", ...
                    @(v,m)sqrt(repmat(v,rows(m),1)-m,2))
***** error<ClassificationKNN: custom distance function produces wrong output size.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", ...
                    @(v,m)sqrt(sum(sumsq(repmat(v,rows(m),1)-m,2))))
***** error<ClassificationKNN: invalid distance metric.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", [1 2 3])
***** error<ClassificationKNN: invalid distance metric.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", {"mahalanobis"})
***** error<ClassificationKNN: invalid distance metric.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", logical (5))
***** error<ClassificationKNN: function handle for distance weight must return the> ...
 ClassificationKNN (ones (5,2), ones (5,1), "DistanceWeight", @(x)sum(x))
***** error<ClassificationKNN: invalid distance weight.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "DistanceWeight", "text")
***** error<ClassificationKNN: invalid distance weight.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "DistanceWeight", [1 2 3])
***** error<ClassificationKNN: 'Scale' must be a numeric vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Scale", "scale")
***** error<ClassificationKNN: 'Scale' must be a numeric vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Scale", {[1 2 3]})
***** error<ClassificationKNN: 'Scale' cannot simultaneously be specified with> ...
 ClassificationKNN (ones (5,2), ones (5,1), "standardize", true, "scale", [1 1])
***** error<ClassificationKNN: 'Cov' must be a symmetric positive definite matrix.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cov", ones (2), "Distance", "mahalanobis")
***** error<ClassificationKNN: 'Cov' cannot simultaneously be specified with> ...
 ClassificationKNN (ones (5,2), ones (5,1), "scale", [1 1], "Cov", ones (2))
***** error<ClassificationKNN: 'Exponent' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Exponent", 12.5)
***** error<ClassificationKNN: 'Exponent' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Exponent", -3)
***** error<ClassificationKNN: 'Exponent' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Exponent", "three")
***** error<ClassificationKNN: 'Exponent' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Exponent", {3})
***** error<ClassificationKNN: 'NSMethod' must be a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "NSMethod", {"kdtree"})
***** error<ClassificationKNN: 'NSMethod' must be a character vector.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "NSMethod", 3)
***** error<ClassificationKNN: 'NSMethod' must be either 'kdtree' or 'exhaustive'.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "NSMethod", "some")
***** error<ClassificationKNN: 'IncludeTies' must be either true or false.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "IncludeTies", "some")
***** error<ClassificationKNN: 'BucketSize' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BucketSize", 42.5)
***** error<ClassificationKNN: 'BucketSize' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BucketSize", -50)
***** error<ClassificationKNN: 'BucketSize' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BucketSize", "some")
***** error<ClassificationKNN: 'BucketSize' must be a positive integer.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "BucketSize", {50})
***** error<ClassificationKNN: invalid parameter name in optional pair arguments.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "some", "some")
***** error<ClassificationKNN: invalid values in X.> ...
 ClassificationKNN ([1;2;3;'a';4], ones (5,1))
***** error<ClassificationKNN: invalid values in X.> ...
 ClassificationKNN ([1;2;3;Inf;4], ones (5,1))
***** error<ClassificationKNN: the elements in 'Prior' do not correspond to the selected classes in Y.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Prior", [1 2])
***** error<ClassificationKNN: the number of rows and columns in 'Cost' must correspond to selected classes in Y.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cost", [1 2; 1 3])
***** error<ClassificationKNN: 'Scale' is only valid when distance metric is seuclidean.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Scale", [1 1])
***** error<ClassificationKNN: 'Scale' vector must have equal length to the number of columns in X.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Scale", [1 1 1], "Distance", "seuclidean")
***** error<ClassificationKNN: 'Scale' vector must contain nonnegative scalar values.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Scale", [1 -1], "Distance", "seuclidean")
***** error<ClassificationKNN: 'Cov' is only valid when distance metric is 'mahalanobis'.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cov", eye (2))
***** error<ClassificationKNN: 'Cov' matrix must have equal columns as X.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Cov", eye (3), "Distance", "mahalanobis")
***** error<ClassificationKNN: 'Exponent' is only valid when distance metric is 'minkowski'.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Exponent", 3)
***** error<ClassificationKNN: 'kdtree' method is only valid for 'euclidean', 'cityblock', 'manhattan', 'minkowski', and 'chebychev' distance metrics.> ...
 ClassificationKNN (ones (5,2), ones (5,1), "Distance", "hamming", "NSMethod", "kdtree")
***** shared x, y
 load fisheriris
 x = meas;
 y = species;
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 5);
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"; "versicolor"; "virginica"})
 assert (s, [1, 0, 0; 0, 1, 0; 0, 0, 1])
 assert (c, [0, 1, 1; 1, 0, 1; 1, 1, 0])
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 5, "Standardize", 1);
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"; "versicolor"; "virginica"})
 assert (s, [0.4, 0.6, 0; 0, 1, 0; 0, 0, 1])
 assert (c, [0.6, 0.4, 1; 1, 0, 1; 1, 1, 0])
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "mahalanobis");
 [l, s, c] = predict (obj, xc);
 assert (s, [0.3, 0.7, 0; 0, 0.9, 0.1; 0.2, 0.2, 0.6], 1e-4)
 assert (c, [0.7, 0.3, 1; 1, 0.1, 0.9; 0.8, 0.8, 0.4], 1e-4)
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "cosine");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"; "versicolor"; "virginica"})
 assert (s, [1, 0, 0; 0, 1, 0; 0, 0.3, 0.7], 1e-4)
 assert (c, [0, 1, 1; 1, 0, 1; 1, 0.7, 0.3], 1e-4)
***** test
 xc = [5.2, 4.1, 1.5, 0.1; 5.1, 3.8, 1.9, 0.4; ...
         5.1, 3.8, 1.5, 0.3; 4.9, 3.6, 1.4, 0.1];
 obj = fitcknn (x, y, "NumNeighbors", 5);
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"; "setosa"; "setosa"; "setosa"})
 assert (s, [1, 0, 0; 1, 0, 0; 1, 0, 0; 1, 0, 0])
 assert (c, [0, 1, 1; 0, 1, 1; 0, 1, 1; 0, 1, 1])
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 5);
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0, 0.6, 0.4], 1e-4)
 assert (c, [1, 0.4, 0.6], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "minkowski", "Exponent", 5);
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0, 0.5, 0.5], 1e-4)
 assert (c, [1, 0.5, 0.5], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "jaccard");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"})
 assert (s, [0.9, 0.1, 0], 1e-4)
 assert (c, [0.1, 0.9, 1], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "mahalanobis");
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0.1000, 0.5000, 0.4000], 1e-4)
 assert (c, [0.9000, 0.5000, 0.6000], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 5, "distance", "jaccard");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"})
 assert (s, [0.8, 0.2, 0], 1e-4)
 assert (c, [0.2, 0.8, 1], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 5, "distance", "seuclidean");
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0, 1, 0], 1e-4)
 assert (c, [1, 0, 1], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "chebychev");
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0, 0.7, 0.3], 1e-4)
 assert (c, [1, 0.3, 0.7], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "cityblock");
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0, 0.6, 0.4], 1e-4)
 assert (c, [1, 0.4, 0.6], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "cosine");
 [l, s, c] = predict (obj, xc);
 assert (l, {"virginica"})
 assert (s, [0, 0.1, 0.9], 1e-4)
 assert (c, [1, 0.9, 0.1], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "correlation");
 [l, s, c] = predict (obj, xc);
 assert (l, {"virginica"})
 assert (s, [0, 0.1, 0.9], 1e-4)
 assert (c, [1, 0.9, 0.1], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 30, "distance", "spearman");
 [l, s, c] = predict (obj, xc);
 assert (l, {"versicolor"})
 assert (s, [0, 1, 0], 1e-4)
 assert (c, [1, 0, 1], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 30, "distance", "hamming");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"})
 assert (s, [0.4333, 0.3333, 0.2333], 1e-4)
 assert (c, [0.5667, 0.6667, 0.7667], 1e-4)
***** test
 xc = [5, 3, 5, 1.45];
 obj = fitcknn (x, y, "NumNeighbors", 5, "distance", "hamming");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"})
 assert (s, [0.8, 0.2, 0], 1e-4)
 assert (c, [0.2, 0.8, 1], 1e-4)
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "correlation");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa"; "versicolor"; "virginica"})
 assert (s, [1, 0, 0; 0, 1, 0; 0, 0.4, 0.6], 1e-4)
 assert (c, [0, 1, 1; 1, 0, 1; 1, 0.6, 0.4], 1e-4)
***** test
 xc = [min(x); mean(x); max(x)];
 obj = fitcknn (x, y, "NumNeighbors", 10, "distance", "hamming");
 [l, s, c] = predict (obj, xc);
 assert (l, {"setosa";"setosa";"setosa"})
 assert (s, [0.9, 0.1, 0; 1, 0, 0; 0.5, 0, 0.5], 1e-4)
 assert (c, [0.1, 0.9, 1; 0, 1, 1; 0.5, 1, 0.5], 1e-4)
***** error<ClassificationKNN.predict: too few input arguments.> ...
 predict (ClassificationKNN (ones (4,2), ones (4,1)))
***** error<ClassificationKNN.predict: XC is empty.> ...
 predict (ClassificationKNN (ones (4,2), ones (4,1)), [])
***** error<ClassificationKNN.predict: XC must have the same number of predictors as the trained model.> ...
 predict (ClassificationKNN (ones (4,2), ones (4,1)), 1)
***** test
 load fisheriris
 model = fitcknn (meas, species, 'NumNeighbors', 5);
 X = mean (meas);
 Y = {'versicolor'};
 L = loss (model, X, Y);
 assert (L, 0)
***** test
 load fisheriris
 model = fitcknn (meas, species, 'NumNeighbors', 5);
 L = loss (model, meas, species, 'LossFun', 'binodeviance');
 assert (L, 0.1413, 1e-4)
***** test
 load fisheriris
 model = fitcknn (meas, species);
 L = loss (model, meas, species, 'LossFun', 'binodeviance');
 assert (L, 0.1269, 1e-4)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = {'A'; 'B'; 'A'};
 model = fitcknn (X, Y);
 X_test = [1, 6; 3, 3];
 Y_test = {'A'; 'B'};
 L = loss (model, X_test, Y_test);
 assert (abs (L - 0.6667) > 1e-5)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = {'A'; 'B'; 'A'};
 model = fitcknn (X, Y);
 X_with_nan = [1, 2; NaN, 4];
 Y_test = {'A'; 'B'};
 L = loss (model, X_with_nan, Y_test);
 assert (abs (L - 0.3333) < 1e-4)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = {'A'; 'B'; 'A'};
 model = fitcknn (X, Y);
 X_with_nan = [1, 2; NaN, 4];
 Y_test = {'A'; 'B'};
 L = loss (model, X_with_nan, Y_test, 'LossFun', 'logit');
 assert (isnan (L))
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = {'A'; 'B'; 'A'};
 model = fitcknn (X, Y);
 customLossFun = @(C, S, W, Cost) sum (W .* sum (abs (C - S), 2));
 L = loss (model, X, Y, 'LossFun', customLossFun);
 assert (L, 0)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = [1; 2; 1];
 model = fitcknn (X, Y);
 L = loss (model, X, Y, 'LossFun', 'classiferror');
 assert (L, 0)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = [true; false; true];
 model = fitcknn (X, Y);
 L = loss (model, X, Y, 'LossFun', 'binodeviance');
 assert (abs (L - 0.1269) < 1e-4)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = ['1'; '2'; '1'];
 model = fitcknn (X, Y);
 L = loss (model, X, Y, 'LossFun', 'classiferror');
 assert (L, 0)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = ['1'; '2'; '3'];
 model = fitcknn (X, Y);
 X_test = [3, 3];
 Y_test = ['1'];
 L = loss (model, X_test, Y_test, 'LossFun', 'quadratic');
 assert (L, 1)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = ['1'; '2'; '3'];
 model = fitcknn (X, Y);
 X_test = [3, 3; 5, 7];
 Y_test = ['1'; '2'];
 L = loss (model, X_test, Y_test, 'LossFun', 'classifcost');
 assert (L, 1)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = ['1'; '2'; '3'];
 model = fitcknn (X, Y);
 X_test = [3, 3; 5, 7];
 Y_test = ['1'; '2'];
 L = loss (model, X_test, Y_test, 'LossFun', 'hinge');
 assert (L, 1)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = ['1'; '2'; '3'];
 model = fitcknn (X, Y);
 X_test = [3, 3; 5, 7];
 Y_test = ['1'; '2'];
 W = [1; 2];
 L = loss (model, X_test, Y_test, 'LossFun', 'logit', 'Weights', W);
 assert (abs (L - 0.6931) < 1e-4)
***** error<ClassificationKNN.loss: too few input arguments.> ...
 loss (ClassificationKNN (ones (4,2), ones (4,1)))
***** error<ClassificationKNN.loss: too few input arguments.> ...
 loss (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2))
***** error<ClassificationKNN.loss: X is empty.> ...
 loss (ClassificationKNN (ones (40,2), randi ([1, 2], 40, 1)), [], zeros (2))
***** error<ClassificationKNN.loss: X must have the same number of predictors as the trained model.> ...
 loss (ClassificationKNN (ones (40,2), randi ([1, 2], 40, 1)), 1, zeros (2))
***** error<ClassificationKNN.loss: name-value arguments must be in pairs.> ...
 loss (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2), ...
        ones (4,1), 'LossFun')
***** error<ClassificationKNN.loss: Y must have the same number of rows as X.> ...
 loss (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2), ones (3,1))
***** error<ClassificationKNN.loss: invalid loss function.> ...
 loss (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2), ...
        ones (4,1), 'LossFun', 'a')
***** error<ClassificationKNN.loss: invalid Weights.> ...
 loss (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2), ...
        ones (4,1), 'Weights', 'w')
***** test
 load fisheriris
 mdl = fitcknn (meas, species, 'NumNeighbors', 5);
 X = mean (meas);
 Y = {'versicolor'};
 m = margin (mdl, X, Y);
 assert (m, 1)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = [1; 2; 3];
 mdl = fitcknn (X, Y);
 m = margin (mdl, X, Y);
 assert (m, [1; 1; 1])
***** test
 X = [7, 8; 9, 10];
 Y = ['1'; '2'];
 mdl = fitcknn (X, Y);
 m = margin (mdl, X, Y);
 assert (m, [1; 1])
***** test
 X = [11, 12];
 Y = {'1'};
 mdl = fitcknn (X, Y);
 m = margin (mdl, X, Y);
 assert (isnan (m))
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = [1; 2; 3];
 mdl = fitcknn (X, Y);
 X1 = [15, 16];
 Y1 = [1];
 m = margin (mdl, X1, Y1);
 assert (m, -1)
***** error<ClassificationKNN.margin: too few input arguments.> ...
 margin (ClassificationKNN (ones (4,2), ones (4,1)))
***** error<ClassificationKNN.margin: too few input arguments.> ...
 margin (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2))
***** error<ClassificationKNN.margin: X is empty.> ...
 margin (ClassificationKNN (ones (40,2), randi ([1, 2], 40, 1)), [], zeros (2))
***** error<ClassificationKNN.margin: X must have the same number of predictors as the trained model.> ...
 margin (ClassificationKNN (ones (40,2), randi ([1, 2], 40, 1)), 1, zeros (2))
***** error<ClassificationKNN.margin: Y must have the same number of rows as X.> ...
 margin (ClassificationKNN (ones (4,2), ones (4,1)), ones (4,2), ones (3,1))
***** shared X, Y, mdl
 X = [1, 2; 4, 5; 7, 8; 3, 2];
 Y = [2; 1; 3; 2];
 mdl = fitcknn (X, Y);
***** test
 Vars = 1;
 Labels = 2;
 [pd, x, y] = partialDependence (mdl, Vars, Labels);
 pdm = [0.7500, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000];
 assert (pd, pdm)
***** test
 Vars = 1;
 Labels = 2;
 [pd, x, y] = partialDependence (mdl, Vars, Labels, ...
 'NumObservationsToSample', 5);
 pdm = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
 assert (abs (pdm - pd) < 1)
***** test
 Vars = 1;
 Labels = 2;
 [pd, x, y] = partialDependence (mdl, Vars, Labels, 'UseParallel', true);
 pdm = [0.7500, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000];
 assert (pd, pdm)
***** test
 Vars = [1, 2];
 Labels = 1;
 queryPoints = {linspace(0, 1, 3)', linspace(0, 1, 3)'};
 [pd, x, y] = partialDependence (mdl, Vars, Labels, 'QueryPoints', ...
                            queryPoints, 'UseParallel', true);
 pdm = [0, 0, 0; 0, 0, 0; 0, 0, 0];
 assert (pd, pdm)
***** test
 Vars = 1;
 Labels = [1; 2];
 [pd, x, y] = partialDependence (mdl, Vars, Labels);
 pdm = [0.2500, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.2500, 0.2500, 0.2500, ...
 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, ...
 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, ...
 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, ...
 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, ...
 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, 0.2500, ...
 0.2500, 0.2500; 0.7500, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, 0.5000, ...
 0.5000, 0.5000, 0.5000];
 assert (pd, pdm)
***** test
 Vars = [1, 2];
 Labels = [1; 2];
 queryPoints = {linspace(0, 1, 3)', linspace(0, 1, 3)'};
 [pd, x, y] = partialDependence (mdl, Vars, Labels, 'QueryPoints', queryPoints);
 pdm(:,:,1) = [0, 0, 0; 1, 1, 1];
 pdm(:,:,2) = [0, 0, 0; 1, 1, 1];
 pdm(:,:,3) = [0, 0, 0; 1, 1, 1];
 assert (pd, pdm)
***** test
 X1 = [1; 2; 4; 5; 7; 8; 3; 2];
 X2 = ['2'; '3'; '1'; '3'; '1'; '3'; '2'; '2'];
 X = [X1, double(X2)];
 Y = [1; 2; 3; 3; 2; 1; 2; 1];
 mdl = fitcknn (X, Y, 'ClassNames', {'1', '2', '3'});
 Vars = 1;
 Labels = 1;
 [pd, x, y] = partialDependence (mdl, Vars, Labels);
 pdm = [1.0000, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, ...
 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, ...
 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0.3750, ...
 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, ...
 0.3750, 0.3750, 0.3750, 0.3750, 0.7500, 0.7500, 0.7500, 0.7500, 0.7500, ...
 0.7500, 0.7500, 0.7500];
 assert (pd, pdm)
***** test
 X1 = [1; 2; 4; 5; 7; 8; 3; 2];
 X2 = ['2'; '3'; '1'; '3'; '1'; '3'; '2'; '2'];
 X = [X1, double(X2)];
 Y = [1; 2; 3; 3; 2; 1; 2; 1];
 predictorNames = {'Feature1', 'Feature2'};
 mdl = fitcknn (X, Y, 'PredictorNames', predictorNames);
 Vars = 'Feature1';
 Labels = 1;
 [pd, x, y] = partialDependence (mdl, Vars, Labels);
 pdm = [1.0000, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, ...
 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, ...
 0.6250, 0.6250, 0.6250, 0.6250, 0.6250, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...
 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0.3750, ...
 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, 0.3750, ...
 0.3750, 0.3750, 0.3750, 0.3750, 0.7500, 0.7500, 0.7500, 0.7500, 0.7500, ...
 0.7500, 0.7500, 0.7500];
 assert (pd, pdm)
***** test
 X1 = [1; 2; 4; 5; 7; 8; 3; 2];
 X2 = ['2'; '3'; '1'; '3'; '1'; '3'; '2'; '2'];
 X = [X1, double(X2)];
 Y = [1; 2; 3; 3; 2; 1; 2; 1];
 predictorNames = {'Feature1', 'Feature2'};
 mdl = fitcknn (X, Y, 'PredictorNames', predictorNames);
 new_X1 = [10; 5; 6; 8; 9; 20; 35; 6];
 new_X2 = ['2'; '2'; '1'; '2'; '1'; '3'; '3'; '2'];
 new_X = [new_X1, double(new_X2)];
 Vars = 'Feature1';
 Labels = 1;
 [pd, x, y] = partialDependence (mdl, Vars, Labels, new_X);
 pdm = [0, 0, 0, 0, 0, 0.2500, 0.2500, 0.2500, 0.2500, 0.7500, 0.7500, ...
 0.7500, 0.7500, 0.7500, 0.7500, 1.0000, 1.0000, 1.0000, 1.0000, 1.0000, ...
 1.0000, 1.0000, 1.0000, 1.0000, 1.0000, 1.0000, 1.0000, 1.0000, 1.0000, ...
 1.0000, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, ...
 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, ...
 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1];
 assert (pd, pdm)
***** error<ClassificationKNN.partialDependence: too few input arguments.> ...
 partialDependence (ClassificationKNN (ones (4,2), ones (4,1)))
***** error<ClassificationKNN.partialDependence: too few input arguments.> ...
 partialDependence (ClassificationKNN (ones (4,2), ones (4,1)), 1)
***** error<ClassificationKNN.partialDependence: name-value arguments must be in pairs.> ...
 partialDependence (ClassificationKNN (ones (4,2), ones (4,1)), 1, ...
 ones (4,1), 'NumObservationsToSample')
***** error<ClassificationKNN.partialDependence: name-value arguments must be in pairs.> ...
 partialDependence (ClassificationKNN (ones (4,2), ones (4,1)), 1, ...
 ones (4,1), 2)
***** shared x, y, obj
 load fisheriris
 x = meas;
 y = species;
 covMatrix = cov (x);
 obj = fitcknn (x, y, 'NumNeighbors', 5, 'Distance', ...
      'mahalanobis', 'Cov', covMatrix);
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 10)
 assert (CVMdl.ModelParameters.NumNeighbors == 5)
 assert (strcmp (CVMdl.ModelParameters.Distance, "mahalanobis"))
 assert (class (CVMdl.Trained{1}), "ClassificationKNN")
 assert (!CVMdl.ModelParameters.Standardize)
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "KFold", 5);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 5)
 assert (CVMdl.ModelParameters.NumNeighbors == 5)
 assert (strcmp (CVMdl.ModelParameters.Distance, "mahalanobis"))
 assert (class (CVMdl.Trained{1}), "ClassificationKNN")
 assert (CVMdl.ModelParameters.Standardize == obj.Standardize)
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "HoldOut", 0.2);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.ModelParameters.NumNeighbors == 5)
 assert (strcmp (CVMdl.ModelParameters.Distance, "mahalanobis"))
 assert (class (CVMdl.Trained{1}), "ClassificationKNN")
 assert (CVMdl.ModelParameters.Standardize == obj.Standardize)
***** test
 obj = fitcknn (x, y, "NumNeighbors", 10, "Distance", "cityblock");
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "HoldOut", 0.2);
 warning (status);
 CVMdl = crossval (obj, "LeaveOut", 'on');
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.ModelParameters.NumNeighbors == 10)
 assert (strcmp (CVMdl.ModelParameters.Distance, "cityblock"))
 assert (class (CVMdl.Trained{1}), "ClassificationKNN")
 assert (CVMdl.ModelParameters.Standardize == obj.Standardize)
***** test
 obj = fitcknn (x, y, "NumNeighbors", 10, "Distance", "cityblock");
 status = warning;
 warning ('off');
 rand ("seed", 23);
 partition = cvpartition (y, 'KFold', 3);
 warning (status);
 CVMdl = crossval (obj, 'cvPartition', partition);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert (CVMdl.KFold == 3)
 assert (CVMdl.ModelParameters.NumNeighbors == 10)
 assert (strcmp (CVMdl.ModelParameters.Distance, "cityblock"))
 assert (class (CVMdl.Trained{1}), "ClassificationKNN")
 assert (CVMdl.ModelParameters.Standardize == obj.Standardize)
***** error<ClassificationKNN.crossval: Name-Value arguments must be in pairs.> ...
 crossval (ClassificationKNN (ones (4,2), ones (4,1)), "kfold")
***** error<ClassificationKNN.crossval: specify only one of the optional Name-Value paired arguments.>...
 crossval (ClassificationKNN (ones (4,2), ones (4,1)), "kfold", 12, "holdout", 0.2)
***** error<ClassificationKNN.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (ClassificationKNN (ones (4,2), ones (4,1)), "kfold", 'a')
***** error<ClassificationKNN.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (ClassificationKNN (ones (4,2), ones (4,1)), "holdout", 2)
***** error<ClassificationKNN.crossval: 'Leaveout' must be either 'on' or 'off'.> ...
 crossval (ClassificationKNN (ones (4,2), ones (4,1)), "leaveout", 1)
***** error<ClassificationKNN.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (ClassificationKNN (ones (4,2), ones (4,1)), "cvpartition", 1)
165 tests, 165 passed, 0 known failure, 0 skipped
[inst/Classification/ClassificationGAM.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ClassificationGAM.m
***** demo
 ## Train a GAM classifier for binary classification
 ## using specific data and plot the decision boundaries.

 ## Define specific data
 X = [1, 2; 2, 3; 3, 3; 4, 5; 5, 5; ...
     6, 7; 7, 8; 8, 8; 9, 9; 10, 10];
 Y = [0; 0; 0; 0; 0; ...
     1; 1; 1; 1; 1];

 ## Train the GAM model
 obj = fitcgam (X, Y, "Interactions", "all")

 ## Create a grid of values for prediction
 x1 = [min(X(:,1)):0.1:max(X(:,1))];
 x2 = [min(X(:,2)):0.1:max(X(:,2))];
 [x1G, x2G] = meshgrid (x1, x2);
 XGrid = [x1G(:), x2G(:)];
 [labels, score] = predict (obj, XGrid);
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [0; 0; 1; 1];
 PredictorNames = {'Feature1', 'Feature2', 'Feature3'};
 a = ClassificationGAM (x, y, "PredictorNames", PredictorNames);
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {x, y, 4})
 assert ({a.NumPredictors, a.ResponseName}, {3, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.PredictorNames, PredictorNames)
 assert (a.BaseModel.Intercept, 0)
***** test
 load fisheriris
 inds = strcmp (species,'versicolor') | strcmp (species,'virginica');
 X = meas(inds, :);
 Y = species(inds, :)';
 Y = strcmp (Y, 'virginica')';
 a = ClassificationGAM (X, Y, 'Formula', 'Y ~ x1 + x2 + x3 + x4 + x1:x2 + x2:x3');
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {X, Y, 100})
 assert ({a.NumPredictors, a.ResponseName}, {4, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.Formula, 'Y ~ x1 + x2 + x3 + x4 + x1:x2 + x2:x3')
 assert (a.PredictorNames, {'x1', 'x2', 'x3', 'x4'})
 assert (a.ModelwInt.Intercept, 0)
***** test
 X = [2, 3, 5; 4, 6, 8; 1, 2, 3; 7, 8, 9; 5, 4, 3];
 Y = [0; 1; 0; 1; 1];
 a = ClassificationGAM (X, Y, 'Knots', [4, 4, 4], 'Order', [3, 3, 3]);
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {X, Y, 5})
 assert ({a.NumPredictors, a.ResponseName}, {3, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.PredictorNames, {'x1', 'x2', 'x3'})
 assert (a.Knots, [4, 4, 4])
 assert (a.Order, [3, 3, 3])
 assert (a.DoF, [7, 7, 7])
 assert (a.BaseModel.Intercept, 0.4055, 1e-1)
***** test
 ## Test uniform prior
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = [0; 0; 1; 1];
 a = ClassificationGAM (x, y, 'Prior', 'uniform');
 assert (a.Prior, [0.5, 0.5], 1e-6);
***** test
 ## Test empirical prior
 x = [1, 2; 3, 4; 5, 6; 7, 8; 9, 10];
 y = [0; 0; 0; 1; 1];
 a = ClassificationGAM (x, y, 'Prior', 'empirical');
 assert (a.Prior, [0.6; 0.4], 1e-6);
***** test
 ## Test numeric prior
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = [0; 0; 1; 1];
 a = ClassificationGAM (x, y, 'Prior', [0.7, 0.3]);
 assert (a.Prior, [0.7, 0.3], 1e-6);
***** test
 ## Test default prior (empirical)
 x = [1, 2; 3, 4; 5, 6; 7, 8; 9, 10; 11, 12];
 y = [0; 0; 0; 1; 1; 1];
 a = ClassificationGAM (x, y);
 assert (a.Prior, [0.5; 0.5], 1e-6);
***** test
 ## Test prior normalization
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = [0; 0; 1; 1];
 a = ClassificationGAM (x, y, 'Prior', [2, 1]);
 assert (a.Prior, [2/3, 1/3], 1e-6);
***** error<ClassificationGAM: 'Prior' must be a 2-element vector.> ...
 ClassificationGAM (ones(4,2), ones(4,1), "Prior", [1])
***** error<ClassificationGAM: 'Prior' must be a 2-element vector.> ...
 ClassificationGAM (ones(4,2), ones(4,1), "Prior", [1, 2, 3])
***** error<ClassificationGAM: 'Prior' must be a numeric vector or a string.> ...
 ClassificationGAM (ones(4,2), ones(4,1), "Prior", {1, 2})
***** error<ClassificationGAM: 'Prior' must be> ...
 ClassificationGAM (ones(4,2), ones(4,1), "Prior", "invalid")
***** error<ClassificationGAM: too few input arguments.> ClassificationGAM ()
***** error<ClassificationGAM: too few input arguments.> ...
 ClassificationGAM (ones(4, 1))
***** error<ClassificationGAM: number of rows in X and Y must be equal.> ...
 ClassificationGAM (ones (4,2), ones (1,4))
***** error<ClassificationGAM: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "PredictorNames", ["A"])
***** error<ClassificationGAM: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "PredictorNames", "A")
***** error<ClassificationGAM: 'PredictorNames' must equal the number of columns in X.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "PredictorNames", {"A", "B", "C"})
***** error<ClassificationGAM: 'ResponseName' must be a character vector.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "ResponseName", {"Y"})
***** error<ClassificationGAM: 'ResponseName' must be a character vector.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "ResponseName", 1)
***** error<ClassificationGAM: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationGAM (ones(10,2), ones (10,1), "ClassNames", @(x)x)
***** error<ClassificationGAM: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationGAM (ones(10,2), ones (10,1), "ClassNames", {1})
***** error<ClassificationGAM: not all 'ClassNames' are present in Y.> ...
 ClassificationGAM (ones(10,2), ones (10,1), "ClassNames", [1, 2])
***** error<ClassificationGAM: not all 'ClassNames' are present in Y.> ...
 ClassificationGAM (ones(5,2), ['a';'b';'a';'a';'b'], "ClassNames", ['a';'c'])
***** error<ClassificationGAM: not all 'ClassNames' are present in Y.> ...
 ClassificationGAM (ones(5,2), {'a';'b';'a';'a';'b'}, "ClassNames", {'a','c'})
***** error<ClassificationGAM: not all 'ClassNames' are present in Y.> ...
 ClassificationGAM (ones(10,2), logical (ones (10,1)), "ClassNames", [true, false])
***** error<ClassificationGAM: 'Cost' must be a numeric square matrix.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "Cost", [1, 2])
***** error<ClassificationGAM: 'Cost' must be a numeric square matrix.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "Cost", "string")
***** error<ClassificationGAM: 'Cost' must be a numeric square matrix.> ...
 ClassificationGAM (ones (5,2), ones (5,1), "Cost", {eye(2)})
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8; 9, 10];
 y = [1; 0; 1; 0; 1];
 a = ClassificationGAM (x, y, "interactions", "all");
 l = {'1'; '1'; '1'; '1'; '1'};
 s = [0.3760, 0.6240; 0.4259, 0.5741; 0.3760, 0.6240; ...
      0.4259, 0.5741; 0.3760, 0.6240];
 [labels, scores] = predict (a, x);
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {x, y, 5})
 assert ({a.NumPredictors, a.ResponseName}, {2, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.PredictorNames, {'x1', 'x2'})
 assert (a.ModelwInt.Intercept, 0.4055, 1e-1)
 assert (labels, l)
 assert (scores, s, 1e-1)
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [0; 0; 1; 1];
 interactions = [false, true, false; true, false, true; false, true, false];
 a = fitcgam (x, y, "learningrate", 0.2, "interactions", interactions);
 [label, score] = predict (a, x, "includeinteractions", true);
 l = {'0'; '0'; '1'; '1'};
 s = [0.5106, 0.4894; 0.5135, 0.4865; 0.4864, 0.5136; 0.4847, 0.5153];
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {x, y, 4})
 assert ({a.NumPredictors, a.ResponseName}, {3, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.PredictorNames, {'x1', 'x2', 'x3'})
 assert (a.ModelwInt.Intercept, 0)
 assert (label, l)
 assert (score, s, 1e-1)
***** error<ClassificationGAM.predict: too few input arguments.> ...
 predict (ClassificationGAM (ones (4,2), ones (4,1)))
***** error<ClassificationGAM.predict: XC is empty.> ...
 predict (ClassificationGAM (ones (4,2), ones (4,1)), [])
***** error<ClassificationGAM.predict: XC must have the same number of predictors as the trained model.> ...
 predict (ClassificationGAM (ones (4,2), ones (4,1)), 1)
***** shared x, y, obj
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1; 4, 5, 6];
 y = [0; 0; 1; 1; 0];
 obj = fitcgam (x, y);
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 5)
 assert (class (CVMdl.Trained{1}), "CompactClassificationGAM")
 assert (CVMdl.CrossValidatedModel, "ClassificationGAM")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "KFold", 2);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 2)
 assert (class (CVMdl.Trained{1}), "CompactClassificationGAM")
 assert (CVMdl.CrossValidatedModel, "ClassificationGAM")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "HoldOut", 0.2);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationGAM")
 assert (CVMdl.CrossValidatedModel, "ClassificationGAM")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 partition = cvpartition (y, 'KFold', 3);
 warning (status);
 CVMdl = crossval (obj, 'cvPartition', partition);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert (CVMdl.KFold == 3)
 assert (class (CVMdl.Trained{1}), "CompactClassificationGAM")
 assert (CVMdl.CrossValidatedModel, "ClassificationGAM")
***** error<ClassificationGAM.crossval: Name-Value arguments must be in pairs.> ...
 crossval (obj, "kfold")
***** error<ClassificationGAM.crossval: specify only one of the optional Name-Value paired arguments.>...
 crossval (obj, "kfold", 12, "holdout", 0.2)
***** error<ClassificationGAM.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (obj, "kfold", 'a')
***** error<ClassificationGAM.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (obj, "holdout", 2)
***** error<ClassificationGAM.crossval: 'Leaveout' must be either 'on' or 'off'.> ...
 crossval (obj, "leaveout", 1)
***** error<ClassificationGAM.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (obj, "cvpartition", 1)
44 tests, 44 passed, 0 known failure, 0 skipped
[inst/Classification/ClassificationDiscriminant.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ClassificationDiscriminant.m
***** demo
 ## Create discriminant classifier
 ## Evaluate some model predictions on new data.

 load fisheriris
 x = meas;
 y = species;
 xc = [min(x); mean(x); max(x)];
 obj = fitcdiscr (x, y);
 [label, score, cost] = predict (obj, xc);
***** demo
 load fisheriris
 model = fitcdiscr (meas, species);
 X = mean (meas);
 Y = {'versicolor'};
 ## Compute loss for discriminant model
 L = loss (model, X, Y)
***** demo
 load fisheriris
 mdl = fitcdiscr (meas, species);
 X = mean (meas);
 Y = {'versicolor'};
 ## Margin for discriminant model
 m = margin (mdl, X, Y)
***** demo
 load fisheriris
 x = meas;
 y = species;
 obj = fitcdiscr (x, y, "gamma", 0.4);
 ## Cross-validation for discriminant model
 CVMdl = crossval (obj)
***** test
 load fisheriris
 x = meas;
 y = species;
 PredictorNames = {'Sepal Length', 'Sepal Width', 'Petal Length', 'Petal Width'};
 Mdl = ClassificationDiscriminant (x, y, "PredictorNames", PredictorNames);
 sigma = [0.265008, 0.092721, 0.167514, 0.038401; ...
          0.092721, 0.115388, 0.055244, 0.032710; ...
          0.167514, 0.055244, 0.185188, 0.042665; ...
          0.038401, 0.032710, 0.042665, 0.041882];
 mu = [5.0060, 3.4280, 1.4620, 0.2460; ...
       5.9360, 2.7700, 4.2600, 1.3260; ...
       6.5880, 2.9740, 5.5520, 2.0260];
 xCentered = [ 9.4000e-02,  7.2000e-02, -6.2000e-02, -4.6000e-02; ...
              -1.0600e-01, -4.2800e-01, -6.2000e-02, -4.6000e-02; ...
              -3.0600e-01, -2.2800e-01, -1.6200e-01, -4.6000e-02];
 assert (class (Mdl), "ClassificationDiscriminant");
 assert ({Mdl.X, Mdl.Y, Mdl.NumObservations}, {x, y, 150})
 assert ({Mdl.DiscrimType, Mdl.ResponseName}, {"linear", "Y"})
 assert ({Mdl.Gamma, Mdl.MinGamma}, {0, 0}, 1e-15)
 assert (Mdl.ClassNames, unique (species))
 assert (Mdl.Sigma, sigma, 1e-6)
 assert (Mdl.Mu, mu, 1e-14)
 assert (Mdl.XCentered([1:3],:), xCentered, 1e-14)
 assert (Mdl.LogDetSigma, -9.9585, 1e-4)
 assert (Mdl.PredictorNames, PredictorNames)
***** test
 load fisheriris
 x = meas;
 y = species;
 Mdl = ClassificationDiscriminant (x, y, "Gamma", 0.5);
 sigma = [0.265008, 0.046361, 0.083757, 0.019201; ...
          0.046361, 0.115388, 0.027622, 0.016355; ...
          0.083757, 0.027622, 0.185188, 0.021333; ...
          0.019201, 0.016355, 0.021333, 0.041882];
 mu = [5.0060, 3.4280, 1.4620, 0.2460; ...
       5.9360, 2.7700, 4.2600, 1.3260; ...
       6.5880, 2.9740, 5.5520, 2.0260];
 xCentered = [ 9.4000e-02,  7.2000e-02, -6.2000e-02, -4.6000e-02; ...
              -1.0600e-01, -4.2800e-01, -6.2000e-02, -4.6000e-02; ...
              -3.0600e-01, -2.2800e-01, -1.6200e-01, -4.6000e-02];
 assert (class (Mdl), "ClassificationDiscriminant");
 assert ({Mdl.X, Mdl.Y, Mdl.NumObservations}, {x, y, 150})
 assert ({Mdl.DiscrimType, Mdl.ResponseName}, {"linear", "Y"})
 assert ({Mdl.Gamma, Mdl.MinGamma}, {0.5, 0})
 assert (Mdl.ClassNames, unique (species))
 assert (Mdl.Sigma, sigma, 1e-6)
 assert (Mdl.Mu, mu, 1e-14)
 assert (Mdl.XCentered([1:3],:), xCentered, 1e-14)
 assert (Mdl.LogDetSigma, -8.6884, 1e-4)
***** shared X, Y, MODEL
 X = rand (10,2);
 Y = [ones(5,1);2*ones(5,1)];
 MODEL = ClassificationDiscriminant (X, Y);
***** error<ClassificationDiscriminant: too few input arguments.> ClassificationDiscriminant ()
***** error<ClassificationDiscriminant: too few input arguments.> ...
 ClassificationDiscriminant (ones(4, 1))
***** error<ClassificationDiscriminant: Name-Value arguments must be in pairs.> ...
 ClassificationDiscriminant (X, Y, "prior")
***** error<ClassificationDiscriminant: number of rows in X and Y must be equal.> ...
 ClassificationDiscriminant (ones (4,2), ones (1,4))
***** error<ClassificationDiscriminant: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationDiscriminant (X, Y, "PredictorNames", ["A"])
***** error<ClassificationDiscriminant: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationDiscriminant (X, Y, "PredictorNames", "A")
***** error<ClassificationDiscriminant: 'PredictorNames' must equal the number of columns in X.> ...
 ClassificationDiscriminant (X, Y, "PredictorNames", {"A", "B", "C"})
***** error<ClassificationDiscriminant: 'ResponseName' must be a character vector.> ...
 ClassificationDiscriminant (X, Y, "ResponseName", {"Y"})
***** error<ClassificationDiscriminant: 'ResponseName' must be a character vector.> ...
 ClassificationDiscriminant (X, Y, "ResponseName", 1)
***** error<ClassificationDiscriminant: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationDiscriminant (X, Y, "ClassNames", @(x)x)
***** error<ClassificationDiscriminant: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationDiscriminant (X, Y, "ClassNames", {1})
***** error<ClassificationDiscriminant: not all 'ClassNames' are present in Y.> ...
 ClassificationDiscriminant (X, ones (10,1), "ClassNames", [1, 2])
***** error<ClassificationDiscriminant: not all 'ClassNames' are present in Y.> ...
 ClassificationDiscriminant ([1;2;3;4;5], ['a';'b';'a';'a';'b'], "ClassNames", ['a';'c'])
***** error<ClassificationDiscriminant: not all 'ClassNames' are present in Y.> ...
 ClassificationDiscriminant ([1;2;3;4;5], {'a';'b';'a';'a';'b'}, "ClassNames", {'a','c'})
***** error<ClassificationDiscriminant: not all 'ClassNames' are present in Y.> ...
 ClassificationDiscriminant (X, logical (ones (10,1)), "ClassNames", [true, false])
***** error<ClassificationDiscriminant: 'Prior' must be either a numeric or a character vector.> ...
 ClassificationDiscriminant (X, Y, "Prior", {"1", "2"})
***** error<ClassificationDiscriminant: the elements in 'Prior' do not correspond to the selected classes in Y.> ...
 ClassificationDiscriminant (X, ones (10,1), "Prior", [1 2])
***** error<ClassificationDiscriminant: 'Cost' must be a numeric square matrix.> ...
 ClassificationDiscriminant (X, Y, "Cost", [1, 2])
***** error<ClassificationDiscriminant: 'Cost' must be a numeric square matrix.> ...
 ClassificationDiscriminant (X, Y, "Cost", "string")
***** error<ClassificationDiscriminant: 'Cost' must be a numeric square matrix.> ...
 ClassificationDiscriminant (X, Y, "Cost", {eye(2)})
***** error<ClassificationDiscriminant: the number of rows and columns in 'Cost' must correspond to selected classes in Y.> ...
 ClassificationDiscriminant (X, Y, "Cost", ones (3))
***** error<ClassificationDiscriminant: Predictor 'x1' has zero within-class variance.> ...
 ClassificationDiscriminant (ones (5,2), [1; 1; 2; 2; 2])
***** error<ClassificationDiscriminant: Predictor 'A' has zero within-class variance.> ...
 ClassificationDiscriminant (ones (5,2), [1; 1; 2; 2; 2], "PredictorNames", {"A", "B"})
***** error<ClassificationDiscriminant: Predictor 'x2' has zero within-class variance.> ...
 ClassificationDiscriminant ([1,2;2,2;3,2;4,2;5,2], ones (5, 1))
***** error<ClassificationDiscriminant: Predictor 'B' has zero within-class variance.> ...
 ClassificationDiscriminant ([1,2;2,2;3,2;4,2;5,2], ones (5, 1), "PredictorNames", {"A", "B"})
***** test
 load fisheriris
 x = meas;
 y = species;
 Mdl = fitcdiscr (meas, species, "Gamma", 0.5);
 [label, score, cost] = predict (Mdl, [2, 2, 2, 2]);
 assert (label, {'versicolor'})
 assert (score, [0, 0.9999, 0.0001], 1e-4)
 assert (cost, [1, 0.0001, 0.9999], 1e-4)
 [label, score, cost] = predict (Mdl, [2.5, 2.5, 2.5, 2.5]);
 assert (label, {'versicolor'})
 assert (score, [0, 0.6368, 0.3632], 1e-4)
 assert (cost, [1, 0.3632, 0.6368], 1e-4)
***** test
 load fisheriris
 x = meas;
 y = species;
 xc = [min(x); mean(x); max(x)];
 Mdl = fitcdiscr (x, y);
 [label, score, cost] = predict (Mdl, xc);
 l = {'setosa'; 'versicolor'; 'virginica'};
 s = [1, 0, 0; 0, 1, 0; 0, 0, 1];
 c = [0, 1, 1; 1, 0, 1; 1, 1, 0];
 assert (label, l)
 assert (score, s, 1e-4)
 assert (cost, c, 1e-4)
***** error<ClassificationDiscriminant.predict: too few input arguments.> ...
 predict (MODEL)
***** error<ClassificationDiscriminant.predict: XC is empty.> ...
 predict (MODEL, [])
***** error<ClassificationDiscriminant.predict: XC must have the same number of predictors as the trained model.> ...
 predict (MODEL, 1)
***** test
 load fisheriris
 model = fitcdiscr (meas, species);
 x = mean (meas);
 y = {'versicolor'};
 L = loss (model, x, y);
 assert (L, 0)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y, "Gamma", 0.4);
 x_test = [1, 6; 3, 3];
 y_test = {'A'; 'B'};
 L = loss (model, x_test, y_test);
 assert (L, 0.3333, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3];
 y_test = ['1'];
 L = loss (model, x_test, y_test, 'LossFun', 'quadratic');
 assert (L, 0.2423, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3; 5, 7];
 y_test = ['1'; '2'];
 L = loss (model, x_test, y_test, 'LossFun', 'classifcost');
 assert (L, 0.3333, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3; 5, 7];
 y_test = ['1'; '2'];
 L = loss (model, x_test, y_test, 'LossFun', 'hinge');
 assert (L, 0.5886, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8];
 y = ['1'; '2'; '3'; '1'];
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_test = [3, 3; 5, 7];
 y_test = ['1'; '2'];
 W = [1; 2];
 L = loss (model, x_test, y_test, 'LossFun', 'logit', 'Weights', W);
 assert (L, 0.5107, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y, "gamma" , 0.5);
 x_with_nan = [1, 2; NaN, 4];
 y_test = {'A'; 'B'};
 L = loss (model, x_with_nan, y_test);
 assert (L, 0.3333, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y);
 x_with_nan = [1, 2; NaN, 4];
 y_test = {'A'; 'B'};
 L = loss (model, x_with_nan, y_test, 'LossFun', 'logit');
 assert (isnan (L))
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = {'A'; 'B'; 'A'};
 model = fitcdiscr (x, y);
 customLossFun = @(C, S, W, Cost) sum (W .* sum (abs (C - S), 2));
 L = loss (model, x, y, 'LossFun', customLossFun);
 assert (L, 0.8889, 1e-4)
***** test
 x = [1, 2; 3, 4; 5, 6];
 y = [1; 2; 1];
 model = fitcdiscr (x, y);
 L = loss (model, x, y, 'LossFun', 'classiferror');
 assert (L, 0.3333, 1e-4)
***** error<ClassificationDiscriminant.loss: too few input arguments.> ...
 loss (MODEL)
***** error<ClassificationDiscriminant.loss: too few input arguments.> ...
 loss (MODEL, ones (4,2))
***** error<ClassificationDiscriminant.loss: X is empty.> ...
 loss (MODEL, [], zeros (2))
***** error<ClassificationDiscriminant.loss: X must have the same number of predictors as the trained model.> ...
 loss (MODEL, 1, zeros (2))
***** error<ClassificationDiscriminant.loss: name-value arguments must be in pairs.> ...
 loss (MODEL, ones (4,2), ones (4,1), 'LossFun')
***** error<ClassificationDiscriminant.loss: Y must have the same number of rows as X.> ...
 loss (MODEL, ones (4,2), ones (3,1))
***** error<ClassificationDiscriminant.loss: invalid loss function.> ...
 loss (MODEL, ones (4,2), ones (4,1), 'LossFun', 'a')
***** error<ClassificationDiscriminant.loss: invalid 'Weights'.> ...
 loss (MODEL, ones (4,2), ones (4,1), 'Weights', 'w')
 load fisheriris
 mdl = fitcdiscr (meas, species);
 X = mean (meas);
 Y = {'versicolor'};
 m = margin (mdl, X, Y);
 assert (m, 1, 1e-6)
***** test
 X = [1, 2; 3, 4; 5, 6];
 Y = [1; 2; 1];
 mdl = fitcdiscr (X, Y, "gamma", 0.5);
 m = margin (mdl, X, Y);
 assert (m, [0.3333; -0.3333; 0.3333], 1e-4)
***** error<ClassificationDiscriminant.margin: too few input arguments.> ...
 margin (MODEL)
***** error<ClassificationDiscriminant.margin: too few input arguments.> ...
 margin (MODEL, ones (4,2))
***** error<ClassificationDiscriminant.margin: X is empty.> ...
 margin (MODEL, [], zeros (2))
***** error<ClassificationDiscriminant.margin: X must have the same number of predictors as the trained model.> ...
 margin (MODEL, 1, zeros (2))
***** error<ClassificationDiscriminant.margin: Y must have the same number of rows as X.> ...
 margin (MODEL, ones (4,2), ones (3,1))
***** shared x, y, obj
 load fisheriris
 x = meas;
 y = species;
 obj = fitcdiscr (x, y, "gamma", 0.4);
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 10)
 assert (class (CVMdl.Trained{1}), "CompactClassificationDiscriminant")
 assert (CVMdl.CrossValidatedModel, "ClassificationDiscriminant")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "KFold", 3);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 3)
 assert (class (CVMdl.Trained{1}), "CompactClassificationDiscriminant")
 assert (CVMdl.CrossValidatedModel, "ClassificationDiscriminant")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "HoldOut", 0.2);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationDiscriminant")
 assert (CVMdl.CrossValidatedModel, "ClassificationDiscriminant")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (obj, "LeaveOut", 'on');
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationDiscriminant")
 assert (CVMdl.CrossValidatedModel, "ClassificationDiscriminant")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 partition = cvpartition (y, 'KFold', 3);
 warning (status);
 CVMdl = crossval (obj, 'cvPartition', partition);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert (CVMdl.KFold == 3)
 assert (class (CVMdl.Trained{1}), "CompactClassificationDiscriminant")
 assert (CVMdl.CrossValidatedModel, "ClassificationDiscriminant")
***** error<ClassificationDiscriminant.crossval: Name-Value arguments must be in pairs.> ...
 crossval (obj, "kfold")
***** error<ClassificationDiscriminant.crossval: specify only one of the optional Name-Value paired arguments.>...
 crossval (obj, "kfold", 12, "holdout", 0.2)
***** error<ClassificationDiscriminant.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (obj, "kfold", 'a')
***** error<ClassificationDiscriminant.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (obj, "holdout", 2)
***** error<ClassificationDiscriminant.crossval: 'Leaveout' must be either 'on' or 'off'.> ...
 crossval (obj, "leaveout", 1)
***** error<ClassificationDiscriminant.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (obj, "cvpartition", 1)
67 tests, 67 passed, 0 known failure, 0 skipped
[inst/Classification/CompactClassificationGAM.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/CompactClassificationGAM.m
***** demo
 ## Create a generalized additive model classifier and its compact version
 # and compare their size

 load fisheriris
 X = meas;
 Y = species;

 Mdl = fitcdiscr (X, Y, 'ClassNames', unique (species))
 CMdl = crossval (Mdl)
***** test
 Mdl = CompactClassificationGAM ();
 assert (class (Mdl), "CompactClassificationGAM")
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [0; 0; 1; 1];
 PredictorNames = {'Feature1', 'Feature2', 'Feature3'};
 Mdl = fitcgam (x, y, "PredictorNames", PredictorNames);
 CMdl = compact (Mdl);
 assert (class (CMdl), "CompactClassificationGAM");
 assert ({CMdl.NumPredictors, CMdl.ResponseName}, {3, "Y"})
 assert (CMdl.ClassNames, {'0'; '1'})
 assert (CMdl.PredictorNames, PredictorNames)
 assert (CMdl.BaseModel.Intercept, 0)
***** test
 load fisheriris
 inds = strcmp (species,'versicolor') | strcmp (species,'virginica');
 X = meas(inds, :);
 Y = species(inds, :)';
 Y = strcmp (Y, 'virginica')';
 Mdl = fitcgam (X, Y, 'Formula', 'Y ~ x1 + x2 + x3 + x4 + x1:x2 + x2:x3');
 CMdl = compact (Mdl);
 assert (class (CMdl), "CompactClassificationGAM");
 assert ({CMdl.NumPredictors, CMdl.ResponseName}, {4, "Y"})
 assert (CMdl.ClassNames, {'0'; '1'})
 assert (CMdl.Formula, 'Y ~ x1 + x2 + x3 + x4 + x1:x2 + x2:x3')
 assert (CMdl.PredictorNames, {'x1', 'x2', 'x3', 'x4'})
 assert (CMdl.ModelwInt.Intercept, 0)
***** test
 X = [2, 3, 5; 4, 6, 8; 1, 2, 3; 7, 8, 9; 5, 4, 3];
 Y = [0; 1; 0; 1; 1];
 Mdl = fitcgam (X, Y, 'Knots', [4, 4, 4], 'Order', [3, 3, 3]);
 CMdl = compact (Mdl);
 assert (class (CMdl), "CompactClassificationGAM");
 assert ({CMdl.NumPredictors, CMdl.ResponseName}, {3, "Y"})
 assert (CMdl.ClassNames, {'0'; '1'})
 assert (CMdl.PredictorNames, {'x1', 'x2', 'x3'})
 assert (CMdl.Knots, [4, 4, 4])
 assert (CMdl.Order, [3, 3, 3])
 assert (CMdl.DoF, [7, 7, 7])
 assert (CMdl.BaseModel.Intercept, 0.4055, 1e-1)
***** error<CompactClassificationGAM: invalid classification object.> ...
 CompactClassificationGAM (1)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8; 9, 10];
 y = [1; 0; 1; 0; 1];
 Mdl = fitcgam (x, y, "interactions", "all");
 CMdl = compact (Mdl);
 l = {'1'; '1'; '1'; '1'; '1'};
 s = [0.3760, 0.6240; 0.4259, 0.5741; 0.3760, 0.6240; ...
      0.4259, 0.5741; 0.3760, 0.6240];
 [labels, scores] = predict (CMdl, x);
 assert (class (CMdl), "CompactClassificationGAM");
 assert ({CMdl.NumPredictors, CMdl.ResponseName}, {2, "Y"})
 assert (CMdl.ClassNames, {'0'; '1'})
 assert (CMdl.PredictorNames, {'x1', 'x2'})
 assert (CMdl.ModelwInt.Intercept, 0.4055, 1e-1)
 assert (labels, l)
 assert (scores, s, 1e-1)
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [0; 0; 1; 1];
 interactions = [false, true, false; true, false, true; false, true, false];
 Mdl = fitcgam (x, y, "learningrate", 0.2, "interactions", interactions);
 CMdl = compact (Mdl);
 [label, score] = predict (CMdl, x, "includeinteractions", true);
 l = {'0'; '0'; '1'; '1'};
 s = [0.5106, 0.4894; 0.5135, 0.4865; 0.4864, 0.5136; 0.4847, 0.5153];
 assert (class (CMdl), "CompactClassificationGAM");
 assert ({CMdl.NumPredictors, CMdl.ResponseName}, {3, "Y"})
 assert (CMdl.ClassNames, {'0'; '1'})
 assert (CMdl.PredictorNames, {'x1', 'x2', 'x3'})
 assert (CMdl.ModelwInt.Intercept, 0)
 assert (label, l)
 assert (score, s, 1e-1)
***** shared CMdl
 Mdl = fitcgam (ones (4,2), ones (4,1));
 CMdl = compact (Mdl);
***** error<CompactClassificationGAM.predict: too few input arguments.> ...
 predict (CMdl)
***** error<CompactClassificationGAM.predict: XC is empty.> ...
 predict (CMdl, [])
***** error<CompactClassificationGAM.predict: XC must have the same number of features as the trained model.> ...
 predict (CMdl, 1)
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/Classification/ClassificationNeuralNetwork.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ClassificationNeuralNetwork.m
***** error<ClassificationNeuralNetwork: too few input arguments.> ...
 ClassificationNeuralNetwork ()
***** error<ClassificationNeuralNetwork: too few input arguments.> ...
 ClassificationNeuralNetwork (ones(10,2))
***** error<ClassificationNeuralNetwork: number of rows in X and Y must be equal.> ...
 ClassificationNeuralNetwork (ones(10,2), ones (5,1))
***** error<ClassificationNeuralNetwork: 'Standardize' must be either true or false.> ...
 ClassificationNeuralNetwork (ones (5,3), ones (5,1), "standardize", "a")
***** error<ClassificationNeuralNetwork: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationNeuralNetwork (ones (5,2), ones (5,1), "PredictorNames", ["A"])
***** error<ClassificationNeuralNetwork: 'PredictorNames' must be supplied as a cellstring array.> ...
 ClassificationNeuralNetwork (ones (5,2), ones (5,1), "PredictorNames", "A")
***** error<ClassificationNeuralNetwork: 'PredictorNames' must have the same number of columns as X.> ...
 ClassificationNeuralNetwork (ones (5,2), ones (5,1), "PredictorNames", {"A", "B", "C"})
***** error<ClassificationNeuralNetwork: 'ResponseName' must be a character vector.> ...
 ClassificationNeuralNetwork (ones (5,2), ones (5,1), "ResponseName", {"Y"})
***** error<ClassificationNeuralNetwork: 'ResponseName' must be a character vector.> ...
 ClassificationNeuralNetwork (ones (5,2), ones (5,1), "ResponseName", 1)
***** error<ClassificationNeuralNetwork: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationNeuralNetwork (ones(10,2), ones (10,1), "ClassNames", @(x)x)
***** error<ClassificationNeuralNetwork: 'ClassNames' must be a cell array of character vectors, a logical vector, a numeric vector, or a character array.> ...
 ClassificationNeuralNetwork (ones(10,2), ones (10,1), "ClassNames", {1})
***** error<ClassificationNeuralNetwork: not all 'ClassNames' are present in Y.> ...
 ClassificationNeuralNetwork (ones(10,2), ones (10,1), "ClassNames", [1, 2])
***** error<ClassificationNeuralNetwork: not all 'ClassNames' are present in Y.> ...
 ClassificationNeuralNetwork (ones(5,2), ['a';'b';'a';'a';'b'], "ClassNames", ['a';'c'])
***** error<ClassificationNeuralNetwork: not all 'ClassNames' are present in Y.> ...
 ClassificationNeuralNetwork (ones(5,2), {'a';'b';'a';'a';'b'}, "ClassNames", {'a','c'})
***** error<ClassificationNeuralNetwork: not all 'ClassNames' are present in Y.> ...
 ClassificationNeuralNetwork (ones(10,2), logical (ones (10,1)), "ClassNames", [true, false])
***** error<ClassificationNeuralNetwork: 'LayerSizes' must be a positive integer vector.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LayerSizes", -1)
***** error<ClassificationNeuralNetwork: 'LayerSizes' must be a positive integer vector.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LayerSizes", 0.5)
***** error<ClassificationNeuralNetwork: 'LayerSizes' must be a positive integer vector.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LayerSizes", [1,-2])
***** error<ClassificationNeuralNetwork: 'LayerSizes' must be a positive integer vector.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LayerSizes", [10,20,30.5])
***** error<ClassificationNeuralNetwork: 'LearningRate' must be a positive scalar.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LearningRate", -0.1)
***** error<ClassificationNeuralNetwork: 'LearningRate' must be a positive scalar.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LearningRate", [0.1, 0.01])
***** error<ClassificationNeuralNetwork: 'LearningRate' must be a positive scalar.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LearningRate", "a")
***** error<ClassificationNeuralNetwork: 'Activations' must be a character vector or a cellstring vector.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "Activations", 123)
***** error<ClassificationNeuralNetwork: unsupported 'Activation' function.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "Activations", "unsupported_type")
***** error<ClassificationNeuralNetwork: unsupported 'Activation' functions.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "LayerSizes", [10, 5], ...
 "Activations", {"sigmoid", "unsupported_type"})
***** error<ClassificationNeuralNetwork: 'Activations' vector does not match the number of layers.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "Activations", {"sigmoid", "relu", "softmax"})
***** error<ClassificationNeuralNetwork: 'OutputLayerActivation' must be a character vector.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "OutputLayerActivation", 123)
***** error<ClassificationNeuralNetwork: unsupported 'OutputLayerActivation' function.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "OutputLayerActivation", "unsupported_type")
***** error<ClassificationNeuralNetwork: 'IterationLimit' must be a positive integer.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "IterationLimit", -1)
***** error<ClassificationNeuralNetwork: 'IterationLimit' must be a positive integer.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "IterationLimit", 0.5)
***** error<ClassificationNeuralNetwork: 'IterationLimit' must be a positive integer.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "IterationLimit", [1,2])
***** error<ClassificationNeuralNetwork: 'ScoreTransform' must be a character vector or a function handle.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "ScoreTransform", [1,2])
***** error<ClassificationNeuralNetwork: unrecognized 'ScoreTransform' function.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "ScoreTransform", "unsupported_type")
***** error<ClassificationNeuralNetwork: invalid parameter name in optional pair arguments.> ...
 ClassificationNeuralNetwork (ones(10,2), ones(10,1), "some", "some")
***** error<ClassificationNeuralNetwork: invalid values in X.> ...
 ClassificationNeuralNetwork ([1;2;3;'a';4], ones (5,1))
***** error<ClassificationNeuralNetwork: invalid values in X.> ...
 ClassificationNeuralNetwork ([1;2;3;Inf;4], ones (5,1))
***** shared x, y, objST, Mdl
 load fisheriris
 x = meas;
 y = grp2idx (species);
 Mdl = fitcnet (x, y, "IterationLimit", 100);
***** error<ClassificationNeuralNetwork: unrecognized 'ScoreTransform' function.> ...
 Mdl.ScoreTransform = "a";
***** error<ClassificationNeuralNetwork.predict: too few input arguments.> ...
 predict (Mdl)
***** error<ClassificationNeuralNetwork.predict: XC is empty.> ...
 predict (Mdl, [])
***** error<ClassificationNeuralNetwork.predict: XC must have the same number of predictors as the trained model.> ...
 predict (Mdl, 1)
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (Mdl, "KFold", 5);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 5)
 assert (class (CVMdl.Trained{1}), "CompactClassificationNeuralNetwork")
 assert (CVMdl.CrossValidatedModel, "ClassificationNeuralNetwork")
***** test
 status = warning;
 warning ('off');
 rand ("seed", 23);
 CVMdl = crossval (Mdl, "HoldOut", 0.2);
 warning (status);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationNeuralNetwork")
 assert (CVMdl.CrossValidatedModel, "ClassificationNeuralNetwork")
***** error<ClassificationNeuralNetwork.crossval: Name-Value arguments must be in pairs.> ...
 crossval (Mdl, "KFold")
***** error<ClassificationNeuralNetwork.crossval: specify only one of the optional Name-Value paired arguments.> ...
 crossval (Mdl, "KFold", 5, "leaveout", 'on')
***** error<ClassificationNeuralNetwork.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (Mdl, "KFold", 'a')
***** error<ClassificationNeuralNetwork.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (Mdl, "KFold", 1)
***** error<ClassificationNeuralNetwork.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (Mdl, "KFold", -1)
***** error<ClassificationNeuralNetwork.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (Mdl, "KFold", 11.5)
***** error<ClassificationNeuralNetwork.crossval: 'KFold' must be an integer value greater than 1.> ...
 crossval (Mdl, "KFold", [1,2])
***** error<ClassificationNeuralNetwork.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (Mdl, "Holdout", 'a')
***** error<ClassificationNeuralNetwork.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (Mdl, "Holdout", 11.5)
***** error<ClassificationNeuralNetwork.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (Mdl, "Holdout", -1)
***** error<ClassificationNeuralNetwork.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (Mdl, "Holdout", 0)
***** error<ClassificationNeuralNetwork.crossval: 'Holdout' must be a numeric value between 0 and 1.> ...
 crossval (Mdl, "Holdout", 1)
***** error<ClassificationNeuralNetwork.crossval: 'Leaveout' must be either 'on' or 'off'.> ...
 crossval (Mdl, "Leaveout", 1)
***** error<ClassificationNeuralNetwork.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (Mdl, "CVPartition", 1)
***** error<ClassificationNeuralNetwork.crossval: 'CVPartition' must be a 'cvpartition' object.> ...
 crossval (Mdl, "CVPartition", 'a')
***** error<ClassificationNeuralNetwork.crossval: invalid parameter name in optional paired arguments> ...
 crossval (Mdl, "some", "some")
58 tests, 58 passed, 0 known failure, 0 skipped
[inst/Classification/ClassificationPartitionedModel.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/ClassificationPartitionedModel.m
***** demo

 load fisheriris
 x = meas;
 y = species;

 ## Create a KNN classifier model
 obj = fitcknn (x, y, "NumNeighbors", 5, "Standardize", 1);

 ## Create a partition for 5-fold cross-validation
 partition = cvpartition (y, "KFold", 5);

 ## Create the ClassificationPartitionedModel object
 cvModel = crossval (obj, 'cvPartition', partition)
***** demo

 load fisheriris
 x = meas;
 y = species;

 ## Create a KNN classifier model
 obj = fitcknn (x, y, "NumNeighbors", 5, "Standardize", 1);

 ## Create the ClassificationPartitionedModel object
 cvModel = crossval (obj);

 ## Predict the class labels for the observations not used for training
 [label, score, cost] = kfoldPredict (cvModel);
 fprintf ("Cross-validated accuracy = %1.2f%% (%d/%d)\n", ...
          sum (strcmp (label, y)) / numel (y) *100, ...
          sum (strcmp (label, y)), numel (y))
***** test
 load fisheriris
 a = fitcdiscr (meas, species, "gamma", 0.3);
 cvModel = crossval (a, "KFold", 5);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert (cvModel.NumObservations, 150);
 assert (numel (cvModel.Trained), 5);
 assert (class (cvModel.Trained{1}), "CompactClassificationDiscriminant");
 assert (cvModel.CrossValidatedModel, "ClassificationDiscriminant");
 assert (cvModel.KFold, 5);
***** test
 load fisheriris
 a = fitcdiscr (meas, species, "gamma", 0.5, "fillcoeffs", "off");
 cvModel = crossval (a, "HoldOut", 0.3);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert ({cvModel.X, cvModel.Y}, {meas, species});
 assert (cvModel.NumObservations, 150);
 assert (numel (cvModel.Trained), 1);
 assert (class (cvModel.Trained{1}), "CompactClassificationDiscriminant");
 assert (cvModel.CrossValidatedModel, "ClassificationDiscriminant");
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcgam (x, y, "Interactions", "all");
 cvModel = crossval (a, "KFold", 2);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert (cvModel.NumObservations, 4);
 assert (numel (cvModel.Trained), 2);
 assert (class (cvModel.Trained{1}), "CompactClassificationGAM");
 assert (cvModel.CrossValidatedModel, "ClassificationGAM");
 assert (cvModel.KFold, 2);
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcgam (x, y);
 cvModel = crossval (a, "LeaveOut", "on");
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert ({cvModel.X, cvModel.Y}, {x, y});
 assert (cvModel.NumObservations, 4);
 assert (numel (cvModel.Trained), 4);
 assert (class (cvModel.Trained{1}), "CompactClassificationGAM");
 assert (cvModel.CrossValidatedModel, "ClassificationGAM");
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y);
 partition = cvpartition (y, "KFold", 2);
 cvModel = ClassificationPartitionedModel (a, partition);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert (class (cvModel.Trained{1}), "ClassificationKNN");
 assert (cvModel.NumObservations, 4);
 assert (cvModel.ModelParameters.NumNeighbors, 1);
 assert (cvModel.ModelParameters.NSMethod, "kdtree");
 assert (cvModel.ModelParameters.Distance, "euclidean");
 assert (! cvModel.ModelParameters.Standardize);
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y, "NSMethod", "exhaustive");
 partition = cvpartition (y, "HoldOut", 0.2);
 cvModel = ClassificationPartitionedModel (a, partition);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert (class (cvModel.Trained{1}), "ClassificationKNN");
 assert ({cvModel.X, cvModel.Y}, {x, y});
 assert (cvModel.NumObservations, 4);
 assert (cvModel.ModelParameters.NumNeighbors, 1);
 assert (cvModel.ModelParameters.NSMethod, "exhaustive");
 assert (cvModel.ModelParameters.Distance, "euclidean");
 assert (! cvModel.ModelParameters.Standardize);
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 2;
 a = fitcknn (x, y, "NumNeighbors" ,k);
 partition = cvpartition (numel (y), "LeaveOut");
 cvModel = ClassificationPartitionedModel (a, partition);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert (class (cvModel.Trained{1}), "ClassificationKNN");
 assert ({cvModel.X, cvModel.Y}, {x, y});
 assert (cvModel.NumObservations, 4);
 assert (cvModel.ModelParameters.NumNeighbors, k);
 assert (cvModel.ModelParameters.NSMethod, "kdtree");
 assert (cvModel.ModelParameters.Distance, "euclidean");
 assert (! cvModel.ModelParameters.Standardize);
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = {"a"; "a"; "b"; "b"};
 a = fitcnet (x, y, "IterationLimit", 50);
 cvModel = crossval (a, "KFold", 2);
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert (cvModel.NumObservations, 4);
 assert (numel (cvModel.Trained), 2);
 assert (class (cvModel.Trained{1}), "CompactClassificationNeuralNetwork");
 assert (cvModel.CrossValidatedModel, "ClassificationNeuralNetwork");
 assert (cvModel.KFold, 2);
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = {"a"; "a"; "b"; "b"};
 a = fitcnet (x, y, "LayerSizes", [5, 3]);
 cvModel = crossval (a, "LeaveOut", "on");
 assert (class (cvModel), "ClassificationPartitionedModel");
 assert ({cvModel.X, cvModel.Y}, {x, y});
 assert (cvModel.NumObservations, 4);
 assert (numel (cvModel.Trained), 4);
 assert (class (cvModel.Trained{1}), "CompactClassificationNeuralNetwork");
 assert (cvModel.CrossValidatedModel, "ClassificationNeuralNetwork");
***** test
 load fisheriris
 inds = ! strcmp (species, 'setosa');
 x = meas(inds, 3:4);
 y = grp2idx (species(inds));
 SVMModel = fitcsvm (x,y);
 CVMdl = crossval (SVMModel, "KFold", 5);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (CVMdl.KFold == 5)
 assert (class (CVMdl.Trained{1}), "CompactClassificationSVM")
 assert (CVMdl.CrossValidatedModel, "ClassificationSVM");
***** test
 load fisheriris
 inds = ! strcmp (species, 'setosa');
 x = meas(inds, 3:4);
 y = grp2idx (species(inds));
 obj = fitcsvm (x, y);
 CVMdl = crossval (obj, "HoldOut", 0.2);
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationSVM")
 assert (CVMdl.CrossValidatedModel, "ClassificationSVM");
***** test
 load fisheriris
 inds = ! strcmp (species, 'setosa');
 x = meas(inds, 3:4);
 y = grp2idx (species(inds));
 obj = fitcsvm (x, y);
 CVMdl = crossval (obj, "LeaveOut", 'on');
 assert (class (CVMdl), "ClassificationPartitionedModel")
 assert ({CVMdl.X, CVMdl.Y}, {x, y})
 assert (class (CVMdl.Trained{1}), "CompactClassificationSVM")
 assert (CVMdl.CrossValidatedModel, "ClassificationSVM");
***** error<ClassificationPartitionedModel: too few input arguments.> ...
 ClassificationPartitionedModel ()
***** error<ClassificationPartitionedModel: too few input arguments.> ...
 ClassificationPartitionedModel (ClassificationKNN (ones (4,2), ones (4,1)))
***** error<ClassificationPartitionedModel: unsupported model type.> ...
 ClassificationPartitionedModel (RegressionGAM (ones (40,2), ...
 randi ([1, 2], 40, 1)), cvpartition (randi ([1, 2], 40, 1), 'Holdout', 0.3))
***** error<ClassificationPartitionedModel: invalid 'cvpartition' object.> ...
 ClassificationPartitionedModel (ClassificationKNN (ones (4,2), ...
 ones (4,1)), 'Holdout')
***** test
 load fisheriris
 a = fitcdiscr (meas, species, "gamma", 0.5, "fillcoeffs", "off");
 cvModel = crossval (a, "Kfold", 4);
 [label, score, cost] = kfoldPredict (cvModel);
 assert (class(cvModel), "ClassificationPartitionedModel");
 assert ({cvModel.X, cvModel.Y}, {meas, species});
 assert (cvModel.NumObservations, 150);
***** # assert (label, {"b"; "b"; "a"; "a"});
***** # assert (score, [4.5380e-01, 5.4620e-01; 2.4404e-01, 7.5596e-01; ...
***** #         9.9392e-01, 6.0844e-03; 9.9820e-01, 1.8000e-03], 1e-4);
***** # assert (cost, [5.4620e-01, 4.5380e-01; 7.5596e-01, 2.4404e-01; ...
***** #         6.0844e-03, 9.9392e-01; 1.8000e-03, 9.9820e-01], 1e-4);
***** test
 x = ones(4, 11);
 y = {"a"; "a"; "b"; "b"};
 k = 3;
 a = fitcknn (x, y, "NumNeighbors", k);
 partition = cvpartition (numel (y), "LeaveOut");
 cvModel = ClassificationPartitionedModel (a, partition);
 [label, score, cost] = kfoldPredict (cvModel);
 assert (class(cvModel), "ClassificationPartitionedModel");
 assert ({cvModel.X, cvModel.Y}, {x, y});
 assert (cvModel.NumObservations, 4);
 assert (cvModel.ModelParameters.NumNeighbors, k);
 assert (cvModel.ModelParameters.NSMethod, "exhaustive");
 assert (cvModel.ModelParameters.Distance, "euclidean");
 assert (! cvModel.ModelParameters.Standardize);
 assert (label, {"b"; "b"; "a"; "a"});
 assert (score, [0.3333, 0.6667; 0.3333, 0.6667; 0.6667, 0.3333; ...
          0.6667, 0.3333], 1e-4);
 assert (cost, [0.6667, 0.3333; 0.6667, 0.3333; 0.3333, 0.6667; ...
          0.3333, 0.6667], 1e-4);
***** error<ClassificationPartitionedModel.kfoldPredict: 'Cost' output is not supported for ClassificationSVM cross validated models.> ...
 [label, score, cost] = kfoldPredict (crossval (ClassificationSVM (ones (40,2), randi ([1, 2], 40, 1))))
***** error<ClassificationPartitionedModel.kfoldPredict: 'Cost' output is not supported for ClassificationNeuralNetwork cross validated models.> ...
 [label, score, cost] = kfoldPredict (crossval (ClassificationNeuralNetwork (ones (40,2), randi ([1, 2], 40, 1))))
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/Classification/CompactClassificationNeuralNetwork.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Classification/CompactClassificationNeuralNetwork.m
***** demo
 ## Create a neural network classifier and its compact version
 # and compare their size

 load fisheriris
 X = meas;
 Y = species;

 Mdl = fitcnet (X, Y, 'ClassNames', unique (species))
 CMdl = crossval (Mdl)
***** error<CompactClassificationDiscriminant: invalid classification object.> ...
 CompactClassificationDiscriminant (1)
***** shared x, y, CMdl
 load fisheriris
 x = meas;
 y = grp2idx (species);
 Mdl = fitcnet (x, y, "IterationLimit", 100);
 CMdl = compact (Mdl);
***** error<CompactClassificationNeuralNetwork.predict: too few input arguments.> ...
 predict (CMdl)
***** error<CompactClassificationNeuralNetwork.predict: XC is empty.> ...
 predict (CMdl, [])
***** error<CompactClassificationNeuralNetwork.predict: XC must have the same number of predictors as the trained neural network.> ...
 predict (CMdl, 1)
***** error<CompactClassificationNeuralNetwork: unrecognized 'ScoreTransform' function.> ...
 CMdl.ScoreTransform = "a";
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/stepwisefit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/stepwisefit.m
***** test
 X = [7 26 6 60;
      1 29 15 52;
      11 56 8 20;
      11 31 8 47;
      7 52 6 33;
      11 55 9 22;
      3 71 17 6;
      1 31 22 44;
      2 54 18 22;
      21 47 4 26;
      1 40 23 34;
      11 66 9 12;
      10 68 8 12];
 y = [78.5; 74.3; 104.3; 87.6; 95.9; 109.2;
      102.7; 72.5; 93.1; 115.9; 83.8; 113.3; 109.4];
 [b,se,pval,finalmodel,stats] = stepwisefit (X,y);
 assert (finalmodel, [true false false true]);
 assert (b, [1.4400; 0.4161; -0.4100; -0.6140], 1e-4);
 assert (se, [0.1384; 0.1856; 0.1992; 0.0486], 1e-4);
 assert (pval, [0; 0.0517; 0.0697; 0], 1e-4);
 assert (stats.rmse, 2.7343, 1e-4);
 assert (stats.SStotal, 2715.7631, 1e-3);
 assert (stats.SSresid, 74.7621, 1e-4);
 assert (stats.df0, 2);
 assert (stats.dfe, 10);
 assert (stats.intercept, 103.0974, 1e-4);
***** test
 X = [
   12.0 4 120 95 2600;
   11.5 6 200 110 3000;
   10.5 8 300 150 3600;
   13.0 4 140 100 2800;
   12.5 6 180 120 3200;
   11.0 8 250 140 3500;
   14.0 4 130 98 2700;
   13.5 6 210 115 3100;
   12.2 8 320 160 3800;
   11.8 4 150 105 2900
 ];
 y = [28; 22; 18; 27; 23; 19; 29; 21; 17; 26];

 [b,se,pval,finalmodel,stats] = stepwisefit (X,y);

 assert (islogical (finalmodel));
 assert (numel (finalmodel) == 5);
 assert (sum (finalmodel) >= 1);
 assert (isnumeric (b));
 assert (isnumeric (se));
 assert (isnumeric (pval));
 assert (stats.rmse > 0);
 assert (isfinite (stats.intercept));
***** test
 X = randn (30, 4);
 y = randn (30, 1);
 [~,~,~,~,stats] = stepwisefit (X, y);

 required_fields = {
   "source", "df0", "dfe", "SStotal", "SSresid", "fstat", "pval", ...
   "rmse", "xr", "yr", "B", "SE", "TSTAT", "PVAL", "covb", ...
   "intercept", "wasnan"
 };

 for k = 1:numel (required_fields)
   assert (isfield (stats, required_fields{k}));
 endfor
***** test
 X = randn (40, 5);
 y = randn (40, 1);
 [b,se,pval,finalmodel,stats] = stepwisefit (X, y);

 p = columns (X);
 n = rows (X(~stats.wasnan, :));

 assert (size (stats.yr), [n, 1]);
 assert (rows (stats.B) == p);
 assert (rows (stats.SE) == p);
 assert (rows (stats.TSTAT) == p);
 assert (rows (stats.PVAL) == p);
 assert (size (stats.covb), [p+1, p+1]);
***** test
 X = randn (25, 3);
 y = randn (25, 1);
 [~,~,~,~,stats] = stepwisefit (X, y);

 SSresid_calc = sum (stats.yr .^ 2);
 assert (SSresid_calc, stats.SSresid, 1e-10);

 rmse_calc = sqrt (stats.SSresid / stats.dfe);
 assert (rmse_calc, stats.rmse, 1e-10);
***** test
 X = randn (50, 6);
 y = randn (50, 1);
 [~,~,~,~,stats] = stepwisefit (X, y);

 if (stats.df0 > 0)
   F_calc = ((stats.SStotal - stats.SSresid) / stats.df0) ...
            / (stats.SSresid / stats.dfe);

   assert (F_calc, stats.fstat, 1e-10);
   assert (stats.pval >= 0 && stats.pval <= 1);
 else
   assert (isnan (stats.fstat));
   assert (isnan (stats.pval));
 endif
***** test
 X = randn (35, 4);
 y = randn (35, 1);
 [~,~,~,finalmodel,stats] = stepwisefit (X, y);
 p = columns (X);
 k = sum (finalmodel);
 assert (size (stats.xr, 2) == p - k);
 assert (all (isfinite (stats.xr(:))));
***** test
 X = randn (35, 4);
 y = randn (35, 1);
 [~,~,~,finalmodel,stats] = stepwisefit (X, y);

 Xc = X(~stats.wasnan, :);
 Xfinal = [ones(rows (Xc),1), Xc(:, finalmodel)];

 for j = 1:columns (stats.xr)
   ortho = Xfinal' * stats.xr(:,j);
   assert (max (abs (ortho(:))) < 1e-6);
 endfor
***** test
 X = randn (40, 5);
 y = randn (40, 1);
 [~,~,~,finalmodel,stats,nextstep,history] = stepwisefit (X, y);

 assert (nextstep == 0);
 assert (isstruct (history));
 assert (isfield (history, "in"));
 assert (isfield (history, "df0"));
 assert (isfield (history, "rmse"));
 assert (isfield (history, "B"));
 assert (isequal (history.in, finalmodel));
 assert (history.df0 == stats.df0);
 assert (history.rmse == stats.rmse);
 assert (rows (history.B) == columns (X));
***** test
 X = randn (20,4);
 y = randn (20,1);
 stepwisefit (X,y,'Keep',[true false true false]);
***** test
 X = randn (30, 4);
 y = randn (30, 1);
 keep = [true false false false];
 [~,~,~,finalmodel] = stepwisefit (X, y, "Keep", keep);
 assert (finalmodel(1) == true);
***** test
 X = randn (40, 6);
 y = randn (40, 1);
 [~,~,~,finalmodel] = stepwisefit (X, y, "MaxIter", 1);
 assert (islogical (finalmodel));
***** test
 X = randn (50, 5);
 y = randn (50, 1);
 [b1] = stepwisefit (X, y);
 [b2] = stepwisefit (X, y, "Scale", "on");
 assert (rows (b1) == rows (b2));
***** test
 X = randn (20,4);
 y = randn (20,1);
 fail ("stepwisefit (X,y,'Keep',[true false])");
***** error <stepwisefit: at least two input arguments required> ...
       stepwisefit ()
***** error <stepwisefit: X must be a matrix and y a vector> ...
       stepwisefit (ones (2,2,2), [1;2])
***** error <stepwisefit: X must be a matrix and y a vector> ...
       stepwisefit (ones (3,2), ones (2,1))
***** error <stepwisefit: unrecognized input arguments> ...
       stepwisefit (randn (10,2), randn (10,1), "UnknownOpt", 5)
***** error <stepwisefit: Display must be 'on' or 'off'> ...
       stepwisefit (randn (10,2), randn (10,1), "Display", "maybe")
***** error <stepwisefit: Scale must be 'on' or 'off'> ...
       stepwisefit (randn (10,2), randn (10,1), "Scale", 123)
***** error <stepwisefit: PEnter must be a scalar strictly between 0 and 1> ...
       stepwisefit (randn (10,2), randn (10,1), "PEnter", -0.1)
***** error <stepwisefit: PRemove must be a scalar strictly between 0 and 1> ...
       stepwisefit (randn (10,2), randn (10,1), "PRemove", 1.5)
***** error <stepwisefit: PRemove must be greater than or equal to PEnter> ...
       stepwisefit (randn (10,2), randn (10,1), ...
                     "PEnter", 0.05, "PRemove", 0.01)
***** error <stepwisefit: MaxIter must be a positive integer> ...
       stepwisefit (randn (10,2), randn (10,1), "MaxIter", -2)
***** error <stepwisefit: MaxIter must be a positive integer> ...
       stepwisefit (randn (10,2), randn (10,1), "MaxIter", 2.5)
***** error <stepwisefit: Keep must be a logical vector> ...
       stepwisefit (randn (10,2), randn (10,1), "Keep", [1 0])
***** error <stepwisefit: InModel must be a logical vector> ...
       stepwisefit (randn (10,2), randn (10,1), "InModel", [1 0])
***** error <stepwisefit: Keep length must match number of predictors> ...
       stepwisefit (randn (10,4), randn (10,1), "Keep", [true false])
***** error <stepwisefit: InModel length must match number of predictors> ...
       stepwisefit (randn (10,4), randn (10,1), "InModel", true)
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/ecdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ecdf.m
***** demo
 y = exprnd (10, 50, 1);    ## random failure times are exponential(10)
 d = exprnd (20, 50, 1);    ## drop-out times are exponential(20)
 t = min (y, d);            ## we observe the minimum of these times
 censored = (y > d);        ## we also observe whether the subject failed

 ## Calculate and plot the empirical cdf and confidence bounds
 [f, x, flo, fup] = ecdf (t, "censoring", censored);
 stairs (x, f);
 hold on;
 stairs (x, flo, "r:"); stairs (x, fup, "r:");

 ## Superimpose a plot of the known true cdf
 xx = 0:.1:max (t); yy = 1 - exp (-xx / 10); plot (xx, yy, "g-");
 hold off;
***** demo
 R = wblrnd (100, 2, 100, 1);
 ecdf (R, "Function", "survivor", "Alpha", 0.01, "Bounds", "on");
 hold on
 x = 1:1:250;
 wblsurv = 1 - cdf ("weibull", x, 100, 2);
 plot (x, wblsurv, "g-", "LineWidth", 2)
 legend ("Empirical survivor function", "Lower confidence bound", ...
         "Upper confidence bound", "Weibull survivor function", ...
         "Location", "northeast");
 hold off
***** error ecdf ();
***** error ecdf (randi (15,2));
***** error ecdf ([3,2,4,3+2i,5]);
***** error kstest ([2,3,4,5,6],"tail");
***** error kstest ([2,3,4,5,6],"tail", "whatever");
***** error kstest ([2,3,4,5,6],"function", "");
***** error kstest ([2,3,4,5,6],"badoption", 0.51);
***** error kstest ([2,3,4,5,6],"tail", 0);
***** error kstest ([2,3,4,5,6],"alpha", 0);
***** error kstest ([2,3,4,5,6],"alpha", NaN);
***** error kstest ([NaN,NaN,NaN,NaN,NaN],"tail", "unequal");
***** error kstest ([2,3,4,5,6],"alpha", 0.05, "CDF", [2,3,4;1,3,4;1,2,1]);
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [2, 3, 4, 3, 5, 4, 6, 5, 8, 3, 7, 8, 9, 0];
   [F, x, Flo, Fup] = ecdf (x);
   F_out = [0; 0.0714; 0.1429; 0.3571; 0.5; 0.6429; 0.7143; 0.7857; 0.9286; 1];
   assert (F, F_out, ones (10,1) * 1e-4);
   x_out = [0 0 2 3 4 5 6 7 8 9]';
   assert (x, x_out);
   Flo_out = [NaN, 0, 0, 0.1061, 0.2381, 0.3919, 0.4776, 0.5708, 0.7937, NaN]';
   assert (Flo, Flo_out, ones (10,1) * 1e-4);
   Fup_out = [NaN, 0.2063, 0.3262, 0.6081, 0.7619, 0.8939, 0.9509, 1, 1, NaN]';
   assert (Fup, Fup_out, ones (10,1) * 1e-4);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [2, 3, 4, 3, 5, 4, 6, 5, 8, 3, 7, 8, 9, 0];
   ecdf (x);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/jackknife.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/jackknife.m
***** demo
 for k = 1:1000
   rand ("seed", k);  # for reproducibility
   x = rand (10, 1);
   s(k) = std (x);
   jackstat = jackknife (@std, x);
   j(k) = 10 * std (x) - 9 * mean (jackstat);
 endfor
 figure();
 hist ([s', j'], 0:sqrt(1/12)/10:2*sqrt(1/12))
***** demo
 for k = 1:1000
   randn ("seed", k); # for reproducibility
   x = randn (1, 50);
   rand ("seed", k);  # for reproducibility
   y = rand (1, 50);
   jackstat = jackknife (@(x) std(x{1})/std(x{2}), y, x);
   j(k) = 50 * std (y) / std (x) - 49 * mean (jackstat);
   v(k) = sumsq ((50 * std (y) / std (x) - 49 * jackstat) - j(k)) / (50 * 49);
 endfor
 t = (j - sqrt (1 / 12)) ./ sqrt (v);
 figure();
 plot (sort (tcdf (t, 49)), ...
       "-;Almost linear mapping indicates good fit with t-distribution.;")
***** test
 ##Example from Quenouille, Table 1
 d=[0.18 4.00 1.04 0.85 2.14 1.01 3.01 2.33 1.57 2.19];
 jackstat = jackknife ( @(x) 1/mean(x), d );
 assert ( 10 / mean(d) - 9 * mean(jackstat), 0.5240, 1e-5 );
1 test, 1 passed, 0 known failure, 0 skipped
[inst/canoncorr.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/canoncorr.m
***** shared X, Y, A, B, r, U, V, k, Cuv
 k = 10;
 X = [1:k; sin(1:k); cos(1:k)]';
 Y = [tan(1:k); tanh((1:k)/k)]';
 [A, B, r, U, V, stats] = canoncorr (X, Y);
 Cuv = (U' * V) / (k - 1);
***** assert (diag (Cuv)', r, 10 * eps);
***** assert (diag (diag (Cuv)), Cuv, eps);
***** assert (r, [0.99590, 0.26754], 1E-5);
***** assert (U, center(X) * A, 10 * eps);
***** assert (V, center(Y) * B, 10 * eps);
***** assert (cov(U), eye (size (U, 2)), 10 * eps);
***** assert (cov(V), eye (size (V, 2)), 10 * eps);
 rand ("state", 1); [A, B, r] = canoncorr (rand (5, 10), rand (5, 20));
***** assert (r, ones(1, 5), 10*eps);
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/pdist2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/pdist2.m
***** shared x, y, xx
 x = [1, 1, 1; 2, 2, 2; 3, 3, 3];
 y = [0, 0, 0; 1, 2, 3; 0, 2, 4; 4, 7, 1];
 xx = [1 2 3; 4 5 6; 7 8 9; 3 2 1];
***** test
 d = sqrt([3, 5, 11, 45; 12, 2, 8, 30; 27, 5, 11, 21]);
 assert (pdist2 (x, y), d);
***** test
 d = [5.1962, 2.2361, 3.3166, 6.7082; ...
      3.4641, 2.2361, 3.3166, 5.4772];
 i = [3, 1, 1, 1; 2, 3, 3, 2];
 [D, I] = pdist2 (x, y, "euclidean", "largest", 2);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 d = [1.7321, 1.4142, 2.8284, 4.5826; ...
      3.4641, 2.2361, 3.3166, 5.4772];
 i = [1, 2, 2, 3;2, 1, 1, 2];
 [D, I] = pdist2 (x, y, "euclidean", "smallest", 2);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 yy = [1 2 3;5 6 7;9 5 1];
 d = [0, 6.1644, 5.3852; 1.4142, 6.9282, 8.7750; ...
      3.7417, 7.0711, 9.9499; 6.1644, 10.4881, 10.3441];
 i = [2, 4, 4; 3, 2, 2; 1, 3, 3; 4, 1, 1];
 [D, I] = pdist2 (y, yy, "euclidean", "smallest", 4);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 yy = [1 2 3;5 6 7;9 5 1];
 d = [0, 38, 29; 2, 48, 77; 14, 50, 99; 38, 110, 107];
 i = [2, 4, 4; 3, 2, 2; 1, 3, 3; 4, 1, 1];
 [D, I] = pdist2 (y, yy, "squaredeuclidean", "smallest", 4);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 yy = [1 2 3;5 6 7;9 5 1];
 d = [0, 3.3256, 2.7249; 0.7610, 3.3453, 4.4799; ...
      1.8514, 3.3869, 5.0703; 2.5525, 5.0709, 5.1297];
 i = [2, 2, 4; 3, 4, 2; 1, 3, 1; 4, 1, 3];
 [D, I] = pdist2 (y, yy, "seuclidean", "smallest", 4);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 d = [2.1213, 4.2426, 6.3640; 1.2247, 2.4495, 4.4159; ...
      3.2404, 4.8990, 6.8191; 2.7386, 4.2426, 6.1237];
 assert (pdist2 (y, x, "mahalanobis"), d, 1e-4);
***** test
 xx = [1, 3, 4; 3, 5, 4; 8, 7, 6];
 d = [1.3053, 1.8257, 15.0499; 1.3053, 3.3665, 16.5680];
 i = [2, 2, 2; 3, 4, 4];
 [D, I] = pdist2 (y, xx, "mahalanobis", "smallest", 2);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 d = [2.5240, 4.1633, 17.3638; 2.0905, 3.9158, 17.0147];
 i = [1, 1, 3; 4, 3, 1];
 [D, I] = pdist2 (y, xx, "mahalanobis", "largest", 2);
 assert ({D, I}, {d, i}, 1e-4);
***** test
 d = [3, 3, 5, 9; 6, 2, 4, 8; 9, 3, 5, 7];
 assert (pdist2 (x, y, "cityblock"), d);
***** test
 d = [1, 2, 3, 6; 2, 1, 2, 5; 3, 2, 3, 4];
 assert (pdist2 (x, y, "chebychev"), d);
***** test
 d = repmat ([NaN, 0.0742, 0.2254, 0.1472], [3, 1]);
 assert (pdist2 (x, y, "cosine"), d, 1e-4);
***** test
 yy = [1 2 3;5 6 7;9 5 1];
 d = [0, 0, 0.5; 0, 0, 2; 1.5, 1.5, 2; NaN, NaN, NaN];
 i = [2, 2, 4; 3, 3, 2; 4, 4, 3; 1, 1, 1];
 [D, I] = pdist2 (y, yy, "correlation", "smallest", 4);
 assert ({D, I}, {d, i}, eps);
 [D, I] = pdist2 (y, yy, "spearman", "smallest", 4);
 assert ({D, I}, {d, i}, eps);
***** test
 d = [1, 2/3, 1, 1; 1, 2/3, 1, 1; 1, 2/3, 2/3, 2/3];
 i = [1, 1, 1, 2; 2, 2, 3, 3; 3, 3, 2, 1];
 [D, I] = pdist2 (x, y, "hamming", "largest", 4);
 assert ({D, I}, {d, i}, eps);
 [D, I] = pdist2 (x, y, "jaccard", "largest", 4);
 assert ({D, I}, {d, i}, eps);
***** test
 xx = [1, 2, 3, 4; 2, 3, 4, 5; 3, 4, 5, 6];
 yy = [1, 2, 2, 3; 2, 3, 3, 4];
 [D, I] = pdist2 (x, y, "euclidean", "Smallest", 4);
 eucldist = @(v,m) sqrt(sumsq(repmat(v,rows(m),1)-m,2));
 [d, i] = pdist2 (x, y, eucldist, "Smallest", 4);
 assert ({D, I}, {d, i});
***** warning<pdist2: matrix is close to singular> ...
 pdist2 (xx, xx, "mahalanobis");
***** error<pdist2: too few input arguments.> pdist2 (1)
***** error<pdist2: X and Y must have equal number of columns.> ...
 pdist2 (ones (4, 5), ones (4))
***** error<pdist2: X and Y must be 2 dimensional matrices.> ...
 pdist2 (ones (4, 2, 3), ones (3, 2))
***** error<pdist2: missing value in optional name/value paired arguments.> ...
 pdist2 (ones (3), ones (3), "euclidean", "Largest")
***** error<pdist2: missing value in optional name/value paired arguments.> ...
 pdist2 (ones (3), ones (3), "minkowski", 3, "Largest")
***** error<pdist2: invalid NAME in optional pairs of arguments.> ...
 pdist2 (ones (3), ones (3), "minkowski", 3, "large", 4)
***** error<pdist2: K must be a positive integer value.> ...
 pdist2 (ones (3), ones (3), "minkowski", 3, "largest", 4.5)
***** error<pdist2: you can only specify either 'Smallest' or 'Largest'.> ...
 pdist2 (ones (3), ones (3), "minkowski", 3, "Largest", 4, "smallest", 5)
***** error<pdist2: 'Smallest' or 'Largest' must be specified to compute second output.> ...
 [d, i] = pdist2(ones (3), ones (3), "minkowski", 3)
***** error<pdist2: DistParameter for standardized euclidean must be a vector of> ...
 pdist2 (ones (3), ones (3), "seuclidean", 3)
***** error<pdist2: DistParameter for standardized euclidean must be a nonnegative> ...
 pdist2 (ones (3), ones (3), "seuclidean", [1, -1, 3])
***** error<pdist2: DistParameter for mahalanobis distance must be a covariance> ...
 pdist2 (ones (3), eye (3), "mahalanobis", eye(2))
***** error<pdist2: covariance matrix for mahalanobis distance must be symmetric> ...
 pdist2 (ones (3), eye (3), "mahalanobis", ones(3))
***** error<pdist2: DistParameter for minkowski distance must be a positive scalar.> ...
 pdist2 (ones (3), eye (3), "minkowski", 0)
***** error<pdist2: DistParameter for minkowski distance must be a positive scalar.> ...
 pdist2 (ones (3), eye (3), "minkowski", -5)
***** error<pdist2: DistParameter for minkowski distance must be a positive scalar.> ...
 pdist2 (ones (3), eye (3), "minkowski", [1, 2])
***** error<pdist2: invalid function handle for distance metric.> ...
 pdist2 (ones (3), ones (3), @(v,m) sqrt(repmat(v,rows(m),1)-m,2))
***** error<pdist2: custom distance function produces wrong output size.> ...
 pdist2 (ones (3), ones (3), @(v,m) sqrt(sum(sumsq(repmat(v,rows(m),1)-m,2))))
34 tests, 34 passed, 0 known failure, 0 skipped
[inst/grp2idx.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/grp2idx.m
***** test
 g = grp2idx ([3 2 1 2 3 1]);
 assert (g, [3; 2; 1; 2; 3; 1]);
***** test
 [g, gn] = grp2idx (['b'; 'a'; 'c'; 'a']);
 assert (g, [1; 2; 3; 2]);
 assert (gn, {'b'; 'a'; 'c'});
***** test
 in = [true, false, false, true];
 out = {[2; 1; 1; 2] {'0'; '1'} [false; true]};
 assert (nthargout (1:3, @grp2idx, in), out)
 assert (nthargout (1:3, @grp2idx, in), nthargout (1:3, @grp2idx, in'))
***** test
 assert (nthargout (1:3, @grp2idx, [false, true]),
         {[1; 2] {'0'; '1'} [false; true]});
 assert (nthargout (1:3, @grp2idx, [true, false]),
         {[2; 1] {'0'; '1'} [false; true]});
***** assert (nthargout (1:3, @grp2idx, ['oct'; 'sci'; 'oct'; 'oct'; 'sci']),
        {[1; 2; 1; 1; 2] {'oct'; 'sci'} ['oct'; 'sci']})
***** assert (nthargout (1:3, @grp2idx, {'oct'; 'sci'; 'oct'; 'oct'; 'sci'}),
        {[1; 2; 1; 1; 2] {'oct'; 'sci'} {'oct'; 'sci'}})
***** assert (nthargout (1:3, @grp2idx, [1, -3, -2, -3, -3,  2,  1, -1,  3, -3]),
        {[4; 1; 2; 1; 1; 5; 4; 3; 6; 1], {"-3"; "-2"; "-1"; "1"; "2"; "3"}, ...
         [-3; -2; -1; 1; 2; 3]})
***** test
 s = [1e6, 2e6, 1e6, 3e6];
 [g, gn, gl] = grp2idx (s);
 assert (g, [1; 2; 1; 3]);
 assert (gn, {'1000000'; '2000000'; '3000000'});
 assert (gl, [1000000; 2000000; 3000000]);
***** test
 s = [0.1, 0.2, 0.3, 0.1, 0.2];
 [g, gn, gl] = grp2idx (s);
 assert (g, [1; 2; 3; 1; 2]);
 assert (gn, {'0.1'; '0.2'; '0.3'});
 assert (gl, [0.1; 0.2; 0.3]);
***** test
 s = [-5 -10 0 5 10 -5];
 [g, gn, gl] = grp2idx (s);
 assert (g, [2; 1; 3; 4; 5; 2]);
 assert (gn, {'-10'; '-5'; '0'; '5'; '10'});
 assert (gl, [-10; -5; 0; 5; 10]);
***** assert (nthargout (1:3, @grp2idx, [2, 2, 3, NaN, 2, 3]), ...
        {[1; 1; 2; NaN; 1; 2] {'2'; '3'} [2; 3]})
***** assert (nthargout (1:3, @grp2idx, {'et', 'sa', 'sa', '', 'et'}), ...
        {[1; 2; 2; NaN; 1] {'et'; 'sa'} {'et'; 'sa'}})
***** assert (nthargout (1:3, @grp2idx, [2, 2, 3, NaN, 2, 4]), ...
        {[1; 1; 2; NaN; 1; 3] {'2'; '3'; '4'} [2; 3; 4]})
***** test
 s = [NaN, NaN, NaN];
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; NaN; NaN]);
 assert (gn, cell (0,1));
 assert (gl, zeros (0,1));
***** test
 s = single ([NaN, NaN, NaN]);
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; NaN; NaN]);
 assert (gn, cell (0,1));
 assert (gl, single (zeros(0,1)));
***** test
 s = {''; ''; ''; ''};
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; NaN; NaN; NaN]);
 assert (gn, cell(0,1));
 assert (gl, cell(0,1));
***** test
 s = {'a'; ''; 'b'; ''; 'c'};
 [g, gn, gl] = grp2idx (s);
 assert (g, [1; NaN; 2; NaN; 3]);
 assert (gn, {'a'; 'b'; 'c'});
 assert (gl, {'a'; 'b'; 'c'});
***** test
 s = categorical ({''; ''; ''; ''});
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; NaN; NaN; NaN]);
 assert (gn, cell (0,1));
 assert (isequaln (gl, categorical (cell (0,1))));
***** test
 s = string ({missing, missing, missing});
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; NaN; NaN]);
 assert (gn, cell (0,1));
 assert (isequal (gl, string (cell (0,1))));
***** test
 s = [duration(NaN, 0, 0), duration(NaN, 0, 0), duration(NaN, 0, 0)];
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; NaN; NaN]);
 assert (gn, cell (0,1));
 assert (isequal (gl, duration (NaN (0,3))));
***** test assert (nthargout (1:3, @grp2idx, ['sci'; 'oct'; 'sci'; 'oct'; 'oct']),
        {[1; 2; 1; 2; 2] {'sci'; 'oct'} ['sci'; 'oct']});
***** test assert (nthargout (1:3, @grp2idx, {'sci'; 'oct'; 'sci'; 'oct'; 'oct'}),
        {[1; 2; 1; 2; 2] {'sci'; 'oct'} {'sci'; 'oct'}});
***** test assert (nthargout (1:3, @grp2idx, {'sa' 'et' 'et' '' 'sa'}),
        {[1; 2; 2; NaN; 1] {'sa'; 'et'} {'sa'; 'et'}})
***** test
 [g, gn, gl] = grp2idx (categorical ({'low', 'med', 'high', 'low'}));
 assert (g, [2; 3; 1; 2]);
 assert (gn, {'high'; 'low'; 'med'});
 assert (isequal (gl, categorical ({'high'; 'low'; 'med'})));
***** test
 [g, gn, gl] = grp2idx (categorical ([10, 20, 10, 30, 20]));
 assert (g, [1; 2; 1; 3; 2]);
 assert (gn, {'10'; '20'; '30'});
 assert (isequal (gl, categorical ([10; 20; 30])));
***** test
 cats = categorical ({'high', '<undefined>', 'low', '<undefined>'});
 [g, gn, gl] = grp2idx (cats);
 assert (g, [2; 1; 3; 1]);
 assert (gn, {'<undefined>'; 'high'; 'low'});
 assert (isequal (gl, categorical ({'<undefined>'; 'high'; 'low'})));
***** test
 s = categorical ({''; ''; ''; ''}, {'1', '2', '3'}, {'1', '2', '3'});
 [g, gn, gl] = grp2idx (s);
 assert (g, nan (4, 1));
 assert (gn, {'1'; '2'; '3'});
 assert (iscategorical (gl), true);
 assert (cellstr (gl), gn);
***** test
 s = categorical ({''; '1'; ''; '2'}, {'1', '2', '3'}, {'1', '2', '3'});
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; 1; NaN; 2]);
 assert (gn, {'1'; '2'; '3'});
 assert (iscategorical (gl), true);
 assert (cellstr (gl), gn);
***** test
 s = categorical ({''; '2'; ''; '1'}, {'1', '2', '3'}, {'1', '2', '3'});
 [g, gn, gl] = grp2idx (s);
 assert (g, [NaN; 2; NaN; 1]);
 assert (gn, {'1'; '2'; '3'});
 assert (iscategorical (gl), true);
 assert (cellstr (gl), gn);
***** test
 g = gn = gl = [];
 [g, gn, gl] = grp2idx (seconds ([1.234, 1.234, 2.5, 3.000]));
 assert (g, [1; 1; 2; 3]);
 assert (gn, {'1.234 sec'; '2.5 sec'; '3 sec'});
 assert (isequal (gl, seconds ([1.234; 2.5; 3.000])));
***** test
 [g, gn, gl] = grp2idx ([hours(1); hours(2); hours(1); hours(3)]);
 assert (g, [1; 2; 1; 3]);
 assert (gn, {'1 hr'; '2 hr'; '3 hr'});
 assert (isequal (gl, [hours(1); hours(2); hours(3)]));
***** test
 in = [duration(1, 30, 0); duration(0, 45, 30); duration(1, 30, 0); duration(2, 15, 15)];
 [g, gn, gl] = grp2idx(in);
 assert (g, [2; 1; 2; 3]);
 assert (gn, {'00:45:30'; '01:30:00'; '02:15:15'});
 assert (isequal (gl, [duration(0, 45, 30); duration(1, 30, 0); duration(2, 15, 15)]));
***** test
 in = [hours(1); NaN; minutes(30); hours(1); NaN; seconds(90)];
 [g, gn, gl] = grp2idx(in);
 assert (g, [3; NaN; 2; 3; NaN; 1]);
 assert (gn, {'0.025 hr'; '0.5 hr'; '1 hr'});
 assert (isequal(gl, [seconds(90); minutes(30);  hours(1)]));
***** test
 [g, gn, gl] = grp2idx (string ({'123', 'erw', missing, '', '234'}));
 assert (g, [1; 2; NaN; NaN; 3]);
 assert (gn, {'123'; 'erw'; '234'});
 assert (isequal (gl, string ({'123'; 'erw'; '234'})));
***** test
 [g, gn, gl] = grp2idx (string ({'medium', 'low', 'high', 'medium', 'medium'}));
 assert (g, [1; 2; 3; 1; 1]);
 assert (gn, {'medium'; 'low'; 'high'});
 assert (isequal (gl, string ({'medium'; 'low'; 'high'})));
***** test
 [g, gn, gl] = grp2idx (string ({'', 'high', 'low', ''}));
 assert (g, [NaN; 1; 2; NaN]);
 assert (gn, {'high'; 'low'});
 assert (isequal (gl, string ({'high'; 'low'})));
***** test
 [g, gn, gl] = grp2idx (string ({'a', 'a', 'b', 'c'}));
 assert (g, [1; 1; 2; 3]);
 assert (gn, {'a'; 'b'; 'c'});
 assert (isstring (gl), true);
 assert (cellstr (gl), gn);
***** error <grp2idx: S must be either a vector or a matrix.> grp2idx (ones (3, 3, 3))
***** error <grp2idx: 'categorical' grouping variable must be a vector.> ...
 grp2idx (categorical ([1, 2; 1, 3]))
***** error <grp2idx: 'datetime' grouping variable is not supported yet.> ...
 grp2idx (datetime ('now'))
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
***** error <grp2idx: 'duration' grouping variable must be a vector.> ...
 grp2idx (days ([1, 2; 1, 3]))
***** error <grp2idx: 'string' grouping variable must be a vector.> ...
 grp2idx (string ({'a', 'a'; 'b', 'c'}))
***** error <grp2idx: unsupported type for input S.> grp2idx ({1})
43 tests, 43 passed, 0 known failure, 0 skipped
[inst/pcacov.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/pcacov.m
***** demo
 x = [ 7    26     6    60;
       1    29    15    52;
      11    56     8    20;
      11    31     8    47;
       7    52     6    33;
      11    55     9    22;
       3    71    17     6;
       1    31    22    44;
       2    54    18    22;
      21    47     4    26;
       1    40    23    34;
      11    66     9    12;
      10    68     8    12
     ];
 Kxx = cov (x);
 [coeff, latent, explained] = pcacov (Kxx)
***** test
 load hald
 Kxx = cov (ingredients);
 [coeff,latent,explained] = pcacov(Kxx);
 c_out = [-0.0678, -0.6460,  0.5673, 0.5062; ...
          -0.6785, -0.0200, -0.5440, 0.4933; ...
           0.0290,  0.7553,  0.4036, 0.5156; ...
           0.7309, -0.1085, -0.4684, 0.4844];
 l_out = [517.7969; 67.4964; 12.4054; 0.2372];
 e_out = [ 86.5974; 11.2882;  2.0747; 0.0397];
 assert (coeff, c_out, 1e-4);
 assert (latent, l_out, 1e-4);
 assert (explained, e_out, 1e-4);
***** error <pcacov: K must be a square matrix.> pcacov (ones (2, 3))
***** error <pcacov: K must be a square matrix.> pcacov (ones (3, 3, 3))
***** error <pcacov: K must be a symmetric matrix.> pcacov ([1, 2; 0, 1])
***** error <pcacov: K must be a positive semi-definite matrix.> pcacov ([10, 0; 0, -1])
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/multiway.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/multiway.m
***** test
 numbers = [4, 5, 6, 7, 8];
 num_parts = 2;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "completeKK");
 assert (sort (cellfun (@sum, partition)), sort ([15, 15]));
***** test
 numbers = [1, 2, 3, 4, 5, 6];
 num_parts = 3;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "completeKK");
 assert (sort (cellfun (@sum, partition)), sort ([7, 7, 7]));
***** test
 numbers = [24, 21, 18, 17, 12, 11, 8, 2];
 num_parts = 3;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "completeKK");
 assert (sort (cellfun (@sum, partition)), sort ([38, 38, 37]));
***** test
 numbers = [10, 10, 10];
 num_parts = 3;
 [~, partition] = multiway (numbers, num_parts, "completeKK");
 assert (sort (cellfun (@sum, partition)), [10, 10, 10]);
***** test
 numbers = 1:10;
 num_parts = 2;
 [~, partition] = multiway (numbers, num_parts, "completeKK");
 assert (sort (cellfun (@sum, partition)), [27, 28]);
***** test
 numbers = [4, 5, 6, 7, 8];
 num_parts = 2;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "greedy");
 assert (sort (cellfun (@sum, partition)), sort ([13, 17]));
***** test
 numbers = [1, 2, 3, 4, 5, 6];
 num_parts = 3;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "greedy");
 assert (sort (cellfun (@sum, partition)), sort ([7, 7, 7]));
***** test
 numbers = [10, 7, 5, 5, 6, 4, 10, 11, 12, 9, 10, 4, 3, 4, 5];
 num_parts = 4;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "greedy");
 assert (sort (cellfun (@sum, partition)), sort ([27, 27, 27, 24]));
***** test
 numbers = [24, 21, 18, 17, 12, 11, 8, 2];
 num_parts = 3;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "greedy");
 assert (sort (cellfun (@sum, partition)), sort ([35, 37, 41]));
***** test
 numbers = [10, 10, 10];
 num_parts = 3;
 [~, partition] = multiway (numbers, num_parts, "greedy");
 assert (sort (cellfun (@sum, partition)), [10, 10, 10]);
***** test
 numbers = 1:10;
 num_parts = 2;
 [~, partition] = multiway (numbers, num_parts, "greedy");
 assert (sort (cellfun (@sum, partition)), [27, 28]);
***** test
 grpidx_ckk = multiway ([3 2 4 3 9 3 64], 3);
 grpidx_greedy = multiway ([3 2 4 3 9 3 64], 3, 'greedy');
 assert (isequal (grpidx_ckk, grpidx_greedy), false);
***** test
 numbers = [4; 5; 6; 7; 8];
 num_parts = 2;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "completeKK");
 assert (iscolumn (groupindex), true)
 assert (iscolumn (groupsizes), true);
 assert (sort (cellfun (@sum, partition)), sort ([15, 15]));
 numbers = [4; 5; 6; 7; 8];
 num_parts = 2;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "greedy");
 assert (iscolumn (groupindex), true)
 assert (iscolumn (groupsizes), true);
 assert (sort (cellfun (@sum, partition)), sort ([13, 17]));
***** test
 numbers = [4, 5, 6, 7, 8];
 num_parts = 2;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "completeKK");
 assert (isrow (groupindex), true)
 assert (isrow (groupsizes), true);
 assert (sort (cellfun (@sum, partition)), sort ([15, 15]));
***** test
 numbers = [4, 5, 6, 7, 8];
 num_parts = 2;
 [groupindex, partition, groupsizes] = multiway (numbers, num_parts, "greedy");
 assert (isrow (groupindex), true)
 assert (isrow (groupsizes), true);
 assert (sort (cellfun (@sum, partition)), sort ([13, 17]));
***** error<multiway: too few input arguments.> multiway ()
***** error<multiway: too few input arguments.> multiway ([1, 2])
***** error<multiway: METHOD value must be a character vector.> ...
 multiway ([1, 2, 3], 2, 1)
***** error<multiway: NUMBERS must be a non-empty vector.> multiway ([], 2)
***** error<multiway: NUMBERS must be a non-empty vector.> multiway (ones (2, 2), 2)
***** error<multiway: NUMBERS must be numeric and cannot contain NaN values.> ...
 multiway ({1, 2, 3}, 2)
***** error<multiway: NUMBERS must be non-negative.> multiway ([1, -2, 3], 2)
***** error<multiway: NUMBERS must be numeric and cannot contain NaN values.> ...
 multiway ([1, 2, NaN], 2)
***** error<multiway: NUM_PARTS must be a scalar.> multiway ([1,2,3], [1,2])
***** error<multiway: NUM_PARTS must be a real numeric value.> ...
 multiway ([1, 2, 3], "2")
***** error<multiway: NUM_PARTS must be a positive integer.> multiway ([1, 2, 3], 0)
***** error<multiway: NUM_PARTS must be a positive integer.> multiway ([1, 2, 3], 1.5)
***** error<multiway: NUM_PARTS must be a positive integer.> multiway ([1, 2, 3], -1)
***** error<multiway: NUM_PARTS cannot be greater than number of elements in NUMBERS.> ...
 multiway ([1, 2], 3)
***** error <multiway: unsupported method 'greedyalgo'.> ...
 multiway ([1,2,3], 2, "greedyalgo")
30 tests, 30 passed, 0 known failure, 0 skipped
[inst/bar3h.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/bar3h.m
***** demo
 ## Plotting 5 bars in the same series.

 y = [50; 40; 30; 20; 10];
 bar3h (y);
***** demo
 ## Plotting 5 bars in different groups.

 y = [50, 40, 30, 20, 10];
 bar3h (y);
***** demo
 ## A 3D bar graph with each series corresponding to a column in y.

 y = [1, 4, 7; 2, 5, 8; 3, 6, 9; 4, 7, 10];
 bar3h (y);
***** demo
 ## Specify z-axis locations as tick names. z must be a column vector!

 z = [1950, 1960, 1970, 1980, 1990]';
 y = [16, 8, 4, 2, 1]';
 bar3h (z, y);
***** demo
 ## Plot 3 series as a grouped plot without any space between the grouped bars

 y = [70 50 33 10; 75 55 35 15; 80 60 40 20];
 bar3h (y, 1, 'grouped');
***** demo
 ## Plot a stacked style 3D bar graph

 y = [19, 30, 21, 30; 40, 16, 32, 12];
 b = bar3h (y, 0.5, 'stacked');
***** error <bar3h: Z must be numeric.> bar3h ("A")
***** error <bar3h: Z must be numeric.> bar3h ({2,3,4,5})
***** error <bar3h: inconsistent size in Y and Z input arguments.> ...
 bar3h ([1,2,3]', ones (2))
***** error <bar3h: WIDTH must be a scalar in the range> ...
 bar3h ([1:5], 1.2)
***** error <bar3h: WIDTH must be a scalar in the range> ...
 bar3h ([1:5]', ones (5), 1.2)
***** error <bar3h: numeric COLOR must be a 1x3 vector of an Nx3 matrix> ...
 bar3h ([1:5]', ones (5), [0.8, 0.7])
***** error <bar3h: missing value for optional argument 'width'.> ...
 bar3h (ones (5), 'width')
***** error <bar3h: invalid value for optional argument 'width'.> ...
 bar3h (ones (5), 'width', 1.2)
***** error <bar3h: invalid value for optional argument 'width'.> ...
 bar3h (ones (5), 'width', [0.8, 0.8, 0.8])
***** error <bar3h: missing value for optional argument 'color'.> ...
 bar3h (ones (5), 'color')
***** error <bar3h: numeric COLOR must be a 1x3 vector of an Nx3 matrix> ...
 bar3h (ones (5), 'color', [0.8, 0.8])
***** error <bar3h: invalid value for optional argument 'color'.> ...
 bar3h (ones (5), 'color', "brown")
***** error <bar3h: invalid value for optional argument 'color'.> ...
 bar3h (ones (5), 'color', {"r", "k", "c", "m", "brown"})
***** error <bar3h: missing value for optional argument 'xlabel'.> ...
 bar3h (ones (5), 'xlabel')
***** error <bar3h: invalid value for optional argument 'xlabel'.> ...
 bar3h (ones (5), 'xlabel', 4)
***** error <bar3h: missing value for optional argument 'zlabel'.> ...
 bar3h (ones (5), 'zlabel')
***** error <bar3h: invalid value for optional argument 'zlabel'.> ...
 bar3h (ones (5), 'zlabel', 4)
***** error <bar3h: invalid optional argument.> bar3h (ones (5), 'this', 4)
***** error <bar3h: the elements in 'xlabel' must equal the columns in Z.> ...
 bar3h (ones (5), 'xlabel', {"A", "B", "C"})
***** error <bar3h: the elements in 'zlabel' must equal the rows in Z.> ...
 bar3h (ones (5), 'zlabel', {"A", "B", "C"})
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/hmmviterbi.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/hmmviterbi.m
***** test
 sequence = [1, 2, 1, 1, 1, 2, 2, 1, 2, 3, 3, 3, ...
             3, 2, 3, 1, 1, 1, 1, 3, 3, 2, 3, 1, 3];
 transprob = [0.8, 0.2; 0.4, 0.6];
 outprob = [0.2, 0.4, 0.4; 0.7, 0.2, 0.1];
 vpath = hmmviterbi (sequence, transprob, outprob);
 expected = [1, 1, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, ...
             1, 1, 1, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1];
 assert (vpath, expected);
***** test
 sequence = {"A", "B", "A", "A", "A", "B", "B", "A", "B", "C", "C", "C", ...
             "C", "B", "C", "A", "A", "A", "A", "C", "C", "B", "C", "A", "C"};
 transprob = [0.8, 0.2; 0.4, 0.6];
 outprob = [0.2, 0.4, 0.4; 0.7, 0.2, 0.1];
 symbols = {"A", "B", "C"};
 statenames = {"One", "Two"};
 vpath = hmmviterbi (sequence, transprob, outprob, "symbols", symbols, ...
                                                   "statenames", statenames);
 expected = {"One", "One", "Two", "Two", "Two", "One", "One", "One", ...
             "One", "One", "One", "One", "One", "One", "One", "Two", ...
             "Two", "Two", "Two", "One", "One", "One", "One", "One", "One"};
 assert (vpath, expected);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/qqplot.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/qqplot.m
***** test
 hf = figure ("visible", "off");
 unwind_protect
   qqplot ([2 3 3 4 4 5 6 5 6 7 8 9 8 7 8 9 0 8 7 6 5 4 6 13 8 15 9 9]);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error qqplot ()
***** error <qqplot: X must be a numeric vector> qqplot ({1})
***** error <qqplot: X must be a numeric vector> qqplot (ones (2,2))
***** error <qqplot: X must be a numeric vector> qqplot (1, "foobar")
***** error <qqplot: no inverse CDF found> qqplot ([1 2 3], "foobar")
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/ridge.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ridge.m
***** demo
 ## Perform ridge regression for a range of ridge parameters and observe
 ## how the coefficient estimates change based on the acetylene dataset.

 load acetylene

 X = [x1, x2, x3];

 x1x2 = x1 .* x2;
 x1x3 = x1 .* x3;
 x2x3 = x2 .* x3;

 D = [x1, x2, x3, x1x2, x1x3, x2x3];

 k = 0:1e-5:5e-3;

 b = ridge (y, D, k);

 figure
 plot (k, b, "LineWidth", 2)
 ylim ([-100, 100])
 grid on
 xlabel ("Ridge Parameter")
 ylabel ("Standardized Coefficient")
 title ("Ridge Trace")
 legend ("x1", "x2", "x3", "x1x2", "x1x3", "x2x3")

***** demo

 load carbig
 X = [Acceleration Weight Displacement Horsepower];
 y = MPG;

 n = length(y);

 rand("seed",1); % For reproducibility

 c = cvpartition(n,'HoldOut',0.3);
 idxTrain = training(c,1);
 idxTest = ~idxTrain;

 idxTrain = training(c,1);
 idxTest = ~idxTrain;

 k = 5;
 b = ridge(y(idxTrain),X(idxTrain,:),k,0);

 % Predict MPG values for the test data using the model.
 yhat = b(1) + X(idxTest,:)*b(2:end);
 scatter(y(idxTest),yhat)

 hold on
 plot(y(idxTest),y(idxTest),"r")
 xlabel('Actual MPG')
 ylabel('Predicted MPG')
 hold off

***** test
 b = ridge ([1 2 3 4]', [1 2 3 4; 2 3 4 5]', 1);
 assert (b, [0.5533; 0.5533], 1e-4);
***** test
 b = ridge ([1 2 3 4]', [1 2 3 4; 2 3 4 5]', 2);
 assert (b, [0.4841; 0.4841], 1e-4);
***** test
 load acetylene
 x = [x1, x2, x3];
 b = ridge (y, x, 0);
 assert (b,[10.2273;1.97128;-0.601818],1e-4);
***** test
 load acetylene
 x = [x1, x2, x3];
 b = ridge (y, x, 0.0005);
 assert (b,[10.2233;1.9712;-0.6056],1e-4);
***** test
 load acetylene
 x = [x1, x2, x3];
 b = ridge (y, x, 0.001);
 assert (b,[10.2194;1.9711;-0.6094],1e-4);
***** test
 load acetylene
 x = [x1, x2, x3];
 b = ridge (y, x, 0.002);
 assert (b,[10.2116;1.9709;-0.6169],1e-4);
***** test
 load acetylene
 x = [x1, x2, x3];
 b = ridge (y, x, 0.005);
 assert (b,[10.1882;1.9704;-0.6393],1e-4);
***** test
 load acetylene
 x = [x1, x2, x3];
 b = ridge (y, x, 0.01);
 assert (b,[10.1497;1.9695;-0.6761],1e-4);
***** error<ridge: function called with too few input arguments.> ridge (1)
***** error<ridge: function called with too few input arguments.> ridge (1, 2)
***** error<ridge: Y must be a numeric column vector.> ridge (ones (3), ones (3), 2)
***** error<ridge: Y must be a numeric column vector.> ridge ([1, 2], ones (2), 2)
***** error<ridge: Y must be a numeric column vector.> ridge ([], ones (3), 2)
***** error<ridge: X must be a numeric matrix.> ridge (ones (5,1), [], 2)
***** error<ridge: Y and X must contain the same number of rows.> ...
 ridge ([1; 2; 3; 4; 5], ones (3), 3)
***** error<ridge: wrong value for SCALED argument.> ...
 ridge ([1; 2; 3], ones (3), 3, 2)
***** error<ridge: wrong value for SCALED argument.> ...
 ridge ([1; 2; 3], ones (3), 3, "some")
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/fitcnet.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitcnet.m
***** demo
 ## Train a Neural Network on the Fisher's Iris data set and display
 ## a confusion chart with the classification results.

 load fisheriris
 Mdl = fitcnet (meas, species);
 pred_species = resubPredict (Mdl);
 confusionchart (species, pred_species, "Title", ...
 "Fully Connected Neural Network classification on Fisher's Iris dataset");
***** test
 load fisheriris
 x = meas;
 y = grp2idx (species);
 Mdl = fitcnet (x, y, "IterationLimit", 50);
 assert (class (Mdl), "ClassificationNeuralNetwork");
 assert (numel (Mdl.ModelParameters.LayerWeights), 2);
 assert (size (Mdl.ModelParameters.LayerWeights{1}), [10, 5]);
 assert (size (Mdl.ModelParameters.LayerWeights{2}), [3, 11]);
***** error<fitcnet: too few arguments.> fitcnet ()
***** error<fitcnet: too few arguments.> fitcnet (ones (4,1))
***** error<fitcnet: Name-Value arguments must be in pairs.>
 fitcnet (ones (4,2), ones (4, 1), 'LayerSizes')
***** error<fitcnet: number of rows in X and Y must be equal.>
 fitcnet (ones (4,2), ones (3, 1))
***** error<fitcnet: number of rows in X and Y must be equal.>
 fitcnet (ones (4,2), ones (3, 1), 'LayerSizes', 2)
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/hotelling_t2test.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/hotelling_t2test.m
***** error<Invalid call to hotelling_t2test.  Correct usage> hotelling_t2test ();
***** error<hotelling_t2test: X must be a vector or a 2D matrix.> ...
 hotelling_t2test (1);
***** error<hotelling_t2test: X must be a vector or a 2D matrix.> ...
 hotelling_t2test (ones(2,2,2));
***** error<hotelling_t2test: invalid value for alpha.> ...
 hotelling_t2test (ones(20,2), [0, 0], "alpha", 1);
***** error<hotelling_t2test: invalid value for alpha.> ...
 hotelling_t2test (ones(20,2), [0, 0], "alpha", -0.2);
***** error<hotelling_t2test: invalid value for alpha.> ...
 hotelling_t2test (ones(20,2), [0, 0], "alpha", "a");
***** error<hotelling_t2test: invalid value for alpha.> ...
 hotelling_t2test (ones(20,2), [0, 0], "alpha", [0.01, 0.05]);
***** error<hotelling_t2test: invalid Name argument.> ...
 hotelling_t2test (ones(20,2), [0, 0], "name", 0.01);
***** error<hotelling_t2test: if X is a vector, M must be a scalar.> ...
 hotelling_t2test (ones(20,1), [0, 0]);
***** error<hotelling_t2test: X must have more rows than columns.> ...
 hotelling_t2test (ones(4,5), [0, 0, 0, 0, 0]);
***** error<hotelling_t2test: if X is a matrix, M must be a vector of length> ...
 hotelling_t2test (ones(20,5), [0, 0, 0, 0]);
***** test
 randn ("seed", 1);
 x = randn (50000, 5);
 [h, pval, stats] = hotelling_t2test (x);
 assert (h, 0);
 assert (stats.df1, 5);
 assert (stats.df2, 49995);
***** test
 randn ("seed", 1);
 x = randn (50000, 5);
 [h, pval, stats] = hotelling_t2test (x, ones (1, 5) * 10);
 assert (h, 1);
 assert (stats.df1, 5);
 assert (stats.df2, 49995);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/ismissing.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ismissing.m
***** assert (ismissing ([1, NaN, 3]), [false, true, false])
***** assert (ismissing ('abcd f'), [false, false, false, false, false, false])
***** assert (ismissing ({'xxx', '', 'xyz'}), [false, true, false])
***** assert (ismissing ({'x', '', 'y'}), [false, true, false])
***** assert (ismissing ({'x', '', 'y'; 'z', 'a', ''}), logical ([0, 1, 0; 0, 0, 1]))
***** assert (ismissing ([1, 2; NaN, 2]), [false, false; true, false])
***** assert (ismissing ([1, 2; NaN, 2], 2), [false, true; false, true])
***** assert (ismissing ([1, 2; NaN, 2], [1, 2]), [true, true; false, true])
***** assert (ismissing ([1, 2; NaN, 2], NaN), [false, false; true, false])
***** assert (ismissing (cat (3, magic (2), magic (2))), logical (zeros (2, 2, 2)))
***** assert (ismissing (cat (3, magic (2), [1, 2; 3, NaN])), ...
        logical (cat (3, [0, 0; 0, 0], [0, 0; 0, 1])))
***** assert (ismissing ([1, 2; 3, 4], [5, 1; 2, 0]), logical ([1, 1; 0, 0]))
***** assert (ismissing (cat (3, 'f oo', 'ba r')), ...
        logical (cat (3, [0, 0, 0, 0], [0, 0, 0, 0])))
***** assert (ismissing (cat (3, {'foo'}, {''}, {'bar'})), logical (cat (3, 0, 1, 0)))
***** assert (ismissing (double (NaN)), true)
***** assert (ismissing (single (NaN)), true)
***** assert (ismissing (' '), false)
***** assert (ismissing ({''}), true)
***** assert (ismissing ({' '}), false)
***** assert (ismissing (double (eye(3)), single (1)), logical (eye (3)))
***** assert (ismissing (double (eye(3)), int32 (1)), logical (eye (3)))
***** assert (ismissing (single (eye(3)), double (1)), logical (eye (3)))
***** assert (ismissing (single (eye(3)), int32 (1)), logical (eye (3)))
***** assert (ismissing ({'123', '', 123}), [false, false, false])
***** assert (ismissing (logical ([1, 0, 1])), [false, false, false])
***** assert (ismissing (int32 ([1, 2, 3])), [false, false, false])
***** assert (ismissing (uint32 ([1, 2, 3])), [false, false, false])
***** assert (ismissing ({1, 2, 3}), [false, false, false])
***** assert (ismissing ([struct struct struct]), [false, false, false])
***** assert (ismissing (logical (eye(3)), true), logical (eye (3)))
***** assert (ismissing (logical (eye(3)), double (1)), logical (eye (3)))
***** assert (ismissing (logical (eye(3)), single (1)), logical (eye (3)))
***** assert (ismissing (logical (eye(3)), int32 (1)), logical (eye (3)))
***** assert (ismissing (int32 (eye(3)), int32 (1)), logical (eye (3)))
***** assert (ismissing (int32 (eye(3)), double (1)), logical (eye (3)))
***** assert (ismissing (int32 (eye(3)), single (1)), logical (eye (3)))
***** assert (ismissing ([]), logical([]))
***** assert (ismissing (''), logical([]))
***** assert (ismissing (ones (0,1)), logical(ones(0,1)))
***** assert (ismissing (ones (1,0)), logical(ones(1,0)))
***** assert (ismissing (ones (1,2,0)), logical(ones(1,2,0)))
***** assert (ismissing ([1, NaN, 0, 2]), [false, true, false, false])
***** assert (ismissing ([1, NaN, 0, 2], [0, 1]), [true, false, true, false])
***** assert (ismissing ([1, NaN, 0, 2], [0, NaN]), [false, true, true, false])
***** assert (ismissing ([true, false, true]), [false, false, false])
***** assert (ismissing ([true, false, true], 1), [true, false, true])
***** assert (ismissing ([true, false, true], 0), [false, true, false])
***** assert (ismissing ({'', 'a', 'f'}), [true, false, false])
***** assert (ismissing ({'', 'a', 'f'}, 'a'), [false, true, false])
***** assert (ismissing ({'', 'a', 'f'}, {'a', 'g'}), [false, true, false])
***** assert (ismissing ({'', 'a', 'f'}, {'a', 'f'}), [false, true, true])
***** error ismissing ()
***** error ismissing (1, 2, 3)
***** error <ismissing: 'indicator' and 'A' must have the same data type.> ...
       ismissing ([1, 2; 3, 4], 'abc')
***** error <ismissing: 'indicator' and 'A' must have the same data type.> ...
       ismissing ({'', '', ''}, 1)
***** error <ismissing: 'indicator' and 'A' must have the same data type.> ...
       ismissing (1, struct)
***** error <ismissing: indicators not supported for data type 'struct'> ...
       ismissing (struct, 1)
***** error <ismissing: indicators not supported for data type 'cell'> ...
       ismissing ({1, 2, 3}, 2)
58 tests, 58 passed, 0 known failure, 0 skipped
[inst/chi2test.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/chi2test.m
***** error chi2test ();
***** error chi2test ([1, 2, 3, 4, 5]);
***** error chi2test ([1, 2; 2, 1+3i]);
***** error chi2test ([NaN, 6; 34, 12]);
***** error<chi2test: optional arguments are not supported for 2-way> ...
 p = chi2test (ones (3, 3), "mutual", []);
***** error<chi2test: invalid model name for testing a 3-way table.> ...
 p = chi2test (ones (3, 3, 3), "testtype", 2);
***** error<chi2test: optional arguments must be in pairs.> ...
 p = chi2test (ones (3, 3, 3), "mutual");
***** error<chi2test: value must be numeric in optional argument> ...
 p = chi2test (ones (3, 3, 3), "joint", ["a"]);
***** error<chi2test: value must be empty or scalar in optional argument> ...
 p = chi2test (ones (3, 3, 3), "joint", [2, 3]);
***** error<chi2test: optional arguments are not supported for k> ...
 p = chi2test (ones (3, 3, 3, 4), "mutual", [])
***** warning<chi2test: Expected values less than 5.> p = chi2test (ones (2));
***** warning<chi2test: Expected values less than 5.> p = chi2test (ones (3, 2));
***** warning<chi2test: Expected values less than 1.> p = chi2test (0.4 * ones (3));
***** test
 x = [11, 3, 8; 2, 9, 14; 12, 13, 28];
 p = chi2test (x);
 assert (p, 0.017787, 1e-6);
***** test
 x = [11, 3, 8; 2, 9, 14; 12, 13, 28];
 [p, chisq] = chi2test (x);
 assert (chisq, 11.9421, 1e-4);
***** test
 x = [11, 3, 8; 2, 9, 14; 12, 13, 28];
 [p, chisq, df] = chi2test (x);
 assert (df, 4);
***** test
***** shared x
 x(:,:,1) = [59, 32; 9,16];
 x(:,:,2) = [55, 24;12,33];
 x(:,:,3) = [107,80;17,56];%!
***** assert (chi2test (x), 2.282063427117009e-11, 1e-14);
***** assert (chi2test (x, "mutual", []), 2.282063427117009e-11, 1e-14);
***** assert (chi2test (x, "joint", 1), 1.164834895206468e-11, 1e-14);
***** assert (chi2test (x, "joint", 2), 7.771350230001417e-11, 1e-14);
***** assert (chi2test (x, "joint", 3), 0.07151361728026107, 1e-14);
***** assert (chi2test (x, "marginal", 1), 0, 1e-14);
***** assert (chi2test (x, "marginal", 2), 6.347555814301131e-11, 1e-14);
***** assert (chi2test (x, "marginal", 3), 0, 1e-14);
***** assert (chi2test (x, "conditional", 1), 0.2303114201312508, 1e-14);
***** assert (chi2test (x, "conditional", 2), 0.0958810684407079, 1e-14);
***** assert (chi2test (x, "conditional", 3), 2.648037344954446e-11, 1e-14);
***** assert (chi2test (x, "homogeneous", []), 0.4485579470993741, 1e-14);
***** test
 [pval, chisq, df, E] = chi2test (x);
 assert (chisq, 64.0982, 1e-4);
 assert (df, 7);
 assert (E(:,:,1), [42.903, 39.921; 17.185, 15.991], ones (2, 2) * 1e-3);
***** test
 [pval, chisq, df, E] = chi2test (x, "joint", 2);
 assert (chisq, 56.0943, 1e-4);
 assert (df, 5);
 assert (E(:,:,2), [40.922, 23.310; 38.078, 21.690], ones (2, 2) * 1e-3);
***** test
 [pval, chisq, df, E] = chi2test (x, "marginal", 3);
 assert (chisq, 146.6058, 1e-4);
 assert (df, 9);
 assert (E(:,1,1), [61.642; 57.358], ones (2, 1) * 1e-3);
***** test
 [pval, chisq, df, E] = chi2test (x, "conditional", 3);
 assert (chisq, 52.2509, 1e-4);
 assert (df, 3);
 assert (E(:,:,1), [53.345, 37.655; 14.655, 10.345], ones (2, 2) * 1e-3);
***** test
 [pval, chisq, df, E] = chi2test (x, "homogeneous", []);
 assert (chisq, 1.6034, 1e-4);
 assert (df, 2);
 assert (E(:,:,1), [60.827, 31.382; 7.173, 16.618], ones (2, 2) * 1e-3);
34 tests, 34 passed, 0 known failure, 0 skipped
[inst/slicesample.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/slicesample.m
***** demo
 ## Define function to sample
 d = 2;
 mu = [-1; 2];
 rand ("seed", 5)  # for reproducibility
 Sigma = rand (d);
 Sigma = (Sigma + Sigma');
 Sigma += eye (d)*abs (eigs (Sigma, 1, "sa")) * 1.1;
 pdf = @(x)(2*pi)^(-d/2)*det(Sigma)^-.5*exp(-.5*sum((x.'-mu).*(Sigma\(x.'-mu)),1));

 ## Inputs
 start = ones (1,2);
 nsamples = 500;
 K = 500;
 m = 10;
 rande ("seed", 4);  rand ("seed", 5)  # for reproducibility
 [smpl, accept] = slicesample (start, nsamples, "pdf", pdf, "burnin", K, "thin", m, "width", [20, 30]);
 figure;
 hold on;
 plot (smpl(:,1), smpl(:,2), 'x');
 [x, y] = meshgrid (linspace (-6,4), linspace(-3,7));
 z = reshape (pdf ([x(:), y(:)]), size(x));
 mesh (x, y, z, "facecolor", "None");

 ## Using sample points to find the volume of half a sphere with radius of .5
 f = @(x) ((.25-(x(:,1)+1).^2-(x(:,2)-2).^2).^.5.*(((x(:,1)+1).^2+(x(:,2)-2).^2)<.25)).';
 int = mean (f (smpl) ./ pdf (smpl));
 errest = std (f (smpl) ./ pdf (smpl)) / nsamples^.5;
 trueerr = abs (2/3*pi*.25^(3/2)-int);
 fprintf ("Monte Carlo integral estimate int f(x) dx = %f\n", int);
 fprintf ("Monte Carlo integral error estimate %f\n", errest);
 fprintf ("The actual error %f\n", trueerr);
 mesh (x,y,reshape (f([x(:), y(:)]), size(x)), "facecolor", "None");
***** demo
 ## Integrate truncated normal distribution to find normalization constant
 pdf = @(x) exp (-.5*x.^2)/(pi^.5*2^.5);
 nsamples = 1e3;
 rande ("seed", 4);  rand ("seed", 5)  # for reproducibility
 [smpl, accept] = slicesample (1, nsamples, "pdf", pdf, "thin", 4);
 f = @(x) exp (-.5 * x .^ 2) .* (x >= -2 & x <= 2);
 x = linspace (-3, 3, 1000);
 area (x, f(x));
 xlabel ("x");
 ylabel ("f(x)");
 int = mean (f (smpl) ./ pdf (smpl));
 errest = std (f (smpl) ./ pdf (smpl)) / nsamples ^ 0.5;
 trueerr = abs (erf (2 ^ 0.5) * 2 ^ 0.5 * pi ^ 0.5 - int);
 fprintf("Monte Carlo integral estimate int f(x) dx = %f\n", int);
 fprintf("Monte Carlo integral error estimate %f\n", errest);
 fprintf("The actual error %f\n", trueerr);
***** test
 start = 0.5;
 nsamples = 1e3;
 pdf = @(x) exp (-.5*(x-1).^2)/(2*pi)^.5;
 [smpl, accept] = slicesample (start, nsamples, "pdf", pdf, "thin", 2, "burnin", 0, "width", 5);
 assert (mean (smpl, 1), 1, .15);
 assert (var (smpl, 1), 1, .25);
***** error slicesample ();
***** error slicesample (1);
***** error slicesample (1, 1);
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/adtest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/adtest.m
***** error<Invalid call to adtest.  Correct usage is:> adtest ();
***** error<adtest: X must be a vector of real numbers.> adtest (ones (20,2));
***** error<adtest: X must be a vector of real numbers.> adtest ([1+i,0-3i]);
***** error<adtest: invalid distribution family in char string.> ...
 adtest (ones (20,1), "Distribution", "normal");
***** error<adtest: invalid distribution family in cell array.> ...
 adtest (rand (20,1), "Distribution", {"normal", 5, 3});
***** error<adtest: invalid distribution parameters in cell array.> ...
 adtest (rand (20,1), "Distribution", {"norm", 5});
***** error<adtest: invalid distribution parameters in cell array.> ...
 adtest (rand (20,1), "Distribution", {"exp", 5, 4});
***** error<adtest: invalid distribution parameters in cell array.> ...
 adtest (rand (20,1), "Distribution", {"ev", 5});
***** error<adtest: invalid distribution parameters in cell array.> ...
 adtest (rand (20,1), "Distribution", {"logn", 5, 3, 2});
***** error<adtest: invalid distribution parameters in cell array.> ...
 adtest (rand (20,1), "Distribution", {"Weibull", 5});
***** error<adtest: invalid distribution option.> ...
 adtest (rand (20,1), "Distribution", 35);
***** error<adtest: invalid Name argument.> ...
 adtest (rand (20,1), "Name", "norm");
***** error<adtest: invalid Name argument.> ...
 adtest (rand (20,1), "Name", {"norm", 75, 10});
***** error<adtest: asymptotic option is not valid for the composite> ...
 adtest (rand (20,1), "Distribution", "norm", "Asymptotic", true);
***** error<adtest: asymptotic option is not valid for the composite> ...
 adtest (rand (20,1), "MCTol", 0.001, "Asymptotic", true);
***** error<adtest: asymptotic option is not valid for the Monte Carlo> ...
 adtest (rand (20,1), "Distribution", {"norm", 5, 3}, "MCTol", 0.001, ...
         "Asymptotic", true);
***** error<adtest: out of range invalid alpha - lower limit: 0.0005 upper> ...
 [h, pval, ADstat, CV] = adtest (ones (20,1), "Distribution", {"norm",5,3},...
                                 "Alpha", 0.000000001);
***** error<adtest: out of range invalid alpha - lower limit: 0.0005 upper> ...
 [h, pval, ADstat, CV] = adtest (ones (20,1), "Distribution", {"norm",5,3},...
                                 "Alpha", 0.999999999);
***** error<adtest: not enough data for composite testing.> ...
 adtest (10);
***** warning<adtest: out of range min p-value:> ...
 randn ("seed", 34);
 adtest (ones (20,1), "Alpha", 0.000001);
***** warning<adtest: alpha not within the lookup table.> ...
 randn ("seed", 34);
 adtest (normrnd(0,1,100,1), "Alpha", 0.99999);
***** warning<adtest: alpha not within the lookup table.> ...
 randn ("seed", 34);
 adtest (normrnd(0,1,100,1), "Alpha", 0.00001);
***** test
 load examgrades
 x = grades(:,1);
 [h, pval, adstat, cv] = adtest (x);
 assert (h, false);
 assert (pval, 0.1854, 1e-4);
 assert (adstat, 0.5194, 1e-4);
 assert (cv, 0.7470, 1e-4);
***** test
 load examgrades
 x = grades(:,1);
 [h, pval, adstat, cv] = adtest (x, "Distribution", "ev");
 assert (h, false);
 assert (pval, 0.071363, 1e-6);
***** test
 load examgrades
 x = grades(:,1);
 [h, pval, adstat, cv] = adtest (x, "Distribution", {"norm", 75, 10});
 assert (h, false);
 assert (pval, 0.4687, 1e-4);
25 tests, 25 passed, 0 known failure, 0 skipped
[inst/dist_obj/HalfNormalDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/HalfNormalDistribution.m
***** shared pd, t
 pd = HalfNormalDistribution (0, 1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.6827, 0.9545, 0.9973, 0.9999, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.9420, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.8664, 0.9545, 0.9973, 0.9999], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.9420, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.2533, 0.5244, 0.8416, 1.2816, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.0923, 2.2068, 2.3607, 2.6064, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.5244, 0.8416, 1.2816, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.2068, 2.3607, 2.6064, 4, NaN], 1e-4);
***** assert (iqr (pd), 0.8317, 1e-4);
***** assert (iqr (t), 0.4111, 1e-4);
***** assert (mean (pd), 0.7979, 1e-4);
***** assert (mean (t), 2.3706, 1e-4);
***** assert (median (pd), 0.6745, 1e-4);
***** assert (median (t), 2.2771, 1e-4);
***** assert (pdf (pd, [0:5]), [0.7979, 0.4839, 0.1080, 0.0089, 0.0003, 0], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 2.3765, 0.1951, 0.0059, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.4839, 0.1080, 0.0089, 0.0003, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 2.3765, 0.1951, 0.0059, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 0.6028, 1e-4);
***** assert (std (t), 0.3310, 1e-4);
***** assert (var (pd), 0.3634, 1e-4);
***** assert (var (t), 0.1096, 1e-4);
***** error <HalfNormalDistribution: MU must be a real scalar.> ...
 HalfNormalDistribution(Inf, 1)
***** error <HalfNormalDistribution: MU must be a real scalar.> ...
 HalfNormalDistribution(i, 1)
***** error <HalfNormalDistribution: MU must be a real scalar.> ...
 HalfNormalDistribution("a", 1)
***** error <HalfNormalDistribution: MU must be a real scalar.> ...
 HalfNormalDistribution([1, 2], 1)
***** error <HalfNormalDistribution: MU must be a real scalar.> ...
 HalfNormalDistribution(NaN, 1)
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, 0)
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, -1)
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, Inf)
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, i)
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, "a")
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, [1, 2])
***** error <HalfNormalDistribution: SIGMA must be a positive real scalar.> ...
 HalfNormalDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (HalfNormalDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (HalfNormalDistribution, 2, 3)
***** shared x
 x = hnrnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "parameter", "sigma", ...
          "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1),"NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", 0.01, ...
          "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (HalfNormalDistribution.fit (x, 1), "alpha", 0.01, ...
          "parameter", "sigma", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (HalfNormalDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (HalfNormalDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (HalfNormalDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (HalfNormalDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (HalfNormalDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (HalfNormalDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (HalfNormalDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (HalfNormalDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (HalfNormalDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (HalfNormalDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (HalfNormalDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (HalfNormalDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (HalfNormalDistribution.fit (x, 1), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (HalfNormalDistribution.fit (x, 1), {1})
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 1)
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (HalfNormalDistribution.fit (x, 1), 2, {[1 2 3 4]}, ...
          "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (HalfNormalDistribution)
***** error <truncate: missing input argument.> ...
 truncate (HalfNormalDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (HalfNormalDistribution, 4, 2)
***** shared pd
 pd = HalfNormalDistribution(1, 1);
 pd(2) = HalfNormalDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
96 tests, 96 passed, 0 known failure, 0 skipped
[inst/dist_obj/GammaDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/GammaDistribution.m
***** shared pd, t
 pd = GammaDistribution (1, 1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.6321, 0.8647, 0.9502, 0.9817, 0.9933], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7311, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.7769, 0.8647, 0.9502, 0.9817], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.7311, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.2231, 0.5108, 0.9163, 1.6094, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1899, 2.4244, 2.7315, 3.1768, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.5108, 0.9163, 1.6094, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4244, 2.7315, 3.1768, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.0986, 1e-4);
***** assert (iqr (t), 0.8020, 1e-4);
***** assert (mean (pd), 1);
***** assert (mean (t), 2.6870, 1e-4);
***** assert (median (pd), 0.6931, 1e-4);
***** assert (median (t), 2.5662, 1e-4);
***** assert (pdf (pd, [0:5]), [1, 0.3679, 0.1353, 0.0498, 0.0183, 0.0067], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.1565, 0.4255, 0.1565, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.3679, 0.1353, 0.0498, 0.0183, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 1.1565, 0.4255, 0.1565, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1);
***** assert (std (t), 0.5253, 1e-4);
***** assert (var (pd), 1);
***** assert (var (t), 0.2759, 1e-4);
***** error <GammaDistribution: A must be a positive real scalar.> ...
 GammaDistribution(0, 1)
***** error <GammaDistribution: A must be a positive real scalar.> ...
 GammaDistribution(Inf, 1)
***** error <GammaDistribution: A must be a positive real scalar.> ...
 GammaDistribution(i, 1)
***** error <GammaDistribution: A must be a positive real scalar.> ...
 GammaDistribution("a", 1)
***** error <GammaDistribution: A must be a positive real scalar.> ...
 GammaDistribution([1, 2], 1)
***** error <GammaDistribution: A must be a positive real scalar.> ...
 GammaDistribution(NaN, 1)
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, 0)
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, -1)
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, Inf)
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, i)
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, "a")
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, [1, 2])
***** error <GammaDistribution: B must be a positive real scalar.> ...
 GammaDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (GammaDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (GammaDistribution, 2, 3)
***** shared x
 x = gamrnd (1, 1, [100, 1]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (GammaDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GammaDistribution.fit (x), "parameter", "a", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (GammaDistribution.fit (x), "parameter", {"a", "b", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"a", "b", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (GammaDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (GammaDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GammaDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GammaDistribution.fit (x), "alpha", 0.01, "parameter", "a", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (GammaDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (GammaDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (GammaDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (GammaDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GammaDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GammaDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GammaDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (GammaDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (GammaDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (GammaDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (GammaDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (GammaDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GammaDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GammaDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GammaDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (GammaDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (GammaDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GammaDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GammaDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GammaDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (GammaDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (GammaDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (GammaDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (GammaDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (GammaDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (GammaDistribution)
***** error <truncate: missing input argument.> ...
 truncate (GammaDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (GammaDistribution, 4, 2)
***** shared pd
 pd = GammaDistribution(1, 1);
 pd(2) = GammaDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
96 tests, 96 passed, 0 known failure, 0 skipped
[inst/dist_obj/UniformDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/UniformDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Uniform distribution with
 ## parameters Lower = 0 and Upper = 10. Create a Uniform distribution with these
 ## parameters and plot its PDF superimposed on a histogram of the data.

 pd = makedist ("Uniform", "Lower", 0, "Upper", 10);
 rand ("seed", 21);
 data = random (pd, 5000, 1);
 
 x = linspace (pd.Lower - 1, pd.Upper + 1, 500);
 y = pdf (pd, x);
 plot (x, y, 'r-', 'LineWidth', 2);
 hold on;
 
 [counts, centers] = hist (data, 50);
 bin_width = centers(2) - centers(1);
 normalized_counts = counts / (sum (counts) * bin_width);
 bar (centers, normalized_counts, 1);
 
 msg = "Uniform distribution with Lower = %0.2f and Upper = %0.2f";
 title (sprintf (msg, pd.Lower, pd.Upper));
 legend ("PDF", "Histogram", "location", "northeast");
 
 hold off;
***** shared pd, t
 pd = UniformDistribution (0, 5);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.2, 0.4, 0.6, 0.8, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.5, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.3, 0.4, 0.6, 0.8, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.5, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 1, 2, 3, 4, 5], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.4, 2.8, 3.2, 3.6, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 2, 3, 4, 5, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.8, 3.2, 3.6, 4, NaN], 1e-4);
***** assert (iqr (pd), 2.5, 1e-14);
***** assert (iqr (t), 1, 1e-14);
***** assert (mean (pd), 2.5, 1e-14);
***** assert (mean (t), 3, 1e-14);
***** assert (median (pd), 2.5, 1e-14);
***** assert (median (t), 3, 1e-14);
***** assert (pdf (pd, [0:5]), [0.2, 0.2, 0.2, 0.2, 0.2, 0.2], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.5, 0.5, 0.5, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0.2, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.4434, 1e-4);
***** assert (std (t), 0.5774, 1e-4);
***** assert (var (pd), 2.0833, 1e-4);
***** assert (var (t), 0.3333, 1e-4);
***** error <UniformDistribution: LOWER must be a real scalar.> ...
 UniformDistribution (i, 1)
***** error <UniformDistribution: LOWER must be a real scalar.> ...
 UniformDistribution (Inf, 1)
***** error <UniformDistribution: LOWER must be a real scalar.> ...
 UniformDistribution ([1, 2], 1)
***** error <UniformDistribution: LOWER must be a real scalar.> ...
 UniformDistribution ("a", 1)
***** error <UniformDistribution: LOWER must be a real scalar.> ...
 UniformDistribution (NaN, 1)
***** error <UniformDistribution: UPPER must be a real scalar.> ...
 UniformDistribution (1, i)
***** error <UniformDistribution: UPPER must be a real scalar.> ...
 UniformDistribution (1, Inf)
***** error <UniformDistribution: UPPER must be a real scalar.> ...
 UniformDistribution (1, [1, 2])
***** error <UniformDistribution: UPPER must be a real scalar.> ...
 UniformDistribution (1, "a")
***** error <UniformDistribution: UPPER must be a real scalar.> ...
 UniformDistribution (1, NaN)
***** error <UniformDistribution: LOWER must be less than UPPER.> ...
 UniformDistribution (2, 1)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (UniformDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (UniformDistribution, 2, 3)
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (UniformDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (UniformDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (UniformDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (UniformDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (UniformDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (UniformDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (UniformDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (UniformDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (UniformDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (UniformDistribution, "invalidNAME", "pdf")
***** error <plot: 'probability' PlotType is not supported for 'UniformDistribution'.> ...
 plot (UniformDistribution, "PlotType", "probability")
***** error <truncate: missing input argument.> ...
 truncate (UniformDistribution)
***** error <truncate: missing input argument.> ...
 truncate (UniformDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (UniformDistribution, 4, 2)
***** shared pd
 pd = UniformDistribution (0, 1);
 pd(2) = UniformDistribution (0, 2);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
63 tests, 63 passed, 0 known failure, 0 skipped
[inst/dist_obj/GeneralizedParetoDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/GeneralizedParetoDistribution.m
***** shared pd, t
 pd = GeneralizedParetoDistribution (1, 1, 1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0, 0.5, 0.6667, 0.75, 0.8], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.6667, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.3333, 0.5, 0.6667, 0.75], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.6667, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [1, 1.25, 1.6667, 2.5, 5, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2222, 2.5, 2.8571, 3.3333, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 1.6667, 2.5, 5, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.5, 2.8571, 3.3333, 4, NaN], 1e-4);
***** assert (iqr (pd), 2.6667, 1e-4);
***** assert (iqr (t), 0.9143, 1e-4);
***** assert (mean (pd), Inf);
***** assert (mean (t), 2.7726, 1e-4);
***** assert (median (pd), 2);
***** assert (median (t), 2.6667, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 1, 0.25, 0.1111, 0.0625, 0.04], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1, 0.4444, 0.25, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 1, 0.25, 0.1111, 0.0625, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 1, 0.4444, 0.25, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), Inf);
***** assert (std (t), 0.5592, 1e-4);
***** assert (var (pd), Inf);
***** assert (var (t), 0.3128, 1e-4);
***** error <GeneralizedParetoDistribution: K must be a real scalar.> ...
 GeneralizedParetoDistribution(Inf, 1, 1)
***** error <GeneralizedParetoDistribution: K must be a real scalar.> ...
 GeneralizedParetoDistribution(i, 1, 1)
***** error <GeneralizedParetoDistribution: K must be a real scalar.> ...
 GeneralizedParetoDistribution("a", 1, 1)
***** error <GeneralizedParetoDistribution: K must be a real scalar.> ...
 GeneralizedParetoDistribution([1, 2], 1, 1)
***** error <GeneralizedParetoDistribution: K must be a real scalar.> ...
 GeneralizedParetoDistribution(NaN, 1, 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, 0, 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, -1, 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, Inf, 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, i, 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, "a", 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, [1, 2], 1)
***** error <GeneralizedParetoDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedParetoDistribution(1, NaN, 1)
***** error <GeneralizedParetoDistribution: THETA must be a real scalar.> ...
 GeneralizedParetoDistribution(1, 1, Inf)
***** error <GeneralizedParetoDistribution: THETA must be a real scalar.> ...
 GeneralizedParetoDistribution(1, 1, i)
***** error <GeneralizedParetoDistribution: THETA must be a real scalar.> ...
 GeneralizedParetoDistribution(1, 1, "a")
***** error <GeneralizedParetoDistribution: THETA must be a real scalar.> ...
 GeneralizedParetoDistribution(1, 1, [1, 2])
***** error <GeneralizedParetoDistribution: THETA must be a real scalar.> ...
 GeneralizedParetoDistribution(1, 1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (GeneralizedParetoDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (GeneralizedParetoDistribution, 2, 3)
***** shared x
 x = gprnd (1, 1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), ...
          "parameter", "sigma", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), ...
          "parameter", {"k", "sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", 0.01, ...
          "parameter", {"k", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", 0.01, ...
          "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GeneralizedParetoDistribution.fit (x, 1), "alpha", 0.01, ...
          "parameter", "sigma", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (GeneralizedParetoDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (GeneralizedParetoDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (GeneralizedParetoDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (GeneralizedParetoDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GeneralizedParetoDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GeneralizedParetoDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GeneralizedParetoDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (GeneralizedParetoDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (GeneralizedParetoDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (GeneralizedParetoDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (GeneralizedParetoDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (GeneralizedParetoDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, ...
          "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (GeneralizedParetoDistribution.fit (x, 1), 1, {[1 2 3 4]}, ...
          "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (GeneralizedParetoDistribution)
***** error <truncate: missing input argument.> ...
 truncate (GeneralizedParetoDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (GeneralizedParetoDistribution, 4, 2)
***** shared pd
 pd = GeneralizedParetoDistribution(1, 1, 1);
 pd(2) = GeneralizedParetoDistribution(1, 3, 1);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
100 tests, 100 passed, 0 known failure, 0 skipped
[inst/dist_obj/LognormalDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/LognormalDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Lognormal distribution with
 ## parameters mu = 0 and sigma = 1.  Fit a Lognormal distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Lognormal", "mu", 0, "sigma", 1)
 randn ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Lognormal")
 plot (pd_fitted)
 msg = "Fitted Lognormal distribution with mu = %0.2f and sigma = %0.2f";
 title (sprintf (msg, pd_fitted.mu, pd_fitted.sigma))
***** shared pd, t
 pd = LognormalDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.5, 0.7559, 0.8640, 0.9172, 0.9462], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.6705, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.6574, 0.7559, 0.8640, 0.9172], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.6705, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.4310, 0.7762, 1.2883, 2.3201, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2256, 2.5015, 2.8517, 3.3199, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.7762, 1.2883, 2.3201, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.5015, 2.8517, 3.3199, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.4536, 1e-4);
***** assert (iqr (t), 0.8989, 1e-4);
***** assert (mean (pd), 1.6487, 1e-4);
***** assert (mean (t), 2.7692, 1e-4);
***** assert (median (pd), 1, 1e-4);
***** assert (median (t), 2.6653, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.3989, 0.1569, 0.0727, 0.0382, 0.0219], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.9727, 0.4509, 0.2366, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.3989, 0.1569, 0.0727, 0.0382, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 0.9727, 0.4509, 0.2366, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 2.1612, 1e-4);
***** assert (std (t), 0.5540, 1e-4);
***** assert (var (pd), 4.6708, 1e-4);
***** assert (var (t), 0.3069, 1e-4);
***** error <LognormalDistribution: MU must be a real scalar.> ...
 LognormalDistribution(Inf, 1)
***** error <LognormalDistribution: MU must be a real scalar.> ...
 LognormalDistribution(i, 1)
***** error <LognormalDistribution: MU must be a real scalar.> ...
 LognormalDistribution("a", 1)
***** error <LognormalDistribution: MU must be a real scalar.> ...
 LognormalDistribution([1, 2], 1)
***** error <LognormalDistribution: MU must be a real scalar.> ...
 LognormalDistribution(NaN, 1)
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, 0)
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, -1)
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, Inf)
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, i)
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, "a")
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, [1, 2])
***** error <LognormalDistribution: SIGMA must be a positive real scalar.> ...
 LognormalDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LognormalDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LognormalDistribution, 2, 3)
***** shared x
 randn ("seed", 1);
 x = lognrnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (LognormalDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LognormalDistribution.fit (x), "parameter", "mu", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (LognormalDistribution.fit (x), "parameter", {"mu", "sigma", "parm"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (LognormalDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (LognormalDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LognormalDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LognormalDistribution.fit (x), "alpha", 0.01, "parameter", "mu", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (LognormalDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LognormalDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (LognormalDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LognormalDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LognormalDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LognormalDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LognormalDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LognormalDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LognormalDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (LognormalDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (LognormalDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (LognormalDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LognormalDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LognormalDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LognormalDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (LognormalDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (LognormalDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LognormalDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LognormalDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LognormalDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (LognormalDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (LognormalDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (LognormalDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (LognormalDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (LognormalDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (LognormalDistribution)
***** error <truncate: missing input argument.> ...
 truncate (LognormalDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (LognormalDistribution, 4, 2)
***** shared pd
 pd = LognormalDistribution(1, 1);
 pd(2) = LognormalDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
95 tests, 95 passed, 0 known failure, 0 skipped
[inst/dist_obj/InverseGaussianDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/InverseGaussianDistribution.m
***** shared pd, t
 pd = InverseGaussianDistribution (1, 1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.6681, 0.8855, 0.9532, 0.9791, 0.9901], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7234, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.8108, 0.8855, 0.9532, 0.9791], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.7234, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.3320, 0.5411, 0.8483, 1.4479, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1889, 2.4264, 2.7417, 3.1993, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.5411, 0.8483, 1.4479, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4264, 2.7417, 3.1993, 4, NaN], 1e-4);
***** assert (iqr (pd), 0.8643, 1e-4);
***** assert (iqr (t), 0.8222, 1e-4);
***** assert (mean (pd), 1);
***** assert (mean (t), 2.6953, 1e-4);
***** assert (median (pd), 0.6758, 1e-4);
***** assert (median (t), 2.5716, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.3989, 0.1098, 0.0394, 0.0162, 0.0072], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.1736, 0.4211, 0.1730, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.3989, 0.1098, 0.0394, 0.0162, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 1.1736, 0.4211, 0.1730, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1);
***** assert (std (t), 0.5332, 1e-4);
***** assert (var (pd), 1);
***** assert (var (t), 0.2843, 1e-4);
***** error <InverseGaussianDistribution: MU must be a positive real scalar.> ...
 InverseGaussianDistribution(0, 1)
***** error <InverseGaussianDistribution: MU must be a positive real scalar.> ...
 InverseGaussianDistribution(Inf, 1)
***** error <InverseGaussianDistribution: MU must be a positive real scalar.> ...
 InverseGaussianDistribution(i, 1)
***** error <InverseGaussianDistribution: MU must be a positive real scalar.> ...
 InverseGaussianDistribution("a", 1)
***** error <InverseGaussianDistribution: MU must be a positive real scalar.> ...
 InverseGaussianDistribution([1, 2], 1)
***** error <InverseGaussianDistribution: MU must be a positive real scalar.> ...
 InverseGaussianDistribution(NaN, 1)
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, 0)
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, -1)
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, Inf)
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, i)
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, "a")
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, [1, 2])
***** error <InverseGaussianDistribution: LAMBDA must be a positive real scalar.> ...
 InverseGaussianDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (InverseGaussianDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (InverseGaussianDistribution, 2, 3)
***** shared x
 x = invgrnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "parameter", "mu", ...
          "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), ...
          "parameter", {"mu", "lambda", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "lambda", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (InverseGaussianDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (InverseGaussianDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "mu", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (InverseGaussianDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (InverseGaussianDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (InverseGaussianDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (InverseGaussianDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (InverseGaussianDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (InverseGaussianDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (InverseGaussianDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (InverseGaussianDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (InverseGaussianDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (InverseGaussianDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (InverseGaussianDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (InverseGaussianDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (InverseGaussianDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (InverseGaussianDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (InverseGaussianDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (InverseGaussianDistribution.fit (x), 1, {[1 2 3]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (InverseGaussianDistribution)
***** error <truncate: missing input argument.> ...
 truncate (InverseGaussianDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (InverseGaussianDistribution, 4, 2)
***** shared pd
 pd = InverseGaussianDistribution(1, 1);
 pd(2) = InverseGaussianDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
96 tests, 96 passed, 0 known failure, 0 skipped
[inst/dist_obj/BurrDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/BurrDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Burr type XII
 ## distribution with parameters alpha = 1, c = 2, and k = 1.  Fit a Burr type
 ## XII distribution to this data and plot a PDF of the fitted distribution
 ## superimposed on a histogram of the data

 pd = makedist ("Burr", "alpha", 1, "c", 2, "k", 1)
 rand ("seed", 21);
 data = random (pd, 5000, 1);
 pd = fitdist (data, "Burr")
 plot (pd)
 msg = strcat ("Fitted Burr type XII distribution with", ...
               " alpha = %0.2f, c =  %0.2f, and k = %0.2f");
 title (sprintf (msg, pd.alpha, pd.c, pd.k))
***** shared pd, t
 pd = BurrDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.5, 0.6667, 0.75, 0.8, 0.8333], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.625, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.6, 0.6667, 0.75, 0.8], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.625, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.25, 0.6667, 1.5, 4, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2609, 2.5714, 2.9474, 3.4118, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.6667, 1.5, 4, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.5714, 2.9474, 3.4118, 4, NaN], 1e-4);
***** assert (iqr (pd), 2.6667, 1e-4);
***** assert (iqr (t), 0.9524, 1e-4);
***** assert (mean (pd), Inf);
***** assert (mean (t), 2.8312, 1e-4);
***** assert (median (pd), 1, 1e-4);
***** assert (median (t), 2.75, 1e-4);
***** assert (pdf (pd, [0:5]), [1, 0.25, 0.1111, 0.0625, 0.04, 0.0278], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.8333, 0.4687, 0.3, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.25, 0.1111, 0.0625, 0.04, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 0.8333, 0.4687, 0.3, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), Inf);
***** assert (std (t), 0.5674, 1e-4);
***** assert (var (pd), Inf);
***** assert (var (t), 0.3220, 1e-4);
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution(0, 1, 1)
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution(-1, 1, 1)
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution(Inf, 1, 1)
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution(i, 1, 1)
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution("a", 1, 1)
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution([1, 2], 1, 1)
***** error <BurrDistribution: ALPHA must be a positive real scalar.> ...
 BurrDistribution(NaN, 1, 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, 0, 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, -1, 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, Inf, 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, i, 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, "a", 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, [1, 2], 1)
***** error <BurrDistribution: C must be a positive real scalar.> ...
 BurrDistribution(1, NaN, 1)
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, 0)
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, -1)
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, Inf)
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, i)
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, "a")
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, [1, 2])
***** error <BurrDistribution: K must be a positive real scalar.> ...
 BurrDistribution(1, 1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BurrDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BurrDistribution, 2, 3)
***** shared x
 rand ("seed", 4);
 x = burrrnd (1, 1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (BurrDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BurrDistribution.fit (x), "parameter", "c", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BurrDistribution.fit (x), "parameter", {"alpha", "c", "k", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"alpha", "c", "k", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (BurrDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (BurrDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BurrDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BurrDistribution.fit (x), "alpha", 0.01, "parameter", "c", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (BurrDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BurrDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (BurrDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BurrDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BurrDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BurrDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BurrDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BurrDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BurrDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (BurrDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (BurrDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (BurrDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BurrDistribution.fit (x), 4)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BurrDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BurrDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (BurrDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (BurrDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BurrDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BurrDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BurrDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (BurrDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (BurrDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (BurrDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BurrDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BurrDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (BurrDistribution)
***** error <truncate: missing input argument.> ...
 truncate (BurrDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (BurrDistribution, 4, 2)
***** shared pd
 pd = BurrDistribution(1, 1, 1);
 pd(2) = BurrDistribution(1, 3, 1);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
104 tests, 104 passed, 0 known failure, 0 skipped
[inst/dist_obj/BinomialDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/BinomialDistribution.m
***** shared pd, t, t_inf
 pd = BinomialDistribution (5, 0.5);
 t = truncate (pd, 2, 4);
 t_inf = truncate (pd, 2, Inf);
***** assert (cdf (pd, [0:5]), [0.0312, 0.1875, 0.5, 0.8125, 0.9688, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0.4, 0.8, 1, 1], 1e-4);
***** assert (cdf (t_inf, [0:5]), [0, 0, 0.3846, 0.7692, 0.9615, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.1875, 0.5, 0.8125, 0.9688, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0.4, 0.8, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 2, 2, 3, 3, 5], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2, 2, 3, 3, 4], 1e-4);
***** assert (icdf (t_inf, [0:0.2:1]), [2, 2, 3, 3, 4, 5], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 2, 3, 3, 5, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2, 3, 3, 4, NaN], 1e-4);
***** assert (iqr (pd), 1);
***** assert (iqr (t), 1);
***** assert (mean (pd), 2.5, 1e-10);
***** assert (mean (t), 2.8, 1e-10);
***** assert (mean (t_inf), 2.8846, 1e-4);
***** assert (median (pd), 2.5);
***** assert (median (t), 3);
***** assert (pdf (pd, [0:5]), [0.0312, 0.1562, 0.3125, 0.3125, 0.1562, 0.0312], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.4, 0.4, 0.2, 0], 1e-4);
***** assert (pdf (t_inf, [0:5]), [0, 0, 0.3846, 0.3846, 0.1923, 0.0385], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.1180, 1e-4);
***** assert (std (t), 0.7483, 1e-4);
***** assert (std (t_inf), 0.8470, 1e-4);
***** assert (var (pd), 1.2500, 1e-4);
***** assert (var (t), 0.5600, 1e-4);
***** assert (var (t_inf), 0.7175, 1e-4);
***** error <BinomialDistribution: N must be a positive integer scalar.> ...
 BinomialDistribution(Inf, 0.5)
***** error <BinomialDistribution: N must be a positive integer scalar.> ...
 BinomialDistribution(i, 0.5)
***** error <BinomialDistribution: N must be a positive integer scalar.> ...
 BinomialDistribution("a", 0.5)
***** error <BinomialDistribution: N must be a positive integer scalar.> ...
 BinomialDistribution([1, 2], 0.5)
***** error <BinomialDistribution: N must be a positive integer scalar.> ...
 BinomialDistribution(NaN, 0.5)
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, 1.01)
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, -0.01)
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, Inf)
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, i)
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, "a")
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, [1, 2])
***** error <BinomialDistribution: p must be a real scalar bounded in the range> ...
 BinomialDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BinomialDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BinomialDistribution, 2, 3)
***** shared x
 rand ("seed", 2);
 x = binornd (5, 0.5, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "parameter", "p", ...
          "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), ...
          "parameter", {"N", "p", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", 0.01, ...
          "parameter", {"N", "p", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (BinomialDistribution.fit (x, 6), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (BinomialDistribution.fit (x, 6), "parameter", "N")
***** error <paramci: unknown distribution parameter.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", 0.01, ...
          "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BinomialDistribution.fit (x, 6), "alpha", 0.01, ...
          "parameter", "p", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (BinomialDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BinomialDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (BinomialDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BinomialDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BinomialDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BinomialDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BinomialDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BinomialDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BinomialDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (BinomialDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (BinomialDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (BinomialDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BinomialDistribution.fit (x, 6), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BinomialDistribution.fit (x, 6), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BinomialDistribution.fit (x, 6), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BinomialDistribution.fit (x, 6), 2, {[1 2 3]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (BinomialDistribution)
***** error <truncate: missing input argument.> ...
 truncate (BinomialDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (BinomialDistribution, 4, 2)
***** shared pd
 pd = BinomialDistribution(1, 0.5);
 pd(2) = BinomialDistribution(1, 0.6);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
102 tests, 102 passed, 0 known failure, 0 skipped
[inst/dist_obj/TriangularDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/TriangularDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Triangular distribution
 ## with parameters A = 0, B = 1, C = 2. Fit a Triangular distribution to
 ## this data and plot a PDF of the fitted distribution superimposed on a
 ## histogram of the data.

 pd_fixed = makedist ("Triangular", "A", 0, "B", 1, "C", 2);
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 A = min (data);
 C = mean (data);
 B = max (data);

 [counts, centers] = hist (data, 50);
 bin_width = centers(2) - centers(1);
 normalized_counts = counts / (sum (counts) * bin_width);
 bar (centers, normalized_counts, 1);
 hold on;

 x = linspace (A, B, 100);
 y = (2 * (x - A) / (C - A) .* (x <= C)) + (2 * (B - x) / (B - C) .* (x > C));

 plot (x, y, 'r-', 'LineWidth', 2);

 msg = sprintf ("Fitted Triangular distribution with A = %0.2f, C = %0.2f, B = %0.2f", A, C, B);
 title (msg);

 hold off;
***** shared pd, t
 pd = TriangularDistribution (0, 3, 5);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.0667, 0.2667, 0.6000, 0.9000, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.5263, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.1500, 0.2667, 0.6, 0.9, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.5263, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 1.7321, 2.4495, 3, 3.5858, 5], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.4290, 2.7928, 3.1203, 3.4945, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4495, 3, 3.5858, 5, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.7928, 3.1203, 3.4945, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.4824, 1e-4);
***** assert (iqr (t), 0.8678, 1e-4);
***** assert (mean (pd), 2.6667, 1e-4);
***** assert (mean (t), 2.9649, 1e-4);
***** assert (median (pd), 2.7386, 1e-4);
***** assert (median (t), 2.9580, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.1333, 0.2667, 0.4, 0.2, 0], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.4211, 0.6316, 0.3158, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0.2, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.0274, 1e-4);
***** assert (std (t), 0.5369, 1e-4);
***** assert (var (pd), 1.0556, 1e-4);
***** assert (var (t), 0.2882, 1e-4);
***** error <TriangularDistribution: lower limit A must be a real scalar.> ...
 TriangularDistribution (i, 1, 2)
***** error <TriangularDistribution: lower limit A must be a real scalar.> ...
 TriangularDistribution (Inf, 1, 2)
***** error <TriangularDistribution: lower limit A must be a real scalar.> ...
 TriangularDistribution ([1, 2], 1, 2)
***** error <TriangularDistribution: lower limit A must be a real scalar.> ...
 TriangularDistribution ("a", 1, 2)
***** error <TriangularDistribution: lower limit A must be a real scalar.> ...
 TriangularDistribution (NaN, 1, 2)
***** error <TriangularDistribution: mode B must be a real scalar.> ...
 TriangularDistribution (1, i, 2)
***** error <TriangularDistribution: mode B must be a real scalar.> ...
 TriangularDistribution (1, Inf, 2)
***** error <TriangularDistribution: mode B must be a real scalar.> ...
 TriangularDistribution (1, [1, 2], 2)
***** error <TriangularDistribution: mode B must be a real scalar.> ...
 TriangularDistribution (1, "a", 2)
***** error <TriangularDistribution: mode B must be a real scalar.> ...
 TriangularDistribution (1, NaN, 2)
***** error <TriangularDistribution: upper limit C must be a real scalar.> ...
 TriangularDistribution (1, 2, i)
***** error <TriangularDistribution: upper limit C must be a real scalar.> ...
 TriangularDistribution (1, 2, Inf)
***** error <TriangularDistribution: upper limit C must be a real scalar.> ...
 TriangularDistribution (1, 2, [1, 2])
***** error <TriangularDistribution: upper limit C must be a real scalar.> ...
 TriangularDistribution (1, 2, "a")
***** error <TriangularDistribution: upper limit C must be a real scalar.> ...
 TriangularDistribution (1, 2, NaN)
***** error <TriangularDistribution: lower limit A must be less than upper limit C.> ...
 TriangularDistribution (1, 1, 1)
***** error <TriangularDistribution: mode B must be within lower limit A and upper limit C.> ...
 TriangularDistribution (1, 0.5, 2)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (TriangularDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (TriangularDistribution, 2, 3)
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (TriangularDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (TriangularDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (TriangularDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (TriangularDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (TriangularDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (TriangularDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (TriangularDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (TriangularDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (TriangularDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (TriangularDistribution, "invalidNAME", "pdf")
***** error <'probability' PlotType is not supported for 'TriangularDistribution'.> ...
 plot (TriangularDistribution, "PlotType", "probability")
***** error <truncate: missing input argument.> ...
 truncate (TriangularDistribution)
***** error <truncate: missing input argument.> ...
 truncate (TriangularDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (TriangularDistribution, 4, 2)
***** shared pd
 pd = TriangularDistribution (0, 1, 2);
 pd(2) = TriangularDistribution (0, 1, 2);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
69 tests, 69 passed, 0 known failure, 0 skipped
[inst/dist_obj/BirnbaumSaundersDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/BirnbaumSaundersDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Birnbaum-Saunders
 ## distribution with parameters β = 1 and γ = 0.5.  Fit a Birnbaum-Saunders
 ## distribution to this data and plot a PDF of the fitted distribution
 ## superimposed on a histogram of the data.

 pd_fixed = makedist ("BirnbaumSaunders", "beta", 1, "gamma", 0.5)
 randg ("seed", 21);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "BirnbaumSaunders")
 plot (pd_fitted)
 msg = "Fitted Birnbaum-Saunders distribution with beta = %0.2f and gamma = %0.2f";
 title (sprintf (msg, pd_fitted.beta, pd_fitted.gamma))
***** shared pd, t
 pd = BirnbaumSaundersDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.5, 0.7602, 0.8759, 0.9332, 0.9632], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.6687, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.6585, 0.7602, 0.8759, 0.9332, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.6687, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.4411, 0.7767, 1.2875, 2.2673, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2293, 2.5073, 2.8567, 3.3210, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.7767, 1.2875, 2.2673, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.5073, 2.8567, 3.3210, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.4236, 1e-4);
***** assert (iqr (t), 0.8968, 1e-4);
***** assert (mean (pd), 1.5, eps);
***** assert (mean (t), 2.7723, 1e-4);
***** assert (median (pd), 1, 1e-4);
***** assert (median (t), 2.6711, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.3989, 0.1648, 0.0788, 0.0405, 0.0216], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.9528, 0.4559, 0.2340, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0.2497, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.5, eps);
***** assert (std (t), 0.5528, 1e-4);
***** assert (var (pd), 2.25, eps);
***** assert (var (t), 0.3056, 1e-4);
***** error <BirnbaumSaundersDistribution: BETA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(0, 1)
***** error <BirnbaumSaundersDistribution: BETA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(Inf, 1)
***** error <BirnbaumSaundersDistribution: BETA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(i, 1)
***** error <BirnbaumSaundersDistribution: BETA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution("beta", 1)
***** error <BirnbaumSaundersDistribution: BETA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution([1, 2], 1)
***** error <BirnbaumSaundersDistribution: BETA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(NaN, 1)
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, 0)
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, -1)
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, Inf)
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, i)
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, "beta")
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, [1, 2])
***** error <BirnbaumSaundersDistribution: GAMMA must be a positive real scalar.> ...
 BirnbaumSaundersDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BirnbaumSaundersDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BirnbaumSaundersDistribution, 2, 3)
***** shared x
 rand ("seed", 5);
 x = bisarnd (1, 1, [100, 1]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "parameter", ...
          "beta", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), ...
          "parameter", {"beta", "gamma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"beta", "gamma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", 0.01, ...
          "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BirnbaumSaundersDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "beta", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (BirnbaumSaundersDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BirnbaumSaundersDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (BirnbaumSaundersDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BirnbaumSaundersDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BirnbaumSaundersDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BirnbaumSaundersDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BirnbaumSaundersDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BirnbaumSaundersDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BirnbaumSaundersDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (BirnbaumSaundersDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (BirnbaumSaundersDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (BirnbaumSaundersDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BirnbaumSaundersDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (BirnbaumSaundersDistribution)
***** error <truncate: missing input argument.> ...
 truncate (BirnbaumSaundersDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (BirnbaumSaundersDistribution, 4, 2)
***** shared pd
 pd = BirnbaumSaundersDistribution(1, 1);
 pd(2) = BirnbaumSaundersDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
96 tests, 96 passed, 0 known failure, 0 skipped
[inst/dist_obj/LogisticDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/LogisticDistribution.m
***** shared pd, t
 pd = LogisticDistribution (0, 1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0.5, 0.7311, 0.8808, 0.9526, 0.9820, 0.9933], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7091, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.8176, 0.8808, 0.9526, 0.9820], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.7091, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [-Inf, -1.3863, -0.4055, 0.4055, 1.3863, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2088, 2.4599, 2.7789, 3.2252, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, -0.4055, 0.4055, 1.3863, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4599, 2.7789, 3.2252, 4, NaN], 1e-4);
***** assert (iqr (pd), 2.1972, 1e-4);
***** assert (iqr (t), 0.8286, 1e-4);
***** assert (mean (pd), 0, 1e-4);
***** assert (mean (t), 2.7193, 1e-4);
***** assert (median (pd), 0);
***** assert (median (t), 2.6085, 1e-4);
***** assert (pdf (pd, [0:5]), [0.25, 0.1966, 0.1050, 0.0452, 0.0177, 0.0066], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.0373, 0.4463, 0.1745, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0.1966, 0.1966, 0.1050, 0.0452, 0.0177, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 1.0373, 0.4463, 0.1745, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.8138, 1e-4);
***** assert (std (t), 0.5320, 1e-4);
***** assert (var (pd), 3.2899, 1e-4);
***** assert (var (t), 0.2830, 1e-4);
***** error <LogisticDistribution: MU must be a finite real scalar.> ...
 LogisticDistribution(Inf, 1)
***** error <LogisticDistribution: MU must be a finite real scalar.> ...
 LogisticDistribution(i, 1)
***** error <LogisticDistribution: MU must be a finite real scalar.> ...
 LogisticDistribution("a", 1)
***** error <LogisticDistribution: MU must be a finite real scalar.> ...
 LogisticDistribution([1, 2], 1)
***** error <LogisticDistribution: MU must be a finite real scalar.> ...
 LogisticDistribution(NaN, 1)
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, 0)
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, -1)
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, Inf)
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, i)
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, "a")
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, [1, 2])
***** error <LogisticDistribution: SIGMA must be a positive real scalar.> ...
 LogisticDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LogisticDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LogisticDistribution, 2, 3)
***** shared x
 x = logirnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (LogisticDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LogisticDistribution.fit (x), "parameter", "mu", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (LogisticDistribution.fit (x), "parameter", {"mu", "sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (LogisticDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (LogisticDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LogisticDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LogisticDistribution.fit (x), "alpha", 0.01, "parameter", "mu", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (LogisticDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LogisticDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (LogisticDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LogisticDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LogisticDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LogisticDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LogisticDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LogisticDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LogisticDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (LogisticDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (LogisticDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (LogisticDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LogisticDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LogisticDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LogisticDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (LogisticDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (LogisticDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LogisticDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LogisticDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LogisticDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (LogisticDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (LogisticDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (LogisticDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (LogisticDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (LogisticDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (LogisticDistribution)
***** error <truncate: missing input argument.> ...
 truncate (LogisticDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (LogisticDistribution, 4, 2)
***** shared pd
 pd = LogisticDistribution(1, 1);
 pd(2) = LogisticDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
95 tests, 95 passed, 0 known failure, 0 skipped
[inst/dist_obj/PoissonDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/PoissonDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Poisson distribution with
 ## parameter lambda = 5.  Fit a Poisson distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Poisson", "lambda", 5)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Poisson")
 plot (pd_fitted)
 msg = "Fitted Poisson distribution with lambda = %0.2f";
 title (sprintf (msg, pd_fitted.lambda))
***** shared pd, t, t_inf
 pd = PoissonDistribution;
 t = truncate (pd, 2, 4);
 t_inf = truncate (pd, 2, Inf);
***** assert (cdf (pd, [0:5]), [0.3679, 0.7358, 0.9197, 0.9810, 0.9963, 0.9994], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0.7059, 0.9412, 1, 1], 1e-4);
***** assert (cdf (t_inf, [0:5]), [0, 0, 0.6961, 0.9281, 0.9861, 0.9978], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.7358, 0.9197, 0.9810, 0.9963], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0.7059, 0.9412, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0, 1, 1, 2, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2, 2, 2, 3, 4], 1e-4);
***** assert (icdf (t_inf, [0:0.2:1]), [2, 2, 2, 2, 3, Inf], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 1, 1, 2, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2, 2, 3, 4, NaN], 1e-4);
***** assert (iqr (pd), 2);
***** assert (iqr (t), 1);
***** assert (mean (pd), 1);
***** assert (mean (t), 2.3529, 1e-4);
***** assert (mean (t_inf), 2.3922, 1e-4);
***** assert (median (pd), 1);
***** assert (median (t), 2);
***** assert (median (t_inf), 2);
***** assert (pdf (pd, [0:5]), [0.3679, 0.3679, 0.1839, 0.0613, 0.0153, 0.0031], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.7059, 0.2353, 0.0588, 0], 1e-4);
***** assert (pdf (t_inf, [0:5]), [0, 0, 0.6961, 0.2320, 0.0580, 0.0116], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.3679, 0.1839, 0.0613, 0.0153, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 0.7059, 0.2353, 0.0588, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1);
***** assert (std (t), 0.5882, 1e-4);
***** assert (std (t_inf), 0.6738, 1e-4);
***** assert (var (pd), 1);
***** assert (var (t), 0.3460, 1e-4);
***** assert (var (t_inf), 0.4540, 1e-4);
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution(0)
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution(-1)
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution(Inf)
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution(i)
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution("a")
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution([1, 2])
***** error <PoissonDistribution: LAMBDA must be a positive real scalar.> ...
 PoissonDistribution(NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (PoissonDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (PoissonDistribution, 2, 3)
***** shared x
 x = poissrnd (1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (PoissonDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (PoissonDistribution.fit (x), "parameter", "lambda", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (PoissonDistribution.fit (x), "parameter", {"lambda", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"lambda", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (PoissonDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (PoissonDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (PoissonDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (PoissonDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "lambda", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (PoissonDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (PoissonDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (PoissonDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (PoissonDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (PoissonDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (PoissonDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (PoissonDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (PoissonDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (PoissonDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (PoissonDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (PoissonDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (PoissonDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (PoissonDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (PoissonDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (PoissonDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (PoissonDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (PoissonDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (PoissonDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (PoissonDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (PoissonDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (PoissonDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (PoissonDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (PoissonDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (PoissonDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (PoissonDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (PoissonDistribution)
***** error <truncate: missing input argument.> ...
 truncate (PoissonDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (PoissonDistribution, 4, 2)
***** shared pd
 pd = PoissonDistribution(1);
 pd(2) = PoissonDistribution(3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
97 tests, 97 passed, 0 known failure, 0 skipped
[inst/dist_obj/RayleighDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/RayleighDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Rayleigh distribution with
 ## parameter sigma = 2.  Fit a Rayleigh distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Rayleigh", "sigma", 2)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Rayleigh")
 plot (pd_fitted)
 msg = "Fitted Rayleigh distribution with sigma = %0.2f";
 title (sprintf (msg, pd_fitted.sigma))
***** shared pd, t
 pd = RayleighDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.3935, 0.8647, 0.9889, 0.9997, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.9202, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.6753, 0.8647, 0.9889, 0.9997, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.9202, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.6680, 1.0108, 1.3537, 1.7941, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1083, 2.2402, 2.4135, 2.6831, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 1.0108, 1.3537, 1.7941, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.2402, 2.4135, 2.6831, 4, NaN], 1e-4);
***** assert (iqr (pd), 0.9066, 1e-4);
***** assert (iqr (t), 0.4609, 1e-4);
***** assert (mean (pd), 1.2533, 1e-4);
***** assert (mean (t), 2.4169, 1e-4);
***** assert (median (pd), 1.1774, 1e-4);
***** assert (median (t), 2.3198, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.6065, 0.2707, 0.0333, 0.0013, 0], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 2.0050, 0.2469, 0.0099, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0.4870, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 0.6551, 1e-4);
***** assert (std (t), 0.3591, 1e-4);
***** assert (var (pd), 0.4292, 1e-4);
***** assert (var (t), 0.1290, 1e-4);
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution(0)
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution(-1)
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution(Inf)
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution(i)
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution("a")
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution([1, 2])
***** error <RayleighDistribution: SIGMA must be a positive real scalar.> ...
 RayleighDistribution(NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (RayleighDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (RayleighDistribution, 2, 3)
***** shared x
 x = raylrnd (1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (RayleighDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RayleighDistribution.fit (x), "parameter", "sigma", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (RayleighDistribution.fit (x), "parameter", {"sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (RayleighDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (RayleighDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (RayleighDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (RayleighDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "sigma", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (RayleighDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (RayleighDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (RayleighDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (RayleighDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (RayleighDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (RayleighDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (RayleighDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (RayleighDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (RayleighDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (RayleighDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (RayleighDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (RayleighDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (RayleighDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (RayleighDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (RayleighDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (RayleighDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (RayleighDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (RayleighDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (RayleighDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (RayleighDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (RayleighDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (RayleighDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (RayleighDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (RayleighDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (RayleighDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (RayleighDistribution)
***** error <truncate: missing input argument.> ...
 truncate (RayleighDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (RayleighDistribution, 4, 2)
***** shared pd
 pd = RayleighDistribution(1);
 pd(2) = RayleighDistribution(3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
90 tests, 90 passed, 0 known failure, 0 skipped
[inst/dist_obj/RicianDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/RicianDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Rician distribution with
 ## parameters s = 2 and sigma = 1. Fit a Rician distribution to this data and
 ## plot a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Rician", "s", 2, "sigma", 1)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Rician")
 plot (pd_fitted)
 msg = "Fitted Rician distribution with s = %0.2f and sigma = %0.2f";
 title (sprintf (msg, pd_fitted.s, pd_fitted.sigma))
***** shared pd, t
 pd = RicianDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.2671, 0.7310, 0.9563, 0.9971, 0.9999], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.8466, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.5120, 0.7310, 0.9563, 0.9971, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.8466, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.8501, 1.2736, 1.6863, 2.2011, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1517, 2.3296, 2.5545, 2.8868, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 1.2736, 1.6863, 2.2011, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.3296, 2.5545, 2.8868, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.0890, 1e-4);
***** assert (iqr (t), 0.5928, 1e-4);
***** assert (mean (pd), 1.5486, 1e-4);
***** assert (mean (t), 2.5380, 1e-4);
***** assert (median (pd), 1.4755, 1e-4);
***** assert (median (t), 2.4341, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.4658, 0.3742, 0.0987, 0.0092, 0.0003], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.4063, 0.3707, 0.0346, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0.4864, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 0.7758, 1e-4);
***** assert (std (t), 0.4294, 1e-4);
***** assert (var (pd), 0.6019, 1e-4);
***** assert (var (t), 0.1844, 1e-4);
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution(-eps, 1)
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution(-1, 1)
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution(Inf, 1)
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution(i, 1)
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution("a", 1)
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution([1, 2], 1)
***** error <RicianDistribution: S must be a non-negative real scalar.> ...
 RicianDistribution(NaN, 1)
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, 0)
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, -1)
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, Inf)
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, i)
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, "a")
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, [1, 2])
***** error <RicianDistribution: SIGMA must be a positive real scalar.> ...
 RicianDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (RicianDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (RicianDistribution, 2, 3)
***** shared x
 x = gevrnd (1, 1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (RicianDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (RicianDistribution.fit (x), "parameter", "s", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (RicianDistribution.fit (x), "parameter", {"s", "sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"s", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (RicianDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (RicianDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (RicianDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (RicianDistribution.fit (x), "alpha", 0.01, "parameter", "s", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (RicianDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (RicianDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (RicianDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (RicianDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (RicianDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (RicianDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (RicianDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (RicianDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (RicianDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (RicianDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (RicianDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (RicianDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (RicianDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (RicianDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (RicianDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (RicianDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (RicianDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (RicianDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (RicianDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (RicianDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (RicianDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (RicianDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (RicianDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (RicianDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (RicianDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (RicianDistribution)
***** error <truncate: missing input argument.> ...
 truncate (RicianDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (RicianDistribution, 4, 2)
***** shared pd
 pd = RicianDistribution(1, 1);
 pd(2) = RicianDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
97 tests, 97 passed, 0 known failure, 0 skipped
[inst/dist_obj/GeneralizedExtremeValueDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/GeneralizedExtremeValueDistribution.m
***** shared pd, t
 pd = GeneralizedExtremeValueDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0.3679, 0.6922, 0.8734, 0.9514, 0.9819, 0.9933], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7195, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.8, 0.8734, 0.9514, 0.9819], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.7195, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [-Inf, -0.4759, 0.0874, 0.6717, 1.4999, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1999, 2.4433, 2.7568, 3.2028, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.0874, 0.6717, 1.4999, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4433, 2.7568, 3.2028, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.5725, 1e-4);
***** assert (iqr (t), 0.8164, 1e-4);
***** assert (mean (pd), 0.5772, 1e-4);
***** assert (mean (t), 2.7043, 1e-4);
***** assert (median (pd), 0.3665, 1e-4);
***** assert (median (t), 2.5887, 1e-4);
***** assert (pdf (pd, [0:5]), [0.3679, 0.2546, 0.1182, 0.0474, 0.0180, 0.0067], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.0902, 0.4369, 0.1659, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0.1794, 0.2546, 0.1182, 0.0474, 0.0180, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 1.0902, 0.4369, 0.1659, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.2825, 1e-4);
***** assert (std (t), 0.5289, 1e-4);
***** assert (var (pd), 1.6449, 1e-4);
***** assert (var (t), 0.2798, 1e-4);
***** error <GeneralizedExtremeValueDistribution: K must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(Inf, 1, 1)
***** error <GeneralizedExtremeValueDistribution: K must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(i, 1, 1)
***** error <GeneralizedExtremeValueDistribution: K must be a real scalar.> ...
 GeneralizedExtremeValueDistribution("a", 1, 1)
***** error <GeneralizedExtremeValueDistribution: K must be a real scalar.> ...
 GeneralizedExtremeValueDistribution([1, 2], 1, 1)
***** error <GeneralizedExtremeValueDistribution: K must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(NaN, 1, 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, 0, 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, -1, 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, Inf, 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, i, 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, "a", 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, [1, 2], 1)
***** error <GeneralizedExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 GeneralizedExtremeValueDistribution(1, NaN, 1)
***** error <GeneralizedExtremeValueDistribution: MU must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(1, 1, Inf)
***** error <GeneralizedExtremeValueDistribution: MU must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(1, 1, i)
***** error <GeneralizedExtremeValueDistribution: MU must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(1, 1, "a")
***** error <GeneralizedExtremeValueDistribution: MU must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(1, 1, [1, 2])
***** error <GeneralizedExtremeValueDistribution: MU must be a real scalar.> ...
 GeneralizedExtremeValueDistribution(1, 1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (GeneralizedExtremeValueDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (GeneralizedExtremeValueDistribution, 2, 3)
***** shared x
 x = gevrnd (1, 1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), ...
          "parameter", "sigma", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), ...
          "parameter", {"k", "sigma", "mu", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"k", "sigma", "mu", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (GeneralizedExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "sigma", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (GeneralizedExtremeValueDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (GeneralizedExtremeValueDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (GeneralizedExtremeValueDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (GeneralizedExtremeValueDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (GeneralizedExtremeValueDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 4)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, ...
          "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (GeneralizedExtremeValueDistribution.fit (x), 1, {[1 2 3 4]}, ...
          "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (GeneralizedExtremeValueDistribution)
***** error <truncate: missing input argument.> ...
 truncate (GeneralizedExtremeValueDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (GeneralizedExtremeValueDistribution, 4, 2)
***** shared pd
 pd = GeneralizedExtremeValueDistribution(1, 1, 1);
 pd(2) = GeneralizedExtremeValueDistribution(1, 3, 1);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
100 tests, 100 passed, 0 known failure, 0 skipped
[inst/dist_obj/WeibullDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/WeibullDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Weibull distribution with
 ## parameters lambda = 1 and k = 2.  Fit a Weibull distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of a data.

 pd_fixed = makedist ("Weibull", "lambda", 1, "k", 2)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Weibull")
 plot (pd_fitted)
 msg = "Fitted Weibull distribution with lambda = %0.2f and k = %0.2f";
 title (sprintf (msg, pd_fitted.lambda, pd_fitted.k))
***** shared pd, t
 pd = WeibullDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.6321, 0.8647, 0.9502, 0.9817, 0.9933], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7311, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.7769, 0.8647, 0.9502, 0.9817, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.7311, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.2231, 0.5108, 0.9163, 1.6094, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1899, 2.4244, 2.7315, 3.1768, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.5108, 0.9163, 1.6094, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4244, 2.7315, 3.1768, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.0986, 1e-4);
***** assert (iqr (t), 0.8020, 1e-4);
***** assert (mean (pd), 1, 1e-14);
***** assert (mean (t), 2.6870, 1e-4);
***** assert (median (pd), 0.6931, 1e-4);
***** assert (median (t), 2.5662, 1e-4);
***** assert (pdf (pd, [0:5]), [1, 0.3679, 0.1353, 0.0498, 0.0183, 0.0067], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.1565, 0.4255, 0.1565, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0, 0.2231, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1, 1e-14);
***** assert (std (t), 0.5253, 1e-4);
***** assert (var (pd), 1, 1e-14);
***** assert (var (t), 0.2759, 1e-4);
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution(0, 1)
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution(-1, 1)
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution(Inf, 1)
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution(i, 1)
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution("a", 1)
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution([1, 2], 1)
***** error <WeibullDistribution: LAMBDA must be a positive real scalar.> ...
 WeibullDistribution(NaN, 1)
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, 0)
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, -1)
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, Inf)
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, i)
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, "a")
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, [1, 2])
***** error <WeibullDistribution: K must be a positive real scalar.> ...
 WeibullDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (WeibullDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (WeibullDistribution, 2, 3)
***** shared x
 x = wblrnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (WeibullDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (WeibullDistribution.fit (x), "parameter", "k", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (WeibullDistribution.fit (x), "parameter", {"lambda", "k", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"lambda", "k", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (WeibullDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (WeibullDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (WeibullDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (WeibullDistribution.fit (x), "alpha", 0.01, "parameter", "k", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (WeibullDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (WeibullDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (WeibullDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (WeibullDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (WeibullDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (WeibullDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (WeibullDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (WeibullDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (WeibullDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (WeibullDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (WeibullDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (WeibullDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (WeibullDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (WeibullDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (WeibullDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (WeibullDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (WeibullDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (WeibullDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (WeibullDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (WeibullDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (WeibullDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (WeibullDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (WeibullDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (WeibullDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (WeibullDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (WeibullDistribution)
***** error <truncate: missing input argument.> ...
 truncate (WeibullDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (WeibullDistribution, 4, 2)
***** shared pd
 pd = WeibullDistribution(1, 1);
 pd(2) = WeibullDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
97 tests, 97 passed, 0 known failure, 0 skipped
[inst/dist_obj/LoglogisticDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/LoglogisticDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Log-logistic
 ## distribution with parameters mu = 0 and sigma = 1.  Fit a Log-logistic
 ## distribution to this data and plot a PDF of the fitted distribution
 ## superimposed on a histogram of the data.

 pd_fixed = makedist ("Loglogistic", "mu", 0, "sigma", 1)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Loglogistic")
 plot (pd_fitted)
 msg = "Fitted Log-logistic distribution with mu = %0.2f and sigma = %0.2f";
 title (sprintf (msg, pd_fitted.mu, pd_fitted.sigma))
***** shared pd, t
 pd = LoglogisticDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.5, 0.6667, 0.75, 0.8, 0.8333], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.625, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.6, 0.6667, 0.75, 0.8], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.625, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.25, 0.6667, 1.5, 4, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2609, 2.5714, 2.9474, 3.4118, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.6667, 1.5, 4, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.5714, 2.9474, 3.4118, 4, NaN], 1e-4);
***** assert (iqr (pd), 2.6667, 1e-4);
***** assert (iqr (t), 0.9524, 1e-4);
***** assert (mean (pd), Inf);
***** assert (mean (t), 2.8312, 1e-4);
***** assert (median (pd), 1, 1e-4);
***** assert (median (t), 2.75, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.25, 0.1111, 0.0625, 0.04, 0.0278], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.8333, 0.4687, 0.3, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.25, 0.1111, 0.0625, 0.04, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 0.8333, 0.4687, 0.3, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), Inf);
***** assert (std (t), 0.5674, 1e-4);
***** assert (var (pd), Inf);
***** assert (var (t), 0.3220, 1e-4);
***** error <LoglogisticDistribution: MU must be a nonnegative real scalar.> ...
 LoglogisticDistribution(Inf, 1)
***** error <LoglogisticDistribution: MU must be a nonnegative real scalar.> ...
 LoglogisticDistribution(i, 1)
***** error <LoglogisticDistribution: MU must be a nonnegative real scalar.> ...
 LoglogisticDistribution("a", 1)
***** error <LoglogisticDistribution: MU must be a nonnegative real scalar.> ...
 LoglogisticDistribution([1, 2], 1)
***** error <LoglogisticDistribution: MU must be a nonnegative real scalar.> ...
 LoglogisticDistribution(NaN, 1)
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, 0)
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, -1)
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, Inf)
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, i)
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, "a")
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, [1, 2])
***** error <LoglogisticDistribution: SIGMA must be a positive real scalar.> ...
 LoglogisticDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LoglogisticDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LoglogisticDistribution, 2, 3)
***** shared x
 x = loglrnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "parameter", "mu", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "parameter", {"mu", "sigma", "pa"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (LoglogisticDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", 0.01, "parameter", "parm")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LoglogisticDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (LoglogisticDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "mu", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (LoglogisticDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LoglogisticDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (LoglogisticDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LoglogisticDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LoglogisticDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LoglogisticDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LoglogisticDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LoglogisticDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LoglogisticDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (LoglogisticDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (LoglogisticDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (LoglogisticDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LoglogisticDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LoglogisticDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (LoglogisticDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (LoglogisticDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (LoglogisticDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (LoglogisticDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (LoglogisticDistribution)
***** error <truncate: missing input argument.> ...
 truncate (LoglogisticDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (LoglogisticDistribution, 4, 2)
***** shared pd
 pd = LoglogisticDistribution(1, 1);
 pd(2) = LoglogisticDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
95 tests, 95 passed, 0 known failure, 0 skipped
[inst/dist_obj/BetaDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/BetaDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Beta distribution with
 ## parameters a = 2 and b = 5.  Fit a Beta distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Beta", "a", 2, "b", 5)
 randg ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Beta")
 plot (pd_fitted)
 msg = "Fitted Beta distribution with a = %0.2f and b = %0.2f";
 title (sprintf (msg, pd_fitted.a, pd_fitted.b))
***** shared pd, t
 pd = BetaDistribution;
 t = truncate (pd, 0.2, 0.8);
***** assert (cdf (pd, [0:0.2:1]), [0, 0.2, 0.4, 0.6, 0.8, 1], 1e-4);
***** assert (cdf (t, [0:0.2:1]), [0, 0, 0.3333, 0.6667, 1, 1], 1e-4);
***** assert (cdf (pd, [-1, 1, NaN]), [0, 1, NaN], 1e-4);
***** assert (cdf (t, [-1, 1, NaN]), [0, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.2, 0.4, 0.6, 0.8, 1], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [0.2, 0.32, 0.44, 0.56, 0.68, 0.8], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.4, 0.6, 0.8, 1, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 0.44, 0.56, 0.68, 0.8, NaN], 1e-4);
***** assert (iqr (pd), 0.5, 1e-4);
***** assert (iqr (t), 0.3, 1e-4);
***** assert (mean (pd), 0.5);
***** assert (mean (t), 0.5, 1e-6);
***** assert (median (pd), 0.5);
***** assert (median (t), 0.5, 1e-6);
***** assert (pdf (pd, [0:0.2:1]), [1, 1, 1, 1, 1, 1], 1e-4);
***** assert (pdf (t, [0:0.2:1]), [0, 1.6667, 1.6667, 1.6667, 1.6667, 0], 1e-4);
***** assert (pdf (pd, [-1, 1, NaN]), [0, 1, NaN], 1e-4);
***** assert (pdf (t, [-1, 1, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 0.2), false);
***** assert (any (random (t, 1000, 1) > 0.8), false);
***** assert (std (pd), 0.2887, 1e-4);
***** assert (std (t), 0.1732, 1e-4);
***** assert (var (pd), 0.0833, 1e-4);
***** assert (var (t), 0.0300, 1e-4);
***** error <BetaDistribution: A must be a positive real scalar.> ...
 BetaDistribution(0, 1)
***** error <BetaDistribution: A must be a positive real scalar.> ...
 BetaDistribution(Inf, 1)
***** error <BetaDistribution: A must be a positive real scalar.> ...
 BetaDistribution(i, 1)
***** error <BetaDistribution: A must be a positive real scalar.> ...
 BetaDistribution("a", 1)
***** error <BetaDistribution: A must be a positive real scalar.> ...
 BetaDistribution([1, 2], 1)
***** error <BetaDistribution: A must be a positive real scalar.> ...
 BetaDistribution(NaN, 1)
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, 0)
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, -1)
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, Inf)
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, i)
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, "a")
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, [1, 2])
***** error <BetaDistribution: B must be a positive real scalar.> ...
 BetaDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BetaDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (BetaDistribution, 2, 3)
***** shared x
 randg ("seed", 1);
 x = betarnd (1, 1, [100, 1]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (BetaDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (BetaDistribution.fit (x), "parameter", "a", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BetaDistribution.fit (x), "parameter", {"a", "b", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"a", "b", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (BetaDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (BetaDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BetaDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (BetaDistribution.fit (x), "alpha", 0.01, "parameter", "a", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (BetaDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BetaDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (BetaDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (BetaDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BetaDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BetaDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (BetaDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BetaDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (BetaDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (BetaDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (BetaDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (BetaDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BetaDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BetaDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (BetaDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (BetaDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (BetaDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BetaDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BetaDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (BetaDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (BetaDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (BetaDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (BetaDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BetaDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (BetaDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (BetaDistribution)
***** error <truncate: missing input argument.> ...
 truncate (BetaDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (BetaDistribution, 4, 2)
***** shared pd
 pd = BetaDistribution(1, 1);
 pd(2) = BetaDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
96 tests, 96 passed, 0 known failure, 0 skipped
[inst/dist_obj/ExponentialDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/ExponentialDistribution.m
***** shared pd, t
 pd = ExponentialDistribution (1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.6321, 0.8647, 0.9502, 0.9817, 0.9933], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7311, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.7769, 0.8647, 0.9502, 0.9817], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.7311, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.2231, 0.5108, 0.9163, 1.6094, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1899, 2.4244, 2.7315, 3.1768, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.5108, 0.9163, 1.6094, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.4244, 2.7315, 3.1768, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.0986, 1e-4);
***** assert (iqr (t), 0.8020, 1e-4);
***** assert (mean (pd), 1);
***** assert (mean (t), 2.6870, 1e-4);
***** assert (median (pd), 0.6931, 1e-4);
***** assert (median (t), 2.5662, 1e-4);
***** assert (pdf (pd, [0:5]), [1, 0.3679, 0.1353, 0.0498, 0.0183, 0.0067], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.1565, 0.4255, 0.1565, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.3679, 0.1353, 0.0498, 0.0183, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 1.1565, 0.4255, 0.1565, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1);
***** assert (std (t), 0.5253, 1e-4);
***** assert (var (pd), 1);
***** assert (var (t), 0.2759, 1e-4);
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution(0)
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution(-1)
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution(Inf)
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution(i)
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution("a")
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution([1, 2])
***** error <ExponentialDistribution: MU must be a positive real scalar.> ...
 ExponentialDistribution(NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (ExponentialDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (ExponentialDistribution, 2, 3)
***** shared x
 x = exprnd (1, [100, 1]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (ExponentialDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExponentialDistribution.fit (x), "parameter", "mu", ...
          "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (ExponentialDistribution.fit (x), "parameter", {"mu", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (ExponentialDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", 0.01, "parameter", "parm")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (ExponentialDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (ExponentialDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "mu", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (ExponentialDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (ExponentialDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (ExponentialDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (ExponentialDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (ExponentialDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (ExponentialDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (ExponentialDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (ExponentialDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (ExponentialDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (ExponentialDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (ExponentialDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (ExponentialDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (ExponentialDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (ExponentialDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (ExponentialDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (ExponentialDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (ExponentialDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (ExponentialDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (ExponentialDistribution)
***** error <truncate: missing input argument.> ...
 truncate (ExponentialDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (ExponentialDistribution, 4, 2)
***** shared pd
 pd = ExponentialDistribution(1);
 pd(2) = ExponentialDistribution(3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
90 tests, 90 passed, 0 known failure, 0 skipped
[inst/dist_obj/NormalDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/NormalDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Normal distribution with
 ## parameters mu = 0 and sigma = 1.  Fit a Normal distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Normal", "mu", 0, "sigma", 1)
 randn ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Normal")
 plot (pd_fitted)
 msg = "Fitted Normal distribution with mu = %0.2f and sigma = %0.2f";
 title (sprintf (msg, pd_fitted.mu, pd_fitted.sigma))
***** shared pd, t
 pd = NormalDistribution;
 t = truncate (pd, -2, 2);
***** assert (cdf (pd, [0:5]), [0.5, 0.8413, 0.9772, 0.9987, 1, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0.5, 0.8576, 1, 1, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.9332, 0.9772, 0.9987, 1], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0.9538, 1, 1, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [-Inf, -0.8416, -0.2533, 0.2533, 0.8416, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [-2, -0.7938, -0.2416, 0.2416, 0.7938, 2], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, -0.2533, 0.2533, 0.8416, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, -0.2416, 0.2416, 0.7938, 2, NaN], 1e-4);
***** assert (iqr (pd), 1.3490, 1e-4);
***** assert (iqr (t), 1.2782, 1e-4);
***** assert (mean (pd), 0);
***** assert (mean (t), 0, 3e-16);
***** assert (median (pd), 0);
***** assert (median (t), 0, 3e-16);
***** assert (pdf (pd, [0:5]), [0.3989, 0.2420, 0.0540, 0.0044, 0.0001, 0], 1e-4);
***** assert (pdf (t, [0:5]), [0.4180, 0.2535, 0.0566, 0, 0, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0.2420, 0.2420, 0.0540, 0.0044, 0.0001, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0.2535, 0.2535, 0.0566, 0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < -2), false);
***** assert (any (random (t, 1000, 1) > 2), false);
***** assert (std (pd), 1);
***** assert (std (t), 0.8796, 1e-4);
***** assert (var (pd), 1);
***** assert (var (t), 0.7737, 1e-4);
***** error <NormalDistribution: MU must be a real scalar.> ...
 NormalDistribution(Inf, 1)
***** error <NormalDistribution: MU must be a real scalar.> ...
 NormalDistribution(i, 1)
***** error <NormalDistribution: MU must be a real scalar.> ...
 NormalDistribution("a", 1)
***** error <NormalDistribution: MU must be a real scalar.> ...
 NormalDistribution([1, 2], 1)
***** error <NormalDistribution: MU must be a real scalar.> ...
 NormalDistribution(NaN, 1)
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, 0)
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, -1)
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, Inf)
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, i)
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, "a")
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, [1, 2])
***** error <NormalDistribution: SIGMA must be a positive real scalar.> ...
 NormalDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (NormalDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (NormalDistribution, 2, 3)
***** shared x
 x = normrnd (1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (NormalDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NormalDistribution.fit (x), "parameter", "mu", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (NormalDistribution.fit (x), "parameter", {"mu", "sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (NormalDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (NormalDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NormalDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NormalDistribution.fit (x), "alpha", 0.01, "parameter", "mu", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (NormalDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (NormalDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (NormalDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (NormalDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NormalDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NormalDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NormalDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (NormalDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (NormalDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (NormalDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (NormalDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (NormalDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NormalDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NormalDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NormalDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (NormalDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (NormalDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NormalDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NormalDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NormalDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (NormalDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (NormalDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (NormalDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (NormalDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (NormalDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (NormalDistribution)
***** error <truncate: missing input argument.> ...
 truncate (NormalDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (NormalDistribution, 4, 2)
***** shared pd
 pd = NormalDistribution(1, 1);
 pd(2) = NormalDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
95 tests, 95 passed, 0 known failure, 0 skipped
[inst/dist_obj/ExtremeValueDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/ExtremeValueDistribution.m
***** shared pd, t
 pd = ExtremeValueDistribution (0, 1);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0.6321, 0.9340, 0.9994, 1, 1, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 1, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.9887, 0.9994, 1, 1], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 1, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [-Inf, -1.4999, -0.6717, -0.0874, 0.4759, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.0298, 2.0668, 2.1169, 2.1971, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, -0.6717, -0.0874, 0.4759, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.0668, 2.1169, 2.1971, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.5725, 1e-4);
***** assert (iqr (t), 0.1338, 1e-4);
***** assert (mean (pd), -0.5772, 1e-4);
***** assert (mean (t), 2.1206, 1e-4);
***** assert (median (pd), -0.3665, 1e-4);
***** assert (median (t), 2.0897, 1e-4);
***** assert (pdf (pd, [0:5]), [0.3679, 0.1794, 0.0046, 0, 0, 0], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 7.3891, 0.0001, 0, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0.2546, 0.1794, 0.0046, 0, 0, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 7.3891, 0.0001, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.2825, 1e-4);
***** assert (std (t), 0.1091, 1e-4);
***** assert (var (pd), 1.6449, 1e-4);
***** assert (var (t), 0.0119, 1e-4);
***** error <ExtremeValueDistribution: MU must be a real scalar.> ...
 ExtremeValueDistribution(Inf, 1)
***** error <ExtremeValueDistribution: MU must be a real scalar.> ...
 ExtremeValueDistribution(i, 1)
***** error <ExtremeValueDistribution: MU must be a real scalar.> ...
 ExtremeValueDistribution("a", 1)
***** error <ExtremeValueDistribution: MU must be a real scalar.> ...
 ExtremeValueDistribution([1, 2], 1)
***** error <ExtremeValueDistribution: MU must be a real scalar.> ...
 ExtremeValueDistribution(NaN, 1)
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, 0)
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, -1)
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, Inf)
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, i)
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, "a")
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, [1, 2])
***** error <ExtremeValueDistribution: SIGMA must be a positive real scalar.> ...
 ExtremeValueDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (ExtremeValueDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (ExtremeValueDistribution, 2, 3)
***** shared x
 rand ("seed", 1);
 x = evrnd (1, 1, [1000, 1]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), ...
          "parameter", "mu", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (ExtremeValueDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (ExtremeValueDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "mu", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (ExtremeValueDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (ExtremeValueDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (ExtremeValueDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (ExtremeValueDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (ExtremeValueDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (ExtremeValueDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (ExtremeValueDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (ExtremeValueDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (ExtremeValueDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (ExtremeValueDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (ExtremeValueDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (ExtremeValueDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (ExtremeValueDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (ExtremeValueDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (ExtremeValueDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (ExtremeValueDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (ExtremeValueDistribution)
***** error <truncate: missing input argument.> ...
 truncate (ExtremeValueDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (ExtremeValueDistribution, 4, 2)
***** shared pd
 pd = ExtremeValueDistribution(1, 1);
 pd(2) = ExtremeValueDistribution(1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
95 tests, 95 passed, 0 known failure, 0 skipped
[inst/dist_obj/LoguniformDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/LoguniformDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Log-uniform distribution with
 ## parameters Lower = 1 and Upper = 10.  Plot a PDF of the distribution superimposed
 ## on a histogram of the data.

 pd_fixed = makedist ("Loguniform", "Lower", 1, "Upper", 10);
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 plot (pd_fixed)
 hold on
 hist (data, 50)
 hold off
 msg = "Log-uniform distribution with Lower = %0.2f and Upper = %0.2f";
 title (sprintf (msg, pd_fixed.Lower, pd_fixed.Upper))
***** shared pd, t
 pd = LoguniformDistribution (1, 4);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0, 1, 2, 3, 4, 5]), [0, 0, 0.5, 0.7925, 1, 1], 1e-4);
***** assert (cdf (t, [0, 1, 2, 3, 4, 5]), [0, 0, 0, 0.5850, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.2925, 0.5, 0.7925, 1], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.5850, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [1, 1.3195, 1.7411, 2.2974, 3.0314, 4], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.2974, 2.6390, 3.0314, 3.4822, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 1.7411, 2.2974, 3.0314, 4, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.6390, 3.0314, 3.4822, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.4142, 1e-4);
***** assert (iqr (t), 0.9852, 1e-4);
***** assert (mean (pd), 2.1640, 1e-4);
***** assert (mean (t), 2.8854, 1e-4);
***** assert (median (pd), 2);
***** assert (median (t), 2.8284, 1e-4);
***** assert (pdf (pd, [0, 1, 2, 3, 4, 5]), [0, 0.7213, 0.3607, 0.2404, 0.1803, 0], 1e-4);
***** assert (pdf (t, [0, 1, 2, 3, 4, 5]), [0, 0, 0.7213, 0.4809, 0.3607, 0], 1e-4);
***** assert (pdf (pd, [-1, 1, 2, 3, 4, NaN]), [0, 0.7213, 0.3607, 0.2404, 0.1803, NaN], 1e-4);
***** assert (pdf (t, [-1, 1, 2, 3, 4, NaN]), [0, 0, 0.7213, 0.4809, 0.3607, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (pd, 1000, 1) < 1), false);
***** assert (any (random (pd, 1000, 1) > 4), false);
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 0.8527, 1e-4);
***** assert (std (t), 0.5751, 1e-4);
***** assert (var (pd), 0.7270, 1e-4);
***** assert (var (t), 0.3307, 1e-4);
***** error <LoguniformDistribution: LOWER must be a positive real scalar.> ...
 LoguniformDistribution (i, 1)
***** error <LoguniformDistribution: LOWER must be a positive real scalar.> ...
 LoguniformDistribution (Inf, 1)
***** error <LoguniformDistribution: LOWER must be a positive real scalar.> ...
 LoguniformDistribution ([1, 2], 1)
***** error <LoguniformDistribution: LOWER must be a positive real scalar.> ...
 LoguniformDistribution ("a", 1)
***** error <LoguniformDistribution: LOWER must be a positive real scalar.> ...
 LoguniformDistribution (NaN, 1)
***** error <LoguniformDistribution: UPPER must be a real scalar.> ...
 LoguniformDistribution (1, i)
***** error <LoguniformDistribution: UPPER must be a real scalar.> ...
 LoguniformDistribution (1, Inf)
***** error <LoguniformDistribution: UPPER must be a real scalar.> ...
 LoguniformDistribution (1, [1, 2])
***** error <LoguniformDistribution: UPPER must be a real scalar.> ...
 LoguniformDistribution (1, "a")
***** error <LoguniformDistribution: UPPER must be a real scalar.> ...
 LoguniformDistribution (1, NaN)
***** error <LoguniformDistribution: LOWER must be less than UPPER.> ...
 LoguniformDistribution (2, 1)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LoguniformDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (LoguniformDistribution, 2, 3)
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (LoguniformDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LoguniformDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (LoguniformDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (LoguniformDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LoguniformDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LoguniformDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (LoguniformDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LoguniformDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (LoguniformDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (LoguniformDistribution, "invalidNAME", "pdf")
***** error <plot: 'probability' PlotType is not supported for 'LoguniformDistribution'.> ...
 plot (LoguniformDistribution, "PlotType", "probability")
***** error <truncate: missing input argument.> ...
 truncate (LoguniformDistribution)
***** error <truncate: missing input argument.> ...
 truncate (LoguniformDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (LoguniformDistribution, 4, 2)
***** shared pd
 pd = LoguniformDistribution(1, 4);
 pd(2) = LoguniformDistribution(2, 5);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
65 tests, 65 passed, 0 known failure, 0 skipped
[inst/dist_obj/NegativeBinomialDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/NegativeBinomialDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Negative Binomial
 ## distribution with parameters R = 5 and P = 0.5.  Fit a Negative Binomial
 ## distribution to this data and plot a PDF of the fitted distribution
 ## superimposed on a histogram of the data.

 pd_fixed = makedist ("NegativeBinomial", "R", 5, "P", 0.5)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "NegativeBinomial")
 plot (pd_fitted)
 msg = "Fitted Negative Binomial distribution with R = %0.2f and P = %0.2f";
 title (sprintf (msg, pd_fitted.R, pd_fitted.P))
***** shared pd, t, t_inf
 pd = NegativeBinomialDistribution (5, 0.5);
 t = truncate (pd, 2, 4);
 t_inf = truncate (pd, 2, Inf);
***** assert (cdf (pd, [0:5]), [0.0312, 0.1094, 0.2266, 0.3633, 0.5, 0.6230], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0.3, 0.65, 1, 1], 1e-4);
***** assert (cdf (t_inf, [0:5]), [0, 0, 0.1316, 0.2851, 0.4386, 0.5768], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.1094, 0.2266, 0.3633, 0.5000], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0.3, 0.65, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 2, 4, 5, 7, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2, 3, 3, 4, 4], 1e-4);
***** assert (icdf (t_inf, [0:0.2:1]), [2, 3, 4, 6, 8, Inf], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 4, 5, 7, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 3, 3, 4, 4, NaN], 1e-4);
***** assert (iqr (pd), 4);
***** assert (iqr (t), 2);
***** assert (mean (pd), 5);
***** assert (mean (t), 3.0500, 1e-4);
***** assert (mean (t_inf), 5.5263, 1e-4);
***** assert (median (pd), 4);
***** assert (median (t), 3);
***** assert (pdf (pd, [0:5]), [0.0312, 0.0781, 0.1172, 0.1367, 0.1367, 0.1230], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 0.3, 0.35, 0.35, 0], 1e-4);
***** assert (pdf (t_inf, [0:5]), [0, 0, 0.1316, 0.1535, 0.1535, 0.1382], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.0781, 0.1172, 0.1367, 0.1367, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 0.3, 0.35, 0.35, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 3.1623, 1e-4);
***** assert (std (t), 0.8047, 1e-4);
***** assert (std (t_inf), 2.9445, 1e-4);
***** assert (var (pd), 10);
***** assert (var (t), 0.6475, 1e-4);
***** assert (var (t_inf), 8.6704, 1e-4);
***** error <NegativeBinomialDistribution: R must be a positive scalar.> ...
 NegativeBinomialDistribution(Inf, 1)
***** error <NegativeBinomialDistribution: R must be a positive scalar.> ...
 NegativeBinomialDistribution(i, 1)
***** error <NegativeBinomialDistribution: R must be a positive scalar.> ...
 NegativeBinomialDistribution("a", 1)
***** error <NegativeBinomialDistribution: R must be a positive scalar.> ...
 NegativeBinomialDistribution([1, 2], 1)
***** error <NegativeBinomialDistribution: R must be a positive scalar.> ...
 NegativeBinomialDistribution(NaN, 1)
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, 0)
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, -1)
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, Inf)
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, i)
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, "a")
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, [1, 2])
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, NaN)
***** error <NegativeBinomialDistribution: P must be a real scalar bounded in the range> ...
 NegativeBinomialDistribution(1, 1.2)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (NegativeBinomialDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (NegativeBinomialDistribution, 2, 3)
***** shared x
 x = nbinrnd (1, 0.5, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "parameter", "R", ...
          "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), ...
          "parameter", {"R", "P", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"R", "P", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (NegativeBinomialDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", 0.01, ...
          "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NegativeBinomialDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "R", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (NegativeBinomialDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (NegativeBinomialDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (NegativeBinomialDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (NegativeBinomialDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NegativeBinomialDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NegativeBinomialDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NegativeBinomialDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (NegativeBinomialDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (NegativeBinomialDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (NegativeBinomialDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (NegativeBinomialDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (NegativeBinomialDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NegativeBinomialDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NegativeBinomialDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NegativeBinomialDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (NegativeBinomialDistribution.fit (x), 1, {[1 2 3]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (NegativeBinomialDistribution)
***** error <truncate: missing input argument.> ...
 truncate (NegativeBinomialDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (NegativeBinomialDistribution, 4, 2)
***** shared pd
 pd = NegativeBinomialDistribution(1, 0.5);
 pd(2) = NegativeBinomialDistribution(1, 0.6);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
102 tests, 102 passed, 0 known failure, 0 skipped
[inst/dist_obj/MultinomialDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/MultinomialDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Multinomial distribution
 ## with parameters Probabilities = [0.1, 0.2, 0.3, 0.2, 0.1, 0.1].  Create
 ## the distribution and plot the PDF superimposed on a histogram of the data.

 probs = [0.1, 0.2, 0.3, 0.2, 0.1, 0.1];
 pd = makedist ("Multinomial", "Probabilities", probs);
 rand ("seed", 2);
 data = random (pd, 5000, 1);
 hist (data, length (probs));
 hold on
 x = 1:length (probs);
 y = pdf (pd, x) * 5000;
 stem (x, y, "r", "LineWidth", 2);
 hold off
 msg = "Multinomial distribution with Probabilities = [%s]";
 probs_str = num2str (probs, "%0.1f ");
 title (sprintf (msg, probs_str))
***** shared pd, t
 pd = MultinomialDistribution ([0.1, 0.2, 0.3, 0.2, 0.1, 0.1]);
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [2, 3, 4]), [0.3, 0.6, 0.8], eps);
***** assert (cdf (t, [2, 3, 4]), [0.2857, 0.7143, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.1, 0.3, 0.6, 0.8], eps);
***** assert (cdf (pd, [1.5, 2-eps, 3, 4]), [0.1, 0.1, 0.6, 0.8], eps);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0.2857, 0.7143, 1], 1e-4);
***** assert (cdf (t, [1.5, 2-eps, 3, 4]), [0, 0, 0.7143, 1], 1e-4);
***** assert (cdf (pd, [1, 2.5, 4, 6]), [0.1, 0.3, 0.8, 1], eps);
***** assert (icdf (pd, [0, 0.2857, 0.7143, 1]), [1, 2, 4, 6]);
***** assert (icdf (t, [0, 0.2857, 0.7143, 1]), [2, 2, 4, 4]);
***** assert (icdf (t, [0, 0.35, 0.7143, 1]), [2, 3, 4, 4]);
***** assert (icdf (t, [0, 0.35, 0.7143, 1, NaN]), [2, 3, 4, 4, NaN]);
***** assert (icdf (t, [-0.5, 0, 0.35, 0.7143, 1, NaN]), [NaN, 2, 3, 4, 4, NaN]);
***** assert (icdf (pd, [-0.5, 0, 0.35, 0.7143, 1, NaN]), [NaN, 1, 3, 4, 6, NaN]);
***** assert (iqr (pd), 2);
***** assert (iqr (t), 2);
***** assert (mean (pd), 3.3, 1e-14);
***** assert (mean (t), 3, eps);
***** assert (median (pd), 3);
***** assert (median (t), 3);
***** assert (pdf (pd, [-5, 1, 2.5, 4, 6, NaN, 9]), [0, 0.1, 0, 0.2, 0.1, NaN, 0]);
***** assert (pdf (pd, [-5, 1, 2, 3, 4, 6, NaN, 9]), ...
 [0, 0.1, 0.2, 0.3, 0.2, 0.1, NaN, 0]);
***** assert (pdf (t, [-5, 1, 2, 3, 4, 6, NaN, 0]), ...
 [0, 0, 0.2857, 0.4286, 0.2857, 0, NaN, 0], 1e-4);
***** assert (pdf (t, [-5, 1, 2, 4, 6, NaN, 0]), ...
 [0, 0, 0.2857, 0.2857, 0, NaN, 0], 1e-4);
***** assert (unique (random (pd, 1000, 5)), [1, 2, 3, 4, 5, 6]');
***** assert (unique (random (t, 1000, 5)), [2, 3, 4]');
***** assert (std (pd), 1.4177, 1e-4);
***** assert (std (t), 0.7559, 1e-4);
***** assert (var (pd), 2.0100, 1e-4);
***** assert (var (t), 0.5714, 1e-4);
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution(0)
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution(-1)
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution(Inf)
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution(i)
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution("a")
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution([1, 2])
***** error <MultinomialDistribution: PROBABILITIES must be a vector of positive real scalars that sum up to 1.> ...
 MultinomialDistribution(NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (MultinomialDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (MultinomialDistribution, 2, 3)
***** error <cdf: X must be real.> ...
 cdf (MultinomialDistribution, i)
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (MultinomialDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (MultinomialDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (MultinomialDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (MultinomialDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (MultinomialDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (MultinomialDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (MultinomialDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (MultinomialDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (MultinomialDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (MultinomialDistribution, "invalidNAME", "pdf")
***** error <plot: 'probability' PlotType is not supported for 'MultinomialDistribution'.> ...
 plot (MultinomialDistribution, "PlotType", "probability")
***** error <truncate: is_nan input argument.> ...
 truncate (MultinomialDistribution)
***** error <truncate: is_nan input argument.> ...
 truncate (MultinomialDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (MultinomialDistribution, 4, 2)
***** shared pd
 pd = MultinomialDistribution([0.1, 0.2, 0.3, 0.4]);
 pd(2) = MultinomialDistribution([0.1, 0.2, 0.3, 0.4]);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
64 tests, 64 passed, 0 known failure, 0 skipped
[inst/dist_obj/PiecewiseLinearDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/PiecewiseLinearDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Beta distribution with
 ## parameters a = 2 and b = 5 scaled to [0,10].
 ## Compute empirical CDF, subsample, create PiecewiseLinearDistribution,
 ## and plot the PDF superimposed on a histogram of the data.

 randg ("seed", 2);
 data = betarnd (2, 5, 5000, 1) * 10;
 [f, x] = ecdf (data);
 f = f(1:5:end);
 x = x(1:5:end);
 pd = PiecewiseLinearDistribution (x, f);
 [counts, centers] = hist (data, 50);
 bin_width = centers(2) - centers(1);
 bar (centers, counts / (sum (counts) * bin_width), 1);
 hold on
 vals = min (data):0.1:max (data);
 y = pdf (pd, vals);
 plot (vals, y, "-r", "LineWidth", 2)
 hold off
 title ("Piecewise Linear approximation to scaled Beta(2,5) data")
 legend ("Histogram", "Piecewise PDF")
***** shared pd, t
 load patients
 [f, x] = ecdf (Weight);
 f = f(1:5:end);
 x = x(1:5:end);
 pd = PiecewiseLinearDistribution (x, f);
 t = truncate (pd, 130, 180);
***** assert (cdf (pd, [120, 130, 140, 150, 200]), [0.0767, 0.25, 0.4629, 0.5190, 0.9908], 1e-4);
***** assert (cdf (t, [120, 130, 140, 150, 200]), [0, 0, 0.4274, 0.5403, 1], 1e-4);
***** assert (cdf (pd, [100, 250, NaN]), [0, 1, NaN], 1e-4);
***** assert (cdf (t, [115, 290, NaN]), [0, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [111, 127.5, 136.62, 169.67, 182.17, 202], 1e-2);
***** assert (icdf (t, [0:0.2:1]), [130, 134.15, 139.26, 162.5, 173.99, 180], 1e-2);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NA, 136.62, 169.67, 182.17, 202, NA], 1e-2);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NA, 139.26, 162.5, 173.99, 180, NA], 1e-2);
***** assert (iqr (pd), 50.0833, 1e-4);
***** assert (iqr (t), 36.8077, 1e-4);
***** assert (mean (pd), 153.61, 1e-10);
***** assert (mean (t), 152.311, 1e-3);
***** assert (median (pd), 142, 1e-10);
***** assert (median (t), 141.9462, 1e-4);
***** assert (pdf (pd, [120, 130, 140, 150, 200]), [0.0133, 0.0240, 0.0186, 0.0024, 0.0004], 6e-3);
***** assert (pdf (t, [120, 130, 140, 150, 200]), [0, 0.0482, 0.0373, 0.0048, 0], 1e-4);
***** assert (pdf (pd, [100, 250, NaN]), [0, 0, NaN], 1e-4);
***** assert (pdf (t, [100, 250, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 130), false);
***** assert (any (random (t, 1000, 1) > 180), false);
***** assert (std (pd), 26.5196, 1e-4);
***** assert (std (t), 18.2941, 1e-4);
***** assert (var (pd), 703.2879, 1e-4);
***** assert (var (t), 334.6757, 1e-4);
***** error <PiecewiseLinearDistribution: X must be a real vector.> ...
 PiecewiseLinearDistribution ([0, i], [0, 1])
***** error <PiecewiseLinearDistribution: X must be a real vector.> ...
 PiecewiseLinearDistribution ([0, Inf], [0, 1])
***** error <PiecewiseLinearDistribution: X must be a real vector.> ...
 PiecewiseLinearDistribution (["a", "c"], [0, 1])
***** error <PiecewiseLinearDistribution: X must be a real vector.> ...
 PiecewiseLinearDistribution ([NaN, 1], [0, 1])
***** error <PiecewiseLinearDistribution: Fx must be a real vector.> ...
 PiecewiseLinearDistribution ([0, 1], [0, i])
***** error <PiecewiseLinearDistribution: Fx must be a real vector.> ...
 PiecewiseLinearDistribution ([0, 1], [0, Inf])
***** error <PiecewiseLinearDistribution: Fx must be a real vector.> ...
 PiecewiseLinearDistribution ([0, 1], ["a", "c"])
***** error <PiecewiseLinearDistribution: Fx must be a real vector.> ...
 PiecewiseLinearDistribution ([0, 1], [NaN, 1])
***** error <PiecewiseLinearDistribution: X and FX must be vectors of equal size.> ...
 PiecewiseLinearDistribution ([0, 1], [0, 0.5, 1])
***** error <PiecewiseLinearDistribution: X and FX must be at least two-elements long.> ...
 PiecewiseLinearDistribution ([0], [1])
***** error <PiecewiseLinearDistribution: FX must be bounded in the range> ...
 PiecewiseLinearDistribution ([0, 0.5, 1], [0, 1, 1.5])
***** error <cdf: invalid argument for upper tail.> ...
 cdf (PiecewiseLinearDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (PiecewiseLinearDistribution, 2, 3)
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (PiecewiseLinearDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (PiecewiseLinearDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (PiecewiseLinearDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (PiecewiseLinearDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (PiecewiseLinearDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (PiecewiseLinearDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (PiecewiseLinearDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (PiecewiseLinearDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (PiecewiseLinearDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (PiecewiseLinearDistribution, "invalidNAME", "pdf")
***** error <plot: 'probability' PlotType is not supported for 'PiecewiseLinearDistribution'.> ...
 plot (PiecewiseLinearDistribution, "PlotType", "probability")
***** error <truncate: missing input argument.> ...
 truncate (PiecewiseLinearDistribution)
***** error <truncate: missing input argument.> ...
 truncate (PiecewiseLinearDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (PiecewiseLinearDistribution, 4, 2)
***** shared pd
 pd = PiecewiseLinearDistribution ();
 pd(2) = PiecewiseLinearDistribution ();
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
63 tests, 63 passed, 0 known failure, 0 skipped
[inst/dist_obj/NakagamiDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/NakagamiDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a Nakagami distribution with
 ## parameters mu = 1 and omega = 1.  Fit a Nakagami distribution to this data and plot
 ## a PDF of the fitted distribution superimposed on a histogram of the data.

 pd_fixed = makedist ("Nakagami", "mu", 1, "omega", 1)
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "Nakagami")
 plot (pd_fitted)
 msg = "Fitted Nakagami distribution with mu = %0.2f and omega = %0.2f";
 title (sprintf (msg, pd_fitted.mu, pd_fitted.omega))
***** shared pd, t
 pd = NakagamiDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0, 0.6321, 0.9817, 0.9999, 1, 1], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.9933, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4]), [0.8946, 0.9817, 0.9999, 1], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4]), [0, 0, 0.9933, 1], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [0, 0.4724, 0.7147, 0.9572, 1.2686, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.0550, 2.1239, 2.2173, 2.3684, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, 0.7147, 0.9572, 1.2686, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.1239, 2.2173, 2.3684, 4, NaN], 1e-4);
***** assert (iqr (pd), 0.6411, 1e-4);
***** assert (iqr (t), 0.2502, 1e-4);
***** assert (mean (pd), 0.8862, 1e-4);
***** assert (mean (t), 2.2263, 1e-4);
***** assert (median (pd), 0.8326, 1e-4);
***** assert (median (t), 2.1664, 1e-4);
***** assert (pdf (pd, [0:5]), [0, 0.7358, 0.0733, 0.0007, 0, 0], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 4, 0.0404, 0, 0], 1e-4);
***** assert (pdf (pd, [-1, 1:4, NaN]), [0, 0.7358, 0.0733, 0.0007, 0, NaN], 1e-4);
***** assert (pdf (t, [-1, 1:4, NaN]), [0, 0, 4, 0.0404, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 0.4633, 1e-4);
***** assert (std (t), 0.2083, 1e-4);
***** assert (var (pd), 0.2146, 1e-4);
***** assert (var (t), 0.0434, 1e-4);
***** error <NakagamiDistribution: MU must be a real scalar of at least 0.5.> ...
 NakagamiDistribution(Inf, 1)
***** error <NakagamiDistribution: MU must be a real scalar of at least 0.5.> ...
 NakagamiDistribution(i, 1)
***** error <NakagamiDistribution: MU must be a real scalar of at least 0.5.> ...
 NakagamiDistribution("a", 1)
***** error <NakagamiDistribution: MU must be a real scalar of at least 0.5.> ...
 NakagamiDistribution([1, 2], 1)
***** error <NakagamiDistribution: MU must be a real scalar of at least 0.5.> ...
 NakagamiDistribution(NaN, 1)
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, 0)
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, -1)
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, Inf)
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, i)
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, "a")
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, [1, 2])
***** error <NakagamiDistribution: OMEGA must be a positive real scalar.> ...
 NakagamiDistribution(1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (NakagamiDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (NakagamiDistribution, 2, 3)
***** shared x
 x = nakarnd (1, 0.5, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (NakagamiDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (NakagamiDistribution.fit (x), "parameter", "mu", "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (NakagamiDistribution.fit (x), "parameter", {"mu", "omega", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "omega", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (NakagamiDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", 0.01, "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NakagamiDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (NakagamiDistribution.fit (x), "alpha", 0.01, "parameter", "mu", ...
          "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (NakagamiDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (NakagamiDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (NakagamiDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (NakagamiDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NakagamiDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NakagamiDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (NakagamiDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (NakagamiDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (NakagamiDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (NakagamiDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (NakagamiDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (NakagamiDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NakagamiDistribution.fit (x), 3)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NakagamiDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (NakagamiDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (NakagamiDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (NakagamiDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (NakagamiDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (NakagamiDistribution)
***** error <truncate: missing input argument.> ...
 truncate (NakagamiDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (NakagamiDistribution, 4, 2)
***** shared pd
 pd = NakagamiDistribution(1, 0.5);
 pd(2) = NakagamiDistribution(1, 0.6);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
95 tests, 95 passed, 0 known failure, 0 skipped
[inst/dist_obj/tLocationScaleDistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_obj/tLocationScaleDistribution.m
***** demo
 ## Generate a data set of 5000 random samples from a t Location-Scale distribution
 ## with parameters mu = 0, sigma = 1, and nu = 5. Fit a t Location-Scale
 ## distribution to this data and plot a PDF of the fitted distribution
 ## superimposed on a histogram of the data.

 pd_fixed = makedist ("tLocationScale", "mu", 0, "sigma", 1, "nu", 5);
 rand ("seed", 2);
 data = random (pd_fixed, 5000, 1);
 pd_fitted = fitdist (data, "tLocationScale");
 plot (pd_fitted);
 msg = "Fitted t Location-Scale distribution with mu = %0.2f, sigma = %0.2f, nu = %0.2f";
 title (sprintf (msg, pd_fitted.mu, pd_fitted.sigma, pd_fitted.nu));
***** shared pd, t
 pd = tLocationScaleDistribution;
 t = truncate (pd, 2, 4);
***** assert (cdf (pd, [0:5]), [0.5, 0.8184, 0.9490, 0.9850, 0.9948, 0.9979], 1e-4);
***** assert (cdf (t, [0:5]), [0, 0, 0, 0.7841, 1, 1], 1e-4);
***** assert (cdf (pd, [1.5, 2, 3, 4, NaN]), [0.9030, 0.9490, 0.9850, 0.9948, NaN], 1e-4);
***** assert (cdf (t, [1.5, 2, 3, 4, NaN]), [0, 0, 0.7841, 1, NaN], 1e-4);
***** assert (icdf (pd, [0:0.2:1]), [-Inf, -0.9195, -0.2672, 0.2672, 0.9195, Inf], 1e-4);
***** assert (icdf (t, [0:0.2:1]), [2, 2.1559, 2.3533, 2.6223, 3.0432, 4], 1e-4);
***** assert (icdf (pd, [-1, 0.4:0.2:1, NaN]), [NaN, -0.2672, 0.2672, 0.9195, Inf, NaN], 1e-4);
***** assert (icdf (t, [-1, 0.4:0.2:1, NaN]), [NaN, 2.3533, 2.6223, 3.0432, 4, NaN], 1e-4);
***** assert (iqr (pd), 1.4534, 1e-4);
***** assert (iqr (t), 0.7139, 1e-4);
***** assert (mean (pd), 0, eps);
***** assert (mean (t), 2.6099, 1e-4);
***** assert (median (pd), 0, eps);
***** assert (median (t), 2.4758, 1e-4);
***** assert (pdf (pd, [0:5]), [0.3796, 0.2197, 0.0651, 0.0173, 0.0051, 0.0018], 1e-4);
***** assert (pdf (t, [0:5]), [0, 0, 1.4209, 0.3775, 0.1119, 0], 1e-4);
***** assert (pdf (pd, [-1, 1.5, NaN]), [0.2197, 0.1245, NaN], 1e-4);
***** assert (pdf (t, [-1, 1.5, NaN]), [0, 0, NaN], 1e-4);
***** assert (isequal (size (random (pd, 100, 50)), [100, 50]))
***** assert (any (random (t, 1000, 1) < 2), false);
***** assert (any (random (t, 1000, 1) > 4), false);
***** assert (std (pd), 1.2910, 1e-4);
***** assert (std (t), 0.4989, 1e-4);
***** assert (var (pd), 1.6667, 1e-4);
***** assert (var (t), 0.2489, 1e-4);
***** error <tLocationScaleDistribution: MU must be a real scalar.> ...
 tLocationScaleDistribution(i, 1, 1)
***** error <tLocationScaleDistribution: MU must be a real scalar.> ...
 tLocationScaleDistribution(Inf, 1, 1)
***** error <tLocationScaleDistribution: MU must be a real scalar.> ...
 tLocationScaleDistribution([1, 2], 1, 1)
***** error <tLocationScaleDistribution: MU must be a real scalar.> ...
 tLocationScaleDistribution("a", 1, 1)
***** error <tLocationScaleDistribution: MU must be a real scalar.> ...
 tLocationScaleDistribution(NaN, 1, 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 0, 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, -1, 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, Inf, 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, i, 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, "a", 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, [1, 2], 1)
***** error <tLocationScaleDistribution: SIGMA must be a positive real scalar.> ...
 tLocationScaleDistribution(0, NaN, 1)
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, 0)
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, -1)
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, Inf)
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, i)
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, "a")
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, [1, 2])
***** error <tLocationScaleDistribution: NU must be a positive real scalar.> ...
 tLocationScaleDistribution(0, 1, NaN)
***** error <cdf: invalid argument for upper tail.> ...
 cdf (tLocationScaleDistribution, 2, "uper")
***** error <cdf: invalid argument for upper tail.> ...
 cdf (tLocationScaleDistribution, 2, 3)
***** shared x
 x = tlsrnd (0, 1, 1, [1, 100]);
***** error <paramci: optional arguments must be in NAME-VALUE pairs.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", 0)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", 1)
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", [0.5 2])
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", "")
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", {0.05})
***** error <paramci: invalid VALUE for 'Alpha' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "parameter", "mu", ...
          "alpha", {0.05})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), ...
          "parameter", {"mu", "sigma", "nu", "param"})
***** error <paramci: invalid VALUE size for 'Parameter' argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", 0.01, ...
          "parameter", {"mu", "sigma", "nu", "param"})
***** error <paramci: unknown distribution parameter.> ...
 paramci (tLocationScaleDistribution.fit (x), "parameter", "param")
***** error <paramci: unknown distribution parameter.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "param")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", 0.01, "NAME", "value")
***** error <paramci: invalid NAME for optional argument.> ...
 paramci (tLocationScaleDistribution.fit (x), "alpha", 0.01, ...
          "parameter", "mu", "NAME", "value")
***** error <plot: optional arguments must be in NAME-VALUE pairs.> ...
 plot (tLocationScaleDistribution, "Parent")
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (tLocationScaleDistribution, "PlotType", 12)
***** error <plot: invalid VALUE size for 'Parameter' argument.> ...
 plot (tLocationScaleDistribution, "PlotType", {"pdf", "cdf"})
***** error <plot: invalid VALUE for 'PlotType' argument.> ...
 plot (tLocationScaleDistribution, "PlotType", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (tLocationScaleDistribution, "Discrete", "pdfcdf")
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (tLocationScaleDistribution, "Discrete", [1, 0])
***** error <plot: invalid VALUE for 'Discrete' argument.> ...
 plot (tLocationScaleDistribution, "Discrete", {true})
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (tLocationScaleDistribution, "Parent", 12)
***** error <plot: invalid VALUE for 'Parent' argument.> ...
 plot (tLocationScaleDistribution, "Parent", "hax")
***** error <plot: invalid NAME for optional argument.> ...
 plot (tLocationScaleDistribution, "invalidNAME", "pdf")
***** error <plot: no fitted DATA to plot a probability plot.> ...
 plot (tLocationScaleDistribution, "PlotType", "probability")
***** error <proflik: no fitted data available.> ...
 proflik (tLocationScaleDistribution, 2)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (tLocationScaleDistribution.fit (x), 4)
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (tLocationScaleDistribution.fit (x), [1, 2])
***** error <proflik: PNUM must be a scalar number indexing a non-fixed parameter.> ...
 proflik (tLocationScaleDistribution.fit (x), {1})
***** error <proflik: SETPARAM must be a numeric vector.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, ones (2))
***** error <proflik: missing VALUE for 'Display' argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "Display")
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "Display", 1)
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "Display", {1})
***** error <proflik: invalid VALUE type for 'Display' argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "Display", {"on"})
***** error <proflik: invalid VALUE size for 'Display' argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "Display", ["on"; "on"])
***** error <proflik: invalid VALUE for 'Display' argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "Display", "onnn")
***** error <proflik: invalid NAME for optional arguments.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, "NAME", "on")
***** error <proflik: invalid optional argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, {"NAME"}, "on")
***** error <proflik: invalid optional argument.> ...
 proflik (tLocationScaleDistribution.fit (x), 1, {[1 2 3 4]}, "Display", "on")
***** error <truncate: missing input argument.> ...
 truncate (tLocationScaleDistribution)
***** error <truncate: missing input argument.> ...
 truncate (tLocationScaleDistribution, 2)
***** error <truncate: invalid lower upper limits.> ...
 truncate (tLocationScaleDistribution, 4, 2)
***** shared pd
 pd = tLocationScaleDistribution (0, 1, 1);
 pd(2) = tLocationScaleDistribution (0, 1, 3);
***** error <cdf: requires a scalar probability distribution.> cdf (pd, 1)
***** error <icdf: requires a scalar probability distribution.> icdf (pd, 0.5)
***** error <iqr: requires a scalar probability distribution.> iqr (pd)
***** error <mean: requires a scalar probability distribution.> mean (pd)
***** error <median: requires a scalar probability distribution.> median (pd)
***** error <negloglik: requires a scalar probability distribution.> negloglik (pd)
***** error <paramci: requires a scalar probability distribution.> paramci (pd)
***** error <pdf: requires a scalar probability distribution.> pdf (pd, 1)
***** error <plot: requires a scalar probability distribution.> plot (pd)
***** error <proflik: requires a scalar probability distribution.> proflik (pd, 2)
***** error <random: requires a scalar probability distribution.> random (pd)
***** error <std: requires a scalar probability distribution.> std (pd)
***** error <truncate: requires a scalar probability distribution.> ...
 truncate (pd, 2, 4)
***** error <var: requires a scalar probability distribution.> var (pd)
102 tests, 102 passed, 0 known failure, 0 skipped
[inst/harmmean.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/harmmean.m
***** test
 x = [0:10];
 y = [x;x+5;x+10];
 assert (harmmean (x), 0);
 m = [0 8.907635160795225 14.30854471766802];
 assert (harmmean (y, 2), m', 4e-14);
 assert (harmmean (y, "all"), 0);
 y(2,4) = NaN;
 m(2) = 9.009855936313949;
 assert (harmmean (y, 2), [0 NaN m(3)]', 4e-14);
 assert (harmmean (y', "omitnan"), m, 4e-14);
 z = y + 20;
 assert (harmmean (z, "all"), NaN);
 assert (harmmean (z, "all", "includenan"), NaN);
 assert (harmmean (z, "all", "omitnan"), 29.1108719858295, 4e-14);
 m = [24.59488458841874 NaN 34.71244385944397];
 assert (harmmean (z'), m, 4e-14);
 assert (harmmean (z', "includenan"), m, 4e-14);
 m(2) = 29.84104075528277;
 assert (harmmean (z', "omitnan"), m, 4e-14);
 assert (harmmean (z, 2, "omitnan"), m', 4e-14);
***** test
 x = repmat ([1:20;6:25], [5 2 6 3]);
 assert (size (harmmean (x, [3 2])), [10 1 1 3]);
 assert (size (harmmean (x, [1 2])), [1 1 6 3]);
 assert (size (harmmean (x, [1 2 4])), [1 1 6]);
 assert (size (harmmean (x, [1 4 3])), [1 40]);
 assert (size (harmmean (x, [1 2 3 4])), [1 1]);
***** test
 x = repmat ([1:20;6:25], [5 2 6 3]);
 m = repmat ([5.559045930488016;13.04950789021461], [5 1 1 3]);
 assert (harmmean (x, [3 2]), m, 4e-14);
 x(2,5,6,3) = NaN;
 m(2,3) = NaN;
 assert (harmmean (x, [3 2]), m, 4e-14);
 m(2,3) = 13.06617961315406;
 assert (harmmean (x, [3 2], "omitnan"), m, 4e-14);
***** error <harmmean: X must contain real nonnegative values.> harmmean ("char")
***** error <harmmean: X must contain real nonnegative values.> harmmean ([1 -1 3])
***** error <harmmean: DIM must be a positive integer scalar or vector.> ...
 harmmean (repmat ([1:20;6:25], [5 2 6 3 5]), -1)
***** error <harmmean: DIM must be a positive integer scalar or vector.> ...
 harmmean (repmat ([1:20;6:25], [5 2 6 3 5]), 0)
***** error <harmmean: VECDIM must contain non-repeating positive integers.> ...
 harmmean (repmat ([1:20;6:25], [5 2 6 3 5]), [1 1])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/gmdistribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/gmdistribution.m
***** test
 mu = eye(2);
 Sigma = eye(2);
 GM = gmdistribution (mu, Sigma);
 density = GM.pdf ([0 0; 1 1]);
 assert (density(1) - density(2), 0, 1e-6);

 [idx, nlogl, P, logpdf,M] = cluster (GM, eye(2));
 assert (idx, [1; 2]);
 [idx2,nlogl2,P2,logpdf2] = GM.cluster (eye(2));
 assert (nlogl - nlogl2, 0, 1e-6);
 [idx3,nlogl3,P3] = cluster (GM, eye(2));
 assert (P - P3, zeros (2), 1e-6);
 [idx4,nlogl4] = cluster (GM, eye(2));
 assert (size (nlogl4), [1 1]);
 idx5 = cluster (GM, eye(2));
 assert (idx - idx5, zeros (2,1));

 D = GM.mahal ([1;0]);
 assert (D - M(1,:), zeros (1,2), 1e-6);

 P = GM.posterior ([0 1]);
 assert (P - P2(2,:), zeros (1,2), 1e-6);

 R = GM.random(20);
 assert (size(R), [20, 2]);

 R = GM.random();
 assert (size(R), [1, 2]);
1 test, 1 passed, 0 known failure, 0 skipped
[inst/plsregress.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/plsregress.m
***** demo
 ## Perform Partial Least-Squares Regression

 ## Load the spectra data set and use the near infrared (NIR) spectral
 ## intensities (NIR) as the predictor and the corresponding octave
 ## ratings (octave) as the response.
 load spectra

 ## Perform PLS regression with 10 components
 [xload, yload, xscore, yscore, coef, ptcVar] = plsregress (NIR, octane, 10);

 ## Plot the percentage of explained variance in the response variable
 ## (PCTVAR) as a function of the number of components.
 plot (1:10, cumsum (100 * ptcVar(2,:)), "-ro");
 xlim ([1, 10]);
 xlabel ("Number of PLS components");
 ylabel ("Percentage of Explained Variance in octane");
 title ("Explained Variance per PLS components");

 ## Compute the fitted response and display the residuals.
 octane_fitted = [ones(size(NIR,1),1), NIR] * coef;
 residuals = octane - octane_fitted;
 figure
 stem (residuals, "color", "r", "markersize", 4, "markeredgecolor", "r")
 xlabel ("Observations");
 ylabel ("Residuals");
 title ("Residuals in octane's fitted response");
***** demo
 ## Calculate Variable Importance in Projection (VIP) for PLS Regression

 ## Load the spectra data set and use the near infrared (NIR) spectral
 ## intensities (NIR) as the predictor and the corresponding octave
 ## ratings (octave) as the response.  Variables with a VIP score greater than
 ## 1 are considered important for the projection of the PLS regression model.
 load spectra

 ## Perform PLS regression with 10 components
 [xload, yload, xscore, yscore, coef, pctVar, mse, stats] = ...
                                                 plsregress (NIR, octane, 10);

 ## Calculate the normalized PLS weights
 W0 = stats.W ./ sqrt(sum(stats.W.^2,1));

 ## Calculate the VIP scores for 10 components
 nobs = size (xload, 1);
 SS = sum (xscore .^ 2, 1) .* sum (yload .^ 2, 1);
 VIPscore = sqrt (nobs * sum (SS .* (W0 .^ 2), 2) ./ sum (SS, 2));

 ## Find variables with a VIP score greater than or equal to 1
 VIPidx = find (VIPscore >= 1);

 ## Plot the VIP scores
 scatter (1:length (VIPscore), VIPscore, "xb");
 hold on
 scatter (VIPidx, VIPscore (VIPidx), "xr");
 plot ([1, length(VIPscore)], [1, 1], "--k");
 hold off
 axis ("tight");
 xlabel ("Predictor Variables");
 ylabel ("VIP scores");
 title ("VIP scores for each predictor variable with 10 components");
***** test
 load spectra
 [xload, yload, xscore, yscore, coef, pctVar] = plsregress (NIR, octane, 10);
 xload1_out = [-0.0170, 0.0039, 0.0095,  0.0258, 0.0025, ...
               -0.0075, 0.0000, 0.0018, -0.0027, 0.0020];
 yload_out = [6.6384, 9.3106, 2.0505, 0.6471, 0.9625, ...
              0.5905, 0.4244, 0.2437, 0.3516, 0.2548];
 xscore1_out = [-0.0401, -0.1764, -0.0340, 0.1669,  0.1041, ...
                -0.2067,  0.0457,  0.1565, 0.0706, -0.1471];
 yscore1_out = [-12.4635, -15.0003,  0.0638,  0.0652, -0.0070, ...
                 -0.0634,   0.0062, -0.0012, -0.0151, -0.0173];
 assert (xload(1,:), xload1_out, 1e-4);
 assert (yload, yload_out, 1e-4);
 assert (xscore(1,:), xscore1_out, 1e-4);
 assert (yscore(1,:), yscore1_out, 1e-4);
***** test
 load spectra
 [xload, yload, xscore, yscore, coef, pctVar] = plsregress (NIR, octane, 5);
 xload1_out = [-0.0170, 0.0039, 0.0095, 0.0258, 0.0025];
 yload_out = [6.6384, 9.3106, 2.0505, 0.6471, 0.9625];
 xscore1_out = [-0.0401, -0.1764, -0.0340, 0.1669, 0.1041];
 yscore1_out = [-12.4635, -15.0003, 0.0638, 0.0652, -0.0070];
 assert (xload(1,:), xload1_out, 1e-4);
 assert (yload, yload_out, 1e-4);
 assert (xscore(1,:), xscore1_out, 1e-4);
 assert (yscore(1,:), yscore1_out, 1e-4);
***** error<plsregress: function called with too few input arguments.>
 plsregress (1)
***** error<plsregress: X and Y must be real matrices.> plsregress (1, "asd")
***** error<plsregress: X and Y must be real matrices.> plsregress (1, {1,2,3})
***** error<plsregress: X and Y must be real matrices.> plsregress ("asd", 1)
***** error<plsregress: X and Y must be real matrices.> plsregress ({1,2,3}, 1)
***** error<plsregress: X and Y observations mismatch.> ...
 plsregress (ones (20,3), ones (15,1))
***** error<plsregress: invalid value for NCOMP.> ...
 plsregress (ones (20,3), ones (20,1), 0)
***** error<plsregress: invalid value for NCOMP.> ...
 plsregress (ones (20,3), ones (20,1), -5)
***** error<plsregress: invalid value for NCOMP.> ...
 plsregress (ones (20,3), ones (20,1), 3.2)
***** error<plsregress: invalid value for NCOMP.> ...
 plsregress (ones (20,3), ones (20,1), [2, 3])
***** error<plsregress: NCOMP exceeds maximum components for X.> ...
 plsregress (ones (20,3), ones (20,1), 4)
***** error<plsregress: invalid VALUE for 'cv' optional argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", 4.5)
***** error<plsregress: invalid VALUE for 'cv' optional argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", -1)
***** error<plsregress: invalid VALUE for 'cv' optional argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", "somestring")
***** error<plsregress: invalid VALUE for 'mcreps' optional argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", 3, "mcreps", 2.2)
***** error<plsregress: invalid VALUE for 'mcreps' optional argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", 3, "mcreps", -2)
***** error<plsregress: invalid VALUE for 'mcreps' optional argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", 3, "mcreps", [1, 2])
***** error<plsregress: invalid NAME argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "Name", 3, "mcreps", 1)
***** error<plsregress: invalid NAME argument.> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", 3, "Name", 1)
***** error<plsregress: 'mcreps' must be 1 when 'resubstitution' is specified> ...
 plsregress (ones (20,3), ones (20,1), 3, "mcreps", 2)
***** error<plsregress: 'mcreps' must be 1 when 'resubstitution' is specified> ...
 plsregress (ones (20,3), ones (20,1), 3, "cv", "resubstitution", "mcreps", 2)
***** error<Invalid call to plsregress.  Correct usage is:> plsregress (1, 2)
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/ppplot.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ppplot.m
***** test
 hf = figure ("visible", "off");
 unwind_protect
   ppplot ([2 3 3 4 4 5 6 5 6 7 8 9 8 7 8 9 0 8 7 6 5 4 6 13 8 15 9 9]);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error ppplot ()
***** error <ppplot: X must be a numeric vector> ppplot (ones (2,2))
***** error <ppplot: X must be a numeric vector> ppplot (1, 2)
***** error <ppplot: DIST must be a string> ppplot ([1 2 3 4], 2)
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/ztest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ztest.m
***** error<ztest: too few input arguments.> ztest ();
***** error<ztest: invalid value for standard deviation.> ...
 ztest ([1, 2, 3, 4], 2, -0.5);
***** error<ztest: invalid VALUE for alpha.> ...
 ztest ([1, 2, 3, 4], 1, 2, "alpha", 0);
***** error<ztest: invalid VALUE for alpha.> ...
 ztest ([1, 2, 3, 4], 1, 2, "alpha", 1.2);
***** error<ztest: invalid VALUE for alpha.> ...
 ztest ([1, 2, 3, 4], 1, 2, "alpha", "val");
***** error<ztest: invalid VALUE for tail.>  ...
 ztest ([1, 2, 3, 4], 1, 2, "tail", "val");
***** error<ztest: invalid VALUE for tail.>  ...
 ztest ([1, 2, 3, 4], 1, 2, "alpha", 0.01, "tail", "val");
***** error<ztest: invalid VALUE for operating dimension.> ...
 ztest ([1, 2, 3, 4], 1, 2, "dim", 3);
***** error<ztest: invalid VALUE for operating dimension.> ...
 ztest ([1, 2, 3, 4], 1, 2, "alpha", 0.01, "tail", "both", "dim", 3);
***** error<ztest: invalid NAME for optional arguments.> ...
 ztest ([1, 2, 3, 4], 1, 2, "alpha", 0.01, "tail", "both", "badoption", 3);
***** test
 load carsmall
 [h, pval, ci] = ztest (MPG, mean (MPG, "omitnan"), std (MPG, "omitnan"));
 assert (h, 0);
 assert (pval, 1, 1e-14);
 assert (ci, [22.094; 25.343], 1e-3);
***** test
 load carsmall
 [h, pval, ci] = ztest (MPG, 26, 8);
 assert (h, 1);
 assert (pval, 0.00568359158544743, 1e-14);
 assert (ci, [22.101; 25.335], 1e-3);
***** test
 load carsmall
 [h, pval, ci] = ztest (MPG, 26, 4);
 assert (h, 1);
 assert (pval, 3.184168011941316e-08, 1e-14);
 assert (ci, [22.909; 24.527], 1e-3);
***** test
 x = normrnd (10, 2, 100, 1);
 [h, pval, ci] = ztest (x, 10, 2, "tail", "right");
 assert (isnan (pval), false);
 assert (pval >= 0 && pval <= 1, true);
***** test
 x = normrnd (10, 2, 100, 1);
 [h, pval, ci] = ztest (x, 10, 2, "tail", "left");
 assert (isnan (pval), false);
 assert (pval >= 0 && pval <= 1, true);
***** test
 load fisheriris;
 x = meas(:,1);
 m = 5.8;
 sigma = 0.8;
 [h, pval, ci] = ztest (x, m, sigma, "tail", "right");
 assert (h, 0)
 assert (pval, 0.2535, 1e-4)
 assert (ci, [5.7359; Inf], 1e-5)
***** test
 load fisheriris;
 x = meas(:,1);
 m = 5.8;
 sigma = 0.8;
 [h, pval, ci] = ztest (x, m, sigma, "tail", "left");
 assert (h, 0)
 assert (pval, 0.7465, 1e-4)
 assert (ci, [-Inf; 5.9508], 1e-4)    
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/cholcov.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cholcov.m
***** demo
 C1 = [2, 1, 1, 2; 1, 2, 1, 2; 1, 1, 2, 2; 2, 2, 2, 3]
 T = cholcov (C1)
 C2 = T'*T
***** test
 C1 = [2, 1, 1, 2; 1, 2, 1, 2; 1, 1, 2, 2; 2, 2, 2, 3];
 T = cholcov (C1);
 assert (C1, T'*T, 1e-15 * ones (size (C1)));
1 test, 1 passed, 0 known failure, 0 skipped
[inst/dist_fit/logllike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/logllike.m
***** test
 [nlogL, acov] = logllike ([3.09717, 0.468525], [1:50]);
 assert (nlogL, 211.2965, 1e-4);
 assert (acov, [0.0131, -0.0007; -0.0007, 0.0031], 1e-4);
***** test
 [nlogL, acov] = logllike ([1.01124, 0.336449], [1:5]);
 assert (nlogL, 9.2206, 1e-4);
 assert (acov, [0.0712, -0.0032; -0.0032, 0.0153], 1e-4);
***** error<logllike: function called with too few input arguments.> logllike (3.25)
***** error<logllike: X must be a vector.> logllike ([5, 0.2], ones (2))
***** error<logllike: PARAMS must be a two-element vector.> ...
 logllike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<logllike: X and CENSOR vector mismatch.> ...
 logllike ([1.5, 0.2], [1:5], [0, 0, 0])
***** error<logllike: X and FREQ vector mismatch.> ...
 logllike ([1.5, 0.2], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<logllike: X and FREQ vector mismatch.> ...
 logllike ([1.5, 0.2], [1:5], [], [1, 1, 1])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/logifit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/logifit.m
***** demo
 ## Sample 3 populations from different logistic distributions
 rand ("seed", 5)  # for reproducibility
 r1 = logirnd (2, 1, 2000, 1);
 rand ("seed", 2)   # for reproducibility
 r2 = logirnd (5, 2, 2000, 1);
 rand ("seed", 7)   # for reproducibility
 r3 = logirnd (9, 4, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [-6:20], 1);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 0.3]);
 xlim ([-5, 20]);
 hold on

 ## Estimate their MU and LAMBDA parameters
 mu_sA = logifit (r(:,1));
 mu_sB = logifit (r(:,2));
 mu_sC = logifit (r(:,3));

 ## Plot their estimated PDFs
 x = [-5:0.5:20];
 y = logipdf (x, mu_sA(1), mu_sA(2));
 plot (x, y, "-pr");
 y = logipdf (x, mu_sB(1), mu_sB(2));
 plot (x, y, "-sg");
 y = logipdf (x, mu_sC(1), mu_sC(2));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with μ=1 and s=0.5", ...
          "Normalized HIST of sample 2 with μ=2 and s=0.3", ...
          "Normalized HIST of sample 3 with μ=4 and s=0.5", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f and s=%0.2f", ...
                  mu_sA(1), mu_sA(2)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f and s=%0.2f", ...
                  mu_sB(1), mu_sB(2)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f and s=%0.2f", ...
                  mu_sC(1), mu_sC(2))})
 title ("Three population samples from different logistic distributions")
 hold off
***** test
 paramhat = logifit ([1:50]);
 paramhat_out = [25.5, 8.7724];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = logifit ([1:5]);
 paramhat_out = [3, 0.8645];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = logifit ([1:6], [], [], [1 1 1 1 1 0]);
 paramhat_out = [3, 0.8645];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = logifit ([1:5], [], [], [1 1 1 1 2]);
 paramhat_out = logifit ([1:5, 5]);
 assert (paramhat, paramhat_out, 1e-4);
***** error<logifit: X must be a vector.> logifit (ones (2,5));
***** error<logifit: wrong value for ALPHA.> logifit ([1, 2, 3, 4, 5], 1.2);
***** error<logifit: wrong value for ALPHA.> logifit ([1, 2, 3, 4, 5], 0);
***** error<logifit: wrong value for ALPHA.> logifit ([1, 2, 3, 4, 5], "alpha");
***** error<logifit: X and CENSOR vectors mismatch.> ...
 logifit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<logifit: X and CENSOR vectors mismatch.> ...
 logifit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<logifit: X and FREQ vectors mismatch.> ...
 logifit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<logifit: X and FREQ vectors mismatch.> ...
 logifit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<logifit: 'options' 5th argument must be a structure> ...
 logifit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fit/gpfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gpfit.m
***** demo
 ## Sample 2 populations from different generalized Pareto distributions
 ## Assume location parameter θ is known
 theta = 0;
 rand ("seed", 5);    # for reproducibility
 r1 = gprnd (1, 2, theta, 20000, 1);
 rand ("seed", 2);    # for reproducibility
 r2 = gprnd (3, 1, theta, 20000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, [0.1:0.2:100], 5);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "r");
 set (h(2), "facecolor", "c");
 ylim ([0, 1]);
 xlim ([0, 5]);
 hold on

 ## Estimate their α and β parameters
 k_sigmaA = gpfit (r(:,1), theta);
 k_sigmaB = gpfit (r(:,2), theta);

 ## Plot their estimated PDFs
 x = [0.01, 0.1:0.2:18];
 y = gppdf (x, k_sigmaA(1), k_sigmaA(2), theta);
 plot (x, y, "-pc");
 y = gppdf (x, k_sigmaB(1), k_sigmaB(2), theta);
 plot (x, y, "-sr");
 hold off
 legend ({"Normalized HIST of sample 1 with k=1 and σ=2", ...
          "Normalized HIST of sample 2 with k=2 and σ=2", ...
          sprintf("PDF for sample 1 with estimated k=%0.2f and σ=%0.2f", ...
                  k_sigmaA(1), k_sigmaA(2)), ...
          sprintf("PDF for sample 3 with estimated k=%0.2f and σ=%0.2f", ...
                  k_sigmaB(1), k_sigmaB(2))})
 title ("Two population samples from different generalized Pareto distributions")
 text (2, 0.7, "Known location parameter θ = 0")
 hold off
***** test
 k = 0.8937; sigma = 1.3230; theta = 1;
 x = [2.2196, 11.9301, 4.3673, 1.0949, 6.5626, ...
      1.2109, 1.8576, 1.0039, 12.7917, 2.2590];
 [hat, ci] = gpfit (x, theta);
 assert (hat, [k, sigma, theta], 1e-4);
 assert (ci, [-0.7750, 0.2437, 1; 2.5624, 7.1820, 1], 1e-4);
***** error<gpfit: function called with too few input arguments.> gpfit ()
***** error<gpfit: function called with too few input arguments.> gpfit (1)
***** error<gpfit: X must be a vector of real values.> gpfit ([0.2, 0.5+i], 0);
***** error<gpfit: X must be a vector of real values.> gpfit (ones (2,2) * 0.5, 0);
***** error<gpfit: THETA must be a real scalar value.> ...
 gpfit ([0.5, 1.2], [0, 1]);
***** error<gpfit: THETA must be a real scalar value.> ...
 gpfit ([0.5, 1.2], 5+i);
***** error<gpfit: X cannot contain values less than THETA.> ...
 gpfit ([1:5], 2);
***** error<gpfit: wrong value for ALPHA.> gpfit ([0.01:0.1:0.99], 0, 1.2);
***** error<gpfit: wrong value for ALPHA.> gpfit ([0.01:0.1:0.99], 0, i);
***** error<gpfit: wrong value for ALPHA.> gpfit ([0.01:0.1:0.99], 0, -1);
***** error<gpfit: wrong value for ALPHA.> gpfit ([0.01:0.1:0.99], 0, [0.05, 0.01]);
***** error<gpfit: X and FREQ vectors mismatch.>
 gpfit ([1 2 3], 0, [], [1 5])
***** error<gpfit: FREQ must not contain negative values.>
 gpfit ([1 2 3], 0, [], [1 5 -1])
***** error<gpfit: 'options' 5th argument must be a structure> ...
 gpfit ([1:10], 1, 0.05, [], 5)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fit/ricelike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/ricelike.m
***** test
 nlogL = ricelike ([15.3057344, 17.6668458], [1:50]);
 assert (nlogL, 204.5230311010569, 1e-12);
***** test
 nlogL = ricelike ([2.312346885, 1.681228265], [1:5]);
 assert (nlogL, 8.65562164930058, 1e-12);
***** error<ricelike: function called with too few input arguments.> ricelike (3.25)
***** error<ricelike: X must be a vector.> ricelike ([5, 0.2], ones (2))
***** error<ricelike: PARAMS must be a two-element vector.> ...
 ricelike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<ricelike: X and CENSOR vector mismatch.> ...
 ricelike ([1.5, 0.2], [1:5], [0, 0, 0])
***** error<ricelike: X and FREQ vector mismatch.> ...
 ricelike ([1.5, 0.2], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<ricelike: X and FREQ vector mismatch.> ...
 ricelike ([1.5, 0.2], [1:5], [], [1, 1, 1])
***** error<ricelike: FREQ must not contain negative values.> ...
 ricelike ([1.5, 0.2], [1:5], [], [1, 1, 1, 0, -1])
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fit/hnfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/hnfit.m
***** demo
 ## Sample 2 populations from different half-normal distributions
 rand ("seed", 1);   # for reproducibility
 r1 = hnrnd (0, 5, 5000, 1);
 rand ("seed", 2);   # for reproducibility
 r2 = hnrnd (0, 2, 5000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, [0.5:20], 1);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their shape parameters
 mu_sigmaA = hnfit (r(:,1), 0);
 mu_sigmaB = hnfit (r(:,2), 0);

 ## Plot their estimated PDFs
 x = [0:0.2:10];
 y = hnpdf (x, mu_sigmaA(1), mu_sigmaA(2));
 plot (x, y, "-pr");
 y = hnpdf (x, mu_sigmaB(1), mu_sigmaB(2));
 plot (x, y, "-sg");
 xlim ([0, 10])
 ylim ([0, 0.5])
 legend ({"Normalized HIST of sample 1 with μ=0 and σ=5", ...
          "Normalized HIST of sample 2 with μ=0 and σ=2", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f and σ=%0.2f", ...
                  mu_sigmaA(1), mu_sigmaA(2)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f and σ=%0.2f", ...
                  mu_sigmaB(1), mu_sigmaB(2))})
 title ("Two population samples from different half-normal distributions")
 hold off
***** test
 x = 1:20;
 [paramhat, paramci] = hnfit (x, 0);
 assert (paramhat, [0, 11.9791], 1e-4);
 assert (paramci, [0, 9.1648; 0, 17.2987], 1e-4);
***** test
 x = 1:20;
 [paramhat, paramci] = hnfit (x, 0, 0.01);
 assert (paramci, [0, 8.4709; 0, 19.6487], 1e-4);
***** error<hnfit: function called with too few input arguments.> hnfit ()
***** error<hnfit: function called with too few input arguments.> hnfit (1)
***** error<hnfit: X must be a vector of real values.> hnfit ([0.2, 0.5+i], 0);
***** error<hnfit: X must be a vector of real values.> hnfit (ones (2,2) * 0.5, 0);
***** error<hnfit: MU must be a real scalar value.> ...
 hnfit ([0.5, 1.2], [0, 1]);
***** error<hnfit: MU must be a real scalar value.> ...
 hnfit ([0.5, 1.2], 5+i);
***** error<hnfit: X cannot contain values less than MU.> ...
 hnfit ([1:5], 2);
***** error<hnfit: wrong value for ALPHA.> hnfit ([0.01:0.1:0.99], 0, 1.2);
***** error<hnfit: wrong value for ALPHA.> hnfit ([0.01:0.1:0.99], 0, i);
***** error<hnfit: wrong value for ALPHA.> hnfit ([0.01:0.1:0.99], 0, -1);
***** error<hnfit: wrong value for ALPHA.> hnfit ([0.01:0.1:0.99], 0, [0.05, 0.01]);
***** error<hnfit: X and FREQ vectors mismatch.>
 hnfit ([1 2 3], 0, [], [1 5])
***** error<hnfit: FREQ must not contain negative values.>
 hnfit ([1 2 3], 0, [], [1 5 -1])
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fit/nbinlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/nbinlike.m
***** assert (nbinlike ([2.42086, 0.0867043], [1:50]), 205.5942, 1e-4)
***** assert (nbinlike ([3.58823, 0.254697], [1:20]), 63.6435, 1e-4)
***** assert (nbinlike ([8.80671, 0.615565], [1:10]), 24.7410, 1e-4)
***** assert (nbinlike ([22.1756, 0.831306], [1:8]), 17.9528, 1e-4)
***** assert (nbinlike ([22.1756, 0.831306], [1:9], [ones(1,8), 0]), 17.9528, 1e-4)
***** error<nbinlike: function called with too few input arguments.> nbinlike (3.25)
***** error<nbinlike: X must be a vector.> nbinlike ([5, 0.2], ones (2))
***** error<nbinlike: X cannot have negative values.> nbinlike ([5, 0.2], [-1, 3])
***** error<nbinlike: PARAMS must be a two-element vector.> ...
 nbinlike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<nbinlike: number of successes,> nbinlike ([-5, 0.2], [1:15])
***** error<nbinlike: number of successes,> nbinlike ([0, 0.2], [1:15])
***** error<nbinlike: probability of success,> nbinlike ([5, 1.2], [3, 5])
***** error<nbinlike: probability of success,> nbinlike ([5, -0.2], [3, 5])
***** error<nbinlike: X and FREQ vectors mismatch.> ...
 nbinlike ([5, 0.2], ones (10, 1), ones (8,1))
***** error<nbinlike: FREQ must not contain negative values.> ...
 nbinlike ([5, 0.2], ones (1, 8), [1 1 1 1 1 1 1 -1])
***** error<nbinlike: FREQ must contain integer values.> ...
 nbinlike ([5, 0.2], ones (1, 8), [1 1 1 1 1 1 1 1.5])
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fit/gamlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gamlike.m
***** test
 [nlogL, acov] = gamlike([2, 3], [2, 3, 4, 5, 6, 7, 8, 9]);
 assert (nlogL, 19.4426, 1e-4);
 assert (acov, [2.7819, -5.0073; -5.0073, 9.6882], 1e-4);
***** test
 [nlogL, acov] = gamlike([2, 3], [5:45]);
 assert (nlogL, 305.8070, 1e-4);
 assert (acov, [0.0423, -0.0087; -0.0087, 0.0167], 1e-4);
***** test
 [nlogL, acov] = gamlike([2, 13], [5:45]);
 assert (nlogL, 163.2261, 1e-4);
 assert (acov, [0.2362, -1.6631; -1.6631, 13.9440], 1e-4);
***** error<gamlike: function called with too few input arguments.> ...
 gamlike ([12, 15])
***** error<gamlike: wrong parameters length.> gamlike ([12, 15, 3], [1:50])
***** error<gamlike: X must be a vector.> gamlike ([12, 3], ones (10, 2))
***** error<gamlike: X and CENSOR vectors mismatch.> ...
 gamlike ([12, 15], [1:50], [1, 2, 3])
***** error<gamlike: X and FREQ vectors mismatch.> ...
 gamlike ([12, 15], [1:50], [], [1, 2, 3])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/normfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/normfit.m
***** demo
 ## Sample 3 populations from 3 different normal distributions
 randn ("seed", 1);    # for reproducibility
 r1 = normrnd (2, 5, 5000, 1);
 randn ("seed", 2);    # for reproducibility
 r2 = normrnd (5, 2, 5000, 1);
 randn ("seed", 3);    # for reproducibility
 r3 = normrnd (9, 4, 5000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 15, 0.4);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 hold on

 ## Estimate their mu and sigma parameters
 [muhat, sigmahat] = normfit (r);

 ## Plot their estimated PDFs
 x = [min(r(:)):max(r(:))];
 y = normpdf (x, muhat(1), sigmahat(1));
 plot (x, y, "-pr");
 y = normpdf (x, muhat(2), sigmahat(2));
 plot (x, y, "-sg");
 y = normpdf (x, muhat(3), sigmahat(3));
 plot (x, y, "-^c");
 ylim ([0, 0.5])
 xlim ([-20, 20])
 hold off
 legend ({"Normalized HIST of sample 1 with mu=2, σ=5", ...
          "Normalized HIST of sample 2 with mu=5, σ=2", ...
          "Normalized HIST of sample 3 with mu=9, σ=4", ...
          sprintf("PDF for sample 1 with estimated mu=%0.2f and σ=%0.2f", ...
                  muhat(1), sigmahat(1)), ...
          sprintf("PDF for sample 2 with estimated mu=%0.2f and σ=%0.2f", ...
                  muhat(2), sigmahat(2)), ...
          sprintf("PDF for sample 3 with estimated mu=%0.2f and σ=%0.2f", ...
                  muhat(3), sigmahat(3))}, "location", "northwest")
 title ("Three population samples from different normal distributions")
 hold off
***** test
 load lightbulb
 idx = find (lightbulb(:,2) == 0);
 censoring = lightbulb(idx,3) == 1;
 [muHat, sigmaHat] = normfit (lightbulb(idx,1), [], censoring);
 assert (muHat, 9496.59586737857, 1e-11);
 assert (sigmaHat, 3064.021012796456, 2e-12);
***** test
 randn ("seed", 234);
 x = normrnd (3, 5, [1000, 1]);
 [muHat, sigmaHat, muCI, sigmaCI] = normfit (x, 0.01);
 assert (muCI(1) < 3);
 assert (muCI(2) > 3);
 assert (sigmaCI(1) < 5);
 assert (sigmaCI(2) > 5);
***** error<normfit: X must not be a multi-dimensional array.> ...
 normfit (ones (3,3,3))
***** error<normfit: matrix data acceptable only under 2-arg syntax.> ...
 normfit (ones (20,3), [], zeros (20,1))
***** error<normfit: wrong value for ALPHA.> normfit (ones (20,1), 0)
***** error<normfit: wrong value for ALPHA.> normfit (ones (20,1), -0.3)
***** error<normfit: wrong value for ALPHA.> normfit (ones (20,1), 1.2)
***** error<normfit: wrong value for ALPHA.> normfit (ones (20,1), [0.05 0.1])
***** error<normfit: wrong value for ALPHA.> normfit (ones (20,1), 0.02+i)
***** error<normfit: X and CENSOR vectors mismatch.> ...
 normfit (ones (20,1), [], zeros(15,1))
***** error<normfit: X and FREQ vectors mismatch.> ...
 normfit (ones (20,1), [], zeros(20,1), ones(25,1))
***** error<normfit: FREQ must not contain negative values.> ...
 normfit (ones (5,1), [], zeros(5,1), [1, 2, 1, 2, -1]')
***** error<normfit: > normfit (ones (20,1), [], zeros(20,1), ones(20,1), "options")
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fit/betafit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/betafit.m
***** demo
 ## Sample 2 populations from different Beta distributions
 randg ("seed", 1);   # for reproducibility
 r1 = betarnd (2, 5, 500, 1);
 randg ("seed", 2);   # for reproducibility
 r2 = betarnd (2, 2, 500, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, 12, 15);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their shape parameters
 a_b_A = betafit (r(:,1));
 a_b_B = betafit (r(:,2));

 ## Plot their estimated PDFs
 x = [min(r(:)):0.01:max(r(:))];
 y = betapdf (x, a_b_A(1), a_b_A(2));
 plot (x, y, "-pr");
 y = betapdf (x, a_b_B(1), a_b_B(2));
 plot (x, y, "-sg");
 ylim ([0, 4])
 legend ({"Normalized HIST of sample 1 with α=2 and β=5", ...
          "Normalized HIST of sample 2 with α=2 and β=2", ...
          sprintf("PDF for sample 1 with estimated α=%0.2f and β=%0.2f", ...
                  a_b_A(1), a_b_A(2)), ...
          sprintf("PDF for sample 2 with estimated α=%0.2f and β=%0.2f", ...
                  a_b_B(1), a_b_B(2))})
 title ("Two population samples from different Beta distributions")
 hold off
***** test
 x = 0.01:0.02:0.99;
 [paramhat, paramci] = betafit (x);
 paramhat_out = [1.0199, 1.0199];
 paramci_out = [0.6947, 0.6947; 1.4974, 1.4974];
 assert (paramhat, paramhat_out, 1e-4);
 assert (paramci, paramci_out, 1e-4);
***** test
 x = 0.01:0.02:0.99;
 [paramhat, paramci] = betafit (x, 0.01);
 paramci_out = [0.6157, 0.6157; 1.6895, 1.6895];
 assert (paramci, paramci_out, 1e-4);
***** test
 x = 0.00:0.02:1;
 [paramhat, paramci] = betafit (x);
 paramhat_out = [0.0875, 0.1913];
 paramci_out = [0.0822, 0.1490; 0.0931, 0.2455];
 assert (paramhat, paramhat_out, 1e-4);
 assert (paramci, paramci_out, 1e-4);
***** error<betafit: X must be a vector of real values.> betafit ([0.2, 0.5+i]);
***** error<betafit: X must be a vector of real values.> betafit (ones (2,2) * 0.5);
***** error<betafit: X must be in the range> betafit ([0.5, 1.2]);
***** error<betafit: X must contain distinct values.> betafit ([0.1, 0.1]);
***** error<betafit: wrong value for ALPHA.> betafit ([0.01:0.1:0.99], 1.2);
***** error<betafit: X and FREQ vectors mismatch.> ...
 betafit ([0.01:0.01:0.05], 0.05, [1, 2, 3, 2]);
***** error<betafit: FREQ must not contain negative values.> ...
 betafit ([0.01:0.01:0.05], 0.05, [1, 2, 3, 2, -1]);
***** error<betafit: FREQ must contain integer values.> ...
 betafit ([0.01:0.01:0.05], 0.05, [1, 2, 3, 2, 1.5]);
***** error<betafit: 'options' argument must be a structure> ...
 betafit ([0.01:0.01:0.05], 0.05, struct ("option", 234));
***** error<betafit: 'options' argument must be a structure> ...
 betafit ([0.01:0.01:0.05], 0.05, ones (1,5), struct ("option", 234));
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fit/lognfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/lognfit.m
***** demo
 ## Sample 3 populations from 3 different log-normal distributions
 randn ("seed", 1);    # for reproducibility
 r1 = lognrnd (0, 0.25, 1000, 1);
 randn ("seed", 2);    # for reproducibility
 r2 = lognrnd (0, 0.5, 1000, 1);
 randn ("seed", 3);    # for reproducibility
 r3 = lognrnd (0, 1, 1000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 30, 2);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 hold on

 ## Estimate their mu and sigma parameters
 mu_sigmaA = lognfit (r(:,1));
 mu_sigmaB = lognfit (r(:,2));
 mu_sigmaC = lognfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0:0.1:6];
 y = lognpdf (x, mu_sigmaA(1), mu_sigmaA(2));
 plot (x, y, "-pr");
 y = lognpdf (x, mu_sigmaB(1), mu_sigmaB(2));
 plot (x, y, "-sg");
 y = lognpdf (x, mu_sigmaC(1), mu_sigmaC(2));
 plot (x, y, "-^c");
 ylim ([0, 2])
 xlim ([0, 6])
 hold off
 legend ({"Normalized HIST of sample 1 with mu=0, σ=0.25", ...
          "Normalized HIST of sample 2 with mu=0, σ=0.5", ...
          "Normalized HIST of sample 3 with mu=0, σ=1", ...
          sprintf("PDF for sample 1 with estimated mu=%0.2f and σ=%0.2f", ...
                  mu_sigmaA(1), mu_sigmaA(2)), ...
          sprintf("PDF for sample 2 with estimated mu=%0.2f and σ=%0.2f", ...
                  mu_sigmaB(1), mu_sigmaB(2)), ...
          sprintf("PDF for sample 3 with estimated mu=%0.2f and σ=%0.2f", ...
                  mu_sigmaC(1), mu_sigmaC(2))}, "location", "northeast")
 title ("Three population samples from different log-normal distributions")
 hold off
***** test
 randn ("seed", 1);
 x = lognrnd (3, 5, [1000, 1]);
 [paramhat, paramci] = lognfit (x, 0.01);
 assert (paramci(1,1) < 3);
 assert (paramci(1,2) > 3);
 assert (paramci(2,1) < 5);
 assert (paramci(2,2) > 5);
***** error<lognfit: X must be a numeric vector of positive values.> ...
 lognfit (ones (20,3))
***** error<lognfit: X must be a numeric vector of positive values.> ...
 lognfit ({1, 2, 3, 4, 5})
***** error<lognfit: X must be a numeric vector of positive values.> ...
 lognfit ([-1, 2, 3, 4, 5])
***** error<lognfit: wrong value for ALPHA.> lognfit (ones (20,1), 0)
***** error<lognfit: wrong value for ALPHA.> lognfit (ones (20,1), -0.3)
***** error<lognfit: wrong value for ALPHA.> lognfit (ones (20,1), 1.2)
***** error<lognfit: wrong value for ALPHA.> lognfit (ones (20,1), [0.05,  0.1])
***** error<lognfit: wrong value for ALPHA.> lognfit (ones (20,1), 0.02+i)
***** error<lognfit: X and CENSOR vectors mismatch.> ...
 lognfit (ones (20,1), [], zeros(15,1))
***** error<lognfit: X and FREQ vectors mismatch.> ...
 lognfit (ones (20,1), [], zeros(20,1), ones(25,1))
***** error<lognfit: > lognfit (ones (20,1), [], zeros(20,1), ones(20,1), "options")
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fit/normlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/normlike.m
***** error<normlike: too few input arguments.> normlike ([12, 15]);
***** error<normlike: X must be a vector.> normlike ([12, 15], ones (2));
***** error<normlike: PARAMS must be a two-element vector.> ...
 normlike ([12, 15, 3], [1:50]);
***** error<normlike: X and CENSOR vectors mismatch.> ...
 normlike ([12, 15], [1:50], [1, 2, 3]);
***** error<normlike: X and FREQ vectors mismatch.> ...
 normlike ([12, 15], [1:50], [], [1, 2, 3]);
***** error<normlike: FREQ must not contain negative values.> ...
 normlike ([12, 15], [1:5], [], [1, 2, 3, 2, -1]);
***** test
 x = 1:50;
 [nlogL, avar] = normlike ([2.3, 1.2], x);
 avar_out = [7.5767e-01, -1.8850e-02; -1.8850e-02, 4.8750e-04];
 assert (nlogL, 13014.95883783327, 1e-10);
 assert (avar, avar_out, 1e-4);
***** test
 x = 1:50;
 [nlogL, avar] = normlike ([2.3, 1.2], x * 0.5);
 avar_out = [3.0501e-01, -1.5859e-02; -1.5859e-02, 9.1057e-04];
 assert (nlogL, 2854.802587833265, 1e-10);
 assert (avar, avar_out, 1e-4);
***** test
 x = 1:50;
 [nlogL, avar] = normlike ([21, 15], x);
 avar_out = [5.460474308300396, -1.600790513833993; ...
             -1.600790513833993, 2.667984189723321];
 assert (nlogL, 206.738325604233, 1e-12);
 assert (avar, avar_out, 1e-14);
***** test
 x = 1:50;
 censor = ones (1, 50);
 censor([2, 4, 6, 8, 12, 14]) = 0;
 [nlogL, avar] = normlike ([2.3, 1.2], x, censor);
 avar_out = [3.0501e-01, -1.5859e-02; -1.5859e-02, 9.1057e-04];
 assert (nlogL, Inf);
 assert (avar, [NaN, NaN; NaN, NaN]);
***** test
 x = 1:50;
 censor = ones (1, 50);
 censor([2, 4, 6, 8, 12, 14]) = 0;
 [nlogL, avar] = normlike ([21, 15], x, censor);
 avar_out = [24.4824488866131, -10.6649544179636; ...
             -10.6649544179636, 6.22827849965737];
 assert (nlogL, 86.9254371829733, 1e-12);
 assert (avar, avar_out, 8e-14);
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fit/lognlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/lognlike.m
***** test
 x = 1:50;
 [nlogL, avar] = lognlike ([0, 0.25], x);
 avar_out = [-5.4749e-03, 2.8308e-04; 2.8308e-04, -1.1916e-05];
 assert (nlogL, 3962.330333301793, 1e-10);
 assert (avar, avar_out, 1e-7);
***** test
 x = 1:50;
 [nlogL, avar] = lognlike ([0, 0.25], x * 0.5);
 avar_out = [-7.6229e-03, 4.8722e-04; 4.8722e-04, -2.6754e-05];
 assert (nlogL, 2473.183051225747, 1e-10);
 assert (avar, avar_out, 1e-7);
***** test
 x = 1:50;
 [nlogL, avar] = lognlike ([0, 0.5], x);
 avar_out = [-2.1152e-02, 2.2017e-03; 2.2017e-03, -1.8535e-04];
 assert (nlogL, 1119.072424020455, 1e-12);
 assert (avar, avar_out, 1e-6);
***** test
 x = 1:50;
 censor = ones (1, 50);
 censor([2, 4, 6, 8, 12, 14]) = 0;
 [nlogL, avar] = lognlike ([0, 0.5], x, censor);
 avar_out = [-1.9823e-02, 2.0370e-03; 2.0370e-03, -1.6618e-04];
 assert (nlogL, 1091.746371145497, 1e-12);
 assert (avar, avar_out, 1e-6);
***** test
 x = 1:50;
 censor = ones (1, 50);
 censor([2, 4, 6, 8, 12, 14]) = 0;
 [nlogL, avar] = lognlike ([0, 1], x, censor);
 avar_out = [-6.8634e-02, 1.3968e-02; 1.3968e-02, -2.1664e-03];
 assert (nlogL, 349.3969104144271, 1e-12);
 assert (avar, avar_out, 1e-6);
***** error<lognlike: function called with too few input arguments.> ...
 lognlike ([12, 15]);
***** error<lognlike: X must be a vector.> lognlike ([12, 15], ones (2));
***** error<lognlike: PARAMS must be a two-element vector.> ...
 lognlike ([12, 15, 3], [1:50]);
***** error<lognlike: X and CENSOR vectors mismatch.> ...
 lognlike ([12, 15], [1:50], [1, 2, 3]);
***** error<lognlike: X and FREQ vectors mismatch.> ...
 lognlike ([12, 15], [1:50], [], [1, 2, 3]);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_fit/poisslike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/poisslike.m
***** test
 x = [1 3 2 4 5 4 3 4];
 [nlogL, avar] = poisslike (3.25, x);
 assert (nlogL, 13.9533, 1e-4)
***** test
 x = [1 2 3 4 5];
 f = [1 1 2 3 1];
 [nlogL, avar] = poisslike (3.25, x, f);
 assert (nlogL, 13.9533, 1e-4)
***** error<poisslike: function called with too few input arguments.> poisslike (1)
***** error<poisslike: LAMBDA must be a positive scalar.> poisslike ([1 2 3], [1 2])
***** error<poisslike: X must be a vector of non-negative values.> ...
 poisslike (3.25, ones (10, 2))
***** error<poisslike: X must be a vector of non-negative values.> ...
 poisslike (3.25, [1 2 3 -4 5])
***** error<poisslike: X and FREQ vectors mismatch.> ...
 poisslike (3.25, ones (10, 1), ones (8,1))
***** error<poisslike: FREQ must not contain negative values.> ...
 poisslike (3.25, ones (1, 8), [1 1 1 1 1 1 1 -1])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/binofit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/binofit.m
***** demo
 ## Sample 2 populations from different binomial distributions
 rand ("seed", 1);    # for reproducibility
 r1 = binornd (50, 0.15, 1000, 1);
 rand ("seed", 2);    # for reproducibility
 r2 = binornd (100, 0.5, 1000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, 23, 0.35);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their probability of success
 pshatA = binofit (r(:,1), 50);
 pshatB = binofit (r(:,2), 100);

 ## Plot their estimated PDFs
 x = [min(r(:,1)):max(r(:,1))];
 y = binopdf (x, 50, mean (pshatA));
 plot (x, y, "-pg");
 x = [min(r(:,2)):max(r(:,2))];
 y = binopdf (x, 100, mean (pshatB));
 plot (x, y, "-sc");
 ylim ([0, 0.2])
 legend ({"Normalized HIST of sample 1 with ps=0.15", ...
          "Normalized HIST of sample 2 with ps=0.50", ...
          sprintf("PDF for sample 1 with estimated ps=%0.2f", ...
                  mean (pshatA)), ...
          sprintf("PDF for sample 2 with estimated ps=%0.2f", ...
                  mean (pshatB))})
 title ("Two population samples from different binomial distributions")
 hold off
***** test
 x = 0:3;
 [pshat, psci] = binofit (x, 3);
 assert (pshat, [0, 0.3333, 0.6667, 1], 1e-4);
 assert (psci(1,:), [0, 0.7076], 1e-4);
 assert (psci(2,:), [0.0084, 0.9057], 1e-4);
 assert (psci(3,:), [0.0943, 0.9916], 1e-4);
 assert (psci(4,:), [0.2924, 1.0000], 1e-4);
***** error<binofit: function called with too few input arguments.> ...
 binofit ([1 2 3 4])
***** error<binofit: X cannot have negative values.> ...
 binofit ([-1, 4, 3, 2], [1, 2, 3, 3])
***** error<binofit: X must be a vector.> binofit (ones(2), [1, 2, 3, 3])
***** error<binofit: N must be a non-negative integer.> ...
 binofit ([1, 4, 3, 2], [1, 2, -1, 3])
***** error<binofit: N must be a scalar or the same size as X.> ...
 binofit ([1, 4, 3, 2], [5, 5, 5])
***** error<binofit: N must be at least as large as X.> ...
 binofit ([1, 4, 3, 2], [5, 3, 5, 5])
***** error<binofit: wrong value for ALPHA.> binofit ([1, 2, 1], 3, 1.2);
***** error<binofit: wrong value for ALPHA.> binofit ([1, 2, 1], 3, 0);
***** error<binofit: wrong value for ALPHA.> binofit ([1, 2, 1], 3, "alpha");
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_fit/gevlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gevlike.m
***** test
 x = 1;
 k = 0.2;
 sigma = 0.3;
 mu = 0.5;
 [L, C] = gevlike ([k sigma mu], x);
 expected_L = 0.75942;
 expected_C = [-0.12547 1.77884 1.06731; 1.77884 16.40761 8.48877; 1.06731 8.48877 0.27979];
 assert (L, expected_L, 0.001);
 assert (C, inv (expected_C), 0.001);
***** test
 x = 1;
 k = 0;
 sigma = 0.3;
 mu = 0.5;
 [L, C] = gevlike ([k sigma mu], x);
 expected_L = 0.65157;
 expected_C = [0.090036 3.41229 2.047337; 3.412229 24.760027 12.510190; 2.047337 12.510190 2.098618];
 assert (L, expected_L, 0.001);
 assert (C, inv (expected_C), 0.001);
***** test
 x = -5:-1;
 k = -0.2;
 sigma = 0.3;
 mu = 0.5;
 [L, C] = gevlike ([k sigma mu], x);
 expected_L = 3786.4;
 expected_C = [1.6802e-07, 4.6110e-06, 8.7297e-05; ...
               4.6110e-06, 7.5693e-06, 1.2034e-05; ...
               8.7297e-05, 1.2034e-05, -0.0019125];
 assert (L, expected_L, -0.001);
 assert (C, expected_C, -0.001);
***** test
 x = -5:0;
 k = -0.2;
 sigma = 0.3;
 mu = 0.5;
 [L, C] = gevlike ([k sigma mu], x, [1, 1, 1, 1, 1, 0]);
 expected_L = 3786.4;
 expected_C = [1.6802e-07, 4.6110e-06, 8.7297e-05; ...
               4.6110e-06, 7.5693e-06, 1.2034e-05; ...
               8.7297e-05, 1.2034e-05, -0.0019125];
 assert (L, expected_L, -0.001);
 assert (C, expected_C, -0.001);
***** error<gevlike: function called with too few input arguments.> gevlike (3.25)
***** error<gevlike: X must be a vector.> gevlike ([1, 2, 3], ones (2))
***** error<gevlike: PARAMS must be a three-element vector.> ...
 gevlike ([1, 2], [1, 3, 5, 7])
***** error<gevlike: PARAMS must be a three-element vector.> ...
 gevlike ([1, 2, 3, 4], [1, 3, 5, 7])
***** error<gevlike: X and FREQ vectors mismatch.> ...
 gevlike ([5, 0.2, 1], ones (10, 1), ones (8,1))
***** error<gevlike: FREQ must not contain negative values.> ...
 gevlike ([5, 0.2, 1], ones (1, 8), [1 1 1 1 1 1 1 -1])
***** error<gevlike: FREQ must contain integer values.> ...
 gevlike ([5, 0.2, 1], ones (1, 8), [1 1 1 1 1 1 1 1.5])
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fit/logilike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/logilike.m
***** test
 nlogL = logilike ([25.5, 8.7725], [1:50]);
 assert (nlogL, 206.6769, 1e-4);
***** test
 nlogL = logilike ([3, 0.8645], [1:5]);
 assert (nlogL, 9.0699, 1e-4);
***** error<logilike: function called with too few input arguments.> logilike (3.25)
***** error<logilike: X must be a vector.> logilike ([5, 0.2], ones (2))
***** error<logilike: PARAMS must be a two-element vector.> ...
 logilike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<logilike: X and CENSOR vector mismatch.> ...
 logilike ([1.5, 0.2], [1:5], [0, 0, 0])
***** error<logilike: X and FREQ vector mismatch.> ...
 logilike ([1.5, 0.2], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<logilike: X and FREQ vector mismatch.> ...
 logilike ([1.5, 0.2], [1:5], [], [1, 1, 1])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/unifit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/unifit.m
***** demo
 ## Sample 2 populations from different continuous uniform distributions
 rand ("seed", 5);    # for reproducibility
 r1 = unifrnd (2, 5, 2000, 1);
 rand ("seed", 6);    # for reproducibility
 r2 = unifrnd (3, 9, 2000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, 0:0.5:10, 2);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their probability of success
 a_bA = unifit (r(:,1));
 a_bB = unifit (r(:,2));

 ## Plot their estimated PDFs
 x = [0:10];
 y = unifpdf (x, a_bA(1), a_bA(2));
 plot (x, y, "-pg");
 y = unifpdf (x, a_bB(1), a_bB(2));
 plot (x, y, "-sc");
 xlim ([1, 10])
 ylim ([0, 0.5])
 legend ({"Normalized HIST of sample 1 with a=2 and b=5", ...
          "Normalized HIST of sample 2 with a=3 and b=9", ...
          sprintf("PDF for sample 1 with estimated a=%0.2f and b=%0.2f", ...
                  a_bA(1), a_bA(2)), ...
          sprintf("PDF for sample 2 with estimated a=%0.2f and b=%0.2f", ...
                  a_bB(1), a_bB(2))})
 title ("Two population samples from different continuous uniform distributions")
 hold off
***** test
 x = 0:5;
 [paramhat, paramci] = unifit (x);
 assert (paramhat, [0, 5]);
 assert (paramci, [-3.2377, 8.2377; 0, 5], 1e-4);
***** test
 x = 0:5;
 [paramhat, paramci] = unifit (x, [], [1 1 1 1 1 1]);
 assert (paramhat, [0, 5]);
 assert (paramci, [-3.2377, 8.2377; 0, 5], 1e-4);
***** assert (unifit ([1 1 2 3]), unifit ([1 2 3], [] ,[2 1 1]))
***** error<unifit: function called with too few input arguments.> unifit ()
***** error<unifit: X cannot have negative values.> unifit (-1, [1 2 3 3])
***** error<unifit: wrong value for ALPHA.> unifit (1, 0)
***** error<unifit: wrong value for ALPHA.> unifit (1, 1.2)
***** error<unifit: wrong value for ALPHA.> unifit (1, [0.02 0.05])
***** error<unifit: X and FREQ vector mismatch.> ...
 unifit ([1.5, 0.2], [], [0, 0, 0, 0, 0])
***** error<unifit: FREQ cannot have negative values.> ...
 unifit ([1.5, 0.2], [], [1, -1])
***** error<unifit: X and FREQ vector mismatch.> ...
 unifit ([1.5, 0.2], [], [1, 1, 1])
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fit/hnlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/hnlike.m
***** test
 x = 1:20;
 paramhat = hnfit (x, 0);
 [nlogL, acov] = hnlike (paramhat, x);
 assert (nlogL, 64.179177404891300, 1e-14);
***** test
 x = 1:20;
 paramhat = hnfit (x, 0);
 [nlogL, acov] = hnlike (paramhat, x, ones (1, 20));
 assert (nlogL, 64.179177404891300, 1e-14);
***** error<hnlike: function called with too few input arguments.> ...
 hnlike ([12, 15]);
***** error<hnlike: wrong parameters length.> hnlike ([12, 15, 3], [1:50]);
***** error<hnlike: wrong parameters length.> hnlike ([3], [1:50]);
***** error<hnlike: X must be a vector of real values.> ...
 hnlike ([0, 3], ones (2));
***** error<hnlike: X must be a vector of real values.> ...
 hnlike ([0, 3], [1, 2, 3, 4, 5+i]);
***** error<hnlike: X and FREQ vectors mismatch.> ...
 hnlike ([1, 2], ones (10, 1), ones (8,1))
***** error<hnlike: FREQ must not contain negative values.> ...
 hnlike ([1, 2], ones (1, 8), [1 1 1 1 1 1 1 -1])
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fit/burrfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/burrfit.m
***** demo
 ## Sample 3 populations from different Burr type XII distributions
 rand ("seed", 4);    # for reproducibility
 r1 = burrrnd (3.5, 2, 2.5, 10000, 1);
 rand ("seed", 2);    # for reproducibility
 r2 = burrrnd (1, 3, 1, 10000, 1);
 rand ("seed", 9);    # for reproducibility
 r3 = burrrnd (0.5, 2, 3, 10000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [0.1:0.2:20], [18, 5, 3]);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 3]);
 xlim ([0, 5]);
 hold on

 ## Estimate their α and β parameters
 lambda_c_kA = burrfit (r(:,1));
 lambda_c_kB = burrfit (r(:,2));
 lambda_c_kC = burrfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0.01:0.15:15];
 y = burrpdf (x, lambda_c_kA(1), lambda_c_kA(2), lambda_c_kA(3));
 plot (x, y, "-pr");
 y = burrpdf (x, lambda_c_kB(1), lambda_c_kB(2), lambda_c_kB(3));
 plot (x, y, "-sg");
 y = burrpdf (x, lambda_c_kC(1), lambda_c_kC(2), lambda_c_kC(3));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with λ=3.5, c=2, and k=2.5", ...
          "Normalized HIST of sample 2 with λ=1, c=3, and k=1", ...
          "Normalized HIST of sample 3 with λ=0.5, c=2, and k=3", ...
  sprintf("PDF for sample 1 with estimated λ=%0.2f, c=%0.2f, and k=%0.2f", ...
          lambda_c_kA(1), lambda_c_kA(2), lambda_c_kA(3)), ...
  sprintf("PDF for sample 2 with estimated λ=%0.2f, c=%0.2f, and k=%0.2f", ...
          lambda_c_kB(1), lambda_c_kB(2), lambda_c_kB(3)), ...
  sprintf("PDF for sample 3 with estimated λ=%0.2f, c=%0.2f, and k=%0.2f", ...
          lambda_c_kC(1), lambda_c_kC(2), lambda_c_kC(3))})
 title ("Three population samples from different Burr type XII distributions")
 hold off
***** test
 l = 1; c = 2; k = 3;
 r = burrrnd (l, c, k, 100000, 1);
 lambda_c_kA = burrfit (r);
 assert (lambda_c_kA(1), l, 0.2);
 assert (lambda_c_kA(2), c, 0.2);
 assert (lambda_c_kA(3), k, 0.3);
***** test
 l = 0.5; c = 1; k = 3;
 r = burrrnd (l, c, k, 100000, 1);
 lambda_c_kA = burrfit (r);
 assert (lambda_c_kA(1), l, 0.2);
 assert (lambda_c_kA(2), c, 0.2);
 assert (lambda_c_kA(3), k, 0.3);
***** test
 l = 1; c = 3; k = 1;
 r = burrrnd (l, c, k, 100000, 1);
 lambda_c_kA = burrfit (r);
 assert (lambda_c_kA(1), l, 0.2);
 assert (lambda_c_kA(2), c, 0.2);
 assert (lambda_c_kA(3), k, 0.3);
***** test
 l = 3; c = 2; k = 1;
 r = burrrnd (l, c, k, 100000, 1);
 lambda_c_kA = burrfit (r);
 assert (lambda_c_kA(1), l, 0.2);
 assert (lambda_c_kA(2), c, 0.2);
 assert (lambda_c_kA(3), k, 0.3);
***** test
 l = 4; c = 2; k = 4;
 r = burrrnd (l, c, k, 100000, 1);
 lambda_c_kA = burrfit (r);
 assert (lambda_c_kA(1), l, 0.2);
 assert (lambda_c_kA(2), c, 0.2);
 assert (lambda_c_kA(3), k, 0.3);
***** error<burrfit: X must be a vector.> burrfit (ones (2,5));
***** error<burrfit: X must contain only positive values.> burrfit ([-1 2 3 4]);
***** error<burrfit: wrong value for ALPHA.> burrfit ([1, 2, 3, 4, 5], 1.2);
***** error<burrfit: wrong value for ALPHA.> burrfit ([1, 2, 3, 4, 5], 0);
***** error<burrfit: wrong value for ALPHA.> burrfit ([1, 2, 3, 4, 5], "alpha");
***** error<burrfit: X and CENSOR vectors mismatch.> ...
 burrfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<burrfit: X and CENSOR vectors mismatch.> ...
 burrfit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<burrfit: X and FREQ vectors mismatch.>
 burrfit ([1, 2, 3, 4, 5], 0.05, [], [1, 1, 5])
***** error<burrfit: FREQ must not contain negative values.>
 burrfit ([1, 2, 3, 4, 5], 0.05, [], [1, 5, 1, 1, -1])
***** error<burrfit: 'options' 5th argument must be a structure> ...
 burrfit ([1:10], 0.05, [], [], 5)
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fit/tlslike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/tlslike.m
***** test
 x = [-1.2352, -0.2741, 0.1726, 7.4356, 1.0392, 16.4165];
 [nlogL, acov] = tlslike ([0.035893, 0.862711, 0.649261], x);
 acov_out = [0.2525, 0.0670, 0.0288; ...
             0.0670, 0.5724, 0.1786; ...
             0.0288, 0.1786, 0.1789];
 assert (nlogL, 17.9979636579, 1e-10);
 assert (acov, acov_out, 1e-4);
***** error<tlslike: too few input arguments.> tlslike ([12, 15, 1]);
***** error<tlslike: wrong parameters length.> tlslike ([12, 15], [1:50]);
***** error<tlslike: X must be a vector.> tlslike ([12, 3, 1], ones (10, 2));
***** error<tlslike: X and CENSOR> tlslike ([12, 15, 1], [1:50], [1, 2, 3]);
***** error<tlslike: X and FREQ> tlslike ([12, 15, 1], [1:50], [], [1, 2, 3]);
***** error<tlslike: FREQ cannot> tlslike ([12, 15, 1], [1:3], [], [1, 2, -3]);
7 tests, 7 passed, 0 known failure, 0 skipped
[inst/dist_fit/tlsfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/tlsfit.m
***** demo
 ## Sample 3 populations from 3 different location-scale T distributions
 randn ("seed", 1);    # for reproducibility
 randg ("seed", 2);    # for reproducibility
 r1 = tlsrnd (-4, 3, 1, 2000, 1);
 randn ("seed", 3);    # for reproducibility
 randg ("seed", 4);    # for reproducibility
 r2 = tlsrnd (0, 3, 1, 2000, 1);
 randn ("seed", 5);    # for reproducibility
 randg ("seed", 6);    # for reproducibility
 r3 = tlsrnd (5, 5, 4, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [-21:21], [1, 1, 1]);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 0.25]);
 xlim ([-20, 20]);
 hold on

 ## Estimate their lambda parameter
 mu_sigma_nuA = tlsfit (r(:,1));
 mu_sigma_nuB = tlsfit (r(:,2));
 mu_sigma_nuC = tlsfit (r(:,3));

 ## Plot their estimated PDFs
 x = [-20:0.1:20];
 y = tlspdf (x, mu_sigma_nuA(1), mu_sigma_nuA(2), mu_sigma_nuA(3));
 plot (x, y, "-pr");
 y = tlspdf (x, mu_sigma_nuB(1), mu_sigma_nuB(2), mu_sigma_nuB(3));
 plot (x, y, "-sg");
 y = tlspdf (x, mu_sigma_nuC(1), mu_sigma_nuC(2), mu_sigma_nuC(3));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with μ=0, σ=2 and nu=1", ...
          "Normalized HIST of sample 2 with μ=5, σ=2 and nu=1", ...
          "Normalized HIST of sample 3 with μ=3, σ=4 and nu=3", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f, σ=%0.2f, and ν=%0.2f", ...
                  mu_sigma_nuA(1), mu_sigma_nuA(2), mu_sigma_nuA(3)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f, σ=%0.2f, and ν=%0.2f", ...
                  mu_sigma_nuB(1), mu_sigma_nuB(2), mu_sigma_nuB(3)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f, σ=%0.2f, and ν=%0.2f", ...
                  mu_sigma_nuC(1), mu_sigma_nuC(2), mu_sigma_nuC(3))})
 title ("Three population samples from different location-scale T distributions")
 hold off
***** test
 x = [-1.2352, -0.2741, 0.1726, 7.4356, 1.0392, 16.4165];
 [paramhat, paramci] = tlsfit (x);
 paramhat_out = [0.035893, 0.862711, 0.649261];
 paramci_out = [-0.949034, 0.154655, 0.181080; 1.02082, 4.812444, 2.327914];
 assert (paramhat, paramhat_out, 1e-6);
 assert (paramci, paramci_out, 1e-5);
***** test
 x = [-1.2352, -0.2741, 0.1726, 7.4356, 1.0392, 16.4165];
 [paramhat, paramci] = tlsfit (x, 0.01);
 paramci_out = [-1.2585, 0.0901, 0.1212; 1.3303, 8.2591, 3.4771];
 assert (paramci, paramci_out, 1e-4);
***** error<tlsfit: X must be a vector.> tlsfit (ones (2,5));
***** error<tlsfit: wrong value for ALPHA.> tlsfit ([1, 2, 3, 4, 5], 1.2);
***** error<tlsfit: wrong value for ALPHA.> tlsfit ([1, 2, 3, 4, 5], 0);
***** error<tlsfit: wrong value for ALPHA.> tlsfit ([1, 2, 3, 4, 5], "alpha");
***** error<tlsfit: X and CENSOR vectors mismatch.> ...
 tlsfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<tlsfit: X and CENSOR vectors mismatch.> ...
 tlsfit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<tlsfit: X and FREQ vectors mismatch.> ...
 tlsfit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<tlsfit: X and FREQ vectors mismatch.> ...
 tlsfit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<tlsfit: FREQ cannot have negative values.> ...
 tlsfit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 -1]);
***** error<tlsfit: 'options' 5th argument must be a structure> ...
 tlsfit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fit/bisafit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/bisafit.m
***** demo
 ## Sample 3 populations from different Birnbaum-Saunders distributions
 rand ("seed", 5);    # for reproducibility
 r1 = bisarnd (1, 0.5, 2000, 1);
 rand ("seed", 2);    # for reproducibility
 r2 = bisarnd (2, 0.3, 2000, 1);
 rand ("seed", 7);    # for reproducibility
 r3 = bisarnd (4, 0.5, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 80, 4.2);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 1.1]);
 xlim ([0, 8]);
 hold on

 ## Estimate their α and β parameters
 beta_gammaA = bisafit (r(:,1));
 beta_gammaB = bisafit (r(:,2));
 beta_gammaC = bisafit (r(:,3));

 ## Plot their estimated PDFs
 x = [0:0.1:8];
 y = bisapdf (x, beta_gammaA(1), beta_gammaA(2));
 plot (x, y, "-pr");
 y = bisapdf (x, beta_gammaB(1), beta_gammaB(2));
 plot (x, y, "-sg");
 y = bisapdf (x, beta_gammaC(1), beta_gammaC(2));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with β=1 and γ=0.5", ...
          "Normalized HIST of sample 2 with β=2 and γ=0.3", ...
          "Normalized HIST of sample 3 with β=4 and γ=0.5", ...
          sprintf("PDF for sample 1 with estimated β=%0.2f and γ=%0.2f", ...
                  beta_gammaA(1), beta_gammaA(2)), ...
          sprintf("PDF for sample 2 with estimated β=%0.2f and γ=%0.2f", ...
                  beta_gammaB(1), beta_gammaB(2)), ...
          sprintf("PDF for sample 3 with estimated β=%0.2f and γ=%0.2f", ...
                  beta_gammaC(1), beta_gammaC(2))})
 title ("Three population samples from different Birnbaum-Saunders distributions")
 hold off
***** test
 paramhat = bisafit ([1:50]);
 paramhat_out = [16.2649, 1.0156];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = bisafit ([1:5]);
 paramhat_out = [2.5585, 0.5839];
 assert (paramhat, paramhat_out, 1e-4);
***** error<bisafit: X must be a vector.> bisafit (ones (2,5));
***** error<bisafit: X must contain only positive values.> bisafit ([-1 2 3 4]);
***** error<bisafit: wrong value for ALPHA.> bisafit ([1, 2, 3, 4, 5], 1.2);
***** error<bisafit: wrong value for ALPHA.> bisafit ([1, 2, 3, 4, 5], 0);
***** error<bisafit: wrong value for ALPHA.> bisafit ([1, 2, 3, 4, 5], "alpha");
***** error<bisafit: X and CENSOR vectors mismatch.> ...
 bisafit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<bisafit: X and CENSOR vectors mismatch.> ...
 bisafit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<bisafit: X and FREQ vectors mismatch.> ...
 bisafit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<bisafit: X and FREQ vectors mismatch.> ...
 bisafit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<bisafit: 'options' 5th argument must be a structure> ...
 bisafit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fit/evfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/evfit.m
***** demo
 ## Sample 3 populations from different extreme value distributions
 rand ("seed", 1);    # for reproducibility
 r1 = evrnd (2, 5, 400, 1);
 rand ("seed", 12);    # for reproducibility
 r2 = evrnd (-5, 3, 400, 1);
 rand ("seed", 13);    # for reproducibility
 r3 = evrnd (14, 8, 400, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 25, 0.4);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 0.28])
 xlim ([-30, 30]);
 hold on

 ## Estimate their MU and SIGMA parameters
 mu_sigmaA = evfit (r(:,1));
 mu_sigmaB = evfit (r(:,2));
 mu_sigmaC = evfit (r(:,3));

 ## Plot their estimated PDFs
 x = [min(r(:)):max(r(:))];
 y = evpdf (x, mu_sigmaA(1), mu_sigmaA(2));
 plot (x, y, "-pr");
 y = evpdf (x, mu_sigmaB(1), mu_sigmaB(2));
 plot (x, y, "-sg");
 y = evpdf (x, mu_sigmaC(1), mu_sigmaC(2));
 plot (x, y, "-^c");
 legend ({"Normalized HIST of sample 1 with μ=2 and σ=5", ...
          "Normalized HIST of sample 2 with μ=-5 and σ=3", ...
          "Normalized HIST of sample 3 with μ=14 and σ=8", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f and σ=%0.2f", ...
                  mu_sigmaA(1), mu_sigmaA(2)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f and σ=%0.2f", ...
                  mu_sigmaB(1), mu_sigmaB(2)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f and σ=%0.2f", ...
                  mu_sigmaC(1), mu_sigmaC(2))})
 title ("Three population samples from different extreme value distributions")
 hold off
***** test
 x = 1:50;
 [paramhat, paramci] = evfit (x);
 paramhat_out = [32.6811, 13.0509];
 paramci_out = [28.8504, 10.5294; 36.5118, 16.1763];
 assert (paramhat, paramhat_out, 1e-4);
 assert (paramci, paramci_out, 1e-4);
***** test
 x = 1:50;
 [paramhat, paramci] = evfit (x, 0.01);
 paramci_out = [27.6468, 9.8426; 37.7155, 17.3051];
 assert (paramci, paramci_out, 1e-4);
***** error<evfit: X must be a double-precision vector.> evfit (ones (2,5));
***** error<evfit: X must be a double-precision vector.> evfit (single (ones (1,5)));
***** error<evfit: X must NOT contain missing values> evfit ([1, 2, 3, 4, NaN]);
***** error<evfit: wrong value for ALPHA.> evfit ([1, 2, 3, 4, 5], 1.2);
***** error<evfit: X and FREQ vectors mismatch.>
 evfit ([1 2 3], 0.05, [], [1 5])
***** error<evfit: FREQ must not contain negative values.>
 evfit ([1 2 3], 0.05, [], [1 5 -1])
***** error<evfit: 'options' 5th argument must be a structure> ...
 evfit ([1:10], 0.05, [], [], 5)
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fit/rayllike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/rayllike.m
***** test
 x = [1 3 2 4 5 4 3 4];
 [nlogL, acov] = rayllike (3.25, x);
 assert (nlogL, 14.7442, 1e-4)
***** test
 x = [1 2 3 4 5];
 f = [1 1 2 3 1];
 [nlogL, acov] = rayllike (3.25, x, [], f);
 assert (nlogL, 14.7442, 1e-4)
***** test
 x = [1 2 3 4 5 6];
 f = [1 1 2 3 1 0];
 [nlogL, acov] = rayllike (3.25, x, [], f);
 assert (nlogL, 14.7442, 1e-4)
***** test
 x = [1 2 3 4 5 6];
 c = [0 0 0 0 0 1];
 f = [1 1 2 3 1 0];
 [nlogL, acov] = rayllike (3.25, x, c, f);
 assert (nlogL, 14.7442, 1e-4)
***** error<rayllike: function called with too few input arguments.> rayllike (1)
***** error<rayllike: SIGMA must be a positive scalar.> rayllike ([1 2 3], [1 2])
***** error<rayllike: X must be a vector of non-negative values.> ...
 rayllike (3.25, ones (10, 2))
***** error<rayllike: X must be a vector of non-negative values.> ...
 rayllike (3.25, [1 2 3 -4 5])
***** error<rayllike: X and CENSOR vectors mismatch.> ...
 rayllike (3.25, [1, 2, 3, 4, 5], [1 1 0]);
***** error<rayllike: X and CENSOR vectors mismatch.> ...
 rayllike (3.25, [1, 2, 3, 4, 5], [1 1 0 1 1]');
***** error<rayllike: X and FREQ vectors mismatch.> ...
 rayllike (3.25, [1, 2, 3, 4, 5], zeros (1,5), [1 1 0]);
***** error<rayllike: X and FREQ vectors mismatch.> ...
 rayllike (3.25, [1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<rayllike: FREQ must not contain negative values.> ...
 rayllike (3.25, ones (1, 8), [], [1 1 1 1 1 1 1 -1])
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fit/burrlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/burrlike.m
***** error<burrlike: function called with too few input arguments.> burrlike (3.25)
***** error<burrlike: X must be a vector.> burrlike ([1, 2, 3], ones (2))
***** error<burrlike: X cannot have negative values.> burrlike ([1, 2, 3], [-1, 3])
***** error<burrlike: PARAMS must be a three-element vector.> ...
 burrlike ([1, 2], [1, 3, 5, 7])
***** error<burrlike: PARAMS must be a three-element vector.> ...
 burrlike ([1, 2, 3, 4], [1, 3, 5, 7])
***** error<burrlike: X and CENSOR vector mismatch.> ...
 burrlike ([1, 2, 3], [1:5], [0, 0, 0])
***** error<burrlike: X and FREQ vector mismatch.> ...
 burrlike ([1, 2, 3], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<burrlike: X and FREQ vector mismatch.> ...
 burrlike ([1, 2, 3], [1:5], [], [1, 1, 1])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/gumbelfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gumbelfit.m
***** demo
 ## Sample 3 populations from different Gumbel distributions
 rand ("seed", 1);    # for reproducibility
 r1 = gumbelrnd (2, 5, 400, 1);
 rand ("seed", 11);    # for reproducibility
 r2 = gumbelrnd (-5, 3, 400, 1);
 rand ("seed", 16);    # for reproducibility
 r3 = gumbelrnd (14, 8, 400, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 25, 0.32);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 0.28])
 xlim ([-11, 50]);
 hold on

 ## Estimate their MU and BETA parameters
 mu_betaA = gumbelfit (r(:,1));
 mu_betaB = gumbelfit (r(:,2));
 mu_betaC = gumbelfit (r(:,3));

 ## Plot their estimated PDFs
 x = [min(r(:)):max(r(:))];
 y = gumbelpdf (x, mu_betaA(1), mu_betaA(2));
 plot (x, y, "-pr");
 y = gumbelpdf (x, mu_betaB(1), mu_betaB(2));
 plot (x, y, "-sg");
 y = gumbelpdf (x, mu_betaC(1), mu_betaC(2));
 plot (x, y, "-^c");
 legend ({"Normalized HIST of sample 1 with μ=2 and β=5", ...
          "Normalized HIST of sample 2 with μ=-5 and β=3", ...
          "Normalized HIST of sample 3 with μ=14 and β=8", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f and β=%0.2f", ...
                  mu_betaA(1), mu_betaA(2)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f and β=%0.2f", ...
                  mu_betaB(1), mu_betaB(2)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f and β=%0.2f", ...
                  mu_betaC(1), mu_betaC(2))})
 title ("Three population samples from different Gumbel distributions")
 hold off
***** test
 x = 1:50;
 [paramhat, paramci] = gumbelfit (x);
 paramhat_out = [18.3188, 13.0509];
 paramci_out = [14.4882, 10.5294; 22.1495, 16.1763];
 assert (paramhat, paramhat_out, 1e-4);
 assert (paramci, paramci_out, 1e-4);
***** test
 x = 1:50;
 [paramhat, paramci] = gumbelfit (x, 0.01);
 paramci_out = [13.2845, 9.8426; 23.3532, 17.3051];
 assert (paramci, paramci_out, 1e-4);
***** error<gumbelfit: X must be a double-precision vector.> gumbelfit (ones (2,5));
***** error<gumbelfit: X must be a double-precision vector.> ...
 gumbelfit (single (ones (1,5)));
***** error<gumbelfit: X must NOT contain missing values> ...
 gumbelfit ([1, 2, 3, 4, NaN]);
***** error<gumbelfit: wrong value for ALPHA.> gumbelfit ([1, 2, 3, 4, 5], 1.2);
***** error<gumbelfit: X and CENSOR vectors mismatch.> ...
 gumbelfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<gumbelfit: X and FREQ vectors mismatch.> ...
 gumbelfit ([1, 2, 3, 4, 5], 0.05, [], [1 1 0]);
***** error<gamfit: FREQ must not contain negative values.>
 gamfit ([1, 2, 3], 0.05, [], [1 5 -1])
***** error<gumbelfit: 'options' 5th argument> ...
 gumbelfit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_fit/gevfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gevfit.m
***** demo
 ## Sample 2 populations from 2 different exponential distributions
 rand ("seed", 1);   # for reproducibility
 r1 = gevrnd (-0.5, 1, 2, 5000, 1);
 rand ("seed", 2);   # for reproducibility
 r2 = gevrnd (0, 1, -4, 5000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, 50, 5);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their k, sigma, and mu parameters
 k_sigma_muA = gevfit (r(:,1));
 k_sigma_muB = gevfit (r(:,2));

 ## Plot their estimated PDFs
 x = [-10:0.5:20];
 y = gevpdf (x, k_sigma_muA(1), k_sigma_muA(2), k_sigma_muA(3));
 plot (x, y, "-pr");
 y = gevpdf (x, k_sigma_muB(1), k_sigma_muB(2), k_sigma_muB(3));
 plot (x, y, "-sg");
 ylim ([0, 0.7])
 xlim ([-7, 5])
 legend ({"Normalized HIST of sample 1 with k=-0.5, σ=1, μ=2", ...
          "Normalized HIST of sample 2 with k=0, σ=1, μ=-4",
     sprintf("PDF for sample 1 with estimated k=%0.2f, σ=%0.2f, μ=%0.2f", ...
                 k_sigma_muA(1), k_sigma_muA(2), k_sigma_muA(3)), ...
     sprintf("PDF for sample 3 with estimated k=%0.2f, σ=%0.2f, μ=%0.2f", ...
                 k_sigma_muB(1), k_sigma_muB(2), k_sigma_muB(3))})
 title ("Two population samples from different exponential distributions")
 hold off
***** test
 x = 1:50;
 [pfit, pci] = gevfit (x);
 pfit_out = [-0.4407, 15.1923, 21.5309];
 pci_out = [-0.7532, 11.5878, 16.5686; -0.1282, 19.9183, 26.4926];
 assert (pfit, pfit_out, 1e-3);
 assert (pci, pci_out, 1e-3);
***** test
 x = 1:2:50;
 [pfit, pci] = gevfit (x);
 pfit_out = [-0.4434, 15.2024, 21.0532];
 pci_out = [-0.8904, 10.3439, 14.0168; 0.0035, 22.3429, 28.0896];
 assert (pfit, pfit_out, 1e-3);
 assert (pci, pci_out, 1e-3);
***** error<gevfit: X must be a vector.> gevfit (ones (2,5));
***** error<gevfit: wrong value for ALPHA.> gevfit ([1, 2, 3, 4, 5], 1.2);
***** error<gevfit: wrong value for ALPHA.> gevfit ([1, 2, 3, 4, 5], 0);
***** error<gevfit: wrong value for ALPHA.> gevfit ([1, 2, 3, 4, 5], "alpha");
***** error<gevfit: X and FREQ vectors mismatch.> ...
 gevfit ([1, 2, 3, 4, 5], 0.05, [1, 2, 3, 2]);
***** error<gevfit: FREQ must not contain negative values.> ...
 gevfit ([1, 2, 3, 4, 5], 0.05, [1, 2, 3, 2, -1]);
***** error<gevfit: FREQ must contain integer values.> ...
 gevfit ([1, 2, 3, 4, 5], 0.05, [1, 2, 3, 2, 1.5]);
***** error<gevfit: 'options' argument must be a structure> ...
 gevfit ([1, 2, 3, 4, 5], 0.05, struct ("option", 234));
***** error<gevfit: 'options' argument must be a structure> ...
 gevfit ([1, 2, 3, 4, 5], 0.05, ones (1,5), struct ("option", 234));
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fit/evlike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/evlike.m
***** test
 x = 1:50;
 [nlogL, acov] = evlike ([2.3, 1.2], x);
 avar_out = [-1.2778e-13, 3.1859e-15; 3.1859e-15, -7.9430e-17];
 assert (nlogL, 3.242264755689906e+17, 1e-14);
 assert (acov, avar_out, 1e-3);
***** test
 x = 1:50;
 [nlogL, acov] = evlike ([2.3, 1.2], x * 0.5);
 avar_out = [-7.6094e-05, 3.9819e-06; 3.9819e-06, -2.0836e-07];
 assert (nlogL, 481898704.0472211, 1e-6);
 assert (acov, avar_out, 1e-3);
***** test
 x = 1:50;
 [nlogL, acov] = evlike ([21, 15], x);
 avar_out = [11.73913876598908, -5.9546128523121216; ...
             -5.954612852312121, 3.708060045170236];
 assert (nlogL, 223.7612479380652, 1e-13);
 assert (acov, avar_out, 1e-14);
***** error<evlike: function called with too few input arguments.> evlike ([12, 15])
***** error<evlike: wrong parameters length.> evlike ([12, 15, 3], [1:50])
***** error<evlike: X must be a vector.> evlike ([12, 3], ones (10, 2))
***** error<evlike: X and CENSOR vectors mismatch.> ...
 evlike ([12, 15], [1:50], [1, 2, 3])
***** error<evlike: X and FREQ vectors mismatch.> ...
 evlike ([12, 15], [1:50], [], [1, 2, 3])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/gumbellike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gumbellike.m
***** test
 x = 1:50;
 [nlogL, avar] = gumbellike ([2.3, 1.2], x);
 avar_out = [-1.2778e-13, 3.1859e-15; 3.1859e-15, -7.9430e-17];
 assert (nlogL, 3.242264755689906e+17, 1e-14);
 assert (avar, avar_out, 1e-3);
***** test
 x = 1:50;
 [nlogL, avar] = gumbellike ([2.3, 1.2], x * 0.5);
 avar_out = [-7.6094e-05, 3.9819e-06; 3.9819e-06, -2.0836e-07];
 assert (nlogL, 481898704.0472211, 1e-6);
 assert (avar, avar_out, 1e-3);
***** test
 x = 1:50;
 [nlogL, avar] = gumbellike ([21, 15], x);
 avar_out = [11.73913876598908, -5.9546128523121216; ...
             -5.954612852312121, 3.708060045170236];
 assert (nlogL, 223.7612479380652, 1e-13);
 assert (avar, avar_out, 1e-14);
***** error<gumbellike: too few input arguments.> gumbellike ([12, 15]);
***** error<gumbellike: wrong parameters length.> gumbellike ([12, 15, 3], [1:50]);
***** error<gumbellike: X must be a vector.> gumbellike ([12, 3], ones (10, 2));
***** error<gumbellike: X and CENSOR> gumbellike ([12, 15], [1:50], [1, 2, 3]);
***** error<gumbellike: X and FREQ> gumbellike ([12, 15], [1:50], [], [1, 2, 3]);
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/nakafit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/nakafit.m
***** demo
 ## Sample 3 populations from different Nakagami distributions
 randg ("seed", 5)  # for reproducibility
 r1 = nakarnd (0.5, 1, 2000, 1);
 randg ("seed", 2)   # for reproducibility
 r2 = nakarnd (5, 1, 2000, 1);
 randg ("seed", 7)   # for reproducibility
 r3 = nakarnd (2, 2, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [0.05:0.1:3.5], 10);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 2.5]);
 xlim ([0, 3.0]);
 hold on

 ## Estimate their MU and LAMBDA parameters
 mu_omegaA = nakafit (r(:,1));
 mu_omegaB = nakafit (r(:,2));
 mu_omegaC = nakafit (r(:,3));

 ## Plot their estimated PDFs
 x = [0.01:0.1:3.01];
 y = nakapdf (x, mu_omegaA(1), mu_omegaA(2));
 plot (x, y, "-pr");
 y = nakapdf (x, mu_omegaB(1), mu_omegaB(2));
 plot (x, y, "-sg");
 y = nakapdf (x, mu_omegaC(1), mu_omegaC(2));
 plot (x, y, "-^c");
 legend ({"Normalized HIST of sample 1 with μ=0.5 and ω=1", ...
          "Normalized HIST of sample 2 with μ=5 and ω=1", ...
          "Normalized HIST of sample 3 with μ=2 and ω=2", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f and ω=%0.2f", ...
                  mu_omegaA(1), mu_omegaA(2)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f and ω=%0.2f", ...
                  mu_omegaB(1), mu_omegaB(2)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f and ω=%0.2f", ...
                  mu_omegaC(1), mu_omegaC(2))})
 title ("Three population samples from different Nakagami distributions")
 hold off
***** test
 paramhat = nakafit ([1:50]);
 paramhat_out = [0.7355, 858.5];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = nakafit ([1:5]);
 paramhat_out = [1.1740, 11];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = nakafit ([1:6], [], [], [1 1 1 1 1 0]);
 paramhat_out = [1.1740, 11];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = nakafit ([1:5], [], [], [1 1 1 1 2]);
 paramhat_out = nakafit ([1:5, 5]);
 assert (paramhat, paramhat_out, 1e-4);
***** error<nakafit: X must be a vector.> nakafit (ones (2,5));
***** error<nakafit: wrong value for ALPHA.> nakafit ([1, 2, 3, 4, 5], 1.2);
***** error<nakafit: wrong value for ALPHA.> nakafit ([1, 2, 3, 4, 5], 0);
***** error<nakafit: wrong value for ALPHA.> nakafit ([1, 2, 3, 4, 5], "alpha");
***** error<nakafit: X and CENSOR vectors mismatch.> ...
 nakafit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<nakafit: X and CENSOR vectors mismatch.> ...
 nakafit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<nakafit: X and FREQ vectors mismatch.> ...
 nakafit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<nakafit: X and FREQ vectors mismatch.> ...
 nakafit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<nakafit: FREQ must not contain negative values.> ...
 nakafit ([1, 2, 3, 4, 5], [], [], [1 1 -1 1 1]);
***** error<nakafit: FREQ must contain integer values.> ...
 nakafit ([1, 2, 3, 4, 5], [], [], [1 1 1.5 1 1]);
***** error<nakafit: 'options' 5th argument must be a structure> ...
 nakafit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
15 tests, 15 passed, 0 known failure, 0 skipped
[inst/dist_fit/nbinfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/nbinfit.m
***** demo
 ## Sample 2 populations from different negative binomial distributions
 randp ("seed", 5); randg ("seed", 5);    # for reproducibility
 r1 = nbinrnd (2, 0.15, 5000, 1);
 randp ("seed", 8); randg ("seed", 8);    # for reproducibility
 r2 = nbinrnd (5, 0.2, 5000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, [0:51], 1);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their probability of success
 r_psA = nbinfit (r(:,1));
 r_psB = nbinfit (r(:,2));

 ## Plot their estimated PDFs
 x = [0:40];
 y = nbinpdf (x, r_psA(1), r_psA(2));
 plot (x, y, "-pg");
 x = [min(r(:,2)):max(r(:,2))];
 y = nbinpdf (x, r_psB(1), r_psB(2));
 plot (x, y, "-sc");
 ylim ([0, 0.1])
 xlim ([0, 50])
 legend ({"Normalized HIST of sample 1 with r=2 and ps=0.15", ...
          "Normalized HIST of sample 2 with r=5 and ps=0.2", ...
          sprintf("PDF for sample 1 with estimated r=%0.2f and ps=%0.2f", ...
                  r_psA(1), r_psA(2)), ...
          sprintf("PDF for sample 2 with estimated r=%0.2f and ps=%0.2f", ...
                  r_psB(1), r_psB(2))})
 title ("Two population samples from negative different binomial distributions")
 hold off
***** test
 [paramhat, paramci] = nbinfit ([1:50]);
 assert (paramhat, [2.420857, 0.086704], 1e-6);
 assert (paramci(:,1), [1.382702; 3.459012], 1e-6);
 assert (paramci(:,2), [0.049676; 0.123732], 1e-6);
***** test
 [paramhat, paramci] = nbinfit ([1:20]);
 assert (paramhat, [3.588233, 0.254697], 1e-6);
 assert (paramci(:,1), [0.451693; 6.724774], 1e-6);
 assert (paramci(:,2), [0.081143; 0.428251], 1e-6);
***** test
 [paramhat, paramci] = nbinfit ([1:10]);
 assert (paramhat, [8.8067, 0.6156], 1e-4);
 assert (paramci(:,1), [0; 30.7068], 1e-4);
 assert (paramci(:,2), [0.0217; 1], 1e-4);
***** test
 [paramhat, paramci] = nbinfit ([1:10], 0.05, ones (1, 10));
 assert (paramhat, [8.8067, 0.6156], 1e-4);
 assert (paramci(:,1), [0; 30.7068], 1e-4);
 assert (paramci(:,2), [0.0217; 1], 1e-4);
***** test
 [paramhat, paramci] = nbinfit ([1:11], 0.05, [ones(1, 10), 0]);
 assert (paramhat, [8.8067, 0.6156], 1e-4);
 assert (paramci(:,1), [0; 30.7068], 1e-4);
 assert (paramci(:,2), [0.0217; 1], 1e-4);
***** error<nbinfit: X cannot have negative values.> nbinfit ([-1 2 3 3])
***** error<nbinfit: X must be a vector.> nbinfit (ones (2))
***** error<nbinfit: X must be a non-negative integer.> nbinfit ([1 2 1.2 3])
***** error<nbinfit: wrong value for ALPHA.> nbinfit ([1 2 3], 0)
***** error<nbinfit: wrong value for ALPHA.> nbinfit ([1 2 3], 1.2)
***** error<nbinfit: wrong value for ALPHA.> nbinfit ([1 2 3], [0.02 0.05])
***** error<nbinfit: X and FREQ vectors mismatch.> ...
 nbinfit ([1, 2, 3, 4, 5], 0.05, [1, 2, 3, 2]);
***** error<nbinfit: FREQ must not contain negative values.> ...
 nbinfit ([1, 2, 3, 4, 5], 0.05, [1, 2, 3, 2, -1]);
***** error<nbinfit: FREQ must contain integer values.> ...
 nbinfit ([1, 2, 3, 4, 5], 0.05, [1, 2, 3, 2, 1.5]);
***** error<nbinfit: 'options' argument must be a structure> ...
 nbinfit ([1, 2, 3, 4, 5], 0.05, struct ("option", 234));
***** error<nbinfit: 'options' argument must be a structure> ...
 nbinfit ([1, 2, 3, 4, 5], 0.05, ones (1,5), struct ("option", 234));
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fit/ricefit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/ricefit.m
***** demo
 ## Sample 3 populations from different Gamma distributions
 randg ("seed", 5);    # for reproducibility
 randp ("seed", 6);
 r1 = ricernd (1, 2, 3000, 1);
 randg ("seed", 2);    # for reproducibility
 randp ("seed", 8);
 r2 = ricernd (2, 4, 3000, 1);
 randg ("seed", 7);    # for reproducibility
 randp ("seed", 9);
 r3 = ricernd (7.5, 1, 3000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 75, 4);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 0.7]);
 xlim ([0, 12]);
 hold on

 ## Estimate their α and β parameters
 s_sigmaA = ricefit (r(:,1));
 s_sigmaB = ricefit (r(:,2));
 s_sigmaC = ricefit (r(:,3));

 ## Plot their estimated PDFs
 x = [0.01,0.1:0.2:18];
 y = ricepdf (x, s_sigmaA(1), s_sigmaA(2));
 plot (x, y, "-pr");
 y = ricepdf (x, s_sigmaB(1), s_sigmaB(2));
 plot (x, y, "-sg");
 y = ricepdf (x, s_sigmaC(1), s_sigmaC(2));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with s=1 and σ=2", ...
          "Normalized HIST of sample 2 with s=2 and σ=4", ...
          "Normalized HIST of sample 3 with s=7.5 and σ=1", ...
          sprintf("PDF for sample 1 with estimated s=%0.2f and σ=%0.2f", ...
                  s_sigmaA(1), s_sigmaA(2)), ...
          sprintf("PDF for sample 2 with estimated s=%0.2f and σ=%0.2f", ...
                  s_sigmaB(1), s_sigmaB(2)), ...
          sprintf("PDF for sample 3 with estimated s=%0.2f and σ=%0.2f", ...
                  s_sigmaC(1), s_sigmaC(2))})
 title ("Three population samples from different Rician distributions")
 hold off
***** test
 [paramhat, paramci] = ricefit ([1:50]);
 assert (paramhat, [15.3057, 17.6668], 1e-4);
 assert (paramci, [9.5468, 11.7802; 24.5383, 26.4952], 1e-4);
***** test
 [paramhat, paramci] = ricefit ([1:50], 0.01);
 assert (paramhat, [15.3057, 17.6668], 1e-4);
 assert (paramci, [8.2309, 10.3717; 28.4615, 30.0934], 1e-4);
***** test
 [paramhat, paramci] = ricefit ([1:5]);
 assert (paramhat, [2.3123, 1.6812], 1e-4);
 assert (paramci, [1.0819, 0.6376; 4.9424, 4.4331], 1e-4);
***** test
 [paramhat, paramci] = ricefit ([1:5], 0.01);
 assert (paramhat, [2.3123, 1.6812], 1e-4);
 assert (paramci, [0.8521, 0.4702; 6.2747, 6.0120], 1e-4);
***** test
 freq = [1 1 1 1 5];
 [paramhat, paramci] = ricefit ([1:5], [], [], freq);
 assert (paramhat, [3.5181, 1.5565], 1e-4);
 assert (paramci, [2.5893, 0.9049; 4.7801, 2.6772], 1e-4);
***** test
 censor = [1 0 0 0 0];
 [paramhat, paramci] = ricefit ([1:5], [], censor);
 assert (paramhat, [3.2978, 1.1527], 1e-4);
 assert (paramci, [2.3192, 0.5476; 4.6895, 2.4261], 1e-4);
***** assert (class (ricefit (single ([1:50]))), "single")
***** error<ricefit: X must be a vector.> ricefit (ones (2))
***** error<ricefit: wrong value for ALPHA.> ricefit ([1:50], 1)
***** error<ricefit: wrong value for ALPHA.> ricefit ([1:50], -1)
***** error<ricefit: wrong value for ALPHA.> ricefit ([1:50], {0.05})
***** error<ricefit: wrong value for ALPHA.> ricefit ([1:50], "k")
***** error<ricefit: wrong value for ALPHA.> ricefit ([1:50], i)
***** error<ricefit: wrong value for ALPHA.> ricefit ([1:50], [0.01 0.02])
***** error<ricefit: X and CENSOR vectors mismatch.> ricefit ([1:50], [], [1 1])
***** error<ricefit: X and FREQ vectors mismatch.> ricefit ([1:50], [], [], [1 1])
***** error<ricefit: FREQ cannot have negative values.> ...
 ricefit ([1:5], [], [], [1, 1, 2, 1, -1])
***** error<ricefit: X must contain positive values.> ricefit ([1 2 3 -4])
***** error<ricefit: X must contain positive values.> ricefit ([1 2 0], [], [1 0 0])
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/dist_fit/gamfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gamfit.m
***** demo
 ## Sample 3 populations from different Gamma distributions
 randg ("seed", 5);    # for reproducibility
 r1 = gamrnd (1, 2, 2000, 1);
 randg ("seed", 2);    # for reproducibility
 r2 = gamrnd (2, 2, 2000, 1);
 randg ("seed", 7);    # for reproducibility
 r3 = gamrnd (7.5, 1, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 75, 4);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 0.62]);
 xlim ([0, 12]);
 hold on

 ## Estimate their α and β parameters
 a_bA = gamfit (r(:,1));
 a_bB = gamfit (r(:,2));
 a_bC = gamfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0.01,0.1:0.2:18];
 y = gampdf (x, a_bA(1), a_bA(2));
 plot (x, y, "-pr");
 y = gampdf (x, a_bB(1), a_bB(2));
 plot (x, y, "-sg");
 y = gampdf (x, a_bC(1), a_bC(2));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with α=1 and β=2", ...
          "Normalized HIST of sample 2 with α=2 and β=2", ...
          "Normalized HIST of sample 3 with α=7.5 and β=1", ...
          sprintf("PDF for sample 1 with estimated α=%0.2f and β=%0.2f", ...
                  a_bA(1), a_bA(2)), ...
          sprintf("PDF for sample 2 with estimated α=%0.2f and β=%0.2f", ...
                  a_bB(1), a_bB(2)), ...
          sprintf("PDF for sample 3 with estimated α=%0.2f and β=%0.2f", ...
                  a_bC(1), a_bC(2))})
 title ("Three population samples from different Gamma distributions")
 hold off
***** shared x
 x = [1.2 1.6 1.7 1.8 1.9 2.0 2.2 2.6 3.0 3.5 4.0 4.8 5.6 6.6 7.6];
***** test
 [paramhat, paramci] = gamfit (x);
 assert (paramhat, [3.4248, 0.9752], 1e-4);
 assert (paramci, [1.7287, 0.4670; 6.7852, 2.0366], 1e-4);
***** test
 [paramhat, paramci] = gamfit (x, 0.01);
 assert (paramhat, [3.4248, 0.9752], 1e-4);
 assert (paramci, [1.3945, 0.3705; 8.4113, 2.5668], 1e-4);
***** test
 freq = [1 1 1 1 2 1 1 1 1 2 1 1 1 1 2];
 [paramhat, paramci] = gamfit (x, [], [], freq);
 assert (paramhat, [3.3025, 1.0615], 1e-4);
 assert (paramci, [1.7710, 0.5415; 6.1584, 2.0806], 1e-4);
***** test
 [paramhat, paramci] = gamfit (x, [], [], [1:15]);
 assert (paramhat, [4.4484, 0.9689], 1e-4);
 assert (paramci, [3.4848, 0.7482; 5.6785, 1.2546], 1e-4);
***** test
 [paramhat, paramci] = gamfit (x, 0.01, [], [1:15]);
 assert (paramhat, [4.4484, 0.9689], 1e-4);
 assert (paramci, [3.2275, 0.6899; 6.1312, 1.3608], 1e-4);
***** test
 cens = [0 0 0 0 1 0 0 0 0 0 0 0 0 0 0];
 [paramhat, paramci] = gamfit (x, [], cens, [1:15]);
 assert (paramhat, [4.7537, 0.9308], 1e-4);
 assert (paramci, [3.7123, 0.7162; 6.0872, 1.2097], 1e-4);
***** test
 cens = [0 0 0 0 1 0 0 0 0 0 0 0 0 0 0];
 freq = [1 1 1 1 2 1 1 1 1 2 1 1 1 1 2];
 [paramhat, paramci] = gamfit (x, [], cens, freq);
 assert (paramhat, [3.4736, 1.0847], 1e-4);
 assert (paramci, [1.8286, 0.5359; 6.5982, 2.1956], 1e-4);
***** test
 [paramhat, paramci] = gamfit ([1 1 1 1 1 1]);
 assert (paramhat, [Inf, 0]);
 assert (paramci, [Inf, 0; Inf, 0]);
***** test
 [paramhat, paramci] = gamfit ([1 1 1 1 1 1], [], [1 1 1 1 1 1]);
 assert (paramhat, [NaN, NaN]);
 assert (paramci, [NaN, NaN; NaN, NaN]);
***** test
 [paramhat, paramci] = gamfit ([1 1 1 1 1 1], [], [], [1 1 1 1 1 1]);
 assert (paramhat, [Inf, 0]);
 assert (paramci, [Inf, 0; Inf, 0]);
***** assert (class (gamfit (single (x))), "single")
***** error<gamfit: X must be a vector.> gamfit (ones (2))
***** error<gamfit: wrong value for ALPHA.> gamfit (x, 1)
***** error<gamfit: wrong value for ALPHA.> gamfit (x, -1)
***** error<gamfit: wrong value for ALPHA.> gamfit (x, {0.05})
***** error<gamfit: wrong value for ALPHA.> gamfit (x, "a")
***** error<gamfit: wrong value for ALPHA.> gamfit (x, i)
***** error<gamfit: wrong value for ALPHA.> gamfit (x, [0.01 0.02])
***** error<gamfit: X and FREQ vectors mismatch.>
 gamfit ([1 2 3], 0.05, [], [1 5])
***** error<gamfit: FREQ must not contain negative values.>
 gamfit ([1 2 3], 0.05, [], [1 5 -1])
***** error<gamfit: 'options' 5th argument must be a structure> ...
 gamfit ([1:10], 0.05, [], [], 5)
***** error<gamfit: X cannot contain negative values.> gamfit ([1 2 3 -4])
***** error<gamfit: X must contain positive values when censored.> ...
 gamfit ([1 2 0], [], [1 0 0])
23 tests, 23 passed, 0 known failure, 0 skipped
[inst/dist_fit/wbllike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/wbllike.m
***** test
 x = 1:50;
 [nlogL, acov] = wbllike ([2.3, 1.2], x);
 avar_out = [0.0250, 0.0062; 0.0062, 0.0017];
 assert (nlogL, 945.9589180651594, 1e-12);
 assert (acov, avar_out, 1e-4);
***** test
 x = 1:50;
 [nlogL, acov] = wbllike ([2.3, 1.2], x * 0.5);
 avar_out = [-0.3238, -0.1112; -0.1112, -0.0376];
 assert (nlogL, 424.9879809704742, 6e-14);
 assert (acov, avar_out, 1e-4);
***** test
 x = 1:50;
 [nlogL, acov] = wbllike ([21, 15], x);
 avar_out = [-0.00001236, -0.00001166; -0.00001166, -0.00001009];
 assert (nlogL, 1635190.328991511, 1e-8);
 assert (acov, avar_out, 1e-8);
***** error<wbllike: too few input arguments.> wbllike ([12, 15]);
***** error<wbllike: wrong parameters length.> wbllike ([12, 15, 3], [1:50]);
***** error<wbllike: X must be a vector.> wbllike ([12, 3], ones (10, 2));
***** error<wbllike: X and CENSOR> wbllike ([12, 15], [1:50], [1, 2, 3]);
***** error<wbllike: X and FREQ> wbllike ([12, 15], [1:50], [], [1, 2, 3]);
***** error<wbllike: FREQ cannot have negative values.> ...
 wbllike ([12, 15], [1:5], [], [1, 2, 3, -1, 0]);
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fit/nakalike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/nakalike.m
***** test
 nlogL = nakalike ([0.735504, 858.5], [1:50]);
 assert (nlogL, 202.8689, 1e-4);
***** test
 nlogL = nakalike ([1.17404, 11], [1:5]);
 assert (nlogL, 8.6976, 1e-4);
***** test
 nlogL = nakalike ([1.17404, 11], [1:5], [], [1, 1, 1, 1, 1]);
 assert (nlogL, 8.6976, 1e-4);
***** test
 nlogL = nakalike ([1.17404, 11], [1:6], [], [1, 1, 1, 1, 1, 0]);
 assert (nlogL, 8.6976, 1e-4);
***** error<nakalike: function called with too few input arguments.> nakalike (3.25)
***** error<nakalike: X must be a vector.> nakalike ([5, 0.2], ones (2))
***** error<nakalike: PARAMS must be a two-element vector.> ...
 nakalike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<nakalike: X and CENSOR vector mismatch.> ...
 nakalike ([1.5, 0.2], [1:5], [0, 0, 0])
***** error<nakalike: X and FREQ vector mismatch.> ...
 nakalike ([1.5, 0.2], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<nakalike: X and FREQ vector mismatch.> ...
 nakalike ([1.5, 0.2], [1:5], [], [1, 1, 1])
***** error<nakalike: FREQ must not contain negative values.> ...
 nakalike ([1.5, 0.2], [1:5], [], [1, 1, 1, 1, -1])
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fit/gevfit_lmom.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gevfit_lmom.m
***** xtest <31070>
 data = 1:50;
 [pfit, pci] = gevfit_lmom (data);
 expected_p = [-0.28 15.01 20.22]';
 assert (pfit, expected_p, 0.1);
1 test, 1 passed, 0 known failure, 0 skipped
[inst/dist_fit/invgfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/invgfit.m
***** demo
 ## Sample 3 populations from different inverse Gaussian distributions
 rand ("seed", 5); randn ("seed", 5);   # for reproducibility
 r1 = invgrnd (1, 0.2, 2000, 1);
 rand ("seed", 2); randn ("seed", 2);   # for reproducibility
 r2 = invgrnd (1, 3, 2000, 1);
 rand ("seed", 7); randn ("seed", 7);   # for reproducibility
 r3 = invgrnd (3, 1, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [0.1:0.1:3.2], 9);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 3]);
 xlim ([0, 3]);
 hold on

 ## Estimate their MU and LAMBDA parameters
 mu_lambdaA = invgfit (r(:,1));
 mu_lambdaB = invgfit (r(:,2));
 mu_lambdaC = invgfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0:0.1:3];
 y = invgpdf (x, mu_lambdaA(1), mu_lambdaA(2));
 plot (x, y, "-pr");
 y = invgpdf (x, mu_lambdaB(1), mu_lambdaB(2));
 plot (x, y, "-sg");
 y = invgpdf (x, mu_lambdaC(1), mu_lambdaC(2));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with μ=1 and λ=0.5", ...
          "Normalized HIST of sample 2 with μ=2 and λ=0.3", ...
          "Normalized HIST of sample 3 with μ=4 and λ=0.5", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f and λ=%0.2f", ...
                  mu_lambdaA(1), mu_lambdaA(2)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f and λ=%0.2f", ...
                  mu_lambdaB(1), mu_lambdaB(2)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f and λ=%0.2f", ...
                  mu_lambdaC(1), mu_lambdaC(2))})
 title ("Three population samples from different inverse Gaussian distributions")
 hold off
***** test
 paramhat = invgfit ([1:50]);
 paramhat_out = [25.5, 19.6973];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = invgfit ([1:5]);
 paramhat_out = [3, 8.1081];
 assert (paramhat, paramhat_out, 1e-4);
***** error<invgfit: X must be a vector.> invgfit (ones (2,5));
***** error<invgfit: X must contain only positive values.> invgfit ([-1 2 3 4]);
***** error<invgfit: wrong value for ALPHA.> invgfit ([1, 2, 3, 4, 5], 1.2);
***** error<invgfit: wrong value for ALPHA.> invgfit ([1, 2, 3, 4, 5], 0);
***** error<invgfit: wrong value for ALPHA.> invgfit ([1, 2, 3, 4, 5], "alpha");
***** error<invgfit: X and CENSOR vectors mismatch.> ...
 invgfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<invgfit: X and CENSOR vectors mismatch.> ...
 invgfit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<invgfit: X and FREQ vectors mismatch.> ...
 invgfit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<invgfit: X and FREQ vectors mismatch.> ...
 invgfit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<invgfit: 'options' 5th argument must be a structure> ...
 invgfit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dist_fit/bisalike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/bisalike.m
***** test
 nlogL = bisalike ([16.2649, 1.0156], [1:50]);
 assert (nlogL, 215.5905, 1e-4);
***** test
 nlogL = bisalike ([2.5585, 0.5839], [1:5]);
 assert (nlogL, 8.9950, 1e-4);
***** error<bisalike: function called with too few input arguments.> bisalike (3.25)
***** error<bisalike: X must be a vector.> bisalike ([5, 0.2], ones (2))
***** error<bisalike: X cannot have negative values.> bisalike ([5, 0.2], [-1, 3])
***** error<bisalike: PARAMS must be a two-element vector.> ...
 bisalike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<bisalike: X and CENSOR vector mismatch.> ...
 bisalike ([1.5, 0.2], [1:5], [0, 0, 0])
***** error<bisalike: X and FREQ vector mismatch.> ...
 bisalike ([1.5, 0.2], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<bisalike: X and FREQ vector mismatch.> ...
 bisalike ([1.5, 0.2], [1:5], [], [1, 1, 1])
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fit/gplike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/gplike.m
***** test
 k = 0.8937; sigma = 1.3230; theta = 1;
 x = [2.2196, 11.9301, 4.3673, 1.0949, 6.5626, ...
      1.2109, 1.8576, 1.0039, 12.7917, 2.2590];
 [nlogL, acov] = gplike ([k, sigma, theta], x);
 assert (nlogL, 21.736, 1e-3);
 assert (acov, [0.7249, -0.7351, 0; -0.7351, 1.3040, 0; 0, 0, 0], 1e-4);
***** assert (gplike ([2, 3, 0], 4), 3.047536764863501, 1e-14)
***** assert (gplike ([2, 3, 4], 8), 3.047536764863501, 1e-14)
***** assert (gplike ([1, 2, 0], 4), 2.890371757896165, 1e-14)
***** assert (gplike ([1, 2, 4], 8), 2.890371757896165, 1e-14)
***** assert (gplike ([2, 3, 0], [1:10]), 32.57864322725392, 1e-14)
***** assert (gplike ([2, 3, 2], [1:10] + 2), 32.57864322725392, 1e-14)
***** assert (gplike ([2, 3, 0], [1:10], ones (1,10)), 32.57864322725392, 1e-14)
***** assert (gplike ([1, 2, 0], [1:10]), 31.65666282460443, 1e-14)
***** assert (gplike ([1, 2, 3], [1:10] + 3), 31.65666282460443, 1e-14)
***** assert (gplike ([1, 2, 0], [1:10], ones (1,10)), 31.65666282460443, 1e-14)
***** assert (gplike ([1, NaN, 0], [1:10]), NaN)
***** error<gplike: function called with too few input arguments.> gplike ()
***** error<gplike: function called with too few input arguments.> gplike (1)
***** error<gplike: X must be a vector.> gplike ([1, 2, 0], [])
***** error<gplike: X must be a vector.> gplike ([1, 2, 0], ones (2))
***** error<gplike: PARAMS must be a three-element vector.> gplike (2, [1:10])
***** error<gplike: PARAMS must be a three-element vector.> gplike ([2, 3], [1:10])
***** error<gplike: X and FREQ vectors mismatch.> ...
 gplike ([1, 2, 0], ones (10, 1), ones (8,1))
***** error<gplike: FREQ must not contain negative values.> ...
 gplike ([1, 2, 0], ones (1, 8), [1 1 1 1 1 1 1 -1])
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/dist_fit/unidfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/unidfit.m
***** demo
 ## Sample 2 populations from different discrete uniform distributions
 rand ("seed", 1);    # for reproducibility
 r1 = unidrnd (5, 1000, 1);
 rand ("seed", 2);    # for reproducibility
 r2 = unidrnd (9, 1000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, 0:0.5:20.5, 1);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their probability of success
 NhatA = unidfit (r(:,1));
 NhatB = unidfit (r(:,2));

 ## Plot their estimated PDFs
 x = [0:10];
 y = unidpdf (x, NhatA);
 plot (x, y, "-pg");
 y = unidpdf (x, NhatB);
 plot (x, y, "-sc");
 xlim ([0, 10])
 ylim ([0, 0.4])
 legend ({"Normalized HIST of sample 1 with N=5", ...
          "Normalized HIST of sample 2 with N=9", ...
          sprintf("PDF for sample 1 with estimated N=%0.2f", NhatA), ...
          sprintf("PDF for sample 2 with estimated N=%0.2f", NhatB)})
 title ("Two population samples from different discrete uniform distributions")
 hold off
***** test
 x = 0:5;
 [Nhat, Nci] = unidfit (x);
 assert (Nhat, 5);
 assert (Nci, [5; 9]);
***** test
 x = 0:5;
 [Nhat, Nci] = unidfit (x, [], [1 1 1 1 1 1]);
 assert (Nhat, 5);
 assert (Nci, [5; 9]);
***** assert (unidfit ([1 1 2 3]), unidfit ([1 2 3], [] ,[2 1 1]))
***** error<unidfit: function called with too few input arguments.> unidfit ()
***** error<unidfit: X cannot have negative values.> unidfit (-1, [1 2 3 3])
***** error<unidfit: wrong value for ALPHA.> unidfit (1, 0)
***** error<unidfit: wrong value for ALPHA.> unidfit (1, 1.2)
***** error<unidfit: wrong value for ALPHA.> unidfit (1, [0.02 0.05])
***** error<unidfit: X and FREQ vector mismatch.> ...
 unidfit ([1.5, 0.2], [], [0, 0, 0, 0, 0])
***** error<unidfit: X and FREQ vector mismatch.> ...
 unidfit ([1.5, 0.2], [], [1, 1, 1])
***** error<unidfit: FREQ cannot have negative values.> ...
 unidfit ([1.5, 0.2], [], [1, -1])
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/dist_fit/binolike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/binolike.m
***** assert (binolike ([3, 0.333], [0:3]), 6.8302, 1e-4)
***** assert (binolike ([3, 0.333], 0), 1.2149, 1e-4)
***** assert (binolike ([3, 0.333], 1), 0.8109, 1e-4)
***** assert (binolike ([3, 0.333], 2), 1.5056, 1e-4)
***** assert (binolike ([3, 0.333], 3), 3.2988, 1e-4)
***** test
 [nlogL, acov] = binolike ([3, 0.333], 3);
 assert (acov(4), 0.0740, 1e-4)
***** error<binolike: function called with too few input arguments.> binolike (3.25)
***** error<binolike: X must be a vector.> binolike ([5, 0.2], ones (2))
***** error<binolike: PARAMS must be a two-element vector.> ...
 binolike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<binolike: number of trials,> binolike ([1.5, 0.2], 1)
***** error<binolike: number of trials,> binolike ([-1, 0.2], 1)
***** error<binolike: number of trials,> binolike ([Inf, 0.2], 1)
***** error<binolike: probability of success,> binolike ([5, 1.2], [3, 5])
***** error<binolike: probability of success,> binolike ([5, -0.2], [3, 5])
***** error<binolike: X and FREQ vectors mismatch.> ...
 binolike ([5, 0.5], ones (10, 1), ones (8,1))
***** error<binolike: FREQ must not contain negative values.> ...
 binolike ([5, 0.5], ones (1, 8), [1 1 1 1 1 1 1 -1])
***** error<binolike: X cannot have negative values.> binolike ([5, 0.2], [-1, 3])
***** error<binolike: number of successes,> binolike ([5, 0.2], [3, 5, 7])
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/dist_fit/betalike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/betalike.m
***** test
 x = 0.01:0.02:0.99;
 [nlogL, avar] = betalike ([2.3, 1.2], x);
 avar_out = [0.03691678, 0.02803056; 0.02803056, 0.03965629];
 assert (nlogL, 17.873477715879040, 3e-14);
 assert (avar, avar_out, 1e-7);
***** test
 x = 0.01:0.02:0.99;
 [nlogL, avar] = betalike ([1, 4], x);
 avar_out = [0.02793282, 0.02717274; 0.02717274, 0.03993361];
 assert (nlogL, 79.648061114839550, 1e-13);
 assert (avar, avar_out, 1e-7);
***** test
 x = 0.00:0.02:1;
 [nlogL, avar] = betalike ([1, 4], x);
 avar_out = [0.00000801564765, 0.00000131397245; ...
             0.00000131397245, 0.00070827639442];
 assert (nlogL, 573.2008434477486, 1e-10);
 assert (avar, avar_out, 1e-14);
***** error<betalike: function called with too few input arguments.> ...
 betalike ([12, 15]);
***** error<betalike: wrong parameters length.> betalike ([12, 15, 3], [1:50]);
***** error<betalike: X and FREQ vectors mismatch.> ...
 betalike ([12, 15], ones (10, 1), ones (8,1))
***** error<betalike: FREQ must not contain negative values.> ...
 betalike ([12, 15], ones (1, 8), [1 1 1 1 1 1 1 -1])
***** error<betalike: FREQ must contain integer values.> ...
 betalike ([12, 15], ones (1, 8), [1 1 1 1 1 1 1 1.5])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/raylfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/raylfit.m
***** demo
 ## Sample 3 populations from 3 different Rayleigh distributions
 rand ("seed", 2);    # for reproducibility
 r1 = raylrnd (1, 1000, 1);
 rand ("seed", 2);    # for reproducibility
 r2 = raylrnd (2, 1000, 1);
 rand ("seed", 3);    # for reproducibility
 r3 = raylrnd (4, 1000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [0.5:0.5:10.5], 2);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 hold on

 ## Estimate their lambda parameter
 sigmaA = raylfit (r(:,1));
 sigmaB = raylfit (r(:,2));
 sigmaC = raylfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0:0.1:10];
 y = raylpdf (x, sigmaA);
 plot (x, y, "-pr");
 y = raylpdf (x, sigmaB);
 plot (x, y, "-sg");
 y = raylpdf (x, sigmaC);
 plot (x, y, "-^c");
 xlim ([0, 10])
 ylim ([0, 0.7])
 legend ({"Normalized HIST of sample 1 with σ=1", ...
          "Normalized HIST of sample 2 with σ=2", ...
          "Normalized HIST of sample 3 with σ=4", ...
          sprintf("PDF for sample 1 with estimated σ=%0.2f", ...
                  sigmaA), ...
          sprintf("PDF for sample 2 with estimated σ=%0.2f", ...
                  sigmaB), ...
          sprintf("PDF for sample 3 with estimated σ=%0.2f", ...
                  sigmaC)})
 title ("Three population samples from different Rayleigh distributions")
 hold off
***** test
 x = [1 3 2 4 5 4 3 4];
 [shat, sci] = raylfit (x);
 assert (shat, 2.4495, 1e-4)
 assert (sci, [1.8243; 3.7279], 1e-4)
***** test
 x = [1 3 2 4 5 4 3 4];
 [shat, sci] = raylfit (x, 0.01);
 assert (shat, 2.4495, 1e-4)
 assert (sci, [1.6738; 4.3208], 1e-4)
***** test
 x = [1 2 3 4 5];
 f = [1 1 2 3 1];
 [shat, sci] = raylfit (x, [], [], f);
 assert (shat, 2.4495, 1e-4)
 assert (sci, [1.8243; 3.7279], 1e-4)
***** test
 x = [1 2 3 4 5];
 f = [1 1 2 3 1];
 [shat, sci] = raylfit (x, 0.01, [], f);
 assert (shat, 2.4495, 1e-4)
 assert (sci, [1.6738; 4.3208], 1e-4)
***** test
 x = [1 2 3 4 5 6];
 c = [0 0 0 0 0 1];
 f = [1 1 2 3 1 1];
 [shat, sci] = raylfit (x, 0.01, c, f);
 assert (shat, 2.4495, 1e-4)
 assert (sci, [1.6738; 4.3208], 1e-4)
***** error<raylfit: X must be a vector.> raylfit (ones (2,5));
***** error<raylfit: X cannot have negative values.> raylfit ([1 2 -1 3])
***** error<raylfit: wrong value for ALPHA.> raylfit ([1 2 3], 0)
***** error<raylfit: wrong value for ALPHA.> raylfit ([1 2 3], 1.2)
***** error<raylfit: wrong value for ALPHA.> raylfit ([1 2 3], [0.02 0.05])
***** error<raylfit: X and CENSOR vectors mismatch.> ...
 raylfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<raylfit: X and CENSOR vectors mismatch.> ...
 raylfit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<raylfit: X and FREQ vectors mismatch.> ...
 raylfit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<raylfit: X and FREQ vectors mismatch.> ...
 raylfit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<raylfit: X and FREQ vectors mismatch.>
 raylfit ([1 2 3], [], [], [1 5])
***** error<raylfit: FREQ must not contain negative values.>
 raylfit ([1 2 3], [], [], [1 5 -1])
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/dist_fit/poissfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/poissfit.m
***** demo
 ## Sample 3 populations from 3 different Poisson distributions
 randp ("seed", 2);    # for reproducibility
 r1 = poissrnd (1, 1000, 1);
 randp ("seed", 2);    # for reproducibility
 r2 = poissrnd (4, 1000, 1);
 randp ("seed", 3);    # for reproducibility
 r3 = poissrnd (10, 1000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [0:20], 1);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 hold on

 ## Estimate their lambda parameter
 lambdahat = poissfit (r);

 ## Plot their estimated PDFs
 x = [0:20];
 y = poisspdf (x, lambdahat(1));
 plot (x, y, "-pr");
 y = poisspdf (x, lambdahat(2));
 plot (x, y, "-sg");
 y = poisspdf (x, lambdahat(3));
 plot (x, y, "-^c");
 xlim ([0, 20])
 ylim ([0, 0.4])
 legend ({"Normalized HIST of sample 1 with λ=1", ...
          "Normalized HIST of sample 2 with λ=4", ...
          "Normalized HIST of sample 3 with λ=10", ...
          sprintf("PDF for sample 1 with estimated λ=%0.2f", ...
                  lambdahat(1)), ...
          sprintf("PDF for sample 2 with estimated λ=%0.2f", ...
                  lambdahat(2)), ...
          sprintf("PDF for sample 3 with estimated λ=%0.2f", ...
                  lambdahat(3))})
 title ("Three population samples from different Poisson distributions")
 hold off
***** test
 x = [1 3 2 4 5 4 3 4];
 [lhat, lci] = poissfit (x);
 assert (lhat, 3.25)
 assert (lci, [2.123007901949543; 4.762003010390628], 1e-14)
***** test
 x = [1 3 2 4 5 4 3 4];
 [lhat, lci] = poissfit (x, 0.01);
 assert (lhat, 3.25)
 assert (lci, [1.842572740234582; 5.281369033298528], 1e-14)
***** test
 x = [1 2 3 4 5];
 f = [1 1 2 3 1];
 [lhat, lci] = poissfit (x, [], f);
 assert (lhat, 3.25)
 assert (lci, [2.123007901949543; 4.762003010390628], 1e-14)
***** test
 x = [1 2 3 4 5];
 f = [1 1 2 3 1];
 [lhat, lci] = poissfit (x, 0.01, f);
 assert (lhat, 3.25)
 assert (lci, [1.842572740234582; 5.281369033298528], 1e-14)
***** error<poissfit: X cannot have negative values.> poissfit ([1 2 -1 3])
***** error<poissfit: wrong value for ALPHA.> poissfit ([1 2 3], 0)
***** error<poissfit: wrong value for ALPHA.> poissfit ([1 2 3], 1.2)
***** error<poissfit: wrong value for ALPHA.> poissfit ([1 2 3], [0.02 0.05])
***** error<poissfit: X and FREQ vectors mismatch.>
 poissfit ([1 2 3], [], [1 5])
***** error<poissfit: FREQ must not contain negative values.>
 poissfit ([1 2 3], [], [1 5 -1])
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_fit/geofit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/geofit.m
***** demo
 ## Sample 2 populations from different geometric distributions
 rande ("seed", 1);    # for reproducibility
 r1 = geornd (0.15, 1000, 1);
 rande ("seed", 2);    # for reproducibility
 r2 = geornd (0.5, 1000, 1);
 r = [r1, r2];

 ## Plot them normalized and fix their colors
 hist (r, 0:0.5:20.5, 1);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 hold on

 ## Estimate their probability of success
 pshatA = geofit (r(:,1));
 pshatB = geofit (r(:,2));

 ## Plot their estimated PDFs
 x = [0:15];
 y = geopdf (x, pshatA);
 plot (x, y, "-pg");
 y = geopdf (x, pshatB);
 plot (x, y, "-sc");
 xlim ([0, 15])
 ylim ([0, 0.6])
 legend ({"Normalized HIST of sample 1 with ps=0.15", ...
          "Normalized HIST of sample 2 with ps=0.50", ...
          sprintf("PDF for sample 1 with estimated ps=%0.2f", ...
                  mean (pshatA)), ...
          sprintf("PDF for sample 2 with estimated ps=%0.2f", ...
                  mean (pshatB))})
 title ("Two population samples from different geometric distributions")
 hold off
***** test
 x = 0:5;
 [pshat, psci] = geofit (x);
 assert (pshat, 0.2857, 1e-4);
 assert (psci, [0.092499; 0.478929], 1e-5);
***** test
 x = 0:5;
 [pshat, psci] = geofit (x, [], [1 1 1 1 1 1]);
 assert (pshat, 0.2857, 1e-4);
 assert (psci, [0.092499; 0.478929], 1e-5);
***** assert (geofit ([1 1 2 3]), geofit ([1 2 3], [] ,[2 1 1]))
***** error<geofit: function called with too few input arguments.> geofit ()
***** error<geofit: X cannot have negative values.> geofit (-1, [1 2 3 3])
***** error<geofit: wrong value for ALPHA.> geofit (1, 0)
***** error<geofit: wrong value for ALPHA.> geofit (1, 1.2)
***** error<geofit: wrong value for ALPHA.> geofit (1, [0.02 0.05])
***** error<geofit: X and FREQ vector mismatch.> ...
 geofit ([1.5, 0.2], [], [0, 0, 0, 0, 0])
***** error<geofit: X and FREQ vector mismatch.> ...
 geofit ([1.5, 0.2], [], [1, 1, 1])
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/dist_fit/explike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/explike.m
***** test
 x = 12;
 beta = 5;
 [L, V] = explike (beta, x);
 expected_L = 4.0094;
 expected_V = 6.5789;
 assert (L, expected_L, 0.001);
 assert (V, expected_V, 0.001);
***** test
 x = 1:5;
 beta = 2;
 [L, V] = explike (beta, x);
 expected_L = 10.9657;
 expected_V = 0.4;
 assert (L, expected_L, 0.001);
 assert (V, expected_V, 0.001);
***** error<explike: function called with too few input arguments.> explike ()
***** error<explike: function called with too few input arguments.> explike (2)
***** error<explike: MU must be a scalar.> explike ([12, 3], [1:50])
***** error<explike: X must be a vector.> explike (3, ones (10, 2))
***** error<explike: X and CENSOR vectors mismatch.> ...
 explike (3, [1:50], [1, 2, 3])
***** error<explike: X and FREQ vectors mismatch.> ...
 explike (3, [1:50], [], [1, 2, 3])
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_fit/invglike.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/invglike.m
***** test
 nlogL = invglike ([25.5, 19.6973], [1:50]);
 assert (nlogL, 219.1516, 1e-4);
***** test
 nlogL = invglike ([3, 8.1081], [1:5]);
 assert (nlogL, 9.0438, 1e-4);
***** error<invglike: function called with too few input arguments.> invglike (3.25)
***** error<invglike: X must be a vector.> invglike ([5, 0.2], ones (2))
***** error<invglike: X must have positive values.> invglike ([5, 0.2], [-1, 3])
***** error<invglike: PARAMS must be a two-element vector.> ...
 invglike ([1, 0.2, 3], [1, 3, 5, 7])
***** error<invglike: X and CENSOR vector mismatch.> ...
 invglike ([1.5, 0.2], [1:5], [0, 0, 0])
***** error<invglike: X and FREQ vector mismatch.> ...
 invglike ([1.5, 0.2], [1:5], [0, 0, 0, 0, 0], [1, 1, 1])
***** error<invglike: X and FREQ vector mismatch.> ...
 invglike ([1.5, 0.2], [1:5], [], [1, 1, 1])
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/dist_fit/expfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/expfit.m
***** demo
 ## Sample 3 populations from 3 different exponential distributions
 rande ("seed", 1);   # for reproducibility
 r1 = exprnd (2, 4000, 1);
 rande ("seed", 2);   # for reproducibility
 r2 = exprnd (5, 4000, 1);
 rande ("seed", 3);   # for reproducibility
 r3 = exprnd (12, 4000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 48, 0.52);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 hold on

 ## Estimate their mu parameter
 muhat = expfit (r);

 ## Plot their estimated PDFs
 x = [0:max(r(:))];
 y = exppdf (x, muhat(1));
 plot (x, y, "-pr");
 y = exppdf (x, muhat(2));
 plot (x, y, "-sg");
 y = exppdf (x, muhat(3));
 plot (x, y, "-^c");
 ylim ([0, 0.6])
 xlim ([0, 40])
 legend ({"Normalized HIST of sample 1 with μ=2", ...
          "Normalized HIST of sample 2 with μ=5", ...
          "Normalized HIST of sample 3 with μ=12", ...
          sprintf("PDF for sample 1 with estimated μ=%0.2f", muhat(1)), ...
          sprintf("PDF for sample 2 with estimated μ=%0.2f", muhat(2)), ...
          sprintf("PDF for sample 3 with estimated μ=%0.2f", muhat(3))})
 title ("Three population samples from different exponential distributions")
 hold off
***** assert (expfit (1), 1)
***** assert (expfit (1:3), 2)
***** assert (expfit ([1:3]'), 2)
***** assert (expfit (1:3, []), 2)
***** assert (expfit (1:3, [], [], []), 2)
***** assert (expfit (magic (3)), [5 5 5])
***** assert (expfit (cat (3, magic (3), 2*magic (3))), cat (3,[5 5 5], [10 10 10]))
***** assert (expfit (1:3, 0.1, [0 0 0], [1 1 1]), 2)
***** assert (expfit ([1:3]', 0.1, [0 0 0]', [1 1 1]'), 2)
***** assert (expfit (1:3, 0.1, [0 0 0]', [1 1 1]'), 2)
***** assert (expfit (1:3, 0.1, [1 0 0], [1 1 1]), 3)
***** assert (expfit (1:3, 0.1, [0 0 0], [4 1 1]), 1.5)
***** assert (expfit (1:3, 0.1, [1 0 0], [4 1 1]), 4.5)
***** assert (expfit (1:3, 0.1, [1 0 1], [4 1 1]), 9)
***** assert (expfit (1:3, 0.1, [], [-1 1 1]), 4)
***** assert (expfit (1:3, 0.1, [], [0.5 1 1]), 2.2)
***** assert (expfit (1:3, 0.1, [1 1 1]), NaN)
***** assert (expfit (1:3, 0.1, [], [0 0 0]), NaN)
***** assert (expfit (reshape (1:9, [3 3])), [2 5 8])
***** assert (expfit (reshape (1:9, [3 3]), [], eye(3)), [3 7.5 12])
***** assert (expfit (reshape (1:9, [3 3]), [], 2*eye(3)), [3 7.5 12])
***** assert (expfit (reshape (1:9, [3 3]), [], [], [2 2 2; 1 1 1; 1 1 1]), ...
 [1.75 4.75 7.75])
***** assert (expfit (reshape (1:9, [3 3]), [], [], [2 2 2; 1 1 1; 1 1 1]), ...
 [1.75 4.75 7.75])
***** assert (expfit (reshape (1:9, [3 3]), [], eye(3), [2 2 2; 1 1 1; 1 1 1]), ...
 [3.5 19/3 31/3])
***** assert ([~,muci] = expfit (1:3, 0), [0; Inf])
***** assert ([~,muci] = expfit (1:3, 2), [Inf; 0])
***** assert ([~,muci] = expfit (1:3, 0.1, [1 1 1]), [NaN; NaN])
***** assert ([~,muci] = expfit (1:3, 0.1, [], [0 0 0]), [NaN; NaN])
***** assert ([~,muci] = expfit (1:3, -1), [NaN; NaN])
***** assert ([~,muci] = expfit (1:3, 5), [NaN; NaN])
***** assert ([~,muci] = expfit (1:3), [0.830485728373393; 9.698190330474096], ...
             1000*eps)
***** assert ([~,muci] = expfit (1:3, 0.1), ...
                          [0.953017262058213; 7.337731146400207], 1000*eps)
***** assert ([~,muci] = expfit ([1:3;2:4]), ...
             [0.538440777613095, 0.897401296021825, 1.256361814430554; ...
             12.385982973214016, 20.643304955356694, 28.900626937499371], ...
             1000*eps)
***** assert ([~,muci] = expfit ([1:3;2:4], [], [1 1 1; 0 0 0]), ...
             100*[0.008132550920455, 0.013554251534091, 0.018975952147727; ...
             1.184936706156216, 1.974894510260360, 2.764852314364504], ...
             1000*eps)
***** assert ([~,muci] = expfit ([1:3;2:4], [], [], [3 3 3; 1 1 1]), ...
             [0.570302756652583, 1.026544961974649, 1.482787167296715; ...
             4.587722594914109, 8.257900670845396, 11.928078746776684], ...
             1000*eps)
***** assert ([~,muci] = expfit ([1:3;2:4], [], [0 0 0; 1 1 1], [3 3 3; 1 1 1]), ...
             [0.692071440311161, 1.245728592560089, 1.799385744809018; ...
             8.081825275395081, 14.547285495711145, 21.012745716027212], ...
             1000*eps)
***** test
 x = reshape (1:8, [4 2]);
 x(4) = NaN;
 [muhat,muci] = expfit (x);
 assert ({muhat, muci}, {[NaN, 6.5], ...
         [NaN, 2.965574334593430;NaN, 23.856157493553368]}, 1000*eps);
***** test
 x = magic (3);
 censor = [0 1 0; 0 1 0; 0 1 0];
 freq = [1 1 0; 1 1 0; 1 1 0];
 [muhat,muci] = expfit (x, [], censor, freq);
 assert ({muhat, muci}, {[5 NaN NaN], ...
                 [[2.076214320933482; 24.245475826185242],NaN(2)]}, 1000*eps);
***** error expfit ()
***** error expfit (1,2,3,4,5)
***** error [a b censor] = expfit (1)
***** error <ALPHA must be a scalar quantity> expfit (1, [1 2])
***** error <X cannot be negative> expfit ([-1 2 3 4 5])
***** error <CENSOR must be a numeric or logical array> expfit ([1:5], [], "test")
***** error <FREQ must be a numeric or logical array> expfit ([1:5], [], [], "test")
***** error <X and CENSOR vectors mismatch.> expfit ([1:5], [], [0 0 0 0])
***** error <X and FREQ vectors mismatch.> expfit ([1:5], [], [], [1 1 1 1])
47 tests, 47 passed, 0 known failure, 0 skipped
[inst/dist_fit/loglfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/loglfit.m
***** demo
 ## Sample 3 populations from different log-logistic distributions
 rand ("seed", 5)  # for reproducibility
 r1 = loglrnd (0, 1, 2000, 1);
 rand ("seed", 2)   # for reproducibility
 r2 = loglrnd (0, 0.5, 2000, 1);
 rand ("seed", 7)   # for reproducibility
 r3 = loglrnd (0, 0.125, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, [0.05:0.1:2.5], 10);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 3.5]);
 xlim ([0, 2.0]);
 hold on

 ## Estimate their MU and LAMBDA parameters
 a_bA = loglfit (r(:,1));
 a_bB = loglfit (r(:,2));
 a_bC = loglfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0.01:0.1:2.01];
 y = loglpdf (x, a_bA(1), a_bA(2));
 plot (x, y, "-pr");
 y = loglpdf (x, a_bB(1), a_bB(2));
 plot (x, y, "-sg");
 y = loglpdf (x, a_bC(1), a_bC(2));
 plot (x, y, "-^c");
 legend ({"Normalized HIST of sample 1 with α=1 and β=1", ...
          "Normalized HIST of sample 2 with α=1 and β=2", ...
          "Normalized HIST of sample 3 with α=1 and β=8", ...
          sprintf("PDF for sample 1 with estimated α=%0.2f and β=%0.2f", ...
                  a_bA(1), a_bA(2)), ...
          sprintf("PDF for sample 2 with estimated α=%0.2f and β=%0.2f", ...
                  a_bB(1), a_bB(2)), ...
          sprintf("PDF for sample 3 with estimated α=%0.2f and β=%0.2f", ...
                  a_bC(1), a_bC(2))})
 title ("Three population samples from different log-logistic distributions")
 hold off
***** test
 [paramhat, paramci] = loglfit ([1:50]);
 paramhat_out = [3.09717, 0.468525];
 paramci_out = [2.87261, 0.370616; 3.32174, 0.5923];
 assert (paramhat, paramhat_out, 1e-5);
 assert (paramci, paramci_out, 1e-5);
***** test
 paramhat = loglfit ([1:5]);
 paramhat_out = [1.01124, 0.336449];
 assert (paramhat, paramhat_out, 1e-5);
***** test
 paramhat = loglfit ([1:6], [], [], [1 1 1 1 1 0]);
 paramhat_out = [1.01124, 0.336449];
 assert (paramhat, paramhat_out, 1e-4);
***** test
 paramhat = loglfit ([1:5], [], [], [1 1 1 1 2]);
 paramhat_out = loglfit ([1:5, 5]);
 assert (paramhat, paramhat_out, 1e-4);
***** error<loglfit: X must be a vector.> loglfit (ones (2,5));
***** error<loglfit: wrong value for ALPHA.> loglfit ([1, 2, 3, 4, 5], 1.2);
***** error<loglfit: wrong value for ALPHA.> loglfit ([1, 2, 3, 4, 5], 0);
***** error<loglfit: wrong value for ALPHA.> loglfit ([1, 2, 3, 4, 5], "alpha");
***** error<loglfit: X and CENSOR vectors mismatch.> ...
 loglfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<loglfit: X and CENSOR vectors mismatch.> ...
 loglfit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<loglfit: X and FREQ vectors mismatch.> ...
 loglfit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<loglfit: X and FREQ vectors mismatch.> ...
 loglfit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<loglfit: 'options' 5th argument must be a structure> ...
 loglfit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/dist_fit/wblfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_fit/wblfit.m
***** demo
 ## Sample 3 populations from 3 different Weibull distributions
 rande ("seed", 1);    # for reproducibility
 r1 = wblrnd(2, 4, 2000, 1);
 rande ("seed", 2);    # for reproducibility
 r2 = wblrnd(5, 2, 2000, 1);
 rande ("seed", 5);    # for reproducibility
 r3 = wblrnd(1, 5, 2000, 1);
 r = [r1, r2, r3];

 ## Plot them normalized and fix their colors
 hist (r, 30, [2.5 2.1 3.2]);
 h = findobj (gca, "Type", "patch");
 set (h(1), "facecolor", "c");
 set (h(2), "facecolor", "g");
 set (h(3), "facecolor", "r");
 ylim ([0, 2]);
 xlim ([0, 10]);
 hold on

 ## Estimate their lambda parameter
 lambda_kA = wblfit (r(:,1));
 lambda_kB = wblfit (r(:,2));
 lambda_kC = wblfit (r(:,3));

 ## Plot their estimated PDFs
 x = [0:0.1:15];
 y = wblpdf (x, lambda_kA(1), lambda_kA(2));
 plot (x, y, "-pr");
 y = wblpdf (x, lambda_kB(1), lambda_kB(2));
 plot (x, y, "-sg");
 y = wblpdf (x, lambda_kC(1), lambda_kC(2));
 plot (x, y, "-^c");
 hold off
 legend ({"Normalized HIST of sample 1 with λ=2 and k=4", ...
          "Normalized HIST of sample 2 with λ=5 and k=2", ...
          "Normalized HIST of sample 3 with λ=1 and k=5", ...
          sprintf("PDF for sample 1 with estimated λ=%0.2f and k=%0.2f", ...
                  lambda_kA(1), lambda_kA(2)), ...
          sprintf("PDF for sample 2 with estimated λ=%0.2f and k=%0.2f", ...
                  lambda_kB(1), lambda_kB(2)), ...
          sprintf("PDF for sample 3 with estimated λ=%0.2f and k=%0.2f", ...
                  lambda_kC(1), lambda_kC(2))})
 title ("Three population samples from different Weibull distributions")
 hold off
***** test
 x = 1:50;
 [paramhat, paramci] = wblfit (x);
 paramhat_out = [28.3636, 1.7130];
 paramci_out = [23.9531, 1.3551; 33.5861, 2.1655];
 assert (paramhat, paramhat_out, 1e-4);
 assert (paramci, paramci_out, 1e-4);
***** test
 x = 1:50;
 [paramhat, paramci] = wblfit (x, 0.01);
 paramci_out = [22.7143, 1.2589; 35.4179, 2.3310];
 assert (paramci, paramci_out, 1e-4);
***** error<wblfit: X must be a vector.> wblfit (ones (2,5));
***** error<wblfit: X must contain only positive values.> wblfit ([-1 2 3 4]);
***** error<wblfit: wrong value for ALPHA.> wblfit ([1, 2, 3, 4, 5], 1.2);
***** error<wblfit: wrong value for ALPHA.> wblfit ([1, 2, 3, 4, 5], 0);
***** error<wblfit: wrong value for ALPHA.> wblfit ([1, 2, 3, 4, 5], "alpha");
***** error<wblfit: X and CENSOR vectors mismatch.> ...
 wblfit ([1, 2, 3, 4, 5], 0.05, [1 1 0]);
***** error<wblfit: X and CENSOR vectors mismatch.> ...
 wblfit ([1, 2, 3, 4, 5], [], [1 1 0 1 1]');
***** error<wblfit: X and FREQ vectors mismatch.> ...
 wblfit ([1, 2, 3, 4, 5], 0.05, zeros (1,5), [1 1 0]);
***** error<wblfit: FREQ cannot have negative values.> ...
 wblfit ([1, 2, 3, 4, 5], [], [], [1 1 0 -1 1]);
***** error<wblfit: X and FREQ vectors mismatch.> ...
 wblfit ([1, 2, 3, 4, 5], [], [], [1 1 0 1 1]');
***** error<wblfit: 'options' 5th argument must be a structure> ...
 wblfit ([1, 2, 3, 4, 5], 0.05, [], [], 2);
13 tests, 13 passed, 0 known failure, 0 skipped
[inst/regression_ttest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/regression_ttest.m
***** error<Invalid call to regression_ttest.  Correct usage> regression_ttest ();
***** error<Invalid call to regression_ttest.  Correct usage> regression_ttest (1);
***** error<regression_ttest: Y must contain finite real numbers.> ...
 regression_ttest ([1 2 NaN]', [2 3 4]');
***** error<regression_ttest: Y must contain finite real numbers.> ...
 regression_ttest ([1 2 Inf]', [2 3 4]');
***** error<regression_ttest: Y must contain finite real numbers.> ...
 regression_ttest ([1 2 3+i]', [2 3 4]');
***** error<regression_ttest: X must contain finite real numbers.> ...
 regression_ttest ([1 2 3]', [2 3 NaN]');
***** error<regression_ttest: X must contain finite real numbers.> ...
 regression_ttest ([1 2 3]', [2 3 Inf]');
***** error<regression_ttest: X must contain finite real numbers.> ...
 regression_ttest ([1 2 3]', [3 4 3+i]');
***** error<regression_ttest: Y and X must be vectors of equal length.> ...
 regression_ttest ([1 2 3]', [3 4 4 5]');
***** error<regression_ttest: invalid value for alpha.> ...
 regression_ttest ([1 2 3]', [2 3 4]', "alpha", 0);
***** error<regression_ttest: invalid value for alpha.> ...
 regression_ttest ([1 2 3]', [2 3 4]', "alpha", 1.2);
***** error<regression_ttest: invalid value for alpha.> ...
 regression_ttest ([1 2 3]', [2 3 4]', "alpha", [.02 .1]);
***** error<regression_ttest: invalid value for alpha.> ...
 regression_ttest ([1 2 3]', [2 3 4]', "alpha", "a");
***** error<regression_ttest: invalid Name argument.> ...
 regression_ttest ([1 2 3]', [2 3 4]', "some", 0.05);
***** error<regression_ttest: invalid value for tail.>  ...
 regression_ttest ([1 2 3]', [2 3 4]', "tail", "val");
***** error<regression_ttest: invalid value for tail.>  ...
 regression_ttest ([1 2 3]', [2 3 4]', "alpha", 0.01, "tail", "val");
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/fillmissing.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fillmissing.m
***** assert (fillmissing ([1, 2, 3], "constant", 99), [1, 2, 3])
***** assert (fillmissing ([1, 2, NaN], "constant", 99), [1, 2, 99])
***** assert (fillmissing ([NaN, 2, NaN], "constant", 99), [99, 2, 99])
***** assert (fillmissing ([1, 2, 3]', "constant", 99), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN]', "constant", 99), [1, 2, 99]')
***** assert (fillmissing ([1, 2, 3; 4, 5, 6], "constant", 99), [1, 2, 3; 4, 5, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "constant", 99), [1, 2, 99; 4, 99, 6])
***** assert (fillmissing ([NaN, 2, NaN; 4, NaN, 6], "constant", [97, 98, 99]), [97, 2, 99; 4, 98, 6])
***** test
 x = cat (3, [1, 2, NaN; 4, NaN, 6], [NaN, 2, 3; 4, 5, NaN]);
 y = cat (3, [1, 2, 99; 4, 99, 6], [99, 2, 3; 4, 5, 99]);
 assert (fillmissing (x, "constant", 99), y);
 y = cat (3, [1, 2, 96; 4, 95, 6], [97, 2, 3; 4, 5, 99]);
 assert (fillmissing (x, "constant", [94:99]), y);
 assert (fillmissing (x, "constant", [94:99]'), y);
 assert (fillmissing (x, "constant", permute ([94:99], [1 3 2])), y);
 assert (fillmissing (x, "constant", [94, 96, 98; 95, 97, 99]), y);
 assert (fillmissing (x, "constant", [94:99], 1), y);
 y = cat (3, [1, 2, 96; 4, 97, 6], [98, 2, 3; 4, 5, 99]);
 assert (fillmissing (x, "constant", [96:99], 2), y);
 y = cat (3, [1, 2, 98; 4, 97, 6], [94, 2, 3; 4, 5, 99]);
 assert (fillmissing (x, "constant", [94:99], 3), y);
 y = cat (3, [1, 2, 92; 4, 91, 6], [94, 2, 3; 4, 5, 99]);
 assert (fillmissing (x, "constant", [88:99], 99), y);
***** test
 x = reshape ([1:24], 4, 3, 2);
 x([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = NaN;
 y = x;
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [94, 95, 95, 96, 96, 97, 97, 98, 99, 99];
 assert (fillmissing (x, "constant", [94:99], 1), y);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [92, 93, 94, 92, 95, 97, 99, 98, 97, 98];
 assert (fillmissing (x, "constant", [92:99], 2), y);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [88, 93, 94, 96, 99, 89, 91, 94, 97, 98];
 assert (fillmissing (x, "constant", [88:99], 3), y);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [76, 81, 82, 84, 87, 89, 91, 94, 97, 98];
 assert (fillmissing (x, "constant", [76:99], 99), y);
***** assert (fillmissing ([1, 2, 3], "constant", 99, "endvalues", 88), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 99, "endvalues", 88), [1, 99, 3])
***** assert (fillmissing ([1, 2, NaN], "constant", 99, "endvalues", 88), [1, 2, 88])
***** assert (fillmissing ([NaN, 2, 3], "constant", 99, "endvalues", 88), [88, 2, 3])
***** assert (fillmissing ([NaN, NaN, 3], "constant", 99, "endvalues", 88), [88, 88, 3])
***** assert (fillmissing ([1, NaN, NaN], "constant", 99, "endvalues", 88), [1, 88, 88])
***** assert (fillmissing ([NaN, 2, NaN], "constant", 99, "endvalues", 88), [88, 2, 88])
***** assert (fillmissing ([NaN, 2, NaN]', "constant", 99, "endvalues", 88), [88, 2, 88]')
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "constant", 99, "endvalues", 88), [1, 99, 3, 99, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "constant", 99, "endvalues", 88), [1, 99, 99, 99, 5])
***** assert (fillmissing ([NaN, NaN, NaN, NaN, 5], "constant", 99, "endvalues", 88), [88, 88, 88, 88, 5])
***** assert (fillmissing ([1, NaN, 3, 4, NaN], "constant", 99, "endvalues", 88), [1, 99, 3, 4, 88])
***** assert (fillmissing ([1, NaN, 3, 4, NaN], "constant", 99, 1, "endvalues", 88), [1, 88, 3, 4, 88])
***** assert (fillmissing ([1, NaN, 3, 4, NaN], "constant", 99, 1, "endvalues", "extrap"), [1, 99, 3, 4, 99])
***** test
 x = reshape ([1:24], 3, 4, 2);
 y = x;
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y([1, 2, 5, 6, 10, 13, 16, 18, 19, 20, 21, 22]) = 88;
 y([8]) = 99;
 assert (fillmissing (x, "constant", 99, "endvalues", 88), y);
 assert (fillmissing (x, "constant", 99, 1, "endvalues", 88), y);
 y = x;
 y([1, 2, 5, 8, 10, 13, 16, 19, 22]) = 88;
 y([6, 18, 20, 21]) = 99;
 assert (fillmissing (x, "constant", 99, 2, "endvalues", 88), y);
 y(y == 99) = 88;
 assert (fillmissing (x, "constant", 99, 3, "endvalues", 88), y);
 assert (fillmissing (x, "constant", 99, 4, "endvalues", 88), y);
 assert (fillmissing (x, "constant", 99, 99, "endvalues", 88), y);
 y([8]) = 94;
 assert (fillmissing (x, "constant", [92:99], 1, "endvalues", 88), y);
 y([6, 8, 18, 20, 21]) = [96, 88, 99, 98, 99];
 assert (fillmissing (x, "constant", [94:99], 2, "endvalues", 88), y);
 y = x;
 y(isnan (y)) = 88;
 assert (fillmissing (x, "constant", [88:99], 3, "endvalues", 88), y);
 y = x;
 y(isnan (y)) = [82, 82, 83, 83, 94, 85, 86, 87, 87, 88, 88, 88, 89];
 assert (fillmissing (x, "constant", [92:99], 1, "endvalues", [82:89]), y);
 y = x;
 y(isnan (y)) = [84, 85, 85, 96, 85, 84, 87, 87, 99, 87, 98, 99, 87];
 assert (fillmissing (x, "constant", [94:99], 2, "endvalues", [84:89]), y);
 y = x;
 y(isnan (y)) = [68, 69, 72, 73, 75, 77, 68, 71, 73, 74, 75, 76, 77];
 assert (fillmissing (x, "constant", [88:99], 3, "endvalues", [68:79]), y);
 assert (fillmissing (x, "constant", [88:93; 94:99]', 3, "endvalues", [68:73; 74:79]'), y)
***** test
 x = reshape ([1:24],4,3,2);
 x([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = NaN;
 y = x;
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [94, 95, 95, 96, 96, 97, 97, 98, 99, 99];
 assert (fillmissing (x, "constant", [94:99], 1), y);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [92, 93, 94, 92, 95, 97, 99, 98, 97, 98];
 assert (fillmissing (x, "constant", [92:99], 2), y);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [88, 93, 94, 96, 99, 89, 91, 94, 97, 98];
 assert (fillmissing (x, "constant", [88:99], 3), y);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [76, 81, 82, 84, 87, 89, 91, 94, 97, 98];
 assert (fillmissing (x, "constant", [76:99], 99), y);
***** assert (fillmissing ([1, 2, 3], "previous"), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], "next"), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3]', "previous"), [1, 2, 3]')
***** assert (fillmissing ([1, 2, 3]', "next"), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN], "previous"), [1, 2, 2])
***** assert (fillmissing ([1, 2, NaN], "next"), [1, 2, NaN])
***** assert (fillmissing ([NaN, 2, NaN], "previous"), [NaN, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "next"), [2, 2, NaN])
***** assert (fillmissing ([1, NaN, 3], "previous"), [1, 1, 3])
***** assert (fillmissing ([1, NaN, 3], "next"), [1, 3, 3])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "previous", 1), [1, 2, NaN; 4, 2, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "previous", 2), [1, 2, 2; 4, 4, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "previous", 3), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "next", 1), [1, 2, 6; 4, NaN, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "next", 2), [1, 2, NaN; 4, 6, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "next", 3), [1, 2, NaN; 4, NaN, 6])
***** test
 x = reshape ([1:24], 4, 3, 2);
 x([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = NaN;
 y = x;
 y([1, 6, 7, 9, 14, 19, 22, 23]) = [2, 8, 8, 10, 15, 20, 24, 24];
 assert (fillmissing (x, "next", 1), y);
 y = x;
 y([1, 6, 7, 14, 16]) = [5, 10, 11, 18, 20];
 assert (fillmissing (x, "next", 2), y);
 y = x;
 y([1, 6, 9, 12]) = [13, 18, 21, 24];
 assert (fillmissing (x, "next", 3), y);
 assert (fillmissing (x, "next", 99), x);
 y = x;
 y([6, 7, 12, 14, 16, 19, 22, 23]) = [5, 5, 11, 13, 15, 18, 21, 21];
 assert (fillmissing (x, "previous", 1), y);
 y = x;
 y([6, 7, 9, 12, 19, 22, 23]) = [2, 3, 5, 8, 15, 18, 15];
 assert (fillmissing (x, "previous", 2), y);
 y = x;
 y([14, 16, 22, 23]) = [2, 4, 10, 11];
 assert (fillmissing (x, "previous", 3), y);
 assert (fillmissing (x, "previous", 99), x);
***** assert (fillmissing ([1, 2, 3], "constant", 0, "endvalues", "previous"), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], "constant", 0, "endvalues", "next"), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 0, "endvalues", "previous"), [1, 0, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 0, "endvalues", "next"), [1, 0, 3])
***** assert (fillmissing ([1, 2, NaN], "constant", 0, "endvalues", "previous"), [1, 2, 2])
***** assert (fillmissing ([1, 2, NaN], "constant", 0, "endvalues", "next"), [1, 2, NaN])
***** assert (fillmissing ([1, NaN, NaN], "constant", 0, "endvalues", "previous"), [1, 1, 1])
***** assert (fillmissing ([1, NaN, NaN], "constant", 0, "endvalues", "next"), [1, NaN, NaN])
***** assert (fillmissing ([NaN, 2, 3], "constant", 0, "endvalues", "previous"), [NaN, 2, 3])
***** assert (fillmissing ([NaN, 2, 3], "constant", 0, "endvalues", "next"), [2, 2, 3])
***** assert (fillmissing ([NaN, NaN, 3], "constant", 0, "endvalues", "previous"), [NaN, NaN, 3])
***** assert (fillmissing ([NaN, NaN, 3], "constant", 0, "endvalues", "next"), [3, 3, 3])
***** assert (fillmissing ([NaN, NaN, NaN], "constant", 0, "endvalues", "previous"), [NaN, NaN, NaN])
***** assert (fillmissing ([NaN, NaN, NaN], "constant", 0, "endvalues", "next"), [NaN, NaN, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, "endvalues", "previous"), [NaN, 2, 0, 4, 4])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, "endvalues", "next"), [2, 2, 0, 4, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 1, "endvalues", "previous"), [NaN, 2, NaN, 4, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 1, "endvalues", "next"), [NaN, 2, NaN, 4, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 2, "endvalues", "previous"), [NaN, 2, 0, 4, 4])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 2, "endvalues", "next"), [2, 2, 0, 4, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 3, "endvalues", "previous"), [NaN, 2, NaN, 4, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 3, "endvalues", "next"), [NaN, 2, NaN, 4, NaN])
***** test
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([5, 6, 8, 18]) = [4, 4, 0, 17];
 assert (fillmissing (x, "constant", 0, "endvalues", "previous"), y);
 assert (fillmissing (x, "constant", 0, 1, "endvalues", "previous"), y);
 y = x;
 y([6, 10, 18, 20, 21]) = [0, 7, 0, 0, 0];
 assert (fillmissing (x, "constant", 0, 2, "endvalues", "previous"), y);
 y = x;
 y([16, 19, 21]) = [4, 7, 9];
 assert (fillmissing (x, "constant", 0, 3, "endvalues", "previous"), y);
 assert (fillmissing (x, "constant", 0, 4, "endvalues", "previous"), x);
 assert (fillmissing (x, "constant", 0, 99, "endvalues", "previous"), x);
 y = x;
 y([1, 2, 8, 10, 13, 16, 22]) = [3, 3, 0, 11, 14, 17, 23];
 assert (fillmissing (x, "constant", 0, "endvalues", "next"), y);
 assert (fillmissing (x, "constant", 0, 1, "endvalues", "next"), y);
 y = x;
 y([1, 2, 5, 6, 8, 18, 20, 21]) = [4, 11, 11, 0, 11, 0, 0, 0];
 assert (fillmissing (x, "constant", 0, 2, "endvalues", "next"), y);
 y = x;
 y([2, 5]) = [14, 17];
 assert (fillmissing (x, "constant", 0, 3, "endvalues", "next"), y);
 assert (fillmissing (x, "constant", 0, 4, "endvalues", "next"), x);
 assert (fillmissing (x, "constant", 0, 99, "endvalues", "next"), x);
***** assert (fillmissing ([1, 2, 3], "nearest"), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3]', "nearest"), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN], "nearest"), [1, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "nearest"), [2, 2, 2])
***** assert (fillmissing ([1, NaN, 3], "nearest"), [1, 3, 3])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "nearest", 1), [1, 2, 6; 4, 2, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "nearest", 2), [1, 2, 2; 4, 6, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "nearest", 3), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "nearest"), [1, 3, 3, 5, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "nearest", "samplepoints", [0, 1, 2, 3, 4]), [1, 3, 3, 5, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "nearest", "samplepoints", [0.5, 1, 2, 3, 5]), [1, 1, 3, 3, 5])
***** test
 x = reshape ([1:24], 4, 3, 2);
 x([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = NaN;
 y = x;
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [2, 5, 8, 10, 11, 15, 15, 20, 21, 24];
 assert (fillmissing (x, "nearest", 1), y);
 y = x;
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = [5, 10, 11, 5, 8, 18, 20, 15, 18, 15];
 assert (fillmissing (x, "nearest", 2), y);
 y = x;
 y([1, 6, 9, 12, 14, 16, 22, 23]) = [13, 18, 21, 24, 2, 4, 10, 11];
 assert (fillmissing (x, "nearest", 3), y);
 assert (fillmissing (x, "nearest", 99), x);
***** assert (fillmissing ([1, 2, 3], "constant", 0, "endvalues", "nearest"), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 0, "endvalues", "nearest"), [1 0 3])
***** assert (fillmissing ([1, 2, NaN], "constant", 0, "endvalues", "nearest"), [1, 2, 2])
***** assert (fillmissing ([1, NaN, NaN], "constant", 0, "endvalues", "nearest"), [1, 1, 1])
***** assert (fillmissing ([NaN, 2, 3], "constant", 0, "endvalues", "nearest"), [2, 2, 3])
***** assert (fillmissing ([NaN, NaN, 3], "constant", 0, "endvalues", "nearest"), [3, 3, 3])
***** assert (fillmissing ([NaN, NaN, NaN], "constant", 0, "endvalues", "nearest"), [NaN, NaN, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, "endvalues", "nearest"), [2, 2, 0, 4, 4])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 1, "endvalues", "nearest"), [NaN, 2, NaN, 4, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 2, "endvalues", "nearest"), [2, 2, 0, 4, 4])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 0, 3, "endvalues", "nearest"), [NaN, 2, NaN, 4, NaN])
***** test
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([1, 2, 5, 6, 8, 10, 13, 16, 18, 22]) = [3, 3, 4, 4, 0, 11, 14, 17, 17, 23];
 assert (fillmissing (x, "constant", 0, "endvalues", "nearest"), y);
 assert (fillmissing (x, "constant", 0, 1, "endvalues", "nearest"), y);
 y = x;
 y([1, 2, 5, 6, 8, 10, 18, 20, 21]) = [4, 11, 11, 0, 11, 7, 0, 0, 0];
 assert (fillmissing (x, "constant", 0, 2, "endvalues", "nearest"), y);
 y = x;
 y([2, 5, 16, 19, 21]) = [14, 17, 4, 7, 9];
 assert (fillmissing (x, "constant", 0, 3, "endvalues", "nearest"), y);
 assert (fillmissing (x, "constant", 0, 99, "endvalues", "nearest"), x);
***** assert (fillmissing ([1, 2, 3], "linear"), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3]', "linear"), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN], "linear"), [1, 2, 3])
***** assert (fillmissing ([NaN, 2, NaN], "linear"), [NaN, 2, NaN])
***** assert (fillmissing ([1, NaN, 3], "linear"), [1, 2, 3])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "linear", 1), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "linear", 2), [1, 2, 3; 4, 5, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "linear", 3), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "linear"), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "linear", "samplepoints", [0, 1, 2, 3, 4]), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "linear", "samplepoints", [0, 1.5, 2, 5, 14]), [1, 2.5, 3, 3.5, 5], eps)
***** test
 x = reshape ([1:24], 4, 3, 2);
 x([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = NaN;
 assert (fillmissing (x, "linear", 1), reshape ([1:24], 4, 3, 2));
 y = reshape ([1:24], 4, 3, 2);
 y([1, 9, 14, 19, 22, 23]) = NaN;
 assert (fillmissing (x, "linear", 2), y);
 y = reshape ([1:24], 4, 3, 2);
 y([1, 6, 7, 9, 12, 14, 16, 19, 22, 23]) = NaN;
 assert (fillmissing (x, "linear", 3), y);
 assert (fillmissing (x, "linear", 99), x);
***** assert (fillmissing ([1, 2, 3], "linear", "endvalues", 0), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "linear", "endvalues", 0), [1, 2, 3])
***** assert (fillmissing ([1, 2, NaN], "linear", "endvalues", 0), [1, 2, 0])
***** assert (fillmissing ([1, NaN, NaN], "linear", "endvalues", 0), [1, 0, 0])
***** assert (fillmissing ([NaN, 2, 3], "linear", "endvalues", 0), [0, 2, 3])
***** assert (fillmissing ([NaN, NaN, 3], "linear", "endvalues", 0), [0, 0, 3])
***** assert (fillmissing ([NaN, NaN, NaN], "linear", "endvalues", 0), [0, 0, 0])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "linear", "endvalues", 0), [0, 2, 3, 4, 0])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "linear", 1, "endvalues", 0), [0, 2, 0, 4, 0])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "linear", 2, "endvalues", 0), [0, 2, 3, 4, 0])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "linear", 3, "endvalues", 0), [0, 2, 0, 4, 0])
***** test
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([1, 2, 5, 6, 10, 13, 16, 18, 19, 20, 21, 22]) = 0;
 y(8) = 8;
 assert (fillmissing (x, "linear", "endvalues", 0), y);
 assert (fillmissing (x, "linear", 1, "endvalues", 0), y);
 y = x;
 y([1, 2, 5, 8, 10, 13, 16, 19, 22]) = 0;
 y([6, 18, 20, 21]) = [6, 18, 20, 21];
 assert (fillmissing (x, "linear", 2, "endvalues", 0), y);
 y = x;
 y(isnan(y)) = 0;
 assert (fillmissing (x, "linear", 3, "endvalues", 0), y);
 assert (fillmissing (x, "linear", 99, "endvalues", 0), y);
***** assert (fillmissing ([1, 2, 3], "constant", 99, "endvalues", "linear"), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 99, "endvalues", "linear"), [1, 99, 3])
***** assert (fillmissing ([1, NaN, 3, NaN], "constant", 99, "endvalues", "linear"), [1, 99, 3, 4])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 99, "endvalues", "linear"), [1, 2, 99, 4, 5])
***** assert (fillmissing ([NaN, 2, NaN, NaN], "constant", 99, "endvalues", "linear"), [NaN, 2, NaN, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 99, "endvalues", "linear", "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 99, 4, 5])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 99, "endvalues", "linear", "samplepoints", [0, 2, 3, 4, 10]), [0, 2, 99, 4, 10])
***** test
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([1, 6, 10, 18, 20, 21]) = [2.5, 5, 8.5, 17.25, 21, 21.75];
 assert (fillmissing (x, "linear", 2, "samplepoints", [2 4 8 10]), y, eps);
 y([1, 6, 10, 18, 20, 21]) = [2.5, 4.5, 8.5, 17.25, 21.5, 21.75];
 assert (fillmissing (x, "spline", 2, "samplepoints", [2, 4, 8, 10]), y, eps);
 y([1, 6, 10, 18, 20, 21]) = [2.5, 4.559386973180077, 8.5, 17.25, 21.440613026819925, 21.75];
 assert (fillmissing (x, "pchip", 2, "samplepoints", [2, 4, 8, 10]), y, 10*eps);
***** test <60965>
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([1, 6, 10, 18, 20, 21]) = [2.5, 4.609523809523809, 8.5, 17.25, 21.390476190476186, 21.75];
 assert (fillmissing (x, "makima", 2, "samplepoints", [2, 4, 8, 10]), y, 1e-14);
***** assert (fillmissing ([1, 2, 3], "constant", 99, "endvalues", "spline"), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 99, "endvalues", "spline"), [1, 99, 3])
***** assert (fillmissing ([1, NaN, 3, NaN], "constant", 99, "endvalues", "spline"), [1, 99, 3, 4])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 99, "endvalues", "spline"), [1, 2, 99, 4, 5])
***** assert (fillmissing ([NaN, 2, NaN, NaN], "constant", 99, "endvalues", "spline"), [NaN, 2, NaN, NaN])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 99, "endvalues", "spline", "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 99, 4, 5])
***** assert (fillmissing ([NaN, 2, NaN, 4, NaN], "constant", 99, "endvalues", "spline", "samplepoints", [0, 2, 3, 4, 10]), [0, 2, 99, 4, 10])
***** assert (fillmissing ([1, 2, 3], "movmean", 1), [1, 2, 3])
***** assert (fillmissing ([1, 2, NaN], "movmean", 1), [1, 2, NaN])
***** assert (fillmissing ([1, 2, 3], "movmean", 2), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], "movmean", [1, 0]), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3]', "movmean", 2), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN], "movmean", 2), [1, 2, 2])
***** assert (fillmissing ([1, 2, NaN], "movmean", [1, 0]), [1, 2, 2])
***** assert (fillmissing ([1, 2, NaN], "movmean", [1, 0]'), [1, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "movmean", 2), [NaN, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "movmean", [1, 0]), [NaN, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "movmean", [0, 1]), [2, 2, NaN])
***** assert (fillmissing ([NaN, 2, NaN], "movmean", [0, 1.1]), [2, 2, NaN])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmean", [3, 0]), [1, 1, 3, 2, 5])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "movmean", 3, 1), [1, 2, 6; 4, 2, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "movmean", 3, 2), [1, 2, 2; 4, 5, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "movmean", 3, 3), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmean", 99), [1, 3, 3, 3, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmean", 99, 1), [1, NaN, 3, NaN, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', "movmean", 99, 1), [1, 3, 3, 3, 5]')
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmean", 99, 2), [1, 3, 3, 3, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', "movmean", 99, 2), [1, NaN, 3, NaN, 5]')
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", 3, "samplepoints", [1, 2, 3, 4, 5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", [1, 1], "samplepoints", [1, 2, 3, 4, 5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", [1.5, 1.5], "samplepoints", [1, 2, 3, 4, 5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", 4, "samplepoints", [1, 2, 3, 4, 5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", [2, 2], "samplepoints", [1, 2, 3, 4, 5]), [1, 1, 3, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", 4.0001, "samplepoints", [1, 2, 3, 4, 5]), [1, 1, 3, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", 3, "samplepoints", [1.5, 2, 3, 4, 5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", 3, "samplepoints", [1 2, 3, 4, 4.5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", 3, "samplepoints", [1.5, 2, 3, 4, 4.5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", [1.5, 1.5], "samplepoints", [1.5, 2, 3, 4, 5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", [1.5, 1.5], "samplepoints", [1, 2, 3, 4, 4.5]), [1, 1, 5, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmean", [1.5, 1.5], "samplepoints", [1.5, 2 3, 4, 4.5]), [1, 1, 3, 5, 5])
***** test
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([2, 5, 8, 10, 13, 16, 18, 22]) = [3, 4, 8, 11, 14, 17, 17, 23];
 assert (fillmissing (x, "movmean", 3), y);
 assert (fillmissing (x, "movmean", [1, 1]), y);
 assert (fillmissing (x, "movmean", 3, "endvalues", "extrap"), y);
 assert (fillmissing (x, "movmean", 3, "samplepoints", [1, 2, 3]), y);
 y = x;
 y([1, 6, 8, 10, 18, 20, 21]) = [4, 6, 11, 7, 15, 20, 24];
 assert (fillmissing (x, "movmean", 3, 2), y);
 assert (fillmissing (x, "movmean", [1, 1], 2), y);
 assert (fillmissing (x, "movmean", 3, 2, "endvalues", "extrap"), y);
 assert (fillmissing (x, "movmean", 3, 2, "samplepoints", [1, 2, 3, 4]), y);
 y([1, 18]) = NaN;
 y(6) = 9;
 assert (fillmissing (x, "movmean", 3, 2, "samplepoints", [0, 2, 3, 4]), y);
 y = x;
 y([1, 2, 5, 6, 10, 13, 16, 18, 19, 20, 21, 22]) = 99;
 y(8) = 8;
 assert (fillmissing (x, "movmean", 3, "endvalues", 99), y);
 y = x;
 y([1, 2, 5, 8, 10, 13, 16, 19, 22]) = 99;
 y([6, 18, 20, 21]) = [6, 15, 20, 24];
 assert (fillmissing (x, "movmean", 3, 2, "endvalues", 99), y);
***** assert (fillmissing ([1, 2, 3], "movmedian", 1), [1, 2, 3])
***** assert (fillmissing ([1, 2, NaN], "movmedian", 1), [1, 2, NaN])
***** assert (fillmissing ([1, 2, 3], "movmedian", 2), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], "movmedian", [1, 0]), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3]', "movmedian", 2), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN], "movmedian", 2), [1, 2, 2])
***** assert (fillmissing ([1, 2, NaN], "movmedian", [1, 0]), [1, 2, 2])
***** assert (fillmissing ([1, 2, NaN], "movmedian", [1, 0]'), [1, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "movmedian", 2), [NaN, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "movmedian", [1, 0]), [NaN, 2, 2])
***** assert (fillmissing ([NaN, 2, NaN], "movmedian", [0, 1]), [2, 2, NaN])
***** assert (fillmissing ([NaN, 2, NaN], "movmedian", [0, 1.1]), [2, 2, NaN])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmedian", [3, 0]), [1, 1, 3, 2, 5])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "movmedian", 3, 1), [1, 2, 6; 4, 2, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "movmedian", 3, 2), [1, 2, 2; 4, 5, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], "movmedian", 3, 3), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmedian", 99), [1, 3, 3, 3, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmedian", 99, 1), [1, NaN, 3, NaN, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', "movmedian", 99, 1), [1, 3, 3, 3, 5]')
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "movmedian", 99, 2), [1, 3, 3, 3, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', "movmedian", 99, 2), [1, NaN, 3, NaN, 5]')
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", 3, "samplepoints", [1, 2, 3, 4, 5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", [1, 1], "samplepoints", [1, 2, 3, 4, 5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", [1.5, 1.5], "samplepoints", [1, 2, 3, 4, 5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", 4, "samplepoints", [1, 2, 3, 4, 5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", [2, 2], "samplepoints", [1, 2, 3, 4, 5]), [1, 1, 3, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", 4.0001, "samplepoints", [1, 2, 3, 4, 5]), [1, 1, 3, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", 3, "samplepoints", [1.5 2 3 4 5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", 3, "samplepoints", [1 2 3 4 4.5]), [1, 1, NaN, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", 3, "samplepoints", [1.5 2 3 4 4.5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", [1.5, 1.5], "samplepoints", [1.5 2 3 4 5]), [1, 1, 1, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", [1.5, 1.5], "samplepoints", [1 2 3 4 4.5]), [1, 1, 5, 5, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], "movmedian", [1.5, 1.5], "samplepoints", [1.5 2 3 4 4.5]), [1, 1, 3, 5, 5])
***** test
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([2, 5, 8, 10, 13, 16, 18, 22]) = [3, 4, 8, 11, 14, 17, 17, 23];
 assert (fillmissing (x, "movmedian", 3), y);
 assert (fillmissing (x, "movmedian", [1, 1]), y);
 assert (fillmissing (x, "movmedian", 3, "endvalues", "extrap"), y);
 assert (fillmissing (x, "movmedian", 3, "samplepoints", [1, 2, 3]), y);
 y = x;
 y([1, 6, 8, 10, 18, 20, 21]) = [4, 6, 11, 7, 15, 20, 24];
 assert (fillmissing (x, "movmedian", 3, 2), y);
 assert (fillmissing (x, "movmedian", [1, 1], 2), y);
 assert (fillmissing (x, "movmedian", 3, 2, "endvalues", "extrap"), y);
 assert (fillmissing (x, "movmedian", 3, 2, "samplepoints", [1, 2, 3, 4]), y);
 y([1,18]) = NaN;
 y(6) = 9;
 assert (fillmissing (x, "movmedian", 3, 2, "samplepoints", [0, 2, 3, 4]), y);
 y = x;
 y([1, 2, 5, 6, 10, 13, 16, 18, 19, 20, 21, 22]) = 99;
 y(8) = 8;
 assert (fillmissing (x, "movmedian", 3, "endvalues", 99), y);
 y = x;
 y([1, 2, 5, 8, 10, 13, 16, 19, 22]) = 99;
 y([6, 18, 20, 21]) = [6, 15, 20, 24];
 assert (fillmissing (x, "movmedian", 3, 2, "endvalues", 99), y);
***** assert (fillmissing ([1, 2, 3], @(x,y,z) x+y+z, 2), [1, 2, 3])
***** assert (fillmissing ([1, 2, NaN], @(x,y,z) x+y+z, 1), [1, 2, NaN])
***** assert (fillmissing ([1, 2, 3], @(x,y,z) x+y+z, 2), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], @(x,y,z) x+y+z, [1, 0]), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3]', @(x,y,z) x+y+z, 2), [1, 2, 3]')
***** assert (fillmissing ([1, 2, NaN], @(x,y,z) x+y+z, 2), [1, 2, 7])
***** assert (fillmissing ([1, 2, NaN], @(x,y,z) x+y+z, [1, 0]), [1, 2, 7])
***** assert (fillmissing ([1, 2, NaN], @(x,y,z) x+y+z, [1, 0]'), [1, 2, 7])
***** assert (fillmissing ([NaN, 2, NaN], @(x,y,z) x+y+z, 2), [5, 2, 7])
***** assert (fillmissing ([NaN, 2, NaN], @(x,y,z) x+y+z, [1, 0]), [NaN, 2, 7])
***** assert (fillmissing ([NaN, 2, NaN], @(x,y,z) x+y+z, [0, 1]), [5, 2, NaN])
***** assert (fillmissing ([NaN, 2, NaN], @(x,y,z) x+y+z, [0, 1.1]), [5, 2, NaN])
***** assert (fillmissing ([1, 2, NaN, NaN, 3, 4], @(x,y,z) x+y+z, 2), [1, 2, 7, 12, 3, 4])
***** assert (fillmissing ([1, 2, NaN, NaN, 3, 4], @(x,y,z) x+y+z, 0.5), [1, 2, NaN, NaN, 3, 4])
***** function A = testfcn (x, y, z)
  if (isempty (y))
    A = z;
  elseif (numel (y) == 1)
    A = repelem (x(1), numel(z));
  else
    A = interp1 (y, x, z, "linear", "extrap");
  endif
***** endfunction
***** assert (fillmissing ([1, NaN, 3, NaN, 5], @testfcn, [3, 0]), [1, 1, 3, NaN, 5])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], @testfcn, 3, 1), [1, 2, 6; 4, 2, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], @testfcn, 3, 2), [1, 2, 2; 4, 5, 6])
***** assert (fillmissing ([1, 2, NaN; 4, NaN, 6], @testfcn, 3, 3), [1, 2, NaN; 4, NaN, 6])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], @testfcn, 99), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], @testfcn, 99, 1), [1, NaN, 3, NaN, 5]) ##known not-compatible. matlab bug ML2022a: [1, 1, 3, 1, 5]
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', @testfcn, 99, 1), [1, 2, 3, 4, 5]')
***** assert (fillmissing ([1, NaN, 3, NaN, 5], @testfcn, 99, 2), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', @testfcn, 99, 2), [1, NaN, 3, NaN, 5]') ##known not-compatible. matlab bug ML2022a: [1, 1, 3, 1, 5]'
***** assert (fillmissing ([1, NaN, 3, NaN, 5], @testfcn, 99, 3), [1, NaN, 3, NaN, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', @testfcn, 99, 3), [1, NaN, 3, NaN, 5]')
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], @testfcn, 3, "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], @testfcn, [1, 1], "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], @testfcn, [1.5, 1.5], "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], @testfcn, 4, "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], @testfcn, [2, 2], "samplepoints", [1, 2, 3, 4, 5]), [1, 2, 3, 4, 5])
***** assert (fillmissing ([1, NaN, NaN, NaN, 5], @testfcn, 3, "samplepoints", [1, 2, 2.5, 3, 3.5]), [1, 2.6, 3.4, 4.2, 5], 10*eps)
***** assert (fillmissing ([NaN, NaN, 3, NaN, 5], @testfcn, 99, 1), [NaN, NaN, 3, NaN, 5]) ##known not-compatible. matlab bug ML2022a: [1, 1, 3, 1, 5]
***** test
***** function A = testfcn (x, y, z)
  if (isempty (y))
    A = z;
  elseif (numel (y) == 1)
    A = repelem (x(1), numel(z));
  else
    A = interp1 (y, x, z, "linear", "extrap");
  endif
***** endfunction
 x = reshape ([1:24], 3, 4, 2);
 x([1, 2, 5, 6, 8, 10, 13, 16, 18, 19, 20, 21, 22]) = NaN;
 y = x;
 y([1, 2, 5, 6, 8, 10, 13, 16, 18, 22]) = [3, 3, 4, 4, 8, 11, 14, 17, 17, 23];
 assert (fillmissing (x, @testfcn, 3), y);
 assert (fillmissing (x, @testfcn, [1, 1]), y);
 assert (fillmissing (x, @testfcn, 3, "endvalues", "extrap"), y);
 assert (fillmissing (x, @testfcn, 3, "samplepoints", [1, 2, 3]), y);
 y= x;
 y(isnan (x)) = 99;
 y(8) = 8;
 assert (fillmissing (x, @testfcn, 3, "endvalues", 99), y)
 y = x;
 y([1, 2, 5, 6, 8, 10, 18, 20, 21]) = [4, 11, 11, 6, 11, 7, 18, 20, 21];
 assert (fillmissing (x, @testfcn, 3, 2), y);
 assert (fillmissing (x, @testfcn, [1, 1], 2), y);
 assert (fillmissing (x, @testfcn, 3, 2, "endvalues", "extrap"), y);
 assert (fillmissing (x, @testfcn, 3, 2, "samplepoints", [1, 2, 3, 4]), y);
 y(1) = NaN;
 y([6, 18, 21]) = [9, 24, 24];
 assert (fillmissing (x, @testfcn, 3, 2, "samplepoints", [0, 2, 3, 4]), y);
 y = x;
 y([1, 2, 5, 6, 10, 13, 16, 18, 19, 20, 21, 22]) = 99;
 y(8) = 8;
 assert (fillmissing (x, @testfcn, 3, "endvalues", 99), y);
 y([6, 18, 20, 21]) = [6, 18, 20, 21];
 y(8) = 99;
 assert (fillmissing (x, @testfcn, 3, 2, "endvalues", 99), y);
 y([6, 18, 20, 21]) = 99;
 assert (fillmissing (x, @testfcn, 3, 3, "endvalues", 99), y);
***** assert (fillmissing ([1, 2, 3], "constant", 0, "maxgap", 1), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], "constant", 0, "maxgap", 99), [1, 2, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 0, "maxgap", 1), [1, NaN, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 0, "maxgap", 1.999), [1, NaN, 3])
***** assert (fillmissing ([1, NaN, 3], "constant", 0, "maxgap", 2), [1, 0, 3])
***** assert (fillmissing ([1, NaN, NaN, 4], "constant", 0, "maxgap", 2), [1, NaN, NaN, 4])
***** assert (fillmissing ([1, NaN, NaN, 4], "constant", 0, "maxgap", 3), [1, 0, 0, 4])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "constant", 0, "maxgap", 2), [1, 0, 3, 0, 5])
***** assert (fillmissing ([NaN, 2, NaN], "constant", 0, "maxgap", 0.999), [NaN, 2, NaN])
***** assert (fillmissing ([NaN, 2, NaN], "constant", 0, "maxgap", 1), [0, 2, 0])
***** assert (fillmissing ([NaN, 2, NaN, NaN], "constant", 0, "maxgap", 1), [0, 2, NaN, NaN])
***** assert (fillmissing ([NaN, 2, NaN, NaN], "constant", 0, "maxgap", 2), [0, 2, 0, 0])
***** assert (fillmissing ([NaN, NaN, NaN], "constant", 0, "maxgap", 1), [NaN, NaN, NaN])
***** assert (fillmissing ([NaN, NaN, NaN], "constant", 0, "maxgap", 3), [NaN, NaN, NaN])
***** assert (fillmissing ([NaN, NaN, NaN], "constant", 0, "maxgap", 999), [NaN, NaN, NaN])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "constant", 0, "maxgap", 2, "samplepoints", [0, 1, 2, 3, 5]), [1, 0, 3, NaN, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5]', "constant", 0, "maxgap", 2, "samplepoints", [0, 1, 2, 3, 5]), [1, 0, 3, NaN, 5]')
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "constant", 0, "maxgap", 2, "samplepoints", [0, 2, 3, 4, 5]), [1, NaN, 3, 0, 5])
***** assert (fillmissing ([1, NaN, 3, NaN, 5; 1, NaN, 3, NaN, 5], "constant", 0, 2, "maxgap", 2, "samplepoints", [0, 2, 3, 4, 5]), [1, NaN, 3, 0, 5; 1, NaN, 3, 0, 5])
***** test
 x = cat (3, [1, 2, NaN; 4, NaN, NaN], [NaN, 2, 3; 4, 5, NaN]);
 assert (fillmissing (x, "constant", 0, "maxgap", 0.1), x);
 y = x;
 y([4, 7, 12]) = 0;
 assert (fillmissing (x, "constant", 0, "maxgap", 1), y);
 assert (fillmissing (x, "constant", 0, 1, "maxgap", 1), y);
 y = x;
 y([5, 7, 12]) = 0;
 assert (fillmissing (x, "constant", 0, 2, "maxgap", 1), y);
 y = x;
 y([4, 5, 7]) = 0;
 assert (fillmissing (x, "constant", 0, 3, "maxgap", 1), y);
***** test
 x = cat (3, [1, 2, NaN; 4, NaN, NaN], [NaN, 2, 3; 4, 5, NaN]);
 [~, idx] = fillmissing (x, "constant", 0, "maxgap", 1);
 assert (idx, logical (cat (3, [0, 0, 0; 0, 1, 0], [1, 0, 0; 0, 0, 1])));
 [~, idx] = fillmissing (x, "constant", 0, 1, "maxgap", 1);
 assert (idx, logical (cat (3, [0, 0, 0; 0, 1, 0], [1, 0, 0; 0, 0, 1])));
 [~, idx] = fillmissing (x, "constant", 0, 2, "maxgap", 1);
 assert (idx, logical (cat (3, [0, 0, 1; 0, 0, 0], [1, 0, 0; 0, 0, 1])));
 [~, idx] = fillmissing (x, "constant", 0, 3, "maxgap", 1);
 assert (idx, logical (cat (3, [0, 0, 1; 0, 1, 0], [1, 0, 0; 0, 0, 0])));
***** test
 x = [NaN, 2, 3];
 [~, idx] = fillmissing (x, "previous");
 assert (idx, logical ([0, 0, 0]));
 [~, idx] = fillmissing (x, "movmean", 1);
 assert (idx, logical ([0, 0, 0]));
 x = [1:3; 4:6; 7:9];
 x([2, 4, 7, 9]) = NaN;
 [~, idx] = fillmissing (x, "linear");
 assert (idx, logical ([0, 1, 0; 1, 0, 0; 0, 0, 0]));
 [~, idx] = fillmissing (x, "movmean", 2);
 assert (idx, logical ([0, 0, 0; 1, 0, 0; 0, 0, 1]));
 [A, idx] = fillmissing ([1, 2, 3, NaN, NaN], "movmean",2);
 assert (A, [1, 2, 3, 3, NaN]);
 assert (idx, logical ([0, 0, 0, 1, 0]));
 [A, idx] = fillmissing ([1, 2, 3, NaN, NaN], "movmean",3);
 assert (A, [1, 2, 3, 3, NaN]);
 assert (idx, logical ([0, 0, 0, 1, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, NaN, NaN], "movmedian", 2);
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, 3, NaN, NaN], "movmedian", 3);
 assert (A, [1, 2, 3, 3, NaN]);
 assert (idx, logical ([0, 0, 0, 1, 0]));
 [A, idx] = fillmissing ([1, NaN, 1, NaN, 1],  @(x,y,z) z, 3);
 assert (A, [1, 2, 1, 4, 1]);
 assert (idx, logical ([0, 1, 0, 1, 0]));
 [A, idx] = fillmissing ([1, NaN, 1, NaN, 1],  @(x,y,z) NaN (size (z)), 3);
 assert (A, [1, NaN, 1, NaN, 1]);
 assert (idx, logical ([0, 0, 0, 0, 0]));
***** assert (fillmissing ([1, 2, 3], "constant", 99, "missinglocations", logical ([0, 0, 0])), [1, 2, 3])
***** assert (fillmissing ([1, 2, 3], "constant", 99, "missinglocations", logical ([1, 1, 1])), [99, 99, 99])
***** assert (fillmissing ([1, NaN, 2, 3, NaN], "constant", 99, "missinglocations", logical ([1, 0, 1, 0, 1])), [99, NaN, 99, 3, 99])
***** assert (fillmissing ([1, NaN, 3, NaN, 5], "constant", NaN, "missinglocations", logical ([0, 1, 1, 1, 0])), [1, NaN, NaN, NaN, 5])
***** assert (fillmissing (["foo "; " bar"], "constant", "X", "missinglocations", logical ([0, 0, 0, 0; 0, 0, 0, 0])), ["foo "; " bar"])
***** assert (fillmissing (["foo "; " bar"], "constant", "X", "missinglocations", logical ([1, 0, 1, 0; 0, 1, 1, 0])), ["XoX "; " XXr"])
***** assert (fillmissing ({"foo", "", "bar"}, "constant", "X", "missinglocations", logical ([0, 0, 0])), {"foo", "", "bar"})
***** assert (fillmissing ({"foo", "", "bar"}, "constant", "X", "missinglocations", logical ([1, 1, 0])), {"X", "X", "bar"})
***** test
 [~, idx] = fillmissing ([1, NaN, 3, NaN, 5], "constant", NaN);
 assert (idx, logical ([0, 0, 0, 0, 0]));
 [~, idx] = fillmissing ([1 NaN 3 NaN 5], "constant", NaN, "missinglocations", logical ([0, 1, 1, 1, 0]));
 assert (idx, logical ([0, 1, 1, 1, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, 1, NaN], "movmean", 3.1, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, NaN, NaN], "movmean", 2, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, 1, NaN], "movmean", 3, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, NaN, NaN], "movmean", 3, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, NaN, NaN], "movmedian", 2, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, NaN, NaN], "movmedian", 3, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, 2, NaN, NaN, NaN], "movmedian", 3.1, "missinglocations", logical ([0, 0, 1, 1, 0]));
 assert (A, [1, 2, 2, NaN, NaN]);
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [A, idx] = fillmissing ([1, NaN, 1, NaN, 1],  @(x,y,z) ones (size (z)), 3, "missinglocations", logical ([0, 1, 0, 1, 1]));
 assert (A, [1, 1, 1, 1, 1]);
 assert (idx, logical ([0, 1, 0, 1, 1]));
 [A, idx] = fillmissing ([1, NaN, 1, NaN, 1],  @(x,y,z) NaN (size (z)), 3, "missinglocations", logical ([0, 1, 0, 1, 1]));
 assert (A, [1, NaN, 1, NaN, NaN]);
 assert (idx, logical ([0, 0, 0, 0, 0]));
***** test
 [A, idx] = fillmissing ([1, 2, 5], "movmedian", 3, "missinglocations", logical ([0, 1, 0]));
 assert (A, [1, 3, 5]);
 assert (idx, logical ([0, 1, 0]));
***** assert (fillmissing (' foo bar ', "constant", 'X', "missinglocations", logical ([1, 0, 0, 0, 1, 0, 0, 0, 1])), 'XfooXbarX')
***** assert (fillmissing ([' foo'; 'bar '], "constant", 'X', "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['Xfoo'; 'barX'])
***** assert (fillmissing ([' foo'; 'bar '], "next", "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['bfoo'; 'bar '])
***** assert (fillmissing ([' foo'; 'bar '], "next", 1, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['bfoo'; 'bar '])
***** assert (fillmissing ([' foo'; 'bar '], "previous", "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), [' foo'; 'baro'])
***** assert (fillmissing ([' foo'; 'bar '], "previous", 1, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), [' foo'; 'baro'])
***** assert (fillmissing ([' foo'; 'bar '], "nearest", "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['bfoo'; 'baro'])
***** assert (fillmissing ([' foo'; 'bar '], "nearest", 1, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['bfoo'; 'baro'])
***** assert (fillmissing ([' foo'; 'bar '], "next", 2, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['ffoo'; 'bar '])
***** assert (fillmissing ([' foo'; 'bar '], "previous", 2, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), [' foo'; 'barr'])
***** assert (fillmissing ([' foo'; 'bar '], "nearest", 2, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), ['ffoo'; 'barr'])
***** assert (fillmissing ([' foo'; 'bar '], "next", 3, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), [' foo'; 'bar '])
***** assert (fillmissing ([' foo'; 'bar '], "previous", 3, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), [' foo'; 'bar '])
***** assert (fillmissing ([' foo'; 'bar '], "nearest", 3, "missinglocations", logical ([1, 0, 0, 0; 0, 0, 0, 1])), [' foo'; 'bar '])
***** assert (fillmissing ({'foo', 'bar'}, "constant", 'a'), {'foo', 'bar'})
***** assert (fillmissing ({'foo', 'bar'}, "constant", {'a'}), {'foo', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "constant", 'a'), {'foo', 'a', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "constant", {'a'}), {'foo', 'a', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "previous"), {'foo', 'foo', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "next"), {'foo', 'bar', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "nearest"), {'foo', 'bar', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "previous", 2), {'foo', 'foo', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "next", 2), {'foo', 'bar', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "nearest", 2), {'foo', 'bar', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "previous", 1), {'foo', '', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "previous", 1), {'foo', '', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "next", 1), {'foo', '', 'bar'})
***** assert (fillmissing ({'foo', '', 'bar'}, "nearest", 1), {'foo', '', 'bar'})
***** assert (fillmissing ('abc ', @(x,y,z) x+y+z, 2, "missinglocations", logical ([0, 0, 0, 1])), 'abcj')
***** assert (fillmissing ({'foo', '', 'bar'}, @(x,y,z) x(1), 3), {'foo', 'foo', 'bar'})
***** test
 [A, idx] = fillmissing (' a b c', "constant", ' ', "missinglocations", logical ([1, 0, 1, 0, 1, 0]));
 assert (A, ' a b c');
 assert (idx, logical ([1, 0, 1, 0, 1, 0]));
***** test
 [A, idx] = fillmissing (' a b c', "constant", ' ');
 assert (A, ' a b c');
 assert (idx, logical ([0, 0, 0, 0, 0, 0]));
***** test
 [A, idx] = fillmissing ({'foo', '', 'bar', ''}, "constant", '');
 assert (A, {'foo', '', 'bar', ''});
 assert (idx, logical ([0, 0, 0, 0]));
***** test
 [A, idx] = fillmissing ({'foo', '', 'bar', ''}, "constant", {''});
 assert (A, {'foo', '', 'bar', ''});
 assert (idx, logical ([0, 0, 0, 0]));
***** test
 [A, idx] = fillmissing (' f o o ', @(x,y,z) repelem ('a', numel (z)), 3, "missinglocations", logical ([1, 0, 1, 0, 1, 0, 1]));
 assert (A, 'afaoaoa');
 assert (idx, logical ([1, 0, 1, 0, 1, 0, 1]));
***** test
 [A, idx] = fillmissing (' f o o ', @(x,y,z) repelem (' ', numel (z)), 3);
 assert (A, ' f o o ');
 assert (idx, logical ([0, 0, 0, 0, 0, 0, 0]));
***** test
 [A, idx] = fillmissing ({'', 'foo', ''}, @(x,y,z) repelem ({'a'}, numel (z)), 3);
 assert (A, {"a", "foo", "a"});
 assert (idx, logical ([1, 0, 1]));
***** test
 [A, idx] = fillmissing ({'', 'foo', ''}, @(x,y,z) repelem ({''}, numel (z)), 3);
 assert (A, {'', 'foo', ''});
 assert (idx, logical ([0, 0, 0]));
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]), "constant", true), logical ([1, 0, 1, 0, 1]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]), "constant", false, "missinglocations", logical ([1, 0, 1, 0, 1])), logical ([0, 0, 0, 0, 0]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]), "previous",  "missinglocations", logical ([1, 0, 1, 0, 1])), logical ([1, 0, 0, 0, 0]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]), "next",  "missinglocations", logical ([1, 0, 1, 0, 1])), logical ([0, 0, 0, 0, 1]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]), "nearest", "missinglocations", logical ([1, 0, 1, 0, 1])), logical ([0, 0, 0, 0, 0]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]),  @(x,y,z) false(size(z)), 3), logical ([1, 0, 1, 0, 1]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]),  @(x,y,z) false(size(z)), 3, "missinglocations", logical ([1, 0, 1, 0, 1])), logical ([0, 0, 0, 0, 0]))
***** assert (fillmissing (logical ([1, 0, 1, 0, 1]),  @(x,y,z) false(size(z)), [2, 0], "missinglocations", logical ([1, 0, 1, 0, 1])), logical ([1, 0, 0, 0, 0]))
***** test
 x = logical ([1, 0, 1, 0, 1]);
 [~, idx] = fillmissing (x, "constant", true);
 assert (idx, logical ([0, 0, 0, 0, 0]));
 [~, idx] = fillmissing (x, "constant", false, "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, "constant", true, "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, "previous", "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([0, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, "next",  "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 0]));
 [~, idx] = fillmissing (x, "nearest", "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, @(x,y,z) false(size(z)), 3);
 assert (idx, logical ([0, 0, 0, 0, 0]))
 [~, idx] = fillmissing (x, @(x,y,z) false(size(z)), 3, "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]))
 [~, idx] = fillmissing (x, @(x,y,z) false(size(z)), [2 0], "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([0, 0, 1, 0, 1]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), "constant", 0), int32 ([1, 2, 3, 4, 5]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), "constant", 0, "missinglocations", logical ([1, 0, 1, 0, 1])), int32 ([0, 2, 0, 4, 0]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), "previous", "missinglocations", logical ([1, 0, 1, 0, 1])), int32 ([1, 2, 2, 4, 4]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), "next", "missinglocations", logical ([1, 0, 1, 0, 1])), int32 ([2, 2, 4, 4, 5]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), "nearest", "missinglocations", logical ([1, 0, 1, 0, 1])), int32 ([2, 2, 4, 4, 4]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), @(x,y,z) z+10, 3), int32 ([1, 2, 3, 4, 5]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), @(x,y,z) z+10, 3, "missinglocations", logical ([1, 0, 1, 0, 1])), int32 ([11, 2, 13, 4, 15]))
***** assert (fillmissing (int32 ([1, 2, 3, 4, 5]), @(x,y,z) z+10, [2, 0], "missinglocations", logical ([1, 0, 1, 0, 1])), int32 ([1, 2, 13, 4, 15]))
***** test
 x = int32 ([1, 2, 3, 4, 5]);
 [~, idx] = fillmissing (x, "constant", 0);
 assert (idx, logical ([0, 0, 0, 0, 0]));
 [~, idx] = fillmissing (x, "constant", 0, "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, "constant", 3, "missinglocations", logical ([0, 0, 1, 0, 0]));
 assert (idx, logical ([0, 0, 1, 0, 0]));
 [~, idx] = fillmissing (x, "previous", "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([0, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, "next", "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 0]));
 [~, idx] = fillmissing (x, "nearest", "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, @(x,y,z) z+10, 3);
 assert (idx, logical ([0, 0, 0, 0, 0]));
 [~, idx] = fillmissing (x, @(x,y,z) z+10, 3, "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([1, 0, 1, 0, 1]));
 [~, idx] = fillmissing (x, @(x,y,z) z+10, [2 0], "missinglocations", logical ([1, 0, 1, 0, 1]));
 assert (idx, logical ([0, 0, 1, 0, 1]));
***** test
 [A, idx] = fillmissing ([struct, struct], "constant", 1);
 assert (A, [struct, struct])
 assert (idx, [false, false])
***** error <Invalid call> fillmissing ()
***** error <Invalid call> fillmissing (1)
***** error <Invalid call> fillmissing (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
***** error <second input must be a> fillmissing (1, 2)
***** error <unknown fill method 'foo'> fillmissing (1, "foo")
***** error <fill function must accept at least> fillmissing (1, @(x) x, 1)
***** error <fill function must accept at least> fillmissing (1, @(x,y) x+y, 1)
***** error <interpolation methods only valid for numeric> fillmissing ("a b c", "linear")
***** error <interpolation methods only valid for numeric> fillmissing ({"a", "b"}, "linear")
***** error <'movmean' and 'movmedian' methods only valid for numeric> fillmissing ("a b c", "movmean", 2)
***** error <'movmean' and 'movmedian' methods only valid for numeric> fillmissing ({"a", "b"}, "movmean", 2)
***** error <'constant' method must be followed by> fillmissing (1, "constant")
***** error <a numeric fill value cannot be emtpy> fillmissing (1, "constant", [])
***** error <fill value must be the same data type> fillmissing (1, "constant", "a")
***** error <fill value must be the same data type> fillmissing ("a", "constant", 1)
***** error <fill value must be the same data type> fillmissing ("a", "constant", {"foo"})
***** error <fill value must be the same data type> fillmissing ({"foo"}, "constant", 1)
***** error <moving window method must be followed by> fillmissing (1, "movmean")
***** error <moving window method must be followed by> fillmissing (1, "movmedian")
***** error <DIM must be a positive scalar> fillmissing (1, "constant", 1, 0)
***** error <DIM must be a positive scalar> fillmissing (1, "constant", 1, -1)
***** error <DIM must be a positive scalar> fillmissing (1, "constant", 1, [1, 2])
***** error <properties must be given as> fillmissing (1, "constant", 1, "samplepoints")
***** error <properties must be given as> fillmissing (1, "constant", 1, "foo")
***** error <properties must be given as> fillmissing (1, "constant", 1, 1, "foo")
***** error <invalid parameter name specified> fillmissing (1, "constant", 1, 2, {1}, 4)
***** error <SamplePoints must be a> fillmissing ([1, 2, 3], "constant", 1, 2, "samplepoints", [1, 2])
***** error <SamplePoints must be a> fillmissing ([1, 2, 3], "constant", 1, 2, "samplepoints", [3, 1, 2])
***** error <SamplePoints must be a> fillmissing ([1, 2, 3], "constant", 1, 2, "samplepoints", [1, 1, 2])
***** error <SamplePoints must be a> fillmissing ([1, 2, 3], "constant", 1, 2, "samplepoints", "abc")
***** error <SamplePoints must be a> fillmissing ([1, 2, 3], "constant", 1, 2, "samplepoints", logical ([1, 1, 1]))
***** error <SamplePoints must be a> fillmissing ([1, 2, 3], "constant", 1, 1, "samplepoints", [1, 2, 3])
***** error <EndValues method 'constant' only valid> fillmissing ("foo", "next", "endvalues", 1)
***** error <invalid EndValues method 'foo'> fillmissing (1, "constant", 1, 1, "endvalues", "foo")
***** error <EndValues must be a scalar or a 1 element array> fillmissing ([1, 2, 3], "constant", 1, 2, "endvalues", [1, 2, 3])
***** error <EndValues must be a scalar or a 3 element array> fillmissing ([1, 2, 3], "constant", 1, 1, "endvalues", [1, 2])
***** error <EndValues must be a scalar or a 12 element array> fillmissing (randi(5,4,3,2), "constant", 1, 3, "endvalues", [1, 2])
***** error <EndValues must be numeric or a> fillmissing (1, "constant", 1, 1, "endvalues", {1})
***** error <invalid parameter name 'foo'> fillmissing (1, "constant", 1, 2, "foo", 4)
***** error <MissingLocations option is not compatible with> fillmissing (struct, "constant", 1, "missinglocations", false)
***** error <MissingLocations and MaxGap options> fillmissing (1, "constant", 1, 2, "maxgap", 1, "missinglocations", false)
***** error <MissingLocations and MaxGap options> fillmissing (1, "constant", 1, 2, "missinglocations", false, "maxgap", 1)
***** error <the 'replacevalues' option has not> fillmissing (1, "constant", 1, "replacevalues", true)
***** error <the 'datavariables' option has not> fillmissing (1, "constant", 1, "datavariables", "Varname")
***** error <MissingLocations must be a> fillmissing (1, "constant", 1, 2, "missinglocations", 1)
***** error <MissingLocations must be a> fillmissing (1, "constant", 1, 2, "missinglocations", "a")
***** error <MissingLocations must be a> fillmissing (1, "constant", 1, 2, "missinglocations", [true, false])
***** error <MissingLocations cannot be used with method> fillmissing (true, "linear", "missinglocations", true)
***** error <MissingLocations cannot be used with method> fillmissing (int8 (1), "linear", "missinglocations", true)
***** error <MissingLocations cannot be used with EndValues method> fillmissing (true, "next", "missinglocations", true, "EndValues", "linear")
***** error <MissingLocations cannot be used with EndValues method> fillmissing (true, "next", "EndValues", "linear", "missinglocations", true)
***** error <MissingLocations cannot be used with EndValues method> fillmissing (int8 (1), "next", "missinglocations", true, "EndValues", "linear")
***** error <MissingLocations cannot be used with EndValues method> fillmissing (int8 (1), "next", "EndValues", "linear", "missinglocations", true)
***** error <MaxGap must be a positive numeric scalar> fillmissing (1, "constant", 1, 2, "maxgap", true)
***** error <MaxGap must be a positive numeric scalar> fillmissing (1, "constant", 1, 2, "maxgap", "a")
***** error <MaxGap must be a positive numeric scalar> fillmissing (1, "constant", 1, 2, "maxgap", [1, 2])
***** error <MaxGap must be a positive numeric scalar> fillmissing (1, "constant", 1, 2, "maxgap", 0)
***** error <MaxGap must be a positive numeric scalar> fillmissing (1, "constant", 1, 2, "maxgap", -1)
***** error <fill value 'V' must be a scalar or a 1> fillmissing ([1, 2, 3], "constant", [1, 2, 3])
***** error <fill value 'V' must be a scalar or a 1> fillmissing ([1, 2, 3]', "constant", [1, 2, 3])
***** error <fill value 'V' must be a scalar or a 1> fillmissing ([1, 2, 3]', "constant", [1, 2, 3], 1)
***** error <fill value 'V' must be a scalar or a 1> fillmissing ([1, 2, 3], "constant", [1, 2, 3], 2)
***** error <fill value 'V' must be a scalar or a 6> fillmissing (randi (5, 4, 3, 2), "constant", [1, 2], 1)
***** error <fill value 'V' must be a scalar or a 8> fillmissing (randi (5, 4, 3, 2), "constant", [1, 2], 2)
***** error <fill value 'V' must be a scalar or a 12> fillmissing (randi (5, 4, 3, 2), "constant", [1, 2], 3)
***** error <fill function handle must be followed by> fillmissing (1, @(x,y,z) x+y+z)
***** error <fill function return values must be the same size> fillmissing ([1, NaN, 2], @(x,y,z) [1, 2], 2)
387 tests, 387 passed, 0 known failure, 0 skipped
[inst/logit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/logit.m
***** test
 p = [0.01:0.01:0.99];
 assert (logit (p), log (p ./ (1-p)), 25*eps);
***** assert (logit ([-1, 0, 0.5, 1, 2]), [NaN, -Inf, 0, +Inf, NaN])
***** error logit ()
***** error logit (1, 2)
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/anovan.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/anovan.m
***** demo

 # Two-sample unpaired test on independent samples (equivalent to Student's
 # t-test). Note that the absolute value of t-statistic can be obtained by
 # taking the square root of the reported F statistic. In this example,
 # t = sqrt (1.44) = 1.20.

 score = [54 23 45 54 45 43 34 65 77 46 65]';
 gender = {"male" "male" "male" "male" "male" "female" "female" "female" ...
           "female" "female" "female"}';

 [P, ATAB, STATS] = anovan (score, gender, "display", "on", "varnames", "gender");
***** demo

 # Two-sample paired test on dependent or matched samples equivalent to a
 # paired t-test. As for the first example, the t-statistic can be obtained by
 # taking the square root of the reported F statistic. Note that the interaction
 # between treatment x subject was dropped from the full model by assigning
 # subject as a random factor (').

 score = [4.5 5.6; 3.7 6.4; 5.3 6.4; 5.4 6.0; 3.9 5.7]';
 treatment = {"before" "after"; "before" "after"; "before" "after";
              "before" "after"; "before" "after"}';
 subject = {"GS" "GS"; "JM" "JM"; "HM" "HM"; "JW" "JW"; "PS" "PS"}';

 [P, ATAB, STATS] = anovan (score(:), {treatment(:), subject(:)}, ...
                            "model", "full", "random", 2, "sstype", 2, ...
                            "varnames", {"treatment", "subject"}, ...
                            "display", "on");
***** demo

 # One-way ANOVA on the data from a study on the strength of structural beams,
 # in Hogg and Ledolter (1987) Engineering Statistics. New York: MacMillan

 strength = [82 86 79 83 84 85 86 87 74 82 ...
            78 75 76 77 79 79 77 78 82 79]';
 alloy = {"st","st","st","st","st","st","st","st", ...
          "al1","al1","al1","al1","al1","al1", ...
          "al2","al2","al2","al2","al2","al2"}';

 [P, ATAB, STATS] = anovan (strength, alloy, "display", "on", ...
                            "varnames", "alloy");
***** demo

 # One-way repeated measures ANOVA on the data from a study on the number of
 # words recalled by 10 subjects for three time conditions, in Loftus & Masson
 # (1994) Psychon Bull Rev. 1(4):476-490, Table 2. Note that the interaction
 # between seconds x subject was dropped from the full model by assigning
 # subject as a random factor (').

 words = [10 13 13; 6 8 8; 11 14 14; 22 23 25; 16 18 20; ...
          15 17 17; 1 1 4; 12 15 17;  9 12 12;  8 9 12];
 seconds = [1 2 5; 1 2 5; 1 2 5; 1 2 5; 1 2 5; ...
            1 2 5; 1 2 5; 1 2 5; 1 2 5; 1 2 5;];
 subject = [ 1  1  1;  2  2  2;  3  3  3;  4  4  4;  5  5  5; ...
             6  6  6;  7  7  7;  8  8  8;  9  9  9; 10 10 10];

 [P, ATAB, STATS] = anovan (words(:), {seconds(:), subject(:)}, ...
                            "model", "full", "random", 2, "sstype", 2, ...
                            "display", "on", "varnames", {"seconds", "subject"});
***** demo

 # Balanced two-way ANOVA with interaction on the data from a study of popcorn
 # brands and popper types, in Hogg and Ledolter (1987) Engineering Statistics.
 # New York: MacMillan

 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 brands = {"Gourmet", "National", "Generic"; ...
           "Gourmet", "National", "Generic"; ...
           "Gourmet", "National", "Generic"; ...
           "Gourmet", "National", "Generic"; ...
           "Gourmet", "National", "Generic"; ...
           "Gourmet", "National", "Generic"};
 popper = {"oil", "oil", "oil"; "oil", "oil", "oil"; "oil", "oil", "oil"; ...
           "air", "air", "air"; "air", "air", "air"; "air", "air", "air"};

 [P, ATAB, STATS] = anovan (popcorn(:), {brands(:), popper(:)}, ...
                            "display", "on", "model", "full", ...
                            "varnames", {"brands", "popper"});
***** demo

 # Unbalanced two-way ANOVA (2x2) on the data from a study on the effects of
 # gender and having a college degree on salaries of company employees,
 # in Maxwell, Delaney and Kelly (2018): Chapter 7, Table 15

 salary = [24 26 25 24 27 24 27 23 15 17 20 16, ...
           25 29 27 19 18 21 20 21 22 19]';
 gender = {"f" "f" "f" "f" "f" "f" "f" "f" "f" "f" "f" "f"...
           "m" "m" "m" "m" "m" "m" "m" "m" "m" "m"}';
 degree = [1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 0 0 0 0 0 0 0]';

 [P, ATAB, STATS] = anovan (salary, {gender, degree}, "model", "full", ...
                            "sstype", 3, "display", "on", "varnames", ...
                            {"gender", "degree"});
***** demo

 # Unbalanced two-way ANOVA (3x2) on the data from a study of the effect of
 # adding sugar and/or milk on the tendency of coffee to make people babble,
 # in from Navarro (2019): 16.10

 sugar = {"real" "fake" "fake" "real" "real" "real" "none" "none" "none" ...
          "fake" "fake" "fake" "real" "real" "real" "none" "none" "fake"}';
 milk = {"yes" "no" "no" "yes" "yes" "no" "yes" "yes" "yes" ...
         "no" "no" "yes" "no" "no" "no" "no" "no" "yes"}';
 babble = [4.6 4.4 3.9 5.6 5.1 5.5 3.9 3.5 3.7...
           5.6 4.7 5.9 6.0 5.4 6.6 5.8 5.3 5.7]';

 [P, ATAB, STATS] = anovan (babble, {sugar, milk}, "model", "full",  ...
                            "sstype", 3, "display", "on", ...
                            "varnames", {"sugar", "milk"});
***** demo

 # Unbalanced three-way ANOVA (3x2x2) on the data from a study of the effects
 # of three different drugs, biofeedback and diet on patient blood pressure,
 # adapted* from Maxwell, Delaney and Kelly (2018): Chapter 8, Table 12
 # * Missing values introduced to make the sample sizes unequal to test the
 #   calculation of different types of sums-of-squares

 drug = {"X" "X" "X" "X" "X" "X" "X" "X" "X" "X" "X" "X" ...
         "X" "X" "X" "X" "X" "X" "X" "X" "X" "X" "X" "X";
         "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" ...
         "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y" "Y";
         "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" ...
         "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z" "Z"};
 feedback = [1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0;
             1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0;
             1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0];
 diet = [0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1;
         0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1;
         0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1];
 BP = [170 175 165 180 160 158 161 173 157 152 181 190 ...
       173 194 197 190 176 198 164 190 169 164 176 175;
       186 194 201 215 219 209 164 166 159 182 187 174 ...
       189 194 217 206 199 195 171 173 196 199 180 NaN;
       180 187 199 170 204 194 162 184 183 156 180 173 ...
       202 228 190 206 224 204 205 199 170 160 NaN NaN];

 [P, ATAB, STATS] = anovan (BP(:), {drug(:), feedback(:), diet(:)}, ...
                                    "model", "full", "sstype", 3, ...
                                    "display", "on", ...
                                    "varnames", {"drug", "feedback", "diet"});
***** demo

 # Balanced three-way ANOVA (2x2x2) with one of the factors being a blocking
 # factor. The data is from a randomized block design study on the effects
 # of antioxidant treatment on glutathione-S-transferase (GST) levels in
 # different mouse strains, from Festing (2014), ILAR Journal, 55(3):427-476.
 # Note that all interactions involving block were dropped from the full model
 # by assigning block as a random factor (').

 measurement = [444 614 423 625 408  856 447 719 ...
                764 831 586 782 609 1002 606 766]';
 strain= {"NIH","NIH","BALB/C","BALB/C","A/J","A/J","129/Ola","129/Ola", ...
          "NIH","NIH","BALB/C","BALB/C","A/J","A/J","129/Ola","129/Ola"}';
 treatment={"C" "T" "C" "T" "C" "T" "C" "T" "C" "T" "C" "T" "C" "T" "C" "T"}';
 block = [1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2]';

 [P, ATAB, STATS] = anovan (measurement/10, {strain, treatment, block}, ...
                            "sstype", 2, "model", "full", "random", 3, ...
                            "display", "on", ...
                            "varnames", {"strain", "treatment", "block"});
***** demo

 # One-way ANCOVA on data from a study of the additive effects of species
 # and temperature on chirpy pulses of crickets, from Stitch, The Worst Stats
 # Text eveR

 pulse = [67.9 65.1 77.3 78.7 79.4 80.4 85.8 86.6 87.5 89.1 ...
          98.6 100.8 99.3 101.7 44.3 47.2 47.6 49.6 50.3 51.8 ...
          60 58.5 58.9 60.7 69.8 70.9 76.2 76.1 77 77.7 84.7]';
 temp = [20.8 20.8 24 24 24 24 26.2 26.2 26.2 26.2 28.4 ...
         29 30.4 30.4 17.2 18.3 18.3 18.3 18.9 18.9 20.4 ...
         21 21 22.1 23.5 24.2 25.9 26.5 26.5 26.5 28.6]';
 species = {"ex" "ex" "ex" "ex" "ex" "ex" "ex" "ex" "ex" "ex" "ex" ...
            "ex" "ex" "ex" "niv" "niv" "niv" "niv" "niv" "niv" "niv" ...
            "niv" "niv" "niv" "niv" "niv" "niv" "niv" "niv" "niv" "niv"};

 [P, ATAB, STATS] = anovan (pulse, {species, temp}, "model", "linear", ...
                           "continuous", 2, "sstype", "h", "display", "on", ...
                           "varnames", {"species", "temp"});
***** demo

 # Factorial ANCOVA on data from a study of the effects of treatment and
 # exercise on stress reduction score after adjusting for age. Data from R
 # datarium package).

 score = [95.6 82.2 97.2 96.4 81.4 83.6 89.4 83.8 83.3 85.7 ...
          97.2 78.2 78.9 91.8 86.9 84.1 88.6 89.8 87.3 85.4 ...
          81.8 65.8 68.1 70.0 69.9 75.1 72.3 70.9 71.5 72.5 ...
          84.9 96.1 94.6 82.5 90.7 87.0 86.8 93.3 87.6 92.4 ...
          100. 80.5 92.9 84.0 88.4 91.1 85.7 91.3 92.3 87.9 ...
          91.7 88.6 75.8 75.7 75.3 82.4 80.1 86.0 81.8 82.5]';
 treatment = {"yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" ...
              "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" ...
              "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" ...
              "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  ...
              "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  ...
              "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"}';
 exercise = {"lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  ...
             "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" ...
             "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  ...
             "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  ...
             "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" ...
             "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"}';
 age = [59 65 70 66 61 65 57 61 58 55 62 61 60 59 55 57 60 63 62 57 ...
        58 56 57 59 59 60 55 53 55 58 68 62 61 54 59 63 60 67 60 67 ...
        75 54 57 62 65 60 58 61 65 57 56 58 58 58 52 53 60 62 61 61]';

 [P, ATAB, STATS] = anovan (score, {treatment, exercise, age}, ...
                            "model", [1 0 0; 0 1 0; 0 0 1; 1 1 0], ...
                            "continuous", 3, "sstype", "h", "display", "on", ...
                            "varnames", {"treatment", "exercise", "age"});
***** demo

 # Unbalanced one-way ANOVA with custom, orthogonal contrasts. The statistics
 # relating to the contrasts are shown in the table of model parameters, and
 # can be retrieved from the STATS.coeffs output.

 dv =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 g = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 ...
      4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';
 C = [ 0.4001601  0.3333333  0.5  0.0
       0.4001601  0.3333333 -0.5  0.0
       0.4001601 -0.6666667  0.0  0.0
      -0.6002401  0.0000000  0.0  0.5
      -0.6002401  0.0000000  0.0 -0.5];

 [P,ATAB, STATS] = anovan (dv, g, "contrasts", C, "varnames", "score", ...
                          "alpha", 0.05, "display", "on");
***** demo

 # One-way ANOVA with the linear model fit by weighted least squares to
 # account for heteroskedasticity. In this example, the variance appears
 # proportional to the outcome, so weights have been estimated by initially
 # fitting the model without weights and regressing the absolute residuals on
 # the fitted values. Although this data could have been analysed by Welch's
 # ANOVA test, the approach here can generalize to ANOVA models with more than
 # one factor.

 g = [1, 1, 1, 1, 1, 1, 1, 1, ...
      2, 2, 2, 2, 2, 2, 2, 2, ...
      3, 3, 3, 3, 3, 3, 3, 3]';
 y = [13, 16, 16,  7, 11,  5,  1,  9, ...
      10, 25, 66, 43, 47, 56,  6, 39, ...
      11, 39, 26, 35, 25, 14, 24, 17]';

 [P,ATAB,STATS] = anovan(y, g, "display", "off");
 fitted = STATS.X * STATS.coeffs(:,1); # fitted values
 b = polyfit (fitted, abs (STATS.resid), 1);
 v = polyval (b, fitted);  # Variance as a function of the fitted values
 figure("Name", "Regression of the absolute residuals on the fitted values");
 plot (fitted, abs (STATS.resid),'ob');hold on; plot(fitted,v,'-r'); hold off;
 xlabel("Fitted values"); ylabel("Absolute residuals");

 [P,ATAB,STATS] = anovan (y, g, "weights", v.^-1);
***** test
 score = [54 23 45 54 45 43 34 65 77 46 65]';
 gender = {'male' 'male' 'male' 'male' 'male' 'female' 'female' 'female' ...
           'female' 'female' 'female'}';

 [P, T, STATS] = anovan (score,gender,'display','off');
 assert (P(1), 0.2612876773271042, 1e-09);              # compared to p calculated by MATLAB anovan
 assert (sqrt(T{2,6}), abs(1.198608733288208), 1e-09);  # compared to abs(t) calculated from sqrt(F) by MATLAB anovan
 assert (P(1), 0.2612876773271047, 1e-09);              # compared to p calculated by MATLAB ttest2
 assert (sqrt(T{2,6}), abs(-1.198608733288208), 1e-09); # compared to abs(t) calculated by MATLAB ttest2
***** test
 score = [4.5 5.6; 3.7 6.4; 5.3 6.4; 5.4 6.0; 3.9 5.7]';
 treatment = {'before' 'after'; 'before' 'after'; 'before' 'after';
              'before' 'after'; 'before' 'after'}';
 subject = {'GS' 'GS'; 'JM' 'JM'; 'HM' 'HM'; 'JW' 'JW'; 'PS' 'PS'}';

 [P, ATAB, STATS] = anovan (score(:),{treatment(:),subject(:)},'display','off','sstype',2);
 assert (P(1), 0.016004356735364, 1e-09);              # compared to p calculated by MATLAB anovan
 assert (sqrt(ATAB{2,6}), abs(4.00941576558195), 1e-09);  # compared to abs(t) calculated from sqrt(F) by MATLAB anovan
 assert (P(1), 0.016004356735364, 1e-09);              # compared to p calculated by MATLAB ttest2
 assert (sqrt(ATAB{2,6}), abs(-4.00941576558195), 1e-09); # compared to abs(t) calculated by MATLAB ttest2
***** test
 strength = [82 86 79 83 84 85 86 87 74 82 ...
            78 75 76 77 79 79 77 78 82 79]';
 alloy = {'st','st','st','st','st','st','st','st', ...
          'al1','al1','al1','al1','al1','al1', ...
          'al2','al2','al2','al2','al2','al2'}';

 [P, ATAB, STATS] = anovan (strength,{alloy},'display','off');
 assert (P(1), 0.000152643638830491, 1e-09);
 assert (ATAB{2,6}, 15.4, 1e-09);
***** test
 words = [10 13 13; 6 8 8; 11 14 14; 22 23 25; 16 18 20; ...
          15 17 17; 1 1 4; 12 15 17;  9 12 12;  8 9 12];
 subject = [ 1  1  1;  2  2  2;  3  3  3;  4  4  4;  5  5  5; ...
             6  6  6;  7  7  7;  8  8  8;  9  9  9; 10 10 10];
 seconds = [1 2 5; 1 2 5; 1 2 5; 1 2 5; 1 2 5; ...
            1 2 5; 1 2 5; 1 2 5; 1 2 5; 1 2 5;];

 [P, ATAB, STATS] = anovan (words(:),{seconds(:),subject(:)},'model','full','random',2,'sstype',2,'display','off');
 assert (P(1), 1.51865926758752e-07, 1e-09);
 assert (ATAB{2,2}, 52.2666666666667, 1e-09);
 assert (ATAB{3,2}, 942.533333333333, 1e-09);
 assert (ATAB{4,2}, 11.0666666666667, 1e-09);
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 brands = {'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'};
 popper = {'oil', 'oil', 'oil'; 'oil', 'oil', 'oil'; 'oil', 'oil', 'oil'; ...
           'air', 'air', 'air'; 'air', 'air', 'air'; 'air', 'air', 'air'};

 [P, ATAB, STATS] = anovan (popcorn(:),{brands(:),popper(:)},'display','off','model','full');
 assert (P(1), 7.67895738278171e-07, 1e-09);
 assert (P(2), 0.000100373896304998, 1e-09);
 assert (P(3), 0.746215396636649, 1e-09);
 assert (ATAB{2,6}, 56.7, 1e-09);
 assert (ATAB{3,6}, 32.4, 1e-09);
 assert (ATAB{4,6}, 0.29999999999997, 1e-09);
***** test
 salary = [24 26 25 24 27 24 27 23 15 17 20 16, ...
           25 29 27 19 18 21 20 21 22 19]';
 gender = {'f' 'f' 'f' 'f' 'f' 'f' 'f' 'f' 'f' 'f' 'f' 'f'...
           'm' 'm' 'm' 'm' 'm' 'm' 'm' 'm' 'm' 'm'}';
 degree = [1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 0 0 0 0 0 0 0]';

 [P, ATAB, STATS] = anovan (salary,{gender,degree},'model','full','sstype',1,'display','off');
 assert (P(1), 0.747462549227232, 1e-09);
 assert (P(2), 1.03809316857694e-08, 1e-09);
 assert (P(3), 0.523689833702691, 1e-09);
 assert (ATAB{2,2}, 0.296969696969699, 1e-09);
 assert (ATAB{3,2}, 272.391841491841, 1e-09);
 assert (ATAB{4,2}, 1.17482517482512, 1e-09);
 assert (ATAB{5,2}, 50.0000000000001, 1e-09);
 [P, ATAB, STATS] = anovan (salary,{degree,gender},'model','full','sstype',1,'display','off');
 assert (P(1), 2.53445097305047e-08, 1e-09);
 assert (P(2), 0.00388133678528749, 1e-09);
 assert (P(3), 0.523689833702671, 1e-09);
 assert (ATAB{2,2}, 242.227272727273, 1e-09);
 assert (ATAB{3,2}, 30.4615384615384, 1e-09);
 assert (ATAB{4,2}, 1.17482517482523, 1e-09);
 assert (ATAB{5,2}, 50.0000000000001, 1e-09);
 [P, ATAB, STATS] = anovan (salary,{gender,degree},'model','full','sstype',2,'display','off');
 assert (P(1), 0.00388133678528743, 1e-09);
 assert (P(2), 1.03809316857694e-08, 1e-09);
 assert (P(3), 0.523689833702691, 1e-09);
 assert (ATAB{2,2}, 30.4615384615385, 1e-09);
 assert (ATAB{3,2}, 272.391841491841, 1e-09);
 assert (ATAB{4,2}, 1.17482517482512, 1e-09);
 assert (ATAB{5,2}, 50.0000000000001, 1e-09);
 [P, ATAB, STATS] = anovan (salary,{gender,degree},'model','full','sstype',3,'display','off');
 assert (P(1), 0.00442898146583742, 1e-09);
 assert (P(2), 1.30634252053587e-08, 1e-09);
 assert (P(3), 0.523689833702691, 1e-09);
 assert (ATAB{2,2}, 29.3706293706294, 1e-09);
 assert (ATAB{3,2}, 264.335664335664, 1e-09);
 assert (ATAB{4,2}, 1.17482517482512, 1e-09);
 assert (ATAB{5,2}, 50.0000000000001, 1e-09);
***** test
 sugar = {'real' 'fake' 'fake' 'real' 'real' 'real' 'none' 'none' 'none' ...
          'fake' 'fake' 'fake' 'real' 'real' 'real' 'none' 'none' 'fake'}';
 milk = {'yes' 'no' 'no' 'yes' 'yes' 'no' 'yes' 'yes' 'yes' ...
         'no' 'no' 'yes' 'no' 'no' 'no' 'no' 'no' 'yes'}';
 babble = [4.6 4.4 3.9 5.6 5.1 5.5 3.9 3.5 3.7...
           5.6 4.7 5.9 6.0 5.4 6.6 5.8 5.3 5.7]';

 [P, ATAB, STATS] = anovan (babble,{sugar,milk},'model','full','sstype',1,'display','off');
 assert (P(1), 0.0108632139833963, 1e-09);
 assert (P(2), 0.0810606976703546, 1e-09);
 assert (P(3), 0.00175433329935627, 1e-09);
 assert (ATAB{2,2}, 3.55752380952381, 1e-09);
 assert (ATAB{3,2}, 0.956108477471702, 1e-09);
 assert (ATAB{4,2}, 5.94386771300448, 1e-09);
 assert (ATAB{5,2}, 3.1625, 1e-09);
 [P, ATAB, STATS] = anovan (babble,{milk,sugar},'model','full','sstype',1,'display','off');
 assert (P(1), 0.0373333189297505, 1e-09);
 assert (P(2), 0.017075098787169, 1e-09);
 assert (P(3), 0.00175433329935627, 1e-09);
 assert (ATAB{2,2}, 1.444, 1e-09);
 assert (ATAB{3,2}, 3.06963228699552, 1e-09);
 assert (ATAB{4,2}, 5.94386771300448, 1e-09);
 assert (ATAB{5,2}, 3.1625, 1e-09);
 [P, ATAB, STATS] = anovan (babble,{sugar,milk},'model','full','sstype',2,'display','off');
 assert (P(1), 0.017075098787169, 1e-09);
 assert (P(2), 0.0810606976703546, 1e-09);
 assert (P(3), 0.00175433329935627, 1e-09);
 assert (ATAB{2,2}, 3.06963228699552, 1e-09);
 assert (ATAB{3,2}, 0.956108477471702, 1e-09);
 assert (ATAB{4,2}, 5.94386771300448, 1e-09);
 assert (ATAB{5,2}, 3.1625,  1e-09);
 [P, ATAB, STATS] = anovan (babble,{sugar,milk},'model','full','sstype',3,'display','off');
 assert (P(1), 0.0454263063473954, 1e-09);
 assert (P(2), 0.0746719907091438, 1e-09);
 assert (P(3), 0.00175433329935627, 1e-09);
 assert (ATAB{2,2}, 2.13184977578476, 1e-09);
 assert (ATAB{3,2}, 1.00413461538462, 1e-09);
 assert (ATAB{4,2}, 5.94386771300448, 1e-09);
 assert (ATAB{5,2}, 3.1625, 1e-09);
***** test
 drug = {'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' ...
         'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X' 'X';
         'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' ...
         'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y' 'Y';
         'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' ...
         'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z' 'Z'};
 feedback = [1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0;
             1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0;
             1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0];
 diet = [0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1;
         0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1;
         0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1];
 BP = [170 175 165 180 160 158 161 173 157 152 181 190 ...
       173 194 197 190 176 198 164 190 169 164 176 175;
       186 194 201 215 219 209 164 166 159 182 187 174 ...
       189 194 217 206 199 195 171 173 196 199 180 NaN;
       180 187 199 170 204 194 162 184 183 156 180 173 ...
       202 228 190 206 224 204 205 199 170 160 NaN NaN];

 [P, ATAB, STATS] = anovan (BP(:),{drug(:),feedback(:),diet(:)},'model','full','sstype', 1,'display','off');
 assert (P(1), 7.02561843825325e-05, 1e-09);
 assert (P(2), 0.000425806013389362, 1e-09);
 assert (P(3), 6.16780773446401e-07, 1e-09);
 assert (P(4), 0.261347622678438, 1e-09);
 assert (P(5), 0.0542278432357043, 1e-09);
 assert (P(6), 0.590353225626655, 1e-09);
 assert (P(7), 0.0861628249564267, 1e-09);
 assert (ATAB{2,2}, 3614.70355731226, 1e-09);
 assert (ATAB{3,2}, 2227.46639771024, 1e-09);
 assert (ATAB{4,2}, 5008.25614451819, 1e-09);
 assert (ATAB{5,2}, 437.066007908781, 1e-09);
 assert (ATAB{6,2}, 976.180770397332, 1e-09);
 assert (ATAB{7,2}, 46.616653365254, 1e-09);
 assert (ATAB{8,2}, 814.345251396648, 1e-09);
 assert (ATAB{9,2}, 9065.8,  1e-09);
 [P, ATAB, STATS] = anovan (BP(:),{drug(:),feedback(:),diet(:)},'model','full','sstype',2,'display','off');
 assert (P(1), 9.4879638470754e-05, 1e-09);
 assert (P(2), 0.00124177666315809, 1e-09);
 assert (P(3), 6.86162012732911e-07, 1e-09);
 assert (P(4), 0.260856132341256, 1e-09);
 assert (P(5), 0.0523758623892078, 1e-09);
 assert (P(6), 0.590353225626655, 1e-09);
 assert (P(7), 0.0861628249564267, 1e-09);
 assert (ATAB{2,2}, 3481.72176560122, 1e-09);
 assert (ATAB{3,2}, 1837.08812970469, 1e-09);
 assert (ATAB{4,2}, 4957.20277938622, 1e-09);
 assert (ATAB{5,2}, 437.693674777847, 1e-09);
 assert (ATAB{6,2}, 988.431929811402, 1e-09);
 assert (ATAB{7,2}, 46.616653365254, 1e-09);
 assert (ATAB{8,2}, 814.345251396648, 1e-09);
 assert (ATAB{9,2}, 9065.8,  1e-09);
 [P, ATAB, STATS] = anovan (BP(:),{drug(:),feedback(:),diet(:)},'model','full','sstype', 3,'display','off');
 assert (P(1), 0.000106518678028207, 1e-09);
 assert (P(2), 0.00125371366571508, 1e-09);
 assert (P(3), 5.30813260778464e-07, 1e-09);
 assert (P(4), 0.308353667232981, 1e-09);
 assert (P(5), 0.0562901327343161, 1e-09);
 assert (P(6), 0.599091042141092, 1e-09);
 assert (P(7), 0.0861628249564267, 1e-09);
 assert (ATAB{2,2}, 3430.88156424581, 1e-09);
 assert (ATAB{3,2}, 1833.68031496063, 1e-09);
 assert (ATAB{4,2}, 5080.48346456693, 1e-09);
 assert (ATAB{5,2}, 382.07709497207, 1e-09);
 assert (ATAB{6,2}, 963.037988826813, 1e-09);
 assert (ATAB{7,2}, 44.4519685039322, 1e-09);
 assert (ATAB{8,2}, 814.345251396648, 1e-09);
 assert (ATAB{9,2}, 9065.8, 1e-09);
***** test
 measurement = [444 614 423 625 408  856 447 719 ...
                764 831 586 782 609 1002 606 766]';
 strain= {'NIH','NIH','BALB/C','BALB/C','A/J','A/J','129/Ola','129/Ola', ...
          'NIH','NIH','BALB/C','BALB/C','A/J','A/J','129/Ola','129/Ola'}';
 treatment={'C' 'T' 'C' 'T' 'C' 'T' 'C' 'T' 'C' 'T' 'C' 'T' 'C' 'T' 'C' 'T'}';
 block = [1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2]';

 [P, ATAB, STATS] = anovan (measurement/10,{strain,treatment,block},'model','full','random',3,'display','off');
 assert (P(1), 0.0914352969909372, 1e-09);
 assert (P(2), 5.04077373924908e-05, 1e-09);
 assert (P(4), 0.0283196918836667, 1e-09);
 assert (ATAB{2,2}, 286.132500000002, 1e-09);
 assert (ATAB{3,2}, 2275.29, 1e-09);
 assert (ATAB{4,2}, 1242.5625, 1e-09);
 assert (ATAB{5,2}, 495.905000000001, 1e-09);
 assert (ATAB{6,2}, 207.007499999999, 1e-09);
***** test
 pulse = [67.9 65.1 77.3 78.7 79.4 80.4 85.8 86.6 87.5 89.1 ...
          98.6 100.8 99.3 101.7 44.3 47.2 47.6 49.6 50.3 51.8 ...
          60 58.5 58.9 60.7 69.8 70.9 76.2 76.1 77 77.7 84.7]';
 temp = [20.8 20.8 24 24 24 24 26.2 26.2 26.2 26.2 28.4 ...
         29 30.4 30.4 17.2 18.3 18.3 18.3 18.9 18.9 20.4 ...
         21 21 22.1 23.5 24.2 25.9 26.5 26.5 26.5 28.6]';
 species = {'ex' 'ex' 'ex' 'ex' 'ex' 'ex' 'ex' 'ex' 'ex' 'ex' 'ex' ...
            'ex' 'ex' 'ex' 'niv' 'niv' 'niv' 'niv' 'niv' 'niv' 'niv' ...
            'niv' 'niv' 'niv' 'niv' 'niv' 'niv' 'niv' 'niv' 'niv' 'niv'};

 [P, ATAB, STATS] = anovan (pulse,{species,temp},'model','linear','continuous',2,'sstype','h','display','off');
 assert (P(1), 6.27153318786007e-14, 1e-09);
 assert (P(2), 2.48773241196644e-25, 1e-09);
 assert (ATAB{2,2}, 598.003953318404, 1e-09);
 assert (ATAB{3,2}, 4376.08256843712, 1e-09);
 assert (ATAB{4,2}, 89.3498685376726, 1e-09);
 assert (ATAB{2,6}, 187.399388123951, 1e-09);
 assert (ATAB{3,6}, 1371.35413763454, 1e-09);
***** test
 score = [95.6 82.2 97.2 96.4 81.4 83.6 89.4 83.8 83.3 85.7 ...
          97.2 78.2 78.9 91.8 86.9 84.1 88.6 89.8 87.3 85.4 ...
          81.8 65.8 68.1 70.0 69.9 75.1 72.3 70.9 71.5 72.5 ...
          84.9 96.1 94.6 82.5 90.7 87.0 86.8 93.3 87.6 92.4 ...
          100. 80.5 92.9 84.0 88.4 91.1 85.7 91.3 92.3 87.9 ...
          91.7 88.6 75.8 75.7 75.3 82.4 80.1 86.0 81.8 82.5]';
 treatment = {'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' ...
              'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' ...
              'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' 'yes' ...
              'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  ...
              'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  ...
              'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'  'no'}';
 exercise = {'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  ...
             'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' ...
             'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  ...
             'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  'lo'  ...
             'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' 'mid' ...
             'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'  'hi'}';
 age = [59 65 70 66 61 65 57 61 58 55 62 61 60 59 55 57 60 63 62 57 ...
        58 56 57 59 59 60 55 53 55 58 68 62 61 54 59 63 60 67 60 67 ...
        75 54 57 62 65 60 58 61 65 57 56 58 58 58 52 53 60 62 61 61]';

 [P, ATAB, STATS] = anovan (score,{treatment,exercise,age},'model','full','continuous',3,'sstype','h','display','off');
 assert (P(5), 0.9245630968248468, 1e-09);
 assert (P(6), 0.791115159521822, 1e-09);
 assert (P(7), 0.9296668751457956, 1e-09);
 [P, ATAB, STATS] = anovan (score,{treatment,exercise,age},'model',[1 0 0; 0 1 0; 0 0 1; 1 1 0],'continuous',3,'sstype','h','display','off');
 assert (P(1), 0.00158132928938933, 1e-09);
 assert (P(2), 2.12537505039986e-07, 1e-09);
 assert (P(3), 0.00390292555160047, 1e-09);
 assert (P(4), 0.0164086580775543, 1e-09);
 assert (ATAB{2,6}, 11.0956027650549, 1e-09);
 assert (ATAB{3,6}, 20.8195665467178, 1e-09);
 assert (ATAB{4,6}, 9.10966630720186, 1e-09);
 assert (ATAB{5,6}, 4.4457923698584, 1e-09);
***** test
 dv =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 g = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';
 C = [ 0.4001601  0.3333333  0.5  0.0
       0.4001601  0.3333333 -0.5  0.0
       0.4001601 -0.6666667  0.0  0.0
      -0.6002401  0.0000000  0.0  0.5
      -0.6002401  0.0000000  0.0 -0.5];

 [P,ATAB,STATS] = anovan (dv,g,'contrasts',{C},'display','off');
 assert (STATS.coeffs(1,1), 19.4001, 1e-04);
 assert (STATS.coeffs(2,1), -9.3297, 1e-04);
 assert (STATS.coeffs(3,1), -5.0000, 1e-04);
 assert (STATS.coeffs(4,1), -8.0000, 1e-04);
 assert (STATS.coeffs(5,1), -8.0000, 1e-04);
 assert (STATS.coeffs(1,2), 0.4831, 1e-04);
 assert (STATS.coeffs(2,2), 0.9694, 1e-04);
 assert (STATS.coeffs(3,2), 1.3073, 1e-04);
 assert (STATS.coeffs(4,2), 1.6411, 1e-04);
 assert (STATS.coeffs(5,2), 1.4507, 1e-04);
 assert (STATS.coeffs(1,5), 40.161, 1e-03);
 assert (STATS.coeffs(2,5), -9.624, 1e-03);
 assert (STATS.coeffs(3,5), -3.825, 1e-03);
 assert (STATS.coeffs(4,5), -4.875, 1e-03);
 assert (STATS.coeffs(5,5), -5.515, 1e-03);
 assert (STATS.coeffs(2,6), 5.74e-11, 1e-12);
 assert (STATS.coeffs(3,6), 0.000572, 1e-06);
 assert (STATS.coeffs(4,6), 2.86e-05, 1e-07);
 assert (STATS.coeffs(5,6), 4.44e-06, 1e-08);
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/bartlett_test.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/bartlett_test.m
***** error<bartlett_test: invalid number of input arguments.> bartlett_test ()
***** error<bartlett_test: invalid number of input arguments.> ...
 bartlett_test (1, 2, 3, 4);
***** error<bartlett_test: wrong value for alpha.> bartlett_test (randn (50, 2), 0);
***** error<bartlett_test: GROUP and X mismatch.> ...
 bartlett_test (randn (50, 2), [1, 2, 3]);
***** error<bartlett_test: GROUP and X mismatch.> ...
 bartlett_test (randn (50, 1), ones (55, 1));
***** error<bartlett_test: invalid second input argument.> ...
 bartlett_test (randn (50, 1), ones (50, 2));
***** error<bartlett_test: wrong value for alpha.> ...
 bartlett_test (randn (50, 2), [], 1.2);
***** error<bartlett_test: wrong value for alpha.> ...
 bartlett_test (randn (50, 2), [], "alpha");
***** error<bartlett_test: wrong value for alpha.> ...
 bartlett_test (randn (50, 1), [ones(25, 1); 2*ones(25, 1)], 1.2);
***** error<bartlett_test: wrong value for alpha.> ...
 bartlett_test (randn (50, 1), [ones(25, 1); 2*ones(25, 1)], "err");
***** warning<bartlett_test: GROUP> ...
 bartlett_test (randn (50, 1), [ones(24, 1); 2*ones(25, 1); 3]);
***** test
 load examgrades
 [h, pval, chisq, df] = bartlett_test (grades);
 assert (h, 1);
 assert (pval, 7.908647337018238e-08, 1e-14);
 assert (chisq, 38.73324, 1e-5);
 assert (df, 4);
***** test
 load examgrades
 [h, pval, chisq, df] = bartlett_test (grades(:,[2:4]));
 assert (h, 1);
 assert (pval, 0.01172, 1e-5);
 assert (chisq, 8.89274, 1e-5);
 assert (df, 2);
***** test
 load examgrades
 [h, pval, chisq, df] = bartlett_test (grades(:,[1,4]));
 assert (h, 0);
 assert (pval, 0.88118, 1e-5);
 assert (chisq, 0.02234, 1e-5);
 assert (df, 1);
***** test
 load examgrades
 grades = [grades; nan(10, 5)];
 [h, pval, chisq, df] = bartlett_test (grades(:,[1,4]));
 assert (h, 0);
 assert (pval, 0.88118, 1e-5);
 assert (chisq, 0.02234, 1e-5);
 assert (df, 1);
***** test
 load examgrades
 [h, pval, chisq, df] = bartlett_test (grades(:,[2,5]), 0.01);
 assert (h, 0);
 assert (pval, 0.01791, 1e-5);
 assert (chisq, 5.60486, 1e-5);
 assert (df, 1);
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/grpstats.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/grpstats.m
***** demo
 load carsmall;
 [m, p, g] = grpstats (Weight, Model_Year, {'mean', 'predci', 'gname'})
 n = length (m);
 errorbar ((1:n)',m,p(:,2)-m);
 set (gca, "xtick", 1:n, "xticklabel", g);
 title ("95% prediction intervals for mean weight by year");
***** demo
 load carsmall;
 [m, p, g] = grpstats ([Acceleration,Weight/1000],Cylinders, ...
                       {'mean', 'meanci', 'gname'}, 0.05)
 [c, r] = size (m);
 errorbar ((1:c)'.*ones(c,r),m,p(:,[(1:r)])-m);
 set (gca, "xtick", 1:c, "xticklabel", g);
 title ("95% prediction intervals for mean weight by year");
***** demo
 ## Plot mean and 95% CI for a single grouping variable
 load carsmall;
 grpstats (Weight, Model_Year, 0.05);
 title ("Mean Weight by Model Year");
***** demo
 ## Plot mean and 95% CI for two grouping variables
 load carsmall;
 grpstats (Weight, {Origin, Cylinders}, 0.05);
 title ("Mean Weight by Origin and Number of Cylinders");
***** test
 load carsmall
 means = grpstats (Acceleration, Origin);
 assert (means, [14.4377; 18.0500; 15.8867; 16.3778; 16.6000; 15.5000], 0.001);
***** test
 load carsmall
 [grpMin, grpMax, grp] = grpstats (Acceleration, Origin, {'min', 'max', ...
                                                          'gname'});
 assert (grpMin, [8.0; 15.3; 13.9; 12.2; 15.7; 15.5]);
 assert (grpMax, [22.2; 21.9; 18.2; 24.6; 17.5; 15.5]);
***** test
 load carsmall
 [grpMin, grpMax, grp] = grpstats (Acceleration, Origin, {'min', 'max', ...
                                                          'gname'});
 assert (grp', {'USA', 'France', 'Japan', 'Germany', 'Sweden', 'Italy'});
***** test
 load carsmall
 [m, p, g] = grpstats ([Acceleration, Weight/1000], Cylinders, ...
                       {'mean', 'meanci', 'gname'}, 0.05);
 ## check meanci lower bounds (first slice) with tolerance
 expected_lower = [15.9163; 15.6622; 10.7968];
 expected_upper = [17.4249; 17.2907; 12.4845];
 assert (abs (p(:,1,1)), expected_lower, 1e-3);
 assert (abs (p(:,1,2)), expected_upper, 1e-3);
***** test
 [mC, g] = grpstats ([], []);
 assert (isempty (mC), true);
 assert (isempty (g), true);
***** test
 ## column vector, no group
 x = [1; 2; 3; 4; 5];
 m = grpstats (x);
 expected = 3;
 assert (m, expected);
***** test
 ## row vector, no group
 x = [1 2 3 4 5];
 m = grpstats (x);
 expected = 3;
 assert (m, expected);
***** test
 ## matrix, no group
 x = [1 2; 3 4; 5 6];
 m = grpstats (x);
 expected = [3 4];
 assert (m, expected);
***** test
 ## vector, numeric groups
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 m = grpstats (x, g);
 expected = [15; 35; 55];
 assert (m, expected);
***** test
 ## vector, cellstr groups
 x = [10; 20; 30; 40; 50; 60];
 g = {'A'; 'A'; 'B'; 'B'; 'C'; 'C'};
 m = grpstats (x, g);
 expected = [15; 35; 55];
 assert (m, expected);
***** test
 ## matrix, numeric groups
 x = [1 10; 2 20; 3 30; 4 40; 5 50; 6 60];
 g = [1; 1; 2; 2; 3; 3];
 m = grpstats (x, g);
 expected = [1.5 15; 3.5 35; 5.5 55];
 assert (m, expected);
***** test
 ## NaN handling
 x = [1; NaN; 3; 4; NaN; 6];
 g = [1; 1; 2; 2; 3; 3];
 m = grpstats (x, g);
 expected = [1; 3.5; 6];
 assert (m, expected);
***** test
 ## single group
 x = [1; 2; 3; 4; 5];
 g = ones (5, 1);
 m = grpstats (x, g);
 expected = 3;
 assert (m, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 m = grpstats (x, g, 'mean');
 expected = [15; 35; 55];
 assert (m, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 m = grpstats (x, g, 'median');
 expected = [15; 35; 55];
 assert (m, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 s = grpstats (x, g, 'std');
 expected = [7.07106781186548; 7.07106781186548; 7.07106781186548];
 assert (s, expected, 1e-14);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 v = grpstats (x, g, 'var');
 expected = [50; 50; 50];
 assert (v, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 s = grpstats (x, g, 'sem');
 expected = [5; 5; 5];
 assert (s, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 mn = grpstats (x, g, 'min');
 expected = [10; 30; 50];
 assert (mn, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 mx = grpstats (x, g, 'max');
 expected = [20; 40; 60];
 assert (mx, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 r = grpstats (x, g, 'range');
 expected = [10; 10; 10];
 assert (r, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 n = grpstats (x, g, 'numel');
 expected = [2; 2; 2];
 assert (n, expected);
***** test
 ## single statistic
 x = [10; 20; 30; 40; 50; 60];
 g = {"A"; "A"; "B"; "B"; "C"; "C"};
 names = grpstats (x, g, 'gname');
 expected = {"A"; "B"; "C"};
 assert (names, expected);
***** test
 ## single statistic (default alpha)
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'meanci');
 expected = [-48.5310236808735 78.5310236808735; -28.5310236808735 ...
             98.5310236808735; -8.53102368087348 118.531023680873];
 assert (ci, expected, 1e-12);
***** test
 ## single statistic (default alpha)
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'predci');
 expected = [-95.0389608721344 125.038960872134; -75.0389608721344 ...
             145.038960872134; -55.0389608721344 165.038960872134];
 assert (ci, expected, 1e-12);
***** test
 ## mean + std
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 [m, s] = grpstats (x, g, {'mean', 'std'});
 expected_m = [15; 35; 55];
 expected_s = [7.07106781186548; 7.07106781186548; 7.07106781186548];
 assert (m, expected_m, 1e-14);
 assert (s, expected_s, 1e-14);
***** test
 ## min + max + range
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 [mn, mx, r] = grpstats (x, g, {'min', 'max', 'range'});
 expected_mn = [10; 30; 50];
 expected_mx = [20; 40; 60];
 expected_r  = [10; 10; 10];
 assert (mn, expected_mn);
 assert (mx, expected_mx);
 assert (r, expected_r);
***** test
 ## mean + median + numel + gname
 x = [10; 20; 30; 40; 50; 60];
 g = {'A'; 'A'; 'B'; 'B'; 'C'; 'C'};
 [m, med, n, names] = grpstats (x, g, {'mean', 'median', 'numel', 'gname'});
 expected_m   = [15; 35; 55];
 expected_med = [15; 35; 55];
 expected_n   = [2; 2; 2];
 expected_names = {'A'; 'B'; 'C'};
 assert (m, expected_m);
 assert (med, expected_med);
 assert (n, expected_n);
 assert (names, expected_names);
***** test
 ## all basic statistics
 x = [10; 20; 30; 40; 50; 60; 70; 80];
 g = [1; 1; 2; 2; 2; 2; 3; 3];
 [m, med, s, v, se, mn, mx, r, n] = grpstats (x, g, {'mean', 'median', ...
                                                     'std', 'var', 'sem', ...
                                                     'min', 'max', 'range', ...
                                                     'numel'});
 expected_m   = [15; 45; 75];
 expected_med = [15; 45; 75];
 expected_s   = [7.07106781186548; 12.9099444873581; 7.07106781186548];
 expected_v   = [50; 166.666666666667; 50];
 expected_se  = [5; 6.45497224367903; 5];
 expected_mn  = [10; 30; 70];
 expected_mx  = [20; 60; 80];
 expected_r   = [10; 30; 10];
 expected_n   = [2; 4; 2];
 assert (m,   expected_m);
 assert (med, expected_med);
 assert (s,   expected_s, 1e-13);
 assert (v,   expected_v, 1e-12);
 assert (se,  expected_se, 1e-14);
 assert (mn,  expected_mn);
 assert (mx,  expected_mx);
 assert (r,   expected_r);
 assert (n,   expected_n);
***** test
 ## meanci-alpha-0.1
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'meanci', 0.1);
 expected = [-16.5687575733752 46.5687575733752; 3.4312424266248 ...
             66.5687575733752; 23.4312424266248 86.5687575733752];
 assert (ci, expected, 1e-13);
***** test
 ## predci-alpha-0.1
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'predci', 0.1);
 expected = [-39.6786920489106 69.6786920489106; -19.6786920489106 ...
             89.6786920489106; 0.321307951089366 109.678692048911];
 assert (ci, expected, 1e-12);
***** test
 ## meanci-alpha-0.01
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'meanci', 0.01);
 expected = [-303.283705814358 333.283705814358; -283.283705814358 ...
             353.283705814358; -263.283705814358 373.283705814358];
 assert (ci, expected, 3e-8);
***** test
 ## predci-alpha-0.01
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'predci', 0.01);
 expected = [-536.283549691775 566.283549691775; -516.283549691775 ...
             586.283549691775; -496.283549691775 606.283549691775];
 assert (ci, expected, 3e-8);
***** test
 ## meanci-alpha-0.2
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'meanci', 0.2);
 expected = [-0.388417685876263 30.3884176858763; 19.6115823141237 ...
             50.3884176858763; 39.6115823141237 70.3884176858763];
 assert (ci, expected, 1e-13);
***** test
 ## predci-alpha-0.2
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'predci', 0.2);
 expected = [-11.6535212800292 41.6535212800292; 8.34647871997083 ...
             61.6535212800292; 28.3464787199708 81.6535212800292];
 assert (ci, expected, 1e-13);
***** test
 ## meanci, name-value alpha=0.2
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 ci = grpstats (x, g, 'meanci', 'alpha', 0.2);
 expected = [-0.388417685876263 30.3884176858763; 19.6115823141237 ...
             50.3884176858763; 39.6115823141237 70.3884176858763];
 assert (ci, expected, 1e-13);
***** test
 ## meanci + predci, alpha=0.01
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 2; 2; 3; 3];
 [ci_m, ci_p] = grpstats (x, g, {'meanci', 'predci'}, 0.01);
 expected_m = [-303.283705814358 333.283705814358; -283.283705814358 ...
               353.283705814358; -263.283705814358 373.283705814358];
 expected_p = [-536.283549691775 566.283549691775; -516.283549691775 ...
               586.283549691775; -496.283549691775 606.283549691775];
 assert (ci_m, expected_m, 3e-8);
 assert (ci_p, expected_p, 3e-8);
***** test
 ## matrix, mean+std+numel
 x = [1 10; 2 20; 3 30; 4 40; 5 50; 6 60];
 g = [1; 1; 2; 2; 3; 3];
 [m, s, n] = grpstats (x, g, {'mean', 'std', 'numel'});
 expected_m = [1.5 15; 3.5 35; 5.5 55];
 expected_s = [0.707106781186548 7.07106781186548; 0.707106781186548 ...
               7.07106781186548; 0.707106781186548 7.07106781186548];
 expected_n = [2 2; 2 2; 2 2];
 assert (m, expected_m);
 assert (s, expected_s, 1e-14);
 assert (n, expected_n);
***** test
 ## matrix with NaN, mean+numel
 x = [1 10; NaN 20; 3 NaN; 4 40; 5 50; 6 60];
 g = [1; 1; 2; 2; 3; 3];
 [m, n] = grpstats (x, g, {'mean', 'numel'});
 expected_m = [1   15; 3.5 40; 5.5 55];
 expected_n = [1 2; 2 1; 2 2];
 assert (m, expected_m);
 assert (n, expected_n);
***** test
 ## 3-column matrix, mean+min+max
 x = [1 100 1000; 2 200 2000; 3 300 3000; 4 400 4000];
 g = [1; 1; 2; 2];
 [m, mn, mx] = grpstats (x, g, {'mean', 'min', 'max'});
 expected_m  = [1.5 150 1500; 3.5 350 3500];
 expected_mn = [1 100 1000; 3 300 3000];
 expected_mx = [2 200 2000; 4 400 4000];
 assert (m,  expected_m);
 assert (mn, expected_mn);
 assert (mx, expected_mx);
***** test
 ## one element per group
 x = [1; 2; 3];
 g = [1; 2; 3];
 [m, s, n] = grpstats (x, g, {'mean', 'std', 'numel'});
 expected_m = [1; 2; 3];
 expected_s = [0; 0; 0];
 expected_n = [1; 1; 1];
 assert (m, expected_m);
 assert (s, expected_s);
 assert (n, expected_n);
***** test
 ## group with all NaN
 x = [1; 2; NaN; NaN; 5; 6];
 g = [1; 1; 2; 2; 3; 3];
 [m, s, n] = grpstats (x, g, {'mean', 'std', 'numel'});
 expected_m = [1.5; NaN; 5.5];
 expected_s = [0.707106781186548; NaN; 0.707106781186548];
 expected_n = [2; 0; 2];
 assert (m, expected_m);
 assert (s, expected_s, 1e-14);
 assert (n, expected_n);
***** test
 ## unequal group sizes
 x = [1; 2; 3; 4; 5; 6; 7; 8; 9; 10];
 g = [1; 1; 1; 1; 2; 2; 2; 3; 3; 3];
 [m, v, n] = grpstats (x, g, {'mean', 'var', "numel"});
 expected_m = [2.5; 6; 9];
 expected_v = [1.66666666666667; 1; 1];
 expected_n = [4; 3; 3];
 assert (m, expected_m);
 assert (v, expected_v, 1e-14);
 assert (n, expected_n);
***** test
 ## non-consecutive numeric groups
 x = [10; 20; 30; 40; 50; 60];
 g = [1; 1; 5; 5; 10; 10];
 [m, names] = grpstats (x, g, {'mean', 'gname'});
 expected_m = [15; 35; 55];
 expected_names = {'1'; '5'; '10'};
 assert (m, expected_m);
 assert (names, expected_names);
***** test
 ## unsorted string groups
 x = [30; 10; 40; 20; 60; 50];
 g = {'C'; 'A'; 'C'; 'A'; 'B'; 'B'};
 [m, names] = grpstats (x, g, {"mean", "gname"});
 expected_m = [35; 15; 55];
 expected_names = {'C'; 'A'; 'B'};
 assert (m, expected_m);
 assert (names, expected_names);
***** test
 ## 20 groups, one element each
 x = (1:20)';
 g = (1:20)';
 [m, n] = grpstats (x, g, {'mean', 'numel'});
 expected_m = (1:20)';
 expected_n = ones (20, 1);
 assert (m, expected_m);
 assert (n, expected_n);
***** test
 ## large sample meanci
 x = (1:50)';
 g = [ones(25, 1); 2 * ones(25, 1)];
 ci = grpstats (x, g, 'meanci');
 expected = [9.96202357522388 16.0379764247761; 34.9620235752239 ...
             41.0379764247761];
 assert (ci, expected, 1e-13);
***** test
 ## large sample predci
 x = (1:50)';
 g = [ones(25, 1); 2 * ones(25, 1)];
 ci = grpstats (x, g, 'predci');
 expected = [-2.49070107176829 28.4907010717683; 22.5092989282317 ...
             53.4907010717683];
 assert (ci, expected, 1e-13);
***** test
 Y = [5; 6; 7; 4; 9; 8];
 X = [1; 2; 3; 4; 5; 6];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, X, Group);
 stats_tbl = grpstats (tbl, 'Group', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y', 'numel_Y', ...
                                              'mean_X', 'numel_X'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [5.5; 5.5; 8.5]);
 assert (stats_tbl.numel_Y, [2; 2; 2]);
 assert (stats_tbl.mean_X, [1.5; 3.5; 5.5]);
 assert (stats_tbl.numel_X, [2; 2; 2]);
***** test
 Y = [5; 6; 7; 4; 9; 8];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [5.5; 5.5; 8.5]);
***** test
 Y = [10; 20; 30; 40];
 X = [100; 200; 300; 400];
 Z = [1000; 2000; 3000; 4000];
 Group = categorical ({'A'; 'A'; 'B'; 'B'});
 tbl = table (Y, X, Z, Group);
 stats_tbl = grpstats (tbl, 'Group', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
         'mean_Y', 'numel_Y', 'mean_X', 'numel_X', 'mean_Z', 'numel_Z'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [2; 2]);
 assert (stats_tbl.mean_Y, [15; 35]);
 assert (stats_tbl.numel_Y, [2; 2]);
 assert (stats_tbl.mean_X, [150; 350]);
 assert (stats_tbl.numel_X, [2; 2]);
 assert (stats_tbl.mean_Z, [1500; 3500]);
 assert (stats_tbl.numel_Z, [2; 2]);
***** test
 Y = [1; 2; 3; 4; 5; 6; 7; 8];
 Group = categorical ({'A'; 'A'; 'A'; 'A'; 'B'; 'B'; 'B'; 'B'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [4; 4]);
 assert (stats_tbl.mean_Y, [2.5; 6.5]);
***** test
 Y = [1; 2; 3; 4; 5; 6; 7];
 Group = categorical ({'A'; 'A'; 'A'; 'A'; 'A'; 'B'; 'B'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y', 'numel_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [5; 2]);
 assert (stats_tbl.mean_Y, [3; 6.5]);
 assert (stats_tbl.numel_Y, [5; 2]);
***** test
 Y = [10; 20; 30];
 Group = categorical ({'A'; 'B'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [1; 1; 1]);
 assert (stats_tbl.mean_Y, [10; 20; 30]);
***** test
 Y = [5; 5; 5; 5];
 Group = categorical ({'A'; 'A'; 'B'; 'B'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [2; 2]);
 assert (stats_tbl.mean_Y, [5; 5]);
***** test
 Y = [1; NaN; 3; 4; NaN; 6];
 X = [10; 20; NaN; 40; 50; NaN];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, X, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y', 'mean_X'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [1; 3.5; 6]);
 assert (stats_tbl.mean_X, [15; 40; 50]);
***** test
 Y = [1; NaN; 3; 4; 5; 6];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y', 'numel_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [1; 3.5; 5.5]);
 assert (stats_tbl.numel_Y, [1; 2; 2]);
***** test
 Y = [100; 200; 300; 400; 500; 600];
 Group = categorical ({'Group1'; 'Group1'; 'Group2'; 'Group2'; ...
                       'Group3'; 'Group3'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'Group1'; 'Group2'; 'Group3'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [150; 350; 550]);
***** test
 Var1 = [1; 2; 3; 4];
 Var2 = [10; 20; 30; 40];
 Var3 = [100; 200; 300; 400];
 Var4 = [1000; 2000; 3000; 4000];
 Group = categorical ({'A'; 'A'; 'B'; 'B'});
 tbl = table (Var1, Var2, Var3, Var4, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
         'mean_Var1', 'mean_Var2', 'mean_Var3', 'mean_Var4'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [2; 2]);
 assert (stats_tbl.mean_Var1, [1.5; 3.5]);
 assert (stats_tbl.mean_Var2, [15; 35]);
 assert (stats_tbl.mean_Var3, [150; 350]);
 assert (stats_tbl.mean_Var4, [1500; 3500]);
***** test
 Y = [1.5; 2.5; 3.5; 4.5; 5.5; 6.5];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [2; 4; 6]);
***** test
 Y = [-10; -20; 30; 40; 50; 60];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [-15; 35; 55]);
***** test
 Y = [0; 0; 0; 0; 0; 0];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [0; 0; 0]);
***** test
 Y = [1e6; 2e6; 3e6; 4e6; 5e6; 6e6];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Y, [1.5e6; 3.5e6; 5.5e6]);
***** test
 Y = (1:10)';
 Group = categorical (repmat ({'A'; 'B'}, 5, 1));
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, ...
   {'Group', 'GroupCount', 'mean_Y', 'numel_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [5; 5]);
 assert (stats_tbl.mean_Y, [5; 6]);
 assert (stats_tbl.numel_Y, [5; 5]);
***** test
 Y = (1:20)';
 Group = categorical (repmat ({'A'; 'B'; 'C'; 'D'}, 5, 1));
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'; 'D'});
 assert (stats_tbl.GroupCount, [5; 5; 5; 5]);
 assert (stats_tbl.mean_Y, [9; 10; 11; 12]);
***** test
 Y = [1; 2; 3; 4; 5];
 Group = categorical ({'A'; 'B'; 'C'; 'D'; 'E'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'; 'D'; 'E'});
 assert (stats_tbl.GroupCount, [1; 1; 1; 1; 1]);
 assert (stats_tbl.mean_Y, [1; 2; 3; 4; 5]);
***** test
 Score1 = [85; 90; 78; 92; 88; 76];
 Score2 = [82; 88; 75; 90; 85; 73];
 Group = categorical ({'High'; 'High'; 'Med'; 'Med'; 'Low'; 'Low'});
 tbl = table (Score1, Score2, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Score1', 'mean_Score2'});
 assert (stats_tbl.Properties.RowNames, {'High'; 'Low'; 'Med'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Score1, [87.5; 82; 85]);
 assert (stats_tbl.mean_Score2, [85; 79; 82.5]);
***** test
 Height = [170; 175; 165; 180; 160; 185];
 Weight = [70; 75; 65; 80; 60; 85];
 Category = categorical ({'M'; 'M'; 'F'; 'F'; 'M'; 'M'});
 tbl = table (Height, Weight, Category);
 stats_tbl = grpstats (tbl, 'Category', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Category', 'GroupCount', ...
         'mean_Height', 'numel_Height', 'mean_Weight', 'numel_Weight'});
 assert (stats_tbl.Properties.RowNames, {'F'; 'M'});
 assert (stats_tbl.GroupCount, [2; 4]);
 assert (stats_tbl.mean_Height, [172.5; 172.5]);
 assert (stats_tbl.numel_Height, [2; 4]);
 assert (stats_tbl.mean_Weight, [72.5; 72.5]);
 assert (stats_tbl.numel_Weight, [2; 4]);
***** test
 Value = [10.5; 11.2; 9.8; 10.1; 11.5; 10.8];
 Type = categorical ({'A'; 'A'; 'A'; 'B'; 'B'; 'B'});
 tbl = table (Value, Type);
 stats_tbl = grpstats (tbl, 'Type', 'numel');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Type', 'GroupCount', ...
                                              'numel_Value'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [3; 3]);
 assert (stats_tbl.numel_Value, [3; 3]);
***** test
 Data = [1; 2; 3; 4; 5; 6; 7; 8; 9; 10];
 Label = categorical ({'A'; 'A'; 'A'; 'A'; 'A'; 'B'; 'B'; 'B'; 'B'; 'B'});
 tbl = table (Data, Label);
 stats_tbl = grpstats (tbl, 'Label', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Label', 'GroupCount', ...
                                              'mean_Data', 'numel_Data'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [5; 5]);
 assert (stats_tbl.mean_Data, [3; 8]);
 assert (stats_tbl.numel_Data, [5; 5]);
***** test
 X1 = [1; 2; 3; 4];
 X2 = [5; 6; 7; 8];
 G = categorical ({'A'; 'A'; 'B'; 'B'});
 tbl = table (X1, X2, G);
 stats_tbl = grpstats (tbl, 'G', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'G', 'GroupCount', ...
                                              'mean_X1', 'mean_X2'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'});
 assert (stats_tbl.GroupCount, [2; 2]);
 assert (stats_tbl.mean_X1, [1.5; 3.5]);
 assert (stats_tbl.mean_X2, [5.5; 7.5]);
***** test
 Measurement = [100; 150; 200; 250; 300; 350];
 GroupVar = categorical ({'Control'; 'Control'; 'Treatment'; 'Treatment'; ...
                          'Placebo'; 'Placebo'});
 tbl = table (Measurement, GroupVar);
 stats_tbl = grpstats (tbl, 'GroupVar', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'GroupVar', 'GroupCount', ...
                                              'mean_Measurement'});
 assert (stats_tbl.Properties.RowNames, {'Control'; 'Placebo'; 'Treatment'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_Measurement, [125; 325; 225]);
***** test
 Y = [NaN; NaN; 3; 4; 5; 6];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', 'mean');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (isequaln (stats_tbl.mean_Y, [NaN; 3.5; 5.5]));
***** test
 Y = [1; 2; NaN; NaN; NaN; NaN];
 Group = categorical ({'A'; 'A'; 'B'; 'B'; 'C'; 'C'});
 tbl = table (Y, Group);
 stats_tbl = grpstats (tbl, 'Group', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Group', 'GroupCount', ...
                                              'mean_Y', 'numel_Y'});
 assert (stats_tbl.Properties.RowNames, {'A'; 'B'; 'C'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (isequaln (stats_tbl.mean_Y, [1.5; NaN; NaN]));
 assert (stats_tbl.numel_Y, [2; 0; 0]);
***** test
 Val = [5.5; 6.5; 7.5; 8.5];
 Cat = categorical ({'X'; 'X'; 'Y'; 'Y'});
 tbl = table (Val, Cat);
 stats_tbl = grpstats (tbl, 'Cat', 'numel');
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Cat', 'GroupCount', ...
                                              'numel_Val'});
 assert (stats_tbl.Properties.RowNames, {'X'; 'Y'});
 assert (stats_tbl.GroupCount, [2; 2]);
 assert (stats_tbl.numel_Val, [2; 2]);
***** test
 A = [1; 2; 3; 4; 5; 6];
 B = [10; 20; 30; 40; 50; 60];
 C = [100; 200; 300; 400; 500; 600];
 Grp = categorical ({'G1'; 'G1'; 'G2'; 'G2'; 'G3'; 'G3'});
 tbl = table (A, B, C, Grp);
 stats_tbl = grpstats (tbl, 'Grp', {'mean', 'numel'});
 assert (istable (stats_tbl));
 assert (stats_tbl.Properties.VariableNames, {'Grp', 'GroupCount', ...
         'mean_A', 'numel_A', 'mean_B', 'numel_B', 'mean_C', 'numel_C'});
 assert (stats_tbl.Properties.RowNames, {'G1'; 'G2'; 'G3'});
 assert (stats_tbl.GroupCount, [2; 2; 2]);
 assert (stats_tbl.mean_A, [1.5; 3.5; 5.5]);
 assert (stats_tbl.numel_A, [2; 2; 2]);
 assert (stats_tbl.mean_B, [15; 35; 55]);
 assert (stats_tbl.numel_B, [2; 2; 2]);
 assert (stats_tbl.mean_C, [150; 350; 550]);
 assert (stats_tbl.numel_C, [2; 2; 2]);
***** test
 x = [1; NaN; 3; 4];
 g = [1; 1; 2; 2];
 muci = grpstats (x, g, 'meanci');
 assert (muci, [NaN, NaN; -2.8531, 9.8531], 1e-4);
***** test
 x = [1; NaN; 3; 4; 5; 6];
 g = [1; 1; 1; 2; 2; 2];
 predci = grpstats (x, g, 'predci');
 assert (predci, [-20.0078, 24.0078; 0.0317, 9.9683], 1e-4);
***** error <grpstats: X must be a matrix or a table.> grpstats (ones (2, 2, 2))
***** error <grpstats: only one output argument in allowed when X is a table.> ...
       [a, b] = grpstats (table (1))
***** error <grpstats: invalid WHICHSTATS specification in cell array.> ...
       grpstats (ones (6, 2), [1; 1; 1; 2; 2; 2], {'mean', 1.5})
***** error <grpstats: invalid WHICHSTATS data type.> ...
       grpstats (ones (6, 2), [1; 1; 1; 2; 2; 2], 1.5)
***** error <grpstats: unrecognized function names in WHICHSTATS.> ...
       grpstats (ones (6, 2), [1; 1; 1; 2; 2; 2], 'some_function')
***** error <grpstats: unrecognized input arguments.> ...
       grpstats (ones (6, 2), [1; 1; 1; 2; 2; 2], 'mean', 35)
***** error <grpstats: unrecognized input arguments.> ...
       grpstats ([1:4]', {'A'; 'B'; 'A'; 'B'}, "predci", "somename", -0.1);
***** error <grpstats: invalid data types for 'VarNames'.> ...
       grpstats (ones (6, 2), [1; 1; 1; 2; 2; 2], 'mean', 'VarNames', 3)
***** error <grpstats: X must be numeric to plot mean and CI for each group.> ...
       grpstats ({ones(6, 2)}, [], 0.05)
***** error <grpstats: 'alpha' must be a real scalar in the range \(0,1\).> ...
       grpstats ([1:4]', {'A'; 'B'; 'A'; 'B'}, "predci", "alpha", -0.1);
***** error <grpstats: cannot resolve GROUPVARS in input table.> ...
       grpstats (table ([1:5]'), {'Var_5'})
***** error <grpstats: invalid 'DataVars' reference to table X.> ...
       grpstats (table ([1:5]'), {'Var1'}, [], 'DataVars', 'Var5')
***** error <grpstats: 'VarNames' do not match expected variables.> ...
       grpstats (table ([1:5]', [1:5]'), {'Var1'}, [], 'VarNames', {'A', 'B'})
***** error <grpstats: samples in X and GROUPS mismatch.> ...
       grpstats ([1:5]', {'A'; 'B'; 'A'; 'B'})
***** error <grpstats: inconsistent number of output arguments.> ...
       m = grpstats ([1:4]', {'A'; 'B'; 'A'; 'B'}, {'mean', 'std'})
93 tests, 93 passed, 0 known failure, 0 skipped
[inst/ttest2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ttest2.m
***** test
 a = 1:5;
 b = 6:10;
 b(5) = NaN;
 [h,p,ci,stats] = ttest2 (a,b);
 assert (h, 1);
 assert (p, 0.002535996080258229, 1e-14);
 assert (ci, [-6.822014919225481, -2.17798508077452], 1e-14);
 assert (stats.tstat, -4.582575694955839, 1e-14);
 assert (stats.df, 7);
 assert (stats.sd, 1.4638501094228, 1e-13);
***** error ttest2 ([8:0.1:12], [8:0.1:12], "tail", "invalid");
***** error ttest2 ([8:0.1:12], [8:0.1:12], "tail", 25);
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/fitcgam.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitcgam.m
***** demo
 ## Train a GAM classifier for binary classification
 ## using specific data and plot the decision boundaries.

 ## Define specific data
 X = [1, 2; 2, 3; 3, 3; 4, 5; 5, 5; ...
     6, 7; 7, 8; 8, 8; 9, 9; 10, 10];
 Y = [0; 0; 0; 0; 0; ...
     1; 1; 1; 1; 1];

 ## Train the GAM model
 obj = fitcgam (X, Y, "Interactions", "all");

 ## Create a grid of values for prediction
 x1 = [min(X(:,1)):0.1:max(X(:,1))];
 x2 = [min(X(:,2)):0.1:max(X(:,2))];
 [x1G, x2G] = meshgrid (x1, x2);
 XGrid = [x1G(:), x2G(:)];
 pred = predict (obj, XGrid);

 ## Plot decision boundaries and data points
 predNumeric = str2double (pred);
 gidx = predNumeric > 0.5;

 figure
 scatter(XGrid(gidx,1), XGrid(gidx,2), "markerfacecolor", "magenta");
 hold on
 scatter(XGrid(!gidx,1), XGrid(!gidx,2), "markerfacecolor", "red");
 plot(X(Y == 0, 1), X(Y == 0, 2), "ko", X(Y == 1, 1), X(Y == 1, 2), "kx");
 xlabel("Feature 1");
 ylabel("Feature 2");
 title("Generalized Additive Model (GAM) Decision Boundary");
 legend({"Class 1 Region", "Class 0 Region", ...
       "Class 1 Samples", "Class 0 Samples"}, ...
       "location", "northwest")
 axis tight
 hold off
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [0; 0; 1; 1];
 PredictorNames = {'Feature1', 'Feature2', 'Feature3'};
 a = fitcgam (x, y, "PredictorNames", PredictorNames);
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {x, y, 4})
 assert ({a.NumPredictors, a.ResponseName}, {3, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.PredictorNames, PredictorNames)
 assert (a.BaseModel.Intercept, 0)
***** test
 x = [1, 2; 3, 4; 5, 6; 7, 8; 9, 10];
 y = [1; 0; 1; 0; 1];
 a = fitcgam (x, y, "interactions", "all");
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {x, y, 5})
 assert ({a.NumPredictors, a.ResponseName}, {2, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.PredictorNames, {'x1', 'x2'})
 assert (a.ModelwInt.Intercept, 0.4055, 1e-1)
***** test
 load fisheriris
 inds = strcmp (species,'versicolor') | strcmp (species,'virginica');
 X = meas(inds, :);
 Y = species(inds, :)';
 Y = strcmp (Y, 'virginica')';
 a = fitcgam (X, Y, 'Formula', 'Y ~ x1 + x2 + x3 + x4 + x1:x2 + x2:x3');
 assert (class (a), "ClassificationGAM");
 assert ({a.X, a.Y, a.NumObservations}, {X, Y, 100})
 assert ({a.NumPredictors, a.ResponseName}, {4, "Y"})
 assert (a.ClassNames, {'0'; '1'})
 assert (a.Formula, 'Y ~ x1 + x2 + x3 + x4 + x1:x2 + x2:x3')
 assert (a.PredictorNames, {'x1', 'x2', 'x3', 'x4'})
 assert (a.ModelwInt.Intercept, 0)
***** error<fitcgam: too few arguments.> fitcgam ()
***** error<fitcgam: too few arguments.> fitcgam (ones (4,1))
***** error<fitcgam: name-value arguments must be in pairs.>
 fitcgam (ones (4,2), ones (4, 1), "K")
***** error<fitcgam: number of rows in X and Y must be equal.>
 fitcgam (ones (4,2), ones (3, 1))
***** error<fitcgam: number of rows in X and Y must be equal.>
 fitcgam (ones (4,2), ones (3, 1), "K", 2)
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/cl_multinom.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cl_multinom.m
***** demo
 CL = cl_multinom ([27; 43; 19; 11], 10000, 0.05)
***** error<Invalid call to cl_multinom.  Correct usage> cl_multinom ();
***** error cl_multinom (1, 2, 3, 4, 5);
***** error<cl_multinom: argument method must be a string.> ...
 cl_multinom (1, 2, 3, 4);
***** error<cl_multinom: unknown calculation type.> ...
 cl_multinom (1, 2, 3, "some string");
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/correlation_test.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/correlation_test.m
***** error<Invalid call to correlation_test.  Correct usage> correlation_test ();
***** error<Invalid call to correlation_test.  Correct usage> correlation_test (1);
***** error<correlation_test: X must contain finite real numbers.> ...
 correlation_test ([1 2 NaN]', [2 3 4]');
***** error<correlation_test: X must contain finite real numbers.> ...
 correlation_test ([1 2 Inf]', [2 3 4]');
***** error<correlation_test: X must contain finite real numbers.> ...
 correlation_test ([1 2 3+i]', [2 3 4]');
***** error<correlation_test: Y must contain finite real numbers.> ...
 correlation_test ([1 2 3]', [2 3 NaN]');
***** error<correlation_test: Y must contain finite real numbers.> ...
 correlation_test ([1 2 3]', [2 3 Inf]');
***** error<correlation_test: Y must contain finite real numbers.> ...
 correlation_test ([1 2 3]', [3 4 3+i]');
***** error<correlation_test: X and Y must be vectors of equal length.> ...
 correlation_test ([1 2 3]', [3 4 4 5]');
***** error<correlation_test: invalid value for alpha.> ...
 correlation_test ([1 2 3]', [2 3 4]', "alpha", 0);
***** error<correlation_test: invalid value for alpha.> ...
 correlation_test ([1 2 3]', [2 3 4]', "alpha", 1.2);
***** error<correlation_test: invalid value for alpha.> ...
 correlation_test ([1 2 3]', [2 3 4]', "alpha", [.02 .1]);
***** error<correlation_test: invalid value for alpha.> ...
 correlation_test ([1 2 3]', [2 3 4]', "alpha", "a");
***** error<correlation_test: invalid Name argument.> ...
 correlation_test ([1 2 3]', [2 3 4]', "some", 0.05);
***** error<correlation_test: invalid value for tail.>  ...
 correlation_test ([1 2 3]', [2 3 4]', "tail", "val");
***** error<correlation_test: invalid value for tail.>  ...
 correlation_test ([1 2 3]', [2 3 4]', "alpha", 0.01, "tail", "val");
***** error<correlation_test: invalid value for method.>  ...
 correlation_test ([1 2 3]', [2 3 4]', "method", 0.01);
***** error<correlation_test: invalid value for method.>  ...
 correlation_test ([1 2 3]', [2 3 4]', "method", "some");
***** test
 x = [6 7 7 9 10 12 13 14 15 17];
 y = [19 22 27 25 30 28 30 29 25 32];
 [h, pval, stats] = correlation_test (x, y);
 assert (stats.corrcoef, corr (x', y'), 1e-14);
 assert (pval, 0.0223, 1e-4);
***** test
 x = [6 7 7 9 10 12 13 14 15 17]';
 y = [19 22 27 25 30 28 30 29 25 32]';
 [h, pval, stats] = correlation_test (x, y);
 assert (stats.corrcoef, corr (x, y), 1e-14);
 assert (pval, 0.0223, 1e-4);
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/kstest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/kstest.m
***** demo
 ## Use the stock return data set to test the null hypothesis that the data
 ## come from a standard normal distribution against the alternative
 ## hypothesis that the population CDF of the data is larger that the
 ## standard normal CDF.

 load stockreturns;
 x = stocks(:,2);
 [h, p, k, c] = kstest (x, "Tail", "larger")

 ## Compute the empirical CDF and plot against the standard normal CDF
 [f, x_values] = ecdf (x);
 h1 = plot (x_values, f);
 hold on;
 h2 = plot (x_values, normcdf (x_values), 'r--');
 set (h1, "LineWidth", 2);
 set (h2, "LineWidth", 2);
 legend ([h1, h2], "Empirical CDF", "Standard Normal CDF", ...
         "Location", "southeast");
 title ("Empirical CDF of stock return data against standard normal CDF")
***** error<kstest: too few inputs.> kstest ()
***** error<kstest: X must be a vector of real numbers.> kstest (ones (2, 4))
***** error<kstest: X must be a vector of real numbers.> kstest ([2, 3, 5, 3+3i])
***** error<kstest: unknown option 'opt'.> kstest ([2, 3, 4, 5, 6], "opt", 0.51)
***** error<kstest: optional parameters must be in name/value pairs.> ...
 kstest ([2, 3, 4, 5, 6], "tail")
***** error<kstest: alpha must be a numeric scalar in the range> ...
 kstest ([2,3,4,5,6],"alpha", [0.05, 0.05])
***** error<kstest: alpha must be a numeric scalar in the range> ...
 kstest ([2, 3, 4, 5, 6], "alpha", NaN)
***** error<kstest: tail argument must be a string.> ...
 kstest ([2, 3, 4, 5, 6], "tail", 0)
***** error<kstest: tail value must be either 'both', right' or 'left'.> ...
 kstest ([2,3,4,5,6], "tail", "whatever")
***** error<kstest: invalid function handle.> ...
 kstest ([1, 2, 3, 4, 5], "CDF", @(x) repmat (x, 2, 3))
***** error<kstest: 'somedist' is not a supported distribution.> ...
 kstest ([1, 2, 3, 4, 5], "CDF", "somedist")
***** error<kstest: 'CDF' must be a probability distribution object.> ...
 kstest ([1, 2, 3, 4, 5], "CDF", cvpartition (5, 'resubstitution'))
***** error<kstest: numerical CDF should have only 2 columns.> ...
 kstest ([2, 3, 4, 5, 6], "alpha", 0.05, "CDF", [2, 3, 4; 1, 3, 4; 1, 2, 1])
***** error<kstest: numerical CDF should have at least one row.> ...
 kstest ([2, 3, 4, 5, 6], "alpha", 0.05, "CDF", nan (5, 2))
***** error<kstest: non-incrementing numerical CDF.> ...
 kstest ([2, 3, 4, 5, 6], "CDF", [2, 3; 1, 4; 3, 2])
***** error<kstest: wrong duplicates in numerical CDF.> ...
 kstest ([2, 3, 4, 5, 6], "CDF", [2, 3; 2, 4; 3, 5])
***** error<kstest: invalid value parsed as CDF optional argument.> ...
 kstest ([2, 3, 4, 5, 6], "CDF", {1, 2, 3, 4, 5})
***** test
 load examgrades
 [h, p] = kstest (grades(:,1));
 assert (h, true);
 assert (p, 7.58603305206105e-107, 1e-14);
***** test
 load examgrades
 [h, p] = kstest (grades(:,1), "CDF", @(x) normcdf(x, 75, 10));
 assert (h, false);
 assert (p, 0.5612, 1e-4);
***** test
 load examgrades
 x = grades(:,1);
 test_cdf = makedist ("tlocationscale", "mu", 75, "sigma", 10, "nu", 1);
 [h, p] = kstest (x, "alpha", 0.01, "CDF", test_cdf);
 assert (h, true);
 assert (p, 0.0021, 1e-4);
***** test
 load stockreturns
 x = stocks(:,3);
 [h,p,k,c] = kstest (x, "Tail", "larger");
 assert (h, true);
 assert (p, 5.085438806199252e-05, 1e-14);
 assert (k, 0.2197, 1e-4);
 assert (c, 0.1207, 1e-4);
21 tests, 21 passed, 0 known failure, 0 skipped
[inst/pdist.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/pdist.m
***** shared xy, t, eucl, x
 xy = [0 1; 0 2; 7 6; 5 6];
 t = 1e-3;
 eucl = @(v,m) sqrt(sumsq(repmat(v,rows(m),1)-m,2));
 x = [1 2 3; 4 5 6; 7 8 9; 3 2 1];
***** assert (pdist (xy),                 [1.000 8.602 7.071 8.062 6.403 2.000], t);
***** assert (pdist (xy, eucl),           [1.000 8.602 7.071 8.062 6.403 2.000], t);
***** assert (pdist (xy, "euclidean"),    [1.000 8.602 7.071 8.062 6.403 2.000], t);
***** assert (pdist (xy, "seuclidean"),   [0.380 2.735 2.363 2.486 2.070 0.561], t);
***** assert (pdist (xy, "mahalanobis"),  [1.384 1.967 2.446 2.384 1.535 2.045], t);
***** assert (pdist (xy, "cityblock"),    [1.000 12.00 10.00 11.00 9.000 2.000], t);
***** assert (pdist (xy, "minkowski"),    [1.000 8.602 7.071 8.062 6.403 2.000], t);
***** assert (pdist (xy, "minkowski", 3), [1.000 7.763 6.299 7.410 5.738 2.000], t);
***** assert (pdist (xy, "cosine"),       [0.000 0.349 0.231 0.349 0.231 0.013], t);
***** assert (pdist (xy, "correlation"),  [0.000 2.000 0.000 2.000 0.000 2.000], t);
***** assert (pdist (xy, "spearman"),     [0.000 2.000 0.000 2.000 0.000 2.000], t);
***** assert (pdist (xy, "hamming"),      [0.500 1.000 1.000 1.000 1.000 0.500], t);
***** assert (pdist (xy, "jaccard"),      [1.000 1.000 1.000 1.000 1.000 0.500], t);
***** assert (pdist (xy, "chebychev"),    [1.000 7.000 5.000 7.000 5.000 2.000], t);
***** assert (pdist (x), [5.1962, 10.3923, 2.8284, 5.1962, 5.9161, 10.7703], 1e-4);
***** assert (pdist (x, "euclidean"), ...
        [5.1962, 10.3923, 2.8284, 5.1962, 5.9161, 10.7703], 1e-4);
***** assert (pdist (x, eucl), ...
        [5.1962, 10.3923, 2.8284, 5.1962, 5.9161, 10.7703], 1e-4);
***** assert (pdist (x, "squaredeuclidean"), [27, 108, 8, 27, 35, 116]);
***** assert (pdist (x, "seuclidean"), ...
        [1.8071, 3.6142, 0.9831, 1.8071, 1.8143, 3.4854], 1e-4);
***** warning<pdist: matrix is close to singular> ...
 pdist (x, "mahalanobis");
***** assert (pdist (x, "cityblock"), [9, 18, 4, 9, 9, 18]);
***** assert (pdist (x, "minkowski"), ...
        [5.1962, 10.3923, 2.8284, 5.1962, 5.9161, 10.7703], 1e-4);
***** assert (pdist (x, "minkowski", 3), ...
        [4.3267, 8.6535, 2.5198, 4.3267, 5.3485, 9.2521], 1e-4);
***** assert (pdist (x, "cosine"), ...
        [0.0254, 0.0406, 0.2857, 0.0018, 0.1472, 0.1173], 1e-4);
***** assert (pdist (x, "correlation"), [0, 0, 2, 0, 2, 2], 1e-14);
***** assert (pdist (x, "spearman"), [0, 0, 2, 0, 2, 2], 1e-14);
***** assert (pdist (x, "hamming"), [1, 1, 2/3, 1, 1, 1]);
***** assert (pdist (x, "jaccard"), [1, 1, 2/3, 1, 1, 1]);
***** assert (pdist (x, "chebychev"), [3, 6, 2, 3, 5, 8]);
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/fitcknn.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitcknn.m
***** demo
 ## Train a k-nearest neighbor classifier for k = 10
 ## and plot the decision boundaries.

 load fisheriris
 idx = ! strcmp (species, "setosa");
 X = meas(idx,3:4);
 Y = cast (strcmpi (species(idx), "virginica"), "double");
 obj = fitcknn (X, Y, "Standardize", 1, "NumNeighbors", 10, "NSMethod", "exhaustive")
 x1 = [min(X(:,1)):0.03:max(X(:,1))];
 x2 = [min(X(:,2)):0.02:max(X(:,2))];
 [x1G, x2G] = meshgrid (x1, x2);
 XGrid = [x1G(:), x2G(:)];
 pred = predict (obj, XGrid);
 gidx = logical (pred);

 figure
 scatter (XGrid(gidx,1), XGrid(gidx,2), "markerfacecolor", "magenta");
 hold on
 scatter (XGrid(!gidx,1), XGrid(!gidx,2), "markerfacecolor", "red");
 plot (X(Y == 0, 1), X(Y == 0, 2), "ko", X(Y == 1, 1), X(Y == 1, 2), "kx");
 xlabel ("Petal length (cm)");
 ylabel ("Petal width (cm)");
 title ("5-Nearest Neighbor Classifier Decision Boundary");
 legend ({"Versicolor Region", "Virginica Region", ...
         "Sampled Versicolor", "Sampled Virginica"}, ...
         "location", "northwest")
 axis tight
 hold off
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y, "NSMethod", "exhaustive");
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = fitcknn (x, y, "NumNeighbors" ,k);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = ones (4, 11);
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = fitcknn (x, y, "NumNeighbors" ,k);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = fitcknn (x, y, "NumNeighbors" ,k, "NSMethod", "exhaustive");
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 k = 10;
 a = fitcknn (x, y, "NumNeighbors" ,k, "Distance", "hamming");
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 10})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "hamming"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 weights = ones (4,1);
 a = fitcknn (x, y, "Standardize", 1);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.Standardize}, {true})
 assert ({a.Sigma}, {std(x, [], 1)})
 assert ({a.Mu}, {[3.75, 4.25, 4.75]})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 weights = ones (4,1);
 a = fitcknn (x, y, "Standardize", false);
 assert (class (a), "ClassificationKNN");
 assert ({a.X, a.Y, a.NumNeighbors}, {x, y, 1})
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.Standardize}, {false})
 assert ({a.Sigma}, {[]})
 assert ({a.Mu}, {[]})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 s = ones (1, 3);
 a = fitcknn (x, y, "Scale" , s, "Distance", "seuclidean");
 assert (class (a), "ClassificationKNN");
 assert ({a.DistParameter}, {s})
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "seuclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y, "Exponent" , 5, "Distance", "minkowski");
 assert (class (a), "ClassificationKNN");
 assert (a.DistParameter, 5)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "minkowski"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y, "Exponent" , 5, "Distance", "minkowski", ...
                    "NSMethod", "exhaustive");
 assert (class (a), "ClassificationKNN");
 assert (a.DistParameter, 5)
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "minkowski"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y, "BucketSize" , 20, "distance", "mahalanobis");
 assert (class (a), "ClassificationKNN");
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "mahalanobis"})
 assert ({a.BucketSize}, {20})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y, "IncludeTies", true);
 assert (class (a), "ClassificationKNN");
 assert (a.IncludeTies, true);
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y);
 assert (class (a), "ClassificationKNN");
 assert (a.IncludeTies, false);
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 a = fitcknn (x, y);
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, [0.5; 0.5])
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 prior = [0.5; 0.5];
 a = fitcknn (x, y, "Prior", "empirical");
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, prior)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "a"; "b"];
 prior = [0.75; 0.25];
 a = fitcknn (x, y, "Prior", "empirical");
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, prior)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "a"; "b"];
 prior = [0.5; 0.5];
 a = fitcknn (x, y, "Prior", "uniform");
 assert (class (a), "ClassificationKNN")
 assert (a.Prior, prior)
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 cost = eye (2);
 a = fitcknn (x, y, "Cost", cost);
 assert (class (a), "ClassificationKNN")
 assert (a.Cost, [1, 0; 0, 1])
 assert ({a.NSMethod, a.Distance}, {"kdtree", "euclidean"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 cost = eye (2);
 a = fitcknn (x, y, "Cost", cost, "Distance", "hamming" );
 assert (class (a), "ClassificationKNN")
 assert (a.Cost, [1, 0; 0, 1])
 assert ({a.NSMethod, a.Distance}, {"exhaustive", "hamming"})
 assert ({a.BucketSize}, {50})
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = ["a"; "a"; "b"; "b"];
 status = warning;
 warning ('off');
 rand ("seed", 23);
 a = fitcknn (x, y, "NSMethod", "exhaustive", "CrossVal", "on");
 warning (status);
 assert (class (a), "ClassificationPartitionedModel");
 assert ({a.X, a.Y, a.Trained{1}.NumNeighbors}, {x, y, 1})
 assert (a.ModelParameters.NSMethod, "exhaustive")
 assert (a.ModelParameters.Distance, "euclidean")
 assert ({a.Trained{1}.BucketSize}, {50})
***** error<fitcknn: too few arguments.> fitcknn ()
***** error<fitcknn: too few arguments.> fitcknn (ones (4,1))
***** error<fitcknn: Name-Value arguments must be in pairs.>
 fitcknn (ones (4,2), ones (4, 1), "K")
***** error<fitcknn: number of rows in X and Y must be equal.>
 fitcknn (ones (4,2), ones (3, 1))
***** error<fitcknn: number of rows in X and Y must be equal.>
 fitcknn (ones (4,2), ones (3, 1), "K", 2)
***** error <fitcknn: 'CrossVal' must be either 'off' or 'on'.>
 fitcknn (ones (4,2), ones (4, 1), "CrossVal", 2)
***** error <fitcknn: 'CrossVal' must be either 'off' or 'on'.>
 fitcknn (ones (4,2), ones (4, 1), "CrossVal", 'a')
***** error <fitcknn: You can use only one cross-validation name-value pair argument> ...
 fitcknn (ones (4,2), ones (4, 1), "KFold", 10, "Holdout", 0.3)
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/loadmodel.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/loadmodel.m
***** error<loadmodel: too few arguments.> loadmodel ()
***** error<loadmodel: 'fisheriris.mat' does not contain a Classification or Regression object.> ...
 loadmodel ("fisheriris.mat")
***** error<loadmodel: 'ClassificationModel' is not supported.> ...
 loadmodel ("fail_loadmodel.mdl")
***** error<ClassificationKNN.load_model: invalid model in 'fail_load_model.mdl'.> ...
 loadmodel ("fail_load_model.mdl")
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/makima.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/makima.m
***** test
 % 1. Basic linear-like data
 x = [1; 2; 3; 4];
 y = [2; 4; 6; 8];
 xi = [1.5; 2.5; 3.5];
 yi = makima (x, y, xi);
 assert (yi, [3; 5; 7], 1e-12);
***** test
 % 2. Nonlinear dataset (finite check)
 x = [0; 1; 2; 3; 4];
 y = [0; 1; 0; 1; 0];
 xi = linspace (0,4,20)';
 yi = makima (x, y, xi);
 assert (all (isfinite (yi)));
***** test
 % 3. makima(y, xq) syntax
 y = [10; 20; 30];
 xq = [1; 2; 3];
 yi = makima (y, xq);
 assert (yi, y, 1e-12);
***** test
 % 4. Matrix y input (multiple columns)
 x = [1; 3; 5];
 y = [1 2; 3 4; 2 6];
 xi = 2;
 yi = makima (x, y, xi);
 assert (columns(yi), 2);
 assert (all (isfinite (yi)));
 % Column 1 exact value (1917/832)
 assert (yi(1), 2.3040865384615385, 1e-12);
 % Column 2 exact value (Linear)
 assert (yi(2), 3.000, 1e-12);
***** test
 % 5. Extrapolation enabled
 x = [1; 2; 3];
 y = [5; 10; 15];
 xi = [0; 4];
 yi = makima (x, y, xi, "extrap");
 assert (all (isfinite (yi)));
 assert (yi, [0; 20], 1e-12);
***** test
 % 6. Default NaN extrapolation
 x = [1; 2; 3];
 y = [5; 10; 15];
 xi = [0; 4];
 yi = makima (x, y, xi);
 assert (isnan (yi(1)));
 assert (isnan (yi(2)));
***** test
 % 7. Complex interpolation
 x = [1; 2; 4];
 y = [1+2i; 2+3i; 4+8i];
 xi = 3;
 yi = makima (x, y, xi);
 assert (yi, 3 + 5.09767206477733i, 1e-12);
 assert (iscomplex (yi));
***** test
 % 8. Single Point Input (1x1)
 x = 5;
 y = 12;
 xi = 5;
 yi = makima (x, y, xi);
 assert (yi, 12, 1e-12);
***** test
 % 9. Two-point interpolation (Linear fallback)
 x = [1; 5];
 y = [10; 30];
 xi = 3;
 yi = makima (x, y, xi);
 assert (yi, 20, 1e-12);
***** test
 % 10. Single Precision Input
 x = single ([1; 2; 3]);
 y = single ([10; 20; 30]);
 xi = single (1.5);
 yi = makima (x, y, xi);
 assert (isa (yi, "single"));
 assert (yi, single (15), 1e-6);
***** test
 % 11. Row vector inputs (Orientation check)
 x = [1 2 3];
 y = [4 5 6];
 xi = [1.5 2.5];
 yi = makima (x, y, xi);
 assert (yi, [4.5 5.5], 1e-12);
***** test
 % 12. Step function (Overshoot Check)
 x = [1 2 3 4 5 6];
 y = [0 0 1 1 0 0];
 xi = [2.5 3.5 4.5];
 yi = makima (x, y, xi);
 expected_12 = [0.5000, 1.1250, 0.5000];
 assert (yi, expected_12, 1e-12);
***** test
 % 13. Runge function (Oscillation Check)
 x = linspace (-1, 1, 7)';
 y = 1 ./ (1 + 25 * x.^2);
 xi = [-0.5; 0.1; 0.5];
 yi = makima (x, y, xi);
 expected_13 = [0.148690385982729; 0.857734549516009; 0.148690385982729];
 assert (yi, expected_13, 1e-12);
***** test
 % 14. Constant Slopes / Zero Weights
 x = [1; 2; 3; 4; 5];
 y = [1; 1; 1; 1; 1];
 xi = 3.5;
 yi = makima (x, y, xi);
 expected_14 = [1];
 assert (yi, expected_14, 1e-12);
***** test
 % 15. Empty xq input
 x = [1; 2; 3];
 y = [4; 5; 6];
 xi = [];
 yi = makima (x, y, xi);
 assert (isempty (yi));
 assert (iscolumn (yi)); % Ensure it defaults to column output
***** test
 % 16. Wide range of y-values
 x = [1e-10; 2e-10; 3e-10; 4e-10];
 y = [1e10; 2e10; 3e10; 4e10];
 xi = 2.5e-10;
 yi = makima (x, y, xi);
 assert (yi, 2.5e10, 1e-6); % Using a slightly relaxed tolerance
***** test
 % 17. Single column matrix input (ensures nc=1 logic works)
 x = [1; 2; 3];
 y = [10; 20; 30];
 xi = [1.5 2.5]; % Row input
 yi = makima (x, y, xi);
 assert (yi, [15 25], 1e-12);
 assert (isrow (yi));
***** error<makima: x must be strictly increasing>
 makima ([1 1 2], [3 4 5], 1.5)
***** error<makima: x and y must have the same number of rows>
 makima ([1;2;3], [1;2], 2)
***** error<makima: invalid number of inputs>
 makima (1)
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/rangesearch.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/rangesearch.m
***** demo
 ## Generate 1000 random 2D points from each of five distinct multivariate
 ## normal distributions that form five separate classes
 N = 1000;
 d = 10;
 randn ("seed", 5);
 X1 = mvnrnd (d * [0, 0], eye (2), 1000);
 randn ("seed", 6);
 X2 = mvnrnd (d * [1, 1], eye (2), 1000);
 randn ("seed", 7);
 X3 = mvnrnd (d * [-1, -1], eye (2), 1000);
 randn ("seed", 8);
 X4 = mvnrnd (d * [1, -1], eye (2), 1000);
 randn ("seed", 8);
 X5 = mvnrnd (d * [-1, 1], eye (2), 1000);
 X = [X1; X2; X3; X4; X5];

 ## For each point in X, find the points in X that are within a radius d
 ## away from the points in X.
 Idx = rangesearch (X, X, d, "NSMethod", "exhaustive");

 ## Select the first point in X (corresponding to the first class) and find
 ## its nearest neighbors within the radius d.  Display these points in
 ## one color and the remaining points in a different color.
 x = X(1,:);
 nearestPoints = X (Idx{1},:);
 nonNearestIdx = true (size (X, 1), 1);
 nonNearestIdx(Idx{1}) = false;

 scatter (X(nonNearestIdx,1), X(nonNearestIdx,2))
 hold on
 scatter (nearestPoints(:,1),nearestPoints(:,2))
 scatter (x(1), x(2), "black", "filled")
 hold off

 ## Select the last point in X (corresponding to the fifth class) and find
 ## its nearest neighbors within the radius d.  Display these points in
 ## one color and the remaining points in a different color.
 x = X(end,:);
 nearestPoints = X (Idx{1},:);
 nonNearestIdx = true (size (X, 1), 1);
 nonNearestIdx(Idx{1}) = false;

 figure
 scatter (X(nonNearestIdx,1), X(nonNearestIdx,2))
 hold on
 scatter (nearestPoints(:,1),nearestPoints(:,2))
 scatter (x(1), x(2), "black", "filled")
 hold off
***** shared x, y, X, Y
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [2, 3, 4; 1, 4, 3];
 X = [1, 2, 3, 4; 2, 3, 4, 5; 3, 4, 5, 6];
 Y = [1, 2, 2, 3; 2, 3, 3, 4];
***** test
 [idx, D] = rangesearch (x, y, 4);
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 4, "NSMethod", "exhaustive");
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 4, "NSMethod", "kdtree");
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 4, "SortIndices", true);
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 4, "SortIndices", false);
 assert (idx, {[1, 2, 4]; [1, 4]});
 assert (D, {[1.7321, 3.4641, 3.3166]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 4, "NSMethod", "exhaustive", ...
                         "SortIndices", false);
 assert (idx, {[1, 2, 4]; [1, 4]});
 assert (D, {[1.7321, 3.4641, 3.3166]; [2, 3.4641]}, 1e-4);
***** test
 eucldist = @(v,m) sqrt(sumsq(repmat(v,rows(m),1)-m,2));
 [idx, D] = rangesearch (x, y, 4, "Distance", eucldist);
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 eucldist = @(v,m) sqrt(sumsq(repmat(v,rows(m),1)-m,2));
 [idx, D] = rangesearch (x, y, 4, "Distance", eucldist, ...
                         "NSMethod", "exhaustive");
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 1.5, "Distance", "seuclidean", ...
                         "NSMethod", "exhaustive");
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[0.6024, 1.0079, 1.2047]; [0.6963, 1.2047]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 1.5, "Distance", "seuclidean", ...
                         "NSMethod", "exhaustive", "SortIndices", false);
 assert (idx, {[1, 2, 4]; [1, 4]});
 assert (D, {[0.6024, 1.2047, 1.0079]; [0.6963, 1.2047]}, 1e-4);
***** test
 [idx, D] = rangesearch (X, Y, 4);
 assert (idx, {[1, 2]; [1, 2, 3]});
 assert (D, {[1.4142, 3.1623]; [1.4142, 1.4142, 3.1623]}, 1e-4);
***** test
 [idx, D] = rangesearch (X, Y, 2);
 assert (idx, {[1]; [1, 2]});
 assert (D, {[1.4142]; [1.4142, 1.4142]}, 1e-4);
***** test
 eucldist = @(v,m) sqrt(sumsq(repmat(v,rows(m),1)-m,2));
 [idx, D] = rangesearch (X, Y, 4, "Distance", eucldist);
 assert (idx, {[1, 2]; [1, 2, 3]});
 assert (D, {[1.4142, 3.1623]; [1.4142, 1.4142, 3.1623]}, 1e-4);
***** test
 [idx, D] = rangesearch (X, Y, 4, "SortIndices", false);
 assert (idx, {[1, 2]; [1, 2, 3]});
 assert (D, {[1.4142, 3.1623]; [1.4142, 1.4142, 3.1623]}, 1e-4);
***** test
 [idx, D] = rangesearch (X, Y, 4, "Distance", "seuclidean", ...
                         "NSMethod", "exhaustive");
 assert (idx, {[1, 2]; [1, 2, 3]});
 assert (D, {[1.4142, 3.1623]; [1.4142, 1.4142, 3.1623]}, 1e-4);
***** test
 X = ones (10, 2);
 [idx, D] = rangesearch (X, X, 0.1, "NSMethod", "kdtree");
 assert (numel (idx), 10);
***** test
 X = ones (3, 2);
 [idx, D] = rangesearch (X, X, 0.1, "NSMethod", "kdtree", "BucketSize", 1);
 assert (numel (idx), 3);
 assert (cellfun (@numel, idx) == 3, [true; true; true]);
 assert (idx{1}, [1, 2, 3]);
 assert (idx{2}, [1, 2, 3]);
 assert (idx{3}, [1, 2, 3]);
 assert (D{1}, [0, 0, 0]);
 assert (D{2}, [0, 0, 0]);
 assert (D{3}, [0, 0, 0]);
***** test
 [idx, D] = rangesearch (x, y, 4, "NSMethod", "kdtree", "SortIndices", true);
 assert (idx, {[1, 4, 2]; [1, 4]});
 assert (D, {[1.7321, 3.3166, 3.4641]; [2, 3.4641]}, 1e-4);
***** test
 [idx, D] = rangesearch (x, y, 4, "NSMethod", "kdtree", "SortIndices", false);
 assert (idx, {[1, 2, 4]; [1, 4]});
 assert (D, {[1.7321, 3.4641, 3.3166]; [2, 3.4641]}, 1e-4);
***** error<rangesearch: too few input arguments.> rangesearch (1)
***** error<rangesearch: too few input arguments.> rangesearch (ones (4, 5))
***** error<rangesearch: too few input arguments.> ...
 rangesearch (ones (4, 5), ones (4))
***** error<rangesearch: number of columns in X and Y must match.> ...
 rangesearch (ones (4, 5), ones (4), 1)
***** error<rangesearch: invalid NAME in optional pairs of arguments.> ...
 rangesearch (ones (4, 2), ones (3, 2), 1, "Distance", "euclidean", "some", "some")
***** error<rangesearch: only a single distance parameter can be defined.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "scale", ones (1, 5), "P", 3)
***** error<rangesearch: invalid value of Minkowski Exponent.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "P", -2)
***** error<rangesearch: invalid value in Scale or the size of Scale.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "scale", ones(4,5), "distance", "euclidean")
***** error<rangesearch: invalid value in Cov, Cov can only be given for mahalanobis distance.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "cov", ["some" "some"])
***** error<rangesearch: invalid value in Cov, Cov can only be given for mahalanobis distance.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "cov", ones(4,5), "distance", "euclidean")
***** error<rangesearch: invalid value of bucketsize.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "bucketsize", -1)
***** error<rangesearch: invalid value of bucketsize.> ...
 rangesearch (ones (4,2), ones (1,2), 1, "BucketSize", 2.5)
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "cosine")
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "mahalanobis")
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "correlation")
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "seuclidean")
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "spearman")
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "hamming")
***** error<rangesearch: 'kdtree' cannot be used with the given distance metric.> ...
 rangesearch (ones (4, 5), ones (1, 5), 1, "NSmethod", "kdtree", "distance", "jaccard")
***** error<rangesearch: 'kdtree' cannot be used with custom distance functions.> ...
 rangesearch (ones (4,2), ones (1,2), 1, "Distance", @(x,y) sqrt(sum((x-y).^2)), "NSMethod", "kdtree")
39 tests, 39 passed, 0 known failure, 0 skipped
[inst/princomp.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/princomp.m
***** shared COEFF,SCORE,latent,tsquare,m,x,R,V,lambda,i,S,F
***** test
 x=[7 4 3
    4 1 8
    6 3 5
    8 6 1
    8 5 7
    7 2 9
    5 3 3
    9 5 8
    7 4 5
    8 2 2];
 R = corrcoef (x);
 [V, lambda] = eig (R);
 [~, i] = sort(diag(lambda), "descend"); #arrange largest PC first
 S = V(:, i) * diag(sqrt(diag(lambda)(i)));
 ## contribution of first 2 PCs to each original variable
***** assert(diag(S(:, 1:2)*S(:, 1:2)'), [0.8662; 0.8420; 0.9876], 1E-4);
 B = V(:, i) * diag( 1./ sqrt(diag(lambda)(i)));
 F = zscore(x)*B;
 [COEFF,SCORE,latent,tsquare] = princomp(zscore(x, 1));
***** assert(tsquare,sumsq(F, 2),1E4*eps);
***** test
 x=[1,2,3;2,1,3]';
 [COEFF,SCORE,latent,tsquare] = princomp(x);
 m=[sqrt(2),sqrt(2);sqrt(2),-sqrt(2);-2*sqrt(2),0]/2;
 m(:,1) = m(:,1)*sign(COEFF(1,1));
 m(:,2) = m(:,2)*sign(COEFF(1,2));
***** assert(COEFF,m(1:2,:),10*eps);
***** assert(SCORE,-m,10*eps);
***** assert(latent,[1.5;.5],10*eps);
***** assert(tsquare,[4;4;4]/3,10*eps);
***** test
 x=x';
 [COEFF,SCORE,latent,tsquare] = princomp(x);
 m=[sqrt(2),sqrt(2),0;-sqrt(2),sqrt(2),0;0,0,2]/2;
 m(:,1) = m(:,1)*sign(COEFF(1,1));
 m(:,2) = m(:,2)*sign(COEFF(1,2));
 m(:,3) = m(:,3)*sign(COEFF(3,3));
***** assert(COEFF,m,10*eps);
***** assert(SCORE(:,1),-m(1:2,1),10*eps);
***** assert(SCORE(:,2:3),zeros(2),10*eps);
***** assert(latent,[1;0;0],10*eps);
***** assert(tsquare,[0.5;0.5],10*eps)
***** test
 [COEFF,SCORE,latent,tsquare] = princomp(x, "econ");
***** assert(COEFF,m(:, 1),10*eps);
***** assert(SCORE,-m(1:2,1),10*eps);
***** assert(latent,[1],10*eps);
***** assert(tsquare,[0.5;0.5],10*eps)
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/monotone_smooth.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/monotone_smooth.m
***** error<Invalid call to monotone_smooth.  Correct usage is> ...
 monotone_smooth (1)
***** error<monotone_smooth: X must be a numeric vector.> ...
 monotone_smooth ("char", 1)
***** error<monotone_smooth: X must be a numeric vector.> ...
 monotone_smooth ({1,2,3}, 1)
***** error<monotone_smooth: X must be a numeric vector.> ...
 monotone_smooth (ones(20,3), 1)
***** error<monotone_smooth: Y must be a numeric vector.> ...
 monotone_smooth (1, "char")
***** error<monotone_smooth: Y must be a numeric vector.> ...
 monotone_smooth (1, {1,2,3})
***** error<monotone_smooth: Y must be a numeric vector.> ...
 monotone_smooth (1, ones(20,3))
***** error<monotone_smooth: H>  monotone_smooth (ones (10,1), ones(10,1), [1, 2])
***** error<monotone_smooth: H>  monotone_smooth (ones (10,1), ones(10,1), {2})
***** error<monotone_smooth: H>  monotone_smooth (ones (10,1), ones(10,1), "char")
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/probit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/probit.m
***** assert (probit ([-1, 0, 0.5, 1, 2]), [NaN, -Inf, 0, Inf, NaN])
***** assert (probit ([0.2, 0.99]), norminv ([0.2, 0.99]))
***** error probit ()
***** error probit (1, 2)
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/confusionchart.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/confusionchart.m
***** demo
 close all
 ## Setting the chart properties
 Yt = [8 5 6 8 5 3 1 6 4 2 5 3 1 4]';
 Yp = [8 5 6 8 5 2 3 4 4 5 5 7 2 6]';
 confusionchart (Yt, Yp, "Title", ...
   "Demonstration with summaries","Normalization",...
   "absolute","ColumnSummary", "column-normalized","RowSummary",...
   "row-normalized")
***** demo
 close all
 ## Cellstr as inputs
 Yt = {"Positive", "Positive", "Positive", "Negative", "Negative"};
 Yp = {"Positive", "Positive", "Negative", "Negative", "Negative"};
 m = confusionmat (Yt, Yp);
 confusionchart (m, {"Positive", "Negative"});
 hold off
***** demo
 close all
 ## Editing the object properties
 Yt = {"Positive", "Positive", "Positive", "Negative", "Negative"};
 Yp = {"Positive", "Positive", "Negative", "Negative", "Negative"};
 cm = confusionchart (Yt, Yp);
 cm.Title = "This is an example with a green diagonal";
 cm.DiagonalColor = [0.4660, 0.6740, 0.1880];
 hold off
***** demo
 close all
 ## Confusion chart in a uipanel
 h = uipanel ();
 Yt = {"Positive", "Positive", "Positive", "Negative", "Negative"};
 Yp = {"Positive", "Positive", "Negative", "Negative", "Negative"};
 cm = confusionchart (h, Yt, Yp);
 hold off
***** demo
 close all
 ## Sorting classes
 Yt = [8 5 6 8 5 3 1 6 4 2 5 3 1 4]';
 Yp = [8 5 6 8 5 2 3 4 4 5 5 7 2 6]';
 cm = confusionchart (Yt, Yp, "Title", ...
   "Classes are sorted in ascending order");
 cm = confusionchart (Yt, Yp, "Title", ...
   "Classes are sorted according to clusters");
 sortClasses (cm, "cluster");
***** shared visibility_setting
 visibility_setting = get (0, "DefaultFigureVisible");
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ()", "Invalid call");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 1; 2 2; 3 3])", "invalid argument");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'xxx', 1)", "invalid property");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'XLabel', 1)", "XLabel .* string");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'YLabel', [1 0])", ...
       ".* YLabel .* string");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'Title', .5)", ".* Title .* string");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'FontName', [])", ...
       ".* FontName .* string");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'FontSize', 'b')", ...
       ".* FontSize .* numeric");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'DiagonalColor', 'h')", ...
       ".* DiagonalColor .* color");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'OffDiagonalColor', [])", ...
       ".* OffDiagonalColor .* color");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'Normalization', '')", ...
       ".* invalid .* Normalization");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'ColumnSummary', [])", ...
       ".* invalid .* ColumnSummary");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'RowSummary', 1)", ...
       ".* invalid .* RowSummary");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'GridVisible', .1)", ...
       ".* invalid .* GridVisible");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'HandleVisibility', .1)", ...
       ".* invalid .* HandleVisibility");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'OuterPosition', .1)", ...
       ".* invalid .* OuterPosition");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'Position', .1)", ...
       ".* invalid .* Position");
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 fail ("confusionchart ([1 2], [0 1], 'Units', .1)", ".* invalid .* Units");
 set (0, "DefaultFigureVisible", visibility_setting);
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/qrandn.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/qrandn.m
***** demo
 z = qrandn (-5, 5e6);
 [c x] = hist (z,linspace(-1.5,1.5,200),1);
 figure(1)
 plot(x,c,"r."); axis tight; axis([-1.5,1.5]);

 z = qrandn (-0.14286, 5e6);
 [c x] = hist (z,linspace(-2,2,200),1);
 figure(2)
 plot(x,c,"r."); axis tight; axis([-2,2]);

 z = qrandn (2.75, 5e6);
 [c x] = hist (z,linspace(-1e3,1e3,1e3),1);
 figure(3)
 semilogy(x,c,"r."); axis tight; axis([-100,100]);

 # ---------
 # Figures from the reference paper.
***** error<qrandn: the parameter q must be a scalar.> qrandn ([1 2], 1)
***** error<qrandn: the parameter q must be lower than 3.> qrandn (4, 1)
***** error<qrandn: the parameter q must be lower than 3.> qrandn (3, 1)
***** error qrandn (2.5, 1, 2, 3)
***** error qrandn (2.5)
***** test
 q = 1.5;
 s = [2, 3];
 z = qrandn (q, s);
 assert (isnumeric (z) && isequal (size (z), s));
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/nansum.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/nansum.m
***** demo
 ## Find the column sums for a matrix with missing values.,

 x = magic (3);
 x([1, 4, 7:9]) = NaN
 s = nansum (x)
***** demo
 ## Find the row sums for a matrix with missing values.,

 x = magic (3);
 x([1, 4, 7:9]) = NaN
 s = nansum (x, 2)
***** demo
 ## Find the sum of all the values in a multidimensional array
 ## with missing values.

 x = reshape (1:30, [2, 5, 3]);
 x([10:12, 25]) = NaN
 s = nansum (x, "all")
***** demo
 ## Find the sum of a multidimensional array with missing values over
 ## multiple dimensions.

 x = reshape (1:30, [2, 5, 3]);
 x([10:12, 25]) = NaN
 s = nansum (x, [2, 3])
***** assert (nansum ([]), 0)
***** assert (nansum (NaN), 0)
***** assert (nansum (NaN(3)), [0, 0, 0])
***** assert (nansum ([2 4 NaN 7]), 13)
***** assert (nansum ([2 4 NaN Inf]), Inf)
***** assert (nansum ([1 NaN 3; NaN 5 6; 7 8 NaN]), [8 13 9])
***** assert (nansum ([1 NaN 3; NaN 5 6; 7 8 NaN], 2), [4; 11; 15])
***** assert (nansum (uint8 ([2 4 1 7])), 14)
***** test
 x = magic(3);
 x([1 6:9]) = NaN;
 assert (nansum (x), [7, 6, 0])
 assert (nansum (x, 2), [1; 8; 4])
***** test
 x = reshape(1:24, [2, 4, 3]);
 x([5:6, 20]) = NaN;
 assert (nansum (x, "all"), 269)
***** test
 x = reshape(1:24,[2, 4, 3]);
 x([5:6, 20]) = NaN;
 assert (squeeze (nansum (x, [1, 2])), [25; 100; 144])
 assert (nansum (x, [2, 3]), [139; 130])
***** error <nansum: X must be numeric.> nansum ({3})
***** error <nansum: DIM must be a positive integer.> nansum (ones (3), 0)
***** error <nansum: DIM must be a positive integer.> nansum (ones (3), 1.5)
***** error <nansum: DIM must be a positive integer.> nansum (ones (3), 1.5)
***** error <nansum: VECDIM must be a vector of positive integer.> ...
 nansum (ones (3, 3, 3), [2, 2.5])
***** error <nansum: VECDIM must be a vector of positive integer.> ...
 nansum (ones (3, 3, 3), [-1, 2])
***** error <nansum: VECDIM must contain non-repeating positive integers.> ...
 nansum (ones (3, 3, 3), [2, 2, 3])
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/fishertest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fishertest.m
***** demo
 ## A Fisher's exact test example

 x = [3, 1; 1, 3]
 [h, p, stats] = fishertest(x)
***** assert (fishertest ([3, 4; 5, 7]), false);
***** assert (isa (fishertest ([3, 4; 5, 7]), "logical"), true);
***** test
 [h, pval, stats] = fishertest ([3, 4; 5, 7]);
 assert (pval, 1, 1e-14);
 assert (stats.OddsRatio, 1.05);
 CI = [0.159222057151289, 6.92429189601808];
 assert (stats.ConfidenceInterval, CI, 1e-14)
***** test
 [h, pval, stats] = fishertest ([3, 4; 5, 0]);
 assert (pval, 0.08080808080808080, 1e-14);
 assert (stats.OddsRatio, 0);
 assert (stats.ConfidenceInterval, [-Inf, Inf])
***** error fishertest ();
***** error fishertest (1, 2, 3, 4, 5, 6);
***** error<fishertest: X must be a 2-dimensional matrix.> ...
 fishertest (ones (2, 2, 2));
***** error<fishertest: X must contain only non-negative real integers.> ...
 fishertest ([1, 2; -3, 4]);
***** error<fishertest: X must contain only non-negative real integers.> ...
 fishertest ([1, 2; 3, 4+i]);
***** error<fishertest: X must contain only non-negative real integers.> ...
 fishertest ([1, 2; 3, 4.2]);
***** error<fishertest: X must contain only non-negative real integers.> ...
 fishertest ([NaN, 2; 3, 4]);
***** error<fishertest: X must contain only non-negative real integers.> ...
 fishertest ([1, Inf; 3, 4]);
***** error<fishertest: cannot handle large entries.> ...
 fishertest (ones (2) * 1e8);
***** error<fishertest: invalid value for alpha.> ...
 fishertest ([1, 2; 3, 4], "alpha", 0);
***** error<fishertest: invalid value for alpha.> ...
 fishertest ([1, 2; 3, 4], "alpha", 1.2);
***** error<fishertest: invalid value for alpha.> ...
 fishertest ([1, 2; 3, 4], "alpha", "val");
***** error<fishertest: invalid value for tail.>  ...
 fishertest ([1, 2; 3, 4], "tail", "val");
***** error<fishertest: invalid value for tail.>  ...
 fishertest ([1, 2; 3, 4], "alpha", 0.01, "tail", "val");
***** error<fishertest: invalid name for optional arguments.> ...
 fishertest ([1, 2; 3, 4], "alpha", 0.01, "badoption", 3);
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/x2fx.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/x2fx.m
***** test
 X = [1, 10; 2, 20; 3, 10; 4, 20; 5, 15; 6, 15];
 D = x2fx(X,'quadratic');
 assert (D(1,:), [1, 1, 10, 10, 1, 100]);
 assert (D(2,:), [1, 2, 20, 40, 4, 400]);
***** test
 X = [1, 10; 2, 20; 3, 10; 4, 20; 5, 15; 6, 15];
 model = [0, 0; 1, 0; 0, 1; 1, 1; 2, 0];
 D = x2fx(X,model);
 assert (D(1,:), [1, 1, 10, 10, 1]);
 assert (D(2,:), [1, 2, 20, 40, 4]);
 assert (D(4,:), [1, 4, 20, 80, 16]);
***** test
 x = [1, 2, 3; 2, 3, 4; 3, 4, 5];
 D = x2fx (x, 'linear');
 assert (D, [1, 1, 2, 3; 1, 2, 3, 4;, 1, 3, 4, 5]);
 D = x2fx (x, 'interaction');
 assert (D(1,:), [1, 1, 2, 3, 2, 3, 6]);
 assert (D(2,:), [1, 2, 3, 4, 6, 8, 12]);
 assert (D(3,:), [1, 3, 4, 5, 12, 15, 20]);
 D = x2fx (x, 'quadratic');
 assert (D(1,:), [1, 1, 2, 3, 2, 3, 6, 1, 4, 9]);
 assert (D(2,:), [1, 2, 3, 4, 6, 8, 12, 4, 9, 16]);
 assert (D(3,:), [1, 3, 4, 5, 12, 15, 20, 9, 16, 25]);
 D = x2fx (x, 'purequadratic');
 assert (D(1,:), [1, 1, 2, 3, 1, 4, 9]);
 assert (D(2,:), [1, 2, 3, 4, 4, 9, 16]);
 assert (D(3,:), [1, 3, 4, 5, 9, 16, 25]);
***** test
 x = [1, 2, 3; 2, 3, 4; 3, 4, 5];
 D = x2fx (x, [0, 0, 1; 1, 0, 2]);
 assert (D, [3, 9; 4, 32; 5, 75]);
***** test
 x = [1, 2, 3; 2, 3, 4; 3, 4, 5];
 D = x2fx (x, 'linear', [1, 3]);
 assert (D, [1, 1, 0, 2, 1, 0; 1, 0, 1, 3, 0, 1; 1, 0, 0, 4, 0, 0]);
***** test
 x = [1, 2, 3; 2, 3, 4; 3, 4, 5];
 D = x2fx (x, 'quadratic', [1, 3]);
 assert (D(1,:), [1, 1, 0, 2, 1, 0, 2, 0, 1, 0, 0, 0, 2, 0, 4]);
 assert (D(2,:), [1, 0, 1, 3, 0, 1, 0, 3, 0, 0, 0, 1, 0, 3, 9]);
 assert (D(3,:), [1, 0, 0, 4, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 16]);
***** test
 x = [1, 2, 3; 2, 3, 4; 3, 4, 5];
 D = x2fx (x, 'cos');
 assert (D(1,:), [0.5403, -0.4161, -0.9900], 1e-4);
 assert (D(2,:), [-0.4161, -0.9900, -0.6536], 1e-4);
 assert (D(3,:), [-0.9900, -0.6536, 0.2837], 1e-4);
***** error <x2fx: category index exceeds number of columns in X.> ...
 x2fx ([1, 2, 3; 2, 3, 4], 'quadratic', [1, 4])
***** error <x2fx: unrecognized function 'cosine'.> ...
 D = x2fx ([1, 2, 3; 2, 3, 4; 3, 4, 5], 'cosine')
***** error <x2fx: wrong number of columns between X and MODEL.> ...
 x2fx ([1, 10; 2, 20; 3, 10], [0; 1]);
***** error <x2fx: wrong number of columns between X and MODEL.> ...
 x2fx ([1, 10, 15; 2, 20, 40; 3, 10, 25], [0, 0; 1, 0; 0, 1; 1, 1; 2, 0]);
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/einstein.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/einstein.m
***** demo
 einstein (0.4, 0.6)
***** demo
 einstein (0.2, 0.5)
***** demo
 einstein (0.6, 0.1)
***** test
 hf = figure ("visible", "off");
 unwind_protect
   tiles = einstein (0.4, 0.6);
   assert (isstruct (tiles), true);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error<Invalid call to einstein.  Correct usage is> einstein
***** error<Invalid call to einstein.  Correct usage is> einstein (0.5)
***** error<einstein: A and B must be within the open interval> einstein (0, 0.9)
***** error<einstein: A and B must be within the open interval> einstein (0.4, 1)
***** error<einstein: A and B must be within the open interval> einstein (-0.4, 1)
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/standardizeMissing.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/standardizeMissing.m
***** assert (standardizeMissing (1, 1), NaN)
***** assert (standardizeMissing (1, 0), 1)
***** assert (standardizeMissing (eye(2), 1), [NaN 0;0 NaN])
***** assert (standardizeMissing ([1:3;4:6], [2 3 4 5]), [1, NaN, NaN; NaN, NaN, 6])
***** assert (standardizeMissing (cat (3,1,2,3,4), 3), cat (3,1,2,NaN,4))
***** assert (standardizeMissing ('foo', 'a'), 'foo')
***** assert (standardizeMissing ('foo', 'f'), 'foo')
***** assert (standardizeMissing ('foo', 'o'), 'foo')
***** assert (standardizeMissing ('foo', 'oo'), 'foo')
***** assert (standardizeMissing ({'foo'}, 'f'), {'foo'})
***** assert (standardizeMissing ({'foo'}, {'f'}), {'foo'})
***** assert (standardizeMissing ({'foo'}, 'test'), {'foo'})
***** assert (standardizeMissing ({'foo'}, {'test'}), {'foo'})
***** assert (standardizeMissing ({'foo'}, 'foo'), {''})
***** assert (standardizeMissing ({'foo'}, {'foo'}), {''})
***** assert (standardizeMissing (['foo';'bar'], 'oar'), ['foo';'bar'])
***** assert (standardizeMissing (['foo';'bar'], ['o';'a';'r']), ['foo';'bar'])
***** assert (standardizeMissing (['foo';'bar'], ['o ';'ar']), ['foo';'bar'])
***** assert (standardizeMissing ({'foo','bar'}, 'foo'), {'','bar'})
***** assert (standardizeMissing ({'foo','bar'}, 'f'), {'foo','bar'})
***** assert (standardizeMissing ({'foo','bar'}, {'foo', 'a'}), {'','bar'})
***** assert (standardizeMissing ({'foo'}, {'f', 'oo'}), {'foo'})
***** assert (standardizeMissing ({'foo','bar'}, {'foo'}), {'','bar'})
***** assert (standardizeMissing ({'foo','bar'}, {'foo', 'a'}), {'','bar'})
***** assert (standardizeMissing (double (1), single (1)), double (NaN))
***** assert (standardizeMissing (single (1), single (1)), single (NaN))
***** assert (standardizeMissing (single (1), double (1)), single (NaN))
***** assert (standardizeMissing (single (1), uint8 (1)), single (NaN))
***** assert (standardizeMissing (double (1), int32 (1)), double (NaN))
***** assert (standardizeMissing (true, true), true)
***** assert (standardizeMissing (true, 1), true)
***** assert (standardizeMissing (int32 (1), int32 (1)), int32 (1))
***** assert (standardizeMissing (int32 (1), 1), int32 (1))
***** assert (standardizeMissing (uint32 (1), uint32 (1)), uint32 (1))
***** assert (standardizeMissing (uint32 (1), 1), uint32 (1))
***** assert (standardizeMissing ({'abc', 1}, 1), {'abc', 1})
***** assert (standardizeMissing (struct ('a','b'), 1), struct ('a','b'))
***** assert (double (standardizeMissing (categorical (1), categorical (1))), NaN)
***** assert (double (standardizeMissing (categorical (1), '1')), NaN)
***** assert (class (standardizeMissing (categorical (1), categorical (1))), 'categorical')
***** assert (double (standardizeMissing (categorical (1), categorical (2))), 1)
***** assert (double (standardizeMissing (categorical (1), '2')), 1)
***** assert (class (standardizeMissing (categorical (1), categorical (2))), 'categorical')
***** assert (isnat (standardizeMissing (datetime ('today'), datetime ('today'))), true)
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
***** assert (isnat (standardizeMissing (datetime ('today'), datetime ('yesterday'))), false)
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
__datetime__: TZDB error: Could not get current timezone
Falling back to UTC.
***** assert (days (standardizeMissing (days (1), days (1))), NaN)
***** assert (days (standardizeMissing (days (1), days (2))), 1)
***** assert (cellstr (standardizeMissing (string (1), string (1))), {''})
***** assert (cellstr (standardizeMissing (string (1), string (2))), {'1'})
***** error <Invalid call> standardizeMissing ();
***** error <Invalid call> standardizeMissing (1);
***** error <standardizeMissing: function called with too many inputs> standardizeMissing (1, 2, 3);
***** error <standardizeMissing: incompatible INDICATOR and input data A.> ...
       standardizeMissing ([1, 2, 3], {1});
***** error <standardizeMissing: incompatible INDICATOR and input data A.> ...
       standardizeMissing ([1, 2, 3], 'a');
***** error <standardizeMissing: incompatible INDICATOR and input data A.> ...
       standardizeMissing ([1, 2, 3], struct ('a', 1));
***** error <standardizeMissing: incompatible INDICATOR and input data A.> ...
       standardizeMissing (categorical (1), 1);
***** error <standardizeMissing: incompatible INDICATOR and input data A.> ...
       standardizeMissing ({'foo'}, string ('foo'));
***** error <standardizeMissing: character INDICATOR must be a row vector.> ...
       standardizeMissing ({'foo'}, ['a';'b']);
58 tests, 58 passed, 0 known failure, 0 skipped
[inst/procrustes.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/procrustes.m
***** demo
 ## Create some random points in two dimensions
 n = 10;
 randn ("seed", 1);
 X = normrnd (0, 1, [n, 2]);

 ## Those same points, rotated, scaled, translated, plus some noise
 S = [0.5, -sqrt(3)/2; sqrt(3)/2, 0.5]; # rotate 60 degrees
 Y = normrnd (0.5*X*S + 2, 0.05, n, 2);

 ## Conform Y to X, plot original X and Y, and transformed Y
 [d, Z] = procrustes (X, Y);
 plot (X(:,1), X(:,2), "rx", Y(:,1), Y(:,2), "b.", Z(:,1), Z(:,2), "bx");
***** demo
 ## Find Procrustes distance and plot superimposed shape

 X = [40 88; 51 88; 35 78; 36 75; 39 72; 44 71; 48 71; 52 74; 55 77];
 Y = [36 43; 48 42; 31 26; 33 28; 37 30; 40 31; 45 30; 48 28; 51 24];
 plot (X(:,1),X(:,2),"x");
 hold on
 plot (Y(:,1),Y(:,2),"o");
 xlim ([0 100]);
 ylim ([0 100]);
 legend ("Target shape (X)", "Source shape (Y)");
 [d, Z] = procrustes (X, Y)
 plot (Z(:,1), Z(:,2), "s");
 legend ("Target shape (X)", "Source shape (Y)", "Transformed shape (Z)");
 hold off
***** demo
 ## Apply Procrustes transformation to larger set of points

 ## Create matrices with landmark points for two triangles
 X = [5, 0; 5, 5; 8, 5];   # target
 Y = [0, 0; 1, 0; 1, 1];   # source

 ## Create a matrix with more points on the source triangle
 Y_mp = [linspace(Y(1,1),Y(2,1),10)', linspace(Y(1,2),Y(2,2),10)'; ...
         linspace(Y(2,1),Y(3,1),10)', linspace(Y(2,2),Y(3,2),10)'; ...
         linspace(Y(3,1),Y(1,1),10)', linspace(Y(3,2),Y(1,2),10)'];

 ## Plot both shapes, including the larger set of points for the source shape
 plot ([X(:,1); X(1,1)], [X(:,2); X(1,2)], "bx-");
 hold on
 plot ([Y(:,1); Y(1,1)], [Y(:,2); Y(1,2)], "ro-", "MarkerFaceColor", "r");
 plot (Y_mp(:,1), Y_mp(:,2), "ro");
 xlim ([-1 10]);
 ylim ([-1 6]);
 legend ("Target shape (X)", "Source shape (Y)", ...
         "More points on Y", "Location", "northwest");
 hold off

 ## Obtain the Procrustes transformation
 [d, Z, transform] = procrustes (X, Y)

 ## Use the Procrustes transformation to superimpose the more points (Y_mp)
 ## on the source shape onto the target shape, and then visualize the results.
 Z_mp = transform.b * Y_mp * transform.T + transform.c(1,:);
 figure
 plot ([X(:,1); X(1,1)], [X(:,2); X(1,2)], "bx-");
 hold on
 plot ([Y(:,1); Y(1,1)], [Y(:,2); Y(1,2)], "ro-", "MarkerFaceColor", "r");
 plot (Y_mp(:,1), Y_mp(:,2), "ro");
 xlim ([-1 10]);
 ylim ([-1 6]);
 plot ([Z(:,1); Z(1,1)],[Z(:,2); Z(1,2)],"ks-","MarkerFaceColor","k");
 plot (Z_mp(:,1),Z_mp(:,2),"ks");
 legend ("Target shape (X)", "Source shape (Y)", ...
         "More points on Y", "Transformed source shape (Z)", ...
         "Transformed additional points", "Location", "northwest");
 hold off
***** demo
 ## Compare shapes without reflection

 T = [33, 93; 33, 87; 33, 80; 31, 72; 32, 65; 32, 58; 30, 72; ...
      28, 72; 25, 69; 22, 64; 23, 59; 26, 57; 30, 57];
 S = [48, 83; 48, 77; 48, 70; 48, 65; 49, 59; 49, 56; 50, 66; ...
      52, 66; 56, 65; 58, 61; 57, 57; 54, 56; 51, 55];
 plot (T(:,1), T(:,2), "x-");
 hold on
 plot (S(:,1), S(:,2), "o-");
 legend ("Target shape (d)", "Source shape (b)");
 hold off
 d_false = procrustes (T, S, "reflection", false);
 printf ("Procrustes distance without reflection: %f\n", d_false);
 d_true = procrustes (T, S, "reflection", true);
 printf ("Procrustes distance with reflection: %f\n", d_true);
 d_best = procrustes (T, S, "reflection", "best");
 printf ("Procrustes distance with best fit: %f\n", d_true);
***** error procrustes ();
***** error procrustes (1);
***** error procrustes (1, 2, 3, 4, 5, 6, 7);
***** error<procrustes: X and Y must be 2-dimensional matrices.> ...
 procrustes (ones (2, 2, 2), ones (2, 2, 2));
***** error<procrustes: values in X and Y must be real.> ...
 procrustes ([1, 2; -3, 4; 2, 3], [1, 2; -3, 4; 2, 3+i]);
***** error<procrustes: values in X and Y must be real.> ...
 procrustes ([1, 2; -3, 4; 2, 3], [1, 2; -3, 4; 2, NaN]);
***** error<procrustes: values in X and Y must be real.> ...
 procrustes ([1, 2; -3, 4; 2, 3], [1, 2; -3, 4; 2, Inf]);
***** error<procrustes: X and Y must have equal number of rows.> ...
 procrustes (ones (10 ,3), ones (11, 3));
***** error<procrustes: X must have at least as many columns as Y.> ...
 procrustes (ones (10 ,3), ones (10, 4));
***** error<procrustes: optional arguments must be in Name-Value pairs.> ...
 procrustes (ones (10 ,3), ones (10, 3), "reflection");
***** error<procrustes: optional arguments must be in Name-Value pairs.> ...
 procrustes (ones (10 ,3), ones (10, 3), true);
***** error<procrustes: invalid value for scaling.> ...
 procrustes (ones (10 ,3), ones (10, 3), "scaling", 0);
***** error<procrustes: invalid value for scaling.> ...
 procrustes (ones (10 ,3), ones (10, 3), "scaling", [true true]);
***** error<procrustes: invalid value for reflection.> ...
 procrustes (ones (10 ,3), ones (10, 3), "reflection", 1);
***** error<procrustes: invalid value for reflection.> ...
 procrustes (ones (10 ,3), ones (10, 3), "reflection", "some");
***** error<procrustes: invalid name for optional arguments.> ...
 procrustes (ones (10 ,3), ones (10, 3), "param1", "some");
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/pca.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/pca.m
***** shared COEFF,SCORE,latent,tsquare,m,x,R,V,lambda,i,S,F
***** test
 x = [7, 4, 3; 4, 1, 8; 6, 3, 5; 8, 6, 1; 8, 5, 7; ...
      7, 2, 9; 5, 3, 3; 9, 5, 8; 7, 4, 5; 8, 2, 2];
 R = corrcoef (x);
 [V, lambda] = eig (R);
 [~, i] = sort (diag (lambda), "descend"); #arrange largest PC first
 S = V(:, i) * diag (sqrt (diag (lambda)(i)));
***** assert (diag (S(:, 1:2) * S(:, 1:2)'), [0.8662; 0.8420; 0.9876], 1E-4);
 B = V(:, i) * diag ( 1./ sqrt (diag (lambda)(i)));
 F = zscore (x) * B;
 [COEFF, SCORE, latent, tsquare] = pca (zscore (x, 1));
***** assert (tsquare, sumsq (F, 2), 1E4*eps);
***** test
 x = [1, 2, 3; 2, 1, 3]';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", false);
 m = [sqrt(2), sqrt(2); sqrt(2), -sqrt(2); -2*sqrt(2), 0] / 2;
 m(:,1) = m(:,1) * sign (COEFF(1,1));
 m(:,2) = m(:,2) * sign (COEFF(1,2));
***** assert (COEFF, m(1:2,:), 10*eps);
***** assert (SCORE, -m, 10*eps);
***** assert (latent, [1.5;.5], 10*eps);
***** assert (tsquare, [4;4;4]/3, 10*eps);
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", false, "weights", ...
                                        [1 2 1], "variableweights", ...
                                        "variance");
***** assert (COEFF, [0.632455532033676, -0.632455532033676; ...
                0.741619848709566, 0.741619848709566], 10 * eps);
***** assert (SCORE, [-0.622019449426284, 0.959119380657905; ...
                -0.505649896847432, -0.505649896847431;
                1.633319243121148, 0.052180413036957], 10 * eps);
***** assert (latent, [1.783001790889027; 0.716998209110974], 10 * eps);
***** test assert (tsquare, [1.5; 0.5; 1.5], 10 * eps);
***** test
 x = [1,2,3;2,1,3]';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", false, "weights", ...
                                        [2 1 2], "variableweights", ...
                                        "variance");
 COEFF_exp = [0.7906, 0.7906; 0.6614, -0.6614];
 SCORE_exp = [-0.7836, -0.4813; -0.9071, 0.9071; 1.2372, 0.0277];
 latent_exp = [2.5562; 0.6438];
 tsquare_exp = [0.6000; 1.6000; 0.6000];
 assert (COEFF, COEFF_exp, 1e-4);
 assert (SCORE, SCORE_exp, 1e-4);
 assert (latent, latent_exp, 1e-4);
 assert (tsquare, tsquare_exp, 1e-4);
***** test
 x = [1,2,3;2,1,3]';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", false, "weights", ...
                                        [1 3 2], "variableweights", ...
                                        "variance");
 COEFF_exp = [0.6216, -0.6216; 0.8118, 0.8118];
 SCORE_exp = [-0.8358, 1.0411; -0.6473, -0.3792; 1.3889, 0.0482];
 latent_exp = [2.9067; 0.7599];
 tsquare_exp = [1.6667; 0.3333; 0.6667];
 assert (COEFF, COEFF_exp, 1e-4);
 assert (SCORE, SCORE_exp, 1e-4);
 assert (latent, latent_exp, 1e-4);
 assert (tsquare, tsquare_exp, 1e-4);
***** test
 x = [1,2,3;2,1,3]';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", false, "weights", ...
                                        [1 0.5 1.5], "variableweights", ...
                                        "variance");
 COEFF_exp = [0.8118, 0.8118; 0.6742, -0.6742];
 SCORE_exp = [-0.9657, -0.4713; -1.0915, 0.8862; 1.0076, 0.0188];
 latent_exp = [1.5257; 0.3077];
 tsquare_exp = [1.3333; 3.3333; 0.6667];
 assert (COEFF, COEFF_exp, 1e-4);
 assert (SCORE, SCORE_exp, 1e-4);
 assert (latent, latent_exp, 1e-4);
 assert (tsquare, tsquare_exp, 1e-4);
***** test
 x = [1,2,3;2,1,3]';
 [COEFF, SCORE, latent, tsquare] = pca(x, "Economy", true, "weights", ...
                                       [2 1 2], "variableweights", ...
                                       "variance");
 COEFF_exp = [0.7906,  0.7906; 0.6614, -0.6614];
 SCORE_exp = [-0.7836, -0.4813; -0.9071, 0.9071; 1.2372, 0.0277];
 latent_exp = [2.5562; 0.6438];
 tsquare_exp = [0.6000; 1.6000; 0.6000];
 assert (COEFF, COEFF_exp, 1e-4);
 assert (SCORE, SCORE_exp, 1e-4);
 assert (latent, latent_exp, 1e-4);
 assert (tsquare, tsquare_exp, 1e-4);
***** test
 x = [1,2,3;2,1,3]';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", true, "weights", ...
                                        [1 3 2], "variableweights", ...
                                        "variance");
 COEFF_exp = [0.6216, -0.6216; 0.8118, 0.8118];
 SCORE_exp = [-0.8358, 1.0411; -0.6473, -0.3792; 1.3889, 0.0482];
 latent_exp = [2.9067; 0.7599];
 tsquare_exp = [1.6667; 0.3333; 0.6667];
 assert (COEFF, COEFF_exp, 1e-4);
 assert (SCORE, SCORE_exp, 1e-4);
 assert (latent, latent_exp, 1e-4);
 assert (tsquare, tsquare_exp, 1e-4);
***** test
 x = [1,2,3;2,1,3]';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", true, "weights", ...
                                        [1 0.5 1.5], "variableweights", ...
                                        "variance");
 COEFF_exp = [0.8118, 0.8118; 0.6742, -0.6742];
 SCORE_exp = [-0.9657, -0.4713; -1.0915, 0.8862; 1.0076, 0.0188];
 latent_exp = [1.5257; 0.3077];
 tsquare_exp = [1.3333; 3.3333; 0.6667];
 assert (COEFF, COEFF_exp, 1e-4);
 assert (SCORE, SCORE_exp, 1e-4);
 assert (latent, latent_exp, 1e-4);
 assert (tsquare, tsquare_exp, 1e-4);
***** test
 x = x';
 [COEFF, SCORE, latent, tsquare] = pca (x, "Economy", false);
 m = [sqrt(2), sqrt(2), 0; -sqrt(2), sqrt(2), 0; 0, 0, 2] / 2;
 m(:,1) = m(:,1) * sign (COEFF(1,1));
 m(:,2) = m(:,2) * sign (COEFF(1,2));
 m(:,3) = m(:,3) * sign (COEFF(3,3));
***** assert (COEFF, m, 10*eps);
***** assert (SCORE(:,1), -m(1:2,1), 10*eps);
***** assert (SCORE(:,2:3), zeros(2), 10*eps);
***** assert (latent, [1;0;0], 10*eps);
***** assert (tsquare, [0.5;0.5], 10*eps)
***** test
 [COEFF, SCORE, latent, tsquare] = pca (x);
***** assert (COEFF, m(:, 1), 10*eps);
***** assert (SCORE, -m(1:2,1), 10*eps);
***** assert (latent, [1], 10*eps);
***** assert (tsquare, [0.5;0.5], 10*eps)
***** error <invalid algorithm> pca ([1 2; 3 4], "Algorithm", "xxx")
***** error <'centered' requires a boolean value> pca ([1 2; 3 4], "Centered", "xxx")
***** error <must be a positive integer> pca ([1 2; 3 4], "NumComponents", -4)
***** error <invalid value for rows> pca ([1 2; 3 4], "Rows", 1)
***** error <weights must be> pca ([1 2; 3 4], "Weights", [1 2 3])
***** error <weights must be> pca ([1 2; 3 4], "Weights", [-1 2])
***** error <variable weights must be> pca ([1 2; 3 4], "VariableWeights", [-1 2])
***** error <variable weights must be> pca ([1 2; 3 4], "VariableWeights", "xxx")
***** error <unknown property> pca ([1 2; 3 4], "XXX", 1)
38 tests, 38 passed, 0 known failure, 0 skipped
[inst/Regression/RegressionGAM.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Regression/RegressionGAM.m
***** demo
 ## Train a RegressionGAM Model for synthetic values
 f1 = @(x) cos (3 * x);
 f2 = @(x) x .^ 3;
 x1 = 2 * rand (50, 1) - 1;
 x2 = 2 * rand (50, 1) - 1;
 y = f1(x1) + f2(x2);
 y = y + y .* 0.2 .* rand (50,1);
 X = [x1, x2];
 a = fitrgam (X, y, "tol", 1e-3)
***** demo
 ## Declare two different functions
 f1 = @(x) cos (3 * x);
 f2 = @(x) x .^ 3;

 ## Generate 80 samples for f1 and f2
 x = [-4*pi:0.1*pi:4*pi-0.1*pi]';
 X1 = f1 (x);
 X2 = f2 (x);

 ## Create a synthetic response by adding noise
 rand ("seed", 3);
 Ytrue = X1 + X2;
 Y = Ytrue + Ytrue .* 0.2 .* rand (80,1);

 ## Assemble predictor data
 X = [X1, X2];

 ## Train the GAM and test on the same data
 a = fitrgam (X, Y, "order", [5, 5]);
 [ypred, ySDsd, yInt] = predict (a, X);

 ## Plot the results
 figure
 [sortedY, indY] = sort (Ytrue);
 plot (sortedY, "r-");
 xlim ([0, 80]);
 hold on
 plot (ypred(indY), "g+")
 plot (yInt(indY,1), "k:")
 plot (yInt(indY,2), "k:")
 xlabel ("Predictor samples");
 ylabel ("Response");
 title ("actual vs predicted values for function f1(x) = cos (3x) ");
 legend ({"Theoretical Response", "Predicted Response", "Prediction Intervals"});

 ## Use 30% Holdout partitioning for training and testing data
 C = cvpartition (80, "HoldOut", 0.3);
 [ypred, ySDsd, yInt] = predict (a, X(test(C),:));

 ## Plot the results
 figure
 [sortedY, indY] = sort (Ytrue(test(C)));
 plot (sortedY, 'r-');
 xlim ([0, sum(test(C))]);
 hold on
 plot (ypred(indY), "g+")
 plot (yInt(indY,1),'k:')
 plot (yInt(indY,2),'k:')
 xlabel ("Predictor samples");
 ylabel ("Response");
 title ("actual vs predicted values for function f1(x) = cos (3x) ");
 legend ({"Theoretical Response", "Predicted Response", "Prediction Intervals"});
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [1; 2; 3; 4];
 a = RegressionGAM (x, y);
 assert ({a.X, a.Y}, {x, y})
 assert ({a.BaseModel.Intercept}, {2.5000})
 assert ({a.Knots, a.Order, a.DoF}, {[5, 5, 5], [3, 3, 3], [8, 8, 8]})
 assert ({a.NumObservations, a.NumPredictors}, {4, 3})
 assert ({a.ResponseName, a.PredictorNames}, {"Y", {"x1", "x2", "x3"}})
 assert ({a.Formula}, {[]})
***** test
 x = [1, 2, 3, 4; 4, 5, 6, 7; 7, 8, 9, 1; 3, 2, 1, 2];
 y = [1; 2; 3; 4];
 pnames = {"A", "B", "C", "D"};
 formula = "Y ~ A + B + C + D + A:C";
 intMat = logical ([1,0,0,0;0,1,0,0;0,0,1,0;0,0,0,1;1,0,1,0]);
 a = RegressionGAM (x, y, "predictors", pnames, "formula", formula);
 assert (a.IntMatrix, double (intMat))
 assert ({a.ResponseName, a.PredictorNames}, {"Y", pnames})
 assert (a.Formula, formula)
***** error<RegressionGAM: too few input arguments.> RegressionGAM ()
***** error<RegressionGAM: too few input arguments.> RegressionGAM (ones(10,2))
***** error<RegressionGAM: number of rows in X and Y must be equal.> ...
 RegressionGAM (ones(10,2), ones (5,1))
***** error<RegressionGAM: invalid values in X.> ...
 RegressionGAM ([1;2;3;"a";4], ones (5,1))
***** error<RegressionGAM: invalid parameter name in optional pair arguments.> ...
 RegressionGAM (ones(10,2), ones (10,1), "some", "some")
***** error<RegressionGAM: Formula must be a string.>
 RegressionGAM (ones(10,2), ones (10,1), "formula", {"y~x1+x2"})
***** error<RegressionGAM: Formula must be a string.>
 RegressionGAM (ones(10,2), ones (10,1), "formula", [0, 1, 0])
***** error<RegressionGAM: invalid syntax in Formula.> ...
 RegressionGAM (ones(10,2), ones (10,1), "formula", "something")
***** error<RegressionGAM: no predictor terms in Formula.> ...
 RegressionGAM (ones(10,2), ones (10,1), "formula", "something~")
***** error<RegressionGAM: no predictor terms in Formula.> ...
 RegressionGAM (ones(10,2), ones (10,1), "formula", "something~")
***** error<RegressionGAM: some predictors have not been identified> ...
 RegressionGAM (ones(10,2), ones (10,1), "formula", "something~x1:")
***** error<RegressionGAM: invalid Interactions parameter.> ...
 RegressionGAM (ones(10,2), ones (10,1), "interactions", "some")
***** error<RegressionGAM: invalid Interactions parameter.> ...
 RegressionGAM (ones(10,2), ones (10,1), "interactions", -1)
***** error<RegressionGAM: invalid Interactions parameter.> ...
 RegressionGAM (ones(10,2), ones (10,1), "interactions", [1 2 3 4])
***** error<RegressionGAM: number of interaction terms requested is larger than> ...
 RegressionGAM (ones(10,2), ones (10,1), "interactions", 3)
***** error<RegressionGAM: Formula has been already defined.> ...
 RegressionGAM (ones(10,2), ones (10,1), "formula", "y ~ x1 + x2", "interactions", 1)
***** error<RegressionGAM: Interactions have been already defined.> ...
 RegressionGAM (ones(10,2), ones (10,1), "interactions", 1, "formula", "y ~ x1 + x2")
***** error<RegressionGAM: invalid value for Knots.> ...
 RegressionGAM (ones(10,2), ones (10,1), "knots", "a")
***** error<RegressionGAM: DoF and Order have been set already.> ...
 RegressionGAM (ones(10,2), ones (10,1), "order", 3, "dof", 2, "knots", 5)
***** error<RegressionGAM: invalid value for DoF.> ...
 RegressionGAM (ones(10,2), ones (10,1), "dof", 'a')
***** error<RegressionGAM: Knots and Order have been set already.> ...
 RegressionGAM (ones(10,2), ones (10,1), "knots", 5, "order", 3, "dof", 2)
***** error<RegressionGAM: invalid value for Order.> ...
 RegressionGAM (ones(10,2), ones (10,1), "order", 'a')
***** error<RegressionGAM: DoF and Knots have been set already.> ...
 RegressionGAM (ones(10,2), ones (10,1), "knots", 5, "dof", 2, "order", 2)
***** error<RegressionGAM: Tolerance must be a Positive scalar.> ...
 RegressionGAM (ones(10,2), ones (10,1), "tol", -1)
***** error<RegressionGAM: ResponseName must be a char string.> ...
 RegressionGAM (ones(10,2), ones (10,1), "responsename", -1)
***** error<RegressionGAM: PredictorNames must be a cellstring array.> ...
 RegressionGAM (ones(10,2), ones (10,1), "predictors", -1)
***** error<RegressionGAM: PredictorNames must be a cellstring array.> ...
 RegressionGAM (ones(10,2), ones (10,1), "predictors", ['a','b','c'])
***** error<RegressionGAM: PredictorNames must have same number of columns as X.> ...
 RegressionGAM (ones(10,2), ones (10,1), "predictors", {'a','b','c'})
***** error<RegressionGAM.predict: too few arguments.> ...
 predict (RegressionGAM (ones(10,1), ones(10,1)))
***** error<RegressionGAM.predict: Xfit is empty.> ...
 predict (RegressionGAM (ones(10,1), ones(10,1)), [])
***** error<RegressionGAM.predict: Xfit must have the same number of features> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), 2)
***** error<RegressionGAM.predict: invalid NAME in optional pairs of arguments.> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), ones (10,2), "some", "some")
***** error<RegressionGAM.predict: includeinteractions must be a logical value.> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), ones (10,2), "includeinteractions", "some")
***** error<RegressionGAM.predict: includeinteractions must be a logical value.> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), ones (10,2), "includeinteractions", 5)
***** error<RegressionGAM.predict: alpha must be a scalar value between 0 and 1.> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), ones (10,2), "alpha", 5)
***** error<RegressionGAM.predict: alpha must be a scalar value between 0 and 1.> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), ones (10,2), "alpha", -1)
***** error<RegressionGAM.predict: alpha must be a scalar value between 0 and 1.> ...
 predict (RegressionGAM(ones(10,2), ones(10,1)), ones (10,2), "alpha", 'a')
39 tests, 39 passed, 0 known failure, 0 skipped
[inst/cluster.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cluster.m
***** error cluster ()
***** error <Z must be .* generated by the linkage .*> cluster ([1 1], "Cutoff", 1)
***** error <unknown option .*> cluster ([1 2 1], "Bogus", 1)
***** error <C must be a positive scalar .*> cluster ([1 2 1], "Cutoff", -1)
***** error <unknown property .*> cluster ([1 2 1], "Cutoff", 1, "Bogus", 1)
***** test
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/fitrgam.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitrgam.m
***** demo
 # Train a RegressionGAM Model for synthetic values

 f1 = @(x) cos (3 *x);
 f2 = @(x) x .^ 3;

 # generate x1 and x2 for f1 and f2
 x1 = 2 * rand (50, 1) - 1;
 x2 = 2 * rand (50, 1) - 1;

 # calculate y
 y = f1(x1) + f2(x2);

 # add noise
 y = y + y .* 0.2 .* rand (50,1);
 X = [x1, x2];

 # create an object
 a = fitrgam (X, y, "tol", 1e-3)
***** test
 x = [1, 2, 3; 4, 5, 6; 7, 8, 9; 3, 2, 1];
 y = [1; 2; 3; 4];
 a = fitrgam (x, y);
 assert ({a.X, a.Y}, {x, y})
 assert ({a.BaseModel.Intercept}, {2.5000})
 assert ({a.Knots, a.Order, a.DoF}, {[5, 5, 5], [3, 3, 3], [8, 8, 8]})
 assert ({a.NumObservations, a.NumPredictors}, {4, 3})
 assert ({a.ResponseName, a.PredictorNames}, {"Y", {"x1", "x2", "x3"}})
 assert ({a.Formula}, {[]})
***** test
 x = [1, 2, 3, 4; 4, 5, 6, 7; 7, 8, 9, 1; 3, 2, 1, 2];
 y = [1; 2; 3; 4];
 pnames = {"A", "B", "C", "D"};
 formula = "Y ~ A + B + C + D + A:C";
 intMat = logical ([1,0,0,0;0,1,0,0;0,0,1,0;0,0,0,1;1,0,1,0]);
 a = fitrgam (x, y, "predictors", pnames, "formula", formula);
 assert (a.IntMatrix, double (intMat))
 assert ({a.ResponseName, a.PredictorNames}, {"Y", pnames})
 assert (a.Formula, formula)
***** error<fitrgam: too few arguments.> fitrgam ()
***** error<fitrgam: too few arguments.> fitrgam (ones(10,2))
***** error<fitrgam: Name-Value arguments must be in pairs.>
 fitrgam (ones (4,2), ones (4, 1), "K")
***** error<fitrgam: number of rows in X and Y must be equal.>
 fitrgam (ones (4,2), ones (3, 1))
***** error<fitrgam: number of rows in X and Y must be equal.>
 fitrgam (ones (4,2), ones (3, 1), "K", 2)
7 tests, 7 passed, 0 known failure, 0 skipped
[inst/chi2gof.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/chi2gof.m
***** demo
 x = normrnd (50, 5, 100, 1);
 [h, p, stats] = chi2gof (x)
 [h, p, stats] = chi2gof (x, "cdf", @(x)normcdf (x, mean(x), std(x)))
 [h, p, stats] = chi2gof (x, "cdf", {@normcdf, mean(x), std(x)})
***** demo
 x = rand (100,1 );
 n = length (x);
 binedges = linspace (0, 1, 11);
 expectedCounts = n * diff (binedges);
 [h, p, stats] = chi2gof (x, "binedges", binedges, "expected", expectedCounts)
***** demo
 bins = 0:5;
 obsCounts = [6 16 10 12 4 2];
 n = sum(obsCounts);
 lambdaHat = sum(bins.*obsCounts) / n;
 expCounts = n * poisspdf(bins,lambdaHat);
 [h, p, stats] = chi2gof (bins, "binctrs", bins, "frequency", obsCounts, ...
                          "expected", expCounts, "nparams",1)
***** error chi2gof ()
***** error chi2gof ([2,3;3,4])
***** error chi2gof ([1,2,3,4], "nbins", 3, "ctrs", [2,3,4])
***** error chi2gof ([1,2,3,4], "frequency", [2,3,2])
***** error chi2gof ([1,2,3,4], "frequency", [2,3,2,-2])
***** error chi2gof ([1,2,3,4], "frequency", [2,3,2,2], "nparams", i)
***** error chi2gof ([1,2,3,4], "frequency", [2,3,2,2], "alpha", 1.3)
***** error chi2gof ([1,2,3,4], "expected", [-3,2,2])
***** error chi2gof ([1,2,3,4], "expected", [3,2,2], "nbins", 5)
***** error chi2gof ([1,2,3,4], "cdf", @normcdff)
***** test
 x = [1 2 1 3 2 4 3 2 4 3 2 2];
 [h, p, stats] = chi2gof (x);
 assert (h, 0);
 assert (p, NaN);
 assert (stats.chi2stat, 0.1205375022748029, 1e-14);
 assert (stats.df, 0);
 assert (stats.edges, [1, 2.5, 4], 1e-14);
 assert (stats.O, [7, 5], 1e-14);
 assert (stats.E, [6.399995519909668, 5.600004480090332], 1e-14);
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/crossval.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/crossval.m
***** demo
 ## Determine the optimal number of clusters using cross-validation

 ## Declare a function to compute the sum of squared distances
 ## between data points and a varying number of clusters.
 function D = dist2clusters (X, Y, k)
   [Z, Zmu, Zstd] = zscore (X);
   [~, C] = kmeans (Z, k);
   ZY = (Y - Zmu) ./ Zstd;
   d = pdist2 (C, ZY, 'euclidean', 'Smallest', 1);
   D = sum (d .^ 2);
 endfunction

 load fisheriris
 for k = 1:8
   fcn = @(X, Y) dist2clusters (X, Y, k);
   distances = crossval (fcn, meas);
   cvdist(k) = sum (distances);
 endfor

 plot(cvdist)
 xlabel('Number of Clusters')
 ylabel('CV Sum of Squared Distances')
 xlim ([1,8]);
***** test
 function yfit = regf (Xtrain, ytrain, Xtest)
   b = regress (ytrain, Xtrain);
   yfit = Xtest * b;
 endfunction

 load carsmall
 data = [Acceleration Horsepower Weight MPG];
 data(any(isnan(data),2),:) = [];

 y = data(:,4);
 X = [ones(length(y),1) data(:,1:3)];
 rand ("seed", 3);
 cvMSE = crossval('mse',X,y,'Predfun',@regf);
 assert (cvMSE, 18.720, 1e-3);
***** error <crossval: criterion must be 'mse' or 'mcr'.> ...
 crossval ('fe', rand (10, 1), rand (10, 1), 1);
***** error <crossval: prediction function handle is required for error evaluation.>  ...
 crossval ('mse', rand (10, 1), rand (10, 1), 1);
***** error <crossval: X and Y are required for error evaluation.> ...
 crossval ('mse', rand (10, 1), 'Predfun', @(x,y) x + y);
***** error <crossval: bad prediction function handle for error evaluation.> ...
 crossval ('mse', rand (10, 3), rand (10, 1), 'Predfun', @(x,y) sum (x + y));
***** error <crossval: prediction function handle must return a column vector with the same rows as XTest.> ...
 crossval ('mse', rand (10, 3), rand (10, 1), 'Predfun', @(x,y,z) sum (x + y));
***** error <crossval: X is required for values evaluation.> crossval (@(x) x);
***** error <crossval: bad function handle to cross-validate.> ...
 crossval (@(x) x, rand (10, 3), rand (10, 1));
***** error <crossval: function handle must return a scalar or a row vector.> ...
 crossval (@(x,y) [x, y], rand (10, 3), rand (10, 1));
***** error <crossval: invalid first input argument.> crossval ({1}, 1, 1);
***** error <crossval: you can only set one cvpartition type in paired arguments.> ...
 crossval (@(x,y) sum ([x; y]), rand (10, 3), 'Holdout', 0.1, 'Leaveout', true)
***** error <crossval: you cannot specify both 'Partition' and 'Stratify'.> ...
 crossval (@(x,y) sum ([x; y]), rand (10, 3), 'Partition', cvpartition (10, 'Leaveout'), 'Stratify', true)
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/tiedrank.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/tiedrank.m
***** test
 [r,tieadj] = tiedrank ([10, 20, 30, 40, 20]);
 assert (r, [1, 2.5, 4, 5, 2.5]);
 assert (tieadj, 3);
***** test
 [r,tieadj] = tiedrank ([10; 20; 30; 40; 20]);
 assert (r, [1; 2.5; 4; 5; 2.5]);
 assert (tieadj, 3);
***** test
 [r,tieadj] = tiedrank ([10, 20, 30, 40, 20], 1);
 assert (r, [1, 2.5, 4, 5, 2.5]);
 assert (tieadj, [1; 0; 18]);
***** test
 [r,tieadj] = tiedrank ([10, 20, 30, 40, 20], 0, 1);
 assert (r, [1, 2.5, 2, 1, 2.5]);
 assert (tieadj, 3);
***** test
 [r,tieadj] = tiedrank ([10, 20, 30, 40, 20], 1, 1);
 assert (r, [1, 2.5, 2, 1, 2.5]);
 assert (tieadj, [1; 0; 18]);
***** error <tiedrank: X must be a vector.> tiedrank (ones (2))
***** error <tiedrank: TIEFLAG must be a numeric or boolean scalar.> ...
 tiedrank ([1, 2, 3, 4, 5], [1, 1])
***** error <tiedrank: TIEFLAG must be a numeric or boolean scalar.> ...
 tiedrank ([1, 2, 3, 4, 5], "A")
***** error <tiedrank: TIEFLAG must be a numeric or boolean scalar.> ...
 tiedrank ([1, 2, 3, 4, 5], [true, true])
***** error <tiedrank: BIDIR must be a numeric or boolean scalar.> ...
 tiedrank ([1, 2, 3, 4, 5], 0, [1, 1])
***** error <tiedrank: BIDIR must be a numeric or boolean scalar.> ...
 tiedrank ([1, 2, 3, 4, 5], 0, "A")
***** error <tiedrank: BIDIR must be a numeric or boolean scalar.> ...
 tiedrank ([1, 2, 3, 4, 5], 0, [true, true])
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/hist3.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/hist3.m
***** demo
 X = [
    1    1
    1    1
    1   10
    1   10
    5    5
    5    5
    5    5
    5    5
    5    5
    7    3
    7    3
    7    3
   10   10
   10   10];
 hist3 (X)
***** test
 N_exp = [ 0  0  0  5 20
           0  0 10 15  0
           0 15 10  0  0
          20  5  0  0  0];

 n = 100;
 x = [1:n]';
 y = [n:-1:1]';
 D = [x y];
 N = hist3 (D, [4 5]);
 assert (N, N_exp);
***** test
 N_exp = [0  0  0  0  1
          0  0  0  0  1
          0  0  0  0  1
          1  1  1  1 93];

 n = 100;
 x = [1:n]';
 y = [n:-1:1]';
 D = [x y];
 C{1} = [1 1.7 3 4];
 C{2} = [1:5];
 N = hist3 (D, C);
 assert (N, N_exp);
***** test
 D = [1 1; 3 1; 3 3; 3 1];
 [c, nn] = hist3 (D, {0:4, 0:4});
 exp_c = zeros (5);
 exp_c([7 9 19]) = [1 2 1];
 assert (c, exp_c);
 assert (nn, {0:4, 0:4});
***** test
 for i = 10
   assert (size (hist3 (rand (9, 2), "Edges", {[0:.2:1]; [0:.2:1]})), [6 6])
 endfor
***** test
 edge_1 = linspace (0, 10, 10);
 edge_2 = linspace (0, 50, 10);
 [c, nn] = hist3 ([1:10; 1:5:50]', "Edges", {edge_1, edge_2});
 exp_c = zeros (10, 10);
 exp_c([1 12 13 24 35 46 57 68 79 90]) = 1;
 assert (c, exp_c);

 assert (nn{1}, edge_1 + edge_1(2)/2, eps*10^4)
 assert (nn{2}, edge_2 + edge_2(2)/2, eps*10^4)
***** shared X
 X = [
  5  2
  5  3
  1  4
  5  3
  4  4
  1  2
  2  3
  3  3
  5  4
  5  3];
***** test
 N = zeros (10);
 N([1 10 53 56 60 91 98 100]) = [1 1 1 1 3 1 1 1];
 C = {(1.2:0.4:4.8), (2.1:0.2:3.9)};
 assert (nthargout ([1 2], @hist3, X), {N C}, eps*10^3)
***** test
 N = zeros (5, 7);
 N([1 5 17 18 20 31 34 35]) = [1 1 1 1 3 1 1 1];
 C = {(1.4:0.8:4.6), ((2+(1/7)):(2/7):(4-(1/7)))};
 assert (nthargout ([1 2], @hist3, X, [5 7]), {N C}, eps*10^3)
 assert (nthargout ([1 2], @hist3, X, "Nbins", [5 7]), {N C}, eps*10^3)
***** test
 N = [0 1 0; 0 1 0; 0 0 1; 0 0 0];
 C = {(2:5), (2.5:1:4.5)};
 assert (nthargout ([1 2], @hist3, X, "Edges", {(1.5:4.5), (2:4)}), {N C})
***** test
 N = [0 0 1 0 1 0; 0 0 0 1 0 0; 0 0 1 4 2 0];
 C = {(1.2:3.2), (0:5)};
 assert (nthargout ([1 2], @hist3, X, "Ctrs", C), {N C})
 assert (nthargout ([1 2], @hist3, X, C), {N C})
***** test
 [~, C] = hist3 (rand (10, 2), "Edges", {[0 .05 .15 .35 .55 .95],
                                         [-1 .05 .07 .2 .3 .5 .89 1.2]});
 C_exp = {[ 0.025  0.1   0.25   0.45  0.75  1.15], ...
          [-0.475  0.06  0.135  0.25  0.4   0.695  1.045  1.355]};
 assert (C, C_exp, eps*10^2)
***** test
 Xv = repmat ([1:10]', [1 2]);

 ## Test Centers
 assert (hist3 (Xv, "Ctrs", {1:10, 1:10}), eye (10))

 N_exp = eye (6);
 N_exp([1 end]) = 3;
 assert (hist3 (Xv, "Ctrs", {3:8, 3:8}), N_exp)

 N_exp = zeros (8, 6);
 N_exp([1 2 11 20 29 38 47 48]) = [2 1 1 1 1 1 1 2];
 assert (hist3 (Xv, "Ctrs", {2:9, 3:8}), N_exp)

 ## Test Edges
 assert (hist3 (Xv, "Edges", {1:10, 1:10}), eye (10))
 assert (hist3 (Xv, "Edges", {3:8, 3:8}), eye (6))
 assert (hist3 (Xv, "Edges", {2:9, 3:8}), [zeros(1, 6); eye(6); zeros(1, 6)])

 N_exp = zeros (14);
 N_exp(3:12, 3:12) = eye (10);
 assert (hist3 (Xv, "Edges", {-1:12, -1:12}), N_exp)

 ## Test for Nbins
 assert (hist3 (Xv), eye (10))
 assert (hist3 (Xv, [10 10]), eye (10))
 assert (hist3 (Xv, "nbins", [10 10]), eye (10))
 assert (hist3 (Xv, [5 5]), eye (5) * 2)

 N_exp = zeros (7, 5);
 N_exp([1 9 10 18 26 27 35]) = [2 1 1 2 1 1 2];
 assert (hist3 (Xv, [7 5]), N_exp)
***** test # bug #51059
 D = [1 1; NaN 2; 3 1; 3 3; 1 NaN; 3 1];
 [c, nn] = hist3 (D, {0:4, 0:4});
 exp_c = zeros (5);
 exp_c([7 9 19]) = [1 2 1];
 assert (c, exp_c)
 assert (nn, {0:4, 0:4})
***** test
 [c, nn] = hist3 ([1 8]);
 exp_c = zeros (10, 10);
 exp_c(6, 6) = 1;
 exp_nn = {-4:5, 3:12};
 assert (c, exp_c)
 assert (nn, exp_nn, eps)

 [c, nn] = hist3 ([1 8], [10 11]);
 exp_c = zeros (10, 11);
 exp_c(6, 6) = 1;
 exp_nn = {-4:5, 3:13};
 assert (c, exp_c)
 assert (nn, exp_nn, eps)
***** test
 [c, nn] = hist3 ([1 NaN; 2 3; 6 9; 8 NaN]);
 exp_c = zeros (10, 10);
 exp_c(2, 1) = 1;
 exp_c(8, 10) = 1;
 exp_nn = {linspace(1.35, 7.65, 10) linspace(3.3, 8.7, 10)};
 assert (c, exp_c)
 assert (nn, exp_nn, eps*100)
***** test
 [c, nn] = hist3 ([1 NaN; 2 NaN; 6 NaN; 8 NaN]);
 exp_c = zeros (10, 10);
 exp_nn = {linspace(1.35, 7.65, 10) NaN(1, 10)};
 assert (c, exp_c)
 assert (nn, exp_nn, eps*100)
***** test
 [c, nn] = hist3 ([1 NaN; NaN 3; NaN 9; 8 NaN]);
 exp_c = zeros (10, 10);
 exp_nn = {linspace(1.35, 7.65, 10) linspace(3.3, 8.7, 10)};
 assert (c, exp_c)
 assert (nn, exp_nn, eps*100)
16 tests, 16 passed, 0 known failure, 0 skipped
[inst/signtest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/signtest.m
***** test
 [pval, h, stats] = signtest ([-ones(1, 1000) 1], 0, "tail", "left");
 assert (pval, 1.091701889420221e-218, 1e-14);
 assert (h, 1);
 assert (stats.zval, -31.5437631079266, 1e-14);
***** test
 [pval, h, stats] = signtest ([-2 -1 0 2 1 3 1], 0);
 assert (pval, 0.6875000000000006, 1e-14);
 assert (h, 0);
 assert (stats.zval, NaN);
 assert (stats.sign, 4);
***** test
 [pval, h, stats] = signtest ([-2 -1 0 2 1 3 1], 0, "method", "approximate");
 assert (pval, 0.6830913983096086, 1e-14);
 assert (h, 0);
 assert (stats.zval, 0.4082482904638631, 1e-14);
 assert (stats.sign, 4);
***** error <signtest: X must be a vector.> signtest (ones (2))
***** error <signtest: Y must be either a scalar of a vector.> ...
 signtest ([1, 2, 3, 4], ones (2))
***** error <signtest: X and Y vectors have different lengths.> ...
 signtest ([1, 2, 3, 4], [1, 2, 3])
***** error <signtest: optional arguments must be in pairs.> ...
 signtest ([1, 2, 3, 4], [], 'tail')
***** error <signtest: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signtest ([1, 2, 3, 4], [], 'alpha', 1.2)
***** error <signtest: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signtest ([1, 2, 3, 4], [], 'alpha', 0)
***** error <signtest: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signtest ([1, 2, 3, 4], [], 'alpha', -0.05)
***** error <signtest: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signtest ([1, 2, 3, 4], [], 'alpha', "a")
***** error <signtest: 'alpha' must be a numeric scalar in the range 0 to 1.> ...
 signtest ([1, 2, 3, 4], [], 'alpha', [0.01, 0.05])
***** error <signtest: 'tail' argument must be a character vector.> ...
 signtest ([1, 2, 3, 4], [], 'tail', 0.01)
***** error <signtest: 'tail' argument must be a character vector.> ...
 signtest ([1, 2, 3, 4], [], 'tail', {"both"})
***** error <signtest: 'tail' value must be either 'both', right' or 'left'.> ...
 signtest ([1, 2, 3, 4], [], 'tail', "some")
***** error <signtest: 'tail' value must be either 'both', right' or 'left'.> ...
 signtest ([1, 2, 3, 4], [], 'method', 'exact', 'tail', "some")
***** error <signtest: 'method' argument must be a character vector.> ...
 signtest ([1, 2, 3, 4], [], 'method', 0.01)
***** error <signtest: 'method' argument must be a character vector.> ...
 signtest ([1, 2, 3, 4], [], 'method', {"exact"})
***** error <signtest: 'method' value must be either 'exact' or 'approximate'.> ...
 signtest ([1, 2, 3, 4], [], 'method', "some")
***** error <signtest: 'method' value must be either 'exact' or 'approximate'.> ...
 signtest ([1, 2, 3, 4], [], 'tail', "both", 'method', "some")
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/gscatter.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/gscatter.m
***** demo
 load fisheriris;
 X = meas(:,3:4);
 cidcs = kmeans (X, 3, "Replicates", 5);
 gscatter (X(:,1), X(:,2), cidcs, [.75 .75 0; 0 .75 .75; .75 0 .75], "os^");
 title ("Fisher's iris data");
***** shared visibility_setting
 visibility_setting = get (0, "DefaultFigureVisible");
***** test
 hf = figure ("visible", "off");
 unwind_protect
   load fisheriris;
   X = meas(:,3:4);
   cidcs = kmeans (X, 3, "Replicates", 5);
   gscatter (X(:,1), X(:,2), cidcs, [.75 .75 0; 0 .75 .75; .75 0 .75], "os^");
   title ("Fisher's iris data");
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
warning: legend: 'best' not yet implemented for location specifier, using 'northeast' instead
***** error gscatter ();
***** error gscatter ([1]);
***** error gscatter ([1], [2]);
***** error <x must be a numeric vector> gscatter ('abc', [1 2 3], [1]);
***** error <x and y must have the same size> gscatter ([1 2 3], [1 2], [1]);
***** error <y must be a numeric vector> gscatter ([1 2 3], 'abc', [1]);
***** error <g must have the same size as x and y> gscatter ([1 2], [1 2], [1]);
***** error <invalid dolegend> gscatter ([1 2], [1 2], [1 2], 'rb', 'so', 12, 'xxx');
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/barttest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/barttest.m
***** error<barttest: invalid number of input arguments.> barttest ()
***** error<barttest: NaN values in input are not allowed.> barttest ([2,NaN;3,4])
***** error<barttest: wrong value for alpha.> barttest (ones (30, 4), "alpha")
***** error<barttest: wrong value for alpha.> barttest (ones (30, 4), 0)
***** error<barttest: wrong value for alpha.> barttest (ones (30, 4), 1.2)
***** error<barttest: wrong value for alpha.> barttest (ones (30, 4), [0.2, 0.05])
***** error<barttest: not enough data in X.> barttest (ones (30, 1))
***** error<barttest: not enough data in X.> barttest (ones (30, 1), 0.05)
***** test
 x = [2, 3, 4, 5, 6, 7, 8, 9; 1, 2, 3, 4, 5, 6, 7, 8]';
 [ndim, pval, chisq] = barttest (x);
 assert (ndim, 2);
 assert (pval, 0);
 ## assert (chisq, 512.0558, 1e-4); Result differs between octave 6 and 7 ?
***** test
 x = [0.53767,  0.62702,   -0.10224,   -0.25485,   1.4193,   1.5237  ; ...
      1.8339,   1.6452,    -0.24145,   -0.23444,   0.29158,  0.1634  ; ...
     -2.2588,  -2.1351,     0.31286,    0.39396,   0.19781,  0.20995 ; ...
      0.86217,  1.0835,     0.31286,    0.46499,   1.5877,   1.495   ; ...
      0.31877,  0.38454,   -0.86488,   -0.63839,  -0.80447, -0.7536  ; ...
     -1.3077,  -1.1487,    -0.030051,  -0.017629,  0.69662,  0.60497 ; ...
     -0.43359, -0.32672,   -0.16488,   -0.37364,   0.83509,  0.89586 ; ...
      0.34262,  0.29639,    0.62771,    0.51672,  -0.24372, -0.13698 ; ...
      3.5784,   3.5841,     1.0933,     0.93258,   0.21567,  0.455   ; ...
      2.7694,   2.6307,     1.1093,     1.4298,   -1.1658,  -1.1816  ; ...
     -1.3499,  -1.2111,    -0.86365,   -0.94186,  -1.148,   -1.4381  ; ...
      3.0349,   2.8428,     0.077359,   0.18211,   0.10487, -0.014613; ...
      0.7254,   0.56737,   -1.2141,    -1.2291,    0.72225,  0.90612 ; ...
     -0.063055,-0.17662,   -1.1135,    -0.97701,   2.5855,   2.4084  ; ...
      0.71474,  0.29225,   -0.0068493, -0.11468,  -0.66689, -0.52466 ; ...
     -0.20497, -7.8874e-06, 1.5326,     1.3195,    0.18733,  0.20296 ; ...
     -0.12414, -0.077029,  -0.76967,   -0.96262,  -0.082494, 0.121   ; ...
      1.4897,   1.3683,     0.37138,    0.43653,  -1.933,   -2.1903  ; ...
      1.409,    1.5882,    -0.22558,   -0.24835,  -0.43897, -0.46247 ; ...
      1.4172,   1.1616,     1.1174,     1.0785,   -1.7947,  -1.9471  ];
 [ndim, pval, chisq] = barttest (x);
 assert (ndim, 3);
 assert (pval, [0; 0; 0; 0.52063; 0.34314], 1e-5);
 chisq_out = [251.6802; 210.2670; 153.1773; 4.2026; 2.1392];
 assert (chisq, chisq_out, 1e-4);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/bar3.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/bar3.m
***** demo
 ## Plotting 5 bars in the same series.

 z = [50; 40; 30; 20; 10];
 bar3 (z);
***** demo
 ## Plotting 5 bars in different groups.

 z = [50, 40, 30, 20, 10];
 bar3 (z);
***** demo
 ## A 3D bar graph with each series corresponding to a column in z.

 z = [1, 4, 7; 2, 5, 8; 3, 6, 9; 4, 7, 10];
 bar3 (z);
***** demo
 ## Specify y-axis locations as tick names. y must be a column vector!

 y = [1950, 1960, 1970, 1980, 1990]';
 z = [16, 8, 4, 2, 1]';
 bar3 (y, z);
***** demo
 ## Plot 3 series as a grouped plot without any space between the grouped bars

 z = [70 50 33 10; 75 55 35 15; 80 60 40 20];
 bar3 (z, 1, 'grouped');
***** demo
 ## Plot a stacked style 3D bar graph

 z = [19, 30, 21, 30; 40, 16, 32, 12];
 b = bar3 (z, 0.5, 'stacked');
***** error <bar3: Z must be numeric.> bar3 ("A")
***** error <bar3: Z must be numeric.> bar3 ({2,3,4,5})
***** error <bar3: inconsistent size in Y and Z input arguments.> ...
 bar3 ([1,2,3]', ones (2))
***** error <bar3: WIDTH must be a scalar in the range> ...
 bar3 ([1:5], 1.2)
***** error <bar3: WIDTH must be a scalar in the range> ...
 bar3 ([1:5]', ones (5), 1.2)
***** error <bar3: numeric COLOR must be a 1x3 vector of an Nx3 matrix> ...
 bar3 ([1:5]', ones (5), [0.8, 0.7])
***** error <bar3: missing value for optional argument 'width'.> ...
 bar3 (ones (5), 'width')
***** error <bar3: invalid value for optional argument 'width'.> ...
 bar3 (ones (5), 'width', 1.2)
***** error <bar3: invalid value for optional argument 'width'.> ...
 bar3 (ones (5), 'width', [0.8, 0.8, 0.8])
***** error <bar3: missing value for optional argument 'color'.> ...
 bar3 (ones (5), 'color')
***** error <bar3: numeric COLOR must be a 1x3 vector of an Nx3 matrix> ...
 bar3 (ones (5), 'color', [0.8, 0.8])
***** error <bar3: invalid value for optional argument 'color'.> ...
 bar3 (ones (5), 'color', "brown")
***** error <bar3: invalid value for optional argument 'color'.> ...
 bar3 (ones (5), 'color', {"r", "k", "c", "m", "brown"})
***** error <bar3: missing value for optional argument 'xlabel'.> ...
 bar3 (ones (5), 'xlabel')
***** error <bar3: invalid value for optional argument 'xlabel'.> ...
 bar3 (ones (5), 'xlabel', 4)
***** error <bar3: missing value for optional argument 'ylabel'.> ...
 bar3 (ones (5), 'ylabel')
***** error <bar3: invalid value for optional argument 'ylabel'.> ...
 bar3 (ones (5), 'ylabel', 4)
***** error <bar3: invalid optional argument.> bar3 (ones (5), 'this', 4)
***** error <bar3: the elements in 'xlabel' must equal the columns in Z.> ...
 bar3 (ones (5), 'xlabel', {"A", "B", "C"})
***** error <bar3: the elements in 'ylabel' must equal the rows in Z.> ...
 bar3 (ones (5), 'ylabel', {"A", "B", "C"})
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/fitlm.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitlm.m
***** demo
 y =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 X = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';

 [TAB,STATS] = fitlm (X,y,"linear","CategoricalVars",1,"display","on");
***** demo
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 brands = {'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'};
 popper = {'oil', 'oil', 'oil'; 'oil', 'oil', 'oil'; 'oil', 'oil', 'oil'; ...
           'air', 'air', 'air'; 'air', 'air', 'air'; 'air', 'air', 'air'};

 [TAB, STATS] = fitlm ({brands(:),popper(:)},popcorn(:),"interactions",...
                          "CategoricalVars",[1,2],"display","on");
***** test
 y =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 X = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';
 [TAB,STATS] = fitlm (X,y,"continuous",[],"display","off");
 [TAB,STATS] = fitlm (X,y,"CategoricalVars",1,"display","off");
 [TAB,STATS] = fitlm (X,y,"constant","categorical",1,"display","off");
 [TAB,STATS] = fitlm (X,y,"linear","categorical",1,"display","off");
 [TAB,STATS] = fitlm (X,y,[0,0;1,0],"categorical",1,"display","off");
 assert (TAB{2,2}, 10, 1e-04);
 assert (TAB{3,2}, 7.99999999999999, 1e-09);
 assert (TAB{4,2}, 8.99999999999999, 1e-09);
 assert (TAB{5,2}, 11.0001428571429, 1e-09);
 assert (TAB{6,2}, 19.0001111111111, 1e-09);
 assert (TAB{2,3}, 1.01775379540949, 1e-09);
 assert (TAB{3,3}, 1.64107868458008, 1e-09);
 assert (TAB{4,3}, 1.43932122062479, 1e-09);
 assert (TAB{5,3}, 1.48983900477565, 1e-09);
 assert (TAB{6,3}, 1.3987687997822, 1e-09);
 assert (TAB{2,6}, 9.82555903510687, 1e-09);
 assert (TAB{3,6}, 4.87484242844031, 1e-09);
 assert (TAB{4,6}, 6.25294748040552, 1e-09);
 assert (TAB{5,6}, 7.38344399756088, 1e-09);
 assert (TAB{6,6}, 13.5834536158296, 1e-09);
 assert (TAB{3,7}, 2.85812420217862e-05, 1e-12);
 assert (TAB{4,7}, 5.22936741204002e-07, 1e-06);
 assert (TAB{5,7}, 2.12794763209106e-08, 1e-07);
 assert (TAB{6,7}, 7.82091664406755e-15, 1e-08);
***** test
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 brands = bsxfun (@times, ones(6,1), [1,2,3]);
 popper = bsxfun (@times, [1;1;1;2;2;2], ones(1,3));

 [TAB, STATS] = fitlm ({brands(:),popper(:)},popcorn(:),"interactions",...
                          "categoricalvars",[1,2],"display","off");
 assert (TAB{2,2}, 5.66666666666667, 1e-09);
 assert (TAB{3,2}, -1.33333333333333, 1e-09);
 assert (TAB{4,2}, -2.16666666666667, 1e-09);
 assert (TAB{5,2}, 1.16666666666667, 1e-09);
 assert (TAB{6,2}, -0.333333333333334, 1e-09);
 assert (TAB{7,2}, -0.166666666666667, 1e-09);
 assert (TAB{2,3}, 0.215165741455965, 1e-09);
 assert (TAB{3,3}, 0.304290309725089, 1e-09);
 assert (TAB{4,3}, 0.304290309725089, 1e-09);
 assert (TAB{5,3}, 0.304290309725089, 1e-09);
 assert (TAB{6,3}, 0.43033148291193, 1e-09);
 assert (TAB{7,3}, 0.43033148291193, 1e-09);
 assert (TAB{2,6}, 26.3362867542108, 1e-09);
 assert (TAB{3,6}, -4.38178046004138, 1e-09);
 assert (TAB{4,6}, -7.12039324756724, 1e-09);
 assert (TAB{5,6}, 3.83405790253621, 1e-09);
 assert (TAB{6,6}, -0.774596669241495, 1e-09);
 assert (TAB{7,6}, -0.387298334620748, 1e-09);
 assert (TAB{2,7}, 5.49841502258254e-12, 1e-09);
 assert (TAB{3,7}, 0.000893505495903642, 1e-09);
 assert (TAB{4,7}, 1.21291454302428e-05, 1e-09);
 assert (TAB{5,7}, 0.00237798044119407, 1e-09);
 assert (TAB{6,7}, 0.453570536021938, 1e-09);
 assert (TAB{7,7}, 0.705316781644046, 1e-09);
 ## Test with string ids for categorical variables
 brands = {'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'; ...
           'Gourmet', 'National', 'Generic'};
 popper = {'oil', 'oil', 'oil'; 'oil', 'oil', 'oil'; 'oil', 'oil', 'oil'; ...
           'air', 'air', 'air'; 'air', 'air', 'air'; 'air', 'air', 'air'};
 [TAB, STATS] = fitlm ({brands(:),popper(:)},popcorn(:),"interactions",...
                          "categoricalvars",[1,2],"display","off");
***** test
 load carsmall
 X = [Weight,Horsepower,Acceleration];
 [TAB, STATS] = fitlm (X, MPG,"constant","display","off");
 [TAB, STATS] = fitlm (X, MPG,"linear","display","off");
 assert (TAB{2,2}, 47.9767628118615, 1e-09);
 assert (TAB{3,2}, -0.00654155878851796, 1e-09);
 assert (TAB{4,2}, -0.0429433065881864, 1e-09);
 assert (TAB{5,2}, -0.0115826516894871, 1e-09);
 assert (TAB{2,3}, 3.87851641748551, 1e-09);
 assert (TAB{3,3}, 0.00112741016370336, 1e-09);
 assert (TAB{4,3}, 0.0243130608813806, 1e-09);
 assert (TAB{5,3}, 0.193325043113178, 1e-09);
 assert (TAB{2,6}, 12.369874881944, 1e-09);
 assert (TAB{3,6}, -5.80228828790225, 1e-09);
 assert (TAB{4,6}, -1.76626492228599, 1e-09);
 assert (TAB{5,6}, -0.0599128364487485, 1e-09);
 assert (TAB{2,7}, 4.89570341688996e-21, 1e-09);
 assert (TAB{3,7}, 9.87424814144e-08, 1e-09);
 assert (TAB{4,7}, 0.0807803098213114, 1e-09);
 assert (TAB{5,7}, 0.952359384151778, 1e-09);
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/linkage.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/linkage.m
***** shared x, t
 x = reshape (mod (magic (6),5), [], 3);
 t = 1e-6;
***** assert (cond (linkage (pdist (x))),                   34.119045, t);
***** assert (cond (linkage (pdist (x), "complete")),       21.793345, t);
***** assert (cond (linkage (pdist (x), "average")),        27.045012, t);
***** assert (cond (linkage (pdist (x), "weighted")),       27.412889, t);
 lastwarn(); # Clear last warning before the test
***** warning <cluster distances> linkage (pdist (x), "centroid");
***** test
 warning off Octave:clustering
 assert (cond (linkage (pdist (x), "centroid")),      27.457477, t);
 warning on Octave:clustering
***** warning <cluster distances> linkage (pdist (x), "median");
***** test
 warning off Octave:clustering
 assert (cond (linkage (pdist (x), "median")),        27.683325, t);
 warning on Octave:clustering
***** assert (cond (linkage (pdist (x), "ward")),           17.195198, t);
***** assert (cond (linkage (x, "ward", "euclidean")),      17.195198, t);
***** assert (cond (linkage (x, "ward", {"euclidean"})),    17.195198, t);
***** assert (cond (linkage (x, "ward", {"minkowski", 2})), 17.195198, t);
12 tests, 12 passed, 0 known failure, 0 skipped
[inst/dummyvar.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dummyvar.m
***** assert (dummyvar ([]), [])
***** assert (dummyvar (ones (2, 0)), ones (2, 0))
***** test
 ## numeric grouping vector
 g = [1; 2; 1; 3; 2];
 D = dummyvar (g);
 assert (D, [1, 0, 0; 0, 1, 0; 1, 0, 0; 0, 0, 1; 0, 1, 0]);
***** test
 g = categorical ({'a'; 'b'; 'a'}, {'a', 'b', 'c'});
 D = dummyvar (g);
 cats = categories (g);
 g_str = cellstr (g);
 for k = 1:numel (cats)
   mask = strcmp (g_str, cats{k});
   assert (all (D(mask, k) == 1), true);
   assert (all (D(!mask, k) == 0), true);
 endfor
***** test
 g = categorical ({'a'; ''; 'b'}, {'a', 'b', 'c'});
 D = dummyvar (g);
 assert (D, [1, 0, 0; NaN, NaN, NaN; 0, 1, 0]);
***** test
 colors = categorical ({'Red'; 'Blue'; 'Green'; 'Red'; 'Green'; 'Blue'});
 D = dummyvar (colors);
 assert (D, [0, 0, 1; 1, 0, 0; 0, 1, 0; 0, 0, 1; 0, 1, 0; 1, 0, 0]);
***** test
 g1 = [1; 1; 1; 1; 2; 2; 2; 2];
 g2 = [1; 2; 3; 1; 2; 3; 1; 2];
 D = dummyvar ([g1, g2]);
 D1 = [1, 0, 1, 0, 0; 1, 0, 0, 1, 0; 1, 0, 0, 0, 1; 1, 0, 1, 0, 0; ...
       0, 1, 0, 1, 0; 0, 1, 0, 0, 1; 0, 1, 1, 0, 0; 0, 1, 0, 1, 0];
 assert (D, D1);
***** test
 phone = {'mob'; 'land'; 'mob';'mob';'mob';'land';'land'};
 codes = categorical ([202; 202; 103; 103; 202; 103; 202]);
 D = dummyvar ({phone, codes});
 D1 = [1, 0, 0, 1; 0, 1, 0, 1; 1, 0, 1, 0; 1, 0, 1, 0; ...
       1, 0, 0, 1; 0, 1, 1, 0; 0, 1, 0, 1];
 assert (D, D1);
***** test
 colors = {'red'; 'blue'; 'red'; 'green'; 'yellow'; 'blue'};
 D = dummyvar (categorical (colors));
 D1 = [0, 0, 1, 0; 1, 0, 0, 0; 0, 0, 1, 0; 0, 1, 0, 0; 0, 0, 0, 1; 1, 0, 0, 0];
 assert (D, D1);
***** test
 colors = {'red'; 'blue'; 'red'; 'green'; 'yellow'; 'blue'};
 D = dummyvar (colors);
 D1 = [1, 0, 0, 0; 0, 1, 0, 0; 1, 0, 0, 0; 0, 0, 1, 0; 0, 0, 0, 1; 0, 1, 0, 0];
 assert (D, D1);
 D = dummyvar ({colors});
 D1 = [1, 0, 0, 0; 0, 1, 0, 0; 1, 0, 0, 0; 0, 0, 1, 0; 0, 0, 0, 1; 0, 1, 0, 0];
 assert (D, D1);
***** test
 g = [1, 2, 1, 2, 1, 3, 2, 1];
 D = dummyvar (g);
 D1 = [1, 0, 0; 0, 1, 0; 1, 0, 0; 0, 1, 0; 1, 0, 0; 0, 0, 1; 0, 1, 0; 1, 0, 0];
 assert (D, D1);
***** error dummyvar ()
***** error<dummyvar: function called with too many inputs> dummyvar (1, 2)
***** error<dummyvar: categorical grouping variable must be a column vector.> ...
 dummyvar (categorical ({'a', 'b'}))
***** error<dummyvar: numeric grouping variable must be either a vector or a matrix.> ...
 dummyvar (ones (3, 3, 3))
***** error<dummyvar: numeric grouping variable must explicitly contain positive integers.> ...
 dummyvar ([2, 4, 0, 8, 1])
***** error<dummyvar: cellstring grouping variable must be a column vector.> ...
 dummyvar ({'a', 'b'})
***** error<dummyvar: all grouping variables in cell array must have the same number of observations.> ...
 dummyvar ({[2;3;4;5], [1;2;3]})
***** error<dummyvar: unsupported type of grouping variable.> dummyvar ([true; false])
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/cdfplot.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cdfplot.m
***** demo
 x = randn(100,1);
 cdfplot (x);
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [2, 4, 3, 2, 4, 3, 2, 5, 6, 4];
   [hCDF, stats] = cdfplot (x);
   assert (stats.min, 2);
   assert (stats.max, 6);
   assert (stats.median, 3.5);
   assert (stats.std, 1.35400640077266, 1e-14);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = randn(100,1);
   cdfplot (x);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error cdfplot ();
***** error cdfplot ([x',x']);
***** error cdfplot ([NaN, NaN, NaN, NaN]);
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/levene_test.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/levene_test.m
***** error<levene_test: invalid number of input arguments.> levene_test ()
***** error<levene_test: invalid number of input arguments.> ...
 levene_test (1, 2, 3, 4, 5);
***** error<levene_test: wrong value for alpha.> levene_test (randn (50, 2), 0);
***** error<levene_test: GROUP and X mismatch.> ...
 levene_test (randn (50, 2), [1, 2, 3]);
***** error<levene_test: GROUP and X mismatch.> ...
 levene_test (randn (50, 1), ones (55, 1));
***** error<levene_test: invalid second input argument.> ...
 levene_test (randn (50, 1), ones (50, 2));
***** error<levene_test: wrong value for alpha.> ...
 levene_test (randn (50, 2), [], 1.2);
***** error<levene_test: GROUP and X mismatch.> ...
 levene_test (randn (50, 2), "some_string");
***** error<levene_test: invalid third input argument.> ...
 levene_test (randn (50, 2), [], "alpha");
***** error<levene_test: wrong value for alpha.> ...
 levene_test (randn (50, 1), [ones(25, 1); 2*ones(25, 1)], 1.2);
***** error<levene_test: invalid third input argument.> ...
 levene_test (randn (50, 1), [ones(25, 1); 2*ones(25, 1)], "err");
***** error<levene_test: invalid option for TESTTYPE as 4th argument.> ...
 levene_test (randn (50, 1), [ones(25, 1); 2*ones(25, 1)], 0.05, "type");
***** warning<levene_test: GROUP> ...
 levene_test (randn (50, 1), [ones(24, 1); 2*ones(25, 1); 3]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades);
 assert (h, 1);
 assert (pval, 9.523239714592791e-07, 1e-14);
 assert (W, 8.59529, 1e-5);
 assert (df, [4, 595]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades, [], "quadratic");
 assert (h, 1);
 assert (pval, 9.523239714592791e-07, 1e-14);
 assert (W, 8.59529, 1e-5);
 assert (df, [4, 595]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades, [], "median");
 assert (h, 1);
 assert (pval, 1.312093241723211e-06, 1e-14);
 assert (W, 8.415969, 1e-6);
 assert (df, [4, 595]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades(:,[1:3]));
 assert (h, 1);
 assert (pval, 0.004349390980463497, 1e-14);
 assert (W, 5.52139, 1e-5);
 assert (df, [2, 357]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades(:,[1:3]), "median");
 assert (h, 1);
 assert (pval, 0.004355216763951453, 1e-14);
 assert (W, 5.52001, 1e-5);
 assert (df, [2, 357]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades(:,[3,4]), "quadratic");
 assert (h, 0);
 assert (pval, 0.1807494957440653, 2e-14);
 assert (W, 1.80200, 1e-5);
 assert (df, [1, 238]);
***** test
 load examgrades
 [h, pval, W, df] = levene_test (grades(:,[3,4]), "median");
 assert (h, 0);
 assert (pval, 0.1978225622063785, 2e-14);
 assert (W, 1.66768, 1e-5);
 assert (df, [1, 238]);
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/hmmgenerate.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/hmmgenerate.m
***** test
 len = 25;
 transprob = [0.8, 0.2; 0.4, 0.6];
 outprob = [0.2, 0.4, 0.4; 0.7, 0.2, 0.1];
 [sequence, states] = hmmgenerate (len, transprob, outprob);
 assert (length (sequence), len);
 assert (length (states), len);
 assert (min (sequence) >= 1);
 assert (max (sequence) <= columns (outprob));
 assert (min (states) >= 1);
 assert (max (states) <= rows (transprob));
***** test
 len = 25;
 transprob = [0.8, 0.2; 0.4, 0.6];
 outprob = [0.2, 0.4, 0.4; 0.7, 0.2, 0.1];
 symbols = {"A", "B", "C"};
 statenames = {"One", "Two"};
 [sequence, states] = hmmgenerate (len, transprob, outprob, ...
                      "symbols", symbols, "statenames", statenames);
 assert (length (sequence), len);
 assert (length (states), len);
 assert (strcmp (sequence, "A") + strcmp (sequence, "B") + ...
                                  strcmp (sequence, "C") == ones (1, len));
 assert (strcmp (states, "One") + strcmp (states, "Two") == ones (1, len));
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/optimalleaforder.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/optimalleaforder.m
***** demo
 randn ("seed", 5)  # for reproducibility
 X = randn (10, 2);
 D = pdist (X);
 tree = linkage(D, 'average');
 optimalleaforder (tree, D, 'Transformation', 'linear')
***** error optimalleaforder ()
***** error optimalleaforder (1)
***** error <tree must be .*> optimalleaforder (ones (2, 2), 1)
***** error <character inputs expected> optimalleaforder ([1 2 3], [1 2; 3 4], "criteria", 5)
***** error <D must be .*> optimalleaforder ([1 2 1], [1 2 3])
***** error <unknown property .*> optimalleaforder ([1 2 1], 1, "xxx", "xxx")
***** error optimalleaforder ([1 2 1], 1, "Transformation", "xxx")
7 tests, 7 passed, 0 known failure, 0 skipped
[inst/normplot.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/normplot.m
***** demo
 h = normplot([1:20]);
***** demo
 h = normplot([1:20;5:2:44]');
***** demo
 ax = newplot();
 h = normplot(ax, [1:20]);
 ax = gca;
 h = normplot(ax, [-10:10]);
 set (ax, "xlim", [-11, 21]);
***** error normplot ();
***** error normplot (23);
***** error normplot (23, [1:20]);
***** error normplot (ones(3,4,5));
***** test
 hf = figure ("visible", "off");
 unwind_protect
   ax = newplot (hf);
   h = normplot (ax, [1:20]);
   ax = gca;
   h = normplot(ax, [-10:10]);
   set (ax, "xlim", [-11, 21]);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   h = normplot([1:20;5:2:44]');
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/kruskalwallis.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/kruskalwallis.m
***** demo
 x = meshgrid (1:6);
 x = x + normrnd (0, 1, 6, 6);
 kruskalwallis (x, [], 'off');
***** demo
 x = meshgrid (1:6);
 x = x + normrnd (0, 1, 6, 6);
 [p, atab] = kruskalwallis(x);
***** demo
 x = ones (30, 4) .* [-2, 0, 1, 5];
 x = x + normrnd (0, 2, 30, 4);
 group = {"A", "B", "C", "D"};
 kruskalwallis (x, group);
***** test
 data = [1.006, 0.996, 0.998, 1.000, 0.992, 0.993, 1.002, 0.999, 0.994, 1.000, ...
         0.998, 1.006, 1.000, 1.002, 0.997, 0.998, 0.996, 1.000, 1.006, 0.988, ...
         0.991, 0.987, 0.997, 0.999, 0.995, 0.994, 1.000, 0.999, 0.996, 0.996, ...
         1.005, 1.002, 0.994, 1.000, 0.995, 0.994, 0.998, 0.996, 1.002, 0.996, ...
         0.998, 0.998, 0.982, 0.990, 1.002, 0.984, 0.996, 0.993, 0.980, 0.996, ...
         1.009, 1.013, 1.009, 0.997, 0.988, 1.002, 0.995, 0.998, 0.981, 0.996, ...
         0.990, 1.004, 0.996, 1.001, 0.998, 1.000, 1.018, 1.010, 0.996, 1.002, ...
         0.998, 1.000, 1.006, 1.000, 1.002, 0.996, 0.998, 0.996, 1.002, 1.006, ...
         1.002, 0.998, 0.996, 0.995, 0.996, 1.004, 1.004, 0.998, 0.999, 0.991, ...
         0.991, 0.995, 0.984, 0.994, 0.997, 0.997, 0.991, 0.998, 1.004, 0.997];
 group = [1:10] .* ones (10,10);
 group = group(:);
 [p, tbl] = kruskalwallis (data, group, "off");
 assert (p, 0.048229, 1e-6);
 assert (tbl{2,5}, 17.03124, 1e-5);
 assert (tbl{2,3}, 9, 0);
 assert (tbl{4,2}, 82655.5, 1e-16);
 data = reshape (data, 10, 10);
 [p, tbl, stats] = kruskalwallis (data, [], "off");
 assert (p, 0.048229, 1e-6);
 assert (tbl{2,5}, 17.03124, 1e-5);
 assert (tbl{2,3}, 9, 0);
 assert (tbl{4,2}, 82655.5, 1e-16);
 means = [51.85, 60.45, 37.6, 51.1, 29.5, 54.25, 64.55, 66.7, 53.65, 35.35];
 N = 10 * ones (1, 10);
 assert (stats.meanranks, means, 1e-6);
 assert (length (stats.gnames), 10, 0);
 assert (stats.n, N, 0);
1 test, 1 passed, 0 known failure, 0 skipped
[inst/datasample.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/datasample.m
***** error datasample();
***** error datasample(1);
***** error <data must be a vector or matrix> datasample({1, 2, 3}, 1);
***** error <k must be a positive integer scalar> datasample([1 2], -1);
***** error <k must be a positive integer scalar> datasample([1 2], 1.5);
***** error <k must be a positive integer scalar> datasample([1 2], [1 1]);
***** error <k must be a positive integer scalar> datasample([1 2], 'g', [1 1]);
***** error <DIM must be a positive integer scalar> datasample([1 2], 1, -1);
***** error <DIM must be a positive integer scalar> datasample([1 2], 1, 1.5);
***** error <DIM must be a positive integer scalar> datasample([1 2], 1, [1 1]);
***** error <Replace> datasample([1 2], 1, 1, "Replace", -2);
***** error <weights must be defined> datasample([1 2], 1, 1, "Weights", "abc");
***** error <weights must be defined> datasample([1 2], 1, 1, "Weights", [1 -2 3]);
***** error <weights must be defined> datasample([1 2], 1, 1, "Weights", ones (2));
***** error <weights must be equal> datasample([1 2], 1, 1, "Weights", [1 2 3]);
***** error <datasample: K must not exceed the number of available elements when sampling without replacement.> ...
 data = 1:5; weights = [0.077846, 0.103765, 0.703748, 0.840937, 0.422901];
 sampled = datasample (data, 8, 'Weights', weights, 'Replace', false);
***** error <datasample: sampling without replacement requires at least K elements with positive weights.> ...
 data = 1:5; weights = [1, 0, 1, 0, 0];
 sampled = datasample (data, 3, 'Weights', weights, 'Replace', false);
***** test
 dat = randn (10, 4);
 assert (size (datasample (dat, 3, 1)), [3 4]);
***** test
 dat = randn (10, 4);
 assert (size (datasample (dat, 3, 2)), [10 3]);
19 tests, 19 passed, 0 known failure, 0 skipped
[inst/ff2n.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/ff2n.m
***** error ff2n ();
***** error ff2n (2, 5);
***** error ff2n (2.5);
***** error ff2n (0);
***** error ff2n (-3);
***** error ff2n (3+2i);
***** error ff2n (Inf);
***** error ff2n (NaN);
***** test
 A = ff2n (3);
 assert (A, [0, 0, 0; 0, 0, 1; 0, 1, 0; 0, 1, 1; ...
             1, 0, 0; 1, 0, 1; 1, 1, 0; 1, 1, 1]);
***** test
 A = ff2n (2);
 assert (A, [0, 0; 0, 1; 1, 0; 1, 1]);
10 tests, 10 passed, 0 known failure, 0 skipped
[inst/parseWilkinsonFormula.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/parseWilkinsonFormula.m
***** demo
 ## Demo : Tokenizer Mode
 ## Inspects the raw tokens generated from a formula string.
 formula = "y ~ A * (B + c)";
 tokens = parseWilkinsonFormula (formula, "tokenize");
 display (tokens);
***** demo
 ## Demo : Parser Mode (AST generation)
 ## Returns the Abstract Syntax Tree (AST) structure.
 formula = "A / B";
 tree = parseWilkinsonFormula (formula, "parse");
 display (tree);
***** demo
 ## Demo : Expansion Mode (Crossings)
 ## Demonstrates standard Wilkinson expansion for interactions.
 formula = "A * B * C";
 terms = parseWilkinsonFormula (formula, "expand");
 disp (terms);
***** demo
 ## Demo : Expansion Mode (Nesting)
 ## Demonstrates hierarchical nesting logic.
 formula = "Block / Plot / Subplot";
 terms = parseWilkinsonFormula (formula, "expand");
 disp (terms);
***** demo
 ## Demo : Matrix Schema Mode
 ## Generates the binary terms matrix (Row = Term, Col = Variable).
 formula = "y ~ Age + Height + Age:Height";
 schema = parseWilkinsonFormula (formula, "matrix");
 disp (schema.VariableNames);
 disp (schema.Terms);
***** demo
 ## Demo : Model Matrix (Regression / Continuous)
 ## Builds the Design Matrix (X) and Response (y) for numeric data.
 d_reg.BP = [120; 122; 128; 130; 125];
 d_reg.Age = [25; 30; 35; 40; 32];
 d_reg.Weight = [70; 75; 80; 85; 78];
 [X, y, names] = parseWilkinsonFormula ("BP ~ Age * Weight", "model_matrix", d_reg);
 disp (names);
 disp (X);
***** demo
 ## Demo : Model Matrix (ANOVA / Categorical)
 ## Automatically handles categorical variables (dummy coding).
 d_cat.Yield = [10; 12; 15; 14; 11; 13];
 d_cat.Variety = {"A"; "A"; "B"; "B"; "C"; "C"};
 [X, y, names] = parseWilkinsonFormula ("Yield ~ Variety", "model_matrix", d_cat);
 disp (names);
 disp (X);
***** demo
 ## Demo : Model Matrix (Mixed Numeric & Categorical)
 ## Demonstrates Analysis of Covariance (ANCOVA) structures.
 d_mix.Growth = [1.2; 1.4; 1.1; 1.8];
 d_mix.Fertilizer = {"Old"; "Old"; "New"; "New"};
 d_mix.Dose = [10; 20; 10; 20];
 [X, ~, names] = parseWilkinsonFormula ("Growth ~ Fertilizer * Dose", "model_matrix", d_mix);
 disp (names);
 disp (X);
***** demo
 ## Demo : Multi-Response
 ## Selects specific response variables using comma.
 d_list = struct ();
 d_list.Yield_A = [10; 12; 11; 14];
 d_list.Yield_B = [20; 22; 21; 24];
 d_list.Rain    = [100; 110; 105; 120];
 formula = "Yield_A, Yield_B ~ Rain";
 [X, y, names] = parseWilkinsonFormula (formula, "model_matrix", d_list);
 disp (names);
 disp (y);
 disp (X);
***** demo
 ## Demo : Multi-Response
 ## Selects a contiguous range of variables using the hyphen.
 d_rng.Y_Jan = rand (4, 1);
 d_rng.Y_Feb = rand (4, 1);
 d_rng.Y_Mar = rand (4, 1);
 d_rng.Trt   = {"A"; "B"; "A"; "B"};
 formula = "Y_Jan - Y_Mar ~ Trt";
 [X, y, names] = parseWilkinsonFormula (formula, "model_matrix", d_rng);
 disp (names);
 disp (y);
 disp (X);
***** test
 ## Test : Identifiers with numbers and underscores
 tokens = parseWilkinsonFormula ("Yield ~ Var_1 + A2_B", "tokenize");
 vals = {tokens.value};
 assert (vals, {"Yield", "~", "Var_1", "+", "A2_B", "EOF"});
***** test
 ## Test : Floating point numbers
 tokens = parseWilkinsonFormula ("y ~ 0.5 * A", "tokenize");
 vals = {tokens.value};
 assert (vals, {"y", "~", "0.5", "*", "A", "EOF"});
***** test
 ## Test : Whitespace insensitivity
 t1 = parseWilkinsonFormula ("A*B", "tokenize");
 t2 = parseWilkinsonFormula ("A   * B", "tokenize");
 assert ({t1.value}, {t2.value});
***** test
 ## Test : Precedence
 t = parseWilkinsonFormula ("A + B * C . D", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), sort ({"A", "B", "C:D", "B:C:D"}));
***** test
 ## Test : Parentheses Override
 t = parseWilkinsonFormula ("(A + B) . C", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), sort ({"A:C", "B:C"}));
***** test
 ## Test : Crossing Operator (*)
 t = parseWilkinsonFormula ("A * B", "expand");
 assert (length (t), 3);
 t3 = parseWilkinsonFormula ("A * B * C", "expand");
 assert (length (t3), 7);
***** test
 ## Test : Nesting Operator (/)
 t = parseWilkinsonFormula ("Field / Plot", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), sort ({"Field", "Field:Plot"}));
***** test
 ## Test : Multi-level Nesting
 t = parseWilkinsonFormula ("Block / Plot / Subplot", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), sort ({"Block", "Block:Plot", "Block:Plot:Subplot"}));
***** test
 ## Test : Interaction Operator (.)
 t = parseWilkinsonFormula ("A . B", "expand");
 assert (length (t), 1);
 assert (t{1}, {"A", "B"});
***** test
 ## Test : Power operator on cube.
 t = parseWilkinsonFormula ("(A + B + C)^3", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 expected = sort ({"A", "B", "C", "A:B", "A:C", "B:C", "A:B:C"});
 assert (sort (terms), expected);
***** test
 ## Test : Power Operator.
 t = parseWilkinsonFormula ("(A + B + C)^2", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (! ismember ("A:B:C", terms));
 assert (ismember ("A:B", terms));
***** test
 ## Test : Redundancy Check
 t1 = parseWilkinsonFormula ("A + A", "expand");
 assert (length (t1), 1);
 t2 = parseWilkinsonFormula ("A * A", "expand");
 assert (length (t2), 1);
***** test
 ## Test : Deletion - Exact (-)
 t = parseWilkinsonFormula ("A * B - A", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), sort ({"B", "A:B"}));
***** test
 ## Test : Deletion - Clean (-*)
 t = parseWilkinsonFormula ("A * B -* A", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), {"B"});
***** test
 ## Test : Deletion - Marginal (-/)
 t = parseWilkinsonFormula ("A * B -/ A", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (sort (terms), sort ({"A", "B"}));
***** test
 ## Test : Deletion - Complex Sequence
 t = parseWilkinsonFormula ("A*B*C - A:B:C", "expand");
 assert (length (t), 6);
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 assert (! ismember ("A:B:C", terms));
 assert (ismember ("A:B", terms));
***** test
 ## Test : LHS and RHS Identification
 s = parseWilkinsonFormula ("logY ~ A + B", "matrix");
 assert (s.VariableNames{s.ResponseIdx}, "logY");
 assert (any (strcmp ("A", s.VariableNames)));
***** test
 ## Test : No Response Variable
 s = parseWilkinsonFormula ("~ A + B", "matrix");
 assert (isempty (s.ResponseIdx));
***** test
 ## Test : Intercept Handling
 s1 = parseWilkinsonFormula ("~ A", "matrix");
 assert (any (all (s1.Terms == 0, 2)));
 s2 = parseWilkinsonFormula ("~ A - 1", "matrix");
 assert (! any (all (s2.Terms == 0, 2)));
***** test
 ## Test : Numeric Interaction
 d.y = [1;2;3;4;5];
 d.X1 = [1;2;1;2;1];
 d.X2 = [10;10;20;20;10];
 [M, ~, ~] = parseWilkinsonFormula ("y ~ X1:X2", "model_matrix", d);
 assert (size (M), [5, 2]);
 assert (M(:, 2), d.X1 .* d.X2);
***** test
 ## Test : Categorical Expansion
 d.y = [1;1;1];
 d.G = {"A"; "B"; "C"};
 [M, ~, names] = parseWilkinsonFormula ("~ G", "model_matrix", d);
 assert (size (M, 2), 3);
 assert (names, {"(Intercept)"; "G_B"; "G_C"});
***** test
 ## Test : Categorical * Categorical Rank
 d.y = [1;2;3;4];
 d.F1 = {"a";"b";"a";"b"};
 d.F2 = {"x";"x";"y";"y"};
 [M, ~, ~] = parseWilkinsonFormula ("~ F1 * F2", "model_matrix", d);
 assert (size (M, 2), 4);
 assert (rank (M), 4);
***** test
 ## Test : Numeric * Categorical Naming
 d.y = [1;2];
 d.N = [10; 20];
 d.C = {"lo"; "hi"};
 [M, ~, names] = parseWilkinsonFormula ("~ N * C", "model_matrix", d);
 assert (any (strcmp (names, "C_lo:N")));
***** test
 ## Test : Intercept Only Model
 d.y = [1; 2; 3];
 [X, ~, names] = parseWilkinsonFormula ("y ~ 1", "model_matrix", d);
 assert (size (X, 2), 1);
 assert (names, {"(Intercept)"});
 assert (all (X == 1));
***** test
 ## Test : NaNs and Missing Data
 d.y = [1; 2; 3; 4];
 d.A = [1; 1; NaN; 1];
 d.B = [10; 20; 30; NaN];
 [X, y_out, ~] = parseWilkinsonFormula ("y ~ A", "model_matrix", d);
 assert (length (y_out), 3);
 assert (y_out(3), 4);
 assert (size (X, 1), 3);
***** test
 ## Test : Nesting with Groups
 t = parseWilkinsonFormula ("A / (B + C)", "expand");
 terms = cellfun (@(x) strjoin(sort(x), ":"), t, "UniformOutput", false);
 expected = sort ({"A", "A:B", "A:C"});
 assert (sort (terms), expected);
***** test
 ## Test : Variable Name Collision
 d.Var = [1; 1];
 d.Var_1 = [2; 2];
 [~, ~, names] = parseWilkinsonFormula ("~ Var + Var_1", "model_matrix", d);
 assert (any (strcmp (names, "Var")));
 assert (any (strcmp (names, "Var_1")));
***** test
 ## Test : One-argument call
 result = parseWilkinsonFormula ("A * B");
 expected = sort ({"A", "B", "A:B"});
 actual = cellfun (@(x) strjoin(sort(x), ":"), result, "UniformOutput", false);
 assert (sort (actual), expected);
***** test
 ## Test : Compatibility with Table Data
 Age = [25; 30; 35; 40; 45];
 Weight = [70; 75; 80; 85; 90];
 BP = [120; 122; 128; 130; 135];
 T = table (Age, Weight, BP);
 formula = "BP ~ Age * Weight";
 [X, y, names] = parseWilkinsonFormula (formula, "model_matrix", T);
 assert (size (X), [5, 4]);
 assert (y, BP);
 assert (any (strcmp ("Age", names)));
 assert (any (strcmp ("Weight", names)));
 assert (names{1}, "(Intercept)");
***** test
 ## Test : Multi-variable List
 d.y1 = [1; 2; 3]; d.y2 = [4; 5; 6]; d.x = [1; 0; 1];
 [X, y, ~] = parseWilkinsonFormula ("y1, y2 ~ x", "model_matrix", d);
 assert (size (y), [3, 2]);
 assert (y(:,1), d.y1);
 assert (y(:,2), d.y2);
***** test
 ## Test : multivariable range.
 d.A = [10;20]; d.B = [30;40]; d.C = [50;60]; d.x = [1;2];
 [X, y, ~] = parseWilkinsonFormula ("A - C ~ x", "model_matrix", d);
 assert (size (y), [2, 3]);
 assert (y(:,1), d.A);
 assert (y(:,2), d.B);
 assert (y(:,3), d.C);
***** test
 ## Test : multivariable list + range.
 d.y1 = [1]; d.y2 = [2]; d.y3 = [3]; d.y4 = [4]; d.y5 = [5];
 d.x1 = [10]; d.x2 = [2];
 [X, y, names] = parseWilkinsonFormula ("y1, y3 - y5 ~ x1:x2", "model_matrix", d);
 expected_y = [d.y1, d.y3, d.y4, d.y5];
 assert (isequal (y, expected_y));
 assert (size (X, 2), 2);
 assert (any (strcmp (names, "x1:x2")));
***** test
 ## Test : reverse range.
 d.A = [1]; d.B = [2]; d.C = [3]; d.x = [10];
 [X, y, names] = parseWilkinsonFormula ("C - A ~ x - 1", "model_matrix", d);
 assert (size (y), [1, 3]);
 assert (y(:,1), d.A);
 assert (y(:,3), d.C);
 assert (size (X, 2), 1);
 assert (! any (strcmp (names, "(Intercept)")));
***** test
 ## Test : nans in multi-y.
 d.yA = {1; 2; 3; 4};
 d.yB = [10; 20; NaN; 40];
 d.x  = [1; 1; 1; 1];
 [X, y, ~] = parseWilkinsonFormula ("yA, yB ~ x", "model_matrix", d);
 assert (size (y), [3, 2]);
 assert (y(3, 1), 4);
 assert (y(3, 2), 40);
 assert (size (X, 1), 3);
***** error <Input formula string is required> parseWilkinsonFormula ()
***** error <Unknown mode> parseWilkinsonFormula ("y ~ x", "invalid_mode")
***** error <Unexpected End Of Formula> parseWilkinsonFormula ("", "parse")
***** error <Unexpected End Of Formula> parseWilkinsonFormula ("A +", "parse")
***** error <Unexpected End Of Formula> parseWilkinsonFormula ("A *", "parse")
***** error <Unexpected End Of Formula> parseWilkinsonFormula ("A .", "parse")
***** error <Unexpected End Of Formula> parseWilkinsonFormula ("A /", "parse")
***** error <Exponent must be a number> parseWilkinsonFormula ("(A+B)^C", "expand")
***** error <Mismatched Parentheses> parseWilkinsonFormula ("(A + B", "parse")
***** error <parseWilkinsonFormula: Unexpected token> parseWilkinsonFormula ("A + B)", "parse")
***** error <Unexpected token> parseWilkinsonFormula ("( )", "parse")
***** error <Unexpected token> parseWilkinsonFormula ("A + * B", "parse")
***** error <Unexpected token> parseWilkinsonFormula ("y ~ x ~ z", "parse")
***** error <'model_matrix' mode requires a Data Table> parseWilkinsonFormula ("~ A", "model_matrix")
***** error <Unknown variable> d.x=1; parseWilkinsonFormula ("~ Z", "model_matrix", d)
***** error <Response variable 'Z' not found in Data> d.x=1; d.y=1; parseWilkinsonFormula ("Z ~ x", "model_matrix", d)
***** error <Unknown variable 'A' in range> d.x=1; d.y=1; parseWilkinsonFormula ("A - y ~ x", "model_matrix", d)
***** error <Unknown variable 'B' in range> d.x=1; d.y=1; parseWilkinsonFormula ("y - B ~ x", "model_matrix", d)
***** error <Invalid syntax in response term> d.y=1; parseWilkinsonFormula ("y - y - y ~ x", "model_matrix", d)
***** error <Response variable 'S' must be numeric> d.S={"a";"b"}; d.x=[1;2]; parseWilkinsonFormula ("S ~ x", "model_matrix", d)
***** error <Data must be a table or struct> parseWilkinsonFormula ("y ~ x", "model_matrix", [1,2,3])
55 tests, 55 passed, 0 known failure, 0 skipped
[inst/Clustering/hnswSearcher.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/hnswSearcher.m
***** demo
 ## Create an hnswSearcher with Euclidean distance
 X = [1, 2; 3, 4; 5, 6];
 obj = hnswSearcher (X);
 ## Find the nearest neighbor to [2, 3]
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 disp ("Nearest neighbor index:");
 disp (idx);
 disp ("Distance:");
 disp (D);
***** demo
 ## Create an hnswSearcher with Minkowski distance (P=3)
 X = [0, 0; 1, 0; 2, 0];
 obj = hnswSearcher (X, "Distance", "minkowski", "P", 3);
 ## Find the nearest neighbor to [1, 0]
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 disp ("Nearest neighbor index:");
 disp (idx);
 disp ("Distance:");
 disp (D);
***** test
 load fisheriris
 X = meas;
 obj = hnswSearcher (X, "Distance", "chebychev");
 Y = X(30:35,:);
 [idx, D] = knnsearch (obj, Y, "K", 4);
 assert (idx, [[30 31 4 12]; [31 30 10 35]; [32 21 37 28]; [33 47 20 34]; ...
               [34 16 33 15]; [35 10 26 2]])
 assert (D, [[0 0.1000 0.1000 0.2000]; [0 0.1000 0.1000 0.1000]; [0 0.2000 ...
              0.2000 0.2000]; [0 0.3000 0.3000 0.3000]; [0 0.2000 0.3000 ...
              0.3000]; [0 0.1000 0.1000 0.1000]], 5e-15)
***** test
 load fisheriris
 X = meas;
 C = cov (X);
 obj = hnswSearcher (X, "Distance", "mahalanobis", "Cov", C);
 Y = X(120:125,:);
 [idx, D] = knnsearch (obj, Y, "K", 2);
 assert (idx(1, :), [120 82])
 assert (idx(4, :), [123 106])
 assert (idx(5, :), [124 127])
 assert (idx(6, :), [125 57])
 assert (D(1, :), [0 0.7734], 1e-4)
 assert (D(4, :), [0 0.8452], 1e-4)
 assert (D(5, :), [0 0.4152], 1e-4)
 assert (D(6, :), [0 0.7322], 1e-4)
***** test
 ## Basic constructor with default Euclidean
 X = [1, 2; 3, 4; 5, 6];
 obj = hnswSearcher (X);
 assert (obj.X, X);
 assert (obj.Distance, "euclidean");
 assert (isempty (obj.DistParameter));
***** test
 ## Minkowski distance with custom P
 X = [0, 0; 1, 1; 2, 2];
 obj = hnswSearcher (X, "Distance", "minkowski", "P", 3);
 assert (obj.Distance, "minkowski");
 assert (obj.DistParameter, 3);
***** test
 ## Seuclidean distance with custom Scale
 X = [1, 2; 3, 4; 5, 6];
 S = [1, 2];
 obj = hnswSearcher (X, "Distance", "seuclidean", "Scale", S);
 assert (obj.Distance, "seuclidean");
 assert (obj.DistParameter, S);
***** test
 ## Mahalanobis distance with custom Cov
 X = [1, 2; 3, 4; 5, 6];
 C = [1, 0; 0, 1];
 obj = hnswSearcher (X, "Distance", "mahalanobis", "Cov", C);
 assert (obj.Distance, "mahalanobis");
 assert (obj.DistParameter, C);
***** test
 ## knnsearch with Euclidean distance
 X = [1, 2; 3, 4; 5, 6];
 obj = hnswSearcher (X);
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [2]));
 assert (abs (D - sqrt(2)) < 1e-2);
***** test
 ## knnsearch with Cityblock distance
 X = [0, 0; 1, 1; 2, 2];
 obj = hnswSearcher (X, "Distance", "cityblock");
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [1, 2]));
 assert (abs (D - 1) < 1e-2);
***** test
 ## knnsearch with Chebychev distance
 X = [1, 1; 2, 3; 4, 2];
 obj = hnswSearcher (X, "Distance", "chebychev");
 Y = [2, 2];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [1, 2]));
 assert (abs (D - 1) < 1e-2);
***** test
 ## knnsearch with Minkowski P=3
 X = [0, 0; 1, 0; 2, 0];
 obj = hnswSearcher (X, "Distance", "minkowski", "P", 3);
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [2]));
 assert (abs (D - 0) < 1e-2);
***** test
 ## Diverse dataset with Euclidean
 X = [0, 10; 5, 5; 10, 0];
 obj = hnswSearcher (X);
 Y = [5, 5];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [2]));
 assert (abs (D - 0) < 1e-2);
***** test
 ## High-dimensional data with Cityblock
 X = [1, 2, 3; 4, 5, 6; 7, 8, 9];
 obj = hnswSearcher (X, "Distance", "cityblock");
 Y = [4, 5, 6];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [2]));
 assert (abs (D - 0) < 1e-2);
***** error<hnswSearcher: too few input arguments.> ...
 hnswSearcher ()
***** error<hnswSearcher: Name-Value arguments must be in pairs.> ...
 hnswSearcher (ones(3,2), "Distance")
***** error<hnswSearcher: X cannot be empty.> ...
 hnswSearcher ([])
***** error<hnswSearcher: X must be a finite numeric matrix.> ...
 hnswSearcher ("abc")
***** error<hnswSearcher: X must be a finite numeric matrix.> ...
 hnswSearcher ([1; Inf; 3])
***** error<hnswSearcher: invalid parameter name: 'foo'.> ...
 hnswSearcher (ones(3,2), "foo", "bar")
***** error<hnswSearcher: unsupported distance metric 'invalid'.> ...
 hnswSearcher (ones(3,2), "Distance", "invalid")
***** error<hnswSearcher: 'Distance' must be a string.> ...
 hnswSearcher (ones(3,2), "Distance", 1)
***** error<hnswSearcher: 'P' must be a positive finite scalar.> ...
 hnswSearcher (ones(3,2), "Distance", "minkowski", "P", -1)
***** error<hnswSearcher: 'Scale' must be a nonnegative vector matching X columns.> ...
 hnswSearcher (ones(3,2), "Distance", "seuclidean", "Scale", [-1, 1])
***** error<hnswSearcher: 'Cov' must be a square matrix matching X columns.> ...
 hnswSearcher (ones(3,2), "Distance", "mahalanobis", "Cov", ones(3,3))
***** error<hnswSearcher: 'Cov' must be symmetric for mahalanobis.> ...
 hnswSearcher (ones(3,2), "Distance", "mahalanobis", "Cov", [1, 2; 3, 4])
***** error<hnswSearcher: 'Cov' must be positive definite for mahalanobis.> ...
 hnswSearcher (ones(3,2), "Distance", "mahalanobis", "Cov", -eye(2))
***** error<hnswSearcher: 'MaxNumLinksPerNode' must be a positive integer.> ...
 hnswSearcher (ones(3,2), "MaxNumLinksPerNode", 0)
***** error<hnswSearcher: 'TrainSetSize' must be a positive integer.> ...
 hnswSearcher (ones(3,2), "TrainSetSize", -1)
***** error<hnswSearcher: 'TrainSetSize' cannot exceed the number of rows in X.> ...
 hnswSearcher (ones(3,2), "TrainSetSize", 4)
***** error<hnswSearcher: 'TrainSetSize' cannot exceed the number of rows in X.> ...
 hnswSearcher (ones(3,2), "MaxNumLinksPerNode", 200, "TrainSetSize", 100)
***** error<hnswSearcher.knnsearch: too few input arguments.> ...
 knnsearch (hnswSearcher (ones(3,2)))
***** error<hnswSearcher.knnsearch: Name-Value arguments must be in pairs.> ...
 knnsearch (hnswSearcher (ones(3,2)), ones(3,2), "K")
***** error<hnswSearcher.knnsearch: Y cannot be empty.> ...
 knnsearch (hnswSearcher (ones(3,2)), [])
***** error<hnswSearcher.knnsearch: Y must be a finite numeric matrix.> ...
 knnsearch (hnswSearcher (ones(3,2)), "abc")
***** error<hnswSearcher.knnsearch: Y must have the same number of columns as the training data in OBJ.X.> ...
 knnsearch (hnswSearcher (ones(3,2)), ones(3,3))
***** error<hnswSearcher.knnsearch: 'K' must be a positive integer.> ...
 knnsearch (hnswSearcher (ones(3,2)), ones(3,2), "K", 0)
***** error<hnswSearcher.knnsearch: invalid parameter name: 'foo'.> ...
 knnsearch (hnswSearcher (ones(3,2)), ones(3,2), "foo", "bar")
***** error<hnswSearcher.subsref: \(\) indexing not supported.> ...
 obj = hnswSearcher (ones(3,2)); obj(1)
***** error<hnswSearcher.subsref: {} indexing not supported.> ...
 obj = hnswSearcher (ones(3,2)); obj{1}
***** error<hnswSearcher.subsref: unrecognized property: 'invalid'.> ...
 obj = hnswSearcher (ones(3,2)); obj.invalid
***** error<hnswSearcher.subsasgn: \(\) indexing not supported.> ...
 obj = hnswSearcher (ones(3,2)); obj(1) = 1
***** error<hnswSearcher.subsasgn: {} indexing not supported.> ...
 obj = hnswSearcher (ones(3,2)); obj{1} = 1
***** error<hnswSearcher.subsasgn: 'X' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.X = 1
***** error<hnswSearcher.subsasgn: 'HNSWGraph' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.HNSWGraph = 1
***** error<hnswSearcher.subsasgn: 'Distance' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.Distance = "invalid"
***** error<hnswSearcher.subsasgn: 'Distance' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.Distance = 1
***** error<hnswSearcher.subsasgn: 'DistParameter' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2), "Distance", "minkowski"); obj.DistParameter = -1
***** error<hnswSearcher.subsasgn: 'DistParameter' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2), "Distance", "seuclidean"); obj.DistParameter = [-1, 1]
***** error<pdist2: covariance matrix for mahalanobis distance must be symmetric and positive definite.> ...
 obj = hnswSearcher (ones(3,2), "Distance", "mahalanobis"); obj.DistParameter = ones(3,3)
***** error<pdist2: covariance matrix for mahalanobis distance must be symmetric and positive definite.> ...
 obj = hnswSearcher (ones(3,2), "Distance", "mahalanobis"); obj.DistParameter = -eye(2)
***** error<hnswSearcher.subsasgn: 'DistParameter' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.DistParameter = 1
***** error<hnswSearcher.subsasgn: 'MaxNumLinksPerNode' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.MaxNumLinksPerNode = 0
***** error<hnswSearcher.subsasgn: 'TrainSetSize' is read-only and cannot be modified.> ...
 obj = hnswSearcher (ones(3,2)); obj.TrainSetSize = -1
***** error<hnswSearcher.subsasgn: unrecognized property: 'efSearch'.> ...
 obj = hnswSearcher (ones(3,2)); obj.efSearch = 1.5
***** error<hnswSearcher.subsasgn: unrecognized property: 'invalid'.> ...
 obj = hnswSearcher (ones(3,2)); obj.invalid = 1
54 tests, 54 passed, 0 known failure, 0 skipped
[inst/Clustering/cvpartition.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/cvpartition.m
***** test
 custom = [1, 1, 1, 2, 2, 2, 1, 2, 3, 2, 3, 3, 2, 1, 3]';
 cv = cvpartition ('CustomPartition', custom);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 15);
 assert (cv.NumTestSets, 3);
 assert (cv.TrainSize, [10, 9, 11]);
 assert (cv.TestSize, [5, 6, 4]);
 assert (cv.IsCustom, true);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 idx = training (cv, 1);
 assert (idx, custom != 1);
 idx = test (cv, 1);
 assert (idx, custom == 1);
 idx = training (cv, 2);
 assert (idx, custom != 2);
 idx = test (cv, 2);
 assert (idx, custom == 2);
 idx = training (cv, 3);
 assert (idx, custom != 3);
 idx = test (cv, 3);
 assert (idx, custom == 3);
 idx1 = training (cv, 'all');
 idx2 = test (cv, 'all');
 assert (idx1, ! idx2);
***** test
 custom = logical ([1, 1, 1, 0, 0, 0, 1, 0, 1, 1])';
 cv = cvpartition ('CustomPartition', custom);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 4);
 assert (cv.TestSize, 6);
 assert (cv.IsCustom, true);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 idx = training (cv, 1);
 assert (idx, custom != 1);
 assert (idx, training (cv, 'all'));
 idx = test (cv, 1);
 assert (idx, custom == 1);
 assert (idx, test (cv, 'all'));
***** test
 custom = logical ([1, 0, 0; 0, 1, 0; 1, 0, 0; 0, 0, 1]);
 cv = cvpartition ('CustomPartition', custom);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 4);
 assert (cv.NumTestSets, 3);
 assert (cv.TrainSize, [2, 3, 3]);
 assert (cv.TestSize, [2, 1, 1]);
 assert (cv.IsCustom, true);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 idx = training (cv, 1);
 assert (idx, custom(:,1) == false);
 idx = test (cv, 1);
 assert (idx, custom(:,1) == true);
 idx = training (cv, 2);
 assert (idx, custom(:,2) == false);
 idx = test (cv, 2);
 assert (idx, custom(:,2) == true);
 assert (! custom, training (cv, 'all'));
 assert (custom, test (cv, 'all'));
***** test
 cv = cvpartition ('CustomPartition', [1:8]);
 assert (cv.Type, 'leaveout');
 assert (cv.NumObservations, 8);
 assert (cv.NumTestSets, 8);
 assert (cv.TrainSize, [7, 7, 7, 7, 7, 7, 7, 7]);
 assert (cv.TestSize, [1, 1, 1, 1, 1, 1, 1, 1]);
 assert (cv.IsCustom, true);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (class (training (cv, 1)), 'logical');
 assert (sum (training (cv, 1)), 7);
 assert (sum (training (cv, 'all')), cv.TrainSize);
 assert (class (test (cv, 1)), 'logical');
 assert (sum (test (cv, 1)), 1);
 assert (sum (test (cv, 'all')), cv.TestSize);
 assert (! training (cv, 'all'), test (cv, 'all'));
***** test
 cv = cvpartition ('CustomPartition', logical (eye (8)));
 assert (cv.Type, 'leaveout');
 assert (cv.NumObservations, 8);
 assert (cv.NumTestSets, 8);
 assert (cv.TrainSize, [7, 7, 7, 7, 7, 7, 7, 7]);
 assert (cv.TestSize, [1, 1, 1, 1, 1, 1, 1, 1]);
 assert (cv.IsCustom, true);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (class (training (cv, 1)), 'logical');
 assert (sum (training (cv, 1)), 7);
 assert (sum (training (cv, 'all')), cv.TrainSize);
 assert (class (test (cv, 1)), 'logical');
 assert (sum (test (cv, 1)), 1);
 assert (sum (test (cv, 'all')), cv.TestSize);
 assert (! training (cv, 'all'), test (cv, 'all'));
***** test
 cv = cvpartition (10, 'resubstitution');
 assert (cv.Type, 'resubstitution');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 10);
 assert (cv.TestSize, 10);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (class (training (cv, 1)), 'logical');
 assert (sum (training (cv, 1)), 10);
 assert (training (cv, 'all'), logical (ones (10, 1)));
 assert (class (test (cv, 1)), 'logical');
 assert (sum (test (cv, 1)), 10);
 assert (test (cv, 'all'), logical (ones (10, 1)));
 assert (test (cv), training (cv));
***** test
 cv = cvpartition (10, 'leaveout');
 assert (cv.Type, 'leaveout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 10);
 assert (cv.TrainSize, ones (1, 10) * 9);
 assert (cv.TestSize, ones (1, 10));
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (class (training (cv, 1)), 'logical');
 assert (sum (training (cv, 1)), 9);
 assert (training (cv, 'all'), ! logical (eye (10)));
 assert (class (test (cv, 1)), 'logical');
 assert (sum (test (cv, 1)), 1);
 assert (test (cv, 'all'), logical (eye (10)));
 assert (test (cv), ! training (cv));
 assert (test (cv, 'all'), ! training (cv, 'all'));
***** test
 rand ('seed', 5);  # for reproducibility
 cv = cvpartition (10, 'holdout', 0.3);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 7);
 assert (cv.TestSize, 3);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (class (training (cv, 1)), 'logical');
 assert (sum (training (cv, 1)), 7);
 assert (training (cv, 'all'), logical ([1, 0, 1, 1, 0, 1, 1, 1, 0, 1])');
 assert (class (test (cv, 1)), 'logical');
 assert (sum (test (cv, 1)), 3);
 assert (test (cv, 'all'), logical ([0, 1, 0, 0, 1, 0, 0, 0, 1, 0])');
 assert (test (cv), ! training (cv));
 assert (test (cv, 'all'), ! training (cv, 'all'));
***** test
 cv = cvpartition (10, 'holdout', 4);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 6);
 assert (cv.TestSize, 4);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (class (training (cv, 1)), 'logical');
 assert (sum (training (cv, 1)), 6);
 assert (class (test (cv, 1)), 'logical');
 assert (sum (test (cv, 1)), 4);
 assert (test (cv), ! training (cv));
 assert (test (cv, 'all'), ! training (cv, 'all'));
***** test
 cv = cvpartition (5, 'holdout', 4);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 5);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 1);
 assert (cv.TestSize, 4);
 assert (sum (test (cv, 1)), 4);
***** test
 cv = cvpartition (5, 'holdout', 1);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 5);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 4);
 assert (cv.TestSize, 1);
 assert (sum (test (cv, 1)), 1);
***** test
 cv = cvpartition (5, 'kfold');
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 5);
 assert (cv.NumTestSets, 5);
***** test
 cv = cvpartition (20, 'kfold');
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 20);
 assert (cv.NumTestSets, 10);
***** test
 cv = cvpartition (10, 'kfold', 5);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 5);
 assert (cv.TrainSize, [8, 8, 8, 8, 8]);
 assert (cv.TestSize, [2, 2, 2, 2, 2]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [10, 5]);
***** test
 grpvar = [1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 5, 5];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 5, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 5);
 assert (cv.TrainSize, [10, 10, 10, 8, 10]);
 assert (cv.TestSize, [2, 2, 2, 4, 2]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [12, 5]);
 assert (sum (test (cv, 'all')), [2, 2, 2, 4, 2]);
 assert (sum (training (cv, 'all')), [10, 10, 10, 8, 10]);
***** test
 grpvar = [1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 3, 3];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 3, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 3);
 assert (cv.TrainSize, [9, 10, 5]);
 assert (cv.TestSize, [3, 2, 7]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [12, 3]);
 assert (sum (test (cv, 'all')), [3, 2, 7]);
 assert (sum (training (cv, 'all')), [9, 10, 5]);
***** test
 grpvar = [1, 1, 1, 2, 2, 2, 2, 2, 2, 3, 3, 3];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 2, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [6, 6]);
 assert (cv.TestSize, [6, 6]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [12, 2]);
 assert (sum (test (cv, 'all')), [6, 6]);
 assert (sum (training (cv, 'all')), [6, 6]);
***** test
 grpvar = [1, 1, 1, 2, 2, 2, 2, NaN, 2, 3, 3, 3];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 2, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [6, 5]);
 assert (cv.TestSize, [5, 6]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 idx = ! isnan (grpvar);
 assert (test (cv, 1)(idx), ! training (cv, 1)(idx));
 assert (test (cv, 'all')(idx, :), ! training (cv, 'all')(idx, :));
 assert (size (test (cv, 'all')), [12, 2]);
 assert (sum (test (cv, 'all')), [5, 6]);
 assert (sum (training (cv, 'all')), [6, 5]);
***** test
 grpvar = [1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 3, 3];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 2, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [5, 7]);
 assert (cv.TestSize, [7, 5]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [12, 2]);
 assert (sum (test (cv, 'all')), [7, 5]);
 assert (sum (training (cv, 'all')), [5, 7]);
 assert (test (cv, 1)', grpvar == 2);
 assert (test (cv, 2)', grpvar != 2);
***** test
 grpvar = [1, 1, 1, 2, 2, 2, 2, 2, 3, 3, 3, 3];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 2, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [7, 5]);
 assert (cv.TestSize, [5, 7]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [12, 2]);
 assert (sum (test (cv, 'all')), [5, 7]);
 assert (sum (training (cv, 'all')), [7, 5]);
 assert (test (cv, 1)', grpvar == 2);
 assert (test (cv, 2)', grpvar != 2);
***** test
 grpvar = [1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 3];
 rand ('seed', 5);
 cv = cvpartition (12, 'kfold', 2, 'GroupingVariables', grpvar);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 12);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [7, 5]);
 assert (cv.TestSize, [5, 7]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (size (test (cv, 'all')), [12, 2]);
 assert (sum (test (cv, 'all')), [5, 7]);
 assert (sum (training (cv, 'all')), [7, 5]);
 assert (test (cv, 1)', grpvar == 3);
 assert (test (cv, 2)', grpvar != 3);
***** test
 status = warning;
 warning ('off');
 cv = cvpartition (5, 'kfold', 5, 'GroupingVariables', {'a';'a';'b';'b';''});
 warning (status);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 5);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [2, 2]);
 assert (cv.TestSize, [2, 2]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, true);
 assert (cv.IsStratified, false);
 idx = ! ismissing ({'a';'a';'b';'b';''});
 assert (test (cv, 1)(idx), ! training (cv, 1)(idx));
 assert (test (cv, 'all')(idx,:), ! training (cv, 'all')(idx,:));
 assert (size (test (cv, 'all')), [5, 2]);
 assert (sum (test (cv, 'all')), [2, 2]);
 assert (sum (test (cv, 'all'), 2), [1; 1; 1; 1; 0]);
***** test
 rand ('seed', 5);
 cv = cvpartition ([1, 1, 1, 1, 1, 2, 2, 2, 2, 2], 'holdout', 3);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 7);
 assert (cv.TestSize, 3);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, true);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv), logical ([0, 0, 0, 0, 1, 0, 1, 0, 0, 1])');
***** test
 cv = cvpartition ([1, 1, 1, 1, 1, 2, 2, 2, 2, 2], 'holdout', 4);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 6);
 assert (cv.TestSize, 4);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, true);
 assert (test (cv, 1), ! training (cv, 1));
 assert (sum (test (cv)(1:5)), 2);
 assert (sum (test (cv)(6:10)), 2);
***** test
 grpvar = [1, 1, 1, 1, 1, 2, 2, 2, 2, 2];
 rand ('seed', 5);
 cv = cvpartition (grpvar, 'holdout', 4, 'Stratify', false);
 assert (cv.Type, 'holdout');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 1);
 assert (cv.TrainSize, 6);
 assert (cv.TestSize, 4);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (sum (test (cv)(1:5)), 3);
 assert (sum (test (cv)(6:10)), 1);
***** test
 cv = cvpartition ([1 1 1 1 1 2 2 2 2 1], 'kfold', 2);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [5, 5]);
 assert (cv.TestSize, [5, 5]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, true);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (sum (test (cv, 1)(1:5)), 3);
 assert (sum (test (cv, 2)(1:5)), 2);
 assert (sum (test (cv, 1)(6:10)), 2);
 assert (sum (test (cv, 2)(6:10)), 3);
***** test
 grpvar = [1 1 1 1 1 2 2 2 2 1];
 rand ('seed', 5);
 cv = cvpartition (grpvar, 'kfold', 2, 'Stratify', false);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 10);
 assert (cv.NumTestSets, 2);
 assert (cv.TrainSize, [5, 5]);
 assert (cv.TestSize, [5, 5]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, false);
 assert (test (cv, 1), ! training (cv, 1));
 assert (test (cv, 'all'), ! training (cv, 'all'));
 assert (sum (test (cv, 1)(1:5)), 4);
 assert (sum (test (cv, 2)(1:5)), 1);
 assert (sum (test (cv, 1)(6:10)), 1);
 assert (sum (test (cv, 2)(6:10)), 4);
***** test
 status = warning;
 warning ('off');
 cv = cvpartition ({'a','a','b','b',''}, 'kfold');
 warning (status);
 assert (cv.Type, 'kfold');
 assert (cv.NumObservations, 5);
 assert (cv.NumTestSets, 4);
 assert (cv.TrainSize, [3, 3, 3, 3]);
 assert (cv.TestSize, [1, 1, 1, 1]);
 assert (cv.IsCustom, false);
 assert (cv.IsGrouped, false);
 assert (cv.IsStratified, true);
 idx = ! ismissing ({'a','a','b','b',''});
 assert (test (cv, 1)(idx), ! training (cv, 1)(idx));
 assert (test (cv, 'all')(idx,:), ! training (cv, 'all')(idx,:));
 assert (sum (test (cv, 'all'), 2), [1; 1; 1; 1; 0]);
***** error <cvpartition: too few input arguments.> cvpartition (2)
***** error <cvpartition: too many input arguments.> cvpartition (1, 2, 3, 4, 5, 6)
***** error <cvpartition: TESTSETS must be numeric of logical.> ...
 cvpartition ("CustomPartition", 'a')
***** error <cvpartition: TESTSETS must be a numeric vector.> ...
 cvpartition ("CustomPartition", [2, 3; 2, 3])
***** error <cvpartition: TESTSETS must be a logical vector or matrix.> ...
 cvpartition ("CustomPartition", false (3, 3, 3))
***** error <cvpartition: each observation in TESTSETS must be exactly one in each row.> ...
 cvpartition ("CustomPartition", [false, true; true, true; true, false])
***** error <cvpartition: a logical matrix in TESTSETS must not have more columns that rows.> ...
 cvpartition ("CustomPartition", false (3, 5))
***** error <cvpartition: X must be a scalar positive integer value.> ...
 cvpartition (-20, "LeaveOut")
***** error <cvpartition: X must be a scalar positive integer value.> ...
 cvpartition (20.5, "LeaveOut")
***** error <cvpartition: P value for 'holdout' must be a numeric scalar.> ...
 cvpartition (20, "HoldOut", [0.2, 0.3])
***** error <cvpartition: P value for 'holdout' must be a numeric scalar.> ...
 cvpartition (20, "HoldOut", 'a')
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\).> ...
 cvpartition (20, "HoldOut", 0)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\).> ...
 cvpartition (20, "HoldOut", -0.1)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\).> ...
 cvpartition (20, "HoldOut", 21)
***** error <cvpartition: K value for 'kfold' must be a numeric scalar.> ...
 cvpartition (20, "kfold", [2, 3])
***** error <cvpartition: K value for 'kfold' must be a numeric scalar.> ...
 cvpartition (20, "kfold", 'a')
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\].> ...
 cvpartition (20, "kfold", 2.5)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\].> ...
 cvpartition (20, "kfold", 21)
***** error <cvpartition: invalid optional paired argument for 'GroupingVariables'.> ...
 cvpartition (10, "kfold", 3, "Group")
***** error <cvpartition: missing value for optional paired argument 'GroupingVariables'.> ...
 cvpartition (10, "kfold", 3, "GroupingVariables")
***** error <cvpartition: invalid value for optional paired argument 'GroupingVariables'.> ...
 cvpartition (10, "kfold", 3, "GroupingVariables", ones (3, 3, 3))
***** error <cvpartition: grouping variable does not match the number of observations.> ...
 cvpartition (10, "kfold", 3, "GroupingVariables", {'a', 'a', 'a', 'b', 'b'})
***** warning <cvpartition: number of folds K is greater than the groups in 'GroupingVariables'. K is set to the number of groups.> ...
 cvpartition (5, "kfold", 3, "GroupingVariables", {'a', 'a', 'a', 'b', 'b'});
***** error <cvpartition: invalid optional paired argument.> ...
 cvpartition (20, "some")
***** error <cvpartition: invalid optional paired argument for stratification.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 2, "strat")
***** error <cvpartition: missing value for optional paired argument 'stratify'.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 2, "stratify")
***** error <cvpartition: invalid value for optional paired argument 'stratify'.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 2, "stratify", [true, true])
***** error <cvpartition: invalid value for optional paired argument 'stratify'.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 2, "stratify", 'no')
***** error <cvpartition: P value for 'holdout' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 'a')
***** error <cvpartition: P value for 'holdout' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 'a', "stratify", true)
***** error <cvpartition: P value for 'holdout' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", [0.2, 0.3])
***** error <cvpartition: P value for 'holdout' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", [0.2, 0.3], "stratify", true)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 0)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 0, "stratify", true)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", -0.1)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", -0.1, "stratify", true)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 1.2)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 1.2, "stratify", false)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 6)
***** error <cvpartition: P value for 'holdout' must be a scalar in the range \(0,1\) or an integer scalar in the range \[1, N\), where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "holdout", 6, "stratify", false)
***** error <cvpartition: K value for 'kfold' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 'a')
***** error <cvpartition: K value for 'kfold' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 'a', "stratify", true)
***** error <cvpartition: K value for 'kfold' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", [2, 3])
***** error <cvpartition: K value for 'kfold' must be a numeric scalar.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", [2, 3], "stratify", false)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\], where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 0)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\], where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 0, "stratify", true)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\], where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 1.5)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\], where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 1.5, "stratify", true)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\], where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 6)
***** error <cvpartition: K value for 'kfold' must be an integer scalar in the range \[1, N\], where N is the number of nonmissing observations in X.> ...
 cvpartition ([1, 1, 1, 2, 2], "kfold", 6, "stratify", true)
***** error <cvpartition: invalid optional paired argument.> ...
 cvpartition ([1, 1, 1, 2, 2], "leaveout")
***** error <cvpartition: invalid optional paired argument.> ...
 cvpartition ([1, 1, 1, 2, 2], "resubstitution")
***** error <cvpartition: invalid optional paired argument.> ...
 cvpartition ([1, 1, 1, 2, 2], "some")
***** error <cvpartition: invalid first input argument.> ...
 cvpartition ({1, 1; 2, 2}, "kfold")
***** error <cvpartition.repartition: cannot repartition a custom partition.> ...
 repartition (cvpartition ('CustomPartition', [1,1,2,2,3,3]))
***** error <cvpartition.repartition: 'legacy' flag does not apply to stratified or grouped 'kfold' partitioned objects.> ...
 repartition (cvpartition ([1 1 1 1 1 2 2 2 2 1], 'kfold', 2, 'Stratify', true), 'legacy')
***** error <cvpartition.repartition: 'legacy' flag is only valid for 'kfold' partitioned objects.> ...
 repartition (cvpartition (20, 'Leaveout', 0.2), 'legacy')
***** error <cvpartition.repartition: SVAL must be a real scalar or vector.> ...
 repartition (cvpartition (20, 'Leaveout', 0.2), 'asd')
***** error <cvpartition.repartition: SVAL must be a real scalar or vector.> ...
 repartition (cvpartition (20, 'Leaveout', 0.2), 2+i)
***** error <cvpartition.repartition: SVAL must be a real scalar or vector.> ...
 repartition (cvpartition (20, 'KFold', 5), [34, 56; 2, 3])
***** error <cvpartition.test: too many input arguments.> ...
 test (cvpartition (20, "kfold"), 2, 3)
***** error <cvpartition.test: set index must be a positive integer vector.> ...
 test (cvpartition (20, "kfold"), 0)
***** error <cvpartition.test: set index must be a positive integer vector.> ...
 test (cvpartition (20, "kfold"), 1.5)
***** error <cvpartition.test: set index must be a positive integer vector.> ...
 test (cvpartition (20, "kfold"), [1, 1.5])
***** error <cvpartition.test: set index must be a positive integer vector.> ...
 test (cvpartition (20, "kfold"), [2, 3; 2, 3])
***** error <cvpartition.test: set index exceeds 'NumTestSets'.> ...
 test (cvpartition (20, "kfold"), 21)
***** error <cvpartition.test: set index exceeds 'NumTestSets'.> ...
 test (cvpartition (20, "kfold"), [18, 21])
***** error <cvpartition.training: too many input arguments.> ...
 training (cvpartition (20, "kfold"), 2, 3)
***** error <cvpartition.training: set index must be a positive integer vector.> ...
 training (cvpartition (20, "kfold"), 0)
***** error <cvpartition.training: set index must be a positive integer vector.> ...
 training (cvpartition (20, "kfold"), 1.5)
***** error <cvpartition.training: set index must be a positive integer vector.> ...
 training (cvpartition (20, "kfold"), [1, 1.5])
***** error <cvpartition.training: set index must be a positive integer vector.> ...
 training (cvpartition (20, "kfold"), [2, 3; 2, 3])
***** error <cvpartition.training: set index exceeds 'NumTestSets'.> ...
 training (cvpartition (20, "kfold"), 21)
***** error <cvpartition.training: set index exceeds 'NumTestSets'.> ...
 training (cvpartition (20, "kfold"), [18, 21])
***** test
 ## 1. Stratified K-Fold: Basic Text Labels
 species = [repmat({"Setosa"}, 10, 1); repmat({"Versicolor"}, 10, 1)];
 rand ("state", 42);
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 assert (height (T), 10);
 assert (all (ismember ({"Set", "SetSize", "StratificationLabel", ...
                        "StratificationCount", "PercentInSet"}, ...
                        T.Properties.VariableNames)));

 ## Check Output Type (String Array) and Counts
 if (exist ("string", "class"))
   assert (isa (T.Set, "string"));
   assert (isa (T.StratificationLabel, "string"));
   mask = (T.Set == "all") & (T.StratificationLabel == "Setosa");
 else
   ## Fallback for older environments
   mask = strcmp (T.Set, "all") & strcmp (T.StratificationLabel, "Setosa");
 endif
 assert (T.StratificationCount(mask), 10);
***** test
 ## 2. Grouped K-Fold: Basic Numeric Labels
 groups = [1; 1; 1; 2; 2; 3; 3; 3; 3; 3];
 rand ("state", 100);
 c = cvpartition (numel (groups), "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 assert (any (strcmp ("GroupLabel", T.Properties.VariableNames)));

 ## Verify Group Integrity
 if (iscell (T.GroupLabel))
   vals = cell2mat (T.GroupLabel);
 else
   vals = T.GroupLabel;
 endif
 mask_g3 = (vals == 3);

 if (exist ("string", "class"))
   mask_t1 = (T.Set == "test1");
 else
   mask_t1 = strcmp (T.Set, "test1");
 endif

 count_g3 = T.GroupCount(mask_g3 & mask_t1);
 assert (count_g3 == 5 || count_g3 == 0);
***** test
 ## 3. Grouped K-Fold: Matrix Grouping
 g1 = [1; 1; 1; 2; 2; 2];
 g2 = [1; 1; 2; 1; 2; 2];
 groups = [g1, g2];
 c = cvpartition (6, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 ## 4 unique groups * 5 sets (all + 2 train + 2 test)
 assert (height (T), 20);
***** test
 ## 4. Stratified Holdout: Basic
 species = [repmat({"A"}, 10, 1); repmat({"B"}, 10, 1)];
 c = cvpartition (species, "Holdout", 0.5);
 T = summary (c);
 sets = unique (T.Set);
 assert (numel (sets), 3); ## all, train1, test1
***** test
 ## 5. Mathematical Consistency: Percentages
 classes = [1; 1; 2; 2; 3; 3];
 c = cvpartition (classes, "KFold", 2);
 T = summary (c);

 if (exist ("string", "class"))
   mask_all = (T.Set == "all");
   mask_tr1 = (T.Set == "train1");
 else
   mask_all = strcmp (T.Set, "all");
   mask_tr1 = strcmp (T.Set, "train1");
 endif

 assert (sum (T.PercentInSet(mask_all)), 100, 1e-10);
 assert (sum (T.PercentInSet(mask_tr1)), 100, 1e-10);
***** test
 ## 6. Mathematical Consistency: Set Sizes
 N = 20;
 c = cvpartition (ones (N, 1), "KFold", 4);
 T = summary (c);

 if (exist ("string", "class"))
   mask_tr1 = (T.Set == "train1");
   mask_ts1 = (T.Set == "test1");
 else
   mask_tr1 = strcmp (T.Set, "train1");
   mask_ts1 = strcmp (T.Set, "test1");
 endif

 size_tr1 = T.SetSize(find (mask_tr1, 1));
 size_ts1 = T.SetSize(find (mask_ts1, 1));
 assert (size_tr1 + size_ts1, N);
***** test
 ## 7. Logical Grouping Variables
 groups = [true; true; true; false; false];
 c = cvpartition (5, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 assert (height (T), 2 * 5);
 if (iscell (T.GroupLabel))
   u_labels = unique (cell2mat (T.GroupLabel));
 else
   u_labels = unique (T.GroupLabel);
 endif
 assert (numel (u_labels), 2);
***** test
 ## 8. Char Array Grouping Variables
 groups = ['A'; 'A'; 'B'; 'B'; 'C'];
 c = cvpartition (5, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 assert (height (T), 3 * 5);
 assert (any (strcmp ("GroupLabel", T.Properties.VariableNames)));
***** test
 ## 9. Floating Point Grouping Variables
 groups = [1.1; 1.1; 2.2; 2.2];
 c = cvpartition (4, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 if (iscell (T.GroupLabel))
   vals = cell2mat (T.GroupLabel);
 else
   vals = T.GroupLabel;
 endif
 assert (any (abs (vals - 1.1) < 1e-10));
 assert (any (abs (vals - 2.2) < 1e-10));
***** test
 ## 10. Negative Numeric Grouping
 groups = [-5; -5; -10; -10];
 c = cvpartition (4, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 assert (height (T), 2 * 5);
***** test
 ## 11. Missing Values in Stratification (NaN)
 classes = [1; 1; 2; 2; NaN; NaN];
 c = cvpartition (classes, "KFold", 2);
 T = summary (c);
 if (exist ("string", "class"))
   mask_all = (T.Set == "all");
 else
   mask_all = strcmp (T.Set, "all");
 endif
 total_obs = T.SetSize(find (mask_all, 1));
 assert (total_obs, 4);
***** test
 ## 12. Missing Values in Grouping (NaN)
 groups = [1; 1; 2; 2; NaN];
 c = cvpartition (5, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 if (exist ("string", "class"))
   mask_all = (T.Set == "all");
 else
   mask_all = strcmp (T.Set, "all");
 endif
 assert (T.SetSize(find (mask_all, 1)), 4);
***** test
 ## 13. Unbalanced Stratification
 species = [repmat({"C1"}, 90, 1); repmat({"C2"}, 10, 1)];
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 if (exist ("string", "class"))
   mask_ts1 = (T.Set == "test1");
   subT = T(mask_ts1, :);
   c1_count = subT.StratificationCount(subT.StratificationLabel == "C1");
   c2_count = subT.StratificationCount(subT.StratificationLabel == "C2");
 else
   mask_ts1 = strcmp (T.Set, "test1");
   subT = T(mask_ts1, :);
   c1_count = subT.StratificationCount(strcmp (subT.StratificationLabel, "C1"));
   c2_count = subT.StratificationCount(strcmp (subT.StratificationLabel, "C2"));
 endif
 assert (c1_count == 45);
 assert (c2_count == 5);
***** test
 ## 14. Single Observation per Group (Edge Case)
 groups = [1; 2; 3; 4];
 c = cvpartition (4, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 if (exist ("string", "class"))
   mask_ts1 = (T.Set == "test1");
 else
   mask_ts1 = strcmp (T.Set, "test1");
 endif
 counts = T.GroupCount(mask_ts1);
 assert (sum (counts == 1), 2);
 assert (sum (counts == 0), 2);
***** test
 ## 15. Set Name Generation Verification
 species = [1; 1; 2; 2];
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 set_names = unique (T.Set);
 expected = {"all"; "train1"; "test1"; "train2"; "test2"};
 if (exist ("string", "class"))
   ## Convert string array to cell for sort comparison
   assert (sort (cellstr (set_names)), sort (expected));
 else
   assert (sort (set_names), sort (expected));
 endif
***** test
 ## 16. Label Column Consistency
 groups = ['A'; 'B'];
 c = cvpartition (2, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 if (exist ("string", "class"))
   assert (isa (T.GroupLabel, "string"));
 else
   assert (iscellstr (T.GroupLabel));
 endif
***** test
 ## 17. Valid "Blank" Labels (Space) - FIX APPLIED
 species = {"A"; "A"; " "; " "};
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 if (exist ("string", "class"))
   labels = cellstr (T.StratificationLabel);
   sets = cellstr (T.Set);
   assert (any (strcmp (labels, " ")));
   mask_space = strcmp (labels, " ");
   mask_all = strcmp (sets, "all");
 else
   assert (any (strcmp (T.StratificationLabel, " ")));
   mask_space = strcmp (T.StratificationLabel, " ");
   mask_all = strcmp (T.Set, "all");
 endif
 assert (sum (T.StratificationCount(mask_space & mask_all)), 2);
***** test
 ## 18. Large K (Leave-One-Out Simulation) - FIX APPLIED
 species = [1; 1; 2; 2];
 warn_state = warning ("off", "all");
 c = cvpartition (species, "KFold", 4);
 warning (warn_state);
 T = summary (c);
 assert (height (T), 18);
 if (exist ("string", "class"))
   mask_test = startsWith (cellstr(T.Set), "test");
 else
   mask_test = strncmp (T.Set, "test", 4);
 endif
 assert (all (T.SetSize(mask_test) == 1));
***** test
 ## 19. Repeated Holdout Integrity
 species = [1; 1; 2; 2];
 rand ("state", 42);
 c = cvpartition (species, "Holdout", 0.5);
 T = summary (c);
 if (exist ("string", "class"))
   mask_ts1 = (T.Set == "test1");
 else
   mask_ts1 = strcmp (T.Set, "test1");
 endif
 size_ts1 = T.SetSize(find (mask_ts1, 1));
 assert (size_ts1, 2);
***** test
 ## 20. Empty String Handling (Missing Data)
 species = {"A"; "A"; ""; ""};
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 if (exist ("string", "class"))
   assert (! any (T.StratificationLabel == ""));
   mask_all = (T.Set == "all");
 else
   assert (! any (strcmp (T.StratificationLabel, "")));
   mask_all = strcmp (T.Set, "all");
 endif
 total_rows = T.SetSize(find (mask_all, 1));
 assert (total_rows, 2);
***** test
 ## 21. Basic Unstacking (Stratified K-Fold)
 species = [repmat({"Alpha"}, 10, 1); repmat({"Beta"}, 10, 1)];
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "StratificationCount", "StratificationLabel");
 ## Check dimensions: 3 sets (all, train1, test1, etc) x (Set+SetSize + 2 Labels)
 assert (height (T_wide), 5);
 assert (width (T_wide), 4);
 assert (all (ismember ({"Alpha", "Beta"}, T_wide.Properties.VariableNames)));
***** test
 ## 22. Data Integrity Check (Row Sums)
 species = [repmat({"Control"}, 20, 1); repmat({"Treatment"}, 80, 1)];
 c = cvpartition (species, "Holdout", 0.25);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "StratificationCount", "StratificationLabel");
 row_sums = T_wide.Control + T_wide.Treatment;
 assert (all (row_sums == T_wide.SetSize));
***** test
 ## 23. Unstacking Grouped Data (Numeric Labels)
 groups = [1; 1; 2; 2; 2];
 c = cvpartition (5, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "GroupCount", "GroupLabel");
 ## Check if numeric columns were created successfully
 col_names = T_wide.Properties.VariableNames;
 assert (any (cellfun (@(x) ~isempty (strfind (x, "1")), col_names)));
 assert (any (cellfun (@(x) ~isempty (strfind (x, "2")), col_names)));
***** test
 ## 24. Unstacking with Missing/NaN Groups
 groups = [1; 1; 2; 2; NaN];
 c = cvpartition (5, "KFold", 2, "GroupingVariables", groups);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "GroupCount", "GroupLabel");
 ## Should only have columns for 1 and 2, not NaN or 'undefined'
 assert (width (T_wide), 4); ## Set, SetSize, x1, x2
***** test
 ## 25. Unstacking String Array Inputs
 species = {"Red"; "Blue"; "Red"; "Blue"};
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 ## Verify input is actually string before unstacking checks
 if (exist ("string", "class"))
   assert (isa (T.Set, "string"));
 endif
 T_wide = unstack (T(:, 1:4), "StratificationCount", "StratificationLabel");
 ## Check the 'all' row count for Red
 assert (T_wide.Red(strcmp(cellstr(T_wide.Set), "all")) == 2);
***** test
 ## 26. Large K Unstacking (Many Rows)
 species = [repmat({"High"}, 10, 1); repmat({"Low"}, 10, 1)];
 c = cvpartition (species, "KFold", 10);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "StratificationCount", "StratificationLabel");
 ## 10 folds * 2 (train/test) + 1 (all) = 21 rows
 assert (height (T_wide), 21);
***** test
 ## 27. Unstacking with Special Characters in Labels
 species = {"Type A"; "Type A"; "Type-B"; "Type-B"};
 c = cvpartition (species, "KFold", 2);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "StratificationCount", "StratificationLabel");
 vnames = T_wide.Properties.VariableNames;
 ## Check if spaces/dashes were handled/preserved in some valid form
 assert (numel (vnames), 4);
***** test
 ## 28. Verification of 'all' row logic after Unstacking
 species = [repmat({"Yes"}, 50, 1); repmat({"No"}, 50, 1)];
 c = cvpartition (species, "Holdout", 0.2);
 T = summary (c);
 T_wide = unstack (T(:, 1:4), "StratificationCount", "StratificationLabel");
 mask = strcmp (cellstr (T_wide.Set), "all");
 assert (T_wide.Yes(mask) == 50);
 assert (T_wide.No(mask) == 50);
***** test
 ## 29. Robustness against re-ordering
 species = {"Left"; "Left"; "Right"; "Right"};
 c = cvpartition (species, "Holdout", 0.5);
 T = summary (c);
 T_shuffled = T([3, 1, 2], :);
 T_wide = unstack (T_shuffled(:, 1:4), "StratificationCount", "StratificationLabel");
 mask = strcmp (cellstr (T_wide.Set), "all");
 assert (T_wide.Left(mask) == 2);
***** error <cvpartition.summary: partition must be stratified or grouped.>
 c = cvpartition (20, "KFold", 5);
 summary (c);
***** error <cvpartition.summary: partition must be stratified or grouped.>
 c = cvpartition (10, "LeaveOut");
 summary (c);
133 tests, 133 passed, 0 known failure, 0 skipped
[inst/Clustering/KDTreeSearcher.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/KDTreeSearcher.m
***** demo
 ## Demo to verify implementation using fisheriris dataset
 load fisheriris
 numSamples = size (meas, 1);
 queryIndices = [1, 23, 46, 63, 109];
 dataIndices = ~ismember (1:numSamples, queryIndices);
 queryPoints = meas(queryIndices, :);
 dataPoints = meas(dataIndices, :);
 searchRadius = 0.3;
 kdTree = KDTreeSearcher (dataPoints, 'Distance', 'minkowski')
 nearestNeighbors = knnsearch (kdTree, queryPoints, "K", 2)
 neighborsInRange = rangesearch (kdTree, queryPoints, searchRadius)
***** demo
 ## Create a KDTreeSearcher with Euclidean distance
 X = [1, 2; 3, 4; 5, 6];
 obj = KDTreeSearcher (X);
 ## Find the nearest neighbor to [2, 3]
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 disp ("Nearest neighbor index:");
 disp (idx);
 disp ("Distance:");
 disp (D);
 ## Find all points within radius 2
 [idx, D] = rangesearch (obj, Y, 2);
 disp ("Indices within radius:");
 disp (idx);
 disp ("Distances:");
 disp (D);
***** demo
 ## Create a KDTreeSearcher with Minkowski distance (P=3)
 X = [0, 0; 1, 0; 2, 0];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 ## Find the nearest neighbor to [1, 0]
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 disp ("Nearest neighbor index:");
 disp (idx);
 disp ("Distance:");
 disp (D);
***** demo
 rng(42);
 disp('Demonstrating KDTreeSearcher');

 n = 100;
 mu1 = [0.3, 0.3];
 mu2 = [0.7, 0.7];
 sigma = 0.1;
 X1 = mu1 + sigma * randn (n / 2, 2);
 X2 = mu2 + sigma * randn (n / 2, 2);
 X = [X1; X2];

 obj = KDTreeSearcher(X);

 Y = [0.3, 0.3; 0.7, 0.7; 0.5, 0.5];

 K = 5;
 [idx, D] = knnsearch (obj, Y, "K", K);

 disp ('For the first query point:');
 disp (['Query point: ', num2str(Y(1,:))]);
 disp ('Indices of nearest neighbors:');
 disp (idx(1,:));
 disp ('Distances:');
 disp (D(1,:));

 figure;
 scatter (X(:,1), X(:,2), 36, 'b', 'filled'); # Training points
 hold on;
 scatter (Y(:,1), Y(:,2), 36, 'r', 'filled'); # Query points
 for i = 1:size (Y, 1)
     query = Y(i,:);
     neighbors = X(idx(i,:), :);
     for j = 1:K
         plot ([query(1), neighbors(j,1)], [query(2), neighbors(j,2)], 'k-');
     endfor
 endfor
 hold off;
 title ('K Nearest Neighbors with KDTreeSearcher');
 xlabel ('X1');
 ylabel ('X2');

 r = 0.15;
 [idx, D] = rangesearch (obj, Y, r);

 disp ('For the first query point in rangesearch:');
 disp (['Query point: ', num2str(Y(1,:))]);
 disp ('Indices of points within radius:');
 disp (idx{1});
 disp ('Distances:');
 disp (D{1});

 figure;
 scatter (X(:,1), X(:,2), 36, 'b', 'filled');
 hold on;
 scatter (Y(:,1), Y(:,2), 36, 'r', 'filled');
 theta = linspace (0, 2 * pi, 100);
 for i = 1:size (Y, 1)
     center = Y(i,:);
     x_circle = center(1) + r * cos (theta);
     y_circle = center(2) + r * sin (theta);
     plot (x_circle, y_circle, 'g-');
     ## Highlight points within radius
     if (! isempty (idx{i}))
       in_radius = X(idx{i}, :);
       scatter (in_radius(:,1), in_radius(:,2), 36, 'g', 'filled');
     endif
 endfor
 hold off
 title ('Points within Radius with KDTreeSearcher');
 xlabel ('X1');
 ylabel ('X2');
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X);
 Y = X(1:5,:);
 [idx, D] = knnsearch (obj, Y, "K", 3);
 assert (idx, [[1, 18, 5]; [2, 35, 46]; [3, 48, 4]; [4, 48, 30]; [5, 38, 1]])
 assert (D, [[0, 0.1000, 0.1414]; [0,  0.1414,  0.1414]; [0, 0.1414, 0.2449];
             [0, 0.1414, 0.1732]; [0, 0.1414, 0.1414]], 5e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 Y = X(10:15,:);
 [idx, D] = knnsearch (obj, Y, "K", 2);
 assert (idx, [[10, 35]; [11, 49]; [12, 30]; [13, 2]; [14, 39]; [15, 34]])
 assert (D, [[0, 0.1000]; [0, 0.1000]; [0, 0.2080]; [0, 0.1260]; [0, 0.2154];
             [0, 0.3503]], 5e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = X(20:25,:);
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, [20; 21; 22; 23; 24; 25])
 assert (D, [0; 0; 0; 0; 0; 0])
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 Y = X(30:35,:);
 [idx, D] = knnsearch (obj, Y, "K", 4);
 assert (idx, [[30, 31, 4, 12]; [31, 30, 10, 35]; [32, 21, 37, 28];
               [33, 20, 34, 47]; [34, 16, 15, 33]; [35, 10, 2, 26]])
 assert (D, [[0, 0.1000, 0.1000, 0.2000]; [0, 0.1000, 0.1000, 0.1000];
             [0, 0.2000, 0.2000, 0.2000]; [0, 0.3000, 0.3000, 0.3000];
             [0, 0.2000, 0.3000, 0.3000]; [0, 0.1000, 0.1000, 0.1000]], 5e-15)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "BucketSize", 20);
 Y = X(40:45,:);
 [idx, D] = knnsearch (obj, Y, "K", 2);
 assert (idx, [[40, 8]; [41, 18]; [42, 9]; [43, 39]; [44, 27]; [45, 47]])
 assert (D, [[0, 0.1000]; [0, 0.1414]; [0, 0.6245]; [0, 0.2000]; [0, 0.2236];
             [0, 0.3606]], 4.7e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X);
 Y = X(50:55,:);
 [idx, D] = knnsearch (obj, Y, "K", 3, "IncludeTies", true);
 assert (idx, {[50; 8; 40]; [51; 53; 87]; [52; 57; 76]; [53; 51; 87]; [54; ...
                90; 81]; [55; 59; 76]})
 assert (D, {[0; 0.1414; 0.1732]; [0; 0.2646; 0.3317]; [0; 0.2646; 0.3162];
             [0; 0.2646; 0.2828]; [0; 0.2000; 0.3000]; [0; 0.2449; 0.3162]}, 5e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X);
 Y = X(60:65,:);
 [idx, D] = rangesearch (obj, Y, 0.4);
 assert (idx, {[60; 90]; [61; 94]; [62; 97; 79; 96; 100; 89; 98; 72]; [63];
               [64; 92; 74; 79]; [65]})
 assert (D, {[0; 0.3873]; [0; 0.3606];
             [0; 0.3000; 0.3317; 0.3606; 0.3606; 0.3742; 0.3873; 0.4000]; [0];
             [0; 0.1414; 0.2236; 0.2449]; [0]}, 5e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = X(70:72,:);
 [idx, D] = rangesearch (obj, Y, 1.0);
 assert (idx, {[70; 81; 90; 82; 83; 93; 54; 68; 95; 80; 91; 100; 60; 65; ...
                89; 63]; [71; 139; 128; 150; 127; 57; 86; 64; 79; 92; 124];
               [72; 100; 98; 83; 93; 97; 75; 68; 62; 89; 95; 74; 56; 90; ...
                79; 92; 96; 64; 63; 65]})
 assert (D, {[0; 0.3000; 0.4000; 0.5000; 0.5000; 0.5000; 0.6000; 0.7000; ...
              0.7000; 0.7000; 0.8000; 0.8000; 0.9000; 0.9000; 0.9000; 0.9000];
             [0; 0.3000; 0.5000; 0.5000; 0.7000; 0.8000; 0.8000; 1.0000; ...
              1.0000; 1.0000; 1]; [0; 0.5000; 0.5000; 0.6000; 0.6000; ...
              0.7000; 0.7000; 0.8000; 0.8000; 0.8000; 0.8000; 0.8000; ...
              0.9000; 0.9000; 0.9000; 0.9000; 0.9000; 0.9000; 1.0000; 1]}, 5e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 Y = X(80:85,:);
 [idx, D] = rangesearch (obj, Y, 0.8);
 assert (idx, {[80; 82; 81; 65; 70; 83; 93; 90; 54; 63; 68; 72; 100; 60; ...
                89; 99; 95; 94; 97; 96]; [81; 82; 70; 54; 90; 93; 80; 83; ...
                60; 68; 95; 100; 65; 63; 97; 61; 91; 94; 89; 96; 72; 58; ...
                62; 56]; [82; 81; 70; 80; 54; 90; 93; 83; 68; 60; 65; 63; ...
                100; 95; 94; 61; 58; 97; 89; 72; 96; 91; 99]; [83; 93; ...
                100; 68; 70; 72; 95; 90; 97; 65; 89; 96; 81; 82; 80; 62; ...
                54; 98; 63; 91; 56; 60; 79; 67; 75; 88; 85; 92; 69]; [84; ...
                134; 102; 143; 150; 124; 128; 73; 127; 139; 147; 64; 112; ...
                114; 120; 74; 135; 122; 71; 92; 104; 138; 148; 117; 79; ...
                55; 56; 57; 67; 111; 129; 69; 78; 59; 52; 133; 85; 88; ...
                87]; [85; 67; 56; 97; 95; 89; 96; 91; 100; 62; 71; 122; ...
                79; 60; 107; 90; 139; 93; 68; 86; 83; 92; 64; 150; 102; ...
                143; 74; 114; 70; 128; 84; 54; 72]})
 assert (D, {[0; 0.2884; 0.3530; 0.3826; 0.4062; 0.4198; 0.5117; 0.5440; 0.5718;
              0.6000; 0.6018; 0.6073; 0.6308; 0.6333; 0.6753; 0.7000; 0.7192;
              0.7230; 0.7350; 0.7459];
             [0; 0.1260; 0.1442; 0.2571; 0.2571; 0.3530; 0.3530; 0.3826; 0.4344;
              0.4344; 0.4642; 0.4747; 0.5217; 0.5217; 0.5896; 0.6009; 0.6082;
              0.6316; 0.6316; 0.6611; 0.6664; 0.6993; 0.7417; 0.7507];
             [0; 0.1260; 0.2224; 0.2884; 0.3803; 0.3803; 0.4121; 0.4121; 0.4905;
              0.5013; 0.5360; 0.5429; 0.5463; 0.5646; 0.5749; 0.5819; 0.6542;
              0.6581; 0.6753; 0.6938; 0.7094; 0.7107; 0.7423];
             [0; 0.1260; 0.2224; 0.2520; 0.2571; 0.3107; 0.3302; 0.3332; 0.3332;
              0.3530; 0.3530; 0.3803; 0.3826; 0.4121; 0.4198; 0.4344; 0.4531;
              0.5155; 0.5217; 0.5348; 0.6028; 0.6073; 0.6374; 0.6527; 0.6611;
              0.6804; 0.6938; 0.7399; 0.7560];
             [0; 0.3072; 0.3271; 0.3271; 0.3302; 0.3503; 0.3530; 0.3530; 0.3530;
              0.3958; 0.3979; 0.4327; 0.4626; 0.4642; 0.5027; 0.5066; 0.5130;
              0.5155; 0.5440; 0.5440; 0.5518; 0.5848; 0.6009; 0.6073; 0.6082;
              0.6316; 0.6471; 0.6746; 0.6753; 0.6797; 0.6804; 0.7047; 0.7192;
              0.7218; 0.7405; 0.7405; 0.7719; 0.7725; 0.7786];
             [0; 0.2000; 0.3503; 0.3979; 0.4121; 0.4309; 0.4327; 0.4531; 0.4747;
              0.5337; 0.5718; 0.5896; 0.6009; 0.6316; 0.6366; 0.6374; 0.6463;
              0.6542; 0.6542; 0.6550; 0.6938; 0.7014; 0.7067; 0.7166; 0.7186;
              0.7186; 0.7281; 0.7380; 0.7447; 0.7571; 0.7719; 0.7813; 0.7851]}, 5e-5)
***** test
 load fisheriris
 X = meas;
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 Y = X(90,:);
 [idx, D] = rangesearch (obj, Y, 0.7);
 assert (idx, {[90; 70; 54; 81; 95; 60; 83; 93; 100; 68; 82; 65; 97; 91; ...
                56; 61; 62; 63; 67; 79; 80; 85; 89; 96; 72; 92; 107]})
 assert (D, {[0; 0.2000; 0.2000; 0.2000; 0.2000; 0.3000; 0.3000; 0.3000; ...
             0.3000; 0.3000; 0.3000; 0.4000; 0.4000; 0.4000; 0.5000; ...
             0.5000; 0.5000; 0.5000; 0.5000; 0.5000; 0.5000; 0.5000; ...
             0.5000; 0.5000; 0.6000; 0.6000; 0.6000]}, 5e-16)
***** test
 ## Constructor with single-point dataset
 X = [0, 0];
 obj = KDTreeSearcher (X);
 assert (obj.X, X);
 assert (obj.Distance, "euclidean");
 assert (isempty (obj.DistParameter));
 assert (obj.BucketSize, 50);
***** test
 ## Constructor with duplicate points
 X = [0, 0; 0, 0; 1, 0];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 assert (obj.X, X);
 assert (obj.Distance, "cityblock");
***** test
 ## Constructor with 3D data
 X = [0, 0, 0; 1, 0, 0; 0, 1, 0];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 assert (obj.X, X);
 assert (obj.DistParameter, 3);
***** test
 ## knnsearch with grid, K = 1
 X = [0, 0; 0, 1; 1, 0; 1, 1];
 obj = KDTreeSearcher (X, "Distance", "euclidean");
 Y = [0.5, 0.5];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 D_true = pdist2 (X, Y, "euclidean");
 assert (D, min (D_true), 1e-10);
 assert (any (idx == find (D_true == min (D_true))));
***** test
 ## knnsearch with IncludeTies, all points equidistant
 X = [0, 0; 0, 1; 1, 0; 1, 1];
 obj = KDTreeSearcher (X);
 Y = [0.5, 0.5];
 [idx, D] = knnsearch (obj, Y, "K", 1, "IncludeTies", true);
 D_true = pdist2 (X, Y, "euclidean");
 expected_idx = find (D_true == min (D_true));
 assert (sort (idx{1}(:)), sort (expected_idx));
 assert (D{1}(:)', repmat (min (D_true), 1, 4), 1e-10);
***** test
 ## rangesearch with line dataset
 X = [0, 0; 1, 0; 2, 0; 3, 0];
 obj = KDTreeSearcher (X);
 Y = [1.5, 0];
 r = 1;
 [idx, D] = rangesearch (obj, Y, r);
 D_true = pdist2 (X, Y, "euclidean");
 expected_idx = find (D_true <= r);
 assert (sort (idx{1}(:)), sort (expected_idx));
 assert (D{1}, sort (D_true(expected_idx)), 1e-10);
***** test
 ## knnsearch with duplicates
 X = [0, 0; 0, 0; 1, 0];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = [0, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1, "IncludeTies", true);
 assert (sort (idx{1}(:))', [1, 2]);
 assert (D{1}', [0, 0], 1e-10);
***** test
 ## rangesearch with 3D data
 X = [0, 0, 0; 1, 0, 0; 0, 1, 0];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = [0, 0, 0];
 r = 1;
 [idx, D] = rangesearch (obj, Y, r);
 assert (sort (idx{1}(:))', [1, 2, 3]);
 assert (D{1}', [0, 1, 1], 1e-10);
***** test
 ## knnsearch with P = 2 (Euclidean equivalent)
 X = [0, 0; 1, 1];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 2);
 Y = [0, 1];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 1);
 assert (D, 1, 1e-10);
***** test
 ## rangesearch with P = 3
 X = [0, 0; 1, 0; 0, 1];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 Y = [0.5, 0.5];
 r = 0.8;
 [idx, D] = rangesearch (obj, Y, r);
 D_true = pdist2 (X, Y, "minkowski", 3);
 expected_idx = find (D_true <= r);
 assert (sort (idx{1}(:)), sort (expected_idx));
 assert (D{1}, sort (D_true(expected_idx)), 1e-10);
***** test
 ## knnsearch with P = 4, random data
 X = rand (5, 2);
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 4);
 Y = rand (1, 2);
 [idx, D] = knnsearch (obj, Y, "K", 3);
 D_true = pdist2 (X, Y, "minkowski", 4);
 [sorted_D, sort_idx] = sort (D_true);
 assert (idx', sort_idx(1:3));
 assert (D', sorted_D(1:3), 1e-10);
***** test
 ## knnsearch with all same points
 X = [1, 1; 1, 1; 1, 1];
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 Y = [1, 1];
 [idx, D] = knnsearch (obj, Y, "K", 1, "IncludeTies", true);
 assert (sort (idx{1}(:))', [1, 2, 3]);
 assert (D{1}', [0, 0, 0], 1e-10);
***** test
 ## rangesearch with grid
 X = [0, 0; 0, 1; 1, 0; 1, 1];
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 Y = [0.5, 0.5];
 r = 0.5;
 [idx, D] = rangesearch (obj, Y, r);
 D_true = pdist2 (X, Y, "chebychev");
 expected_idx = find (D_true <= r);
 assert (sort (idx{1}(:)), sort (expected_idx));
 assert (D{1}, D_true(expected_idx), 1e-10);
***** test
 ## Changing Distance and verifying search
 X = [0,0; 1,0];
 obj = KDTreeSearcher(X, "Distance", "euclidean");
 Y = [0,1];
 [idx, D] = knnsearch(obj, Y, "K", 1);
 assert(D, 1, 1e-10);
 obj.Distance = "chebychev";
 [idx, D] = knnsearch(obj, Y, "K", 1);
 assert(D, 1, 1e-10);
***** test
 ## Changing DistParameter for minkowski
 X = [0,0; 1,0];
 obj = KDTreeSearcher(X, "Distance", "minkowski", "P", 1);
 Y = [0,1];
 [idx, D] = knnsearch(obj, Y, "K", 1);
 assert(D, 1, 1e-10);
 obj.DistParameter = 3;
 [idx, D] = knnsearch(obj, Y, "K", 1);
 assert(D, 1, 1e-10);
***** test
 ## Different BucketSize values
 X = rand(20,2);
 obj1 = KDTreeSearcher(X, "BucketSize", 5);
 obj2 = KDTreeSearcher(X, "BucketSize", 15);
 Y = rand(1,2);
 [idx1, D1] = knnsearch(obj1, Y, "K", 3);
 [idx2, D2] = knnsearch(obj2, Y, "K", 3);
 assert(idx1, idx2);
 assert(D1, D2, 1e-10);
***** test
 ## Basic constructor with default Euclidean
 X = [1, 2; 3, 4; 5, 6];
 obj = KDTreeSearcher (X);
 assert (obj.X, X);
 assert (obj.Distance, "euclidean");
 assert (isempty (obj.DistParameter));
 assert (obj.BucketSize, 50);
***** test
 ## Minkowski distance with custom P
 X = [0, 0; 1, 1; 2, 2];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 assert (obj.Distance, "minkowski");
 assert (obj.DistParameter, 3);
***** test
 ## Cityblock distance
 X = [0, 0; 1, 0; 0, 1];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 assert (obj.Distance, "cityblock");
 assert (isempty (obj.DistParameter));
***** test
 ## Chebychev distance
 X = [1, 1; 2, 3; 4, 2];
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 assert (obj.Distance, "chebychev");
 assert (isempty (obj.DistParameter));
***** test
 ## knnsearch with Euclidean distance
 X = [1, 2; 3, 4; 5, 6];
 obj = KDTreeSearcher (X);
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 1);
 assert (D, sqrt(2), 1e-10);
***** test
 ## knnsearch with Cityblock distance
 X = [0, 0; 1, 1; 2, 2];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [1, 2]));
 assert (D, 1, 1e-10);
***** test
 ## knnsearch with Chebychev distance
 X = [1, 1; 2, 3; 4, 2];
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 Y = [2, 2];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (ismember (idx, [1, 2]));
 assert (D, 1, 1e-10);
***** test
 ## knnsearch with Minkowski P=3
 X = [0, 0; 1, 0; 2, 0];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 2);
 assert (D, 0, 1e-10);
***** test
 ## knnsearch with IncludeTies
 X = [0, 0; 1, 0; 0, 1];
 obj = KDTreeSearcher (X);
 Y = [0.5, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1, "IncludeTies", true);
 assert (iscell (idx));
 assert (sort (idx{1}(:))', [1, 2]);
 assert (sort (D{1}(:)), [0.5; 0.5], 1e-10);
***** test
 ## rangesearch with Euclidean
 X = [1, 1; 2, 2; 3, 3];
 obj = KDTreeSearcher (X);
 Y = [0, 0];
 [idx, D] = rangesearch (obj, Y, 2);
 assert (idx{1}, [1]);
 assert (D{1}, [sqrt(2)], 1e-10);
***** test
 ## rangesearch with Cityblock
 X = [0, 0; 1, 1; 2, 2];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = [0, 0];
 [idx, D] = rangesearch (obj, Y, 1);
 assert (idx{1}, [1]);
 assert (D{1}, [0], 1e-10);
***** test
 ## rangesearch with Chebychev
 X = [1, 1; 2, 3; 4, 2];
 obj = KDTreeSearcher (X, "Distance", "chebychev");
 Y = [2, 2];
 [idx, D] = rangesearch (obj, Y, 1);
 assert (sort (idx{1}(:))', [1, 2]);
 assert (sort (D{1}(:))', [1, 1], 1e-10);
***** test
 ## rangesearch with Minkowski P=3
 X = [0, 0; 1, 0; 2, 0];
 obj = KDTreeSearcher (X, "Distance", "minkowski", "P", 3);
 Y = [1, 0];
 [idx, D] = rangesearch (obj, Y, 1);
 assert (sort (idx{1}(:))', [1, 2, 3]);
 assert (sort (D{1}(:))', [0, 1, 1], 1e-10);
***** test
 ## Diverse dataset with Euclidean
 X = [0, 10; 5, 5; 10, 0];
 obj = KDTreeSearcher (X);
 Y = [5, 5];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 2);
 assert (D, 0, 1e-10);
***** test
 ## High-dimensional data with Cityblock
 X = [1, 2, 3; 4, 5, 6; 7, 8, 9];
 obj = KDTreeSearcher (X, "Distance", "cityblock");
 Y = [4, 5, 6];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 2);
 assert (D, 0, 1e-10);
***** error<KDTreeSearcher: too few input arguments.> ...
 KDTreeSearcher ()
***** error<KDTreeSearcher: Name-Value arguments must be in pairs.> ...
 KDTreeSearcher (ones(3,2), "Distance")
***** error<KDTreeSearcher: X must be a finite numeric matrix.> ...
 KDTreeSearcher ("abc")
***** error<KDTreeSearcher: X must be a finite numeric matrix.> ...
 KDTreeSearcher ([1; Inf; 3])
***** error<KDTreeSearcher: invalid parameter name: 'foo'.> ...
 KDTreeSearcher (ones(3,2), "foo", "bar")
***** error<KDTreeSearcher: unsupported distance metric 'invalid'.> ...
 KDTreeSearcher (ones(3,2), "Distance", "invalid")
***** error<KDTreeSearcher: Distance must be a string.> ...
 KDTreeSearcher (ones(3,2), "Distance", 1)
***** error<KDTreeSearcher: P must be a positive finite scalar.> ...
 KDTreeSearcher (ones(3,2), "Distance", "minkowski", "P", -1)
***** error<KDTreeSearcher: BucketSize must be a positive integer.> ...
 KDTreeSearcher (ones(3,2), "BucketSize", 0)
***** error<KDTreeSearcher: BucketSize must be a positive integer.> ...
 KDTreeSearcher(ones(3,2), "BucketSize", -1)
***** error<KDTreeSearcher.knnsearch: too few input arguments.> ...
 knnsearch (KDTreeSearcher (ones(3,2)))
***** error<KDTreeSearcher.knnsearch: Name-Value arguments must be in pairs.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), ones(3,2), "K", 1, "IncludeTies")
***** error<KDTreeSearcher.knnsearch: Y must be a finite numeric matrix.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), "abc", "K", 1)
***** error<KDTreeSearcher.knnsearch: Y must have the same number of columns as the training data in OBJ.X.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), ones(3,3), "K", 1)
***** error<KDTreeSearcher.knnsearch: 'K' must be a positive integer.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), ones(3,2), "K", 0)
***** error<KDTreeSearcher.knnsearch: 'K' must be a positive integer.> ...
 obj = KDTreeSearcher(ones(3,2)); knnsearch(obj, ones(1,2), "K", Inf)
***** error<KDTreeSearcher.knnsearch: invalid parameter name: 'foo'.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), ones(3,2), "K", 1, "foo", "bar")
***** error<KDTreeSearcher.knnsearch: IncludeTies must be a logical scalar.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), ones(3,2), "K", 1, "IncludeTies", 1)
***** error<KDTreeSearcher.knnsearch: SortIndices must be a logical scalar.> ...
 knnsearch (KDTreeSearcher (ones(3,2)), ones(3,2), "K", 1, "SortIndices", 1)
***** error<KDTreeSearcher.rangesearch: too few input arguments.> ...
 rangesearch (KDTreeSearcher (ones(3,2)))
***** error<KDTreeSearcher.rangesearch: Name-Value arguments must be in pairs.> ...
 rangesearch (KDTreeSearcher (ones(3,2)), ones(3,2), 1, "SortIndices")
***** error<KDTreeSearcher.rangesearch: Y must be a finite numeric matrix.> ...
 rangesearch (KDTreeSearcher (ones(3,2)), "abc", 1)
***** error<KDTreeSearcher.rangesearch: number of columns in X and Y must match.> ...
 rangesearch (KDTreeSearcher (ones(3,2)), ones(3,3), 1)
***** error<KDTreeSearcher.rangesearch: R must be a nonnegative finite scalar.> ...
 rangesearch (KDTreeSearcher (ones(3,2)), ones(3,2), -1)
***** error<KDTreeSearcher.rangesearch: R must be a nonnegative finite scalar.> ...
 obj = KDTreeSearcher(ones(3,2)); rangesearch(obj, ones(1,2), Inf)
***** error<KDTreeSearcher.rangesearch: invalid parameter name: 'foo'.> ...
 rangesearch (KDTreeSearcher (ones(3,2)), ones(3,2), 1, "foo", "bar")
***** error<KDTreeSearcher.rangesearch: SortIndices must be a logical scalar.> ...
 rangesearch (KDTreeSearcher (ones(3,2)), ones(3,2), 1, "SortIndices", 1)
***** error<KDTreeSearcher.subsref: \(\) indexing not supported.> ...
 obj = KDTreeSearcher (ones(3,2)); obj(1)
***** error<KDTreeSearcher.subsref: {} indexing not supported.> ...
 obj = KDTreeSearcher (ones(3,2)); obj{1}
***** error<KDTreeSearcher.subsref: unrecognized property: 'invalid'.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.invalid
***** error<KDTreeSearcher.subsasgn: \(\) indexing not supported.> ...
 obj = KDTreeSearcher (ones(3,2)); obj(1) = 1
***** error<KDTreeSearcher.subsasgn: {} indexing not supported.> ...
 obj = KDTreeSearcher (ones(3,2)); obj{1} = 1
***** error<KDTreeSearcher.subsasgn: chained subscripts not allowed.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.X.Y = 1
***** error<KDTreeSearcher.subsasgn: 'X' is read-only and cannot be modified.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.X = 1
***** error<KDTreeSearcher.subsasgn: 'KDTree' is read-only and cannot be modified.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.KDTree = 1
***** error<KDTreeSearcher.subsasgn: unsupported distance metric 'invalid'.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.Distance = "invalid"
***** error<KDTreeSearcher.subsasgn: 'Distance' must be a string.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.Distance = 1
***** error<KDTreeSearcher.subsasgn: 'DistParameter' must be a positive finite scalar for Minkowski distance.> ...
 obj = KDTreeSearcher (ones(3,2), "Distance", "minkowski"); obj.DistParameter = -1
***** error<KDTreeSearcher.subsasgn: 'DistParameter' must be empty for this distance metric.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.DistParameter = 1
***** error<KDTreeSearcher.subsasgn: 'BucketSize' is read-only and cannot be modified.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.BucketSize = 0
***** error<KDTreeSearcher.subsasgn: 'BucketSize' is read-only and cannot be modified.> ...
 obj = KDTreeSearcher(ones(3,2)); obj.BucketSize = -1
***** error<KDTreeSearcher.subsasgn: 'BucketSize' is read-only and cannot be modified.> ...
 obj = KDTreeSearcher(ones(3,2)); obj.BucketSize = 1.5
***** error<KDTreeSearcher.subsasgn: unrecognized property: 'invalid'.> ...
 obj = KDTreeSearcher (ones(3,2)); obj.invalid = 1
84 tests, 84 passed, 0 known failure, 0 skipped
[inst/Clustering/ClusterCriterion.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/ClusterCriterion.m
***** error <ClusterCriterion: X must be a numeric matrix.> ...
 ClusterCriterion ("1", "kmeans", [1:6])
***** error <ClusterCriterion: unknown clustering algorithm 'k'.> ...
 ClusterCriterion ([1, 2, 1, 3, 2, 4, 3], "k", [1:6])
***** error <ClusterCriterion: invalid matrix of clustering solutions.> ...
 ClusterCriterion ([1, 2, 1; 3, 2, 4], 1, [1:6])
***** error <ClusterCriterion: invalid argument.> ...
 ClusterCriterion ([1, 2, 1; 3, 2, 4], ones (2, 2, 2), [1:6])
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/Clustering/CalinskiHarabaszEvaluation.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/CalinskiHarabaszEvaluation.m
***** test
 load fisheriris
 eva = evalclusters (meas, "kmeans", "calinskiharabasz", "KList", [1:6]);
 assert (class (eva), "CalinskiHarabaszEvaluation");
1 test, 1 passed, 0 known failure, 0 skipped
[inst/Clustering/GapEvaluation.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/GapEvaluation.m
***** test
 load fisheriris
 eva = evalclusters (meas([1:50],:), "kmeans", "gap", "KList", [1:3], ...
                     "referencedistribution", "uniform");
 assert (class (eva), "GapEvaluation");
1 test, 1 passed, 0 known failure, 0 skipped
[inst/Clustering/SilhouetteEvaluation.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/SilhouetteEvaluation.m
***** test
 load fisheriris
 eva = evalclusters (meas, "kmeans", "silhouette", "KList", [1:6]);
 assert (class (eva), "SilhouetteEvaluation");
1 test, 1 passed, 0 known failure, 0 skipped
[inst/Clustering/ExhaustiveSearcher.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/ExhaustiveSearcher.m
***** demo
 ## Demo to verify implementation using fisheriris dataset
 load fisheriris
 rng('default');
 numSamples = size (meas, 1);
 queryIndices = [20, 95, 123, 136, 138];
 dataPoints = meas(~ismember (1:numSamples, queryIndices), :);
 queryPoints = meas(queryIndices, :);
 searchModel = ExhaustiveSearcher (dataPoints, 'Distance', 'mahalanobis')
 mahalanobisParam = searchModel.DistParameter
 searchRadius = 3;
 nearestNeighbors = knnsearch (searchModel, queryPoints, "K", 2)
 neighborsInRange = rangesearch (searchModel, queryPoints, searchRadius)
***** demo
 ## Create an ExhaustiveSearcher with Euclidean distance
 X = [1, 2; 3, 4; 5, 6];
 obj = ExhaustiveSearcher (X);
 ## Find the nearest neighbor to [2, 3]
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y);
 disp ("Nearest neighbor index:"); disp (idx);
 disp ("Distance:"); disp (D);
 ## Find all points within radius 2
 [idx, D] = rangesearch (obj, Y, 2);
 disp ("Indices within radius:"); disp (idx);
 disp ("Distances:"); disp (D);
***** demo
 ## Create an ExhaustiveSearcher with Minkowski distance (P=1)
 X = [0, 0; 1, 0; 0, 1];
 obj = ExhaustiveSearcher (X, "Distance", "minkowski", "P", 1);
 ## Find the 2 nearest neighbors to [0.5, 0.5]
 Y = [0.5, 0.5];
 [idx, D] = knnsearch (obj, Y, "K", 2);
 disp ("Nearest neighbor indices:"); disp (idx);
 disp ("Distances:"); disp (D);
***** demo
 rng(42);
 disp('Demonstrating ExhaustiveSearcher');

 n = 100;
 mu1 = [0.3, 0.3];
 mu2 = [0.7, 0.7];
 sigma = 0.1;
 X1 = mu1 + sigma * randn(n/2, 2);
 X2 = mu2 + sigma * randn(n/2, 2);
 X = [X1; X2];

 obj = ExhaustiveSearcher(X);

 Y = [0.3, 0.3; 0.7, 0.7; 0.5, 0.5];

 K = 5;
 [idx, D] = knnsearch(obj, Y, "K", K);

 disp('For the first query point:');
 disp(['Query point: ', num2str(Y(1,:))]);
 disp('Indices of nearest neighbors:');
 disp(idx(1,:));
 disp('Distances:');
 disp(D(1,:));

 figure;
 scatter(X(:,1), X(:,2), 36, 'b', 'filled'); % Training points
 hold on;
 scatter(Y(:,1), Y(:,2), 36, 'r', 'filled'); % Query points
 for i = 1:size(Y,1)
     query = Y(i,:);
     neighbors = X(idx(i,:), :);
     for j = 1:K
         plot([query(1), neighbors(j,1)], [query(2), neighbors(j,2)], 'k-');
     end
 end
 hold off;
 title('K Nearest Neighbors with ExhaustiveSearcher');
 xlabel('X1');
 ylabel('X2');

 r = 0.15;
 [idx, D] = rangesearch(obj, Y, r);

 disp('For the first query point in rangesearch:');
 disp(['Query point: ', num2str(Y(1,:))]);
 disp('Indices of points within radius:');
 disp(idx{1});
 disp('Distances:');
 disp(D{1});

 figure;
 scatter(X(:,1), X(:,2), 36, 'b', 'filled');
 hold on;
 scatter(Y(:,1), Y(:,2), 36, 'r', 'filled');
 theta = linspace(0, 2*pi, 100);
 for i = 1:size(Y,1)
     center = Y(i,:);
     x_circle = center(1) + r * cos(theta);
     y_circle = center(2) + r * sin(theta);
     plot(x_circle, y_circle, 'g-');
     % Highlight points within radius
     if ~isempty(idx{i})
         in_radius = X(idx{i}, :);
         scatter(in_radius(:,1), in_radius(:,2), 36, 'g', 'filled');
     end
 end
 hold off;
 title('Points within Radius with ExhaustiveSearcher');
 xlabel('X1');
 ylabel('X2');
***** test
 ## Basic constructor with default Euclidean
 X = [1, 2; 3, 4; 5, 6];
 obj = ExhaustiveSearcher (X);
 assert (obj.X, X)
 assert (obj.Distance, "euclidean")
 assert (isempty (obj.DistParameter))
***** test
 ## Minkowski distance with custom P
 X = [1, 2; 3, 4];
 obj = ExhaustiveSearcher (X, "Distance", "minkowski", "P", 3);
 assert (obj.Distance, "minkowski")
 assert (obj.DistParameter, 3)
***** test
 ## Seuclidean distance with custom Scale
 X = [1, 2; 3, 4; 5, 6];
 S = [1, 2];
 obj = ExhaustiveSearcher (X, "Distance", "seuclidean", "Scale", S);
 assert (obj.Distance, "seuclidean")
 assert (obj.DistParameter, S)
***** test
 ## Mahalanobis distance with custom Cov
 X = [1, 2; 3, 4; 5, 6];
 C = [1, 0; 0, 1];
 obj = ExhaustiveSearcher (X, "Distance", "mahalanobis", "Cov", C);
 assert (obj.Distance, "mahalanobis")
 assert (obj.DistParameter, C)
***** test
 ## knnsearch with Euclidean distance
 X = [1, 2; 3, 4; 5, 6];
 obj = ExhaustiveSearcher (X);
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 1)
 assert (D, sqrt(2), 1e-10)
***** test
 ## knnsearch with Cityblock distance
 X = [0, 0; 1, 1; 2, 2];
 obj = ExhaustiveSearcher (X, "Distance", "cityblock");
 Y = [1, 0];
 [idx, D] = knnsearch (obj, Y, "K", 1);
 assert (idx, 1)
 assert (D, 1, 1e-10)
***** test
 ## knnsearch with Chebychev distance
 X = [1, 1; 2, 3; 4, 2];
 obj = ExhaustiveSearcher (X, "Distance", "chebychev");
 Y = [2, 2];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D, 1, 1e-10)
***** test
 ## knnsearch with Cosine distance
 X = [1, 0; 0, 1; 1, 1];
 obj = ExhaustiveSearcher (X, "Distance", "cosine");
 Y = [1, 0.5];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 3)
 assert (D < 0.1, true)
***** test
 ## knnsearch with Minkowski P=1 (Manhattan)
 X = [0, 0; 1, 0; 0, 1];
 obj = ExhaustiveSearcher (X, "Distance", "minkowski", "P", 1);
 Y = [0.5, 0.5];
 [idx, D] = knnsearch (obj, Y, "K", 2, "IncludeTies", true);
 assert (iscell (idx))
 assert (idx{1}, [1, 2, 3])
 assert (D{1}, [1, 1, 1], 1e-10)
***** test
 ## rangesearch with Seuclidean
 X = [1, 1; 2, 2; 3, 3];
 S = [1, 1];
 obj = ExhaustiveSearcher (X, "Distance", "seuclidean", "Scale", S);
 Y = [0, 0];
 [idx, D] = rangesearch (obj, Y, 2);
 assert (idx{1}, [1])
 assert (D{1}, [sqrt(2)], 1e-10)
***** test
 ## rangesearch with Mahalanobis
 X = [1, 1; 2, 2; 3, 3];
 C = [1, 0; 0, 1];
 obj = ExhaustiveSearcher (X, "Distance", "mahalanobis", "Cov", C);
 Y = [0, 0];
 [idx, D] = rangesearch (obj, Y, 3, "SortIndices", false);
 assert (idx{1}, [1, 2])
 assert (D{1}, [sqrt(2), sqrt(8)], 1e-10)
***** test
 ## rangesearch with Hamming distance
 X = [0, 1; 1, 0; 1, 1];
 obj = ExhaustiveSearcher (X, "Distance", "hamming");
 Y = [0, 0];
 [idx, D] = rangesearch (obj, Y, 0.5);
 assert (idx{1}, [1, 2])
 assert (D{1}, [0.5, 0.5], 1e-10)
***** test
 ## Custom distance function
 X = [1, 2; 3, 4];
 custom_dist = @(x, y) sum(abs(x - y));
 obj = ExhaustiveSearcher (X, "Distance", custom_dist);
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D, 2, 1e-10)
***** test
 ## IncludeTies returns all tied neighbors
 X = [0; 1; 2];
 obj = ExhaustiveSearcher (X);
 Y = 1;
 [idx, D] = knnsearch (obj, Y, "K", 2, "IncludeTies", true);
 assert (idx{1}, [2, 1, 3])
 assert (D{1}, [0, 1, 1])
***** test
 ## Custom distance function with vectorized output
 X = [1, 2; 3, 4];
 f = @(x, y) sum(abs(x - y), 2);
 obj = ExhaustiveSearcher (X, "Distance", f);
 Y = [2, 3];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D, 2)
***** test
 ## Euclidean with high-dimensional data
 X = [1, 2, 3; 4, 5, 6; 7, 8, 9; 10, 11, 12];
 obj = ExhaustiveSearcher (X);
 Y = [5, 6, 7];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 2)
 assert (D, sqrt(3), 1e-10)
***** test
 ## Minkowski P=3 with scaled data
 X = [0, 1; 2, 3; 4, 5] * 10;
 obj = ExhaustiveSearcher (X, "Distance", "minkowski", "P", 3);
 Y = [20, 30];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 2)
 assert (D, 0, 1e-10)
***** test
 ## Seuclidean with custom scales on diverse data
 X = [1, 10; 2, 20; 3, 30];
 S = [1, 5];
 obj = ExhaustiveSearcher (X, "Distance", "seuclidean", "Scale", S);
 Y = [1.5, 15];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D, sqrt((0.5/1)^2 + (5/5)^2), 1e-10)
***** test
 ## Mahalanobis with correlated data
 X = [1, 1; 2, 1.5; 3, 2];
 C = [1, 0.5; 0.5, 1];
 obj = ExhaustiveSearcher (X, "Distance", "mahalanobis", "Cov", C);
 Y = [2, 1.5];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 2)
 assert (D, 0, 1e-10)
***** test
 ## Cityblock with sparse data
 X = [0, 0, 1; 1, 0, 0; 0, 1, 0];
 obj = ExhaustiveSearcher (X, "Distance", "cityblock");
 Y = [0, 0, 0];
 [idx, D] = rangesearch (obj, Y, 1);
 assert (idx{1}, [1, 2, 3])
 assert (D{1}, [1, 1, 1], 1e-10)
***** test
 ## Chebychev with extreme values
 X = [0, 100; 50, 50; 100, 0];
 obj = ExhaustiveSearcher (X, "Distance", "chebychev");
 Y = [60, 60];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 2)
 assert (D, 10, 1e-10)
***** test
 ## Cosine with normalized data
 X = [1, 0; 0, 1; 1/sqrt(2), 1/sqrt(2)];
 obj = ExhaustiveSearcher (X, "Distance", "cosine");
 Y = [1, 1];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 3)
 assert (D < 0.1, true)
***** test
 ## Correlation with time-series-like data
 X = [1, 2, 3; 2, 4, 6; 1, 1, 1];
 obj = ExhaustiveSearcher (X, "Distance", "correlation");
 Y = [1.5, 3, 4.5];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D < 0.1, true)
***** test
 ## Spearman with ranked data
 X = [1, 2, 3; 3, 2, 1; 2, 1, 3];
 obj = ExhaustiveSearcher (X, "Distance", "spearman");
 Y = [1, 2, 3];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D, 0, 1e-10)
***** test
 ## Jaccard with binary sparse data
 X = [1, 0, 0; 0, 1, 0; 1, 1, 0];
 obj = ExhaustiveSearcher (X, "Distance", "jaccard");
 Y = [1, 0, 0];
 [idx, D] = knnsearch (obj, Y);
 assert (idx, 1)
 assert (D, 0, 1e-10)
***** test
 obj = ExhaustiveSearcher (ones(3,2));
 assert (obj.X, ones(3,2))
 assert (obj.Distance, "euclidean")
 assert (isempty (obj.DistParameter))
***** test
 obj = ExhaustiveSearcher (ones(3,2));
 obj.Distance = "minkowski";
 assert (obj.Distance, "minkowski")
***** test
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "minkowski");
 obj.DistParameter = 3;
 assert (obj.DistParameter, 3)
***** test
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "seuclidean");
 obj.DistParameter = [1, 2];
 assert (obj.DistParameter, [1, 2])
***** test
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "mahalanobis");
 obj.DistParameter = eye(2);
 assert (obj.DistParameter, eye(2))
***** error<ExhaustiveSearcher: too few input arguments.> ...
 ExhaustiveSearcher ()
***** error<ExhaustiveSearcher: Name-Value arguments must be in pairs.> ...
 ExhaustiveSearcher (ones(3,2), "Distance")
***** error<ExhaustiveSearcher: X must be a finite numeric matrix.> ...
 ExhaustiveSearcher ("abc")
***** error<ExhaustiveSearcher: X must be a finite numeric matrix.> ...
 ExhaustiveSearcher ([1; Inf; 3])
***** error<ExhaustiveSearcher: invalid parameter name: 'foo'.> ...
 ExhaustiveSearcher (ones(3,2), "foo", "bar")
***** error<ExhaustiveSearcher: unsupported distance metric 'invalid'.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", "invalid")
***** error<ExhaustiveSearcher: invalid distance function handle.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", @(x) x)
***** error<ExhaustiveSearcher: Distance must be a string or function handle.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", 1)
***** error<ExhaustiveSearcher: P must be a positive finite scalar.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", "minkowski", "P", -1)
***** error<ExhaustiveSearcher: Scale must be a nonnegative vector matching X columns.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", "seuclidean", "Scale", [-1, 1])
***** error<ExhaustiveSearcher: Cov must be a square matrix matching X columns.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", "mahalanobis", "Cov", ones(3,3))
***** error<ExhaustiveSearcher: Cov must be positive definite.> ...
 ExhaustiveSearcher (ones(3,2), "Distance", "mahalanobis", "Cov", -eye(2))
***** error<ExhaustiveSearcher.knnsearch: too few input arguments.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)))
***** error<ExhaustiveSearcher.knnsearch: Name-Value arguments must be in pairs.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), "IncludeTies")
***** error<ExhaustiveSearcher.knnsearch: Y must be a finite numeric matrix.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)), "abc")
***** error<ExhaustiveSearcher.knnsearch: number of columns in X and Y must match.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)), ones(3,3))
***** error<ExhaustiveSearcher.knnsearch: K must be a positive integer.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), "K", 0)
***** error<ExhaustiveSearcher.knnsearch: invalid parameter name: 'foo'.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), "foo", "bar")
***** error<ExhaustiveSearcher.knnsearch: IncludeTies must be a logical scalar.> ...
 knnsearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), "IncludeTies", 1)
***** error<ExhaustiveSearcher.rangesearch: too few input arguments.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)))
***** error<ExhaustiveSearcher.rangesearch: Name-Value arguments must be in pairs.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), 1, "SortIndices")
***** error<ExhaustiveSearcher.rangesearch: Y must be a finite numeric matrix.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)), "abc", 1)
***** error<ExhaustiveSearcher.rangesearch: number of columns in X and Y must match.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)), ones(3,3), 1)
***** error<ExhaustiveSearcher.rangesearch: R must be a nonnegative finite scalar.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), -1)
***** error<ExhaustiveSearcher.rangesearch: invalid parameter name: 'foo'.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), 1, "foo", "bar")
***** error<ExhaustiveSearcher.rangesearch: SortIndices must be a logical scalar.> ...
 rangesearch (ExhaustiveSearcher (ones(3,2)), ones(3,2), 1, "SortIndices", 1)
***** error<ExhaustiveSearcher.subsref: \(\) indexing not supported.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj(1)
***** error<ExhaustiveSearcher.subsref: {} indexing not supported.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj{1}
***** error<dynamic structure field names must be strings> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.(1)
***** error<ExhaustiveSearcher.subsref: unrecognized property: 'invalid'> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.invalid
***** error<ExhaustiveSearcher.subsasgn: \(\) indexing not supported.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj(1) = 1
***** error<ExhaustiveSearcher.subsasgn: {} indexing not supported.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj{1} = 1
***** error<ExhaustiveSearcher.subsasgn: chained subscripts not allowed.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.X.Y = 1
***** error<dynamic structure field names must be strings> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.(1) = 1
***** error<ExhaustiveSearcher.subsasgn: X is read-only and cannot be modified.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.X = 1
***** error<ExhaustiveSearcher.subsasgn: unsupported distance metric 'invalid'.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.Distance = "invalid"
***** error<ExhaustiveSearcher.subsasgn: invalid distance function handle.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.Distance = @(x) x
***** error<ExhaustiveSearcher.subsasgn: custom distance function output invalid.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.Distance = @(x, y) [1; 1]
***** error<ExhaustiveSearcher.subsasgn: Distance must be a string or function handle.> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.Distance = 1
***** error<ExhaustiveSearcher.subsasgn: DistParameter must be a positive finite scalar for minkowski.> ...
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "minkowski"); obj.DistParameter = -1
***** error<ExhaustiveSearcher.subsasgn: DistParameter must be a nonnegative vector matching X columns.> ...
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "seuclidean"); obj.DistParameter = [-1, 1]
***** error<ExhaustiveSearcher.subsasgn: DistParameter must be a square matrix matching X columns.> ...
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "mahalanobis"); obj.DistParameter = ones(3,3)
***** error<ExhaustiveSearcher.subsasgn: DistParameter must be positive definite for mahalanobis.> ...
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "mahalanobis"); obj.DistParameter = -eye(2)
***** error<ExhaustiveSearcher.subsasgn: DistParameter must be empty for this distance metric.> ...
 obj = ExhaustiveSearcher (ones(3,2), "Distance", "euclidean"); obj.DistParameter = 1
***** error<ExhaustiveSearcher.subsasgn: unrecognized property: 'invalid'> ...
 obj = ExhaustiveSearcher (ones(3,2)); obj.invalid = 1
75 tests, 75 passed, 0 known failure, 0 skipped
[inst/Clustering/DaviesBouldinEvaluation.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/Clustering/DaviesBouldinEvaluation.m
***** test
 load fisheriris
 eva = evalclusters (meas, "kmeans", "DaviesBouldin", "KList", [1:6]);
 assert (class (eva), "DaviesBouldinEvaluation");
1 test, 1 passed, 0 known failure, 0 skipped
[inst/factoran.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/factoran.m
***** demo
 x = [ 7    26     6    60;
       1    29    15    52;
      11    56     8    20;
      11    31     8    47;
       7    52     6    33;
      11    55     9    22;
       3    71    17     6;
       1    31    22    44;
       2    54    18    22;
      21    47     4    26;
       1    40    23    34;
      11    66     9    12;
      10    68     8    12
     ];
 [loadings, specvar, fscores] = factoran (x, 2);
***** test
 x = [1, 2; 2, 1; 3, 3];
 [loadings, specvar, fscores] = factoran (x, 1);
 l_out = [0.7071; 0.7071];
 s_out = [0.5000; 0.5000];
 f_out = [-0.7071; -0.7071; 1.4142];
 assert (loadings, l_out, 1.3e-4);
 assert (specvar, s_out, 1.3e-4);
 assert (fscores, f_out, 1.3e-4);
***** error factoran ()
***** error factoran (ones (5,3), 0)
***** error factoran (ones (5,3), 3)
***** error<factoran: X must be a numeric matrix.> factoran ({1,2}, 1)
***** error<factoran: X must be a numeric matrix.> factoran (ones (2,2,2), 1)
***** error<EIG: matrix contains Inf or NaN values> x=ones (3,2); x(:,2)=0; factoran (x,1)
7 tests, 7 passed, 0 known failure, 0 skipped
[inst/regression_ftest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/regression_ftest.m
***** error<Invalid call to regression_ftest.  Correct usage> regression_ftest ();
***** error<Invalid call to regression_ftest.  Correct usage> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]');
***** error<regression_ftest: Y must contain finite real numbers.> ...
 regression_ftest ([1 2 NaN]', [2 3 4; 3 4 5]', [1 0.5]);
***** error<regression_ftest: Y must contain finite real numbers.> ...
 regression_ftest ([1 2 Inf]', [2 3 4; 3 4 5]', [1 0.5]);
***** error<regression_ftest: Y must contain finite real numbers.> ...
 regression_ftest ([1 2 3+i]', [2 3 4; 3 4 5]', [1 0.5]);
***** error<regression_ftest: X must contain finite real numbers.> ...
 regression_ftest ([1 2 3]', [2 3 NaN; 3 4 5]', [1 0.5]);
***** error<regression_ftest: X must contain finite real numbers.> ...
 regression_ftest ([1 2 3]', [2 3 Inf; 3 4 5]', [1 0.5]);
***** error<regression_ftest: X must contain finite real numbers.> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 3+i]', [1 0.5]);
***** error<regression_ftest: invalid value for alpha.> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], [], "alpha", 0);
***** error<regression_ftest: invalid value for alpha.> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], [], "alpha", 1.2);
***** error<regression_ftest: invalid value for alpha.> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], [], "alpha", [.02 .1]);
***** error<regression_ftest: invalid value for alpha.> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], [], "alpha", "a");
***** error<regression_ftest: invalid Name argument.> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], [], "some", 0.05);
***** error<regression_ftest: Y must be a vector of length> ...
 regression_ftest ([1 2 3]', [2 3; 3 4]', [1 0.5]);
***** error<regression_ftest: Y must be a vector of length> ...
 regression_ftest ([1 2; 3 4]', [2 3; 3 4]', [1 0.5]);
***** error<regression_ftest: reduced model, RM, must be a numeric vector or> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], ones (2));
***** error<regression_ftest: reduced model, RM, must be a numeric vector or> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], "alpha");
***** error<regression_ftest: reduced model, RM, must have smaller length than> ...
 regression_ftest ([1 2 3]', [2 3 4; 3 4 5]', [1 0.5], [1 2]);
18 tests, 18 passed, 0 known failure, 0 skipped
[inst/isoutlier.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/isoutlier.m
***** demo
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 TF = isoutlier (A, "mean")
***** demo
 ## Use a moving detection method to detect local outliers in a sine wave

 x = -2*pi:0.1:2*pi;
 A = sin(x);
 A(47) = 0;
 time = datenum (2023,1,1,0,0,0) + (1/24)*[0:length(x)-1] - 730485;
 TF = isoutlier (A, "movmedian", 5*(1/24), "SamplePoints", time);
 plot (time, A)
 hold on
 plot (time(TF), A(TF), "x")
 datetick ('x', 20, 'keepticks')
 legend ("Original Data", "Outlier Data")
***** demo
 ## Locate an outlier in a vector of data and visualize the outlier

 x = 1:10;
 A = [60 59 49 49 58 100 61 57 48 58];
 [TF, L, U, C] = isoutlier (A);
 plot (x, A);
 hold on
 plot (x(TF), A(TF), "x");
 xlim ([1,10]);
 line ([1,10], [L, L], "Linestyle", ":");
 text (1.1, L-2, "Lower Threshold");
 line ([1,10], [U, U], "Linestyle", ":");
 text (1.1, U-2, "Upper Threshold");
 line ([1,10], [C, C], "Linestyle", ":");
 text (1.1, C-3, "Center Value");
 legend ("Original Data", "Outlier Data");
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 assert (isoutlier (A, "mean"), logical([zeros(1,8) 1 zeros(1,6)]))
 assert (isoutlier (A, "median"), ...
 logical([zeros(1,3) 1 zeros(1,4) 1 zeros(1,6)]))
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "mean");
 assert (L, -109.2459044922864, 1e-12)
 assert (U, 264.9792378256198, 1e-12)
 assert (C, 77.8666666666666, 1e-12)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "median");
 assert (L, 50.104386688966386, 1e-12)
 assert (U, 67.895613311033610, 1e-12)
 assert (C, 59)
***** test
 A = magic(5) + diag(200*ones(1,5));
 T = logical (eye (5));
 assert (isoutlier (A, 2), T)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "movmedian", 5);
 l = [54.5522, 52.8283, 54.5522, 54.5522, 54.5522, 53.5522, 53.5522, ...
      53.5522, 47.6566, 56.5522, 57.5522, 56.5522, 51.1044, 52.3283, 53.5522];
 u = [63.4478, 66.1717, 63.4478, 63.4478, 63.4478, 62.4478, 62.4478, ...
      62.4478, 74.3434, 65.4478, 66.4478, 65.4478, 68.8956, 65.6717, 62.4478];
 c = [59, 59.5, 59, 59, 59, 58, 58, 58, 61, 61, 62, 61, 60, 59, 58];
 assert (L, l, 1e-4)
 assert (U, u, 1e-4)
 assert (C, c)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "movmedian", 5, "SamplePoints", [1:15]);
 l = [54.5522, 52.8283, 54.5522, 54.5522, 54.5522, 53.5522, 53.5522, ...
      53.5522, 47.6566, 56.5522, 57.5522, 56.5522, 51.1044, 52.3283, 53.5522];
 u = [63.4478, 66.1717, 63.4478, 63.4478, 63.4478, 62.4478, 62.4478, ...
      62.4478, 74.3434, 65.4478, 66.4478, 65.4478, 68.8956, 65.6717, 62.4478];
 c = [59, 59.5, 59, 59, 59, 58, 58, 58, 61, 61, 62, 61, 60, 59, 58];
 assert (L, l, 1e-4)
 assert (U, u, 1e-4)
 assert (C, c)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "movmean", 5);
 l = [54.0841,  6.8872, 11.5608, 12.1518, 11.0210, 10.0112, -218.2840, ...
      -217.2375, -215.1239, -213.4890, -211.3264, 55.5800, 52.9589, ...
      52.5979, 51.0627];
 u = [63.2492, 131.1128, 122.4392, 122.2482, 122.5790, 122.7888, 431.0840, ...
      430.8375, 430.3239, 429.8890, 429.3264, 65.6200, 66.6411, 65.9021, ...
      66.9373];
 c = [58.6667, 69, 67, 67.2, 66.8, 66.4, 106.4, 106.8, 107.6, 108.2, 109, ...
      60.6, 59.8, 59.25, 59];
 assert (L, l, 1e-4)
 assert (U, u, 1e-4)
 assert (C, c, 1e-4)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "movmean", 5, "SamplePoints", [1:15]);
 l = [54.0841,  6.8872, 11.5608, 12.1518, 11.0210, 10.0112, -218.2840, ...
      -217.2375, -215.1239, -213.4890, -211.3264, 55.5800, 52.9589, ...
      52.5979, 51.0627];
 u = [63.2492, 131.1128, 122.4392, 122.2482, 122.5790, 122.7888, 431.0840, ...
      430.8375, 430.3239, 429.8890, 429.3264, 65.6200, 66.6411, 65.9021, ...
      66.9373];
 c = [58.6667, 69, 67, 67.2, 66.8, 66.4, 106.4, 106.8, 107.6, 108.2, 109, ...
      60.6, 59.8, 59.25, 59];
 assert (L, l, 1e-4)
 assert (U, u, 1e-4)
 assert (C, c, 1e-4)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "gesd");
 assert (TF, logical ([0 0 0 1 0 0 0 0 1 0 0 0 0 0 0]))
 assert (L, 34.235977035439944, 1e-12)
 assert (U, 89.764022964560060, 1e-12)
 assert (C, 62)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "gesd", "ThresholdFactor", 0.01);
 assert (TF, logical ([0 0 0 1 0 0 0 0 1 0 0 0 0 0 0]))
 assert (L, 31.489256770616173, 1e-12)
 assert (U, 92.510743229383820, 1e-12)
 assert (C, 62)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "gesd", "ThresholdFactor", 5e-10);
 assert (TF, logical ([0 0 0 0 0 0 0 0 1 0 0 0 0 0 0]))
 assert (L, 23.976664158788935, 1e-12)
 assert (U, 100.02333584121110, 1e-12)
 assert (C, 62)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "grubbs");
 assert (TF, logical ([0 0 0 1 0 0 0 0 1 0 0 0 0 0 0]))
 assert (L, 54.642809574646606, 1e-12)
 assert (U, 63.511036579199555, 1e-12)
 assert (C, 59.076923076923080, 1e-12)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A, "grubbs", "ThresholdFactor", 0.01);
 assert (TF, logical ([0 0 0 1 0 0 0 0 1 0 0 0 0 0 0]))
 assert (L, 54.216083184201850, 1e-12)
 assert (U, 63.937762969644310, 1e-12)
 assert (C, 59.076923076923080, 1e-12)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A,  "percentiles", [10 90]);
 assert (TF, logical ([0 0 0 0 0 0 0 0 1 0 0 0 0 0 0]))
 assert (L, 57)
 assert (U, 100)
 assert (C, 78.5)
***** test
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
 [TF, L, U, C] = isoutlier (A,  "percentiles", [20 80]);
 assert (TF, logical ([1 0 0 1 0 0 1 0 1 0 0 0 0 0 1]))
 assert (L, 57.5)
 assert (U, 62)
 assert (C, 59.75)
***** shared A
 A = [57 59 60 100 59 58 57 58 300 61 62 60 62 58 57];
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", 0);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", []);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", [2 3 4]);
***** error<isoutlier: WINDOW must be a positive integer> ...
 isoutlier (A, "movmedian", 1.4);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", [0 1]);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", [2 -1]);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", {2 3});
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmedian", "char");

***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", 0);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", []);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", [2 3 4]);
***** error<isoutlier: WINDOW must be a positive integer> ...
 isoutlier (A, "movmean", 1.4);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", [0 1]);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", [2 -1]);
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", {2 3});
***** error<isoutlier: WINDOW must be a positive scalar> ...
 isoutlier (A, "movmean", "char");

***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", [-1 90]);
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", [10 -90]);
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", [90]);
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", [90 20]);
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", [90 20]);
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", [10 20 90]);
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", {10 90});
***** error<isoutlier: THRESHOLD must be a two-element> ...
 isoutlier (A, "percentiles", "char");

***** error<isoutlier: sample points must be a vector.> ...
 isoutlier (A, "movmean", 5, "SamplePoints", ones(3,15));
***** error<isoutlier: sample points must be a vector.> ...
 isoutlier (A, "movmean", 5, "SamplePoints", 15);
***** error<isoutlier: sample points must be unique.> ...
 isoutlier (A, "movmean", 5, "SamplePoints", [1,1:14]);
***** error<isoutlier: sample points must be sorted.> ...
 isoutlier (A, "movmean", 5, "SamplePoints", [2,1,3:15]);
***** error<isoutlier: sample points must have the same size> ...
 isoutlier (A, "movmean", 5, "SamplePoints", [1:14]);

***** error<isoutlier: threshold factor must be a nonnegative scalar.> ...
 isoutlier (A, "movmean", 5, "ThresholdFactor", [1:14]);
***** error<isoutlier: threshold factor must be a nonnegative scalar.> ...
 isoutlier (A, "movmean", 5, "ThresholdFactor", -1);
***** error<isoutlier: threshold factor must must be in> ...
 isoutlier (A, "gesd", "ThresholdFactor", 3);
***** error<isoutlier: threshold factor must must be in> ...
 isoutlier (A, "grubbs", "ThresholdFactor", 3);

***** error<isoutlier: maximum outlier count must be a positive integer scalar.> ...
 isoutlier (A, "movmean", 5, "MaxNumOutliers", [1:14]);
***** error<isoutlier: maximum outlier count must be a positive integer scalar.> ...
 isoutlier (A, "movmean", 5, "MaxNumOutliers", -1);
***** error<isoutlier: maximum outlier count must be a positive integer scalar.> ...
 isoutlier (A, "movmean", 5, "MaxNumOutliers", 0);
***** error<isoutlier: maximum outlier count must be a positive integer scalar.> ...
 isoutlier (A, "movmean", 5, "MaxNumOutliers", 1.5);

***** error<isoutlier: invalid input argument.> ...
 isoutlier (A, {"movmean"}, 5, "SamplePoints", [1:15]);
***** error<isoutlier: invalid input argument.> isoutlier (A, {1});
***** error<isoutlier: invalid input argument.> isoutlier (A, true);
***** error<isoutlier: invalid input argument.> isoutlier (A, false);
***** error<isoutlier: DIM must be a positive integer scalar.> isoutlier (A, 0);
***** error<isoutlier: DIM must be a positive integer scalar.> isoutlier (A, [1 2]);
***** error<isoutlier: DIM must be a positive integer scalar.> isoutlier (A, -2);
59 tests, 59 passed, 0 known failure, 0 skipped
[inst/nanmean.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/nanmean.m
***** demo
 ## Find the column means for a matrix with missing values.,

 x = magic (3);
 x([1, 4, 7:9]) = NaN
 y = nanmean (x)
***** demo
 ## Find the row means for a matrix with missing values.,

 x = magic (3);
 x([1, 4, 7:9]) = NaN
 y = nanmean (x, 2)
***** demo
 ## Find the mean of all the values in a multidimensional array
 ## with missing values.

 x = reshape (1:30, [2, 5, 3]);
 x([10:12, 25]) = NaN
 y = nanmean (x, "all")
***** demo
 ## Find the mean of a multidimensional array with missing values over
 ## multiple dimensions.

 x = reshape (1:30, [2, 5, 3]);
 x([10:12, 25]) = NaN
 y = nanmean (x, [2, 3])
***** assert (nanmean ([]), NaN)
***** assert (nanmean (NaN), NaN)
***** assert (nanmean (NaN(3)), [NaN, NaN, NaN])
***** assert (nanmean ([3 2 NaN 7]), 4)
***** assert (nanmean ([2 4 NaN Inf]), Inf)
***** assert (nanmean ([1 NaN 3; NaN 4 6; 7 8 NaN]), [4 6 4.5])
***** assert (nanmean ([1 NaN 3; NaN 5 6; 7 8 NaN], 2), [2; 5.5; 7.5])
***** assert (nanmean (uint8 ([2 4 1 7])), 3.5)
***** test
 x = magic(3);
 x([1 6:9]) = NaN;
 assert (nanmean (x), [3.5, 3, NaN])
 assert (nanmean (x, 2), [1; 4; 4])
***** test
 x = reshape(1:24, [2, 4, 3]);
 x([5:6, 20]) = NaN;
 assert (nanmean (x, "all"), 269/21)
***** test
 x = reshape(1:24,[2, 4, 3]);
 x([5:6, 20]) = NaN;
 assert (squeeze (nanmean (x, [1, 2])), [25/6; 100/8; 144/7])
 assert (nanmean (x, [2, 3]), [139/11; 13])
11 tests, 11 passed, 0 known failure, 0 skipped
[inst/pcares.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/pcares.m
***** demo
 x = [ 7    26     6    60;
       1    29    15    52;
      11    56     8    20;
      11    31     8    47;
       7    52     6    33;
      11    55     9    22;
       3    71    17     6;
       1    31    22    44;
       2    54    18    22;
      21    47     4    26;
       1    40    23    34;
      11    66     9    12;
      10    68     8    12];

 ## As we increase the number of principal components, the norm
 ## of the residuals matrix will decrease
 r1 = pcares (x,1);
 n1 = norm (r1)
 r2 = pcares (x,2);
 n2 = norm (r2)
 r3 = pcares (x,3);
 n3 = norm (r3)
 r4 = pcares (x,4);
 n4 = norm (r4)
***** test
 load hald
 r1 = pcares (ingredients,1);
 r2 = pcares (ingredients,2);
 r3 = pcares (ingredients,3);
 assert (r1(1,:), [2.0350,  2.8304, -6.8378, 3.0879], 1e-4);
 assert (r2(1,:), [-2.4037, 2.6930, -1.6482, 2.3425], 1e-4);
 assert (r3(1,:), [ 0.2008, 0.1957,  0.2045, 0.1921], 1e-4);
***** error<pcares: too few input arguments.> pcares (ones (20, 3))
***** error<pcares: NDIM must be less than or equal to the column of X.> ...
 pcares (ones (30, 2), 3)
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/dendrogram.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dendrogram.m
***** demo
 ## simple dendrogram
 y = [4, 5; 2, 6; 3, 7; 8, 9; 1, 10];
 y(:,3) = 1:5;
 dendrogram (y);
 title ("simple dendrogram");
***** demo
 ## another simple dendrogram
 v = 2 * rand (30, 1) - 1;
 d = abs (bsxfun (@minus, v(:, 1), v(:, 1)'));
 y = linkage (squareform (d, "tovector"));
 dendrogram (y);
 title ("another simple dendrogram");
***** demo
 ## collapsed tree, find all the leaves of node 5
 X = randn (60, 2);
 D = pdist (X);
 y = linkage (D, "average");
 subplot (2, 1, 1);
 title ("original tree");
 dendrogram (y, 0);
 subplot (2, 1, 2);
 title ("collapsed tree");
 [~, t] = dendrogram (y, 20);
 find(t == 5)
***** demo
 ## optimal leaf order
 X = randn (30, 2);
 D = pdist (X);
 y = linkage (D, "average");
 order = optimalleaforder (y, D);
 subplot (2, 1, 1);
 title ("original leaf order");
 dendrogram (y);
 subplot (2, 1, 2);
 title ("optimal leaf order");
 dendrogram (y, "Reorder", order);
***** demo
 ## horizontal orientation and labels
 X = randn (8, 2);
 D = pdist (X);
 L = ["Snow White"; "Doc"; "Grumpy"; "Happy"; "Sleepy"; "Bashful"; ...
      "Sneezy"; "Dopey"];
 y = linkage (D, "average");
 dendrogram (y, "Orientation", "left", "Labels", L);
 title ("horizontal orientation and labels");
***** shared visibility_setting
 visibility_setting = get (0, "DefaultFigureVisible");
***** test
 hf = figure ("visible", "off");
 unwind_protect
   y = [4, 5; 2, 6; 3, 7; 8, 9; 1, 10];
   y(:,3) = 1:5;
   dendrogram (y);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   y = [4, 5; 2, 6; 3, 7; 8, 9; 1, 10];
   y(:,3) = 1:5;
   dendrogram (y);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   v = 2 * rand (30, 1) - 1;
   d = abs (bsxfun (@minus, v(:, 1), v(:, 1)'));
   y = linkage (squareform (d, "tovector"));
   dendrogram (y);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   X = randn (30, 2);
   D = pdist (X);
   y = linkage (D, "average");
   order = optimalleaforder (y, D);
   subplot (2, 1, 1);
   title ("original leaf order");
   dendrogram (y);
   subplot (2, 1, 2);
   title ("optimal leaf order");
   dendrogram (y, "Reorder", order);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error dendrogram ();
***** error <tree must be .*> dendrogram (ones (2, 2), 1);
***** error <unknown property .*> dendrogram ([1 2 1], 1, "xxx", "xxx");
***** error <reorder.*> dendrogram ([1 2 1], "Reorder", "xxx");
***** error <reorder.*> dendrogram ([1 2 1], "Reorder", [1 2 3 4]);
 fail ('dendrogram ([1 2 1], "Orientation", "north")', "invalid orientation .*")
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/inconsistent.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/inconsistent.m
***** error inconsistent ()
***** error inconsistent ([1 2 1], 2, 3)
***** error <Z must be .* generated by the linkage .*> inconsistent (ones (2, 2))
***** error <d must be a positive integer scalar> inconsistent ([1 2 1], -1)
***** error <d must be a positive integer scalar> inconsistent ([1 2 1], 1.3)
***** error <d must be a positive integer scalar> inconsistent ([1 2 1], [1 1])
***** error <Z must be .* generated by the linkage .*> inconsistent (ones (2, 3))
***** test
 load fisheriris;
 Z = linkage(meas, 'average', 'chebychev');
 assert (cond (inconsistent (Z)), 39.9, 1e-3);
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/nanmin.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/nanmin.m
***** demo
 ## Find the column minimum values and their indices
 ## for matrix data with missing values.

 x = magic (3);
 x([1, 6:9]) = NaN
 [y, ind] = nanmin (x)
***** demo
 ## Find the minimum of all the values in an array, ignoring missing values.
 ## Create a 2-by-5-by-3 array x with some missing values.

 x = reshape (1:30, [2, 5, 3]);
 x([10:12, 25]) = NaN

 ## Find the minimum of the elements of x.

 y = nanmin (x, [], 'all')
***** assert (nanmin ([2, 4, NaN, 7]), 2)
***** assert (nanmin ([2, 4, NaN, -Inf]), -Inf)
***** assert (nanmin ([1, NaN, 3; NaN, 5, 6; 7, 8, NaN]), [1, 5, 3])
***** assert (nanmin ([1, NaN, 3; NaN, 5, 6; 7, 8, NaN]'), [1, 5, 7])
***** assert (nanmin (single ([1, NaN, 3; NaN, 5, 6; 7, 8, NaN])), single ([1, 5, 3]))
***** shared x, y
 x(:,:,1) = [1.77, -0.005, NaN, -2.95; NaN, 0.34, NaN, 0.19];
 x(:,:,2) = [1.77, -0.005, NaN, -2.95; NaN, 0.34, NaN, 0.19] + 5;
 y = x;
 y(2,3,1) = 0.51;
***** assert (nanmin (x, [], [1, 2])(:), [-2.95; 2.05])
***** assert (nanmin (x, [], [1, 3])(:), [1.77; -0.005; NaN; -2.95])
***** assert (nanmin (x, [], [2, 3])(:), [-2.95; 0.19])
***** assert (nanmin (x, [], [1, 2, 3]), -2.95)
***** assert (nanmin (x, [], 'all'), -2.95)
***** assert (nanmin (y, [], [1, 3])(:), [1.77; -0.005; 0.51; -2.95])
***** assert (nanmin (x(1,:,1), x(2,:,1)), [1.77, -0.005, NaN, -2.95])
***** assert (nanmin (x(1,:,2), x(2,:,2)), [6.77, 4.995, NaN, 2.05])
***** assert (nanmin (y(1,:,1), y(2,:,1)), [1.77, -0.005, 0.51, -2.95])
***** assert (nanmin (y(1,:,2), y(2,:,2)), [6.77, 4.995, NaN, 2.05])
***** test
 xx = repmat ([1:20;6:25], [5 2 6 3]);
 assert (size (nanmin (xx, [], [3, 2])), [10, 1, 1, 3]);
 assert (size (nanmin (xx, [], [1, 2])), [1, 1, 6, 3]);
 assert (size (nanmin (xx, [], [1, 2, 4])), [1, 1, 6]);
 assert (size (nanmin (xx, [], [1, 4, 3])), [1, 40]);
 assert (size (nanmin (xx, [], [1, 2, 3, 4])), [1, 1]);
***** assert (nanmin (ones (2), [], 3), ones (2, 2))
***** assert (nanmin (ones (2, 2, 2), [], 99), ones (2, 2, 2))
***** assert (nanmin (magic (3), [], 3), magic (3))
***** assert (nanmin (magic (3), [], [1, 3]), [3, 1, 2])
***** assert (nanmin (magic (3), [], [1, 99]), [3, 1, 2])
***** assert (nanmin (ones (2), 3), ones (2,2))
***** error <nanmin: VECDIM must contain non-repeating positive integers.> ...
 nanmin (y, [], [1, 1, 2])
***** error <nanmin: a second output is not supported with this syntax.> ...
 [v, idx] = nanmin(x, y, [1 2])
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/vartestn.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/vartestn.m
***** demo
 ## Test the null hypothesis that the variances are equal across the five
 ## columns of data in the students’ exam grades matrix, grades.

 load examgrades
 vartestn (grades)
***** demo
 ## Test the null hypothesis that the variances in miles per gallon (MPG) are
 ## equal across different model years.

 load carsmall
 vartestn (MPG, Model_Year)
***** demo
 ## Use Levene’s test to test the null hypothesis that the variances in miles
 ## per gallon (MPG) are equal across different model years.

 load carsmall
 p = vartestn (MPG, Model_Year, "TestType", "LeveneAbsolute")
***** demo
 ## Test the null hypothesis that the variances are equal across the five
 ## columns of data in the students’ exam grades matrix, grades, using the
 ## Brown-Forsythe test.  Suppress the display of the summary table of
 ## statistics and the box plot.

 load examgrades
 [p, stats] = vartestn (grades, "TestType", "BrownForsythe", "Display", "off")
***** error<vartestn: too few input arguments.> vartestn ();
***** error<vartestn: X must be a vector or a matrix.> vartestn (1);
***** error<vartestn: if X is a vector then a group vector is required.> ...
 vartestn ([1, 2, 3, 4, 5, 6, 7]);
***** error<vartestn: if X is a vector then a group vector is required.> ...
 vartestn ([1, 2, 3, 4, 5, 6, 7], []);
***** error<vartestn: if X is a vector then a group vector is required.> ...
 vartestn ([1, 2, 3, 4, 5, 6, 7], "TestType", "LeveneAbsolute");
***** error<vartestn: if X is a vector then a group vector is required.> ...
 vartestn ([1, 2, 3, 4, 5, 6, 7], [], "TestType", "LeveneAbsolute");
***** error<vartestn: invalid value for display.> ...
 vartestn ([1, 2, 3, 4, 5, 6, 7], [1, 1, 1, 2, 2, 2, 2], "Display", "some");
***** error<vartestn: invalid value for display.> ...
 vartestn (ones (50,3), "Display", "some");
***** error<vartestn: invalid value for testtype.> ...
 vartestn (ones (50,3), "Display", "off", "testtype", "some");
***** error<vartestn: optional arguments must be in name/value pairs.> ...
 vartestn (ones (50,3), [], "som");
***** error<vartestn: invalid name for optional arguments.> ...
 vartestn (ones (50,3), [], "some", "some");
***** error<vartestn: columns in X and GROUP length do not match.> ...
 vartestn (ones (50,3), [1, 2], "Display", "off");
***** test
 load examgrades
 [p, stat] = vartestn (grades, "Display", "off");
 assert (p, 7.908647337018238e-08, 1e-14);
 assert (stat.chisqstat, 38.7332, 1e-4);
 assert (stat.df, 4);
***** test
 load examgrades
 [p, stat] = vartestn (grades, "Display", "off", "TestType", "LeveneAbsolute");
 assert (p, 9.523239714592791e-07, 1e-14);
 assert (stat.fstat, 8.5953, 1e-4);
 assert (stat.df, [4, 595]);
***** test
 load examgrades
 [p, stat] = vartestn (grades, "Display", "off", "TestType", "LeveneQuadratic");
 assert (p, 7.219514351897161e-07, 1e-14);
 assert (stat.fstat, 8.7503, 1e-4);
 assert (stat.df, [4, 595]);
***** test
 load examgrades
 [p, stat] = vartestn (grades, "Display", "off", "TestType", "BrownForsythe");
 assert (p, 1.312093241723211e-06, 1e-14);
 assert (stat.fstat, 8.4160, 1e-4);
 assert (stat.df, [4, 595]);
***** test
 load examgrades
 [p, stat] = vartestn (grades, "Display", "off", "TestType", "OBrien");
 assert (p, 8.235660885480556e-07, 1e-14);
 assert (stat.fstat, 8.6766, 1e-4);
 assert (stat.df, [4, 595]);
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/crosstab.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/crosstab.m
***** error crosstab ()
***** error crosstab (1)
***** error <crosstab: x1, x2 ... xn must be vectors.> crosstab (ones (2), [1 1])
***** error <crosstab: x1, x2 ... xn must be vectors.> crosstab ([1 1], ones (2))
***** error <x1, x2 .* must be vectors of the same length> crosstab ([1], [1 2])
***** error <x1, x2 .* must be vectors of the same length> crosstab ([1 2], [1])
***** error <crosstab: unsupported type for data vector.> crosstab ([1 2], {1, 2})
***** test
 load carbig
 [t, chisq, p, labels] = crosstab (cyl4, when, org);
 assert (t(2,3,1), 38);
 assert (labels{3,3}, "Japan");
***** test
 load carbig
 [t, chisq, p, labels] = crosstab (cyl4, when, org);
 assert (t(2,3,2), 17);
 assert (labels{1,3}, "USA");
***** test
 x = [1, 1, 2, 3, 1];
 y = [1, 2, 5, 3, 1];
 t = crosstab (x, y);
 assert (t, [2, 1, 0, 0; 0, 0, 0, 1; 0, 0, 1, 0]);
***** test
 x = [1, 1, 2, 3, 1];
 y = [1, 2, 3, 5, 1];
 t = crosstab (x, y);
 assert (t, [2, 1, 0, 0; 0, 0, 1, 0; 0, 0, 0, 1]);
***** test
 x1 = [1, 3, 7, 7, 8];
 x2 = [4, 2, 1, 1, 1];
 x3 = [6, 2, 6, 2, NaN];
 T1 = [0, 0, 0; 0, 1, 0; 1, 0, 0; 0, 0, 0];
 T2 = [0, 0, 1; 0, 0, 0; 1, 0, 0; 0, 0, 0];
 T = zeros (4, 3, 2);
 T(:,:,1) = T1;
 T(:,:,2) = T2;
 t = crosstab (x1, x2, x3);
 assert (t, T);
***** test
 x = [1, 2, NaN, 1];
 y = [1, 2, 3, NaN];
 t = crosstab (x, y);
 assert (t, [1, 0, 0; 0, 1, 0]);
***** test
 x = categorical ({'A', 'B', 'A', 'C', 'B'});
 y = [1, 2, 1, 3, 2];
 t = crosstab (x, y);
 assert (size (t), [3, 3]);
 assert (t(1, 1), 2);  # A with 1
 assert (t(2, 2), 2);  # B with 2
***** test
 x = categorical ({'low', 'med', 'high', 'low', 'med'});
 y = categorical ({'X', 'Y', 'X', 'Y', 'X'});
 t = crosstab (x, y);
 assert (size (t), [3, 2]);
***** test
 ## Test categorical with numeric
 x = categorical ([10, 20, 10, 30, 20]);
 y = [1, 2, 1, 3, 2];
 t = crosstab (x, y);
 assert (t, [2, 0, 0; 0, 2, 0; 0, 0, 1]);
***** test
 smoker = [1 1 0 0 1 0 1 1 0 0 1 0]';
 gender = [1 0 1 0 1 1 0 0 1 0 0 1]';
 w = warning ();
 warning ('off');
 [t, chisq, p, labels] = crosstab (smoker, gender);
 warning (w);
 assert (t, [2 4; 4 2]);
 assert (chisq, 1.33333333, 1e-8);
 assert (p, 0.24821308, 1e-8);
 assert (labels{1,1}, '0');
 assert (labels{1,2}, '0');
 assert (labels{2,1}, '1');
 assert (labels{2,2}, '1');
***** test
 ## Test for categorical
 smk_cat = categorical ([0 0 1 1 0 1 0 0 1 1 0 1]');
 gen_cat = categorical ([0 1 0 1 0 0 1 1 0 1 1 0]');
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (smk_cat, gen_cat);
 warning (w);
 assert (t, [2 4; 4 2]);
 assert (chisq, 1.33333333, 1e-6);
 assert (p, 0.24821308, 1e-6);
***** test
 x = [1 1 1 2 2 2 3 3 3]';
 y = [1 1 1 2 2 2 3 3 3]';
 w = warning ();
 warning ('off');
 [t, chisq, p, labels] = crosstab (x, y);
 warning (w);
 assert (t, diag ([3 3 3]));
 assert (chisq, 18.00000000);
 assert (p, 0.00123410, 1e-8);
***** test
 ## Test for Partial NaN giving NaN for chisq/p
 x7 = [1 2 3 4 NaN NaN]';
 y7 = [10 20 30 40 50 60]';
 w = warning ();
 warning ('off');
 [t, chisq, p, labels] = crosstab (x7, y7);
 warning (w);
 assert (t, [eye(4), zeros(4, 2)]);
 assert (isnan (chisq));
 assert (isnan (p));
 assert (labels{1,1}, '1');
 assert (labels{1,2}, '10');
 assert (labels{2,1}, '2');
 assert (labels{2,2}, '20');
 assert (labels{3,1}, '3');
 assert (labels{3,2}, '30');
 assert (labels{4,1}, '4');
 assert (labels{4,2}, '40');
 assert (isempty (labels{5,1}));
 assert (labels{5,2}, '50');
 assert (isempty (labels{6,1}));
 assert (labels{6,2}, '60');
***** test
 a = ones (15,1);
 b = ones (15,1);
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (a, b);
 warning (w);
 assert (t, 15);
 assert (isnan (chisq));
 assert (isnan (p));
***** test
 ## all NaN → empty table + NaN stats
 na = NaN (6,1);
 nb = (1:6)';
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (na, nb);
 warning (w);
 assert (all (t(:) == 0));
 assert (isnan (chisq));
 assert (isnan (p));
***** test
 ## single observation → 1×1 table, NaN statistic
 w = warning ();
 warning ('off');
 [t, chisq, p, labels] = crosstab (5, 'Z');
 warning (w);
 assert (t, 1);
 assert (isnan (chisq));
 assert (isnan (p));
 assert (labels{1,1}, '5');
 assert (labels{1,2}, 'Z');
***** test
 xx = [1 1 1 1 2 2 2 2]';
 yy = [10 10 10 10 20 20 20 20]';
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (xx, yy);
 warning (w);
 assert (t, [4 0; 0 4]);
 assert (chisq, 8.00000000);
 assert (p, 0.00467773, 1e-8);
***** test
 set1 = repmat ((1:5)', 20, 1);
 set2 = repmat ([1; 2], 50, 1);
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (set1, set2);
 warning (w);
 assert (t, 10 * ones (5,2));
 assert (chisq, 0);
 assert (p, 1);
***** test
 ## 3-way table with NaN
 a = [1 1 2 2 3 3 1]';
 b = [1 2 1 2 1 2 1]';
 c = [1 1 NaN 2 2 1 2]';
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (a, b, c);
 warning (w);
 expected(:,:,1) = [1 1; 0 0; 0 1];
 expected(:,:,2) = [1 0; 0 1; 1 0];
 assert (t, expected);
 assert (chisq, 6.00000000);
 assert (p, 0.53974935, 1e-9);
***** test
 ## sparse cellstr
 g = [1 5 7 12 1 5 19]';
 h = {'A', 'B', 'A', 'C', 'D', 'E', 'A'}';
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (g, h);
 warning (w);
 assert (sum (t(:)), 7);
 assert (chisq, 16.33333333, 1e-8);
 assert (p, 0.42994852, 1e-8);
***** test
 ## string array
 str1 = ['low'; 'high'; 'med'; 'low'; 'high'];
 str2 = ['X'; 'Y'; 'X'; 'Y'; 'X'];
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (str1, str2);
 warning (w);
 assert (t, [1 1; 1 1; 1 0]);
 assert (chisq, 0.83333333, 1e-8);
 assert (p, 0.659240631, 1e-9);
***** test
 ## cellstr
 c1 = {'A','B','A','C','B','A'}';
 c2 = {'1','2','1','3','2','1'}';
 w = warning ();
 warning ('off');
 [t, chisq, p] = crosstab (c1, c2);
 warning (w);
 assert (t, [3 0 0; 0 2 0; 0 0 1]);
 assert (chisq, 12.00000000, 1e-14);
 assert (p, 0.01735127, 1e-8);
29 tests, 29 passed, 0 known failure, 0 skipped
[inst/cophenet.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/cophenet.m
***** demo
 randn ("seed", 5)  # for reproducibility
 X = randn (10,2);
 y = pdist (X);
 Z = linkage (y, "average");
 cophenet (Z, y)
***** error<cophenet: function called with too few input arguments.> cophenet ()
***** error<cophenet: function called with too few input arguments.> cophenet (1)
***** error<cophenet: Z must be a matrix as generated by the linkage function.> ...
 cophenet (ones (2,2), 1)
***** error<cophenet: Y must be a vector of euclidean distances.> ...
 cophenet ([1 2 1], "a")
***** error<cophenet: Y must be a vector of euclidean distances.> ...
 cophenet ([1 2 1], [1 2])
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/fitcdiscr.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/fitcdiscr.m
***** demo
 ## Train a linear discriminant classifier for Gamma = 0.5
 ## and plot the decision boundaries.

 load fisheriris
 idx = ! strcmp (species, "setosa");
 X = meas(idx,3:4);
 Y = cast (strcmpi (species(idx), "virginica"), "double");
 obj = fitcdiscr (X, Y, "Gamma", 0.5)
 x1 = [min(X(:,1)):0.03:max(X(:,1))];
 x2 = [min(X(:,2)):0.02:max(X(:,2))];
 [x1G, x2G] = meshgrid (x1, x2);
 XGrid = [x1G(:), x2G(:)];
 pred = predict (obj, XGrid);
 gidx = logical (pred);

 figure
 scatter (XGrid(gidx,1), XGrid(gidx,2), "markerfacecolor", "magenta");
 hold on
 scatter (XGrid(!gidx,1), XGrid(!gidx,2), "markerfacecolor", "red");
 plot (X(Y == 0, 1), X(Y == 0, 2), "ko", X(Y == 1, 1), X(Y == 1, 2), "kx");
 xlabel ("Petal length (cm)");
 ylabel ("Petal width (cm)");
 title ("Linear Discriminant Analysis Decision Boundary");
 legend ({"Versicolor Region", "Virginica Region", ...
         "Sampled Versicolor", "Sampled Virginica"}, ...
         "location", "northwest")
 axis tight
 hold off
***** test
 load fisheriris
 Mdl = fitcdiscr (meas, species, "Gamma", 0.5);
 [label, score, cost] = predict (Mdl, [2, 2, 2, 2]);
 assert (label, {'versicolor'})
 assert (score, [0, 0.9999, 0.0001], 1e-4)
 assert (cost, [1, 0.0001, 0.9999], 1e-4)
 [label, score, cost] = predict (Mdl, [2.5, 2.5, 2.5, 2.5]);
 assert (label, {'versicolor'})
 assert (score, [0, 0.6368, 0.3632], 1e-4)
 assert (cost, [1, 0.3632, 0.6368], 1e-4)
 assert (class (Mdl), "ClassificationDiscriminant");
 assert ({Mdl.X, Mdl.Y, Mdl.NumObservations}, {meas, species, 150})
 assert ({Mdl.DiscrimType, Mdl.ResponseName}, {"linear", "Y"})
 assert ({Mdl.Gamma, Mdl.MinGamma}, {0.5, 0})
 assert (Mdl.ClassNames, unique (species))
 sigma = [0.265008, 0.046361, 0.083757, 0.019201; ...
          0.046361, 0.115388, 0.027622, 0.016355; ...
          0.083757, 0.027622, 0.185188, 0.021333; ...
          0.019201, 0.016355, 0.021333, 0.041882];
 assert (Mdl.Sigma, sigma, 1e-6)
 mu = [5.0060, 3.4280, 1.4620, 0.2460; ...
       5.9360, 2.7700, 4.2600, 1.3260; ...
       6.5880, 2.9740, 5.5520, 2.0260];
 assert (Mdl.Mu, mu, 1e-14)
 assert (Mdl.LogDetSigma, -8.6884, 1e-4)
***** error<fitcdiscr: too few arguments.> fitcdiscr ()
***** error<fitcdiscr: too few arguments.> fitcdiscr (ones (4,1))
***** error<fitcdiscr: name-value arguments must be in pairs.>
 fitcdiscr (ones (4,2), ones (4, 1), "K")
***** error<fitcdiscr: number of rows in X and Y must be equal.>
 fitcdiscr (ones (4,2), ones (3, 1))
***** error<fitcdiscr: number of rows in X and Y must be equal.>
 fitcdiscr (ones (4,2), ones (3, 1), "K", 2)
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/kstest2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/kstest2.m
***** error kstest2 ([1,2,3,4,5,5])
***** error kstest2 (ones(2,4), [1,2,3,4,5,5])
***** error kstest2 ([2,3,5,7,3+3i], [1,2,3,4,5,5])
***** error kstest2 ([2,3,4,5,6],[3;5;7;8;7;6;5],"tail")
***** error kstest2 ([2,3,4,5,6],[3;5;7;8;7;6;5],"tail", "whatever")
***** error kstest2 ([2,3,4,5,6],[3;5;7;8;7;6;5],"badoption", 0.51)
***** error kstest2 ([2,3,4,5,6],[3;5;7;8;7;6;5],"tail", 0)
***** error kstest2 ([2,3,4,5,6],[3;5;7;8;7;6;5],"alpha", 0)
***** error kstest2 ([2,3,4,5,6],[3;5;7;8;7;6;5],"alpha", NaN)
***** error kstest2 ([NaN,NaN,NaN,NaN,NaN],[3;5;7;8;7;6;5],"tail", "unequal")
***** test
 load examgrades
 [h, p] = kstest2 (grades(:,1), grades(:,2));
 assert (h, false);
 assert (p, 0.1222791870137312, 1e-14);
***** test
 load examgrades
 [h, p] = kstest2 (grades(:,1), grades(:,2), "tail", "larger");
 assert (h, false);
 assert (p, 0.1844421391011258, 1e-14);
***** test
 load examgrades
 [h, p] = kstest2 (grades(:,1), grades(:,2), "tail", "smaller");
 assert (h, false);
 assert (p, 0.06115357930171663, 1e-14);
***** test
 load examgrades
 [h, p] = kstest2 (grades(:,1), grades(:,2), "tail", "smaller", "alpha", 0.1);
 assert (h, true);
 assert (p, 0.06115357930171663, 1e-14);
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/tabulate.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/tabulate.m
***** demo
 ## Generate a frequency table for a vector of data in a cell array
 load patients

 ## Display the first seven entries of the Gender variable
 gender = Gender(1:7)

 ## Compute the frequency table that shows the number and
 ## percentage of Male and Female patients
 tabulate (Gender)
***** demo
 ## Create a frequency table for a vector of positive integers
 load patients

 ## Display the first seven entries of the Gender variable
 height = Height(1:7)

 ## Create a frequency table that shows, in its second and third columns,
 ## the number and percentage of patients with a particular height.
 table = tabulate (Height);

 ## Display the first and last seven entries of the frequency table
 first = table(1:7,:)

 last = table(end-6:end,:)
***** demo
 ## Create a frequency table from a character array
 load carsmall

 ## Tabulate the data in the Origin variable, which shows the
 ## country of origin of each car in the data set
 tabulate (Origin)
***** demo
 ## Create a frequency table from a numeric vector with NaN values
 load carsmall

 ## The carsmall dataset contains measurements of 100 cars
 total_cars = length (MPG)
 ## For six cars, the MPG value is missing
 missingMPG = length (MPG(isnan (MPG)))

 ## Create a frequency table using MPG
 tabulate (MPG)
 table = tabulate (MPG);

 ## Only 94 cars were used
 valid_cars = sum (table(:,2))
***** test
 load patients
 table = tabulate (Gender);
 assert (table{1,1}, "Male");
 assert (table{2,1}, "Female");
 assert (table{1,2}, 47);
 assert (table{2,2}, 53);
***** test
 load patients
 table = tabulate (Height);
 assert (table(end-4,:), [68, 15, 15]);
 assert (table(end-3,:), [69, 8, 8]);
 assert (table(end-2,:), [70, 11, 11]);
 assert (table(end-1,:), [71, 10, 10]);
 assert (table(end,:), [72, 4, 4]);
***** test
 ## Test numeric vector including NaNs
 x = [1; 1; 2; 3; 1; NaN; 2];
 tbl = tabulate (x);
 assert (isnumeric (tbl));
 assert (size (tbl), [3, 3]);
 assert (tbl(:,1), [1; 2; 3]);
 assert (tbl(:,2), [3; 2; 1]);
 assert (tbl(:,3), [50; 33.3333; 16.6667], 3e-4);
***** test
 ## Test positive integers with gaps
 x = [1; 3; 3];
 tbl = tabulate (x);
 assert (isnumeric (tbl));
 assert (size (tbl), [3, 3]);
 assert (tbl(:,1), [1; 2; 3]);
 assert (tbl(:,2), [1; 0; 2]);
 assert (tbl(:,3), [33.3333; 0; 66.6667], 3e-4);
***** test
 ## Test logical inputs (should return cell array with '0'/'1')
 x = [true; false; true; true];
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert (size (tbl), [2, 3]);
 assert (tbl(:,1), {'0'; '1'});
 assert ([tbl{:,2}]', [1; 3]);
 assert ([tbl{:,3}]', [25; 75]);
***** test
 ## Test character array
 x = ['a'; 'b'; 'a'];
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert (size (tbl), [2, 3]);
 assert (tbl(:,1), {'a'; 'b'});
 assert ([tbl{:,2}]', [2; 1]);
***** test
 ## Test cell array of character vectors
 x = {'a', 'b', 'a'};
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert (size (tbl), [2, 3]);
 assert (tbl(:,1), {'a'; 'b'});
 assert ([tbl{:,2}]', [2; 1]);
***** test
 ## Test string array with missing values
 x = string ({'a', 'b', 'a'});
 x(4) = missing;
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert (size (tbl), [2, 3]);
 assert (tbl(:,1), {'a'; 'b'});
 assert ([tbl{:,2}]', [2; 1]);
***** test
 ## Test categorical array with undefined values and vacuous levels
 x = categorical ({'a', 'a', 'b'}, {'a', 'b', 'c'});
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert (size (tbl), [3, 3]);
 assert (tbl(:,1), {'a'; 'b'; 'c'});
 assert ([tbl{:,2}]', [2; 1; 0]);
 assert ([tbl{:,3}]', [66.6667; 33.3333; 0], 1e-3);
***** test
 ## Test empty input
 tbl = tabulate ([]);
 assert (isempty (tbl));
***** test
 ## fisheriris (Categorical/CellStr)
 load fisheriris;
 tbl = tabulate (species);
 assert (size (tbl), [3, 3]);
 assert (tbl(:,1), {'setosa'; 'versicolor'; 'virginica'});
 assert ([tbl{:,2}]', [50; 50; 50]);
 assert ([tbl{:,3}]', [33.3333; 33.3333; 33.3333], 1e-4);
***** test
 ## carsmall (Char/CellStr)
 load carsmall;
 tbl = tabulate (Origin);
 origins = tbl(:,1);
 counts = [tbl{:,2}];
 assert (counts(strcmp (origins, 'USA')), 69);
 assert (counts(strcmp (origins, 'Japan')), 15);
 assert (counts(strcmp (origins, 'Germany')), 9);
 assert (counts(strcmp (origins, 'France')), 4);
 assert (counts(strcmp (origins, 'Sweden')), 2);
 assert (counts(strcmp (origins, 'Italy')), 1);
***** test
 ## patients (Logical)
 load patients;
 tbl = tabulate (Smoker);
 assert (size (tbl), [2, 3]);
 assert (tbl(:,1), {'0'; '1'});
 assert ([tbl{:,2}]', [66; 34]);
***** test
 ## patients (String)
 load patients;
 tbl = tabulate (Gender);
 vals = tbl(:,1);
 counts = [tbl{:,2}];
 assert (counts(strcmp (vals, 'Male')), 47);
 assert (counts(strcmp (vals, 'Female')), 53);
***** error<tabulate: X must be either a numeric vector> tabulate (ones (3))
***** error<tabulate: X must be either a numeric vector> tabulate ({1, 2, 3, 4})
***** error<tabulate: X must be either a numeric vector> ...
 tabulate ({"a", "b"; "a", "c"})
***** test
 x = categorical ({'a','b','c'});
 x(:) = categorical (missing);
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert ([tbl{:,2}]', [0; 0; 0]);
 assert ([tbl{:,3}]', [0; 0; 0]);
***** test
 x = categorical ({}, {'low','med','high'});
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert ([tbl{:,2}]', [0; 0; 0]);
 assert ([tbl{:,3}]', [0; 0; 0]);
***** test
 x = string ({'a','b'});
 x(:) = missing;
 tbl = tabulate (x);
 assert (iscell (tbl));
 assert (isempty (tbl));
20 tests, 20 passed, 0 known failure, 0 skipped
[inst/anova1.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/anova1.m
***** demo
 x = meshgrid (1:6);
 randn ("seed", 15);    # for reproducibility
 x = x + normrnd (0, 1, 6, 6);
 anova1 (x, [], 'off');
***** demo
 x = meshgrid (1:6);
 randn ("seed", 15);    # for reproducibility
 x = x + normrnd (0, 1, 6, 6);
 [p, atab] = anova1(x);
***** demo
 x = ones (50, 4) .* [-2, 0, 1, 5];
 randn ("seed", 13);    # for reproducibility
 x = x + normrnd (0, 2, 50, 4);
 groups = {"A", "B", "C", "D"};
 anova1 (x, groups);
***** demo
 y = [54 87 45; 23 98 39; 45 64 51; 54 77 49; 45 89 50; 47 NaN 55];
 g = [1  2  3 ; 1  2  3 ; 1  2  3 ; 1  2  3 ; 1  2  3 ; 1  2  3 ];
 anova1 (y(:), g(:), "on", "unequal");
***** test
 data = [1.006, 0.996, 0.998, 1.000, 0.992, 0.993, 1.002, 0.999, 0.994, 1.000, ...
         0.998, 1.006, 1.000, 1.002, 0.997, 0.998, 0.996, 1.000, 1.006, 0.988, ...
         0.991, 0.987, 0.997, 0.999, 0.995, 0.994, 1.000, 0.999, 0.996, 0.996, ...
         1.005, 1.002, 0.994, 1.000, 0.995, 0.994, 0.998, 0.996, 1.002, 0.996, ...
         0.998, 0.998, 0.982, 0.990, 1.002, 0.984, 0.996, 0.993, 0.980, 0.996, ...
         1.009, 1.013, 1.009, 0.997, 0.988, 1.002, 0.995, 0.998, 0.981, 0.996, ...
         0.990, 1.004, 0.996, 1.001, 0.998, 1.000, 1.018, 1.010, 0.996, 1.002, ...
         0.998, 1.000, 1.006, 1.000, 1.002, 0.996, 0.998, 0.996, 1.002, 1.006, ...
         1.002, 0.998, 0.996, 0.995, 0.996, 1.004, 1.004, 0.998, 0.999, 0.991, ...
         0.991, 0.995, 0.984, 0.994, 0.997, 0.997, 0.991, 0.998, 1.004, 0.997];
 group = [1:10] .* ones (10,10);
 group = group(:);
 [p, tbl] = anova1 (data, group, "off");
 assert (p, 0.022661, 1e-6);
 assert (tbl{2,5}, 2.2969, 1e-4);
 assert (tbl{2,3}, 9, 0);
 assert (tbl{4,2}, 0.003903, 1e-6);
 data = reshape (data, 10, 10);
 [p, tbl, stats] = anova1 (data, [], "off");
 assert (p, 0.022661, 1e-6);
 assert (tbl{2,5}, 2.2969, 1e-4);
 assert (tbl{2,3}, 9, 0);
 assert (tbl{4,2}, 0.003903, 1e-6);
 means = [0.998, 0.9991, 0.9954, 0.9982, 0.9919, 0.9988, 1.0015, 1.0004, 0.9983, 0.9948];
 N = 10 * ones (1, 10);
 assert (stats.means, means, 1e-6);
 assert (length (stats.gnames), 10, 0);
 assert (stats.n, N, 0);
***** test
 y = [54 87 45; 23 98 39; 45 64 51; 54 77 49; 45 89 50; 47 NaN 55];
 g = [1  2  3 ; 1  2  3 ; 1  2  3 ; 1  2  3 ; 1  2  3 ; 1  2  3 ];
 [p, tbl] = anova1 (y(:), g(:), "off", "equal");
 assert (p, 0.00004163, 1e-6);
 assert (tbl{2,5}, 22.573418, 1e-6);
 assert (tbl{2,3}, 2, 0);
 assert (tbl{3,3}, 14, 0);
 [p, tbl] = anova1 (y(:), g(:), "off", "unequal");
 assert (p, 0.00208877, 1e-8);
 assert (tbl{2,5}, 15.523192, 1e-6);
 assert (tbl{2,3}, 2, 0);
 assert (tbl{2,4}, 7.5786897, 1e-6);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/combnk.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/combnk.m
***** demo
 c = combnk (1:5, 2);
 disp ("All pairs of integers between 1 and 5:");
 disp (c);
***** test
 c = combnk (1:3, 2);
 assert (c, [1, 2; 1, 3; 2, 3]);
***** test
 c = combnk (1:3, 6);
 assert (isempty (c));
***** test
 c = combnk ({1, 2, 3}, 2);
 assert (c, {1, 2; 1, 3; 2, 3});
***** test
 c = combnk ("hello", 2);
 assert (c, ["lo"; "lo"; "ll"; "eo"; "el"; "el"; "ho"; "hl"; "hl"; "he"]);
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/sampsizepwr.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/sampsizepwr.m
***** demo
 ## Compute the mean closest to 100 that can be determined to be
 ## significantly different from 100 using a t-test with a sample size
 ## of 60 and a power of 0.8.
 mu1 = sampsizepwr ("t", [100, 10], [], 0.8, 60);
 disp (mu1);
***** demo
 ## Compute the sample sizes required to distinguish mu0 = 100 from
 ## mu1 = 110 by a two-sample t-test with a ratio of the larger and the
 ## smaller sample sizes of 1.5 and a power of 0.6.
 [N1,N2] = sampsizepwr ("t2", [100, 10], 110, 0.6, [], "ratio", 1.5)
***** demo
 ## Compute the sample size N required to distinguish p=.26 from p=.2
 ## with a binomial test.  The result is approximate, so make a plot to
 ## see if any smaller N values also have the required power of 0.6.
 Napprox = sampsizepwr ("p", 0.2, 0.26, 0.6);
 nn = 1:250;
 pwr = sampsizepwr ("p", 0.2, 0.26, [], nn);
 Nexact = min (nn(pwr >= 0.6));
 plot(nn,pwr,'b-', [Napprox Nexact],pwr([Napprox Nexact]),'ro');
 grid on
***** demo
 ## The company must test 52 bottles to detect the difference between a mean
 ## volume of 100 mL and 102 mL with a power of 0.80.  Generate a power curve
 ## to visualize how the sample size affects the power of the test.

 nout = sampsizepwr('t',[100 5],102,0.80);
 nn = 1:100;
 pwrout = sampsizepwr('t',[100 5],102,[],nn);

 figure;
 plot (nn, pwrout, "b-", nout, 0.8, "ro")
 title ("Power versus Sample Size")
 xlabel ("Sample Size")
 ylabel ("Power")
***** error<sampsizepwr: test type must be a non-empty string.> ...
 out = sampsizepwr ([], [100, 10], [], 0.8, 60);
***** error<sampsizepwr: test type must be a non-empty string.> ...
 out = sampsizepwr (3, [100, 10], [], 0.8, 60);
***** error<sampsizepwr: test type must be a non-empty string.> ...
 out = sampsizepwr ({"t", "t2"}, [100, 10], [], 0.8, 60);
***** error<sampsizepwr: invalid test type.> ...
 out = sampsizepwr ("reg", [100, 10], [], 0.8, 60);
***** error<sampsizepwr: parameters must be numeric.> ...
 out = sampsizepwr ("t", ["a", "e"], [], 0.8, 60);
***** error<sampsizepwr: invalid size of parameters for this test type.> ...
 out = sampsizepwr ("z", 100, [], 0.8, 60);
***** error<sampsizepwr: invalid size of parameters for this test type.> ...
 out = sampsizepwr ("t", 100, [], 0.8, 60);
***** error<sampsizepwr: invalid size of parameters for this test type.> ...
 out = sampsizepwr ("t2", 60, [], 0.8, 60);
***** error<sampsizepwr: invalid size of parameters for this test type.> ...
 out = sampsizepwr ("var", [100, 10], [], 0.8, 60);
***** error<sampsizepwr: invalid size of parameters for this test type.> ...
 out = sampsizepwr ("p", [100, 10], [], 0.8, 60);
***** error<sampsizepwr: invalid size of parameters for this test type.> ...
 out = sampsizepwr ("r", [100, 10], [], 0.8, 60);
***** error<sampsizepwr: wrong number of output arguments for this test type.> ...
 [out, N1] = sampsizepwr ("z", [100, 10], [], 0.8, 60);
***** error<sampsizepwr: wrong number of output arguments for this test type.> ...
 [out, N1] = sampsizepwr ("t", [100, 10], [], 0.8, 60);
***** error<sampsizepwr: wrong number of output arguments for this test type.> ...
 [out, N1] = sampsizepwr ("var", 2, [], 0.8, 60);
***** error<sampsizepwr: wrong number of output arguments for this test type.> ...
 [out, N1] = sampsizepwr ("p", 0.1, [], 0.8, 60);
***** error<sampsizepwr: wrong number of output arguments for this test type.> ...
 [out, N1] = sampsizepwr ("r", 0.5, [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 out = sampsizepwr ("z", [100, 0], [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 out = sampsizepwr ("z", [100, -5], [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 out = sampsizepwr ("t", [100, 0], [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 out = sampsizepwr ("t", [100, -5], [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 [out, N1] = sampsizepwr ("t2", [100, 0], [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 [out, N1] = sampsizepwr ("t2", [100, -5], [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 out = sampsizepwr ("var", 0, [], 0.8, 60);
***** error<sampsizepwr: negative or zero variance.> ...
 out = sampsizepwr ("var", -5, [], 0.8, 60);
***** error<sampsizepwr: out of range probability.> ...
 out = sampsizepwr ("p", 0, [], 0.8, 60);
***** error<sampsizepwr: out of range probability.> ...
 out = sampsizepwr ("p", 1.2, [], 0.8, 60);
***** error<sampsizepwr: out of range regression coefficient.> ...
 out = sampsizepwr ("r", -1.5, [], 0.8, 60);
***** error<sampsizepwr: out of range regression coefficient.> ...
 out = sampsizepwr ("r", -1, [], 0.8, 60);
***** error<sampsizepwr: out of range regression coefficient.> ...
 out = sampsizepwr ("r", 1.2, [], 0.8, 60);
***** error<sampsizepwr: regression coefficient must not be 0.> ...
 out = sampsizepwr ("r", 0, [], 0.8, 60);
***** error<sampsizepwr: invalid value for 'alpha' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "alpha", -0.2);
***** error<sampsizepwr: invalid value for 'alpha' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "alpha", 0);
***** error<sampsizepwr: invalid value for 'alpha' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "alpha", 1.5);
***** error<sampsizepwr: invalid value for 'alpha' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "alpha", "zero");
***** error<sampsizepwr: 'tail' parameter must be a non-empty string.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "tail", 1.5);
***** error<sampsizepwr: 'tail' parameter must be a non-empty string.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "tail", {"both", "left"});
***** error<sampsizepwr: invalid value for 'tail' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "tail", "other");
***** error<sampsizepwr: invalid value for 'ratio' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "ratio", "some");
***** error<sampsizepwr: invalid value for 'ratio' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "ratio", 0.5);
***** error<sampsizepwr: invalid value for 'ratio' parameter.> ...
 out = sampsizepwr ("r", 0.2, [], 0.8, 60, "ratio", [2, 1.3, 0.3]);
***** error<sampsizepwr: only one of either p1, power, or n must be missing.> ...
 out = sampsizepwr ("z", [100, 5], [], [], 60);
***** error<sampsizepwr: only one of either p1, power, or n must be missing.> ...
 out = sampsizepwr ("z", [100, 5], 110, [], []);
***** error<sampsizepwr: only one of either p1, power, or n must be missing.> ...
 out = sampsizepwr ("z", [100, 5], [], 0.8, []);
***** error<sampsizepwr: only one of either p1, power, or n must be missing.> ...
 out = sampsizepwr ("z", [100, 5], 110, 0.8, 60);
***** error<sampsizepwr: alternative hypothesis parameter must be numeric.> ...
 out = sampsizepwr ("z", [100, 5], "mu", [], 60);
***** error<sampsizepwr: alternative hypothesis parameter out of range.> ...
 out = sampsizepwr ("var", 5, -1, [], 60);
***** error<sampsizepwr: alternative hypothesis parameter out of range.> ...
 out = sampsizepwr ("p", 0.8, 1.2, [], 60, "tail", "right");
***** error<sampsizepwr: alternative hypothesis parameter out of range.> ...
 out = sampsizepwr ("r", 0.8, 1.2, [], 60);
***** error<sampsizepwr: alternative hypothesis parameter out of range.> ...
 out = sampsizepwr ("r", 0.8, -1.2, [], 60);
***** error<sampsizepwr: invalid value for POWER.> ...
 out = sampsizepwr ("z", [100, 5], 110, 1.2);
***** error<sampsizepwr: invalid value for POWER.> ...
 out = sampsizepwr ("z", [100, 5], 110, 0);
***** error<sampsizepwr: Cannot compute N or P1 unless POWER> ...
 out = sampsizepwr ("z", [100, 5], 110, 0.05, [], "alpha", 0.1);
***** error<sampsizepwr: input arguments size mismatch.> ...
 out = sampsizepwr ("z", [100, 5], [], [0.8, 0.7], [60, 80, 100]);
***** error<sampsizepwr: Same value for null and alternative hypothesis.> ...
 out = sampsizepwr ("t", [100, 5], 100, 0.8, []);
***** error<sampsizepwr: Invalid P1 for testing left tail.> ...
 out = sampsizepwr ("t", [100, 5], 110, 0.8, [], "tail", "left");
***** error<sampsizepwr: Invalid P1 for testing right tail.> ...
 out = sampsizepwr ("t", [100, 5], 90, 0.8, [], "tail", "right");
***** warning<sampsizepwr: approximate N.> ...
 Napprox = sampsizepwr ("p", 0.2, 0.26, 0.6);
***** warning<sampsizepwr: approximate N.> ...
 Napprox = sampsizepwr ("p", 0.30, 0.36, 0.8);
***** test
 mu1 = sampsizepwr ("t", [100, 10], [], 0.8, 60);
 assert (mu1, 103.67704316, 1e-8);
***** test
 [N1,N2] = sampsizepwr ("t2", [100, 10], 110, 0.6, [], "ratio", 1.5);
 assert (N1, 9);
 assert (N2, 14);
***** test
 nn = 1:250;
 pwr = sampsizepwr ("p", 0.2, 0.26, [], nn);
 pwr_out = [0, 0.0676, 0.0176, 0.0566, 0.0181, 0.0431, 0.0802, 0.0322];
 assert (pwr([1:8]), pwr_out, 1e-4 * ones (1,8));
 pwr_out = [0.59275, 0.6073, 0.62166, 0.6358, 0.6497, 0.6087, 0.6229, 0.6369];
 assert (pwr([243:end]), pwr_out, 1e-4 * ones (1,8));
***** test
 nout = sampsizepwr ("t", [100, 5], 102, 0.80);
 assert (nout, 52);
***** test
 power = sampsizepwr ("t", [20, 5], 25, [], 5, "Tail", "right");
 assert (power, 0.5797373588621888, 1e-14);
***** test
 nout = sampsizepwr ("t", [20, 5], 25, 0.99, [], "Tail", "right");
 assert (nout, 18);
***** test
 p1out = sampsizepwr ("t", [20, 5], [], 0.95, 10, "Tail", "right");
 assert (p1out, 25.65317979360237, 2e-14);
***** test
 pwr = sampsizepwr ("t2", [1.4, 0.2], 1.7, [], 5, "Ratio", 2);
 assert (pwr, 0.716504004686586, 1e-14);
***** test
 n = sampsizepwr ("t2", [1.4, 0.2], 1.7, 0.9, []);
 assert (n, 11);
***** test
 [n1, n2] = sampsizepwr ("t2", [1.4, 0.2], 1.7, 0.9, [], "Ratio", 2);
 assert ([n1, n2], [8, 16]);
68 tests, 68 passed, 0 known failure, 0 skipped
[inst/dcov.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dcov.m
***** demo
 base=@(x) (x- min(x))./(max(x)-min(x));
 N = 5e2;
 x = randn (N,1); x = base (x);
 z = randn (N,1); z = base (z);
 # Linear relations
 cy = [1 0.55 0.3 0 -0.3 -0.55 -1];
 ly = x .* cy;
 ly(:,[1:3 5:end]) = base (ly(:,[1:3 5:end]));
 # Correlated Gaussian
 cz = 1 - abs (cy);
 gy = base ( ly + cz.*z);
 # Shapes
 sx      = repmat (x,1,7);
 sy      = zeros (size (ly));
 v       = 2 * rand (size(x,1),2) - 1;
 sx(:,1) = v(:,1); sy(:,1) = cos(2*pi*sx(:,1)) + 0.5*v(:,2).*exp(-sx(:,1).^2/0.5);
 R       =@(d) [cosd(d) sind(d); -sind(d) cosd(d)];
 tmp     = R(35) * v.';
 sx(:,2) = tmp(1,:); sy(:,2) = tmp(2,:);
 tmp     = R(45) * v.';
 sx(:,3) = tmp(1,:); sy(:,3) = tmp(2,:);
 sx(:,4) = v(:,1); sy(:,4) = sx(:,4).^2 + 0.5*v(:,2);
 sx(:,5) = v(:,1); sy(:,5) = 3*sign(v(:,2)).*(sx(:,5)).^2  + v(:,2);
 sx(:,6) = cos (2*pi*v(:,1)) + 0.5*(x-0.5);
 sy(:,6) = sin (2*pi*v(:,1)) + 0.5*(z-0.5);
 sx(:,7) = x + sign(v(:,1)); sy(:,7) = z + sign(v(:,2));
 sy      = base (sy);
 sx      = base (sx);
 # scaled shape
 sc  = 1/3;
 ssy = (sy-0.5) * sc + 0.5;
 n = size (ly,2);
 ym = 1.2;
 xm = 0.5;
 fmt={'horizontalalignment','center'};
 ff = "% .2f";
 figure (1)
 for i=1:n
   subplot(4,n,i);
   plot (x, gy(:,i), '.b');
   axis tight
   axis off
   text (xm,ym,sprintf (ff, dcov (x,gy(:,i))),fmt{:})

   subplot(4,n,i+n);
   plot (x, ly(:,i), '.b');
   axis tight
   axis off
   text (xm,ym,sprintf (ff, dcov (x,ly(:,i))),fmt{:})

   subplot(4,n,i+2*n);
   plot (sx(:,i), sy(:,i), '.b');
   axis tight
   axis off
   text (xm,ym,sprintf (ff, dcov (sx(:,i),sy(:,i))),fmt{:})
   v = axis ();

   subplot(4,n,i+3*n);
   plot (sx(:,i), ssy(:,i), '.b');
   axis (v)
   axis off
   text (xm,ym,sprintf (ff, dcov (sx(:,i),ssy(:,i))),fmt{:})
 endfor
***** error dcov (randn (30, 5), randn (25,5))
1 test, 1 passed, 0 known failure, 0 skipped
[inst/vartest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/vartest.m
***** error<vartest: too few input arguments.> vartest ();
***** error<vartest: invalid value for variance.> vartest ([1, 2, 3, 4], -0.5);
***** error<vartest: invalid value for alpha.> ...
 vartest ([1, 2, 3, 4], 1, "alpha", 0);
***** error<vartest: invalid value for alpha.> ...
 vartest ([1, 2, 3, 4], 1, "alpha", 1.2);
***** error<vartest: invalid value for alpha.> ...
 vartest ([1, 2, 3, 4], 1, "alpha", "val");
***** error<vartest: invalid value for tail.>  ...
 vartest ([1, 2, 3, 4], 1, "tail", "val");
***** error<vartest: invalid value for tail.>  ...
 vartest ([1, 2, 3, 4], 1, "alpha", 0.01, "tail", "val");
***** error<vartest: invalid value for operating dimension.> ...
 vartest ([1, 2, 3, 4], 1, "dim", 3);
***** error<vartest: invalid value for operating dimension.> ...
 vartest ([1, 2, 3, 4], 1, "alpha", 0.01, "tail", "both", "dim", 3);
***** error<vartest: invalid name for optional arguments.> ...
 vartest ([1, 2, 3, 4], 1, "alpha", 0.01, "tail", "both", "badoption", 3);
***** error<vartest: optional arguments must be in name/value pairs.> ...
 vartest ([1, 2, 3, 4], 1, "alpha", 0.01, "tail");
***** test
 load carsmall
 [h, pval, ci] = vartest (MPG, 7^2);
 assert (h, 1);
 assert (pval, 0.04335086742174443, 1e-14);
 assert (ci, [49.397; 88.039], 1e-3);
***** test
 load carsmall
 [h, pval, ci] = vartest (MPG, 7^2, "tail", "left");
 assert (h, 0);
 assert (pval, 0.978324566289128, 1e-14);
 assert (ci, [0; 83.685], 1e-3);
***** test
 load carsmall
 [h, pval, ci] = vartest (MPG, 7^2, "tail", "right");
 assert (h, 1);
 assert (pval, 0.021675433710872, 1e-14);
 assert (ci, [51.543; Inf], 1e-3);
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/mhsample.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/mhsample.m
***** demo
 ## Define function to sample
 d = 2;
 mu = [-1; 2];
 rand ("seed", 5)  # for reproducibility
 Sigma = rand (d);
 Sigma = (Sigma + Sigma');
 Sigma += eye (d) * abs (eigs (Sigma, 1, "sa")) * 1.1;
 pdf = @(x)(2*pi)^(-d/2)*det(Sigma)^-.5*exp(-.5*sum((x.'-mu).*(Sigma\(x.'-mu)),1));
 ## Inputs
 start = ones (1, 2);
 nsamples = 500;
 sym = true;
 K = 500;
 m = 10;
 rand ("seed", 8)  # for reproducibility
 proprnd = @(x) (rand (size (x)) - .5) * 3 + x;
 [smpl, accept] = mhsample (start, nsamples, "pdf", pdf, "proprnd", proprnd, ...
                            "symmetric", sym, "burnin", K, "thin", m);
 figure;
 hold on;
 plot (smpl(:, 1), smpl(:, 2), 'x');
 [x, y] = meshgrid (linspace (-6, 4), linspace(-3, 7));
 z = reshape (pdf ([x(:), y(:)]), size(x));
 mesh (x, y, z, "facecolor", "None");
 ## Using sample points to find the volume of half a sphere with radius of .5
 f = @(x) ((.25-(x(:,1)+1).^2-(x(:,2)-2).^2).^.5.*(((x(:,1)+1).^2+(x(:,2)-2).^2)<.25)).';
 int = mean (f (smpl) ./ pdf (smpl));
 errest = std (f (smpl) ./ pdf (smpl)) / nsamples ^ .5;
 trueerr = abs (2 / 3 * pi * .25 ^ (3 / 2) - int);
 printf ("Monte Carlo integral estimate int f(x) dx = %f\n", int);
 printf ("Monte Carlo integral error estimate %f\n", errest);
 printf ("The actual error %f\n", trueerr);
 mesh (x, y, reshape (f([x(:), y(:)]), size(x)), "facecolor", "None");
***** demo
 ## Integrate truncated normal distribution to find normalization constant
 pdf = @(x) exp (-.5*x.^2)/(pi^.5*2^.5);
 nsamples = 1e3;
 rand ("seed", 5)  # for reproducibility
 proprnd = @(x) (rand (size (x)) - .5) * 3 + x;
 [smpl, accept] = mhsample (1, nsamples, "pdf", pdf, "proprnd", proprnd, ...
                            "symmetric", true, "thin", 4);
 f = @(x) exp(-.5 * x .^ 2) .* (x >= -2 & x <= 2);
 x = linspace (-3, 3, 1000);
 area(x, f(x));
 xlabel ('x');
 ylabel ('f(x)');
 int = mean (f (smpl) ./ pdf (smpl));
 errest = std (f (smpl) ./ pdf (smpl)) / nsamples^ .5;
 trueerr = abs (erf (2 ^ .5) * 2 ^ .5 * pi ^ .5 - int);
 printf ("Monte Carlo integral estimate int f(x) dx = %f\n", int);
 printf ("Monte Carlo integral error estimate %f\n", errest);
 printf ("The actual error %f\n", trueerr);
***** test
 nchain = 1e4;
 start = rand (nchain, 1);
 nsamples = 1e3;
 pdf = @(x) exp (-.5*(x-1).^2)/(2*pi)^.5;
 proppdf = @(x, y) 1/3;
 proprnd = @(x) 3 * (rand (size (x)) - .5) + x;
 [smpl, accept] = mhsample (start, nsamples, "pdf", pdf, "proppdf", proppdf, ...
                            "proprnd", proprnd, "thin", 2, "nchain", nchain, ...
                            "burnin", 0);
 assert (mean (mean (smpl, 1), 3), 1, .01);
 assert (mean (var (smpl, 1), 3), 1, .01)
***** error mhsample ();
***** error mhsample (1);
***** error mhsample (1, 1);
***** error mhsample (1, 1, "pdf", @(x)x);
***** error mhsample (1, 1, "pdf", @(x)x, "proprnd", @(x)x+rand(size(x)));
6 tests, 6 passed, 0 known failure, 0 skipped
[inst/binotest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/binotest.m
***** demo
 % flip a coin 1000 times, showing 475 heads
 % Hypothesis: coin is fair, i.e. p=1/2
 [h,p_val,ci] = binotest(475,1000,0.5)
 % Result: h = 0 : null hypothesis not rejected, coin could be fair
 %         P value 0.12, i.e. hypothesis not rejected for alpha up to 12%
 %         0.444 <= p <= 0.506 with 95% confidence
***** demo
 % flip a coin 100 times, showing 65 heads
 % Hypothesis: coin shows less than 50% heads, i.e. p<=1/2
 [h,p_val,ci] = binotest(65,100,0.5,'tail','left','alpha',0.01)
 % Result: h = 1 : null hypothesis is rejected, i.e. coin shows more heads than tails
 %         P value 0.0018, i.e. hypothesis not rejected for alpha up to 0.18%
 %         0 <= p <= 0.76 with 99% confidence
***** test #example from https://en.wikipedia.org/wiki/Binomial_test
 [h,p_val,ci] = binotest (51,235,1/6);
 assert (p_val, 0.0437, 0.00005)
 [h,p_val,ci] = binotest (51,235,1/6,'tail','left');
 assert (p_val, 0.027, 0.0005)
1 test, 1 passed, 0 known failure, 0 skipped
[inst/trimmean.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/trimmean.m
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 assert (trimmean (x, 10, "all"), 19.4722, 1e-4);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 out = trimmean (x, 10, [1, 2]);
 assert (out(1,1,1), 10.3889, 1e-4);
 assert (out(1,1,2), 29.6111, 1e-4);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 assert (trimmean (x, 10, "all"), 19.3824, 1e-4);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 out = trimmean (x, 10, 1);
 assert (out(:,:,1), [-17.6, 8, 13, 18]);
 assert (out(:,:,2), [23, 28, 33, 10.6]);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, 1);
 assert (out(:,:,1), [-23, 8, 13, 18]);
 assert (out(:,:,2), [23, 28, 33, 3.75]);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 out = trimmean (x, 10, 2);
 assert (out(:,:,1), [8.5; 9.5; -15.25; 11.5; 12.5]);
 assert (out(:,:,2), [28.5; -4.75; 30.5; 31.5; 32.5]);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, 2);
 assert (out(:,:,1), [8.5; 9.5; -15.25; 14; 12.5]);
 assert (out(:,:,2), [28.5; -4.75; 28; 31.5; 32.5]);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 out = trimmean (x, 10, [1, 2, 3]);
 assert (out, trimmean (x, 10, "all"));
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, [1, 2]);
 assert (out(1,1,1), 10.7647, 1e-4);
 assert (out(1,1,2), 29.1176, 1e-4);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, [1, 3]);
 assert (out, [2.5556, 18, 23, 11.6667], 1e-4);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, [2, 3]);
 assert (out, [18.5; 2.3750; 3.2857; 24; 22.5], 1e-4);
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, [1, 2, 3]);
 assert (out, trimmean (x, 10, "all"));
***** test
 x = reshape (1:40, [5, 4, 2]);
 x([3, 37]) = -100;
 x([4, 38]) = NaN;
 out = trimmean (x, 10, [2, 3, 5]);
 assert (out, [18.5; 2.3750; 3.2857; 24; 22.5], 1e-4);
***** assert (trimmean ([1, 2, 3, 4, 5], 40), 3)
***** assert (trimmean (reshape (1:40, [5, 4, 2]), 10, 4), reshape(1:40, [5, 4, 2]))
***** assert (trimmean ([], 10), NaN)
***** assert (trimmean ([1;2;3;4;5], 10, 2), [1;2;3;4;5])
***** error<Invalid call to trimmean.  Correct usage is:> trimmean (1)
***** error<Invalid call to trimmean.  Correct usage is:> trimmean (1,2,3,4,5)
***** error<trimmean: invalid percent.> trimmean ([1 2 3 4], -10)
***** error<trimmean: invalid percent.> trimmean ([1 2 3 4], 100)
***** error<trimmean: invalid FLAG argument.> trimmean ([1 2 3 4], 10, "flag")
***** error<trimmean: invalid FLAG argument.> trimmean ([1 2 3 4], 10, "flag", 1)
***** error<trimmean: DIM must be a positive integer scalar or vector.> ...
 trimmean ([1 2 3 4], 10, -1)
***** error<trimmean: DIM must be a positive integer scalar or vector.> ...
 trimmean ([1 2 3 4], 10, "floor", -1)
***** error<trimmean: DIM must be a positive integer scalar or vector.> ...
 trimmean (reshape (1:40, [5, 4, 2]), 10, [-1, 2])
***** error<trimmean: VECDIM must contain non-repeating positive integers.> ...
 trimmean (reshape (1:40, [5, 4, 2]), 10, [1, 2, 2])
27 tests, 27 passed, 0 known failure, 0 skipped
[inst/runstest.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/runstest.m
***** test
 ## NIST beam deflection data
 ## http://www.itl.nist.gov/div898/handbook/eda/section4/eda425.htm
 data = [-213, -564, -35, -15, 141, 115, -420, -360, 203, -338, -431, ...
          194, -220, -513, 154, -125, -559, 92, -21, -579, -52, 99, -543, ...
         -175, 162, -457, -346, 204, -300, -474, 164, -107, -572, -8, 83, ...
         -541, -224, 180, -420, -374, 201, -236, -531, 83, 27, -564, -112, ...
          131, -507, -254, 199, -311, -495, 143, -46, -579, -90, 136, ...
         -472, -338, 202, -287, -477, 169, -124, -568, 17, 48, -568, -135, ...
          162, -430, -422, 172, -74, -577, -13, 92, -534, -243, 194, -355, ...
         -465, 156, -81, -578, -64, 139, -449, -384, 193, -198, -538, 110, ...
          -44, -577, -6, 66, -552, -164, 161, -460, -344, 205, -281, -504, ...
          134, -28, -576, -118, 156, -437, -381, 200, -220, -540, 83, 11, ...
         -568, -160, 172, -414, -408, 188, -125, -572, -32, 139, -492, ...
         -321, 205, -262, -504, 142, -83, -574, 0, 48, -571, -106, 137, ...
         -501, -266, 190, -391, -406, 194, -186, -553, 83, -13, -577, -49, ...
          103, -515, -280, 201, 300, -506, 131, -45, -578, -80, 138, -462, ...
         -361, 201, -211, -554, 32, 74, -533, -235, 187, -372, -442, 182, ...
         -147, -566, 25, 68, -535, -244, 194, -351, -463, 174, -125, -570, ...
           15, 72, -550, -190, 172, -424, -385, 198, -218, -536, 96];
 [h, p, stats] = runstest (data, median (data));
 expected_h = 1;
 expected_p = 0.008562;
 expected_z = 2.6229;
 assert (h, expected_h);
 assert (p, expected_p, 1E-6);
 assert (stats.z, expected_z, 1E-4);
***** shared x
 x = [45, -60, 1.225, 55.4, -9 27];
***** test
 [h, p, stats] = runstest (x);
 assert (h, 0);
 assert (p, 0.6, 1e-14);
 assert (stats.nruns, 5);
 assert (stats.n1, 3);
 assert (stats.n0, 3);
 assert (stats.z, 0.456435464587638, 1e-14);
***** test
 [h, p, stats] = runstest (x, [], "method", "approximate");
 assert (h, 0);
 assert (p, 0.6481, 1e-4);
 assert (stats.z, 0.456435464587638, 1e-14);
***** test
 [h, p, stats] = runstest (x, [], "tail", "left");
 assert (h, 0);
 assert (p, 0.9, 1e-14);
 assert (stats.z, 1.369306393762915, 1e-14);
***** error<runstest: X must be a vector a scalar values.> runstest (ones (2,20))
***** error<runstest: X must be a vector a scalar values.> runstest (["asdasda"])
***** error<runstest: V must be either a scalar number or> ...
 runstest ([2 3 4 3 2 3 4], "updown")
***** error<runstest: invalid value for alpha.> ...
 runstest ([2 3 4 3 2 3 4], [], "alpha", 0)
***** error<runstest: invalid value for alpha.> ...
 runstest ([2 3 4 3 2 3 4], [], "alpha", [0.02 0.2])
***** error<runstest: invalid value for alpha.> ...
 runstest ([2 3 4 3 2 3 4], [], "alpha", 1.2)
***** error<runstest: invalid value for alpha.> ...
 runstest ([2 3 4 3 2 3 4], [], "alpha", -0.05)
***** error<runstest: invalid value for method.> ...
 runstest ([2 3 4 3 2 3 4], [], "method", "some")
***** error<runstest: invalid value for tail.> ...
 runstest ([2 3 4 3 2 3 4], [], "tail", "some")
***** error<runstest: invalid optional argument.> ...
 runstest ([2 3 4 3 2 3 4], [], "option", "some")
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/confusionmat.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/confusionmat.m
***** test
 Yt = [8 5 6 8 5 3 1 6 4 2 5 3 1 4]';
 Yp = [8 5 6 8 5 2 3 4 4 5 5 7 2 6]';
 C  = [0 1 1 0 0 0 0 0; 0 0 0 0 1 0 0 0; 0 1 0 0 0 0 1 0; 0 0 0 1 0 1 0 0; ...
       0 0 0 0 3 0 0 0; 0 0 0 1 0 1 0 0; 0 0 0 0 0 0 0 0; 0 0 0 0 0 0 0 2];
 assert (confusionmat (Yt, Yp), C)
***** test
 g  = [1; 2; 3; 1];
 gh = [1; 2; 2; 1];
 [C, order] = confusionmat (g, gh);
 assert (C, [2 0 0; 0 1 0; 0 1 0]);
 assert (order, [1; 2; 3]);
***** test
 g  = [true; false; true; false];
 gh = [true; true;  false; false];
 [C, order] = confusionmat (g, gh);
 assert (C, [1 1; 1 1]);
 assert (order, [false; true]);
***** test
 g  = [1.1; 2.2; 1.1];
 gh = [1.1; 2.2; 2.2];
 [C, order] = confusionmat (g, gh);
 assert (C, [1 1; 0 1]);
 assert (order, [1.1; 2.2]);
***** test
 g  = [1; 2; NaN; 3];
 gh = [1; 1; 2;   3];
 [C, order] = confusionmat (g, gh);
 assert (C, [1 0 0; 1 0 0; 0 0 1]);
 assert (order, [1; 2; 3]);
***** error
 confusionmat ([], [])
***** test
 [C, order] = confusionmat (1, 1);
 assert (C, 1);
 assert (order, 1);
***** test
 g  = {'A'; ''; 'B'};
 gh = {'A'; 'B'; 'B'};
 [C, order] = confusionmat (g, gh);
 assert (C, [1 0; 0 1]);
 assert (order, {'A'; 'B'});
***** test
 g  = ['AA'; 'BB'; 'AA'; 'CC'];
 gh = ['AA'; 'BB'; 'BB'; 'CC'];
 [C, order] = confusionmat (g, gh);
 assert (C, [1 1 0; 0 1 0; 0 0 1]);
 assert (order, ['AA'; 'BB'; 'CC']);
***** test
 g  = char ('A', 'B', 'A');
 gh = char ('A', 'A', 'B');
 [C, order] = confusionmat (g, gh);
 assert (C, [1 1; 1 0]);
 assert (order, char ('A', 'B'));
***** test
 g  = {'Cat'; 'Dog'; 'Cat'; 'Bird'};
 gh = {'Cat'; 'Cat'; 'Bird'; 'Bird'};
 [C, order] = confusionmat (g, gh);
 assert (C, [1 0 1; 1 0 0; 0 0 1]);
 assert (order, {'Cat'; 'Dog'; 'Bird'});
***** test
 g  = ["Apple"; "Banana"; "Apple"];
 gh = ["Apple"; "Apple";  "Cherry"];
 [C, order] = confusionmat (g, gh);
 assert (C, [1 0 1; 1 0 0; 0 0 0]);
 assert (order, ["Apple"; "Banana"; "Cherry"]);
***** test
 g = string ({"A"; "B"; "B"});
 g(2) = missing;
 gh = string(["A"; "B"; "B"]);
 [C, order] = confusionmat (g, gh);
 assert (C, [1 0; 0 1]);
 assert (isequal (order, string(["A"; "B"])));
***** test
 g  = categorical ({'Small', 'Medium', 'Large'});
 gh = categorical ({'Small', 'Large',  'Large'});
 [C, order] = confusionmat (g, gh);
 assert (C, [1 0 0; 1 0 0; 0 0 1]);
 assert (cellstr (char (order)), {'Large'; 'Medium'; 'Small'});
***** test
 g = categorical ({'Red', 'Blue', 'Red'});
 g(2) = NaN;
 gh = categorical ({'Red', 'Blue', 'Red'});
 [C, order] = confusionmat (g, gh);
 assert (C, [0 0; 0 2]);
 assert (cellstr (char (order)), {'Blue'; 'Red'});
***** test
 vals = {'A', 'B', 'A'};
 cats = {'A', 'B', 'C'};
 g  = categorical (vals, cats);
 gh = categorical (vals, cats);
 [C, order] = confusionmat (g, gh);
 assert (size (C), [3 3]);
 assert (C(3,3), 0);
 assert (cellstr (char (order)), {'A'; 'B'; 'C'});
***** test
 g  = categorical ({'A'}, {'A', 'B'});
 gh = categorical ({'A'}, {'A', 'C'});
 [C, order] = confusionmat (g, gh);
 assert (size (C), [3 3]);
 assert (cellstr (char (order)), {'A'; 'B'; 'C'});
***** test
 g  = [1, 2, 3];
 gh = [1; 2; 3];
 [C, order] = confusionmat (g, gh);
 assert (C, eye(3));
 assert (order, [1; 2; 3]);
***** test
 g  = [1; 2; 3];
 gh = [1; 2; 3];
 myOrder = [3; 2; 1];
 [C, order] = confusionmat (g, gh, "Order", myOrder);
 assert (C, [1 0 0; 0 1 0; 0 0 1]);
 assert (order, [3; 2; 1]);
***** test
 g  = {'A'; 'B'};
 gh = {'A'; 'B'};
 [C, order] = confusionmat (g, gh, "Order", {'B'; 'A'});
 assert (C, [1 0; 0 1]);
 assert (order, {'B'; 'A'});
***** test
 g  = [1; 2; 3];
 gh = [1; 2; 3];
 [C, order] = confusionmat (g, gh, "Order", [1; 2]);
 assert (C, eye(2));
 assert (order, [1; 2]);
***** test
 g  = [1; 2];
 gh = [1; 2];
 [C, order] = confusionmat (g, gh, "Order", [1; 2; 4]);
 assert (C, [1 0 0; 0 1 0; 0 0 0]);
 assert (order, [1; 2; 4]);
***** test
 g  = [1; 1; 1];
 gh = [2; 2; 2];
 [C, order] = confusionmat (g, gh);
 assert (C, [0 3; 0 0]);
 assert (order, [1; 2]);
***** test
 g  = [1; 1; 1];
 gh = [1; 1; 1];
 [C, order] = confusionmat (g, gh);
 assert (C, 3);
 assert (order, 1);
***** error <confusionmat: group and grouphat must be of the same data type.>
 confusionmat ([1; 2], {'A'; 'B'})
***** error <confusionmat: group and grouphat must be of the same data type.>
 confusionmat ('A', [1])
***** error <confusionmat: group and grouphat must be of the same length.>
 confusionmat ([1; 2; 3], [1; 2])
***** error <confusionmat: group and grouporder must be of the same data type.>
 confusionmat ([1; 2], [1; 2], "Order", {'A'; 'B'})
***** error <confusionmat: group and grouporder must be of the same data type.>
 confusionmat ({'A'}, {'A'}, "Order", [1])
***** error <confusionmat: group must be a vector or character array.>
 confusionmat (eye(2), eye(2))
***** error <confusionmat: invalid data type.> confusionmat ({1; 2}, {1; 2})
31 tests, 31 passed, 0 known failure, 0 skipped
[inst/hotelling_t2test2.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/hotelling_t2test2.m
***** error<Invalid call to hotelling_t2test2.  Correct usage> hotelling_t2test2 ();
***** error<Invalid call to hotelling_t2test2.  Correct usage> ...
 hotelling_t2test2 ([2, 3, 4, 5, 6]);
***** error<hotelling_t2test2: X must be a vector or a 2D matrix.> ...
 hotelling_t2test2 (1, [2, 3, 4, 5, 6]);
***** error<hotelling_t2test2: X must be a vector or a 2D matrix.> ...
 hotelling_t2test2 (ones (2,2,2), [2, 3, 4, 5, 6]);
***** error<hotelling_t2test2: Y must be a vector or a 2D matrix.> ...
 hotelling_t2test2 ([2, 3, 4, 5, 6], 2);
***** error<hotelling_t2test2: Y must be a vector or a 2D matrix.> ...
 hotelling_t2test2 ([2, 3, 4, 5, 6], ones (2,2,2));
***** error<hotelling_t2test2: invalid value for alpha.> ...
 hotelling_t2test2 (ones (20,2), ones (20,2), "alpha", 1);
***** error<hotelling_t2test2: invalid value for alpha.> ...
 hotelling_t2test2 (ones (20,2), ones (20,2), "alpha", -0.2);
***** error<hotelling_t2test2: invalid value for alpha.> ...
 hotelling_t2test2 (ones (20,2), ones (20,2), "alpha", "a");
***** error<hotelling_t2test2: invalid value for alpha.> ...
 hotelling_t2test2 (ones (20,2), ones (20,2), "alpha", [0.01, 0.05]);
***** error<hotelling_t2test2: invalid Name argument.> ...
 hotelling_t2test2 (ones (20,2), ones (20,2), "name", 0.01);
***** error<hotelling_t2test2: if X is a vector, Y must also be a vector.> ...
 hotelling_t2test2 (ones (20,1), ones (20,2));
***** error<hotelling_t2test2: X and Y must have the same number of columns.> ...
 hotelling_t2test2 (ones (20,2), ones (25,3));
***** test
 randn ("seed", 1);
 x1 = randn (60000, 5);
 randn ("seed", 5);
 x2 = randn (30000, 5);
 [h, pval, stats] = hotelling_t2test2 (x1, x2);
 assert (h, 0);
 assert (stats.df1, 5);
 assert (stats.df2, 89994);
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/normalise_distribution.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/normalise_distribution.m
***** test
 v = normalise_distribution ([1 2 3], [], 1);
 assert (v, [0 0 0])
***** test
 v = normalise_distribution ([1 2 3], [], 2);
 assert (v, norminv ([1 3 5] / 6), 3 * eps)
***** test
 v = normalise_distribution ([1 2 3]', [], 2);
 assert (v, [0 0 0]')
***** test
 v = normalise_distribution ([1 2 3]', [], 1);
 assert (v, norminv ([1 3 5]' / 6), 3 * eps)
***** test
 v = normalise_distribution ([1 1 2 2 3 3], [], 2);
 assert (v, norminv ([3 3 7 7 11 11] / 12), 3 * eps)
***** test
 v = normalise_distribution ([1 1 2 2 3 3]', [], 1);
 assert (v, norminv ([3 3 7 7 11 11]' / 12), 3 * eps)
***** test
 A = randn ( 10 );
 N = normalise_distribution (A, @normcdf);
 assert (A, N, 10000 * eps)
***** test
 A = exprnd (1, 100);
 N = normalise_distribution (A, @(x)(expcdf (x, 1)));
 assert (mean (vec (N)), 0, 0.1)
 assert (std (vec (N)), 1, 0.1)
***** test
 A = rand (1000,1);
 N = normalise_distribution (A, {@(x)(unifcdf (x, 0, 1))});
 assert (mean (vec (N)), 0, 0.2)
 assert (std (vec (N)), 1, 0.1)
***** test
 A = [rand(1000,1), randn(1000, 1)];
 N = normalise_distribution (A, {@(x)(unifcdf (x, 0, 1)), @normcdf});
 assert (mean (N), [0, 0], 0.2)
 assert (std (N), [1, 1], 0.1)
***** test
 A = [rand(1000,1), randn(1000, 1), exprnd(1, 1000, 1)]';
 N = normalise_distribution  (A, {@(x)(unifcdf (x, 0, 1)); @normcdf; @(x)(expcdf (x, 1))}, 2);
 assert (mean (N, 2), [0, 0, 0]', 0.2);
 assert (std (N, [], 2), [1, 1, 1]', 0.1);
***** xtest
 A = exprnd (1, 1000, 9); A (300:500, 4:6) = 17;
 N = normalise_distribution (A);
 assert (mean (N), [0 0 0 0.38 0.38 0.38 0 0 0], 0.1);
 assert (var (N), [1 1 1 2.59 2.59 2.59 1 1 1], 0.1);
***** test
***** error normalise_distribution (zeros (3, 4), ...
 {@(x)(unifcdf (x, 0, 1)); @normcdf; @(x)(expcdf (x,1))});
14 tests, 14 passed, 0 known failure, 0 skipped
[inst/manova1.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/manova1.m
***** demo
 load carbig
 [d,p] = manova1([MPG, Acceleration, Weight, Displacement], Origin)
***** test
 load carbig
 [d,p] = manova1([MPG, Acceleration, Weight, Displacement], Origin);
 assert (d, 3);
 assert (p, [0, 3.140583347827075e-07, 0.007510999577743149, ...
             0.1934100745898493]', [1e-12, 1e-12, 1e-12, 1e-12]');
***** test
 load carbig
 [d,p] = manova1([MPG, Acceleration, Weight], Origin);
 assert (d, 2);
 assert (p, [0, 0.00516082975137544, 0.1206528056514453]', ...
            [1e-12, 1e-12, 1e-12]');
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/squareform.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/squareform.m
***** shared v, m
 v = 1:6;
 m = [0 1 2 3;1 0 4 5;2 4 0 6;3 5 6 0];
***** assert (squareform (v), m)
***** assert (squareform (squareform (v)), v)
***** assert (squareform (m), v)
***** assert (squareform (v'), m)
***** assert (squareform (1), [0 1;1 0])
***** assert (squareform (1, "tomatrix"), [0 1; 1 0])
***** assert (squareform (0, "tovector"), zeros (1, 0))
***** test
 for c = {@single, @double, @uint8, @uint32, @uint64}
   f = c{1};
   assert (squareform (f (v)), f (m))
   assert (squareform (f (m)), f (v))
 endfor
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/violin.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/violin.m
***** demo
 clf
 x = zeros (9e2, 10);
 for i=1:10
   x(:,i) = (0.1 * randn (3e2, 3) * (randn (3,1) + 1) + 2 * randn (1,3))(:);
 endfor
 h = violin (x, "color", "c");
 axis tight
 set (h.violin, "linewidth", 2);
 set (gca, "xgrid", "on");
 xlabel ("Variables")
 ylabel ("Values")
***** demo
 clf
 data = {randn(100,1)*5+140, randn(130,1)*8+135};
 subplot (1,2,1)
 title ("Grade 3 heights - vertical");
 set (gca, "xtick", 1:2, "xticklabel", {"girls"; "boys"});
 violin (data, "Nbins", 10);
 axis tight

 subplot(1,2,2)
 title ("Grade 3 heights - horizontal");
 set (gca, "ytick", 1:2, "yticklabel", {"girls"; "boys"});
 violin (data, "horizontal", "Nbins", 10);
 axis tight
***** demo
 clf
 data = exprnd (0.1, 500,4);
 violin (data, "nbins", {5,10,50,100});
 axis ([0 5 0 max(data(:))])
***** demo
 clf
 data = exprnd (0.1, 500,4);
 violin (data, "color", jet(4));
 axis ([0 5 0 max(data(:))])
***** demo
 clf
 data = repmat(exprnd (0.1, 500,1), 1, 4);
 violin (data, "width", linspace (0.1,0.5,4));
 axis ([0 5 0 max(data(:))])
***** demo
 clf
 data = repmat(exprnd (0.1, 500,1), 1, 4);
 violin (data, "nbins", [5,10,50,100], "smoothfactor", [4 4 8 10]);
 axis ([0 5 0 max(data(:))])
***** test
 hf = figure ("visible", "off");
 unwind_protect
   data = exprnd (0.1, 500,4);
   violin (data, "color", jet(4));
   axis ([0 5 0 max(data(:))])
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   data = {randn(100,1)*5+140, randn(130,1)*8+135};
   subplot (1,2,1)
   title ("Grade 3 heights - vertical");
   set (gca, "xtick", 1:2, "xticklabel", {"girls"; "boys"});
   violin (data, "Nbins", 10);
   axis tight
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   data = {randn(100,1)*5+140, randn(130,1)*8+135};
   subplot (1,2,1)
   title ("Grade 3 heights - vertical");
   set (gca, "xtick", 1:2, "xticklabel", {"girls"; "boys"});
   violin (data, "Nbins", 10);
   axis tight
   subplot(1,2,2)
   title ("Grade 3 heights - horizontal");
   set (gca, "ytick", 1:2, "yticklabel", {"girls"; "boys"});
   violin (data, "horizontal", "Nbins", 10);
   axis tight
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   data = repmat(exprnd (0.1, 500,1), 1, 4);
   violin (data, "nbins", [5,10,50,100], "smoothfactor", [4 4 8 10]);
   axis ([0 5 0 max(data(:))])
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   data = repmat(exprnd (0.1, 500,1), 1, 4);
   violin (data, "width", linspace (0.1,0.5,4));
   axis ([0 5 0 max(data(:))])
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
5 tests, 5 passed, 0 known failure, 0 skipped
[inst/histfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/histfit.m
***** demo
 histfit (randn (100, 1))
***** demo
 histfit (poissrnd (2, 1000, 1), 10, "Poisson")
***** demo
 histfit (betarnd (3, 10, 1000, 1), 10, "beta")
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [2, 4, 3, 2, 4, 3, 2, 5, 6, 4, 7, 5, 9, 8, 10, 4, 11];
   histfit (x);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [2, 4, 3, 2, NaN, 3, 2, 5, 6, 4, 7, 5, 9, 8, 10, 4, 11];
   histfit (x);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   x = [2, 4, 3, 2, NaN, 3, 2, 5, 6, 4, 7, 5, 9, 8, 10, 4, 11];
   histfit (x, 3);
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   histfit (randn (100, 1));
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   histfit (poissrnd (2, 1000, 1), 10, "Poisson");
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   histfit (betarnd (3, 10, 1000, 1), 10, "beta");
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   ax = gca ();
   histfit (ax, randn (100, 1));
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   ax = gca ();
   histfit (ax, poissrnd (2, 1000, 1), 10, "Poisson");
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   ax = gca ();
   histfit (ax, betarnd (3, 10, 1000, 1), 10, "beta");
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** test
 hf = figure ("visible", "off");
 unwind_protect
   ax = axes ("parent", hf);
   fail ("histfit (ax)", "histfit: too few input arguments.");
 unwind_protect_cleanup
   close (hf);
 end_unwind_protect
***** error<histfit: X must be a numeric vector of real numbers.> ...
 histfit ('wer')
***** error<histfit: no data in X.> histfit ([NaN, NaN, NaN]);
***** error<histfit: NBINS must be a real scalar integer value.> ...
 histfit (randn (100, 1), 5.6)
***** error<histfit: DISTNAME must be a character vector.> ...
 histfit (randn (100, 1), 8, 5)
***** error<histfit: DISTNAME must be a character vector.> ...
 histfit (randn (100, 1), 8, {'normal'})
***** error<histfit: 'Kernel' distribution is not supported yet.> ...
 histfit (randn (100, 1), 8, 'Kernel')
***** error<histfit: unrecognized distribution name.> ...
 histfit (randn (100, 1), 8, 'ASDASDASD')
17 tests, 17 passed, 0 known failure, 0 skipped
[inst/glmfit.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/glmfit.m
***** demo
 x = [210, 230, 250, 270, 290, 310, 330, 350, 370, 390, 410, 430]';
 n = [48, 42, 31, 34, 31, 21, 23, 23, 21, 16, 17, 21]';
 y = [1, 2, 0, 3, 8, 8, 14, 17, 19, 15, 17, 21]';
 b = glmfit (x, [y n], "binomial", "Link", "probit");
 yfit = glmval (b, x, "probit", "Size", n);
 plot (x, y./n, 'o', x, yfit ./ n, '-')
***** demo
 load fisheriris
 X = meas (51:end, :);
 y = strcmp ("versicolor", species(51:end));
 b = glmfit (X, y, "binomial", "link", "logit")
***** test
 load fisheriris;
 X = meas(51:end,:);
 y = strcmp ("versicolor", species(51:end));
 b = glmfit (X, y, "binomial", "link", "logit");
 assert (b, [42.6379; 2.4652; 6.6809; -9.4294; -18.2861], 1e-4);
***** test
 X = [1.2, 2.3, 3.4, 4.5, 5.6, 6.7, 7.8, 8.9, 9.0, 10.1]';
 y = [0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4]';
 [Bnew, dev] = glmfit (X, y, "gamma", "link", "log");
 b_matlab = [-0.7631; 0.1113];
 dev_matlab = 0.0111;
 assert (Bnew, b_matlab, 0.001);
 assert (dev, dev_matlab, 0.001);
***** test
 X = [1.2, 2.3, 3.4, 4.5, 5.6, 6.7, 7.8, 8.9, 9.0, 10.1]';
 y = [0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4]';
 p_input = 1;
 [Bnew, dev] = glmfit (X, y, "inverse gaussian", "link", p_input);
 b_matlab = [0.3813; 0.0950];
 dev_matlab = 0.0051;
 assert (Bnew, b_matlab, 0.001);
 assert (dev, dev_matlab, 0.001);
***** error <glmfit: too few input arguments.> glmfit ()
***** error <glmfit: too few input arguments.> glmfit (1)
***** error <glmfit: too few input arguments.> glmfit (1, 2)
***** error <glmfit: Name-Value arguments must be in pairs.> ...
 glmfit (rand (6, 1), rand (6, 1), 'poisson', 'link')
***** error <glmfit: X must be a numeric matrix.> ...
 glmfit ('abc', rand (6, 1), 'poisson')
***** error <glmfit: X must be a numeric matrix.> ...
 glmfit ([], rand (6, 1), 'poisson')
***** error <glmfit: Y must be either a numeric matrix or a logical vector.> ...
 glmfit (rand (5, 2), 'abc', 'poisson')
***** error <glmfit: Y must be either a numeric matrix or a logical vector.> ...
 glmfit (rand (5, 2), [], 'poisson')
***** error <glmfit: X and Y must have the same number of observations.> ...
 glmfit (rand (5, 2), rand (6, 1), 'poisson')
***** error <glmfit: DISTRIBUTION must be a character vector.> ...
 glmfit (rand (6, 2), rand (6, 1), 3)
***** error <glmfit: DISTRIBUTION must be a character vector.> ...
 glmfit (rand (6, 2), rand (6, 1), {'poisson'})
***** error <glmfit: for a 'binomial' distribution, Y must be an n-by-1 or n-by-2 matrix.> ...
 glmfit (rand (5, 2), rand (5, 3), 'binomial')
***** error <glmfit: n-by-2 matrix Y for 'binomial' distribution must be numeric.> ...
 glmfit (rand (2, 2), [true, true; false, false], 'binomial')
***** error <glmfit: for distributions other than 'binomial', Y must be an n-by-1 column vector> ...
 glmfit (rand (5, 2), rand (5, 2), 'normal')
***** error <glmfit: unsupported distribution.> ...
 glmfit (rand (5, 2), rand (5, 1), 'chebychev')
***** error <glmfit: 'B0' must be a numeric vector of the same size as Y.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'B0', [1; 2; 3; 4])
***** error <glmfit: 'Constant' should be either 'on' or 'off'.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'constant', 1)
***** error <glmfit: 'Constant' should be either 'on' or 'off'.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'constant', 'o')
***** error <glmfit: 'Constant' should be either 'on' or 'off'.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'constant', true)
***** error <glmfit: 'EstDisp' should be either 'on' or 'off'.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'estdisp', 1)
***** error <glmfit: 'EstDisp' should be either 'on' or 'off'.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'estdisp', 'o')
***** error <glmfit: 'EstDisp' should be either 'on' or 'off'.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'estdisp', true)
***** error <glmfit: structure with custom link functions must be a scalar.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", {1, 2}))
***** error <glmfit: structure with custom link functions requires the fields 'Link', 'Derivative', and 'Inverse'.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", "norminv"))
***** error <glmfit: bad 'Link' function in custom link function structure.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", "some", "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmfit: bad 'Link' function in custom link function structure.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", 1, "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmfit: custom 'Link' function must return an output of the same size as input.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x) [x, x], "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmfit: invalid custom 'Link' function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", "what", "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmfit: bad 'Derivative' function in custom link function structure.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", "some", "Inverse", "normcdf"))
***** error <glmfit: bad 'Derivative' function in custom link function structure.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", 1, "Inverse", "normcdf"))
***** error <glmfit: custom 'Derivative' function must return an output of the same size as input.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", @(x) [x, x], "Inverse", "normcdf"))
***** error <glmfit: invalid custom 'Derivative' function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", "what", "Inverse", "normcdf"))
***** error <glmfit: bad 'Inverse' function in custom link function structure.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", "some"))
***** error <glmfit: bad 'Inverse' function in custom link function structure.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", 1))
***** error <glmfit: custom 'Inverse' function must return an output of the same size as input.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", @(x) [x, x]))
***** error <glmfit: invalid custom 'Inverse' function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", "what"))
***** error <glmfit: cell array with custom link functions must have three elements.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {'log'})
***** error <glmfit: cell array with custom link functions must have three elements.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {'log', 'hijy'})
***** error <glmfit: cell array with custom link functions must have three elements.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {1, 2, 3, 4})
***** error <glmfit: bad 'Link' function in custom link function cell array.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {"log", "dfv", "dfgvd"})
***** error <glmfit: custom 'Link' function must return an output of the same size as input.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) [x, x], "dfv", "dfgvd"})
***** error <glmfit: invalid custom 'Link' function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) what (x), "dfv", "dfgvd"})
***** error <glmfit: bad 'Derivative' function in custom link function cell array.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) x, "dfv", "dfgvd"})
***** error <glmfit: custom 'Derivative' function must return an output of the same size as input.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) x, @(x) [x, x], "dfgvd"})
***** error <glmfit: invalid custom 'Derivative' function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) x, @(x) what (x), "dfgvd"})
***** error <glmfit: bad 'Inverse' function in custom link function cell array.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) x, @(x) x, "dfgvd"})
***** error <glmfit: custom 'Inverse' function must return an output of the same size as input.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) x, @(x) x, @(x) [x, x]})
***** error <glmfit: invalid custom 'Inverse' function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', {@(x) x, @(x) x, @(x) what (x)})
***** error <glmfit: numeric input for custom link function must be a finite real scalar value.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', NaN)
***** error <glmfit: numeric input for custom link function must be a finite real scalar value.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', [1, 2])
***** error <glmfit: numeric input for custom link function must be a finite real scalar value.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', [1i])
***** error <glmfit: canonical link function name must be a character vector.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', ["log"; "log1"])
***** error <glmfit: canonical link function 'somelinkfunction' is not supported.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', 'somelinkfunction')
***** error <glmfit: invalid value for custom link function.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'link', true)
***** error <glmfit: 'Options' must be a structure containing the fields 'MaxIter', and 'TolX'.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', true)
***** error <glmfit: 'Options' must be a structure containing the fields 'MaxIter', and 'TolX'.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", 100))
***** error <glmfit: 'MaxIter' in 'Options' structure must be a positive integer.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", 4.5, "TolX", 1e-6))
***** error <glmfit: 'MaxIter' in 'Options' structure must be a positive integer.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", 0, "TolX", 1e-6))
***** error <glmfit: 'MaxIter' in 'Options' structure must be a positive integer.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", -100, "TolX", 1e-6))
***** error <glmfit: 'MaxIter' in 'Options' structure must be a positive integer.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", [50 ,50], "TolX", 1e-6))
***** error <glmfit: 'TolX' in 'Options' structure must be a positive scalar.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", 100, "TolX", 0))
***** error <glmfit: 'TolX' in 'Options' structure must be a positive scalar.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", 100, "TolX", -1e-6))
***** error <glmfit: 'TolX' in 'Options' structure must be a positive scalar.> ...
 glmfit (rand(5,2), rand(5,1), 'poisson', 'options', struct ("MaxIter", 100, "TolX", [1e-6, 1e-6]))
***** error <glmfit: 'Offset' must be a numeric vector of the same size as Y.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'offset', [1; 2; 3; 4])
***** error <glmfit: 'Offset' must be a numeric vector of the same size as Y.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'offset', 'asdfg')
***** error <glmfit: 'Weights' must be a numeric vector of the same size as Y.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'weights', [1; 2; 3; 4])
***** error <glmfit: 'Weights' must be a numeric vector of the same size as Y.> ...
 glmfit (rand (5, 2), rand (5, 1), 'normal', 'weights', 'asdfg')
70 tests, 70 passed, 0 known failure, 0 skipped
[inst/randsample.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/randsample.m
***** test
 n = 20;
 k = 5;
 x = randsample(n, k);
 assert (size(x), [1 k]);
 x = randsample(n, k, true);
 assert (size(x), [1 k]);
 x = randsample(n, k, false);
 assert (size(x), [1 k]);
 x = randsample(n, k, true, ones(n, 1));
 assert (size(x), [1 k]);
 x = randsample(1:n, k);
 assert (size(x), [1 k]);
 x = randsample(1:n, k, true);
 assert (size(x), [1 k]);
 x = randsample(1:n, k, false);
 assert (size(x), [1 k]);
 x = randsample(1:n, k, true, ones(n, 1));
 assert (size(x), [1 k]);
 x = randsample((1:n)', k);
 assert (size(x), [k 1]);
 x = randsample((1:n)', k, true);
 assert (size(x), [k 1]);
 x = randsample((1:n)', k, false);
 assert (size(x), [k 1]);
 x = randsample((1:n)', k, true, ones(n, 1));
 assert (size(x), [k 1]);
 n = 10;
 k = 100;
 x = randsample(n, k, true, 1:n);
 assert (size(x), [1 k]);
 x = randsample((1:n)', k, true);
 assert (size(x), [k 1]);
 x = randsample(k, k, false, 1:k);
 assert (size(x), [1 k]);
***** test
 n = 20;
 k = 5;
 p = 1:n;
 x = randsample(p, k);
 assert (isnumeric(x));
 assert (size(x), [1 k]);
 x = randsample(p, k, true);
 assert (isnumeric(x));
 assert (size(x), [1 k]);
 x = randsample(p, k, false);
 assert (isnumeric(x));
 assert (size(x), [1 k]);
 k = 30;
 x = randsample(p, k, true);
 assert (isnumeric(x));
 assert (size(x), [1 k]);
***** test
 p = categorical({'a', 'b', 'c', 'd', 'a'});
 k = 3;
 x = randsample(p, k, true);
 assert (iscategorical(x));
 assert (size(x), [1 k]);
 x = randsample(p, k, false);
 assert (iscategorical(x));
 assert (size(x), [1 k]);
 k = 30;
 x = randsample(p, k, true, ones(length(p),1));
 assert (iscategorical(x));
 assert (size(x), [1 k]);
***** test
 p = {'a', 'b', 'c', 'd', 'a'};
 k = 2;
 x = randsample(p, k, true);
 assert (iscell(x));
 assert (size(x), [1 k]);
 x = randsample(p, k, false);
 assert (iscell(x));
 assert (size(x), [1 k]);
 k = 30;
 x = randsample(p, k, true, ones(length(p),1));
 assert (iscell(x));
 assert (size(x), [1 k]);
***** test
 p = string({'a', 'b', 'c', 'd', 'a'});
 k = 2;
 x = randsample(p, k, true);
 assert (isstring(x));
 assert (size(x), [1 k]);
 x = randsample(p, k, false);
 assert (isstring(x));
 assert (size(x), [1 k]);
 k = 30;
 x = randsample(p, k, true, ones(length(p),1));
 assert (isstring(x));
 assert (size(x), [1 k]);
***** error <randsample: The input v must be a vector or positive integer.> ...
 randsample ([1 2 3; 1 2 3], 5)
***** error <randsample: The input k must be a non-negative integer.> ...
 randsample (10, -1)
***** error <Sampling without replacement needs k <= n.> ...
 randsample (10, 100)
***** error <randsample: the size w .* must match the first argument .*> ...
 randsample (10, 5, false, ones(5,1))
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/logistic_regression.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/logistic_regression.m
***** test
 # Output compared to following MATLAB commands
 # [B, DEV, STATS] = mnrfit(X,Y+1,'model','ordinal');
 # P = mnrval(B,X)
 X = [1.489381332449196, 1.1534152241851305; ...
      1.8110085304863965, 0.9449666896938425; ...
      -0.04453299665130296, 0.34278203449678646; ...
      -0.36616019468850347, 1.130254275908322; ...
       0.15339143291005095, -0.7921044310668951; ...
      -1.6031878794469698, -1.8343471035233376; ...
      -0.14349521143198166, -0.6762996896828459; ...
      -0.4403818557740143, -0.7921044310668951; ...
      -0.7372685001160434, -0.027793137932169563; ...
      -0.11875465773681024, 0.5512305689880763];
 Y = [1,1,1,1,1,0,0,0,0,0]';
 [INTERCEPT, SLOPE, DEV, DL, D2L, P] = logistic_regression (Y, X, false);
***** test
 # Output compared to following MATLAB commands
 # [B, DEV, STATS] = mnrfit(X,Y+1,'model','ordinal');
 load carbig
 X = [Acceleration Displacement Horsepower Weight];
 miles = [1,1,1,1,1,1,1,1,1,1,NaN,NaN,NaN,NaN,NaN,1,1,NaN,1,1,2,2,1,2,2,2, ...
          2,2,2,2,2,1,1,1,1,2,2,2,2,NaN,2,1,1,2,1,1,1,1,1,1,1,1,1,2,2,1,2, ...
          2,3,3,3,3,2,2,2,2,2,2,2,1,1,1,1,1,1,1,1,1,2,1,1,1,1,1,2,2,2,2,2, ...
          2,2,2,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,1,1,1,1,1,2,2,2,1,2,2, ...
          2,1,1,3,2,2,2,1,2,2,1,2,2,2,1,3,2,3,2,1,1,1,1,1,1,1,1,3,2,2,3,3, ...
          2,2,2,2,2,3,2,1,1,1,1,1,1,1,1,1,1,1,2,2,1,3,2,2,2,2,2,2,1,3,2,2, ...
          2,2,2,3,2,2,2,2,2,1,1,1,1,2,2,2,2,3,2,3,3,2,1,1,1,3,3,2,2,2,1,2, ...
          2,1,1,1,1,1,3,3,3,2,3,1,1,1,1,1,2,2,1,1,1,1,1,3,2,2,2,3,3,3,3,2, ...
          2,2,4,3,3,4,3,2,2,2,2,2,2,2,2,2,2,2,1,1,2,1,1,1,3,2,2,3,2,2,2,2, ...
          2,1,2,1,3,3,2,2,2,2,2,1,1,1,1,1,1,2,1,3,3,3,2,2,2,2,2,3,3,3,3,2, ...
          2,2,3,4,3,3,3,2,2,2,2,3,3,3,3,3,4,2,4,4,4,3,3,4,4,3,3,3,2,3,2,3, ...
          2,2,2,2,3,4,4,3,3,3,3,3,3,3,3,3,3,3,3,3,3,2,NaN,3,2,2,2,2,2,1,2, ...
          2,3,3,3,2,2,2,3,3,3,3,3,3,3,3,3,3,3,2,3,2,2,3,3,2,2,4,3,2,3]';
 [INTERCEPT, SLOPE, DEV, DL, D2L, P] = logistic_regression (miles, X, false);
 assert (DEV, 433.197174495549, 1e-05);
 assert (INTERCEPT(1), -16.6895155618903, 1e-05);
 assert (INTERCEPT(2), -11.7207818178493, 1e-05);
 assert (INTERCEPT(3), -8.0605768506075, 1e-05);
 assert (SLOPE(1), 0.104762463756714, 1e-05);
 assert (SLOPE(2), 0.0103357623191891, 1e-05);
 assert (SLOPE(3), 0.0645199313242276, 1e-05);
 assert (SLOPE(4), 0.00166377028388103, 1e-05);
2 tests, 2 passed, 0 known failure, 0 skipped
[inst/sigma_pts.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/sigma_pts.m
***** demo
 K      = [1 0.5; 0.5 1]; # covariance matrix
 # calculate and build associated ellipse
 [R,S,~] = svd (K);
 theta   = atan2 (R(2,1), R(1,1));
 v       = sqrt (diag (S));
 v       = v .* [cos(theta) sin(theta); -sin(theta) cos(theta)];
 t       = linspace (0, 2*pi, 100).';
 xe      = v(1,1) * cos (t) + v(2,1) * sin (t);
 ye      = v(1,2) * cos (t) + v(2,2) * sin (t);

 figure(1); clf; hold on
 # Plot ellipse and axes
 line ([0 0; v(:,1).'],[0 0; v(:,2).'])
 plot (xe,ye,'-r');

 col = 'rgb';
 l     = [-1.8 -1 1.5];
 for li = 1:3
  p     = sigma_pts (2, [], K, l(li));
  tmp   = plot (p(2:end,1), p(2:end,2), ['x' col(li)], ...
               p(1,1), p(1,2), ['o' col(li)]);
  h(li) = tmp(1);
 endfor
 hold off
 axis image
 legend (h, arrayfun (@(x) sprintf ("l:%.2g", x), l, "unif", 0));
***** test
 p = sigma_pts (5);
 assert (mean (p), zeros(1,5), sqrt(eps));
 assert (cov (p), eye(5), sqrt(eps));
***** test
 m = randn(1, 5);
 p = sigma_pts (5, m);
 assert (mean (p), m, sqrt(eps));
 assert (cov (p), eye(5), sqrt(eps));
***** test
 x = linspace (0,1,5);
 K = exp (- (x.' - x).^2/ 0.5);
 p = sigma_pts (5, [], K);
 assert (mean (p), zeros(1,5), sqrt(eps));
 assert (cov (p), K, sqrt(eps));
***** error sigma_pts(2,1);
***** error sigma_pts(2,[],1);
***** error sigma_pts(2,1,1);
***** error sigma_pts(2,[0.5 0.5],[-1 0; 0 0]);
7 tests, 7 passed, 0 known failure, 0 skipped
[inst/silhouette.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/silhouette.m
***** demo
 load fisheriris;
 X = meas(:,3:4);
 cidcs = kmeans (X, 3, "Replicates", 5);
 silhouette (X, cidcs);
 y_labels(cidcs([1 51 101])) = unique (species);
 set (gca, "yticklabel", y_labels);
 title ("Fisher's iris data");
***** error silhouette ();
***** error silhouette ([1 2; 1 1]);
***** error <X .* doesn't match .* clust> silhouette ([1 2; 1 1], [1 2 3]');
***** error <invalid metric> silhouette ([1 2; 1 1], [1 2]', "xxx");
4 tests, 4 passed, 0 known failure, 0 skipped
[inst/hmmestimate.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/hmmestimate.m
***** test
 sequence = [1, 2, 1, 1, 1, 2, 2, 1, 2, 3, 3, ...
             3, 3, 2, 3, 1, 1, 1, 1, 3, 3, 2, 3, 1, 3];
 states =   [1, 1, 2, 2, 2, 1, 1, 1, 1, 1, 1, ...
             1, 1, 1, 1, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1];
 [transprobest, outprobest] = hmmestimate (sequence, states);
 expectedtransprob = [0.88889, 0.11111; 0.28571, 0.71429];
 expectedoutprob = [0.16667, 0.33333, 0.50000; 1.00000, 0.00000, 0.00000];
 assert (transprobest, expectedtransprob, 0.001);
 assert (outprobest, expectedoutprob, 0.001);
***** test
 sequence = {"A", "B", "A", "A", "A", "B", "B", "A", "B", "C", "C", "C", ...
             "C", "B", "C", "A", "A", "A", "A", "C", "C", "B", "C", "A", "C"};
 states = {"One", "One", "Two", "Two", "Two", "One", "One", "One", "One", ...
           "One", "One", "One", "One", "One", "One", "Two", "Two", "Two", ...
           "Two", "One", "One", "One", "One", "One", "One"};
 symbols = {"A", "B", "C"};
 statenames = {"One", "Two"};
 [transprobest, outprobest] = hmmestimate (sequence, states, "symbols", ...
                                           symbols, "statenames", statenames);
 expectedtransprob = [0.88889, 0.11111; 0.28571, 0.71429];
 expectedoutprob = [0.16667, 0.33333, 0.50000; 1.00000, 0.00000, 0.00000];
 assert (transprobest, expectedtransprob, 0.001);
 assert (outprobest, expectedoutprob, 0.001);
***** test
 sequence = [1, 2, 1, 1, 1, 2, 2, 1, 2, 3, 3, 3, ...
             3, 2, 3, 1, 1, 1, 1, 3, 3, 2, 3, 1, 3];
 states =   [1, 1, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, ...
             1, 1, 1, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1];
 pseudotransitions = [8, 2; 4, 6];
 pseudoemissions = [2, 4, 4; 7, 2, 1];
 [transprobest, outprobest] = hmmestimate (sequence, states, ...
  "pseudotransitions", pseudotransitions, "pseudoemissions", pseudoemissions);
 expectedtransprob = [0.85714, 0.14286; 0.35294, 0.64706];
 expectedoutprob = [0.178571, 0.357143, 0.464286; ...
                    0.823529, 0.117647, 0.058824];
 assert (transprobest, expectedtransprob, 0.001);
 assert (outprobest, expectedoutprob, 0.001);
3 tests, 3 passed, 0 known failure, 0 skipped
[inst/nanmax.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/nanmax.m
***** demo
 ## Find the column maximum values and their indices
 ## for matrix data with missing values.

 x = magic (3);
 x([1, 6:9]) = NaN
 [y, ind] = nanmax (x)
***** demo
 ## Find the maximum of all the values in an array, ignoring missing values.
 ## Create a 2-by-5-by-3 array x with some missing values.

 x = reshape (1:30, [2, 5, 3]);
 x([10:12, 25]) = NaN

 ## Find the maximum of the elements of x.

 y = nanmax (x, [], 'all')
***** assert (nanmax ([2, 4, NaN, 7]), 7)
***** assert (nanmax ([2, 4, NaN, Inf]), Inf)
***** assert (nanmax ([1, NaN, 3; NaN, 5, 6; 7, 8, NaN]), [7, 8, 6])
***** assert (nanmax ([1, NaN, 3; NaN, 5, 6; 7, 8, NaN]'), [3, 6, 8])
***** assert (nanmax (single ([1, NaN, 3; NaN, 5, 6; 7, 8, NaN])), single ([7, 8, 6]))
***** shared x, y
 x(:,:,1) = [1.77, -0.005, NaN, -2.95; NaN, 0.34, NaN, 0.19];
 x(:,:,2) = [1.77, -0.005, NaN, -2.95; NaN, 0.34, NaN, 0.19] + 5;
 y = x;
 y(2,3,1) = 0.51;
***** assert (nanmax (x, [], [1, 2])(:), [1.77;6.77])
***** assert (nanmax (x, [], [1, 3])(:), [6.77;5.34;NaN;5.19])
***** assert (nanmax (x, [], [2, 3])(:), [6.77;5.34])
***** assert (nanmax (x, [], [1, 2, 3]), 6.77)
***** assert (nanmax (x, [], 'all'), 6.77)
***** assert (nanmax (y, [], [1, 3])(:), [6.77;5.34;0.51;5.19])
***** assert (nanmax (x(1,:,1), x(2,:,1)), [1.77, 0.34, NaN, 0.19])
***** assert (nanmax (x(1,:,2), x(2,:,2)), [6.77, 5.34, NaN, 5.19])
***** assert (nanmax (y(1,:,1), y(2,:,1)), [1.77, 0.34, 0.51, 0.19])
***** assert (nanmax (y(1,:,2), y(2,:,2)), [6.77, 5.34, NaN, 5.19])
***** test
 xx = repmat ([1:20;6:25], [5 2 6 3]);
 assert (size (nanmax (xx, [], [3, 2])), [10, 1, 1, 3]);
 assert (size (nanmax (xx, [], [1, 2])), [1, 1, 6, 3]);
 assert (size (nanmax (xx, [], [1, 2, 4])), [1, 1, 6]);
 assert (size (nanmax (xx, [], [1, 4, 3])), [1, 40]);
 assert (size (nanmax (xx, [], [1, 2, 3, 4])), [1, 1]);
***** assert (nanmax (ones (2), [], 3), ones (2, 2))
***** assert (nanmax (ones (2, 2, 2), [], 99), ones (2, 2, 2))
***** assert (nanmax (magic (3), [], 3), magic (3))
***** assert (nanmax (magic (3), [], [1, 3]), [8, 9, 7])
***** assert (nanmax (magic (3), [], [1, 99]), [8, 9, 7])
***** assert (nanmax (ones (2), 3), 3 * ones (2,2))
***** error <nanmax: VECDIM must contain non-repeating positive integers.> ...
 nanmax (y, [], [1, 1, 2])
***** error <nanmax: a second output is not supported with this syntax.> ...
 [v, idx] = nanmax(x, y, [1 2])
24 tests, 24 passed, 0 known failure, 0 skipped
[inst/glmval.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/glmval.m
***** demo
 x = [210, 230, 250, 270, 290, 310, 330, 350, 370, 390, 410, 430]';
 n = [48, 42, 31, 34, 31, 21, 23, 23, 21, 16, 17, 21]';
 y = [1, 2, 0, 3, 8, 8, 14, 17, 19, 15, 17, 21]';
 b = glmfit (x, [y n], "binomial", "Link", "probit");
 yfit = glmval (b, x, "probit", "Size", n);
 plot (x, y./n, 'o', x, yfit ./ n, '-')
***** error <glmval: too few input arguments.> glmval ()
***** error <glmval: too few input arguments.> glmval (1)
***** error <glmval: too few input arguments.> glmval (1, 2)
***** error <glmval: B must be a numeric vector of coefficient estimates.> ...
 glmval ("asd", [1; 1; 1], 'probit')
***** error <glmval: B must be a numeric vector of coefficient estimates.> ...
 glmval ([], [1; 1; 1], 'probit')
***** error <glmval: X must be a numeric matrix.> ...
 glmval ([0.1; 0.3; 0.4], [], 'probit')
***** error <glmval: X must be a numeric matrix.> ...
 glmval ([0.1; 0.3; 0.4], "asd", 'probit')
***** error <glmval: structure with custom link functions must be a scalar.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", {1, 2}))
***** error <glmval: structure with custom link functions requires the fields 'Link', 'Derivative', and 'Inverse'.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", "norminv"))
***** error <glmval: bad 'Link' function in custom link function structure.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", "some", "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmval: bad 'Link' function in custom link function structure.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", 1, "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmval: custom 'Link' function must return an output of the same size as input.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x) [x, x], "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmval: invalid custom 'Link' function.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", "what", "Derivative", @(x)x, "Inverse", "normcdf"))
***** error <glmval: bad 'Derivative' function in custom link function structure.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", "some", "Inverse", "normcdf"))
***** error <glmval: bad 'Derivative' function in custom link function structure.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", 1, "Inverse", "normcdf"))
***** error <glmval: custom 'Derivative' function must return an output of the same size as input.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", @(x) [x, x], "Inverse", "normcdf"))
***** error <glmval: invalid custom 'Derivative' function.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", "what", "Inverse", "normcdf"))
***** error <glmval: bad 'Inverse' function in custom link function structure.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", "some"))
***** error <glmval: bad 'Inverse' function in custom link function structure.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", 1))
***** error <glmval: custom 'Inverse' function must return an output of the same size as input.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", @(x) [x, x]))
***** error <glmval: invalid custom 'Inverse' function.> ...
 glmval (rand (3,1), rand (5,2), struct ("Link", @(x)x, "Derivative", "normcdf", "Inverse", "what"))
***** error <glmval: cell array with custom link functions must have three elements.> ...
 glmval (rand (3,1), rand (5,2), {'log'})
***** error <glmval: cell array with custom link functions must have three elements.> ...
 glmval (rand (3,1), rand (5,2), {'log', 'hijy'})
***** error <glmval: cell array with custom link functions must have three elements.> ...
 glmval (rand (3,1), rand (5,2), {1, 2, 3, 4})
***** error <glmval: bad 'Link' function in custom link function cell array.> ...
 glmval (rand (3,1), rand (5,2), {"log", "dfv", "dfgvd"})
***** error <glmval: custom 'Link' function must return an output of the same size as input.> ...
 glmval (rand (3,1), rand (5,2), {@(x) [x, x], "dfv", "dfgvd"})
***** error <glmval: invalid custom 'Link' function.> ...
 glmval (rand (3,1), rand (5,2), {@(x) what (x), "dfv", "dfgvd"})
***** error <glmval: bad 'Derivative' function in custom link function cell array.> ...
 glmval (rand (3,1), rand (5,2), {@(x) x, "dfv", "dfgvd"})
***** error <glmval: custom 'Derivative' function must return an output of the same size as input.> ...
 glmval (rand (3,1), rand (5,2), {@(x) x, @(x) [x, x], "dfgvd"})
***** error <glmval: invalid custom 'Derivative' function.> ...
 glmval (rand (3,1), rand (5,2), {@(x) x, @(x) what (x), "dfgvd"})
***** error <glmval: bad 'Inverse' function in custom link function cell array.> ...
 glmval (rand (3,1), rand (5,2), {@(x) x, @(x) x, "dfgvd"})
***** error <glmval: custom 'Inverse' function must return an output of the same size as input.> ...
 glmval (rand (3,1), rand (5,2), {@(x) x, @(x) x, @(x) [x, x]})
***** error <glmval: invalid custom 'Inverse' function.> ...
 glmval (rand (3,1), rand (5,2), {@(x) x, @(x) x, @(x) what (x)})
***** error <glmval: numeric input for custom link function must be a finite real scalar value.> ...
 glmval (rand (3,1), rand (5,2), NaN)
***** error <glmval: numeric input for custom link function must be a finite real scalar value.> ...
 glmval (rand (3,1), rand (5,2), [1, 2])
***** error <glmval: numeric input for custom link function must be a finite real scalar value.> ...
 glmval (rand (3,1), rand (5,2), [1i])
***** error <glmval: canonical link function name must be a character vector.> ...
 glmval (rand (3,1), rand (5,2), ["log"; "log1"])
***** error <glmval: canonical link function 'somelinkfunction' is not supported.> ...
 glmval (rand (3,1), rand (5,2), 'somelinkfunction')
***** error <glmval: invalid value for custom link function.> ...
 glmval (rand (3,1), rand (5,2), true)
***** error <glmval: invalid 'stats' structure.> ...
 glmval (rand (3,1), rand (5,2), 'probit', struct ("s", 1))
***** error <glmval: Name-Value arguments must be in pairs.> ...
 glmval (rand (3,1), rand (5,2), 'probit', 'confidence')
***** error <glmval: 'Confidence' must be a scalar between 0 and 1.> ...
 glmval (rand (3,1), rand (5,2), 'probit', 'confidence', 0)
***** error <glmval: 'Confidence' must be a scalar between 0 and 1.> ...
 glmval (rand (3,1), rand (5,2), 'probit', 'confidence', 1.2)
***** error <glmval: 'Confidence' must be a scalar between 0 and 1.> ...
 glmval (rand (3,1), rand (5,2), 'probit', 'confidence', [0.9, 0.95])
***** error <glmval: 'Constant' should be either 'on' or 'off'.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'constant', 1)
***** error <glmval: 'Constant' should be either 'on' or 'off'.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'constant', 'o')
***** error <glmval: 'Constant' should be either 'on' or 'off'.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'constant', true)
***** error <glmval: 'Offset' must be a numeric vector of the same length as the rows in X.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'offset', [1; 2; 3; 4])
***** error <glmval: 'Offset' must be a numeric vector of the same length as the rows in X.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'offset', 'asdfg')
***** error <glmval: 'simultaneous' must be a boolean scalar.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'simultaneous', 'asdfg')
***** error <glmval: 'simultaneous' must be a boolean scalar.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'simultaneous', [true, false])
***** error <glmval: 'size' must be a scalar or a vector with one value for each row of X.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'size', "asd")
***** error <glmval: 'size' must be a scalar or a vector with one value for each row of X.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'size', [2, 3, 4])
***** error <glmval: 'size' must be a scalar or a vector with one value for each row of X.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'size', [2; 3; 4])
***** error <glmval: 'size' must be a scalar or a vector with one value for each row of X.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'size', ones (3))
***** error <glmval: unknown parameter name.> ...
 glmval (rand (3, 1), rand (5, 2), 'probit', 'someparam', 4)
***** error <glmval: cannot compute confidence intervals without STATS structure.> ...
 [y,lo,hi] = glmval (rand (3, 1), rand (5, 2), 'probit')
57 tests, 57 passed, 0 known failure, 0 skipped
[inst/regress.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/regress.m
***** test
 % Longley data from the NIST Statistical Reference Dataset
 Z = [  60323    83.0   234289   2356     1590    107608  1947
        61122    88.5   259426   2325     1456    108632  1948
        60171    88.2   258054   3682     1616    109773  1949
        61187    89.5   284599   3351     1650    110929  1950
        63221    96.2   328975   2099     3099    112075  1951
        63639    98.1   346999   1932     3594    113270  1952
        64989    99.0   365385   1870     3547    115094  1953
        63761   100.0   363112   3578     3350    116219  1954
        66019   101.2   397469   2904     3048    117388  1955
        67857   104.6   419180   2822     2857    118734  1956
        68169   108.4   442769   2936     2798    120445  1957
        66513   110.8   444546   4681     2637    121950  1958
        68655   112.6   482704   3813     2552    123366  1959
        69564   114.2   502601   3931     2514    125368  1960
        69331   115.7   518173   4806     2572    127852  1961
        70551   116.9   554894   4007     2827    130081  1962 ];
 % Results certified by NIST using 500 digit arithmetic
 % b and standard error in b
 V = [  -3482258.63459582         890420.383607373
         15.0618722713733         84.9149257747669
        -0.358191792925910E-01    0.334910077722432E-01
        -2.02022980381683         0.488399681651699
        -1.03322686717359         0.214274163161675
        -0.511041056535807E-01    0.226073200069370
         1829.15146461355         455.478499142212 ];
 Rsq = 0.995479004577296;
 F = 330.285339234588;
 y = Z(:,1); X = [ones(rows(Z),1), Z(:,2:end)];
 alpha = 0.05;
 [b, bint, r, rint, stats] = regress (y, X, alpha);
 assert(b,V(:,1),4e-6);
 assert(stats(1),Rsq,1e-12);
 assert(stats(2),F,3e-8);
 assert(((bint(:,1)-bint(:,2))/2)/tinv(alpha/2,9),V(:,2),-1.e-5);
warning: matrix singular to machine precision, rcond = 3.50566e-20
warning: called from
    regress at line 131 column 5
    __test__ at line 33 column 3
    test at line 685 column 11
    /tmp/tmp.ugNpcUo28o at line 3534 column 2

1 test, 1 passed, 0 known failure, 0 skipped
[inst/mahal.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/mahal.m
***** error mahal ()
***** error mahal (1, 2, 3)
***** error mahal ("A", "B")
***** error <must be numeric> mahal ([1, 2], ["A", "B"])
***** error mahal (ones (2, 2, 2))
***** error <must be 2-D matrices> mahal (ones (2, 2), ones (2, 2, 2))
***** error <same number of columns> mahal (ones (2, 2), ones (2, 3))
***** test
 X = [1 0; 0 1; 1 1; 0 0];
 assert (mahal (X, X), [1.5; 1.5; 1.5; 1.5], 10*eps)
 assert (mahal (X, X+1), [7.5; 7.5; 1.5; 13.5], 10*eps)
***** assert (mahal ([true; true], [false; true]), [0.5; 0.5], eps)
9 tests, 9 passed, 0 known failure, 0 skipped
[inst/rmmissing.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/rmmissing.m
***** assert (rmmissing ([1, NaN, 3]), [1, 3])
***** assert (rmmissing ('abcd f'), 'abcd f')
***** assert (rmmissing ({'xxx', '', 'xyz'}), {'xxx', 'xyz'})
***** assert (rmmissing ({'xxx', ''; 'xyz', 'yyy'}), {'xyz', 'yyy'})
***** assert (rmmissing ({'xxx', ''; 'xyz', 'yyy'}, 2), {'xxx'; 'xyz'})
***** assert (rmmissing ([1, 2; NaN, 2]), [1, 2])
***** assert (rmmissing ([1, 2; NaN, 2], 2), [2, 2]')
***** assert (rmmissing ([1, 2; NaN, 4; NaN, NaN],"MinNumMissing", 2), [1, 2; NaN, 4])
***** test
 x = [1:6];
 x([2,4]) = NaN;
 [~, idx] = rmmissing (x);
 assert (idx, logical ([0, 1, 0, 1, 0, 0]));
 assert (class(idx), 'logical');
 x = reshape (x, [2, 3]);
 [~, idx] = rmmissing (x);
 assert (idx, logical ([0; 1]));
 assert (class(idx), 'logical');
 [~, idx] = rmmissing (x, 2);
 assert (idx, logical ([1, 1, 0]));
 assert (class(idx), 'logical');
 [~, idx] = rmmissing (x, 1, "MinNumMissing", 2);
 assert (idx, logical ([0; 1]));
 assert (class(idx), 'logical');
 [~, idx] = rmmissing (x, 2, "MinNumMissing", 2);
 assert (idx, logical ([0, 0, 0]));
 assert (class(idx), 'logical');
***** assert (rmmissing (single ([1, 2, NaN; 3, 4, 5])), single ([3, 4, 5]))
***** assert (rmmissing (logical (ones (3))), logical (ones (3)))
***** assert (rmmissing (int32 (ones (3))), int32 (ones (3)))
***** assert (rmmissing (uint32 (ones (3))), uint32 (ones (3)))
***** assert (rmmissing ({1, 2, 3}), {1, 2, 3})
***** assert (rmmissing ([struct, struct, struct]), [struct, struct, struct])
***** assert (rmmissing ([]), [])
***** assert (rmmissing (ones (1, 0)), ones (1, 0))
***** assert (rmmissing (ones (1, 0), 1), ones (1, 0))
***** assert (rmmissing (ones (1, 0), 2), ones (1, 0))
***** assert (rmmissing (ones (0, 1)), ones (0, 1))
***** assert (rmmissing (ones (0, 1), 1), ones (0, 1))
***** assert (rmmissing (ones (0, 1), 2), ones (0, 1))
***** error <rmmissing: A must be a matrix; no more than 2 dimensions allowed.> ...
       rmmissing (ones (0, 1, 2))
***** error rmmissing ()
***** error <rmmissing: A must be a matrix; no more than 2 dimensions allowed.> ...
       rmmissing (ones(2, 2, 2))
***** error <rmmissing: 'MinNumMissing' must be a positive integer value.> ...
       rmmissing (ones(2, 2), 'MinNumMissing', 0)
***** error <rmmissing: 'MinNumMissing' must be a positive integer value.> ...
       rmmissing ([1, 2; 3, 4], 2, "MinNumMissing", -2)
***** error <rmmissing: 'MinNumMissing' must be a positive integer value.> ...
       rmmissing ([1, 2; 3, 4], "MinNumMissing", 3.8)
***** error <rmmissing: 'MinNumMissing' must be a positive integer value.> ...
       rmmissing ([1, 2; 3, 4], "MinNumMissing", [1, 2, 3])
***** error <rmmissing: 'MinNumMissing' must be a positive integer value.> ...
       rmmissing ([1, 2; 3, 4], "MinNumMissing", 'xxx')
***** error <rmmissing: 'MissingLocations' must be a logical matrix of the same size as input A.> ...
       rmmissing ([1, 2; 3, 4], 'MissingLocations', false ([1, 1, 1]))
***** error <rmmissing: specified DIM must be either 1 or 2.> rmmissing ([1, 2; 3, 4], 5)
***** error <rmmissing: too many input arguments.> rmmissing ([1, 2; 3, 4], 'XXX', 1)
33 tests, 33 passed, 0 known failure, 0 skipped
[inst/evalclusters.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/evalclusters.m
***** demo
 load fisheriris;
 eva = evalclusters (meas, "kmeans", "calinskiharabasz", "KList", [1:6])
 plot (eva)
***** error evalclusters ()
***** error evalclusters ([1 1;0 1])
***** error evalclusters ([1 1;0 1], "kmeans")
***** error <evalclusters: X must be a numeric matrix.> ...
 evalclusters ("abc", "kmeans", "gap")
***** error <unknown clustering*> evalclusters ([1 1;0 1], "xxx", "gap")
***** error <invalid matrix*> evalclusters ([1 1;0 1], [1 2], "gap")
***** error <invalid argument*> evalclusters ([1 1;0 1], 1.2, "gap")
***** error <invalid criterion*> evalclusters ([1 1;0 1], [1; 2], 123)
***** error <unknown criterion*> evalclusters ([1 1;0 1], [1; 2], "xxx")
***** error <'KList' can be empty*> evalclusters ([1 1;0 1], "kmeans", "gap")
***** error <invalid parameter*> evalclusters ([1 1;0 1], [1; 2], "gap", 1)
***** error <invalid property*> evalclusters ([1 1;0 1], [1; 2], "gap", 1, 1)
***** error <unknown property*> evalclusters ([1 1;0 1], [1; 2], "gap", "xxx", 1)
***** error <'KList'*> evalclusters ([1 1;0 1], [1; 2], "gap", "KList", [-1 0])
***** error <'KList'*> evalclusters ([1 1;0 1], [1; 2], "gap", "KList", [1 .5])
***** error <'KList'*> evalclusters ([1 1;0 1], [1; 2], "gap", "KList", [1 1; 1 1])
***** error <unknown distance*> evalclusters ([1 1;0 1], [1; 2], "gap", ...
                                        "distance", "a")
***** error <distance metric*> evalclusters ([1 1;0 1], [1; 2], "daviesbouldin", ...
                                       "distance", "a")
***** error <cluster prior*> evalclusters ([1 1;0 1], [1; 2], "gap", ...
                                     "clusterpriors", "equal")
***** error <invalid cluster prior*> evalclusters ([1 1;0 1], [1; 2], ...
                                         "silhouette", "clusterpriors", "xxx")
***** error <'clust' must be a clustering*> evalclusters ([1 1;0 1], [1; 2], "gap")
***** test
 load fisheriris;
 eva = evalclusters (meas, "kmeans", "calinskiharabasz", "KList", [1:6]);
 assert (isa (eva, "CalinskiHarabaszEvaluation"));
 assert (eva.NumObservations, 150);
 assert (eva.OptimalK, 3);
 assert (eva.InspectedK, [1 2 3 4 5 6]);
22 tests, 22 passed, 0 known failure, 0 skipped
[inst/multcompare.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/multcompare.m
***** demo

 ## Demonstration using balanced one-way ANOVA from anova1

 x = ones (50, 4) .* [-2, 0, 1, 5];
 randn ("seed", 1);    # for reproducibility
 x = x + normrnd (0, 2, 50, 4);
 groups = {"A", "B", "C", "D"};
 [p, tbl, stats] = anova1 (x, groups, "off");
 multcompare (stats);
***** demo

 ## Demonstration using unbalanced one-way ANOVA example from anovan

 dv =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 g = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 ...
      4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';

 [P,ATAB, STATS] = anovan (dv, g, "varnames", "score", "display", "off");

 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "holm", ...
                                  "ControlGroup", 1, "display", "on")

***** demo

 ## Demonstration using factorial ANCOVA example from anovan

 score = [95.6 82.2 97.2 96.4 81.4 83.6 89.4 83.8 83.3 85.7 ...
 97.2 78.2 78.9 91.8 86.9 84.1 88.6 89.8 87.3 85.4 ...
 81.8 65.8 68.1 70.0 69.9 75.1 72.3 70.9 71.5 72.5 ...
 84.9 96.1 94.6 82.5 90.7 87.0 86.8 93.3 87.6 92.4 ...
 100. 80.5 92.9 84.0 88.4 91.1 85.7 91.3 92.3 87.9 ...
 91.7 88.6 75.8 75.7 75.3 82.4 80.1 86.0 81.8 82.5]';
 treatment = {"yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" ...
              "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" ...
              "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" "yes" ...
              "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  ...
              "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  ...
              "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"  "no"}';
 exercise = {"lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  ...
             "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" ...
             "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  ...
             "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  "lo"  ...
             "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" "mid" ...
             "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"  "hi"}';
 age = [59 65 70 66 61 65 57 61 58 55 62 61 60 59 55 57 60 63 62 57 ...
 58 56 57 59 59 60 55 53 55 58 68 62 61 54 59 63 60 67 60 67 ...
 75 54 57 62 65 60 58 61 65 57 56 58 58 58 52 53 60 62 61 61]';

 [P, ATAB, STATS] = anovan (score, {treatment, exercise, age}, "model", ...
                            [1 0 0; 0 1 0; 0 0 1; 1 1 0], "continuous", 3, ...
                            "sstype", "h", "display", "off", "contrasts", ...
                            {"simple","poly",""});

 [C, M, H, GNAMES] = multcompare (STATS, "dim", [1 2], "ctype", "holm", ...
                                  "display", "on")

***** demo

 ## Demonstration using one-way ANOVA from anovan, with fit by weighted least
 ## squares to account for heteroskedasticity.

 g = [1, 1, 1, 1, 1, 1, 1, 1, ...
      2, 2, 2, 2, 2, 2, 2, 2, ...
      3, 3, 3, 3, 3, 3, 3, 3]';

 y = [13, 16, 16,  7, 11,  5,  1,  9, ...
      10, 25, 66, 43, 47, 56,  6, 39, ...
      11, 39, 26, 35, 25, 14, 24, 17]';

 [P,ATAB,STATS] = anovan(y, g, "display", "off");
 fitted = STATS.X * STATS.coeffs(:,1); # fitted values
 b = polyfit (fitted, abs (STATS.resid), 1);
 v = polyval (b, fitted);  # Variance as a function of the fitted values
 [P,ATAB,STATS] = anovan (y, g, "weights", v.^-1, "display", "off");
 [C, M] =  multcompare (STATS, "display", "on", "ctype", "mvt")
***** demo

 ## Demonstration of p-value adjustments to control the false discovery rate
 ## Data from Westfall (1997) JASA. 92(437):299-306

 p = [.005708; .023544; .024193; .044895; ...
       .048805; .221227; .395867; .693051; .775755];

 padj = multcompare(p,'ctype','fdr')
***** test

 ## Tests using unbalanced one-way ANOVA example from anovan and anova1

 ## Test for anovan - compare pairwise comparisons with matlab for CTYPE "lsd"

 dv =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 g = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 ...
      4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';

 [P, ATAB, STATS] = anovan (dv, g, "varnames", "score", "display", "off");
 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "lsd", ...
                                  "display", "off");
 assert (C(1,6), 2.85812420217898e-05, 1e-09);
 assert (C(2,6), 5.22936741204085e-07, 1e-09);
 assert (C(3,6), 2.12794763209146e-08, 1e-09);
 assert (C(4,6), 7.82091664406946e-15, 1e-09);
 assert (C(5,6), 0.546591417210693, 1e-09);
 assert (C(6,6), 0.0845897945254446, 1e-09);
 assert (C(7,6), 9.47436557975328e-08, 1e-09);
 assert (C(8,6), 0.188873478781067, 1e-09);
 assert (C(9,6), 4.08974010364197e-08, 1e-09);
 assert (C(10,6), 4.44427348175241e-06, 1e-09);
 assert (M(1,1), 10, 1e-09);
 assert (M(2,1), 18, 1e-09);
 assert (M(3,1), 19, 1e-09);
 assert (M(4,1), 21.0001428571429, 1e-09);
 assert (M(5,1), 29.0001111111111, 1e-09);
 assert (M(1,2), 1.0177537954095, 1e-09);
 assert (M(2,2), 1.28736803631001, 1e-09);
 assert (M(3,2), 1.0177537954095, 1e-09);
 assert (M(4,2), 1.0880245732889, 1e-09);
 assert (M(5,2), 0.959547480416536, 1e-09);

 ## Compare "fdr" adjusted p-values to those obtained using p.adjust in R

 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "fdr", ...
                                  "display", "off");
 assert (C(1,6), 4.08303457454140e-05, 1e-09);
 assert (C(2,6), 1.04587348240817e-06, 1e-09);
 assert (C(3,6), 1.06397381604573e-07, 1e-09);
 assert (C(4,6), 7.82091664406946e-14, 1e-09);
 assert (C(5,6), 5.46591417210693e-01, 1e-09);
 assert (C(6,6), 1.05737243156806e-01, 1e-09);
 assert (C(7,6), 2.36859139493832e-07, 1e-09);
 assert (C(8,6), 2.09859420867852e-01, 1e-09);
 assert (C(9,6), 1.36324670121399e-07, 1e-09);
 assert (C(10,6), 7.40712246958735e-06, 1e-09);

 ## Compare "hochberg" adjusted p-values to those obtained using p.adjust in R

 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "hochberg", ...
                                  "display", "off");
 assert (C(1,6), 1.14324968087159e-04, 1e-09);
 assert (C(2,6), 3.13762044722451e-06, 1e-09);
 assert (C(3,6), 1.91515286888231e-07, 1e-09);
 assert (C(4,6), 7.82091664406946e-14, 1e-09);
 assert (C(5,6), 5.46591417210693e-01, 1e-09);
 assert (C(6,6), 2.53769383576334e-01, 1e-09);
 assert (C(7,6), 6.63205590582730e-07, 1e-09);
 assert (C(8,6), 3.77746957562134e-01, 1e-09);
 assert (C(9,6), 3.27179208291358e-07, 1e-09);
 assert (C(10,6), 2.22213674087620e-05, 1e-09);

 ## Compare "holm" adjusted p-values to those obtained using p.adjust in R

 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "holm", ...
                                  "display", "off");
 assert (C(1,6), 1.14324968087159e-04, 1e-09);
 assert (C(2,6), 3.13762044722451e-06, 1e-09);
 assert (C(3,6), 1.91515286888231e-07, 1e-09);
 assert (C(4,6), 7.82091664406946e-14, 1e-09);
 assert (C(5,6), 5.46591417210693e-01, 1e-09);
 assert (C(6,6), 2.53769383576334e-01, 1e-09);
 assert (C(7,6), 6.63205590582730e-07, 1e-09);
 assert (C(8,6), 3.77746957562134e-01, 1e-09);
 assert (C(9,6), 3.27179208291358e-07, 1e-09);
 assert (C(10,6), 2.22213674087620e-05, 1e-09);

 ## Compare "scheffe" adjusted p-values to those obtained using 'scheffe' in Matlab

 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "scheffe", ...
                                  "display", "off");
 assert (C(1,6), 0.00108105386141085, 1e-09);
 assert (C(2,6), 2.7779386789517e-05, 1e-09);
 assert (C(3,6), 1.3599854038198e-06, 1e-09);
 assert (C(4,6), 7.58830197867751e-13, 1e-09);
 assert (C(5,6), 0.984039948220281, 1e-09);
 assert (C(6,6), 0.539077018557706, 1e-09);
 assert (C(7,6), 5.59475764460574e-06, 1e-09);
 assert (C(8,6), 0.771173490574105, 1e-09);
 assert (C(9,6), 2.52838425729905e-06, 1e-09);
 assert (C(10,6), 0.000200719143889168, 1e-09);

 ## Compare "bonferroni" adjusted p-values to those obtained using p.adjust in R

 [C, M, H, GNAMES] = multcompare (STATS, "dim", 1, "ctype", "bonferroni", ...
                                  "display", "off");
 assert (C(1,6), 2.85812420217898e-04, 1e-09);
 assert (C(2,6), 5.22936741204085e-06, 1e-09);
 assert (C(3,6), 2.12794763209146e-07, 1e-09);
 assert (C(4,6), 7.82091664406946e-14, 1e-09);
 assert (C(5,6), 1.00000000000000e+00, 1e-09);
 assert (C(6,6), 8.45897945254446e-01, 1e-09);
 assert (C(7,6), 9.47436557975328e-07, 1e-09);
 assert (C(8,6), 1.00000000000000e+00, 1e-09);
 assert (C(9,6), 4.08974010364197e-07, 1e-09);
 assert (C(10,6), 4.44427348175241e-05, 1e-09);

 ## Test for anova1 ("equal")- comparison of results from Matlab

 [P, ATAB, STATS] = anova1 (dv, g, "off", "equal");
 [C, M, H, GNAMES] = multcompare (STATS, "ctype", "lsd", "display", "off");
 assert (C(1,6), 2.85812420217898e-05, 1e-09);
 assert (C(2,6), 5.22936741204085e-07, 1e-09);
 assert (C(3,6), 2.12794763209146e-08, 1e-09);
 assert (C(4,6), 7.82091664406946e-15, 1e-09);
 assert (C(5,6), 0.546591417210693, 1e-09);
 assert (C(6,6), 0.0845897945254446, 1e-09);
 assert (C(7,6), 9.47436557975328e-08, 1e-09);
 assert (C(8,6), 0.188873478781067, 1e-09);
 assert (C(9,6), 4.08974010364197e-08, 1e-09);
 assert (C(10,6), 4.44427348175241e-06, 1e-09);
 assert (M(1,1), 10, 1e-09);
 assert (M(2,1), 18, 1e-09);
 assert (M(3,1), 19, 1e-09);
 assert (M(4,1), 21.0001428571429, 1e-09);
 assert (M(5,1), 29.0001111111111, 1e-09);
 assert (M(1,2), 1.0177537954095, 1e-09);
 assert (M(2,2), 1.28736803631001, 1e-09);
 assert (M(3,2), 1.0177537954095, 1e-09);
 assert (M(4,2), 1.0880245732889, 1e-09);
 assert (M(5,2), 0.959547480416536, 1e-09);

 ## Test for anova1 ("unequal") - comparison with results from GraphPad Prism 8
 [P, ATAB, STATS] = anova1 (dv, g, "off", "unequal");
 [C, M, H, GNAMES] = multcompare (STATS, "ctype", "lsd", "display", "off");
 assert (C(1,6), 0.001247025266382, 1e-09);
 assert (C(2,6), 0.000018037115146, 1e-09);
 assert (C(3,6), 0.000002974595187, 1e-09);
 assert (C(4,6), 0.000000000786046, 1e-09);
 assert (C(5,6), 0.5693192886650109, 1e-09);
 assert (C(6,6), 0.110501699029776, 1e-09);
 assert (C(7,6), 0.000131226488700, 1e-09);
 assert (C(8,6), 0.1912101409715992, 1e-09);
 assert (C(9,6), 0.000005385256394, 1e-09);
 assert (C(10,6), 0.000074089106171, 1e-09);
***** test

 ## Test for anova2 ("interaction") - comparison with results from Matlab for column effect
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 [P, ATAB, STATS] = anova2 (popcorn, 3, "off");
 [C, M, H, GNAMES] = multcompare (STATS, "estimate", "column",...
                                  "ctype", "lsd", "display", "off");
 assert (C(1,6), 1.49311100811177e-05, 1e-09);
 assert (C(2,6), 2.20506904243535e-07, 1e-09);
 assert (C(3,6), 0.00449897860490058, 1e-09);
 assert (M(1,1), 6.25, 1e-09);
 assert (M(2,1), 4.75, 1e-09);
 assert (M(3,1), 4, 1e-09);
 assert (M(1,2), 0.152145154862547, 1e-09);
 assert (M(2,2), 0.152145154862547, 1e-09);
 assert (M(3,2), 0.152145154862547, 1e-09);
***** test

 ## Test for anova2 ("linear") - comparison with results from GraphPad Prism 8
 words = [10 13 13; 6 8 8; 11 14 14; 22 23 25; 16 18 20; ...
          15 17 17; 1 1 4; 12 15 17;  9 12 12;  8 9 12];
 [P, ATAB, STATS] = anova2 (words, 1, "off", "linear");
 [C, M, H, GNAMES] = multcompare (STATS, "estimate", "column",...
                                  "ctype", "lsd", "display", "off");
 assert (C(1,6), 0.000020799832702, 1e-09);
 assert (C(2,6), 0.000000035812410, 1e-09);
 assert (C(3,6), 0.003038942449215, 1e-09);
***** test

 ## Test for anova2 ("nested") - comparison with results from GraphPad Prism 8
 data = [4.5924 7.3809 21.322; -0.5488 9.2085 25.0426; ...
         6.1605 13.1147 22.66; 2.3374 15.2654 24.1283; ...
         5.1873 12.4188 16.5927; 3.3579 14.3951 10.2129; ...
         6.3092 8.5986 9.8934; 3.2831 3.4945 10.0203];
 [P, ATAB, STATS] = anova2 (data, 4, "off", "nested");
 [C, M, H, GNAMES] = multcompare (STATS, "estimate", "column",...
                                  "ctype", "lsd", "display", "off");
 assert (C(1,6), 0.261031111511073, 1e-09);
 assert (C(2,6), 0.065879755907745, 1e-09);
 assert (C(3,6), 0.241874613529270, 1e-09);
***** shared visibility_setting
 visibility_setting = get (0, "DefaultFigureVisible");
***** test
 set (0, "DefaultFigureVisible", "off");

 ## Test for kruskalwallis - comparison with results from MATLAB
 data = [3,2,4; 5,4,4; 4,2,4; 4,2,4; 4,1,5; ...
         4,2,3; 4,3,5; 4,2,4; 5,2,4; 5,3,3];
 group = [1:3] .* ones (10,3);
 [P, ATAB, STATS] = kruskalwallis (data(:), group(:), "off");
 C = multcompare (STATS, "ctype", "lsd", "display", "off");
 assert (C(1,6), 0.000163089828959986, 1e-09);
 assert (C(2,6), 0.630298044801257, 1e-09);
 assert (C(3,6), 0.00100567660695682, 1e-09);
 C = multcompare (STATS, "ctype", "bonferroni", "display", "off");
 assert (C(1,6), 0.000489269486879958, 1e-09);
 assert (C(2,6), 1, 1e-09);
 assert (C(3,6), 0.00301702982087047, 1e-09);
 C = multcompare(STATS, "ctype", "scheffe", "display", "off");
 assert (C(1,6), 0.000819054880289573, 1e-09);
 assert (C(2,6), 0.890628039849261, 1e-09);
 assert (C(3,6), 0.00447816059021654, 1e-09);
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 ## Test for friedman - comparison with results from MATLAB
 popcorn = [5.5, 4.5, 3.5; 5.5, 4.5, 4.0; 6.0, 4.0, 3.0; ...
            6.5, 5.0, 4.0; 7.0, 5.5, 5.0; 7.0, 5.0, 4.5];
 [P, ATAB, STATS] = friedman (popcorn, 3, "off");
 C = multcompare(STATS, "ctype", "lsd", "display", "off");
 assert (C(1,6), 0.227424558028569, 1e-09);
 assert (C(2,6), 0.0327204848315735, 1e-09);
 assert (C(3,6), 0.353160353315988, 1e-09);
 C = multcompare(STATS, "ctype", "bonferroni", "display", "off");
 assert (C(1,6), 0.682273674085708, 1e-09);
 assert (C(2,6), 0.0981614544947206, 1e-09);
 assert (C(3,6), 1, 1e-09);
 C = multcompare(STATS, "ctype", "scheffe", "display", "off");
 assert (C(1,6), 0.482657360384373, 1e-09);
 assert (C(2,6), 0.102266573027672, 1e-09);
 assert (C(3,6), 0.649836502233148, 1e-09);
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 set (0, "DefaultFigureVisible", "off");
 ## Test for fitlm - same comparisons as for first anovan example
 y =  [ 8.706 10.362 11.552  6.941 10.983 10.092  6.421 14.943 15.931 ...
        22.968 18.590 16.567 15.944 21.637 14.492 17.965 18.851 22.891 ...
        22.028 16.884 17.252 18.325 25.435 19.141 21.238 22.196 18.038 ...
        22.628 31.163 26.053 24.419 32.145 28.966 30.207 29.142 33.212 ...
        25.694 ]';
 X = [1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 3 3 3 3 3 4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5]';
 [TAB,STATS] = fitlm (X,y,"linear","categorical",1,"display","off",...
                      "contrasts","simple");
 [C, M] = multcompare(STATS, "ctype", "lsd", "display", "off");
 assert (C(1,6), 2.85812420217898e-05, 1e-09);
 assert (C(2,6), 5.22936741204085e-07, 1e-09);
 assert (C(3,6), 2.12794763209146e-08, 1e-09);
 assert (C(4,6), 7.82091664406946e-15, 1e-09);
 assert (C(5,6), 0.546591417210693, 1e-09);
 assert (C(6,6), 0.0845897945254446, 1e-09);
 assert (C(7,6), 9.47436557975328e-08, 1e-09);
 assert (C(8,6), 0.188873478781067, 1e-09);
 assert (C(9,6), 4.08974010364197e-08, 1e-09);
 assert (C(10,6), 4.44427348175241e-06, 1e-09);
 assert (M(1,1), 10, 1e-09);
 assert (M(2,1), 18, 1e-09);
 assert (M(3,1), 19, 1e-09);
 assert (M(4,1), 21.0001428571429, 1e-09);
 assert (M(5,1), 29.0001111111111, 1e-09);
 assert (M(1,2), 1.0177537954095, 1e-09);
 assert (M(2,2), 1.28736803631001, 1e-09);
 assert (M(3,2), 1.0177537954095, 1e-09);
 assert (M(4,2), 1.0880245732889, 1e-09);
 assert (M(5,2), 0.959547480416536, 1e-09);
 set (0, "DefaultFigureVisible", visibility_setting);
***** test
 ## Test p-value adjustments compared to R stats package function p.adjust
 ## Data from Westfall (1997) JASA. 92(437):299-306
 p = [.005708; .023544; .024193; .044895; ...
       .048805; .221227; .395867; .693051; .775755];
 padj = multcompare (p);
 assert (padj(1), 0.051372, 1e-06);
 assert (padj(2), 0.188352, 1e-06);
 assert (padj(3), 0.188352, 1e-06);
 assert (padj(4), 0.269370, 1e-06);
 assert (padj(5), 0.269370, 1e-06);
 assert (padj(6), 0.884908, 1e-06);
 assert (padj(7), 1.000000, 1e-06);
 assert (padj(8), 1.000000, 1e-06);
 assert (padj(9), 1.000000, 1e-06);
 padj = multcompare(p,'ctype','holm');
 assert (padj(1), 0.051372, 1e-06);
 assert (padj(2), 0.188352, 1e-06);
 assert (padj(3), 0.188352, 1e-06);
 assert (padj(4), 0.269370, 1e-06);
 assert (padj(5), 0.269370, 1e-06);
 assert (padj(6), 0.884908, 1e-06);
 assert (padj(7), 1.000000, 1e-06);
 assert (padj(8), 1.000000, 1e-06);
 assert (padj(9), 1.000000, 1e-06);
 padj = multcompare(p,'ctype','hochberg');
 assert (padj(1), 0.051372, 1e-06);
 assert (padj(2), 0.169351, 1e-06);
 assert (padj(3), 0.169351, 1e-06);
 assert (padj(4), 0.244025, 1e-06);
 assert (padj(5), 0.244025, 1e-06);
 assert (padj(6), 0.775755, 1e-06);
 assert (padj(7), 0.775755, 1e-06);
 assert (padj(8), 0.775755, 1e-06);
 assert (padj(9), 0.775755, 1e-06);
 padj = multcompare(p,'ctype','fdr');
 assert (padj(1), 0.0513720, 1e-07);
 assert (padj(2), 0.0725790, 1e-07);
 assert (padj(3), 0.0725790, 1e-07);
 assert (padj(4), 0.0878490, 1e-07);
 assert (padj(5), 0.0878490, 1e-07);
 assert (padj(6), 0.3318405, 1e-07);
 assert (padj(7), 0.5089719, 1e-07);
 assert (padj(8), 0.7757550, 1e-07);
 assert (padj(9), 0.7757550, 1e-07);
8 tests, 8 passed, 0 known failure, 0 skipped
[inst/dist_wrap/mle.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/mle.m
***** error <mle: X must be a numeric vector of real values.> mle (ones (2))
***** error <mle: X must be a numeric vector of real values.> mle ("text")
***** error <mle: X must be a numeric vector of real values.> mle ([1, 2, 3, i, 5])
***** error <mle: optional arguments must be in NAME-VALUE pairs.> ...
 mle ([1:50], "distribution")
***** error <mle: 'censoring' argument must have the same size as the input data in X.> ...
 mle ([1:50], "censoring", logical ([1,0,1,0]))
***** error <mle: 'frequency' argument must have the same size as the input data in X.> ...
 mle ([1:50], "frequency", [1,0,1,0])
***** error <mle: 'frequency' argument must contain non-negative integer values.> ...
 mle ([1 0 1 0], "frequency", [-1 1 0 0])
***** error <mle: 'frequency' argument must contain non-negative integer values.> ...
 mle ([1 0 1 0], "distribution", "nbin", "frequency", [-1 1 0 0])
***** error <mle: invalid value for 'alpha' argument.> mle ([1:50], "alpha", [0.05, 0.01])
***** error <mle: invalid value for 'alpha' argument.> mle ([1:50], "alpha", 1)
***** error <mle: invalid value for 'alpha' argument.> mle ([1:50], "alpha", -1)
***** error <mle: invalid value for 'alpha' argument.> mle ([1:50], "alpha", i)
***** error <mle: 'ntrials' argument must be a positive integer scalar value.> ...
 mle ([1:50], "ntrials", -1)
***** error <mle: 'ntrials' argument must be a positive integer scalar value.> ...
 mle ([1:50], "ntrials", [20, 50])
***** error <mle: 'ntrials' argument must be a positive integer scalar value.> ...
 mle ([1:50], "ntrials", [20.3])
***** error <mle: 'ntrials' argument must be a positive integer scalar value.> ...
 mle ([1:50], "ntrials", 3i)
***** error <mle: 'options' argument must be a structure compatible for 'fminsearch'.> ...
 mle ([1:50], "options", 4)
***** error <mle: 'options' argument must be a structure compatible for 'fminsearch'.> ...
 mle ([1:50], "options", struct ("x", 3))
***** error <mle: unknown parameter name.> mle ([1:50], "NAME", "value")
***** error <mle: censoring is not supported for the Bernoulli distribution.> ...
 mle ([1 0 1 0], "distribution", "bernoulli", "censoring", [1 1 0 0])
***** error <mle: invalid data for the Bernoulli distribution.> ...
 mle ([1 2 1 0], "distribution", "bernoulli")
***** error <mle: censoring is not supported for the Beta distribution.> ...
 mle ([1 0 1 0], "distribution", "beta", "censoring", [1 1 0 0])
***** error <mle: censoring is not supported for the Binomial distribution.> ...
 mle ([1 0 1 0], "distribution", "bino", "censoring", [1 1 0 0])
***** error <mle: 'Ntrials' parameter is required for the Binomial distribution.> ...
 mle ([1 0 1 0], "distribution", "bino")
***** error <mle: censoring is not supported for the Geometric distribution.> ...
 mle ([1 0 1 0], "distribution", "geo", "censoring", [1 1 0 0])
***** error <mle: censoring is not supported for the Generalized Extreme Value distribution.> ...
 mle ([1 0 1 0], "distribution", "gev", "censoring", [1 1 0 0])
***** error <mle: censoring is not supported for the Generalized Pareto distribution.> ...
 mle ([1 0 1 0], "distribution", "gp", "censoring", [1 1 0 0])
***** error <mle: invalid 'theta' location parameter for the Generalized Pareto distribution.> ...
 mle ([1 0 -1 0], "distribution", "gp")
***** error <mle: censoring is not supported for the Half Normal distribution.> ...
 mle ([1 0 1 0], "distribution", "hn", "censoring", [1 1 0 0])
***** error <mle: invalid 'mu' location parameter for the Half Normal distribution.> ...
 mle ([1 0 -1 0], "distribution", "hn")
***** error <mle: censoring is not supported for the Negative Binomial distribution.> ...
 mle ([1 0 1 0], "distribution", "nbin", "censoring", [1 1 0 0])
***** error <mle: censoring is not supported for the Poisson distribution.> ...
 mle ([1 0 1 0], "distribution", "poisson", "censoring", [1 1 0 0])
***** error <mle: censoring is not supported for the Discrete Uniform distribution.> ...
 mle ([1 0 1 0], "distribution", "unid", "censoring", [1 1 0 0])
***** error <mle: censoring is not supported for the Continuous Uniform distribution.> ...
 mle ([1 0 1 0], "distribution", "unif", "censoring", [1 1 0 0])
***** error <mle: unrecognized distribution name.> mle ([1:50], "distribution", "value")
***** error <mle: censoring is not supported for the Continuous Uniform distribution.> ...
 mle ([1 0 1 0], "distribution", "unif", "censoring", [1 1 0 0])
36 tests, 36 passed, 0 known failure, 0 skipped
[inst/dist_wrap/cdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/cdf.m
***** shared x
 x = [1:5];
***** assert (cdf ("Beta", x, 5, 2), betacdf (x, 5, 2))
***** assert (cdf ("beta", x, 5, 2, "upper"), betacdf (x, 5, 2, "upper"))
***** assert (cdf ("Binomial", x, 5, 2), binocdf (x, 5, 2))
***** assert (cdf ("bino", x, 5, 2, "upper"), binocdf (x, 5, 2, "upper"))
***** assert (cdf ("Birnbaum-Saunders", x, 5, 2), bisacdf (x, 5, 2))
***** assert (cdf ("bisa", x, 5, 2, "upper"), bisacdf (x, 5, 2, "upper"))
***** assert (cdf ("Burr", x, 5, 2, 2), burrcdf (x, 5, 2, 2))
***** assert (cdf ("burr", x, 5, 2, 2, "upper"), burrcdf (x, 5, 2, 2, "upper"))
***** assert (cdf ("Cauchy", x, 5, 2), cauchycdf (x, 5, 2))
***** assert (cdf ("cauchy", x, 5, 2, "upper"), cauchycdf (x, 5, 2, "upper"))
***** assert (cdf ("Chi-squared", x, 5), chi2cdf (x, 5))
***** assert (cdf ("chi2", x, 5, "upper"), chi2cdf (x, 5, "upper"))
***** assert (cdf ("Extreme Value", x, 5, 2), evcdf (x, 5, 2))
***** assert (cdf ("ev", x, 5, 2, "upper"), evcdf (x, 5, 2, "upper"))
***** assert (cdf ("Exponential", x, 5), expcdf (x, 5))
***** assert (cdf ("exp", x, 5, "upper"), expcdf (x, 5, "upper"))
***** assert (cdf ("F-Distribution", x, 5, 2), fcdf (x, 5, 2))
***** assert (cdf ("f", x, 5, 2, "upper"), fcdf (x, 5, 2, "upper"))
***** assert (cdf ("Gamma", x, 5, 2), gamcdf (x, 5, 2))
***** assert (cdf ("gam", x, 5, 2, "upper"), gamcdf (x, 5, 2, "upper"))
***** assert (cdf ("Geometric", x, 5), geocdf (x, 5))
***** assert (cdf ("geo", x, 5, "upper"), geocdf (x, 5, "upper"))
***** assert (cdf ("Generalized Extreme Value", x, 5, 2, 2), gevcdf (x, 5, 2, 2))
***** assert (cdf ("gev", x, 5, 2, 2, "upper"), gevcdf (x, 5, 2, 2, "upper"))
***** assert (cdf ("Generalized Pareto", x, 5, 2, 2), gpcdf (x, 5, 2, 2))
***** assert (cdf ("gp", x, 5, 2, 2, "upper"), gpcdf (x, 5, 2, 2, "upper"))
***** assert (cdf ("Gumbel", x, 5, 2), gumbelcdf (x, 5, 2))
***** assert (cdf ("gumbel", x, 5, 2, "upper"), gumbelcdf (x, 5, 2, "upper"))
***** assert (cdf ("Half-normal", x, 5, 2), hncdf (x, 5, 2))
***** assert (cdf ("hn", x, 5, 2, "upper"), hncdf (x, 5, 2, "upper"))
***** assert (cdf ("Hypergeometric", x, 5, 2, 2), hygecdf (x, 5, 2, 2))
***** assert (cdf ("hyge", x, 5, 2, 2, "upper"), hygecdf (x, 5, 2, 2, "upper"))
***** assert (cdf ("Inverse Gaussian", x, 5, 2), invgcdf (x, 5, 2))
***** assert (cdf ("invg", x, 5, 2, "upper"), invgcdf (x, 5, 2, "upper"))
***** assert (cdf ("Laplace", x, 5, 2), laplacecdf (x, 5, 2))
***** assert (cdf ("laplace", x, 5, 2, "upper"), laplacecdf (x, 5, 2, "upper"))
***** assert (cdf ("Logistic", x, 5, 2), logicdf (x, 5, 2))
***** assert (cdf ("logi", x, 5, 2, "upper"), logicdf (x, 5, 2, "upper"))
***** assert (cdf ("Log-Logistic", x, 5, 2), loglcdf (x, 5, 2))
***** assert (cdf ("logl", x, 5, 2, "upper"), loglcdf (x, 5, 2, "upper"))
***** assert (cdf ("Lognormal", x, 5, 2), logncdf (x, 5, 2))
***** assert (cdf ("logn", x, 5, 2, "upper"), logncdf (x, 5, 2, "upper"))
***** assert (cdf ("Nakagami", x, 5, 2), nakacdf (x, 5, 2))
***** assert (cdf ("naka", x, 5, 2, "upper"), nakacdf (x, 5, 2, "upper"))
***** assert (cdf ("Negative Binomial", x, 5, 2), nbincdf (x, 5, 2))
***** assert (cdf ("nbin", x, 5, 2, "upper"), nbincdf (x, 5, 2, "upper"))
***** assert (cdf ("Noncentral F-Distribution", x, 5, 2, 2), ncfcdf (x, 5, 2, 2))
***** assert (cdf ("ncf", x, 5, 2, 2, "upper"), ncfcdf (x, 5, 2, 2, "upper"))
***** assert (cdf ("Noncentral Student T", x, 5, 2), nctcdf (x, 5, 2))
***** assert (cdf ("nct", x, 5, 2, "upper"), nctcdf (x, 5, 2, "upper"))
***** assert (cdf ("Noncentral Chi-Squared", x, 5, 2), ncx2cdf (x, 5, 2))
***** assert (cdf ("ncx2", x, 5, 2, "upper"), ncx2cdf (x, 5, 2, "upper"))
***** assert (cdf ("Normal", x, 5, 2), normcdf (x, 5, 2))
***** assert (cdf ("norm", x, 5, 2, "upper"), normcdf (x, 5, 2, "upper"))
***** assert (cdf ("Poisson", x, 5), poisscdf (x, 5))
***** assert (cdf ("poiss", x, 5, "upper"), poisscdf (x, 5, "upper"))
***** assert (cdf ("Rayleigh", x, 5), raylcdf (x, 5))
***** assert (cdf ("rayl", x, 5, "upper"), raylcdf (x, 5, "upper"))
***** assert (cdf ("Rician", x, 5, 1), ricecdf (x, 5, 1))
***** assert (cdf ("rice", x, 5, 1, "upper"), ricecdf (x, 5, 1, "upper"))
***** assert (cdf ("Student T", x, 5), tcdf (x, 5))
***** assert (cdf ("t", x, 5, "upper"), tcdf (x, 5, "upper"))
***** assert (cdf ("location-scale T", x, 5, 1, 2), tlscdf (x, 5, 1, 2))
***** assert (cdf ("tls", x, 5, 1, 2, "upper"), tlscdf (x, 5, 1, 2, "upper"))
***** assert (cdf ("Triangular", x, 5, 2, 2), tricdf (x, 5, 2, 2))
***** assert (cdf ("tri", x, 5, 2, 2, "upper"), tricdf (x, 5, 2, 2, "upper"))
***** assert (cdf ("Discrete Uniform", x, 5), unidcdf (x, 5))
***** assert (cdf ("unid", x, 5, "upper"), unidcdf (x, 5, "upper"))
***** assert (cdf ("Uniform", x, 5, 2), unifcdf (x, 5, 2))
***** assert (cdf ("unif", x, 5, 2, "upper"), unifcdf (x, 5, 2, "upper"))
***** assert (cdf ("Von Mises", x, 5, 2), vmcdf (x, 5, 2))
***** assert (cdf ("vm", x, 5, 2, "upper"), vmcdf (x, 5, 2, "upper"))
***** assert (cdf ("Weibull", x, 5, 2), wblcdf (x, 5, 2))
***** assert (cdf ("wbl", x, 5, 2, "upper"), wblcdf (x, 5, 2, "upper"))
***** error<cdf: distribution NAME must be a char string.> cdf (1)
***** error<cdf: distribution NAME must be a char string.> cdf ({"beta"})
***** error<cdf: X must be numeric.> cdf ("beta", {[1 2 3 4 5]})
***** error<cdf: X must be numeric.> cdf ("beta", "text")
***** error<cdf: values in X must be real.> cdf ("beta", 1+i)
***** error<cdf: distribution parameters must be numeric.> ...
 cdf ("Beta", x, "a", 2)
***** error<cdf: distribution parameters must be numeric.> ...
 cdf ("Beta", x, 5, "")
***** error<cdf: distribution parameters must be numeric.> ...
 cdf ("Beta", x, 5, {2})
***** error<cdf: chi2 distribution requires 1 parameter.> cdf ("chi2", x)
***** error<cdf: Beta distribution requires 2 parameters.> cdf ("Beta", x, 5)
***** error<cdf: Burr distribution requires 3 parameters.> cdf ("Burr", x, 5)
***** error<cdf: Burr distribution requires 3 parameters.> cdf ("Burr", x, 5, 2)
86 tests, 86 passed, 0 known failure, 0 skipped
[inst/dist_wrap/icdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/icdf.m
***** shared p
 p = [0.05:0.05:0.5];
***** assert (icdf ("Beta", p, 5, 2), betainv (p, 5, 2))
***** assert (icdf ("beta", p, 5, 2), betainv (p, 5, 2))
***** assert (icdf ("Binomial", p, 5, 2), binoinv (p, 5, 2))
***** assert (icdf ("bino", p, 5, 2), binoinv (p, 5, 2))
***** assert (icdf ("Birnbaum-Saunders", p, 5, 2), bisainv (p, 5, 2))
***** assert (icdf ("bisa", p, 5, 2), bisainv (p, 5, 2))
***** assert (icdf ("Burr", p, 5, 2, 2), burrinv (p, 5, 2, 2))
***** assert (icdf ("burr", p, 5, 2, 2), burrinv (p, 5, 2, 2))
***** assert (icdf ("Cauchy", p, 5, 2), cauchyinv (p, 5, 2))
***** assert (icdf ("cauchy", p, 5, 2), cauchyinv (p, 5, 2))
***** assert (icdf ("Chi-squared", p, 5), chi2inv (p, 5))
***** assert (icdf ("chi2", p, 5), chi2inv (p, 5))
***** assert (icdf ("Extreme Value", p, 5, 2), evinv (p, 5, 2))
***** assert (icdf ("ev", p, 5, 2), evinv (p, 5, 2))
***** assert (icdf ("Exponential", p, 5), expinv (p, 5))
***** assert (icdf ("exp", p, 5), expinv (p, 5))
***** assert (icdf ("F-Distribution", p, 5, 2), finv (p, 5, 2))
***** assert (icdf ("f", p, 5, 2), finv (p, 5, 2))
***** assert (icdf ("Gamma", p, 5, 2), gaminv (p, 5, 2))
***** assert (icdf ("gam", p, 5, 2), gaminv (p, 5, 2))
***** assert (icdf ("Geometric", p, 5), geoinv (p, 5))
***** assert (icdf ("geo", p, 5), geoinv (p, 5))
***** assert (icdf ("Generalized Extreme Value", p, 5, 2, 2), gevinv (p, 5, 2, 2))
***** assert (icdf ("gev", p, 5, 2, 2), gevinv (p, 5, 2, 2))
***** assert (icdf ("Generalized Pareto", p, 5, 2, 2), gpinv (p, 5, 2, 2))
***** assert (icdf ("gp", p, 5, 2, 2), gpinv (p, 5, 2, 2))
***** assert (icdf ("Gumbel", p, 5, 2), gumbelinv (p, 5, 2))
***** assert (icdf ("gumbel", p, 5, 2), gumbelinv (p, 5, 2))
***** assert (icdf ("Half-normal", p, 5, 2), hninv (p, 5, 2))
***** assert (icdf ("hn", p, 5, 2), hninv (p, 5, 2))
***** assert (icdf ("Hypergeometric", p, 5, 2, 2), hygeinv (p, 5, 2, 2))
***** assert (icdf ("hyge", p, 5, 2, 2), hygeinv (p, 5, 2, 2))
***** assert (icdf ("Inverse Gaussian", p, 5, 2), invginv (p, 5, 2))
***** assert (icdf ("invg", p, 5, 2), invginv (p, 5, 2))
***** assert (icdf ("Laplace", p, 5, 2), laplaceinv (p, 5, 2))
***** assert (icdf ("laplace", p, 5, 2), laplaceinv (p, 5, 2))
***** assert (icdf ("Logistic", p, 5, 2), logiinv (p, 5, 2))
***** assert (icdf ("logi", p, 5, 2), logiinv (p, 5, 2))
***** assert (icdf ("Log-Logistic", p, 5, 2), loglinv (p, 5, 2))
***** assert (icdf ("logl", p, 5, 2), loglinv (p, 5, 2))
***** assert (icdf ("Lognormal", p, 5, 2), logninv (p, 5, 2))
***** assert (icdf ("logn", p, 5, 2), logninv (p, 5, 2))
***** assert (icdf ("Nakagami", p, 5, 2), nakainv (p, 5, 2))
***** assert (icdf ("naka", p, 5, 2), nakainv (p, 5, 2))
***** assert (icdf ("Negative Binomial", p, 5, 2), nbininv (p, 5, 2))
***** assert (icdf ("nbin", p, 5, 2), nbininv (p, 5, 2))
***** assert (icdf ("Noncentral F-Distribution", p, 5, 2, 2), ncfinv (p, 5, 2, 2))
***** assert (icdf ("ncf", p, 5, 2, 2), ncfinv (p, 5, 2, 2))
***** assert (icdf ("Noncentral Student T", p, 5, 2), nctinv (p, 5, 2))
***** assert (icdf ("nct", p, 5, 2), nctinv (p, 5, 2))
***** assert (icdf ("Noncentral Chi-Squared", p, 5, 2), ncx2inv (p, 5, 2))
***** assert (icdf ("ncx2", p, 5, 2), ncx2inv (p, 5, 2))
***** assert (icdf ("Normal", p, 5, 2), norminv (p, 5, 2))
***** assert (icdf ("norm", p, 5, 2), norminv (p, 5, 2))
***** assert (icdf ("Poisson", p, 5), poissinv (p, 5))
***** assert (icdf ("poiss", p, 5), poissinv (p, 5))
***** assert (icdf ("Rayleigh", p, 5), raylinv (p, 5))
***** assert (icdf ("rayl", p, 5), raylinv (p, 5))
***** assert (icdf ("Rician", p, 5, 1), riceinv (p, 5, 1))
***** assert (icdf ("rice", p, 5, 1), riceinv (p, 5, 1))
***** assert (icdf ("Student T", p, 5), tinv (p, 5))
***** assert (icdf ("t", p, 5), tinv (p, 5))
***** assert (icdf ("location-scale T", p, 5, 1, 2), tlsinv (p, 5, 1, 2))
***** assert (icdf ("tls", p, 5, 1, 2), tlsinv (p, 5, 1, 2))
***** assert (icdf ("Triangular", p, 5, 2, 2), triinv (p, 5, 2, 2))
***** assert (icdf ("tri", p, 5, 2, 2), triinv (p, 5, 2, 2))
***** assert (icdf ("Discrete Uniform", p, 5), unidinv (p, 5))
***** assert (icdf ("unid", p, 5), unidinv (p, 5))
***** assert (icdf ("Uniform", p, 5, 2), unifinv (p, 5, 2))
***** assert (icdf ("unif", p, 5, 2), unifinv (p, 5, 2))
***** assert (icdf ("Von Mises", p, 5, 2), vminv (p, 5, 2))
***** assert (icdf ("vm", p, 5, 2), vminv (p, 5, 2))
***** assert (icdf ("Weibull", p, 5, 2), wblinv (p, 5, 2))
***** assert (icdf ("wbl", p, 5, 2), wblinv (p, 5, 2))
***** error<icdf: distribution NAME must be a char string.> icdf (1)
***** error<icdf: distribution NAME must be a char string.> icdf ({"beta"})
***** error<icdf: P must be numeric.> icdf ("beta", {[1 2 3 4 5]})
***** error<icdf: P must be numeric.> icdf ("beta", "text")
***** error<icdf: values in P must be real.> icdf ("beta", 1+i)
***** error<icdf: distribution parameters must be numeric.> ...
 icdf ("Beta", p, "a", 2)
***** error<icdf: distribution parameters must be numeric.> ...
 icdf ("Beta", p, 5, "")
***** error<icdf: distribution parameters must be numeric.> ...
 icdf ("Beta", p, 5, {2})
***** error<icdf: chi2 distribution requires 1 parameter.> icdf ("chi2", p)
***** error<icdf: Beta distribution requires 2 parameters.> icdf ("Beta", p, 5)
***** error<icdf: Burr distribution requires 3 parameters.> icdf ("Burr", p, 5)
***** error<icdf: Burr distribution requires 3 parameters.> icdf ("Burr", p, 5, 2)
86 tests, 86 passed, 0 known failure, 0 skipped
[inst/dist_wrap/pdf.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/pdf.m
***** shared x
 x = [1:5];
***** assert (pdf ("Beta", x, 5, 2), betapdf (x, 5, 2))
***** assert (pdf ("beta", x, 5, 2), betapdf (x, 5, 2))
***** assert (pdf ("Binomial", x, 5, 2), binopdf (x, 5, 2))
***** assert (pdf ("bino", x, 5, 2), binopdf (x, 5, 2))
***** assert (pdf ("Birnbaum-Saunders", x, 5, 2), bisapdf (x, 5, 2))
***** assert (pdf ("bisa", x, 5, 2), bisapdf (x, 5, 2))
***** assert (pdf ("Burr", x, 5, 2, 2), burrpdf (x, 5, 2, 2))
***** assert (pdf ("burr", x, 5, 2, 2), burrpdf (x, 5, 2, 2))
***** assert (pdf ("Cauchy", x, 5, 2), cauchypdf (x, 5, 2))
***** assert (pdf ("cauchy", x, 5, 2), cauchypdf (x, 5, 2))
***** assert (pdf ("Chi-squared", x, 5), chi2pdf (x, 5))
***** assert (pdf ("chi2", x, 5), chi2pdf (x, 5))
***** assert (pdf ("Extreme Value", x, 5, 2), evpdf (x, 5, 2))
***** assert (pdf ("ev", x, 5, 2), evpdf (x, 5, 2))
***** assert (pdf ("Exponential", x, 5), exppdf (x, 5))
***** assert (pdf ("exp", x, 5), exppdf (x, 5))
***** assert (pdf ("F-Distribution", x, 5, 2), fpdf (x, 5, 2))
***** assert (pdf ("f", x, 5, 2), fpdf (x, 5, 2))
***** assert (pdf ("Gamma", x, 5, 2), gampdf (x, 5, 2))
***** assert (pdf ("gam", x, 5, 2), gampdf (x, 5, 2))
***** assert (pdf ("Geometric", x, 5), geopdf (x, 5))
***** assert (pdf ("geo", x, 5), geopdf (x, 5))
***** assert (pdf ("Generalized Extreme Value", x, 5, 2, 2), gevpdf (x, 5, 2, 2))
***** assert (pdf ("gev", x, 5, 2, 2), gevpdf (x, 5, 2, 2))
***** assert (pdf ("Generalized Pareto", x, 5, 2, 2), gppdf (x, 5, 2, 2))
***** assert (pdf ("gp", x, 5, 2, 2), gppdf (x, 5, 2, 2))
***** assert (pdf ("Gumbel", x, 5, 2), gumbelpdf (x, 5, 2))
***** assert (pdf ("gumbel", x, 5, 2), gumbelpdf (x, 5, 2))
***** assert (pdf ("Half-normal", x, 5, 2), hnpdf (x, 5, 2))
***** assert (pdf ("hn", x, 5, 2), hnpdf (x, 5, 2))
***** assert (pdf ("Hypergeometric", x, 5, 2, 2), hygepdf (x, 5, 2, 2))
***** assert (pdf ("hyge", x, 5, 2, 2), hygepdf (x, 5, 2, 2))
***** assert (pdf ("Inverse Gaussian", x, 5, 2), invgpdf (x, 5, 2))
***** assert (pdf ("invg", x, 5, 2), invgpdf (x, 5, 2))
***** assert (pdf ("Laplace", x, 5, 2), laplacepdf (x, 5, 2))
***** assert (pdf ("laplace", x, 5, 2), laplacepdf (x, 5, 2))
***** assert (pdf ("Logistic", x, 5, 2), logipdf (x, 5, 2))
***** assert (pdf ("logi", x, 5, 2), logipdf (x, 5, 2))
***** assert (pdf ("Log-Logistic", x, 5, 2), loglpdf (x, 5, 2))
***** assert (pdf ("logl", x, 5, 2), loglpdf (x, 5, 2))
***** assert (pdf ("Lognormal", x, 5, 2), lognpdf (x, 5, 2))
***** assert (pdf ("logn", x, 5, 2), lognpdf (x, 5, 2))
***** assert (pdf ("Nakagami", x, 5, 2), nakapdf (x, 5, 2))
***** assert (pdf ("naka", x, 5, 2), nakapdf (x, 5, 2))
***** assert (pdf ("Negative Binomial", x, 5, 2), nbinpdf (x, 5, 2))
***** assert (pdf ("nbin", x, 5, 2), nbinpdf (x, 5, 2))
***** assert (pdf ("Noncentral F-Distribution", x, 5, 2, 2), ncfpdf (x, 5, 2, 2))
***** assert (pdf ("ncf", x, 5, 2, 2), ncfpdf (x, 5, 2, 2))
***** assert (pdf ("Noncentral Student T", x, 5, 2), nctpdf (x, 5, 2))
***** assert (pdf ("nct", x, 5, 2), nctpdf (x, 5, 2))
***** assert (pdf ("Noncentral Chi-Squared", x, 5, 2), ncx2pdf (x, 5, 2))
***** assert (pdf ("ncx2", x, 5, 2), ncx2pdf (x, 5, 2))
***** assert (pdf ("Normal", x, 5, 2), normpdf (x, 5, 2))
***** assert (pdf ("norm", x, 5, 2), normpdf (x, 5, 2))
***** assert (pdf ("Poisson", x, 5), poisspdf (x, 5))
***** assert (pdf ("poiss", x, 5), poisspdf (x, 5))
***** assert (pdf ("Rayleigh", x, 5), raylpdf (x, 5))
***** assert (pdf ("rayl", x, 5), raylpdf (x, 5))
***** assert (pdf ("Rician", x, 5, 1), ricepdf (x, 5, 1))
***** assert (pdf ("rice", x, 5, 1), ricepdf (x, 5, 1))
***** assert (pdf ("Student T", x, 5), tpdf (x, 5))
***** assert (pdf ("t", x, 5), tpdf (x, 5))
***** assert (pdf ("location-scale T", x, 5, 1, 2), tlspdf (x, 5, 1, 2))
***** assert (pdf ("tls", x, 5, 1, 2), tlspdf (x, 5, 1, 2))
***** assert (pdf ("Triangular", x, 5, 2, 2), tripdf (x, 5, 2, 2))
***** assert (pdf ("tri", x, 5, 2, 2), tripdf (x, 5, 2, 2))
***** assert (pdf ("Discrete Uniform", x, 5), unidpdf (x, 5))
***** assert (pdf ("unid", x, 5), unidpdf (x, 5))
***** assert (pdf ("Uniform", x, 5, 2), unifpdf (x, 5, 2))
***** assert (pdf ("unif", x, 5, 2), unifpdf (x, 5, 2))
***** assert (pdf ("Von Mises", x, 5, 2), vmpdf (x, 5, 2))
***** assert (pdf ("vm", x, 5, 2), vmpdf (x, 5, 2))
***** assert (pdf ("Weibull", x, 5, 2), wblpdf (x, 5, 2))
***** assert (pdf ("wbl", x, 5, 2), wblpdf (x, 5, 2))
***** error<pdf: distribution NAME must a char string.> pdf (1)
***** error<pdf: distribution NAME must a char string.> pdf ({"beta"})
***** error<pdf: X must be numeric.> pdf ("beta", {[1 2 3 4 5]})
***** error<pdf: X must be numeric.> pdf ("beta", "text")
***** error<pdf: values in X must be real.> pdf ("beta", 1+i)
***** error<pdf: distribution parameters must be numeric.> ...
 pdf ("Beta", x, "a", 2)
***** error<pdf: distribution parameters must be numeric.> ...
 pdf ("Beta", x, 5, "")
***** error<pdf: distribution parameters must be numeric.> ...
 pdf ("Beta", x, 5, {2})
***** error<pdf: chi2 distribution requires 1 parameter.> pdf ("chi2", x)
***** error<pdf: Beta distribution requires 2 parameters.> pdf ("Beta", x, 5)
***** error<pdf: Burr distribution requires 3 parameters.> pdf ("Burr", x, 5)
***** error<pdf: Burr distribution requires 3 parameters.> pdf ("Burr", x, 5, 2)
86 tests, 86 passed, 0 known failure, 0 skipped
[inst/dist_wrap/fitdist.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/fitdist.m
***** test
 x = betarnd (1, 1, 100, 1);
 pd = fitdist (x, "Beta");
 [phat, pci] = betafit (x);
 assert ([pd.a, pd.b], phat);
 assert (paramci (pd), pci);
***** test
 x1 = betarnd (1, 1, 100, 1);
 x2 = betarnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "Beta", "By", [ones(100, 1); 2*ones(100, 1)]);
 [phat, pci] = betafit (x1);
 assert ([pd{1}.a, pd{1}.b], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = betafit (x2);
 assert ([pd{2}.a, pd{2}.b], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'Beta' distribution.> ...
 fitdist ([betarnd(1, 1, 100, 1); nan(100, 1)], "Beta", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 N = 1;
 x = binornd (N, 0.5, 100, 1);
 pd = fitdist (x, "binomial");
 [phat, pci] = binofit (sum (x), numel (x));
 assert ([pd.N, pd.p], [N, phat]);
 assert (paramci (pd), pci);
***** test
 N = 3;
 x = binornd (N, 0.4, 100, 1);
 pd = fitdist (x, "binomial", "ntrials", N);
 [phat, pci] = binofit (sum (x), numel (x) * N);
 assert ([pd.N, pd.p], [N, phat]);
 assert (paramci (pd), pci);
***** test
 N = 1;
 x1 = binornd (N, 0.5, 100, 1);
 x2 = binornd (N, 0.7, 100, 1);
 pd = fitdist ([x1; x2], "binomial", "By", [ones(100, 1); 2*ones(100, 1)]);
 [phat, pci] = binofit (sum (x1), numel (x1));
 assert ([pd{1}.N, pd{1}.p], [N, phat]);
 assert (paramci (pd{1}), pci);
 [phat, pci] = binofit (sum (x2), numel (x2));
 assert ([pd{2}.N, pd{2}.p], [N, phat]);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'binomial' distribution.> ...
 fitdist ([binornd(1, 0.5, 100, 1); nan(100, 1)], "binomial", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 N = 5;
 x1 = binornd (N, 0.5, 100, 1);
 x2 = binornd (N, 0.8, 100, 1);
 pd = fitdist ([x1; x2], "binomial", "ntrials", N, ...
               "By", [ones(100, 1); 2*ones(100, 1)]);
 [phat, pci] = binofit (sum (x1), numel (x1) * N);
 assert ([pd{1}.N, pd{1}.p], [N, phat]);
 assert (paramci (pd{1}), pci);
 [phat, pci] = binofit (sum (x2), numel (x2) * N);
 assert ([pd{2}.N, pd{2}.p], [N, phat]);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'binomial' distribution.> ...
 fitdist ([binornd(5, 0.5, 100, 1); nan(100, 1)], "binomial", "ntrials", 5, ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = bisarnd (1, 1, 100, 1);
 pd = fitdist (x, "BirnbaumSaunders");
 [phat, pci] = bisafit (x);
 assert ([pd.beta, pd.gamma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = bisarnd (1, 1, 100, 1);
 x2 = bisarnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "bisa", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = bisafit (x1);
 assert ([pd{1}.beta, pd{1}.gamma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = bisafit (x2);
 assert ([pd{2}.beta, pd{2}.gamma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'bisa' distribution.> ...
 fitdist ([bisarnd(1, 1, 100, 1); nan(100, 1)], "bisa", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = burrrnd (1, 2, 1, 100, 1);
 pd = fitdist (x, "Burr");
 [phat, pci] = burrfit (x);
 assert ([pd.alpha, pd.c, pd.k], phat);
 assert (paramci (pd), pci);
***** test
 rand ("seed", 4);   # for reproducibility
 x1 = burrrnd (1, 2, 1, 100, 1);
 rand ("seed", 3);   # for reproducibility
 x2 = burrrnd (1, 0.5, 2, 100, 1);
 pd = fitdist ([x1; x2], "burr", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = burrfit (x1);
 assert ([pd{1}.alpha, pd{1}.c, pd{1}.k], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = burrfit (x2);
 assert ([pd{2}.alpha, pd{2}.c, pd{2}.k], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'burr' distribution.> ...
 fitdist ([burrrnd(1, 2, 1, 100, 1); nan(100, 1)], "burr", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = exprnd (1, 100, 1);
 pd = fitdist (x, "exponential");
 [muhat, muci] = expfit (x);
 assert ([pd.mu], muhat);
 assert (paramci (pd), muci);
***** test
 x1 = exprnd (1, 100, 1);
 x2 = exprnd (5, 100, 1);
 pd = fitdist ([x1; x2], "exponential", "By", [ones(100,1); 2*ones(100,1)]);
 [muhat, muci] = expfit (x1);
 assert ([pd{1}.mu], muhat);
 assert (paramci (pd{1}), muci);
 [muhat, muci] = expfit (x2);
 assert ([pd{2}.mu], muhat);
 assert (paramci (pd{2}), muci);
***** warning <fitdist: no data in group '2' to fit a 'exponential' distribution.> ...
 fitdist ([exprnd(1, 100, 1); nan(100, 1)], "exponential", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = evrnd (1, 1, 100, 1);
 pd = fitdist (x, "ev");
 [phat, pci] = evfit (x);
 assert ([pd.mu, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = evrnd (1, 1, 100, 1);
 x2 = evrnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "extremevalue", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = evfit (x1);
 assert ([pd{1}.mu, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = evfit (x2);
 assert ([pd{2}.mu, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'extremevalue' distribution.> ...
 fitdist ([evrnd(1, 1, 100, 1); nan(100, 1)], "extremevalue", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = gamrnd (1, 1, 100, 1);
 pd = fitdist (x, "Gamma");
 [phat, pci] = gamfit (x);
 assert ([pd.a, pd.b], phat);
 assert (paramci (pd), pci);
***** test
 x1 = gamrnd (1, 1, 100, 1);
 x2 = gamrnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "Gamma", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = gamfit (x1);
 assert ([pd{1}.a, pd{1}.b], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = gamfit (x2);
 assert ([pd{2}.a, pd{2}.b], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'Gamma' distribution.> ...
 fitdist ([gamrnd(1, 1, 100, 1); nan(100, 1)], "Gamma", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 rand ("seed", 4);   # for reproducibility
 x = gevrnd (-0.5, 1, 2, 1000, 1);
 pd = fitdist (x, "generalizedextremevalue");
 [phat, pci] = gevfit (x);
 assert ([pd.k, pd.sigma, pd.mu], phat);
 assert (paramci (pd), pci);
***** test
 rand ("seed", 5);   # for reproducibility
 x1 = gevrnd (-0.5, 1, 2, 1000, 1);
 rand ("seed", 9);   # for reproducibility
 x2 = gevrnd (0, 1, -4, 1000, 1);
 pd = fitdist ([x1; x2], "gev", "By", [ones(1000,1); 2*ones(1000,1)]);
 [phat, pci] = gevfit (x1);
 assert ([pd{1}.k, pd{1}.sigma, pd{1}.mu], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = gevfit (x2);
 assert ([pd{2}.k, pd{2}.sigma, pd{2}.mu], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'gev' distribution.> ...
 fitdist ([gevrnd(-0.5, 1, 2, 1000, 1); nan(1000, 1)], "gev", ...
          "By", [ones(1000, 1); 2*ones(1000, 1)]);
***** test
 x = gprnd (1, 1, 1, 100, 1);
 pd = fitdist (x, "GeneralizedPareto");
 [phat, pci] = gpfit (x, 1);
 assert ([pd.k, pd.sigma, pd.theta], phat);
 assert (paramci (pd), pci);
***** test
 x = gprnd (1, 1, 2, 100, 1);
 pd = fitdist (x, "GeneralizedPareto", "theta", 2);
 [phat, pci] = gpfit (x, 2);
 assert ([pd.k, pd.sigma, pd.theta], phat);
 assert (paramci (pd), pci);
***** test
 x1 = gprnd (1, 1, 1, 100, 1);
 x2 = gprnd (0, 2, 1, 100, 1);
 pd = fitdist ([x1; x2], "gp", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = gpfit (x1, 1);
 assert ([pd{1}.k, pd{1}.sigma, pd{1}.theta], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = gpfit (x2, 1);
 assert ([pd{2}.k, pd{2}.sigma, pd{2}.theta], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'gp' distribution.> ...
 fitdist ([gprnd(1, 1, 1, 100, 1); nan(100, 1)], "gp", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x1 = gprnd (3, 2, 2, 100, 1);
 x2 = gprnd (2, 3, 2, 100, 1);
 pd = fitdist ([x1; x2], "GeneralizedPareto", "theta", 2, ...
               "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = gpfit (x1, 2);
 assert ([pd{1}.k, pd{1}.sigma, pd{1}.theta], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = gpfit (x2, 2);
 assert ([pd{2}.k, pd{2}.sigma, pd{2}.theta], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'gp' distribution.> ...
 fitdist ([gprnd(3, 2, 2, 100, 1); nan(100, 1)], "gp", "theta", 2, ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = hnrnd (0, 1, 100, 1);
 pd = fitdist (x, "HalfNormal");
 [phat, pci] = hnfit (x, 0);
 assert ([pd.mu, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x = hnrnd (1, 1, 100, 1);
 pd = fitdist (x, "HalfNormal", "mu", 1);
 [phat, pci] = hnfit (x, 1);
 assert ([pd.mu, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = hnrnd (0, 1, 100, 1);
 x2 = hnrnd (0, 2, 100, 1);
 pd = fitdist ([x1; x2], "HalfNormal", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = hnfit (x1, 0);
 assert ([pd{1}.mu, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = hnfit (x2, 0);
 assert ([pd{2}.mu, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'HalfNormal' distribution.> ...
 fitdist ([hnrnd(0, 1, 100, 1); nan(100, 1)], "HalfNormal", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x1 = hnrnd (2, 1, 100, 1);
 x2 = hnrnd (2, 2, 100, 1);
 pd = fitdist ([x1; x2], "HalfNormal", "mu", 2, ...
               "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = hnfit (x1, 2);
 assert ([pd{1}.mu, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = hnfit (x2, 2);
 assert ([pd{2}.mu, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'HalfNormal' distribution.> ...
 fitdist ([hnrnd(2, 1, 100, 1); nan(100, 1)], "HalfNormal", "mu", 2, ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = invgrnd (1, 1, 100, 1);
 pd = fitdist (x, "InverseGaussian");
 [phat, pci] = invgfit (x);
 assert ([pd.mu, pd.lambda], phat);
 assert (paramci (pd), pci);
***** test
 x1 = invgrnd (1, 1, 100, 1);
 x2 = invgrnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "InverseGaussian", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = invgfit (x1);
 assert ([pd{1}.mu, pd{1}.lambda], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = invgfit (x2);
 assert ([pd{2}.mu, pd{2}.lambda], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'InverseGaussian' distribution.> ...
 fitdist ([invgrnd(1, 1, 100, 1); nan(100, 1)], "InverseGaussian", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = logirnd (1, 1, 100, 1);
 pd = fitdist (x, "logistic");
 [phat, pci] = logifit (x);
 assert ([pd.mu, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = logirnd (1, 1, 100, 1);
 x2 = logirnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "logistic", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = logifit (x1);
 assert ([pd{1}.mu, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = logifit (x2);
 assert ([pd{2}.mu, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'logistic' distribution.> ...
 fitdist ([logirnd(1, 1, 100, 1); nan(100, 1)], "logistic", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = loglrnd (1, 1, 100, 1);
 pd = fitdist (x, "loglogistic");
 [phat, pci] = loglfit (x);
 assert ([pd.mu, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = loglrnd (1, 1, 100, 1);
 x2 = loglrnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "loglogistic", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = loglfit (x1);
 assert ([pd{1}.mu, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = loglfit (x2);
 assert ([pd{2}.mu, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'loglogistic' distribution.> ...
 fitdist ([loglrnd(1, 1, 100, 1); nan(100, 1)], "loglogistic", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = lognrnd (1, 1, 100, 1);
 pd = fitdist (x, "lognormal");
 [phat, pci] = lognfit (x);
 assert ([pd.mu, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = lognrnd (1, 1, 100, 1);
 x2 = lognrnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "lognormal", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = lognfit (x1);
 assert ([pd{1}.mu, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = lognfit (x2);
 assert ([pd{2}.mu, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'lognormal' distribution.> ...
 fitdist ([lognrnd(1, 1, 100, 1); nan(100, 1)], "lognormal", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = nakarnd (2, 0.5, 100, 1);
 pd = fitdist (x, "Nakagami");
 [phat, pci] = nakafit (x);
 assert ([pd.mu, pd.omega], phat);
 assert (paramci (pd), pci);
***** test
 x1 = nakarnd (2, 0.5, 100, 1);
 x2 = nakarnd (5, 0.8, 100, 1);
 pd = fitdist ([x1; x2], "Nakagami", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = nakafit (x1);
 assert ([pd{1}.mu, pd{1}.omega], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = nakafit (x2);
 assert ([pd{2}.mu, pd{2}.omega], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'Nakagami' distribution.> ...
 fitdist ([nakarnd(2, 0.5, 100, 1); nan(100, 1)], "Nakagami", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 randp ("seed", 123);
 randg ("seed", 321);
 x = nbinrnd (2, 0.5, 100, 1);
 pd = fitdist (x, "negativebinomial");
 [phat, pci] = nbinfit (x);
 assert ([pd.R, pd.P], phat);
 assert (paramci (pd), pci);
***** test
 randp ("seed", 345);
 randg ("seed", 543);
 x1 = nbinrnd (2, 0.5, 100, 1);
 randp ("seed", 432);
 randg ("seed", 234);
 x2 = nbinrnd (5, 0.8, 100, 1);
 pd = fitdist ([x1; x2], "nbin", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = nbinfit (x1);
 assert ([pd{1}.R, pd{1}.P], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = nbinfit (x2);
 assert ([pd{2}.R, pd{2}.P], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'nbin' distribution.> ...
 fitdist ([nbinrnd(2, 0.5, 100, 1); nan(100, 1)], "nbin", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = normrnd (1, 1, 100, 1);
 pd = fitdist (x, "normal");
 [muhat, sigmahat, muci, sigmaci] = normfit (x);
 assert ([pd.mu, pd.sigma], [muhat, sigmahat]);
 assert (paramci (pd), [muci, sigmaci]);
***** test
 x1 = normrnd (1, 1, 100, 1);
 x2 = normrnd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "normal", "By", [ones(100,1); 2*ones(100,1)]);
 [muhat, sigmahat, muci, sigmaci] = normfit (x1);
 assert ([pd{1}.mu, pd{1}.sigma], [muhat, sigmahat]);
 assert (paramci (pd{1}), [muci, sigmaci]);
 [muhat, sigmahat, muci, sigmaci] = normfit (x2);
 assert ([pd{2}.mu, pd{2}.sigma], [muhat, sigmahat]);
 assert (paramci (pd{2}), [muci, sigmaci]);
***** warning <fitdist: no data in group '2' to fit a 'normal' distribution.> ...
 fitdist ([normrnd(1, 1, 100, 1); nan(100, 1)], "normal", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = poissrnd (1, 100, 1);
 pd = fitdist (x, "poisson");
 [phat, pci] = poissfit (x);
 assert (pd.lambda, phat);
 assert (paramci (pd), pci);
***** test
 x1 = poissrnd (1, 100, 1);
 x2 = poissrnd (5, 100, 1);
 pd = fitdist ([x1; x2], "poisson", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = poissfit (x1);
 assert (pd{1}.lambda, phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = poissfit (x2);
 assert (pd{2}.lambda, phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'poisson' distribution.> ...
 fitdist ([poissrnd(1, 100, 1); nan(100, 1)], "poisson", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = raylrnd (1, 100, 1);
 pd = fitdist (x, "rayleigh");
 [phat, pci] = raylfit (x);
 assert (pd.sigma, phat);
 assert (paramci (pd), pci);
***** test
 x1 = raylrnd (1, 100, 1);
 x2 = raylrnd (5, 100, 1);
 pd = fitdist ([x1; x2], "rayleigh", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = raylfit (x1);
 assert (pd{1}.sigma, phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = raylfit (x2);
 assert (pd{2}.sigma, phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'rayleigh' distribution.> ...
 fitdist ([raylrnd(1, 100, 1); nan(100, 1)], "rayleigh", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = ricernd (1, 1, 100, 1);
 pd = fitdist (x, "rician");
 [phat, pci] = ricefit (x);
 assert ([pd.s, pd.sigma], phat);
 assert (paramci (pd), pci);
***** test
 x1 = ricernd (1, 1, 100, 1);
 x2 = ricernd (5, 2, 100, 1);
 pd = fitdist ([x1; x2], "rician", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = ricefit (x1);
 assert ([pd{1}.s, pd{1}.sigma], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = ricefit (x2);
 assert ([pd{2}.s, pd{2}.sigma], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'rician' distribution.> ...
 fitdist ([ricernd(1, 1, 100, 1); nan(100, 1)], "rician", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** warning <fitdist: 'Stable' distribution not supported yet.> ...
 fitdist ([1 2 3 4 5], "Stable");
***** test
 x = tlsrnd (0, 1, 1, 100, 1);
 pd = fitdist (x, "tlocationscale");
 [phat, pci] = tlsfit (x);
 assert ([pd.mu, pd.sigma, pd.nu], phat);
 assert (paramci (pd), pci);
***** test
 x1 = tlsrnd (0, 1, 1, 100, 1);
 x2 = tlsrnd (5, 2, 1, 100, 1);
 pd = fitdist ([x1; x2], "tlocationscale", "By", [ones(100,1); 2*ones(100,1)]);
 [phat, pci] = tlsfit (x1);
 assert ([pd{1}.mu, pd{1}.sigma, pd{1}.nu], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = tlsfit (x2);
 assert ([pd{2}.mu, pd{2}.sigma, pd{2}.nu], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'tlocationscale' distribution.> ...
 fitdist ([tlsrnd(0, 1, 1, 100, 1); nan(100, 1)], "tlocationscale", ...
          "By", [ones(100, 1); 2*ones(100, 1)]);
***** test
 x = [1 2 3 4 5];
 pd = fitdist (x, "weibull");
 [phat, pci] = wblfit (x);
 assert ([pd.lambda, pd.k], phat);
 assert (paramci (pd), pci);
***** test
 x = [1 2 3 4 5 6 7 8 9 10];
 pd = fitdist (x, "weibull", "By", [1 1 1 1 1 2 2 2 2 2]);
 [phat, pci] = wblfit (x(1:5));
 assert ([pd{1}.lambda, pd{1}.k], phat);
 assert (paramci (pd{1}), pci);
 [phat, pci] = wblfit (x(6:10));
 assert ([pd{2}.lambda, pd{2}.k], phat);
 assert (paramci (pd{2}), pci);
***** warning <fitdist: no data in group '2' to fit a 'weibull' distribution.> ...
 fitdist ([1 2 3 4 5 NaN NaN NaN NaN NaN], "weibull", "By", [1 1 1 1 1 2 2 2 2 2]);
***** error <fitdist: DISTNAME is required.> fitdist (1)
***** error <fitdist: DISTNAME must be a character vector.> fitdist (1, ["as";"sd"])
***** error <fitdist: unrecognized distribution name.> fitdist (1, "some")
***** error <fitdist: X must be a numeric vector of real values.> ...
 fitdist (ones (2), "normal")
***** error <fitdist: X must be a numeric vector of real values.> ...
 fitdist ([i, 2, 3], "normal")
***** error <fitdist: X must be a numeric vector of real values.> ...
 fitdist (["a", "s", "d"], "normal")
***** error <fitdist: optional arguments must be in NAME-VALUE pairs.> ...
 fitdist ([1, 2, 3], "normal", "By")
***** error <fitdist: GROUPVAR argument must have the same size as the input data in X.> ...
 fitdist ([1, 2, 3], "normal", "By", [1, 2])
***** error <fitdist: 'censoring' argument must have the same size as the input data in X.> ...
 fitdist ([1, 2, 3], "normal", "Censoring", [1, 2])
***** error <fitdist: 'frequency' argument must have the same size as the input data in X.> ...
 fitdist ([1, 2, 3], "normal", "frequency", [1, 2])
***** error <fitdist: 'frequency' argument must contain non-negative integer values.> ...
 fitdist ([1, 2, 3], "negativebinomial", "frequency", [1, -2, 3])
***** error <fitdist: invalid value for 'alpha' argument.> ...
 fitdist ([1, 2, 3], "normal", "alpha", [1, 2])
***** error <fitdist: invalid value for 'alpha' argument.> ...
 fitdist ([1, 2, 3], "normal", "alpha", i)
***** error <fitdist: invalid value for 'alpha' argument.> ...
 fitdist ([1, 2, 3], "normal", "alpha", -0.5)
***** error <fitdist: invalid value for 'alpha' argument.> ...
 fitdist ([1, 2, 3], "normal", "alpha", 1.5)
***** error <fitdist: 'ntrials' argument must be a positive integer scalar value.> ...
 fitdist ([1, 2, 3], "normal", "ntrials", [1, 2])
***** error <fitdist: 'ntrials' argument must be a positive integer scalar value.> ...
 fitdist ([1, 2, 3], "normal", "ntrials", 0)
***** error <fitdist: 'options' argument must be a structure compatible for 'fminsearch'.> ...
 fitdist ([1, 2, 3], "normal", "options", 0)
***** error <fitdist: 'options' argument must be a structure compatible for 'fminsearch'.> ...
 fitdist ([1, 2, 3], "normal", "options", struct ("options", 1))
***** warning fitdist ([1, 2, 3], "kernel", "kernel", "normal");
***** warning fitdist ([1, 2, 3], "kernel", "support", "positive");
***** warning fitdist ([1, 2, 3], "kernel", "width", 1);
***** error <fitdist: unknown parameter name.> ...
 fitdist ([1, 2, 3], "normal", "param", struct ("options", 1))
***** error <fitdist: no data in X to fit a 'normal' distribution.> ...
 fitdist (nan (100,1), "normal");
***** error <fitdist: must define GROUPVAR for more than one output arguments.> ...
 [pdca, gn, gl] = fitdist ([1, 2, 3], "normal");
***** error <fitdist: invalid THETA value for generalized Pareto distribution.> ...
 fitdist ([1, 2, 3], "generalizedpareto", "theta", 2);
***** error <fitdist: invalid MU value for half-normal distribution.> ...
 fitdist ([1, 2, 3], "halfnormal", "mu", 2);
103 tests, 103 passed, 0 known failure, 0 skipped
[inst/dist_wrap/makedist.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/makedist.m
***** test
 pd = makedist ("beta");
 assert (class (pd), "BetaDistribution");
 assert (pd.a, 1);
 assert (pd.b, 1);
***** test
 pd = makedist ("beta", "a", 5);
 assert (pd.a, 5);
 assert (pd.b, 1);
***** test
 pd = makedist ("beta", "b", 5);
 assert (pd.a, 1);
 assert (pd.b, 5);
***** test
 pd = makedist ("beta", "a", 3, "b", 5);
 assert (pd.a, 3);
 assert (pd.b, 5);
***** test
 pd = makedist ("binomial");
 assert (class (pd), "BinomialDistribution");
 assert (pd.N, 1);
 assert (pd.p, 0.5);
***** test
 pd = makedist ("binomial", "N", 5);
 assert (pd.N, 5);
 assert (pd.p, 0.5);
***** test
 pd = makedist ("binomial", "p", 0.2);
 assert (pd.N, 1);
 assert (pd.p, 0.2);
***** test
 pd = makedist ("binomial", "N", 3, "p", 0.3);
 assert (pd.N, 3);
 assert (pd.p, 0.3);
***** test
 pd = makedist ("birnbaumsaunders");
 assert (class (pd), "BirnbaumSaundersDistribution");
 assert (pd.beta, 1);
 assert (pd.gamma, 1);
***** test
 pd = makedist ("birnbaumsaunders", "beta", 5);
 assert (pd.beta, 5);
 assert (pd.gamma, 1);
***** test
 pd = makedist ("birnbaumsaunders", "gamma", 5);
 assert (pd.beta, 1);
 assert (pd.gamma, 5);
***** test
 pd = makedist ("birnbaumsaunders", "beta", 3, "gamma", 5);
 assert (pd.beta, 3);
 assert (pd.gamma, 5);
***** test
 pd = makedist ("burr");
 assert (class (pd), "BurrDistribution");
 assert (pd.alpha, 1);
 assert (pd.c, 1);
 assert (pd.k, 1);
***** test
 pd = makedist ("burr", "k", 5);
 assert (pd.alpha, 1);
 assert (pd.c, 1);
 assert (pd.k, 5);
***** test
 pd = makedist ("burr", "c", 5);
 assert (pd.alpha, 1);
 assert (pd.c, 5);
 assert (pd.k, 1);
***** test
 pd = makedist ("burr", "alpha", 3, "c", 5);
 assert (pd.alpha, 3);
 assert (pd.c, 5);
 assert (pd.k, 1);
***** test
 pd = makedist ("burr", "k", 3, "c", 5);
 assert (pd.alpha, 1);
 assert (pd.c, 5);
 assert (pd.k, 3);
***** test
 pd = makedist ("exponential");
 assert (class (pd), "ExponentialDistribution");
 assert (pd.mu, 1);
***** test
 pd = makedist ("exponential", "mu", 5);
 assert (pd.mu, 5);
***** test
 pd = makedist ("extremevalue");
 assert (class (pd), "ExtremeValueDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("extremevalue", "mu", 5);
 assert (class (pd), "ExtremeValueDistribution");
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("ev", "sigma", 5);
 assert (class (pd), "ExtremeValueDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("ev", "mu", -3, "sigma", 5);
 assert (class (pd), "ExtremeValueDistribution");
 assert (pd.mu, -3);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("gamma");
 assert (class (pd), "GammaDistribution");
 assert (pd.a, 1);
 assert (pd.b, 1);
***** test
 pd = makedist ("gamma", "a", 5);
 assert (pd.a, 5);
 assert (pd.b, 1);
***** test
 pd = makedist ("gamma", "b", 5);
 assert (pd.a, 1);
 assert (pd.b, 5);
***** test
 pd = makedist ("gamma", "a", 3, "b", 5);
 assert (pd.a, 3);
 assert (pd.b, 5);
***** test
 pd = makedist ("GeneralizedExtremeValue");
 assert (class (pd), "GeneralizedExtremeValueDistribution");
 assert (pd.k, 0);
 assert (pd.sigma, 1);
 assert (pd.mu, 0);
***** test
 pd = makedist ("GeneralizedExtremeValue", "k", 5);
 assert (pd.k, 5);
 assert (pd.sigma, 1);
 assert (pd.mu, 0);
***** test
 pd = makedist ("GeneralizedExtremeValue", "sigma", 5);
 assert (pd.k, 0);
 assert (pd.sigma, 5);
 assert (pd.mu, 0);
***** test
 pd = makedist ("GeneralizedExtremeValue", "k", 3, "sigma", 5);
 assert (pd.k, 3);
 assert (pd.sigma, 5);
 assert (pd.mu, 0);
***** test
 pd = makedist ("GeneralizedExtremeValue", "mu", 3, "sigma", 5);
 assert (pd.k, 0);
 assert (pd.sigma, 5);
 assert (pd.mu, 3);
***** test
 pd = makedist ("GeneralizedPareto");
 assert (class (pd), "GeneralizedParetoDistribution");
 assert (pd.k, 1);
 assert (pd.sigma, 1);
 assert (pd.theta, 1);
***** test
 pd = makedist ("GeneralizedPareto", "k", 5);
 assert (pd.k, 5);
 assert (pd.sigma, 1);
 assert (pd.theta, 1);
***** test
 pd = makedist ("GeneralizedPareto", "sigma", 5);
 assert (pd.k, 1);
 assert (pd.sigma, 5);
 assert (pd.theta, 1);
***** test
 pd = makedist ("GeneralizedPareto", "k", 3, "sigma", 5);
 assert (pd.k, 3);
 assert (pd.sigma, 5);
 assert (pd.theta, 1);
***** test
 pd = makedist ("GeneralizedPareto", "theta", 3, "sigma", 5);
 assert (pd.k, 1);
 assert (pd.sigma, 5);
 assert (pd.theta, 3);
***** test
 pd = makedist ("HalfNormal");
 assert (class (pd), "HalfNormalDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("HalfNormal", "mu", 5);
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("HalfNormal", "sigma", 5);
 assert (pd.mu, 0);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("HalfNormal", "mu", 3, "sigma", 5);
 assert (pd.mu, 3);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("InverseGaussian");
 assert (class (pd), "InverseGaussianDistribution");
 assert (pd.mu, 1);
 assert (pd.lambda, 1);
***** test
 pd = makedist ("InverseGaussian", "mu", 5);
 assert (pd.mu, 5);
 assert (pd.lambda, 1);
***** test
 pd = makedist ("InverseGaussian", "lambda", 5);
 assert (pd.mu, 1);
 assert (pd.lambda, 5);
***** test
 pd = makedist ("InverseGaussian", "mu", 3, "lambda", 5);
 assert (pd.mu, 3);
 assert (pd.lambda, 5);
***** test
 pd = makedist ("logistic");
 assert (class (pd), "LogisticDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("logistic", "mu", 5);
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("logistic", "sigma", 5);
 assert (pd.mu, 0);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("logistic", "mu", 3, "sigma", 5);
 assert (pd.mu, 3);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("loglogistic");
 assert (class (pd), "LoglogisticDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("loglogistic", "mu", 5);
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("loglogistic", "sigma", 5);
 assert (pd.mu, 0);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("loglogistic", "mu", 3, "sigma", 5);
 assert (pd.mu, 3);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("Lognormal");
 assert (class (pd), "LognormalDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Lognormal", "mu", 5);
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Lognormal", "sigma", 5);
 assert (pd.mu, 0);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("Lognormal", "mu", -3, "sigma", 5);
 assert (pd.mu, -3);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("Loguniform");
 assert (class (pd), "LoguniformDistribution");
 assert (pd.Lower, 1);
 assert (pd.Upper, 4);
***** test
 pd = makedist ("Loguniform", "Lower", 2);
 assert (pd.Lower, 2);
 assert (pd.Upper, 4);
***** test
 pd = makedist ("Loguniform", "Lower", 1, "Upper", 3);
 assert (pd.Lower, 1);
 assert (pd.Upper, 3);
***** test
 pd = makedist ("Multinomial");
 assert (class (pd), "MultinomialDistribution");
 assert (pd.Probabilities, [0.5, 0.5]);
***** test
 pd = makedist ("Multinomial", "Probabilities", [0.2, 0.3, 0.1, 0.4]);
 assert (class (pd), "MultinomialDistribution");
 assert (pd.Probabilities, [0.2, 0.3, 0.1, 0.4]);
***** test
 pd = makedist ("Nakagami");
 assert (class (pd), "NakagamiDistribution");
 assert (pd.mu, 1);
 assert (pd.omega, 1);
***** test
 pd = makedist ("Nakagami", "mu", 5);
 assert (class (pd), "NakagamiDistribution");
 assert (pd.mu, 5);
 assert (pd.omega, 1);
***** test
 pd = makedist ("Nakagami", "omega", 0.3);
 assert (class (pd), "NakagamiDistribution");
 assert (pd.mu, 1);
 assert (pd.omega, 0.3);
***** test
 pd = makedist ("NegativeBinomial");
 assert (class (pd), "NegativeBinomialDistribution");
 assert (pd.R, 1);
 assert (pd.P, 0.5);
***** test
 pd = makedist ("NegativeBinomial", "R", 5);
 assert (class (pd), "NegativeBinomialDistribution");
 assert (pd.R, 5);
 assert (pd.P, 0.5);
***** test
 pd = makedist ("NegativeBinomial", "p", 0.3);
 assert (class (pd), "NegativeBinomialDistribution");
 assert (pd.R, 1);
 assert (pd.P, 0.3);
***** test
 pd = makedist ("Normal");
 assert (class (pd), "NormalDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Normal", "mu", 5);
 assert (class (pd), "NormalDistribution");
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Normal", "sigma", 5);
 assert (class (pd), "NormalDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("Normal", "mu", -3, "sigma", 5);
 assert (class (pd), "NormalDistribution");
 assert (pd.mu, -3);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("PiecewiseLinear");
 assert (class (pd), "PiecewiseLinearDistribution");
 assert (pd.x, [0; 1]);
 assert (pd.Fx, [0; 1]);
***** test
 pd = makedist ("PiecewiseLinear", "x", [0, 1, 2], "Fx", [0, 0.5, 1]);
 assert (pd.x, [0; 1; 2]);
 assert (pd.Fx, [0; 0.5; 1]);
***** test
 pd = makedist ("Poisson");
 assert (class (pd), "PoissonDistribution");
 assert (pd.lambda, 1);
***** test
 pd = makedist ("Poisson", "lambda", 5);
 assert (pd.lambda, 5);
***** test
 pd = makedist ("Rayleigh");
 assert (class (pd), "RayleighDistribution");
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Rayleigh", "sigma", 5);
 assert (pd.sigma, 5);
***** test
 pd = makedist ("Rician");
 assert (class (pd), "RicianDistribution");
 assert (pd.s, 1);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Rician", "s", 3);
 assert (pd.s, 3);
 assert (pd.sigma, 1);
***** test
 pd = makedist ("Rician", "sigma", 3);
 assert (pd.s, 1);
 assert (pd.sigma, 3);
***** test
 pd = makedist ("Rician", "s", 2, "sigma", 3);
 assert (pd.s, 2);
 assert (pd.sigma, 3);
***** warning
 pd = makedist ("stable");
 assert (class (pd), "double");
 assert (isempty (pd), true);
***** test
 pd = makedist ("tlocationscale");
 assert (class (pd), "tLocationScaleDistribution");
 assert (pd.mu, 0);
 assert (pd.sigma, 1);
 assert (pd.nu, 5);
***** test
 pd = makedist ("tlocationscale", "mu", 5);
 assert (pd.mu, 5);
 assert (pd.sigma, 1);
 assert (pd.nu, 5);
***** test
 pd = makedist ("tlocationscale", "sigma", 2);
 assert (pd.mu, 0);
 assert (pd.sigma, 2);
 assert (pd.nu, 5);
***** test
 pd = makedist ("tlocationscale", "mu", 5, "sigma", 2);
 assert (pd.mu, 5);
 assert (pd.sigma, 2);
 assert (pd.nu, 5);
***** test
 pd = makedist ("tlocationscale", "nu", 1, "sigma", 2);
 assert (pd.mu, 0);
 assert (pd.sigma, 2);
 assert (pd.nu, 1);
***** test
 pd = makedist ("tlocationscale", "mu", -2, "sigma", 3, "nu", 1);
 assert (pd.mu, -2);
 assert (pd.sigma, 3);
 assert (pd.nu, 1);
***** test
 pd = makedist ("Triangular");
 assert (class (pd), "TriangularDistribution");
 assert (pd.A, 0);
 assert (pd.B, 0.5);
 assert (pd.C, 1);
***** test
 pd = makedist ("Triangular", "A", -2);
 assert (pd.A, -2);
 assert (pd.B, 0.5);
 assert (pd.C, 1);
***** test
 pd = makedist ("Triangular", "A", 0.5, "B", 0.9);
 assert (pd.A, 0.5);
 assert (pd.B, 0.9);
 assert (pd.C, 1);
***** test
 pd = makedist ("Triangular", "A", 1, "B", 2, "C", 5);
 assert (pd.A, 1);
 assert (pd.B, 2);
 assert (pd.C, 5);
***** test
 pd = makedist ("Uniform");
 assert (class (pd), "UniformDistribution");
 assert (pd.Lower, 0);
 assert (pd.Upper, 1);
***** test
 pd = makedist ("Uniform", "Lower", -2);
 assert (pd.Lower, -2);
 assert (pd.Upper, 1);
***** test
 pd = makedist ("Uniform", "Lower", 1, "Upper", 3);
 assert (pd.Lower, 1);
 assert (pd.Upper, 3);
***** test
 pd = makedist ("Weibull");
 assert (class (pd), "WeibullDistribution");
 assert (pd.lambda, 1);
 assert (pd.k, 1);
***** test
 pd = makedist ("Weibull", "lambda", 3);
 assert (pd.lambda, 3);
 assert (pd.k, 1);
***** test
 pd = makedist ("Weibull", "lambda", 3, "k", 2);
 assert (pd.lambda, 3);
 assert (pd.k, 2);
***** error <makedist: DISTNAME must be a character vector.> makedist (1)
***** error <makedist: DISTNAME must be a character vector.> makedist (["as";"sd"])
***** error <makedist: unrecognized distribution name.> makedist ("some")
***** error <makedist: optional arguments must be in NAME-VALUE pairs.> ...
 makedist ("Beta", "a")
***** error <makedist: unknown parameter for 'Beta' distribution.> ...
 makedist ("Beta", "a", 1, "Q", 23)
***** error <makedist: unknown parameter for 'Binomial' distribution.> ...
 makedist ("Binomial", "N", 1, "Q", 23)
***** error <makedist: unknown parameter for 'BirnbaumSaunders' distribution.> ...
 makedist ("BirnbaumSaunders", "N", 1)
***** error <makedist: unknown parameter for 'Burr' distribution.> ...
 makedist ("Burr", "lambda", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'ExtremeValue' distribution.> ...
 makedist ("extremevalue", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Exponential' distribution.> ...
 makedist ("exponential", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Gamma' distribution.> ...
 makedist ("Gamma", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'GeneralizedExtremeValue' distribution.> ...
 makedist ("GeneralizedExtremeValue", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'GeneralizedPareto' distribution.> ...
 makedist ("GeneralizedPareto", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'HalfNormal' distribution.> ...
 makedist ("HalfNormal", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'InverseGaussian' distribution.> ...
 makedist ("InverseGaussian", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Logistic' distribution.> ...
 makedist ("Logistic", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Loglogistic' distribution.> ...
 makedist ("Loglogistic", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Lognormal' distribution.> ...
 makedist ("Lognormal", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Loguniform' distribution.> ...
 makedist ("Loguniform", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Multinomial' distribution.> ...
 makedist ("Multinomial", "k", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Nakagami' distribution.> ...
 makedist ("Nakagami", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'NegativeBinomial' distribution.> ...
 makedist ("NegativeBinomial", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Normal' distribution.> ...
 makedist ("Normal", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'PiecewiseLinear' distribution.> ...
 makedist ("PiecewiseLinear", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Poisson' distribution.> ...
 makedist ("Poisson", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Rayleigh' distribution.> ...
 makedist ("Rayleigh", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Rician' distribution.> ...
 makedist ("Rician", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Stable' distribution.> ...
 makedist ("Stable", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'tLocationScale' distribution.> ...
 makedist ("tLocationScale", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Triangular' distribution.> ...
 makedist ("Triangular", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Uniform' distribution.> ...
 makedist ("Uniform", "mu", 1, "sdfs", 34)
***** error <makedist: unknown parameter for 'Weibull' distribution.> ...
 makedist ("Weibull", "mu", 1, "sdfs", 34)
131 tests, 131 passed, 0 known failure, 0 skipped
[inst/dist_wrap/random.m]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/inst/dist_wrap/random.m
***** assert (size (random ("Beta", 5, 2, 2, 10)), size (betarnd (5, 2, 2, 10)))
***** assert (size (random ("beta", 5, 2, 2, 10)), size (betarnd (5, 2, 2, 10)))
***** assert (size (random ("Binomial", 5, 2, [10, 20])), size (binornd (5, 2, 10, 20)))
***** assert (size (random ("bino", 5, 2, [10, 20])), size (binornd (5, 2, 10, 20)))
***** assert (size (random ("Birnbaum-Saunders", 5, 2, [10, 20])), size (bisarnd (5, 2, 10, 20)))
***** assert (size (random ("bisa", 5, 2, [10, 20])), size (bisarnd (5, 2, 10, 20)))
***** assert (size (random ("Burr", 5, 2, 2, [10, 20])), size (burrrnd (5, 2, 2, 10, 20)))
***** assert (size (random ("burr", 5, 2, 2, [10, 20])), size (burrrnd (5, 2, 2, 10, 20)))
***** assert (size (random ("Cauchy", 5, 2, [10, 20])), size (cauchyrnd (5, 2, 10, 20)))
***** assert (size (random ("cauchy", 5, 2, [10, 20])), size (cauchyrnd (5, 2, 10, 20)))
***** assert (size (random ("Chi-squared", 5, [10, 20])), size (chi2rnd (5, 10, 20)))
***** assert (size (random ("chi2", 5, [10, 20])), size (chi2rnd (5, 10, 20)))
***** assert (size (random ("Extreme Value", 5, 2, [10, 20])), size (evrnd (5, 2, 10, 20)))
***** assert (size (random ("ev", 5, 2, [10, 20])), size (evrnd (5, 2, 10, 20)))
***** assert (size (random ("Exponential", 5, [10, 20])), size (exprnd (5, 10, 20)))
***** assert (size (random ("exp", 5, [10, 20])), size (exprnd (5, 10, 20)))
***** assert (size (random ("F-Distribution", 5, 2, [10, 20])), size (frnd (5, 2, 10, 20)))
***** assert (size (random ("f", 5, 2, [10, 20])), size (frnd (5, 2, 10, 20)))
***** assert (size (random ("Gamma", 5, 2, [10, 20])), size (gamrnd (5, 2, 10, 20)))
***** assert (size (random ("gam", 5, 2, [10, 20])), size (gamrnd (5, 2, 10, 20)))
***** assert (size (random ("Geometric", 5, [10, 20])), size (geornd (5, 10, 20)))
***** assert (size (random ("geo", 5, [10, 20])), size (geornd (5, 10, 20)))
***** assert (size (random ("Generalized Extreme Value", 5, 2, 2, [10, 20])), size (gevrnd (5, 2, 2, 10, 20)))
***** assert (size (random ("gev", 5, 2, 2, [10, 20])), size (gevrnd (5, 2, 2, 10, 20)))
***** assert (size (random ("Generalized Pareto", 5, 2, 2, [10, 20])), size (gprnd (5, 2, 2, 10, 20)))
***** assert (size (random ("gp", 5, 2, 2, [10, 20])), size (gprnd (5, 2, 2, 10, 20)))
***** assert (size (random ("Gumbel", 5, 2, [10, 20])), size (gumbelrnd (5, 2, 10, 20)))
***** assert (size (random ("gumbel", 5, 2, [10, 20])), size (gumbelrnd (5, 2, 10, 20)))
***** assert (size (random ("Half-normal", 5, 2, [10, 20])), size (hnrnd (5, 2, 10, 20)))
***** assert (size (random ("hn", 5, 2, [10, 20])), size (hnrnd (5, 2, 10, 20)))
***** assert (size (random ("Hypergeometric", 5, 2, 2, [10, 20])), size (hygernd (5, 2, 2, 10, 20)))
***** assert (size (random ("hyge", 5, 2, 2, [10, 20])), size (hygernd (5, 2, 2, 10, 20)))
***** assert (size (random ("Inverse Gaussian", 5, 2, [10, 20])), size (invgrnd (5, 2, 10, 20)))
***** assert (size (random ("invg", 5, 2, [10, 20])), size (invgrnd (5, 2, 10, 20)))
***** assert (size (random ("Laplace", 5, 2, [10, 20])), size (laplacernd (5, 2, 10, 20)))
***** assert (size (random ("laplace", 5, 2, [10, 20])), size (laplacernd (5, 2, 10, 20)))
***** assert (size (random ("Logistic", 5, 2, [10, 20])), size (logirnd (5, 2, 10, 20)))
***** assert (size (random ("logi", 5, 2, [10, 20])), size (logirnd (5, 2, 10, 20)))
***** assert (size (random ("Log-Logistic", 5, 2, [10, 20])), size (loglrnd (5, 2, 10, 20)))
***** assert (size (random ("logl", 5, 2, [10, 20])), size (loglrnd (5, 2, 10, 20)))
***** assert (size (random ("Lognormal", 5, 2, [10, 20])), size (lognrnd (5, 2, 10, 20)))
***** assert (size (random ("logn", 5, 2, [10, 20])), size (lognrnd (5, 2, 10, 20)))
***** assert (size (random ("Nakagami", 5, 2, [10, 20])), size (nakarnd (5, 2, 10, 20)))
***** assert (size (random ("naka", 5, 2, [10, 20])), size (nakarnd (5, 2, 10, 20)))
***** assert (size (random ("Negative Binomial", 5, 2, [10, 20])), size (nbinrnd (5, 2, 10, 20)))
***** assert (size (random ("nbin", 5, 2, [10, 20])), size (nbinrnd (5, 2, 10, 20)))
***** assert (size (random ("Noncentral F-Distribution", 5, 2, 2, [10, 20])), size (ncfrnd (5, 2, 2, 10, 20)))
***** assert (size (random ("ncf", 5, 2, 2, [10, 20])), size (ncfrnd (5, 2, 2, 10, 20)))
***** assert (size (random ("Noncentral Student T", 5, 2, [10, 20])), size (nctrnd (5, 2, 10, 20)))
***** assert (size (random ("nct", 5, 2, [10, 20])), size (nctrnd (5, 2, 10, 20)))
***** assert (size (random ("Noncentral Chi-Squared", 5, 2, [10, 20])), size (ncx2rnd (5, 2, 10, 20)))
***** assert (size (random ("ncx2", 5, 2, [10, 20])), size (ncx2rnd (5, 2, 10, 20)))
***** assert (size (random ("Normal", 5, 2, [10, 20])), size (normrnd (5, 2, 10, 20)))
***** assert (size (random ("norm", 5, 2, [10, 20])), size (normrnd (5, 2, 10, 20)))
***** assert (size (random ("Poisson", 5, [10, 20])), size (poissrnd (5, 10, 20)))
***** assert (size (random ("poiss", 5, [10, 20])), size (poissrnd (5, 10, 20)))
***** assert (size (random ("Rayleigh", 5, [10, 20])), size (raylrnd (5, 10, 20)))
***** assert (size (random ("rayl", 5, [10, 20])), size (raylrnd (5, 10, 20)))
***** assert (size (random ("Rician", 5, 1, [10, 20])), size (ricernd (5, 1, 10, 20)))
***** assert (size (random ("rice", 5, 1, [10, 20])), size (ricernd (5, 1, 10, 20)))
***** assert (size (random ("Student T", 5, [10, 20])), size (trnd (5, 10, 20)))
***** assert (size (random ("t", 5, [10, 20])), size (trnd (5, 10, 20)))
***** assert (size (random ("location-scale T", 5, 1, 2, [10, 20])), size (tlsrnd (5, 1, 2, 10, 20)))
***** assert (size (random ("tls", 5, 1, 2, [10, 20])), size (tlsrnd (5, 1, 2, 10, 20)))
***** assert (size (random ("Triangular", 5, 2, 2, [10, 20])), size (trirnd (5, 2, 2, 10, 20)))
***** assert (size (random ("tri", 5, 2, 2, [10, 20])), size (trirnd (5, 2, 2, 10, 20)))
***** assert (size (random ("Discrete Uniform", 5, [10, 20])), size (unidrnd (5, 10, 20)))
***** assert (size (random ("unid", 5, [10, 20])), size (unidrnd (5, 10, 20)))
***** assert (size (random ("Uniform", 5, 2, [10, 20])), size (unifrnd (5, 2, 10, 20)))
***** assert (size (random ("unif", 5, 2, [10, 20])), size (unifrnd (5, 2, 10, 20)))
***** assert (size (random ("Von Mises", 5, 2, [10, 20])), size (vmrnd (5, 2, 10, 20)))
***** assert (size (random ("vm", 5, 2, [10, 20])), size (vmrnd (5, 2, 10, 20)))
***** assert (size (random ("Weibull", 5, 2, [10, 20])), size (wblrnd (5, 2, 10, 20)))
***** assert (size (random ("wbl", 5, 2, [10, 20])), size (wblrnd (5, 2, 10, 20)))
***** error<random: distribution NAME must be a char string.> random (1)
***** error<random: distribution NAME must be a char string.> random ({"beta"})
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", "a", 2)
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", 5, "")
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", 5, {2})
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", "a", 2, 2, 10)
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", 5, "", 2, 10)
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", 5, {2}, 2, 10)
***** error<random: distribution parameters must be numeric.> ...
 random ("Beta", 5, "", 2, 10)
***** error<random: chi2 distribution requires 1 parameter.> random ("chi2")
***** error<random: Beta distribution requires 2 parameters.> random ("Beta", 5)
***** error<random: Burr distribution requires 3 parameters.> random ("Burr", 5)
***** error<random: Burr distribution requires 3 parameters.> random ("Burr", 5, 2)
87 tests, 87 passed, 0 known failure, 0 skipped
Checking C++ files ...
[src/fcnnpredict.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/fcnnpredict.cc
***** shared X, Y, MODEL
 load fisheriris
 X = meas;
 Y = grp2idx (species);
 MODEL = fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, 100, false);
***** test
 [Y_pred, Y_scores] = fcnnpredict (MODEL, X);
 assert (numel (Y_pred), numel (Y));
 assert (isequal (size (Y_pred), size (Y)), true);
 assert (columns (Y_scores), numel (unique (Y)));
 assert (rows (Y_scores), numel (Y));
***** error <fcnnpredict: too few input arguments.> ...
 fcnnpredict (MODEL);
***** error <fcnnpredict: too many output arguments.> ...
 [Q, W, E] = fcnnpredict (MODEL, X);
***** error <fcnnpredict: first argument must be a scalar structure.> ...
 fcnnpredict (1, X);
***** error <fcnnpredict: first argument must be a scalar structure.> ...
 fcnnpredict (struct ("L", {1, 2, 3}), X);
***** error <fcnnpredict: model does not have a 'LayerWeights' field.> ...
 fcnnpredict (struct ("L", 1), X);
***** error <fcnnpredict: 'LayerWeights' must be a cell row vector.> ...
 fcnnpredict (struct ("LayerWeights", 1), X);
***** error <fcnnpredict: 'LayerWeights' must be a cell row vector.> ...
 fcnnpredict (struct ("LayerWeights", {1}), X);
***** error <fcnnpredict: 'LayerWeights' must be a cell row vector.> ...
 fcnnpredict (struct ("LayerWeights", {{1; 2; 3}}), X);
***** error <fcnnpredict: model does not have an 'Activations' field.> ...
 fcnnpredict (struct ("LayerWeights", {[{ones(3)},{ones(3)}]}, "R", 2), X);
***** error <fcnnpredict: 'Activations' must be a numeric row vector.> ...
 fcnnpredict (struct ("LayerWeights", {[{ones(3)},{ones(3)}]}, ...
                      "Activations", [2]), X);
***** error <fcnnpredict: 'Activations' must be a numeric row vector.> ...
 fcnnpredict (struct ("LayerWeights", {[{ones(3)},{ones(3)}]}, ...
                      "Activations", [2; 2]), X);
***** error <fcnnpredict: 'Activations' must be a numeric row vector.> ...
 fcnnpredict (struct ("LayerWeights", {[{ones(3)},{ones(3)}]}, ...
                      "Activations", {{2, 2}}), X);
***** error <fcnnpredict: 'Activations' must be a numeric row vector.> ...
 fcnnpredict (struct ("LayerWeights", {[{ones(3)},{ones(3)}]}, ...
                      "Activations", {{"sigmoid", "softmax"}}), X);
***** error <fcnnpredict: 'Activations' must be a numeric row vector.> ...
 fcnnpredict (struct ("LayerWeights", {[{ones(3)},{ones(3)}]}, ...
                      "Activations", "sigmoid"), X);
***** error <fcnnpredict: XC must be a real numeric matrix.> ...
 fcnnpredict (MODEL, complex (X));
***** error <fcnnpredict: XC must be a real numeric matrix.> ...
 fcnnpredict (MODEL, {1, 2, 3, 4});
***** error <fcnnpredict: XC must be a real numeric matrix.> ...
 fcnnpredict (MODEL, "asd");
***** error <fcnnpredict: XC cannot be empty.> ...
 fcnnpredict (MODEL, []);
***** error <fcnnpredict: the features in XC do not match the trained model.> ...
 fcnnpredict (MODEL, X(:,[1:3]));
20 tests, 20 passed, 0 known failure, 0 skipped
[src/libsvmread.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/libsvmread.cc
***** error <libsvmread: filename must be a string.> [L, D] = libsvmread (24);
***** error <libsvmread: wrong number of input or output arguments.> ...
 D = libsvmread ("filename");
***** test
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 assert (size (L), [270, 1]);
 assert (size (D), [270, 13]);
***** test
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 assert (issparse (L), false);
 assert (issparse (D), true);
4 tests, 4 passed, 0 known failure, 0 skipped
[src/fcnntrain.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/fcnntrain.cc
***** shared X, Y, MODEL
 load fisheriris
 X = meas;
 Y = grp2idx (species);
***** error <fcnntrain: too few input arguments.> ...
 model = fcnntrain (X, Y);
***** error <fcnntrain: too many output arguments.> ...
 [Q, W] = fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: X must be a real numeric matrix.> ...
 fcnntrain (complex (X), Y, 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: X must be a real numeric matrix.> ...
 fcnntrain ({X}, Y, 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: X cannot be empty.> ...
 fcnntrain ([], Y, 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: Y must be a real numeric matrix.> ...
 fcnntrain (X, complex (Y), 10, 1, 0.01, [1, 1], 0.025, 50, false);
***** error <fcnntrain: Y must be a real numeric matrix.> ...
 fcnntrain (X, {Y}, 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: Y cannot be empty.> ...
 fcnntrain (X, [], 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: X and Y must have the same number of rows.> ...
 fcnntrain (X, Y([1:50]), 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: labels in Y must be positive integers.> ...
 fcnntrain (X, Y - 1, 10, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'LayerSizes' must be a row vector of integer values.> ...
 fcnntrain (X, Y, [10; 5], [1, 1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'LayerSizes' must be a row vector of integer values.> ...
 fcnntrain (X, Y, "10", [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'LayerSizes' must be a row vector of integer values.> ...
 fcnntrain (X, Y, {10}, [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'LayerSizes' must be a row vector of integer values.> ...
 fcnntrain (X, Y, complex (10), [1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'Activations' must be a row vector of integer values.> ...
 fcnntrain (X, Y, 10, [1; 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'Activations' must be a row vector of integer values.> ...
 fcnntrain (X, Y, 10, {1, 1}, 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'Activations' must be a row vector of integer values.> ...
 fcnntrain (X, Y, 10, "1", 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'Activations' must be a row vector of integer values.> ...
 fcnntrain (X, Y, 10, complex ([1, 1]), 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'Activations' do not match LayerSizes.> ...
 fcnntrain (X, Y, 10, [1, 1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: cannot have a layer of zero size.> ...
 fcnntrain (X, Y, [10, 0, 5], [1, 1, 1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: invalid 'Activations' code.> ...
 fcnntrain (X, Y, 10, [-1, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: invalid 'Activations' code.> ...
 fcnntrain (X, Y, 10, [8, 1], 1, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'NumThreads' must be a positive integer scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 0, 0.01, 0.025, 50, false);
***** error <fcnntrain: 'Alpha' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, -0.01, 0.025, 50, false);
***** error <fcnntrain: 'LearningRate' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, -0.025, 50, false);
***** error <fcnntrain: 'LearningRate' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0, 50, false);
***** error <fcnntrain: 'LearningRate' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, [0.025, 0.001], 50, false);
***** error <fcnntrain: 'LearningRate' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, {0.025}, 50, false);
***** error <fcnntrain: 'Epochs' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, 0, false);
***** error <fcnntrain: 'Epochs' must be a positive scalar value.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, [50, 25], false);
***** error <fcnntrain: 'DisplayInfo' must be a boolean scalar.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, 50, 0);
***** error <fcnntrain: 'DisplayInfo' must be a boolean scalar.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, 50, 1);
***** error <fcnntrain: 'DisplayInfo' must be a boolean scalar.> ...
 fcnntrain (X, Y, 10, [1, 1], 1, 0.01, 0.025, 50, [false, false]);
33 tests, 33 passed, 0 known failure, 0 skipped
[src/svmtrain.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/svmtrain.cc
***** test
 # Test 1: Basic C-SVC Classification and Model Structure
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 model = svmtrain(L, D, '-c 1 -g 0.07');
 [predict_label, accuracy, dec_values] = svmpredict(L, D, model);

 assert (isstruct (model), true);
 assert (isfield (model, "Parameters"), true);
 assert (model.totalSV, 130);
 assert (model.nr_class, 2);
 assert (size (model.Label), [2, 1]);

 # Check prediction output sizes
 assert (size (predict_label), [length(L), 1]);
 assert (size (dec_values), [length(L), 1]);


 # Test 2: One-Class SVM Model Structure Check
 # Ensures training with -s 2 is functional and the model structure is valid (accommodating 3.36 changes).
 model_oc = svmtrain(L, D, '-s 2 -n 0.5 -g 0.07');
 assert (isstruct (model_oc), true);
 assert (model_oc.Parameters(1), 2); # Check svm_type is ONE_CLASS
 assert (model_oc.nr_class, 2);
 assert (model_oc.totalSV > 0, true);
 clear model_oc


 # Test 3: Regression SVR Test
 # Check training of Epsilon SVR (-s 3)
 model_svr = svmtrain (L, D, '-s 3 -p 0.1 -c 10');
 assert (isstruct (model_svr), true);
 assert (model_svr.Parameters(1), 3); # Check svm_type is EPSILON_SVR
 assert (model_svr.nr_class, 2);
 clear model_svr


 # Test 4: Input Argument Error Checking
***** shared L, D
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));

 # Check argument count errors
***** error <svmtrain: wrong number of output arguments.> [L, D] = svmtrain (L, D);
***** error <svmtrain: wrong number of input arguments.> model = svmtrain (L, D, "", "");

 # Check argument type errors
***** error <svmtrain: label vector and instance matrix must be double.> ...
 model = svmtrain (single (L), D);

 # Check dimension mismatch error
***** error <svmtrain: label vector must have same number of elements as rows in instance matrix.> ...
 model = svmtrain (L(1:end-1), D);

 # Test 5: One-Class Probability Training (New LIBSVM 3.36 Feature)
 # This ensures svmtrain DOES NOT reject -s 2 combined with -b 1
 # and correctly populates the new ProbDensityMarks field.
***** test
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 model = svmtrain (L, D, '-s 2 -n 0.1 -g 0.07 -b 1');

 assert (isstruct (model), true);
 assert (model.Parameters(1), 2); # Check svm_type is ONE_CLASS
 # CRITICAL CHECK: Verify the new field exists (Specific to upgrade)
 assert (isfield (model, "ProbDensityMarks"), true);
 clear model
6 tests, 6 passed, 0 known failure, 0 skipped
[src/libsvmwrite.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/libsvmwrite.cc
***** shared L, D
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
***** error <libsvmwrite: error opening file for write.> libsvmwrite ("", L, D);
***** error <libsvmwrite: length of label vector does not match instances.> ...
 libsvmwrite (tempname (), [L;L], D);
***** error <libsvmwrite: wrong number of output arguments.> ...
 OUT = libsvmwrite (tempname (), L, D);
***** error <libsvmwrite: label vector and instance matrix must be double.> ...
 libsvmwrite (tempname (), single (L), D);
***** error <libsvmwrite: filename must be a string.> libsvmwrite (13412, L, D);
***** error <libsvmwrite: instance_matrix must be sparse.> ...
 libsvmwrite (tempname (), L, full (D));
***** error <libsvmwrite: wrong number of input arguments.> ...
 libsvmwrite (tempname (), L, D, D);
7 tests, 7 passed, 0 known failure, 0 skipped
[src/svmpredict.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/svmpredict.cc
***** test
 # Test 1: Standard C-SVC Prediction (Original Regression Test)
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 model = svmtrain (L, D, '-c 1 -g 0.07');
 [predict_label, accuracy, dec_values] = svmpredict (L, D, model);
 assert (size (predict_label), size (dec_values));
 assert (accuracy, [86.666, 0.533, 0.533]', [1e-3, 1e-3, 1e-3]');
 assert (dec_values(1), 1.225836001973273, 1e-14);
 assert (dec_values(2), -0.3212992933043805, 1e-14);
 assert (predict_label(1), 1);

***** test
 # Test 2: One-Class Probability (NEW LIBSVM 3.36 FEATURE)
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 # Train One-Class (-s 2) with Probability (-b 1)
 model_oc = svmtrain (L, D, '-s 2 -n 0.1 -g 0.07 -b 1');
 # FIX: Changed // to # below to fix syntax error
 assert (isstruct(model_oc), true, "svmtrain failed to return a valid struct model."); # <-- FIXED COMMENT HERE
 # Predict with Probability (-b 1)
 [pred, acc, probs] = svmpredict (L, D, model_oc, '-b 1');

 # Detail Check A: Output must be N x 2 (Column 1: Normal, Column 2: Outlier)
 assert (size (probs), [length(L), 2]);

 # Detail Check B: Probabilities must sum to 1.0 for every instance
 assert (sum (probs, 2), ones (length(L), 1), 1e-5);

 # Detail Check C: Values must be valid probabilities [0, 1]
 assert (all (all (probs >= 0 & probs <= 1)));
 clear model_oc

***** test
 # Test 3: One-Class Decision Values (Standard Check)
 # Verifies that the upgrade didn't break standard One-Class prediction (-b 0)
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 model_oc = svmtrain (L, D, '-s 2 -n 0.1 -g 0.07');
 [pred, acc, dec] = svmpredict (L, D, model_oc);
 # Standard One-Class output is N x 1 (Scalar decision values)
 assert (size (dec), [length(L), 1]);
 clear model_oc

***** shared L, D, model
 # Test 4: Error Handling (Original Checks)
 [L, D] = libsvmread (file_in_loadpath ("heart_scale.dat"));
 model = svmtrain (L, D, '-c 1 -g 0.07');

***** error <svmpredict: wrong number of output arguments.> ...
 [p, a] = svmpredict (L, D, model);
***** error <svmpredict: wrong number of input arguments.> p = svmpredict (L, D);
***** error <svmpredict: label vector and instance matrix must be double.> ...
 p = svmpredict (single (L), D, model);
***** error <svmpredict: model should be a struct array.> p = svmpredict (L, D, 123);
7 tests, 7 passed, 0 known failure, 0 skipped
[src/editDistance.cc]
>>>>> /build/reproducible-path/octave-statistics-1.8.1/src/editDistance.cc
***** error <editDistance: too many input arguments.> d = editDistance (1, 2, 3, 4);
***** error <editDistance: too many output arguments.> ...
 [C, IA, IC, I] = editDistance ({"AS","SD","AD"}, 1);
***** error <editDistance: too many output arguments.> ...
 [C, IA] = editDistance ({"AS","SD","AD"});
***** error <editDistance: minDist must be a scalar value.> ...
 d = editDistance ({"AS","SD","AD"}, [1, 2]);
***** error <editDistance: minDist must be a nonnegative integer.> ...
 d = editDistance ({"AS","SD","AD"}, -2);
***** error <editDistance: minDist must be a nonnegative integer.> ...
 d = editDistance ({"AS","SD","AD"}, 1.25);
***** error <editDistance: minDist must be a scalar value.> ...
 d = editDistance ({"AS","SD","AD"}, {"AS","SD","AD"}, [1, 2]);
***** error <editDistance: minDist must be a nonnegative integer.> ...
 d = editDistance ({"AS","SD","AD"}, {"AS","SD","AD"}, -2);
***** error <editDistance: minDist must be a nonnegative integer.> ...
 d = editDistance ({"AS","SD","AD"}, {"AS","SD","AD"}, 1.25);
***** error <editDistance: minDist must be a scalar value.> ...
 d = editDistance ("string1", "string2", [1, 2]);
***** error <editDistance: minDist must be a nonnegative integer.> ...
 d = editDistance ("string1", "string2", -2);
***** error <editDistance: minDist must be a nonnegative integer.> ...
 d = editDistance ("string1", "string2", 1.25);
***** error <editDistance: tokenizedDocument must contain cellstr arrays.> ...
 d = editDistance ({{"string1", "string2"}, 2});
***** error <editDistance: tokenizedDocument must contain cellstr arrays.> ...
 d = editDistance ({{"string1", "string2"}, 2}, 2);
***** error <editDistance: STR1 must be a cellstr.> ...
 d = editDistance ([1, 2, 3]);
***** error <editDistance: STR1 must be a cellstr.> ...
 d = editDistance (["AS","SD","AD","AS"]);
***** error <editDistance: STR1 must be a cellstr.> ...
 d = editDistance (["AS","SD","AD"], 2);
***** error <editDistance: STR1 and STR2 must be either strings or cellstr.> ...
 d = editDistance (logical ([1,2,3]), {"AS","AS","AD"});
***** error <editDistance: STR1 and STR2 must be either strings or cellstr.> ...
 d = editDistance ({"AS","SD","AD"}, logical ([1,2,3]));
***** error <editDistance: STR1 and STR2 must be either strings or cellstr.> ...
 d = editDistance ([1,2,3], {"AS","AS","AD"});
***** error <editDistance: first tokenizedDocument does not contain cellstr arrays.> ...
 d = editDistance ({1,2,3}, {"AS","SD","AD"});
***** error <editDistance: second tokenizedDocument does not contain cellstr arrays.> ...
 d = editDistance ({"AS","SD","AD"}, {1,2,3});
***** error <editDistance: cellstr input arguments size mismatch.> ...
 d = editDistance ({"AS","SD","AD"}, {"AS", "AS"});
***** test
 d = editDistance ({"AS","SD","AD"});
 assert (d, [2; 1; 1]);
 assert (class (d), "double");
***** test
 C = editDistance ({"AS","SD","AD"}, 1);
 assert (iscellstr (C), true);
 assert (C, {"AS";"SD"});
***** test
 [C, IA] = editDistance ({"AS","SD","AD"}, 1);
 assert (class (IA), "double");
 assert (IA, [1;2]);
***** test
 A = {"ASS"; "SDS"; "FDE"; "EDS"; "OPA"};
 [C, IA] = editDistance (A, 2, "OutputAllIndices", false);
 assert (class (IA), "double");
 assert (A(IA), C);
***** test
 A = {"ASS"; "SDS"; "FDE"; "EDS"; "OPA"};
 [C, IA] = editDistance (A, 2, "OutputAllIndices", true);
 assert (class (IA), "cell");
 assert (C, {"ASS"; "FDE"; "OPA"});
 assert (A(IA{1}), {"ASS"; "SDS"; "EDS"});
 assert (A(IA{2}), {"FDE"; "EDS"});
 assert (A(IA{3}), {"OPA"});
***** test
 A = {"ASS"; "SDS"; "FDE"; "EDS"; "OPA"};
 [C, IA, IC] = editDistance (A, 2);
 assert (class (IA), "double");
 assert (A(IA), C);
 assert (IC, [1; 1; 3; 1; 5]);
***** test
 d = editDistance ({"AS","SD","AD"}, {"AS", "AD", "SE"});
 assert (d, [0; 1; 2]);
 assert (class (d), "double");
***** test
 d = editDistance ({"AS","SD","AD"}, {"AS"});
 assert (d, [0; 2; 1]);
 assert (class (d), "double");
***** test
 d = editDistance ({"AS"}, {"AS","SD","AD"});
 assert (d, [0; 2; 1]);
 assert (class (d), "double");
***** test
 b = editDistance ("Octave", "octave");
 assert (b, 1);
 assert (class (b), "double");
33 tests, 33 passed, 0 known failure, 0 skipped
Done running the unit tests.
Summary: 11500 tests, 11500 passed, 0 known failures, 0 skipped
   dh_install -a -O--buildsystem=octave
   dh_installdocs -a -O--buildsystem=octave
   dh_installchangelogs -a -O--buildsystem=octave
   dh_octave_changelogs -a -O--buildsystem=octave
   dh_octave_examples -a -O--buildsystem=octave
   dh_installsystemduser -a -O--buildsystem=octave
   dh_perl -a -O--buildsystem=octave
   dh_link -a -O--buildsystem=octave
   dh_strip_nondeterminism -a -O--buildsystem=octave
   dh_compress -a -O--buildsystem=octave
   dh_fixperms -a -O--buildsystem=octave
   dh_missing -a -O--buildsystem=octave
   dh_dwz -a -O--buildsystem=octave
   dh_strip -a -O--buildsystem=octave
   dh_makeshlibs -a -O--buildsystem=octave
   dh_shlibdeps -a -l/usr/lib/powerpc64le-linux-gnu/octave/10.3.0 -O--buildsystem=octave
   dh_octave_substvar -a -O--buildsystem=octave
   dh_installdeb -a -O--buildsystem=octave
   dh_gencontrol -a -O--buildsystem=octave
dpkg-gencontrol: warning: package octave-statistics: substitution variable ${octave:Upstream-Description} unused, but is defined
dpkg-gencontrol: warning: package octave-statistics: substitution variable ${octave:Upstream-Description} unused, but is defined
   dh_md5sums -a -O--buildsystem=octave
   dh_builddeb -a -O--buildsystem=octave
dpkg-deb: building package 'octave-statistics-dbgsym' in '../octave-statistics-dbgsym_1.8.1-3_ppc64el.deb'.
dpkg-deb: building package 'octave-statistics' in '../octave-statistics_1.8.1-3_ppc64el.deb'.
 dpkg-genbuildinfo --build=any -O../octave-statistics_1.8.1-3_ppc64el.buildinfo
 dpkg-genchanges --build=any -O../octave-statistics_1.8.1-3_ppc64el.changes
dpkg-genchanges: info: binary-only arch-specific upload (source code and arch-indep packages not included)
 dpkg-source --after-build .
dpkg-buildpackage: info: binary-only upload (no source included)
--------------------------------------------------------------------------------
Build finished at 2026-02-25T03:20:37Z

Finished
--------

I: Built successfully

+------------------------------------------------------------------------------+
| Changes                                      Wed, 25 Feb 2026 03:20:38 +0000 |
+------------------------------------------------------------------------------+


octave-statistics_1.8.1-3_ppc64el.changes:
------------------------------------------

Format: 1.8
Date: Tue, 24 Feb 2026 11:27:48 +0000
Source: octave-statistics
Binary: octave-statistics octave-statistics-dbgsym
Architecture: ppc64el
Version: 1.8.1-3
Distribution: unstable
Urgency: medium
Maintainer: Debian Octave Group <team+pkg-octave-team@tracker.debian.org>
Changed-By: Rafael Laboissière <rafael@debian.org>
Description:
 octave-statistics - additional statistical functions for Octave
Changes:
 octave-statistics (1.8.1-3) unstable; urgency=medium
 .
   * d/p/relax-tolerance-unit-test-grpstats.patch: New patch.
     This fixes the FTBFS problem on i368
Checksums-Sha1:
 2f183b9523e41cb6ca452bcdf9423887beb19251 3277244 octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
 43c03c26de582d174290da35823bde78619b8afc 21895 octave-statistics_1.8.1-3_ppc64el.buildinfo
 1a65c832d6044bcf2b3795f813162b11de74304f 146596 octave-statistics_1.8.1-3_ppc64el.deb
Checksums-Sha256:
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 94f045227ce3a4d7a27969b8c719ded8bd69582985fafd7670cdf9a96d0ddb94 21895 octave-statistics_1.8.1-3_ppc64el.buildinfo
 d1fe1c41e087981d379acc5b1bdf2295920684cd8754b84aa1520f49bd3e7997 146596 octave-statistics_1.8.1-3_ppc64el.deb
Files:
 4ef9a8dd640cf255998afca34d84f3c1 3277244 debug optional octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
 fa987290881c15f3278558eaff1bc5fd 21895 math optional octave-statistics_1.8.1-3_ppc64el.buildinfo
 172983aa9dbb32b3b476a028a7429e77 146596 math optional octave-statistics_1.8.1-3_ppc64el.deb

+------------------------------------------------------------------------------+
| Buildinfo                                    Wed, 25 Feb 2026 03:20:38 +0000 |
+------------------------------------------------------------------------------+

Format: 1.0
Source: octave-statistics
Binary: octave-statistics octave-statistics-dbgsym
Architecture: ppc64el
Version: 1.8.1-3
Checksums-Md5:
 4ef9a8dd640cf255998afca34d84f3c1 3277244 octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
 172983aa9dbb32b3b476a028a7429e77 146596 octave-statistics_1.8.1-3_ppc64el.deb
Checksums-Sha1:
 2f183b9523e41cb6ca452bcdf9423887beb19251 3277244 octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
 1a65c832d6044bcf2b3795f813162b11de74304f 146596 octave-statistics_1.8.1-3_ppc64el.deb
Checksums-Sha256:
 acc4e560f32ace73f1f9afdb38f1c7e02a6339470c284ca5f9b9651b961c706b 3277244 octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
 d1fe1c41e087981d379acc5b1bdf2295920684cd8754b84aa1520f49bd3e7997 146596 octave-statistics_1.8.1-3_ppc64el.deb
Build-Origin: Debian
Build-Architecture: ppc64el
Build-Date: Wed, 25 Feb 2026 03:20:37 +0000
Build-Path: /build/reproducible-path/octave-statistics-1.8.1
Installed-Build-Depends:
 aglfn (= 1.7+git20191031.4036a9c-2),
 appstream (= 1.1.2-1),
 autoconf (= 2.72-3.1),
 automake (= 1:1.18.1-3),
 autopoint (= 0.23.2-1),
 autotools-dev (= 20240727.1),
 base-files (= 14),
 base-passwd (= 3.6.8),
 bash (= 5.3-2),
 binutils (= 2.46-2),
 binutils-common (= 2.46-2),
 binutils-powerpc64le-linux-gnu (= 2.46-2),
 bsdextrautils (= 2.41.3-4),
 build-essential (= 12.12),
 bzip2 (= 1.0.8-6+b1),
 ca-certificates (= 20250419),
 cme (= 1.044-2),
 comerr-dev (= 2.1-1.47.2-3+b8),
 coreutils (= 9.7-3),
 cpp (= 4:15.2.0-5),
 cpp-15 (= 15.2.0-14),
 cpp-15-powerpc64le-linux-gnu (= 15.2.0-14),
 cpp-powerpc64le-linux-gnu (= 4:15.2.0-5),
 dash (= 0.5.12-12),
 debconf (= 1.5.92),
 debhelper (= 13.30),
 debianutils (= 5.23.2),
 dh-autoreconf (= 21+nmu1),
 dh-octave (= 1.14.1),
 dh-octave-autopkgtest (= 1.14.1),
 dh-strip-nondeterminism (= 1.15.0-1),
 diffstat (= 1.68-1),
 diffutils (= 1:3.12-1),
 dpkg (= 1.23.5),
 dpkg-dev (= 1.23.5),
 dwz (= 0.16-2),
 file (= 1:5.46-5+b1),
 findutils (= 4.10.0-3),
 fontconfig (= 2.17.1-5),
 fontconfig-config (= 2.17.1-5),
 fonts-freefont-otf (= 20211204+svn4273-4),
 g++ (= 4:15.2.0-5),
 g++-15 (= 15.2.0-14),
 g++-15-powerpc64le-linux-gnu (= 15.2.0-14),
 g++-powerpc64le-linux-gnu (= 4:15.2.0-5),
 gcc (= 4:15.2.0-5),
 gcc-15 (= 15.2.0-14),
 gcc-15-base (= 15.2.0-14),
 gcc-15-powerpc64le-linux-gnu (= 15.2.0-14),
 gcc-powerpc64le-linux-gnu (= 4:15.2.0-5),
 gettext (= 0.23.2-1),
 gettext-base (= 0.23.2-1),
 gfortran (= 4:15.2.0-5),
 gfortran-15 (= 15.2.0-14),
 gfortran-15-powerpc64le-linux-gnu (= 15.2.0-14),
 gfortran-powerpc64le-linux-gnu (= 4:15.2.0-5),
 gnuplot-data (= 6.0.3+dfsg1-1),
 gnuplot-nox (= 6.0.3+dfsg1-1),
 gpg (= 2.4.8-5),
 gpgconf (= 2.4.8-5),
 grep (= 3.12-1),
 groff-base (= 1.23.0-10),
 gzip (= 1.13-1),
 hdf5-helpers (= 1.14.6+repack-2),
 hostname (= 3.25),
 init-system-helpers (= 1.69),
 intltool-debian (= 0.35.0+20060710.6),
 iso-codes (= 4.20.1-1),
 krb5-multidev (= 1.22.1-2),
 libabsl20240722 (= 20240722.0-4),
 libacl1 (= 2.3.2-3),
 libaec-dev (= 1.1.5-1),
 libaec0 (= 1.1.5-1),
 libalgorithm-c3-perl (= 0.11-2),
 libaliased-perl (= 0.34-3),
 libamd3 (= 1:7.12.2+dfsg-1),
 libaom3 (= 3.13.1-2),
 libapp-cmd-perl (= 0.339-1),
 libappstream5 (= 1.1.2-1),
 libapt-pkg-perl (= 0.1.43),
 libapt-pkg7.0 (= 3.1.16),
 libarchive-zip-perl (= 1.68-1),
 libarpack2t64 (= 3.9.1-6+b1),
 libarray-intspan-perl (= 2.004-2),
 libasan8 (= 15.2.0-14),
 libasound2-data (= 1.2.15.3-1),
 libasound2t64 (= 1.2.15.3-1),
 libassuan9 (= 3.0.2-2+b1),
 libatomic1 (= 15.2.0-14),
 libattr1 (= 1:2.5.2-4),
 libaudit-common (= 1:4.1.2-1),
 libaudit1 (= 1:4.1.2-1+b1),
 libavahi-client3 (= 0.8-18),
 libavahi-common-data (= 0.8-18),
 libavahi-common3 (= 0.8-18),
 libavif16 (= 1.3.0-1+b2),
 libb-hooks-endofscope-perl (= 0.28-2),
 libb-hooks-op-check-perl (= 0.22-3+b3),
 libb-keywords-perl (= 1.29-1),
 libb2-1 (= 0.98.1-1.1+b3),
 libberkeleydb-perl (= 0.66-2),
 libbinutils (= 2.46-2),
 libblas-dev (= 3.12.1-7+b1),
 libblas3 (= 3.12.1-7+b1),
 libblkid1 (= 2.41.3-4),
 libboolean-perl (= 0.46-3),
 libbrotli-dev (= 1.2.0-3),
 libbrotli1 (= 1.2.0-3),
 libbsd0 (= 0.12.2-2+b1),
 libbz2-1.0 (= 1.0.8-6+b1),
 libc-bin (= 2.42-13),
 libc-dev-bin (= 2.42-13),
 libc-gconv-modules-extra (= 2.42-13),
 libc6 (= 2.42-13),
 libc6-dev (= 2.42-13),
 libcairo2 (= 1.18.4-3),
 libcamd3 (= 1:7.12.2+dfsg-1),
 libcap-ng0 (= 0.9.1-1),
 libcap2 (= 1:2.75-10+b5),
 libcapture-tiny-perl (= 0.50-1),
 libcarp-assert-more-perl (= 2.9.0-1),
 libcc1-0 (= 15.2.0-14),
 libccolamd3 (= 1:7.12.2+dfsg-1),
 libcgi-pm-perl (= 4.71-1),
 libcholmod5 (= 1:7.12.2+dfsg-1),
 libclass-c3-perl (= 0.35-2),
 libclass-data-inheritable-perl (= 0.10-1),
 libclass-inspector-perl (= 1.36-3),
 libclass-load-perl (= 0.25-2),
 libclass-method-modifiers-perl (= 2.15-1),
 libclass-tiny-perl (= 1.008-2),
 libclass-xsaccessor-perl (= 1.19-4+b5),
 libclone-choose-perl (= 0.010-2),
 libclone-perl (= 0.47-1+b2),
 libcolamd3 (= 1:7.12.2+dfsg-1),
 libcom-err2 (= 1.47.2-3+b8),
 libconfig-inifiles-perl (= 3.000003-4),
 libconfig-model-backend-yaml-perl (= 2.134-2),
 libconfig-model-dpkg-perl (= 3.017),
 libconfig-model-perl (= 2.155-1),
 libconfig-tiny-perl (= 2.30-1),
 libconst-fast-perl (= 0.014-2),
 libconvert-binhex-perl (= 1.125-3),
 libcpanel-json-xs-perl (= 4.40-1),
 libcrypt1 (= 1:4.5.1-1),
 libctf-nobfd0 (= 2.46-2),
 libctf0 (= 2.46-2),
 libcups2t64 (= 2.4.16-1),
 libcurl3t64-gnutls (= 8.19.0~rc2-2),
 libcurl4-openssl-dev (= 8.19.0~rc2-2),
 libcurl4t64 (= 8.19.0~rc2-2),
 libcxsparse4 (= 1:7.12.2+dfsg-1),
 libdata-dpath-perl (= 0.60-1),
 libdata-messagepack-perl (= 1.02-3),
 libdata-optlist-perl (= 0.114-1),
 libdata-section-perl (= 0.200008-1),
 libdata-validate-domain-perl (= 0.15-1),
 libdata-validate-ip-perl (= 0.31-1),
 libdata-validate-uri-perl (= 0.07-3),
 libdatrie1 (= 0.2.14-1),
 libdav1d7 (= 1.5.3-1+b1),
 libdb5.3t64 (= 5.3.28+dfsg2-11),
 libdbus-1-3 (= 1.16.2-4),
 libde265-0 (= 1.0.16-1+b1),
 libdebconfclient0 (= 0.282+b2),
 libdebhelper-perl (= 13.30),
 libdeflate0 (= 1.23-2+b1),
 libdevel-callchecker-perl (= 0.009-3),
 libdevel-size-perl (= 0.86-1),
 libdevel-stacktrace-perl (= 2.0500-1),
 libdouble-conversion3 (= 3.4.0-1),
 libdpkg-perl (= 1.23.5),
 libdrm-amdgpu1 (= 2.4.131-1),
 libdrm-common (= 2.4.131-1),
 libdrm2 (= 2.4.131-1),
 libduktape207 (= 2.7.0-2+b3),
 libdynaloader-functions-perl (= 0.004-2),
 libedit2 (= 3.1-20251016-1),
 libegl-mesa0 (= 26.0.0-1),
 libegl1 (= 1.7.0-3),
 libelf1t64 (= 0.194-1),
 libemail-address-xs-perl (= 1.05-1+b4),
 libencode-locale-perl (= 1.05-3),
 liberror-perl (= 0.17030-1),
 libevdev2 (= 1.13.6+dfsg-1),
 libevent-2.1-7t64 (= 2.1.12-stable-10+b2),
 libexception-class-perl (= 1.45-1),
 libexpat1 (= 2.7.4-1),
 libexporter-lite-perl (= 0.09-2),
 libexporter-tiny-perl (= 1.006003-1),
 libfeature-compat-class-perl (= 0.08-1),
 libfeature-compat-try-perl (= 0.05-1),
 libffi8 (= 3.5.2-3+b1),
 libfftw3-bin (= 3.3.10-2+b2),
 libfftw3-dev (= 3.3.10-2+b2),
 libfftw3-double3 (= 3.3.10-2+b2),
 libfftw3-long3 (= 3.3.10-2+b2),
 libfftw3-single3 (= 3.3.10-2+b2),
 libfile-basedir-perl (= 0.09-2),
 libfile-find-rule-perl (= 0.35-1),
 libfile-homedir-perl (= 1.006-2),
 libfile-libmagic-perl (= 1.23-2+b2),
 libfile-listing-perl (= 6.16-1),
 libfile-sharedir-perl (= 1.118-3),
 libfile-stripnondeterminism-perl (= 1.15.0-1),
 libfile-which-perl (= 1.27-2),
 libflac14 (= 1.5.0+ds-5),
 libfltk-gl1.3t64 (= 1.3.11-3),
 libfltk1.3t64 (= 1.3.11-3),
 libfont-ttf-perl (= 1.06-2),
 libfontconfig1 (= 2.17.1-5),
 libfreetype6 (= 2.14.1+dfsg-2),
 libfribidi0 (= 1.0.16-5),
 libfyaml0 (= 0.9.4-1),
 libgav1-2 (= 0.20.0-2),
 libgbm1 (= 26.0.0-1),
 libgcc-15-dev (= 15.2.0-14),
 libgcc-s1 (= 15.2.0-14),
 libgcrypt20 (= 1.11.2-3+b1),
 libgd3 (= 2.3.3-13+b1),
 libgdbm-compat4t64 (= 1.26-1+b1),
 libgdbm6t64 (= 1.26-1+b1),
 libgetopt-long-descriptive-perl (= 0.117-1),
 libgfortran-15-dev (= 15.2.0-14),
 libgfortran5 (= 15.2.0-14),
 libgl-dev (= 1.7.0-3),
 libgl1 (= 1.7.0-3),
 libgl1-mesa-dri (= 26.0.0-1),
 libgl2ps1.4 (= 1.4.2+dfsg1-4),
 libglib2.0-0t64 (= 2.87.2-3),
 libglpk40 (= 5.0-2+b1),
 libglu1-mesa (= 9.0.2-1.1+b4),
 libglvnd0 (= 1.7.0-3),
 libglx-dev (= 1.7.0-3),
 libglx-mesa0 (= 26.0.0-1),
 libglx0 (= 1.7.0-3),
 libgmp-dev (= 2:6.3.0+dfsg-5+b1),
 libgmp10 (= 2:6.3.0+dfsg-5+b1),
 libgmpxx4ldbl (= 2:6.3.0+dfsg-5+b1),
 libgnutls-dane0t64 (= 3.8.12-3),
 libgnutls28-dev (= 3.8.12-3),
 libgnutls30t64 (= 3.8.12-3),
 libgomp1 (= 15.2.0-14),
 libgpg-error0 (= 1.58-2),
 libgraphicsmagick++-q16-12t64 (= 1.4+really1.3.46-2),
 libgraphicsmagick-q16-3t64 (= 1.4+really1.3.46-2),
 libgraphite2-3 (= 1.3.14-11+b1),
 libgssapi-krb5-2 (= 1.22.1-2),
 libgssrpc4t64 (= 1.22.1-2),
 libgudev-1.0-0 (= 238-7+b1),
 libharfbuzz0b (= 12.3.2-2),
 libhash-merge-perl (= 0.302-1),
 libhdf5-310 (= 1.14.6+repack-2),
 libhdf5-cpp-310 (= 1.14.6+repack-2),
 libhdf5-dev (= 1.14.6+repack-2),
 libhdf5-fortran-310 (= 1.14.6+repack-2),
 libhdf5-hl-310 (= 1.14.6+repack-2),
 libhdf5-hl-cpp-310 (= 1.14.6+repack-2),
 libhdf5-hl-fortran-310 (= 1.14.6+repack-2),
 libheif-plugin-dav1d (= 1.21.2-3),
 libheif-plugin-libde265 (= 1.21.2-3),
 libheif1 (= 1.21.2-3),
 libhogweed6t64 (= 3.10.2-1),
 libhtml-form-perl (= 6.13-1),
 libhtml-html5-entities-perl (= 0.004-3),
 libhtml-parser-perl (= 3.83-1+b3),
 libhtml-tagset-perl (= 3.24-1),
 libhtml-tokeparser-simple-perl (= 3.16-4),
 libhtml-tree-perl (= 5.07-3),
 libhttp-cookies-perl (= 6.11-1),
 libhttp-date-perl (= 6.06-1),
 libhttp-message-perl (= 7.01-1),
 libhttp-negotiate-perl (= 6.01-2),
 libhwy1t64 (= 1.3.0-2),
 libice6 (= 2:1.1.1-1+b1),
 libicu76 (= 76.1-4+b1),
 libidn2-0 (= 2.3.8-4+b1),
 libidn2-dev (= 2.3.8-4+b1),
 libimagequant0 (= 4.4.1-1+b1),
 libimport-into-perl (= 1.002005-2),
 libindirect-perl (= 0.39-2+b4),
 libinput-bin (= 1.31.0-1),
 libinput10 (= 1.31.0-1),
 libintl-perl (= 1.37-1),
 libio-html-perl (= 1.004-3),
 libio-interactive-perl (= 1.027-1),
 libio-socket-ssl-perl (= 2.098-1),
 libio-string-perl (= 1.08-4),
 libio-stringy-perl (= 2.113-2),
 libio-tiecombine-perl (= 1.005-3),
 libipc-run3-perl (= 0.049-1),
 libipc-system-simple-perl (= 1.30-2),
 libisl23 (= 0.27-1+b1),
 libiterator-perl (= 0.03+ds1-2),
 libiterator-util-perl (= 0.02+ds1-2),
 libitm1 (= 15.2.0-14),
 libjack-jackd2-0 (= 1.9.22~dfsg-5+b1),
 libjansson4 (= 2.14-2+b4),
 libjbig0 (= 2.1-6.1+b3),
 libjpeg-dev (= 1:2.1.5-4),
 libjpeg62-turbo (= 1:2.1.5-4),
 libjpeg62-turbo-dev (= 1:2.1.5-4),
 libjson-maybexs-perl (= 1.004008-1),
 libjson-perl (= 4.10000-1),
 libjxl0.11 (= 0.11.1-6),
 libk5crypto3 (= 1.22.1-2),
 libkadm5clnt-mit12 (= 1.22.1-2),
 libkadm5srv-mit12 (= 1.22.1-2),
 libkdb5-10t64 (= 1.22.1-2),
 libkeyutils1 (= 1.6.3-6+b1),
 libkrb5-3 (= 1.22.1-2),
 libkrb5-dev (= 1.22.1-2),
 libkrb5support0 (= 1.22.1-2),
 libksba8 (= 1.6.7-2+b2),
 liblapack-dev (= 3.12.1-7+b1),
 liblapack3 (= 3.12.1-7+b1),
 liblcms2-2 (= 2.17-1),
 libldap-dev (= 2.6.10+dfsg-1+b1),
 libldap2 (= 2.6.10+dfsg-1+b1),
 liblerc4 (= 4.0.0+ds-5+b1),
 liblingua-en-inflect-perl (= 1.905-2),
 liblist-compare-perl (= 0.55-2),
 liblist-moreutils-perl (= 0.430-2),
 liblist-moreutils-xs-perl (= 0.430-4+b2),
 liblist-someutils-perl (= 0.59-1),
 liblist-utilsby-perl (= 0.12-2),
 libllvm21 (= 1:21.1.8-3+b1),
 liblog-any-adapter-screen-perl (= 0.141-2),
 liblog-any-perl (= 1.718-1),
 liblog-log4perl-perl (= 1.57-1),
 liblsan0 (= 15.2.0-14),
 libltdl7 (= 2.5.4-9),
 liblua5.4-0 (= 5.4.8-1+b1),
 liblwp-mediatypes-perl (= 6.04-2),
 liblwp-protocol-https-perl (= 6.14-1),
 liblz1 (= 1.16~rc1-3),
 liblz4-1 (= 1.10.0-6),
 liblzma5 (= 5.8.2-2),
 liblzo2-2 (= 2.10-3+b2),
 libmagic-mgc (= 1:5.46-5+b1),
 libmagic1t64 (= 1:5.46-5+b1),
 libmailtools-perl (= 2.22-1),
 libmarkdown2 (= 2.2.7-2.1+b1),
 libmd0 (= 1.1.0-2+b2),
 libmd4c0 (= 0.5.2-2+b2),
 libmime-tools-perl (= 5.517-1),
 libmldbm-perl (= 2.05-4),
 libmodule-implementation-perl (= 0.09-2),
 libmodule-pluggable-perl (= 6.3-1),
 libmodule-runtime-perl (= 0.018-1),
 libmoo-perl (= 2.005005-1),
 libmoox-aliases-perl (= 0.001006-3),
 libmount1 (= 2.41.3-4),
 libmouse-perl (= 2.6.1-1),
 libmousex-nativetraits-perl (= 1.09-3),
 libmousex-strictconstructor-perl (= 0.02-3),
 libmp3lame0 (= 3.101~svn6525+dfsg-2),
 libmpc3 (= 1.3.1-2+b1),
 libmpfr6 (= 4.2.2-2+b1),
 libmpg123-0t64 (= 1.33.3-2),
 libmro-compat-perl (= 0.15-2),
 libmtdev1t64 (= 1.1.7-1+b1),
 libnamespace-clean-perl (= 0.27-2),
 libncurses-dev (= 6.6+20251231-1),
 libncurses6 (= 6.6+20251231-1),
 libncursesw6 (= 6.6+20251231-1),
 libnet-domain-tld-perl (= 1.75-4),
 libnet-http-perl (= 6.24-1),
 libnet-ipv6addr-perl (= 1.02-1),
 libnet-netmask-perl (= 2.0003-1),
 libnet-smtp-ssl-perl (= 1.04-2),
 libnet-ssleay-perl (= 1.94-3+b1),
 libnetaddr-ip-perl (= 4.079+dfsg-2+b4),
 libnettle8t64 (= 3.10.2-1),
 libnghttp2-14 (= 1.68.0-1),
 libnghttp2-dev (= 1.68.0-1),
 libnghttp3-9 (= 1.12.0-1),
 libnghttp3-dev (= 1.12.0-1),
 libngtcp2-16 (= 1.16.0-1),
 libngtcp2-crypto-gnutls8 (= 1.16.0-1),
 libngtcp2-crypto-ossl-dev (= 1.16.0-1),
 libngtcp2-crypto-ossl0 (= 1.16.0-1),
 libngtcp2-dev (= 1.16.0-1),
 libnpth0t64 (= 1.8-3+b1),
 libnumber-compare-perl (= 0.03-3),
 libobject-pad-perl (= 0.823-2),
 libogg0 (= 1.3.6-2),
 libopengl0 (= 1.7.0-3),
 libopus0 (= 1.6.1-1),
 libp11-kit-dev (= 0.26.2-2),
 libp11-kit0 (= 0.26.2-2),
 libpackage-stash-perl (= 0.40-1),
 libpam-modules (= 1.7.0-5+b1),
 libpam-modules-bin (= 1.7.0-5+b1),
 libpam-runtime (= 1.7.0-5),
 libpam0g (= 1.7.0-5+b1),
 libpango-1.0-0 (= 1.57.0-1),
 libpangocairo-1.0-0 (= 1.57.0-1),
 libpangoft2-1.0-0 (= 1.57.0-1),
 libparams-classify-perl (= 0.015-2+b5),
 libparams-util-perl (= 1.102-3+b1),
 libparams-validate-perl (= 1.31-2+b4),
 libparse-debcontrol-perl (= 2.005-6),
 libparse-recdescent-perl (= 1.967015+dfsg-4),
 libpath-iterator-rule-perl (= 1.015-2),
 libpath-tiny-perl (= 0.148-1),
 libpcre2-16-0 (= 10.46-1+b1),
 libpcre2-8-0 (= 10.46-1+b1),
 libperl-critic-perl (= 1.156-1),
 libperl5.40 (= 5.40.1-7),
 libperlio-gzip-perl (= 0.20-1+b4),
 libperlio-utf8-strict-perl (= 0.010-1+b3),
 libpipeline1 (= 1.5.8-2),
 libpixman-1-0 (= 0.46.4-1+b1),
 libpkgconf7 (= 2.5.1-4),
 libpng16-16t64 (= 1.6.55-1),
 libpod-constants-perl (= 0.19-2),
 libpod-parser-perl (= 1.67-1),
 libpod-pom-perl (= 2.01-4),
 libpod-spell-perl (= 1.27-1),
 libportaudio2 (= 19.7.0-1),
 libppi-perl (= 1.284-1),
 libppix-quotelike-perl (= 0.023-1),
 libppix-regexp-perl (= 0.091-1),
 libppix-utils-perl (= 0.003-2),
 libproc-processtable-perl (= 0.637-1+b1),
 libproc2-0 (= 2:4.0.4-9+b1),
 libproxy1v5 (= 0.5.12-1),
 libpsl-dev (= 0.21.2-1.1+b2),
 libpsl5t64 (= 0.21.2-1.1+b2),
 libqhull-r8.0 (= 2020.2-8),
 libqrupdate1 (= 1.1.5-3),
 libqscintilla2-qt6-15 (= 2.14.1+dfsg-2),
 libqscintilla2-qt6-l10n (= 2.14.1+dfsg-2),
 libqt6core5compat6 (= 6.9.2-3),
 libqt6core6t64 (= 6.9.2+dfsg-4),
 libqt6dbus6 (= 6.9.2+dfsg-4),
 libqt6gui6 (= 6.9.2+dfsg-4),
 libqt6help6 (= 6.9.2-5),
 libqt6network6 (= 6.9.2+dfsg-4),
 libqt6opengl6 (= 6.9.2+dfsg-4),
 libqt6openglwidgets6 (= 6.9.2+dfsg-4),
 libqt6printsupport6 (= 6.9.2+dfsg-4),
 libqt6sql6 (= 6.9.2+dfsg-4),
 libqt6widgets6 (= 6.9.2+dfsg-4),
 libqt6xml6 (= 6.9.2+dfsg-4),
 libquadmath0 (= 15.2.0-14),
 librav1e0.8 (= 0.8.1-7),
 libreadline-dev (= 8.3-4),
 libreadline8t64 (= 8.3-4),
 libreadonly-perl (= 2.050-3),
 libregexp-common-perl (= 2024080801-1),
 libregexp-pattern-license-perl (= 3.11.2-1),
 libregexp-pattern-perl (= 0.2.14-3),
 libregexp-wildcards-perl (= 1.05-3),
 librole-tiny-perl (= 2.002004-1),
 librtmp-dev (= 2.4+20151223.gitfa8646d.1-3+b1),
 librtmp1 (= 2.4+20151223.gitfa8646d.1-3+b1),
 libsafe-isa-perl (= 1.000010-1),
 libsamplerate0 (= 0.2.2-4+b3),
 libsasl2-2 (= 2.1.28+dfsg1-10),
 libsasl2-modules-db (= 2.1.28+dfsg1-10),
 libseccomp2 (= 2.6.0-2+b1),
 libselinux1 (= 3.9-4+b1),
 libsensors-config (= 1:3.6.2-2),
 libsensors5 (= 1:3.6.2-2+b1),
 libsereal-decoder-perl (= 5.004+ds-1+b3),
 libsereal-encoder-perl (= 5.004+ds-1+b3),
 libset-intspan-perl (= 1.19-3),
 libsframe3 (= 2.46-2),
 libsharpyuv0 (= 1.5.0-0.1+b1),
 libsm6 (= 2:1.2.6-1+b1),
 libsmartcols1 (= 2.41.3-4),
 libsndfile1 (= 1.2.2-4),
 libsoftware-copyright-perl (= 0.015-1),
 libsoftware-license-perl (= 0.104007-1),
 libsoftware-licensemoreutils-perl (= 1.009-1),
 libsort-versions-perl (= 1.62-3),
 libspqr4 (= 1:7.12.2+dfsg-1),
 libsqlite3-0 (= 3.46.1-9),
 libssh2-1-dev (= 1.11.1-1+b1),
 libssh2-1t64 (= 1.11.1-1+b1),
 libssl-dev (= 3.5.5-1),
 libssl3t64 (= 3.5.5-1),
 libstdc++-15-dev (= 15.2.0-14),
 libstdc++6 (= 15.2.0-14),
 libstemmer0d (= 3.0.1-1+b1),
 libstrictures-perl (= 2.000006-1),
 libstring-copyright-perl (= 0.003014-1),
 libstring-escape-perl (= 2010.002-3),
 libstring-format-perl (= 1.18-1),
 libstring-license-perl (= 0.0.11-1),
 libstring-rewriteprefix-perl (= 0.009-1),
 libsub-exporter-perl (= 0.990-1),
 libsub-exporter-progressive-perl (= 0.001013-3),
 libsub-identify-perl (= 0.14-4),
 libsub-install-perl (= 0.929-1),
 libsub-name-perl (= 0.28-1+b1),
 libsub-quote-perl (= 2.006009-1),
 libsub-uplevel-perl (= 0.2800-3),
 libsuitesparseconfig7 (= 1:7.12.2+dfsg-1),
 libsvtav1enc2 (= 2.3.0+dfsg-1),
 libsyntax-keyword-try-perl (= 0.31-1),
 libsystemd0 (= 259.1-1),
 libsz2 (= 1.1.5-1),
 libtask-weaken-perl (= 1.06-2),
 libtasn1-6 (= 4.21.0-2),
 libtasn1-6-dev (= 4.21.0-2),
 libterm-readkey-perl (= 2.38-2+b4),
 libtest-exception-perl (= 0.43-3),
 libtext-autoformat-perl (= 1.750000-2),
 libtext-charwidth-perl (= 0.04-11+b5),
 libtext-glob-perl (= 0.11-3),
 libtext-levenshtein-damerau-perl (= 0.41-3),
 libtext-levenshteinxs-perl (= 0.03-5+b4),
 libtext-markdown-discount-perl (= 0.18-1),
 libtext-reform-perl (= 1.20-5),
 libtext-template-perl (= 1.61-1),
 libtext-unidecode-perl (= 1.30-3),
 libtext-wrapi18n-perl (= 0.06-10),
 libtext-wrapper-perl (= 1.05-4),
 libtext-xslate-perl (= 3.5.9-2+b2),
 libthai-data (= 0.1.30-1),
 libthai0 (= 0.1.30-1),
 libtiff6 (= 4.7.1-1),
 libtime-duration-perl (= 1.21-2),
 libtime-moment-perl (= 0.46-1),
 libtimedate-perl (= 2.3300-2),
 libtinfo6 (= 6.6+20251231-1),
 libtoml-tiny-perl (= 0.20-1),
 libtool (= 2.5.4-9),
 libtry-tiny-perl (= 0.32-1),
 libts0t64 (= 1.22-1.1+b2),
 libtsan2 (= 15.2.0-14),
 libubsan1 (= 15.2.0-14),
 libuchardet0 (= 0.0.8-2+b1),
 libudev1 (= 259.1-1),
 libumfpack6 (= 1:7.12.2+dfsg-1),
 libunbound8 (= 1.24.2-1),
 libunicode-utf8-perl (= 0.64-1),
 libunistring5 (= 1.3-2+b1),
 liburi-perl (= 5.34-2),
 libuuid1 (= 2.41.3-4),
 libvariable-magic-perl (= 0.64-1+b1),
 libvorbis0a (= 1.3.7-3+b1),
 libvorbisenc2 (= 1.3.7-3+b1),
 libvulkan1 (= 1.4.341.0-1),
 libwacom-common (= 2.18.0-1),
 libwacom9 (= 2.18.0-1),
 libwayland-client0 (= 1.24.0-2+b2),
 libwebp7 (= 1.5.0-0.1+b1),
 libwebpmux3 (= 1.5.0-0.1+b1),
 libwmflite-0.2-7 (= 0.2.13-2),
 libwww-mechanize-perl (= 2.20-1),
 libwww-perl (= 6.81-1),
 libwww-robotrules-perl (= 6.02-1),
 libx11-6 (= 2:1.8.13-1),
 libx11-data (= 2:1.8.13-1),
 libx11-dev (= 2:1.8.13-1),
 libx11-xcb1 (= 2:1.8.13-1),
 libxau-dev (= 1:1.0.11-1+b1),
 libxau6 (= 1:1.0.11-1+b1),
 libxcb-cursor0 (= 0.1.6-1),
 libxcb-dri3-0 (= 1.17.0-2+b2),
 libxcb-glx0 (= 1.17.0-2+b2),
 libxcb-icccm4 (= 0.4.2-1+b1),
 libxcb-image0 (= 0.4.0-2+b3),
 libxcb-keysyms1 (= 0.4.1-1+b1),
 libxcb-present0 (= 1.17.0-2+b2),
 libxcb-randr0 (= 1.17.0-2+b2),
 libxcb-render-util0 (= 0.3.10-1+b1),
 libxcb-render0 (= 1.17.0-2+b2),
 libxcb-shape0 (= 1.17.0-2+b2),
 libxcb-shm0 (= 1.17.0-2+b2),
 libxcb-sync1 (= 1.17.0-2+b2),
 libxcb-util1 (= 0.4.1-1+b1),
 libxcb-xfixes0 (= 1.17.0-2+b2),
 libxcb-xinput0 (= 1.17.0-2+b2),
 libxcb-xkb1 (= 1.17.0-2+b2),
 libxcb1 (= 1.17.0-2+b2),
 libxcb1-dev (= 1.17.0-2+b2),
 libxcursor1 (= 1:1.2.3-1+b1),
 libxdmcp-dev (= 1:1.1.5-2),
 libxdmcp6 (= 1:1.1.5-2),
 libxext6 (= 2:1.3.4-1+b4),
 libxfixes3 (= 1:6.0.0-2+b5),
 libxft2 (= 2.3.6-1+b5),
 libxinerama1 (= 2:1.1.4-3+b5),
 libxkbcommon-x11-0 (= 1.13.1-1),
 libxkbcommon0 (= 1.13.1-1),
 libxml-libxml-perl (= 2.0207+dfsg+really+2.0134-7),
 libxml-namespacesupport-perl (= 1.12-2),
 libxml-sax-base-perl (= 1.09-3),
 libxml-sax-perl (= 1.02+dfsg-4),
 libxml2-16 (= 2.15.1+dfsg-2+b1),
 libxmlb2 (= 0.3.24-2),
 libxpm4 (= 1:3.5.17-1+b4),
 libxrender1 (= 1:0.9.12-1+b1),
 libxs-parse-keyword-perl (= 0.49-1),
 libxs-parse-sublike-perl (= 0.41-1),
 libxshmfence1 (= 1.3.3-1+b1),
 libxxf86vm1 (= 1:1.1.4-2),
 libxxhash0 (= 0.8.3-2+b1),
 libyaml-0-2 (= 0.2.5-2+b1),
 libyaml-libyaml-perl (= 0.904.0+ds-1),
 libyaml-pp-perl (= 0.39.0-1),
 libyaml-tiny-perl (= 1.76-1),
 libyuv0 (= 0.0.1922.20260106-1),
 libz3-4 (= 4.13.3-1+b1),
 libzstd-dev (= 1.5.7+dfsg-3+b1),
 libzstd1 (= 1.5.7+dfsg-3+b1),
 licensecheck (= 3.3.9-1),
 lintian (= 2.130.0),
 linux-libc-dev (= 6.18.12-1),
 lzop (= 1.04-2),
 m4 (= 1.4.21-1),
 make (= 4.4.1-3),
 man-db (= 2.13.1-1),
 mawk (= 1.3.4.20260129-1),
 mesa-libgallium (= 26.0.0-1),
 ncurses-base (= 6.6+20251231-1),
 ncurses-bin (= 6.6+20251231-1),
 netbase (= 6.5),
 nettle-dev (= 3.10.2-1),
 octave (= 10.3.0-3),
 octave-common (= 10.3.0-3),
 octave-datatypes (= 1.1.8-2),
 octave-dev (= 10.3.0-3),
 octave-io (= 2.7.1-1),
 openssl (= 3.5.5-1),
 openssl-provider-legacy (= 3.5.5-1),
 patch (= 2.8-2),
 patchutils (= 0.4.3-1),
 perl (= 5.40.1-7),
 perl-base (= 5.40.1-7),
 perl-modules-5.40 (= 5.40.1-7),
 perl-openssl-defaults (= 7+b2),
 perltidy (= 20250105-1),
 pkgconf (= 2.5.1-4),
 pkgconf-bin (= 2.5.1-4),
 plzip (= 1.13~rc1-3),
 po-debconf (= 1.0.22),
 procps (= 2:4.0.4-9+b1),
 readline-common (= 8.3-4),
 rpcsvc-proto (= 1.4.3-1),
 sed (= 4.9-2),
 sensible-utils (= 0.0.26),
 shared-mime-info (= 2.4-5+b3),
 sysvinit-utils (= 3.15-6),
 t1utils (= 1.41-4),
 tar (= 1.35+dfsg-4),
 tex-common (= 6.20),
 texinfo (= 7.2-5),
 texinfo-lib (= 7.2-5),
 ucf (= 3.0052),
 unzip (= 6.0-29),
 util-linux (= 2.41.3-4),
 x11-common (= 1:7.7+26),
 x11proto-dev (= 2025.1-1),
 xkb-data (= 2.46-2),
 xorg-sgml-doctools (= 1:1.11-1.1),
 xtrans-dev (= 1.6.0-1),
 xz-utils (= 5.8.2-2),
 zlib1g (= 1:1.3.dfsg+really1.3.1-3),
 zlib1g-dev (= 1:1.3.dfsg+really1.3.1-3)
Environment:
 DEB_BUILD_OPTIONS="parallel=8"
 LANG="C.UTF-8"
 LC_COLLATE="C.UTF-8"
 LC_CTYPE="C.UTF-8"
 SOURCE_DATE_EPOCH="1771932468"


+------------------------------------------------------------------------------+
| Package contents                             Wed, 25 Feb 2026 03:20:38 +0000 |
+------------------------------------------------------------------------------+


octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
--------------------------------------------

 new Debian package, version 2.0.
 size 3277244 bytes: control archive=916 bytes.
     648 bytes,    12 lines      control
     841 bytes,     8 lines      md5sums
 Package: octave-statistics-dbgsym
 Source: octave-statistics
 Version: 1.8.1-3
 Auto-Built-Package: debug-symbols
 Architecture: ppc64el
 Maintainer: Debian Octave Group <team+pkg-octave-team@tracker.debian.org>
 Installed-Size: 3349
 Depends: octave-statistics (= 1.8.1-3)
 Section: debug
 Priority: optional
 Description: debug symbols for octave-statistics
 Build-Ids: 0e2b0cabd610c5744103032eac1a572d80fc6583 0e7bf6f69479713a946a0ad4ac0ef5d88d8071ee 1ca3a983a5d8aa17d0625cbe74287e19b190eaa6 1e901163115d4b885215461bb81c498fb0c71fb0 216398006e965953aa37bbabcf156b52f9fc99d0 2ae1bc202a444e023cdc2910ee349339319a962e e6503945eae5878eb37a17638bba692cf92efe9e

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drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/debug/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/debug/.build-id/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/debug/.build-id/0e/
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-rw-r--r-- root/root    428936 2026-02-24 11:27 ./usr/lib/debug/.build-id/2a/e1bc202a444e023cdc2910ee349339319a962e.debug
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/debug/.build-id/e6/
-rw-r--r-- root/root    674120 2026-02-24 11:27 ./usr/lib/debug/.build-id/e6/503945eae5878eb37a17638bba692cf92efe9e.debug
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/debug/.dwz/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/debug/.dwz/powerpc64le-linux-gnu/
-rw-r--r-- root/root    522104 2026-02-24 11:27 ./usr/lib/debug/.dwz/powerpc64le-linux-gnu/octave-statistics.debug
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/share/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/share/doc/
lrwxrwxrwx root/root         0 2026-02-24 11:27 ./usr/share/doc/octave-statistics-dbgsym -> octave-statistics


octave-statistics_1.8.1-3_ppc64el.deb
-------------------------------------

 new Debian package, version 2.0.
 size 146596 bytes: control archive=1224 bytes.
     847 bytes,    18 lines      control
    2285 bytes,    16 lines      md5sums
 Package: octave-statistics
 Version: 1.8.1-3
 Architecture: ppc64el
 Maintainer: Debian Octave Group <team+pkg-octave-team@tracker.debian.org>
 Installed-Size: 960
 Depends: libc6 (>= 2.38), libgcc-s1 (>= 3.0), libgomp1 (>= 4.9), libstdc++6 (>= 14), octave-abi-60, octave (>= 10.3.0), octave-datatypes (>= 1.1.8), octave-statistics-common (= 1.8.1-3)
 Section: math
 Priority: optional
 Homepage: https://gnu-octave.github.io/packages/statistics/
 Description: additional statistical functions for Octave
  This package provides additional statistical functions for Octave,
  including mean and variance for several distributions (geometric,
  hypergeometric, exponential, lognormal and others).
  .
  This Octave add-on package is part of the Octave-Forge project.
  .
  This package contains the architecture-dependent files for the
  Octave statistics package.

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drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/
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-rw-r--r-- root/root    133672 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/fcnnpredict.oct
-rw-r--r-- root/root      4428 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/fcnntrain.cc-tst
-rw-r--r-- root/root    133816 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/fcnntrain.oct
-rw-r--r-- root/root       561 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/libsvmread.cc-tst
-rw-r--r-- root/root     68192 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/libsvmread.oct
-rw-r--r-- root/root       888 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/libsvmwrite.cc-tst
-rw-r--r-- root/root     68048 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/libsvmwrite.oct
-rw-r--r-- root/root      2514 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/svmpredict.cc-tst
-rw-r--r-- root/root    199504 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/svmpredict.oct
-rw-r--r-- root/root      2618 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/svmtrain.cc-tst
-rw-r--r-- root/root    199512 2026-02-24 11:27 ./usr/lib/powerpc64le-linux-gnu/octave/packages/statistics-1.8.1/powerpc64le-unknown-linux-gnu-api-v60/svmtrain.oct
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/share/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/share/doc/
drwxr-xr-x root/root         0 2026-02-24 11:27 ./usr/share/doc/octave-statistics/
-rw-r--r-- root/root      4953 2026-02-24 11:27 ./usr/share/doc/octave-statistics/changelog.Debian.gz
-rw-r--r-- root/root      4673 2026-02-24 11:27 ./usr/share/doc/octave-statistics/copyright


+------------------------------------------------------------------------------+
| Post Build                                   Wed, 25 Feb 2026 03:20:40 +0000 |
+------------------------------------------------------------------------------+


+------------------------------------------------------------------------------+
| Cleanup                                      Wed, 25 Feb 2026 03:20:40 +0000 |
+------------------------------------------------------------------------------+

Purging /build/reproducible-path
Not cleaning session: cloned chroot in use

+------------------------------------------------------------------------------+
| Summary                                      Wed, 25 Feb 2026 03:20:42 +0000 |
+------------------------------------------------------------------------------+

Build Architecture: ppc64el
Build Type: any
Build-Space: 50080
Build-Time: 549
Distribution: unstable
Host Architecture: ppc64el
Install-Time: 4
Job: /srv/rebuilderd/tmp/rebuilderdybLdwX/inputs/octave-statistics_1.8.1-3.dsc
Machine Architecture: ppc64el
Package: octave-statistics
Package-Time: 564
Source-Version: 1.8.1-3
Space: 50080
Status: successful
Version: 1.8.1-3
--------------------------------------------------------------------------------
Finished at 2026-02-25T03:20:37Z
Build needed 00:09:24, 50080k disk space
build artifacts stored in /srv/rebuilderd/tmp/rebuilderdybLdwX/out
size differs for octave-statistics-dbgsym_1.8.1-3_ppc64el.deb
checking octave-statistics-dbgsym_1.8.1-3_ppc64el.deb: