=============================================================================== 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/rebuilderda268Qx/inputs/coq-elpi_3.2.0-3+b1_arm64.buildinfo Source: coq-elpi Version: 3.2.0-3 rebuilderd-worker node: codethink02-arm64 +------------------------------------------------------------------------------+ | Downloading sources Fri, 20 Feb 2026 12:39:38 +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/non-free-firmware Sources [6552 B] Get:10 https://deb.debian.org/debian trixie/main Sources [10.5 MB] Get:11 https://deb.debian.org/debian-security trixie-security/main Sources [136 kB] Get:12 https://deb.debian.org/debian-security trixie-security/non-free-firmware Sources [696 B] Get:13 https://deb.debian.org/debian trixie-updates/main Sources [2788 B] Get:14 https://deb.debian.org/debian trixie-proposed-updates/main Sources [70.2 kB] Get:15 https://deb.debian.org/debian trixie-backports/main Sources [144 kB] Get:16 https://deb.debian.org/debian trixie-backports/non-free-firmware Sources [2468 B] 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 [7700 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 [10.3 kB] Get:21 https://deb.debian.org/debian experimental/main Sources [397 kB] Get:22 https://deb.debian.org/debian experimental/non-free-firmware Sources [2572 B] Fetched 33.9 MB in 32s (1064 kB/s) Reading package lists... 'https://deb.debian.org/debian/pool/main/c/coq-elpi/coq-elpi_3.2.0-3.dsc' coq-elpi_3.2.0-3.dsc 2087 SHA256:ea1adbc9f0ccd66c297a69792e44eeda6b32fb6062319f935fd27636f512a889 'https://deb.debian.org/debian/pool/main/c/coq-elpi/coq-elpi_3.2.0.orig.tar.gz' coq-elpi_3.2.0.orig.tar.gz 766708 SHA256:eeb3ec04d57fb5c137b94e99fea590a2e56161158077502c74602fa2a5f62df1 'https://deb.debian.org/debian/pool/main/c/coq-elpi/coq-elpi_3.2.0-3.debian.tar.xz' coq-elpi_3.2.0-3.debian.tar.xz 3884 SHA256:9c4b95a939cafecd701c48e73f95262a9a249a6cfd601f52e8d4d66af749f71f eeb3ec04d57fb5c137b94e99fea590a2e56161158077502c74602fa2a5f62df1 coq-elpi_3.2.0.orig.tar.gz 9c4b95a939cafecd701c48e73f95262a9a249a6cfd601f52e8d4d66af749f71f coq-elpi_3.2.0-3.debian.tar.xz ea1adbc9f0ccd66c297a69792e44eeda6b32fb6062319f935fd27636f512a889 coq-elpi_3.2.0-3.dsc +------------------------------------------------------------------------------+ | Calling debrebuild Fri, 20 Feb 2026 12:40:10 +0000 | +------------------------------------------------------------------------------+ Rebuilding coq-elpi=3.2.0-3 in /srv/rebuilderd/tmp/rebuilderda268Qx/inputs now. + nice /usr/bin/debrebuild --buildresult=/srv/rebuilderd/tmp/rebuilderda268Qx/out --builder=sbuild+unshare --cache=/srv/rebuilderd/cache -- /srv/rebuilderd/tmp/rebuilderda268Qx/inputs/coq-elpi_3.2.0-3+b1_arm64.buildinfo /srv/rebuilderd/tmp/rebuilderda268Qx/inputs/coq-elpi_3.2.0-3+b1_arm64.buildinfo contains a GPG signature which has NOT been validated Using defined Build-Path: /build/reproducible-path/coq-elpi-3.2.0 I: verifying dsc... successful! Get:1 http://deb.debian.org/debian unstable InRelease [187 kB] Get:2 http://snapshot.debian.org/archive/debian/20260213T083951Z sid InRelease [187 kB] Get:3 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy InRelease [91.7 kB] Get:4 http://deb.debian.org/debian unstable/main arm64 Packages [10.1 MB] Get:5 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 Packages [10.1 MB] Get:6 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 Packages [533 kB] Fetched 21.1 MB in 2s (9131 kB/s) Reading package lists... W: http://snapshot.debian.org/archive/debian/20260213T083951Z/dists/sid/InRelease: Loading /etc/apt/trusted.gpg from deprecated option Dir::Etc::Trusted W: http://snapshot.debian.org/archive/debian/20260219T142510Z/dists/rc-buggy/InRelease: Loading /etc/apt/trusted.gpg from deprecated option Dir::Etc::Trusted Get:1 http://deb.debian.org/debian unstable/main arm64 intltool-debian all 0.35.0+20060710.6 [22.9 kB] Fetched 22.9 kB in 0s (1263 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmph7t32kri/intltool-debian_0.35.0+20060710.6_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 g++-15 arm64 15.2.0-13 [26.0 kB] Fetched 26.0 kB in 0s (1263 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnqw7inlc/g++-15_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libtsan2 arm64 15.2.0-13 [2399 kB] Fetched 2399 kB in 0s (90.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv5f35s41/libtsan2_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 autotools-dev all 20240727.1 [60.2 kB] Fetched 60.2 kB in 0s (2995 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptg3j7xo3/autotools-dev_20240727.1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libc-gconv-modules-extra arm64 2.42-13 [1147 kB] Fetched 1147 kB in 0s (50.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp49dud2gp/libc-gconv-modules-extra_2.42-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 man-db arm64 2.13.1-1+b1 [1455 kB] Fetched 1455 kB in 0s (53.1 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpp_gidy2l/man-db_2.13.1-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libatomic1 arm64 15.2.0-13 [9892 B] Fetched 9892 B in 0s (490 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjcq690ro/libatomic1_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgmpxx4ldbl arm64 2:6.3.0+dfsg-5+b1 [329 kB] Fetched 329 kB in 0s (13.2 MB/s) dpkg-name: info: moved 'libgmpxx4ldbl_2%3a6.3.0+dfsg-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmp4xmvrwsq/libgmpxx4ldbl_6.3.0+dfsg-5+b1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libbinutils arm64 2.46-1 [684 kB] Fetched 684 kB in 0s (29.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3kesrux8/libbinutils_2.46-1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 libcoq-stdlib arm64 9.0.0-3+b1 [19.5 MB] Fetched 19.5 MB in 0s (107 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg45zwb_2/libcoq-stdlib_9.0.0-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libconfig-tiny-perl all 2.30-1 [18.9 kB] Fetched 18.9 kB in 0s (1010 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0zkedwgd/libconfig-tiny-perl_2.30-1_all.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 tar arm64 1.35+dfsg-3.1+b1 [803 kB] Fetched 803 kB in 0s (38.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgr2fwyu4/tar_1.35+dfsg-3.1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libppx-optcomp-ocaml arm64 1:0.17.1-1+b3 [126 kB] Fetched 126 kB in 0s (6462 kB/s) dpkg-name: info: moved 'libppx-optcomp-ocaml_1%3a0.17.1-1+b3_arm64.deb' to '/srv/rebuilderd/tmp/tmpi2v8cf9n/libppx-optcomp-ocaml_0.17.1-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 bsdextrautils arm64 2.41.3-3 [97.7 kB] Fetched 97.7 kB in 0s (4911 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpw2u9rk7d/bsdextrautils_2.41.3-3_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 libcoq-core-ocaml-dev arm64 9.1.0+dfsg-3+b2 [54.1 MB] Fetched 54.1 MB in 2s (29.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpglgdk7ir/libcoq-core-ocaml-dev_9.1.0+dfsg-3+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpam-runtime all 1.7.0-5 [249 kB] Fetched 249 kB in 0s (11.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0iw_dawk/libpam-runtime_1.7.0-5_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 diffutils arm64 1:3.12-1+b1 [398 kB] Fetched 398 kB in 0s (19.9 MB/s) dpkg-name: info: moved 'diffutils_1%3a3.12-1+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmpqzmt0q1q/diffutils_3.12-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 autopoint all 0.23.2-1 [772 kB] Fetched 772 kB in 0s (41.4 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprm0tg6xb/autopoint_0.23.2-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgmp-dev arm64 2:6.3.0+dfsg-5+b1 [633 kB] Fetched 633 kB in 0s (29.8 MB/s) dpkg-name: info: moved 'libgmp-dev_2%3a6.3.0+dfsg-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmp5b7iyf4x/libgmp-dev_6.3.0+dfsg-5+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dh-autoreconf all 21+nmu1 [11.7 kB] Fetched 11.7 kB in 0s (636 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm9zxaiui/dh-autoreconf_21+nmu1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libfile-stripnondeterminism-perl all 1.15.0-1 [19.9 kB] Fetched 19.9 kB in 0s (1079 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9xcho5xz/libfile-stripnondeterminism-perl_1.15.0-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libdebconfclient0 arm64 0.282+b2 [11.3 kB] Fetched 11.3 kB in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0ms2gt5u/libdebconfclient0_0.282+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ncurses-bin arm64 6.6+20251231-1 [438 kB] Fetched 438 kB in 0s (25.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7kggax61/ncurses-bin_6.6+20251231-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 python3.13 arm64 3.13.12-1 [776 kB] Fetched 776 kB in 0s (26.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3pws0rky/python3.13_3.13.12-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 bzip2 arm64 1.0.8-6+b1 [39.7 kB] Fetched 39.7 kB in 0s (1891 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf6huklfl/bzip2_1.0.8-6+b1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 bash arm64 5.3-1+b1 [1504 kB] Fetched 1504 kB in 0s (54.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphlj_k887/bash_5.3-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libcc1-0 arm64 15.2.0-13 [41.3 kB] Fetched 41.3 kB in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmplsn4xgno/libcc1-0_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libcap2 arm64 1:2.75-10+b5 [28.2 kB] Fetched 28.2 kB in 0s (1410 kB/s) dpkg-name: info: moved 'libcap2_1%3a2.75-10+b5_arm64.deb' to '/srv/rebuilderd/tmp/tmptai2t1so/libcap2_2.75-10+b5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libfindlib-ocaml arm64 1.9.8-1+b3 [198 kB] Fetched 198 kB in 0s (8790 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_79q1k65/libfindlib-ocaml_1.9.8-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libsystemd0 arm64 259.1-1 [430 kB] Fetched 430 kB in 0s (23.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbqi9alxj/libsystemd0_259.1-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gcc-aarch64-linux-gnu arm64 4:15.2.0-5 [1432 B] Fetched 1432 B in 0s (0 B/s) dpkg-name: info: moved 'gcc-aarch64-linux-gnu_4%3a15.2.0-5_arm64.deb' to '/srv/rebuilderd/tmp/tmp67lojiv7/gcc-aarch64-linux-gnu_15.2.0-5_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 linux-libc-dev all 6.18.9-1 [2569 kB] Fetched 2569 kB in 0s (82.1 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpt04a2o1c/linux-libc-dev_6.18.9-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libocaml-intrinsics-kernel-ocaml arm64 0.17.1-1+b3 [31.8 kB] Fetched 31.8 kB in 0s (1624 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2f_66c4_/libocaml-intrinsics-kernel-ocaml_0.17.1-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 init-system-helpers all 1.69 [39.3 kB] Fetched 39.3 kB in 0s (2124 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg1mdy36p/init-system-helpers_1.69_all.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 binutils-common arm64 2.46-1 [2632 kB] Fetched 2632 kB in 0s (132 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf2u4987w/binutils-common_2.46-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 sysvinit-utils arm64 3.15-6+b1 [35.2 kB] Fetched 35.2 kB in 0s (1808 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6sgc330u/sysvinit-utils_3.15-6+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dpkg-dev all 1.23.5 [1318 kB] Fetched 1318 kB in 0s (45.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnwk74l1a/dpkg-dev_1.23.5_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libppx-derivers-ocaml-dev arm64 1.2.1-4+b5 [17.3 kB] Fetched 17.3 kB in 0s (890 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptr45l_it/libppx-derivers-ocaml-dev_1.2.1-4+b5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 sed arm64 4.9-2+b2 [326 kB] Fetched 326 kB in 0s (16.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdkbsvn3r/sed_4.9-2+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpam-modules-bin arm64 1.7.0-5+b1 [48.0 kB] Fetched 48.0 kB in 0s (2197 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpy3qmcxkb/libpam-modules-bin_1.7.0-5+b1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 zlib1g arm64 1:1.3.dfsg+really1.3.1-2 [85.9 kB] Fetched 85.9 kB in 0s (4595 kB/s) dpkg-name: info: moved 'zlib1g_1%3a1.3.dfsg+really1.3.1-2_arm64.deb' to '/srv/rebuilderd/tmp/tmpgfia50x1/zlib1g_1.3.dfsg+really1.3.1-2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libcompiler-libs-ocaml-dev arm64 5.4.0-3 [39.3 MB] Fetched 39.3 MB in 0s (117 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc6x70u79/libcompiler-libs-ocaml-dev_5.4.0-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ocaml-base arm64 5.4.0-3 [497 kB] Fetched 497 kB in 0s (24.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpjbw89h4r/ocaml-base_5.4.0-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libitm1 arm64 15.2.0-13 [24.2 kB] Fetched 24.2 kB in 0s (1315 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2k_stl6o/libitm1_15.2.0-13_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 coq arm64 9.1.0+dfsg-3+b2 [43.7 MB] Fetched 43.7 MB in 0s (125 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkmxief0n/coq_9.1.0+dfsg-3+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 python3.13-minimal arm64 3.13.12-1 [2070 kB] Fetched 2070 kB in 0s (63.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc2hm4zfl/python3.13-minimal_3.13.12-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libsexplib0-ocaml arm64 0.17.0-1+b3 [119 kB] Fetched 119 kB in 0s (6009 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcug2ct_6/libsexplib0-ocaml_0.17.0-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dh-ocaml all 2.5 [62.9 kB] Fetched 62.9 kB in 0s (1903 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpu3iwsmzt/dh-ocaml_2.5_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libre-ocaml-dev arm64 1.14.0-1+b1 [1358 kB] Fetched 1358 kB in 0s (42.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxxdaju27/libre-ocaml-dev_1.14.0-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgmp3-dev arm64 2:6.3.0+dfsg-5+b1 [322 kB] Fetched 322 kB in 0s (15.7 MB/s) dpkg-name: info: moved 'libgmp3-dev_2%3a6.3.0+dfsg-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmp1srdopf2/libgmp3-dev_6.3.0+dfsg-5+b1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 libcoq-core-ocaml arm64 9.1.0+dfsg-3+b2 [25.4 MB] Fetched 25.4 MB in 0s (159 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp26js1jqf/libcoq-core-ocaml_9.1.0+dfsg-3+b2_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 binutils-aarch64-linux-gnu arm64 2.46-1 [861 kB] Fetched 861 kB in 0s (31.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpdocdy2tq/binutils-aarch64-linux-gnu_2.46-1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 libelpi-ocaml-dev arm64 3.4.3-1+b2 [15.2 MB] Fetched 15.2 MB in 0s (150 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2pl0o72n/libelpi-ocaml-dev_3.4.3-1+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 python3-minimal arm64 3.13.9-3 [27.6 kB] Fetched 27.6 kB in 0s (1392 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0om_49gp/python3-minimal_3.13.9-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 cpp arm64 4:15.2.0-5 [1564 B] Fetched 1564 B in 0s (97.5 kB/s) dpkg-name: info: moved 'cpp_4%3a15.2.0-5_arm64.deb' to '/srv/rebuilderd/tmp/tmpn4j_r3td/cpp_15.2.0-5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libocaml-compiler-libs-ocaml-dev arm64 0.17.0-2 [92.5 kB] Fetched 92.5 kB in 0s (4689 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0jy9bwoq/libocaml-compiler-libs-ocaml-dev_0.17.0-2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libbz2-1.0 arm64 1.0.8-6+b1 [37.1 kB] Fetched 37.1 kB in 0s (1970 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnzfn6wde/libbz2-1.0_1.0.8-6+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libppxlib-ocaml-dev arm64 0.37.0-1+b2 [18.6 MB] Fetched 18.6 MB in 0s (179 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8b_2mcd1/libppxlib-ocaml-dev_0.37.0-1+b2_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libgprofng0 arm64 2.46-1 [676 kB] Fetched 676 kB in 0s (32.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpusj8tkz_/libgprofng0_2.46-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpython3.13-minimal arm64 3.13.12-1 [860 kB] Fetched 860 kB in 0s (42.4 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpc4erp9o2/libpython3.13-minimal_3.13.12-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libstdio-ocaml-dev arm64 0.17.0-1+b3 [70.1 kB] Fetched 70.1 kB in 0s (3483 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8djz53r3/libstdio-ocaml-dev_0.17.0-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmagic-mgc arm64 1:5.46-5+b1 [338 kB] Fetched 338 kB in 0s (13.4 MB/s) dpkg-name: info: moved 'libmagic-mgc_1%3a5.46-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmpqjpn5x_3/libmagic-mgc_5.46-5+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpcre2-8-0 arm64 10.46-1+b1 [260 kB] Fetched 260 kB in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_qfmbour/libpcre2-8-0_10.46-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libaudit1 arm64 1:4.1.2-1+b1 [59.7 kB] Fetched 59.7 kB in 0s (2983 kB/s) dpkg-name: info: moved 'libaudit1_1%3a4.1.2-1+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmphyco1r3m/libaudit1_4.1.2-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmpc3 arm64 1.3.1-2+b1 [49.8 kB] Fetched 49.8 kB in 0s (2690 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx0p8gk3f/libmpc3_1.3.1-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libsmartcols1 arm64 2.41.3-3 [139 kB] Fetched 139 kB in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptqflb9wb/libsmartcols1_2.41.3-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libppx-deriving-ocaml arm64 6.1.1-1+b3 [4950 kB] Fetched 4950 kB in 0s (96.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4rz6krw3/libppx-deriving-ocaml_6.1.1-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libaudit-common all 1:4.1.2-1 [14.3 kB] Fetched 14.3 kB in 0s (779 kB/s) dpkg-name: info: moved 'libaudit-common_1%3a4.1.2-1_all.deb' to '/srv/rebuilderd/tmp/tmpf_0epnh1/libaudit-common_4.1.2-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libstdc++6 arm64 15.2.0-13 [647 kB] Fetched 647 kB in 0s (31.1 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9qcegi71/libstdc++6_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpam-modules arm64 1.7.0-5+b1 [172 kB] Fetched 172 kB in 0s (9081 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfxkcrol7/libpam-modules_1.7.0-5+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgcc-15-dev arm64 15.2.0-13 [2374 kB] Fetched 2374 kB in 0s (72.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpf256rpyb/libgcc-15-dev_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libbase-ocaml-dev arm64 0.17.3-1+b2 [7404 kB] Fetched 7404 kB in 0s (105 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1tamodss/libbase-ocaml-dev_0.17.3-1+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libjansson4 arm64 2.14-2+b4 [38.9 kB] Fetched 38.9 kB in 0s (2088 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp01syjszt/libjansson4_2.14-2+b4_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libasan8 arm64 15.2.0-13 [2601 kB] Fetched 2601 kB in 0s (73.2 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp34he3mdo/libasan8_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libssl3t64 arm64 3.5.5-1 [2731 kB] Fetched 2731 kB in 0s (75.1 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0i7j7km3/libssl3t64_3.5.5-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libstdc++-15-dev arm64 15.2.0-13 [2350 kB] Fetched 2350 kB in 0s (76.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbs33sbds/libstdc++-15-dev_15.2.0-13_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libsframe3 arm64 2.46-1 [84.6 kB] Fetched 84.6 kB in 0s (3687 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpt0p3b5nn/libsframe3_2.46-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libcrypt1 arm64 1:4.5.1-1 [93.9 kB] Fetched 93.9 kB in 0s (5025 kB/s) dpkg-name: info: moved 'libcrypt1_1%3a4.5.1-1_arm64.deb' to '/srv/rebuilderd/tmp/tmpg8bz2vsb/libcrypt1_4.5.1-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libncurses6 arm64 6.6+20251231-1 [96.7 kB] Fetched 96.7 kB in 0s (5603 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeo05uea0/libncurses6_6.6+20251231-1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libctf-nobfd0 arm64 2.46-1 [154 kB] Fetched 154 kB in 0s (8093 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpeu_zypd6/libctf-nobfd0_2.46-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpython3-stdlib arm64 3.13.9-3 [10.5 kB] Fetched 10.5 kB in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_ohs1jm_/libpython3-stdlib_3.13.9-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 sensible-utils all 0.0.26 [27.0 kB] Fetched 27.0 kB in 0s (1299 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwartj0t4/sensible-utils_0.0.26_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 make arm64 4.4.1-3+b1 [454 kB] Fetched 454 kB in 0s (22.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpapwphvqz/make_4.4.1-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 liblzma5 arm64 5.8.2-2 [320 kB] Fetched 320 kB in 0s (13.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkg4zs7ne/liblzma5_5.8.2-2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dh-strip-nondeterminism all 1.15.0-1 [8812 B] Fetched 8812 B in 0s (483 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmph03p31xj/dh-strip-nondeterminism_1.15.0-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 grep arm64 3.12-1+b1 [440 kB] Fetched 440 kB in 0s (22.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpaf7p49hm/grep_3.12-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 perl-modules-5.40 all 5.40.1-7 [3012 kB] Fetched 3012 kB in 0s (75.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8aqx3bjp/perl-modules-5.40_5.40.1-7_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dwz arm64 0.16-2+b1 [100 kB] Fetched 100 kB in 0s (4964 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpi0goe5tu/dwz_0.16-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 perl-base arm64 5.40.1-7 [1528 kB] Fetched 1528 kB in 0s (107 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpb2tl8vhe/perl-base_5.40.1-7_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpam0g arm64 1.7.0-5+b1 [68.7 kB] Fetched 68.7 kB in 0s (4891 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7lv6zisf/libpam0g_1.7.0-5+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 util-linux arm64 2.41.3-3 [1123 kB] Fetched 1123 kB in 0s (49.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8sdcsc6g/util-linux_2.41.3-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgomp1 arm64 15.2.0-13 [126 kB] Fetched 126 kB in 0s (6454 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzeadz143/libgomp1_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmenhir-ocaml-dev arm64 20250912+ds-1+b1 [668 kB] Fetched 668 kB in 0s (27.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp5e7m_j6y/libmenhir-ocaml-dev_20250912+ds-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ocaml-dune arm64 3.20.2-3+b2 [5681 kB] Fetched 5681 kB in 0s (86.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpernwuv8s/ocaml-dune_3.20.2-3+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libelf1t64 arm64 0.194-1 [184 kB] Fetched 184 kB in 0s (9713 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbxd3bf8i/libelf1t64_0.194-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libhwasan0 arm64 15.2.0-13 [1479 kB] Fetched 1479 kB in 0s (59.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpug62y5fm/libhwasan0_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libuuid1 arm64 2.41.3-3 [38.2 kB] Fetched 38.2 kB in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyexxjcqz/libuuid1_2.41.3-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 xz-utils arm64 5.8.2-2 [703 kB] Fetched 703 kB in 0s (31.1 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx3a8k36o/xz-utils_5.8.2-2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 media-types all 14.0.0 [30.8 kB] Fetched 30.8 kB in 0s (1635 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpubtnk0od/media-types_14.0.0_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmount1 arm64 2.41.3-3 [199 kB] Fetched 199 kB in 0s (10.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3vd3e8sz/libmount1_2.41.3-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmpfr6 arm64 4.2.2-2+b1 [692 kB] Fetched 692 kB in 0s (29.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp78foc9_u/libmpfr6_4.2.2-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libsexplib0-ocaml-dev arm64 0.17.0-1+b3 [274 kB] Fetched 274 kB in 0s (12.4 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptn9914u6/libsexplib0-ocaml-dev_0.17.0-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libncursesw6 arm64 6.6+20251231-1 [125 kB] Fetched 125 kB in 0s (6090 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2hd79ooh/libncursesw6_6.6+20251231-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libcap-ng0 arm64 0.8.5-4+b2 [17.0 kB] Fetched 17.0 kB in 0s (923 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpuci_7w9f/libcap-ng0_0.8.5-4+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libzarith-ocaml-dev arm64 1.14-1+b4 [109 kB] Fetched 109 kB in 0s (5759 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqewlamh5/libzarith-ocaml-dev_1.14-1+b4_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libexpat1 arm64 2.7.4-1 [101 kB] Fetched 101 kB in 0s (5292 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2ykvy1ak/libexpat1_2.7.4-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 debhelper all 13.30 [942 kB] Fetched 942 kB in 0s (36.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgfkx9b0a/debhelper_13.30_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 perl arm64 5.40.1-7 [267 kB] Fetched 267 kB in 0s (14.4 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpleosazff/perl_5.40.1-7_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libselinux1 arm64 3.9-4+b1 [80.8 kB] Fetched 80.8 kB in 0s (3899 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpnnijr0i4/libselinux1_3.9-4+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libunistring5 arm64 1.3-2+b1 [459 kB] Fetched 459 kB in 0s (36.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2u069un9/libunistring5_1.3-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 m4 arm64 1.4.21-1 [323 kB] Fetched 323 kB in 0s (19.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpl1808i_f/m4_1.4.21-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libarchive-zip-perl all 1.68-1 [104 kB] Fetched 104 kB in 0s (4367 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa8fwkzoj/libarchive-zip-perl_1.68-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 tzdata all 2025c-3 [263 kB] Fetched 263 kB in 0s (11.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp8_wk2c_g/tzdata_2025c-3_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 debianutils arm64 5.23.2+b1 [92.6 kB] Fetched 92.6 kB in 0s (5272 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpixkiskdu/debianutils_5.23.2+b1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libacl1 arm64 2.3.2-2+b2 [32.0 kB] Fetched 32.0 kB in 0s (1687 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp302b_kon/libacl1_2.3.2-2+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 liblsan0 arm64 15.2.0-13 [1194 kB] Fetched 1194 kB in 0s (48.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpa8a54e7b/liblsan0_15.2.0-13_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 debconf all 1.5.91 [121 kB] Fetched 121 kB in 0s (6660 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxxeatndf/debconf_1.5.91_all.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 libelpi-ocaml arm64 3.4.3-1+b2 [4153 kB] Fetched 4153 kB in 0s (81.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqwg017ca/libelpi-ocaml_3.4.3-1+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libppx-deriving-ocaml-dev arm64 6.1.1-1+b3 [1037 kB] Fetched 1037 kB in 0s (38.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcw0gg7b1/libppx-deriving-ocaml-dev_6.1.1-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ncurses-base all 6.6+20251231-1 [277 kB] Fetched 277 kB in 0s (14.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmppcnmmvhn/ncurses-base_6.6+20251231-1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libsqlite3-0 arm64 3.46.1-9 [854 kB] Fetched 854 kB in 0s (32.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcu_jfdkh/libsqlite3-0_3.46.1-9_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gcc-15 arm64 15.2.0-13 [524 kB] Fetched 524 kB in 0s (25.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp9t6ooni9/gcc-15_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gzip arm64 1.13-1+b1 [135 kB] Fetched 135 kB in 0s (6143 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpzdlvwztm/gzip_1.13-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 base-files arm64 14 [72.9 kB] Fetched 72.9 kB in 0s (4048 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpooiidtmc/base-files_14_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 netbase all 6.5 [12.4 kB] Fetched 12.4 kB in 0s (555 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx0fujo4j/netbase_6.5_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libzstd1 arm64 1.5.7+dfsg-3+b1 [261 kB] Fetched 261 kB in 0s (12.2 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkq8hbiqs/libzstd1_1.5.7+dfsg-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgcc-s1 arm64 15.2.0-13 [53.5 kB] Fetched 53.5 kB in 0s (2509 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprto596wk/libgcc-s1_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libstdlib-ocaml arm64 5.4.0-3 [587 kB] Fetched 587 kB in 0s (24.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp81aai6jd/libstdlib-ocaml_5.4.0-3_arm64.deb' Downloading dependency 1 of 201: intltool-debian:arm64=0.35.0+20060710.6 Downloading dependency 2 of 201: g++-15:arm64=15.2.0-13 Downloading dependency 3 of 201: libtsan2:arm64=15.2.0-13 Downloading dependency 4 of 201: autotools-dev:arm64=20240727.1 Downloading dependency 5 of 201: libc-gconv-modules-extra:arm64=2.42-13 Downloading dependency 6 of 201: man-db:arm64=2.13.1-1+b1 Downloading dependency 7 of 201: libatomic1:arm64=15.2.0-13 Downloading dependency 8 of 201: libgmpxx4ldbl:arm64=2:6.3.0+dfsg-5+b1 Downloading dependency 9 of 201: libbinutils:arm64=2.46-1 Downloading dependency 10 of 201: libcoq-stdlib:arm64=9.0.0-3+b1 Downloading dependency 11 of 201: libconfig-tiny-perl:arm64=2.30-1 Downloading dependency 12 of 201: tar:arm64=1.35+dfsg-3.1+b1 Downloading dependency 13 of 201: libppx-optcomp-ocaml:arm64=1:0.17.1-1+b3 Downloading dependency 14 of 201: bsdextrautils:arm64=2.41.3-3 Downloading dependency 15 of 201: libcoq-core-ocaml-dev:arm64=9.1.0+dfsg-3+b2 Downloading dependency 16 of 201: libpam-runtime:arm64=1.7.0-5 Downloading dependency 17 of 201: diffutils:arm64=1:3.12-1+b1 Downloading dependency 18 of 201: autopoint:arm64=0.23.2-1 Downloading dependency 19 of 201: libgmp-dev:arm64=2:6.3.0+dfsg-5+b1 Downloading dependency 20 of 201: dh-autoreconf:arm64=21+nmu1 Downloading dependency 21 of 201: libfile-stripnondeterminism-perl:arm64=1.15.0-1 Downloading dependency 22 of 201: libdebconfclient0:arm64=0.282+b2 Downloading dependency 23 of 201: ncurses-bin:arm64=6.6+20251231-1 Downloading dependency 24 of 201: python3.13:arm64=3.13.12-1 Downloading dependency 25 of 201: bzip2:arm64=1.0.8-6+b1 Downloading dependency 26 of 201: bash:arm64=5.3-1+b1 Downloading dependency 27 of 201: libcc1-0:arm64=15.2.0-13 Downloading dependency 28 of 201: libcap2:arm64=1:2.75-10+b5 Downloading dependency 29 of 201: libfindlib-ocaml:arm64=1.9.8-1+b3 Downloading dependency 30 of 201: libsystemd0:arm64=259.1-1 Downloading dependency 31 of 201: gcc-aarch64-linux-gnu:arm64=4:15.2.0-5 Downloading dependency 32 of 201: linux-libc-dev:arm64=6.18.9-1 Downloading dependency 33 of 201: libocaml-intrinsics-kernel-ocaml:arm64=0.17.1-1+b3 Downloading dependency 34 of 201: init-system-helpers:arm64=1.69 Downloading dependency 35 of 201: binutils-common:arm64=2.46-1 Downloading dependency 36 of 201: sysvinit-utils:arm64=3.15-6+b1 Downloading dependency 37 of 201: dpkg-dev:arm64=1.23.5 Downloading dependency 38 of 201: libppx-derivers-ocaml-dev:arm64=1.2.1-4+b5 Downloading dependency 39 of 201: sed:arm64=4.9-2+b2 Downloading dependency 40 of 201: libpam-modules-bin:arm64=1.7.0-5+b1 Downloading dependency 41 of 201: zlib1g:arm64=1:1.3.dfsg+really1.3.1-2 Downloading dependency 42 of 201: libcompiler-libs-ocaml-dev:arm64=5.4.0-3 Downloading dependency 43 of 201: ocaml-base:arm64=5.4.0-3 Downloading dependency 44 of 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201: libgprofng0:arm64=2.46-1 Downloading dependency 60 of 201: libpython3.13-minimal:arm64=3.13.12-1 Downloading dependency 61 of 201: libstdio-ocaml-dev:arm64=0.17.0-1+b3 Downloading dependency 62 of 201: libmagic-mgc:arm64=1:5.46-5+b1 Downloading dependency 63 of 201: libpcre2-8-0:arm64=10.46-1+b1 Downloading dependency 64 of 201: libaudit1:arm64=1:4.1.2-1+b1 Downloading dependency 65 of 201: libmpc3:arm64=1.3.1-2+b1 Downloading dependency 66 of 201: libsmartcols1:arm64=2.41.3-3 Downloading dependency 67 of 201: libppx-deriving-ocaml:arm64=6.1.1-1+b3 Downloading dependency 68 of 201: libaudit-common:arm64=1:4.1.2-1 Downloading dependency 69 of 201: libstdc++6:arm64=15.2.0-13 Downloading dependency 70 of 201: libpam-modules:arm64=1.7.0-5+b1 Downloading dependency 71 of 201: libgcc-15-dev:arm64=15.2.0-13 Downloading dependency 72 of 201: libbase-ocaml-dev:arm64=0.17.3-1+b2 Downloading dependency 73 of 201: libjansson4:arm64=2.14-2+b4 Downloading dependency 74 of 201: libasan8:arm64=15.2.0-13 Downloading dependency 75 of 201: libssl3t64:arm64=3.5.5-1 Downloading dependency 76 of 201: libstdc++-15-dev:arm64=15.2.0-13 Downloading dependency 77 of 201: libsframe3:arm64=2.46-1 Downloading dependency 78 of 201: libcrypt1:arm64=1:4.5.1-1 Downloading dependency 79 of 201: libncurses6:arm64=6.6+20251231-1 Downloading dependency 80 of 201: libctf-nobfd0:arm64=2.46-1 Downloading dependency 81 of 201: libpython3-stdlib:arm64=3.13.9-3 Downloading dependency 82 of 201: sensible-utils:arm64=0.0.26 Downloading dependency 83 of 201: make:arm64=4.4.1-3+b1 Downloading dependency 84 of 201: liblzma5:arm64=5.8.2-2 Downloading dependency 85 of 201: dh-strip-nondeterminism:arm64=1.15.0-1 Downloading dependency 86 of 201: grep:arm64=3.12-1+b1 Downloading dependency 87 of 201: perl-modules-5.40:arm64=5.40.1-7 Downloading dependency 88 of 201: dwz:arm64=0.16-2+b1 Downloading dependency 89 of 201: perl-base:arm64=5.40.1-7 Downloading dependency 90 of 201: 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106 of 201: libexpat1:arm64=2.7.4-1 Downloading dependency 107 of 201: debhelper:arm64=13.30 Downloading dependency 108 of 201: perl:arm64=5.40.1-7 Downloading dependency 109 of 201: libselinux1:arm64=3.9-4+b1 Downloading dependency 110 of 201: libunistring5:arm64=1.3-2+b1 Downloading dependency 111 of 201: m4:arm64=1.4.21-1 Downloading dependency 112 of 201: libarchive-zip-perl:arm64=1.68-1 Downloading dependency 113 of 201: tzdata:arm64=2025c-3 Downloading dependency 114 of 201: debianutils:arm64=5.23.2+b1 Downloading dependency 115 of 201: libacl1:arm64=2.3.2-2+b2 Downloading dependency 116 of 201: liblsan0:arm64=15.2.0-13 Downloading dependency 117 of 201: debconf:arm64=1.5.91 Downloading dependency 118 of 201: libelpi-ocaml:arm64=3.4.3-1+b2 Downloading dependency 119 of 201: libppx-deriving-ocaml-dev:arm64=6.1.1-1+b3 Downloading dependency 120 of 201: ncurses-base:arm64=6.6+20251231-1 Downloading dependency 121 of 201: libsqlite3-0:arm64=3.46.1-9 Downloading dependency 122 of 201: gcc-15:arm64=15.2.0-13 Downloading dependency 123 of 201: gzip:arm64=1.13-1+b1 Downloading dependency 124 of 201: base-files:arm64=14 Downloading dependency 125 of 201: netbase:arm64=6.5 Downloading dependency 126 of 201: libzstd1:arm64=1.5.7+dfsg-3+b1 Downloading dependency 127 of 201: libgcc-s1:arm64=15.2.0-13 Downloading dependency 128 of 201: libstdlib-ocaml:arm64=5.4.0-3 Downloading dependency 129 of 201: libc6:arm64=2.42-13Get:1 http://deb.debian.org/debian unstable/main arm64 libc6 arm64 2.42-13 [1410 kB] Fetched 1410 kB in 0s (46.2 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp2y4xvp9e/libc6_2.42-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dash arm64 0.5.12-12+b1 [95.6 kB] Fetched 95.6 kB in 0s (5096 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwlr341q6/dash_0.5.12-12+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libdebhelper-perl all 13.30 [92.7 kB] Fetched 92.7 kB in 0s (4982 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpsig49y74/libdebhelper-perl_13.30_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libperl5.40 arm64 5.40.1-7 [4134 kB] Fetched 4134 kB in 0s (104 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcqudgexy/libperl5.40_5.40.1-7_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libocaml-intrinsics-kernel-ocaml-dev arm64 0.17.1-1+b3 [59.3 kB] Fetched 59.3 kB in 0s (2309 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6zm5k6pt/libocaml-intrinsics-kernel-ocaml-dev_0.17.1-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 python3 arm64 3.13.9-3 [27.6 kB] Fetched 27.6 kB in 0s (1314 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4deu8mr3/python3_3.13.9-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 findutils arm64 4.10.0-3+b1 [695 kB] Fetched 695 kB in 0s (31.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmprwmn0oz8/findutils_4.10.0-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libtinfo6 arm64 6.6+20251231-1 [346 kB] Fetched 346 kB in 0s (13.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp56odh0jc/libtinfo6_6.6+20251231-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libncurses-dev arm64 6.6+20251231-1 [343 kB] Fetched 343 kB in 0s (33.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp88ih2zrj/libncurses-dev_6.6+20251231-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmd0 arm64 1.1.0-2+b2 [32.1 kB] Fetched 32.1 kB in 0s (1985 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp4ywr4qg2/libmd0_1.1.0-2+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libtool all 2.5.4-9 [540 kB] Fetched 540 kB in 0s (28.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpk0dk9y4b/libtool_2.5.4-9_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 autoconf all 2.72-3.1 [494 kB] Fetched 494 kB in 0s (47.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcc602mw1/autoconf_2.72-3.1_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gettext-base arm64 0.23.2-1 [242 kB] Fetched 242 kB in 0s (13.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvs9s9sl6/gettext-base_0.23.2-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 rpcsvc-proto arm64 1.4.3-1+b2 [60.1 kB] Fetched 60.1 kB in 0s (3226 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpmeq9vhd0/rpcsvc-proto_1.4.3-1+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 readline-common all 8.3-4 [74.8 kB] Fetched 74.8 kB in 0s (3429 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcd5a5s3_/readline-common_8.3-4_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libppx-optcomp-ocaml-dev arm64 1:0.17.1-1+b3 [262 kB] Fetched 262 kB in 0s (13.1 MB/s) dpkg-name: info: moved 'libppx-optcomp-ocaml-dev_1%3a0.17.1-1+b3_arm64.deb' to '/srv/rebuilderd/tmp/tmpsxqztfrj/libppx-optcomp-ocaml-dev_0.17.1-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 hostname arm64 3.25+b1 [11.2 kB] Fetched 11.2 kB in 0s (639 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps179x3xo/hostname_3.25+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 g++ arm64 4:15.2.0-5 [1332 B] Fetched 1332 B in 0s (57.0 kB/s) dpkg-name: info: moved 'g++_4%3a15.2.0-5_arm64.deb' to '/srv/rebuilderd/tmp/tmpz292xjf4/g++_15.2.0-5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libffi8 arm64 3.5.2-3+b1 [23.3 kB] Fetched 23.3 kB in 0s (1266 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpt92yv8sc/libffi8_3.5.2-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 file arm64 1:5.46-5+b1 [44.0 kB] Fetched 44.0 kB in 0s (2614 kB/s) dpkg-name: info: moved 'file_1%3a5.46-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmpr7smzyyo/file_5.46-5+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libbase-ocaml arm64 0.17.3-1+b2 [2735 kB] Fetched 2735 kB in 0s (126 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp0zdfbhoh/libbase-ocaml_0.17.3-1+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libdb5.3t64 arm64 5.3.28+dfsg2-11 [626 kB] Fetched 626 kB in 0s (46.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpvffx6hsm/libdb5.3t64_5.3.28+dfsg2-11_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gcc-15-base arm64 15.2.0-13 [54.8 kB] Fetched 54.8 kB in 0s (2676 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6luc1y57/gcc-15-base_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ocaml-findlib arm64 1.9.8-1+b3 [659 kB] Fetched 659 kB in 0s (25.4 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyg8qj8ks/ocaml-findlib_1.9.8-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 build-essential arm64 12.12 [4624 B] Fetched 4624 B in 0s (329 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp3se0xyf4/build-essential_12.12_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpython3.13-stdlib arm64 3.13.12-1 [1908 kB] Fetched 1908 kB in 0s (51.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyy1mc7d6/libpython3.13-stdlib_3.13.12-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 automake all 1:1.18.1-3 [878 kB] Fetched 878 kB in 0s (37.3 MB/s) dpkg-name: info: moved 'automake_1%3a1.18.1-3_all.deb' to '/srv/rebuilderd/tmp/tmprpfaf6fd/automake_1.18.1-3_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 cpp-15 arm64 15.2.0-13 [1276 B] Fetched 1276 B in 0s (0 B/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1e03ysxt/cpp-15_15.2.0-13_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 dh-coq all 0.15 [7032 B] Fetched 7032 B in 0s (377 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1y7q56ma/dh-coq_0.15_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 po-debconf all 1.0.22 [216 kB] Fetched 216 kB in 0s (21.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpgs6o7q14/po-debconf_1.0.22_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ocaml arm64 5.4.0-3 [21.4 MB] Fetched 21.4 MB in 0s (124 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpndkzmkr5/ocaml_5.4.0-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libzarith-ocaml arm64 1.14-1+b4 [109 kB] Fetched 109 kB in 0s (3864 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1raohoal/libzarith-ocaml_1.14-1+b4_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 binutils arm64 2.46-1 [278 kB] Fetched 278 kB in 0s (15.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpw61c19kn/binutils_2.46-1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libctf0 arm64 2.46-1 [85.5 kB] Fetched 85.5 kB in 0s (4587 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpi4n7z41x/libctf0_2.46-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 g++-aarch64-linux-gnu arm64 4:15.2.0-5 [1196 B] Fetched 1196 B in 0s (65.3 kB/s) dpkg-name: info: moved 'g++-aarch64-linux-gnu_4%3a15.2.0-5_arm64.deb' to '/srv/rebuilderd/tmp/tmp8oe6etq2/g++-aarch64-linux-gnu_15.2.0-5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 base-passwd arm64 3.6.8+b1 [54.3 kB] Fetched 54.3 kB in 0s (2627 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpe9__c0r_/base-passwd_3.6.8+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gcc-15-aarch64-linux-gnu arm64 15.2.0-13 [19.6 MB] Fetched 19.6 MB in 0s (95.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp7_zsyves/gcc-15-aarch64-linux-gnu_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libudev1 arm64 259.1-1 [148 kB] Fetched 148 kB in 0s (7800 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpg6p6nol9/libudev1_259.1-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgdbm-compat4t64 arm64 1.26-1+b1 [53.0 kB] Fetched 53.0 kB in 0s (2931 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpostf7cjo/libgdbm-compat4t64_1.26-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libubsan1 arm64 15.2.0-13 [1064 kB] Fetched 1064 kB in 0s (47.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv2_eu18k/libubsan1_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libpipeline1 arm64 1.5.8-2 [40.3 kB] Fetched 40.3 kB in 0s (1874 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpm7wdi5v6/libpipeline1_1.5.8-2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgmp10 arm64 2:6.3.0+dfsg-5+b1 [544 kB] Fetched 544 kB in 0s (26.4 MB/s) dpkg-name: info: moved 'libgmp10_2%3a6.3.0+dfsg-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmpfvfo34mf/libgmp10_6.3.0+dfsg-5+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libmagic1t64 arm64 1:5.46-5+b1 [103 kB] Fetched 103 kB in 0s (5031 kB/s) dpkg-name: info: moved 'libmagic1t64_1%3a5.46-5+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmpa76ur_ro/libmagic1t64_5.46-5+b1_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260213T083951Z sid/main arm64 libattr1 arm64 1:2.5.2-3+b1 [22.8 kB] Fetched 22.8 kB in 0s (1140 kB/s) dpkg-name: info: moved 'libattr1_1%3a2.5.2-3+b1_arm64.deb' to '/srv/rebuilderd/tmp/tmpx2eo0t_p/libattr1_2.5.2-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libc6-dev arm64 2.42-13 [1640 kB] Fetched 1640 kB in 0s (57.5 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpx28hd5xj/libc6-dev_2.42-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libstdlib-ocaml-dev arm64 5.4.0-3 [6496 kB] Fetched 6496 kB in 0s (87.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpr914smeh/libstdlib-ocaml-dev_5.4.0-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libuchardet0 arm64 0.0.8-2+b1 [69.1 kB] Fetched 69.1 kB in 0s (4066 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp33rt9r6k/libuchardet0_0.0.8-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libzstd-dev arm64 1.5.7+dfsg-3+b1 [330 kB] Fetched 330 kB in 0s (16.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwbjofulh/libzstd-dev_1.5.7+dfsg-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 mawk arm64 1.3.4.20260129-1 [134 kB] Fetched 134 kB in 0s (7130 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpfpg0j1lt/mawk_1.3.4.20260129-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libdpkg-perl all 1.23.5 [668 kB] Fetched 668 kB in 0s (15.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyouigry3/libdpkg-perl_1.23.5_all.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 patch arm64 2.8-2+b1 [128 kB] Fetched 128 kB in 0s (6671 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp1ynfhdia/patch_2.8-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 groff-base arm64 1.23.0-10+b1 [1133 kB] Fetched 1133 kB in 0s (41.9 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpiyl5esu8/groff-base_1.23.0-10+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libreadline8t64 arm64 8.3-4 [168 kB] Fetched 168 kB in 0s (8915 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmptyfniq_f/libreadline8t64_8.3-4_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gcc arm64 4:15.2.0-5 [5160 B] Fetched 5160 B in 0s (255 kB/s) dpkg-name: info: moved 'gcc_4%3a15.2.0-5_arm64.deb' to '/srv/rebuilderd/tmp/tmpuvywyzq2/gcc_15.2.0-5_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 libcoq-core arm64 9.1.0+dfsg-3+b2 [1141 kB] Fetched 1141 kB in 0s (45.7 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpcenx1n9b/libcoq-core_9.1.0+dfsg-3+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 coreutils arm64 9.7-3+b1 [2941 kB] Fetched 2941 kB in 0s (150 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpextt15ts/coreutils_9.7-3+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libseccomp2 arm64 2.6.0-2+b1 [50.9 kB] Fetched 50.9 kB in 0s (3111 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp6ibtxmnl/libseccomp2_2.6.0-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 cpp-15-aarch64-linux-gnu arm64 15.2.0-13 [10.1 MB] Fetched 10.1 MB in 0s (122 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpo17pwnfm/cpp-15-aarch64-linux-gnu_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 openssl-provider-legacy arm64 3.5.5-1 [308 kB] Fetched 308 kB in 0s (15.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmphdajanek/openssl-provider-legacy_3.5.5-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 g++-15-aarch64-linux-gnu arm64 15.2.0-13 [11.1 MB] Fetched 11.1 MB in 0s (116 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmps60cdhyg/g++-15-aarch64-linux-gnu_15.2.0-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libblkid1 arm64 2.41.3-3 [167 kB] Fetched 167 kB in 0s (9108 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpja593swl/libblkid1_2.41.3-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libc-dev-bin arm64 2.42-13 [60.4 kB] Fetched 60.4 kB in 0s (2408 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpl5b8ncy1/libc-dev-bin_2.42-13_arm64.deb' Get:1 http://snapshot.debian.org/archive/debian/20260219T142510Z rc-buggy/main arm64 elpi arm64 3.4.3-1+b2 [2304 kB] Fetched 2304 kB in 1s (3402 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp_090ecla/elpi_3.4.3-1+b2_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libgdbm6t64 arm64 1.26-1+b1 [77.1 kB] Fetched 77.1 kB in 0s (3669 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpxlmzj_bg/libgdbm6t64_1.26-1+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libfindlib-ocaml-dev arm64 1.9.8-1+b3 [180 kB] Fetched 180 kB in 0s (6317 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpkherh8nx/libfindlib-ocaml-dev_1.9.8-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 cpp-aarch64-linux-gnu arm64 4:15.2.0-5 [5320 B] Fetched 5320 B in 0s (281 kB/s) dpkg-name: info: moved 'cpp-aarch64-linux-gnu_4%3a15.2.0-5_arm64.deb' to '/srv/rebuilderd/tmp/tmpqilmxpwv/cpp-aarch64-linux-gnu_15.2.0-5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libc-bin arm64 2.42-13 [554 kB] Fetched 554 kB in 0s (26.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpqgpqd144/libc-bin_2.42-13_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libxml2-16 arm64 2.15.1+dfsg-2+b1 [591 kB] Fetched 591 kB in 0s (28.8 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpwfl267sm/libxml2-16_2.15.1+dfsg-2+b1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 gettext arm64 0.23.2-1 [1613 kB] Fetched 1613 kB in 0s (47.2 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpv721xk64/gettext_0.23.2-1_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 dpkg arm64 1.23.5 [1509 kB] Fetched 1509 kB in 0s (34.6 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmp64s4ay6b/dpkg_1.23.5_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libstdio-ocaml arm64 0.17.0-1+b3 [31.0 kB] Fetched 31.0 kB in 0s (392 kB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpbp7x6x9g/libstdio-ocaml_0.17.0-1+b3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 ocaml-interp arm64 5.4.0-3 [7460 kB] Fetched 7460 kB in 0s (21.0 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpb4ff6tt9/ocaml-interp_5.4.0-3_arm64.deb' Get:1 http://deb.debian.org/debian unstable/main arm64 libisl23 arm64 0.27-1+b1 [599 kB] Fetched 599 kB in 0s (22.3 MB/s) dpkg-name: warning: skipping '/srv/rebuilderd/tmp/tmpyi3dudyh/libisl23_0.27-1+b1_arm64.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 dpkg-source --before-build . dpkg-buildpackage: info: host architecture arm64 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_arm64.buildinfo dpkg-genchanges --build=binary -O../debootsnap-dummy_1.0_arm64.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/tmp_aboizbe/cache directory, not in ".." as indicated by the message above! I: automatically chosen mode: unshare I: chroot architecture arm64 is equal to the host's architecture I: using /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz as tempdir I: running --setup-hook directly: /usr/share/mmdebstrap/hooks/maybe-merged-usr/setup00.sh /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz 127.0.0.1 - - [20/Feb/2026 12:43:01] code 404, message File not found 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./InRelease HTTP/1.1" 404 - Ign:1 http://localhost:34739 ./ InRelease 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./Release HTTP/1.1" 200 - Get:2 http://localhost:34739 ./ Release [462 B] 127.0.0.1 - - [20/Feb/2026 12:43:01] code 404, message File not found 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./Release.gpg HTTP/1.1" 404 - Ign:3 http://localhost:34739 ./ Release.gpg 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./Packages HTTP/1.1" 200 - Get:4 http://localhost:34739 ./ Packages [245 kB] Fetched 245 kB in 0s (7534 kB/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 - - [20/Feb/2026 12:43:01] "GET /./gcc-15-base_15.2.0-13_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libc-gconv-modules-extra_2.42-13_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libc6_2.42-13_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libgcc-s1_15.2.0-13_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./mawk_1.3.4.20260129-1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./base-files_14_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libtinfo6_6.6%2b20251231-1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./debianutils_5.23.2%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./bash_5.3-1%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libacl1_2.3.2-2%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libattr1_2.5.2-3%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libcap2_2.75-10%2bb5_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libgmp10_6.3.0%2bdfsg-5%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libpcre2-8-0_10.46-1%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libselinux1_3.9-4%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libzstd1_1.5.7%2bdfsg-3%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./zlib1g_1.3.dfsg%2breally1.3.1-2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libssl3t64_3.5.5-1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./openssl-provider-legacy_3.5.5-1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./libsystemd0_259.1-1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./coreutils_9.7-3%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:01] "GET /./dash_0.5.12-12%2bb1_arm64.deb HTTP/1.1" 200 - 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127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libcrypt1_4.5.1-1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./perl-base_5.40.1-7_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./sed_4.9-2%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libaudit-common_4.1.2-1_all.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libcap-ng0_0.8.5-4%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libaudit1_4.1.2-1%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libdb5.3t64_5.3.28%2bdfsg2-11_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./debconf_1.5.91_all.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libpam0g_1.7.0-5%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libpam-modules-bin_1.7.0-5%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./libpam-modules_1.7.0-5%2bb1_arm64.deb HTTP/1.1" 200 - 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127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./ncurses-base_6.6%2b20251231-1_all.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:02] "GET /./sysvinit-utils_3.15-6%2bb1_arm64.deb HTTP/1.1" 200 - I: extracting archives... I: running --extract-hook directly: /usr/share/mmdebstrap/hooks/maybe-merged-usr/extract00.sh /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz 127.0.0.1 - - [20/Feb/2026 12:43:06] code 404, message File not found 127.0.0.1 - - [20/Feb/2026 12:43:06] "GET /./InRelease HTTP/1.1" 404 - Ign:1 http://localhost:34739 ./ InRelease 127.0.0.1 - - [20/Feb/2026 12:43:06] "GET /./Release HTTP/1.1" 304 - Hit:2 http://localhost:34739 ./ Release 127.0.0.1 - - [20/Feb/2026 12:43:06] code 404, message File not found 127.0.0.1 - - [20/Feb/2026 12:43:06] "GET /./Release.gpg HTTP/1.1" 404 - Ign:3 http://localhost:34739 ./ Release.gpg Reading package lists... usr-is-merged found but not real -- not running merged-usr extract hook I: installing essential packages... 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127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./dh-ocaml_2.5_all.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libre-ocaml-dev_1.14.0-1%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libppx-deriving-ocaml_6.1.1-1%2bb3_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libelpi-ocaml_3.4.3-1%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libmenhir-ocaml-dev_20250912%2bds-1%2bb1_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libocaml-compiler-libs-ocaml-dev_0.17.0-2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libsexplib0-ocaml-dev_0.17.0-1%2bb3_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libppxlib-ocaml-dev_0.37.0-1%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libppx-deriving-ocaml-dev_6.1.1-1%2bb3_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libelpi-ocaml-dev_3.4.3-1%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libocaml-intrinsics-kernel-ocaml-dev_0.17.1-1%2bb3_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libbase-ocaml-dev_0.17.3-1%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libstdio-ocaml-dev_0.17.0-1%2bb3_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./ocaml-dune_3.20.2-3%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./libppx-optcomp-ocaml-dev_0.17.1-1%2bb3_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./dh-coq_0.15_all.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./elpi_3.4.3-1%2bb2_arm64.deb HTTP/1.1" 200 - 127.0.0.1 - - [20/Feb/2026 12:43:23] "GET /./debootsnap-dummy_1.0_all.deb HTTP/1.1" 200 - I: running --customize-hook directly: /srv/rebuilderd/tmp/tmp_aboizbe/apt_install.sh /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz Reading package lists... Building dependency tree... Reading state information... intltool-debian is already the newest version (0.35.0+20060710.6). intltool-debian set to manually installed. g++-15 is already the newest version (15.2.0-13). g++-15 set to manually installed. libtsan2 is already the newest version (15.2.0-13). libtsan2 set to manually installed. autotools-dev is already the newest version (20240727.1). autotools-dev set to manually installed. libc-gconv-modules-extra is already the newest version (2.42-13). man-db is already the newest version (2.13.1-1+b1). man-db set to manually installed. libatomic1 is already the newest version (15.2.0-13). libatomic1 set to manually installed. libgmpxx4ldbl is already the newest version (2:6.3.0+dfsg-5+b1). libgmpxx4ldbl set to manually installed. libbinutils is already the newest version (2.46-1). libbinutils set to manually installed. libcoq-stdlib is already the newest version (9.0.0-3+b1). libcoq-stdlib set to manually installed. libconfig-tiny-perl is already the newest version (2.30-1). libconfig-tiny-perl set to manually installed. tar is already the newest version (1.35+dfsg-3.1+b1). libppx-optcomp-ocaml is already the newest version (1:0.17.1-1+b3). libppx-optcomp-ocaml set to manually installed. bsdextrautils is already the newest version (2.41.3-3). bsdextrautils set to manually installed. libcoq-core-ocaml-dev is already the newest version (9.1.0+dfsg-3+b2). libcoq-core-ocaml-dev set to manually installed. libpam-runtime is already the newest version (1.7.0-5). diffutils is already the newest version (1:3.12-1+b1). autopoint is already the newest version (0.23.2-1). autopoint set to manually installed. libgmp-dev is already the newest version (2:6.3.0+dfsg-5+b1). libgmp-dev set to manually installed. dh-autoreconf is already the newest version (21+nmu1). dh-autoreconf set to manually installed. libfile-stripnondeterminism-perl is already the newest version (1.15.0-1). libfile-stripnondeterminism-perl set to manually installed. libdebconfclient0 is already the newest version (0.282+b2). ncurses-bin is already the newest version (6.6+20251231-1). python3.13 is already the newest version (3.13.12-1). python3.13 set to manually installed. bzip2 is already the newest version (1.0.8-6+b1). bzip2 set to manually installed. bash is already the newest version (5.3-1+b1). libcc1-0 is already the newest version (15.2.0-13). libcc1-0 set to manually installed. libcap2 is already the newest version (1:2.75-10+b5). libfindlib-ocaml is already the newest version (1.9.8-1+b3). libfindlib-ocaml set to manually installed. libsystemd0 is already the newest version (259.1-1). gcc-aarch64-linux-gnu is already the newest version (4:15.2.0-5). gcc-aarch64-linux-gnu set to manually installed. linux-libc-dev is already the newest version (6.18.9-1). linux-libc-dev set to manually installed. libocaml-intrinsics-kernel-ocaml is already the newest version (0.17.1-1+b3). libocaml-intrinsics-kernel-ocaml set to manually installed. init-system-helpers is already the newest version (1.69). binutils-common is already the newest version (2.46-1). binutils-common set to manually installed. sysvinit-utils is already the newest version (3.15-6+b1). dpkg-dev is already the newest version (1.23.5). dpkg-dev set to manually installed. libppx-derivers-ocaml-dev is already the newest version (1.2.1-4+b5). libppx-derivers-ocaml-dev set to manually installed. sed is already the newest version (4.9-2+b2). libpam-modules-bin is already the newest version (1.7.0-5+b1). zlib1g is already the newest version (1:1.3.dfsg+really1.3.1-2). libcompiler-libs-ocaml-dev is already the newest version (5.4.0-3). libcompiler-libs-ocaml-dev set to manually installed. ocaml-base is already the newest version (5.4.0-3). ocaml-base set to manually installed. libitm1 is already the newest version (15.2.0-13). libitm1 set to manually installed. coq is already the newest version (9.1.0+dfsg-3+b2). coq set to manually installed. python3.13-minimal is already the newest version (3.13.12-1). python3.13-minimal set to manually installed. libsexplib0-ocaml is already the newest version (0.17.0-1+b3). libsexplib0-ocaml set to manually installed. dh-ocaml is already the newest version (2.5). dh-ocaml set to manually installed. libre-ocaml-dev is already the newest version (1.14.0-1+b1). libre-ocaml-dev set to manually installed. libgmp3-dev is already the newest version (2:6.3.0+dfsg-5+b1). libgmp3-dev set to manually installed. libcoq-core-ocaml is already the newest version (9.1.0+dfsg-3+b2). libcoq-core-ocaml set to manually installed. binutils-aarch64-linux-gnu is already the newest version (2.46-1). binutils-aarch64-linux-gnu set to manually installed. libelpi-ocaml-dev is already the newest version (3.4.3-1+b2). libelpi-ocaml-dev set to manually installed. python3-minimal is already the newest version (3.13.9-3). python3-minimal set to manually installed. cpp is already the newest version (4:15.2.0-5). cpp set to manually installed. libocaml-compiler-libs-ocaml-dev is already the newest version (0.17.0-2). libocaml-compiler-libs-ocaml-dev set to manually installed. libbz2-1.0 is already the newest version (1.0.8-6+b1). libppxlib-ocaml-dev is already the newest version (0.37.0-1+b2). libppxlib-ocaml-dev set to manually installed. libgprofng0 is already the newest version (2.46-1). libgprofng0 set to manually installed. libpython3.13-minimal is already the newest version (3.13.12-1). libpython3.13-minimal set to manually installed. libstdio-ocaml-dev is already the newest version (0.17.0-1+b3). libstdio-ocaml-dev set to manually installed. libmagic-mgc is already the newest version (1:5.46-5+b1). libmagic-mgc set to manually installed. libpcre2-8-0 is already the newest version (10.46-1+b1). libaudit1 is already the newest version (1:4.1.2-1+b1). libmpc3 is already the newest version (1.3.1-2+b1). libmpc3 set to manually installed. libsmartcols1 is already the newest version (2.41.3-3). libppx-deriving-ocaml is already the newest version (6.1.1-1+b3). libppx-deriving-ocaml set to manually installed. libaudit-common is already the newest version (1:4.1.2-1). libstdc++6 is already the newest version (15.2.0-13). libstdc++6 set to manually installed. libpam-modules is already the newest version (1.7.0-5+b1). libgcc-15-dev is already the newest version (15.2.0-13). libgcc-15-dev set to manually installed. libbase-ocaml-dev is already the newest version (0.17.3-1+b2). libbase-ocaml-dev set to manually installed. libjansson4 is already the newest version (2.14-2+b4). libjansson4 set to manually installed. libasan8 is already the newest version (15.2.0-13). libasan8 set to manually installed. libssl3t64 is already the newest version (3.5.5-1). libstdc++-15-dev is already the newest version (15.2.0-13). libstdc++-15-dev set to manually installed. libsframe3 is already the newest version (2.46-1). libsframe3 set to manually installed. libcrypt1 is already the newest version (1:4.5.1-1). libncurses6 is already the newest version (6.6+20251231-1). libncurses6 set to manually installed. libctf-nobfd0 is already the newest version (2.46-1). libctf-nobfd0 set to manually installed. libpython3-stdlib is already the newest version (3.13.9-3). libpython3-stdlib set to manually installed. sensible-utils is already the newest version (0.0.26). sensible-utils set to manually installed. make is already the newest version (4.4.1-3+b1). make set to manually installed. liblzma5 is already the newest version (5.8.2-2). dh-strip-nondeterminism is already the newest version (1.15.0-1). dh-strip-nondeterminism set to manually installed. grep is already the newest version (3.12-1+b1). perl-modules-5.40 is already the newest version (5.40.1-7). perl-modules-5.40 set to manually installed. dwz is already the newest version (0.16-2+b1). dwz set to manually installed. perl-base is already the newest version (5.40.1-7). libpam0g is already the newest version (1.7.0-5+b1). util-linux is already the newest version (2.41.3-3). libgomp1 is already the newest version (15.2.0-13). libgomp1 set to manually installed. libmenhir-ocaml-dev is already the newest version (20250912+ds-1+b1). libmenhir-ocaml-dev set to manually installed. ocaml-dune is already the newest version (3.20.2-3+b2). ocaml-dune set to manually installed. libelf1t64 is already the newest version (0.194-1). libelf1t64 set to manually installed. libhwasan0 is already the newest version (15.2.0-13). libhwasan0 set to manually installed. libuuid1 is already the newest version (2.41.3-3). xz-utils is already the newest version (5.8.2-2). xz-utils set to manually installed. media-types is already the newest version (14.0.0). media-types set to manually installed. libmount1 is already the newest version (2.41.3-3). libmpfr6 is already the newest version (4.2.2-2+b1). libmpfr6 set to manually installed. libsexplib0-ocaml-dev is already the newest version (0.17.0-1+b3). libsexplib0-ocaml-dev set to manually installed. libncursesw6 is already the newest version (6.6+20251231-1). libncursesw6 set to manually installed. libcap-ng0 is already the newest version (0.8.5-4+b2). libzarith-ocaml-dev is already the newest version (1.14-1+b4). libzarith-ocaml-dev set to manually installed. libexpat1 is already the newest version (2.7.4-1). libexpat1 set to manually installed. debhelper is already the newest version (13.30). debhelper set to manually installed. perl is already the newest version (5.40.1-7). perl set to manually installed. libselinux1 is already the newest version (3.9-4+b1). libunistring5 is already the newest version (1.3-2+b1). libunistring5 set to manually installed. m4 is already the newest version (1.4.21-1). m4 set to manually installed. libarchive-zip-perl is already the newest version (1.68-1). libarchive-zip-perl set to manually installed. tzdata is already the newest version (2025c-3). tzdata set to manually installed. debianutils is already the newest version (5.23.2+b1). libacl1 is already the newest version (2.3.2-2+b2). liblsan0 is already the newest version (15.2.0-13). liblsan0 set to manually installed. debconf is already the newest version (1.5.91). libelpi-ocaml is already the newest version (3.4.3-1+b2). libelpi-ocaml set to manually installed. libppx-deriving-ocaml-dev is already the newest version (6.1.1-1+b3). libppx-deriving-ocaml-dev set to manually installed. ncurses-base is already the newest version (6.6+20251231-1). libsqlite3-0 is already the newest version (3.46.1-9). libsqlite3-0 set to manually installed. gcc-15 is already the newest version (15.2.0-13). gcc-15 set to manually installed. gzip is already the newest version (1.13-1+b1). base-files is already the newest version (14). netbase is already the newest version (6.5). netbase set to manually installed. libzstd1 is already the newest version (1.5.7+dfsg-3+b1). libgcc-s1 is already the newest version (15.2.0-13). libstdlib-ocaml is already the newest version (5.4.0-3). libstdlib-ocaml set to manually installed. libc6 is already the newest version (2.42-13). dash is already the newest version (0.5.12-12+b1). libdebhelper-perl is already the newest version (13.30). libdebhelper-perl set to manually installed. libperl5.40 is already the newest version (5.40.1-7). libperl5.40 set to manually installed. libocaml-intrinsics-kernel-ocaml-dev is already the newest version (0.17.1-1+b3). libocaml-intrinsics-kernel-ocaml-dev set to manually installed. python3 is already the newest version (3.13.9-3). python3 set to manually installed. findutils is already the newest version (4.10.0-3+b1). libtinfo6 is already the newest version (6.6+20251231-1). libncurses-dev is already the newest version (6.6+20251231-1). libncurses-dev set to manually installed. libmd0 is already the newest version (1.1.0-2+b2). libtool is already the newest version (2.5.4-9). libtool set to manually installed. autoconf is already the newest version (2.72-3.1). autoconf set to manually installed. gettext-base is already the newest version (0.23.2-1). gettext-base set to manually installed. rpcsvc-proto is already the newest version (1.4.3-1+b2). rpcsvc-proto set to manually installed. readline-common is already the newest version (8.3-4). readline-common set to manually installed. libppx-optcomp-ocaml-dev is already the newest version (1:0.17.1-1+b3). libppx-optcomp-ocaml-dev set to manually installed. hostname is already the newest version (3.25+b1). g++ is already the newest version (4:15.2.0-5). g++ set to manually installed. libffi8 is already the newest version (3.5.2-3+b1). libffi8 set to manually installed. file is already the newest version (1:5.46-5+b1). file set to manually installed. libbase-ocaml is already the newest version (0.17.3-1+b2). libbase-ocaml set to manually installed. libdb5.3t64 is already the newest version (5.3.28+dfsg2-11). gcc-15-base is already the newest version (15.2.0-13). ocaml-findlib is already the newest version (1.9.8-1+b3). ocaml-findlib set to manually installed. build-essential is already the newest version (12.12). build-essential set to manually installed. libpython3.13-stdlib is already the newest version (3.13.12-1). libpython3.13-stdlib set to manually installed. automake is already the newest version (1:1.18.1-3). automake set to manually installed. cpp-15 is already the newest version (15.2.0-13). cpp-15 set to manually installed. dh-coq is already the newest version (0.15). dh-coq set to manually installed. po-debconf is already the newest version (1.0.22). po-debconf set to manually installed. ocaml is already the newest version (5.4.0-3). ocaml set to manually installed. libzarith-ocaml is already the newest version (1.14-1+b4). libzarith-ocaml set to manually installed. binutils is already the newest version (2.46-1). binutils set to manually installed. libctf0 is already the newest version (2.46-1). libctf0 set to manually installed. g++-aarch64-linux-gnu is already the newest version (4:15.2.0-5). g++-aarch64-linux-gnu set to manually installed. base-passwd is already the newest version (3.6.8+b1). gcc-15-aarch64-linux-gnu is already the newest version (15.2.0-13). gcc-15-aarch64-linux-gnu set to manually installed. libudev1 is already the newest version (259.1-1). libgdbm-compat4t64 is already the newest version (1.26-1+b1). libgdbm-compat4t64 set to manually installed. libubsan1 is already the newest version (15.2.0-13). libubsan1 set to manually installed. libpipeline1 is already the newest version (1.5.8-2). libpipeline1 set to manually installed. libgmp10 is already the newest version (2:6.3.0+dfsg-5+b1). libmagic1t64 is already the newest version (1:5.46-5+b1). libmagic1t64 set to manually installed. libattr1 is already the newest version (1:2.5.2-3+b1). libc6-dev is already the newest version (2.42-13). libc6-dev set to manually installed. libstdlib-ocaml-dev is already the newest version (5.4.0-3). libstdlib-ocaml-dev set to manually installed. libuchardet0 is already the newest version (0.0.8-2+b1). libuchardet0 set to manually installed. libzstd-dev is already the newest version (1.5.7+dfsg-3+b1). libzstd-dev set to manually installed. mawk is already the newest version (1.3.4.20260129-1). libdpkg-perl is already the newest version (1.23.5). libdpkg-perl set to manually installed. patch is already the newest version (2.8-2+b1). patch set to manually installed. groff-base is already the newest version (1.23.0-10+b1). groff-base set to manually installed. libreadline8t64 is already the newest version (8.3-4). libreadline8t64 set to manually installed. gcc is already the newest version (4:15.2.0-5). gcc set to manually installed. libcoq-core is already the newest version (9.1.0+dfsg-3+b2). libcoq-core set to manually installed. coreutils is already the newest version (9.7-3+b1). libseccomp2 is already the newest version (2.6.0-2+b1). libseccomp2 set to manually installed. cpp-15-aarch64-linux-gnu is already the newest version (15.2.0-13). cpp-15-aarch64-linux-gnu set to manually installed. openssl-provider-legacy is already the newest version (3.5.5-1). g++-15-aarch64-linux-gnu is already the newest version (15.2.0-13). g++-15-aarch64-linux-gnu set to manually installed. libblkid1 is already the newest version (2.41.3-3). libc-dev-bin is already the newest version (2.42-13). libc-dev-bin set to manually installed. elpi is already the newest version (3.4.3-1+b2). elpi set to manually installed. libgdbm6t64 is already the newest version (1.26-1+b1). libgdbm6t64 set to manually installed. libfindlib-ocaml-dev is already the newest version (1.9.8-1+b3). libfindlib-ocaml-dev set to manually installed. cpp-aarch64-linux-gnu is already the newest version (4:15.2.0-5). cpp-aarch64-linux-gnu set to manually installed. libc-bin is already the newest version (2.42-13). libxml2-16 is already the newest version (2.15.1+dfsg-2+b1). libxml2-16 set to manually installed. gettext is already the newest version (0.23.2-1). gettext set to manually installed. dpkg is already the newest version (1.23.5). libstdio-ocaml is already the newest version (0.17.0-1+b3). libstdio-ocaml set to manually installed. ocaml-interp is already the newest version (5.4.0-3). ocaml-interp set to manually installed. libisl23 is already the newest version (0.27-1+b1). libisl23 set to manually installed. 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded. I: running --customize-hook in shell: sh -c 'chroot "$1" dpkg -r debootsnap-dummy' exec /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz (Reading database ... 25812 files and directories currently installed.) Removing debootsnap-dummy (1.0) ... 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.Il3CANVwKz I: running special hook: download /pkglist ./pkglist I: running --customize-hook in shell: sh -c 'rm "$1/pkglist"' exec /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz I: running special hook: upload sources.list /etc/apt/sources.list I: waiting for background processes to finish... I: cleaning package lists and apt cache... I: skipping cleanup/reproducible as requested I: creating tarball... I: done I: removing tempdir /srv/rebuilderd/tmp/mmdebstrap.Il3CANVwKz... I: success in 89.7659 seconds Downloading dependency 130 of 201: dash:arm64=0.5.12-12+b1 Downloading dependency 131 of 201: libdebhelper-perl:arm64=13.30 Downloading dependency 132 of 201: libperl5.40:arm64=5.40.1-7 Downloading dependency 133 of 201: libocaml-intrinsics-kernel-ocaml-dev:arm64=0.17.1-1+b3 Downloading dependency 134 of 201: python3:arm64=3.13.9-3 Downloading dependency 135 of 201: findutils:arm64=4.10.0-3+b1 Downloading dependency 136 of 201: libtinfo6:arm64=6.6+20251231-1 Downloading dependency 137 of 201: libncurses-dev:arm64=6.6+20251231-1 Downloading dependency 138 of 201: libmd0:arm64=1.1.0-2+b2 Downloading dependency 139 of 201: libtool:arm64=2.5.4-9 Downloading dependency 140 of 201: autoconf:arm64=2.72-3.1 Downloading dependency 141 of 201: gettext-base:arm64=0.23.2-1 Downloading dependency 142 of 201: rpcsvc-proto:arm64=1.4.3-1+b2 Downloading dependency 143 of 201: readline-common:arm64=8.3-4 Downloading dependency 144 of 201: libppx-optcomp-ocaml-dev:arm64=1:0.17.1-1+b3 Downloading dependency 145 of 201: hostname:arm64=3.25+b1 Downloading dependency 146 of 201: g++:arm64=4:15.2.0-5 Downloading dependency 147 of 201: libffi8:arm64=3.5.2-3+b1 Downloading dependency 148 of 201: file:arm64=1:5.46-5+b1 Downloading dependency 149 of 201: libbase-ocaml:arm64=0.17.3-1+b2 Downloading dependency 150 of 201: libdb5.3t64:arm64=5.3.28+dfsg2-11 Downloading dependency 151 of 201: gcc-15-base:arm64=15.2.0-13 Downloading dependency 152 of 201: ocaml-findlib:arm64=1.9.8-1+b3 Downloading dependency 153 of 201: build-essential:arm64=12.12 Downloading dependency 154 of 201: libpython3.13-stdlib:arm64=3.13.12-1 Downloading dependency 155 of 201: automake:arm64=1:1.18.1-3 Downloading dependency 156 of 201: cpp-15:arm64=15.2.0-13 Downloading dependency 157 of 201: dh-coq:arm64=0.15 Downloading dependency 158 of 201: po-debconf:arm64=1.0.22 Downloading dependency 159 of 201: ocaml:arm64=5.4.0-3 Downloading dependency 160 of 201: libzarith-ocaml:arm64=1.14-1+b4 Downloading dependency 161 of 201: binutils:arm64=2.46-1 Downloading dependency 162 of 201: libctf0:arm64=2.46-1 Downloading dependency 163 of 201: g++-aarch64-linux-gnu:arm64=4:15.2.0-5 Downloading dependency 164 of 201: base-passwd:arm64=3.6.8+b1 Downloading dependency 165 of 201: gcc-15-aarch64-linux-gnu:arm64=15.2.0-13 Downloading dependency 166 of 201: libudev1:arm64=259.1-1 Downloading dependency 167 of 201: libgdbm-compat4t64:arm64=1.26-1+b1 Downloading dependency 168 of 201: libubsan1:arm64=15.2.0-13 Downloading dependency 169 of 201: libpipeline1:arm64=1.5.8-2 Downloading dependency 170 of 201: libgmp10:arm64=2:6.3.0+dfsg-5+b1 Downloading dependency 171 of 201: libmagic1t64:arm64=1:5.46-5+b1 Downloading dependency 172 of 201: libattr1:arm64=1:2.5.2-3+b1 Downloading dependency 173 of 201: libc6-dev:arm64=2.42-13 Downloading dependency 174 of 201: libstdlib-ocaml-dev:arm64=5.4.0-3 Downloading dependency 175 of 201: libuchardet0:arm64=0.0.8-2+b1 Downloading dependency 176 of 201: libzstd-dev:arm64=1.5.7+dfsg-3+b1 Downloading dependency 177 of 201: mawk:arm64=1.3.4.20260129-1 Downloading dependency 178 of 201: libdpkg-perl:arm64=1.23.5 Downloading dependency 179 of 201: patch:arm64=2.8-2+b1 Downloading dependency 180 of 201: groff-base:arm64=1.23.0-10+b1 Downloading dependency 181 of 201: libreadline8t64:arm64=8.3-4 Downloading dependency 182 of 201: gcc:arm64=4:15.2.0-5 Downloading dependency 183 of 201: libcoq-core:arm64=9.1.0+dfsg-3+b2 Downloading dependency 184 of 201: coreutils:arm64=9.7-3+b1 Downloading dependency 185 of 201: libseccomp2:arm64=2.6.0-2+b1 Downloading dependency 186 of 201: cpp-15-aarch64-linux-gnu:arm64=15.2.0-13 Downloading dependency 187 of 201: openssl-provider-legacy:arm64=3.5.5-1 Downloading dependency 188 of 201: g++-15-aarch64-linux-gnu:arm64=15.2.0-13 Downloading dependency 189 of 201: libblkid1:arm64=2.41.3-3 Downloading dependency 190 of 201: libc-dev-bin:arm64=2.42-13 Downloading dependency 191 of 201: elpi:arm64=3.4.3-1+b2 Downloading dependency 192 of 201: libgdbm6t64:arm64=1.26-1+b1 Downloading dependency 193 of 201: libfindlib-ocaml-dev:arm64=1.9.8-1+b3 Downloading dependency 194 of 201: cpp-aarch64-linux-gnu:arm64=4:15.2.0-5 Downloading dependency 195 of 201: libc-bin:arm64=2.42-13 Downloading dependency 196 of 201: libxml2-16:arm64=2.15.1+dfsg-2+b1 Downloading dependency 197 of 201: gettext:arm64=0.23.2-1 Downloading dependency 198 of 201: dpkg:arm64=1.23.5 Downloading dependency 199 of 201: libstdio-ocaml:arm64=0.17.0-1+b3 Downloading dependency 200 of 201: ocaml-interp:arm64=5.4.0-3 Downloading dependency 201 of 201: libisl23:arm64=0.27-1+b1 env --chdir=/srv/rebuilderd/tmp/rebuilderda268Qx/out DEB_BUILD_OPTIONS=parallel=8 LANG=C.UTF-8 LC_COLLATE=C.UTF-8 LC_CTYPE=C.UTF-8 SOURCE_DATE_EPOCH=1771170068 SBUILD_CONFIG=/srv/rebuilderd/tmp/debrebuildRh90c3/debrebuild.sbuildrc.GMwFuWM7N8lB sbuild --build=arm64 --host=arm64 --no-source --arch-any --no-arch-all --binNMU-changelog= coq-elpi (3.2.0-3+b1) experimental; urgency=low, binary-only=yes * Binary-only non-maintainer upload for arm64; no source changes. * Rebuild with OCaml 5.4.0 -- arm Build Daemon (arm-conova-03) Sun, 15 Feb 2026 15:41:08 +0000 --chroot=/srv/rebuilderd/tmp/debrebuildRh90c3/debrebuild.tar.C3_mdTjrcc7I --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=coq-elpi-3.2.0 /srv/rebuilderd/tmp/rebuilderda268Qx/inputs/coq-elpi_3.2.0-3.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: warning: descr(l1): found blank line where expected first heading sbuild (Debian sbuild) 0.89.3+deb13u4 (28 December 2025) on codethink02-arm64 +==============================================================================+ | coq-elpi 3.2.0-3+b1 (arm64) Fri, 20 Feb 2026 12:44:32 +0000 | +==============================================================================+ Package: coq-elpi Version: 3.2.0-3+b1 Source Version: 3.2.0-3 Distribution: unstable Machine Architecture: arm64 Host Architecture: arm64 Build Architecture: arm64 Build Type: any I: No tarballs found in /srv/rebuilderd/.cache/sbuild I: Unpacking /srv/rebuilderd/tmp/debrebuildRh90c3/debrebuild.tar.C3_mdTjrcc7I to /srv/rebuilderd/tmp/tmp.sbuild.a5bDjWeARp... I: Setting up the chroot... I: Creating chroot session... I: Setting up log color... I: Setting up apt archive... +------------------------------------------------------------------------------+ | Fetch source files Fri, 20 Feb 2026 12:44:49 +0000 | +------------------------------------------------------------------------------+ Local sources ------------- /srv/rebuilderd/tmp/rebuilderda268Qx/inputs/coq-elpi_3.2.0-3.dsc exists in /srv/rebuilderd/tmp/rebuilderda268Qx/inputs; copying to chroot sbuild: warning: descr(l1): found blank line where expected first heading +------------------------------------------------------------------------------+ | Install package build dependencies Fri, 20 Feb 2026 12:44:52 +0000 | +------------------------------------------------------------------------------+ Setup apt archive ----------------- Merged Build-Depends: coq (>= 9), debhelper-compat (= 13), dh-coq, dh-ocaml, elpi (>= 3.4.2), libcoq-core-ocaml-dev, libcoq-stdlib, libelpi-ocaml-dev, libppx-optcomp-ocaml-dev, ocaml-dune, build-essential Filtered Build-Depends: coq (>= 9), debhelper-compat (= 13), dh-coq, dh-ocaml, elpi (>= 3.4.2), libcoq-core-ocaml-dev, libcoq-stdlib, libelpi-ocaml-dev, libppx-optcomp-ocaml-dev, ocaml-dune, build-essential dpkg-deb: building package 'sbuild-build-depends-main-dummy' in '/build/reproducible-path/resolver-1OrEh7/apt_archive/sbuild-build-depends-main-dummy.deb'. Install main build dependencies (apt-based resolver) ---------------------------------------------------- Installing build dependencies +------------------------------------------------------------------------------+ | Check architectures Fri, 20 Feb 2026 12:44:59 +0000 | +------------------------------------------------------------------------------+ Arch check ok (arm64 included in any) +------------------------------------------------------------------------------+ | Build environment Fri, 20 Feb 2026 12:44:59 +0000 | +------------------------------------------------------------------------------+ Kernel: Linux 6.12.73+deb13-cloud-arm64 #1 SMP Debian 6.12.73-1 (2026-02-17) arm64 (aarch64) Toolchain package versions: binutils_2.46-1 dpkg-dev_1.23.5 g++-15_15.2.0-13 gcc-15_15.2.0-13 libc6-dev_2.42-13 libstdc++-15-dev_15.2.0-13 libstdc++6_15.2.0-13 linux-libc-dev_6.18.9-1 Package versions: 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+b1 bash_5.3-1+b1 binutils_2.46-1 binutils-aarch64-linux-gnu_2.46-1 binutils-common_2.46-1 bsdextrautils_2.41.3-3 build-essential_12.12 bzip2_1.0.8-6+b1 coq_9.1.0+dfsg-3+b2 coreutils_9.7-3+b1 cpp_4:15.2.0-5 cpp-15_15.2.0-13 cpp-15-aarch64-linux-gnu_15.2.0-13 cpp-aarch64-linux-gnu_4:15.2.0-5 dash_0.5.12-12+b1 debconf_1.5.91 debhelper_13.30 debianutils_5.23.2+b1 dh-autoreconf_21+nmu1 dh-coq_0.15 dh-ocaml_2.5 dh-strip-nondeterminism_1.15.0-1 diffutils_1:3.12-1+b1 dpkg_1.23.5 dpkg-dev_1.23.5 dwz_0.16-2+b1 elpi_3.4.3-1+b2 file_1:5.46-5+b1 findutils_4.10.0-3+b1 g++_4:15.2.0-5 g++-15_15.2.0-13 g++-15-aarch64-linux-gnu_15.2.0-13 g++-aarch64-linux-gnu_4:15.2.0-5 gcc_4:15.2.0-5 gcc-15_15.2.0-13 gcc-15-aarch64-linux-gnu_15.2.0-13 gcc-15-base_15.2.0-13 gcc-aarch64-linux-gnu_4:15.2.0-5 gettext_0.23.2-1 gettext-base_0.23.2-1 grep_3.12-1+b1 groff-base_1.23.0-10+b1 gzip_1.13-1+b1 hostname_3.25+b1 init-system-helpers_1.69 intltool-debian_0.35.0+20060710.6 libacl1_2.3.2-2+b2 libarchive-zip-perl_1.68-1 libasan8_15.2.0-13 libatomic1_15.2.0-13 libattr1_1:2.5.2-3+b1 libaudit-common_1:4.1.2-1 libaudit1_1:4.1.2-1+b1 libbase-ocaml_0.17.3-1+b2 libbase-ocaml-dev_0.17.3-1+b2 libbinutils_2.46-1 libblkid1_2.41.3-3 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 libcap-ng0_0.8.5-4+b2 libcap2_1:2.75-10+b5 libcc1-0_15.2.0-13 libcompiler-libs-ocaml-dev_5.4.0-3 libconfig-tiny-perl_2.30-1 libcoq-core_9.1.0+dfsg-3+b2 libcoq-core-ocaml_9.1.0+dfsg-3+b2 libcoq-core-ocaml-dev_9.1.0+dfsg-3+b2 libcoq-stdlib_9.0.0-3+b1 libcrypt1_1:4.5.1-1 libctf-nobfd0_2.46-1 libctf0_2.46-1 libdb5.3t64_5.3.28+dfsg2-11 libdebconfclient0_0.282+b2 libdebhelper-perl_13.30 libdpkg-perl_1.23.5 libelf1t64_0.194-1 libelpi-ocaml_3.4.3-1+b2 libelpi-ocaml-dev_3.4.3-1+b2 libexpat1_2.7.4-1 libffi8_3.5.2-3+b1 libfile-stripnondeterminism-perl_1.15.0-1 libfindlib-ocaml_1.9.8-1+b3 libfindlib-ocaml-dev_1.9.8-1+b3 libgcc-15-dev_15.2.0-13 libgcc-s1_15.2.0-13 libgdbm-compat4t64_1.26-1+b1 libgdbm6t64_1.26-1+b1 libgmp-dev_2:6.3.0+dfsg-5+b1 libgmp10_2:6.3.0+dfsg-5+b1 libgmp3-dev_2:6.3.0+dfsg-5+b1 libgmpxx4ldbl_2:6.3.0+dfsg-5+b1 libgomp1_15.2.0-13 libgprofng0_2.46-1 libhwasan0_15.2.0-13 libisl23_0.27-1+b1 libitm1_15.2.0-13 libjansson4_2.14-2+b4 liblsan0_15.2.0-13 liblzma5_5.8.2-2 libmagic-mgc_1:5.46-5+b1 libmagic1t64_1:5.46-5+b1 libmd0_1.1.0-2+b2 libmenhir-ocaml-dev_20250912+ds-1+b1 libmount1_2.41.3-3 libmpc3_1.3.1-2+b1 libmpfr6_4.2.2-2+b1 libncurses-dev_6.6+20251231-1 libncurses6_6.6+20251231-1 libncursesw6_6.6+20251231-1 libocaml-compiler-libs-ocaml-dev_0.17.0-2 libocaml-intrinsics-kernel-ocaml_0.17.1-1+b3 libocaml-intrinsics-kernel-ocaml-dev_0.17.1-1+b3 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 libpcre2-8-0_10.46-1+b1 libperl5.40_5.40.1-7 libpipeline1_1.5.8-2 libppx-derivers-ocaml-dev_1.2.1-4+b5 libppx-deriving-ocaml_6.1.1-1+b3 libppx-deriving-ocaml-dev_6.1.1-1+b3 libppx-optcomp-ocaml_1:0.17.1-1+b3 libppx-optcomp-ocaml-dev_1:0.17.1-1+b3 libppxlib-ocaml-dev_0.37.0-1+b2 libpython3-stdlib_3.13.9-3 libpython3.13-minimal_3.13.12-1 libpython3.13-stdlib_3.13.12-1 libre-ocaml-dev_1.14.0-1+b1 libreadline8t64_8.3-4 libseccomp2_2.6.0-2+b1 libselinux1_3.9-4+b1 libsexplib0-ocaml_0.17.0-1+b3 libsexplib0-ocaml-dev_0.17.0-1+b3 libsframe3_2.46-1 libsmartcols1_2.41.3-3 libsqlite3-0_3.46.1-9 libssl3t64_3.5.5-1 libstdc++-15-dev_15.2.0-13 libstdc++6_15.2.0-13 libstdio-ocaml_0.17.0-1+b3 libstdio-ocaml-dev_0.17.0-1+b3 libstdlib-ocaml_5.4.0-3 libstdlib-ocaml-dev_5.4.0-3 libsystemd0_259.1-1 libtinfo6_6.6+20251231-1 libtool_2.5.4-9 libtsan2_15.2.0-13 libubsan1_15.2.0-13 libuchardet0_0.0.8-2+b1 libudev1_259.1-1 libunistring5_1.3-2+b1 libuuid1_2.41.3-3 libxml2-16_2.15.1+dfsg-2+b1 libzarith-ocaml_1.14-1+b4 libzarith-ocaml-dev_1.14-1+b4 libzstd-dev_1.5.7+dfsg-3+b1 libzstd1_1.5.7+dfsg-3+b1 linux-libc-dev_6.18.9-1 m4_1.4.21-1 make_4.4.1-3+b1 man-db_2.13.1-1+b1 mawk_1.3.4.20260129-1 media-types_14.0.0 ncurses-base_6.6+20251231-1 ncurses-bin_6.6+20251231-1 netbase_6.5 ocaml_5.4.0-3 ocaml-base_5.4.0-3 ocaml-dune_3.20.2-3+b2 ocaml-findlib_1.9.8-1+b3 ocaml-interp_5.4.0-3 openssl-provider-legacy_3.5.5-1 patch_2.8-2+b1 perl_5.40.1-7 perl-base_5.40.1-7 perl-modules-5.40_5.40.1-7 po-debconf_1.0.22 python3_3.13.9-3 python3-minimal_3.13.9-3 python3.13_3.13.12-1 python3.13-minimal_3.13.12-1 readline-common_8.3-4 rpcsvc-proto_1.4.3-1+b2 sed_4.9-2+b2 sensible-utils_0.0.26 sysvinit-utils_3.15-6+b1 tar_1.35+dfsg-3.1+b1 tzdata_2025c-3 util-linux_2.41.3-3 xz-utils_5.8.2-2 zlib1g_1:1.3.dfsg+really1.3.1-2 +------------------------------------------------------------------------------+ | Build Fri, 20 Feb 2026 12:44:59 +0000 | +------------------------------------------------------------------------------+ Unpack source ------------- -----BEGIN PGP SIGNED MESSAGE----- Hash: SHA512 Format: 3.0 (quilt) Source: coq-elpi Binary: libcoq-elpi Architecture: any Version: 3.2.0-3 Maintainer: Debian OCaml Maintainers Uploaders: Julien Puydt Homepage: https://github.com/LPCIC/coq-elpi Standards-Version: 4.7.2 Vcs-Browser: https://salsa.debian.org/ocaml-team/coq-elpi Vcs-Git: https://salsa.debian.org/ocaml-team/coq-elpi.git Build-Depends: coq (>= 9), debhelper-compat (= 13), dh-coq, dh-ocaml, elpi (>= 3.4.2), libcoq-core-ocaml-dev, libcoq-stdlib, libelpi-ocaml-dev, libppx-optcomp-ocaml-dev, ocaml-dune Package-List: libcoq-elpi deb ocaml optional arch=any Checksums-Sha1: 15909b2bade705774c2840fceb42e8defb2b2632 766708 coq-elpi_3.2.0.orig.tar.gz 295271235b0384984a0442341e09c4d564d9fca4 3884 coq-elpi_3.2.0-3.debian.tar.xz Checksums-Sha256: eeb3ec04d57fb5c137b94e99fea590a2e56161158077502c74602fa2a5f62df1 766708 coq-elpi_3.2.0.orig.tar.gz 9c4b95a939cafecd701c48e73f95262a9a249a6cfd601f52e8d4d66af749f71f 3884 coq-elpi_3.2.0-3.debian.tar.xz Files: 389b06f8eb7d7c71f06e601328643d6b 766708 coq-elpi_3.2.0.orig.tar.gz 578f284a823aadde832502d72adde29a 3884 coq-elpi_3.2.0-3.debian.tar.xz -----BEGIN PGP SIGNATURE----- iQJNBAEBCgA3FiEEgS7v2KP7pKzk3xFLBMU71/4DBVEFAmkTclQZHGp1bGllbi5w dXlkdEBsYXBvc3RlLm5ldAAKCRAExTvX/gMFUU7qD/422j/xhkeHH8GDYYAlGV6o EgoWQyll0lwvHQoppAPazkXHzOwBE+m1CUvBLw7irvfF528u1F/gymYEzGzC1n/W WuY+TWKzWdSxXjbrTf2LDX6xTQdOlPkNioliq16rmZW41bK6O0VcyQYFsF3VDsuL SW8BstucGZijNHrkHkXRqicjD+ah9bHCf1V4Ng/QLOjGvQGeEP6ECzKIkqnhctP4 NE6K28ARCrZYwFhrFuQbYzErMHg7/GgfPdWcNVL1PxgVcP71qydKoeO3QGfkfLp9 rSmRhXbFoSlDZ4rL1FXIoR6KK/OwoWewntzeSQWr9OZ2asgSC/SFSFgMEi412OP3 tFT8e695x2mLw6iZX+F5IY6964Mfdh+E3R5twmI+Cpx3fIYjB4cCCaxCAhw8vNW6 ZniCYw31kxiannnCKTDEVjlq7I0S8F3wFEkY4LyxEu/gs8M7QMY/WKdX4ETz65Vs WHyl+TBq3y/Fogy4mvkE+mkXw3SLPMlarDO3ODEdevEOp0NMiJsgyZ/uSDxXk07k okAtQLlW1h9oaVwEsp4+gOpZb2i4vGPEWmLl2M7etubsjU3CLZnmH/mTfyvIuYkx BMtt0voIWFqs1mbOjtyT87gnoP5/4DJjTtblODSCLdbXEF2Mi4D/NrGnkkDjrE1E TcAIcme5sQUtnt0GUdi8AA== =TeUH -----END PGP SIGNATURE----- dpkg-source: warning: cannot verify inline signature for ./coq-elpi_3.2.0-3.dsc: missing OpenPGP keyrings dpkg-source: info: verifying ./coq-elpi_3.2.0-3.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 coq-elpi in /build/reproducible-path/coq-elpi-3.2.0 dpkg-source: info: unpacking coq-elpi_3.2.0.orig.tar.gz dpkg-source: info: unpacking coq-elpi_3.2.0-3.debian.tar.xz dpkg-source: info: using patch list from debian/patches/series dpkg-source: info: applying increase_timeout.patch Check disk space ---------------- Sufficient free space for build Hack binNMU version ------------------- Created changelog entry for binNMU version 3.2.0-3+b1 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=1771170068 USER=sbuild dpkg-buildpackage ----------------- Command: dpkg-buildpackage --sanitize-env -us -uc -B dpkg-buildpackage: info: source package coq-elpi dpkg-buildpackage: info: source version 3.2.0-3+b1 dpkg-buildpackage: info: source distribution experimental dpkg-buildpackage: info: source changed by arm Build Daemon (arm-conova-03) dpkg-source --before-build . dpkg-buildpackage: info: host architecture arm64 debian/rules clean dh clean --with ocaml,coq debian/rules override_dh_auto_clean make[1]: Entering directory '/build/reproducible-path/coq-elpi-3.2.0' Deprecated environment variable COQLIB, use ROCQLIB instead. Deprecated environment variable COQLIB, use ROCQLIB instead. dune clean Warning: Cache directories could not be created: Permission denied; disabling cache Hint: Make sure the directory /sbuild-nonexistent/.cache/dune/db/temp can be created make[1]: Leaving directory '/build/reproducible-path/coq-elpi-3.2.0' dh_ocamlclean dh_clean debian/rules binary-arch dh binary-arch --with ocaml,coq dh_update_autotools_config -a dh_autoreconf -a dh_ocamlinit -a dh_auto_configure -a debian/rules override_dh_auto_build make[1]: Entering directory '/build/reproducible-path/coq-elpi-3.2.0' Deprecated environment variable COQLIB, use ROCQLIB instead. Deprecated environment variable COQLIB, use ROCQLIB instead. make make[2]: Entering directory '/build/reproducible-path/coq-elpi-3.2.0' dune build --stop-on-first-error Warning: Cache directories could not be created: Permission denied; disabling cache Hint: Make sure the directory /sbuild-nonexistent/.cache/dune/db/temp can be created File "./theories-stdlib/Vector.v", line 2, characters 0-34: Warning: Using Vector.t is known to be technically difficult, see . [warn-library-file-stdlib-vector,stdlib-vector,warn-library-file,user-warn,default] File "./apps/tc/tests-stdlib/eqSimplDef.v", line 1, characters 15-19: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Bool" or the deprecated "From Coq Require Bool" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./apps/tc/tests-stdlib/eqSimplDef.v", line 1, characters 20-25: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Arith" or the deprecated "From Coq Require Arith" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./apps/tc/tests-stdlib/eqSimplDef.v", line 1, characters 26-30: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require List" or the deprecated "From Coq Require List" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_utils.ml", line 334, characters 27-52: 334 | match UState.id_of_qvar (Evd.evar_universe_context sigma) q with ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_utils.ml", line 347, characters 30-55: 347 | match UState.id_of_level (Evd.evar_universe_context sigma) l with ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_utils.ml", line 334, characters 27-52: 334 | match UState.id_of_qvar (Evd.evar_universe_context sigma) q with ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_utils.ml", line 347, characters 30-55: 347 | match UState.id_of_level (Evd.evar_universe_context sigma) l with ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "src/rocq_elpi_arg_HOAS.ml", line 513, characters 21-46: 513 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_arg_HOAS.ml", line 569, characters 21-46: 569 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_arg_HOAS.ml", line 513, characters 21-46: 513 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_arg_HOAS.ml", line 569, characters 21-46: 569 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "src/rocq_elpi_vernacular.ml", line 196, characters 19-44: 196 | let ccst = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_vernacular.ml", line 199, characters 12-44: 199 | Termops.pr_evar_universe_context ccst); ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Termops.pr_evar_universe_context (9.0) Use [Evd.pr_ustate] instead File "src/rocq_elpi_vernacular.ml", line 753, characters 6-28: 753 | let open Vernac_classifier in ^^^^^^^^^^^^^^^^^^^^^^ Warning 33 [unused-open]: unused open Vernac_classifier. File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "src/rocq_elpi_vernacular.ml", line 196, characters 19-44: 196 | let ccst = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_vernacular.ml", line 199, characters 12-44: 199 | Termops.pr_evar_universe_context ccst); ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Termops.pr_evar_universe_context (9.0) Use [Evd.pr_ustate] instead File "src/rocq_elpi_vernacular.ml", line 753, characters 6-28: 753 | let open Vernac_classifier in ^^^^^^^^^^^^^^^^^^^^^^ Warning 33 [unused-open]: unused open Vernac_classifier. File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_HOAS.ml", line 917, characters 36-61: 917 | UState.demote_global_univs uctx (Evd.evar_universe_context sigma0) ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_HOAS.ml", line 2329, characters 17-42: 2329 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_HOAS.ml", line 2935, characters 15-40: 2935 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_HOAS.ml", line 2957, characters 17-42: 2957 | let ustate = Evd.evar_universe_context e.sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_builtins.ml", line 948, characters 38-63: 948 | let univs = UState.check_univ_decl (Evd.evar_universe_context sigma) udecl ~poly in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "src/rocq_elpi_builtins.ml", line 2647, characters 13-38: 2647 | let uc = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_builtins.ml", line 2648, characters 13-45: 2648 | let uc = Termops.pr_evar_universe_context uc in ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Termops.pr_evar_universe_context (9.0) Use [Evd.pr_ustate] instead File "src/rocq_elpi_builtins.ml", line 2713, characters 19-44: 2713 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_builtins.ml", line 2749, characters 19-44: 2749 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_builtins.ml", line 1467, characters 6-19: 1467 | let open Notation in ^^^^^^^^^^^^^ Warning 33 [unused-open]: unused open Pred.Notation. File "src/rocq_elpi_builtins.ml", line 1468, characters 6-16: 1468 | let open CConv in ^^^^^^^^^^ Warning 33 [unused-open]: unused open CConv. File "src/rocq_elpi_builtins.ml", line 1469, characters 6-8: 1469 | let pp ~depth = P.term depth in ^^ Warning 26 [unused-var]: unused variable pp. File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_HOAS.ml", line 917, characters 36-61: 917 | UState.demote_global_univs uctx (Evd.evar_universe_context sigma0) ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_HOAS.ml", line 2329, characters 17-42: 2329 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_HOAS.ml", line 2935, characters 15-40: 2935 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_HOAS.ml", line 2957, characters 17-42: 2957 | let ustate = Evd.evar_universe_context e.sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Coqlib (9.0) Use Rocqlib File "src/rocq_elpi_builtins.ml", line 948, characters 38-63: 948 | let univs = UState.check_univ_decl (Evd.evar_universe_context sigma) udecl ~poly in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "_none_", line 1: Alert deprecated: module Pcoq (9.0) Use Procq File "src/rocq_elpi_builtins.ml", line 2647, characters 13-38: 2647 | let uc = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_builtins.ml", line 2648, characters 13-45: 2648 | let uc = Termops.pr_evar_universe_context uc in ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Termops.pr_evar_universe_context (9.0) Use [Evd.pr_ustate] instead File "src/rocq_elpi_builtins.ml", line 2713, characters 19-44: 2713 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_builtins.ml", line 2749, characters 19-44: 2749 | let ustate = Evd.evar_universe_context sigma in ^^^^^^^^^^^^^^^^^^^^^^^^^ Alert deprecated: Evd.evar_universe_context (9.0) Use [Evd.ustate] File "src/rocq_elpi_builtins.ml", line 1467, characters 6-19: 1467 | let open Notation in ^^^^^^^^^^^^^ Warning 33 [unused-open]: unused open Pred.Notation. File "src/rocq_elpi_builtins.ml", line 1468, characters 6-16: 1468 | let open CConv in ^^^^^^^^^^ Warning 33 [unused-open]: unused open CConv. File "src/rocq_elpi_builtins.ml", line 1469, characters 6-8: 1469 | let pp ~depth = P.term depth in ^^ Warning 26 [unused-var]: unused variable pp. File "./theories/elpi.v", line 34, characters 9-26: Warning: Coq.Init.Logic.eq has been replaced by Corelib.Init.Logic.eq. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./theories/elpi.v", line 35, characters 9-31: Warning: Coq.Init.Logic.eq_refl has been replaced by Corelib.Init.Logic.eq_refl. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./theories/elpi.v", line 37, characters 9-29: Warning: Coq.Init.Logic.False has been replaced by Corelib.Init.Logic.False. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./theories/elpi.v", line 39, characters 9-32: Warning: Coq.Init.Datatypes.bool has been replaced by Corelib.Init.Datatypes.bool. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./theories/elpi.v", line 40, characters 9-32: Warning: Coq.Init.Datatypes.andb has been replaced by Corelib.Init.Datatypes.andb. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./theories/elpi.v", line 41, characters 9-32: Warning: Coq.Init.Datatypes.true has been replaced by Corelib.Init.Datatypes.true. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./theories/elpi.v", line 42, characters 9-33: Warning: Coq.Init.Datatypes.false has been replaced by Corelib.Init.Datatypes.false. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./tests/perf_calls.v", line 11, characters 2-3: Warning: File "./tests/perf_calls.v", line 11, characters 2-3 N is linear: name it _N (discard) or N_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] File "./tests/perf_calls.v", line 13, characters 9-11: Warning: File "./tests/perf_calls.v", line 13, characters 9-11 GR is linear: name it _GR (discard) or GR_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] File "./tests/perf_calls.v", line 13, characters 7-8: Warning: File "./tests/perf_calls.v", line 13, characters 7-8 N is linear: name it _N (discard) or N_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] Query assignments: I = const «imp» X2.imp : forall (T : Type) (x : T), x = x -> Prop X2.imp is not universe polymorphic Arguments X2.imp T%_type_scope x _ Expands to: Constant elpi.tests.test_API_arguments.X2.imp Declared in library elpi.tests.test_API_arguments, line 9, characters 6-9 Query assignments: %spill1 = const «foo» foo 3 : nat Query assignments: %spill1 = const «f» %spill2 = const «f» %spill3 = const «f» %spill4 = const «f» %spill5 = const «f» f : forall [S : Type], S -> Prop f is not universe polymorphic Arguments f [S]%_type_scope _ (where some original arguments have been renamed) f is transparent Expands to: Constant elpi.tests.test_API_arguments.f Declared in library elpi.tests.test_API_arguments, line 40, characters 11-12 f (S:=bool * bool) : bool * bool -> Prop Query assignments: %spill1 = const «f» f : forall [S : Type], S -> Prop f is not universe polymorphic Arguments f [S]%_type_scope / _ (where some original arguments have been renamed) The reduction tactics unfold f when applied to 1 argument f is transparent Expands to: Constant elpi.tests.test_API_arguments.f Declared in library elpi.tests.test_API_arguments, line 40, characters 11-12 f (S:=bool * bool) : bool * bool -> Prop = fun x : bool => x = x : bool -> Prop it = I : True 1 goal ============================ True /\ ?B it2 = conj I I : True /\ True 1 goal ============================ True eq_refl : d = 3 : d = 3 eq_refl : e = 4 : e = 4 foo = fun a b c : nat => a + b + c + d + e : nat -> nat -> nat -> nat Arguments foo a%_nat_scope [b]%_nat_scope {c}%_nat_scope Query assignments: %spill1 = const «foo» Query assignments: L = [gref (indt «Empty_set»), gref (const «Empty_set_rect»), gref (const «Empty_set_ind»), gref (const «Empty_set_rec»), gref (const «Empty_set_sind»), gref (indt «unit»), gref (const «unit_rect»), gref (const «unit_ind»), gref (const «unit_rec»), gref (const «unit_sind»), gref (indt «bool»), gref (const «bool_rect»), gref (const «bool_ind»), gref (const «bool_rec»), gref (const «bool_sind»), gref (indt «reflect»), gref (const «reflect_rect»), gref (const «reflect_ind»), gref (const «reflect_rec»), gref (const «reflect_sind»), gref (const «andb»), gref (const «orb»), gref (const «implb»), gref (const «xorb»), gref (const «negb»), gref (const «andb_prop»), gref (const «andb_true_intro»), gref (indt «eq_true»), gref (const «eq_true_rect»), gref (const «eq_true_ind»), gref (const «eq_true_rec»), gref (const «eq_true_sind»), gref (const «is_true»), gref (const «eq_true_ind_r»), gref (const «eq_true_rec_r»), gref (const «eq_true_rect_r»), gref (indt «BoolSpec»), gref (const «BoolSpec_ind»), gref (const «BoolSpec_sind»), gref (indt «nat»), gref (const «nat_rect»), gref (const «nat_ind»), gref (const «nat_rec»), gref (const «nat_sind»), gref (indt «option»), gref (const «option_rect»), gref (const «option_ind»), gref (const «option_rec»), gref (const «option_sind»), gref (const «option_map»), gref (indt «sum»), gref (const «sum_rect»), gref (const «sum_ind»), gref (const «sum_rec»), gref (const «sum_sind»), gref (indt «result»), gref (const «result_rect»), gref (const «result_ind»), gref (const «result_rec»), gref (const «result_sind»), gref (indt «prod»), gref (const «prod_rect»), gref (const «prod_ind»), gref (const «prod_rec»), gref (const «prod_sind»), gref (const «fst»), gref (const «snd»), gref (const «surjective_pairing»), gref (const «injective_projections»), gref (const «pair_equal_spec»), gref (const «curry»), gref (const «uncurry»), gref (const «rew_pair»), gref (indt «list»), gref (const «list_rect»), gref (const «list_ind»), gref (const «list_rec»), gref (const «list_sind»), gref (const «length»), gref (const «app»), gref (indt «comparison»), gref (const «comparison_rect»), gref (const «comparison_ind»), gref (const «comparison_rec»), gref (const «comparison_sind»), gref (const «comparison_eq_stable»), gref (const «CompOpp»), gref (const «CompOpp_involutive»), gref (const «CompOpp_inj»), gref (const «CompOpp_iff»), gref (indt «CompareSpec»), gref (const «CompareSpec_ind»), gref (const «CompareSpec_sind»), gref (indt «CompareSpecT»), gref (const «CompareSpecT_rect»), gref (const «CompareSpecT_ind»), gref (const «CompareSpecT_rec»), gref (const «CompareSpecT_sind»), gref (const «CompareSpec2Type»), gref (const «CompSpec»), gref (const «CompSpecT»), gref (const «CompSpec2Type»), gref (const «ID»), gref (const «id»), gref (const «IDProp»), gref (const «idProp»)] MP = «Corelib.Init.Datatypes» elpi.tests.test_API_module.X.i [elpi, tests, test_API_module, X, Y] [elpi, tests, test_API_module, X, Y] Query assignments: %spill1 = elpi.tests.test_API_module.X.i %spill2 = elpi.tests.test_API_module.X.i %spill3 = elpi.tests.test_API_module.X.Y.i %spill4 = [elpi, tests, test_API_module, X, Y] %spill5 = [elpi, tests, test_API_module, X, Y] L = [gref (indt «X.i»), gref (const «X.i_rect»), gref (const «X.i_ind»), gref (const «X.i_rec»), gref (const «X.i_sind»), gref (const «X.d»), submodule «elpi.tests.test_API_module.X.Y» [gref (indt «X.Y.i»), gref (const «X.Y.i_rect»), gref (const «X.Y.i_ind»), gref (const «X.Y.i_rec»), gref (const «X.Y.i_sind»), gref (const «X.Y.d»)]] MP = «elpi.tests.test_API_module.X» XYi = «X.Y.i» XYr = «X.Y.i_rect» Xi = «X.i» Query assignments: I = «Y.i» ID = j J = «Y.j» MP = «elpi.tests.test_API_module.Y» P = [elpi, tests, test_API_module, Y] Query assignments: Mp_ta = «elpi.tests.test_API_module.TA» Query assignments: GRy = EXN PRINTING: Not_found I = EXN PRINTING: Not_found L = [gref (const «A.z»), gref (const «A.i»)] MP = «elpi.tests.test_API_module.A» MP_TA = «elpi.tests.test_API_module.TA» X1_ = «TA.i.u0» X2_ = «A.i1.u0» Module A : TA := Struct Definition x : nat. Module B Definition z : nat. Inductive i1 : Type := . Definition i1_rect : forall (P : elpi.tests.test_API_module.A. -> Type) (i : elpi.tests.test_API_module.A.), P i. Definition i1_ind : forall (P : elpi.tests.test_API_module.A. -> Prop) (i : elpi.tests.test_API_module.A.), P i. Definition i1_rec : forall (P : elpi.tests.test_API_module.A. -> Set) (i : elpi.tests.test_API_module.A.), P i. Definition i1_sind : forall (P : elpi.tests.test_API_module.A. -> SProp) (i : elpi.tests.test_API_module.A.), P i. Definition i : Type. End A.z : nat A.i : Type *** [ A.i : Type ] Query assignments: A = «elpi.tests.test_API_module.a» MP_TA = «elpi.tests.test_API_module.TA» TF = «elpi.tests.test_API_module.TF» Query assignments: MP_TA = «elpi.tests.test_API_module.TA» MP_TF = «elpi.tests.test_API_module.TF» Module F : Funsig (a:TA) Funsig (b:TA) TF := Functor (a:TA) Functor (b:TA) Struct Definition w : nat. End Module B : Sig Parameter w : nat. End := (F A A) *** [ B.w : nat ] Query assignments: MP_TA = «elpi.tests.test_API_module.TA» Module Type TB = Funsig (A:TA) Sig End Query assignments: A = «elpi.tests.test_API_module.A» Query assignments: %spill1 = «elpi.tests.test_API_module.A» Module IA := Struct Definition z : nat. Definition i : Type. End Query assignments: %spill1 = «elpi.tests.test_API_module.IA» i : Type Query assignments: %spill1 = «elpi.tests.test_API_module.TA» Module Type ITA = Sig Parameter z : nat. Parameter i : Type. End Query assignments: F = «elpi.tests.test_API_module.R.F» FT = «elpi.tests.test_API_module.R.FT» L = [submodule «elpi.tests.test_API_module.R.S» [gref (const «R.S.x»)], module-type «elpi.tests.test_API_module.R.P1», module-type «elpi.tests.test_API_module.R.P2», «elpi.tests.test_API_module.R.F» module-functor [«elpi.tests.test_API_module.R.P1», «elpi.tests.test_API_module.R.P2»], «elpi.tests.test_API_module.R.FT» module-type-functor [«elpi.tests.test_API_module.R.P2», «elpi.tests.test_API_module.R.P1»], gref (const «R.a»)] P1 = «elpi.tests.test_API_module.R.P1» P2 = «elpi.tests.test_API_module.R.P2» R = «elpi.tests.test_API_module.R» S = «elpi.tests.test_API_module.R.S» Query q X0 Query r X0 Result r 1 Query assignments: GR = const «myi» Query assignments: GR = const «myi» myi : Reflexive R : Reflexive R Query assignments: GR = const «myi» Query assignments: L = [tc-instance (const «relation_equivalence_rewrite_relation») 0, tc-instance (const «iff_rewrite_relation») 2, tc-instance (const «impl_rewrite_relation») 3, tc-instance (const «inverse_impl_rewrite_relation») 3, tc-instance (const «Equivalence_PER») 10, tc-instance (const «relation_equivalence_equivalence») 0, tc-instance (const «predicate_equivalence_equivalence») 0, tc-instance (const «iff_equivalence») 0, tc-instance (const «eq_equivalence») 10, tc-instance (const «relation_implication_preorder») 0, tc-instance (const «predicate_implication_preorder») 0, tc-instance (const «Equivalence_PreOrder») 10, tc-instance (const «subrelation_partial_order») 0, tc-instance (const «iff_Transitive») 0, tc-instance (const «impl_Transitive») 0, tc-instance (const «eq_Transitive») 0, tc-instance (const «Equivalence_Transitive») 1, tc-instance (const «StrictOrder_Transitive») 1, tc-instance (const «PreOrder_Transitive») 2, tc-instance (const «PER_Transitive») 3, tc-instance (const «StrictOrder_Irreflexive») 1, tc-instance (const «StrictOrder_Asymmetric») 1, tc-instance (const «iff_Reflexive») 0, tc-instance (const «impl_Reflexive») 0, tc-instance (const «eq_Reflexive») 0, tc-instance (const «Equivalence_Reflexive») 1, tc-instance (const «PreOrder_Reflexive») 2, tc-instance (const «myi») 10, tc-instance (const «partial_order_antisym») 2, tc-instance (const «iff_Symmetric») 0, tc-instance (const «neq_Symmetric») 0, tc-instance (const «eq_Symmetric») 0, tc-instance (const «Equivalence_Symmetric») 1, tc-instance (const «PER_Symmetric») 3] Query assignments: GR = indt «RewriteRelation» L = [tc-instance (const «relation_equivalence_rewrite_relation») 0, tc-instance (const «iff_rewrite_relation») 2, tc-instance (const «impl_rewrite_relation») 3, tc-instance (const «inverse_impl_rewrite_relation») 3] Query assignments: GR = indt «RewriteRelation» Query assignments: GR = indt «True» Query assignments: Check = c0 \ sigma c1 \ c0 = expected c1 , std.mem [tc-instance (const «hint_c») 0, tc-instance (const «instance_c») 0, tc-instance (const «instance_g») 4, tc-instance (const «hint_g») 5] c1 Exp = [expected (tc-instance (const «hint_c») 0), expected (tc-instance (const «instance_c») 0), expected (tc-instance (const «instance_g») 4), expected (tc-instance (const «hint_g») 5)] L = [tc-instance (const «hint_c») 0, tc-instance (const «instance_c») 0, tc-instance (const «instance_g») 4, tc-instance (const «hint_g») 5] Query assignments: GR = const «myc» eq_op myc t t : bool Query assignments: L = [cs-instance (const «carrier») (cs-gref (const «W»)) (const «myc»), cs-instance (const «eq_op») (cs-gref (const «Z»)) (const «myc»)] Query assignments: I = «eq» P1 = «carrier» P2 = «eq_op» Query assignments: GR = const «myc1» eq_op myc1 t1 t1 : bool Query assignments: P = const «eq_op» Query assignments: W = const «W» [cs-instance (const «eq_op») (cs-gref (const «Z1»)) (const «myc1»)] Query assignments: L = [cs-instance (const «eq_op») (cs-gref (const «Z1»)) (const «myc1»)] P = const «eq_op» W = const «Z1» Query assignments: P = const «eq_op» W = indt «nat» Query assignments: C1 = const «C1» GR1 = const «c12» GR2 = const «c1t» GR3 = const «c1f» fun x : C1 => x : C2 : C1 -> C2 fun (x : C1) (_ : x) => true : forall x : C1, x -> bool fun x : C1 => x 3 : C1 -> nat Query assignments: L = [coercion (const «c1t») 0 (const «C1») sortclass, coercion (const «c1f») 0 (const «C1») funclass, coercion (const «c12») 0 (const «C1») (grefclass (const «C2»)), coercion (const «reverse_coercion») 3 (const «ReverseCoercionSource») (grefclass (const «ReverseCoercionTarget»))] Query assignments: %spill1 = const «nuc» nuc : forall x : nat, C1 -> C3 x nuc is not universe polymorphic Arguments nuc x%_nat_scope _ nuc is a reversible coercion Expands to: Constant elpi.tests.test_API_TC_CS.nuc Declared in library elpi.tests.test_API_TC_CS, line 162, characters 6-9 File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (equiv_rewrite_relation R) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_StrictOrder) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_PreOrder) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @PartialOrder_inverse) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @subrelation_symmetric) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Transitive) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Irreflexive) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @complement_Irreflexive) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Asymmetric) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @irreflexivity) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (apply flip_Reflexive) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) unconvertible [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Antisymmetric) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Symmetric) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 42, characters 0-30: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @complement_Symmetric) [elpi.TC.hints,elpi,default] File "./tests/test_API_TC_CS.v", line 43, characters 0-70: Warning: There is an hint extern in the typeclass db: (*external*) (equiv_rewrite_relation R) [elpi.TC.hints,elpi,default] «elpi.tests.test_API_notations.abbr» Query assignments: A = «elpi.tests.test_API_notations.abbr» X1_ = X0 X2_ = c0 \ X1 c0 X3_ = c0 \ X2 c0 Syntactic constraints: {c0} : decl c0 `x` X0 ?- evar (X2 c0) (X3 c0) (X2 c0) /* suspended on X2 */ {c0} : decl c0 `x` X0 ?- evar (X4 c0) (sort (typ «elpi.tests.test_API_notations.23»)) (X3 c0) /* suspended on X4, X3 */ {c0} : decl c0 `x` X0 ?- evar (X1 c0) (sort (typ «elpi.tests.test_API_notations.22»)) (X1 c0) /* suspended on X1 */ evar X0 (sort (typ «elpi.tests.test_API_notations.21»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_API_notations.23 elpi.tests.test_API_notations.22 elpi.tests.test_API_notations.21} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α1 α2 α3 WEAK CONSTRAINTS: Notation abbr _elpi_ctx_entry_2_was_x_ _elpi_ctx_entry_1_ := (_elpi_ctx_entry_2_was_x_ = _elpi_ctx_entry_2_was_x_) Expands to: Notation elpi.tests.test_API_notations.abbr Declared in library elpi.tests.test_API_notations, line 7, characters 0-112 4 = 4 : Prop Query assignments: X4_ = X0 X5_ = c0 \ X1 c0 X6_ = c0 \ X2 c0 Syntactic constraints: {c0} : decl c0 `x` X0 ?- evar (X2 c0) (X3 c0) (X2 c0) /* suspended on X2 */ {c0} : decl c0 `x` X0 ?- evar (X4 c0) (sort (typ «elpi.tests.test_API_notations.27»)) (X3 c0) /* suspended on X4, X3 */ {c0} : decl c0 `x` X0 ?- evar (X1 c0) (sort (typ «elpi.tests.test_API_notations.26»)) (X1 c0) /* suspended on X1 */ evar X0 (sort (typ «elpi.tests.test_API_notations.25»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_API_notations.27 elpi.tests.test_API_notations.26 elpi.tests.test_API_notations.25} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α4 α5 α6 WEAK CONSTRAINTS: Notation abbr2 _elpi_ctx_entry_1_was_x_ := (fun _ => _elpi_ctx_entry_1_was_x_ = _elpi_ctx_entry_1_was_x_) Expands to: Notation elpi.tests.test_API_notations.abbr2 Declared in library elpi.tests.test_API_notations, line 16, characters 0-94 (fun _ : nat => 2 = 2) 3 : Prop fun `_` X0 c0 \ app [global (indt «eq»), X1, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] Query assignments: %spill1 = «elpi.tests.test_API_notations.abbr2» T = fun `_` X0 c0 \ app [global (indt «eq»), X1, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] X7_ = X2 Query assignments: %spill1 = «elpi.tests.test_API_notations.abbr2» Query assignments: E = fun `n` (global (indt «nat»)) c0 \ fun `t` (app [global (const «T2»), c0]) c1 \ fun `x` (app [global (const «f3»), c0, app [global (const «h»), c0, c1]]) c2 \ app [global (const «g3»), c0, app [global (const «h»), c0, c1], app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]] TY = prod `n` (global (indt «nat»)) c0 \ prod `t` (app [global (const «T2»), c0]) c1 \ prod `x` (app [global (const «f3»), c0, app [global (const «h»), c0, c1]]) c2 \ global (indt «nat») X1_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_API_elaborate.33 elpi.tests.test_API_elaborate.30 elpi.tests.test_API_elaborate.29} |= elpi.tests.test_API_elaborate.33 < elpi.tests.test_API_elaborate.29 Set <= elpi.tests.test_API_elaborate.30 Set <= elpi.tests.test_API_elaborate.33 T2.u0 <= elpi.tests.test_API_elaborate.33 f3.u0 <= elpi.tests.test_API_elaborate.33 ALGEBRAIC UNIVERSES: {elpi.tests.test_API_elaborate.30} FLEXIBLE UNIVERSES: elpi.tests.test_API_elaborate.30 SORTS: α4 := Type α5 := Type WEAK CONSTRAINTS: Query assignments: E = app [global (const «bar»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]], global (const «xxx»)] TY = prop X2_ = X0 X3_ = X1 Query assignments: E = app [global (const «op»), global (const «c»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]] TY = app [global (const «field»), global (const «c»)] X4_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_API_elaborate.40 elpi.tests.test_API_elaborate.39} |= elpi.tests.test_API_elaborate.40 < elpi.tests.test_API_elaborate.39 s.u0 <= elpi.tests.test_API_elaborate.40 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α11 := Type WEAK CONSTRAINTS: raw: parameter A explicit (global (const «T1»)) c0 \ inductive ind1 tt (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.41»)) c1 \ arity (sort (typ «elpi.tests.test_API_elaborate.43»))) c1 \ [constructor K1 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.41»)) c2 \ arity (prod `_` (app [c1, c2]) c3 \ app [c1, c2])), constructor K2 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.41»)) c2 \ arity (prod `_` (app [global (const «f1»), c0]) c3 \ app [c1, c2])), constructor K3 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.41»)) c2 \ arity (prod `a` (app [global (const «f1»), c0]) c3 \ app [c1, c2]))] elab1: parameter A explicit (global (const «T1»)) c0 \ inductive ind1 tt (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.44»)) c1 \ arity (sort (typ «elpi.tests.test_API_elaborate.46»))) c1 \ [constructor K1 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.49»)) c2 \ arity (prod `_` (app [c1, c2]) c3 \ app [c1, c2])), constructor K2 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.51»)) c2 \ arity (prod `_` (app [global (const «f1»), c0]) c3 \ app [c1, c2])), constructor K3 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.54»)) c2 \ arity (prod `a` (app [global (const «f1»), c0]) c3 \ app [c1, c2]))] elab2: parameter A explicit (global (const «T1»)) c0 \ parameter B explicit (sort (typ «ind1.u0»)) c1 \ inductive ind1 tt (arity (sort (typ «ind1.u1»))) c2 \ [constructor K1 (arity (prod `_` c2 c3 \ c2)), constructor K2 (arity (prod `_` (app [global (const «f1»), c0]) c3 \ c2)), constructor K3 (arity (prod `a` (app [global (const «f1»), c0]) c3 \ c2))] raw: parameter A explicit (global (const «T1»)) c0 \ record ind2 (sort (typ «f1.u0»)) Build_ind2 (field [coercion off, canonical tt] fld1 (app [global (const «f1»), c0]) c1 \ field [coercion off, canonical tt] fld2 (app [global (indt «eq»), app [global (const «f1»), c0], c1, c1]) c2 \ end-record) elab1: parameter A explicit (global (const «T1»)) c0 \ record ind2 (sort (typ «elpi.tests.test_API_elaborate.60»)) Build_ind2 (field [coercion off, canonical tt] fld1 (app [global (const «f1»), c0]) c1 \ field [coercion off, canonical tt] fld2 (app [global (indt «eq»), app [global (const «f1»), c0], c1, c1]) c2 \ end-record) elab2: parameter A explicit (global (const «T1»)) c0 \ record ind2 (sort (typ «ind2.u0»)) Build_ind2 (field [coercion off, canonical tt] fld1 (app [global (const «f1»), c0]) c1 \ field [coercion off, canonical tt] fld2 (app [global (indt «eq»), app [global (const «f1»), c0], c1, c1]) c2 \ end-record) raw: record ind3 (sort (typ «elpi.tests.test_API_elaborate.65»)) Build_ind3 (field [coercion reversible, canonical tt] fld3 (sort (typ «elpi.tests.test_API_elaborate.63»)) c0 \ field [coercion off, canonical tt] fld4 (prod `x` c0 c1 \ app [global (indt «eq»), c0, c1, c1]) c1 \ end-record) elab1: record ind3 (sort (typ «elpi.tests.test_API_elaborate.66»)) Build_ind3 (field [coercion reversible, canonical tt] fld3 (sort (typ «elpi.tests.test_API_elaborate.67»)) c0 \ field [coercion off, canonical tt] fld4 (prod `x` c0 c1 \ app [global (indt «eq»), c0, c1, c1]) c1 \ end-record) elab2: record ind3 (sort (typ «ind3.u0»)) Build_ind3 (field [coercion reversible, canonical tt] fld3 (sort (typ «ind3.u1»)) c0 \ field [coercion off, canonical tt] fld4 (prod `x` c0 c1 \ app [global (indt «eq»), c0, c1, c1]) c1 \ end-record) forall x : ind3, x -> Prop : Type Query assignments: E = app [global (const «op»), global (const «c»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]] TY = app [global (const «field»), global (const «c»)] Universe constraints: UNIVERSES: {elpi.tests.test_API_elaborate.75 elpi.tests.test_API_elaborate.74} |= elpi.tests.test_API_elaborate.75 < elpi.tests.test_API_elaborate.74 s.u0 <= elpi.tests.test_API_elaborate.75 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α21 := Type WEAK CONSTRAINTS: unknown_gref «elpi.tests.test_API_elaborate.77» «elpi.tests.test_API_elaborate.77» File "./tests/test_API_elaborate.v", line 159, characters 19-20: Warning: File "./tests/test_API_elaborate.v", line 159, characters 19-20 Y is linear: name it _Y (discard) or Y_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] File "./tests/test_API_elaborate.v", line 169, characters 33-34: Warning: File "./tests/test_API_elaborate.v", line 169, characters 33-34 Y is linear: name it _Y (discard) or Y_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] Coq version: 9.1.0 = 9 . 1 . 0 Query assignments: MA = 9 MI = 1 P = 0 V = 9.1.0 hello world A B Query assignments: GR = «nat» Query assignments: GR = «Nat.add» MP_ = «Corelib.Init.Datatypes» Query assignments: A_ = «elpi.tests.test_API.succ» GR = «Nat.add» MP_ = «Corelib.Init.Datatypes» X1 = [loc-gref (const «Nat.add»)] X2 = [loc-gref (const «Nat.add»)] X3 = [loc-abbreviation «elpi.tests.test_API.succ»] X4 = [loc-modpath «Corelib.Init.Datatypes»] Universe constraints: Query assignments: X_ = «elpi.tests.test_API.21» Universe constraints: UNIVERSES: {elpi.tests.test_API.21} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: X_ = typ «elpi.tests.test_API.22» Y_ = typ «elpi.tests.test_API.23» Universe constraints: UNIVERSES: {elpi.tests.test_API.23 elpi.tests.test_API.22} |= elpi.tests.test_API.22 <= elpi.tests.test_API.23 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: X_ = typ «elpi.tests.test_API.24» Y_ = typ «elpi.tests.test_API.25» Universe constraints: UNIVERSES: {elpi.tests.test_API.25 elpi.tests.test_API.24} |= elpi.tests.test_API.24 <= elpi.tests.test_API.25 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: X_ = typ «elpi.tests.test_API.26» Y_ = typ «elpi.tests.test_API.27» Z_ = typ «elpi.tests.test_API.28» Universe constraints: UNIVERSES: {elpi.tests.test_API.28 elpi.tests.test_API.27 elpi.tests.test_API.26} |= elpi.tests.test_API.26 <= elpi.tests.test_API.28 elpi.tests.test_API.27 <= elpi.tests.test_API.28 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: X_ = typ «elpi.tests.test_API.29» Y_ = typ «elpi.tests.test_API.30» Universe constraints: UNIVERSES: {elpi.tests.test_API.30 elpi.tests.test_API.29} |= elpi.tests.test_API.29 < elpi.tests.test_API.30 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: [foo (const «X»), foo (indt «nat»), foo (indt «bool»)] [foo (indt «nat»), foo (indt «bool»)] [] [foo (indt «nat»)] hello [int 1, int 2, trm (global (indt «nat»)), str x] coq.pp.box (coq.pp.hv 2) [coq.pp.str Module, coq.pp.spc, coq.pp.str Foo, coq.pp.spc, coq.pp.str :=, coq.pp.brk 1 0, coq.pp.str body, coq.pp.spc, coq.pp.str End Foo.] Module Foo := body End Foo. fix foo (x : ?e3) (y : ?e4) {struct x} : ?e2 := match x as _elpi_renamed_x_3 return ?e6 with | true => S (S (S O)) | false => y end fix foo x y {struct x} := if x as _elpi_renamed_x_3 then 3 else y File "./tests/test_API.v", line 59, characters 0-216: Warning: Coq.Init.Datatypes.nat has been replaced by Corelib.Init.Datatypes.nat. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] Query assignments: BO = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] GR = «Nat.add» TY = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») c2 global (indt «nat») z nat Query assignments: T = global (indt «nat») c2 global (indt «nat») z nat Query assignments: T = global (indt «nat») Illegal application (Non-functional construction): The expression "Prop" of type "Type" cannot be applied to the term "Prop" : "Type" Query assignments: E = Illegal application (Non-functional construction): The expression "Prop" of type "Type" cannot be applied to the term "Prop" : "Type" Unable to unify "bool" with "nat". Query assignments: Msg = Unable to unify "bool" with "nat". Query assignments: Cons = global (indc «cons») GRCons = indc «cons» GRList = indt «list» GRNat = indt «nat» GRNil = indc «nil» GRZero = indc «O» L = app [global (indc «cons»), global (indt «nat»), global (indc «O»), app [global (indc «nil»), global (indt «nat»)]] LE = app [global (indc «cons»), global (indt «nat»), global (indc «O»), app [global (indc «nil»), global (indt «nat»)]] List = global (indt «list») Nat = global (indt «nat») Nil = global (indc «nil») Zero = global (indc «O») Universe constraints: UNIVERSES: {elpi.tests.test_API_typecheck.24 elpi.tests.test_API_typecheck.23 elpi.tests.test_API_typecheck.22 elpi.tests.test_API_typecheck.21} |= elpi.tests.test_API_typecheck.23 < elpi.tests.test_API_typecheck.22 elpi.tests.test_API_typecheck.24 < elpi.tests.test_API_typecheck.21 Set <= elpi.tests.test_API_typecheck.23 Set <= elpi.tests.test_API_typecheck.24 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_API_typecheck.24 elpi.tests.test_API_typecheck.23 SORTS: α1 := Type α2 := Type α3 α4 WEAK CONSTRAINTS: global (indt «nat») Query assignments: T = global (indt «nat») X1_ = global (indt «nat») X2_ = global (indt «nat») Universe constraints: UNIVERSES: {elpi.tests.test_API_typecheck.29 elpi.tests.test_API_typecheck.28 elpi.tests.test_API_typecheck.27 elpi.tests.test_API_typecheck.26 elpi.tests.test_API_typecheck.25} |= Set < elpi.tests.test_API_typecheck.27 elpi.tests.test_API_typecheck.28 < elpi.tests.test_API_typecheck.26 elpi.tests.test_API_typecheck.29 < elpi.tests.test_API_typecheck.25 Set <= elpi.tests.test_API_typecheck.28 Set <= elpi.tests.test_API_typecheck.29 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_API_typecheck.29 elpi.tests.test_API_typecheck.28 SORTS: α5 := Type α6 := Type α7 := Type α8 α9 WEAK CONSTRAINTS: «elpi.tests.test_API_typecheck.30» Query assignments: U = «elpi.tests.test_API_typecheck.30» Universe constraints: UNIVERSES: {elpi.tests.test_API_typecheck.30} |= Set <= elpi.tests.test_API_typecheck.30 ALGEBRAIC UNIVERSES: {elpi.tests.test_API_typecheck.30} FLEXIBLE UNIVERSES: elpi.tests.test_API_typecheck.30 SORTS: WEAK CONSTRAINTS: Unable to unify "Set" with "Prop" (universe inconsistency: Cannot enforce Set <= Prop). Query assignments: E = Unable to unify "Set" with "Prop" (universe inconsistency: Cannot enforce Set <= Prop). Query assignments: CA = «a» CB = «b» CC = «c» d : nat d is not universe polymorphic Expands to: Variable d eq_refl : e2 = 3 : e2 = 3 Query assignments: X = «x» fx : nat -> nat : nat -> nat opaque_3 : nat opaque_3 is not universe polymorphic opaque_3 is opaque Expands to: Constant elpi.tests.test_API_section.opaque_3 Declared in library elpi.tests.test_API_section, line 44, characters 0-72 foo : nat : nat bar : bool -> nat : bool -> nat lib.foo : True lib.foo : True Debug: ----<<---- enter: coq.say raw: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) raw: parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] Debug: ---->>---- exit: coq.say raw: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))])) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) typed: parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] Debug: ---->>---- exit: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) Debug: ----<<---- enter: coq.env.add-indt (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.22»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.29»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.23»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.24»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) X0 Debug: ---->>---- exit: coq.env.add-indt (parameter A1 maximal (sort (typ «foo1.u0»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «foo1.u1»)) c2 \ parameter B2 explicit (sort (typ «foo1.u2»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «foo1.u3»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «foo1.u1»)) c3 \ parameter B2 explicit (sort (typ «foo1.u2»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «foo1.u1»)) c3 \ parameter B2 explicit (sort (typ «foo1.u2»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) «foo1» foo1 ?A2 ?B1 ?B2 ?n : Type : Type where ?A1 : [ |- Type] ?A2 : [ |- ?A1] ?B1 : [ |- Type] ?B2 : [ |- Type] ?n : [ |- nat] a_k1 ?A2 ?B1 ?B2 3 ?f : foo1 ?A2 ?B1 ?B2 3 : foo1 ?A2 ?B1 ?B2 3 where ?A1 : [ |- Type] ?A2 : [ |- ?A1] ?B1 : [ |- Type] ?B2 : [ |- Type] ?f : [ |- foo1 ?A2 (?B1 * ?B1) ?B2 3] Debug: ----<<---- enter: coq.say raw: (parameter A1 maximal X0 c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ X1)) c2 \ parameter B2 explicit (sort (typ X2)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ X3))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ X4)) c3 \ parameter B2 explicit (sort (typ X5)) c4 \ arity (prod `x` (X6 c4) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ X7)) c3 \ parameter B2 explicit (sort (typ X8)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) raw: parameter A1 maximal X0 c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ X1)) c2 \ parameter B2 explicit (sort (typ X2)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ X3))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ X4)) c3 \ parameter B2 explicit (sort (typ X5)) c4 \ arity (prod `x` (X6 c4) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ X7)) c3 \ parameter B2 explicit (sort (typ X8)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] Debug: ---->>---- exit: coq.say raw: (parameter A1 maximal X0 c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ X1)) c2 \ parameter B2 explicit (sort (typ X2)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ X3))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ X4)) c3 \ parameter B2 explicit (sort (typ X5)) c4 \ arity (prod `x` (X6 c4) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ X7)) c3 \ parameter B2 explicit (sort (typ X8)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) Debug: ----<<---- enter: std.assert-ok! (coq.elaborate-indt-decl-skeleton (parameter A1 maximal X0 c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ X1)) c2 \ parameter B2 explicit (sort (typ X2)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ X3))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ X4)) c3 \ parameter B2 explicit (sort (typ X5)) c4 \ arity (prod `x` (X6 c4) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ X7)) c3 \ parameter B2 explicit (sort (typ X8)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) X9) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.elaborate-indt-decl-skeleton (parameter A1 maximal X0 c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.67»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.70»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.75»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.77»)) c4 \ arity (prod `x` (X6 c4) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.86»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.63»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.65»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.68»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.71»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.76»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.78»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.87»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.89»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.63»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.65»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.68»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.71»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.76»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.78»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.87»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.89»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) typed: parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.63»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.65»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.68»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.71»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.76»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.78»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.87»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.89»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] Debug: ---->>---- exit: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.63»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.65»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.68»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.71»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.76»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.78»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.87»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.89»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) Debug: ----<<---- enter: coq.env.add-indt (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.63»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.65»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.68»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.71»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.76»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.78»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.87»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.89»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) X10 Debug: ---->>---- exit: coq.env.add-indt (parameter A1 maximal (sort (typ «foo1.u0»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «foo1.u1»)) c2 \ parameter B2 explicit (sort (typ «foo1.u2»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «foo1.u3»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.76»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.78»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.87»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.89»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) «foo1» foo1 ?A2 ?B1 ?B2 ?n : Type : Type where ?A1 : [ |- Type] ?A2 : [ |- ?A1] ?B1 : [ |- Type] ?B2 : [ |- Type] ?n : [ |- nat] a_k1 ?A2 ?B1 ?B2 3 ?f : foo1 ?A2 ?B1 ?B2 3 : foo1 ?A2 ?B1 ?B2 3 where ?A1 : [ |- Type] ?A2 : [ |- ?A1] ?B1 : [ |- Type] ?B2 : [ |- Type] ?f : [ |- foo1 ?A2 (?B1 * ?B1) ?B2 3] Query assignments: D = parameter A explicit (sort (typ «t.u0»)) c0 \ inductive t tt (parameter y explicit (global (indt «nat»)) c1 \ arity (sort (typ «elpi.tests.test_arg_HOAS.111»))) c1 \ [constructor K (parameter y explicit (global (indt «nat»)) c2 \ parameter x explicit c0 c3 \ parameter n maximal (global (indt «nat»)) c4 \ arity (prod `_` (app [c1, c4]) c5 \ app [c1, c2]))] I = «t» Universe constraints: UNIVERSES: {elpi.tests.test_arg_HOAS.111} |= Set <= elpi.tests.test_arg_HOAS.111 t.u0 <= elpi.tests.test_arg_HOAS.111 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Debug: ----<<---- enter: coq.say raw: (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) raw: record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record) Debug: ---->>---- exit: coq.say raw: (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record))) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record))) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) typed: record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record) Debug: ---->>---- exit: coq.say typed: (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) Debug: ----<<---- enter: coq.env.add-indt (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) X0 Debug: ---->>---- exit: coq.env.add-indt (record foo (sort (typ «Set»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) «foo» Debug: ----<<---- enter: coq.say raw: (record foo (sort (typ X0)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), X1 c0, app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) raw: record foo (sort (typ X0)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), X1 c0, app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record) Debug: ---->>---- exit: coq.say raw: (record foo (sort (typ X0)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), X1 c0, app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) Debug: ----<<---- enter: std.assert-ok! (coq.elaborate-indt-decl-skeleton (record foo (sort (typ X0)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), X1 c0, app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) X2) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.elaborate-indt-decl-skeleton (record foo (sort (typ «elpi.tests.test_arg_HOAS.115»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), X1 c0, app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) (record foo (sort (typ «elpi.tests.test_arg_HOAS.116»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record))) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (record foo (sort (typ «elpi.tests.test_arg_HOAS.116»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) typed: record foo (sort (typ «elpi.tests.test_arg_HOAS.116»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record) Debug: ---->>---- exit: coq.say typed: (record foo (sort (typ «elpi.tests.test_arg_HOAS.116»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) Debug: ----<<---- enter: coq.env.add-indt (record foo (sort (typ «elpi.tests.test_arg_HOAS.116»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) X3 Debug: ---->>---- exit: coq.env.add-indt (record foo (sort (typ «foo.u0»)) Build_foo (field [coercion off, canonical tt] f (prod `_` (global (indt «nat»)) c0 \ global (indt «nat»)) c0 \ field [coercion off, canonical tt] _ (app [global (indt «eq»), global (indt «nat»), app [c0, global (indc «O»)], global (indc «O»)]) c1 \ end-record)) «foo» Debug: ----<<---- enter: coq.say raw: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record)) raw: parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record) Debug: ---->>---- exit: coq.say raw: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record)) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record))) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record))) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record)) typed: parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record) Debug: ---->>---- exit: coq.say typed: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record)) Debug: ----<<---- enter: coq.env.add-indt (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.119»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.119»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record)) X0 Debug: ---->>---- exit: coq.env.add-indt (parameter A explicit (sort (typ «foo.u0»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «foo.u0»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `a` c0 c3 \ prod `_` (app [global (indt «eq»), c0, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (global (indt «nat»)) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` c0 c5 \ app [global (indt «eq»), c0, app [c2, c5, c5], c5]) c4 \ end-record)) «foo» Query assignments: I = «foo» Debug: ----<<---- enter: coq.say raw: (parameter A explicit X0 c0 \ parameter B explicit c0 c1 \ record foo (sort (typ X1)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `_elpi_renamed_a_1` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c2 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c3 c4) c5 \ app [global (indt «eq»), X5 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record)) raw: parameter A explicit X0 c0 \ parameter B explicit c0 c1 \ record foo (sort (typ X1)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `_elpi_renamed_a_1` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c2 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c3 c4) c5 \ app [global (indt «eq»), X5 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record) Debug: ---->>---- exit: coq.say raw: (parameter A explicit X0 c0 \ parameter B explicit c0 c1 \ record foo (sort (typ X1)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `_elpi_renamed_a_1` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c2 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c3 c4) c5 \ app [global (indt «eq»), X5 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record)) Debug: ----<<---- enter: std.assert-ok! (coq.elaborate-indt-decl-skeleton (parameter A explicit X0 c0 \ parameter B explicit c0 c1 \ record foo (sort (typ X1)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `_elpi_renamed_a_1` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c2 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c3 c4) c5 \ app [global (indt «eq»), X5 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record)) X6) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.elaborate-indt-decl-skeleton (parameter A explicit X0 c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.128»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `_elpi_renamed_a_1` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c2 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ ...TRUNCATED BY DUNE... ----<<---- enter: coq.env.add-const x1 (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.147»)) c0 \ fun `w` c0 c1 \ fun `n` (global (indt «nat»)) c2 \ app [global (const «Nat.add»), c2, app [global (indc «S»), global (indc «O»)]]) (prod `P` (sort (typ «elpi.tests.test_arg_HOAS.143»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»)) X8 X9 Debug: ---->>---- exit: coq.env.add-const x1 (fun `P` (sort (typ «x1.u1»)) c0 \ fun `w` c0 c1 \ fun `n` (global (indt «nat»)) c2 \ app [global (const «Nat.add»), c2, app [global (indc «S»), global (indc «O»)]]) (prod `P` (sort (typ «x1.u0»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»)) X8 «x1» x1 : forall P : Type, P -> nat -> nat : forall P : Type, P -> nat -> nat eq_refl : x1 = (fun (P : Type) (_ : P) (n : nat) => n + 1) : x1 = (fun (P : Type) (_ : P) (n : nat) => n + 1) Debug: ----<<---- enter: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (sort (typ «elpi.tests.test_arg_HOAS.152»))) X0 Debug: ---->>---- exit: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (sort (typ «elpi.tests.test_arg_HOAS.152»))) (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.152»)) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-ty (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.152»)) X1) illtyped axiom Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-ty (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.152»)) (typ «elpi.tests.test_arg_HOAS.153»)) illtyped axiom Debug: ----<<---- enter: coq.env.add-axiom y (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.152»)) X2 Debug: ---->>---- exit: coq.env.add-axiom y (prod `n` (global (indt «nat»)) c0 \ sort (typ «y.u0»)) «y» y : nat -> Type : nat -> Type Debug: ----<<---- enter: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (global (indt «nat»))) X0 Debug: ---->>---- exit: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (global (indt «nat»))) (prod `n` (global (indt «nat»)) c0 \ global (indt «nat»)) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (fun `n` (global (indt «nat»)) c0 \ app [global (indc «S»), c0]) (prod `n` (global (indt «nat»)) c0 \ global (indt «nat»))) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (fun `n` (global (indt «nat»)) c0 \ app [global (indc «S»), c0]) (prod `n` (global (indt «nat»)) c0 \ global (indt «nat»))) illtyped definition Debug: ----<<---- enter: coq.env.add-const x (fun `n` (global (indt «nat»)) c0 \ app [global (indc «S»), c0]) (prod `n` (global (indt «nat»)) c0 \ global (indt «nat»)) X1 X2 Debug: ---->>---- exit: coq.env.add-const x (fun `n` (global (indt «nat»)) c0 \ app [global (indc «S»), c0]) (prod `n` (global (indt «nat»)) c0 \ global (indt «nat»)) X1 «x» parameter A1 maximal (sort (typ «foo1.u0»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «foo1.u1»)) c2 \ parameter B2 explicit (sort (typ «foo1.u2»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «foo1.u3»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «foo1.u1»)) c3 \ parameter B2 explicit (sort (typ «foo1.u2»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «foo1.u1»)) c3 \ parameter B2 explicit (sort (typ «foo1.u2»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] Query assignments: D = parameter A1 maximal (sort (typ «foo1.u0»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «foo1.u1»)) c2 \ parameter B2 explicit (sort (typ «foo1.u2»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «foo1.u3»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «foo1.u1»)) c3 \ parameter B2 explicit (sort (typ «foo1.u2»)) c4 \ arity (prod `x` (global (indt «nat»)) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c4, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]) c6 \ app [c2, c3, c4, c5])), constructor a_k2 (parameter B1 explicit (sort (typ «foo1.u1»)) c3 \ parameter B2 explicit (sort (typ «foo1.u2»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] I = «inductive_nup.foo1» foo1 ?A2 ?B1 ?B2 ?n : Type : Type where ?A1 : [ |- Type] ?A2 : [ |- ?A1] ?B1 : [ |- Type] ?B2 : [ |- Type] ?n : [ |- nat] a_k1 ?A2 ?B1 ?B2 3 ?f : foo1 ?A2 ?B1 ?B2 3 : foo1 ?A2 ?B1 ?B2 3 where ?A1 : [ |- Type] ?A2 : [ |- ?A1] ?B1 : [ |- Type] ?B2 : [ |- Type] ?f : [ |- foo1 ?A2 (?B1 * ?B1) ?B2 3] Query assignments: I = «inductive_nup.r» R = parameter A explicit (sort (typ «r.u0»)) c0 \ parameter a explicit c0 c1 \ record r (sort (typ «r.u0»)) R (field [coercion reversible, canonical tt] f (prod `_` c0 c2 \ c0) c2 \ field [coercion off, canonical tt] g c0 c3 \ field [coercion off, canonical tt] p (app [global (indt «eq»), c0, c1, c3]) c4 \ end-record) Record r (A : Type) (a : A) : Type := R { f : A -> A; g : A; p : a = g }. Arguments r A%_type_scope a Arguments R A%_type_scope a f%_function_scope g p Arguments f A%_type_scope a record _ Arguments g A%_type_scope a record Arguments p A%_type_scope a record Debug: ----<<---- enter: coq.say raw: (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ []) raw: inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ [] Debug: ---->>---- exit: coq.say raw: (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ []) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ [])) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ [])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ []) typed: inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ [] Debug: ---->>---- exit: coq.say typed: (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ []) Debug: ----<<---- enter: coq.env.add-indt (inductive X1 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.167»))) c0 \ []) X0 Debug: ---->>---- exit: coq.env.add-indt (inductive X1 tt (arity (sort (typ «X1.u0»))) c0 \ []) «X1» X1 : Type@{X1.u0} X1 is not universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X1 Declared in library elpi.tests.test_arg_HOAS, line 283, characters 0-68 Debug: ----<<---- enter: coq.say raw: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt) raw: inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ [] upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt Debug: ---->>---- exit: coq.say raw: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt) Debug: ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu1} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: eu1 SORTS: WEAK CONSTRAINTS: Debug: ---->>---- exit: coq.univ.print Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ [])) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ [])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) typed: inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ [] Debug: ---->>---- exit: coq.say typed: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt) X0 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt) => coq.env.add-indt (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) X1 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.170»] tt [] tt) => coq.env.add-indt (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) «X3» Debug: ----<<---- enter: coq.say raw: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ []) (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt) raw: inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ [] upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt Debug: ---->>---- exit: coq.say raw: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ []) (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt) Debug: ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu2} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: eu2 SORTS: WEAK CONSTRAINTS: Debug: ---->>---- exit: coq.univ.print Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ [])) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ [])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ []) typed: inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ [] Debug: ---->>---- exit: coq.say typed: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ []) Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt) X0 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt) (get-option coq:udecl-cumul (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl-cumul (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt) => coq.env.add-indt (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ []) X1 Debug: ---->>---- exit: get-option coq:udecl-cumul (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.178»] tt [] tt) => coq.env.add-indt (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.178»))) c0 \ []) «X4» X3@{eu1} : Type@{eu1} (* eu1 |= *) X3 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X3 Declared in library elpi.tests.test_arg_HOAS, line 291, characters 0-68 X4@{eu2} : Type@{eu2} (* *eu2 |= *) X4 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X4 Declared in library elpi.tests.test_arg_HOAS, line 292, characters 0-79 Query assignments: GR = indt «X3» Universe constraints: UNIVERSES: {elpi.tests.test_arg_HOAS.186} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_arg_HOAS.186 SORTS: WEAK CONSTRAINTS: Query assignments: GR = indt «X4» Universe constraints: UNIVERSES: {elpi.tests.test_arg_HOAS.187} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_arg_HOAS.187 SORTS: WEAK CONSTRAINTS: Debug: ----<<---- enter: coq.say raw: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff) raw: inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ [] upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff Debug: ---->>---- exit: coq.say raw: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff) Debug: ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu3} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: eu3 SORTS: WEAK CONSTRAINTS: Debug: ---->>---- exit: coq.univ.print Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ [])) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ [])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ []) typed: inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ [] Debug: ---->>---- exit: coq.say typed: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ []) Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff) X0 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff) => coq.env.add-indt (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ []) X1 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.188»] ff [] ff) => coq.env.add-indt (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.188»))) c0 \ []) «X5» X5@{eu3} : Type@{eu3} (* eu3 |= *) X5 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X5 Declared in library elpi.tests.test_arg_HOAS, line 299, characters 0-76 Debug: ----<<---- enter: coq.say raw: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))]) (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff) raw: inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))] upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff Debug: ---->>---- exit: coq.say raw: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))]) (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff) Debug: ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu5 eu4} |= eu4 < eu5 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: eu5 eu4 SORTS: WEAK CONSTRAINTS: Debug: ---->>---- exit: coq.univ.print Debug: ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))])) Illtyped inductive declaration Debug: ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))]) typed: inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))] Debug: ---->>---- exit: coq.say typed: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))]) Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff) X0 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff) => coq.env.add-indt (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))]) X1 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.196», «elpi.tests.test_arg_HOAS.197»] ff [lt «elpi.tests.test_arg_HOAS.196» «elpi.tests.test_arg_HOAS.197»] ff) => coq.env.add-indt (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.197»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.196»)) c1 \ c0))]) «X6» X6@{eu4 eu5} : Type@{eu5} (* eu4 eu5 |= eu4 < eu5 *) X6 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X6 Declared in library elpi.tests.test_arg_HOAS, line 302, characters 0-98 Debug: ----<<---- enter: coq.say raw: (inductive X8 tt (arity (sort (typ X0))) c0 \ []) (upoly-decl [] tt [] tt) raw: inductive X8 tt (arity (sort (typ X0))) c0 \ [] upoly-decl [] tt [] tt Debug: ---->>---- exit: coq.say raw: (inductive X8 tt (arity (sort (typ X0))) c0 \ []) (upoly-decl [] tt [] tt) Debug: ----<<---- enter: coq.univ.print Universe constraints: Debug: ---->>---- exit: coq.univ.print Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-indt-decl-skeleton (inductive X8 tt (arity (sort (typ X0))) c0 \ []) X1) Illtyped inductive declaration Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-indt-decl-skeleton (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ []) (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ [])) Illtyped inductive declaration Debug: ----<<---- enter: coq.say typed: (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ []) typed: inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ [] Debug: ---->>---- exit: coq.say typed: (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ []) Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X2 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-indt (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ []) X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-indt (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.212»))) c0 \ []) «X8» X8@{u} : Type@{u} (* u |= *) X8 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X8 Declared in library elpi.tests.test_arg_HOAS, line 307, characters 0-72 Debug: ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ parameter x explicit c0 c1 \ arity c0) X0 Debug: ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ parameter x explicit c0 c1 \ arity c0) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ prod `x` c0 c1 \ c0) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ prod `x` c0 c1 \ c0)) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ prod `x` c0 c1 \ c0)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X1 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f1 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ prod `x` c0 c1 \ c0) X2 X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f1 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.220»)) c0 \ prod `x` c0 c1 \ c0) X2 «f1» f1@{u} : forall T : Type@{u}, T -> T (* u |= *) f1 is universe polymorphic Arguments f1 T%_type_scope x f1 is transparent Expands to: Constant elpi.tests.test_arg_HOAS.f1 Declared in library elpi.tests.test_arg_HOAS, line 311, characters 0-78 Debug: ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ parameter x explicit c0 c2 \ arity c0) X0 Debug: ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ parameter x explicit c0 c2 \ arity c0) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ prod `x` c0 c2 \ c0) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.221»] ff [] tt) X1 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.221»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.221»] ff [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.221»] ff [] tt) => coq.env.add-const f2 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.221»] ff [] tt) => coq.env.add-const f2 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.221»)) c1 \ prod `x` c0 c2 \ c0) X2 «f2» f2@{u} : forall T : Type@{u}, Type@{u} -> T -> T (* u |= *) f2 is universe polymorphic Arguments f2 (T T1)%_type_scope x f2 is transparent Expands to: Constant elpi.tests.test_arg_HOAS.f2 Declared in library elpi.tests.test_arg_HOAS, line 314, characters 0-100 Debug: ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ X0)) c0 \ parameter x explicit c0 c1 \ arity (X1 c1)) X2 Debug: ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ X0)) c0 \ parameter x explicit c0 c1 \ arity (X1 c1)) (prod `T` (sort (typ X0)) c0 \ prod `x` c0 c1 \ X1 c1) Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ X0)) c0 \ prod `x` c0 c1 \ X1 c1) X3 X4) illtyped arity Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ prod `x` c0 c1 \ X1 c1) (typ «elpi.tests.test_arg_HOAS.224») (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ prod `x` c0 c1 \ X5 c0 c1)) illtyped arity Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ X6)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ prod `x` c0 c1 \ X5 c0 c1) X7) illtyped definition Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.225»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ prod `x` c0 c1 \ c0) (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ fun `x` c0 c1 \ c1)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X8 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f3 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ prod `x` c0 c1 \ c0) X9 X10 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f3 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.222»)) c0 \ prod `x` c0 c1 \ c0) X9 «f3» f3@{u} : forall T : Type@{u}, T -> T (* u |= *) f3 is universe polymorphic Arguments f3 T%_type_scope x f3 is transparent Expands to: Constant elpi.tests.test_arg_HOAS.f3 Declared in library elpi.tests.test_arg_HOAS, line 317, characters 0-82 Debug: ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ parameter x explicit c0 c2 \ arity (X0 c2)) X1 Debug: ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ parameter x explicit c0 c2 \ arity (X0 c2)) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ X0 c2) Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ X0 c2) X2 X3) illtyped arity Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ X0 c2) (typ «elpi.tests.test_arg_HOAS.228») (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ X4 c0 c1 c2)) illtyped arity Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ X4 c0 c1 c2) X5) illtyped definition Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ c0) (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ fun `x` c0 c2 \ c2)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.226»] ff [] tt) X6 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.226»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.226»] ff [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.226»] ff [] tt) => coq.env.add-const f4 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ c0) X7 X8 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.226»] ff [] tt) => coq.env.add-const f4 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.226»)) c1 \ prod `x` c0 c2 \ c0) X7 «f4» f4@{u} : forall T : Type@{u}, Type@{u} -> T -> T (* u |= *) f4 is universe polymorphic Arguments f4 (T T1)%_type_scope x f4 is transparent Expands to: Constant elpi.tests.test_arg_HOAS.f4 Declared in library elpi.tests.test_arg_HOAS, line 320, characters 0-104 Debug: ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «uuu»)) c1 \ parameter x explicit c0 c2 \ arity (X0 c2)) X1 Debug: ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «uuu»)) c1 \ parameter x explicit c0 c2 \ arity (X0 c2)) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ X0 c2) Debug: ----<<---- enter: std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ X0 c2) X2 X3) illtyped arity Debug: ---->>---- exit: std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ X0 c2) (typ «elpi.tests.test_arg_HOAS.233») (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.230»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.231»)) c1 \ prod `x` c0 c2 \ X4 c0 c1 c2)) illtyped arity Debug: ----<<---- enter: std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «uuu»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.230»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.231»)) c1 \ prod `x` c0 c2 \ X4 c0 c1 c2) X5) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «uuu»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.230»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.231»)) c1 \ prod `x` c0 c2 \ c0) (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.234»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.235»)) c1 \ fun `x` c0 c2 \ c2)) illtyped definition Debug: ----<<---- enter: coq.env.add-const f5 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.234»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.235»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.230»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.231»)) c1 \ prod `x` c0 c2 \ c0) X6 X7 Debug: ---->>---- exit: coq.env.add-const f5 (fun `T` (sort (typ «f5.u2»)) c0 \ fun `T1` (sort (typ «f5.u3»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «f5.u0»)) c0 \ prod `T1` (sort (typ «f5.u1»)) c1 \ prod `x` c0 c2 \ c0) X6 «f5» Debug: ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ parameter x explicit c0 c2 \ arity c0) X0 Debug: ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ parameter x explicit c0 c2 \ arity c0) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ prod `x` c0 c2 \ c0) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.236»] ff [] tt) X1 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.236»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.236»] ff [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.236»] ff [] tt) => coq.env.add-const f6 (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.236»] ff [] tt) => coq.env.add-const f6 (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.236»)) c1 \ prod `x` c0 c2 \ c0) X2 «f6» f6@{uuux} : forall T : Type@{uuu}, Type@{uuux} -> T -> T (* uuux |= *) f6 is universe polymorphic Arguments f6 (T T1)%_type_scope x f6 is transparent Expands to: Constant elpi.tests.test_arg_HOAS.f6 Declared in library elpi.tests.test_arg_HOAS, line 330, characters 0-82 Debug: ----<<---- enter: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0)) X0 Debug: ---->>---- exit: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0)) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X1 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f7 (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f7 (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0) X2 «f7» Debug: ----<<---- enter: coq.arity->term (arity X0) X1 Debug: ---->>---- exit: coq.arity->term (arity X0) X0 Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X0 X2 X3) illtyped arity Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X0 (typ «elpi.tests.test_arg_HOAS.237») X3) illtyped arity Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «Set») X3 X4) illtyped definition Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0) (pglobal (const «f6») «Set»)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X5 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f8 (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0) X6 X7 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f8 (pglobal (const «f6») «Set») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0) X6 «f8» Debug: ----<<---- enter: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0)) X0 Debug: ---->>---- exit: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0)) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X1 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f7' (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f7' (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0) X2 «f7'» Debug: ----<<---- enter: coq.arity->term (arity X0) X1 Debug: ---->>---- exit: coq.arity->term (arity X0) X0 Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X0 X2 X3) illtyped arity Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X0 (typ «elpi.tests.test_arg_HOAS.238») X3) illtyped arity Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «uuu») X3 X4) illtyped definition Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0) (pglobal (const «f6») «uuu»)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X5 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f8' (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0) X6 X7 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f8' (pglobal (const «f6») «uuu») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0) X6 «f8'» Debug: ----<<---- enter: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0)) X0 Debug: ---->>---- exit: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0)) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0) Debug: ----<<---- enter: std.assert-ok! (coq.typecheck (pglobal (const «f6») «elpi.tests.test_arg_HOAS.239») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ---->>---- exit: std.assert-ok! (coq.typecheck (pglobal (const «f6») «elpi.tests.test_arg_HOAS.239») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.239»] ff [] tt) X1 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.239»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.239»] ff [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.239»] ff [] tt) => coq.env.add-const f7'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.239») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.239»] ff [] tt) => coq.env.add-const f7'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.239») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.239»)) c1 \ prod `x` c0 c2 \ c0) X2 «f7''» Debug: ----<<---- enter: coq.arity->term (arity X0) X1 Debug: ---->>---- exit: coq.arity->term (arity X0) X0 Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X0 X2 X3) illtyped arity Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X0 (typ «elpi.tests.test_arg_HOAS.241») X3) illtyped arity Debug: ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «elpi.tests.test_arg_HOAS.240») X3 X4) illtyped definition Debug: ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «elpi.tests.test_arg_HOAS.240») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.240»)) c1 \ prod `x` c0 c2 \ c0) (pglobal (const «f6») «elpi.tests.test_arg_HOAS.240»)) illtyped definition Debug: ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.240»] ff [] tt) X5 Debug: ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.240»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.240»] ff [] tt)) Debug: ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.240»] ff [] tt) => coq.env.add-const f8'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.240») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.240»)) c1 \ prod `x` c0 c2 \ c0) X6 X7 Debug: ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.240»] ff [] tt) => coq.env.add-const f8'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.240») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.240»)) c1 \ prod `x` c0 c2 \ c0) X6 «f8''» const-decl D (some (fun `i` (global (indt «I»)) c0 \ fun `l` (app [global (indt «L»), c0]) c1 \ global (indt «True»))) (parameter i maximal (global (indt «I»)) c0 \ parameter l maximal (app [global (indt «L»), c0]) c1 \ arity (sort prop)) const-decl D (some (fun `i` (global (indt «I»)) c0 \ fun `H` (app [global (indt «L»), c0]) c1 \ global (indt «True»))) (parameter i maximal (global (indt «I»)) c0 \ parameter H maximal (app [global (indt «L»), c0]) c1 \ arity (sort prop)) const-decl D (some (fun `i` (global (indt «I»)) c0 \ fun `H` (app [global (indt «L»), c0]) c1 \ fun `n` (global (indt «nat»)) c2 \ global (indt «True»))) (parameter i maximal (global (indt «I»)) c0 \ parameter H maximal (app [global (indt «L»), c0]) c1 \ parameter n explicit (global (indt «nat»)) c2 \ arity (sort prop)) 2 fun `x` X0 c0 \ fun `y` (X1 c0) c1 \ app [global (const «Nat.add»), c0, c1] File "./tests/test_File3.v", line 18, characters 2-16: Warning: This command does not support this attribute: phase. [unsupported-attributes,parsing,default] INIT OK pred p i:gref. main _ :- coq.say "hello". Query assignments: B = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] GR = «Nat.add» RB = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] T = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») TY = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») Syntactic constraints: {c0 c1 c2 c3} : decl c3 `n` (global (indt «nat»)), decl c2 `m` (global (indt «nat»)), decl c1 `n` (global (indt «nat»)), decl c0 `add` (prod `n` (global (indt «nat»)) c1 \ prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) ?- evar (X0 c0 c1 c2 c3) (sort (typ «elpi.tests.test_elaborator.37»)) (X1 c0 c1 c2 c3) /* suspended on X0, X1 */ Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.43 elpi.tests.test_elaborator.42 elpi.tests.test_elaborator.41 elpi.tests.test_elaborator.40 elpi.tests.test_elaborator.39 elpi.tests.test_elaborator.38 elpi.tests.test_elaborator.37 elpi.tests.test_elaborator.36 elpi.tests.test_elaborator.35 elpi.tests.test_elaborator.34 elpi.tests.test_elaborator.33 elpi.tests.test_elaborator.32 elpi.tests.test_elaborator.31 elpi.tests.test_elaborator.30 elpi.tests.test_elaborator.29 elpi.tests.test_elaborator.28 elpi.tests.test_elaborator.27 elpi.tests.test_elaborator.26 elpi.tests.test_elaborator.25 elpi.tests.test_elaborator.24 elpi.tests.test_elaborator.23 elpi.tests.test_elaborator.22 elpi.tests.test_elaborator.21} |= Set <= elpi.tests.test_elaborator.21 Set <= elpi.tests.test_elaborator.22 Set <= elpi.tests.test_elaborator.23 Set <= elpi.tests.test_elaborator.28 Set <= elpi.tests.test_elaborator.32 Set <= elpi.tests.test_elaborator.36 Set <= elpi.tests.test_elaborator.40 elpi.tests.test_elaborator.21 <= elpi.tests.test_elaborator.26 elpi.tests.test_elaborator.22 <= elpi.tests.test_elaborator.24 elpi.tests.test_elaborator.23 <= elpi.tests.test_elaborator.24 elpi.tests.test_elaborator.24 <= elpi.tests.test_elaborator.25 elpi.tests.test_elaborator.25 <= elpi.tests.test_elaborator.26 elpi.tests.test_elaborator.26 <= elpi.tests.test_elaborator.27 elpi.tests.test_elaborator.28 <= elpi.tests.test_elaborator.30 elpi.tests.test_elaborator.29 <= elpi.tests.test_elaborator.30 elpi.tests.test_elaborator.30 <= elpi.tests.test_elaborator.31 elpi.tests.test_elaborator.32 <= elpi.tests.test_elaborator.34 elpi.tests.test_elaborator.33 <= elpi.tests.test_elaborator.34 elpi.tests.test_elaborator.34 <= elpi.tests.test_elaborator.35 elpi.tests.test_elaborator.36 <= elpi.tests.test_elaborator.38 elpi.tests.test_elaborator.37 <= elpi.tests.test_elaborator.38 elpi.tests.test_elaborator.38 <= elpi.tests.test_elaborator.39 elpi.tests.test_elaborator.40 <= elpi.tests.test_elaborator.42 elpi.tests.test_elaborator.41 <= elpi.tests.test_elaborator.42 elpi.tests.test_elaborator.42 <= elpi.tests.test_elaborator.43 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: B = fun `n` (global (indt «nat»)) c0 \ app [global (const «nat_ind»), fun `n` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c1, app [global (const «Nat.add»), c1, global (indc «O»)]], let `_` (app [global (indt «eq»), global (indt «nat»), global (indc «O»), app [global (const «Nat.add»), global (indc «O»), global (indc «O»)]]) (app [global (indc «eq_refl»), global (indt «nat»), global (indc «O»)]) c1 \ c1, fun `n` (global (indt «nat»)) c1 \ fun `IHn` (app [global (indt «eq»), global (indt «nat»), c1, app [global (const «Nat.add»), c1, global (indc «O»)]]) c2 \ let `_` (app [global (indt «eq»), global (indt «nat»), app [global (indc «S»), c1], app [global (const «Nat.add»), app [global (indc «S»), c1], global (indc «O»)]]) (app [global (const «f_equal_nat»), global (indt «nat»), global (indc «S»), c1, app [global (const «Nat.add»), c1, global (indc «O»)], c2]) c3 \ c3, c0] GR = «plus_n_O» RB = fun `n` (global (indt «nat»)) c0 \ app [global (const «nat_ind»), fun `n` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c1, app [global (const «Nat.add»), c1, global (indc «O»)]], let `_` (app [global (indt «eq»), global (indt «nat»), global (indc «O»), app [global (const «Nat.add»), global (indc «O»), global (indc «O»)]]) (app [global (indc «eq_refl»), global (indt «nat»), global (indc «O»)]) c1 \ c1, fun `n` (global (indt «nat»)) c1 \ fun `IHn` (app [global (indt «eq»), global (indt «nat»), c1, app [global (const «Nat.add»), c1, global (indc «O»)]]) c2 \ let `_` (app [global (indt «eq»), global (indt «nat»), app [global (indc «S»), c1], app [global (const «Nat.add»), app [global (indc «S»), c1], global (indc «O»)]]) (app [global (const «f_equal_nat»), global (indt «nat»), global (indc «S»), c1, app [global (const «Nat.add»), c1, global (indc «O»)], c2]) c3 \ c3, c0] TY = prod `n` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, app [global (const «Nat.add»), c0, global (indc «O»)]] Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.58 elpi.tests.test_elaborator.57 elpi.tests.test_elaborator.56 elpi.tests.test_elaborator.55 elpi.tests.test_elaborator.54 elpi.tests.test_elaborator.53 elpi.tests.test_elaborator.52 elpi.tests.test_elaborator.51 elpi.tests.test_elaborator.50 elpi.tests.test_elaborator.49 elpi.tests.test_elaborator.48 elpi.tests.test_elaborator.47 elpi.tests.test_elaborator.46 elpi.tests.test_elaborator.45 elpi.tests.test_elaborator.44} |= Set <= eq.u0 Set <= Logic_lemmas.equality.u1 Set <= elpi.tests.test_elaborator.44 Set <= elpi.tests.test_elaborator.48 Set <= elpi.tests.test_elaborator.52 elpi.tests.test_elaborator.44 <= elpi.tests.test_elaborator.46 elpi.tests.test_elaborator.45 <= elpi.tests.test_elaborator.46 elpi.tests.test_elaborator.46 <= elpi.tests.test_elaborator.47 elpi.tests.test_elaborator.48 <= elpi.tests.test_elaborator.50 elpi.tests.test_elaborator.49 <= elpi.tests.test_elaborator.50 elpi.tests.test_elaborator.50 <= elpi.tests.test_elaborator.51 elpi.tests.test_elaborator.52 <= elpi.tests.test_elaborator.54 elpi.tests.test_elaborator.53 <= elpi.tests.test_elaborator.54 elpi.tests.test_elaborator.54 <= elpi.tests.test_elaborator.55 elpi.tests.test_elaborator.56 <= elpi.tests.test_elaborator.57 elpi.tests.test_elaborator.57 <= elpi.tests.test_elaborator.58 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: CHR: Uniqueness of typing of frozen--1020 + [] <-> [] [c0] |> [decl c0 `x` (uvar frozen--1020 [])] |- frozen--1020 [] : sort (typ «elpi.tests.test_elaborator.60») [] |> [] |- frozen--1020 [] : sort (typ «elpi.tests.test_elaborator.59») [] |> [] |- std.once (unify-eq (sort (typ «elpi.tests.test_elaborator.60»)) (sort (typ «elpi.tests.test_elaborator.59»))) Query assignments: R = fun `x` X0 c0 \ c0 T = prod `x` X0 c0 \ X0 X1_ = X1 Syntactic constraints: {c0} : decl c0 `x` X0 ?- evar X2 (sort (typ «elpi.tests.test_elaborator.60»)) X0 /* suspended on X2, X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.62 elpi.tests.test_elaborator.61 elpi.tests.test_elaborator.60 elpi.tests.test_elaborator.59} |= elpi.tests.test_elaborator.59 <= elpi.tests.test_elaborator.61 elpi.tests.test_elaborator.60 <= elpi.tests.test_elaborator.59 elpi.tests.test_elaborator.60 <= elpi.tests.test_elaborator.61 elpi.tests.test_elaborator.61 <= elpi.tests.test_elaborator.62 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: R = fun `x` (global (indt «nat»)) c0 \ app [global (const «Nat.add»), c0, global (indc «O»)] T = prod `x` (global (indt «nat»)) c0 \ global (indt «nat») X2_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.66 elpi.tests.test_elaborator.65 elpi.tests.test_elaborator.64 elpi.tests.test_elaborator.63} |= elpi.tests.test_elaborator.63 <= elpi.tests.test_elaborator.65 elpi.tests.test_elaborator.64 <= elpi.tests.test_elaborator.65 elpi.tests.test_elaborator.65 <= elpi.tests.test_elaborator.66 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: sort (typ X0) Query assignments: X3_ = X0 Query assignments: S = sort (typ «elpi.tests.test_elaborator.68») T = sort (typ «elpi.tests.test_elaborator.67») X4_ = «elpi.tests.test_elaborator.67» Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.68 elpi.tests.test_elaborator.67} |= elpi.tests.test_elaborator.67 < elpi.tests.test_elaborator.68 ALGEBRAIC UNIVERSES: {elpi.tests.test_elaborator.67} FLEXIBLE UNIVERSES: elpi.tests.test_elaborator.67 SORTS: WEAK CONSTRAINTS: Query assignments: S = sort (typ «elpi.tests.test_elaborator.70») T = sort (typ «elpi.tests.test_elaborator.69») TW = sort (typ «elpi.tests.test_elaborator.69») W = sort (typ «elpi.tests.test_elaborator.71») X5_ = «elpi.tests.test_elaborator.69» X6_ = «elpi.tests.test_elaborator.71» Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.71 elpi.tests.test_elaborator.70 elpi.tests.test_elaborator.69} |= elpi.tests.test_elaborator.69 < elpi.tests.test_elaborator.70 elpi.tests.test_elaborator.71 < elpi.tests.test_elaborator.69 ALGEBRAIC UNIVERSES: {elpi.tests.test_elaborator.71 elpi.tests.test_elaborator.69} FLEXIBLE UNIVERSES: elpi.tests.test_elaborator.71 elpi.tests.test_elaborator.69 SORTS: WEAK CONSTRAINTS: Debug: Cannot enforce elpi.tests.test_elaborator.72 < elpi.tests.test_elaborator.72 because elpi.tests.test_elaborator.72 = elpi.tests.test_elaborator.72 Query assignments: X = sort (typ X0) X7_ = X0 Query assignments: X = sort (typ «elpi.tests.test_elaborator.73») Y = sort (typ «elpi.tests.test_elaborator.74») Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.74 elpi.tests.test_elaborator.73} |= elpi.tests.test_elaborator.73 < elpi.tests.test_elaborator.74 ALGEBRAIC UNIVERSES: {elpi.tests.test_elaborator.74 elpi.tests.test_elaborator.73} FLEXIBLE UNIVERSES: elpi.tests.test_elaborator.74 elpi.tests.test_elaborator.73 SORTS: WEAK CONSTRAINTS: Query assignments: D = X0 R = app [global (indc «ex_intro»), X0, fun `hd_beta_auto` X0 c0 \ app [global (indt «eq»), global (indt «nat»), global (indc «O»), global (indc «O»)], X1, global (const «p»)] TY = app [global (indt «ex»), X0, fun `hd_beta_auto` X0 c0 \ app [global (indt «eq»), global (indt «nat»), global (indc «O»), global (indc «O»)]] X10_ = X2 X11_ = X3 X9_ = X4 Syntactic constraints: evar X4 (sort (typ «ex.u0»)) X0 /* suspended on X4, X0 */ evar X1 X0 X5 /* suspended on X1, X5 */ evar X3 X0 X1 /* suspended on X3, X1 */ Query assignments: R = app [global (indc «ex_intro»), global (indt «nat»), fun `hd_beta_auto` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, c0], global (indc «O»), global (const «p»)] TY = app [global (indt «ex»), global (indt «nat»), fun `hd_beta_auto` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, c0]] X12_ = X0 X13_ = X1 Query assignments: R = app [global (indc «ex_intro»), global (indt «nat»), fun `hd_beta_auto` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, global (indc «O»)], global (indc «O»), global (const «p»)] TY = app [global (indt «ex»), global (indt «nat»), fun `n` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, global (indc «O»)]] X14_ = X0 X15_ = c0 \ X1 c0 X16_ = X2 X17_ = X3 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.79 elpi.tests.test_elaborator.78 elpi.tests.test_elaborator.77 elpi.tests.test_elaborator.76} |= Set <= elpi.tests.test_elaborator.76 elpi.tests.test_elaborator.76 <= elpi.tests.test_elaborator.78 elpi.tests.test_elaborator.77 <= elpi.tests.test_elaborator.78 elpi.tests.test_elaborator.78 <= elpi.tests.test_elaborator.79 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: R = app [global (indc «ex_intro»), global (indt «nat»), fun `n` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, global (indc «O»)], global (indc «O»), global (const «p»)] TY = app [global (indt «ex»), global (indt «nat»), fun `n` (global (indt «nat»)) c0 \ app [global (indt «eq»), global (indt «nat»), c0, global (indc «O»)]] X18_ = X0 X19_ = c0 \ X1 c0 X20_ = X2 X21_ = X3 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.83 elpi.tests.test_elaborator.82 elpi.tests.test_elaborator.81 elpi.tests.test_elaborator.80} |= Set <= elpi.tests.test_elaborator.80 elpi.tests.test_elaborator.80 <= elpi.tests.test_elaborator.82 elpi.tests.test_elaborator.81 <= elpi.tests.test_elaborator.82 elpi.tests.test_elaborator.82 <= elpi.tests.test_elaborator.83 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: A = tt B = 0 C = 0 D = sort (typ «Set») E = [«true», «false»] F = [global (indt «bool»), global (indt «bool»)] GR = «bool» Query assignments: F = app [global (const «nat_of_bool»), global (indc «true»)] c0 \ app [global (const «nat_of_bool»), c0] Query assignments: Res = app [global (const «map»), global (indt «bool»), global (indt «nat»), fun `x` (global (indt «bool»)) c0 \ app [global (const «nat_of_bool»), c0], app [global (indc «cons»), global (indt «bool»), global (indc «true»), app [global (indc «nil»), global (indt «bool»)]]] X22_ = X0 X23_ = X1 Query assignments: Res = app [global (const «Z_of_nat»), app [global (const «nat_of_bool»), global (indc «true»)]] c0 \ app [global (const «Z_of_nat»), app [global (const «nat_of_bool»), c0]] Query assignments: Res = app [global (const «map»), global (indt «bool»), global (const «Z»), fun `x` (global (indt «bool»)) c0 \ app [global (const «Z_of_nat»), app [global (const «nat_of_bool»), c0]], app [global (indc «cons»), global (indt «bool»), global (indc «true»), app [global (indc «nil»), global (indt «bool»)]]] X24_ = X0 X25_ = X1 Query assignments: R = prod `r` (global (const «ring»)) c0 \ prod `x` (app [global (const «carr»), c0]) c1 \ app [global (indt «eq»), app [global (const «carr»), c0], c1, c1] T = sort (typ «elpi.tests.test_elaborator.98») X26_ = c0 \ c1 \ X0 c0 c1 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.98 elpi.tests.test_elaborator.97 elpi.tests.test_elaborator.96 elpi.tests.test_elaborator.95 elpi.tests.test_elaborator.93} |= ring.u0 <= elpi.tests.test_elaborator.93 elpi.tests.test_elaborator.93 <= elpi.tests.test_elaborator.98 elpi.tests.test_elaborator.96 <= elpi.tests.test_elaborator.97 elpi.tests.test_elaborator.97 <= elpi.tests.test_elaborator.98 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: T = global (const «int») X = primitive (uint63 99) Query assignments: T = global (const «float») X = primitive (float64 993000) Query assignments: X27_ = X0 d1 : nat d2 : nat i1 : Prop i2 : Prop k1 : i1 k2 : i2 r1 : Set r2 : Type f1 : r1 -> nat f2 : r2 -> nat {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0) (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) (X1 c0) /* suspended on X0, X1 */ EVARS: ?X2==[x |- bool -> True] (goal evar) {?Goal} ?X1==[ |- => fun x : nat => ?Goal] (goal evar) SHELF:|| FUTURE GOALS STACK: || Rocq-Elpi mapping: RAW: ?X2 <-> c0 \ X0 c0 ELAB: ?X2 <-> X1 Debug: {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0) (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) (X1 c0) /* suspended on X0, X1 */ H [nabla c1 \ seal (goal [decl c1 `H` (prod `b` (prod `b` (global (indt «bool»)) c2 \ app [global (indt «eq»), global (indt «bool»), c2, c2]) c2 \ global (indt «True»))] (X0 c1) (prod `b` (global (indt «bool»)) c2 \ app [global (indt «eq»), global (indt «bool»), c2, c2]) (X1 c1) [])] [str fun, str in, str as, int 4, str end, str match, str return, str =>, str :, str :=, str {, str }, str ;, str ,, str |, str x, int 1, str H, trm (fun `x` (global (indt «False»)) c0 \ match c0 (fun `y` (global (indt «False»)) c1 \ global (indt «nat»)) [])] Query assignments: T = sort (typ «xxxxx.u0») U = «xxxxx.u0» Query assignments: U = «elpi.tests.test_HOAS.26» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.26} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: U = «foo» Query assignments: X = X0 X3_ = global (indt «nat») Syntactic constraints: {c0 c1 c2 c3 c4 c5 c6} : decl c6 `z` (app [global (const «N»), c5]), decl c5 `x` (global (indt «nat»)), decl c4 `a` (global (indt «bool»)) ?- evar (X0 c4 c5 c6) (X1 c4 c5 c6) (X0 c4 c5 c6) /* suspended on X0 */ {c0 c1 c2 c3 c4 c5 c6} : decl c6 `z` (app [global (const «N»), c5]), decl c5 `x` (global (indt «nat»)), decl c4 `a` (global (indt «bool»)) ?- evar (X2 c4 c5 c6) (sort (typ «elpi.tests.test_HOAS.31»)) (X1 c4 c5 c6) /* suspended on X2, X1 */ Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.31 elpi.tests.test_HOAS.30} |= Set <= elpi.tests.test_HOAS.30 elpi.tests.test_HOAS.30 <= elpi.tests.test_HOAS.30 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α3 := Type α4 WEAK CONSTRAINTS: ---------------------------------- {c0 c1} : decl c1 `a` (global (indt «bool»)) ?- evar X0 (sort (typ «elpi.tests.test_HOAS.32»)) X1 /* suspended on X0, X1 */ {c0 c1} : decl c1 `a` (global (indt «bool»)) ?- evar (X2 c1) X1 (X2 c1) /* suspended on X2 */ EVARS: ?X10==[ |- Type] (internal placeholder) {?elpi_evar} ?X9==[a |- ?elpi_evar] (internal placeholder) {?e0} ?X8==[a |- => ?elpi_evar] (internal placeholder) SHELF: FUTURE GOALS STACK:?X10 ?X9 Rocq-Elpi mapping: RAW: ?X9 <-> X2 ?X10 <-> X0 ELAB: ?X9 <-> X2 ?X10 <-> X1 X2 c0 : X1 Query assignments: TY = X1 X = c0 \ c1 \ X2 c0 Syntactic constraints: {c0 c1} : decl c1 `a` (global (indt «bool»)) ?- evar X0 (sort (typ «elpi.tests.test_HOAS.32»)) X1 /* suspended on X0, X1 */ {c0 c1} : decl c1 `a` (global (indt «bool»)) ?- evar (X2 c1) X1 (X2 c1) /* suspended on X2 */ Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.32} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α5 WEAK CONSTRAINTS: Raw term: app [global (const «add»), primitive (uint63 2000000003333002), primitive (uint63 1)] Nice term: add 2000000003333002 1 Red: 2000000003333003%uint63 Raw term: app [global (const «add»), primitive (float64 24000000000000), primitive (float64 1)] Nice term: 24000000000000 + 1 Red: 24000000000001 Query assignments: C = «Nat.add» F = TODO T = app [fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]], app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T1 = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T2 = app [fix `plus` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `_elpi_renamed_n_3` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]], app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] X10_ = c0 \ c1 \ c2 \ global (indt «nat») X4_ = global (indt «nat») X5_ = c0 \ global (indt «nat») X6_ = c0 \ c1 \ global (indt «nat») X7_ = c0 \ global (indt «nat») X8_ = c0 \ c1 \ global (indt «nat») X9_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») Query assignments: C = «Nat.add» F = TODO T = app [fun `n` (global (indt «nat»)) c0 \ fun `m` (global (indt «nat»)) c1 \ match c0 (fun `n` (global (indt «nat»)) c2 \ global (indt «nat»)) [c1, fun `p` (global (indt «nat»)) c2 \ app [global (indc «S»), app [fix `add` 0 (prod `n` (global (indt «nat»)) c3 \ prod `m` (global (indt «nat»)) c4 \ global (indt «nat»)) c3 \ fun `n` (global (indt «nat»)) c4 \ fun `m` (global (indt «nat»)) c5 \ match c4 (fun `n` (global (indt «nat»)) c6 \ global (indt «nat»)) [c5, fun `p` (global (indt «nat»)) c6 \ app [global (indc «S»), app [c3, c6, c5]]], c2, c1]]], app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T1 = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T2 = app [fun `n` (global (indt «nat»)) c0 \ fun `m` (global (indt «nat»)) c1 \ match c0 (fun `_elpi_renamed_n_2` (global (indt «nat»)) c2 \ global (indt «nat»)) [c1, fun `p` (global (indt «nat»)) c2 \ app [global (indc «S»), app [fix `plus` 0 (prod `_elpi_renamed_n_3` (global (indt «nat»)) c3 \ prod `_elpi_renamed_m_4` (global (indt «nat»)) c4 \ global (indt «nat»)) c3 \ fun `_elpi_renamed_n_4` (global (indt «nat»)) c4 \ fun `_elpi_renamed_m_5` (global (indt «nat»)) c5 \ match c4 (fun `_elpi_renamed_n_6` (global (indt «nat»)) c6 \ global (indt «nat»)) [c5, fun `_elpi_renamed_p_6` (global (indt «nat»)) c6 \ app [global (indc «S»), app [c3, c6, c5]]], c2, c1]]], app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] X11_ = global (indt «nat») X12_ = c0 \ global (indt «nat») X13_ = c0 \ c1 \ c2 \ global (indt «nat») X14_ = c0 \ c1 \ global (indt «nat») X15_ = c0 \ c1 \ c2 \ global (indt «nat») X16_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») X17_ = c0 \ c1 \ c2 \ c3 \ c4 \ global (indt «nat») X18_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») X19_ = c0 \ c1 \ c2 \ c3 \ c4 \ global (indt «nat») X20_ = c0 \ c1 \ c2 \ c3 \ c4 \ c5 \ c6 \ global (indt «nat») X21_ = c0 \ c1 \ c2 \ c3 \ c4 \ c5 \ global (indt «nat») Query assignments: C = «Nat.add» F = TODO T = match (app [global (indc «S»), global (indc «O»)]) (fun `n` (global (indt «nat»)) c0 \ global (indt «nat»)) [app [global (indc «S»), app [global (indc «S»), global (indc «O»)]], fun `p` (global (indt «nat»)) c0 \ app [global (indc «S»), app [fix `add` 0 (prod `n` (global (indt «nat»)) c1 \ prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) c1 \ fun `n` (global (indt «nat»)) c2 \ fun `m` (global (indt «nat»)) c3 \ match c2 (fun `n` (global (indt «nat»)) c4 \ global (indt «nat»)) [c3, fun `p` (global (indt «nat»)) c4 \ app [global (indc «S»), app [c1, c4, c3]]], c0, app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] T1 = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T2 = match (app [global (indc «S»), global (indc «O»)]) (fun `_` (global (indt «nat»)) c0 \ global (indt «nat»)) [app [global (indc «S»), app [global (indc «S»), global (indc «O»)]], fun `p` (global (indt «nat»)) c0 \ app [global (indc «S»), app [fix `plus` 0 (prod `n` (global (indt «nat»)) c1 \ prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) c1 \ fun `n` (global (indt «nat»)) c2 \ fun `m` (global (indt «nat»)) c3 \ match c2 (fun `_elpi_renamed_n_4` (global (indt «nat»)) c4 \ global (indt «nat»)) [c3, fun `_elpi_renamed_p_4` (global (indt «nat»)) c4 \ app [global (indc «S»), app [c1, c4, c3]]], c0, app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] X22_ = global (indt «nat») X23_ = global (indt «nat») X24_ = c0 \ global (indt «nat») X25_ = c0 \ c1 \ global (indt «nat») X26_ = c0 \ c1 \ c2 \ global (indt «nat») X27_ = c0 \ c1 \ global (indt «nat») X28_ = c0 \ c1 \ c2 \ global (indt «nat») X29_ = c0 \ c1 \ c2 \ c3 \ c4 \ global (indt «nat») X30_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») Query assignments: C = «Nat.add» F = TODO T = app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T1 = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] T2 = app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] Debug: ----<<---- enter: app [primitive (proj X0 X1) | X2] = app [primitive (proj elpi.tests.test_HOAS.RP.f 0), X3] Debug: ---->>---- exit: app [primitive (proj elpi.tests.test_HOAS.RP.f 0), X3] = app [primitive (proj elpi.tests.test_HOAS.RP.f 0), X3] Debug: ----<<---- enter: coq.redflags.add coq.redflags.nored [coq.redflags.delta, coq.redflags.beta, coq.redflags.match] X4 Debug: ---->>---- exit: coq.redflags.add coq.redflags.nored [coq.redflags.delta, coq.redflags.beta, coq.redflags.match] TODO Debug: ----<<---- enter: get-option coq:redflags TODO => coq.reduction.cbv.norm (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) X5 Debug: ---->>---- exit: get-option coq:redflags TODO => coq.reduction.cbv.norm (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) Debug: ----<<---- enter: std.assert! (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] = app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) nored expected Debug: ---->>---- exit: std.assert! (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] = app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) nored expected Debug: ----<<---- enter: coq.redflags.add coq.redflags.nored [coq.redflags.proj elpi.tests.test_HOAS.RP.f, coq.redflags.delta, coq.redflags.beta, coq.redflags.match] X6 Debug: ---->>---- exit: coq.redflags.add coq.redflags.nored [coq.redflags.proj elpi.tests.test_HOAS.RP.f, coq.redflags.delta, coq.redflags.beta, coq.redflags.match] TODO Debug: ----<<---- enter: get-option coq:redflags TODO => coq.reduction.cbv.norm (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) X7 Debug: ---->>---- exit: get-option coq:redflags TODO => coq.reduction.cbv.norm (app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]]) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) Debug: ----<<---- enter: std.assert! (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] = app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) red expected Debug: ---->>---- exit: std.assert! (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] = app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) red expected Query assignments: F = TODO FP = TODO P = elpi.tests.test_HOAS.RP.f R0 = app [primitive (proj elpi.tests.test_HOAS.RP.f 0), app [global (indc «mk_r»), app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] R1 = app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] X31_ = X3 Query assignments: C = «proj1» Query assignments: C = «proj1» P = elpi.tests.test_HOAS.P''.proj1 elpi.tests.test_HOAS.P.p1 1 global (const «P.x») @P.p1 X0 global (const «P.x») P.p1 P.x some (fun `A` (sort (typ «P.foo.u0»)) c0 \ fun `f` (app [global (indt «P.foo»), c0]) c1 \ app [primitive (proj elpi.tests.test_HOAS.P.p1 1), c1]) elpi.tests.test_HOAS.P.p2 2 global (const «P.x») @P.p2 X0 global (const «P.x») P.p2 P.x some (fun `A` (sort (typ «P.foo.u0»)) c0 \ fun `f` (app [global (indt «P.foo»), c0]) c1 \ app [primitive (proj elpi.tests.test_HOAS.P.p1 1), c1]) some (pglobal (const «toto») «elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.48») prod `T1` (sort (typ «elpi.tests.test_HOAS.47»)) c0 \ prod `T2` (sort (typ «elpi.tests.test_HOAS.48»)) c1 \ prod `x` c0 c2 \ c0 Query assignments: Body = some (pglobal (const «toto») «elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.48») C = «titi» Term = prod `T1` (sort (typ «elpi.tests.test_HOAS.47»)) c0 \ prod `T2` (sort (typ «elpi.tests.test_HOAS.48»)) c1 \ prod `x` c0 c2 \ c0 Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.48 elpi.tests.test_HOAS.47} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.48 elpi.tests.test_HOAS.47 SORTS: WEAK CONSTRAINTS: pglobal (const «toto») X0 pglobal (const «toto») «u1 u2» toto Query assignments: %spill1 = toto X32_ = X0 X33_ = «elpi.tests.test_HOAS.51 elpi.tests.test_HOAS.52» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.52 elpi.tests.test_HOAS.51} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.52 elpi.tests.test_HOAS.51} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.52 elpi.tests.test_HOAS.51 SORTS: WEAK CONSTRAINTS: app [pglobal (const «t») X0, global (indt «nat»), pglobal (const «fnat») X1] app [pglobal (const «t») «elpi.tests.test_HOAS.57», global (indt «nat»), pglobal (const «fnat») «»] Query assignments: T = app [pglobal (const «t») «elpi.tests.test_HOAS.57», global (indt «nat»), pglobal (const «fnat») «»] Ty = global (indt «nat») X34_ = «elpi.tests.test_HOAS.57» X35_ = «» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.57} |= Set <= elpi.tests.test_HOAS.57 Set = elpi.tests.test_HOAS.57 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.57} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.57 := Set SORTS: WEAK CONSTRAINTS: Query assignments: Arity = prod `T` (sort (typ «elpi.tests.test_HOAS.58»)) c0 \ sort (typ «elpi.tests.test_HOAS.58») GRF = indt «F» I = «elpi.tests.test_HOAS.58» Ind = «F» K = [«Build_F»] KTys = [prod `T` (sort (typ «elpi.tests.test_HOAS.58»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.58», c0]] TyF = prod `T` (sort (typ «elpi.tests.test_HOAS.58»)) c0 \ sort (typ «elpi.tests.test_HOAS.58») Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.58} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.58} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.58 SORTS: WEAK CONSTRAINTS: Query assignments: Decl = parameter T explicit (sort (typ «elpi.tests.test_HOAS.59»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.59»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) GRF = indt «F» I = «elpi.tests.test_HOAS.59» Ind = «F» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.59} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.59} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.59 SORTS: WEAK CONSTRAINTS: «elpi.tests.test_HOAS.60» «elpi.tests.test_HOAS.61» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60 SORTS: WEAK CONSTRAINTS: Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60} |= elpi.tests.test_HOAS.60 = elpi.tests.test_HOAS.61 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60 := elpi.tests.test_HOAS.61 SORTS: WEAK CONSTRAINTS: Query assignments: GRF = indt «F» I1 = «elpi.tests.test_HOAS.60» I2 = «elpi.tests.test_HOAS.61» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60} |= elpi.tests.test_HOAS.60 = elpi.tests.test_HOAS.61 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60 := elpi.tests.test_HOAS.61 SORTS: WEAK CONSTRAINTS: «elpi.tests.test_HOAS.62» «» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.62} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.62} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.62 SORTS: WEAK CONSTRAINTS: different universe instance lengths Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.62} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.62} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.62 SORTS: WEAK CONSTRAINTS: Query assignments: E = different universe instance lengths GRF = indt «F» GRfnat = const «fnat» I1 = «elpi.tests.test_HOAS.62» I2 = «» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.62} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.62} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.62 SORTS: WEAK CONSTRAINTS: Query assignments: GRF = indt «F» I1 = «elpi.tests.test_HOAS.63» I2 = «elpi.tests.test_HOAS.63» U = «elpi.tests.test_HOAS.63» UL1 = [«elpi.tests.test_HOAS.63»] Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.63} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.63} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.63 SORTS: WEAK CONSTRAINTS: Cannot enforce elpi.tests.test_HOAS.64 = elpi.tests.test_HOAS.65 because elpi.tests.test_HOAS.64 < elpi.tests.test_HOAS.65 Query assignments: E = Cannot enforce elpi.tests.test_HOAS.64 = elpi.tests.test_HOAS.65 because elpi.tests.test_HOAS.64 < elpi.tests.test_HOAS.65 GRF = indt «F» I1 = «elpi.tests.test_HOAS.64» I2 = «elpi.tests.test_HOAS.65» L1 = «elpi.tests.test_HOAS.64» L2 = «elpi.tests.test_HOAS.65» U1 = «elpi.tests.test_HOAS.64» U2 = «elpi.tests.test_HOAS.65» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.65 elpi.tests.test_HOAS.64} |= elpi.tests.test_HOAS.64 < elpi.tests.test_HOAS.65 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.65 elpi.tests.test_HOAS.64} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.65 elpi.tests.test_HOAS.64 SORTS: WEAK CONSTRAINTS: Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68} |= elpi.tests.test_HOAS.68 < elpi.tests.test_HOAS.69 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68 SORTS: WEAK CONSTRAINTS: Query assignments: GRF = indt «F2» I1 = «elpi.tests.test_HOAS.68» I2 = «elpi.tests.test_HOAS.69» L1 = «elpi.tests.test_HOAS.68» L2 = «elpi.tests.test_HOAS.69» U1 = «elpi.tests.test_HOAS.68» U2 = «elpi.tests.test_HOAS.69» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68} |= elpi.tests.test_HOAS.68 < elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68 <= elpi.tests.test_HOAS.69 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68 SORTS: WEAK CONSTRAINTS: Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70} |= elpi.tests.test_HOAS.70 < elpi.tests.test_HOAS.71 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.71} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70 SORTS: WEAK CONSTRAINTS: Cannot enforce elpi.tests.test_HOAS.71 = elpi.tests.test_HOAS.70 because elpi.tests.test_HOAS.70 < elpi.tests.test_HOAS.71 Query assignments: E = Cannot enforce elpi.tests.test_HOAS.71 = elpi.tests.test_HOAS.70 because elpi.tests.test_HOAS.70 < elpi.tests.test_HOAS.71 GRF = indt «F» I1 = «elpi.tests.test_HOAS.70» I2 = «elpi.tests.test_HOAS.71» L1 = «elpi.tests.test_HOAS.70» L2 = «elpi.tests.test_HOAS.71» U1 = «elpi.tests.test_HOAS.70» U2 = «elpi.tests.test_HOAS.71» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70} |= elpi.tests.test_HOAS.70 < elpi.tests.test_HOAS.71 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.71} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70 SORTS: WEAK CONSTRAINTS: Query assignments: GR = indt «nat» Query assignments: GR = indt «F» I = «elpi.tests.test_HOAS.72» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.72} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.72 SORTS: WEAK CONSTRAINTS: Query assignments: GR = indt «F» pglobal (indt «F») «elpi.tests.test_HOAS.74» Query assignments: %spill1 = pglobal (indt «F») «elpi.tests.test_HOAS.74» GR = indt «F» I = «elpi.tests.test_HOAS.74» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.74} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.74 SORTS: WEAK CONSTRAINTS: «elpi.tests.test_HOAS.75 elpi.tests.test_HOAS.75» Query assignments: I = «elpi.tests.test_HOAS.75 elpi.tests.test_HOAS.75» U = «elpi.tests.test_HOAS.75» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.75} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Universe constraints: ------------------ Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76} |= elpi.tests.test_HOAS.76 < elpi.tests.test_HOAS.77 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76 SORTS: WEAK CONSTRAINTS: Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76} |= elpi.tests.test_HOAS.76 < elpi.tests.test_HOAS.77 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76 SORTS: WEAK CONSTRAINTS: Query assignments: Body = sort (typ «elpi.tests.test_HOAS.76») LX = «elpi.tests.test_HOAS.76» LY = «elpi.tests.test_HOAS.77» Type = sort (typ «elpi.tests.test_HOAS.77») UX = «elpi.tests.test_HOAS.76» UY = «elpi.tests.test_HOAS.77» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76} |= elpi.tests.test_HOAS.76 < elpi.tests.test_HOAS.77 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.77 elpi.tests.test_HOAS.76 SORTS: WEAK CONSTRAINTS: poly@{u u0} : Type@{u0} (* u u0 |= u < u0 *) poly is universe polymorphic poly is transparent Expands to: Constant elpi.tests.test_HOAS.poly Declared in library elpi.tests.test_HOAS, line 621, characters 0-641 poly@{Set elpi.tests.test_HOAS.78} : Type@{elpi.tests.test_HOAS.78} (* {elpi.tests.test_HOAS.78} |= Set < elpi.tests.test_HOAS.78 *) Box not a defined object. sort (typ «Set») Query assignments: U = «elpi.tests.test_HOAS.79» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.79} |= Set = elpi.tests.test_HOAS.79 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.79} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.79 := Set SORTS: WEAK CONSTRAINTS: Inductive tree@{u} (A : Type@{u}) : Type@{max(Set,u)} := leaf : A -> tree@{u} A | node : A -> list (tree@{u} A) -> tree@{u} A. (* u |= *) Arguments tree A%_type_scope Arguments leaf A%_type_scope _ Arguments node A%_type_scope _ _%_list_scope parameter A explicit (sort (typ «elpi.tests.test_HOAS.89»)) c0 \ inductive tree tt (arity (sort (typ «elpi.tests.test_HOAS.90»))) c1 \ [constructor leaf (arity (prod `_` c0 c2 \ c1)), constructor node (arity (prod `_` c0 c2 \ prod `_` (app [global (indt «list»), c1]) c3 \ c1))] Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.94 elpi.tests.test_HOAS.93 elpi.tests.test_HOAS.92 elpi.tests.test_HOAS.91 elpi.tests.test_HOAS.90 elpi.tests.test_HOAS.89} |= elpi.tests.test_HOAS.89 < elpi.tests.test_HOAS.91 elpi.tests.test_HOAS.90 < elpi.tests.test_HOAS.92 Set <= elpi.tests.test_HOAS.90 Set <= elpi.tests.test_HOAS.94 elpi.tests.test_HOAS.89 <= elpi.tests.test_HOAS.90 elpi.tests.test_HOAS.89 <= elpi.tests.test_HOAS.93 elpi.tests.test_HOAS.89 <= elpi.tests.test_HOAS.94 elpi.tests.test_HOAS.90 <= elpi.tests.test_HOAS.93 elpi.tests.test_HOAS.90 <= elpi.tests.test_HOAS.94 elpi.tests.test_HOAS.93 <= elpi.tests.test_HOAS.90 elpi.tests.test_HOAS.94 <= elpi.tests.test_HOAS.90 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.89} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.89 SORTS: WEAK CONSTRAINTS: Query assignments: D = parameter A explicit (sort (typ «M.tree.u0»)) c0 \ inductive tree tt (arity (sort (typ «M.tree.u1»))) c1 \ [constructor leaf (arity (prod `_` c0 c2 \ c1)), constructor node (arity (prod `_` c0 c2 \ prod `_` (app [global (indt «list»), c1]) c3 \ c1))] I = «tree» X36_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.94 elpi.tests.test_HOAS.93 elpi.tests.test_HOAS.92 elpi.tests.test_HOAS.91} |= M.tree.u0 < elpi.tests.test_HOAS.91 M.tree.u1 < elpi.tests.test_HOAS.92 Set <= M.tree.u1 Set <= elpi.tests.test_HOAS.94 M.tree.u0 <= M.tree.u1 M.tree.u0 <= elpi.tests.test_HOAS.93 M.tree.u0 <= elpi.tests.test_HOAS.94 M.tree.u1 <= elpi.tests.test_HOAS.93 M.tree.u1 <= elpi.tests.test_HOAS.94 elpi.tests.test_HOAS.93 <= M.tree.u1 elpi.tests.test_HOAS.94 <= M.tree.u1 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: parameter A maximal (sort (typ «elpi.tests.test_HOAS.96»)) c0 \ parameter x explicit (prod `_` c0 c1 \ c0) c1 \ record c (sort prop) Build_c end-record «elpi.tests.test_HOAS.98» : «elpi.tests.test_HOAS.99» «elpi.tests.test_HOAS.100» : «elpi.tests.test_HOAS.100+1» «elpi.tests.test_HOAS.100» : «elpi.tests.test_HOAS.100+1» Query assignments: A = typ «elpi.tests.test_HOAS.99» B = typ «elpi.tests.test_HOAS.100+1» TX = «elpi.tests.test_HOAS.99» TY = «elpi.tests.test_HOAS.100+1» X = «elpi.tests.test_HOAS.98» Y = «elpi.tests.test_HOAS.100» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.100 elpi.tests.test_HOAS.99 elpi.tests.test_HOAS.98} |= elpi.tests.test_HOAS.98 < elpi.tests.test_HOAS.99 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.100 elpi.tests.test_HOAS.98} FLEXIBLE UNIVERSES: elpi.tests.test_HOAS.100 elpi.tests.test_HOAS.98 SORTS: WEAK CONSTRAINTS: File "./tests/test_HOAS.v", line 127, characters 0-40: Warning: Use of “Require” inside a module is fragile. It is not recommended to use this functionality in finished proof scripts. [require-in-module,fragile,default] File "./tests/test_HOAS.v", line 130, characters 0-40: Warning: Use of “Require” inside a module is fragile. It is not recommended to use this functionality in finished proof scripts. [require-in-module,fragile,default] INIT OK File "./tests/test_loc_err.v", line 8, characters 12-13: Warning: File "./tests/test_loc_err.v", line 8, characters 12-13 X is linear: name it _X (discard) or X_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] File "./tests/test_loc_err.v", line 8, characters 14-15: Warning: File "./tests/test_loc_err.v", line 8, characters 14-15 Y is linear: name it _Y (discard) or Y_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] Query assignments: P = /build/reproducible-path/coq-elpi-3.2.0/_build/default/elpi/elpi_elaborator.elpi z : nat it = elpi_subproof : True it : True it is not universe polymorphic it is transparent Expands to: Constant elpi.tests.test_ltac.it Declared in library elpi.tests.test_ltac, line 49, characters 0-15 elpi_subproof = I : True elpi_subproof : True elpi_subproof is not universe polymorphic elpi_subproof is opaque Expands to: Constant elpi.tests.test_ltac.elpi_subproof Declared in library elpi.tests.test_ltac, line 49, characters 0-15 Closed under the global context app [global (indt «eq»), global (indt «nat»), app [global (const «map»), fun `x` (global (indt «nat»)) c1 \ app [global (const «Nat.add»), c1, app [global (indc «S»), global (indc «O»)]]], c0] app [global (indt «eq»), global (indt «nat»), app [global (const «map»), fun `x` (global (indt «nat»)) c1 \ app [global (const «Nat.add»), c1, app [global (indc «S»), global (indc «O»)]]], c0] app [global (indt «eq»), global (indt «nat»), app [global (const «map»), fun `x0` (global (indt «nat»)) c1 \ app [global (const «Nat.add»), c1, app [global (indc «S»), global (indc «O»)]]], c0] goal X0 c0 c1 c2 c3 is [decl c3 `H` (app [global (const «lt»), c0, c1]), decl c2 `z` (global (indt «nat»)), decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»))] ------- prod `_` (app [global (const «lt»), c1, c2]) c4 \ app [global (const «lt»), c0, c2] 3 test2 test1 str hello test1 too many arguments test1 str hello my str Dear test1 too many arguments [attribute elpi.loc (leaf-loc File "./tests/test_vernacular1.v", line 48, column 5, characters 981-989:), attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar)] [get-option elpi.loc File "./tests/test_vernacular1.v", line 48, column 5, characters 981-989:, get-option elpi.phase interp, get-option foo bar] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular1.v", line 52, column 0, characters 1015-1042:), attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar), attribute poly (leaf-str )] [get-option elpi.loc File "./tests/test_vernacular1.v", line 52, column 0, characters 1015-1042:, get-option elpi.phase interp, get-option foo bar, get-option poly tt] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular1.v", line 53, column 0, characters 1043-1083:), attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar), attribute poly (leaf-str ), attribute suppa (node [attribute duppa (leaf-str )])] [get-option elpi.loc File "./tests/test_vernacular1.v", line 53, column 0, characters 1043-1083:, get-option elpi.phase interp, get-option foo bar, get-option poly tt] Query assignments: X = 3 app [global (const «Nat.mul»), X0, X1] type File "./tests/test_vernacular1.v", line 47, characters 2-11: Warning: This command does not support this attribute: foo. [unsupported-attributes,parsing,default] synterp [str X] interp [str X] synterp [int 1] interp [int 1] synterp [trm _] interp [trm (app [global (indc «S»), global (indc «O»)])] synterp [const-decl x (some _) (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] interp [const-decl x (some (fun `P` (global (indt «bool»)) c0 \ fun `Q` (global (indt «bool»)) c1 \ global (indc «O»))) (parameter P explicit (global (indt «bool»)) c0 \ parameter Q explicit (global (indt «bool»)) c1 \ arity (global (indt «nat»)))] synterp [const-decl x none (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] interp [const-decl x none (parameter P explicit (global (indt «bool»)) c0 \ parameter Q explicit (global (indt «bool»)) c1 \ arity (global (indt «nat»)))] synterp [indt-decl (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ record x _ K (field [coercion off, canonical tt] f1 _ c2 \ field [coercion off, canonical tt] f2 _ c3 \ end-record))] interp [indt-decl (parameter P explicit (global (indt «bool»)) c0 \ parameter Q explicit (global (indt «bool»)) c1 \ record x (sort (typ «Set»)) K (field [coercion off, canonical tt] f1 (global (indt «nat»)) c2 \ field [coercion off, canonical tt] f2 (app [global (indt «eq»), global (indt «nat»), c2, c2]) c3 \ end-record))] synterp [indt-decl (parameter P explicit _ c0 \ inductive x tt (parameter Q explicit _ c1 \ arity _) c1 \ [constructor K (parameter Q explicit _ c2 \ arity _), constructor R (parameter Q explicit _ c2 \ arity _)])] interp [indt-decl (parameter P explicit (global (indt «bool»)) c0 \ inductive x tt (parameter Q explicit (global (indt «bool»)) c1 \ arity (prod `_` (global (indt «nat»)) c2 \ sort (typ «Set»))) c1 \ [constructor K (parameter Q explicit (global (indt «bool»)) c2 \ arity (prod `_` (global (indt «nat»)) c3 \ app [c1, c2, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]])), constructor R (parameter Q explicit (global (indt «bool»)) c2 \ arity (prod `w` (global (indt «bool»)) c3 \ app [c1, c2, app [global (indc «S»), global (indc «O»)]]))])] synterp [ctx-decl (context-item A explicit _ none c0 \ context-item B explicit _ none c1 \ context-end)] interp [ctx-decl (context-item A explicit (global (indt «nat»)) none c0 \ context-item B explicit (global (indt «bool»)) none c1 \ context-end)] synterp [str X] interp [str X] synterp [int 1] interp [int 1] synterp [trm _] interp [trm (app [global (indc «S»), global (indc «O»)])] synterp [const-decl x (some _) (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] interp [const-decl x (some (fun `P` (global (indt «bool»)) c0 \ fun `Q` (global (indt «bool»)) c1 \ global (indc «O»))) (parameter P explicit (global (indt «bool»)) c0 \ parameter Q explicit (global (indt «bool»)) c1 \ arity (global (indt «nat»)))] synterp [const-decl x none (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] interp [const-decl x none (parameter P explicit (global (indt «bool»)) c0 \ parameter Q explicit (global (indt «bool»)) c1 \ arity (global (indt «nat»)))] synterp [indt-decl (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ record x _ K (field [coercion off, canonical tt] f1 _ c2 \ field [coercion off, canonical tt] f2 _ c3 \ end-record))] interp [indt-decl (parameter P explicit (global (indt «bool»)) c0 \ parameter Q explicit (global (indt «bool»)) c1 \ record x (sort (typ «Set»)) K (field [coercion off, canonical tt] f1 (global (indt «nat»)) c2 \ field [coercion off, canonical tt] f2 (app [global (indt «eq»), global (indt «nat»), c2, c2]) c3 \ end-record))] synterp [indt-decl (parameter P explicit _ c0 \ inductive x tt (parameter Q explicit _ c1 \ arity _) c1 \ [constructor K (parameter Q explicit _ c2 \ arity _), constructor R (parameter Q explicit _ c2 \ arity _)])] interp [indt-decl (parameter P explicit (global (indt «bool»)) c0 \ inductive x tt (parameter Q explicit (global (indt «bool»)) c1 \ arity (prod `_` (global (indt «nat»)) c2 \ sort (typ «Set»))) c1 \ [constructor K (parameter Q explicit (global (indt «bool»)) c2 \ arity (prod `_` (global (indt «nat»)) c3 \ app [c1, c2, app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]])), constructor R (parameter Q explicit (global (indt «bool»)) c2 \ arity (prod `w` (global (indt «bool»)) c3 \ app [c1, c2, app [global (indc «S»), global (indc «O»)]]))])] synterp [ctx-decl (context-item A explicit _ none c0 \ context-item B explicit _ none c1 \ context-end)] interp [ctx-decl (context-item A explicit (global (indt «nat»)) none c0 \ context-item B explicit (global (indt «bool»)) none c1 \ context-end)] a : nat a is not universe polymorphic a is transparent Expands to: Constant elpi.tests.test_synterp.X.a Declared in library elpi.tests.test_synterp, line 44, characters 11-12 Module X := Struct Definition a : nat. End Module A := Struct Definition a : nat. End a : nat L= [p 1] File "./tests/test_synterp.v", line 38, characters 20-21: Warning: File "./tests/test_synterp.v", line 38, characters 20-21 X is linear: name it _X (discard) or X_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] File "./tests/test_synterp.v", line 41, characters 12-13: Warning: File "./tests/test_synterp.v", line 41, characters 12-13 X is linear: name it _X (discard) or X_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] nabla c1 \ seal (goal [decl c1 `P` (sort prop)] (app [global (const «id»), X0, X1]) (prod `_` c1 c2 \ c1) (app [global (const «id»), prod `_` c1 c2 \ c1, X2 c1]) []) Debug: {c0 c1 c2 c3} : decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c4 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»)) ?- evar (X0 c0 c1 c2 c3) (prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]) c4 \ prod `j` (app [c1, c3]) c5 \ app [global (indt «ex»), app [c1, c3], fun `a` (app [c1, c3]) c6 \ app [global (indt «eq»), app [c1, c3], c6, c6]]) (X1 c0 c1 c2 c3) /* suspended on X0, X1 */ Goal: [] [decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c4 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»))] ------------ prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]) c4 \ prod `j` (app [c1, c3]) c5 \ app [global (indt «ex»), app [c1, c3], fun `a` (app [c1, c3]) c6 \ app [global (indt «eq»), app [c1, c3], c6, c6]] x w = Type -> x w -> exists a : x w, a = a Debug: {c0 c1 c2 c3} : decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c4 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»)) ?- evar (X0 c0 c1 c2 c3) (prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]) c4 \ prod `j` (app [c1, c3]) c5 \ app [global (indt «ex»), app [c1, c3], fun `a` (app [c1, c3]) c6 \ app [global (indt «eq»), app [c1, c3], c6, c6]]) (X1 c0 c1 c2 c3) /* suspended on X0, X1 */ Goal: [] [decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c4 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»))] ------------ prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]) c4 \ prod `j` (app [c1, c3]) c5 \ app [global (indt «ex»), app [c1, c3], fun `a` (app [c1, c3]) c6 \ app [global (indt «eq»), app [c1, c3], c6, c6]] x w = Type -> x w -> exists a : x w, a = a Debug: {c0 c1 c2 c3 c4 c5} : decl c5 `j` (app [c1, c3]), decl c4 `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]), decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c6 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»)) ?- evar (X0 c0 c1 c2 c3 c4 c5) (app [c1, c3]) (X1 c0 c1 c2 c3 c4 c5) /* suspended on X0, X1 */ {c0 c1 c2 c3 c4 c5} : decl c5 `j` (app [c1, c3]), decl c4 `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]), decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c6 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»)) ?- evar (X2 c0 c1 c2 c3 c4 c5) (app [global (indt «eq»), app [c1, c3], X1 c0 c1 c2 c3 c4 c5, X1 c0 c1 c2 c3 c4 c5]) (X3 c0 c1 c2 c3 c4 c5) /* suspended on X2, X3 */ Goal: [] [decl c5 `j` (app [c1, c3]), decl c4 `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]), decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c6 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»))] ------------ app [global (indt «eq»), app [c1, c3], X1 c0 c1 c2 c3 c4 c5, X1 c0 c1 c2 c3 c4 c5] ?foo = ?foo Debug: {c0 c1 c2 c3 c4 c5} : decl c5 `j` (app [c1, c3]), decl c4 `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]), decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c6 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»)) ?- evar (X0 c0 c1 c2 c3 c4 c5) (app [c1, c3]) (X1 c0 c1 c2 c3 c4 c5) /* suspended on X0, X1 */ {c0 c1 c2 c3 c4 c5} : decl c5 `j` (app [c1, c3]), decl c4 `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]), decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c6 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»)) ?- evar (X2 c0 c1 c2 c3 c4 c5) (app [global (indt «eq»), app [c1, c3], X1 c0 c1 c2 c3 c4 c5, X1 c0 c1 c2 c3 c4 c5]) (X3 c0 c1 c2 c3 c4 c5) /* suspended on X2, X3 */ Goal: [] [decl c5 `j` (app [c1, c3]), decl c4 `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.22»), app [c1, c3], sort (typ «elpi.tests.test_tactic.25»)]), decl c3 `w` c0, decl c2 `h` (app [global (indt «eq»), global (indt «nat»), global (const «o»), global (const «m»)]), decl c1 `x` (prod `y` c0 c6 \ sort (typ «elpi.tests.test_tactic.22»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.21»))] ------------ app [global (indt «eq»), app [c1, c3], X1 c0 c1 c2 c3 c4 c5, X1 c0 c1 c2 c3 c4 c5] ?foo = ?foo Debug: evar X0 (global (indt «nat»)) X1 /* suspended on X0, X1 */ X0 global (indt «nat») Debug: evar X2 (global (indt «nat»)) X3 /* suspended on X2, X3 */ hello eq_refl : one = 1 : one = 1 [(c4 \ app [c1, c2]), (c4 \ app [c0, c2]), (c4 \ c4), (c4 \ prod `x0` (app [c0, c2]) c5 \ prod `x1` (global (indt «nat»)) c6 \ sort (typ «elpi.tests.test_tactic.47»))] [app [global (indt «eq»), global (indt «nat»), c2, app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]], sort prop] 1356 : nat this 3 app [c4, X0 c0 c1 c2 c3 c4] app [c3, app [c1, c2], global (const «a»)] foo.bar [trm c0, trm (app [global (const «Nat.add»), c0, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [trm c0, trm (app [global (const «Nat.add»), X0 c0 c1, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0 c1) (global (indt «nat»)) (X0 c0 c1) /* suspended on X1, X0 */ {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X2 c0 c1) (global (indt «True»)) (X3 c0 c1) /* suspended on X2, X3 */ [trm c0, trm (app [global (const «Nat.add»), X0 c0 c1, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0 c1) (global (indt «True»)) (X2 c0 c1) /* suspended on X1, X2 */ [trm c0, trm c1] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [trm (app [global (const «Nat.add»), c0, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [trm (app [global (const «Nat.add»), X0 c0 c1, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0 c1) (global (indt «nat»)) (X0 c0 c1) /* suspended on X1, X0 */ {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X2 c0 c1) (global (indt «True»)) (X3 c0 c1) /* suspended on X2, X3 */ [trm (app [global (const «Nat.add»), X0 c0 c1, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0 c1) (global (indt «True»)) (X2 c0 c1) /* suspended on X1, X2 */ [trm (app [global (indc «O»), global (indc «O»)])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [trm c0] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [int 1] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [int -1] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [str a] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [str a] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [str x] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [trm (app [global (const «Nat.add»), c0, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ [trm (app [global (const «Nat.add»), X0 c0 c1, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0 c1) (global (indt «True»)) (X2 c0 c1) /* suspended on X1, X2 */ [trm (app [global (const «Nat.add»), X0 c0 c1, c1])] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0 c1) (global (indt «True»)) (X2 c0 c1) /* suspended on X1, X2 */ [trm c0] Debug: {c0 c1} : decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0 c1) (global (indt «True»)) (X1 c0 c1) /* suspended on X0, X1 */ YYYYYYYYYYYYYYYYYYYYYYYYYYYY [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:), attribute elpi.phase (leaf-str interp), attribute foo (leaf-str )] XXXXXXXXXXXXXXXXXXXXXXXXXXX [get-option elpi.loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:, get-option elpi.phase interp, get-option foo tt] YYYYYYYYYYYYYYYYYYYYYYYYYYYY [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:), attribute elpi.phase (leaf-str interp), attribute foo (leaf-str )] XXXXXXXXXXXXXXXXXXXXXXXXXXX [get-option elpi.loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:, get-option elpi.phase interp, get-option foo tt] YYYYYYYYYYYYYYYYYYYYYYYYYYYY [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:), attribute elpi.phase (leaf-str interp), attribute bar (leaf-str )] XXXXXXXXXXXXXXXXXXXXXXXXXXX [get-option elpi.loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:, get-option elpi.phase interp, get-option bar tt] YYYYYYYYYYYYYYYYYYYYYYYYYYYY [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 289, column 77, characters 6139-6147:), attribute elpi.phase (leaf-str interp), attribute foo2 (leaf-str )] YYYYYYYYYYYYYYYYYYYYYYYYYYYY [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 290, column 77, characters 6226-6234:), attribute elpi.phase (leaf-str interp), attribute foo (leaf-str )] XXXXXXXXXXXXXXXXXXXXXXXXXXX [get-option elpi.loc File "./tests/test_tactic.v", line 290, column 77, characters 6226-6234:, get-option elpi.phase interp, get-option foo tt] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 318, column 10, characters 6808-6814:), attribute elpi.phase (leaf-str interp)] Entry binder_constr is [ LEFTA [ "exists2"; "'"; pattern LEVEL "0"; ":"; term LEVEL "200"; ","; term LEVEL "200"; "&"; term LEVEL "200" | "exists2"; "'"; pattern LEVEL "0"; ","; term LEVEL "200"; "&"; term LEVEL "200" | "exists2"; name; ":"; term LEVEL "200"; ","; term LEVEL "200"; "&"; term LEVEL "200" | "exists2"; name; ","; term LEVEL "200"; "&"; term LEVEL "200" | "exists"; "!"; open_binders; ","; term LEVEL "200" | "exists"; open_binders; ","; term LEVEL "200" | "forall"; open_binders; ","; term LEVEL "200" | "fun"; open_binders; "=>"; term LEVEL "200" | "let"; "fix"; fix_decl; "in"; term LEVEL "200" | "let"; "cofix"; cofix_body; "in"; term LEVEL "200" | "let"; "'"; pattern LEVEL "200"; ":="; term LEVEL "200"; "in"; term LEVEL "200" | "let"; "'"; pattern LEVEL "200"; ":="; term LEVEL "200"; case_type; "in"; term LEVEL "200" | "let"; "'"; pattern LEVEL "200"; "in"; pattern LEVEL "200"; ":="; term LEVEL "200"; case_type; "in"; term LEVEL "200" | "let"; name; binders; let_type_cstr; ":="; term LEVEL "200"; "in"; term LEVEL "200" | "let"; [ "("; LIST0 name SEP ","; ")" | "()" ]; as_return_type; ":="; term LEVEL "200"; "in"; term LEVEL "200" | "if"; term LEVEL "200"; as_return_type; "then"; term LEVEL "200"; "else"; term LEVEL "200" | "fix"; fix_decls | "cofix"; cofix_decls ] ] Entry constr is [ LEFTA [ "@"; global; univ_annot | term LEVEL "8" ] ] Entry lconstr is [ LEFTA [ term LEVEL "200" ] ] Entry term is [ "200" RIGHTA [ ] | "100" RIGHTA [ SELF; "<:"; term LEVEL "200" | SELF; "<<:"; term LEVEL "200" | SELF; ":>"; term LEVEL "200" | SELF; ":"; term LEVEL "200" ] | "99" RIGHTA [ SELF; "->"; term LEVEL "200" ] | "95" RIGHTA [ SELF; "<->"; NEXT ] | "90" RIGHTA [ ] | "85" RIGHTA [ SELF; "\\/"; term LEVEL "85" ] | "80" RIGHTA [ SELF; "/\\"; term LEVEL "80" ] | "75" RIGHTA [ "~"; term LEVEL "75" ] | "70" RIGHTA [ SELF; ">"; NEXT | SELF; ">="; NEXT | SELF; "<"; NEXT; "<="; NEXT | SELF; "<"; NEXT; "<"; NEXT | SELF; "<"; NEXT | SELF; "<="; NEXT; "<"; NEXT | SELF; "<="; NEXT; "<="; NEXT | SELF; "<="; NEXT | SELF; "<>"; NEXT; ":>"; NEXT | SELF; "<>"; NEXT | SELF; "="; NEXT; "="; NEXT | SELF; "="; NEXT; ":>"; NEXT | SELF; "="; NEXT ] | "60" RIGHTA [ SELF; "++"; term LEVEL "60" | SELF; "::"; term LEVEL "60" ] | "50" LEFTA [ SELF; "||"; NEXT | SELF; "-"; NEXT | SELF; "+"; NEXT ] | "40" LEFTA [ SELF; "&&"; NEXT | SELF; "/"; NEXT | SELF; "*"; NEXT ] | "35" RIGHTA [ "/"; term LEVEL "35" | "-"; term LEVEL "35" ] | "30" RIGHTA [ SELF; "^"; term LEVEL "30" ] | LEFTA [ IDENT "XX"; FIELD "xxx"; LIST0 arg ] | "10" LEFTA [ SELF; LIST1 arg | "@"; global; univ_annot; LIST0 NEXT | "@"; pattern_ident; LIST1 identref | binder_constr ] | "9" LEFTA [ ".."; term LEVEL "0"; ".." ] | "8" LEFTA [ ] | "1" LEFTA [ SELF; ".2" | SELF; ".1" | SELF; ".("; "@"; global; univ_annot; LIST0 (term LEVEL "9"); ")" | SELF; ".("; global; univ_annot; LIST0 arg; ")" | SELF; "%"; IDENT | SELF; "%_"; IDENT ] | "0" LEFTA [ QUOTATION "lp:" | "{"; "'"; pattern LEVEL "0"; "&"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; "&"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; ":"; term LEVEL "200"; "&"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; ":"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; ":"; term LEVEL "200"; "|"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; ":"; term LEVEL "200"; "|"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; "|"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; "'"; pattern LEVEL "0"; "|"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; "&"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; "&"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; ":"; term LEVEL "200"; "&"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; ":"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; ":"; term LEVEL "200"; "|"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; ":"; term LEVEL "200"; "|"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; "|"; term LEVEL "200"; "&"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; "|"; term LEVEL "200"; "}" | "{"; term LEVEL "99"; "}" | IDENT "ltac"; ":"; "("; ltac_expr; ")" | "("; term LEVEL "200"; ","; term LEVEL "200"; ","; LIST1 (term LEVEL "200") SEP ","; ")" | "("; term LEVEL "200"; ","; term LEVEL "200"; ")" | "("; term LEVEL "200"; ")" | "{|"; record_declaration; '|}' | "`{"; term LEVEL "200"; "}" | "`("; term LEVEL "200"; ")" | NUMBER | lookahead_lib_colon; IDENT "lib"; ":"; "@"; qualified_name | lookahead_lib_colon; IDENT "lib"; ":"; qualified_name | atomic_constr | term_match | reference; univ_annot | string | test_array_opening; "["; "|"; array_elems; "|"; lconstr; type_cstr; test_array_closing; "|"; "]"; univ_annot ] ] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 329, column 12, characters 7061-7082:), attribute elpi.phase (leaf-str interp)] skip int 1 skip str 33 skip trm (global (indt «bool»)) [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 329, column 12, characters 7061-7082:), attribute elpi.phase (leaf-str interp)] skip int 1 skip str 33 skip trm (global (indt «bool»)) nat -> bool -> True : Prop [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 338, column 12, characters 7247-7268:), attribute elpi.phase (leaf-str interp)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 338, column 12, characters 7247-7268:), attribute elpi.phase (leaf-str interp)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 342, column 30, characters 7348-7354:), attribute elpi.phase (leaf-str interp)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 342, column 30, characters 7348-7354:), attribute elpi.phase (leaf-str interp)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 350, column 7, characters 7524-7530:), attribute elpi.phase (leaf-str interp)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 350, column 7, characters 7524-7530:), attribute elpi.phase (leaf-str interp)] H goal [] X0 (global (indt «True»)) X1 [trm (global (const «H»))] goal [] X0 (global (indt «True»)) X1 [trm (app [global (indt «eq»), global (indt «True»), global (const «H»), global (const «H»)])] goal [] X0 (global (indt «True»)) X1 [trm (global (const «H»))] x1 : nat w : nat File "./tests/test_tactic.v", line 5, characters 28-32: Warning: File "./tests/test_tactic.v", line 5, characters 28-32 Type is linear: name it _Type (discard) or Type_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] The Db contains [phone_prefix USA 1] Phone prefix for USA is 1 The Db contains [phone_prefix USA 1, phone_prefix France 33, phone_prefix Italy 39] Phone prefix for France is 33 sweet! brr yummy! 3 + 7 becomes fun (x : ?e) (x0 : ?e0) => S (S x0) + S (S (S (S (S (S x))))) (eq_refl : 2 = (let z := 1 in S z)) foo = {f1 : Type & {f2 : f1 -> Type & forall t : f1, f2 t -> bool}} : Type mk_foo = fun (f1 : Type) (f2 : f1 -> Type) (f3 : forall t : f1, f2 t -> bool) => existT (fun f4 : Type => {f5 : f4 -> Type & forall t : f4, f5 t -> bool}) f1 (existT (fun f4 : f1 -> Type => forall t : f1, f4 t -> bool) f2 f3) : forall (f1 : Type) (f2 : f1 -> Type), (forall t : f1, f2 t -> bool) -> foo Arguments mk_foo f1%_type_scope (f2 f3)%_function_scope Notation p2 := (p2 nat 3 x) example_import_projections.p1 nat 3 x : nat : nat p1 : forall (T : Type) (t : T), r T t -> nat : forall (T : Type) (t : T), r T t -> nat eq_refl : example_import_projections.p1 bool false (Build bool false 3 eq_refl eq_refl) = 3 : example_import_projections.p1 bool false (Build bool false 3 eq_refl eq_refl) = 3 example_import_projections.f1 _ x : bool DEBUG: attempt at fuzzing binary op: global (indc «PLUS») DEBUG: attempt at fuzzing binary op: global (const «Nat.add») DEBUG: attempt at fuzzing binary op: global (indc «AND») DEBUG: fuzzed! DEBUG: attempt at fuzzing binary op: global (const «andb») DEBUG: attempt at fuzzing binary op: global (indc «OR») DEBUG: fuzzed! DEBUG: attempt at fuzzing binary op: global (const «orb») DEBUG: attempt at fuzzing binary op: global (indc «EQ») DEBUG: attempt at fuzzing binary op: global (const «Nat.eqb») Inductive eval1 : forall T : ty, Exp T -> Val T -> Prop := E_Num1 : forall n : nat, eval1 N (NUM n) (iNv n) | E_Bool1 : forall b : bool, eval1 B (BOOL b) (iBv b) | E_Plus1 : forall (e1 e2 : Exp N) (n1 n2 : nat), eval1 N e1 (iNv n1) -> eval1 N e2 (iNv n2) -> eval1 N (PLUS e1 e2) (iNv (n1 + n2)) | E_AND1 : forall (e1 e2 : Exp B) (b1 b2 : bool), eval1 B e1 (iBv b1) -> eval1 B e2 (iBv b2) -> eval1 B (AND e1 e2) (iBv (b1 && b2)) | E_OR1 : forall (e1 e2 : Exp B) (b1 b2 : bool), eval1 B e1 (iBv b1) -> eval1 B e2 (iBv b2) -> eval1 B (AND e1 e2) (iBv (b1 || b2)) | E_EQ1 : forall (e1 e2 : Exp N) (n1 n2 : nat), eval1 N e1 (iNv n1) -> eval1 N e2 (iNv n2) -> eval1 B (EQ e1 e2) (iBv (Nat.eqb n1 n2)). Arguments eval1 T _ _ Arguments E_Num1 n%_nat_scope Arguments E_Bool1 b%_bool_scope Arguments E_Plus1 e1 e2 (n1 n2)%_nat_scope _ _ Arguments E_AND1 e1 e2 (b1 b2)%_bool_scope _ _ Arguments E_OR1 e1 e2 (b1 b2)%_bool_scope _ _ Arguments E_EQ1 e1 e2 (n1 n2)%_nat_scope _ _ Query assignments: GRnat = indt «nat» GRplus = const «Nat.add» GRs = indc «S» Query assignments: Bo = app [global (indc «S»), app [global (indc «S»), global (indc «O»)]] C = «x» GR = const «x» Ty = global (indt «nat») TyC = global (indt «nat») Query assignments: Bo = fun `x` (global (indt «nat»)) c0 \ c0 C = «f» Query assignments: Bo = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] C = «Nat.add» The return type of m is: c0 \ c1 \ fun `x` (global (indt «nat»)) c2 \ fun `e` (app [global (indt «eq»), global (indt «nat»), global (indc «O»), c2]) c3 \ prod `_` (app [c1, global (indc «O»)]) c4 \ app [c1, c2] Query assignments: C = «m» RT = c0 \ c1 \ fun `x` (global (indt «nat»)) c2 \ fun `e` (app [global (indt «eq»), global (indt «nat»), global (indc «O»), c2]) c3 \ prod `_` (app [c1, global (indc «O»)]) c4 \ app [c1, c2] typ «elpi_examples.tutorial_coq_elpi_HOAS.28» < typ «elpi_examples.tutorial_coq_elpi_HOAS.29» Debug: Cannot enforce elpi_examples.tutorial_coq_elpi_HOAS.29 <= elpi_examples.tutorial_coq_elpi_HOAS.28 because elpi_examples.tutorial_coq_elpi_HOAS.28 < elpi_examples.tutorial_coq_elpi_HOAS.29 Query assignments: U = typ «elpi_examples.tutorial_coq_elpi_HOAS.28» U1 = typ «elpi_examples.tutorial_coq_elpi_HOAS.29» Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.29 elpi_examples.tutorial_coq_elpi_HOAS.28} |= elpi_examples.tutorial_coq_elpi_HOAS.28 < elpi_examples.tutorial_coq_elpi_HOAS.29 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: (id b) is: app [fun `x` (sort (typ X0)) c0 \ c0, sort (typ X1)] (id a) is illtyped: Illegal application: The term "fun x : Type => x" of type "Type -> Type" cannot be applied to the term "Type" : "Type" This term has type "Type@{elpi_examples.tutorial_coq_elpi_HOAS.30+1}" which should be a subtype of "Type@{elpi_examples.tutorial_coq_elpi_HOAS.30}". (universe inconsistency: Cannot enforce elpi_examples.tutorial_coq_elpi_HOAS.30 < elpi_examples.tutorial_coq_elpi_HOAS.30 because elpi_examples.tutorial_coq_elpi_HOAS.30 = elpi_examples.tutorial_coq_elpi_HOAS.30) after typing (id b) is: app [fun `x` (sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.30»)) c0 \ c0, sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.31»)] : sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.30») Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.31 elpi_examples.tutorial_coq_elpi_HOAS.30} |= elpi_examples.tutorial_coq_elpi_HOAS.31 < elpi_examples.tutorial_coq_elpi_HOAS.30 ALGEBRAIC UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.31 elpi_examples.tutorial_coq_elpi_HOAS.30} FLEXIBLE UNIVERSES: elpi_examples.tutorial_coq_elpi_HOAS.31 elpi_examples.tutorial_coq_elpi_HOAS.30 SORTS: WEAK CONSTRAINTS: Query assignments: A = sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.30») B = sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.31») ErrMsg = Illegal application: The term "fun x : Type => x" of type "Type -> Type" cannot be applied to the term "Type" : "Type" This term has type "Type@{elpi_examples.tutorial_coq_elpi_HOAS.30+1}" which should be a subtype of "Type@{elpi_examples.tutorial_coq_elpi_HOAS.30}". (universe inconsistency: Cannot enforce elpi_examples.tutorial_coq_elpi_HOAS.30 < elpi_examples.tutorial_coq_elpi_HOAS.30 because elpi_examples.tutorial_coq_elpi_HOAS.30 = elpi_examples.tutorial_coq_elpi_HOAS.30) ID = fun `x` (sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.30»)) c0 \ c0 T = sort (typ «elpi_examples.tutorial_coq_elpi_HOAS.30») U = «elpi_examples.tutorial_coq_elpi_HOAS.30» V = «elpi_examples.tutorial_coq_elpi_HOAS.31» Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.31 elpi_examples.tutorial_coq_elpi_HOAS.30} |= elpi_examples.tutorial_coq_elpi_HOAS.31 < elpi_examples.tutorial_coq_elpi_HOAS.30 ALGEBRAIC UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.31 elpi_examples.tutorial_coq_elpi_HOAS.30} FLEXIBLE UNIVERSES: elpi_examples.tutorial_coq_elpi_HOAS.31 elpi_examples.tutorial_coq_elpi_HOAS.30 SORTS: WEAK CONSTRAINTS: app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], app [global (indc «S»), global (indc «O»)]] Query assignments: S = indc «S» fun `x` (global (indt «nat»)) c0 \ fun `x` (global (indt «nat»)) c1 \ app [global (const «Nat.add»), c1, c0] fun `x` (global (indt «nat»)) c0 \ fun `x` (global (indt «nat»)) c1 \ app [global (const «Nat.add»), c1, c0] fun `a` (global (indt «nat»)) c0 \ fun `b` (global (indt «nat»)) c1 \ app [global (const «Nat.add»), c1, c0] Query assignments: X = c0 \ c1 \ app [global (const «Nat.add»), c1, c0] fun `a` (global (indt «nat»)) c0 \ fun `b` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c0, c1] indt «nat» indt «nat» before: fun `ax` (global (indt «nat»)) c0 \ fun `b` (global (indt «nat»)) c1 \ app [global (indt «eq»), X0 c1, c0, c1] after: fun `ax` (global (indt «nat»)) c0 \ fun `b` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c0, c1] Query assignments: T = fun `ax` (global (indt «nat»)) c0 \ fun `b` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c0, c1] X1_ = c0 \ global (indt «nat») Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.33 elpi_examples.tutorial_coq_elpi_HOAS.32} |= elpi_examples.tutorial_coq_elpi_HOAS.33 < elpi_examples.tutorial_coq_elpi_HOAS.32 Set <= elpi_examples.tutorial_coq_elpi_HOAS.33 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi_examples.tutorial_coq_elpi_HOAS.33 SORTS: α6 := Type α7 WEAK CONSTRAINTS: Query assignments: Bo = c0 \ app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]] N = `x` T = fun `x` (global (indt «nat»)) c0 \ app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]] Ty = global (indt «nat») Query assignments: Bo = c0 \ app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]] N = `x` T = fun `x` (global (indt «nat»)) c0 \ app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]] Ty = global (indt «nat») raw T = X0 SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: -------------------------------- evar X0 (global (indt «nat»)) X0 /* suspended on X0 */ EVARS: ?X11==[ |- nat] (internal placeholder) {?e0} ?X10==[ |- => nat] (internal placeholder) SHELF: FUTURE GOALS STACK: ?X11 Rocq-Elpi mapping: RAW: ?X11 <-> X0 ELAB: ?X11 <-> X0 Query assignments: T = X0 X2_ = X0 Syntactic constraints: evar X0 (global (indt «nat»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.34} |= Set <= elpi_examples.tutorial_coq_elpi_HOAS.34 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α8 := Type WEAK CONSTRAINTS: raw T = fun `x` (global (indt «nat»)) c0 \ app [global (const «Nat.add»), c0, X0 c0] {c0 c1} : decl c1 `x` (global (indt «nat»)) ?- evar (X0 c1) (global (indt «nat»)) (X0 c1) /* suspended on X0 */ EVARS: ?X13==[x |- nat] (internal placeholder) {?e0} ?X12==[x |- => nat] (internal placeholder) SHELF: FUTURE GOALS STACK: ?X13 Rocq-Elpi mapping: RAW: ?X13 <-> X0 ELAB: ?X13 <-> X0 Query assignments: Bo = c0 \ app [global (const «Nat.add»), c0, X0 c0] N = `x` T = fun `x` (global (indt «nat»)) c0 \ app [global (const «Nat.add»), c0, X0 c0] Ty = global (indt «nat») X3_ = X0 Syntactic constraints: {c0 c1} : decl c1 `x` (global (indt «nat»)) ?- evar (X0 c1) (global (indt «nat»)) (X0 c1) /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.35} |= Set <= elpi_examples.tutorial_coq_elpi_HOAS.35 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α9 := Type WEAK CONSTRAINTS: Bo1 (not in pattern fragment) = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], X0 (app [global (indc «S»), global (indc «O»)])] Bo1 before = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], X0 (app [global (indc «S»), global (indc «O»)])] Bo1 after = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], X1] Query assignments: Bo = c0 \ app [global (const «Nat.add»), c0, X1] Bo1 = app [global (const «Nat.add»), app [global (indc «S»), global (indc «O»)], X1] N = `x` T = fun `x` (global (indt «nat»)) c0 \ app [global (const «Nat.add»), c0, X1] Ty = global (indt «nat») X5_ = c0 \ X1 Syntactic constraints: evar X1 (global (indt «nat»)) X1 /* suspended on X1 */ Universe constraints: UNIVERSES: {elpi_examples.tutorial_coq_elpi_HOAS.36} |= Set <= elpi_examples.tutorial_coq_elpi_HOAS.36 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α10 := Type WEAK CONSTRAINTS: Query assignments: Bo = c0 \ app [global (const «andb»), c0, X0 c0] Bo1 = app [global (const «andb»), app [global (indc «S»), global (indc «O»)], X0 (app [global (indc «S»), global (indc «O»)])] Bo2 = app [global (const «andb»), app [global (const «nat2bool»), app [global (indc «S»), global (indc «O»)]], X1] N = `x` T = fun `x` (global (indt «nat»)) c0 \ app [global (const «andb»), c0, X0 c0] Ty = global (indt «nat») X6_ = X0 Syntactic constraints: evar X2 (global (indt «bool»)) X1 /* suspended on X2, X1 */ File "./examples/tutorial_coq_elpi_HOAS.v", line 419, characters 9-31: Warning: Coq.Init.Datatypes.nat has been replaced by Corelib.Init.Datatypes.nat. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./examples/tutorial_coq_elpi_HOAS.v", line 420, characters 9-26: Warning: Coq.Init.Logic.eq has been replaced by Corelib.Init.Logic.eq. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] f = fun (b : bool) (t : r) => let q := negb b in fix rec (l1 l2 : list t) {struct l1} : bool := match l1 with | nil => match l2 with | nil => b | (_ :: _)%list => q end | (x :: xs)%list => match l2 with | nil => q | (y :: ys)%list => (op t x y && rec xs ys)%bool end end : bool -> forall t : r, list t -> list t -> bool Arguments f b%_bool_scope t (l1 l2)%_list_scope expanded_f = fun (b : bool) (T : Type) => let X := T in fun op : T -> X -> bool => let q := negb b in fix rec (l1 l2 : list T) {struct l1} : bool := match l1 with | nil => match l2 with | nil => b | (_ :: _)%list => q end | (x :: xs)%list => match l2 with | nil => q | (y :: ys)%list => (op x y && rec xs ys)%bool end end : bool -> forall T : Type, (T -> T -> bool) -> list T -> list T -> bool Arguments expanded_f b%_bool_scope T%_type_scope op%_function_scope (l1 l2)%_list_scope expanded_g = fun T : Type => let X := T in fun (op : T -> X -> bool) (l s : list T) (h : bool) => (forall (x : T) (y : X), op x y = false) /\ expanded_f true T op l s = h : forall T : Type, (T -> T -> bool) -> list T -> list T -> bool -> Prop Arguments expanded_g T%_type_scope op%_function_scope (l s)%_list_scope h%_bool_scope Hello [str world!] Hello [int 46] Hello [str there] Hello [str my, str friend] Hello [str this.is.a.qualified.name] Hello [trm (app [global (indt «eq»), global (indt «nat»), global (indc «O»), app [global (indc «S»), global (indc «O»)]])] Hello [const-decl test (some (app [global (indt «eq»), global (indt «nat»), global (indc «O»), app [global (indc «S»), global (indc «O»)]])) (arity (sort prop))] Hello [indt-decl (record test (sort (typ «Set»)) Build_test (field [coercion off, canonical tt] f1 (global (indt «nat»)) c0 \ field [coercion off, canonical tt] f2 (app [global (indt «eq»), global (indt «nat»), c0, app [global (indc «S»), global (indc «O»)]]) c1 \ end-record))] The type of app [global (indt «eq»), global (indt «nat»), app [global (indc «S»), global (indc «O»)], global (indc «O»)] is sort prop 1 = true : Prop T= app [global (indt «eq»), X0, app [global (indc «S»), global (indc «O»)], global (indc «true»)] T1= app [global (indt «eq»), global (indt «nat»), app [global (indc «S»), global (indc «O»)], app [global (const «bool2nat»), global (indc «true»)]] Ty= sort prop nK_bool = 2 : nat nK_False = 0 : nat Inductive tree' (A : Set) : Set := leaf' : tree' A | node' : tree' A -> A -> tree' A -> tree' A. Arguments tree' A%_type_scope Arguments leaf' A%_type_scope Arguments node' A%_type_scope _ _ _ bob is 24 years old alice is 21 years old bob is 24 years old alice is 21 years old [attribute elpi.loc (leaf-loc File "./examples/tutorial_coq_elpi_command.v", line 614, column 31, characters 17346-17350:), attribute elpi.phase (leaf-str interp), attribute this (leaf-str ), attribute more (node [attribute stuff (leaf-str 33)])] options= [get-option elpi.loc File "./examples/tutorial_coq_elpi_command.v", line 646, column 31, characters 18182-18192:, get-option elpi.phase interp, get-option this tt, get-option more.stuff 33] 33 tt That is all folks! going from source to target via plane synterp x := some _ interp x := some (app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]) The module is «elpi_examples.tutorial_coq_elpi_command.Module46» Box.Box.Box.Box.foo = fun n : nat => n + 2 : nat -> nat Arguments Box.Box.Box.Box.foo n%_nat_scope Module NextModule2 := Struct End File "./examples/tutorial_coq_elpi_command.v", line 614, characters 2-24: Warning: This command does not support these attributes: more, this. [unsupported-attributes,parsing,default] File "./examples/tutorial_coq_elpi_command.v", line 646, characters 2-24: Warning: This command does not support these attributes: more, this. [unsupported-attributes,parsing,default] File "./examples/tutorial_coq_elpi_command.v", line 647, characters 7-14: Warning: This command does not support this attribute: unknown. [unsupported-attributes,parsing,default] The age of alice is 20 Query assignments: A = 20 mallory is 23 years old Query assignments: P = mallory alice is 20 years old Query assignments: P = alice mallory and bob are 23 years old Query assignments: A = 23 P = mallory Q = bob I picked P = mallory I picked Q = mallory I picked Q = bob the last choice worked! mallory and bob are 23 years old Query assignments: A = 23 P = mallory Q = bob bob is older than alice Query assignments: X = alice both bob and mallory are older than alice Query assignments: X = alice F = c0 \ age alice c0 F 20 = age alice 20 F 23 = age alice 23 Query assignments: F = c0 \ age alice c0 λx.x ~> fun c0 \ c0 (λx.x) (λx.x) ~> fun c0 \ c0 Query assignments: I = fun c0 \ c0 T = fun c0 \ c0 T1 = fun c0 \ c0 (Fst foo bar) ~> foo (foo bar) ~> app foo bar Query assignments: Fst = fun c0 \ fun c1 \ c0 S = app foo bar S1 = app foo bar T = app (app (fun c0 \ fun c1 \ c0) foo) bar T1 = foo The type of λx.λy.x is: arr X0 (arr X1 X0) Query assignments: Ty = arr X0 (arr X1 X0) Error: fun c0 \ app c0 c0 has no type Query assignments: Delta = fun c0 \ app c0 c0 Ty = X0 2 + 1 = s (s (s z)) Query assignments: R = s (s (s z)) Query assignments: X = X0 Z = X1 Syntactic constraints: sum X0 (s z) X1 /* suspended on X0 */ The result is: s z Query assignments: X = z Z = s z Query assignments: X = s z Debug: sum X0 (s z) X1 /* suspended on X0 */ Currently Y = X1 Debug: sum X2 (s z) X3 /* suspended on X2 */ Currently Y = s X3 Finally Y = s (s z) Query assignments: X = s z Y = s (s z) Z = z Query assignments: X = X0 Syntactic constraints: even X0 /* suspended on X0 */ odd X0 /* suspended on X0 */ X0 can't be even and odd at the same time Query assignments: A = [1, 2, 3, 3, 2, 1] Query assignments: A = [1, 2, 3, 3, 2, 1] result = 5 Query assignments: X = result = Y = 5 result = 5 Query assignments: %spill1 = 5 Query assignments: R1 = X0 R2 = [2, 3, 4] R3 = [2, 3, 4] Query assignments: R = [2, 3, 4] Y = c0 arr X0 (arr X1 X0) Query assignments: Ty = arr X0 (arr X1 X0) Debug: run 1 {{{ Debug: rid:0 step:1 gid:4 user:curgoal = ,of (fun c0 \ fun c1 \ c0) X0 , coq.say X0 Debug: rid:0 step:1 gid:4 user:rule = and Debug: rid:0 step:1 gid:4 user:subgoal = 5 Debug: rid:0 step:1 gid:5 user:newgoal = of (fun c0 \ fun c1 \ c0) X0 Debug: rid:0 step:1 gid:4 user:subgoal = 6 Debug: rid:0 step:1 gid:6 user:newgoal = coq.say X0 Debug: rid:0 step:1 gid:4 user:rule:and = success Debug: }}} -> (0.000s) Debug: run 2 {{{ Debug: rid:0 step:2 gid:5 user:curgoal = ofof (fun c0 \ fun c1 \ c0) X0 Debug: rid:0 step:2 gid:5 user:rule = backchain Debug: rid:0 step:2 gid:5 user:rule:backchain:candidates = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: Debug: }}} -> (0.000s) Debug: select 3 {{{ Debug: rid:0 step:2 gid:5 user:rule:backchain:try = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: (of (fun A0) (arr A2 A1)) :- (pi c0 \ (of c0 A2 => of (A0 c0) A1)). Debug: rid:0 step:2 gid:0 user:assign = A0 := c0 \ fun c1 \ c0 Debug: rid:0 step:2 gid:0 user:assign = X0 := arr X1 X2 Debug: rid:0 step:2 gid:5 user:subgoal = 7 Debug: rid:0 step:2 gid:7 user:newgoal = pi c0 \ of c0 X1 => of (fun c1 \ c0) X2 Debug: rid:0 step:2 gid:7 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 3 {{{ Debug: rid:0 step:3 gid:7 user:curgoal = pipi c0 \ of c0 X1 => of (fun c1 \ c0) X2 Debug: rid:0 step:3 gid:7 user:rule = pi Debug: rid:0 step:3 gid:7 user:subgoal = 8 Debug: rid:0 step:3 gid:8 user:newgoal = of c0 X1 => of (fun c1 \ c0) X2 Debug: rid:0 step:3 gid:8 user:rule:pi = success Debug: }}} -> (0.000s) Debug: run 4 {{{ Debug: rid:0 step:4 gid:8 user:curgoal = =>of c0 X1 => of (fun c1 \ c0) X2 Debug: rid:0 step:4 gid:8 user:rule = implication Debug: rid:0 step:4 gid:8 user:subgoal = 9 Debug: rid:0 step:4 gid:9 user:newgoal = of (fun c1 \ c0) X2 Debug: rid:0 step:4 gid:9 user:rule:implication = success Debug: }}} -> (0.000s) Debug: run 5 {{{ Debug: rid:0 step:5 gid:9 user:curgoal = ofof (fun c1 \ c0) X2 Debug: rid:0 step:5 gid:9 user:rule = backchain Debug: rid:0 step:5 gid:9 user:rule:backchain:candidates = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: Debug: }}} -> (0.000s) Debug: select 4 {{{ Debug: rid:0 step:5 gid:9 user:rule:backchain:try = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: (of (fun A0) (arr A2 A1)) :- (pi c0 \ (of c0 A2 => of (A0 c0) A1)). Debug: rid:0 step:5 gid:0 user:assign = A0 := c1 \ c0 Debug: rid:0 step:5 gid:0 user:assign = X2 := arr X3 X4 Debug: rid:0 step:5 gid:9 user:subgoal = 10 Debug: rid:0 step:5 gid:10 user:newgoal = pi c1 \ of c1 X3 => of c0 X4 Debug: rid:0 step:5 gid:10 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 6 {{{ Debug: rid:0 step:6 gid:10 user:curgoal = pipi c1 \ of c1 X3 => of c0 X4 Debug: rid:0 step:6 gid:10 user:rule = pi Debug: rid:0 step:6 gid:10 user:subgoal = 11 Debug: rid:0 step:6 gid:11 user:newgoal = of c1 X3 => of c0 X4 Debug: rid:0 step:6 gid:11 user:rule:pi = success Debug: }}} -> (0.000s) Debug: run 7 {{{ Debug: rid:0 step:7 gid:11 user:curgoal = =>of c1 X3 => of c0 X4 Debug: rid:0 step:7 gid:11 user:rule = implication Debug: rid:0 step:7 gid:11 user:subgoal = 12 Debug: rid:0 step:7 gid:12 user:newgoal = of c0 X4 Debug: rid:0 step:7 gid:12 user:rule:implication = success Debug: }}} -> (0.000s) Debug: run 8 {{{ Debug: rid:0 step:8 gid:12 user:curgoal = ofof c0 X4 Debug: rid:0 step:8 gid:12 user:rule = backchain Debug: rid:0 step:8 gid:12 user:rule:backchain:candidates = File "(context step_id:4)", line 1, column 0, characters 0-0: Debug: }}} -> (0.000s) Debug: select 5 {{{ Debug: rid:0 step:8 gid:12 user:rule:backchain:try = File "(context step_id:4)", line 1, column 0, characters 0-0: (of c0 X1) :- . Debug: rid:0 step:8 gid:0 user:assign = X4 := X1 Debug: rid:0 step:8 gid:12 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 9 {{{ Debug: rid:0 step:9 gid:6 user:curgoal = coq.saycoq.say (arr X1 (arr X3 X1)) Debug: rid:0 step:9 gid:6 user:rule = builtin Debug: rid:0 step:9 gid:6 user:rule:builtin:name = coq.say arr X1 (arr X3 X1) Debug: rid:0 step:9 gid:6 user:rule:builtin = success Debug: }}} -> (0.000s) Query assignments: Ty = arr X1 (arr X3 X1) Debug: run 1 {{{ Debug: rid:1 step:1 gid:13 user:curgoal = ,of (fun c0 \ app c0 c0) X0 , coq.say X0 Debug: rid:1 step:1 gid:13 user:rule = and Debug: rid:1 step:1 gid:13 user:subgoal = 14 Debug: rid:1 step:1 gid:14 user:newgoal = of (fun c0 \ app c0 c0) X0 Debug: rid:1 step:1 gid:13 user:subgoal = 15 Debug: rid:1 step:1 gid:15 user:newgoal = coq.say X0 Debug: rid:1 step:1 gid:13 user:rule:and = success Debug: }}} -> (0.000s) Debug: run 2 {{{ Debug: rid:1 step:2 gid:14 user:curgoal = ofof (fun c0 \ app c0 c0) X0 Debug: rid:1 step:2 gid:14 user:rule = backchain Debug: rid:1 step:2 gid:14 user:rule:backchain:candidates = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: Debug: }}} -> (0.000s) Debug: select 3 {{{ Debug: rid:1 step:2 gid:14 user:rule:backchain:try = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: (of (fun A0) (arr A2 A1)) :- (pi c0 \ (of c0 A2 => of (A0 c0) A1)). Debug: rid:1 step:2 gid:0 user:assign = A0 := c0 \ app c0 c0 Debug: rid:1 step:2 gid:0 user:assign = X0 := arr X1 X2 Debug: rid:1 step:2 gid:14 user:subgoal = 16 Debug: rid:1 step:2 gid:16 user:newgoal = pi c0 \ of c0 X1 => of (app c0 c0) X2 Debug: rid:1 step:2 gid:16 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 3 {{{ Debug: rid:1 step:3 gid:16 user:curgoal = pipi c0 \ of c0 X1 => of (app c0 c0) X2 Debug: rid:1 step:3 gid:16 user:rule = pi Debug: rid:1 step:3 gid:16 user:subgoal = 17 Debug: rid:1 step:3 gid:17 user:newgoal = of c0 X1 => of (app c0 c0) X2 Debug: rid:1 step:3 gid:17 user:rule:pi = success Debug: }}} -> (0.000s) Debug: run 4 {{{ Debug: rid:1 step:4 gid:17 user:curgoal = =>of c0 X1 => of (app c0 c0) X2 Debug: rid:1 step:4 gid:17 user:rule = implication Debug: rid:1 step:4 gid:17 user:subgoal = 18 Debug: rid:1 step:4 gid:18 user:newgoal = of (app c0 c0) X2 Debug: rid:1 step:4 gid:18 user:rule:implication = success Debug: }}} -> (0.000s) Debug: run 5 {{{ Debug: rid:1 step:5 gid:18 user:curgoal = ofof (app c0 c0) X2 Debug: rid:1 step:5 gid:18 user:rule = backchain Debug: rid:1 step:5 gid:18 user:rule:backchain:candidates = File "./examples/tutorial_elpi_lang.v", line 788, column 2, characters 20262-20312: Debug: }}} -> (0.000s) Debug: select 4 {{{ Debug: rid:1 step:5 gid:18 user:rule:backchain:try = File "./examples/tutorial_elpi_lang.v", line 788, column 2, characters 20262-20312: (of (app A0 A3) A2) :- (of A0 (arr A1 A2)), (of A3 A1). Debug: rid:1 step:5 gid:0 user:assign = A0 := c0 Debug: rid:1 step:5 gid:0 user:assign = A3 := c0 Debug: rid:1 step:5 gid:0 user:assign = A2 := X2 Debug: rid:1 step:5 gid:18 user:subgoal = 19 Debug: rid:1 step:5 gid:19 user:newgoal = of c0 (arr X3^1 X2) Debug: rid:1 step:5 gid:19 user:subgoal = 20 Debug: rid:1 step:5 gid:20 user:newgoal = of c0 X3^1 Debug: rid:1 step:5 gid:19 user:rule:backchain = success Debug: }}} -> (0.004s) Debug: run 6 {{{ Debug: rid:1 step:6 gid:19 user:curgoal = ofof c0 (arr X3^1 X2) Debug: rid:1 step:6 gid:19 user:rule = backchain Debug: rid:1 step:6 gid:19 user:rule:backchain:candidates = File "(context step_id:4)", line 1, column 0, characters 0-0: Debug: }}} -> (0.000s) Debug: select 5 {{{ Debug: rid:1 step:6 gid:19 user:rule:backchain:try = File "(context step_id:4)", line 1, column 0, characters 0-0: (of c0 X1) :- . Debug: rid:1 step:6 gid:0 user:assign:expand = X3^1 := X4 c0 Debug: rid:1 step:6 gid:0 user:assign:restrict = 0 X4 c0 := c0 \ .X5 Debug: rid:1 step:6 gid:0 user:assign = X1 := arr X5 X2 Debug: rid:1 step:6 gid:19 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 7 {{{ Debug: rid:1 step:7 gid:20 user:curgoal = ofof c0 X5 Debug: rid:1 step:7 gid:20 user:rule = backchain Debug: rid:1 step:7 gid:20 user:rule:backchain:candidates = File "(context step_id:4)", line 1, column 0, characters 0-0: Debug: }}} -> (0.000s) Debug: select 6 {{{ Debug: rid:1 step:7 gid:20 user:rule:backchain:try = File "(context step_id:4)", line 1, column 0, characters 0-0: (of c0 (arr X5 X2)) :- . Debug: rid:1 step:7 gid:20 user:backchain:fail-to = unify X5 with arr X5 X2 Debug: }}} -> (0.000s) Debug: select 7 {{{ Debug: rid:1 step:7 gid:20 user:rule:backchain = fail Debug: }}} -> (0.000s) Debug: run 6 {{{ Debug: rid:2 step:6 gid:27 user:curgoal = pipi c1 \ of c1 X0 => of c0 X1 Debug: rid:2 step:6 gid:27 user:rule = pi Debug: rid:2 step:6 gid:27 user:subgoal = 28 Debug: rid:2 step:6 gid:28 user:newgoal = of c1 X0 => of c0 X1 Debug: rid:2 step:6 gid:28 user:rule:pi = success Debug: }}} -> (0.000s) Debug: run 7 {{{ Debug: rid:2 step:7 gid:28 user:curgoal = =>of c1 X0 => of c0 X1 Debug: rid:2 step:7 gid:28 user:rule = implication Debug: rid:2 step:7 gid:28 user:subgoal = 29 Debug: rid:2 step:7 gid:29 user:newgoal = of c0 X1 Debug: rid:2 step:7 gid:29 user:rule:implication = success Debug: }}} -> (0.000s) Debug: run 8 {{{ Debug: rid:2 step:8 gid:29 user:curgoal = ofof c0 X1 Debug: rid:2 step:8 gid:29 user:rule = backchain Debug: rid:2 step:8 gid:29 user:rule:backchain:candidates = File "(context step_id:4)", line 1, column 0, characters 0-0: Debug: }}} -> (0.000s) Debug: select 5 {{{ Debug: rid:2 step:8 gid:29 user:rule:backchain:try = File "(context step_id:4)", line 1, column 0, characters 0-0: (of c0 X2) :- . Debug: rid:2 step:8 gid:0 user:assign = X1 := X2 Debug: rid:2 step:8 gid:29 user:rule:backchain = success Debug: }}} -> (0.000s) arr X2 (arr X0 X2) Query assignments: Ty = arr X2 (arr X0 X2) Debug: run 2 {{{ Debug: rid:3 step:2 gid:31 user:curgoal = ofof (fun c0 \ fun c1 \ c0) X0 Debug: rid:3 step:2 gid:31 user:rule = backchain Debug: rid:3 step:2 gid:31 user:rule:backchain:candidates = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: Debug: }}} -> (0.000s) Debug: select 3 {{{ Debug: rid:3 step:2 gid:31 user:rule:backchain:try = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: (of (fun A0) (arr A2 A1)) :- (pi c0 \ (of c0 A2 => of (A0 c0) A1)). Debug: rid:3 step:2 gid:0 user:assign = A0 := c0 \ fun c1 \ c0 Debug: rid:3 step:2 gid:0 user:assign = X0 := arr X1 X2 Debug: rid:3 step:2 gid:31 user:subgoal = 33 Debug: rid:3 step:2 gid:33 user:newgoal = pi c0 \ of c0 X1 => of (fun c1 \ c0) X2 Debug: rid:3 step:2 gid:33 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 5 {{{ Debug: rid:3 step:5 gid:35 user:curgoal = ofof (fun c1 \ c0) X2 Debug: rid:3 step:5 gid:35 user:rule = backchain Debug: rid:3 step:5 gid:35 user:rule:backchain:candidates = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: Debug: }}} -> (0.000s) Debug: select 4 {{{ Debug: rid:3 step:5 gid:35 user:rule:backchain:try = File "./examples/tutorial_elpi_lang.v", line 793, column 2, characters 20428-20483: (of (fun A0) (arr A2 A1)) :- (pi c0 \ (of c0 A2 => of (A0 c0) A1)). Debug: rid:3 step:5 gid:0 user:assign = A0 := c1 \ c0 Debug: rid:3 step:5 gid:0 user:assign = X2 := arr X3 X4 Debug: rid:3 step:5 gid:35 user:subgoal = 36 Debug: rid:3 step:5 gid:36 user:newgoal = pi c1 \ of c1 X3 => of c0 X4 Debug: rid:3 step:5 gid:36 user:rule:backchain = success Debug: }}} -> (0.000s) Debug: run 8 {{{ Debug: rid:3 step:8 gid:38 user:curgoal = ofof c0 X4 Debug: rid:3 step:8 gid:38 user:rule = backchain Debug: rid:3 step:8 gid:38 user:rule:backchain:candidates = File "(context step_id:4)", line 1, column 0, characters 0-0: Debug: }}} -> (0.000s) Debug: select 5 {{{ Debug: rid:3 step:8 gid:38 user:rule:backchain:try = File "(context step_id:4)", line 1, column 0, characters 0-0: (of c0 X1) :- . Debug: rid:3 step:8 gid:0 user:assign = X4 := X1 Debug: rid:3 step:8 gid:38 user:rule:backchain = success Debug: }}} -> (0.000s) arr X1 (arr X3 X1) Query assignments: Ty = arr X1 (arr X3 X1) Debug: run 8 {{{ Debug: rid:4 step:8 gid:47 user:curgoal = ofof c0 X0 Debug: rid:4 step:8 gid:47 user:rule = backchain Debug: rid:4 step:8 gid:47 user:rule:backchain:candidates = File "(context step_id:4)", line 1, column 0, characters 0-0: Debug: }}} -> (0.000s) Debug: select 5 {{{ Debug: rid:4 step:8 gid:47 user:rule:backchain:try = File "(context step_id:4)", line 1, column 0, characters 0-0: (of c0 X1) :- . Debug: rid:4 step:8 gid:0 user:assign = X0 := X1 Debug: rid:4 step:8 gid:47 user:rule:backchain = success Debug: }}} -> (0.000s) arr X1 (arr X2 X1) Query assignments: Ty = arr X1 (arr X2 X1) calling mypred on 3 calling mypred on 2 calling mypred on 1 calling mypred on 0 ok Query assignments: A = X0 B = X0 C = X0 Query assignments: A = X0 B = X0 C = X0 INIT OK kind person type. type mallory, bob, alice person. INIT OK kind person type. type mallory, bob, alice person. func age person -> int. age mallory 23. age bob 23. age alice 20. INIT OK func prime int -> . % code omitted func f int -> int. f X Y :- prime X, !, Y = 2. f 16 Y :- Y = 4. INIT OK func prime int -> . pred one_or_two o:int. one_or_two 1. one_or_two 2. func f int -> int. f X Y :- one_or_two Y, !, prime X. f 16 Y :- Y = 4. INIT OK kind term type. type app term -> term -> term. type fun (term -> term) -> term. INIT OK kind nat type. type z nat. type s nat -> nat. pred add o:nat, o:nat, o:nat. add (s X) Y (s Z) :- add X Y Z. add z X X. INIT OK kind nat type. type z nat. type s nat -> nat. pred sum i:nat, i:nat, o:nat. sum (s X) Y (s Z) :- sum X Y Z. sum z X X. sum _ _ _ :- coq.error "nothing matched but for this catch all clause!". INIT OK kind nat type. type z nat. type s nat -> nat. func sum nat, nat -> nat. sum (s X) Y (s Z) :- !, sum X Y Z. sum z X X :- !. sum X Y Z :- % the head of the rule always unifies with the query, so % we double check X is a variable (we could also be % here because the other rules failed) var X, % then we declare the constraint and schedule its resumption % on the assignment of X declare_constraint (sum X Y Z) [X]. INIT OK pred make-palindrome i:list A, o:list A. make-palindrome L Result :- std.rev L TMP, std.append L TMP Result. INIT OK pred mypred i:int. :if "DEBUG_MYPRED" mypred X :- coq.say "calling mypred on " X, fail. mypred 0 :- coq.say "ok". mypred M :- N is M - 1, mypred N. Goal: [decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»))] |- X0 c0 c1 : app [global (indt «eq»), global (indt «nat»), app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]], c1] (I, 0) conj : forall [A B : Prop], A -> B -> A /\ B conj is not universe polymorphic Arguments conj [A B]%_type_scope _ _ Expands to: Constructor Corelib.Init.Logic.conj Declared in library Corelib.Init.Logic, line 64, characters 2-6 (ex_intro (fun t : Prop => True /\ True /\ t) True (conj I (conj I I))) [int 1, str x, str a b, trm (app [global (indt «eq»), X0, app [global (indc «S»), global (indc «O»)], global (indc «O»)])] Using H ?p of type Q Using H ?p of type Q Using p of type P [trm c0, trm c3, trm (app [c2, c3])] found P found P /\ P Goal: [decl c0 `x` (global (indt «nat»))] |- X0 c0 : app [global (indt «eq»), global (indt «nat»), app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]], global (indc «O»)] Proof state: {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X1 c0) (app [global (indt «eq»), global (indt «nat»), app [global (const «Nat.add»), c0, app [global (indc «S»), global (indc «O»)]], global (indc «O»)]) (X0 c0) /* suspended on X1, X0 */ EVARS: ?X57==[x |- x + 1 = 0] (goal evar) {?Goal} ?X56==[ |- => fun x : nat => ?Goal] (goal evar) ?X55==[x |- => nat] (parameter A of eq) ?X54==[ |- => nat] (type of x) SHELF:|| FUTURE GOALS STACK: || Rocq-Elpi mapping: RAW: ?X57 <-> c0 \ X1 c0 ELAB: ?X57 <-> X0 #goals = 2 [nabla c0 \ nabla c1 \ seal (goal [decl c1 `Q` (sort prop), decl c0 `P` (sort prop)] (X0 c0 c1) c0 (X1 c0 c1) []), nabla c0 \ nabla c1 \ seal (goal [decl c1 `Q` (sort prop), decl c0 `P` (sort prop)] (X2 c0 c1) c1 (X3 c0 c1) [])] (fun (P Q : Prop) (p : P) (q : Q) => conj ?Goal (conj ?Goal0 ?Goal1)) (fun (P Q : Prop) (p : P) (q : Q) => conj ?Goal (conj ?Goal0 ?Goal)) foo = 46 : nat bar = (false :: nil)%list : list bool baz = (46%nat :: nil)%list : list nat File "./examples/tutorial_coq_elpi_tactic.v", line 633, characters 0-22: Warning: x is already taken, Elpi will make a name up [lib,elpi,default] Query assignments: BO = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] GR = «Nat.add» TY = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») fix X0 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ X1 c1 c2 c3) [c2, fun `p` (X2 c1 c2) c3 \ app [c0, c3, c2]] fix X0 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (X3 c1 c2) c3 \ app [c0, c3, c2]] Query assignments: BO1 = fix X0 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (X3 c1 c2) c3 \ app [c0, c3, c2]] GR = «Nat.add» TY = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») X1_ = c0 \ c1 \ c2 \ global (indt «nat») X2_ = c0 \ c1 \ X3 c0 c1 Syntactic constraints: {c0 c1} : decl c1 `m` (global (indt «nat»)), decl c0 `n` (global (indt «nat»)) ?- evar (X3 c0 c1) (sort (typ «elpi_tests_stdlib.test_quotation.22»)) (X3 c0 c1) /* suspended on X3 */ Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_quotation.23 elpi_tests_stdlib.test_quotation.22 elpi_tests_stdlib.test_quotation.21} |= Set <= elpi_tests_stdlib.test_quotation.23 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi_tests_stdlib.test_quotation.23 SORTS: α1 α2 WEAK CONSTRAINTS: fun `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c0 \ match c0 (fun `_` (X0 c0) c1 \ fun `_elpi_renamed_v_1` (app [global (indt «Vector.t»), X1 c0, X2 c0]) c2 \ X3 c0 c2) [global (indc «O»), fun `_` (X4 c0) c1 \ fun `_` (X5 c0) c2 \ fun `_` (X6 c0) c3 \ app [global (indc «S»), global (indc «O»)]] fun `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c0 \ match c0 (fun `_` (X7 c0) c1 \ fun `_elpi_renamed_v_1` (app [global (indt «Vector.t»), global (indt «nat»), X8 c0]) c2 \ global (indt «nat»)) [global (indc «O»), fun `_` (X9 c0) c1 \ fun `_` (X10 c0) c2 \ fun `_` (X11 c0) c3 \ app [global (indc «S»), global (indc «O»)]] Query assignments: T = fun `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c0 \ match c0 (fun `_` (X7 c0) c1 \ fun `_elpi_renamed_v_1` (app [global (indt «Vector.t»), global (indt «nat»), X8 c0]) c2 \ global (indt «nat»)) [global (indc «O»), fun `_` (X9 c0) c1 \ fun `_` (X10 c0) c2 \ fun `_` (X11 c0) c3 \ app [global (indc «S»), global (indc «O»)]] X3_ = c0 \ X7 c0 X4_ = c0 \ global (indt «nat») X5_ = c0 \ X8 c0 X6_ = c0 \ c1 \ global (indt «nat») X7_ = c0 \ X9 c0 X8_ = c0 \ X10 c0 X9_ = c0 \ X11 c0 Syntactic constraints: {c0} : decl c0 `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) ?- evar (X11 c0) (sort (typ «elpi_tests_stdlib.test_quotation.30»)) (X11 c0) /* suspended on X11 */ {c0} : decl c0 `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) ?- evar (X10 c0) (sort (typ «elpi_tests_stdlib.test_quotation.29»)) (X10 c0) /* suspended on X10 */ {c0} : decl c0 `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) ?- evar (X9 c0) (sort (typ «elpi_tests_stdlib.test_quotation.28»)) (X9 c0) /* suspended on X9 */ {c0} : decl c0 `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) ?- evar (X8 c0) (X12 c0) (X8 c0) /* suspended on X8 */ {c0} : decl c0 `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) ?- evar (X13 c0) (sort (typ «elpi_tests_stdlib.test_quotation.26»)) (X12 c0) /* suspended on X13, X12 */ {c0} : decl c0 `v` (app [global (indt «Vector.t»), global (indt «nat»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) ?- evar (X7 c0) (sort (typ «elpi_tests_stdlib.test_quotation.24»)) (X7 c0) /* suspended on X7 */ Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29 elpi_tests_stdlib.test_quotation.28 elpi_tests_stdlib.test_quotation.27 elpi_tests_stdlib.test_quotation.26 elpi_tests_stdlib.test_quotation.25 elpi_tests_stdlib.test_quotation.24} |= elpi_tests_stdlib.test_quotation.31 < elpi_tests_stdlib.test_quotation.25 Set <= elpi_tests_stdlib.test_quotation.31 Set <= elpi_tests_stdlib.test_quotation.32 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 SORTS: α3 α4 := Type α5 α6 α7 α8 α9 α10 WEAK CONSTRAINTS: 3 Query assignments: X = 3 fun `x` X0 c0 \ app [X1, c0] Query assignments: X = X1 X10_ = X0 Y = fun `x` X0 c0 \ app [X1, c0] fun `r` (global (indt «nat»)) c0 \ fun `p` (prod `y` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c1, global (indc «O»)]) c1 \ fun `q` (global (indt «bool»)) c2 \ prod `y` (global (indt «nat»)) c3 \ app [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] Query assignments: %spill1 = c0 \ c1 \ c2 \ prod `y` (global (indt «nat»)) c3 \ app [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] X = fun `r` (global (indt «nat»)) c0 \ fun `p` (prod `y` (global (indt «nat»)) c1 \ app [global (indt «eq»), global (indt «nat»), c1, global (indc «O»)]) c1 \ fun `q` (global (indt «bool»)) c2 \ prod `y` (global (indt «nat»)) c3 \ app [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] fun u : nat => {| val := oval u; Sub := Ord u; Sub_rect := inlined_sub_rect |} : forall u : nat, is_SUB nat (fun x : nat => leq x u) (ord u) Debug: [elpi] gterm2lp: term=(fun u => {| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |}) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term={| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |} Debug: [elpi] gterm2lp: term=SubType Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(oval u) Debug: [elpi] gterm2lp: term=oval Debug: [elpi] gterm2lp: term=u Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=inlined_sub_rect Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(fun K_S u => let (x, Px) as u0 return (K u0) := u in K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(fun u => let (x, Px) as u0 return (K u0) := u in K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(let (x, Px) as u0 return (K u0) := _elpi_renamed_u_3 in K_S x Px) Debug: [elpi] gterm2lp: term=_elpi_renamed_u_3 Debug: [elpi] gterm2lp: term=(fun u0 => K u0) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(K u0) Debug: [elpi] gterm2lp: term=K Debug: [elpi] gterm2lp: term=u0 Debug: [elpi] gterm2lp: term=(fun x Px => K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(fun Px => K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(K_S x Px) Debug: [elpi] gterm2lp: term=K_S Debug: [elpi] gterm2lp: term=x Debug: [elpi] gterm2lp: term=Px Debug: [elpi] gterm2lp: term=(fun u => {| val := _; Sub := elpi_code:(K) u; Sub_rect := _ |}) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term={| val := _; Sub := elpi_code:(K) u; Sub_rect := _ |} Debug: [elpi] gterm2lp: term=SubType Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(elpi_code:(K) u) Debug: [elpi] gterm2lp: term=elpi_code:(K) Debug: [elpi] gterm2lp: term=u Debug: [elpi] gterm2lp: term=_ XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX fun `u` X0 c0 \ app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Debug: [elpi] elpi sigma -> coq sigma: before: SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: Debug: [elpi] elpi sigma -> coq sigma: synchronized: SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: Debug: [elpi] elpi sigma -> coq sigma: after: SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: Debug: [elpi] lp2term: depth=0 ctx=[] term=fun `u` X0 c0 \ app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] Debug: [elpi] lp2term@0:fun `u` X0 c0 \ app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] Debug: [elpi] lp2term@0:X0 Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: ELAB: Debug: [elpi] lp2term@1:app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] Debug: [elpi] lp2term@1:global (indc «SubType») Debug: [elpi] lp2term@1:X1 c0 Debug: [elpi] lp2term: evar: calldepth:0 X1 c0 RAW: ELAB: Debug: [elpi] lp2term@1:X2 c0 Debug: [elpi] lp2term: evar: calldepth:0 X2 c0 RAW: ELAB: Debug: [elpi] lp2term@1:X3 c0 Debug: [elpi] lp2term: evar: calldepth:0 X3 c0 RAW: ELAB: Debug: [elpi] lp2term@1:app [global (const «oval»), c0] Debug: [elpi] lp2term@1:global (const «oval») Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@1:X4 c0 Debug: [elpi] lp2term: evar: calldepth:0 X4 c0 RAW: ELAB: Debug: [elpi] lp2term@1:fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@1:X5 c0 Debug: [elpi] lp2term: evar: calldepth:0 X5 c0 RAW: ELAB: Debug: [elpi] lp2term@2:fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@2:X6 c0 c1 Debug: [elpi] lp2term: evar: calldepth:0 X6 c0 c1 RAW: ELAB: Debug: [elpi] lp2term@3:fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@3:X7 c0 c1 c2 Debug: [elpi] lp2term: evar: calldepth:0 X7 c0 c1 c2 RAW: ELAB: Debug: [elpi] lp2term@4:match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@4:c3 Debug: [elpi] lp2term@4:fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4] Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 Debug: [elpi] lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 RAW: ELAB: Debug: [elpi] lp2term@5:app [c1, c4] Debug: [elpi] lp2term@5:c1 Debug: [elpi] lp2term@5:c4 Debug: [elpi] lp2term@4:fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 Debug: [elpi] lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 RAW: ELAB: Debug: [elpi] lp2term@5:fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 Debug: [elpi] lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 RAW: ELAB: Debug: [elpi] lp2term@6:app [c2, c4, c5] Debug: [elpi] lp2term@6:c2 Debug: [elpi] lp2term@6:c4 Debug: [elpi] lp2term@6:c5 Debug: [elpi] lp2term: out=(fun u : hole hole => {| val := oval u; Sub := hole u hole; Sub_rect := fun (K : hole u hole) (K_S : hole K u hole) (_elpi_renamed_u_3 : hole K_S K u hole) => let () as u0 return (hole u0 _elpi_renamed_u_3 K_S K hole) := _elpi_renamed_u_3 in fun (x : hole _elpi_renamed_u_3 K_S K u hole) (Px : hole x _elpi_renamed_u_3 K_S K u hole) => K_S x Px |}) elpi2coq: RAW: ELAB: SHELF: FUTURE GOALS STACK: Debug: [elpi] detype: (fun u : hole hole => {| val := oval u; Sub := hole u hole; Sub_rect := fun (K : hole u hole) (K_S : hole K u hole) (_elpi_renamed_u_3 : hole K_S K u hole) => let () as u0 return (hole u0 _elpi_renamed_u_3 K_S K hole) := _elpi_renamed_u_3 in fun (x : hole _elpi_renamed_u_3 K_S K u hole) (Px : hole x _elpi_renamed_u_3 K_S K u hole) => K_S x Px |}) Debug: [elpi] bringing updated sigma back to lp Debug: [elpi] term2lp: depth=0 ctx= term=(forall u : nat, is_SUB nat (fun x : nat => leq x u) (ord u)) Debug: [elpi] term2lp (out): prod `u` (global (indt «nat»)) c0 \ app [global (indt «is_SUB»), global (indt «nat»), fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], app [global (indt «ord»), c0]] Debug: [elpi] term2lp: depth=0 ctx= term=(fun u : nat => {| val := oval u; Sub := Ord u; Sub_rect := inlined_sub_rect |}) Debug: [elpi] term2lp (out): fun `u` (global (indt «nat»)) c0 \ app [global (indc «SubType»), global (indt «nat»), fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], app [global (indt «ord»), c0], app [global (const «oval»), c0], app [global (indc «Ord»), c0], fun `K` (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) c1 \ fun `K_S` (prod `x` (global (indt «nat»)) c2 \ prod `Px` (app [global (indt «eq»), global (indt «bool»), app [fun `x` (global (indt «nat»)) c3 \ app [global (const «leq»), c3, c0], c2], global (indc «true»)]) c3 \ app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ match c3 (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) [fun `x` (global (indt «nat»)) c4 \ fun `Px` (app [global (indt «eq»), global (indt «bool»), app [global (const «leq»), c4, c0], global (indc «true»)]) c5 \ app [c2, c4, c5]]] Debug: [elpi] Elpi: query-compilation:0.0021 static-check:0.0000 optimization:0.0001 runtime:0.0210 (with success) Query assignments: GR = indc «Ord» K = global (indc «Ord») T = fun `u` X0 c0 \ app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] T1 = fun `u` (global (indt «nat»)) c0 \ app [global (indc «SubType»), global (indt «nat»), fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], app [global (indt «ord»), c0], app [global (const «oval»), c0], app [global (indc «Ord»), c0], fun `K` (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) c1 \ fun `K_S` (prod `x` (global (indt «nat»)) c2 \ prod `Px` (app [global (indt «eq»), global (indt «bool»), app [fun `x` (global (indt «nat»)) c3 \ app [global (const «leq»), c3, c0], c2], global (indc «true»)]) c3 \ app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ match c3 (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) [fun `x` (global (indt «nat»)) c4 \ fun `Px` (app [global (indt «eq»), global (indt «bool»), app [global (const «leq»), c4, c0], global (indc «true»)]) c5 \ app [c2, c4, c5]]] X11_ = X0 X12_ = X1 X13_ = X2 X14_ = X3 X15_ = X4 X16_ = X5 X17_ = X6 X18_ = X7 X19_ = X8 X20_ = X9 X21_ = X10 X22_ = global (indt «nat») X23_ = c0 \ global (indt «nat») X24_ = c0 \ fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0] X25_ = c0 \ app [global (indt «ord»), c0] X26_ = c0 \ app [global (const «oval»), c0] X27_ = c0 \ fun `K` (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) c1 \ fun `K_S` (prod `x` (global (indt «nat»)) c2 \ prod `Px` (app [global (indt «eq»), global (indt «bool»), app [fun `x` (global (indt «nat»)) c3 \ app [global (const «leq»), c3, c0], c2], global (indc «true»)]) c3 \ app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ match c3 (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) [fun `x` (global (indt «nat»)) c4 \ fun `Px` (app [global (indt «eq»), global (indt «bool»), app [global (const «leq»), c4, c0], global (indc «true»)]) c5 \ app [c2, c4, c5]] Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_quotation.50 elpi_tests_stdlib.test_quotation.49} |= Set <= is_SUB.u0 Set <= is_SUB.u1 Set <= elpi_tests_stdlib.test_quotation.49 is_SUB.u2 <= elpi_tests_stdlib.test_quotation.50 ALGEBRAIC UNIVERSES: {elpi_tests_stdlib.test_quotation.50 elpi_tests_stdlib.test_quotation.49} FLEXIBLE UNIVERSES: elpi_tests_stdlib.test_quotation.50 elpi_tests_stdlib.test_quotation.49 SORTS: α25 := Type α26 := Type WEAK CONSTRAINTS: Debug: [elpi] gterm2lp: term=(fun u => {| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |}) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term={| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |} Debug: [elpi] gterm2lp: term=SubType Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(oval u) Debug: [elpi] gterm2lp: term=oval Debug: [elpi] gterm2lp: term=u Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=inlined_sub_rect Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(fun K_S u => let (x, Px) as u0 return (K u0) := u in K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(fun u => let (x, Px) as u0 return (K u0) := u in K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(let (x, Px) as u0 return (K u0) := _elpi_renamed_u_3 in K_S x Px) Debug: [elpi] gterm2lp: term=_elpi_renamed_u_3 Debug: [elpi] gterm2lp: term=(fun u0 => K u0) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(K u0) Debug: [elpi] gterm2lp: term=K Debug: [elpi] gterm2lp: term=u0 Debug: [elpi] gterm2lp: term=(fun x Px => K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(fun Px => K_S x Px) Debug: [elpi] gterm2lp: term=_ Debug: [elpi] gterm2lp: term=(K_S x Px) Debug: [elpi] gterm2lp: term=K_S Debug: [elpi] gterm2lp: term=x Debug: [elpi] gterm2lp: term=Px Debug: [elpi] elpi sigma -> coq sigma: before: SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: Debug: [elpi] elpi sigma -> coq sigma: synchronized: SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: Debug: [elpi] elpi sigma -> coq sigma: after: SHELF: FUTURE GOALS STACK: Rocq-Elpi mapping: RAW: ELAB: Debug: [elpi] lp2term: depth=0 ctx=[] term=fun `u` X0 c0 \ app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] Debug: [elpi] lp2term@0:fun `u` X0 c0 \ app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] Debug: [elpi] lp2term@0:X0 Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: ELAB: Debug: [elpi] lp2term: evar: unknown: calldepth:0 X0 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; Debug: [elpi] lp2term: evar: create_unknown: visible ctx: Debug: [elpi] restrict_coq_context: named: Debug: [elpi] lp2term: evar: create_unknown: restricted ctx: Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X41 EVARS: ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK: ?X41 Debug: [elpi] lp2term@0:X0 Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: ?X41 <-> X0 ELAB: ?X41 <-> X0 Debug: [elpi] lp2term: evar: already in Coq: ?X41 Debug: [elpi] lp2term@1:app [global (indc «SubType»), X1 c0, X2 c0, X3 c0, app [global (const «oval»), c0], X4 c0, fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] Debug: [elpi] lp2term@1:global (indc «SubType») Debug: [elpi] lp2term@1:X1 c0 Debug: [elpi] lp2term: evar: calldepth:0 X1 c0 RAW: ?X41 <-> X0 ELAB: ?X41 <-> X0 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X1 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) Debug: [elpi] in_elpi_evar:?X42 Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X43 EVARS: ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X43 ?X42 ?X41 Debug: [elpi] lp2term@1:X1 c0 Debug: [elpi] lp2term: evar: calldepth:0 X1 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 Debug: [elpi] lp2term: evar: already in Coq: ?X43 Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@1:X2 c0 Debug: [elpi] lp2term: evar: calldepth:0 X2 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X2 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) Debug: [elpi] in_elpi_evar:?X44 Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X45 EVARS: ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@1:X2 c0 Debug: [elpi] lp2term: evar: calldepth:0 X2 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 Debug: [elpi] lp2term: evar: already in Coq: ?X45 Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@1:X3 c0 Debug: [elpi] lp2term: evar: calldepth:0 X3 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X3 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) Debug: [elpi] in_elpi_evar:?X46 Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X47 EVARS: ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@1:X3 c0 Debug: [elpi] lp2term: evar: calldepth:0 X3 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 Debug: [elpi] lp2term: evar: already in Coq: ?X47 Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@1:app [global (const «oval»), c0] Debug: [elpi] lp2term@1:global (const «oval») Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@1:X4 c0 Debug: [elpi] lp2term: evar: calldepth:0 X4 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X4 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) Debug: [elpi] in_elpi_evar:?X48 Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X49 EVARS: ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@1:X4 c0 Debug: [elpi] lp2term: evar: calldepth:0 X4 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 Debug: [elpi] lp2term: evar: already in Coq: ?X49 Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@1:fun `K` (X5 c0) c1 \ fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@1:X5 c0 Debug: [elpi] lp2term: evar: calldepth:0 X5 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X5 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X50 EVARS: ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@1:X5 c0 Debug: [elpi] lp2term: evar: calldepth:0 X5 c0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 Debug: [elpi] lp2term: evar: already in Coq: ?X50 Debug: [elpi] lp2term@1:c0 Debug: [elpi] lp2term@2:fun `K_S` (X6 c0 c1) c2 \ fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@2:X6 c0 c1 Debug: [elpi] lp2term: evar: calldepth:0 X6 c0 c1 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X6 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) restrict_coq_context: cur subst: u restrict_coq_context: looking at K(dbl 1) Debug: [elpi] ?e8--0->?e8 Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X51 EVARS: ?X51==[u K |- Type] (internal placeholder) {?e9} ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.57 elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 α33 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@2:X6 c0 c1 Debug: [elpi] lp2term: evar: calldepth:0 X6 c0 c1 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 Debug: [elpi] lp2term: evar: already in Coq: ?X51 Debug: [elpi] lp2term@2:c0 Debug: [elpi] lp2term@2:c1 Debug: [elpi] lp2term@3:fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@3:X7 c0 c1 c2 Debug: [elpi] lp2term: evar: calldepth:0 X7 c0 c1 c2 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X7 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) (K_S : ?e9) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) restrict_coq_context: cur subst: u restrict_coq_context: looking at K(dbl 1) Debug: [elpi] ?e8--0->?e8 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) restrict_coq_context: cur subst: K u restrict_coq_context: looking at K_S(dbl 2) Debug: [elpi] ?e9--0->?e9 Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) (K_S : ?e9) Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X52 EVARS: ?X52==[u K K_S |- Type] (internal placeholder) {?e10} ?X51==[u K |- Type] (internal placeholder) {?e9} ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.58 elpi_tests_stdlib.test_quotation.57 elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 α33 α34 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@3:X7 c0 c1 c2 Debug: [elpi] lp2term: evar: calldepth:0 X7 c0 c1 c2 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 Debug: [elpi] lp2term: evar: already in Coq: ?X52 Debug: [elpi] lp2term@3:c0 Debug: [elpi] lp2term@3:c1 Debug: [elpi] lp2term@3:c2 Debug: [elpi] lp2term@4:match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] Debug: [elpi] lp2term@4:c3 Debug: [elpi] lp2term@4:fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4] Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 Debug: [elpi] lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X8 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 c3 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) restrict_coq_context: cur subst: u restrict_coq_context: looking at K(dbl 1) Debug: [elpi] ?e8--0->?e8 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) restrict_coq_context: cur subst: K u restrict_coq_context: looking at K_S(dbl 2) Debug: [elpi] ?e9--0->?e9 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) (K_S : ?e9) restrict_coq_context: cur subst: K_S K u restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) Debug: [elpi] ?e10--0->?e10 Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X53 EVARS: ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} ?X52==[u K K_S |- Type] (internal placeholder) {?e10} ?X51==[u K |- Type] (internal placeholder) {?e9} ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.59 elpi_tests_stdlib.test_quotation.58 elpi_tests_stdlib.test_quotation.57 elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 α33 α34 α35 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 Debug: [elpi] lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 Debug: [elpi] lp2term: evar: already in Coq: ?X53 Debug: [elpi] lp2term@4:c0 Debug: [elpi] lp2term@4:c1 Debug: [elpi] lp2term@4:c2 Debug: [elpi] lp2term@4:c3 Debug: [elpi] lp2term@5:app [c1, c4] Debug: [elpi] lp2term@5:c1 Debug: [elpi] lp2term@5:c4 Debug: [elpi] lp2term@4:fun `x` (X9 c0 c1 c2 c3) c4 \ fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 Debug: [elpi] lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X9 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 c3 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) restrict_coq_context: cur subst: u restrict_coq_context: looking at K(dbl 1) Debug: [elpi] ?e8--0->?e8 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) restrict_coq_context: cur subst: K u restrict_coq_context: looking at K_S(dbl 2) Debug: [elpi] ?e9--0->?e9 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) (K_S : ?e9) restrict_coq_context: cur subst: K_S K u restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) Debug: [elpi] ?e10--0->?e10 Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X54 EVARS: ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} ?X52==[u K K_S |- Type] (internal placeholder) {?e10} ?X51==[u K |- Type] (internal placeholder) {?e9} ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.60 elpi_tests_stdlib.test_quotation.59 elpi_tests_stdlib.test_quotation.58 elpi_tests_stdlib.test_quotation.57 elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 α33 α34 α35 α36 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 Debug: [elpi] lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 Debug: [elpi] lp2term: evar: already in Coq: ?X54 Debug: [elpi] lp2term@4:c0 Debug: [elpi] lp2term@4:c1 Debug: [elpi] lp2term@4:c2 Debug: [elpi] lp2term@4:c3 Debug: [elpi] lp2term@5:fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 Debug: [elpi] lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 Debug: [elpi] lp2term: evar: unknown: calldepth:0 X10 Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) (x : ?e12) Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 c3 c4 Debug: [elpi] restrict_coq_context: named: Debug: [elpi] restrict_coq_context: cur rel ctx: restrict_coq_context: cur subst: restrict_coq_context: looking at u(dbl 0) Debug: [elpi] ?e--0->?e Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) restrict_coq_context: cur subst: u restrict_coq_context: looking at K(dbl 1) Debug: [elpi] ?e8--0->?e8 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) restrict_coq_context: cur subst: K u restrict_coq_context: looking at K_S(dbl 2) Debug: [elpi] ?e9--0->?e9 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) (K_S : ?e9) restrict_coq_context: cur subst: K_S K u restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) Debug: [elpi] ?e10--0->?e10 Debug: [elpi] restrict_coq_context: cur rel ctx: (u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) restrict_coq_context: cur subst: _elpi_renamed_u_3 K_S K u restrict_coq_context: looking at x(dbl 4) Debug: [elpi] ?e12--0->?e12 Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) (x : ?e12) Debug: [elpi] lp2term: evar: create_unknown: new link: ? |> |- ? = ?X55 EVARS: ?X55==[u K K_S _elpi_renamed_u_3 x |- Type] (internal placeholder) {?e13} ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} ?X52==[u K K_S |- Type] (internal placeholder) {?e10} ?X51==[u K |- Type] (internal placeholder) {?e9} ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.61 elpi_tests_stdlib.test_quotation.60 elpi_tests_stdlib.test_quotation.59 elpi_tests_stdlib.test_quotation.58 elpi_tests_stdlib.test_quotation.57 elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 α33 α34 α35 α36 α37 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK:?X55 ?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 Debug: [elpi] lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] lp2term: evar: already in Coq: ?X55 Debug: [elpi] lp2term@5:c0 Debug: [elpi] lp2term@5:c1 Debug: [elpi] lp2term@5:c2 Debug: [elpi] lp2term@5:c3 Debug: [elpi] lp2term@5:c4 Debug: [elpi] lp2term@6:app [c2, c4, c5] Debug: [elpi] lp2term@6:c2 Debug: [elpi] lp2term@6:c4 Debug: [elpi] lp2term@6:c5 Debug: [elpi] lp2term: out=(fun u : ?e => {| val := oval u; Sub := ?e7; Sub_rect := fun (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) => let () as u0 return ?e11@{u:=K; K:=K_S; K_S:=_elpi_renamed_u_3; _elpi_renamed_u_3:=u0} := _elpi_renamed_u_3 in fun (x : ?e12) (Px : ?e13) => K_S x Px |}) elpi2coq: RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 EVARS: ?X55==[u K K_S _elpi_renamed_u_3 x |- Type] (internal placeholder) {?e13} ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} ?X52==[u K K_S |- Type] (internal placeholder) {?e10} ?X51==[u K |- Type] (internal placeholder) {?e9} ?X50==[u |- Type] (internal placeholder) {?e8} ?X49==[u |- ?e6] (internal placeholder) {?e7} ?X48==[u |- Type] (internal placeholder) {?e6} ?X47==[u |- ?e4] (internal placeholder) {?e5} ?X46==[u |- Type] (internal placeholder) {?e4} ?X45==[u |- ?e2] (internal placeholder) {?e3} ?X44==[u |- Type] (internal placeholder) {?e2} ?X43==[u |- ?e0] (internal placeholder) {?e1} ?X42==[u |- Type] (internal placeholder) {?e0} ?X41==[ |- Type] (internal placeholder) {?e} UNIVERSES: {elpi_tests_stdlib.test_quotation.61 elpi_tests_stdlib.test_quotation.60 elpi_tests_stdlib.test_quotation.59 elpi_tests_stdlib.test_quotation.58 elpi_tests_stdlib.test_quotation.57 elpi_tests_stdlib.test_quotation.56 elpi_tests_stdlib.test_quotation.55 elpi_tests_stdlib.test_quotation.54 elpi_tests_stdlib.test_quotation.53 elpi_tests_stdlib.test_quotation.52 elpi_tests_stdlib.test_quotation.51} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α27 α28 α29 α30 α31 α32 α33 α34 α35 α36 α37 WEAK CONSTRAINTS: SHELF: FUTURE GOALS STACK: ?X55 ?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 ?X41 Debug: [elpi] in_elpi_fresh_evar: unknown ?X41 <-> X0 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=0 ctx= term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.51») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to0 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X41 <-> X0 declare-evar [] X0 (sort (typ «elpi_tests_stdlib.test_quotation.51»)) X0 Debug: [elpi] in_elpi_fresh_evar: unknown ?X42 <-> X12 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.52») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X42 <-> X12 pi c0 \ declare-evar [decl c0 `u` X0] (X12 c0) (sort (typ «elpi_tests_stdlib.test_quotation.52»)) (X11 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X43 <-> X1 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e0 Debug: [elpi] in_elpi_evar:?X42 Debug: [elpi] in_elpi_evar: known ?X42 as X11 Debug: [elpi] term2lp (out): X11 c0 Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X43 <-> X1 pi c0 \ declare-evar [decl c0 `u` X0] (X1 c0) (X11 c0) (X1 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X44 <-> X14 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.53») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X44 <-> X14 pi c0 \ declare-evar [decl c0 `u` X0] (X14 c0) (sort (typ «elpi_tests_stdlib.test_quotation.53»)) (X13 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X45 <-> X2 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e2 Debug: [elpi] in_elpi_evar:?X44 Debug: [elpi] in_elpi_evar: known ?X44 as X13 Debug: [elpi] term2lp (out): X13 c0 Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X45 <-> X2 pi c0 \ declare-evar [decl c0 `u` X0] (X2 c0) (X13 c0) (X2 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X46 <-> X16 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.54») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X46 <-> X16 pi c0 \ declare-evar [decl c0 `u` X0] (X16 c0) (sort (typ «elpi_tests_stdlib.test_quotation.54»)) (X15 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X47 <-> X3 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e4 Debug: [elpi] in_elpi_evar:?X46 Debug: [elpi] in_elpi_evar: known ?X46 as X15 Debug: [elpi] term2lp (out): X15 c0 Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X47 <-> X3 pi c0 \ declare-evar [decl c0 `u` X0] (X3 c0) (X15 c0) (X3 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X48 <-> X18 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.55») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X48 <-> X18 pi c0 \ declare-evar [decl c0 `u` X0] (X18 c0) (sort (typ «elpi_tests_stdlib.test_quotation.55»)) (X17 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X49 <-> X4 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e6 Debug: [elpi] in_elpi_evar:?X48 Debug: [elpi] in_elpi_evar: known ?X48 as X17 Debug: [elpi] term2lp (out): X17 c0 Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X49 <-> X4 pi c0 \ declare-evar [decl c0 `u` X0] (X4 c0) (X17 c0) (X4 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X50 <-> X5 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.56») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X50 <-> X5 pi c0 \ declare-evar [decl c0 `u` X0] (X5 c0) (sort (typ «elpi_tests_stdlib.test_quotation.56»)) (X5 c0) Debug: [elpi] in_elpi_fresh_evar: unknown ?X51 <-> X6 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 Debug: [elpi] in_elpi_evar:?X50 Debug: [elpi] in_elpi_evar: known ?X50 as X5 Debug: [elpi] term2lp (out): X5 c0 Debug: [elpi] term2lp: depth=2 ctx=u : ?e K : ?e8 term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.57») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to2 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X51 <-> X6 pi c0 c1 \ declare-evar [decl c1 `K` (X5 c0), decl c0 `u` X0] (X6 c0 c1) (sort (typ «elpi_tests_stdlib.test_quotation.57»)) (X6 c0 c1) Debug: [elpi] in_elpi_fresh_evar: unknown ?X52 <-> X7 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 Debug: [elpi] in_elpi_evar:?X50 Debug: [elpi] in_elpi_evar: known ?X50 as X5 Debug: [elpi] term2lp (out): X5 c0 Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 Debug: [elpi] in_elpi_evar:?X51 Debug: [elpi] in_elpi_evar: known ?X51 as X6 Debug: [elpi] term2lp (out): X6 c0 c1 Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 K_S : ?e9 term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.58») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to3 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X52 <-> X7 pi c0 c1 c2 \ declare-evar [decl c2 `K_S` (X6 c0 c1), decl c1 `K` (X5 c0), decl c0 `u` X0] (X7 c0 c1 c2) (sort (typ «elpi_tests_stdlib.test_quotation.58»)) (X7 c0 c1 c2) Debug: [elpi] in_elpi_fresh_evar: unknown ?X53 <-> X8 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 Debug: [elpi] in_elpi_evar:?X50 Debug: [elpi] in_elpi_evar: known ?X50 as X5 Debug: [elpi] term2lp (out): X5 c0 Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 Debug: [elpi] in_elpi_evar:?X51 Debug: [elpi] in_elpi_evar: known ?X51 as X6 Debug: [elpi] term2lp (out): X6 c0 c1 Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 Debug: [elpi] in_elpi_evar:?X52 Debug: [elpi] in_elpi_evar: known ?X52 as X7 Debug: [elpi] term2lp (out): X7 c0 c1 c2 Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.59») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to4 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X53 <-> X8 pi c0 c1 c2 c3 \ declare-evar [decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), decl c1 `K` (X5 c0), decl c0 `u` X0] (X8 c0 c1 c2 c3) (sort (typ «elpi_tests_stdlib.test_quotation.59»)) (X8 c0 c1 c2 c3) Debug: [elpi] in_elpi_fresh_evar: unknown ?X54 <-> X9 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 Debug: [elpi] in_elpi_evar:?X50 Debug: [elpi] in_elpi_evar: known ?X50 as X5 Debug: [elpi] term2lp (out): X5 c0 Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 Debug: [elpi] in_elpi_evar:?X51 Debug: [elpi] in_elpi_evar: known ?X51 as X6 Debug: [elpi] term2lp (out): X6 c0 c1 Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 Debug: [elpi] in_elpi_evar:?X52 Debug: [elpi] in_elpi_evar: known ?X52 as X7 Debug: [elpi] term2lp (out): X7 c0 c1 c2 Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.60») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to4 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X54 <-> X9 pi c0 c1 c2 c3 \ declare-evar [decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), decl c1 `K` (X5 c0), decl c0 `u` X0] (X9 c0 c1 c2 c3) (sort (typ «elpi_tests_stdlib.test_quotation.60»)) (X9 c0 c1 c2 c3) Debug: [elpi] in_elpi_fresh_evar: unknown ?X55 <-> X10 RAW: ?X41 <-> X0 ?X42 <-> X12 ?X43 <-> X1 ?X44 <-> X14 ?X45 <-> X2 ?X46 <-> X16 ?X47 <-> X3 ?X48 <-> X18 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 ELAB: ?X41 <-> X0 ?X42 <-> X11 ?X43 <-> X1 ?X44 <-> X13 ?X45 <-> X2 ?X46 <-> X15 ?X47 <-> X3 ?X48 <-> X17 ?X49 <-> X4 ?X50 <-> X5 ?X51 <-> X6 ?X52 <-> X7 ?X53 <-> X8 ?X54 <-> X9 ?X55 <-> X10 Debug: [elpi] term2lp: depth=1 ctx= term=?e Debug: [elpi] in_elpi_evar:?X41 Debug: [elpi] in_elpi_evar: known ?X41 as X0 Debug: [elpi] term2lp (out): X0 Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 Debug: [elpi] in_elpi_evar:?X50 Debug: [elpi] in_elpi_evar: known ?X50 as X5 Debug: [elpi] term2lp (out): X5 c0 Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 Debug: [elpi] in_elpi_evar:?X51 Debug: [elpi] in_elpi_evar: known ?X51 as X6 Debug: [elpi] term2lp (out): X6 c0 c1 Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 Debug: [elpi] in_elpi_evar:?X52 Debug: [elpi] in_elpi_evar: known ?X52 as X7 Debug: [elpi] term2lp (out): X7 c0 c1 c2 Debug: [elpi] term2lp: depth=5 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term= ?e12 Debug: [elpi] in_elpi_evar:?X54 Debug: [elpi] in_elpi_evar: known ?X54 as X9 Debug: [elpi] term2lp (out): X9 c0 c1 c2 c3 Debug: [elpi] term2lp: depth=5 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 x : ?e12 term=Type Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.61») Debug: [elpi] in_elpi_evar_concl: moving Ctx down to5 Debug: [elpi] in_elpi_fresh_evar: new decl at depth:0 for ?X55 <-> X10 pi c0 c1 c2 c3 c4 \ declare-evar [decl c4 `x` (X9 c0 c1 c2 c3), decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), decl c1 `K` (X5 c0), decl c0 `u` X0] (X10 c0 c1 c2 c3 c4) (sort (typ «elpi_tests_stdlib.test_quotation.61»)) (X10 c0 c1 c2 c3 c4) Debug: [elpi] Elpi: query-compilation:0.0015 static-check:0.0000 optimization:0.0001 runtime:0.0419 (with error) hd : forall A : Type, A -> list A -> A Debug: [elpi] gterm2lp: term=hd Debug: [elpi] Compiler cache: lookups=10, hits=8 Debug: [elpi] Compiler cache: lookups=0, hits=0 INIT OK pred of i:term, o:term. of X T :- coq.typecheck X T ok. File "./apps/eltac/theories/apply.v", line 15, characters 16-19: Warning: File "./apps/eltac/theories/apply.v", line 15, characters 16-19 Ctx is linear: name it _Ctx (discard) or Ctx_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] The argument fun x : ?e => x + ?e1 was closed under 1 binders old replacement: fun (x : ?e) (y : ?e0) => x - y with fun (y : ?e1) (x : ?e2) => y + x new replacement: fun y : ?e0 => x - y with fun y : ?e1 => y + x File "./examples-stdlib/example_open_terms.v", line 2, characters 15-20: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Arith" or the deprecated "From Coq Require Arith" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./examples-stdlib/example_open_terms.v", line 2, characters 21-27: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require ZArith" or the deprecated "From Coq Require ZArith" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./examples-stdlib/example_open_terms.v", line 2, characters 28-32: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require List" or the deprecated "From Coq Require List" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./examples-stdlib/example_open_terms.v", line 2, characters 33-57: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require FunctionalExtensionality" or the deprecated "From Coq Require FunctionalExtensionality" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] hello1 Query assignments: X1 = «x1» X2 = «x2» X3 = «x3» Query assignments: M = [[mode-ground], [mode-input]] 1 1 1.000000 1.2 Query assignments: C1 = «Nat.add» C2 = «times» X1 = tt X2 = ff Query assignments: C1 = «x» Query assignments: XX = «elpi.tests.test_API2.xx» Query assignments: C1 = «x» M = «elpi.tests.test_API2.xx» Query assignments: XX = «elpi.tests.test_API2.xx2» Query assignments: C1 = «x» M = «elpi.tests.test_API2.xx2» Query assignments: C1 = «x» M = «elpi.tests.test_API2.xx3» Query assignments: X1_ = X0 X2_ = X1 Syntactic constraints: evar X1 X2 X1 /* suspended on X1 */ evar X3 (sort (typ «elpi.tests.test_API2.28»)) X2 /* suspended on X3, X2 */ evar X0 X4 X0 /* suspended on X0 */ evar X5 (sort (typ «elpi.tests.test_API2.27»)) X4 /* suspended on X5, X4 */ Universe constraints: UNIVERSES: {elpi.tests.test_API2.28 elpi.tests.test_API2.27} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α4 α5 WEAK CONSTRAINTS: Non-discriminated database Unfoldable variable definitions: all Unfoldable constant definitions: all Unfoldable projection definitions: all Cut: emp For any goal -> For xeq -> exact xxx (cost 0, pattern 0 = _, id 0) Query assignments: X3_ = «T.T.u0» Query assignments: GR = const const EXN PRINTING: Not_found «elpi.tests.test_API2.G» Query assignments: G = «elpi.tests.test_API2.G» Module G : Sig Definition id : X.T -> X.T. End := (F X) «elpi.tests.test_API2.H» Query assignments: H = «elpi.tests.test_API2.H» Module H : Sig Definition id : nat -> nat. End := (F X) Query assignments: GR = const const EXN PRINTING: Not_found Module Type FT = Funsig (P:T) Sig Parameter idT : P.T -> P.T. End «elpi.tests.test_API2.GT» Query assignments: G = «elpi.tests.test_API2.GT» Module Type GT = Sig Parameter idT : X.T -> X.T. End «elpi.tests.test_API2.HT» Query assignments: H = «elpi.tests.test_API2.HT» Module Type HT = Sig Parameter idT : nat -> nat. End Query assignments: L = [«elpi.tests.test_API2.34», «elpi.tests.test_API2.35»] S = {{ elpi.tests.test_API2.34; elpi.tests.test_API2.35; }} U = «elpi.tests.test_API2.34» UV = «elpi.tests.test_API2.34» V = «elpi.tests.test_API2.35» VV = «elpi.tests.test_API2.35» Universe constraints: UNIVERSES: {elpi.tests.test_API2.35 elpi.tests.test_API2.34} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_API2.35 elpi.tests.test_API2.34} FLEXIBLE UNIVERSES: elpi.tests.test_API2.35 elpi.tests.test_API2.34 SORTS: WEAK CONSTRAINTS: Query assignments: X10_ = c0 \ X0 c0 X11_ = X1 X12_ = c0 \ X0 c0 X13_ = X2 X14_ = c0 \ X3 c0 X15_ = c0 \ c1 \ X4 c0 c1 X16_ = X5 X17_ = c0 \ X6 c0 X18_ = c0 \ c1 \ X7 c0 c1 X19_ = X8 X20_ = c0 \ X9 c0 X21_ = c0 \ c1 \ X10 c0 c1 X22_ = X8 X4_ = X11 X5_ = X11 X6_ = X12 X7_ = X13 X8_ = c0 \ X14 c0 X9_ = X1 Syntactic constraints: evar X8 (sort (typ «elpi.tests.test_API2.54»)) X8 /* suspended on X8 */ {c0 c1} : decl c1 `x` (X9 c0), decl c0 `z` X8 ?- evar (X10 c0 c1) (sort (typ «elpi.tests.test_API2.53»)) (X10 c0 c1) /* suspended on X10 */ {c0} : decl c0 `z` X8 ?- evar (X9 c0) (sort (typ «elpi.tests.test_API2.52»)) (X9 c0) /* suspended on X9 */ evar X8 (sort (typ «elpi.tests.test_API2.51»)) X8 /* suspended on X8 */ {c0 c1} : decl c1 `x` (X6 c0), decl c0 `z` X5 ?- evar (X7 c0 c1) (sort (typ «elpi.tests.test_API2.50»)) (X7 c0 c1) /* suspended on X7 */ {c0} : decl c0 `z` X5 ?- evar (X6 c0) (sort (typ «elpi.tests.test_API2.49»)) (X6 c0) /* suspended on X6 */ evar X5 (sort (typ «elpi.tests.test_API2.48»)) X5 /* suspended on X5 */ {c0 c1} : decl c1 `x` (X3 c0), decl c0 `z` X2 ?- evar (X4 c0 c1) (sort (typ «elpi.tests.test_API2.47»)) (X4 c0 c1) /* suspended on X4 */ {c0} : decl c0 `z` X2 ?- evar (X3 c0) (sort (typ «elpi.tests.test_API2.46»)) (X3 c0) /* suspended on X3 */ evar X2 (sort (typ «elpi.tests.test_API2.45»)) X2 /* suspended on X2 */ evar X1 (sort (typ «elpi.tests.test_API2.43»)) X1 /* suspended on X1 */ {c0} : decl c0 `x` X1 ?- evar (X0 c0) (sort (typ «elpi.tests.test_API2.42»)) (X0 c0) /* suspended on X0 */ {c0} : decl c0 `x` X1 ?- evar (X0 c0) (sort (typ «elpi.tests.test_API2.44»)) (X0 c0) /* suspended on X0 */ evar X1 (sort (typ «elpi.tests.test_API2.41»)) X1 /* suspended on X1 */ {c0} : decl c0 `x` X13 ?- evar (X14 c0) (sort (typ «elpi.tests.test_API2.40»)) (X14 c0) /* suspended on X14 */ evar X13 (sort (typ «elpi.tests.test_API2.39»)) X13 /* suspended on X13 */ evar X12 (sort (typ «elpi.tests.test_API2.38»)) X12 /* suspended on X12 */ evar X11 (sort (typ «elpi.tests.test_API2.37»)) X11 /* suspended on X11 */ evar X11 (sort (typ «elpi.tests.test_API2.36»)) X11 /* suspended on X11 */ Universe constraints: UNIVERSES: {elpi.tests.test_API2.54 elpi.tests.test_API2.53 elpi.tests.test_API2.52 elpi.tests.test_API2.51 elpi.tests.test_API2.50 elpi.tests.test_API2.49 elpi.tests.test_API2.48 elpi.tests.test_API2.47 elpi.tests.test_API2.46 elpi.tests.test_API2.45 elpi.tests.test_API2.44 elpi.tests.test_API2.43 elpi.tests.test_API2.42 elpi.tests.test_API2.41 elpi.tests.test_API2.40 elpi.tests.test_API2.39 elpi.tests.test_API2.38 elpi.tests.test_API2.37 elpi.tests.test_API2.36} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α6 α7 α8 α9 α10 α11 α12 α13 α14 α15 α16 α17 α18 α19 α20 α21 α22 α23 α24 WEAK CONSTRAINTS: File "./tests/test_API2.v", line 127, characters 0-16: Warning: Option Foo Bar is deprecated. elpi [deprecated-option,deprecated,default] File "./tests/test_API2.v", line 135, characters 0-14: Warning: Option Foo Bar is deprecated. elpi [deprecated-option,deprecated,default] File "./tests/test_API2.v", line 372, characters 0-228: Warning: Undeclared globals: - File "./tests/test_API2.v", line 373, column 2, characters 8777-8787: test. Please add the following text to your program: type test term -> term -> (pred). [elpi.missing-types,elpi.typecheck,elpi,default] Query assignments: BO = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] GR = «Nat.add» GRNat = indt «nat» GRSucc = indc «S» Nat = global (indt «nat») Succ = global (indc «S») TY = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») Query assignments: GR = «empty_nat» TY = global (indt «nat») Query assignments: GR1 = indc «Vector.nil» GR2 = indt «nat» GR3 = const «A» add_equal Query assignments: %spill1 = add_equal %spill2 = add_equal BO = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ fun `n` (global (indt «nat»)) c1 \ fun `m` (global (indt «nat»)) c2 \ match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] GR = «Nat.add» NGR = «add_equal» Name = add_equal S = add TY = prod `n` (global (indt «nat»)) c0 \ prod `m` (global (indt «nat»)) c1 \ global (indt «nat») add_equal : nat -> nat -> nat add_equal is not universe polymorphic Arguments add_equal (n m)%_nat_scope add_equal is opaque Expands to: Constant elpi_tests_stdlib.test_API_env.add_equal Declared in library elpi_tests_stdlib.test_API_env, line 44, characters 0-358 «myfalse» Query assignments: F = indt «False» GR = «myfalse» myfalse : False parameter T X0 (sort (typ X1)) c0 \ record eq_class (sort (typ X2)) mk_eq_class (field [canonical ff, coercion regular] eq_f (global (indt «bool»)) c1 \ field X3 eq_proof (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ end-record) Query assignments: DECL = parameter T X0 (sort (typ «eq_class.u0»)) c0 \ record eq_class (sort (typ «eq_class.u1»)) mk_eq_class (field [canonical ff, coercion regular] eq_f (global (indt «bool»)) c1 \ field X3 eq_proof (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ end-record) GR = «eq_class» X1_ = «eq_class.u0» X2_ = «eq_class.u1» Record eq_class (T : Type@{eq_class.u0}) : Type@{eq_class.u1} := mk_eq_class { eq_f : bool; eq_proof : eq_f = eq_f }. Arguments eq_class T%_type_scope Arguments mk_eq_class T%_type_scope eq_f%_bool_scope eq_proof Arguments eq_f T%_type_scope record Arguments eq_proof T%_type_scope record fun x : eq_class nat => x : bool : eq_class nat -> bool p <- eq_proof ( xxx ) Query assignments: DECL = parameter T X0 (sort (typ «prim_eq_class.u0»)) c0 \ record prim_eq_class (sort (typ «prim_eq_class.u1»)) mk_prim_eq_class (field [canonical ff, coercion reversible] prim_eq_f (global (indt «bool»)) c1 \ field X1 prim_eq_proof (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ end-record) GR = «prim_eq_class» X3_ = «prim_eq_class.u0» X4_ = «prim_eq_class.u1» fun r : prim_eq_class nat => eq_refl : r = {| prim_eq_f := r; prim_eq_proof := prim_eq_proof _ r |} : forall r : prim_eq_class nat, r = {| prim_eq_f := r; prim_eq_proof := prim_eq_proof _ r |} fun `r` (app [global (indt «prim_eq_class»), global (indt «nat»)]) c0 \ app [primitive (proj elpi_tests_stdlib.test_API_env.prim_eq_f 1), c0] Query assignments: C = «pc» myind true false : Prop : Prop K2 true : myind true true : myind true true myind1 true false : Prop : Prop K21 true : myind1 true true : myind1 true true Query assignments: X6_ = «nuind.u0» X7_ = «nuind.u1» fun x : nuind nat 3 false => match x in (nuind _ _ b) return (b = b) with | k1 _ _ => eq_refl : true = true | k2 _ _ x0 => (fun _ : nuind nat 1 false => eq_refl : false = false) x0 end : nuind nat 3 false -> false = false c0 global (indt «nat») Query assignments: T = global (indt «nat») Query assignments: D = parameter A X0 (sort (typ «tx.u0»)) c0 \ inductive tx X1 (parameter y X2 (global (indt «nat»)) c1 \ arity (prod `_` (global (indt «bool»)) c2 \ sort (typ «tx.u1»))) c1 \ [constructor K1x (parameter y X3 (global (indt «nat»)) c2 \ arity (prod `x` c0 c3 \ prod `n` (global (indt «nat»)) c4 \ prod `p` (app [global (indt «eq»), global (indt «nat»), app [global (indc «S»), c4], c2]) c5 \ prod `e` (app [c1, c4, global (indc «true»)]) c6 \ app [c1, c2, global (indc «true»)])), constructor K2x (parameter y X4 (global (indt «nat»)) c2 \ arity (app [c1, c2, global (indc «false»)]))] X8_ = «tx.u0» X9_ = «tx.u1» Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_API_env.48 elpi_tests_stdlib.test_API_env.47 elpi_tests_stdlib.test_API_env.46 elpi_tests_stdlib.test_API_env.45 elpi_tests_stdlib.test_API_env.44 elpi_tests_stdlib.test_API_env.43 elpi_tests_stdlib.test_API_env.41} |= tx.u0 < elpi_tests_stdlib.test_API_env.41 tx.u1 < elpi_tests_stdlib.test_API_env.43 Set <= elpi_tests_stdlib.test_API_env.43 Set <= elpi_tests_stdlib.test_API_env.44 Set <= elpi_tests_stdlib.test_API_env.45 Set <= elpi_tests_stdlib.test_API_env.46 Set <= elpi_tests_stdlib.test_API_env.47 Set <= elpi_tests_stdlib.test_API_env.48 tx.u0 <= elpi_tests_stdlib.test_API_env.44 tx.u1 <= elpi_tests_stdlib.test_API_env.44 elpi_tests_stdlib.test_API_env.44 <= tx.u1 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α2 := Type α3 := Type α4 := Type α5 := Type WEAK CONSTRAINTS: Query assignments: D = parameter A explicit (sort (typ «ind1.u0»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u1»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «ind1.u2»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.test_API_env.64»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ arity (prod `bb` (app [global (indt «prod»), c3, c3]) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c5, global (indt «bool»), global (indc «true»)]) c6 \ app [c2, c3, c4, global (indt «unit»), global (indc «tt»)])), constructor k2 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ arity (app [c2, c3, c4, global (indt «nat»), app [global (indc «S»), global (indc «O»)]]))] D1 = parameter A explicit (sort (typ «ind1.u0»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u1»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «ind1.u2»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.test_API_env.64»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ arity (prod `bb` (app [global (indt «prod»), c3, c3]) c5 \ prod `_` (app [c2, app [global (indt «prod»), c3, c3], c5, global (indt «bool»), global (indc «true»)]) c6 \ app [c2, c3, c4, global (indt «unit»), global (indc «tt»)])), constructor k2 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ arity (app [c2, c3, c4, global (indt «nat»), app [global (indc «S»), global (indc «O»)]]))] I = «ind1» U = «elpi_tests_stdlib.test_API_env.64» UA = «ind1.u0» UB1 = «ind1.u1» UB2 = «ind1.u1» UB3 = «ind1.u1» UC = «ind1.u2» Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_API_env.64} |= Set <= elpi_tests_stdlib.test_API_env.64 ind1.u1 <= elpi_tests_stdlib.test_API_env.64 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: D = parameter A explicit (sort (typ «ind1.u0»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u1»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «ind1.u2»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.test_API_env.65»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ parameter bb implicit (app [global (indt «prod»), c3, c3]) c5 \ arity (prod `_` (app [c2, app [global (indt «prod»), c3, c3], c5, global (indt «bool»), global (indc «true»)]) c6 \ app [c2, c3, c4, global (indt «unit»), global (indc «tt»)])), constructor k2 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ arity (app [c2, c3, c4, global (indt «nat»), app [global (indc «S»), global (indc «O»)]]))] D1 = parameter A explicit (sort (typ «ind1.u0»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u1»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «ind1.u2»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.test_API_env.65»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ parameter bb implicit (app [global (indt «prod»), c3, c3]) c5 \ arity (prod `_` (app [c2, app [global (indt «prod»), c3, c3], c5, global (indt «bool»), global (indc «true»)]) c6 \ app [c2, c3, c4, global (indt «unit»), global (indc «tt»)])), constructor k2 (parameter B explicit (sort (typ «ind1.u1»)) c3 \ parameter b explicit c3 c4 \ arity (app [c2, c3, c4, global (indt «nat»), app [global (indc «S»), global (indc «O»)]]))] I = «ind1» U = «elpi_tests_stdlib.test_API_env.65» UA = «ind1.u0» UB1 = «ind1.u1» UB2 = «ind1.u1» UB3 = «ind1.u1» UC = «ind1.u2» Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_API_env.65} |= Set <= elpi_tests_stdlib.test_API_env.65 ind1.u1 <= elpi_tests_stdlib.test_API_env.65 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: D = parameter P explicit (sort (typ «r1.u0»)) c0 \ parameter p explicit c0 c1 \ record r1 (sort (typ «r1.u0»)) mk_r1 (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ field [coercion off, canonical ff] f2 (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) D1 = parameter P explicit (sort (typ «r1.u0»)) c0 \ parameter p explicit c0 c1 \ record r1 (sort (typ «r1.u0»)) mk_r1 (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ field [coercion off, canonical ff] f2 (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) I = «r1» UP = «r1.u0» UR = «r1.u0» Query assignments: D = parameter P explicit (sort (typ «r1.u0»)) c0 \ parameter p explicit c0 c1 \ record r1 (sort (typ «r1.u0»)) mk_r1 (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ field [coercion regular, canonical ff] f2 (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) D1 = parameter P explicit (sort (typ «r1.u0»)) c0 \ parameter p explicit c0 c1 \ record r1 (sort (typ «r1.u0»)) mk_r1 (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ field [coercion regular, canonical ff] f2 (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) I = «r1» UP = «r1.u0» UR = «r1.u0» {{ nat; S; }} {{ nat; S; }} Query assignments: GR = const «Nat.add» L = {{ nat; S; }} S = {{ nat; S; }} {{ X.a; }} {{ X.a; Nat.add; nat; }} {{ X.a; }} {{ X.a; Nat.add; nat; O; S; }} Query assignments: AllL = {{ X.a; Nat.add; nat; }} AllS = {{ X.a; Nat.add; nat; O; S; }} GR = const «X.b» L = {{ X.a; }} M = «elpi_tests_stdlib.test_API_env.HOAS.X» S = {{ X.a; }} Query assignments: GR = const «Ranalysis5.derivable_pt_lim_CVU» S = {{ Field_theory.AF_1_neq_0; Field_theory.AF_AR; Field_theory.AFdiv_def; Field_theory.AFinv_l; Ring_theory.ARadd_0_l; Ring_theory.ARadd_0_r; Ring_theory.ARadd_assoc; Ring_theory.ARadd_assoc1; Ring_theory.ARadd_assoc2; Ring_theory.ARadd_comm; Ring_theory.ARdistr_l; Ring_theory.ARdistr_r; InitialRing.ARgen_phiPOS_Psucc; InitialRing.ARgen_phiPOS_add; InitialRing.ARgen_phiPOS_mult; Ring_theory.ARmul_0_l; Ring_theory.ARmul_0_r; Ring_theory.ARmul_1_l; Ring_theory.ARmul_1_r; Ring_theory.ARmul_assoc; Ring_theory.ARmul_assoc1; Ring_theory.ARmul_assoc2; Ring_theory.ARmul_comm; Ring_theory.ARopp_add; Ring_theory.ARopp_mul_l; Ring_theory.ARopp_mul_r; Ring_theory.ARopp_zero; Ring_theory.ARsub_def; Ring_theory.ARsub_ext; Ring_theory.ARth_SRth; RList.AbsList; RList.AbsList_P1; RList.AbsList_P2; Acc_inv; Morphisms_Prop.Acc_pt_morphism; Acc_rect; Tauto.BFormula; PSeries_reg.Ball_in_inter; Rlimit.Base; PSeries_reg.Boule; PSeries_reg.Boule_center; Setoid.Build_Setoid_Theory; Ring_polynom.CFactor; RMicromega.CInvR0; RMicromega.CPowR0; ConstructiveReals.CR_Q_dense; ConstructiveReals.CR_archimedean; ConstructiveReals.CR_cauchy; ConstructiveReals.CR_complete; ConstructiveReals.CR_cv; ConstructiveLimits.CR_cv_bound_down; ConstructiveLimits.CR_cv_le; ConstructiveLimits.CR_cv_open_above; ConstructiveLimits.CR_cv_open_below; ConstructiveLimits.CR_cv_opp; ConstructiveLimits.CR_cv_plus; ConstructiveLimits.CR_cv_proper; ConstructiveReals.CR_of_Q; ConstructiveReals.CR_of_Q_le; ConstructiveReals.CR_of_Q_lt; ConstructiveReals.CR_of_Q_morph; ConstructiveReals.CR_of_Q_morph_Proper; ConstructiveReals.CR_of_Q_morph_T; ConstructiveReals.CR_of_Q_mult; ConstructiveReals.CR_of_Q_opp; ConstructiveReals.CR_of_Q_plus; ConstructiveReals.CR_of_Q_pos; ConstructiveLUB.CR_sig_lub; ConstructiveReals.CRabs; ConstructiveReals.CRabs_def; ConstructiveAbs.CRabs_le; ConstructiveAbs.CRabs_lt; ConstructiveAbs.CRabs_morph; ConstructiveAbs.CRabs_morph_prop_Proper; ConstructiveAbs.CRabs_opp; ConstructiveAbs.CRabs_right; ConstructiveAbs.CRabs_triang; ConstructiveReals.CRapart; ConstructiveReals.CRcarrier; ConstructiveRcomplete.CRealAbsLUB; ConstructiveCauchyRealsMult.CRealArchimedean; ConstructiveRcomplete.CRealComplete; ConstructiveRcomplete.CRealConstructive; ConstructiveCauchyReals.CRealEq; ConstructiveCauchyReals.CRealEq_diff; ConstructiveCauchyReals.CRealEq_refl; ConstructiveCauchyReals.CRealEq_rel; ConstructiveCauchyReals.CRealEq_relT; ConstructiveCauchyReals.CRealEq_rel_Reflexive; ConstructiveCauchyReals.CRealEq_rel_Symmetric; ConstructiveCauchyReals.CRealEq_rel_Transitive; ConstructiveCauchyReals.CRealEq_sym; ConstructiveCauchyReals.CRealEq_trans; ConstructiveCauchyReals.CRealGe; ConstructiveCauchyReals.CRealLe; ConstructiveCauchyAbs.CRealLe_0R_to_single_dist; ConstructiveCauchyReals.CRealLe_morph_Proper; ConstructiveCauchyReals.CRealLe_not_lt; ConstructiveCauchyReals.CRealLe_refl; ConstructiveCauchyRealsMult.CRealLowerBound; ConstructiveCauchyRealsMult.CRealLowerBoundSpec; ConstructiveCauchyRealsMult.CRealLowerBound_lt_scale; ConstructiveCauchyReals.CRealLt; ConstructiveRcomplete.CRealLtDisjunctEpsilon; ConstructiveCauchyReals.CRealLtEpsilon; ConstructiveCauchyReals.CRealLtForget; ConstructiveRcomplete.CRealLtIsLinear; ConstructiveCauchyReals.CRealLtProp; ConstructiveCauchyReals.CRealLtProp_morph_Proper; ConstructiveCauchyReals.CRealLt_0_1; ConstructiveCauchyAbs.CRealLt_RQ_from_single_dist; ConstructiveCauchyReals.CRealLt_above; ConstructiveCauchyReals.CRealLt_aboveSig; ConstructiveCauchyReals.CRealLt_aboveSig'; ConstructiveCauchyReals.CRealLt_above_same; ConstructiveCauchyReals.CRealLt_asym; ConstructiveCauchyReals.CRealLt_dec; ConstructiveCauchyReals.CRealLt_irrefl; ConstructiveCauchyReals.CRealLt_lpo_dec; ConstructiveCauchyReals.CRealLt_morph; ConstructiveCauchyRealsMult.CRealQ_dense; ConstructiveCauchyRealsMult.CRealRing_ring_lemma1; ConstructiveCauchyRealsMult.CRealRing_ring_lemma2; ConstructiveCauchyAbs.CReal_abs; ConstructiveCauchyAbs.CReal_abs_appart_0; ConstructiveCauchyAbs.CReal_abs_bound; ConstructiveCauchyAbs.CReal_abs_cauchy; ConstructiveCauchyAbs.CReal_abs_def2; ConstructiveCauchyAbs.CReal_abs_le; ConstructiveCauchyAbs.CReal_abs_left; ConstructiveCauchyAbs.CReal_abs_minus_sym; ConstructiveCauchyAbs.CReal_abs_morph; ConstructiveCauchyAbs.CReal_abs_morph_Proper; ConstructiveCauchyAbs.CReal_abs_opp; ConstructiveCauchyAbs.CReal_abs_pos; ConstructiveCauchyAbs.CReal_abs_right; ConstructiveCauchyAbs.CReal_abs_scale; ConstructiveCauchyAbs.CReal_abs_seq; ConstructiveCauchyAbs.CReal_abs_triang; ConstructiveCauchyReals.CReal_appart; ConstructiveRcomplete.CReal_cv_self'; ConstructiveRcomplete.CReal_from_cauchy; ConstructiveRcomplete.CReal_from_cauchy_bound; ConstructiveRcomplete.CReal_from_cauchy_cauchy; ConstructiveRcomplete.CReal_from_cauchy_cm; ConstructiveRcomplete.CReal_from_cauchy_cm_mono; ConstructiveRcomplete.CReal_from_cauchy_scale; ConstructiveRcomplete.CReal_from_cauchy_seq; ConstructiveRcomplete.CReal_from_cauchy_seq_bound; ConstructiveCauchyRealsMult.CReal_inv; ConstructiveCauchyRealsMult.CReal_inv_0_lt_compat; ConstructiveCauchyRealsMult.CReal_inv_l; ConstructiveCauchyRealsMult.CReal_inv_l_pos; ConstructiveCauchyRealsMult.CReal_inv_pos; ConstructiveCauchyRealsMult.CReal_inv_pos_bound; ConstructiveCauchyRealsMult.CReal_inv_pos_cauchy; ConstructiveCauchyRealsMult.CReal_inv_pos_cm; ConstructiveCauchyRealsMult.CReal_inv_pos_scale; ConstructiveCauchyRealsMult.CReal_inv_pos_seq; ConstructiveCauchyRealsMult.CReal_isRing; ConstructiveCauchyRealsMult.CReal_isRingExt; ConstructiveCauchyAbs.CReal_le_abs; ConstructiveCauchyReals.CReal_le_lt_trans; ConstructiveCauchyReals.CReal_le_trans; ConstructiveCauchyReals.CReal_lt_le_trans; ConstructiveCauchyReals.CReal_lt_trans; ConstructiveCauchyReals.CReal_minus; ConstructiveCauchyRealsMult.CReal_mult; ConstructiveCauchyRealsMult.CReal_mult_1_l; ConstructiveCauchyRealsMult.CReal_mult_assoc; ConstructiveCauchyRealsMult.CReal_mult_bound; ConstructiveCauchyRealsMult.CReal_mult_cauchy; ConstructiveCauchyRealsMult.CReal_mult_comm; ConstructiveCauchyRealsMult.CReal_mult_lt_0_compat; ConstructiveCauchyRealsMult.CReal_mult_lt_0_compat_correct; ConstructiveCauchyRealsMult.CReal_mult_lt_compat_l; ConstructiveCauchyRealsMult.CReal_mult_morph_Proper; ConstructiveCauchyRealsMult.CReal_mult_plus_distr_l; ConstructiveCauchyRealsMult.CReal_mult_proper_0_l; ConstructiveCauchyRealsMult.CReal_mult_proper_l; ConstructiveCauchyRealsMult.CReal_mult_scale; ConstructiveCauchyRealsMult.CReal_mult_seq; ConstructiveCauchyRealsMult.CReal_neg_lt_pos; ConstructiveCauchyRealsMult.CReal_neg_lt_pos_subproof; ConstructiveCauchyReals.CReal_opp; ConstructiveCauchyReals.CReal_opp_0; ConstructiveCauchyReals.CReal_opp_bound; ConstructiveCauchyReals.CReal_opp_cauchy; ConstructiveCauchyReals.CReal_opp_ge_le_contravar; ConstructiveCauchyReals.CReal_opp_involutive; ConstructiveCauchyRealsMult.CReal_opp_morph_Proper; ConstructiveCauchyRealsMult.CReal_opp_morph_T; ConstructiveCauchyRealsMult.CReal_opp_mult_distr_l; ConstructiveCauchyRealsMult.CReal_opp_mult_distr_r; ConstructiveCauchyReals.CReal_opp_scale; ConstructiveCauchyReals.CReal_opp_seq; ConstructiveCauchyReals.CReal_plus; ConstructiveCauchyReals.CReal_plus_0_l; ConstructiveCauchyReals.CReal_plus_0_r; ConstructiveCauchyReals.CReal_plus_assoc; ConstructiveCauchyReals.CReal_plus_bound; ConstructiveCauchyReals.CReal_plus_cauchy; ConstructiveCauchyReals.CReal_plus_comm; ConstructiveCauchyReals.CReal_plus_eq_reg_l; ConstructiveCauchyReals.CReal_plus_le_compat; ConstructiveCauchyReals.CReal_plus_le_compat_l; ConstructiveCauchyReals.CReal_plus_le_lt_compat; ConstructiveCauchyReals.CReal_plus_le_reg_r; ConstructiveCauchyReals.CReal_plus_lt_compat_l; ConstructiveCauchyReals.CReal_plus_lt_compat_r; ConstructiveCauchyReals.CReal_plus_lt_reg_l; ConstructiveCauchyReals.CReal_plus_lt_reg_r; ConstructiveCauchyReals.CReal_plus_morph; ConstructiveCauchyReals.CReal_plus_morph_Proper; ConstructiveCauchyReals.CReal_plus_morph_T; ConstructiveCauchyReals.CReal_plus_opp_l; ConstructiveCauchyReals.CReal_plus_opp_r; ConstructiveCauchyReals.CReal_plus_proper_l; ConstructiveCauchyReals.CReal_plus_proper_r; ConstructiveCauchyReals.CReal_plus_scale; ConstructiveCauchyReals.CReal_plus_seq; ConstructiveCauchyRealsMult.CReal_red_scale; ConstructiveCauchyReals.CReal_red_seq; ConstructiveCauchyRealsMult.CReal_scale_sep0_limit; ConstructiveReals.CReq; ConstructiveReals.CReq_refl; ConstructiveReals.CReq_rel; ConstructiveReals.CReq_relT; ConstructiveReals.CReq_rel_Reflexive; ConstructiveReals.CReq_rel_Symmetric; ConstructiveReals.CReq_rel_Transitive; ConstructiveReals.CReq_sym; ConstructiveReals.CReq_trans; ConstructiveReals.CRinv; ConstructiveReals.CRinv_0_lt_compat; ConstructiveReals.CRinv_l; ConstructiveReals.CRinv_r; ConstructiveReals.CRisRing; ConstructiveReals.CRisRingExt; ConstructiveLUB.CRis_upper_bound; ConstructiveReals.CRle; ConstructiveAbs.CRle_abs; ConstructiveReals.CRle_lt_trans; ConstructiveReals.CRle_morph_Proper; ConstructiveReals.CRle_refl; ConstructiveReals.CRle_trans; ConstructiveReals.CRlt; ConstructiveReals.CRltEpsilon; ConstructiveReals.CRltForget; ConstructiveReals.CRltLinear; ConstructiveReals.CRltProp; ConstructiveReals.CRlt_asym; ConstructiveReals.CRlt_le_trans; ConstructiveLUB.CRlt_lpo_dec; ConstructiveReals.CRlt_minus; ConstructiveReals.CRlt_morph; ConstructiveReals.CRlt_proper; ConstructiveReals.CRlt_trans; ConstructiveReals.CRminus; ConstructiveReals.CRmult; ConstructiveReals.CRmult_0_r; ConstructiveReals.CRmult_1_l; ConstructiveReals.CRmult_1_r; ConstructiveReals.CRmult_assoc; ConstructiveReals.CRmult_comm; ConstructiveReals.CRmult_lt_0_compat; ConstructiveReals.CRmult_lt_compat_l; ConstructiveReals.CRmult_lt_compat_r; ConstructiveReals.CRmult_lt_reg_l; ConstructiveReals.CRmult_lt_reg_r; ConstructiveReals.CRmult_morph; ConstructiveReals.CRmult_morph_Proper; ConstructiveReals.CRmult_morph_T; ConstructiveReals.CRmult_plus_distr_l; ConstructiveReals.CRmult_plus_distr_r; ConstructiveReals.CRopp; ConstructiveReals.CRopp_0; ConstructiveReals.CRopp_ge_le_contravar; ConstructiveReals.CRopp_gt_lt_contravar; ConstructiveReals.CRopp_involutive; ConstructiveReals.CRopp_lt_cancel; ConstructiveReals.CRopp_morph_Proper; ConstructiveReals.CRopp_mult_distr_l; ConstructiveReals.CRopp_mult_distr_r; ConstructiveReals.CRopp_plus_distr; ConstructiveReals.CRplus; ConstructiveReals.CRplus_0_l; ConstructiveReals.CRplus_0_r; ConstructiveReals.CRplus_assoc; ConstructiveReals.CRplus_comm; ConstructiveReals.CRplus_eq_reg_l; ConstructiveReals.CRplus_le_compat; ConstructiveReals.CRplus_le_compat_l; ConstructiveReals.CRplus_le_compat_r; ConstructiveReals.CRplus_le_reg_l; ConstructiveReals.CRplus_le_reg_r; ConstructiveReals.CRplus_lt_compat_l; ConstructiveReals.CRplus_lt_compat_r; ConstructiveReals.CRplus_lt_reg_l; ConstructiveReals.CRplus_lt_reg_r; ConstructiveReals.CRplus_morph; ConstructiveReals.CRplus_morph_Proper; ConstructiveReals.CRplus_morph_T; ConstructiveReals.CRplus_opp_l; ConstructiveReals.CRplus_opp_r; ConstructiveReals.CRup_nat; ConstructiveReals.CRzero_double; PSeries_reg.CVU; CompOpp; CompOpp_iff; CompOpp_inj; CompOpp_involutive; CompSpec; CompSpec2Type; CompSpecT; CompareSpec2Type; ConstructiveLUB.DDcut_limit; ConstructiveLUB.DDcut_limit_fix; ConstructiveLUB.DDdec; ConstructiveLUB.DDhigh; ConstructiveLUB.DDhighProp; ConstructiveLUB.DDinterval; ConstructiveLUB.DDlow; ConstructiveLUB.DDlowProp; ConstructiveLUB.DDlow_below_up; ConstructiveLUB.DDproper; ConstructiveLUB.DDupcut; Rderiv.D_in; Rderiv.D_x; Rderiv.Dmult; Env.Env; Ring_theory.Eq_ext; Ring_theory.Eqsth; RelationClasses.Equivalence_PER; CRelationClasses.Equivalence_Reflexive; RelationClasses.Equivalence_Reflexive; CRelationClasses.Equivalence_Symmetric; RelationClasses.Equivalence_Symmetric; RelationClasses.Equivalence_Transitive; ZMicromega.F; Field_theory.F2AF; Field_theory.FEeval; Field_theory.FExpr_ind; Field_theory.F_1_neq_0; Field_theory.F_R; False_ind; False_rec; False_rect; Field_theory.Fapp; Field_theory.Fcons0; Field_theory.Fcons1; Field_theory.Fcons2; Field_theory.Fdiv_def; Field_theory.Field_correct; Field_theory.Field_rw_pow_correct; Field_theory.Field_simplify_eq_pow_correct; Field_theory.Finv_l; Field_theory.Fnorm; Field_theory.Fnorm_FEeval_PEeval; Field_theory.Fnorm_crossproduct; Tauto.GFormula_ind; ID; Ring_theory.IDmorph; Ring_theory.IDphi; Rdefinitions.IPR; Rdefinitions.IPR_2; RIneq.IPR_2_xH; RIneq.IPR_2_xI; RIneq.IPR_2_xO; RIneq.IPR_IPR_2; RIneq.IPR_ge_1; RIneq.IPR_gt_0; RIneq.IPR_xH; RIneq.IPR_xI; RIneq.IPR_xO; Rdefinitions.IZR; RIneq.IZR_ge; RIneq.IZR_le; RIneq.IZR_lt; Qreals.IZR_nz; List.In; ZifyInst.Inj_Z_Z; ZifyInst.Inj_pos_Z; RelationClasses.Irreflexive; Ring_polynom.MFactor; Ring_polynom.MPcond; MVT.MVT; RList.MaxRlist; RList.MaxRlist_P1; Ring_polynom.Mcphi_ok; RList.MinRlist; RList.MinRlist_P1; RList.MinRlist_P2; Ring_polynom.Mphi; Ring_polynom.Mphi_ok; RingMicromega.NFormula; Classical_Prop.NNPP; Field_theory.NPEadd; Field_theory.NPEadd_ok; Field_theory.NPEequiv; Field_theory.NPEequiv_eq; Field_theory.NPEeval_ext; Field_theory.NPEmul; Field_theory.NPEmul_ok; Field_theory.NPEopp; Field_theory.NPEopp_ok; Field_theory.NPEpow; Field_theory.NPEpow_ok; Field_theory.NPEsub; Field_theory.NPEsub_ok; InitialRing.Nopp; InitialRing.Nsub; Field_theory.NtoZ; InitialRing.Ntriv_div_th; O_S; ConstructiveEpsilon.O_witness; RingMicromega.OpAdd; RingMicromega.OpAdd_sound; RingMicromega.OpMult; RingMicromega.OpMult_sound; ConstructiveEpsilon.P'; ConstructiveEpsilon.P'_decidable; EnvRing.P0; Ring_polynom.P0; EnvRing.P1; Ring_polynom.P1; Field_theory.PCond; Field_theory.PCond_app; Field_theory.PCond_cons; RelationClasses.PER_Symmetric; RelationClasses.PER_Transitive; Morphisms.PER_morphism; Morphisms.PER_morphism_obligation_1; Field_theory.PE_1_l; Field_theory.PE_1_r; Field_theory.PEadd_ext; EnvRing.PEeval; Ring_polynom.PEeval; Field_theory.PEmul_ext; Field_theory.PEopp_ext; Field_theory.PEpow_0_r; Field_theory.PEpow_1_l; Field_theory.PEpow_1_r; Field_theory.PEpow_add_r; Field_theory.PEpow_ext; Field_theory.PEpow_mul_l; Field_theory.PEpow_mul_r; Field_theory.PEpow_nz; Field_theory.PEsimp; Field_theory.PEsimp_ok; Field_theory.PEsub_ext; Field_theory.PExpr_eq; Field_theory.PExpr_eq_semi_ok; Field_theory.PExpr_eq_spec; EnvRing.PExpr_ind; Ring_polynom.PExpr_ind; Field_theory.PFcons0_fcons_inv; Field_theory.PFcons1_fcons_inv; Field_theory.PFcons2_fcons_inv; Ring_polynom.PNSubst; Ring_polynom.PNSubst1; Ring_polynom.PNSubst1_ok; Ring_polynom.PNSubstL; Ring_polynom.PNSubstL_ok; Ring_polynom.PNSubst_ok; Ring_polynom.POneSubst; Ring_polynom.POneSubst_ok; Ring_polynom.PSubstL; Ring_polynom.PSubstL1; Ring_polynom.PSubstL1_ok; Ring_polynom.PSubstL_ok; Ring_polynom.PX_ext; EnvRing.Padd; Ring_polynom.Padd; EnvRing.PaddC; Ring_polynom.PaddC; EnvRing.PaddC_ok; Ring_polynom.PaddC_ok; EnvRing.PaddI; Ring_polynom.PaddI; EnvRing.PaddX; Ring_polynom.PaddX; EnvRing.PaddX_ok; Ring_polynom.PaddX_ok; EnvRing.Padd_ok; Ring_polynom.Padd_ok; Field_theory.Pcond_Fnorm; Field_theory.Pcond_simpl_complete; EnvRing.Peq; Ring_polynom.Peq; EnvRing.Peq_ok; Ring_polynom.Peq_ok; EnvRing.Peq_spec; Ring_polynom.Peq_spec; Ring_polynom.Pequiv; Ring_polynom.Pequiv_eq; EnvRing.Pjump_add; EnvRing.Pjump_pred_double; EnvRing.Pjump_xO_tail; EnvRing.Pmul; Ring_polynom.Pmul; EnvRing.PmulC; Ring_polynom.PmulC; EnvRing.PmulC_aux; Ring_polynom.PmulC_aux; EnvRing.PmulC_aux_ok; Ring_polynom.PmulC_aux_ok; EnvRing.PmulC_ok; Ring_polynom.PmulC_ok; EnvRing.PmulI; Ring_polynom.PmulI; EnvRing.PmulI_ok; Ring_polynom.PmulI_ok; EnvRing.Pmul_ok; Ring_polynom.Pmul_ok; RingMicromega.PolC; RingMicromega.PolEnv; EnvRing.Pol_ind; Ring_polynom.Pol_ind; EnvRing.Popp; Ring_polynom.Popp; EnvRing.Popp_ok; Ring_polynom.Popp_ok; ConstructiveRcomplete.Pos2Z_pos_is_pos; QExtra.Pos_log2floor_plus1; QExtra.Pos_log2floor_plus1_spec; PosExtra.Pos_pow_1_r; PosExtra.Pos_pow_le_mono_r; ConstructiveExtra.Pos_pred_double_inj; ConstructiveRcomplete.Pospow_lin_le_2pow; EnvRing.Pphi; Ring_polynom.Pphi; EnvRing.Pphi0; Ring_polynom.Pphi0; EnvRing.Pphi1; Ring_polynom.Pphi1; Ring_polynom.Pphi_avoid; Ring_polynom.Pphi_avoid_ok; Ring_polynom.Pphi_dev; Ring_polynom.Pphi_dev_ok; Ring_polynom.Pphi_ext; Ring_polynom.Pphi_pow; Ring_polynom.Pphi_pow_ok; BinPos.Pplus_one_succ_l; BinPos.Pplus_one_succ_r; EnvRing.Ppow_N; Ring_polynom.Ppow_N; EnvRing.Ppow_N_ok; Ring_polynom.Ppow_N_ok; EnvRing.Ppow_pos; Ring_polynom.Ppow_pos; EnvRing.Ppow_pos_ok; Ring_polynom.Ppow_pos_ok; RelationClasses.PreOrder_Reflexive; RelationClasses.PreOrder_Transitive; RIneq.Private_Zeqb_IZR; ZArithRing.Private_proj1_eqb_eq; RIneq.Private_sumbool_to_or; CMorphisms.Proper; Morphisms.Proper; CMorphisms.ProperProxy; Morphisms.ProperProxy; Qminmax.Q.Proper_instance_0; BinInt.Z.Proper_instance_0; RingMicromega.Psatz_ind; EnvRing.Psquare; EnvRing.Psquare_ok; EnvRing.Psub; Ring_polynom.Psub; EnvRing.PsubC; Ring_polynom.PsubC; EnvRing.PsubC_ok; RingMicromega.PsubC_ok; Ring_polynom.PsubC_ok; EnvRing.PsubI; Ring_polynom.PsubI; EnvRing.PsubX; Ring_polynom.PsubX; EnvRing.PsubX_ok; EnvRing.Psub_ok; Ring_polynom.Psub_ok; Ring_polynom.Psub_opp; Rdefinitions.Q2R; RMicromega.Q2R_0; RMicromega.Q2R_1; Qreals.Q2R_inv; RMicromega.Q2R_inv_ext; RMicromega.Q2R_m_Proper; Qreals.Q2R_minus; Qreals.Q2R_mult; Qreals.Q2R_opp; Qreals.Q2R_plus; RMicromega.Q2R_pow_N; RMicromega.Q2R_pow_pos; RMicromega.Q2RpowerRZ; ConstructiveCauchyReals.QBound; ConstructiveCauchyReals.QCauchySeq; QMicromega.QNpower; RMicromega.QReval_expr; RMicromega.QReval_formula; RMicromega.QReval_formula'; RMicromega.QReval_formula_compat; QMicromega.QSORaddon; RMicromega.QSORaddon; QMicromega.QTautoChecker; QMicromega.QTautoChecker_sound; QMicromega.QWeakChecker; QMicromega.QWeakChecker_sound; QMicromega.QWitness; QArith_base.Q_Setoid; QArith_base.Q_dec; RMicromega.Q_of_Rcst; RMicromega.Q_of_RcstR; Qabs.Qabs; ConstructiveRcomplete.Qabs_Qgt_condition; Qabs.Qabs_Qinv; Qabs.Qabs_Qle_condition; Qabs.Qabs_Qlt_condition; Qabs.Qabs_Qmult; ConstructiveRcomplete.Qabs_Rabs; Qabs.Qabs_case; Qabs.Qabs_case_subproof; Qabs.Qabs_case_subproof0; Qabs.Qabs_case_subproof1; Qabs.Qabs_gt; ConstructiveCauchyAbs.Qabs_involutive; Qabs.Qabs_neg; Qabs.Qabs_nonneg; Qabs.Qabs_opp; Qabs.Qabs_pos; Qabs.Qabs_triangle; Qabs.Qabs_triangle_reverse; Qabs.Qabs_wd; Qabs.Qabs_wd_Proper; QArith_base.Qarchimedean; QExtra.QarchimedeanExp2_Z; QExtra.QarchimedeanLowExp2_Z; QExtra.Qbound_lt_ZExp2; QExtra.Qbound_lt_ZExp2_spec; QExtra.Qbound_ltabs_ZExp2; QExtra.Qbound_ltabs_ZExp2_spec; QArith_base.Qcompare; QArith_base.Qcompare_comp; QArith_base.Qden; QArith_base.Qdiv; QArith_base.Qdiv_comp; QArith_base.Qdiv_mult_l; QArith_base.Qeq; QArith_base.Qeq_alt; QArith_base.Qeq_bool; QArith_base.Qeq_bool_eq; QArith_base.Qeq_bool_iff; QArith_base.Qeq_bool_neq; QArith_base.Qeq_dec; Qreals.Qeq_eqR; QArith_base.Qeq_eq_bool; RMicromega.Qeq_false; QArith_base.Qeq_refl; QArith_base.Qeq_sym; QArith_base.Qeq_trans; RMicromega.Qeq_true; QMicromega.Qeval_bop2; QMicromega.Qeval_expr; QMicromega.Qeval_expr'; QMicromega.Qeval_expr_compat; QMicromega.Qeval_formula; QMicromega.Qeval_formula'; QMicromega.Qeval_formula_compat; QMicromega.Qeval_nformula; RMicromega.Qeval_nformula; QMicromega.Qeval_nformula_dec; QMicromega.Qeval_op2; QMicromega.Qeval_op2_hold; QMicromega.Qeval_pop2; Qfield.Qfield_field_lemma1; Qfield.Qfield_field_lemma2; Qfield.Qfield_lemma5; Qfield.Qfield_ring_lemma1; Qfield.Qfield_ring_lemma2; Qround.Qfloor; Qround.Qfloor_le; QArith_base.Qinv; QArith_base.Qinv_comp; QArith_base.Qinv_involutive; QArith_base.Qinv_le_0_compat; QArith_base.Qinv_lt_0_compat; QArith_base.Qinv_lt_contravar; QArith_base.Qinv_mult_distr; QArith_base.Qinv_plus_distr; QArith_base.Qinv_pos; Qpower.Qinv_power; Qpower.Qinv_power_positive; QArith_base.Qle; Qabs.Qle_Qabs; Qreals.Qle_Rle; QArith_base.Qle_alt; QArith_base.Qle_antisym; QArith_base.Qle_bool; QArith_base.Qle_bool_iff; QArith_base.Qle_bool_imp_le; QArith_base.Qle_comp; QArith_base.Qle_lt_trans; QArith_base.Qle_minus_iff; QArith_base.Qle_not_lt; QArith_base.Qle_refl; QArith_base.Qle_shift_div_l; QArith_base.Qle_shift_div_r; QArith_base.Qle_trans; RMicromega.Qle_true; QExtra.Qlowbound_lt_ZExp2_spec; QExtra.Qlowbound_ltabs_ZExp2; QExtra.Qlowbound_ltabs_ZExp2_inv; QArith_base.Qlt; QArith_base.Qlt_alt; QMicromega.Qlt_bool; QMicromega.Qlt_bool_iff; QArith_base.Qlt_compat; Qround.Qlt_floor; QArith_base.Qlt_irrefl; QArith_base.Qlt_le_dec; QArith_base.Qlt_le_trans; QArith_base.Qlt_le_weak; QArith_base.Qlt_leneq; QArith_base.Qlt_minus_iff; QArith_base.Qlt_not_eq; QArith_base.Qlt_not_le; QArith_base.Qlt_shift_div_l; QArith_base.Qlt_shift_div_r; QArith_base.Qlt_shift_inv_l; QArith_base.Qlt_trans; ConstructiveRcomplete.Qlt_trans_swap_hyp; QArith_base.Qminus; QArith_base.Qminus_comp; QArith_base.Qmult; QArith_base.Qmult_0_l; QArith_base.Qmult_0_r; QArith_base.Qmult_1_l; QArith_base.Qmult_1_r; QArith_base.Qmult_assoc; QArith_base.Qmult_comm; QArith_base.Qmult_comp; QArith_base.Qmult_div_r; QArith_base.Qmult_frac_l; QArith_base.Qmult_integral; RMicromega.Qmult_integral; QArith_base.Qmult_integral_l; QArith_base.Qmult_inv_r; QArith_base.Qmult_le_0_compat; QArith_base.Qmult_le_1_compat; QArith_base.Qmult_le_compat_nonneg; QArith_base.Qmult_le_compat_r; QArith_base.Qmult_le_l; QArith_base.Qmult_le_lt_compat_pos; QArith_base.Qmult_le_r; QArith_base.Qmult_lt_0_le_reg_r; QArith_base.Qmult_lt_compat_nonneg; QArith_base.Qmult_lt_compat_r; QArith_base.Qmult_lt_l; QArith_base.Qmult_lt_r; QArith_base.Qmult_plus_distr_l; QMicromega.Qnegate; QMicromega.Qnormalise; QArith_base.Qnot_eq_sym; QArith_base.Qnot_le_lt; QArith_base.Qnot_lt_le; QArith_base.Qnum; QArith_base.Qopp; QArith_base.Qopp_comp; QArith_base.Qopp_le_compat; QArith_base.Qopp_lt_compat; ConstructiveCauchyAbs.Qopp_mult_mone; Qfield.Qopp_opp; QArith_base.Qplus; QArith_base.Qplus_0_l; QArith_base.Qplus_0_r; QArith_base.Qplus_assoc; QArith_base.Qplus_comm; QArith_base.Qplus_comp; QArith_base.Qplus_le_compat; QArith_base.Qplus_le_l; QArith_base.Qplus_le_r; QArith_base.Qplus_lt_l; QArith_base.Qplus_lt_le_compat; QArith_base.Qplus_lt_r; QArith_base.Qplus_opp_r; QArith_base.Qpower; RMicromega.Qpower0; Qpower.Qpower_0_le; Qpower.Qpower_0_lt; Qpower.Qpower_0_r; Qpower.Qpower_1_le; Qpower.Qpower_1_le_pos; ConstructiveRcomplete.Qpower_2powneg_le_inv; QArith_base.Qpower_comp; Qpower.Qpower_decomp_pos; Qpower.Qpower_decomp_positive; Qpower.Qpower_le_compat_l; Qpower.Qpower_lt_compat_l_inv; Qpower.Qpower_minus; Qpower.Qpower_minus_pos; Qpower.Qpower_minus_positive; Qpower.Qpower_not_0; Qpower.Qpower_not_0_positive; Qpower.Qpower_opp; Qpower.Qpower_plus; Qpower.Qpower_plus_positive; Qpower.Qpower_pos_positive; QArith_base.Qpower_positive; Qpower.Qpower_positive_0; QArith_base.Qpower_positive_comp; RMicromega.Qpower_positive_eq_zero; RMicromega.Qpower_positive_zero; Qfield.Qpower_theory; Qreduction.Qred; Qreduction.Qred_correct; Qfield.Qsft; QMicromega.Qsor; Qfield.Qsrt; Rdefinitions.RbaseSymbolsImpl.R; Rdefinitions.RbaseSymbolsImpl.R0; Rdefinitions.RbaseSymbolsImpl.R0_def; Rdefinitions.RbaseSymbolsImpl.R1; Rdefinitions.RbaseSymbolsImpl.R1_def; Raxioms.R1_neq_R0; RIneq.RField_field_lemma1; RIneq.RField_field_lemma3; RIneq.RField_lemma5; RIneq.RField_ring_lemma1; Rbasic_fun.RRle_abs; RMicromega.RTautoChecker; RMicromega.RTautoChecker_sound; RealField.RTheory; RMicromega.RWeakChecker; RMicromega.RWeakChecker_sound; RMicromega.RWitness; Rlimit.R_met; RMicromega.R_of_Rcst; RealField.R_power_theory; RIneq.R_rm; InitialRing.R_set1; InitialRing.R_set1_Reflexive; InitialRing.R_set1_Transitive; InitialRing.R_setoid3; InitialRing.R_setoid3_Reflexive; InitialRing.R_setoid3_Symmetric; InitialRing.R_setoid3_Transitive; InitialRing.R_setoid4; InitialRing.R_setoid4_Reflexive; InitialRing.R_setoid4_Transitive; Rbasic_fun.Rabs; Rbasic_fun.Rabs_R0; Rbasic_fun.Rabs_Ropp; Rbasic_fun.Rabs_def1; Rbasic_fun.Rabs_def2; Rbasic_fun.Rabs_inv; Rbasic_fun.Rabs_minus_sym; Rbasic_fun.Rabs_mult; Rbasic_fun.Rabs_no_R0; Rbasic_fun.Rabs_pos; Rbasic_fun.Rabs_pos_eq; Rbasic_fun.Rabs_pos_lt; Rbasic_fun.Rabs_right; Rbasic_fun.Rabs_triang; Rbasic_fun.Rabs_triang_inv; Rdefinitions.RbaseSymbolsImpl.Rabst; Ring_theory.Radd_0_l; Ring_theory.Radd_assoc; Ring_theory.Radd_comm; Ring_theory.Radd_ext; Rbasic_fun.Rcase_abs; ConstructiveRcomplete.Rcauchy_complete; RMicromega.Rcst_ind; RealField.Rdef_pow_add; Rfunctions.Rdist; Rfunctions.Rdist_plus; Rfunctions.Rdist_pos; Rfunctions.Rdist_refl; Rfunctions.Rdist_sym; Rfunctions.Rdist_tri; Ring_theory.Rdistr_l; Rdefinitions.Rdiv; RIneq.Rdiv_plus_distr; CRelationClasses.Reflexive; RelationClasses.Reflexive; Morphisms.ReflexiveProxy; CMorphisms.Reflexive_partial_app_morphism; Morphisms.Reflexive_partial_app_morphism; Rdefinitions.Req_appart_dec; RIneq.Req_dec; RIneq.Req_dec_T; OrderedRing.Req_dne; OrderedRing.Req_em; RIneq.Req_le; RIneq.Req_le_sym; RMicromega.Reval_bop2; RMicromega.Reval_expr; RMicromega.Reval_formula; RMicromega.Reval_formula'; RMicromega.Reval_formula_compat; RMicromega.Reval_nformula_dec; RMicromega.Reval_op2; RMicromega.Reval_op2_hold; RMicromega.Reval_pop2; RMicromega.Reval_pop2_eval_op2; RealField.Rfield; Rdefinitions.Rge; RIneq.Rge_antisym; RIneq.Rge_gt_dec; RIneq.Rge_gt_trans; RIneq.Rge_le; RIneq.Rge_minus; RIneq.Rge_not_lt; RIneq.Rge_trans; Rdefinitions.Rgt; RIneq.Rgt_dec; RIneq.Rgt_ge_trans; RIneq.Rgt_lt; RIneq.Rgt_minus; RIneq.Rgt_not_eq; RIneq.Rgt_not_ge; RIneq.Rgt_not_le; RIneq.Rgt_trans; BinInt.Z.Rgt_wd; Rdefinitions.RinvImpl.Rinv; RIneq.Rinv_0; RIneq.Rinv_0_lt_compat; RIneq.Rinv_1; RMicromega.Rinv_1; Rdefinitions.RinvImpl.Rinv_def; Raxioms.Rinv_l; RIneq.Rinv_lt_0_compat; RIneq.Rinv_mult; RIneq.Rinv_neq_0_compat; RIneq.Rinv_opp; RIneq.Rinv_r; Rdefinitions.Rle; RIneq.Rle_0_1; RIneq.Rle_0_sqr; RIneq.Rle_Reflexive; RIneq.Rle_Transitive; Rbasic_fun.Rle_abs; RIneq.Rle_antisym; OrderedRing.Rle_antisymm; RIneq.Rle_dec; RIneq.Rle_ge; OrderedRing.Rle_gt_cases; RIneq.Rle_le_eq; OrderedRing.Rle_le_minus; RIneq.Rle_lt_dec; OrderedRing.Rle_lt_eq; OrderedRing.Rle_lt_trans; RIneq.Rle_lt_trans; OrderedRing.Rle_ngt; RIneq.Rle_not_lt; OrderedRing.Rle_refl; RIneq.Rle_refl; OrderedRing.Rle_trans; RIneq.Rle_trans; Rdefinitions.RbaseSymbolsImpl.Rlt; RIneq.Rlt_0_1; RIneq.Rlt_0_2; RIneq.Rlt_0_minus; RIneq.Rlt_0_sqr; Raxioms.Rlt_asym; RIneq.Rlt_dec; Rdefinitions.RbaseSymbolsImpl.Rlt_def; RIneq.Rlt_dichotomy_converse; RIneq.Rlt_gt; RIneq.Rlt_irrefl; RIneq.Rlt_le; RIneq.Rlt_le_dec; OrderedRing.Rlt_le_neq; OrderedRing.Rlt_le_trans; RIneq.Rlt_le_trans; OrderedRing.Rlt_lt_minus; OrderedRing.Rlt_neq; OrderedRing.Rlt_nge; RIneq.Rlt_not_eq; RIneq.Rlt_not_ge; RIneq.Rlt_not_le; RIneq.Rlt_or_le; OrderedRing.Rlt_trans; Raxioms.Rlt_trans; OrderedRing.Rlt_trichotomy; BinNat.N.Rlt_wd; PeanoNat.Nat.Rlt_wd; BinInt.Z.Rlt_wd; Rbasic_fun.Rmax; Rbasic_fun.Rmax_Rlt; Rbasic_fun.Rmax_case_strong; Rbasic_fun.Rmax_l; Rbasic_fun.Rmax_left; Rbasic_fun.Rmax_lub_lt; Rbasic_fun.Rmax_r; Rbasic_fun.Rmax_right; Rbasic_fun.Rmax_stable_in_negreal; Rbasic_fun.Rmin; Rbasic_fun.Rmin_Rgt; Rbasic_fun.Rmin_Rgt_l; Rbasic_fun.Rmin_Rgt_r; Rbasic_fun.Rmin_case_strong; Rbasic_fun.Rmin_glb_lt; Rbasic_fun.Rmin_l; Rbasic_fun.Rmin_r; Rbasic_fun.Rmin_stable_in_posreal; Rdefinitions.Rminus; RIneq.Rminus_0_r; RIneq.Rminus_diag_eq; RIneq.Rminus_diag_uniq; RIneq.Rminus_diag_uniq_sym; OrderedRing.Rminus_eq_0; RIneq.Rminus_eq_contra; RIneq.Rminus_ge; RIneq.Rminus_gt; RIneq.Rminus_le; RIneq.Rminus_lt; RIneq.Rminus_not_eq; RIneq.Rminus_plus_distr; RIneq.Rminus_plus_l_l; RIneq.Rminus_plus_r_l; RIneq.Rminus_plus_r_r; Ring_theory.Rmul_0_l; Ring_theory.Rmul_1_l; Ring_theory.Rmul_assoc; Ring_theory.Rmul_comm; Ring_theory.Rmul_ext; Rdefinitions.RbaseSymbolsImpl.Rmult; RIneq.Rmult_0_l; RIneq.Rmult_0_r; Raxioms.Rmult_1_l; RIneq.Rmult_1_r; Raxioms.Rmult_assoc; Raxioms.Rmult_comm; Rdefinitions.RbaseSymbolsImpl.Rmult_def; RIneq.Rmult_div_l; RIneq.Rmult_div_r; RIneq.Rmult_eq_compat_l; RIneq.Rmult_eq_reg_l; RIneq.Rmult_ge_0_gt_0_lt_compat; RIneq.Rmult_gt_0_compat; RIneq.Rmult_integral; RIneq.Rmult_integral_contrapositive; RIneq.Rmult_integral_contrapositive_currified; RIneq.Rmult_inv_r_id_l; RIneq.Rmult_inv_r_id_m; RIneq.Rmult_inv_r_uniq; RIneq.Rmult_le_0_lt_compat; RIneq.Rmult_le_compat; RIneq.Rmult_le_compat_l; RIneq.Rmult_le_compat_neg_l; RIneq.Rmult_le_compat_r; RIneq.Rmult_le_pos; RIneq.Rmult_lt_0_compat; Raxioms.Rmult_lt_compat_l; RIneq.Rmult_lt_compat_r; RIneq.Rmult_lt_gt_compat_neg_l; RIneq.Rmult_lt_reg_l; RIneq.Rmult_ne; RIneq.Rmult_opp_opp; Raxioms.Rmult_plus_distr_l; RIneq.Rmult_plus_distr_r; RMicromega.Rnegate; OrderedRing.Rneq_symm; RMicromega.Rnormalise; RIneq.Rnot_gt_ge; RIneq.Rnot_le_gt; RIneq.Rnot_le_lt; RIneq.Rnot_lt_ge; RIneq.Rnot_lt_le; Rdefinitions.RbaseSymbolsImpl.Ropp; RIneq.Ropp_0; Rbasic_fun.Ropp_Rmin; RIneq.Ropp_Ropp_IZR; Ring_theory.Ropp_add; Ring_theory.Ropp_def; Rdefinitions.RbaseSymbolsImpl.Ropp_def; RIneq.Ropp_eq_0_compat; RIneq.Ropp_eq_compat; RIneq.Ropp_eq_reg; Ring_theory.Ropp_ext; RIneq.Ropp_ge_cancel; RIneq.Ropp_ge_le_contravar; RIneq.Ropp_gt_lt_0_contravar; RIneq.Ropp_gt_lt_contravar; RIneq.Ropp_involutive; RIneq.Ropp_le_cancel; RIneq.Ropp_le_contravar; RIneq.Ropp_le_ge_contravar; RIneq.Ropp_lt_cancel; RIneq.Ropp_lt_contravar; RIneq.Ropp_lt_gt_0_contravar; RIneq.Ropp_lt_gt_contravar; OrderedRing.Ropp_lt_mono; RIneq.Ropp_minus_distr; Ring_theory.Ropp_mul_l; RIneq.Ropp_mult_distr_l; RIneq.Ropp_mult_distr_l_reverse; RIneq.Ropp_mult_distr_r; RIneq.Ropp_neq_0_compat; Ring_theory.Ropp_opp; RIneq.Ropp_plus_distr; OrderedRing.Ropp_pos_neg; RingMicromega.Rops_wd; Rdefinitions.RbaseSymbolsImpl.Rplus; OrderedRing.Rplus_0_l; Raxioms.Rplus_0_l; OrderedRing.Rplus_0_r; RIneq.Rplus_0_r; RIneq.Rplus_0_r_uniq; Raxioms.Rplus_assoc; OrderedRing.Rplus_cancel_l; OrderedRing.Rplus_comm; Raxioms.Rplus_comm; Rdefinitions.RbaseSymbolsImpl.Rplus_def; RIneq.Rplus_diag; RIneq.Rplus_eq_compat_l; RIneq.Rplus_eq_compat_r; RIneq.Rplus_eq_reg_l; RIneq.Rplus_ge_compat_l; RIneq.Rplus_ge_compat_r; RIneq.Rplus_ge_reg_r; RIneq.Rplus_half_diag; RIneq.Rplus_le_compat; RIneq.Rplus_le_compat_l; RIneq.Rplus_le_compat_r; RIneq.Rplus_le_lt_0_compat; RIneq.Rplus_le_lt_0_neq_0; RIneq.Rplus_le_lt_compat; OrderedRing.Rplus_le_lt_mono; OrderedRing.Rplus_le_mono; OrderedRing.Rplus_le_mono_l; OrderedRing.Rplus_le_mono_r; RIneq.Rplus_le_reg_l; RIneq.Rplus_le_reg_r; RIneq.Rplus_lt_0_compat; RIneq.Rplus_lt_compat; Raxioms.Rplus_lt_compat_l; RIneq.Rplus_lt_compat_r; RIneq.Rplus_lt_le_0_compat; RIneq.Rplus_lt_le_compat; OrderedRing.Rplus_lt_le_mono; OrderedRing.Rplus_lt_mono; OrderedRing.Rplus_lt_mono_l; OrderedRing.Rplus_lt_mono_r; RIneq.Rplus_lt_reg_l; RIneq.Rplus_lt_reg_r; RIneq.Rplus_minus_assoc; RIneq.Rplus_minus_l; RIneq.Rplus_minus_r; RIneq.Rplus_ne; OrderedRing.Rplus_nonneg_nonneg; OrderedRing.Rplus_nonneg_pos; RIneq.Rplus_opp_l; Raxioms.Rplus_opp_r; RIneq.Rplus_opp_r_uniq; OrderedRing.Rplus_pos_nonneg; OrderedRing.Rplus_pos_pos; Rdefinitions.RbaseSymbolsImpl.Rquot1; Rdefinitions.RbaseSymbolsImpl.Rquot2; Rdefinitions.RbaseSymbolsImpl.Rrepr; Raxioms.Rrepr_0; Raxioms.Rrepr_1; Rdefinitions.Rrepr_appart_0; Raxioms.Rrepr_le; Raxioms.Rrepr_mult; Raxioms.Rrepr_opp; Raxioms.Rrepr_plus; Field_theory.Rring_ring_lemma1; RMicromega.Rsor; RIneq.Rsqr; RIneq.Rsqr_0_uniq; RIneq.Rsqr_def; RMicromega.Rsrt; Ring_theory.Rsub_def; Ring_theory.Rth_ARth; OrderedRing.Rtimes_0_l; OrderedRing.Rtimes_0_r; OrderedRing.Rtimes_comm; OrderedRing.Rtimes_neg_neg; OrderedRing.Rtimes_neq_0; OrderedRing.Rtimes_nonneg_nonneg; OrderedRing.Rtimes_pos_neg; OrderedRing.Rtimes_pos_pos; OrderedRing.Rtimes_square_nonneg; RIneq.Rtotal_order; ConstructiveRcomplete.Rup_pos; RingMicromega.SORRing_ring_lemma1; OrderedRing.SOR_ring_lemma1; RingMicromega.SORcleb_morph; RingMicromega.SORcneqb_morph; OrderedRing.SORle_antisymm; OrderedRing.SORle_refl; OrderedRing.SORle_trans; OrderedRing.SORle_wd; OrderedRing.SORlt_le_neq; OrderedRing.SORlt_trichotomy; OrderedRing.SORlt_wd; OrderedRing.SORopp_wd; OrderedRing.SORplus_le_mono_l; OrderedRing.SORplus_wd; RingMicromega.SORpower; RingMicromega.SORrm; OrderedRing.SORrt; OrderedRing.SORsetoid; OrderedRing.SORtimes_pos_pos; OrderedRing.SORtimes_wd; Ring_theory.SRadd_0_l; Ring_theory.SRadd_assoc; Ring_theory.SRadd_comm; Ring_theory.SRadd_ext; Ring_theory.SRdistr_l; Ring_theory.SReqe_Reqe; Ring_theory.SRmul_0_l; Ring_theory.SRmul_1_l; Ring_theory.SRmul_assoc; Ring_theory.SRmul_comm; Ring_theory.SRmul_ext; Ring_theory.SRopp; Ring_theory.SRopp_add; Ring_theory.SRopp_ext; Ring_theory.SRopp_mul_l; Ring_theory.SRsub; Ring_theory.SRsub_def; Ring_theory.SRth_ARth; Setoid.Seq_refl; Setoid.Seq_sym; Setoid.Seq_trans; Setoid.Setoid_Theory; Ring_theory.Smorph0; Ring_theory.Smorph1; Ring_theory.Smorph_add; Ring_theory.Smorph_eq; Ring_theory.Smorph_morph; Ring_theory.Smorph_mul; Ring_theory.Smorph_opp; Ring_theory.Smorph_sub; RelationClasses.StrictOrder_Irreflexive; RelationClasses.StrictOrder_Transitive; CRelationClasses.Symmetric; RelationClasses.Symmetric; Tauto.TFormula; CRelationClasses.Transitive; RelationClasses.Transitive; ConstructiveRcomplete.Un_cauchy_mod; Rseries.Un_cv; ConstructiveLimits.Un_cv_nat_real; Init.Unconvertible; ConstructiveCauchyRealsMult.Weaken_Qle_QpowerAddExp; ConstructiveCauchyRealsMult.Weaken_Qle_QpowerFac; ConstructiveCauchyRealsMult.Weaken_Qle_QpowerRemSubExp; ZMicromega.ZChecker; ZMicromega.ZChecker_sound; ZMicromega.ZNpower; ZMicromega.ZSORaddon; ZMicromega.ZTautoChecker; ZMicromega.ZTautoChecker_sound; ZMicromega.ZWitness; Znat.Z_N_nat; RIneq.Z_R_minus; ZArith_dec.Z_dec'; Zdiv.Z_div_mod; Zdiv.Z_div_mod_eq_full; ConstructiveExtra.Z_inj_nat; ConstructiveExtra.Z_inj_nat_id; ConstructiveExtra.Z_inj_nat_rev; ZArith_dec.Z_le_lt_eq_dec; ZArith_dec.Z_lt_dec; ZArith_dec.Z_lt_ge_dec; ZArith_dec.Z_lt_le_dec; Znumtheory.Z_lt_neq; Zdiv.Z_mod_lt; Zdiv.Z_mod_mult; Field_theory.Z_pos_sub_gt; BinNums.Z_rec; BinNums.Z_rect; Zcompare.Zcompare_mult_compat; ZArith_dec.Zcompare_rec; ZArith_dec.Zcompare_rect; ZMicromega.Zdeduce; ZMicromega.Zdiv_pol; ZMicromega.Zdiv_pol_correct; Znumtheory.Zdivide_Zdiv_eq; ZMicromega.Zdivide_ceiling; Znumtheory.Zdivide_mod; ZMicromega.Zdivide_pol_Zdivide; ZMicromega.Zdivide_pol_ind; ZMicromega.Zdivide_pol_one; ZMicromega.Zdivide_pol_sub; ZMicromega.Zeval_bop2; ZMicromega.Zeval_expr; ZMicromega.Zeval_expr_compat; ZMicromega.Zeval_formula; ZMicromega.Zeval_formula'; ZMicromega.Zeval_formula_compat; ...TRUNCATED BY DUNE... BinPos.Pos.add_xI_pred_double; BinPos.Pos.add_xO; Rlimit.adhDa; Rtopology.adherence; Rtopology.adherence_P1; Rtopology.adherence_P2; Rtopology.adherence_P3; ZMicromega.agree_env; ZMicromega.agree_env_eval_nformula; ZMicromega.agree_env_eval_nformulae; ZMicromega.agree_env_jump; ZMicromega.agree_env_subset; ZMicromega.agree_env_tail; all; Morphisms_Prop.all_iff_morphism; Morphisms_Prop.all_iff_morphism_obligation_1; and_assoc; Tauto.and_cnf; Tauto.and_cnf_opt; Tauto.and_cnf_opt_cnf_ff_r; Tauto.and_cnf_opt_cnf_tt; and_comm; and_iff_compat_l; Morphisms_Prop.and_iff_morphism; Morphisms_Prop.and_iff_morphism_obligation_1; and_ind; ZifyClasses.and_morph; and_rec; and_rect; andb; Bool.andb_false_iff; andb_prop; Bool.andb_true_iff; app; CRelationClasses.arrow; CRelationClasses.arrow_Transitive; CRelationClasses.arrow_Transitive_obligation_1; ZMicromega.bdepth; BinNat.N.bi_induction; PeanoNat.Nat.bi_induction; BinInt.Z.bi_induction; ConstructiveCauchyReals.bound; Raxioms.bound; ZMicromega.bound_var; Rtopology.bounded; BinNat.N.case_analysis; PeanoNat.Nat.case_analysis; ConstructiveCauchyReals.cauchy; ZMicromega.ceiling; BinNat.N.central_induction; PeanoNat.Nat.central_induction; BinInt.Z.central_induction; EnvRing.ceqb_spec; Field_theory.ceqb_spec; Ring_polynom.ceqb_spec; Field_theory.ceqb_spec'; RingMicromega.check_inconsistent; RingMicromega.check_inconsistent_sound; RingMicromega.check_normalised_formulas; RingMicromega.checker_nf_sound; Classical_Prop.classic; Tauto.clause; RingMicromega.cleb_sound; Rtopology.closed_set; Rtopology.closed_set_P1; RingMicromega.cltb; RingMicromega.cltb_sound; RingMicromega.cneqb; RingMicromega.cneqb_sound; Tauto.cnf; Tauto.cnf_checker; Tauto.cnf_checker_sound; Tauto.cnf_ff; RingMicromega.cnf_negate; RingMicromega.cnf_negate_correct; RingMicromega.cnf_normalise; RingMicromega.cnf_normalise_correct; RingMicromega.cnf_of_list; ZMicromega.cnf_of_list; RingMicromega.cnf_of_list_correct; ZMicromega.cnf_of_list_correct; Tauto.cnf_tt; Rtopology.compact; Rtopology.compact_EMP; Rtopology.compact_P1; Rtopology.compact_P2; Rtopology.compact_P3; Rtopology.compact_eqDom; PeanoNat.Nat.compare; NatDef.N.compare; PosDef.Pos.compare; BinInt.Z.compare; BinNat.N.compare_antisym; PeanoNat.Nat.compare_antisym; BinPos.Pos.compare_antisym; BinInt.Z.compare_antisym; PosDef.Pos.compare_cont; BinPos.Pos.compare_cont_antisym; BinPos.Pos.compare_cont_spec; BinNat.N.compare_eq_iff; PeanoNat.Nat.compare_eq_iff; BinPos.Pos.compare_eq_iff; BinInt.Z.compare_eq_iff; PeanoNat.Nat.compare_ge_iff; PeanoNat.Nat.compare_gt_iff; BinInt.Z.compare_gt_iff; BinNat.N.compare_le_iff; PeanoNat.Nat.compare_le_iff; BinPos.Pos.compare_le_iff; BinInt.Z.compare_le_iff; BinNat.N.compare_lt_iff; PeanoNat.Nat.compare_lt_iff; BinPos.Pos.compare_lt_iff; BinInt.Z.compare_lt_iff; BinNat.N.compare_nge_iff; PeanoNat.Nat.compare_nge_iff; BinInt.Z.compare_nge_iff; BinInt.Z.compare_ngt_iff; BinNat.N.compare_nle_iff; PeanoNat.Nat.compare_nle_iff; BinInt.Z.compare_nle_iff; BinNat.N.compare_refl; PeanoNat.Nat.compare_refl; BinPos.Pos.compare_refl; BinInt.Z.compare_refl; BinNat.N.compare_spec; PeanoNat.Nat.compare_spec; BinPos.Pos.compare_spec; Qminmax.Q.OT.compare_spec; BinInt.Z.compare_spec; BinInt.Z.compare_sub; BinPos.Pos.compare_sub_mask; PeanoNat.Nat.compare_succ; BinPos.Pos.compare_succ_l; BinPos.Pos.compare_succ_r; BinPos.Pos.compare_succ_succ; BinPos.Pos.compare_xI_xI; BinPos.Pos.compare_xI_xO; BinPos.Pos.compare_xO_xI; BinPos.Pos.compare_xO_xO; RelationClasses.complement; Rtopology.complementary; Raxioms.completeness; Rtopology.cond_fam; RIneq.cond_neg; RIneq.cond_pos; Field_theory.condition; ConstructiveEpsilon.constructive_indefinite_ground_description; ConstructiveExtra.constructive_indefinite_ground_description_Z; ConstructiveEpsilon.constructive_indefinite_ground_description_nat; Rderiv.cont_deriv; Rderiv.continue_in; Ranalysis1.continuity; Rtopology.continuity_P1; Rtopology.continuity_P2; Rtopology.continuity_ab_maj; Rtopology.continuity_ab_min; Rtopology.continuity_compact; Ranalysis1.continuity_pt; Ranalysis1.continuity_pt_minus; Ranalysis1.continuity_pt_mult; Ranalysis1.continuity_pt_opp; Rtopology.covering; Rtopology.covering_finite; Rtopology.covering_open_set; CRelationClasses.crelation; Field_theory.cross_product_eq; ZMicromega.cutting_plane_sound; Decidable.decidable; Field_theory.default_isIn; Field_theory.default_isIn_ok; SetoidTactics.default_relation; Field_theory.denum; Ranalysis1.deriv_constant2; Ranalysis1.deriv_maximum; Ranalysis1.deriv_minimum; Ranalysis1.derivable; Ranalysis1.derivable_const; Ranalysis1.derivable_continuous; Ranalysis1.derivable_continuous_pt; Ranalysis1.derivable_derive; Ranalysis1.derivable_id; Ranalysis1.derivable_pt; Ranalysis1.derivable_pt_abs; Ranalysis1.derivable_pt_const; Ranalysis1.derivable_pt_id; Ranalysis1.derivable_pt_lim; Ranalysis1.derivable_pt_lim_D_in; Ranalysis1.derivable_pt_lim_const; Ranalysis1.derivable_pt_lim_id; Ranalysis1.derivable_pt_lim_minus; Ranalysis1.derivable_pt_lim_mult; Ranalysis1.derivable_pt_lim_opp; Ranalysis1.derivable_pt_lim_opp_fwd; Ranalysis1.derivable_pt_minus; Ranalysis1.derivable_pt_mult; Ranalysis1.derivable_pt_opp; Ranalysis1.derive_pt; Ranalysis1.derive_pt_D_in; Ranalysis1.derive_pt_const; Ranalysis1.derive_pt_eq; Ranalysis1.derive_pt_eq_0; Ranalysis1.derive_pt_eq_1; Ranalysis1.derive_pt_id; Ranalysis1.derive_pt_minus; Ranalysis1.derive_pt_mult; Ranalysis1.derive_pt_opp; Bool.diff_false_true; Rtopology.disc; Rtopology.disc_P1; Field_theory.display_pow_linear; Rlimit.dist; BinInt.Z.div; BinNat.N.div_eucl; BinInt.Z.div_eucl; BinInt.Z.div_eucl_eq; BinNat.N.div_eucl_spec; Ring_theory.div_eucl_th; BinInt.Z.div_mod; BinInt.Z.Private_NZDiv.div_mod_unique; BinInt.Z.div_mod_unique; BinInt.Z.div_mul; BinInt.Z.div_unique; BinInt.Z.div_unique_exact; BinInt.Z.div_wd; BinPos.Pos.divide; BinInt.Z.divide; BinInt.Z.divide_Zpos; BinInt.Z.divide_Zpos_Zneg_l; BinInt.Z.divide_Zpos_Zneg_r; BinInt.Z.divide_abs_l; BinInt.Z.divide_abs_r; BinPos.Pos.divide_add_cancel_l; BinInt.Z.divide_antisym; BinInt.Z.divide_antisym_abs; BinInt.Z.divide_antisym_nonneg; BinPos.Pos.divide_mul_l; BinPos.Pos.divide_mul_r; BinInt.Z.divide_opp_l; BinInt.Z.divide_opp_r; BinInt.Z.divide_refl; BinInt.Z.divide_trans; BinInt.Z.divide_wd; BinPos.Pos.divide_xO_xI; BinPos.Pos.divide_xO_xO; Rtopology.domain_finite; NatDef.N.double; BinInt.Z.double; BinNat.N.double_add; BinPos.Pos.double_mask; BinNat.N.double_mul; BinPos.Pos.double_pred_mask; Tauto.eAND; Tauto.eAnd_morph_Proper; Tauto.eFF; Tauto.eIFF; Tauto.eIFF_morph_Proper; Tauto.eIMPL; Tauto.eIMPL_morph_Proper; Tauto.eKind; Tauto.eNOT; Tauto.eNOT_morph_Proper; Tauto.eOR; Tauto.eOR_morph_Proper; Tauto.eTT; Tauto.e_rtyp; Tauto.eiff; Tauto.eiff_eq; Tauto.eiff_refl; Tauto.eiff_sym; Tauto.eiff_trans; EnvRing.env_morph; Rlimit.eps2; Rlimit.eps2_Rgt_R0; BinNat.N.eq; BinInt.Z.eq; RingMicromega.eq0_cnf; Qreals.eqR_Qeq; Rtopology.eq_Dom; RIneq.eq_IZR; RIneq.eq_IZR_R0; RIneq.eq_IZR_contrapositive; RelationClasses.eq_Reflexive; RelationClasses.eq_Symmetric; RelationClasses.eq_Transitive; eq_add_S; ZMicromega.eq_cnf; BinPos.Pos.eq_dec; BinInt.Z.eq_dec; BinInt.Z.eq_decidable; BinNat.N.Private_OrderTac.IsTotal.eq_equiv; PeanoNat.Nat.Private_OrderTac.IsTotal.eq_equiv; BinInt.Z.Private_OrderTac.IsTotal.eq_equiv; BinNat.N.eq_equiv; PeanoNat.Nat.eq_equiv; BinPos.Pos.eq_equiv; Qminmax.Q.OT.eq_equiv; BinInt.Z.eq_equiv; RelationClasses.eq_equivalence; eq_ind; eq_ind_r; BinPos.Pos.Private_Tac.eq_le; Qminmax.Q.Private_Tac.eq_le; BinInt.Z.Private_Tac.eq_le; BinInt.Z.Private_OrderTac.Tac.eq_le; BinNat.N.eq_le_incl; PeanoNat.Nat.eq_le_incl; BinInt.Z.eq_le_incl; PeanoNat.Nat.Private_Tac.eq_lt; BinPos.Pos.Private_Tac.eq_lt; Qminmax.Q.Private_Tac.eq_lt; BinInt.Z.Private_Tac.eq_lt; BinInt.Z.Private_OrderTac.Tac.eq_lt; BinInt.Z.eq_mul_0; BinInt.Z.eq_mul_1_nonneg; BinInt.Z.eq_mul_1_nonneg'; BinPos.Pos.Private_Tac.eq_neq; BinInt.Z.Private_OrderTac.Tac.eq_neq; BinInt.Z.eq_opp_l; ZifyInst.eq_pos_inj; Morphisms.eq_proper_proxy; eq_rec; eq_rec_r; eq_rect; BinPos.Pos.Private_Tac.eq_refl; BinInt.Z.Private_OrderTac.Tac.eq_refl; BinInt.Z.eq_refl; eq_sym; PeanoNat.Nat.Private_Tac.eq_sym; BinPos.Pos.Private_Tac.eq_sym; Qminmax.Q.Private_Tac.eq_sym; BinInt.Z.Private_Tac.eq_sym; BinInt.Z.Private_OrderTac.Tac.eq_sym; eq_trans; BinPos.Pos.Private_Tac.eq_trans; BinInt.Z.Private_OrderTac.Tac.eq_trans; Bool.eqb; BinNat.N.eqb; PosDef.Pos.eqb; BinInt.Z.eqb; BinNat.N.eqb_eq; BinPos.Pos.eqb_eq; BinInt.Z.eqb_eq; BinInt.Z.eqb_neq; BinPos.Pos.eqb_refl; BinNat.N.eqb_spec; BinPos.Pos.eqb_spec; Bool.eqb_true_iff; SetoidTactics.equivalence_default; RelationClasses.equivalence_rewrite_relation; RingMicromega.eval_Psatz; ZMicromega.eval_Psatz; RingMicromega.eval_Psatz_Sound; ZMicromega.eval_Psatz_sound; Tauto.eval_bf; Tauto.eval_bf_map; Tauto.eval_clause; Tauto.eval_cnf; Tauto.eval_cnf_and_opt; Tauto.eval_cnf_app; Tauto.eval_cnf_cons_iff; Tauto.eval_cnf_ff; Tauto.eval_cnf_tt; ZMicromega.eval_expr; Tauto.eval_f; Tauto.eval_f_morph; RingMicromega.eval_formula; RingMicromega.eval_formulaSC; RingMicromega.eval_nformula; ZMicromega.eval_nformula; ZMicromega.eval_nformula_bound_var; RingMicromega.eval_nformula_dec; ZMicromega.eval_nformula_mk_eq_pos; ZMicromega.eval_nformula_split; RingMicromega.eval_op1; RingMicromega.eval_op2; Tauto.eval_opt_clause; RingMicromega.eval_pexpr; RingMicromega.eval_pexprSC; RingMicromega.eval_pol; ZMicromega.eval_pol; ZMicromega.eval_pol_Pc; RingMicromega.eval_pol_add; ZMicromega.eval_pol_add; RingMicromega.eval_pol_norm; ZMicromega.eval_pol_norm; RingMicromega.eval_pol_opp; RingMicromega.eval_pol_sub; ZMicromega.eval_pol_sub; RingMicromega.eval_sexpr; RingMicromega.eval_sformula; Tauto.eval_tt; Morphisms_Prop.ex_iff_morphism; Morphisms_Prop.ex_iff_morphism_obligation_1; ex_ind; Rtopology.f; f_equal; f_equal2; f_equal_nat; Rtopology.family_finite; Rtopology.family_open_set; Field_theory.fcons_ok; Ranalysis1.fct_cte; Field_theory.field_is_integral_domain; VarMap.find; Basics.flip; CRelationClasses.flip; RelationClasses.flip_Reflexive; List.fold_left; List.fold_right; fst; BinPos.Pos.gcd; BinInt.Z.gcd; BinInt.Z.gcd_divide_l; BinInt.Z.gcd_divide_r; BinPos.Pos.gcd_greatest; BinInt.Z.gcd_greatest; BinInt.Z.gcd_nonneg; BinPos.Pos.gcdn; BinPos.Pos.gcdn_greatest; ge; BinPos.Pos.ge; BinInt.Z.ge; BinInt.Z.ge_le; BinPos.Pos.ge_le_iff; BinInt.Z.ge_le_iff; BinInt.Z.geb; BinInt.Z.geb_le; BinInt.Z.geb_leb; ZMicromega.genCuttingPlane; ZMicromega.genCuttingPlaneNone; InitialRing.gen_Zeqb_ok; InitialRing.gen_phiN; InitialRing.gen_phiN1; InitialRing.gen_phiN_add; InitialRing.gen_phiN_morph; InitialRing.gen_phiN_mult; InitialRing.gen_phiN_sub; InitialRing.gen_phiPOS; InitialRing.gen_phiPOS1; InitialRing.gen_phiZ; InitialRing.gen_phiZ1; InitialRing.gen_phiZ1_pos_sub; InitialRing.gen_phiZ_add; InitialRing.gen_phiZ_ext; InitialRing.gen_phiZ_morph; InitialRing.gen_phiZ_mul; EnvRing.get_PEopp; Ring_polynom.get_PEopp; InitialRing.get_signZ; InitialRing.get_signZ_th; Ring_theory.get_sign_None; Ring_theory.get_sign_None_th; BinPos.Pos.ggcd; BinInt.Z.ggcd; BinPos.Pos.ggcd_correct_divisors; BinInt.Z.ggcd_correct_divisors; BinPos.Pos.ggcd_gcd; BinInt.Z.ggcd_gcd; BinPos.Pos.ggcdn; BinPos.Pos.ggcdn_correct_divisors; BinPos.Pos.ggcdn_gcdn; ConstructiveLUB.glb_dec_Q; BinPos.Pos.gt; BinInt.Z.gt; BinPos.Pos.gt_lt; BinInt.Z.gt_lt; BinPos.Pos.gt_lt_iff; BinInt.Z.gt_lt_iff; BinInt.Z.gt_wf; BinInt.Z.gtb; BinInt.Z.gtb_gt; BinInt.Z.gtb_lt; BinInt.Z.gtb_ltb; BinInt.Z.gtb_spec; Env.hd; List.hd; Tauto.hold; Tauto.hold_eAND; Tauto.hold_eEQ; Tauto.hold_eFF; Tauto.hold_eIFF; Tauto.hold_eIFF_IMPL; Tauto.hold_eIMPL; Tauto.hold_eNOT; Tauto.hold_eOR; Tauto.hold_eTT; Tauto.hold_eiff; id; Ranalysis1.id; Nnat.N2Nat.id; Znat.N2Z.id; Nnat.Nat2N.id; Pnat.Nat2Pos.id; Znat.Nat2Z.id; Pnat.Pos2Nat.id; Znat.Z2N.id; Znat.Z2Nat.id; BinInt.Z2Pos.id; Ring_theory.id_phi_N; Pnat.SuccNat2Pos.id_succ; Tauto.if_cnf_tt; Field_theory.if_true; iff; CRelationClasses.iffT; CMorphisms.iffT_arrow_subrelation; CMorphisms.iffT_flip_arrow_subrelation; RelationClasses.iff_Reflexive; RelationClasses.iff_Symmetric; RelationClasses.iff_Transitive; RelationClasses.iff_equivalence; Morphisms.iff_flip_impl_subrelation; Morphisms_Prop.iff_iff_iff_impl_morphism; Morphisms_Prop.iff_iff_iff_impl_morphism_obligation_1; Morphisms.iff_impl_subrelation; iff_refl; Bool.iff_reflect; iff_stepl; iff_sym; iff_trans; Rtopology.image_dir; Rtopology.image_rec; Basics.impl; RelationClasses.impl_Reflexive; RelationClasses.impl_Reflexive_obligation_1; implb; Classical_Prop.imply_to_and; ZMicromega.in_bdepth; Rtopology.included; Rtopology.included_trans; Rtopology.ind; BinNat.N.induction; PeanoNat.Nat.induction; ZifyClasses.inj; Nnat.N2Nat.inj; Znat.Nat2Z.inj; Pnat.Pos2Nat.inj; BinInt.Pos2Z.inj; Pnat.Pos2Nat.inj_1; Nnat.N2Nat.inj_add; Znat.N2Z.inj_add; Nnat.Nat2N.inj_add; Znat.Nat2Z.inj_add; Pnat.Pos2Nat.inj_add; BinInt.Pos2Z.inj_add; Nnat.N2Nat.inj_compare; Znat.N2Z.inj_compare; Nnat.Nat2N.inj_compare; Znat.Nat2Z.inj_compare; Pnat.Pos2Nat.inj_compare; Znat.Z2Nat.inj_compare; Znat.Nat2Z.inj_ge; Znat.Nat2Z.inj_iff; BinInt.Pos2Z.inj_iff; Znat.Nat2Z.inj_le; Pnat.Pos2Nat.inj_le; Znat.Z2Nat.inj_le; Nnat.N2Nat.inj_max; Znat.N2Z.inj_max; Nnat.Nat2N.inj_max; Znat.Nat2Z.inj_max; Pnat.Pos2Nat.inj_mul; BinInt.Pos2Z.inj_mul; Znat.N2Z.inj_pos; BinInt.Pos2Z.inj_pow; BinInt.Pos2Z.inj_pow_pos; Znat.Nat2Z.inj_succ; Pnat.Pos2Nat.inj_succ; BinInt.Pos2Z.inj_succ; Pnat.Pos2Nat.inj_xI; Pnat.Pos2Nat.inj_xO; ConstructiveCauchyReals.inject_Q; ConstructiveCauchyReals.inject_Q_cauchy; ConstructiveCauchyReals.inject_Q_compare; ConstructiveCauchyReals.inject_Q_le; ConstructiveCauchyReals.inject_Q_lt; ConstructiveCauchyReals.inject_Q_morph; ConstructiveCauchyReals.inject_Q_morph_Proper; ConstructiveCauchyRealsMult.inject_Q_mult; ConstructiveCauchyReals.inject_Q_plus; ConstructiveCauchyReals.inject_Z; QArith_base.inject_Z; Rtopology.interior; Rtopology.interior_P1; Rtopology.interior_P2; Ring_polynom.interp_PElist; Ring_polynom.interp_PElist_ok; PeanoNat.Nat.Private_Tac.interp_ord; BinPos.Pos.Private_Tac.interp_ord; Qminmax.Q.Private_Tac.interp_ord; BinInt.Z.Private_Tac.interp_ord; BinNat.N.Private_OrderTac.Tac.interp_ord; PeanoNat.Nat.Private_OrderTac.Tac.interp_ord; BinInt.Z.Private_OrderTac.Tac.interp_ord; Rtopology.intersection_domain; Pnat.SuccNat2Pos.inv; ConstructiveEpsilon.inv_before_witness; Field_theory.isIn; Field_theory.isIn_ok; ConstructiveReals.isLinearOrder; Tauto.is_bool; Tauto.is_bool_inv; Tauto.is_cnf_ff; Tauto.is_cnf_ff_cnf_ff; Tauto.is_cnf_ff_inv; Tauto.is_cnf_tt; Tauto.is_cnf_tt_cnf_ff; Tauto.is_cnf_tt_inv; ConstructiveLUB.is_lub; Raxioms.is_lub; Znat.Nat2Z.is_nonneg; BinInt.Pos2Z.is_nonneg; ZMicromega.is_pol_Z0; ZMicromega.is_pol_Z0_eval_pol; Pnat.Pos2Nat.is_pos; BinInt.Pos2Z.is_pos; Pnat.Pos2Nat.is_succ; is_true; ConstructiveLUB.is_upper_bound; Raxioms.is_upper_bound; ConstructiveLUB.is_upper_bound_closed; ConstructiveLUB.is_upper_bound_dec; ConstructiveLUB.is_upper_bound_epsilon; ConstructiveLUB.is_upper_bound_glb; ConstructiveLUB.is_upper_bound_not_epsilon; PosDef.Pos.iter; BinPos.Pos.iter_add; BinPos.Pos.iter_ind; BinPos.Pos.iter_invariant; BinPos.Pos.iter_op; BinPos.Pos.iter_op_succ; BinPos.Pos.iter_succ; BinPos.Pos.iter_swap; BinPos.Pos.iter_swap_gen; BinList.jump; Env.jump; BinList.jump_add; Env.jump_add; Ring_polynom.jump_add'; BinList.jump_pred_double; Env.jump_pred_double; Env.jump_simpl; BinList.jump_succ; BinList.jump_tl; BinNat.N.le; BinPos.Pos.le; BinInt.Z.le; ZMicromega.le_0_iff; BinNat.N.le_0_l; PeanoNat.Nat.le_0_l; le_0_n; BinInt.Z.le_0_sub; BinPos.Pos.le_1_l; le_S_n; BinInt.Z.le_add_le_sub_l; BinInt.Z.le_add_le_sub_r; BinPos.Pos.le_antisym; BinPos.Pos.Private_Tac.le_antisym; BinInt.Z.Private_OrderTac.Tac.le_antisym; BinInt.Z.le_antisymm; Qminmax.Q.Private_Tac.le_eq; BinInt.Z.Private_Tac.le_eq; BinInt.Z.Private_OrderTac.Tac.le_eq; BinInt.Z.le_exists_sub; BinInt.Z.le_ge; BinInt.Z.le_ge_cases; BinNat.N.le_gt_cases; PeanoNat.Nat.le_gt_cases; BinInt.Z.le_gt_cases; le_ind; BinInt.Z.le_ind; BinNat.N.le_le_succ_r; PeanoNat.Nat.le_le_succ_r; BinInt.Z.le_le_succ_r; BinInt.Z.le_lt_add_lt; PeanoNat.Nat.Private_Tac.le_lt_trans; BinPos.Pos.Private_Tac.le_lt_trans; Qminmax.Q.Private_Tac.le_lt_trans; BinInt.Z.Private_Tac.le_lt_trans; BinNat.N.Private_OrderTac.Tac.le_lt_trans; PeanoNat.Nat.Private_OrderTac.Tac.le_lt_trans; BinInt.Z.Private_OrderTac.Tac.le_lt_trans; BinInt.Z.le_lt_trans; BinNat.N.Private_OrderTac.IsTotal.le_lteq; PeanoNat.Nat.Private_OrderTac.IsTotal.le_lteq; BinInt.Z.Private_OrderTac.IsTotal.le_lteq; BinNat.N.le_lteq; PeanoNat.Nat.le_lteq; BinPos.Pos.le_lteq; Qminmax.Q.OT.le_lteq; BinInt.Z.le_lteq; PeanoNat.Nat.le_max_l; BinPos.Pos.le_max_l; PeanoNat.Nat.le_max_r; BinPos.Pos.le_max_r; BinInt.Z.le_min_l; le_n_S; ZMicromega.le_neg; BinInt.Z.le_neq; BinPos.Pos.Private_Tac.le_neq_lt; BinInt.Z.Private_OrderTac.Tac.le_neq_lt; PeanoNat.Nat.le_ngt; BinInt.Z.le_ngt; BinPos.Pos.le_nlt; le_pred; BinNat.N.le_preorder; PeanoNat.Nat.le_preorder; BinInt.Z.le_preorder; BinNat.N.le_refl; PeanoNat.Nat.le_refl; BinPos.Pos.le_refl; BinInt.Z.Private_OrderTac.Tac.le_refl; BinInt.Z.le_refl; BinInt.Z.le_sub_le_add_l; BinInt.Z.le_sub_le_add_r; BinNat.N.le_succ_l; PeanoNat.Nat.le_succ_l; BinPos.Pos.le_succ_l; BinInt.Z.le_succ_l; BinNat.N.le_succ_r; PeanoNat.Nat.le_succ_r; BinInt.Z.le_succ_r; BinNat.N.le_trans; PeanoNat.Nat.le_trans; BinPos.Pos.le_trans; BinInt.Z.le_trans; BinNat.N.le_wd; PeanoNat.Nat.le_wd; BinInt.Z.le_wd; PeanoNat.Nat.leb; NatDef.N.leb; BinPos.Pos.leb; BinInt.Z.leb; BinInt.Z.leb_gt; BinNat.N.leb_le; PeanoNat.Nat.leb_le; BinPos.Pos.leb_le; BinInt.Z.leb_le; BinInt.Z.leb_nle; BinNat.N.leb_spec; PeanoNat.Nat.leb_spec; BinInt.Z.leb_spec; BinNat.N.leb_spec0; PeanoNat.Nat.leb_spec0; BinInt.Z.leb_spec0; BinInt.Z.left_induction; Rlimit.limit1_in; Rlimit.limit_Ropp; Rlimit.limit_in; Rlimit.limit_minus; Rlimit.limit_mul; Rlimit.limit_plus; ConstructiveCauchyReals.linear_order_T; ConstructiveEpsilon.linear_search_conform; ConstructiveEpsilon.linear_search_from_0_conform; list_ind; list_rec; list_rect; Ring_polynom.local_mkpow_ok; lt; BinNat.N.lt; BinPos.Pos.lt; BinInt.Z.lt; BinInt.Z.lt_0_1; RIneq.lt_0_IZR; BinInt.Z.lt_0_sub; PeanoNat.Nat.lt_0_succ; BinInt.Z.lt_1_2; BinInt.Z.lt_1_l; BinInt.Z.lt_1_mul_pos; BinPos.Pos.lt_1_succ; ConstructiveReals.lt_CR_of_Q; RIneq.lt_IZR; BinInt.Z.lt_add_lt_sub_r; BinInt.Z.lt_add_pos_l; BinInt.Z.lt_add_pos_r; BinPos.Pos.lt_add_r; BinNat.N.lt_asymm; PeanoNat.Nat.lt_asymm; BinInt.Z.lt_asymm; BinNat.N.Private_OrderTac.IsTotal.lt_compat; PeanoNat.Nat.Private_OrderTac.IsTotal.lt_compat; BinInt.Z.Private_OrderTac.IsTotal.lt_compat; BinNat.N.lt_compat; PeanoNat.Nat.lt_compat; BinPos.Pos.lt_compat; Qminmax.Q.OT.lt_compat; BinInt.Z.lt_compat; BinPos.Pos.Private_Tac.lt_eq; Qminmax.Q.Private_Tac.lt_eq; BinInt.Z.Private_Tac.lt_eq; BinNat.N.Private_OrderTac.Tac.lt_eq; PeanoNat.Nat.Private_OrderTac.Tac.lt_eq; BinInt.Z.Private_OrderTac.Tac.lt_eq; BinNat.N.lt_eq_cases; PeanoNat.Nat.lt_eq_cases; BinPos.Pos.lt_eq_cases; BinInt.Z.lt_eq_cases; BinNat.N.lt_exists_pred; PeanoNat.Nat.lt_exists_pred; BinInt.Z.lt_exists_pred; BinInt.Z.lt_ge_cases; BinPos.Pos.lt_gt; BinInt.Z.lt_gt; BinInt.Z.lt_gt_cases; BinPos.Pos.lt_iff_add; BinNat.N.lt_ind; BinInt.Z.lt_ind; BinNat.N.lt_ind_rel; ConstructiveCauchyReals.lt_inject_Q; BinNat.N.lt_irrefl; PeanoNat.Nat.lt_irrefl; BinPos.Pos.lt_irrefl; PeanoNat.Nat.Private_Tac.lt_irrefl; BinPos.Pos.Private_Tac.lt_irrefl; Qminmax.Q.Private_Tac.lt_irrefl; BinInt.Z.Private_Tac.lt_irrefl; BinNat.N.Private_OrderTac.Tac.lt_irrefl; PeanoNat.Nat.Private_OrderTac.Tac.lt_irrefl; BinInt.Z.Private_OrderTac.Tac.lt_irrefl; BinInt.Z.lt_irrefl; ZMicromega.lt_le_iff; BinNat.N.lt_le_incl; PeanoNat.Nat.lt_le_incl; BinInt.Z.lt_le_incl; BinInt.Z.lt_le_pred; PeanoNat.Nat.lt_le_trans; BinPos.Pos.lt_le_trans; BinInt.Z.lt_le_trans; BinNat.N.lt_lt_succ_r; PeanoNat.Nat.lt_lt_succ_r; BinInt.Z.lt_lt_succ_r; BinInt.Z.lt_neq; BinInt.Z.lt_nge; BinPos.Pos.lt_nle; BinPos.Pos.lt_not_add_l; BinNat.N.Private_OrderTac.IsTotal.lt_strorder; PeanoNat.Nat.Private_OrderTac.IsTotal.lt_strorder; BinInt.Z.Private_OrderTac.IsTotal.lt_strorder; BinNat.N.lt_strorder; PeanoNat.Nat.lt_strorder; BinPos.Pos.lt_strorder; Qminmax.Q.OT.lt_strorder; BinInt.Z.lt_strorder; BinInt.Z.lt_sub_lt_add_r; BinNat.N.lt_succ_diag_r; PeanoNat.Nat.lt_succ_diag_r; BinPos.Pos.lt_succ_diag_r; BinInt.Z.lt_succ_diag_r; BinNat.N.lt_succ_l; BinInt.Z.lt_succ_l; BinNat.N.lt_succ_r; PeanoNat.Nat.lt_succ_r; BinPos.Pos.lt_succ_r; BinInt.Z.lt_succ_r; BinNat.N.Private_OrderTac.IsTotal.lt_total; PeanoNat.Nat.Private_OrderTac.IsTotal.lt_total; BinInt.Z.Private_OrderTac.IsTotal.lt_total; BinNat.N.lt_total; PeanoNat.Nat.lt_total; Qminmax.Q.OT.lt_total; BinPos.Pos.lt_total; BinInt.Z.lt_total; BinNat.N.lt_trans; PeanoNat.Nat.lt_trans; BinPos.Pos.lt_trans; PeanoNat.Nat.Private_Tac.lt_trans; BinPos.Pos.Private_Tac.lt_trans; BinInt.Z.Private_Tac.lt_trans; BinNat.N.Private_OrderTac.Tac.lt_trans; PeanoNat.Nat.Private_OrderTac.Tac.lt_trans; BinInt.Z.Private_OrderTac.Tac.lt_trans; BinInt.Z.lt_trans; BinNat.N.lt_trichotomy; PeanoNat.Nat.lt_trichotomy; BinInt.Z.lt_trichotomy; BinNat.N.lt_wd; PeanoNat.Nat.lt_wd; BinInt.Z.lt_wd; PeanoNat.Nat.lt_wd_obligation_1; BinNat.N.lt_wf; PeanoNat.Nat.lt_wf; BinInt.Z.lt_wf; BinInt.Z.ltb; BinInt.Z.ltb_ge; BinInt.Z.ltb_lt; BinInt.Z.ltb_nlt; BinInt.Z.ltb_spec; BinInt.Z.ltb_spec0; Wf_nat.ltof; ZMicromega.ltof_bdepth_split_l; ZMicromega.ltof_bdepth_split_r; ZMicromega.makeCuttingPlane; ZMicromega.makeCuttingPlane_ns_sound; Refl.make_conj; Refl.make_conj_app; Refl.make_conj_cons; Refl.make_conj_impl; Refl.make_conj_in; Refl.make_conj_rapp; Refl.make_impl; Refl.make_impl_map; ListDef.map; RingMicromega.map_Formula; RingMicromega.map_PExpr; Tauto.map_bformula; RingMicromega.map_option; RingMicromega.map_option2; BinPos.Pos.mask2cmp; Nat.max; BinNat.N.max; BinPos.Pos.max; BinInt.Z.max; BinPos.Pos.max_1_l; BinInt.Z.max_case; BinPos.Pos.max_case_strong; BinPos.Pos.Private_Dec.max_case_strong; BinInt.Z.Private_Dec.max_case_strong; BinInt.Z.max_case_strong; BinInt.Z.max_comm; max_l; PeanoNat.Nat.max_l; BinPos.Pos.max_l; BinInt.Z.max_l; BinPos.Pos.max_le_compat_r; BinPos.Pos.max_lub_iff; BinPos.Pos.max_mono; BinPos.Pos.max_monotone; max_r; PeanoNat.Nat.max_r; BinPos.Pos.max_r; BinInt.Z.max_r; PeanoNat.Nat.max_spec; BinPos.Pos.max_spec; BinInt.Z.max_spec; ZMicromega.max_var; ZMicromega.max_var_acc; ZMicromega.max_var_nformulae; ZMicromega.max_var_nformulae_mono_aux; ZMicromega.max_var_nformulae_mono_aux'; RingMicromega.micomega_sor_setoid; RingMicromega.micomega_sor_setoid_Reflexive; RingMicromega.micomega_sor_setoid_Symmetric; RingMicromega.micomega_sor_setoid_Transitive; BinInt.Z.min; BinInt.Z.Private_Dec.min_case; BinInt.Z.Private_Dec.min_case_strong; BinInt.Z.Private_Dec.min_dec; BinInt.Z.min_dec; BinInt.Z.min_l; BinInt.Z.min_r; BinInt.Z.min_spec; RIneq.minus_IPR; RIneq.minus_IZR; Ranalysis1.minus_fct; EnvRing.mkPX; Ring_polynom.mkPX; Ring_polynom.mkPX_ext; EnvRing.mkPX_ok; Ring_polynom.mkPX_ok; EnvRing.mkPinj; Ring_polynom.mkPinj; Ring_polynom.mkPinj_ext; EnvRing.mkPinj_ok; Ring_polynom.mkPinj_ok; EnvRing.mkPinj_pred; Ring_polynom.mkPinj_pred; Ring_polynom.mkVmon; Ring_polynom.mkVmon_ok; EnvRing.mkX; Ring_polynom.mkX; EnvRing.mkX_ok; Ring_polynom.mkX_ok; EnvRing.mkXi; Ring_polynom.mkXi; Ring_polynom.mkZmon; Ring_polynom.mkZmon_ok; EnvRing.mk_X; Ring_polynom.mk_X; Tauto.mk_and; ZMicromega.mk_eq_pos; Tauto.mk_iff; Tauto.mk_iff_is_bool; Tauto.mk_impl; Ring_polynom.mk_monpol_list; Tauto.mk_or; Ring_polynom.mkadd_mult; Ring_polynom.mkadd_mult_ok; ZifyClasses.mkapp; ZifyClasses.mkapp2; Ring_polynom.mkmult1; Ring_polynom.mkmult1_ok; Ring_polynom.mkmult_c; Ring_polynom.mkmult_c_ok; Ring_polynom.mkmult_c_pos; Ring_polynom.mkmult_c_pos_ok; Ring_polynom.mkmult_pow; Ring_polynom.mkmult_pow_ok; Ring_polynom.mkmult_rec; Ring_polynom.mkmult_rec_ok; Ring_polynom.mkmultm1; Ring_polynom.mkmultm1_ok; Ring_polynom.mkopp_pow; Ring_polynom.mkopp_pow_ok; Ring_polynom.mkpow; Ring_polynom.mkpow_ok; ZifyClasses.mkrel; BinInt.Z.mod_eq; BinInt.Z.mod_mul; BinInt.Z.mod_neg_bound; BinInt.Z.mod_pos_bound; BinInt.Z.modulo; Ring_polynom.mon_of_pol; Ring_polynom.mon_of_pol_ok; Ring_theory.morph0; Ring_theory.morph1; Ring_theory.morph_add; Ring_theory.morph_eq; Ring_theory.morph_mul; Ring_theory.morph_opp; Ring_theory.morph_sub; Nat.mul; BinNat.N.mul; PosDef.Pos.mul; BinInt.Z.mul; BinNat.N.mul_0_l; BinInt.Z.mul_0_l; BinNat.N.mul_0_r; BinInt.Z.Private_BootStrap.mul_0_r; BinInt.Z.mul_0_r; BinPos.Pos.mul_1_l; BinInt.Z.Private_BootStrap.mul_1_l; BinInt.Z.mul_1_l; BinPos.Pos.mul_1_r; BinInt.Z.mul_1_r; BinPos.Pos.mul_add_distr_l; BinInt.Z.mul_add_distr_l; BinInt.Z.Private_BootStrap.mul_add_distr_pos; BinPos.Pos.mul_add_distr_r; BinInt.Z.Private_BootStrap.mul_add_distr_r; BinInt.Z.mul_add_distr_r; BinPos.Pos.mul_assoc; BinInt.Z.mul_assoc; BinInt.Z.mul_cancel_l; BinInt.Z.mul_cancel_r; BinNat.N.mul_comm; BinPos.Pos.mul_comm; BinInt.Z.mul_comm; BinPos.Pos.mul_compare_mono_l; BinPos.Pos.mul_compare_mono_r; BinInt.Z.mul_div_le; Rlimit.mul_factor; Rlimit.mul_factor_gt; Rlimit.mul_factor_gt_f; Rlimit.mul_factor_wd; BinInt.Z.mul_id_l; BinPos.Pos.mul_le_mono_l; BinInt.Z.mul_le_mono_nonneg; BinInt.Z.mul_le_mono_nonneg_l; BinInt.Z.mul_le_mono_nonneg_r; BinInt.Z.mul_le_mono_nonpos_l; BinInt.Z.mul_le_mono_nonpos_r; BinInt.Z.mul_le_mono_pos_l; BinInt.Z.mul_le_mono_pos_r; BinPos.Pos.mul_lt_mono_l; BinInt.Z.mul_lt_mono_neg_l; BinInt.Z.mul_lt_mono_neg_r; BinInt.Z.mul_lt_mono_nonneg; BinInt.Z.mul_lt_mono_pos_l; BinInt.Z.mul_lt_mono_pos_r; BinPos.Pos.mul_lt_mono_r; BinInt.Z.mul_lt_pred; BinInt.Z.mul_neg_neg; BinInt.Z.mul_neg_pos; BinInt.Z.mul_nonneg_nonneg; BinInt.Z.mul_nonneg_nonpos; BinInt.Z.mul_opp_comm; BinInt.Z.mul_opp_l; BinInt.Z.mul_opp_opp; BinInt.Z.Private_BootStrap.mul_opp_r; BinInt.Z.mul_opp_r; BinInt.Z.mul_pos_cancel_l; BinInt.Z.mul_pos_neg; BinInt.Z.mul_pos_pos; BinInt.Z.mul_reg_r; BinInt.Z.mul_shuffle0; BinInt.Z.mul_shuffle1; BinPos.Pos.mul_sub_distr_l; BinPos.Pos.mul_sub_distr_r; BinNat.N.mul_succ_l; BinPos.Pos.mul_succ_l; BinInt.Z.mul_succ_l; BinNat.N.mul_succ_r; BinPos.Pos.mul_succ_r; BinInt.Z.mul_succ_r; BinNat.N.mul_wd; BinInt.Z.mul_wd; BinPos.Pos.mul_xI_r; BinPos.Pos.mul_xO_r; RIneq.mult_IPR; RIneq.mult_IZR; Ring_polynom.mult_dev; Ring_polynom.mult_dev_ok; Ranalysis1.mult_fct; ZMicromega.narrow_interval_lower_bound; Znat.nat_N_Z; Compare_dec.nat_compare_ge; Compare_dec.nat_compare_le; nat_ind; RIneq.neg; BinInt.Pos2Z.neg_is_neg; ZMicromega.negate; ZMicromega.negate_correct; negb; Bool.negb_false_iff; Bool.negb_true_iff; Rtopology.neighbourhood; PeanoNat.Nat.neq_0_lt_0; RelationClasses.neq_Symmetric; BinPos.Pos.Private_Tac.neq_eq; BinInt.Z.Private_OrderTac.Tac.neq_eq; BinNat.N.neq_succ_0; PeanoNat.Nat.neq_succ_0; BinNat.N.neq_succ_diag_l; PeanoNat.Nat.neq_succ_diag_l; BinInt.Z.neq_succ_diag_l; BinInt.Z.Private_OrderTac.Tac.neq_sym; BinInt.Z.neq_sym; ZMicromega.nformula_of_cutting_plane; RingMicromega.nformula_plus_nformula; RingMicromega.nformula_plus_nformula_correct; RingMicromega.nformula_times_nformula; RingMicromega.nformula_times_nformula_correct; BinInt.Z.nle_gt; BinNat.N.nle_succ_diag_l; PeanoNat.Nat.nle_succ_diag_l; BinInt.Z.nle_succ_diag_l; PeanoNat.Nat.nlt_0_r; BinPos.Pos.nlt_1_r; BinInt.Z.nlt_ge; BinNat.N.nlt_succ_diag_l; PeanoNat.Nat.nlt_succ_diag_l; BinInt.Z.nlt_succ_diag_l; Ranalysis1.no_cond; RingMicromega.norm; ZMicromega.normZ; EnvRing.norm_aux; Ring_polynom.norm_aux; EnvRing.norm_aux_PEadd; Ring_polynom.norm_aux_PEadd; EnvRing.norm_aux_PEopp; Ring_polynom.norm_aux_PEopp; EnvRing.norm_aux_spec; Ring_polynom.norm_aux_spec; Ring_polynom.norm_subst; Ring_polynom.norm_subst_ok; Ring_polynom.norm_subst_spec; RingMicromega.normalise; ZMicromega.normalise; ZMicromega.normalise_correct; RingMicromega.normalise_sound; not; RIneq.not_0_IZR; ZArith_dec.not_Zeq_inf; Classical_Pred_Type.not_all_ex_not; Classical_Pred_Type.not_all_not_ex; Classical_Prop.not_and_or; not_eq_sym; Classical_Pred_Type.not_ex_all_not; BinPos.Pos.Private_Tac.not_ge_lt; BinNat.N.Private_OrderTac.Tac.not_ge_lt; PeanoNat.Nat.Private_OrderTac.Tac.not_ge_lt; BinInt.Z.Private_OrderTac.Tac.not_ge_lt; PeanoNat.Nat.Private_Tac.not_gt_le; BinPos.Pos.Private_Tac.not_gt_le; Qminmax.Q.Private_Tac.not_gt_le; BinInt.Z.Private_Tac.not_gt_le; BinNat.N.Private_OrderTac.Tac.not_gt_le; PeanoNat.Nat.Private_OrderTac.Tac.not_gt_le; BinInt.Z.Private_OrderTac.Tac.not_gt_le; Morphisms_Prop.not_iff_morphism; Morphisms_Prop.not_iff_morphism_obligation_1; Classical_Prop.not_imply_elim; Classical_Prop.not_imply_elim2; BinPos.Pos.Private_Tac.not_neq_eq; BinInt.Z.Private_OrderTac.Tac.not_neq_eq; Bool.not_true_iff_false; BinList.nth; Env.nth; ListDef.nth; List.nth_in_or_default; BinList.nth_jump; Env.nth_jump; BinList.nth_pred_double; Env.nth_pred_double; Env.nth_spec; Field_theory.num; BinInt.Z.of_N; BinNat.N.of_nat; BinPos.Pos.of_nat; BinInt.Z.of_nat; BinPos.Pos.of_nat_succ; PosDef.Pos.of_succ_nat; BinInt.Z.one_succ; Rtopology.open_set; Rtopology.open_set_P1; Rtopology.open_set_P4; Rtopology.open_set_P6; BinInt.Z.opp; BinInt.Z.opp_0; RIneq.opp_IZR; BinInt.Z.Private_BootStrap.opp_add_distr; BinInt.Z.opp_add_distr; Ranalysis1.opp_fct; BinInt.Z.Private_BootStrap.opp_inj; BinInt.Z.opp_inj; BinInt.Z.opp_inj_wd; ConstructiveCauchyReals.opp_inject_Q; BinInt.Z.opp_involutive; BinInt.Z.opp_le_mono; BinInt.Z.opp_lt_mono; BinInt.Z.opp_nonneg_nonpos; BinInt.Z.opp_nonpos_nonneg; BinInt.Pos2Z.opp_pos; BinInt.Z.opp_pos_neg; BinInt.Z.opp_pred; BinInt.Z.opp_sub_distr; BinInt.Z.opp_succ; BinInt.Z.opp_wd; or_cancel_r; Tauto.or_clause; Tauto.or_clause_cnf; Tauto.or_clause_cnf_correct; Tauto.or_clause_correct; Tauto.or_cnf; Tauto.or_cnf_correct; Tauto.or_cnf_opt; Tauto.or_cnf_opt_cnf_ff; Tauto.or_cnf_opt_cnf_ff_r; Tauto.or_cnf_opt_correct; or_comm; or_iff_compat_r; Morphisms_Prop.or_iff_morphism; Morphisms_Prop.or_iff_morphism_obligation_1; or_ind; orb; Bool.orb_comm; Bool.orb_true_iff; BinInt.Z.order_induction; BinInt.Z.order_induction_0; RingMicromega.padd; ZMicromega.padd; BinPos.Pos.peano_ind; BinInt.Z.peano_ind; BinNat.N.peano_rect; BinPos.Pos.peano_rect; Morphisms.per_partial_app_morphism; Morphisms.per_partial_app_morphism_obligation_1; RingMicromega.pexpr_times_nformula; RingMicromega.pexpr_times_nformula_correct; Ring_theory.phi_ext1_Proper; RIneq.plus_IPR; RIneq.plus_IZR; RIneq.plus_IZR_NEG_POS; plus_Sn_m; plus_n_O; plus_n_Sm; Rtopology.point_adherent; Morphisms.pointwise_relation; QMicromega.pop2_bop2; RMicromega.pop2_bop2; ZMicromega.pop2_bop2; RingMicromega.popp; ZMicromega.popp; RIneq.pos; NatDef.N.pos_div_eucl; BinInt.Z.pos_div_eucl; BinInt.Z.pos_div_eucl_bound; BinInt.Z.pos_div_eucl_eq; BinNat.N.pos_div_eucl_spec; BinInt.Pos2Z.pos_is_pos; BinInt.Pos2Z.pos_le_pos; BinInt.Z.pos_sub; BinInt.Z.Private_BootStrap.pos_sub_add; BinInt.Z.pos_sub_diag; BinInt.Z.pos_sub_discr; BinInt.Z.pos_sub_gt; BinInt.Z.pos_sub_lt; BinInt.Z.pos_sub_opp; BinInt.Z.pos_sub_spec; Znat.positive_N_nat; BinNums.positive_ind; Znat.positive_nat_Z; BinNums.positive_rec; BinNums.positive_rect; Rpow_def.pow; BinPos.Pos.pow; BinInt.Z.pow; BinInt.Z.pow_0_r; BinInt.Z.pow_1_l; BinPos.Pos.pow_1_r; BinInt.Z.pow_1_r; Ring_theory.pow_N; Field_theory.pow_N_ext; Ring_theory.pow_N_pow_N; Ring_theory.pow_N_th; BinInt.Z.pow_add_r; Field_theory.pow_ext; BinInt.Z.pow_gt_1; BinInt.Z.pow_le_mono_r; BinInt.Z.pow_lt_mono_l; BinInt.Z.pow_lt_mono_r; BinInt.Z.pow_neg_r; BinInt.Z.pow_nonneg; Ring_theory.pow_pos; BinInt.Z.pow_pos; Field_theory.pow_pos_0; Field_theory.pow_pos_1; EnvRing.pow_pos_add; Ring_polynom.pow_pos_add; Ring_theory.pow_pos_add; Field_theory.pow_pos_add_r; Field_theory.pow_pos_cst; Field_theory.pow_pos_div; Field_theory.pow_pos_mul_l; Field_theory.pow_pos_mul_r; BinInt.Z.pow_pos_nonneg; Field_theory.pow_pos_nz; Ring_theory.pow_pos_succ; Ring_theory.pow_pos_swap; BinPos.Pos.pow_succ_r; BinInt.Z.pow_succ_r; BinInt.Z.pow_twice_r; BinInt.Z.pow_wd; Rfunctions.powerRZ; Ranalysis1.pr_nu; Ranalysis4.pr_nu_var; PeanoNat.Nat.pred; BinNat.N.pred; BinPos.Pos.pred; BinInt.Z.pred; BinNat.N.pred_0; PeanoNat.Nat.pred_0; PosDef.Pos.pred_N; BinPos.Pos.pred_N_succ; PosDef.Pos.pred_double; BinInt.Z.pred_double; BinPos.Pos.pred_double_succ; BinInt.Z.pred_inj; BinInt.Z.pred_inj_wd; BinPos.Pos.pred_mask; BinNat.N.pred_succ; PeanoNat.Nat.pred_succ; BinInt.Z.pred_succ; BinNat.N.pred_wd; PeanoNat.Nat.pred_wd; BinInt.Z.pred_wd; PeanoNat.Nat.pred_wd_obligation_1; prod_ind; prod_rect; proj1; proj1_sig; proj2; proj2_sig; Rtopology.prolongement_C0; Rlimit.prop_eps; Morphisms.proper_prf; Morphisms.proper_sym_impl_iff; RingMicromega.psub; ZMicromega.psub; RingMicromega.psubC; QMicromega.qdeduce; QMicromega.qunsat; BinInt.Z.quotrem; BinInt.Z.quotrem_eq; Ring_polynom.r_list_pow; Ring_polynom.r_list_pow_rev; Field_theory.radd_ext; Ring_theory.radd_ext2_Proper; InitialRing.radd_ext3_Proper; InitialRing.radd_ext4_Proper; EnvRing.radd_ext_Proper; Field_theory.radd_ext_Proper; InitialRing.radd_ext_Proper; Ring_polynom.radd_ext_Proper; RMicromega.rdeduce; Field_theory.rdiv1; Field_theory.rdiv2b; Field_theory.rdiv3b; Field_theory.rdiv4; Field_theory.rdiv4b; Field_theory.rdiv5; Field_theory.rdiv6; Field_theory.rdiv7; Field_theory.rdiv7b; Field_theory.rdiv_ext; Field_theory.rdiv_r_r; Field_theory.rdiv_simpl; Morphisms.reflexive_eq_dom_reflexive; Morphisms.reflexive_proper; CMorphisms.reflexive_proper_proxy; Morphisms.reflexive_proper_proxy; Morphisms.reflexive_reflexive_proxy; RelationClasses.reflexivity; ConstructiveEpsilon.rel_ls_ind; ConstructiveEpsilon.rel_ls_post; Relation_Definitions.relation; CMorphisms.respectful; Morphisms.respectful; Rtopology.restriction_family; List.rev'; List.rev_append; ZifyClasses.rew_iff; ZifyClasses.rew_iff_rev; Morphisms.rewrite_relation_eq_dom; BinNat.N.right_induction; PeanoNat.Nat.right_induction; BinInt.Z.right_induction; Ring_polynom.ring_correct; Ring_polynom.ring_rw_correct; Ring_polynom.ring_rw_pow_correct; Ring_tac.ring_subst_niter; Field_theory.rinv_ext_Proper; OrderedRing.rle_morph_Proper; RingMicromega.rle_morph_Proper; OrderedRing.rlt_morph_Proper; RingMicromega.rlt_morph_Proper; OrderedRing.rminus_morph; OrderedRing.rminus_morph_Proper; RingMicromega.rminus_morph_Proper; Field_theory.rmul_ext; Ring_theory.rmul_ext2_Proper; InitialRing.rmul_ext3_Proper; InitialRing.rmul_ext4_Proper; EnvRing.rmul_ext_Proper; Field_theory.rmul_ext_Proper; InitialRing.rmul_ext_Proper; Ring_polynom.rmul_ext_Proper; Field_theory.rmul_reg_l; Ring_theory.ropp_ext2_Proper; InitialRing.ropp_ext3_Proper; EnvRing.ropp_ext_Proper; Field_theory.ropp_ext_Proper; Ring_polynom.ropp_ext_Proper; OrderedRing.ropp_morph_Proper; RingMicromega.ropp_morph_Proper; Field_theory.ropp_neq_0; OrderedRing.rplus_morph_Proper; RingMicromega.rplus_morph_Proper; Ring_theory.rpow_pow_N; Field_theory.rsplit_common; Field_theory.rsplit_left; Field_theory.rsplit_right; Field_theory.rsub_0_l; Field_theory.rsub_0_r; EnvRing.rsub_ext_Proper; Field_theory.rsub_ext_Proper; Ring_polynom.rsub_ext_Proper; OrderedRing.rtimes_morph_Proper; RingMicromega.rtimes_morph_Proper; Tauto.rtyp; RMicromega.runsat; InitialRing.same_gen; InitialRing.same_genN; InitialRing.same_genZ; ConstructiveCauchyReals.scale; ConstructiveCauchyReals.seq; ConstructiveRcomplete.seq_cv; BinInt.Z.sgn; ClassicalDedekindReals.sig_forall_dec; ConstructiveLUB.sig_forall_dec_T; sig_ind; ConstructiveLUB.sig_lub; ClassicalDedekindReals.sig_not_dec; ConstructiveLUB.sig_not_dec_T; sig_rec; sig_rect; Ring_theory.sign_spec; Rlimit.single_limit; BinPos.Pos.size_nat; BinPos.Pos.size_nat_monotone; snd; OrderedRing.sor_setoid; OrderedRing.sor_setoid_Reflexive; OrderedRing.sor_setoid_Symmetric; OrderedRing.sor_setoid_Transitive; Field_theory.split; Field_theory.split_aux; Field_theory.split_aux_ok; Field_theory.split_aux_ok1; Field_theory.split_nz_l; Field_theory.split_nz_r; Field_theory.split_ok_l; Field_theory.split_ok_r; BinInt.Z.strong_left_induction; BinNat.N.strong_right_induction; PeanoNat.Nat.strong_right_induction; BinInt.Z.strong_right_induction; NatDef.N.sub; BinPos.Pos.sub; BinInt.Z.sub; BinInt.Z.sub_0_l; BinNat.N.sub_0_r; BinInt.Z.sub_0_r; BinInt.Z.sub_1_r; BinNat.N.sub_add; BinPos.Pos.sub_add; BinPos.Pos.sub_add_distr; BinInt.Z.sub_cancel_r; BinPos.Pos.sub_decr; BinNat.N.sub_diag; BinInt.Z.sub_diag; BinNat.N.sub_gt; BinInt.Z.sub_le_mono_r; BinInt.Z.sub_lt_mono_r; BinPos.Pos.sub_mask; BinPos.Pos.sub_mask_add; BinPos.Pos.sub_mask_add_diag_l; BinPos.Pos.sub_mask_add_diag_r; BinPos.Pos.sub_mask_carry; BinPos.Pos.sub_mask_carry_spec; BinPos.Pos.sub_mask_diag; BinPos.Pos.sub_mask_neg_iff; BinPos.Pos.sub_mask_nul_iff; BinPos.Pos.sub_mask_pos; BinPos.Pos.sub_mask_pos'; BinPos.Pos.sub_mask_pos_iff; BinPos.Pos.sub_mask_spec; BinPos.Pos.sub_mask_succ_r; BinInt.Z.sub_move_0_r; BinInt.Z.sub_move_r; BinInt.Z.sub_opp_l; BinInt.Z.sub_opp_r; BinInt.Z.sub_simpl_r; BinPos.Pos.sub_sub_distr; BinInt.Z.sub_sub_distr; BinNat.N.sub_succ; BinInt.Z.sub_succ_l; BinNat.N.sub_succ_r; BinInt.Z.sub_succ_r; BinNat.N.sub_wd; BinInt.Z.sub_wd; BinPos.Pos.sub_xI_xI; BinPos.Pos.sub_xI_xO; BinPos.Pos.sub_xO_xI; BinPos.Pos.sub_xO_xO; Rtopology.subfamily; CRelationClasses.subrelation; RelationClasses.subrelation; CMorphisms.subrelation_proper; Morphisms.subrelation_proper; CMorphisms.subrelation_refl; Morphisms.subrelation_refl; CMorphisms.subrelation_respectful; Morphisms.subrelation_respectful; BinNat.N.succ; PosDef.Pos.succ; BinInt.Z.succ; RIneq.succ_IPR; BinPos.Pos.succ_discr; NatDef.N.succ_double; BinInt.Z.succ_double; BinNat.N.succ_double_add; BinPos.Pos.succ_double_mask; BinNat.N.succ_double_mul; BinInt.Z.succ_double_spec; BinNat.N.succ_inj; PeanoNat.Nat.succ_inj; BinPos.Pos.succ_inj; BinInt.Z.succ_inj; BinNat.N.succ_inj_wd; PeanoNat.Nat.succ_inj_wd; BinInt.Z.succ_inj_wd; PeanoNat.Nat.succ_le_mono; BinInt.Z.succ_le_mono; PeanoNat.Nat.succ_lt_mono; BinPos.Pos.succ_lt_mono; BinInt.Z.succ_lt_mono; BinPos.Pos.succ_not_1; BinInt.Z.succ_pred; BinPos.Pos.succ_pred_double; BinPos.Pos.succ_pred_or; BinNat.N.succ_wd; PeanoNat.Nat.succ_wd; BinInt.Z.succ_wd; PeanoNat.Nat.succ_wd_obligation_1; sumbool_rec; sumbool_rect; RMicromega.sumboolb; BinPos.Pos.switch_Eq; CRelationClasses.symmetry; RelationClasses.symmetry; Env.tail; Tauto.tauto_checker; Tauto.tauto_checker_sound; List.tl; BinInt.Z.to_N; BinNat.N.to_nat; BinPos.Pos.to_nat; BinInt.Z.to_nat; BinInt.Z.to_pos; Rdefinitions.total_order_T; PeanoNat.Nat.Private_Tac.trans; BinPos.Pos.Private_Tac.trans; Qminmax.Q.Private_Tac.trans; BinInt.Z.Private_Tac.trans; BinNat.N.Private_OrderTac.Tac.trans; PeanoNat.Nat.Private_OrderTac.Tac.trans; BinInt.Z.Private_OrderTac.Tac.trans; Morphisms.trans_co_eq_inv_impl_morphism; Morphisms.trans_co_eq_inv_impl_morphism_obligation_1; Morphisms.trans_co_impl_morphism; Morphisms.trans_co_impl_morphism_obligation_1; CMorphisms.trans_contra_inv_impl_type_morphism; CMorphisms.trans_contra_inv_impl_type_morphism_obligation_1; OrdersTac.trans_ord; Morphisms.trans_sym_co_inv_impl_morphism; Morphisms.trans_sym_co_inv_impl_morphism_obligation_1; CRelationClasses.transitivity; RelationClasses.transitivity; InitialRing.triv_div; InitialRing.triv_div_th; BinInt.Z.two_succ; Ranalysis1.uniqueness_limite; Ranalysis1.uniqueness_step1; Ranalysis1.uniqueness_step2; Ranalysis1.uniqueness_step3; ZMicromega.valid_cut_sign; well_founded; well_founded_ind; well_founded_induction; well_founded_induction_type; Wf_nat.well_founded_ltof; BinPos.Pos.xI_succ_xO; Tauto.xcnf; Tauto.xcnf_correct; Tauto.xcnf_iff; Tauto.xcnf_impl; RingMicromega.xnegate; ZMicromega.xnegate; RingMicromega.xnegate_correct; ZMicromega.xnegate_correct; ZMicromega.xnnormalise; ZMicromega.xnnormalise_correct; RingMicromega.xnormalise; ZMicromega.xnormalise; RingMicromega.xnormalise_correct; ZMicromega.xnormalise_correct; Tauto.xor_clause_cnf; RMicromega.z_of_exp; Ring_polynom.zmon_pred; Ring_polynom.zmon_pred_ok; Acc; BoolSpec; ConstructiveCauchyReals.CReal; CompareSpec; CompareSpecT; ConstructiveReals.ConstructiveReals; ConstructiveLUB.DedekindDecCut; SetoidTactics.DefaultRelation; CRelationClasses.Equivalence; RelationClasses.Equivalence; Field_theory.FExpr; False; RingMicromega.Formula; Tauto.GFormula; ZifyClasses.InjTyp; Rlimit.Metric_Space; Ring_polynom.Mon; BinNums.N; RingMicromega.Op1; RingMicromega.Op2; RelationClasses.PER; EnvRing.PExpr; Ring_polynom.PExpr; EnvRing.Pol; Ring_polynom.Pol; RelationClasses.PreOrder; RingMicromega.Psatz; QArith_base.Q; RMicromega.Rcst; RelationClasses.RewriteRelation; OrderedRing.SOR; RingMicromega.SORaddon; RelationClasses.StrictOrder; BinPos.Pos.SubMaskSpec; True; BinNums.Z; ZMicromega.ZArithProof; ZMicromega.Zdivide_pol; Znumtheory.Zis_gcd; Field_theory.almost_field_theory; Ring_theory.almost_ring_theory; and; ConstructiveEpsilon.before_witness; bool; comparison; Ring_theory.div_theory; eq; ex; Rtopology.family; Field_theory.field_theory; Tauto.kind; le; Field_theory.linear; list; BinPos.Pos.mask; nat; RIneq.negreal; option; or; OrdersTac.ord; BinNums.positive; RIneq.posreal; Ring_theory.power_theory; prod; reflect; ConstructiveEpsilon.rel_ls; Ring_theory.ring_eq_ext; Ring_theory.ring_morph; Ring_theory.ring_theory; Field_theory.rsplit; Ring_theory.semi_morph; Ring_theory.semi_ring_theory; sig; sigT; Ring_theory.sign_theory; Ring_theory.sring_eq_ext; sum; sumbool; sumor; VarMap.t; unit; Acc_intro; BoolSpecT; ConstructiveCauchyReals.mkCReal; CompEq; CompEqT; ConstructiveReals.Build_ConstructiveReals; ConstructiveLUB.Build_DedekindDecCut; SetoidTactics.Build_DefaultRelation; CRelationClasses.Build_Equivalence; RelationClasses.Build_Equivalence; Field_theory.FEO; RingMicromega.Build_Formula; Tauto.TT; ZifyClasses.mkinj; Rlimit.Build_Metric_Space; Ring_polynom.mon0; BinNums.N0; RingMicromega.Equal; RingMicromega.OpEq; RelationClasses.Build_PER; EnvRing.PEc; Ring_polynom.PEO; EnvRing.Pc; Ring_polynom.Pc; RelationClasses.Build_PreOrder; RingMicromega.PsatzLet; QArith_base.Qmake; RMicromega.C0; RelationClasses.Build_RewriteRelation; OrderedRing.mk_SOR_theory; RingMicromega.mk_SOR_addon; RelationClasses.Build_StrictOrder; BinPos.Pos.SubIsNul; I; BinNums.Z0; ZMicromega.DoneProof; ZMicromega.Zdiv_Pc; Znumtheory.Zis_gcd_intro; Field_theory.mk_afield; Ring_theory.mk_art; conj; ConstructiveEpsilon.stop; true; Eq; Ring_theory.mkdiv_th; eq_refl; ex_intro; Rtopology.mkfamily; Field_theory.mk_field; Tauto.isProp; le_n; Field_theory.mk_linear; nil; BinPos.Pos.IsNul; O; RIneq.mknegreal; Some; or_introl; OrdersTac.OEQ; BinNums.xI; RIneq.mkposreal; Ring_theory.mkpow_th; pair; ReflectT; ConstructiveEpsilon.Rstop; Ring_theory.mk_reqe; Ring_theory.mkmorph; Ring_theory.mk_rt; Field_theory.mk_rsplit; Ring_theory.mkRmorph; Ring_theory.mk_srt; exist; existT; Ring_theory.mksign_th; Ring_theory.mk_seqe; inl; left; inleft; VarMap.Empty; tt; BoolSpecF; CompLt; CompLtT; Field_theory.FEI; Tauto.FF; Ring_polynom.zmon; BinNums.Npos; RingMicromega.NonEqual; RingMicromega.OpNEq; EnvRing.PEX; Ring_polynom.PEI; EnvRing.Pinj; Ring_polynom.Pinj; RingMicromega.PsatzIn; RMicromega.C1; BinPos.Pos.SubIsPos; BinNums.Zpos; ZMicromega.RatProof; ZMicromega.Zdiv_Pinj; ConstructiveEpsilon.next; false; Lt; Tauto.isBool; le_S; cons; BinPos.Pos.IsPos; S; None; or_intror; OrdersTac.OLT; BinNums.xO; ReflectF; ConstructiveEpsilon.Rnext; inr; right; inright; VarMap.Elt; CompGt; CompGtT; Field_theory.FEc; Tauto.X; Ring_polynom.vmon; RingMicromega.Strict; RingMicromega.OpLe; EnvRing.PEadd; Ring_polynom.PEc; EnvRing.PX; Ring_polynom.PX; RingMicromega.PsatzSquare; RMicromega.CQ; BinPos.Pos.SubIsNeg; BinNums.Zneg; ZMicromega.CutProof; ZMicromega.Zdiv_PX; Gt; BinPos.Pos.IsNeg; OrdersTac.OLE; BinNums.xH; VarMap.Branch; Field_theory.FEX; Tauto.A; RingMicromega.NonStrict; RingMicromega.OpGe; EnvRing.PEsub; Ring_polynom.PEX; RingMicromega.PsatzMulC; RMicromega.CZ; ZMicromega.SplitProof; Field_theory.FEadd; Tauto.AND; RingMicromega.OpLt; EnvRing.PEmul; Ring_polynom.PEadd; RingMicromega.PsatzMulE; RMicromega.CPlus; ZMicromega.EnumProof; Field_theory.FEsub; Tauto.OR; RingMicromega.OpGt; EnvRing.PEopp; Ring_polynom.PEsub; RingMicromega.PsatzAdd; RMicromega.CMinus; ZMicromega.ExProof; Field_theory.FEmul; Tauto.NOT; EnvRing.PEpow; Ring_polynom.PEmul; RingMicromega.PsatzC; RMicromega.CMult; Field_theory.FEopp; Tauto.IMPL; Ring_polynom.PEopp; RingMicromega.PsatzZ; RMicromega.CPow; Field_theory.FEinv; Tauto.IFF; Ring_polynom.PEpow; RMicromega.CInv; Field_theory.FEdiv; Tauto.EQ; RMicromega.COpp; Field_theory.FEpow; }} T = 1.405272 Query assignments: S = {{ Nat.add; eq; nat; O; }} T = prod `x` (global (indt «nat»)) c0 \ app [global (indt «eq»), X0 c0, app [global (const «Nat.add»), c0, global (indc «O»)], c0] X10_ = c0 \ X0 c0 Syntactic constraints: {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0) (X1 c0) (X0 c0) /* suspended on X0 */ {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X2 c0) (sort (typ «elpi_tests_stdlib.test_API_env.69»)) (X1 c0) /* suspended on X2, X1 */ Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_API_env.69} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α15 WEAK CONSTRAINTS: Query assignments: Decl = record Rec (sort (typ «elpi_tests_stdlib.test_API_env.70»)) BuildRec (field [] f (sort (typ «elpi_tests_stdlib.test_API_env.71»)) c0 \ end-record) X11_ = «elpi_tests_stdlib.test_API_env.70» X12_ = «elpi_tests_stdlib.test_API_env.71» Universe constraints: UNIVERSES: {elpi_tests_stdlib.test_API_env.71 elpi_tests_stdlib.test_API_env.70} |= ALGEBRAIC UNIVERSES: {elpi_tests_stdlib.test_API_env.71 elpi_tests_stdlib.test_API_env.70} FLEXIBLE UNIVERSES: elpi_tests_stdlib.test_API_env.71 elpi_tests_stdlib.test_API_env.70 SORTS: WEAK CONSTRAINTS: Module Test := Struct Record Rec@{u u0} : Type@{u} := BuildRec { f : Type@{u0} }. (* u u0 |= u0 < u *) Definition f : Rec@{u u0} -> Type@{u0}. (* u u0 |= u0 < u *) End Test.f@{elpi_tests_stdlib.test_API_env.72 elpi_tests_stdlib.test_API_env.73} : Test.Rec@{elpi_tests_stdlib.test_API_env.72 elpi_tests_stdlib.test_API_env.73} -> Type@{elpi_tests_stdlib.test_API_env.73} (* {elpi_tests_stdlib.test_API_env.73 elpi_tests_stdlib.test_API_env.72} |= elpi_tests_stdlib.test_API_env.73 < elpi_tests_stdlib.test_API_env.72 *) Query assignments: LP = «Stdlib.ZArith.Znat» MP = «Stdlib.ZArith.Znat.MoreN2Z.N2Z» it = elpi_subproof : True it : True it is not universe polymorphic it is transparent Expands to: Constant elpi.tests.test_ltac.it Declared in library elpi.tests.test_ltac, line 49, characters 0-15 elpi_subproof = I : True elpi_subproof : True elpi_subproof is not universe polymorphic elpi_subproof is opaque Expands to: Constant elpi.tests.test_ltac.elpi_subproof Declared in library elpi.tests.test_ltac, line 49, characters 0-15 Closed under the global context (true && false)%bool : bool natmul R n : ringType_sort R : ringType_sort R natmul R n : ringType_sort R : ringType_sort R fun i : ord 1 => bump 1 i : ord 2 : ord 1 -> ord 2 normP : forall {T : Type} {e : T} {op : T -> T -> T} {gamma : list T} {t1 t2 : lang}, (forall a b c : T, op a (op b c) = op (op a b) c) -> (forall a : T, op e a = a) -> (forall a : T, op a e = a) -> norm t1 = norm t2 -> interp T e op gamma t1 = interp T e op gamma t2 normP is not universe polymorphic Arguments normP {T}%_type_scope {e} {op}%_function_scope {gamma}%_list_scope {t1 t2} (p1 p2 p3)%_function_scope H normP is transparent Expands to: Constant elpi_examples_stdlib.example_reflexive_tactic.normP Declared in library elpi_examples_stdlib.example_reflexive_tactic, line 145, characters 11-16 (fun x y z t : Z => normP Z.add_assoc Z.add_0_l Z.add_0_r (eq_refl <: norm (add (add (var 0) (var 1)) (add (add (var 2) zero) (var 3))) = norm (add (add (var 0) (add (var 1) (var 2))) (var 3)))) File "./examples-stdlib/example_reflexive_tactic.v", line 13, characters 8-13: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Arith" or the deprecated "From Coq Require Arith" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./examples-stdlib/example_reflexive_tactic.v", line 13, characters 14-20: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require ZArith" or the deprecated "From Coq Require ZArith" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./examples-stdlib/example_reflexive_tactic.v", line 13, characters 21-26: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Psatz" or the deprecated "From Coq Require Psatz" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./examples-stdlib/example_reflexive_tactic.v", line 13, characters 27-31: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require List" or the deprecated "From Coq Require List" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] test1 str hello str x test1 too many arguments [attribute elpi.loc (leaf-loc File "./tests/test_vernacular2.v", line 10, column 24, characters 326-329:), attribute elpi.phase (leaf-str interp), attribute fwd_compat_attr (leaf-str )] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular2.v", line 11, column 0, characters 331-354:), attribute elpi.phase (leaf-str interp), attribute fwd_compat_attr (leaf-str )] File "./tests/test_vernacular2.v", line 6, characters 2-17: Warning: This command does not support this attribute: fwd_compat_attr. [unsupported-attributes,parsing,default] File "./tests/test_vernacular2.v", line 7, characters 2-17: Warning: This command does not support this attribute: fwd_compat_attr. [unsupported-attributes,parsing,default] File "./tests/test_vernacular2.v", line 8, characters 2-17: Warning: This command does not support this attribute: fwd_compat_attr. [unsupported-attributes,parsing,default] File "./tests/test_vernacular2.v", line 9, characters 2-17: Warning: This command does not support this attribute: fwd_compat_attr. [unsupported-attributes,parsing,default] File "./tests/test_vernacular2.v", line 10, characters 2-17: Warning: This command does not support this attribute: fwd_compat_attr. [unsupported-attributes,parsing,default] 1 : nat File "./apps/derive/theories/derive/eq.v", line 14, characters 9-47: Warning: Coq.Numbers.Cyclic.Int63.PrimInt63.eqb has been replaced by Corelib.Numbers.Cyclic.Int63.PrimInt63.eqb. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] File "./apps/derive/theories/derive/eq.v", line 15, characters 9-33: Warning: Coq.Floats.PrimFloat.eqb has been replaced by Corelib.Floats.PrimFloat.eqb. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] [p 1, p 2, p 3, p 4, p 5, p 6, p 7, p 8, p 9, p 10, p 11, p 12, p 13, p 14, p 15, p 16, p 17, p 18, p 19, p 20, p 21, p 22, p 23, p 24, p 25, p 26, p 27, p 28, p 29, p 30, p 31, p 32, p 33, p 34, p 35, p 36, p 37, p 38, p 39, p 40, p 41, p 42, p 43, p 44, p 45, p 46, p 47, p 48, p 49, p 50, p 51, p 52, p 53, p 54, p 55, p 56, p 57, p 58, p 59, p 60, p 61, p 62, p 63, p 64, p 65, p 66, p 67, p 68, p 69, p 70, p 71, p 72, p 73, p 74, p 75, p 76, p 77, p 78, p 79, p 80, p 81, p 82, p 83, p 84, p 85, p 86, p 87, p 88, p 89, p 90, p 91, p 92, p 93, p 94, p 95, p 96, p 97, p 98, p 99, p 100, p 101, p 102, p 103, p 104, p 105, p 106, p 107, p 108, p 109, p 110, p 111, p 112, p 113, p 114, p 115, p 116, p 117, p 118, p 119, p 120, p 121, p 122, p 123, p 124, p 125, p 126, p 127, p 128, p 129, p 130, p 131, p 132, p 133, p 134, p 135, p 136, p 137, p 138, p 139, p 140, p 141, p 142, p 143, p 144, p 145, p 146, p 147, p 148, p 149, p 150, p 151, p 152, p 153, p 154, p 155, p 156, p 157, p 158, p 159, p 160, p 161, p 162, p 163, p 164, p 165, p 166, p 167, p 168, p 169, p 170, p 171, p 172, p 173, p 174, p 175, p 176, p 177, p 178, p 179, p 180, p 181, p 182, p 183, p 184, p 185, p 186, p 187, p 188, p 189, p 190, p 191, p 192, p 193, p 194, p 195, p 196, p 197, p 198, p 199, p 200, p 201, p 202, p 203, p 204, p 205, p 206, p 207, p 208, p 209, p 210, p 211, p 212, p 213, p 214, p 215, p 216, p 217, p 218, p 219, p 220, p 221, p 222, p 223, p 224, p 225, p 226, p 227, p 228, p 229, p 230, p 231, p 232, p 233, p 234, p 235, p 236, p 237, p 238, p 239, p 240, p 241, p 242, p 243, p 244, p 245, p 246, p 247, p 248, p 249, p 250, p 251, p 252, p 253, p 254, p 255, p 256, p 257, p 258, p 259, p 260, p 261, p 262, p 263, p 264, p 265, p 266, p 267, p 268, p 269, p 270, p 271, p 272, p 273, p 274, p 275, p 276, p 277, p 278, p 279, p 280, p 281, p 282, p 283, p 284, p 285, p 286, p 287, p 288, p 289, p 290, p 291, p 292, p 293, p 294, p 295, p 296, p 297, p 298, p 299, p 300, p 301, p 302, p 303, p 304, p 305, p 306, p 307, p 308, p 309, p 310, p 311, p 312, p 313, p 314, p 315, p 316, p 317, p 318, p 319, p 320, p 321, p 322, p 323, p 324, p 325, p 326, p 327, p 328, p 329, p 330, p 331, p 332, p 333, p 334, p 335, p 336, p 337, p 338, p 339, p 340, p 341, p 342, p 343, p 344, p 345, p 346, p 347, p 348, p 349, p 350, p 351, p 352, p 353, p 354, p 355, p 356, p 357, p 358, p 359, p 360, p 361, p 362, p 363, p 364, p 365, p 366, p 367, p 368, p 369, p 370, p 371, p 372, p 373, p 374, p 375, p 376, p 377, p 378, p 379, p 380, p 381, p 382, p 383, p 384, p 385, p 386, p 387, p 388, p 389, p 390, p 391, p 392, p 393, p 394, p 395, p 396, p 397, p 398, p 399, p 400, p 401, p 402, p 403, p 404, p 405, p 406, p 407, p 408, p 409, p 410, p 411, p 412, p 413, p 414, p 415, p 416, p 417, p 418, p 419, p 420, p 421, p 422, p 423, p 424, p 425, p 426, p 427, p 428, p 429, p 430, p 431, p 432, p 433, p 434, p 435, p 436, p 437, p 438, p 439, p 440, p 441, p 442, p 443, p 444, p 445, p 446, p 447, p 448, p 449, p 450, p 451, p 452, p 453, p 454, p 455, p 456, p 457, p 458, p 459, p 460, p 461, p 462, p 463, p 464, p 465, p 466, p 467, p 468, p 469, p 470, p 471, p 472, p 473, p 474, p 475, p 476, p 477, p 478, p 479, p 480, p 481, p 482, p 483, p 484, p 485, p 486, p 487, p 488, p 489, p 490, p 491, p 492, p 493, p 494, p 495, p 496, p 497, p 498, p 499, p 500, p 501, p 502, p 503, p 504, p 505, p 506, p 507, p 508, p 509, p 510, p 511, p 512, p 513, p 514, p 515, p 516, p 517, p 518, p 519, p 520, p 521, p 522, p 523, p 524, p 525, p 526, p 527, p 528, p 529, p 530, p 531, p 532, p 533, p 534, p 535, p 536, p 537, p 538, p 539, p 540, p 541, p 542, p 543, p 544, p 545, p 546, p 547, p 548, p 549, p 550, p 551, p 552, p 553, p 554, p 555, p 556, p 557, p 558, p 559, p 560, p 561, p 562, p 563, p 564, p 565, p 566, p 567, p 568, p 569, p 570, p 571, p 572, p 573, p 574, p 575, p 576, p 577, p 578, p 579, p 580, p 581, p 582, p 583, p 584, p 585, p 586, p 587, p 588, p 589, p 590, p 591, p 592, p 593, p 594, p 595, p 596, p 597, p 598, p 599, p 600, p 601, p 602, p 603, p 604, p 605, p 606, p 607, p 608, p 609, p 610, p 611, p 612, p 613, p 614, p 615, p 616, p 617, p 618, p 619, p 620, p 621, p 622, p 623, p 624, p 625, p 626, p 627, p 628, p 629, p 630, p 631, p 632, p 633, p 634, p 635, p 636, p 637, p 638, p 639, p 640, p 641, p 642, p 643, p 644, p 645, p 646, p 647, p 648, p 649, p 650, p 651, p 652, p 653, p 654, p 655, p 656, p 657, p 658, p 659, p 660, p 661, p 662, p 663, p 664, p 665, p 666, p 667, p 668, p 669, p 670, p 671, p 672, p 673, p 674, p 675, p 676, p 677, p 678, p 679, p 680, p 681, p 682, p 683, p 684, p 685, p 686, p 687, p 688, p 689, p 690, p 691, p 692, p 693, p 694, p 695, p 696, p 697, p 698, p 699, p 700, p 701, p 702, p 703, p 704, p 705, p 706, p 707, p 708, p 709, p 710, p 711, p 712, p 713, p 714, p 715, p 716, p 717, p 718, p 719, p 720, p 721, p 722, p 723, p 724, p 725, p 726, p 727, p 728, p 729, p 730, p 731, p 732, p 733, p 734, p 735, p 736, p 737, p 738, p 739, p 740, p 741, p 742, p 743, p 744, p 745, p 746, p 747, p 748, p 749, p 750, p 751, p 752, p 753, p 754, p 755, p 756, p 757, p 758, p 759, p 760, p 761, p 762, p 763, p 764, p 765, p 766, p 767, p 768, p 769, p 770, p 771, p 772, p 773, p 774, p 775, p 776, p 777, p 778, p 779, p 780, p 781, p 782, p 783, p 784, p 785, p 786, p 787, p 788, p 789, p 790, p 791, p 792, p 793, p 794, p 795, p 796, p 797, p 798, p 799, p 800, p 801, p 802, p 803, p 804, p 805, p 806, p 807, p 808, p 809, p 810, p 811, p 812, p 813, p 814, p 815, p 816, p 817, p 818, p 819, p 820, p 821, p 822, p 823, p 824, p 825, p 826, p 827, p 828, p 829, p 830, p 831, p 832, p 833, p 834, p 835, p 836, p 837, p 838, p 839, p 840, p 841, p 842, p 843, p 844, p 845, p 846, p 847, p 848, p 849, p 850, p 851, p 852, p 853, p 854, p 855, p 856, p 857, p 858, p 859, p 860, p 861, p 862, p 863, p 864, p 865, p 866, p 867, p 868, p 869, p 870, p 871, p 872, p 873, p 874, p 875, p 876, p 877, p 878, p 879, p 880, p 881, p 882, p 883, p 884, p 885, p 886, p 887, p 888, p 889, p 890, p 891, p 892, p 893, p 894, p 895, p 896, p 897, p 898, p 899, p 900, p 901, p 902, p 903, p 904, p 905, p 906, p 907, p 908, p 909, p 910, p 911, p 912, p 913, p 914, p 915, p 916, p 917, p 918, p 919, p 920, p 921, p 922, p 923, p 924, p 925, p 926, p 927, p 928, p 929, p 930, p 931, p 932, p 933, p 934, p 935, p 936, p 937, p 938, p 939, p 940, p 941, p 942, p 943, p 944, p 945, p 946, p 947, p 948, p 949, p 950, p 951, p 952, p 953, p 954, p 955, p 956, p 957, p 958, p 959, p 960, p 961, p 962, p 963, p 964, p 965, p 966, p 967, p 968, p 969, p 970, p 971, p 972, p 973, p 974, p 975, p 976, p 977, p 978, p 979, p 980, p 981, p 982, p 983, p 984, p 985, p 986, p 987, p 988, p 989, p 990, p 991, p 992, p 993, p 994, p 995, p 996, p 997, p 998, p 999, p 1000, p 1001, p 1002, p 1003, p 1004, p 1005, p 1006, p 1007, p 1008, p 1009, p 1010, p 1011, p 1012, p 1013, p 1014, p 1015, p 1016, p 1017, p 1018, p 1019, p 1020, p 1021, p 1022, p 1023, p 1024, p 1025, p 1026, p 1027, p 1028, p 1029, p 1030, p 1031, p 1032, p 1033, p 1034, p 1035, p 1036, p 1037, p 1038, p 1039, p 1040, p 1041, p 1042, p 1043, p 1044, p 1045, p 1046, p 1047, p 1048, p 1049, p 1050, p 1051, p 1052, p 1053, p 1054, p 1055, p 1056, p 1057, p 1058, p 1059, p 1060, p 1061, p 1062, p 1063, p 1064, p 1065, p 1066, p 1067, p 1068, p 1069, p 1070, p 1071, p 1072, p 1073, p 1074, p 1075, p 1076, p 1077, p 1078, p 1079, p 1080, p 1081, p 1082, p 1083, p 1084, p 1085, p 1086, p 1087, p 1088, p 1089, p 1090, p 1091, p 1092, p 1093, p 1094, p 1095, p 1096, p 1097, p 1098, p 1099, p 1100, p 1101, p 1102, p 1103, p 1104, p 1105, p 1106, p 1107, p 1108, p 1109, p 1110, p 1111, p 1112, p 1113, p 1114, p 1115, p 1116, p 1117, p 1118, p 1119, p 1120, p 1121, p 1122, p 1123, p 1124, p 1125, p 1126, p 1127, p 1128, p 1129, p 1130, p 1131, p 1132, p 1133, p 1134, p 1135, p 1136, p 1137, p 1138, p 1139, p 1140, p 1141, p 1142, p 1143, p 1144, p 1145, p 1146, p 1147, p 1148, p 1149, p 1150, p 1151, p 1152, p 1153, p 1154, p 1155, p 1156, p 1157, p 1158, p 1159, p 1160, p 1161, p 1162, p 1163, p 1164, p 1165, p 1166, p 1167, p 1168, p 1169, p 1170, p 1171, p 1172, p 1173, p 1174, p 1175, p 1176, p 1177, p 1178, p 1179, p 1180, p 1181, p 1182, p 1183, p 1184, p 1185, p 1186, p 1187, p 1188, p 1189, p 1190, p 1191, p 1192, p 1193, p 1194, p 1195, p 1196, p 1197, p 1198, p 1199, p 1200, p 1201, p 1202, p 1203, p 1204, p 1205, p 1206, p 1207, p 1208, p 1209, p 1210, p 1211, p 1212, p 1213, p 1214, p 1215, p 1216, p 1217, p 1218, p 1219, p 1220, p 1221, p 1222, p 1223, p 1224, p 1225, p 1226, p 1227, p 1228, p 1229, p 1230, p 1231, p 1232, p 1233, p 1234, p 1235, p 1236, p 1237, p 1238, p 1239, p 1240, p 1241, p 1242, p 1243, p 1244, p 1245, p 1246, p 1247, p 1248, p 1249, p 1250, p 1251, p 1252, p 1253, p 1254, p 1255, p 1256, p 1257, p 1258, p 1259, p 1260, p 1261, p 1262, p 1263, p 1264, p 1265, p 1266, p 1267, p 1268, p 1269, p 1270, p 1271, p 1272, p 1273, p 1274, p 1275, p 1276, p 1277, p 1278, p 1279, p 1280, p 1281, p 1282, p 1283, p 1284, p 1285, p 1286, p 1287, p 1288, p 1289, p 1290, p 1291, p 1292, p 1293, p 1294, p 1295, p 1296, p 1297, p 1298, p 1299, p 1300, p 1301, p 1302, p 1303, p 1304, p 1305, p 1306, p 1307, p 1308, p 1309, p 1310, p 1311, p 1312, p 1313, p 1314, p 1315, p 1316, p 1317, p 1318, p 1319, p 1320, p 1321, p 1322, p 1323, p 1324, p 1325, p 1326, p 1327, p 1328, p 1329, p 1330, p 1331, p 1332, p 1333, p 1334, p 1335, p 1336, p 1337, p 1338, p 1339, p 1340, p 1341, p 1342, p 1343, p 1344, p 1345, p 1346, p 1347, p 1348, p 1349, p 1350, p 1351, p 1352, p 1353, p 1354, p 1355, p 1356, p 1357, p 1358, p 1359, p 1360, p 1361, p 1362, p 1363, p 1364, p 1365, p 1366, p 1367, p 1368, p 1369, p 1370, p 1371, p 1372, p 1373, p 1374, p 1375, p 1376, p 1377, p 1378, p 1379, p 1380, p 1381, p 1382, p 1383, p 1384, p 1385, p 1386, p 1387, p 1388, p 1389, p 1390, p 1391, p 1392, p 1393, p 1394, p 1395, p 1396, p 1397, p 1398, p 1399, p 1400, p 1401, p 1402, p 1403, p 1404, p 1405, p 1406, p 1407, p 1408, p 1409, p 1410, p 1411, p 1412, p 1413, p 1414, p 1415, p 1416, p 1417, p 1418, p 1419, p 1420, p 1421, p 1422, p 1423, p 1424, p 1425, p 1426, p 1427, p 1428, p 1429, p 1430, p 1431, p 1432, p 1433, p 1434, p 1435, p 1436, p 1437, p 1438, p 1439, p 1440, p 1441, p 1442, p 1443, p 1444, p 1445, p 1446, p 1447, p 1448, p 1449, p 1450, p 1451, p 1452, p 1453, p 1454, p 1455, p 1456, p 1457, p 1458, p 1459, p 1460, p 1461, p 1462, p 1463, p 1464, p 1465, p 1466, p 1467, p 1468, p 1469, p 1470, p 1471, p 1472, p 1473, p 1474, p 1475, p 1476, p 1477, p 1478, p 1479, p 1480, p 1481, p 1482, p 1483, p 1484, p 1485, p 1486, p 1487, p 1488, p 1489, p 1490, p 1491, p 1492, p 1493, p 1494, p 1495, p 1496, p 1497, p 1498, p 1499, p 1500, p 1501, p 1502, p 1503, p 1504, p 1505, p 1506, p 1507, p 1508, p 1509, p 1510, p 1511, p 1512, p 1513, p 1514, p 1515, p 1516, p 1517, p 1518, p 1519, p 1520, p 1521, p 1522, p 1523, p 1524, p 1525, p 1526, p 1527, p 1528, p 1529, p 1530, p 1531, p 1532, p 1533, p 1534, p 1535, p 1536, p 1537, p 1538, p 1539, p 1540, p 1541, p 1542, p 1543, p 1544, p 1545, p 1546, p 1547, p 1548, p 1549, p 1550, p 1551, p 1552, p 1553, p 1554, p 1555, p 1556, p 1557, p 1558, p 1559, p 1560, p 1561, p 1562, p 1563, p 1564, p 1565, p 1566, p 1567, p 1568, p 1569, p 1570, p 1571, p 1572, p 1573, p 1574, p 1575, p 1576, p 1577, p 1578, p 1579, p 1580, p 1581, p 1582, p 1583, p 1584, p 1585, p 1586, p 1587, p 1588, p 1589, p 1590, p 1591, p 1592, p 1593, p 1594, p 1595, p 1596, p 1597, p 1598, p 1599, p 1600, p 1601, p 1602, p 1603, p 1604, p 1605, p 1606, p 1607, p 1608, p 1609, p 1610, p 1611, p 1612, p 1613, p 1614, p 1615, p 1616, p 1617, p 1618, p 1619, p 1620, p 1621, p 1622, p 1623, p 1624, p 1625, p 1626, p 1627, p 1628, p 1629, p 1630, p 1631, p 1632, p 1633, p 1634, p 1635, p 1636, p 1637, p 1638, p 1639, p 1640, p 1641, p 1642, p 1643, p 1644, p 1645, p 1646, p 1647, p 1648, p 1649, p 1650, p 1651, p 1652, p 1653, p 1654, p 1655, p 1656, p 1657, p 1658, p 1659, p 1660, p 1661, p 1662, p 1663, p 1664, p 1665, p 1666, p 1667, p 1668, p 1669, p 1670, p 1671, p 1672, p 1673, p 1674, p 1675, p 1676, p 1677, p 1678, p 1679, p 1680, p 1681, p 1682, p 1683, p 1684, p 1685, p 1686, p 1687, p 1688, p 1689, p 1690, p 1691, p 1692, p 1693, p 1694, p 1695, p 1696, p 1697, p 1698, p 1699, p 1700, p 1701, p 1702, p 1703, p 1704, p 1705, p 1706, p 1707, p 1708, p 1709, p 1710, p 1711, p 1712, p 1713, p 1714, p 1715, p 1716, p 1717, p 1718, p 1719, p 1720, p 1721, p 1722, p 1723, p 1724, p 1725, p 1726, p 1727, p 1728, p 1729, p 1730, p 1731, p 1732, p 1733, p 1734, p 1735, p 1736, p 1737, p 1738, p 1739, p 1740, p 1741, p 1742, p 1743, p 1744, p 1745, p 1746, p 1747, p 1748, p 1749, p 1750, p 1751, p 1752, p 1753, p 1754, p 1755, p 1756, p 1757, p 1758, p 1759, p 1760, p 1761, p 1762, p 1763, p 1764, p 1765, p 1766, p 1767, p 1768, p 1769, p 1770, p 1771, p 1772, p 1773, p 1774, p 1775, p 1776, p 1777, p 1778, p 1779, p 1780, p 1781, p 1782, p 1783, p 1784, p 1785, p 1786, p 1787, p 1788, p 1789, p 1790, p 1791, p 1792, p 1793, p 1794, p 1795, p 1796, p 1797, p 1798, p 1799, p 1800, p 1801, p 1802, p 1803, p 1804, p 1805, p 1806, p 1807, p 1808, p 1809, p 1810, p 1811, p 1812, p 1813, p 1814, p 1815, p 1816, p 1817, p 1818, p 1819, p 1820, p 1821, p 1822, p 1823, p 1824, p 1825, p 1826, p 1827, p 1828, p 1829, p 1830, p 1831, p 1832, p 1833, p 1834, p 1835, p 1836, p 1837, p 1838, p 1839, p 1840, p 1841, p 1842, p 1843, p 1844, p 1845, p 1846, p 1847, p 1848, p 1849, p 1850, p 1851, p 1852, p 1853, p 1854, p 1855, p 1856, p 1857, p 1858, p 1859, p 1860, p 1861, p 1862, p 1863, p 1864, p 1865, p 1866, p 1867, p 1868, p 1869, p 1870, p 1871, p 1872, p 1873, p 1874, p 1875, p 1876, p 1877, p 1878, p 1879, p 1880, p 1881, p 1882, p 1883, p 1884, p 1885, p 1886, p 1887, p 1888, p 1889, p 1890, p 1891, p 1892, p 1893, p 1894, p 1895, p 1896, p 1897, p 1898, p 1899, p 1900, p 1901, p 1902, p 1903, p 1904, p 1905, p 1906, p 1907, p 1908, p 1909, p 1910, p 1911, p 1912, p 1913, p 1914, p 1915, p 1916, p 1917, p 1918, p 1919, p 1920, p 1921, p 1922, p 1923, p 1924, p 1925, p 1926, p 1927, p 1928, p 1929, p 1930, p 1931, p 1932, p 1933, p 1934, p 1935, p 1936, p 1937, p 1938, p 1939, p 1940, p 1941, p 1942, p 1943, p 1944, p 1945, p 1946, p 1947, p 1948, p 1949, p 1950, p 1951, p 1952, p 1953, p 1954, p 1955, p 1956, p 1957, p 1958, p 1959, p 1960, p 1961, p 1962, p 1963, p 1964, p 1965, p 1966, p 1967, p 1968, p 1969, p 1970, p 1971, p 1972, p 1973, p 1974, p 1975, p 1976, p 1977, p 1978, p 1979, p 1980, p 1981, p 1982, p 1983, p 1984, p 1985, p 1986, p 1987, p 1988, p 1989, p 1990, p 1991, p 1992, p 1993, p 1994, p 1995, p 1996, p 1997, p 1998, p 1999, p 2000, p 2001, p 2002, p 2003, p 2004, p 2005, p 2006, p 2007, p 2008, p 2009, p 2010, p 2011, p 2012, p 2013, p 2014, p 2015, p 2016, p 2017, p 2018, p 2019, p 2020, p 2021, p 2022, p 2023, p 2024, p 2025, p 2026, p 2027, p 2028, p 2029, p 2030, p 2031, p 2032, p 2033, p 2034, p 2035, p 2036, p 2037, p 2038, p 2039, p 2040, p 2041, p 2042, p 2043, p 2044, p 2045, p 2046, p 2047, p 2048, p 2049, p 2050, p 2051, p 2052, p 2053, p 2054, p 2055, p 2056, p 2057, p 2058, p 2059, p 2060, p 2061, p 2062, p 2063, p 2064, p 2065, p 2066, p 2067, p 2068, p 2069, p 2070, p 2071, p 2072, p 2073, p 2074, p 2075, p 2076, p 2077, p 2078, p 2079, p 2080, p 2081, p 2082, p 2083, p 2084, p 2085, p 2086, p 2087, p 2088, p 2089, p 2090, p 2091, p 2092, p 2093, p 2094, p 2095, p 2096, p 2097, p 2098, p 2099, p 2100, p 2101, p 2102, p 2103, p 2104, p 2105, p 2106, p 2107, p 2108, p 2109, p 2110, p 2111, p 2112, p 2113, p 2114, p 2115, p 2116, p 2117, p 2118, p 2119, p 2120, p 2121, p 2122, p 2123, p 2124, p 2125, p 2126, p 2127, p 2128, p 2129, p 2130, p 2131, p 2132, p 2133, p 2134, p 2135, p 2136, p 2137, p 2138, p 2139, p 2140, p 2141, p 2142, p 2143, p 2144, p 2145, p 2146, p 2147, p 2148, p 2149, p 2150, p 2151, p 2152, p 2153, p 2154, p 2155, p 2156, p 2157, p 2158, p 2159, p 2160, p 2161, p 2162, p 2163, p 2164, p 2165, p 2166, p 2167, p 2168, p 2169, p 2170, p 2171, p 2172, p 2173, p 2174, p 2175, p 2176, p 2177, p 2178, p 2179, p 2180, p 2181, p 2182, p 2183, p 2184, p 2185, p 2186, p 2187, p 2188, p 2189, p 2190, p 2191, p 2192, p 2193, p 2194, p 2195, p 2196, p 2197, p 2198, p 2199, p 2200, p 2201, p 2202, p 2203, p 2204, p 2205, p 2206, p 2207, p 2208, p 2209, p 2210, p 2211, p 2212, p 2213, p 2214, p 2215, p 2216, p 2217, p 2218, p 2219, p 2220, p 2221, p 2222, p 2223, p 2224, p 2225, p 2226, p 2227, p 2228, p 2229, p 2230, p 2231, p 2232, p 2233, p 2234, p 2235, p 2236, p 2237, p 2238, p 2239, p 2240, p 2241, p 2242, p 2243, p 2244, p 2245, p 2246, p 2247, p 2248, p 2249, p 2250, p 2251, p 2252, p 2253, p 2254, p 2255, p 2256, p 2257, p 2258, p 2259, p 2260, p 2261, p 2262, p 2263, p 2264, p 2265, p 2266, p 2267, p 2268, p 2269, p 2270, p 2271, p 2272, p 2273, p 2274, p 2275, p 2276, p 2277, p 2278, p 2279, p 2280, p 2281, p 2282, p 2283, p 2284, p 2285, p 2286, p 2287, p 2288, p 2289, p 2290, p 2291, p 2292, p 2293, p 2294, p 2295, p 2296, p 2297, p 2298, p 2299, p 2300, p 2301, p 2302, p 2303, p 2304, p 2305, p 2306, p 2307, p 2308, p 2309, p 2310, p 2311, p 2312, p 2313, p 2314, p 2315, p 2316, p 2317, p 2318, p 2319, p 2320, p 2321, p 2322, p 2323, p 2324, p 2325, p 2326, p 2327, p 2328, p 2329, p 2330, p 2331, p 2332, p 2333, p 2334, p 2335, p 2336, p 2337, p 2338, p 2339, p 2340, p 2341, p 2342, p 2343, p 2344, p 2345, p 2346, p 2347, p 2348, p 2349, p 2350, p 2351, p 2352, p 2353, p 2354, p 2355, p 2356, p 2357, p 2358, p 2359, p 2360, p 2361, p 2362, p 2363, p 2364, p 2365, p 2366, p 2367, p 2368, p 2369, p 2370, p 2371, p 2372, p 2373, p 2374, p 2375, p 2376, p 2377, p 2378, p 2379, p 2380, p 2381, p 2382, p 2383, p 2384, p 2385, p 2386, p 2387, p 2388, p 2389, p 2390, p 2391, p 2392, p 2393, p 2394, p 2395, p 2396, p 2397, p 2398, p 2399, p 2400, p 2401, p 2402, p 2403, p 2404, p 2405, p 2406, p 2407, p 2408, p 2409, p 2410, p 2411, p 2412, p 2413, p 2414, p 2415, p 2416, p 2417, p 2418, p 2419, p 2420, p 2421, p 2422, p 2423, p 2424, p 2425, p 2426, p 2427, p 2428, p 2429, p 2430, p 2431, p 2432, p 2433, p 2434, p 2435, p 2436, p 2437, p 2438, p 2439, p 2440, p 2441, p 2442, p 2443, p 2444, p 2445, p 2446, p 2447, p 2448, p 2449, p 2450, p 2451, p 2452, p 2453, p 2454, p 2455, p 2456, p 2457, p 2458, p 2459, p 2460, p 2461, p 2462, p 2463, p 2464, p 2465, p 2466, p 2467, p 2468, p 2469, p 2470, p 2471, p 2472, p 2473, p 2474, p 2475, p 2476, p 2477, p 2478, p 2479, p 2480, p 2481, p 2482, p 2483, p 2484, p 2485, p 2486, p 2487, p 2488, p 2489, p 2490, p 2491, p 2492, p 2493, p 2494, p 2495, p 2496, p 2497, p 2498, p 2499, p 2500, p 2501, p 2502, p 2503, p 2504, p 2505, p 2506, p 2507, p 2508, p 2509, p 2510, p 2511, p 2512, p 2513, p 2514, p 2515, p 2516, p 2517, p 2518, p 2519, p 2520, p 2521, p 2522, p 2523, p 2524, p 2525, p 2526, p 2527, p 2528, p 2529, p 2530, p 2531, p 2532, p 2533, p 2534, p 2535, p 2536, p 2537, p 2538, p 2539, p 2540, p 2541, p 2542, p 2543, p 2544, p 2545, p 2546, p 2547, p 2548, p 2549, p 2550, p 2551, p 2552, p 2553, p 2554, p 2555, p 2556, p 2557, p 2558, p 2559, p 2560, p 2561, p 2562, p 2563, p 2564, p 2565, p 2566, p 2567, p 2568, p 2569, p 2570, p 2571, p 2572, p 2573, p 2574, p 2575, p 2576, p 2577, p 2578, p 2579, p 2580, p 2581, p 2582, p 2583, p 2584, p 2585, p 2586, p 2587, p 2588, p 2589, p 2590, p 2591, p 2592, p 2593, p 2594, p 2595, p 2596, p 2597, p 2598, p 2599, p 2600, p 2601, p 2602, p 2603, p 2604, p 2605, p 2606, p 2607, p 2608, p 2609, p 2610, p 2611, p 2612, p 2613, p 2614, p 2615, p 2616, p 2617, p 2618, p 2619, p 2620, p 2621, p 2622, p 2623, p 2624, p 2625, p 2626, p 2627, p 2628, p 2629, p 2630, p 2631, p 2632, p 2633, p 2634, p 2635, p 2636, p 2637, p 2638, p 2639, p 2640, p 2641, p 2642, p 2643, p 2644, p 2645, p 2646, p 2647, p 2648, p 2649, p 2650, p 2651, p 2652, p 2653, p 2654, p 2655, p 2656, p 2657, p 2658, p 2659, p 2660, p 2661, p 2662, p 2663, p 2664, p 2665, p 2666, p 2667, p 2668, p 2669, p 2670, p 2671, p 2672, p 2673, p 2674, p 2675, p 2676, p 2677, p 2678, p 2679, p 2680, p 2681, p 2682, p 2683, p 2684, p 2685, p 2686, p 2687, p 2688, p 2689, p 2690, p 2691, p 2692, p 2693, p 2694, p 2695, p 2696, p 2697, p 2698, p 2699, p 2700, p 2701, p 2702, p 2703, p 2704, p 2705, p 2706, p 2707, p 2708, p 2709, p 2710, p 2711, p 2712, p 2713, p 2714, p 2715, p 2716, p 2717, p 2718, p 2719, p 2720, p 2721, p 2722, p 2723, p 2724, p 2725, p 2726, p 2727, p 2728, p 2729, p 2730, p 2731, p 2732, p 2733, p 2734, p 2735, p 2736, p 2737, p 2738, p 2739, p 2740, p 2741, p 2742, p 2743, p 2744, p 2745, p 2746, p 2747, p 2748, p 2749, p 2750, p 2751, p 2752, p 2753, p 2754, p 2755, p 2756, p 2757, p 2758, p 2759, p 2760, p 2761, p 2762, p 2763, p 2764, p 2765, p 2766, p 2767, p 2768, p 2769, p 2770, p 2771, p 2772, p 2773, p 2774, p 2775, p 2776, p 2777, p 2778, p 2779, p 2780, p 2781, p 2782, p 2783, p 2784, p 2785, p 2786, p 2787, p 2788, p 2789, p 2790, p 2791, p 2792, p 2793, p 2794, p 2795, p 2796, p 2797, p 2798, p 2799, p 2800, p 2801, p 2802, p 2803, p 2804, p 2805, p 2806, p 2807, p 2808, p 2809, p 2810, p 2811, p 2812, p 2813, p 2814, p 2815, p 2816, p 2817, p 2818, p 2819, p 2820, p 2821, p 2822, p 2823, p 2824, p 2825, p 2826, p 2827, p 2828, p 2829, p 2830, p 2831, p 2832, p 2833, p 2834, p 2835, p 2836, p 2837, p 2838, p 2839, p 2840, p 2841, p 2842, p 2843, p 2844, p 2845, p 2846, p 2847, p 2848, p 2849, p 2850, p 2851, p 2852, p 2853, p 2854, p 2855, p 2856, p 2857, p 2858, p 2859, p 2860, p 2861, p 2862, p 2863, p 2864, p 2865, p 2866, p 2867, p 2868, p 2869, p 2870, p 2871, p 2872, p 2873, p 2874, p 2875, p 2876, p 2877, p 2878, p 2879, p 2880, p 2881, p 2882, p 2883, p 2884, p 2885, p 2886, p 2887, p 2888, p 2889, p 2890, p 2891, p 2892, p 2893, p 2894, p 2895, p 2896, p 2897, p 2898, p 2899, p 2900, p 2901, p 2902, p 2903, p 2904, p 2905, p 2906, p 2907, p 2908, p 2909, p 2910, p 2911, p 2912, p 2913, p 2914, p 2915, p 2916, p 2917, p 2918, p 2919, p 2920, p 2921, p 2922, p 2923, p 2924, p 2925, p 2926, p 2927, p 2928, p 2929, p 2930, p 2931, p 2932, p 2933, p 2934, p 2935, p 2936, p 2937, p 2938, p 2939, p 2940, p 2941, p 2942, p 2943, p 2944, p 2945, p 2946, p 2947, p 2948, p 2949, p 2950, p 2951, p 2952, p 2953, p 2954, p 2955, p 2956, p 2957, p 2958, p 2959, p 2960, p 2961, p 2962, p 2963, p 2964, p 2965, p 2966, p 2967, p 2968, p 2969, p 2970, p 2971, p 2972, p 2973, p 2974, p 2975, p 2976, p 2977, p 2978, p 2979, p 2980, p 2981, p 2982, p 2983, p 2984, p 2985, p 2986, p 2987, p 2988, p 2989, p 2990, p 2991, p 2992, p 2993, p 2994, p 2995, p 2996, p 2997, p 2998, p 2999, p 3000, p 3001, p 3002, p 3003, p 3004, p 3005, p 3006, p 3007, p 3008, p 3009, p 3010, p 3011, p 3012, p 3013, p 3014, p 3015, p 3016, p 3017, p 3018, p 3019, p 3020, p 3021, p 3022, p 3023, p 3024, p 3025, p 3026, p 3027, p 3028, p 3029, p 3030, p 3031, p 3032, p 3033, p 3034, p 3035, p 3036, p 3037, p 3038, p 3039, p 3040, p 3041, p 3042, p 3043, p 3044, p 3045, p 3046, p 3047, p 3048, p 3049, p 3050, p 3051, p 3052, p 3053, p 3054, p 3055, p 3056, p 3057, p 3058, p 3059, p 3060, p 3061, p 3062, p 3063, p 3064, p 3065, p 3066, p 3067, p 3068, p 3069, p 3070, p 3071, p 3072, p 3073, p 3074, p 3075, p 3076, p 3077, p 3078, p 3079, p 3080, p 3081, p 3082, p 3083, p 3084, p 3085, p 3086, p 3087, p 3088, p 3089, p 3090, p 3091, p 3092, p 3093, p 3094, p 3095, p 3096, p 3097, p 3098, p 3099, p 3100, p 3101, p 3102, p 3103, p 3104, p 3105, p 3106, p 3107, p 3108, p 3109, p 3110, p 3111, p 3112, p 3113, p 3114, p 3115, p 3116, p 3117, p 3118, p 3119, p 3120, p 3121, p 3122, p 3123, p 3124, p 3125, p 3126, p 3127, p 3128, p 3129, p 3130, p 3131, p 3132, p 3133, p 3134, p 3135, p 3136, p 3137, p 3138, p 3139, p 3140, p 3141, p 3142, p 3143, p 3144, p 3145, p 3146, p 3147, p 3148, p 3149, p 3150, p 3151, p 3152, p 3153, p 3154, p 3155, p 3156, p 3157, p 3158, p 3159, p 3160, p 3161, p 3162, p 3163, p 3164, p 3165, p 3166, p 3167, p 3168, p 3169, p 3170, p 3171, p 3172, p 3173, p 3174, p 3175, p 3176, p 3177, p 3178, p 3179, p 3180, p 3181, p 3182, p 3183, p 3184, p 3185, p 3186, p 3187, p 3188, p 3189, p 3190, p 3191, p 3192, p 3193, p 3194, p 3195, p 3196, p 3197, p 3198, p 3199, p 3200, p 3201, p 3202, p 3203, p 3204, p 3205, p 3206, p 3207, p 3208, p 3209, p 3210, p 3211, p 3212, p 3213, p 3214, p 3215, p 3216, p 3217, p 3218, p 3219, p 3220, p 3221, p 3222, p 3223, p 3224, p 3225, p 3226, p 3227, p 3228, p 3229, p 3230, p 3231, p 3232, p 3233, p 3234, p 3235, p 3236, p 3237, p 3238, p 3239, p 3240, p 3241, p 3242, p 3243, p 3244, p 3245, p 3246, p 3247, p 3248, p 3249, p 3250, p 3251, p 3252, p 3253, p 3254, p 3255, p 3256, p 3257, p 3258, p 3259, p 3260, p 3261, p 3262, p 3263, p 3264, p 3265, p 3266, p 3267, p 3268, p 3269, p 3270, p 3271, p 3272, p 3273, p 3274, p 3275, p 3276, p 3277, p 3278, p 3279, p 3280, p 3281, p 3282, p 3283, p 3284, p 3285, p 3286, p 3287, p 3288, p 3289, p 3290, p 3291, p 3292, p 3293, p 3294, p 3295, p 3296, p 3297, p 3298, p 3299, p 3300, p 3301, p 3302, p 3303, p 3304, p 3305, p 3306, p 3307, p 3308, p 3309, p 3310, p 3311, p 3312, p 3313, p 3314, p 3315, p 3316, p 3317, p 3318, p 3319, p 3320, p 3321, p 3322, p 3323, p 3324, p 3325, p 3326, p 3327, p 3328, p 3329, p 3330, p 3331, p 3332, p 3333, p 3334, p 3335, p 3336, p 3337, p 3338, p 3339, p 3340, p 3341, p 3342, p 3343, p 3344, p 3345, p 3346, p 3347, p 3348, p 3349, p 3350, p 3351, p 3352, p 3353, p 3354, p 3355, p 3356, p 3357, p 3358, p 3359, p 3360, p 3361, p 3362, p 3363, p 3364, p 3365, p 3366, p 3367, p 3368, p 3369, p 3370, p 3371, p 3372, p 3373, p 3374, p 3375, p 3376, p 3377, p 3378, p 3379, p 3380, p 3381, p 3382, p 3383, p 3384, p 3385, p 3386, p 3387, p 3388, p 3389, p 3390, p 3391, p 3392, p 3393, p 3394, p 3395, p 3396, p 3397, p 3398, p 3399, p 3400, p 3401, p 3402, p 3403, p 3404, p 3405, p 3406, p 3407, p 3408, p 3409, p 3410, p 3411, p 3412, p 3413, p 3414, p 3415, p 3416, p 3417, p 3418, p 3419, p 3420, p 3421, p 3422, p 3423, p 3424, p 3425, p 3426, p 3427, p 3428, p 3429, p 3430, p 3431, p 3432, p 3433, p 3434, p 3435, p 3436, p 3437, p 3438, p 3439, p 3440, p 3441, p 3442, p 3443, p 3444, p 3445, p 3446, p 3447, p 3448, p 3449, p 3450, p 3451, p 3452, p 3453, p 3454, p 3455, p 3456, p 3457, p 3458, p 3459, p 3460, p 3461, p 3462, p 3463, p 3464, p 3465, p 3466, p 3467, p 3468, p 3469, p 3470, p 3471, p 3472, p 3473, p 3474, p 3475, p 3476, p 3477, p 3478, p 3479, p 3480, p 3481, p 3482, p 3483, p 3484, p 3485, p 3486, p 3487, p 3488, p 3489, p 3490, p 3491, p 3492, p 3493, p 3494, p 3495, p 3496, p 3497, p 3498, p 3499, p 3500, p 3501, p 3502, p 3503, p 3504, p 3505, p 3506, p 3507, p 3508, p 3509, p 3510, p 3511, p 3512, p 3513, p 3514, p 3515, p 3516, p 3517, p 3518, p 3519, p 3520, p 3521, p 3522, p 3523, p 3524, p 3525, p 3526, p 3527, p 3528, p 3529, p 3530, p 3531, p 3532, p 3533, p 3534, p 3535, p 3536, p 3537, p 3538, p 3539, p 3540, p 3541, p 3542, p 3543, p 3544, p 3545, p 3546, p 3547, p 3548, p 3549, p 3550, p 3551, p 3552, p 3553, p 3554, p 3555, p 3556, p 3557, p 3558, p 3559, p 3560, p 3561, p 3562, p 3563, p 3564, p 3565, p 3566, p 3567, p 3568, p 3569, p 3570, p 3571, p 3572, p 3573, p 3574, p 3575, p 3576, p 3577, p 3578, p 3579, p 3580, p 3581, p 3582, p 3583, p 3584, p 3585, p 3586, p 3587, p 3588, p 3589, p 3590, p 3591, p 3592, p 3593, p 3594, p 3595, p 3596, p 3597, p 3598, p 3599, p 3600, p 3601, p 3602, p 3603, p 3604, p 3605, p 3606, p 3607, p 3608, p 3609, p 3610, p 3611, p 3612, p 3613, p 3614, p 3615, p 3616, p 3617, p 3618, p 3619, p 3620, p 3621, p 3622, p 3623, p 3624, p 3625, p 3626, p 3627, p 3628, p 3629, p 3630, p 3631, p 3632, p 3633, p 3634, p 3635, p 3636, p 3637, p 3638, p 3639, p 3640, p 3641, p 3642, p 3643, p 3644, p 3645, p 3646, p 3647, p 3648, p 3649, p 3650, p 3651, p 3652, p 3653, p 3654, p 3655, p 3656, p 3657, p 3658, p 3659, p 3660, p 3661, p 3662, p 3663, p 3664, p 3665, p 3666, p 3667, p 3668, p 3669, p 3670, p 3671, p 3672, p 3673, p 3674, p 3675, p 3676, p 3677, p 3678, p 3679, p 3680, p 3681, p 3682, p 3683, p 3684, p 3685, p 3686, p 3687, p 3688, p 3689, p 3690, p 3691, p 3692, p 3693, p 3694, p 3695, p 3696, p 3697, p 3698, p 3699, p 3700, p 3701, p 3702, p 3703, p 3704, p 3705, p 3706, p 3707, p 3708, p 3709, p 3710] trying i = i trying elpi_ctx_entry_2_ = elpi_ctx_entry_2_ trying elpi_ctx_entry_1_ = elpi_ctx_entry_1_ /\ p0 = p0 trying elpi_ctx_entry_1_ = elpi_ctx_entry_1_ /\ p0 = p0 d : nat Cats.And.Dogs.x = 42 : nat Module d3 : d3_Locked := Struct Definition body : nat. Parameter unlock : d3 = 3. End Module Type d3_Locked = Sig Parameter body : nat. Parameter unlock : body = 3. End cons2 : forall {A : Type}, A -> list A -> list A cons2 is not universe polymorphic Arguments cons2 {A}%_type_scope x xs%_list_scope cons2 is transparent Expands to: Constant elpi.apps.locker.tests.test_locker.Bug_286.lock_container.cons2 Declared in library elpi.apps.locker.tests.test_locker, line 50, characters 0-47 cons3 : forall [A : Type], EqDecision A -> A -> list A -> list A cons3 is not universe polymorphic Arguments cons3 [A]%_type_scope {H} x xs%_list_scope cons3 is transparent Expands to: Constant elpi.apps.locker.tests.test_locker.Bug_286.lock_container2.cons3 Declared in library elpi.apps.locker.tests.test_locker, line 57, characters 0-63 id1@{u} : forall T : Type@{u}, T -> T (* u |= u < locked_with.u0 *) id1 is universe polymorphic Arguments id1 T%_type_scope x id1 is transparent Expands to: Constant elpi.apps.locker.tests.test_locker.id1 Declared in library elpi.apps.locker.tests.test_locker, line 90, characters 0-78 Query assignments: GR = const «id1» id2.body@{u} : forall T : Type@{u}, T -> T (* u |= *) id2.body is universe polymorphic Arguments id2.body T%_type_scope x Expands to: Constant elpi.apps.locker.tests.test_locker.id2.body Declared in library elpi.apps.locker.tests.test_locker, line 95, characters 0-79 Query assignments: GR = const «id2.body» up1.body@{u} : forall T : Type@{u}, T -> T (* u |= *) up1.body is universe polymorphic Arguments up1.body T%_type_scope x Expands to: Constant elpi.apps.locker.tests.test_locker.up1.body Declared in library elpi.apps.locker.tests.test_locker, line 101, characters 0-45 Query assignments: GR = const «up1.body» nup1.body : forall T : Type@{nup1_Locked.body.u0}, T -> T nup1.body is not universe polymorphic Arguments nup1.body T%_type_scope x Expands to: Constant elpi.apps.locker.tests.test_locker.nup1.body Declared in library elpi.apps.locker.tests.test_locker, line 105, characters 0-75 Query assignments: GR = const «nup1.body» up2.body@{u u0} : forall T : Type@{u}, Type@{u0} -> T -> T (* u u0 |= *) up2.body is universe polymorphic Arguments up2.body (T W)%_type_scope x Expands to: Constant elpi.apps.locker.tests.test_locker.up2.body Declared in library elpi.apps.locker.tests.test_locker, line 109, characters 0-66 Query assignments: GR = const «up2.body» Debug: elpi lets escape exception: Universe elpi.apps.locker.tests.test_locker.190 (File "./apps/locker/tests/test_locker.v", line 113, characters 50-54) is unbound. Raised at Exninfo.iraise in file "clib/exninfo.ml", line 79, characters 4-11 Called from UState.universe_context_inst in file "engine/uState.ml", line 891, characters 9-58 Called from UState.check_poly_univ_decl in file "engine/uState.ml", line 972, characters 13-63 Called from UState.check_univ_decl in file "engine/uState.ml", line 988, characters 35-67 Called from Elpi_plugin__Rocq_elpi_builtins.add_axiom_or_variable in file "src/rocq_elpi_builtins.ml", line 948, characters 14-82 Called from Elpi_plugin__Rocq_elpi_builtins.coq_rest_builtins.(fun) in file "src/rocq_elpi_builtins.ml", line 2242, characters 20-86 Called from Elpi_plugin__Rocq_elpi_builtins.grab_global_env.(fun) in file "src/rocq_elpi_builtins.ml", line 141, characters 33-44 Called from Elpi_runtime__Runtime_trace_off.FFI.wrap_type_err in file "src/runtime/runtime_trace_off.ml", line 2266, characters 6-9 Called from Elpi_runtime__Runtime_trace_off.FFI.call.aux in file "src/runtime/runtime_trace_off.ml", line 2348, characters 32-92 Called from Elpi_runtime__Runtime_trace_off.FFI.call in file "src/runtime/runtime_trace_off.ml", line 2440, characters 21-70 Called from Elpi_runtime__Runtime_trace_off.Constraints.exect_builtin_predicate in file "src/runtime/runtime_trace_off.ml", line 3709, characters 20-83 Called from Elpi_runtime__Runtime_trace_off.Mainloop.make_runtime.run in file "src/runtime/runtime_trace_off.ml", line 4141, characters 18-89 Called from Elpi_util__Util.Fork.fork.ensure_runtime in file "src/utils/util.ml", line 557, characters 16-19 Re-raised at Elpi_util__Util.Fork.fork.ensure_runtime in file "src/utils/util.ml", line 566, characters 7-14 Called from Elpi_runtime__Runtime_trace_off.mk_outcome in file "src/runtime/runtime_trace_off.ml", line 4457, characters 14-23 Called from Elpi_runtime__Runtime_trace_off.execute_once in file "src/runtime/runtime_trace_off.ml", line 4474, characters 20-242 Re-raised at Elpi_runtime__Runtime_trace_off.execute_once in file "src/runtime/runtime_trace_off.ml", line 4479, characters 2-9 Called from Elpi__API.Execute.once in file "src/API.ml", line 246, characters 40-91 Called from Elpi_plugin__Rocq_elpi_vernacular.Compiler.run in file "src/rocq_elpi_vernacular.ml", line 153, characters 13-55 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Elpi_plugin__Rocq_elpi_vernacular.Compiler.run_and_print in file "src/rocq_elpi_vernacular.ml", line 173, characters 8-38 Called from Elpi_plugin__Rocq_elpi_vernacular.Interp.run_program.(fun) in file "src/rocq_elpi_vernacular.ml", line 577, characters 67-123 This.Is.A.Long.Namespace.stuff = 1 : nat = 1 : nat This.Is.A.Long.Namespace.stuff = 2 : nat = 1 : nat This_aux_1.This.Is.A.Long.Namespace.stuff This.Is.A.Long.Namespace.more_stuff This.Is.A.Long.Namespace.stuff This_aux_1.This.Is.A.Long.Namespace.stuff : nat This.Is.A.Long.Namespace.more_stuff : nat This.Is.A.Long.Namespace.stuff : nat stuff = 2 : nat default nat_def : nat : nat program [p] global (indc «O») app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] Foo.x = 3 : nat Foo.x = 3 : nat Foo.x2 = 4 : nat eq_refl : Foo.x = 5 : Foo.x = 5 A.B.c : nat A.B.c is not universe polymorphic A.B.c is transparent Expands to: Constant elpi.apps.NES.tests.test_NES.A_aux_4.A.B.c Declared in library elpi.apps.NES.tests.test_NES, line 34, characters 11-12 A1.B1.d : nat A1.B1.d is not universe polymorphic A1.B1.d is transparent Expands to: Constant elpi.apps.NES.tests.test_NES.A1_aux_6.A1.B1.d Declared in library elpi.apps.NES.tests.test_NES, line 45, characters 11-12 A1.B1.c : nat A1.B1.c is not universe polymorphic A1.B1.c is transparent Expands to: Constant elpi.apps.NES.tests.test_NES.A1_aux_5.A1.B1.c Declared in library elpi.apps.NES.tests.test_NES, line 42, characters 11-12 x = 5 : nat x2 = 4 : nat B1.c = 1 : nat B1.d = 1 : nat d = 1 : nat A2.B2.f = 2 : nat true : bool : bool Inductive listR_inv (A : Type) (PA : A -> Type) (idx0 : list A) : Type := nilR_inv : idx0 = nil -> listR_inv A PA idx0 | consR_inv : forall a : A, PA a -> forall xs : list A, listR_inv A PA xs -> idx0 = (a :: xs)%list -> listR_inv A PA idx0. Arguments listR_inv A%_type_scope PA%_function_scope idx0%_list_scope Arguments nilR_inv A%_type_scope PA%_function_scope idx0%_list_scope _ Arguments consR_inv A%_type_scope PA%_function_scope idx0%_list_scope a _ xs%_list_scope _ _ File "/build/reproducible-path/coq-elpi-3.2.0/apps/derive/elpi/bcongr.elpi", line 23, characters 18-41: Warning: Coq.Init.Datatypes.bool has been replaced by Corelib.Init.Datatypes.bool. [deprecated-dirpath-Coq,deprecated-since-9.0,deprecated,default] nth_R = fun (T1 T2 : Type) (T_R : T1 -> T2 -> Type) (x01 : T1) (x02 : T2) (x0_R : T_R x01 x02) => let rec1 := fix rec (n : nat) (l : list T1) {struct n} : T1 := match l with | nil => x01 | (x :: xs)%list => match n with | 0 => x | S m => rec m xs end end in let rec2 := fix rec (n : nat) (l : list T2) {struct n} : T2 := match l with | nil => x02 | (x :: xs)%list => match n with | 0 => x | S m => rec m xs end end in fix rec_R (n1 n2 : nat) (n_R : nat_R n1 n2) {struct n_R} : forall (l1 : list T1) (l2 : list T2), list_R T1 T2 T_R l1 l2 -> T_R (rec1 n1 l1) (rec2 n2 l2) := match n_R in (nat_R s1 s2) return (forall (l1 : list T1) (l2 : list T2), list_R T1 T2 T_R l1 l2 -> T_R (rec1 s1 l1) (rec2 s2 l2)) with | O_R => let K := O_R in (fun (n3 n4 : nat) (n_R0 : nat_R n3 n4) (l1 : list T1) (l2 : list T2) (l_R : list_R T1 T2 T_R l1 l2) => match l_R in (list_R _ _ _ l3 l4) return (T_R match l3 with | nil => x01 | (x :: xs)%list => match n3 with | 0 => x | S m => rec1 m xs end end match l4 with | nil => x02 | (x :: xs)%list => match n4 with | 0 => x | S m => rec2 m xs end end) with | nil_R _ _ _ => x0_R | cons_R _ _ _ x1 x2 x_R xs1 xs2 xs_R => match n_R0 in (nat_R n5 n6) return (T_R match n5 with | 0 => x1 | S m => rec1 m xs1 end match n6 with | 0 => x2 | S m => rec2 m xs2 end) with | O_R => x_R | S_R m1 m2 m_R => rec_R m1 m2 m_R xs1 xs2 xs_R end end) 0 0 K | S_R _1 _2 __R => let K := S_R _1 _2 __R in (fun (n3 n4 : nat) (n_R0 : nat_R n3 n4) (l1 : list T1) (l2 : list T2) (l_R : list_R T1 T2 T_R l1 l2) => match l_R in (list_R _ _ _ l3 l4) return (T_R match l3 with | nil => x01 | (x :: xs)%list => match n3 with | 0 => x | S m => rec1 m xs end end match l4 with | nil => x02 | (x :: xs)%list => match n4 with | 0 => x | S m => rec2 m xs end end) with | nil_R _ _ _ => x0_R | cons_R _ _ _ x1 x2 x_R xs1 xs2 xs_R => match n_R0 in (nat_R n5 n6) return (T_R match n5 with | 0 => x1 | S m => rec1 m xs1 end match n6 with | 0 => x2 | S m => rec2 m xs2 end) with | O_R => x_R | S_R m1 m2 m_R => rec_R m1 m2 m_R xs1 xs2 xs_R end end) (S _1) (S _2) K end : forall (T1 T2 : Type) (T_R : T1 -> T2 -> Type) (x01 : T1) (x02 : T2), T_R x01 x02 -> forall n1 n2 : nat, nat_R n1 n2 -> forall (l1 : list T1) (l2 : list T2), list_R T1 T2 T_R l1 l2 -> T_R (nth T1 x01 n1 l1) (nth T2 x02 n2 l2) Arguments nth_R (T1 T2)%_type_scope T_R%_function_scope x01 x02 x0_R (n1 n2)%_nat_scope n_R (l1 l2)%_list_scope l_R pred_R = fun (n1 n2 : nat) (n_R : nat_R n1 n2) => match n_R in (nat_R n3 n4) return (nat_R match n3 with | 0 => n1 | S u => u end match n4 with | 0 => n2 | S u => u end) with | O_R => n_R | S_R _ _ u_R => u_R end : forall n1 n2 : nat, nat_R n1 n2 -> nat_R (Nat.pred n1) (Nat.pred n2) Arguments pred_R (n1 n2)%_nat_scope n_R File "./apps/derive/tests/test_param2.v", line 85, characters 0-30: Warning: Not a truly recursive fixpoint. [non-recursive,fixpoints,default] File "/build/reproducible-path/coq-elpi-3.2.0/apps/derive/elpi/param1_congr.elpi", line 61, characters 20-26: Warning: File "/build/reproducible-path/coq-elpi-3.2.0/apps/derive/elpi/param1_congr.elpi", line 61, characters 20-26 Prefix is linear: name it _Prefix (discard) or Prefix_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] File "/build/reproducible-path/coq-elpi-3.2.0/apps/derive/elpi/param1_trivial.elpi", line 129, characters 25-26: Warning: File "/build/reproducible-path/coq-elpi-3.2.0/apps/derive/elpi/param1_trivial.elpi", line 129, characters 25-26 T is linear: name it _T (discard) or T_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] [TC] For indt «C» : elpi predicate : tc-C search mode is : tc.deterministic modes are : [o, o] In tc-A In tc-A In tc-B In tc-A In tc-B In tc-A c AX (BX AX) : C AX (BX AX) : C AX (BX AX) Query assignments: S = app [global (const «c»), global (const «AX»), app [global (const «BX»), X0]] X1_ = X0 X2_ = global (const «AX») X3_ = app [global (const «BX»), X0] Syntactic constraints: evar X0 (global (indt «A»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.hyp_in_conl.41 elpi.apps.tc.tests.hyp_in_conl.40 elpi.apps.tc.tests.hyp_in_conl.39} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α12 α13 α14 >= Prop WEAK CONSTRAINTS: Query assignments: Len = 0 Rules = [] ((fun (A : Type) (f : Type -> Type) (H : forall x : Type, Y (f x)) => ex_intro (fun g : Type -> Type => Ex g A /\ g nat = g bool) f (conj (Inst2 A f H) ?Goal)) : goal) 2 focused goals (shelved: 1) A : Type f : Type -> Type H : forall x : Type, Y (f x) ============================ Ex ?g A goal 2 is: ?g nat = ?g bool 1 focused goal (shelved: 1) A : Type f : Type -> Type H : forall x : Type, Y (f x) ============================ (fun H0 : Type => f ?e0@{T:=H0}) nat = (fun H0 : Type => f ?e0@{T:=H0}) bool Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: 1: looking for (C ?i) with backtracking Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) Debug: 2: looking for (E 2) without backtracking Debug: 2: no match for (E 2), 0 possibilities Debug: 1.2: exact i1 on (C ?i), 0 subgoal(s) Debug: 2: looking for (E 1) without backtracking Debug: 2.1: exact e1 on (E 1), 0 subgoal(s) Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: 1: looking for (C ?i) with backtracking Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: 1: looking for (E 2) without backtracking Debug: 1: no match for (E 2), 0 possibilities Debug: 1: looking for (C ?i) with backtracking Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) Debug: 2: looking for (E 2) without backtracking Debug: 2: no match for (E 2), 0 possibilities Debug: 1.2: exact i1 on (C ?i), 0 subgoal(s) Debug: 2: looking for (E 1) without backtracking Debug: 2.1: exact e1 on (E 1), 0 subgoal(s) [seal (goal [] X0 (app [global (indt «C»), X1]) X2 []), seal (goal [] X3 (app [global (indt «E»), X1]) X4 [])] Goal is C ?i Solution for C 2 is i2 Goal is E 2 Solution for C 1 is i1 Goal is E 1 Solution for E 1 is e1 (fun H : C Q => ex_intro (fun T : Type -> Type => forall R : Type -> Type, C R -> C T) Q (fun (R : Type -> Type) (_ : C R) => let H1 : C Q := H in H1)) All the remaining goals are on the shelf. 1 goal goal 1 is: C 1 goal ============================ C All the remaining goals are on the shelf. 1 goal goal 1 is: C 1 goal ============================ C (fun x : tele => tele_fmap) Query assignments: S = app [global (const «IsAnimal»), global (indc «Fly»), global (const «dove»)] Query assignments: S = X0 Normalizing app [global (indt «nat2»), global (const «Nat.succ»)] Normalizing app [global (indt «nat2»), global (indc «S»)] Normalizing app [global (indt «nat2»), global (const «Nat.succ»)] File "./apps/tc/tests/test_tc_declare.v", line 8, characters 2-36: Warning: This command does not fully mirror the watned behavior if the class has methods with implicit arguments (those implicits will be neglected) [[TC] Warning,TC.Declare,elpi,default] File "./apps/tc/tests/test_tc_declare.v", line 20, characters 2-53: Warning: This command does not fully mirror the watned behavior if the class has methods with implicit arguments (those implicits will be neglected) [[TC] Warning,TC.Declare,elpi,default] File "./apps/tc/tests/test_tc_declare.v", line 50, characters 2-47: Warning: This command does not fully mirror the watned behavior if the class has methods with implicit arguments (those implicits will be neglected) [[TC] Warning,TC.Declare,elpi,default] File "./apps/tc/tests/test_tc_declare.v", line 65, characters 2-51: Warning: This command does not fully mirror the watned behavior if the class has methods with implicit arguments (those implicits will be neglected) [[TC] Warning,TC.Declare,elpi,default] Instances list for indt «Eqb» is: const «eqBool» with locality [] const «eqProd» with locality [] [TC] For indt «Eqb» : elpi predicate : tc-elpi.apps.tc.examples.tutorial.tc-Eqb search mode is : tc.classic modes are : [o, o] Instances list for indt «Eqb» is: const «eqProd'» with locality [get-option coq:locality local] const «HB» with locality [get-option coq:locality local] const «HA» with locality [get-option coq:locality local] const «eqBool» with locality [] const «eqProd» with locality [] Instances list for indt «Eqb» is: const «eqBool» with locality [] const «eqProd'» with locality [get-option coq:locality global] const «eqProd» with locality [] [TC] For indt «Eqb» : elpi predicate : tc-elpi.apps.tc.examples.tutorial.tc-Eqb search mode is : tc.classic modes are : [o, o] Instances list for indt «Eqb» is: const «eqBool» with locality [] const «eqProd'» with locality [get-option coq:locality global] const «eqProd» with locality [] File "./apps/eltac/tests-stdlib/test_injection.v", line 15, characters 8-14: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Vector" or the deprecated "From Coq Require Vector" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] File "./apps/eltac/tests-stdlib/test_injection.v", line 15, characters 0-15: Warning: Using Vector.t is known to be technically difficult, see . [warn-library-file-stdlib-vector,stdlib-vector,warn-library-file,user-warn,default] File "./apps/eltac/tests-stdlib/test_injection.v", line 16, characters 25-30: Warning: Loading Stdlib without prefix is deprecated. Use "From Stdlib Require Arith" or the deprecated "From Coq Require Arith" for compatibility with older Coq versions. [deprecated-missing-stdlib,deprecated-since-9.0,deprecated,default] (fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) eq_refl : ex1 = (fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) : ex1 = (fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) eq_refl : ex2 = (fun (T : Type) (p : nat -> T -> T -> Prop) (y : T) => partial_app T (p 0) y) : ex2 = (fun (T : Type) (p : nat -> T -> T -> Prop) (y : T) => partial_app T (p 0) y) (ex_intro (fun R : Type -> Type => C (fun _ : Type => R nat) /\ R bool = f nat) f (conj I ?Goal)) eq_refl : ex1 = fun_1 nat (fun _ : nat => nat) : ex1 = fun_1 nat (fun _ : nat => nat) eq_refl : ex2 = fun_1 nat (fun a : nat => a = a + 1) : ex2 = fun_1 nat (fun a : nat => a = a + 1) Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: 1: looking for (Decision (Exists (?P z y) l)) with backtracking Debug: 1.1: simple apply Exists_dec on (Decision (Exists (?P z y) l)), 1 subgoal(s) Debug: 1.1-1 : (forall x : A, Decision (?P z y x)) Debug: 1.1-1: looking for (forall x : A, Decision (?P z y x)) with backtracking Debug: 1.1-1.1: simple apply H on (forall x : A, Decision (?P z y x)), 0 subgoal(s) Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: [tactic-unification] Starting unification: Prop ~= Type Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: ?T ~= D Debug: [tactic-unification] ?T ~= D Debug: [tactic-unification] Leaving unification with success Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: 1: looking for D without backtracking Debug: [tactic-unification] Starting unification: D ~= D Debug: [tactic-unification] Leaving unification with success Debug: 1.1: simple eapply I on D, 1 subgoal(s) Debug: 1.1-1 : (C1 ?T (fun x : Type => ?H x)) Debug: 1.1-1: looking for (C1 ?T (fun x : Type => ?H x)) with backtracking Debug: [tactic-unification] Starting unification: C1 T H ~= C1 ?T (fun x : Type => ?H x) Debug: [tactic-unification] C1 T H ~= C1 ?T (fun x : Type => ?H x) Debug: [tactic-unification] C1 ~= C1 Debug: [tactic-unification] T ~= ?T Debug: [tactic-unification] H ~= fun x : Type => ?H x Debug: [tactic-unification] Leaving unification with failure Debug: 1.1-1: no match for (C1 ?T (fun x : Type => ?H x)), 1 possibilities Debug: [tactic-unification] Starting unification: Prop ~= Type Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: ?T ~= D Debug: [tactic-unification] ?T ~= D Debug: [tactic-unification] Leaving unification with success Debug: Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true Debug: [tactic-unification] Starting unification: Prop ~= Type Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: ?T ~= D Debug: [tactic-unification] ?T ~= D Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: D ~= D Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: C2 T (fun x : Type => H x) ~= C2 ?T ?H Debug: [tactic-unification] C2 T (fun x : Type => H x) ~= C2 ?T ?H Debug: [tactic-unification] C2 ~= C2 Debug: [tactic-unification] T ~= ?T Debug: [tactic-unification] fun x : Type => H x ~= ?H Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: Prop ~= Type Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: ?T ~= forall (T : Type -> Type) (H : forall x : Type, T x), C2 T (fun x : Type => H x) -> D Debug: [tactic-unification] ?T ~= forall (T : Type -> Type) (H : forall x : Type, T x), C2 T (fun x : Type => H x) -> D Debug: [tactic-unification] Leaving unification with success Debug: [tactic-unification] Starting unification: forall (T : Type -> Type) (H : forall x : Type, T x), C2 T H -> D ~= forall (T : Type -> Type) (H : forall x : Type, T x), C2 T (fun x : Type => H x) -> D Debug: [tactic-unification] Leaving unification with success Query assignments: EqP = const «eqU» File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Morphisms.rewrite_relation_fun [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (RelationClasses.equiv_rewrite_relation R) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Morphisms.eq_rewrite_relation A) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_Antisymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.complement_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.PartialOrder_inverse) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.eq_proper_proxy || Init.class_apply @Morphisms.reflexive_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (not_evar R; Init.class_apply @Morphisms.proper_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Morphisms.normalizes [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.flip2) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.flip1) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Morphisms.subrelation_tac T U) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply (Morphisms.forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.subrelation_symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.PartialOrder_inverse) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_Transitive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.flip2) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.flip1) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (CMorphisms.subrelation_tac T U) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply (CMorphisms.forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.subrelation_symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply @CMorphisms.flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.proper_flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.partial_application_tactic [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_subrelation [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_normalization [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_reflexive [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_Transitive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.complement_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_Asymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply @Morphisms.flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply @Morphisms.complement_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @Morphisms.proper_flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Morphisms.partial_application_tactic [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Morphisms.proper_subrelation [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Morphisms.proper_normalization [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Morphisms.proper_reflexive [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.complement_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.flip_Asymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.irreflexivity) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply RelationClasses.flip_Reflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CRelationClasses.irreflexivity) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply CRelationClasses.flip_Reflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) Init.unconvertible [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @CMorphisms.eq_proper_proxy || Init.class_apply @CMorphisms.reflexive_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (not_evar R; Init.class_apply @CMorphisms.proper_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.normalizes [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_Antisymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.flip_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Init.class_apply @RelationClasses.complement_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (Morphisms.reflexive_proxy_tac A R) [elpi.TC.hints,elpi,default] Received the following event [str new_instance, str I4, str A, str Export, int -1] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) rewrite_relation_fun [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (equiv_rewrite_relation R) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (eq_rewrite_relation A) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_Antisymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.complement_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @PartialOrder_inverse) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @eq_proper_proxy || class_apply @reflexive_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (not_evar R; class_apply @proper_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) normalizes [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip2) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip1) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (subrelation_tac T U) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply (forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @subrelation_symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.PartialOrder_inverse) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Transitive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.flip2) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.flip1) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (CMorphisms.subrelation_tac T U) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply (CMorphisms.forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.subrelation_symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply @CMorphisms.flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.proper_flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.partial_application_tactic [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_subrelation [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_normalization [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_reflexive [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_Transitive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @complement_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Asymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply @flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply @complement_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @proper_flip_proper) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) partial_application_tactic [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) proper_subrelation [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) proper_normalization [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) proper_reflexive [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.complement_Irreflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.flip_Asymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @irreflexivity) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply flip_Reflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CRelationClasses.irreflexivity) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply CRelationClasses.flip_Reflexive) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) unconvertible [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @CMorphisms.eq_proper_proxy || class_apply @CMorphisms.reflexive_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (not_evar R; class_apply @CMorphisms.proper_proper_proxy) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.normalizes [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Antisymmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @flip_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (class_apply @complement_Symmetric) [elpi.TC.hints,elpi,default] File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (reflexive_proxy_tac A R) [elpi.TC.hints,elpi,default] Inductive elpi.apps.derive.tests.test_param1.Coverage.is_unit Inductive elpi.apps.derive.tests.test_param1.OtherTests.is_unit (shorter name to refer to it in current context is OtherTests.is_unit) Debug: [elpitime] Elpi: get_and_compile 0.0001 Debug: [TC] - Time of instance search is 0.000087 Debug: [TC] - Time of refine.typecheck is 0.000232 Debug: [elpitime] Elpi: query-compilation:0.0009 static-check:0.0000 optimization:0.0001 runtime:0.0102 (with success) Finished transaction in 0.011 secs (0.003u,0.s) (successful) Query assignments: T = c0 \ prod `c` X0 c1 \ prod `_` (prod `a` X1 c2 \ app [global X2, app [c0, c2], c1]) c2 \ app [global X3, c0, c1] Good padding from here Query assignments: ToCompile = prod `T` (prod `_` (sort (typ X0)) c0 \ prod `_` (sort (typ X1)) c1 \ prod `_` (sort (typ X2)) c2 \ sort (typ X3)) c0 \ prod `_` (prod `a` (sort (typ X4)) c1 \ app [global (indt «d»), c1, c0]) c1 \ app [global (indt «c»), c0] X1_ = X0 X2_ = X1 X3_ = X2 X4_ = X3 X5_ = X4 Finished transaction in 0.145 secs (0.049u,0.s) (successful) Query assignments: A = c0 \ c0 A2 = X0 X6_ = X1 X7_ = X2 Query assignments: N = s (s z) X10_ = X0 X11_ = X1 X8_ = «elpi.apps.tc.tests.test.182» X9_ = «elpi.apps.tc.tests.test.183» Syntactic constraints: {c0 c1} : decl c1 `elpi_ctx_entry_1_` X0 ?- evar (X1 c1) (sort (typ «elpi.apps.tc.tests.test.185»)) (X1 c1) /* suspended on X1 */ {c0} : evar X0 (sort (typ «elpi.apps.tc.tests.test.184»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.test.185 elpi.apps.tc.tests.test.184 elpi.apps.tc.tests.test.183 elpi.apps.tc.tests.test.182} |= ALGEBRAIC UNIVERSES: {elpi.apps.tc.tests.test.183 elpi.apps.tc.tests.test.182} FLEXIBLE UNIVERSES: elpi.apps.tc.tests.test.183 elpi.apps.tc.tests.test.182 SORTS: α133 α134 WEAK CONSTRAINTS: Query assignments: N = s z X12_ = X0 X13_ = «elpi.apps.tc.tests.test.321» X14_ = «elpi.apps.tc.tests.test.322» Syntactic constraints: {c0} : evar X0 (sort (typ «elpi.apps.tc.tests.test.323»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.test.323 elpi.apps.tc.tests.test.322 elpi.apps.tc.tests.test.321} |= ALGEBRAIC UNIVERSES: {elpi.apps.tc.tests.test.322 elpi.apps.tc.tests.test.321} FLEXIBLE UNIVERSES: elpi.apps.tc.tests.test.322 elpi.apps.tc.tests.test.321 SORTS: α199 WEAK CONSTRAINTS: Query assignments: X15_ = X0 Syntactic constraints: evar X1 X2 X1 /* suspended on X1 */ evar X3 (sort (typ «elpi.apps.tc.tests.test.367»)) X2 /* suspended on X3, X2 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.test.367} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α216 WEAK CONSTRAINTS: Query assignments: N = s (s z) X16_ = «elpi.apps.tc.tests.test.400» X17_ = «elpi.apps.tc.tests.test.401» X18_ = «elpi.apps.tc.tests.test.402» X19_ = «elpi.apps.tc.tests.test.403» X20_ = X0 Syntactic constraints: {c0 c1} : evar X0 (sort (typ «elpi.apps.tc.tests.test.404»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.test.404 elpi.apps.tc.tests.test.403 elpi.apps.tc.tests.test.402 elpi.apps.tc.tests.test.401 elpi.apps.tc.tests.test.400} |= ALGEBRAIC UNIVERSES: {elpi.apps.tc.tests.test.403 elpi.apps.tc.tests.test.402 elpi.apps.tc.tests.test.401 elpi.apps.tc.tests.test.400} FLEXIBLE UNIVERSES: elpi.apps.tc.tests.test.403 elpi.apps.tc.tests.test.402 elpi.apps.tc.tests.test.401 elpi.apps.tc.tests.test.400 SORTS: α232 WEAK CONSTRAINTS: fun `_` X0 c0 \ global (indc «O») Query assignments: P = c0 \ c1 \ fun `_` X1 c2 \ global (indc «O») X22_ = X1 X23_ = X1 app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X0 c0 \ tc.maybe-eta-tm (fun `y` (X1 c0) c1 \ app [X2, c1, c0]) [c0]) []] Query assignments: A = c0 \ fun `y` (X1 c0) c1 \ app [X2, c1, c0] Expected = app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X0 c0 \ tc.maybe-eta-tm (fun `y` (X1 c0) c1 \ app [X2, c1, c0]) [c0]) []] F = X2 Inn = c0 \ tc.maybe-eta-tm (fun `y` (X1 c0) c1 \ app [X2, c1, c0]) [c0] T = app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X0 c0 \ tc.maybe-eta-tm (fun `y` (X1 c0) c1 \ app [X2, c1, c0]) [c0]) []] X24_ = X0 X25_ = c0 \ X1 c0 Syntactic constraints: evar X2 X3 X2 /* suspended on X2 */ {c0} : decl c0 `x` X0 ?- evar (X1 c0) (sort (typ «elpi.apps.tc.tests.test.479»)) (X1 c0) /* suspended on X1 */ evar X0 (sort (typ «elpi.apps.tc.tests.test.478»)) X0 /* suspended on X0 */ evar X4 (sort (typ «elpi.apps.tc.tests.test.480»)) X3 /* suspended on X4, X3 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.test.480 elpi.apps.tc.tests.test.479 elpi.apps.tc.tests.test.478} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α291 α292 α293 WEAK CONSTRAINTS: Query assignments: A = X0 Body1 = c0 \ tc.maybe-eta-tm (fun `y` X1 c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c0, c1]) [ c0] Body2 = c0 \ c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c0, c1] C = app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X3 c0 \ tc.maybe-eta-tm (fun `y` X1 c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c0, c1]) [c0]) []] Expected = app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X3 c0 \ tc.maybe-eta-tm (fun `y` X1 c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c0, c1]) [c0]) []] X = X2 X26_ = X3 X27_ = c0 \ X1 Y = c0 \ c1 \ app [X0, c0, c1] Query assignments: A = X0 Body1 = c0 \ tc.maybe-eta-tm (fun `y` X1 c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c1, c0]) [ c0] Body2 = c0 \ c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c1, c0] C = app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X3 c0 \ tc.maybe-eta-tm (fun `y` X1 c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c1, c0]) [c0]) []] Expected = app [global (indt «c1»), tc.maybe-eta-tm (fun `x` X3 c0 \ tc.maybe-eta-tm (fun `y` X1 c1 \ tc.maybe-llam-tm (app [app [X2], app [X0, c0, c1], c1]) [c1, c0]) [c0]) []] X = X2 X28_ = X3 X29_ = c0 \ X1 Y = c0 \ c1 \ app [X0, c0, c1] Syntactic constraints: {c0} : decl c0 `x` X3 ?- evar X1 (sort (typ «elpi.apps.tc.tests.test.616»)) X1 /* suspended on X1 */ evar X0 X4 X0 /* suspended on X0 */ evar X2 X5 X2 /* suspended on X2 */ evar X3 (sort (typ «elpi.apps.tc.tests.test.615»)) X3 /* suspended on X3 */ evar X6 (sort (typ «elpi.apps.tc.tests.test.618»)) X4 /* suspended on X6, X4 */ evar X7 (sort (typ «elpi.apps.tc.tests.test.617»)) X5 /* suspended on X7, X5 */ Universe constraints: UNIVERSES: {elpi.apps.tc.tests.test.618 elpi.apps.tc.tests.test.617 elpi.apps.tc.tests.test.616 elpi.apps.tc.tests.test.615} |= ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: SORTS: α343 α344 α345 α346 WEAK CONSTRAINTS: {| a := 3; b := false; c := tt |} : foo : foo {| a := 1 + 2; b := false; c := tt |} : foo : foo {| a := 1 + 2; b := false; c := tt |} : foo : foo {| a := ?n; b := ?e2; c := tt |} : foo : foo where ?n : [ |- nat] ?e2 : [ |- bool] {| a := ?n; b := ?e2; c := tt |} : foo where ?n : [ |- nat] ?e2 : [ |- bool] fun x : foo => over foo__a (fun _ : nat => 3) x : foo : foo -> foo where ?e8 : [x : foo |- Type] (x cannot be used) « unresolved record » : unresolved_record fun x : baz => over (compose (compose baz__w bar__f) foo__c) (fun _ : nat => 3) x : baz : baz -> baz fun x : baz => over (compose (compose baz__w bar__f) foo__c) (fun=> 3) x : baz : baz -> baz Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments peano.Succ p = false : bool peano.eqb_OK : forall x1 x2 : peano, reflect (x1 = x2) (peano.eqb x1 x2) peano.eqb_OK is not universe polymorphic Arguments peano.eqb_OK x1 x2 peano.eqb_OK is opaque Expands to: Constant elpi.apps.derive.examples.readme.peano.eqb_OK Declared in library elpi.apps.derive.examples.readme, line 4, characters 0-60 Derivation param1 on const «Nat.add» Derivation param1 on const «Nat.add» took 0.007211 Derivation param2 on const «Nat.add» Derivation param2 on const «Nat.add» took 0.007986 Derivation eqb_alias on const «Nat.add» Derivation eqb_alias on const «Nat.add» failed, continuing Derivation param1_congr on const «Nat.add» Derivation param1_congr on const «Nat.add» took 0.000007 Derivation param1_inhab on const «Nat.add» Derivation param1_inhab on const «Nat.add» failed, continuing Derivation eqbcorrect_alias on const «Nat.add» Derivation eqbcorrect_alias on const «Nat.add» failed, continuing Derivation param1_trivial on const «Nat.add» Derivation param1_trivial on const «Nat.add» failed, continuing Derivation eqbOK_alias on const «Nat.add» Derivation eqbOK_alias on const «Nat.add» failed, continuing is_add : forall n : nat, is_nat n -> forall m : nat, is_nat m -> is_nat (n + m) more : forall A : Type, A -> tickle A -> tickle A : forall A : Type, A -> tickle A -> tickle A tickle.eqb : forall A : Type, (A -> A -> bool) -> tickle A -> tickle A -> bool : forall A : Type, (A -> A -> bool) -> tickle A -> tickle A -> bool tickle.eqb_OK : forall (A : Type) (f : A -> A -> bool), (forall x y : A, reflect (x = y) (f x y)) -> forall x y : tickle A, reflect (x = y) (tickle.eqb A f x y) : forall (A : Type) (f : A -> A -> bool), (forall x y : A, reflect (x = y) (f x y)) -> forall x y : tickle A, reflect (x = y) (tickle.eqb A f x y) tickle.map : forall A B : Type, (A -> B) -> tickle A -> tickle B : forall A B : Type, (A -> B) -> tickle A -> tickle B tickle.tickle_R : forall A B : Type, (A -> B -> Type) -> tickle A -> tickle B -> Type : forall A B : Type, (A -> B -> Type) -> tickle A -> tickle B -> Type Starting module rtree Declaring inductive parameter A explicit (sort (typ «elpi.apps.derive.examples.usage.224»)) c0 \ inductive rtree tt (arity (sort (typ «elpi.apps.derive.examples.usage.225»))) c1 \ [constructor Leaf (arity (prod `a` c0 c2 \ c1)), constructor Node (arity (prod `l` (app [global (indt «tickle.tickle»), c1]) c2 \ c1))] Deriving Derivation map on indt «rtree» Derivation map on indt «rtree» took 0.006047 Derivation lens on indt «rtree» Derivation lens on indt «rtree» failed, continuing Derivation param1 on indt «rtree» Derivation param1 on indt «rtree» took 0.009925 Derivation param2 on indt «rtree» Derivation param2 on indt «rtree» took 0.015585 Derivation tag on indt «rtree» Derivation tag on indt «rtree» took 0.005272 Derivation eqType_ast on indt «rtree» Derivation eqType_ast on indt «rtree» took 0.000400 Derivation lens_laws on indt «rtree» Derivation lens_laws on indt «rtree» took 0.000056 Derivation param1_congr on indt «rtree» Derivation param1_congr on indt «rtree» took 0.002461 Derivation param1_inhab on indt «rtree» Derivation param1_inhab on indt «rtree» took 0.006241 Derivation param1_functor on indt «rtree» Derivation param1_functor on indt «rtree» took 0.006062 Derivation fields on indt «rtree» Derivation fields on indt «rtree» took 0.016191 Derivation param1_trivial on indt «rtree» Derivation param1_trivial on indt «rtree» took 0.090486 Derivation induction on indt «rtree» Derivation induction on indt «rtree» took 0.003362 Derivation eqb on indt «rtree» Derivation eqb on indt «rtree» took 0.014208 Derivation eqbcorrect on indt «rtree» Derivation eqbcorrect on indt «rtree» took 0.042159 Derivation eqbOK on indt «rtree» Derivation eqbOK on indt «rtree» took 0.006514 Done rtree.induction : forall (A : Type) (PA : A -> Type) (P : rtree A -> Type), (forall a : A, PA a -> P (Leaf A a)) -> (forall l : tickle (rtree A), tickle.is_tickle (rtree A) P l -> P (Node A l)) -> forall x : rtree A, rtree.is_rtree A PA x -> P x : forall (A : Type) (PA : A -> Type) (P : rtree A -> Type), (forall a : A, PA a -> P (Leaf A a)) -> (forall l : tickle (rtree A), tickle.is_tickle (rtree A) P l -> P (Node A l)) -> forall x : rtree A, rtree.is_rtree A PA x -> P x Starting module Box Declaring inductive parameter A explicit (sort (typ «elpi.apps.derive.examples.usage.425»)) c0 \ record Box (sort (typ «elpi.apps.derive.examples.usage.426»)) Build_Box (field [coercion off, canonical tt] contents c0 c1 \ field [coercion off, canonical tt] tag (global (indt «nat»)) c2 \ end-record) Deriving Skipping derivation map on indt «Box» since the user did not select it Derivation lens on indt «Box» Derivation lens on indt «Box» took 0.007623 Skipping derivation param1 on indt «Box» since the user did not select it Skipping derivation param2 on indt «Box» since the user did not select it Derivation tag on indt «Box» Derivation tag on indt «Box» took 0.005347 Derivation eqType_ast on indt «Box» Derivation eqType_ast on indt «Box» took 0.024791 Derivation lens_laws on indt «Box» Derivation lens_laws on indt «Box» took 0.024952 Skipping derivation param1_congr on indt «Box» since the user did not select it Skipping derivation param1_inhab on indt «Box» since the user did not select it Skipping derivation param1_functor on indt «Box» since the user did not select it Derivation fields on indt «Box» Derivation fields on indt «Box» took 0.013528 Skipping derivation param1_trivial on indt «Box» since the user did not select it Skipping derivation induction on indt «Box» since the user did not select it Derivation eqb on indt «Box» Derivation eqb on indt «Box» took 0.007331 Skipping derivation eqbcorrect on indt «Box» since the user did not select it Skipping derivation eqbOK on indt «Box» since the user did not select it Done Box.eqb : forall A : Type, (A -> A -> bool) -> Box A -> Box A -> bool : forall A : Type, (A -> A -> bool) -> Box A -> Box A -> bool @Box._tag : forall A : Type, Lens (Box A) (Box A) nat nat : forall A : Type, Lens (Box A) (Box A) nat nat Box._tag_set_set : forall (A : Type) (r : Box A) (y x : nat), set Box._tag x (set Box._tag y r) = set Box._tag x r : forall (A : Type) (r : Box A) (y x : nat), set Box._tag x (set Box._tag y r) = set Box._tag x r Box._tag_contents_exchange : forall (A : Type) (r : Box A) (x : nat) (y : A), set Box._tag x (set Box._contents y r) = set Box._contents y (set Box._tag x r) : forall (A : Type) (r : Box A) (x : nat) (y : A), set Box._tag x (set Box._contents y r) = set Box._contents y (set Box._tag x r) nat_eqb_OK : forall x y : nat, reflect (x = y) (nat_eqb x y) : forall x y : nat, reflect (x = y) (nat_eqb x y) Derivation map on indt «a» Derivation map on indt «a» took 0.000900 Derivation lens on indt «a» Derivation lens on indt «a» failed, continuing Derivation param1 on indt «a» Derivation param1 on indt «a» took 0.002271 Derivation param2 on indt «a» Derivation param2 on indt «a» took 0.002481 Derivation tag on indt «a» Derivation tag on indt «a» took 0.000771 Derivation eqType_ast on indt «a» Derivation eqType_ast on indt «a» took 0.000175 Derivation lens_laws on indt «a» Derivation lens_laws on indt «a» took 0.000072 Derivation param1_congr on indt «a» Derivation param1_congr on indt «a» took 0.000461 Derivation param1_inhab on indt «a» Derivation param1_inhab on indt «a» took 0.000784 Derivation param1_functor on indt «a» Derivation param1_functor on indt «a» took 0.000695 Derivation fields on indt «a» Derivation fields on indt «a» took 0.002812 Derivation param1_trivial on indt «a» Derivation param1_trivial on indt «a» took 0.001142 Derivation induction on indt «a» Derivation induction on indt «a» took 0.000945 Derivation eqb on indt «a» Derivation eqb on indt «a» took 0.001559 Derivation eqbcorrect on indt «a» Derivation eqbcorrect on indt «a» took 0.003100 Derivation eqbOK on indt «a» Derivation eqbOK on indt «a» took 0.001032 Skipping derivation map on indt «b» since the user did not select it Skipping derivation lens on indt «b» since the user did not select it Derivation param1 on indt «b» Derivation param1 on indt «b» took 0.002640 Skipping derivation param2 on indt «b» since the user did not select it Derivation tag on indt «b» Derivation tag on indt «b» took 0.000793 Derivation eqType_ast on indt «b» Derivation eqType_ast on indt «b» took 0.000237 Skipping derivation lens_laws on indt «b» since the user did not select it Skipping derivation param1_congr on indt «b» since the user did not select it Derivation param1_inhab on indt «b» Derivation param1_inhab on indt «b» took 0.000856 Derivation param1_functor on indt «b» Derivation param1_functor on indt «b» took 0.000840 Derivation fields on indt «b» Derivation fields on indt «b» took 0.003635 Skipping derivation param1_trivial on indt «b» since the user did not select it Derivation induction on indt «b» Derivation induction on indt «b» took 0.001068 Derivation eqb on indt «b» Derivation eqb on indt «b» took 0.002038 Derivation eqbcorrect on indt «b» Derivation eqbcorrect on indt «b» took 0.025733 Derivation eqbOK on indt «b» Derivation eqbOK on indt «b» took 0.005445 a_eqb : a -> a -> bool b_eqb : b -> b -> bool File "./apps/derive/examples/usage.v", line 52, characters 0-92: Warning: Global name tag is taken, using tag1 instead [elpi.renamed,elpi,default] Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Succ p = false : bool peano_eqb_OK : forall x1 x2 : peano, reflect (x1 = x2) (peano_eqb x1 x2) Notation peano := peano.peano Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments peano.Succ p Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments peano.Succ p = false : bool peano.eqb_OK : forall x1 x2 : peano, reflect (x1 = x2) (peano.eqb x1 x2) Notation peano := Peano.peano Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Peano.Succ p Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Peano.Succ p = false : bool Peano.eqb_OK : forall x1 x2 : peano, reflect (x1 = x2) (Peano.eqb x1 x2) Notation peano := Peano.peano Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Peano.Succ p Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Peano.Succ p Module Peano := Struct Inductive peano : Set := Zero : example4.peano | Succ : example4.peano -> example4.peano. Definition peano_rect : forall P : example4.peano -> Type, P example4.Zero -> (forall p : example4.peano, P p -> P (example4.Succ p)) -> forall p : example4.peano, P p. Definition peano_ind : forall P : example4.peano -> Prop, P example4.Zero -> (forall p : example4.peano, P p -> P (example4.Succ p)) -> forall p : example4.peano, P p. Definition peano_rec : forall P : example4.peano -> Set, P example4.Zero -> (forall p : example4.peano, P p -> P (example4.Succ p)) -> forall p : example4.peano, P p. Definition peano_sind : forall P : example4.peano -> SProp, P example4.Zero -> (forall p : example4.peano, P p -> P (example4.Succ p)) -> forall p : example4.peano, P p. Definition Peano_map : example4.peano -> example4.peano. Inductive is_peano : example4.peano -> Type := is_Zero : is_peano example4.Zero | is_Succ : forall p : example4.peano, is_peano p -> is_peano (example4.Succ p). Definition is_peano_rect : forall P : forall s1 : example4.peano, is_peano s1 -> Type, P example4.Zero is_Zero -> (forall (p : example4.peano) (Pp : is_peano p), P p Pp -> P (example4.Succ p) (is_Succ p Pp)) -> forall (s1 : example4.peano) (i : is_peano s1), P s1 i. Definition is_peano_ind : forall P : forall s1 : example4.peano, is_peano s1 -> Prop, P example4.Zero is_Zero -> (forall (p : example4.peano) (Pp : is_peano p), P p Pp -> P (example4.Succ p) (is_Succ p Pp)) -> forall (s1 : example4.peano) (i : is_peano s1), P s1 i. Definition is_peano_rec : forall P : forall s1 : example4.peano, is_peano s1 -> Set, P example4.Zero is_Zero -> (forall (p : example4.peano) (Pp : is_peano p), P p Pp -> P (example4.Succ p) (is_Succ p Pp)) -> forall (s1 : example4.peano) (i : is_peano s1), P s1 i. Definition is_peano_sind : forall P : forall s1 : example4.peano, is_peano s1 -> SProp, P example4.Zero is_Zero -> (forall (p : example4.peano) (Pp : is_peano p), P p Pp -> P (example4.Succ p) (is_Succ p Pp)) -> forall (s1 : example4.peano) (i : is_peano s1), P s1 i. Definition reali_is_peano : reali_db example4.peano is_peano. Definition reali_is_peano_Zero : reali_db example4.Zero is_Zero. Definition reali_is_peano_Succ : reali_db example4.Succ is_Succ. Inductive peano_R : example4.peano -> example4.peano -> Set := Zero_R : peano_R example4.Zero example4.Zero | Succ_R : forall p1 p2 : example4.peano, peano_R p1 p2 -> peano_R (example4.Succ p1) (example4.Succ p2). Definition peano_R_rect : forall P : forall s1 s2 : example4.peano, peano_R s1 s2 -> Type, P example4.Zero example4.Zero Zero_R -> (forall (p1 p2 : example4.peano) (p_R : peano_R p1 p2), P p1 p2 p_R -> P (example4.Succ p1) (example4.Succ p2) (Succ_R p1 p2 p_R)) -> forall (s1 s2 : example4.peano) (p : peano_R s1 s2), P s1 s2 p. Definition peano_R_ind : forall P : forall s1 s2 : example4.peano, peano_R s1 s2 -> Prop, P example4.Zero example4.Zero Zero_R -> (forall (p1 p2 : example4.peano) (p_R : peano_R p1 p2), P p1 p2 p_R -> P (example4.Succ p1) (example4.Succ p2) (Succ_R p1 p2 p_R)) -> forall (s1 s2 : example4.peano) (p : peano_R s1 s2), P s1 s2 p. Definition peano_R_rec : forall P : forall s1 s2 : example4.peano, peano_R s1 s2 -> Set, P example4.Zero example4.Zero Zero_R -> (forall (p1 p2 : example4.peano) (p_R : peano_R p1 p2), P p1 p2 p_R -> P (example4.Succ p1) (example4.Succ p2) (Succ_R p1 p2 p_R)) -> forall (s1 s2 : example4.peano) (p : peano_R s1 s2), P s1 s2 p. Definition peano_R_sind : forall P : forall s1 s2 : example4.peano, peano_R s1 s2 -> SProp, P example4.Zero example4.Zero Zero_R -> (forall (p1 p2 : example4.peano) (p_R : peano_R p1 p2), P p1 p2 p_R -> P (example4.Succ p1) (example4.Succ p2) (Succ_R p1 p2 p_R)) -> forall (s1 s2 : example4.peano) (p : peano_R s1 s2), P s1 s2 p. Definition param_peano_R : param_db example4.peano example4.peano peano_R. Definition param_Zero_R : param_db example4.Zero example4.Zero Zero_R. Definition param_Succ_R : param_db example4.Succ example4.Succ Succ_R. Definition Peano_tag : example4.peano -> BinNums.positive. Definition congr_is_Zero : is_Zero = is_Zero. Definition congr_is_Succ : forall (x : example4.peano) (p1 p2 : is_peano x), p1 = p2 -> is_Succ x p1 = is_Succ x p2. Definition is_peano_inhab : forall x : example4.peano, is_peano x. Definition is_peano_functor : forall x : example4.peano, is_peano x -> is_peano x. Record box_peano_Zero : Type := Box_peano_Zero { }. Record box_peano_Succ : Type := Box_peano_Succ { Box_peano_Succ_0 : example4.peano }. Definition Box_peano_Succ_0 : box_peano_Succ -> example4.peano. Definition Peano_fields_t : BinNums.positive -> Type. Definition Peano_fields : forall i : example4.peano, Peano_fields_t (Peano_tag i). Definition Peano_construct : forall p : BinNums.positive, Peano_fields_t p -> option example4.peano. Parameter Peano_constructP : forall i : example4.peano, Peano_construct (Peano_tag i) (Peano_fields i) = Some i. Definition is_peano_trivial : forall x : example4.peano, {u : is_peano x & forall v : is_peano x, u = v}. Definition Peano_induction : forall P : example4.peano -> Type, P example4.Zero -> (forall p : example4.peano, P p -> P (example4.Succ p)) -> forall s1 : example4.peano, is_peano s1 -> P s1. Definition Peano_eqb_fields : (example4.peano -> example4.peano -> bool) -> forall x : BinNums.positive, Peano_fields_t x -> Peano_fields_t x -> bool. Definition Peano_eqb : example4.peano -> example4.peano -> bool. Parameter Peano_eqb_correct : forall x : example4.peano, eqb_correct_on Peano_eqb x. Parameter Peano_eqb_refl : forall x : example4.peano, eqb_refl_on Peano_eqb x. Parameter Peano_eqb_OK : forall x1 x2 : example4.peano, reflect (x1 = x2) (Peano_eqb x1 x2). Parameter Peano_eqb_OK_sumbool : forall x y : example4.peano, {x = y} + {x <> y}. End = false : bool Peano.Peano_eqb_OK : forall x1 x2 : peano, reflect (x1 = x2) (Peano.Peano_eqb x1 x2) Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Succ p = false : bool eqb_OK : forall x1 x2 : peano, reflect (x1 = x2) (eqb x1 x2) Inductive peano : Set := Zero : Peano.peano | Succ : Peano.peano -> Peano.peano. Arguments Peano.Succ p = false : bool Peano.eqb_OK : forall x1 x2 : Peano.peano, reflect (x1 = x2) (Peano.eqb x1 x2) Finished transaction in 1.523 secs (0.622u,0.04s) (successful) Finished transaction in 33.41 secs (14.63u,0.041s) (successful) Finished transaction in 0.466 secs (0.236u,0.s) (successful) File "./apps/tc/tests/tlc.v", line 44, characters 4-49: Error: Timeout! Raised at Unicode.next_utf8 in file "clib/unicode.ml", line 153, characters 16-34 Called from Unicode.ident_refutation.aux in file "clib/unicode.ml", line 258, characters 26-39 Called from Unicode.ident_refutation in file "clib/unicode.ml", line 262, characters 16-21 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from VernacControl.under_control in file "vernac/vernacControl.ml", line 206, characters 10-60 Called from Vernacinterp.interp_control_gen in file "vernac/vernacinterp.ml", lines 36-40, characters 4-7 Called from Util.try_finally in file "lib/util.ml", line 133, characters 16-19 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Util.try_finally in file "lib/util.ml", line 137, characters 6-32 Called from Flags.with_modified_ref in file "lib/flags.ml", line 17, characters 14-17 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Vernacinterp.interp_gen in file "vernac/vernacinterp.ml", line 151, characters 16-41 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Vernacinterp.interp in file "vernac/vernacinterp.ml", line 165, characters 15-115 Called from Stm.Reach.known_state.reach.(fun) in file "stm/stm.ml", line 2025, characters 20-47 Called from Stm.Reach.known_state.resilient_tactic in file "stm/stm.ml", line 1964, characters 10-14 Called from Stm.State.define in file "stm/stm.ml", line 963, characters 6-10 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Stm.Reach.known_state.reach in file "stm/stm.ml", lines 2203-2204, characters 4-74 Called from Stm.observe in file "stm/stm.ml", line 2295, characters 4-60 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Vernac.interp_vernac in file "toplevel/vernac.ml", line 83, characters 29-50 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Flags.with_modified_ref in file "lib/flags.ml", line 17, characters 14-17 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Util.try_finally in file "lib/util.ml", line 133, characters 16-19 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Util.try_finally in file "lib/util.ml", line 137, characters 6-32 Called from Vernac.load_vernac_core.loop in file "toplevel/vernac.ml", lines 127-145, characters 8-12 Called from Vernac.load_vernac_core in file "toplevel/vernac.ml", line 150, characters 6-19 Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 Called from Vernac.load_vernac in file "toplevel/vernac.ml", line 227, characters 30-83 Called from Ccompile.compile in file "toplevel/ccompile.ml", line 68, characters 18-78 Called from Ccompile.compile in file "toplevel/ccompile.ml" (inlined), line 107, characters 2-59 Called from Ccompile.compile_file in file "toplevel/ccompile.ml", line 116, characters 4-61 Called from Coqc.coqc_main in file "toplevel/coqc.ml", lines 38-39, characters 2-56 Called from Coqc.coqc_run in file "toplevel/coqc.ml", line 54, characters 4-36 make[2]: *** [Makefile:10: all] Error 1 make[2]: Leaving directory '/build/reproducible-path/coq-elpi-3.2.0' make[1]: *** [debian/rules:17: override_dh_auto_build] Error 2 make[1]: Leaving directory '/build/reproducible-path/coq-elpi-3.2.0' make: *** [debian/rules:14: binary-arch] Error 2 dpkg-buildpackage: error: debian/rules binary-arch subprocess failed with exit status 2 -------------------------------------------------------------------------------- Build finished at 2026-02-20T12:45:57Z Finished -------- +------------------------------------------------------------------------------+ | Cleanup Fri, 20 Feb 2026 12:45:57 +0000 | +------------------------------------------------------------------------------+ Purging /build/reproducible-path Not cleaning session: cloned chroot in use E: Build failure (dpkg-buildpackage died with exit 2) +------------------------------------------------------------------------------+ | Summary Fri, 20 Feb 2026 12:45:59 +0000 | +------------------------------------------------------------------------------+ Build Architecture: arm64 Build Type: any Build-Space: 327884 Build-Time: 54 Distribution: unstable Fail-Stage: build Host Architecture: arm64 Install-Time: 7 Job: /srv/rebuilderd/tmp/rebuilderda268Qx/inputs/coq-elpi_3.2.0-3.dsc Machine Architecture: arm64 Package: coq-elpi Package-Time: 85 Source-Version: 3.2.0-3 Space: 327884 Status: attempted Version: 3.2.0-3+b1 -------------------------------------------------------------------------------- Finished at 2026-02-20T12:45:57Z Build needed 00:01:25, 327884k disk space E: Build failure (dpkg-buildpackage died with exit 2) sbuild failed