https://launchpad.net/ubuntu/+source/coq-elpi/1.19.3-2build1/+build/27784850 RUN: /usr/share/launchpad-buildd/bin/builder-prep Kernel version: Linux bos03-arm64-023 5.4.0-171-generic #189-Ubuntu SMP Fri Jan 5 14:23:34 UTC 2024 aarch64 Buildd toolchain package versions: launchpad-buildd_235~645~ubuntu20.04.1 python3-lpbuildd_235~645~ubuntu20.04.1 sbuild_0.79.0-1ubuntu1 git-build-recipe_0.3.6 git_1:2.25.1-1ubuntu3.11 dpkg-dev_1.19.7ubuntu3.2 python3-debian_0.1.36ubuntu1.1. Syncing the system clock with the buildd NTP service... 17 Feb 08:03:22 ntpdate[1884]: adjust time server 10.211.37.1 offset -0.003110 sec RUN: /usr/share/launchpad-buildd/bin/in-target unpack-chroot --backend=chroot --series=noble --arch=armhf PACKAGEBUILD-27784850 --image-type chroot /home/buildd/filecache-default/59612f0fc5bae33f6226b6e60c2e882b82c04bd0 Creating target for build PACKAGEBUILD-27784850 RUN: /usr/share/launchpad-buildd/bin/in-target mount-chroot --backend=chroot --series=noble --arch=armhf PACKAGEBUILD-27784850 Starting target for build PACKAGEBUILD-27784850 RUN: /usr/share/launchpad-buildd/bin/in-target override-sources-list --backend=chroot --series=noble --arch=armhf PACKAGEBUILD-27784850 'deb http://ftpmaster.internal/ubuntu noble main universe' 'deb http://ftpmaster.internal/ubuntu noble-security main universe' 'deb http://ftpmaster.internal/ubuntu noble-updates main universe' 'deb http://ftpmaster.internal/ubuntu noble-proposed main universe' Overriding sources.list in build-PACKAGEBUILD-27784850 RUN: /usr/share/launchpad-buildd/bin/in-target update-debian-chroot --backend=chroot --series=noble --arch=armhf PACKAGEBUILD-27784850 Updating target for build PACKAGEBUILD-27784850 Get:1 http://ftpmaster.internal/ubuntu noble InRelease [255 kB] Get:2 http://ftpmaster.internal/ubuntu noble-security InRelease [90.7 kB] Get:3 http://ftpmaster.internal/ubuntu noble-updates InRelease [90.7 kB] Get:4 http://ftpmaster.internal/ubuntu noble-proposed InRelease [117 kB] Get:5 http://ftpmaster.internal/ubuntu noble/main armhf Packages [1352 kB] Get:6 http://ftpmaster.internal/ubuntu noble/main Translation-en [519 kB] Get:7 http://ftpmaster.internal/ubuntu noble/universe armhf Packages [14.3 MB] Get:8 http://ftpmaster.internal/ubuntu noble/universe Translation-en [6028 kB] Get:9 http://ftpmaster.internal/ubuntu noble-proposed/main armhf Packages [197 kB] Get:10 http://ftpmaster.internal/ubuntu noble-proposed/main Translation-en [71.5 kB] Get:11 http://ftpmaster.internal/ubuntu noble-proposed/universe armhf Packages [912 kB] Get:12 http://ftpmaster.internal/ubuntu noble-proposed/universe Translation-en [403 kB] Fetched 24.4 MB in 3s (7193 kB/s) Reading package lists... Reading package lists... Building dependency tree... Reading state information... Calculating upgrade... The following packages were automatically installed and are no longer required: libperl5.36 libunistring2 perl-modules-5.36 Use 'sudo apt autoremove' to remove them. The following NEW packages will be installed: cpp-13-arm-linux-gnueabihf cpp-arm-linux-gnueabihf g++-13-arm-linux-gnueabihf g++-arm-linux-gnueabihf gcc-13-arm-linux-gnueabihf gcc-14-base gcc-arm-linux-gnueabihf libperl5.38 libunistring5 perl-modules-5.38 The following packages will be upgraded: apt apt-utils base-files base-passwd bash bash-completion binutils binutils-arm-linux-gnueabihf binutils-common bsdextrautils bsdutils ca-certificates coreutils cpp cpp-13 debconf debconf-i18n debianutils diffutils dpkg dpkg-dev fakeroot g++ g++-13 gcc gcc-13 gcc-13-base gpg gpg-agent gpgconf gpgv grep init init-system-helpers krb5-locales libacl1 libapparmor1 libapt-pkg6.0 libargon2-1 libasan8 libatomic1 libattr1 libaudit-common libaudit1 libbinutils libblkid1 libc-bin libc-dev-bin libc6 libc6-dev libcap-ng0 libcc1-0 libcrypt-dev libcrypt1 libcryptsetup12 libctf-nobfd0 libctf0 libdb5.3 libdebconfclient0 libdpkg-perl libfakeroot libfdisk1 libffi8 libgcc-13-dev libgcc-s1 libgcrypt20 libgdbm-compat4 libgdbm6 libgnutls30 libgomp1 libgpg-error-l10n libgpg-error0 libgssapi-krb5-2 libidn2-0 libip4tc2 libk5crypto3 libkeyutils1 libkmod2 libkrb5-3 libkrb5support0 liblocale-gettext-perl liblzma5 libmd0 libmount1 libncursesw6 libnsl-dev libnsl2 libp11-kit0 libpam-modules libpam-modules-bin libpam-runtime libpam0g libpcre2-8-0 libperl5.36 libpng16-16 libproc2-0 libreadline8 libseccomp2 libselinux1 libsemanage-common libsemanage2 libsepol2 libsframe1 libsmartcols1 libsqlite3-0 libssl3 libstdc++-13-dev libstdc++6 libsystemd-shared libsystemd0 libtext-charwidth-perl libtext-iconv-perl libtinfo6 libtirpc-common libtirpc-dev libtirpc3 libubsan1 libudev1 libuuid1 libxxhash0 libzstd1 linux-libc-dev login lto-disabled-list mawk mount ncurses-base ncurses-bin openssl optipng passwd perl perl-base perl-modules-5.36 pinentry-curses procps psmisc readline-common sed sensible-utils systemd systemd-dev systemd-sysv sysvinit-utils tar tzdata ubuntu-keyring util-linux uuid-runtime xz-utils zlib1g 151 upgraded, 10 newly installed, 0 to remove and 0 not upgraded. Need to get 102 MB of archives. After this operation, 46.6 MB of additional disk space will be used. Get:1 http://ftpmaster.internal/ubuntu noble/main armhf libnsl-dev armhf 1.3.0-3 [65.8 kB] Get:2 http://ftpmaster.internal/ubuntu noble/main armhf libcrypt-dev armhf 1:4.4.36-4 [136 kB] Get:3 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libc6-dev armhf 2.39-0ubuntu1 [1352 kB] Get:4 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libc-dev-bin armhf 2.39-0ubuntu1 [19.1 kB] Get:5 http://ftpmaster.internal/ubuntu noble/main armhf libtirpc-common all 1.3.4+ds-1build1 [8566 B] Get:6 http://ftpmaster.internal/ubuntu noble/main armhf libtirpc-dev armhf 1.3.4+ds-1build1 [207 kB] Get:7 http://ftpmaster.internal/ubuntu noble/main armhf libgssapi-krb5-2 armhf 1.20.1-5build1 [118 kB] Get:8 http://ftpmaster.internal/ubuntu noble/main armhf libkrb5-3 armhf 1.20.1-5build1 [320 kB] Get:9 http://ftpmaster.internal/ubuntu noble/main armhf libk5crypto3 armhf 1.20.1-5build1 [78.6 kB] Get:10 http://ftpmaster.internal/ubuntu noble/main armhf libkrb5support0 armhf 1.20.1-5build1 [31.3 kB] Get:11 http://ftpmaster.internal/ubuntu noble/main armhf libkeyutils1 armhf 1.6.3-3 [8120 B] Get:12 http://ftpmaster.internal/ubuntu noble/main armhf libssl3 armhf 3.0.10-1ubuntu4 [1553 kB] Get:13 http://ftpmaster.internal/ubuntu noble/main armhf libtirpc3 armhf 1.3.4+ds-1build1 [81.0 kB] Get:14 http://ftpmaster.internal/ubuntu noble/main armhf libnsl2 armhf 1.3.0-3 [35.9 kB] Get:15 http://ftpmaster.internal/ubuntu noble/main armhf libcrypt1 armhf 1:4.4.36-4 [104 kB] Get:16 http://ftpmaster.internal/ubuntu noble-proposed/main armhf linux-libc-dev armhf 6.8.0-11.11 [1553 kB] Get:17 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libc6 armhf 2.39-0ubuntu1 [2830 kB] Get:18 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libc-bin armhf 2.39-0ubuntu1 [528 kB] Get:19 http://ftpmaster.internal/ubuntu noble/main armhf gcc-14-base armhf 14-20240201-3ubuntu1 [46.4 kB] Get:20 http://ftpmaster.internal/ubuntu noble/main armhf libgcc-s1 armhf 14-20240201-3ubuntu1 [41.5 kB] Get:21 http://ftpmaster.internal/ubuntu noble/main armhf base-files armhf 13ubuntu6 [84.0 kB] Get:22 http://ftpmaster.internal/ubuntu noble/main armhf debianutils armhf 5.16 [93.1 kB] Get:23 http://ftpmaster.internal/ubuntu noble/main armhf bash armhf 5.2.21-2ubuntu1 [673 kB] Get:24 http://ftpmaster.internal/ubuntu noble/main armhf bsdutils armhf 1:2.39.2-6ubuntu1 [99.5 kB] Get:25 http://ftpmaster.internal/ubuntu noble-proposed/main armhf coreutils armhf 9.4-2ubuntu3 [1312 kB] Get:26 http://ftpmaster.internal/ubuntu noble/main armhf diffutils armhf 1:3.10-1 [167 kB] Get:27 http://ftpmaster.internal/ubuntu noble/main armhf libgpg-error-l10n all 1.47-3build1 [8024 B] Get:28 http://ftpmaster.internal/ubuntu noble/main armhf libgpg-error0 armhf 1.47-3build1 [61.6 kB] Get:29 http://ftpmaster.internal/ubuntu noble/main armhf libgcrypt20 armhf 1.10.3-2 [454 kB] Get:30 http://ftpmaster.internal/ubuntu noble/main armhf liblzma5 armhf 5.4.5-0.3 [120 kB] Get:31 http://ftpmaster.internal/ubuntu noble/main armhf libstdc++6 armhf 14-20240201-3ubuntu1 [714 kB] Get:32 http://ftpmaster.internal/ubuntu noble/main armhf libacl1 armhf 2.3.1-4ubuntu1 [16.2 kB] Get:33 http://ftpmaster.internal/ubuntu noble/main armhf libapparmor1 armhf 4.0.0~alpha4-0ubuntu1 [44.4 kB] Get:34 http://ftpmaster.internal/ubuntu noble/main armhf libaudit-common all 1:3.1.2-2 [5594 B] Get:35 http://ftpmaster.internal/ubuntu noble/main armhf libcap-ng0 armhf 0.8.4-2 [13.4 kB] Get:36 http://ftpmaster.internal/ubuntu noble/main armhf libaudit1 armhf 1:3.1.2-2 [44.2 kB] Get:37 http://ftpmaster.internal/ubuntu noble/main armhf libblkid1 armhf 2.39.2-6ubuntu1 [159 kB] Get:38 http://ftpmaster.internal/ubuntu noble/main armhf libzstd1 armhf 1.5.5+dfsg2-2 [265 kB] Get:39 http://ftpmaster.internal/ubuntu noble/main armhf libkmod2 armhf 30+20230601-2ubuntu1 [43.9 kB] Get:40 http://ftpmaster.internal/ubuntu noble/main armhf libpcre2-8-0 armhf 10.42-4ubuntu1 [198 kB] Get:41 http://ftpmaster.internal/ubuntu noble/main armhf libselinux1 armhf 3.5-2build1 [70.3 kB] Get:42 http://ftpmaster.internal/ubuntu noble/main armhf libmount1 armhf 2.39.2-6ubuntu1 [171 kB] Get:43 http://ftpmaster.internal/ubuntu noble/main armhf perl-modules-5.38 all 5.38.2-3 [3110 kB] Get:44 http://ftpmaster.internal/ubuntu noble/main armhf libperl5.38 armhf 5.38.2-3 [4105 kB] Get:45 http://ftpmaster.internal/ubuntu noble/main armhf perl armhf 5.38.2-3 [231 kB] Get:46 http://ftpmaster.internal/ubuntu noble/main armhf perl-base armhf 5.38.2-3 [1670 kB] Get:47 http://ftpmaster.internal/ubuntu noble/main armhf liblocale-gettext-perl armhf 1.07-6build1 [14.8 kB] Get:48 http://ftpmaster.internal/ubuntu noble/main armhf libtext-iconv-perl armhf 1.7-8build1 [12.6 kB] Get:49 http://ftpmaster.internal/ubuntu noble/main armhf libtext-charwidth-perl armhf 0.04-11build1 [8894 B] Get:50 http://ftpmaster.internal/ubuntu noble/main armhf perl-modules-5.36 all 5.36.0-10ubuntu1 [2984 kB] Get:51 http://ftpmaster.internal/ubuntu noble/main armhf libperl5.36 armhf 5.36.0-10ubuntu1 [4019 kB] Get:52 http://ftpmaster.internal/ubuntu noble/main armhf libdb5.3 armhf 5.3.28+dfsg2-4 [652 kB] Get:53 http://ftpmaster.internal/ubuntu noble/main armhf libgdbm6 armhf 1.23-5 [29.8 kB] Get:54 http://ftpmaster.internal/ubuntu noble/main armhf libgdbm-compat4 armhf 1.23-5 [5970 B] Get:55 http://ftpmaster.internal/ubuntu noble/main armhf zlib1g armhf 1:1.3.dfsg-3ubuntu1 [50.6 kB] Get:56 http://ftpmaster.internal/ubuntu noble-proposed/main armhf debconf-i18n all 1.5.86 [205 kB] Get:57 http://ftpmaster.internal/ubuntu noble-proposed/main armhf debconf all 1.5.86 [124 kB] Get:58 http://ftpmaster.internal/ubuntu noble/main armhf libpam0g armhf 1.5.2-9.1ubuntu2 [60.2 kB] Get:59 http://ftpmaster.internal/ubuntu noble/main armhf libseccomp2 armhf 2.5.5-1ubuntu1 [49.4 kB] Get:60 http://ftpmaster.internal/ubuntu noble/main armhf systemd-sysv armhf 255.2-3ubuntu2 [11.9 kB] Get:61 http://ftpmaster.internal/ubuntu noble/main armhf systemd-dev all 255.2-3ubuntu2 [101 kB] Get:62 http://ftpmaster.internal/ubuntu noble/main armhf systemd armhf 255.2-3ubuntu2 [3495 kB] Get:63 http://ftpmaster.internal/ubuntu noble/main armhf libsystemd-shared armhf 255.2-3ubuntu2 [2006 kB] Get:64 http://ftpmaster.internal/ubuntu noble/main armhf libargon2-1 armhf 0~20190702+dfsg-4 [22.3 kB] Get:65 http://ftpmaster.internal/ubuntu noble/main armhf libuuid1 armhf 2.39.2-6ubuntu1 [33.4 kB] Get:66 http://ftpmaster.internal/ubuntu noble/main armhf libcryptsetup12 armhf 2:2.6.1-6ubuntu1 [216 kB] Get:67 http://ftpmaster.internal/ubuntu noble/main armhf libfdisk1 armhf 2.39.2-6ubuntu1 [195 kB] Get:68 http://ftpmaster.internal/ubuntu noble/main armhf mount armhf 2.39.2-6ubuntu1 [132 kB] Get:69 http://ftpmaster.internal/ubuntu noble/main armhf libsystemd0 armhf 255.2-3ubuntu2 [408 kB] Get:70 http://ftpmaster.internal/ubuntu noble/main armhf libudev1 armhf 255.2-3ubuntu2 [164 kB] Get:71 http://ftpmaster.internal/ubuntu noble/main armhf libxxhash0 armhf 0.8.2-2 [31.3 kB] Get:72 http://ftpmaster.internal/ubuntu noble/main armhf libapt-pkg6.0 armhf 2.7.11 [994 kB] Get:73 http://ftpmaster.internal/ubuntu noble/main armhf tar armhf 1.35+dfsg-3 [236 kB] Get:74 http://ftpmaster.internal/ubuntu noble-proposed/main armhf dpkg armhf 1.22.4ubuntu3 [1231 kB] Get:75 http://ftpmaster.internal/ubuntu noble/main armhf grep armhf 3.11-4 [166 kB] Get:76 http://ftpmaster.internal/ubuntu noble/main armhf login armhf 1:4.13+dfsg1-3ubuntu1 [200 kB] Get:77 http://ftpmaster.internal/ubuntu noble-proposed/main armhf ncurses-bin armhf 6.4+20240113-1ubuntu1 [178 kB] Get:78 http://ftpmaster.internal/ubuntu noble/main armhf sed armhf 4.9-2 [198 kB] Get:79 http://ftpmaster.internal/ubuntu noble/main armhf util-linux armhf 2.39.2-6ubuntu1 [1211 kB] Get:80 http://ftpmaster.internal/ubuntu noble/main armhf libdebconfclient0 armhf 0.271ubuntu1 [10.8 kB] Get:81 http://ftpmaster.internal/ubuntu noble/main armhf base-passwd armhf 3.6.3 [51.0 kB] Get:82 http://ftpmaster.internal/ubuntu noble/main armhf init-system-helpers all 1.66ubuntu1 [39.4 kB] Get:83 http://ftpmaster.internal/ubuntu noble-proposed/main armhf ncurses-base all 6.4+20240113-1ubuntu1 [25.4 kB] Get:84 http://ftpmaster.internal/ubuntu noble/main armhf sysvinit-utils armhf 3.08-3ubuntu1 [33.4 kB] Get:85 http://ftpmaster.internal/ubuntu noble/main armhf apt armhf 2.7.11 [1363 kB] Get:86 http://ftpmaster.internal/ubuntu noble/main armhf apt-utils armhf 2.7.11 [211 kB] Get:87 http://ftpmaster.internal/ubuntu noble-proposed/main armhf gpgv armhf 2.4.4-2ubuntu3 [223 kB] Get:88 http://ftpmaster.internal/ubuntu noble/main armhf ubuntu-keyring all 2023.11.28.1 [11.1 kB] Get:89 http://ftpmaster.internal/ubuntu noble/main armhf libffi8 armhf 3.4.4-2 [20.8 kB] Get:90 http://ftpmaster.internal/ubuntu noble/main armhf libp11-kit0 armhf 0.25.3-4ubuntu1 [258 kB] Get:91 http://ftpmaster.internal/ubuntu noble/main armhf libunistring5 armhf 1.1-2 [512 kB] Get:92 http://ftpmaster.internal/ubuntu noble/main armhf libidn2-0 armhf 2.3.7-2 [96.1 kB] Get:93 http://ftpmaster.internal/ubuntu noble/main armhf libgnutls30 armhf 3.8.3-1ubuntu1 [939 kB] Get:94 http://ftpmaster.internal/ubuntu noble/main armhf libpam-modules-bin armhf 1.5.2-9.1ubuntu2 [43.6 kB] Get:95 http://ftpmaster.internal/ubuntu noble/main armhf libpam-modules armhf 1.5.2-9.1ubuntu2 [265 kB] Get:96 http://ftpmaster.internal/ubuntu noble/main armhf init armhf 1.66ubuntu1 [6186 B] Get:97 http://ftpmaster.internal/ubuntu noble/main armhf libsmartcols1 armhf 2.39.2-6ubuntu1 [116 kB] Get:98 http://ftpmaster.internal/ubuntu noble/main armhf uuid-runtime armhf 2.39.2-6ubuntu1 [40.7 kB] Get:99 http://ftpmaster.internal/ubuntu noble/main armhf libattr1 armhf 1:2.5.2-1 [10.3 kB] Get:100 http://ftpmaster.internal/ubuntu noble/main armhf libmd0 armhf 1.1.0-2 [23.1 kB] Get:101 http://ftpmaster.internal/ubuntu noble/main armhf libpam-runtime all 1.5.2-9.1ubuntu2 [40.6 kB] Get:102 http://ftpmaster.internal/ubuntu noble/main armhf libsemanage-common all 3.5-1build2 [10.0 kB] Get:103 http://ftpmaster.internal/ubuntu noble/main armhf libsepol2 armhf 3.5-2 [262 kB] Get:104 http://ftpmaster.internal/ubuntu noble/main armhf libsemanage2 armhf 3.5-1build2 [84.3 kB] Get:105 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libncursesw6 armhf 6.4+20240113-1ubuntu1 [118 kB] Get:106 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libtinfo6 armhf 6.4+20240113-1ubuntu1 [90.5 kB] Get:107 http://ftpmaster.internal/ubuntu noble/main armhf passwd armhf 1:4.13+dfsg1-3ubuntu1 [817 kB] Get:108 http://ftpmaster.internal/ubuntu noble/main armhf g++-13 armhf 13.2.0-13ubuntu1 [14.0 kB] Get:109 http://ftpmaster.internal/ubuntu noble/main armhf gcc-13 armhf 13.2.0-13ubuntu1 [443 kB] Get:110 http://ftpmaster.internal/ubuntu noble/main armhf cpp-13 armhf 13.2.0-13ubuntu1 [1032 B] Get:111 http://ftpmaster.internal/ubuntu noble/main armhf cpp-13-arm-linux-gnueabihf armhf 13.2.0-13ubuntu1 [8754 kB] Get:112 http://ftpmaster.internal/ubuntu noble/main armhf libcc1-0 armhf 14-20240201-3ubuntu1 [39.1 kB] Get:113 http://ftpmaster.internal/ubuntu noble/main armhf libctf0 armhf 2.42-2ubuntu1 [87.6 kB] Get:114 http://ftpmaster.internal/ubuntu noble/main armhf libctf-nobfd0 armhf 2.42-2ubuntu1 [87.7 kB] Get:115 http://ftpmaster.internal/ubuntu noble/main armhf libsframe1 armhf 2.42-2ubuntu1 [12.8 kB] Get:116 http://ftpmaster.internal/ubuntu noble/main armhf binutils-arm-linux-gnueabihf armhf 2.42-2ubuntu1 [2924 kB] Get:117 http://ftpmaster.internal/ubuntu noble/main armhf libbinutils armhf 2.42-2ubuntu1 [460 kB] Get:118 http://ftpmaster.internal/ubuntu noble/main armhf binutils armhf 2.42-2ubuntu1 [3080 B] Get:119 http://ftpmaster.internal/ubuntu noble/main armhf binutils-common armhf 2.42-2ubuntu1 [216 kB] Get:120 http://ftpmaster.internal/ubuntu noble/main armhf libstdc++-13-dev armhf 13.2.0-13ubuntu1 [2401 kB] Get:121 http://ftpmaster.internal/ubuntu noble/main armhf libgomp1 armhf 14-20240201-3ubuntu1 [124 kB] Get:122 http://ftpmaster.internal/ubuntu noble/main armhf libatomic1 armhf 14-20240201-3ubuntu1 [7802 B] Get:123 http://ftpmaster.internal/ubuntu noble/main armhf libasan8 armhf 14-20240201-3ubuntu1 [2938 kB] Get:124 http://ftpmaster.internal/ubuntu noble/main armhf libubsan1 armhf 14-20240201-3ubuntu1 [1151 kB] Get:125 http://ftpmaster.internal/ubuntu noble/main armhf libgcc-13-dev armhf 13.2.0-13ubuntu1 [901 kB] Get:126 http://ftpmaster.internal/ubuntu noble/main armhf gcc-13-arm-linux-gnueabihf armhf 13.2.0-13ubuntu1 [16.8 MB] Get:127 http://ftpmaster.internal/ubuntu noble/main armhf g++-13-arm-linux-gnueabihf armhf 13.2.0-13ubuntu1 [9933 kB] Get:128 http://ftpmaster.internal/ubuntu noble/main armhf gcc-13-base armhf 13.2.0-13ubuntu1 [46.6 kB] Get:129 http://ftpmaster.internal/ubuntu noble/main armhf libproc2-0 armhf 2:4.0.4-2ubuntu1 [49.6 kB] Get:130 http://ftpmaster.internal/ubuntu noble/main armhf mawk armhf 1.3.4.20240123-1 [115 kB] Get:131 http://ftpmaster.internal/ubuntu noble/main armhf procps armhf 2:4.0.4-2ubuntu1 [699 kB] Get:132 http://ftpmaster.internal/ubuntu noble-proposed/main armhf sensible-utils all 0.0.22 [22.5 kB] Get:133 http://ftpmaster.internal/ubuntu noble/main armhf openssl armhf 3.0.10-1ubuntu4 [973 kB] Get:134 http://ftpmaster.internal/ubuntu noble/main armhf ca-certificates all 20240203 [159 kB] Get:135 http://ftpmaster.internal/ubuntu noble/main armhf krb5-locales all 1.20.1-5build1 [13.7 kB] Get:136 http://ftpmaster.internal/ubuntu noble/main armhf libip4tc2 armhf 1.8.10-3ubuntu1 [21.2 kB] Get:137 http://ftpmaster.internal/ubuntu noble/main armhf readline-common all 8.2-3 [56.2 kB] Get:138 http://ftpmaster.internal/ubuntu noble/main armhf libreadline8 armhf 8.2-3 [129 kB] Get:139 http://ftpmaster.internal/ubuntu noble/main armhf libsqlite3-0 armhf 3.45.1-1 [590 kB] Get:140 http://ftpmaster.internal/ubuntu noble-proposed/main armhf tzdata all 2024a-1ubuntu1 [273 kB] Get:141 http://ftpmaster.internal/ubuntu noble/main armhf bash-completion all 1:2.11-8 [180 kB] Get:142 http://ftpmaster.internal/ubuntu noble/main armhf bsdextrautils armhf 2.39.2-6ubuntu1 [77.7 kB] Get:143 http://ftpmaster.internal/ubuntu noble/main armhf libpng16-16 armhf 1.6.42-1 [166 kB] Get:144 http://ftpmaster.internal/ubuntu noble/main armhf psmisc armhf 23.6-2 [176 kB] Get:145 http://ftpmaster.internal/ubuntu noble/main armhf xz-utils armhf 5.4.5-0.3 [274 kB] Get:146 http://ftpmaster.internal/ubuntu noble/main armhf g++ armhf 4:13.2.0-7ubuntu1 [1090 B] Get:147 http://ftpmaster.internal/ubuntu noble/main armhf gcc armhf 4:13.2.0-7ubuntu1 [5022 B] Get:148 http://ftpmaster.internal/ubuntu noble/main armhf cpp armhf 4:13.2.0-7ubuntu1 [22.4 kB] Get:149 http://ftpmaster.internal/ubuntu noble/main armhf cpp-arm-linux-gnueabihf armhf 4:13.2.0-7ubuntu1 [5320 B] Get:150 http://ftpmaster.internal/ubuntu noble/main armhf gcc-arm-linux-gnueabihf armhf 4:13.2.0-7ubuntu1 [1220 B] Get:151 http://ftpmaster.internal/ubuntu noble/main armhf g++-arm-linux-gnueabihf armhf 4:13.2.0-7ubuntu1 [966 B] Get:152 http://ftpmaster.internal/ubuntu noble-proposed/main armhf dpkg-dev all 1.22.4ubuntu3 [1078 kB] Get:153 http://ftpmaster.internal/ubuntu noble-proposed/main armhf libdpkg-perl all 1.22.4ubuntu3 [268 kB] Get:154 http://ftpmaster.internal/ubuntu noble/main armhf lto-disabled-list all 46 [12.3 kB] Get:155 http://ftpmaster.internal/ubuntu noble/main armhf libfakeroot armhf 1.33-1 [28.7 kB] Get:156 http://ftpmaster.internal/ubuntu noble/main armhf fakeroot armhf 1.33-1 [68.6 kB] Get:157 http://ftpmaster.internal/ubuntu noble/main armhf pinentry-curses armhf 1.2.1-3ubuntu1 [36.4 kB] Get:158 http://ftpmaster.internal/ubuntu noble-proposed/main armhf gpg armhf 2.4.4-2ubuntu3 [523 kB] Get:159 http://ftpmaster.internal/ubuntu noble-proposed/main armhf gpgconf armhf 2.4.4-2ubuntu3 [115 kB] Get:160 http://ftpmaster.internal/ubuntu noble-proposed/main armhf gpg-agent armhf 2.4.4-2ubuntu3 [236 kB] Get:161 http://ftpmaster.internal/ubuntu noble/main armhf optipng armhf 0.7.8+ds-1 [109 kB] Preconfiguring packages ... 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Setting up tzdata (2024a-1ubuntu1) ... Current default time zone: 'Etc/UTC' Local time is now: Sat Feb 17 08:03:56 UTC 2024. Universal Time is now: Sat Feb 17 08:03:56 UTC 2024. Run 'dpkg-reconfigure tzdata' if you wish to change it. Setting up fakeroot (1.33-1) ... Setting up perl-modules-5.36 (5.36.0-10ubuntu1) ... Setting up gcc-13-base:armhf (13.2.0-13ubuntu1) ... Setting up bash-completion (1:2.11-8) ... Setting up xz-utils (5.4.5-0.3) ... Setting up perl-modules-5.38 (5.38.2-3) ... Setting up libproc2-0:armhf (2:4.0.4-2ubuntu1) ... Setting up libpng16-16:armhf (1.6.42-1) ... Setting up libatomic1:armhf (14-20240201-3ubuntu1) ... Setting up libncursesw6:armhf (6.4+20240113-1ubuntu1) ... Setting up libk5crypto3:armhf (1.20.1-5build1) ... Setting up libubsan1:armhf (14-20240201-3ubuntu1) ... Setting up sensible-utils (0.0.22) ... Setting up uuid-runtime (2.39.2-6ubuntu1) ... Running in chroot, ignoring request. invoke-rc.d: policy-rc.d denied execution of restart. 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Setting up gcc-13 (13.2.0-13ubuntu1) ... Setting up libdpkg-perl (1.22.4ubuntu3) ... Setting up cpp (4:13.2.0-7ubuntu1) ... Setting up libnsl2:armhf (1.3.0-3) ... Setting up gcc-arm-linux-gnueabihf (4:13.2.0-7ubuntu1) ... Setting up gcc (4:13.2.0-7ubuntu1) ... Setting up dpkg-dev (1.22.4ubuntu3) ... Setting up libnsl-dev:armhf (1.3.0-3) ... Setting up libc6-dev:armhf (2.39-0ubuntu1) ... Setting up libstdc++-13-dev:armhf (13.2.0-13ubuntu1) ... Setting up g++-13-arm-linux-gnueabihf (13.2.0-13ubuntu1) ... Setting up g++-arm-linux-gnueabihf (4:13.2.0-7ubuntu1) ... Setting up g++-13 (13.2.0-13ubuntu1) ... Setting up g++ (4:13.2.0-7ubuntu1) ... Processing triggers for libc-bin (2.39-0ubuntu1) ... Processing triggers for debianutils (5.16) ... Processing triggers for ca-certificates (20240203) ... Updating certificates in /etc/ssl/certs... 0 added, 0 removed; done. Running hooks in /etc/ca-certificates/update.d... done. RUN: /usr/share/launchpad-buildd/bin/sbuild-package PACKAGEBUILD-27784850 armhf noble-proposed -c chroot:build-PACKAGEBUILD-27784850 --arch=armhf --dist=noble-proposed --nolog coq-elpi_1.19.3-2build1.dsc Initiating build PACKAGEBUILD-27784850 with 4 jobs across 4 processor cores. Kernel reported to sbuild: 5.4.0-171-generic #189-Ubuntu SMP Fri Jan 5 14:23:34 UTC 2024 armv7l sbuild (Debian sbuild) 0.79.0 (05 February 2020) on bos03-arm64-023.buildd +==============================================================================+ | coq-elpi 1.19.3-2build1 (armhf) Sat, 17 Feb 2024 08:04:02 +0000 | +==============================================================================+ Package: coq-elpi Version: 1.19.3-2build1 Source Version: 1.19.3-2build1 Distribution: noble-proposed Machine Architecture: arm64 Host Architecture: armhf Build Architecture: armhf Build Type: any I: NOTICE: Log filtering will replace 'home/buildd/build-PACKAGEBUILD-27784850/chroot-autobuild' with '<>' I: NOTICE: Log filtering will replace 'build/coq-elpi-kITMIT/resolver-yqhiHt' with '<>' +------------------------------------------------------------------------------+ | Fetch source files | +------------------------------------------------------------------------------+ Local sources ------------- coq-elpi_1.19.3-2build1.dsc exists in .; copying to chroot I: NOTICE: Log filtering will replace 'build/coq-elpi-kITMIT/coq-elpi-1.19.3' with '<>' I: NOTICE: Log filtering will replace 'build/coq-elpi-kITMIT' with '<>' +------------------------------------------------------------------------------+ | Install package build dependencies | +------------------------------------------------------------------------------+ Setup apt archive ----------------- Merged Build-Depends: coq, debhelper-compat (= 13), dh-coq, dh-ocaml, libcoq-core-ocaml-dev (>= 8.17), libcoq-stdlib, libelpi-ocaml-dev, build-essential, fakeroot Filtered Build-Depends: coq, debhelper-compat (= 13), dh-coq, dh-ocaml, libcoq-core-ocaml-dev (>= 8.17), libcoq-stdlib, libelpi-ocaml-dev, build-essential, fakeroot dpkg-deb: building package 'sbuild-build-depends-main-dummy' in '/<>/apt_archive/sbuild-build-depends-main-dummy.deb'. Ign:1 copy:/<>/apt_archive ./ InRelease Get:2 copy:/<>/apt_archive ./ Release [957 B] Ign:3 copy:/<>/apt_archive ./ Release.gpg Get:4 copy:/<>/apt_archive ./ Sources [413 B] Get:5 copy:/<>/apt_archive ./ Packages [497 B] Fetched 1867 B in 0s (76.1 kB/s) Reading package lists... Reading package lists... Install main build dependencies (apt-based resolver) ---------------------------------------------------- Installing build dependencies Reading package lists... Building dependency tree... Reading state information... The following packages were automatically installed and are no longer required: apt-utils bash-completion ca-certificates debconf-i18n krb5-locales libgpg-error-l10n libgpm2 libip4tc2 liblocale-gettext-perl libnss-nis libnss-nisplus libperl5.36 libtext-charwidth-perl libtext-iconv-perl libtext-wrapi18n-perl libunistring2 openssl perl-modules-5.36 psmisc uuid-runtime Use 'apt autoremove' to remove them. The following additional packages will be installed: autoconf automake autopoint autotools-dev coq debhelper debugedit dh-autoreconf dh-coq dh-ocaml dh-strip-nondeterminism dwz file gettext gettext-base groff-base intltool-debian libarchive-zip-perl libcompiler-libs-ocaml-dev libcoq-core-ocaml libcoq-core-ocaml-dev libcoq-stdlib libdebhelper-perl libdw1 libelf1 libelpi-ocaml libelpi-ocaml-dev libexpat1 libfile-stripnondeterminism-perl libfindlib-ocaml libfindlib-ocaml-dev libgmp-dev libgmp3-dev libgmpxx4ldbl libicu74 libmagic-mgc libmagic1 libmenhir-ocaml-dev libncurses-dev libncurses6 libocaml-compiler-libs-ocaml-dev libpipeline1 libppx-derivers-ocaml-dev libppx-deriving-ocaml libppx-deriving-ocaml-dev libppxlib-ocaml-dev libpython3-stdlib libpython3.12-minimal libpython3.12-stdlib libre-ocaml-dev libresult-ocaml libresult-ocaml-dev libsexplib0-ocaml libsexplib0-ocaml-dev libstdlib-ocaml libstdlib-ocaml-dev libsub-override-perl libtool libuchardet0 libxml2 libzarith-ocaml libzarith-ocaml-dev m4 man-db media-types netbase ocaml ocaml-base ocaml-findlib ocaml-interp po-debconf python3 python3-minimal python3.12 python3.12-minimal Suggested packages: autoconf-archive gnu-standards autoconf-doc coqide | proofgeneral ledit | readline-editor why coq-doc dh-make git gettext-doc libasprintf-dev libgettextpo-dev groff gmp-doc libgmp10-doc libmpfr-dev ncurses-doc libtool-doc gfortran | fortran95-compiler gcj-jdk m4-doc apparmor less www-browser ocaml-doc elpa-tuareg camlp4 libmail-box-perl python3-doc python3-tk python3-venv python3.12-venv python3.12-doc binfmt-support Recommended packages: curl | wget | lynx libarchive-cpio-perl ocaml-man libltdl-dev ledit | readline-editor libmail-sendmail-perl The following NEW packages will be installed: autoconf automake autopoint autotools-dev coq debhelper debugedit dh-autoreconf dh-coq dh-ocaml dh-strip-nondeterminism dwz file gettext gettext-base groff-base intltool-debian libarchive-zip-perl libcompiler-libs-ocaml-dev libcoq-core-ocaml libcoq-core-ocaml-dev libcoq-stdlib libdebhelper-perl libdw1 libelf1 libelpi-ocaml libelpi-ocaml-dev libexpat1 libfile-stripnondeterminism-perl libfindlib-ocaml libfindlib-ocaml-dev libgmp-dev libgmp3-dev libgmpxx4ldbl libicu74 libmagic-mgc libmagic1 libmenhir-ocaml-dev libncurses-dev libncurses6 libocaml-compiler-libs-ocaml-dev libpipeline1 libppx-derivers-ocaml-dev libppx-deriving-ocaml libppx-deriving-ocaml-dev libppxlib-ocaml-dev libpython3-stdlib libpython3.12-minimal libpython3.12-stdlib libre-ocaml-dev libresult-ocaml libresult-ocaml-dev libsexplib0-ocaml libsexplib0-ocaml-dev libstdlib-ocaml libstdlib-ocaml-dev libsub-override-perl libtool libuchardet0 libxml2 libzarith-ocaml libzarith-ocaml-dev m4 man-db media-types netbase ocaml ocaml-base ocaml-findlib ocaml-interp po-debconf python3 python3-minimal python3.12 python3.12-minimal sbuild-build-depends-main-dummy 0 upgraded, 76 newly installed, 0 to remove and 0 not upgraded. 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Fetched 452 MB in 12s (36.6 MB/s) Selecting previously unselected package libpython3.12-minimal:armhf. (Reading database ... 15527 files and directories currently installed.) Preparing to unpack .../libpython3.12-minimal_3.12.2-1_armhf.deb ... Unpacking libpython3.12-minimal:armhf (3.12.2-1) ... Selecting previously unselected package libexpat1:armhf. Preparing to unpack .../libexpat1_2.6.0-1_armhf.deb ... Unpacking libexpat1:armhf (2.6.0-1) ... Selecting previously unselected package python3.12-minimal. Preparing to unpack .../python3.12-minimal_3.12.2-1_armhf.deb ... Unpacking python3.12-minimal (3.12.2-1) ... Setting up libpython3.12-minimal:armhf (3.12.2-1) ... Setting up libexpat1:armhf (2.6.0-1) ... Setting up python3.12-minimal (3.12.2-1) ... Selecting previously unselected package python3-minimal. (Reading database ... 15845 files and directories currently installed.) Preparing to unpack .../0-python3-minimal_3.12.1-0ubuntu1_armhf.deb ... 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Setting up automake (1:1.16.5-1.3ubuntu1) ... update-alternatives: using /usr/bin/automake-1.16 to provide /usr/bin/automake (automake) in auto mode Setting up libfile-stripnondeterminism-perl (1.13.1-1) ... Setting up libppx-deriving-ocaml (5.2.1-4build2) ... Setting up libdw1:armhf (0.190-1) ... Setting up libncurses-dev:armhf (6.4+20240113-1ubuntu1) ... Setting up gettext (0.21-14ubuntu1) ... Setting up libgmp-dev:armhf (2:6.3.0+dfsg-2ubuntu4) ... Setting up libpython3.12-stdlib:armhf (3.12.2-1) ... Setting up libtool (2.4.7-7) ... Setting up libstdlib-ocaml-dev (4.14.1-1ubuntu1) ... Setting up python3.12 (3.12.2-1) ... Setting up libfindlib-ocaml (1.9.6-1build3) ... Setting up libzarith-ocaml (1.13-2build3) ... Setting up intltool-debian (0.35.0+20060710.6) ... Setting up dh-autoreconf (20) ... Setting up libcompiler-libs-ocaml-dev (4.14.1-1ubuntu1) ... Setting up ocaml-interp (4.14.1-1ubuntu1) ... Setting up ocaml-findlib (1.9.6-1build3) ... Setting up dh-strip-nondeterminism (1.13.1-1) ... Setting up libelpi-ocaml (1.17.4-3build1) ... Setting up dwz (0.15-1) ... Setting up libcoq-core-ocaml (8.18.0+dfsg-1) ... Setting up groff-base (1.23.0-3) ... Setting up libgmp3-dev:armhf (2:6.3.0+dfsg-2ubuntu4) ... Setting up debugedit (1:5.0-5) ... Setting up libpython3-stdlib:armhf (3.12.1-0ubuntu1) ... Setting up po-debconf (1.0.21+nmu1) ... Setting up python3 (3.12.1-0ubuntu1) ... Setting up ocaml (4.14.1-1ubuntu1) ... Setting up man-db (2.12.0-3) ... Not building database; man-db/auto-update is not 'true'. Created symlink /etc/systemd/system/timers.target.wants/man-db.timer → /usr/lib/systemd/system/man-db.timer. Setting up libre-ocaml-dev (1.11.0-1build2) ... Setting up libmenhir-ocaml-dev (20231231+ds-1) ... Setting up libocaml-compiler-libs-ocaml-dev (0.12.4-4build2) ... Setting up libfindlib-ocaml-dev (1.9.6-1build3) ... Setting up libsexplib0-ocaml-dev (0.16.0-3build2) ... Setting up coq (8.18.0+dfsg-1) ... Setting up libresult-ocaml-dev (1.5-4build1) ... Setting up libzarith-ocaml-dev (1.13-2build3) ... Setting up libppx-derivers-ocaml-dev (1.2.1-4build2) ... Setting up libppxlib-ocaml-dev (0.32.0-1) ... Setting up debhelper (13.13ubuntu1) ... Setting up libcoq-core-ocaml-dev (8.18.0+dfsg-1) ... Setting up libppx-deriving-ocaml-dev (5.2.1-4build2) ... Setting up libelpi-ocaml-dev (1.17.4-3build1) ... Setting up sbuild-build-depends-main-dummy (0.invalid.0) ... Processing triggers for systemd (255.2-3ubuntu2) ... Processing triggers for libc-bin (2.39-0ubuntu1) ... +------------------------------------------------------------------------------+ | Check architectures | +------------------------------------------------------------------------------+ Arch check ok (armhf included in any) +------------------------------------------------------------------------------+ | Build environment | +------------------------------------------------------------------------------+ Kernel: Linux 5.4.0-171-generic #189-Ubuntu SMP Fri Jan 5 14:23:34 UTC 2024 arm64 (armv7l) Toolchain package versions: binutils_2.42-2ubuntu1 dpkg-dev_1.22.4ubuntu3 g++-13_13.2.0-13ubuntu1 gcc-13_13.2.0-13ubuntu1 libc6-dev_2.39-0ubuntu1 libstdc++-13-dev_13.2.0-13ubuntu1 libstdc++6_14-20240201-3ubuntu1 linux-libc-dev_6.8.0-11.11 Package versions: adduser_3.137ubuntu1 advancecomp_2.5-1 apt_2.7.11 apt-utils_2.7.11 autoconf_2.71-3 automake_1:1.16.5-1.3ubuntu1 autopoint_0.21-14ubuntu1 autotools-dev_20220109.1 base-files_13ubuntu6 base-passwd_3.6.3 bash_5.2.21-2ubuntu1 bash-completion_1:2.11-8 binutils_2.42-2ubuntu1 binutils-arm-linux-gnueabihf_2.42-2ubuntu1 binutils-common_2.42-2ubuntu1 bsdextrautils_2.39.2-6ubuntu1 bsdutils_1:2.39.2-6ubuntu1 build-essential_12.10ubuntu1 bzip2_1.0.8-5build1 ca-certificates_20240203 coq_8.18.0+dfsg-1 coreutils_9.4-2ubuntu3 cpp_4:13.2.0-7ubuntu1 cpp-13_13.2.0-13ubuntu1 cpp-13-arm-linux-gnueabihf_13.2.0-13ubuntu1 cpp-arm-linux-gnueabihf_4:13.2.0-7ubuntu1 dash_0.5.12-6ubuntu1 debconf_1.5.86 debconf-i18n_1.5.86 debhelper_13.13ubuntu1 debianutils_5.16 debugedit_1:5.0-5 dh-autoreconf_20 dh-coq_0.8 dh-ocaml_2.0 dh-strip-nondeterminism_1.13.1-1 diffutils_1:3.10-1 dpkg_1.22.4ubuntu3 dpkg-dev_1.22.4ubuntu3 dwz_0.15-1 e2fsprogs_1.47.0-2ubuntu1 fakeroot_1.33-1 file_1:5.45-2 findutils_4.9.0-5 g++_4:13.2.0-7ubuntu1 g++-13_13.2.0-13ubuntu1 g++-13-arm-linux-gnueabihf_13.2.0-13ubuntu1 g++-arm-linux-gnueabihf_4:13.2.0-7ubuntu1 gcc_4:13.2.0-7ubuntu1 gcc-13_13.2.0-13ubuntu1 gcc-13-arm-linux-gnueabihf_13.2.0-13ubuntu1 gcc-13-base_13.2.0-13ubuntu1 gcc-14-base_14-20240201-3ubuntu1 gcc-arm-linux-gnueabihf_4:13.2.0-7ubuntu1 gettext_0.21-14ubuntu1 gettext-base_0.21-14ubuntu1 gpg_2.4.4-2ubuntu3 gpg-agent_2.4.4-2ubuntu3 gpgconf_2.4.4-2ubuntu3 gpgv_2.4.4-2ubuntu3 grep_3.11-4 groff-base_1.23.0-3 gzip_1.12-1ubuntu1 hostname_3.23+nmu1ubuntu1 init_1.66ubuntu1 init-system-helpers_1.66ubuntu1 intltool-debian_0.35.0+20060710.6 krb5-locales_1.20.1-5build1 libacl1_2.3.1-4ubuntu1 libapparmor1_4.0.0~alpha4-0ubuntu1 libapt-pkg6.0_2.7.11 libarchive-zip-perl_1.68-1 libargon2-1_0~20190702+dfsg-4 libasan8_14-20240201-3ubuntu1 libassuan0_2.5.6-1 libatomic1_14-20240201-3ubuntu1 libattr1_1:2.5.2-1 libaudit-common_1:3.1.2-2 libaudit1_1:3.1.2-2 libbinutils_2.42-2ubuntu1 libblkid1_2.39.2-6ubuntu1 libbz2-1.0_1.0.8-5build1 libc-bin_2.39-0ubuntu1 libc-dev-bin_2.39-0ubuntu1 libc6_2.39-0ubuntu1 libc6-dev_2.39-0ubuntu1 libcap-ng0_0.8.4-2 libcap2_1:2.66-4ubuntu1 libcc1-0_14-20240201-3ubuntu1 libcom-err2_1.47.0-2ubuntu1 libcompiler-libs-ocaml-dev_4.14.1-1ubuntu1 libcoq-core-ocaml_8.18.0+dfsg-1 libcoq-core-ocaml-dev_8.18.0+dfsg-1 libcoq-stdlib_8.18.0+dfsg-1 libcrypt-dev_1:4.4.36-4 libcrypt1_1:4.4.36-4 libcryptsetup12_2:2.6.1-6ubuntu1 libctf-nobfd0_2.42-2ubuntu1 libctf0_2.42-2ubuntu1 libdb5.3_5.3.28+dfsg2-4 libdebconfclient0_0.271ubuntu1 libdebhelper-perl_13.13ubuntu1 libdevmapper1.02.1_2:1.02.185-2ubuntu1 libdpkg-perl_1.22.4ubuntu3 libdw1_0.190-1 libelf1_0.190-1 libelpi-ocaml_1.17.4-3build1 libelpi-ocaml-dev_1.17.4-3build1 libexpat1_2.6.0-1 libext2fs2_1.47.0-2ubuntu1 libfakeroot_1.33-1 libfdisk1_2.39.2-6ubuntu1 libffi8_3.4.4-2 libfile-stripnondeterminism-perl_1.13.1-1 libfindlib-ocaml_1.9.6-1build3 libfindlib-ocaml-dev_1.9.6-1build3 libgcc-13-dev_13.2.0-13ubuntu1 libgcc-s1_14-20240201-3ubuntu1 libgcrypt20_1.10.3-2 libgdbm-compat4_1.23-5 libgdbm6_1.23-5 libgmp-dev_2:6.3.0+dfsg-2ubuntu4 libgmp10_2:6.3.0+dfsg-2ubuntu4 libgmp3-dev_2:6.3.0+dfsg-2ubuntu4 libgmpxx4ldbl_2:6.3.0+dfsg-2ubuntu4 libgnutls30_3.8.3-1ubuntu1 libgomp1_14-20240201-3ubuntu1 libgpg-error-l10n_1.47-3build1 libgpg-error0_1.47-3build1 libgpm2_1.20.7-10build1 libgssapi-krb5-2_1.20.1-5build1 libhogweed6_3.9.1-2 libicu74_74.2-1ubuntu1 libidn2-0_2.3.7-2 libip4tc2_1.8.10-3ubuntu1 libisl23_0.26-3 libjansson4_2.14-2 libjson-c5_0.17-1 libk5crypto3_1.20.1-5build1 libkeyutils1_1.6.3-3 libkmod2_30+20230601-2ubuntu1 libkrb5-3_1.20.1-5build1 libkrb5support0_1.20.1-5build1 liblocale-gettext-perl_1.07-6build1 liblockfile-bin_1.17-1build2 liblockfile1_1.17-1build2 liblz4-1_1.9.4-1 liblzma5_5.4.5-0.3 libmagic-mgc_1:5.45-2 libmagic1_1:5.45-2 libmd0_1.1.0-2 libmenhir-ocaml-dev_20231231+ds-1 libmount1_2.39.2-6ubuntu1 libmpc3_1.3.1-1 libmpfr6_4.2.1-1 libncurses-dev_6.4+20240113-1ubuntu1 libncurses6_6.4+20240113-1ubuntu1 libncursesw6_6.4+20240113-1ubuntu1 libnettle8_3.9.1-2 libnpth0_1.6-3build2 libnsl-dev_1.3.0-3 libnsl2_1.3.0-3 libnss-nis_3.1-0ubuntu6 libnss-nisplus_1.3-0ubuntu6 libocaml-compiler-libs-ocaml-dev_0.12.4-4build2 libp11-kit0_0.25.3-4ubuntu1 libpam-modules_1.5.2-9.1ubuntu2 libpam-modules-bin_1.5.2-9.1ubuntu2 libpam-runtime_1.5.2-9.1ubuntu2 libpam0g_1.5.2-9.1ubuntu2 libpcre2-8-0_10.42-4ubuntu1 libperl5.36_5.36.0-10ubuntu1 libperl5.38_5.38.2-3 libpipeline1_1.5.7-1 libpng16-16_1.6.42-1 libppx-derivers-ocaml-dev_1.2.1-4build2 libppx-deriving-ocaml_5.2.1-4build2 libppx-deriving-ocaml-dev_5.2.1-4build2 libppxlib-ocaml-dev_0.32.0-1 libproc2-0_2:4.0.4-2ubuntu1 libpython3-stdlib_3.12.1-0ubuntu1 libpython3.12-minimal_3.12.2-1 libpython3.12-stdlib_3.12.2-1 libre-ocaml-dev_1.11.0-1build2 libreadline8_8.2-3 libresult-ocaml_1.5-4build1 libresult-ocaml-dev_1.5-4build1 libseccomp2_2.5.5-1ubuntu1 libselinux1_3.5-2build1 libsemanage-common_3.5-1build2 libsemanage2_3.5-1build2 libsepol2_3.5-2 libsexplib0-ocaml_0.16.0-3build2 libsexplib0-ocaml-dev_0.16.0-3build2 libsframe1_2.42-2ubuntu1 libsmartcols1_2.39.2-6ubuntu1 libsqlite3-0_3.45.1-1 libss2_1.47.0-2ubuntu1 libssl3_3.0.10-1ubuntu4 libstdc++-13-dev_13.2.0-13ubuntu1 libstdc++6_14-20240201-3ubuntu1 libstdlib-ocaml_4.14.1-1ubuntu1 libstdlib-ocaml-dev_4.14.1-1ubuntu1 libsub-override-perl_0.10-1 libsystemd-shared_255.2-3ubuntu2 libsystemd0_255.2-3ubuntu2 libtasn1-6_4.19.0-3 libtext-charwidth-perl_0.04-11build1 libtext-iconv-perl_1.7-8build1 libtext-wrapi18n-perl_0.06-10 libtinfo6_6.4+20240113-1ubuntu1 libtirpc-common_1.3.4+ds-1build1 libtirpc-dev_1.3.4+ds-1build1 libtirpc3_1.3.4+ds-1build1 libtool_2.4.7-7 libubsan1_14-20240201-3ubuntu1 libuchardet0_0.0.8-1 libudev1_255.2-3ubuntu2 libunistring2_1.0-2 libunistring5_1.1-2 libuuid1_2.39.2-6ubuntu1 libxml2_2.9.14+dfsg-1.3ubuntu1 libxxhash0_0.8.2-2 libzarith-ocaml_1.13-2build3 libzarith-ocaml-dev_1.13-2build3 libzstd1_1.5.5+dfsg2-2 linux-libc-dev_6.8.0-11.11 lockfile-progs_0.1.19build1 login_1:4.13+dfsg1-3ubuntu1 logsave_1.47.0-2ubuntu1 lto-disabled-list_46 m4_1.4.19-4 make_4.3-4.1build1 man-db_2.12.0-3 mawk_1.3.4.20240123-1 media-types_10.1.0 mount_2.39.2-6ubuntu1 ncurses-base_6.4+20240113-1ubuntu1 ncurses-bin_6.4+20240113-1ubuntu1 netbase_6.4 ocaml_4.14.1-1ubuntu1 ocaml-base_4.14.1-1ubuntu1 ocaml-findlib_1.9.6-1build3 ocaml-interp_4.14.1-1ubuntu1 openssl_3.0.10-1ubuntu4 optipng_0.7.8+ds-1 passwd_1:4.13+dfsg1-3ubuntu1 patch_2.7.6-7build2 perl_5.38.2-3 perl-base_5.38.2-3 perl-modules-5.36_5.36.0-10ubuntu1 perl-modules-5.38_5.38.2-3 pinentry-curses_1.2.1-3ubuntu1 pkgbinarymangler_154 po-debconf_1.0.21+nmu1 policyrcd-script-zg2_0.1-3.1 procps_2:4.0.4-2ubuntu1 psmisc_23.6-2 python3_3.12.1-0ubuntu1 python3-minimal_3.12.1-0ubuntu1 python3.12_3.12.2-1 python3.12-minimal_3.12.2-1 readline-common_8.2-3 rpcsvc-proto_1.4.2-0ubuntu6 sbuild-build-depends-main-dummy_0.invalid.0 sed_4.9-2 sensible-utils_0.0.22 systemd_255.2-3ubuntu2 systemd-dev_255.2-3ubuntu2 systemd-sysv_255.2-3ubuntu2 sysvinit-utils_3.08-3ubuntu1 tar_1.35+dfsg-3 tzdata_2024a-1ubuntu1 ubuntu-keyring_2023.11.28.1 usrmerge_35ubuntu1 util-linux_2.39.2-6ubuntu1 uuid-runtime_2.39.2-6ubuntu1 xz-utils_5.4.5-0.3 zlib1g_1:1.3.dfsg-3ubuntu1 +------------------------------------------------------------------------------+ | Build | +------------------------------------------------------------------------------+ Unpack source ------------- -----BEGIN PGP SIGNED MESSAGE----- Hash: SHA256 Format: 3.0 (quilt) Source: coq-elpi Binary: libcoq-elpi Architecture: any Version: 1.19.3-2build1 Maintainer: Debian OCaml Maintainers Uploaders: Julien Puydt Homepage: https://github.com/LPCIC/coq-elpi Standards-Version: 4.6.2 Vcs-Browser: https://salsa.debian.org/ocaml-team/coq-elpi Vcs-Git: https://salsa.debian.org/ocaml-team/coq-elpi.git Build-Depends: coq, debhelper-compat (= 13), dh-coq, dh-ocaml, libcoq-core-ocaml-dev (>= 8.17), libcoq-stdlib, libelpi-ocaml-dev Package-List: libcoq-elpi deb ocaml optional arch=any Checksums-Sha1: 2ebf0d931c8083349901f90234aeaac5e22d616e 571678 coq-elpi_1.19.3.orig.tar.gz e2f1c0b2ff7202c34ef72a34cce651bff7de8462 3700 coq-elpi_1.19.3-2build1.debian.tar.xz Checksums-Sha256: befad7c58a5b2b60ac805646172016bb9dc9764c92c7dcc2056c3d15a3d8b1b4 571678 coq-elpi_1.19.3.orig.tar.gz 38ba60532a42f961f906c3d1e6fc86bb4d04a3cbbb13126f0d31b96397a82c1c 3700 coq-elpi_1.19.3-2build1.debian.tar.xz Files: 17db60a99d07ca13976b794a8205327b 571678 coq-elpi_1.19.3.orig.tar.gz 2f6fb1c3d488b1e9a51fad6ccea9b63c 3700 coq-elpi_1.19.3-2build1.debian.tar.xz -----BEGIN PGP SIGNATURE----- iQIzBAEBCAAdFiEEkpeKbhleSSGCX3/w808JdE6fXdkFAmXP/LYACgkQ808JdE6f Xdn9pw/9H2xpeG/idGgUgRus75MuSJ3GNl5juC0ZqjVNJU06o/bxyNN8K10/NETV NW7cFqxUqJh/O5+YjVN3yN25e/rHA3pcUO0qNvO83I1xIZzpIxJOL25P6JaignIh 2r/rmaWWInbfLWAPBJbT4jotBa8AFmKHHDvCK7n77lO3bHaz7upPz3nATzxZUzXg tNNHA/cNqc8lkvq7OQe/91KsAnMwPadfs/itnuCos05Km24uFKWmFixcKRPuizFV DEqdHcjrwQggW579mzZQH//3GD20dVgODwOSF4OH7AG9gT4akzgUq3sW7ujhXw3U bi/NdBAxLdRCSOwMW0qzl+uc0Yk+vDW/ifLP/4c2YTMUJa15Vh6p3crxeei4Vros bA5RVPCXvKZg9o1j32H3ES30UC6u/4zRnQCdBvWZuUXtIbGSO2s27vWR+su+KXWc wYC3Tb/9mdAARK7vfv+JHd+0UxqrRwpvKO6+GgHLhID2ogyiwm144K6I6QiUrKYV j7SrcUR80T54YPKocfjW8PI8ykePbgotb6C1Xj5WWuRDMZrkS7pKFhW763GgyDv3 0LWmM5WMKAFqGQObZW89cDu+LUyBkpyy6p8hVcOOuu/tRKvVzz4oQIUCrO0moNmx 5D3bdZaVcPcIgHGNbKPkzbiYZAu3pCQa4dc7YbCnZnH8L+m27rQ= =9CIz -----END PGP SIGNATURE----- gpgv: Signature made Sat Feb 17 00:24:22 2024 UTC gpgv: using RSA key 92978A6E195E4921825F7FF0F34F09744E9F5DD9 gpgv: Can't check signature: No public key dpkg-source: warning: cannot verify inline signature for ./coq-elpi_1.19.3-2build1.dsc: no acceptable signature found dpkg-source: info: extracting coq-elpi in /<> dpkg-source: info: unpacking coq-elpi_1.19.3.orig.tar.gz dpkg-source: info: unpacking coq-elpi_1.19.3-2build1.debian.tar.xz dpkg-source: info: using patch list from debian/patches/series dpkg-source: info: applying 0001-Increase-timeout-in-test-that-takes-a-bit-longer-on-.patch Check disk space ---------------- Sufficient free space for build User Environment ---------------- APT_CONFIG=/var/lib/sbuild/apt.conf DEB_BUILD_OPTIONS=parallel=4 HOME=/sbuild-nonexistent LANG=C.UTF-8 LC_ALL=C.UTF-8 LOGNAME=buildd PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games SCHROOT_ALIAS_NAME=build-PACKAGEBUILD-27784850 SCHROOT_CHROOT_NAME=build-PACKAGEBUILD-27784850 SCHROOT_COMMAND=env SCHROOT_GID=2501 SCHROOT_GROUP=buildd SCHROOT_SESSION_ID=build-PACKAGEBUILD-27784850 SCHROOT_UID=2001 SCHROOT_USER=buildd SHELL=/bin/sh TERM=unknown USER=buildd V=1 dpkg-buildpackage ----------------- Command: dpkg-buildpackage -us -uc -mLaunchpad Build Daemon -B -rfakeroot dpkg-buildpackage: info: source package coq-elpi dpkg-buildpackage: info: source version 1.19.3-2build1 dpkg-buildpackage: info: source distribution noble dpkg-source --before-build . dpkg-buildpackage: info: host architecture armhf debian/rules clean dh clean --with ocaml,coq debian/rules override_dh_auto_clean make[1]: Entering directory '/<>' /usr/bin/make clean make[2]: Entering directory '/<>' Using coq found in /usr/bin, from COQBIN or PATH echo "(* Automatically generated from elpi/coq-HOAS.elpi, don't edit *)" > src/coq_elpi_builtins_HOAS.ml echo "(* Regenerate via 'make src/coq_elpi_builtins_HOAS.ml' *)" >> src/coq_elpi_builtins_HOAS.ml echo "let code = {|" >> src/coq_elpi_builtins_HOAS.ml cat elpi/coq-HOAS.elpi >> src/coq_elpi_builtins_HOAS.ml echo "|}" >> src/coq_elpi_builtins_HOAS.ml echo "let elpi_dir = \"/usr/lib/ocaml/elpi\";;" > src/coq_elpi_config.ml COQDEP VFILES COQPP src/coq_elpi_vernacular_syntax.mlg COQPP src/coq_elpi_arg_syntax.mlg CAMLDEP src/coq_elpi_builtins.mli CAMLDEP src/coq_elpi_arg_HOAS.mli CAMLDEP src/coq_elpi_glob_quotation.mli CAMLDEP src/coq_elpi_HOAS.mli CAMLDEP src/coq_elpi_utils.mli CAMLDEP src/coq_elpi_programs.mli CAMLDEP src/coq_elpi_vernacular.mli OCAMLLIBDEP src/elpi_plugin.mlpack CAMLDEP src/coq_elpi_config.ml CAMLDEP src/coq_elpi_builtins.ml CAMLDEP src/coq_elpi_builtins_HOAS.ml CAMLDEP src/coq_elpi_arg_HOAS.ml CAMLDEP src/coq_elpi_glob_quotation.ml CAMLDEP src/coq_elpi_name_quotation.ml CAMLDEP src/coq_elpi_HOAS.ml CAMLDEP src/coq_elpi_utils.ml CAMLDEP src/coq_elpi_programs.ml CAMLDEP src/coq_elpi_vernacular.ml CAMLDEP src/coq_elpi_arg_syntax.ml CAMLDEP src/coq_elpi_vernacular_syntax.ml FILL .merlin echo "S /usr/lib/ocaml/elpi" >> .merlin echo "B /usr/lib/ocaml/elpi" >> .merlin if [ "/usr/lib/ocaml/elpi" != "elpi/findlib/elpi" ]; then\ echo "PKG elpi" >> .merlin;\ fi Using coq found in /usr/bin, from COQBIN or PATH make[3]: Entering directory '/<>' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied CLEAN make[3]: Leaving directory '/<>' make[3]: Entering directory '/<>' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied CLEAN make[3]: Leaving directory '/<>' make[3]: Entering directory '/<>/apps/derive' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory make[4]: Entering directory '/<>/apps/derive' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/derive' make[4]: Entering directory '/<>/apps/derive' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/derive' make[3]: Leaving directory '/<>/apps/derive' make[3]: Entering directory '/<>/apps/eltac' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory make[4]: Entering directory '/<>/apps/eltac' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/eltac' make[4]: Entering directory '/<>/apps/eltac' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/eltac' make[3]: Leaving directory '/<>/apps/eltac' make[3]: Entering directory '/<>/apps/NES' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory make[4]: Entering directory '/<>/apps/NES' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/NES' make[4]: Entering directory '/<>/apps/NES' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/NES' make[3]: Leaving directory '/<>/apps/NES' make[3]: Entering directory '/<>/apps/locker' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory make[4]: Entering directory '/<>/apps/locker' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/locker' make[4]: Entering directory '/<>/apps/locker' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/locker' make[3]: Leaving directory '/<>/apps/locker' make[3]: Entering directory '/<>/apps/coercion' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES COQPP src/coq_elpi_coercion_hook.mlg OCAMLLIBDEP src/elpi_coercion_plugin.mlpack CAMLDEP src/coq_elpi_coercion_hook.ml FILL .merlin Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory make[4]: Entering directory '/<>/apps/coercion' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/coercion' make[4]: Entering directory '/<>/apps/coercion' make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied make[4]: /usr/lib/ocaml/coq: Permission denied CLEAN make[4]: Leaving directory '/<>/apps/coercion' make[3]: Leaving directory '/<>/apps/coercion' make[2]: Leaving directory '/<>' rm -f src/coq_elpi_builtins_HOAS.ml src/coq_elpi_config.ml rm -f tests/test_glob/coqdoc.css find . -name "*.aux" -delete find . -name "*.html" -delete find . -name "*.txt" -delete find . -name .merlin -delete find . -name "Makefile*conf" -delete find . -name "Makefile*coq" -delete make[1]: Leaving directory '/<>' 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 '/<>' /usr/bin/make build OCAMLWARN= make[2]: Entering directory '/<>' Using coq found in /usr/bin, from COQBIN or PATH echo "(* Automatically generated from elpi/coq-HOAS.elpi, don't edit *)" > src/coq_elpi_builtins_HOAS.ml echo "(* Regenerate via 'make src/coq_elpi_builtins_HOAS.ml' *)" >> src/coq_elpi_builtins_HOAS.ml echo "let code = {|" >> src/coq_elpi_builtins_HOAS.ml cat elpi/coq-HOAS.elpi >> src/coq_elpi_builtins_HOAS.ml echo "|}" >> src/coq_elpi_builtins_HOAS.ml echo "let elpi_dir = \"/usr/lib/ocaml/elpi\";;" > src/coq_elpi_config.ml COQDEP VFILES COQPP src/coq_elpi_vernacular_syntax.mlg COQPP src/coq_elpi_arg_syntax.mlg CAMLDEP src/coq_elpi_builtins.mli CAMLDEP src/coq_elpi_arg_HOAS.mli CAMLDEP src/coq_elpi_glob_quotation.mli CAMLDEP src/coq_elpi_HOAS.mli CAMLDEP src/coq_elpi_utils.mli CAMLDEP src/coq_elpi_programs.mli CAMLDEP src/coq_elpi_vernacular.mli OCAMLLIBDEP src/elpi_plugin.mlpack CAMLDEP src/coq_elpi_config.ml CAMLDEP src/coq_elpi_builtins.ml CAMLDEP src/coq_elpi_builtins_HOAS.ml CAMLDEP src/coq_elpi_arg_HOAS.ml CAMLDEP src/coq_elpi_glob_quotation.ml CAMLDEP src/coq_elpi_name_quotation.ml CAMLDEP src/coq_elpi_HOAS.ml CAMLDEP src/coq_elpi_utils.ml CAMLDEP src/coq_elpi_programs.ml CAMLDEP src/coq_elpi_vernacular.ml CAMLDEP src/coq_elpi_arg_syntax.ml CAMLDEP src/coq_elpi_vernacular_syntax.ml FILL .merlin echo "S /usr/lib/ocaml/elpi" >> .merlin echo "B /usr/lib/ocaml/elpi" >> .merlin if [ "/usr/lib/ocaml/elpi" != "elpi/findlib/elpi" ]; then\ echo "PKG elpi" >> .merlin;\ fi Using coq found in /usr/bin, from COQBIN or PATH ########################## building plugin ########################## CAMLC -c src/coq_elpi_utils.mli CAMLC -c src/coq_elpi_programs.mli CAMLC -c src/coq_elpi_HOAS.mli CAMLC -c src/coq_elpi_arg_HOAS.mli CAMLC -c src/coq_elpi_vernacular.mli CAMLC -c src/coq_elpi_glob_quotation.mli CAMLC -c src/coq_elpi_arg_syntax.ml CAMLC -c src/coq_elpi_vernacular_syntax.ml CAMLC -c src/coq_elpi_builtins.mli CAMLC -c src/coq_elpi_vernacular.ml CAMLC -c src/coq_elpi_config.ml CAMLC -c src/coq_elpi_programs.ml CAMLC -c src/coq_elpi_utils.ml CAMLC -c src/coq_elpi_HOAS.ml CAMLC -c src/coq_elpi_name_quotation.ml CAMLC -c src/coq_elpi_glob_quotation.ml CAMLC -c src/coq_elpi_arg_HOAS.ml CAMLC -c src/coq_elpi_builtins_HOAS.ml CAMLC -c src/coq_elpi_builtins.ml CAMLC -pack -o src/elpi_plugin.cmo CAMLC -a -o src/elpi_plugin.cma CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_config.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_utils.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_HOAS.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_glob_quotation.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_name_quotation.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_arg_HOAS.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_arg_syntax.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_builtins_HOAS.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_builtins.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_programs.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_vernacular.ml CAMLOPT -c -for-pack Elpi_plugin src/coq_elpi_vernacular_syntax.ml CAMLOPT -pack -o src/elpi_plugin.cmx CAMLOPT -a -o src/elpi_plugin.cmxa CAMLOPT -shared -o src/elpi_plugin.cmxs COQC theories/elpi.v COQC theories/wip/memoization.v hit app [global (indt «or»), global (indt «False»), global (indt «True»)] hit app [global (indt «or»), global (indt «False»), global (indt «True»)] hit app [global (indt «or»), global (indt «False»), global (indt «True»)] hit app [global (indt «or»), global (indt «False»), global (indt «True»)] hit app [global (indt «or»), global (indt «False»), global (indt «True»)] hit app [global (indt «or»), global (indt «False»), global (indt «True»)] Finished transaction in 0.012 secs (0.007u,0.002s) (successful) ########################## building APPS ############################ make[3]: Entering directory '/<>/apps/derive' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin COQC theories/derive.v COQC theories/derive/map.v COQC theories/derive/lens.v COQC theories/derive/lens_laws.v COQC theories/derive/param1.v COQC theories/derive/param1_congr.v COQC theories/derive/param1_trivial.v COQC theories/derive/param1_functor.v COQC theories/derive/param2.v COQC theories/derive/induction.v COQC theories/derive/tag.v COQC theories/derive/eqType_ast.v COQC theories/derive/fields.v COQC theories/derive/eqb_core_defs.v COQC theories/derive/eqb.v COQC theories/derive/eqbcorrect.v COQC theories/derive/eqbOK.v COQC theories/derive/std.v COQC theories/derive/projK.v COQC theories/derive/isK.v COQC theories/derive/eq.v COQC theories/derive/bcongr.v COQC theories/derive/eqK.v COQC theories/derive/eqcorrect.v COQC theories/derive/eqOK.v COQC theories/derive/legacy.v COQC theories/derive/invert.v COQC theories/derive/idx2inv.v COQC theories/derive/experimental.v COQC theories/derive/cast.v make[3]: Leaving directory '/<>/apps/derive' make[3]: Entering directory '/<>/apps/eltac' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin COQC theories/assumption.v COQC theories/constructor.v COQC theories/intro.v COQC theories/clear.v COQC theories/fail.v COQC theories/discriminate.v COQC theories/injection.v COQC theories/case.v COQC theories/generalize.v COQC theories/cycle.v COQC theories/tactics.v make[3]: Leaving directory '/<>/apps/eltac' make[3]: Entering directory '/<>/apps/NES' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin COQC theories/NES.v make[3]: Leaving directory '/<>/apps/NES' make[3]: Entering directory '/<>/apps/locker' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES FILL .merlin COQC theories/locker.v make[3]: Leaving directory '/<>/apps/locker' make[3]: Entering directory '/<>/apps/coercion' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES COQPP src/coq_elpi_coercion_hook.mlg OCAMLLIBDEP src/elpi_coercion_plugin.mlpack CAMLDEP src/coq_elpi_coercion_hook.ml FILL .merlin CAMLOPT -c -for-pack Elpi_coercion_plugin src/coq_elpi_coercion_hook.ml CAMLOPT -pack -o src/elpi_coercion_plugin.cmx CAMLOPT -a -o src/elpi_coercion_plugin.cmxa CAMLOPT -shared -o src/elpi_coercion_plugin.cmxs COQC theories/coercion.v make[3]: Leaving directory '/<>/apps/coercion' make[2]: Leaving directory '/<>' make[1]: Leaving directory '/<>' dh_auto_test -a make -j4 test make[1]: Entering directory '/<>' Using coq found in /usr/bin, from COQBIN or PATH ########################## building plugin ########################## make[2]: Nothing to be done for 'bytefiles'. make[4]: Nothing to be done for 'real-all'. ########################## testing plugin ########################## ########################## building APPS ############################ make[2]: Entering directory '/<>/apps/derive' Using coq found in /usr/bin//, from COQBIN or PATH COQDEP VFILES make[4]: Nothing to be done for 'real-all'. make[2]: Leaving directory '/<>/apps/derive' make[2]: Entering directory '/<>/apps/eltac' Using coq found in /usr/bin//, from COQBIN or PATH COQC tests/test_API.v COQC tests/test_API_typecheck.v COQC tests/test_API_elaborate.v make[4]: Nothing to be done for 'real-all'. make[2]: Leaving directory '/<>/apps/eltac' make[2]: Entering directory '/<>/apps/NES' Using coq found in /usr/bin//, from COQBIN or PATH Query assignments: E = fun `n` (global (indt «nat»)) c0 \ fun `t` (app [global (const «T2»), c0]) c1 \ fun `_` (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 `_` (app [global (const «f3»), c0, app [global (const «h»), c0, c1]]) c2 \ global (indt «nat») _uvk_1_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_API_elaborate.13 elpi.tests.test_API_elaborate.10 elpi.tests.test_API_elaborate.9} |= elpi.tests.test_API_elaborate.13 < elpi.tests.test_API_elaborate.9 Set <= elpi.tests.test_API_elaborate.10 Set <= elpi.tests.test_API_elaborate.13 T2.u0 <= elpi.tests.test_API_elaborate.13 f3.u0 <= elpi.tests.test_API_elaborate.13 ALGEBRAIC UNIVERSES: {elpi.tests.test_API_elaborate.10} UNDEFINED UNIVERSES: elpi.tests.test_API_elaborate.10 SORTS: α4 := Type α5 := Type WEAK CONSTRAINTS: 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») 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 _uvk_4_ = X0 _uvk_5_ = X1 Coq version: 8.18.0 = 8 . 18 . 0 Query assignments: MA = 8 MI = 18 P = 0 V = 8.18.0 c2 global (indt «nat») z nat Query assignments: Spilled_1 = c0 \ c1 \ c2 \ nat Spilled_2 = c0 \ c1 \ c2 \ z T = global (indt «nat») make[4]: Nothing to be done for 'real-all'. 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»)] _uvk_6_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_API_elaborate.19 elpi.tests.test_API_elaborate.18} |= elpi.tests.test_API_elaborate.19 < elpi.tests.test_API_elaborate.18 s.u0 <= elpi.tests.test_API_elaborate.19 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α11 := Type WEAK CONSTRAINTS: c2 global (indt «nat») z nat Query assignments: Spilled_1 = c0 \ c1 \ c2 \ nat Spilled_2 = c0 \ c1 \ c2 \ z T = global (indt «nat») make[2]: Leaving directory '/<>/apps/NES' make[2]: Entering directory '/<>/apps/locker' Using coq found in /usr/bin//, from COQBIN or PATH hello world raw: parameter A explicit (global (const «T1»)) c0 \ inductive ind1 tt (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.20»)) c1 \ arity (sort (typ «elpi.tests.test_API_elaborate.22»))) c1 \ [constructor K1 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.20»)) c2 \ arity (prod `_` (app [c1, c2]) c3 \ app [c1, c2])), constructor K2 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.20»)) c2 \ arity (prod `_` (app [global (const «f1»), c0]) c3 \ app [c1, c2])), constructor K3 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.20»)) 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.23»)) c1 \ arity (sort (typ «elpi.tests.test_API_elaborate.25»))) c1 \ [constructor K1 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.28»)) c2 \ arity (prod `_` (app [c1, c2]) c3 \ app [c1, c2])), constructor K2 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.30»)) c2 \ arity (prod `_` (app [global (const «f1»), c0]) c3 \ app [c1, c2])), constructor K3 (parameter B explicit (sort (typ «elpi.tests.test_API_elaborate.33»)) c2 \ arity (prod `_` (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 `_` (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.38»)) 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.41»)) Build_ind3 (field [coercion reversible, canonical tt] fld3 (sort (typ «elpi.tests.test_API_elaborate.40»)) 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.42»)) Build_ind3 (field [coercion reversible, canonical tt] fld3 (sort (typ «elpi.tests.test_API_elaborate.43»)) 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 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" make[4]: Nothing to be done for 'real-all'. 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.50 elpi.tests.test_API_elaborate.49} |= elpi.tests.test_API_elaborate.50 < elpi.tests.test_API_elaborate.49 s.u0 <= elpi.tests.test_API_elaborate.50 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α19 := Type WEAK CONSTRAINTS: unknown_gref Unable to unify "bool" with "nat". Query assignments: Msg = Unable to unify "bool" with "nat". make[2]: Leaving directory '/<>/apps/locker' make[2]: Entering directory '/<>/apps/coercion' Using coq found in /usr/bin//, from COQBIN or PATH «elpi.tests.test_API_elaborate.52» «elpi.tests.test_API_elaborate.52» COQC tests/test_API_env.v 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.4 elpi.tests.test_API_typecheck.3 elpi.tests.test_API_typecheck.2 elpi.tests.test_API_typecheck.1} |= elpi.tests.test_API_typecheck.3 < elpi.tests.test_API_typecheck.2 elpi.tests.test_API_typecheck.4 < elpi.tests.test_API_typecheck.1 Set <= elpi.tests.test_API_typecheck.3 Set <= elpi.tests.test_API_typecheck.4 elpi.tests.test_API_typecheck.3 <= list.u0 elpi.tests.test_API_typecheck.4 <= list.u0 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α1 := Type α2 := Type WEAK CONSTRAINTS: global (indt «nat») Query assignments: T = global (indt «nat») _uvk_5_ = global (indt «nat») _uvk_6_ = global (indt «nat») Universe constraints: UNIVERSES: {elpi.tests.test_API_typecheck.9 elpi.tests.test_API_typecheck.8 elpi.tests.test_API_typecheck.7 elpi.tests.test_API_typecheck.6 elpi.tests.test_API_typecheck.5} |= Set < elpi.tests.test_API_typecheck.7 elpi.tests.test_API_typecheck.8 < elpi.tests.test_API_typecheck.6 elpi.tests.test_API_typecheck.9 < elpi.tests.test_API_typecheck.5 Set <= elpi.tests.test_API_typecheck.8 Set <= elpi.tests.test_API_typecheck.9 elpi.tests.test_API_typecheck.8 <= list.u0 elpi.tests.test_API_typecheck.9 <= list.u0 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α3 := Type α4 := Type α5 := Type WEAK CONSTRAINTS: Query assignments: GR = «nat» «elpi.tests.test_API_typecheck.10» Query assignments: U = «elpi.tests.test_API_typecheck.10» Universe constraints: UNIVERSES: {elpi.tests.test_API_typecheck.10} |= Set <= elpi.tests.test_API_typecheck.10 ALGEBRAIC UNIVERSES: {elpi.tests.test_API_typecheck.10} UNDEFINED UNIVERSES: elpi.tests.test_API_typecheck.10 SORTS: WEAK CONSTRAINTS: make[4]: Nothing to be done for 'real-all'. make[2]: Leaving directory '/<>/apps/coercion' ########################## testing APPS ############################ make[2]: Entering directory '/<>/apps/derive' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES 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). COQC tests/test_API_module.v Query assignments: GR = «Nat.add» MP = «Coq.Init.Datatypes» 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: A = «elpi.tests.test_API.succ» GR = «Nat.add» MP = «Coq.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 «Coq.Init.Datatypes»] Query assignments: GR = «empty_nat» TY = global (indt «nat») 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 (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 «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 = «Coq.Init.Datatypes» COQC tests/test_derive_stdlib.v Universe constraints: Query assignments: GR1 = indc «Vector.nil» GR2 = indt «nat» GR3 = const «A» elpi.tests.test_API_module.X.i [elpi, tests, test_API_module, X, Y] [elpi, tests, test_API_module, X, Y] Query assignments: 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» Spilled_1 = [elpi, tests, test_API_module, X, Y] Spilled_2 = [elpi, tests, test_API_module, X, Y] Spilled_3 = elpi.tests.test_API_module.X.Y.i Spilled_4 = elpi.tests.test_API_module.X.i Spilled_5 = elpi.tests.test_API_module.X.i XYi = «X.Y.i» XYr = «X.Y.i_rect» Xi = «X.i» Query assignments: X = «elpi.tests.test_API.1» Universe constraints: UNIVERSES: {elpi.tests.test_API.1} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: add_equal 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» NGR = «add_equal» Name = add_equal S = add Spilled_1 = add_equal Spilled_2 = add_equal 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.test_API_env.add_equal 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: X = typ «elpi.tests.test_API.2» Y = typ «elpi.tests.test_API.3» Universe constraints: UNIVERSES: {elpi.tests.test_API.3 elpi.tests.test_API.2} |= elpi.tests.test_API.2 <= elpi.tests.test_API.3 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: «myfalse» Query assignments: F = indt «False» GR = «myfalse» myfalse : False 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» _uvk_1_ = «A.i.u0» _uvk_2_ = «elpi.tests.test_API_module.11» Universe constraints: UNIVERSES: ALGEBRAIC UNIVERSES: {elpi.tests.test_API_module.11 A.i.u0} UNDEFINED UNIVERSES: elpi.tests.test_API_module.11 A.i.u0 SORTS: WEAK CONSTRAINTS: Module A : TA := Struct Definition x Module B Definition z Inductive i1 Definition i1_rect Definition i1_ind Definition i1_rec Definition i1_sind Definition i End A.z : nat A.i : Type *** [ A.i : Type ] COQC tests/test_param2.v Query assignments: X = typ «elpi.tests.test_API.4» Y = typ «elpi.tests.test_API.5» Universe constraints: UNIVERSES: {elpi.tests.test_API.5 elpi.tests.test_API.4} |= elpi.tests.test_API.4 <= elpi.tests.test_API.5 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: 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» _uvk_1_ = «eq_class.u0» _uvk_2_ = «eq_class.u1» Universe constraints: UNIVERSES: ALGEBRAIC UNIVERSES: {eq_class.u1 eq_class.u0} UNDEFINED UNIVERSES: eq_class.u1 eq_class.u0 SORTS: WEAK CONSTRAINTS: Query assignments: MP_TA = «elpi.tests.test_API_module.TA» MP_TF = «elpi.tests.test_API_module.TF» Spilled_1 = «elpi.tests.test_API_module.a» Spilled_2 = const const EXN PRINTING: Not_found 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 Module F : Funsig (a:TA) Funsig (b:TA) TF := Functor (a:TA) Functor (b:TA) Struct Definition w : nat. End fun x : eq_class nat => x : bool : eq_class nat -> bool Module B : Sig Parameter w : nat. End := (F A A) *** [ B.w : nat ] p <- eq_proof ( xxx ) Query assignments: X = typ «elpi.tests.test_API.6» Y = typ «elpi.tests.test_API.7» Z = typ «elpi.tests.test_API.8» Universe constraints: UNIVERSES: {elpi.tests.test_API.8 elpi.tests.test_API.7 elpi.tests.test_API.6} |= elpi.tests.test_API.6 <= elpi.tests.test_API.8 elpi.tests.test_API.7 <= elpi.tests.test_API.8 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: 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» _uvk_3_ = «prim_eq_class.u0» _uvk_4_ = «prim_eq_class.u1» Universe constraints: UNIVERSES: ALGEBRAIC UNIVERSES: {prim_eq_class.u1 prim_eq_class.u0} UNDEFINED UNIVERSES: prim_eq_class.u1 prim_eq_class.u0 SORTS: WEAK CONSTRAINTS: 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 |} (* {} |= prim_eq_class.u1 <= eq.u0 *) Query assignments: MP_TA = «elpi.tests.test_API_module.TA» nth_R = fun (T T0 : Type) (T1 : T -> T0 -> Type) (x0 : T) (x1 : T0) (x2 : T1 x0 x1) => let fix rec (n : nat) (l : list T) {struct n} : T := match l with | nil => x0 | (x :: xs)%list => match n with | 0 => x | S m => rec m xs end end in let fix rec0 (n : nat) (l : list T0) {struct n} : T0 := match l with | nil => x1 | (x :: xs)%list => match n with | 0 => x | S m => rec0 m xs end end in fix rec1 (n n0 : nat) (n1 : nat_R n n0) {struct n1} : forall (l : list T) (l0 : list T0), list_R T T0 T1 l l0 -> T1 (rec n l) (rec0 n0 l0) := match n1 in (nat_R s1 s2) return (forall (l : list T) (l0 : list T0), list_R T T0 T1 l l0 -> T1 (rec s1 l) (rec0 s2 l0)) with | O_R => let K := O_R in (fun (n2 n3 : nat) (n4 : nat_R n2 n3) (l : list T) (l0 : list T0) (l1 : list_R T T0 T1 l l0) => match l1 in (list_R _ _ _ l2 l3) return (T1 match l2 with | nil => x0 | (x :: xs)%list => match n2 with | 0 => x | S m => rec m xs end end match l3 with | nil => x1 | (x :: xs)%list => match n3 with | 0 => x | S m => rec0 m xs end end) with | nil_R _ _ _ => x2 | cons_R _ _ _ x x3 x4 xs xs0 xs1 => match n4 in (nat_R n5 n6) return (T1 match n5 with | 0 => x | S m => rec m xs end match n6 with | 0 => x3 | S m => rec0 m xs0 end) with | O_R => x4 | S_R m m0 m1 => rec1 m m0 m1 xs xs0 xs1 end end) 0 0 K | S_R x x3 x4 => let K := S_R x x3 x4 in (fun (n2 n3 : nat) (n4 : nat_R n2 n3) (l : list T) (l0 : list T0) (l1 : list_R T T0 T1 l l0) => match l1 in (list_R _ _ _ l2 l3) return (T1 match l2 with | nil => x0 | (x5 :: xs)%list => match n2 with | 0 => x5 | S m => rec m xs end end match l3 with | nil => x1 | (x5 :: xs)%list => match n3 with | 0 => x5 | S m => rec0 m xs end end) with | nil_R _ _ _ => x2 | cons_R _ _ _ x5 x6 x7 xs xs0 xs1 => match n4 in (nat_R n5 n6) return (T1 match n5 with | 0 => x5 | S m => rec m xs end match n6 with | 0 => x6 | S m => rec0 m xs0 end) with | O_R => x7 | S_R m m0 m1 => rec1 m m0 m1 xs xs0 xs1 end end) (S x) (S x3) K end : forall (T T0 : Type) (T1 : T -> T0 -> Type) (x0 : T) (x1 : T0), T1 x0 x1 -> forall n n0 : nat, nat_R n n0 -> forall (l : list T) (l0 : list T0), list_R T T0 T1 l l0 -> T1 (nth T x0 n l) (nth T0 x1 n0 l0) Arguments nth_R (T T)%type_scope T%function_scope x0 x0 x0 (n n)%nat_scope n (l l)%list_scope l Module Type TB = Funsig (A:TA) Sig End Query assignments: X = typ «elpi.tests.test_API.9» Y = typ «elpi.tests.test_API.10» Universe constraints: UNIVERSES: {elpi.tests.test_API.10 elpi.tests.test_API.9} |= elpi.tests.test_API.9 < elpi.tests.test_API.10 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: fun `r` (app [global (indt «prim_eq_class»), global (indt «nat»)]) c0 \ app [primitive (proj elpi.tests.test_API_env.prim_eq_f 1), c0] Query assignments: Spilled_1 = «elpi.tests.test_API_module.A» Module IA := Struct Definition z : nat. Definition i : Type. End pred_R = fun (n n0 : nat) (n1 : nat_R n n0) => match n1 in (nat_R n2 n3) return (nat_R match n2 with | 0 => n | S u => u end match n3 with | 0 => n0 | S u => u end) with | O_R => n1 | S_R _ _ u1 => u1 end : forall n n0 : nat, nat_R n n0 -> nat_R (Nat.pred n) (Nat.pred n0) Arguments pred_R (n n)%nat_scope n pred_R : nat2nat_R Nat.pred Nat.pred : nat2nat_R Nat.pred Nat.pred predn_R : nat2nat_R predn predn : nat2nat_R predn predn add_R : nat2nat2nat_R Nat.add Nat.add : nat2nat2nat_R Nat.add Nat.add File "./tests/test_param2.v", line 85, characters 0-30: Warning: Not a truly recursive fixpoint. [non-recursive,fixpoints,default] COQC tests/test_invert.v Query assignments: C = «pc» Query assignments: Spilled_1 = «elpi.tests.test_API_module.IA» i : Type test_inv : Type -> bool -> Type : Type -> bool -> Type K1_inv : forall (A : Type) (b : bool), b = true -> test_inv A b : forall (A : Type) (b : bool), b = true -> test_inv A b K2_inv : forall (A : Type) (b x : bool), A -> test_inv A (negb x) -> b = negb (negb x) -> test_inv A b : forall (A : Type) (b x : bool), A -> test_inv A (negb x) -> b = negb (negb x) -> test_inv A b 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 _ _ COQC tests/test_idx2inv.v Query assignments: Spilled_1 = «elpi.tests.test_API_module.TA» Module Type ITA = Sig Parameter z : nat. Parameter i : Type. End Universe constraints: UNIVERSES: ALGEBRAIC UNIVERSES: {myind.u0} UNDEFINED UNIVERSES: myind.u0 SORTS: WEAK CONSTRAINTS: 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 is_list_to_is_list_inv : forall (A : Type) (PA : A -> Type) (l : list A), is_list A PA l -> is_list_inv A PA l : forall (A : Type) (PA : A -> Type) (l : list A), is_list A PA l -> is_list_inv A PA l 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» COQC tests/test_lens.v COQC tests/test_API_section.v Query assignments: _uvk_6_ = «nuind.u0» _uvk_7_ = «nuind.u1» Universe constraints: UNIVERSES: ALGEBRAIC UNIVERSES: {nuind.u1 nuind.u0} UNDEFINED UNIVERSES: nuind.u1 nuind.u0 SORTS: WEAK CONSTRAINTS: 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 [foo (const «X»), foo (indt «nat»), foo (indt «bool»)] [foo (indt «nat»), foo (indt «bool»)] [] [foo (indt «nat»)] 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»)]))] _uvk_8_ = «tx.u0» _uvk_9_ = «tx.u1» Universe constraints: UNIVERSES: {elpi.tests.test_API_env.18 elpi.tests.test_API_env.17 elpi.tests.test_API_env.16 elpi.tests.test_API_env.15 elpi.tests.test_API_env.14 elpi.tests.test_API_env.13 elpi.tests.test_API_env.11} |= tx.u0 < elpi.tests.test_API_env.11 tx.u1 < elpi.tests.test_API_env.13 Set <= eq.u0 Set <= elpi.tests.test_API_env.13 Set <= elpi.tests.test_API_env.14 Set <= elpi.tests.test_API_env.15 Set <= elpi.tests.test_API_env.16 Set <= elpi.tests.test_API_env.17 Set <= elpi.tests.test_API_env.18 tx.u0 <= elpi.tests.test_API_env.14 tx.u1 <= elpi.tests.test_API_env.14 elpi.tests.test_API_env.14 <= tx.u1 ALGEBRAIC UNIVERSES: {tx.u1 tx.u0} UNDEFINED UNIVERSES: tx.u1 tx.u0 SORTS: α2 := Type α3 := Type α4 := Type α5 := Type WEAK CONSTRAINTS: 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 _f1 : Lens fo_record fo_record peano peano : Lens fo_record fo_record peano peano _f2 : Lens fo_record fo_record unit unit : Lens fo_record fo_record unit unit @_f3 : forall A : Type, Lens (pa_record A) (pa_record A) peano peano : forall A : Type, Lens (pa_record A) (pa_record A) peano peano @_f4 : forall A : Type, Lens (pa_record A) (pa_record A) A A : forall A : Type, Lens (pa_record A) (pa_record A) A A @_pf3 : forall A : Type, Lens (pr_record A) (pr_record A) peano peano : forall A : Type, Lens (pr_record A) (pr_record A) peano peano @_pf4 : forall A : Type, Lens (pr_record A) (pr_record A) A A : forall A : Type, Lens (pr_record A) (pr_record A) A A ok Query assignments: D = parameter A explicit (sort (typ «elpi.tests.test_API_env.20»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u0»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «elpi.tests.test_API_env.22»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi.tests.test_API_env.26»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u0»)) 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.u0»)) 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 «elpi.tests.test_API_env.20»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u0»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «elpi.tests.test_API_env.22»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi.tests.test_API_env.26»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u0»)) 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.u0»)) 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.test_API_env.26» UA = «elpi.tests.test_API_env.20» UB1 = «ind1.u0» UB2 = «ind1.u0» UB3 = «ind1.u0» UC = «elpi.tests.test_API_env.22» Universe constraints: UNIVERSES: {elpi.tests.test_API_env.26} |= Set <= elpi.tests.test_API_env.26 ind1.u0 <= elpi.tests.test_API_env.26 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: COQC tests/test_tag.v 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 Query assignments: D = parameter A explicit (sort (typ «elpi.tests.test_API_env.20»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u0»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «elpi.tests.test_API_env.22»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi.tests.test_API_env.27»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u0»)) 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.u0»)) 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 «elpi.tests.test_API_env.20»)) c0 \ parameter a explicit c0 c1 \ inductive ind1 tt (parameter B explicit (sort (typ «ind1.u0»)) c2 \ parameter b explicit c2 c3 \ arity (prod `C` (sort (typ «elpi.tests.test_API_env.22»)) c4 \ prod `_` c4 c5 \ sort (typ «elpi.tests.test_API_env.27»))) c2 \ [constructor k1 (parameter B explicit (sort (typ «ind1.u0»)) 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.u0»)) 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.test_API_env.27» UA = «elpi.tests.test_API_env.20» UB1 = «ind1.u0» UB2 = «ind1.u0» UB3 = «ind1.u0» UC = «elpi.tests.test_API_env.22» Universe constraints: UNIVERSES: {elpi.tests.test_API_env.27} |= Set <= elpi.tests.test_API_env.27 ind1.u0 <= elpi.tests.test_API_env.27 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: hello [int 1, int 2, trm (global (indt «nat»)), str x] 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» 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 x0 return ?e6@{x:=x0} with | true => S (S (S O)) | false => y end fix foo x y {struct x} := if x as x0 return ?e6@{x:=x0} then 3 else y COQC tests/test_API_TC_CS.v 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» ?r : Reflexive R : Reflexive R where ?r : [ |- Reflexive R] empty_tag : tag empty : tag empty unit_tag : tag unit : tag unit peano_tag : tag peano : tag peano option_tag : forall A : Type, tag (option A) : forall A : Type, tag (option A) pair_tag : forall A B : Type, tag (pair A B) : forall A B : Type, tag (pair A B) seq_tag : forall A : Type, tag (seq A) : forall A : Type, tag (seq A) rose_tag : forall A : Type, tag (rose A) : forall A : Type, tag (rose A) nest_tag : forall A : Type, tag (nest A) : forall A : Type, tag (nest A) w_tag : forall A : Type, tag (w A) : forall A : Type, tag (w A) vect_tag : forall (A : Type) (i : peano), tag (vect A i) : forall (A : Type) (i : peano), tag (vect A i) dyn_tag : tag dyn : tag dyn beta_tag : forall A : Type, tag (beta A) : forall A : Type, tag (beta A) iota_tag : tag iota : tag iota large_tag : tag large : tag large prim_int_tag : tag prim_int : tag prim_int prim_float_tag : tag prim_float : tag prim_float pa_record_tag : forall A : Type, tag (pa_record A) : forall A : Type, tag (pa_record A) pr_record_tag : forall A : Type, tag (pr_record A) : forall A : Type, tag (pr_record A) ord_tag : forall p : peano, tag (ord p) : forall p : peano, tag (ord p) ord2_tag : forall p : peano, tag (ord2 p) : forall p : peano, tag (ord2 p) val_tag : tag val : tag val {{ nat; S; }} {{ nat; S; }} Query assignments: GR = const «Nat.add» L = {{ nat; S; }} S = {{ nat; S; }} COQC tests/test_eqType_ast.v foo : nat : nat bar : bool -> nat : bool -> nat COQC tests/test_API_arguments.v Query assignments: GR = const «myi» myi : Reflexive R : Reflexive R {{ 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.test_API_env.HOAS.X» S = {{ X.a; }} Spilled_1 = const «X.a» Query assignments: L = [tc-instance (const «subrelation_partial_order») 0, tc-instance (const «PER_Transitive») 3, tc-instance (const «PreOrder_Transitive») 2, tc-instance (const «iff_Transitive») 0, tc-instance (const «eq_Transitive») 0, tc-instance (const «Equivalence_Transitive») 0, tc-instance (const «impl_Transitive») 0, tc-instance (const «StrictOrder_Transitive») 0, tc-instance (const «StrictOrder_Irreflexive») 0, tc-instance (const «StrictOrder_Asymmetric») 0, tc-instance (const «predicate_equivalence_equivalence») 0, tc-instance (const «relation_equivalence_equivalence») 0, tc-instance (const «eq_equivalence») 10, tc-instance (const «iff_equivalence») 0, tc-instance (const «Equivalence_Reflexive») 0, tc-instance (const «iff_Reflexive») 0, tc-instance (const «impl_Reflexive») 0, tc-instance (const «PreOrder_Reflexive») 2, tc-instance (const «eq_Reflexive») 0, tc-instance (const «myi») 10, tc-instance (const «partial_order_antisym») 0, tc-instance (const «eq_Symmetric») 0, tc-instance (const «Equivalence_Symmetric») 0, tc-instance (const «PER_Symmetric») 3, tc-instance (const «iff_Symmetric») 0, tc-instance (const «neq_Symmetric») 0, tc-instance (const «Bool.Decidable_eq_bool») 0, tc-instance (const «DecidableClass.Decidable_not») 0, tc-instance (const «inverse_impl_rewrite_relation») 3, tc-instance (const «impl_rewrite_relation») 3, tc-instance (const «iff_rewrite_relation») 2, tc-instance (const «relation_equivalence_rewrite_relation») 0, tc-instance (const «relation_implication_preorder») 0, tc-instance (const «Equivalence_PreOrder») 10, tc-instance (const «predicate_implication_preorder») 0, tc-instance (const «Equivalence_PER») 10] Query assignments: GR = indt «RewriteRelation» L = [tc-instance (const «inverse_impl_rewrite_relation») 3, tc-instance (const «impl_rewrite_relation») 3, tc-instance (const «iff_rewrite_relation») 2, tc-instance (const «relation_equivalence_rewrite_relation») 0] 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 Query assignments: GR = indt «RewriteRelation» COQC examples/usage.v Query assignments: Spilled_1 = const «foo» foo 3 : nat Query assignments: GR = indt «True» Query assignments: Spilled_1 = const «f» Spilled_2 = const «f» Spilled_3 = const «f» Spilled_4 = const «f» Spilled_5 = 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 f (S:=bool * bool) : bool * bool -> Prop Query assignments: Spilled_1 = 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 f (S:=bool * bool) : bool * bool -> Prop = fun x : bool => x = x : bool -> Prop COQC tests/test_API_notations.v 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: 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_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; 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; Znumtheory.Zdivide_opp_r; ZMicromega.Zdivide_pol_Zdivide; ZMicromega.Zdivide_pol_ind; ZMicromega.Zdivide_pol_one; ZMicromega.Zdivide_pol_sub; Zbool.Zeq_bool; RIneq.Zeq_bool_IZR; Zbool.Zeq_bool_eq; Zbool.Zeq_bool_neq; Zbool.Zeq_is_eq_bool; ZMicromega.Zeval_bop2; ZMicromega.Zeval_expr; ZMicromega.Zeval_expr_compat; ZMicromega.Zeval_formula; ZMicromega.Zeval_formula'; ZMicromega.Zeval_formula_compat; ZMicromega.Zeval_formula_compat'; ZMicromega.Zeval_nformula_dec; ZMicromega.Zeval_op2; ZMicromega.Zeval_op2_hold; ZMicromega.Zeval_pop2; ZMicromega.ZgcdM; Znumtheory.Zgcd_is_gcd; ZMicromega.Zgcd_minus; ZMicromega.Zgcd_pol; ZMicromega.Zgcd_pol_correct_lt; ZMicromega.Zgcd_pol_div; Zbool.Zgt_cases; Zbool.Zgt_is_gt_bool; Zorder.Zgt_le_succ; Zorder.Zgt_pos_0; Zorder.Zgt_trans; Znumtheory.Zis_gcd_gcd; Znumtheory.Zis_gcd_ind; Znumtheory.Zis_gcd_uniqueness_apart_sign; Zorder.Zle_0_minus_le; Zbool.Zle_bool_imp_le; Zbool.Zle_is_le_bool; Zorder.Zle_lt_succ; Zorder.Zle_minus_le_0; Zorder.Zle_not_lt; Zorder.Zlt_0_minus_lt; Ztac.Zlt_le_add_1; Zorder.Zlt_le_succ; auxiliary.Zlt_left_lt; Zorder.Zlt_not_le; Zorder.Zlt_succ_le; Zmax.Zmax_spec; BinInt.Zminus_eq; Zdiv.Zmod_0_r; Zorder.Zmult_le_compat_r; Zorder.Zmult_lt_compat2; Zorder.Zmult_lt_reg_r; Zorder.Znot_le_gt; Zorder.Zplus_lt_compat_l; BinInt.Zpos_eq; Zpow_def.Zpower_theory; ZArithRing.Zr_ring_lemma1; ZArithRing.Zr_ring_lemma2; ZMicromega.Zsor; InitialRing.Zsth; InitialRing.Zth; Field_theory.ZtoN; InitialRing.Ztriv_div_th; ZMicromega.Zunsat; ZMicromega.Zunsat_sound; BinInt.Z.abs; BinInt.Z.abs_eq; BinInt.Z.abs_eq_cases; BinInt.Z.abs_eq_or_opp; BinInt.Z.abs_mul; BinInt.Z.abs_neq; BinInt.Z.abs_nonneg; BinInt.Z.abs_opp; BinInt.Z.abs_or_opp_abs; BinInt.Z.abs_triangle; BinInt.Z.abs_wd; Field_theory.absurd_PCond; Field_theory.absurd_PCond_bottom; Nat.add; BinNat.N.add; BinPos.Pos.add; BinInt.Z.add; BinNat.N.add_0_l; PeanoNat.Nat.add_0_l; BinInt.Z.add_0_l; BinNat.N.add_0_r; PeanoNat.Nat.add_0_r; BinInt.Z.Private_BootStrap.add_0_r; BinInt.Z.add_0_r; BinPos.Pos.add_1_l; BinInt.Z.add_1_l; BinPos.Pos.add_1_r; BinInt.Z.add_1_r; BinNat.N.add_assoc; PeanoNat.Nat.add_assoc; BinPos.Pos.add_assoc; BinInt.Z.Private_BootStrap.add_assoc; BinInt.Z.add_assoc; BinInt.Z.Private_BootStrap.add_assoc_pos; BinNat.N.add_cancel_l; BinPos.Pos.add_cancel_l; BinInt.Z.add_cancel_l; BinNat.N.add_cancel_r; BinInt.Z.add_cancel_r; BinPos.Pos.add_carry; BinPos.Pos.add_carry_add; BinPos.Pos.add_carry_spec; BinNat.N.add_comm; PeanoNat.Nat.add_comm; BinPos.Pos.add_comm; BinInt.Z.Private_BootStrap.add_comm; BinInt.Z.add_comm; BinPos.Pos.add_compare_mono_l; BinPos.Pos.add_compare_mono_r; BinPos.Pos.add_diag; Ztac.add_le; BinInt.Z.add_le_lt_mono; PeanoNat.Nat.add_le_mono; BinInt.Z.add_le_mono; PeanoNat.Nat.add_le_mono_l; BinPos.Pos.add_le_mono_l; BinInt.Z.add_le_mono_l; PeanoNat.Nat.add_le_mono_r; BinPos.Pos.add_le_mono_r; BinInt.Z.add_le_mono_r; BinPos.Pos.add_lt_mono; BinInt.Z.add_lt_mono; BinPos.Pos.add_lt_mono_l; BinInt.Z.add_lt_mono_l; BinPos.Pos.add_lt_mono_r; BinInt.Z.add_lt_mono_r; BinPos.Pos.add_max_distr_l; BinPos.Pos.add_max_distr_r; BinInt.Z.add_move_0_l; BinInt.Z.add_move_0_r; BinInt.Z.add_move_l; BinInt.Z.add_move_r; Ring_polynom.add_mult_dev; Ring_polynom.add_mult_dev_ok; BinInt.Z.add_neg_neg; BinPos.Pos.add_no_neutral; BinInt.Z.add_nonneg_nonneg; BinInt.Z.add_nonpos_nonpos; BinInt.Z.add_opp_diag_l; BinInt.Z.Private_BootStrap.add_opp_diag_r; BinInt.Z.add_opp_diag_r; BinInt.Z.add_opp_l; BinInt.Z.add_opp_r; BinInt.Pos2Z.add_pos_neg; Ring_polynom.add_pow_list; Ring_polynom.add_pow_list_ok; BinNat.N.add_pred_l; BinInt.Z.add_pred_l; BinNat.N.add_pred_r; BinInt.Z.add_pred_r; BinPos.Pos.add_reg_l; BinPos.Pos.add_reg_r; BinInt.Z.add_simpl_r; BinNat.N.add_sub; BinPos.Pos.add_sub; BinNat.N.add_sub_assoc; BinPos.Pos.add_sub_assoc; BinInt.Z.add_sub_assoc; BinNat.N.add_succ_l; PeanoNat.Nat.add_succ_l; BinPos.Pos.add_succ_l; BinInt.Z.add_succ_l; BinNat.N.add_succ_r; PeanoNat.Nat.add_succ_r; BinPos.Pos.add_succ_r; BinInt.Z.add_succ_r; Tauto.add_term; Tauto.add_term_correct; BinNat.N.add_wd; PeanoNat.Nat.add_wd; BinInt.Z.add_wd; PeanoNat.Nat.add_wd_obligation_1; 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; BinNat.N.compare; BinPos.Pos.compare; BinInt.Z.compare; BinNat.N.compare_antisym; PeanoNat.Nat.compare_antisym; BinPos.Pos.compare_antisym; BinInt.Z.compare_antisym; BinPos.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; BinInt.Z.compare_nge_iff; BinInt.Z.compare_ngt_iff; BinNat.N.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; BinNat.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; Ztac.elim_concl_le; 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; Ztac.eq_incl; 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; ZMicromega.eq_le_iff; 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; BinInt.Z.eq_sym_iff; eq_trans; BinPos.Pos.Private_Tac.eq_trans; BinInt.Z.Private_OrderTac.Tac.eq_trans; Bool.eqb; BinNat.N.eqb; BinPos.Pos.eqb; BinInt.Z.eqb; BinNat.N.eqb_eq; BinPos.Pos.eqb_eq; BinInt.Z.eqb_eq; BinPos.Pos.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_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; CMorphisms.flip1; CMorphisms.flip2; 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_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; Znat.Nat2Z.inj_lt; 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; BinPos.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; Compare_dec.le_lt_dec; 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; BinNat.N.leb; BinPos.Pos.leb; BinInt.Z.leb; BinInt.Z.leb_gt; BinNat.N.leb_le; BinPos.Pos.leb_le; BinInt.Z.leb_le; BinInt.Z.leb_nle; BinNat.N.leb_spec; BinInt.Z.leb_spec; BinNat.N.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; 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; List.map; RingMicromega.map_Formula; RingMicromega.map_PExpr; Tauto.map_bformula; RingMicromega.map_option; RingMicromega.map_option2; BinPos.Pos.mask2cmp; PeanoNat.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; BinPos.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; BinInt.Z.mul_eq_0; 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; Compare_dec.nat_compare_lt; nat_ind; nat_rec; nat_rect; 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; List.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; BinPos.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_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; BinNat.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; BinPos.Pos.pred_N; BinPos.Pos.pred_N_succ; BinPos.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; BinNat.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_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; BinPos.Pos.succ; BinInt.Z.succ; RIneq.succ_IPR; BinNat.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; Bool.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; Bool.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; Bool.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; }} Spilled_1 = 3373 T = 0.784293 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.194»)) c0 \ inductive rtree tt (arity (sort (typ «elpi.apps.derive.examples.usage.195»))) c1 \ [constructor Leaf (arity (prod `_` c0 c2 \ c1)), constructor Node (arity (prod `_` (app [global (indt «tickle.tickle»), c1]) c2 \ c1))] Deriving Derivation map on indt «rtree» Derivation map on indt «rtree» took 0.003891 Derivation lens on indt «rtree» Derivation lens on indt «rtree» failed, continuing Derivation param1 on indt «rtree» Derivation param1 on indt «rtree» took 0.008741 Derivation param2 on indt «rtree» Derivation param2 on indt «rtree» took 0.009932 Derivation tag on indt «rtree» Derivation tag on indt «rtree» took 0.001897 Derivation eqType_ast on indt «rtree» Derivation eqType_ast on indt «rtree» took 0.001141 Derivation lens_laws on indt «rtree» Derivation lens_laws on indt «rtree» took 0.000927 Derivation param1_congr on indt «rtree» Derivation param1_congr on indt «rtree» took 0.003427 Derivation param1_inhab on indt «rtree» Derivation param1_inhab on indt «rtree» took 0.003251 Derivation param1_functor on indt «rtree» Derivation param1_functor on indt «rtree» took 0.003238 Derivation fields on indt «rtree» Derivation fields on indt «rtree» took 0.008141 Derivation param1_trivial on indt «rtree» Query assignments: I = «eq» P1 = «carrier» P2 = «eq_op» Derivation param1_trivial on indt «rtree» took 0.063443 Derivation induction on indt «rtree» Derivation induction on indt «rtree» took 0.002633 Derivation eqb on indt «rtree» Derivation eqb on indt «rtree» took 0.008416 Derivation eqbcorrect on indt «rtree» «elpi.tests.test_API_notations.abbr» Query assignments: A = «elpi.tests.test_API_notations.abbr» _uvk_1_ = X0 _uvk_2_ = c0 \ X1 c0 _uvk_3_ = c0 \ c1 \ X2 c0 c1 Syntactic constraints: {c0 c1} : decl c1 `y` (X1 c0), decl c0 `x` X0 ?- evar (X2 c0 c1) (X3 c0 c1) (X2 c0 c1) /* suspended on X2 */ {c0 c1} : decl c1 `y` (X1 c0), decl c0 `x` X0 ?- evar (X4 c0 c1) (sort (typ «elpi.tests.test_API_notations.3»)) (X3 c0 c1) /* suspended on X4, X3 */ {c0} : decl c0 `x` X0 ?- evar (X1 c0) (sort (typ «elpi.tests.test_API_notations.2»)) (X1 c0) /* suspended on X1 */ evar (X0) (sort (typ «elpi.tests.test_API_notations.1»)) (X0) /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_API_notations.3 elpi.tests.test_API_notations.2 elpi.tests.test_API_notations.1} |= ALGEBRAIC UNIVERSES: {} UNDEFINED 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 4 = 4 : Prop Derivation eqbcorrect on indt «rtree» took 0.022118 Derivation eqbOK on indt «rtree» Derivation eqbOK on indt «rtree» took 0.001928 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 Query assignments: S = {{ Nat.add; eq; nat; O; }} Spilled_1 = 4 T = prod `x` (global (indt «nat»)) c0 \ app [global (indt «eq»), X0 c0, app [global (const «Nat.add»), c0, global (indc «O»)], c0] _uvk_18_ = 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.test_API_env.30»)) (X1 c0) /* suspended on X2, X1 */ Universe constraints: UNIVERSES: {elpi.tests.test_API_env.30} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α7 WEAK CONSTRAINTS: Starting module Box Declaring inductive parameter A explicit (sort (typ «elpi.apps.derive.examples.usage.387»)) c0 \ record Box (sort (typ «elpi.apps.derive.examples.usage.388»)) 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 0.004777 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» File "./examples/usage.v", line 53, characters 0-84: Warning: Global name tag is taken, using tag1 instead [elpi.renamed,elpi,default] Derivation tag on indt «Box» took 0.002185 Derivation eqType_ast on indt «Box» Derivation eqType_ast on indt «Box» took 0.001126 Derivation lens_laws on indt «Box» Derivation lens_laws on indt «Box» took 0.011056 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 0.005562 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 0.005010 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 0.003048 Derivation lens on indt «a» Derivation lens on indt «a» failed, continuing Derivation param1 on indt «a» Derivation param1 on indt «a» took 0.017256 Derivation param2 on indt «a» Query assignments: GR = const «myc1» eq_op myc1 t1 t1 : bool Derivation param2 on indt «a» took 0.005735 Derivation tag on indt «a» Derivation tag on indt «a» took 0.001592 Derivation eqType_ast on indt «a» Derivation eqType_ast on indt «a» took 0.001042 Derivation lens_laws on indt «a» Derivation lens_laws on indt «a» took 0.000940 Derivation param1_congr on indt «a» Derivation param1_congr on indt «a» took 0.001185 Derivation param1_inhab on indt «a» Derivation param1_inhab on indt «a» took 0.002239 Derivation param1_functor on indt «a» Derivation param1_functor on indt «a» took 0.002257 Derivation fields on indt «a» Derivation fields on indt «a» took 0.003788 Derivation param1_trivial on indt «a» Derivation param1_trivial on indt «a» took 0.002645 Derivation induction on indt «a» Derivation induction on indt «a» took 0.001517 Derivation eqb on indt «a» Derivation eqb on indt «a» took 0.003710 Derivation eqbcorrect on indt «a» Derivation eqbcorrect on indt «a» took 0.004833 Derivation eqbOK on indt «a» Derivation eqbOK on indt «a» took 0.001345 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» Query assignments: _uvk_16_ = X0 _uvk_17_ = c0 \ X1 c0 _uvk_18_ = c0 \ c1 \ X2 c0 c1 Syntactic constraints: {c0 c1} : decl c1 `y` (X1 c0), decl c0 `x` X0 ?- evar (X2 c0 c1) (X3 c0 c1) (X2 c0 c1) /* suspended on X2 */ {c0 c1} : decl c1 `y` (X1 c0), decl c0 `x` X0 ?- evar (X4 c0 c1) (sort (typ «elpi.tests.test_API_notations.6»)) (X3 c0 c1) /* suspended on X4, X3 */ {c0} : decl c0 `x` X0 ?- evar (X1 c0) (sort (typ «elpi.tests.test_API_notations.5»)) (X1 c0) /* suspended on X1 */ evar (X0) (sort (typ «elpi.tests.test_API_notations.4»)) (X0) /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_API_notations.6 elpi.tests.test_API_notations.5 elpi.tests.test_API_notations.4} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α4 α5 α6 WEAK CONSTRAINTS: Notation abbr2 _elpi_ctx_entry_1_was_x_ := (fun H => _elpi_ctx_entry_1_was_x_ = _elpi_ctx_entry_1_was_x_) Expands to: Notation elpi.tests.test_API_notations.abbr2 (fun _ : nat => 2 = 2) 3 : Prop Derivation param1 on indt «b» took 0.006197 Skipping derivation param2 on indt «b» since the user did not select it Derivation tag on indt «b» Derivation tag on indt «b» took 0.001570 Derivation eqType_ast on indt «b» Derivation eqType_ast on indt «b» took 0.001108 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 0.002350 Derivation param1_functor on indt «b» Derivation param1_functor on indt «b» took 0.002196 Derivation fields on indt «b» Derivation fields on indt «b» took 0.004188 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 0.001681 Derivation eqb on indt «b» Derivation eqb on indt «b» took 0.004060 Derivation eqbcorrect on indt «b» Derivation eqbcorrect on indt «b» took 0.005552 Derivation eqbOK on indt «b» Derivation eqbOK on indt «b» took 0.001376 a_eqb : a -> a -> bool b_eqb : b -> b -> bool COQC examples/readme.v Query assignments: Decl = record Rec (sort (typ «elpi.tests.test_API_env.31»)) BuildRec (field [] f (sort (typ «elpi.tests.test_API_env.32»)) c0 \ end-record) _uvk_27_ = «elpi.tests.test_API_env.31» _uvk_28_ = «elpi.tests.test_API_env.32» Universe constraints: UNIVERSES: {elpi.tests.test_API_env.32 elpi.tests.test_API_env.31} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_API_env.32 elpi.tests.test_API_env.31} UNDEFINED UNIVERSES: elpi.tests.test_API_env.32 elpi.tests.test_API_env.31 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.test_API_env.33 elpi.tests.test_API_env.34} : Test.Rec@{elpi.tests.test_API_env.33 elpi.tests.test_API_env.34} -> Type@{elpi.tests.test_API_env.34} (* {elpi.tests.test_API_env.34 elpi.tests.test_API_env.33} |= elpi.tests.test_API_env.34 < elpi.tests.test_API_env.33 *) Query assignments: P = const «eq_op» fun `H` X0 c0 \ app [global (indt «eq»), X1 c0, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] Query assignments: Spilled_1 = «elpi.tests.test_API_notations.abbr2» T = fun `H` X0 c0 \ app [global (indt «eq»), X1 c0, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] _uvk_31_ = X2 Query assignments: W = const «W» Query assignments: Spilled_1 = «elpi.tests.test_API_notations.abbr2» COQC tests/test_API2.v Query assignments: LP = «Coq.ZArith.Znat» MP = «Coq.ZArith.Znat.N2Z» COQC tests/test_HOAS.v [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» Inductive peano : Set := Zero : peano | Succ : peano -> peano. = 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 Derivation param1 on const «Nat.add» Derivation param1 on const «Nat.add» took 0.004882 Derivation param2 on const «Nat.add» Derivation param2 on const «Nat.add» took 0.005393 Derivation eqb-alias on const «Nat.add» Derivation eqb-alias on const «Nat.add» failed, continuing Derivation eqbcorrect-alias on const «Nat.add» Derivation eqbcorrect-alias 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) COQC tests/test_projK.v 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 {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: || Coq-Elpi mapping: RAW: ?X2 <-> c0 \ X0 c0 ELAB: ?X2 <-> X1 {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0) (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) (X1 c0) /* suspended on X0, X1 */ 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»))] 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) [])] Query assignments: X1 = «x1» X2 = «x2» X3 = «x3» Query assignments: Spilled_1 = 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 COQC tests/test_arg_HOAS.v [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: M = [[mode-ground], [mode-input]] Query assignments: T = sort (typ «elpi.tests.test_HOAS.3») U = «elpi.tests.test_HOAS.3» Query assignments: U = «elpi.tests.test_HOAS.4» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.4} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: 1 Query assignments: U = «foo» 1 ----<<---- enter: coq.say raw: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] 1.000000 ---->>---- exit: coq.say raw: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))])) Illtyped inductive declaration 1.2 ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] ---->>---- exit: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) ----<<---- enter: coq.env.add-indt (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.2»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.7»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) 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.3»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.4»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) X0 ---->>---- 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] ----<<---- 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 c0 c1 c2 c3 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 c0 c1 c2 c3 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»)]]))] ---->>---- 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 c0 c1 c2 c3 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»)]]))]) ----<<---- 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 c0 c1 c2 c3 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 ---->>---- 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.41»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.44»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.47»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.52»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.54»)) c4 \ arity (prod `x` (X6 c0 c1 c2 c3 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.61»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.63»)) 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.40»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.42»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.45»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.48»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.53»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.55»)) 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.62»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.40»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.42»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.45»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.48»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.53»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.55»)) 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.62»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) 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.40»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.42»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.45»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.48»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.53»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.55»)) 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.62»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))] ---->>---- exit: coq.say typed: (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.40»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.42»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.45»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.48»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.53»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.55»)) 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.62»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) ----<<---- enter: coq.env.add-indt (parameter A1 maximal (sort (typ «elpi.tests.test_arg_HOAS.40»)) c0 \ parameter A2 explicit c0 c1 \ inductive foo1 tt (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.42»)) c2 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.45»)) c3 \ arity (prod `_` (global (indt «nat»)) c4 \ sort (typ «elpi.tests.test_arg_HOAS.48»))) c2 \ [constructor a_k1 (parameter B1 explicit (sort (typ «elpi.tests.test_arg_HOAS.53»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.55»)) 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.62»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) c4 \ arity (prod `_` c0 c5 \ app [c2, c3, c4, app [global (indc «S»), global (indc «O»)]]))]) X10 ---->>---- 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.53»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.55»)) 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.62»)) c3 \ parameter B2 explicit (sort (typ «elpi.tests.test_arg_HOAS.64»)) 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: X = c0 \ c1 \ c2 \ X0 c0 c1 c2 _uvk_19_ = 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.9»)) (X1 c4 c5 c6) /* suspended on X2, X1 */ Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.9 elpi.tests.test_HOAS.8} |= Set <= elpi.tests.test_HOAS.8 elpi.tests.test_HOAS.8 <= elpi.tests.test_HOAS.8 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α3 := Type α4 WEAK CONSTRAINTS: 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.82»))) 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.82} |= Set <= elpi.tests.test_arg_HOAS.82 t.u0 <= elpi.tests.test_arg_HOAS.82 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: ----<<---- 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) ---->>---- 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)) ----<<---- 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 ---->>---- 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 ----<<---- 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) ---->>---- 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)) ----<<---- 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 ---->>---- 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» ----<<---- 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) ---->>---- 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)) ----<<---- 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 ---->>---- exit: std.assert-ok! (coq.elaborate-indt-decl-skeleton (record foo (sort (typ «elpi.tests.test_arg_HOAS.85»)) 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.86»)) 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 ----<<---- enter: coq.say typed: (record foo (sort (typ «elpi.tests.test_arg_HOAS.86»)) 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.86»)) 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) ---->>---- exit: coq.say typed: (record foo (sort (typ «elpi.tests.test_arg_HOAS.86»)) 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)) ----<<---- enter: coq.env.add-indt (record foo (sort (typ «elpi.tests.test_arg_HOAS.86»)) 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 ---->>---- 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» ----<<---- enter: coq.say raw: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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) ---->>---- exit: coq.say raw: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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)) ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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 ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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 ----<<---- enter: coq.say typed: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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) ---->>---- exit: coq.say typed: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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)) ----<<---- enter: coq.env.add-indt (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.88»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.88»)) 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 ---->>---- 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» ----<<---- 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 `a` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c0 c1 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c0 c1 c2 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c0 c1 c2 c3 c4) c5 \ app [global (indt «eq»), X5 c0 c1 c2 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 `a` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c0 c1 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c0 c1 c2 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c0 c1 c2 c3 c4) c5 \ app [global (indt «eq»), X5 c0 c1 c2 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record) ---->>---- 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 `a` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c0 c1 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c0 c1 c2 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c0 c1 c2 c3 c4) c5 \ app [global (indt «eq»), X5 c0 c1 c2 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record)) ----<<---- 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 `a` c0 c3 \ prod `_` (app [global (indt «eq»), X2 c0 c1 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c0 c1 c2 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c0 c1 c2 c3 c4) c5 \ app [global (indt «eq»), X5 c0 c1 c2 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record)) X6) Illtyped inductive declaration ---->>---- 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.95»)) 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»), X2 c0 c1 c3, c1, c1]) c4 \ c0) c3 \ field [coercion off, canonical ff] x (let `w` (X3 c0 c1 c2 c3) (app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) c4 \ prod `x` (X4 c0 c1 c2 c3 c4) c5 \ app [global (indt «eq»), X5 c0 c1 c2 c3 c4 c5, app [c2, c5, c5], c5]) c4 \ end-record)) (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.94»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.96»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `elpi_ctx_entry_4_` 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 ----<<---- enter: coq.say typed: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.94»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.96»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `elpi_ctx_entry_4_` 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.94»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.96»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `elpi_ctx_entry_4_` 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) ---->>---- exit: coq.say typed: (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.94»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.96»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `elpi_ctx_entry_4_` 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)) ----<<---- enter: coq.env.add-indt (parameter A explicit (sort (typ «elpi.tests.test_arg_HOAS.94»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «elpi.tests.test_arg_HOAS.96»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `elpi_ctx_entry_4_` 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)) X7 ---->>---- exit: coq.env.add-indt (parameter A explicit (sort (typ «foo.u0»)) c0 \ parameter B explicit c0 c1 \ record foo (sort (typ «foo.u1»)) Build_foo (field [coercion off, canonical tt] a (prod `_` c0 c2 \ prod `_` c0 c3 \ c0) c2 \ field [coercion reversible, canonical tt] z (prod `elpi_ctx_entry_4_` 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» ---------------------------------- {c0 c1} : decl c1 `a` (global (indt «bool»)) ?- evar X0 (sort (typ «elpi.tests.test_HOAS.10»)) X1 /* suspended on X0, X1 */ {c0 c1} : decl c1 `a` (global (indt «bool»)) ?- evar (X2 c1) X1 (X2 c1) /* suspended on X2 */ EVARS: ?X11==[a |- ?elpi_evar] (internal placeholder) {?elpi_evar0} ?X10==[ |- Type] (internal placeholder) {?elpi_evar} ?X9==[a |- => ?elpi_evar0] (internal placeholder) ?X8==[a |- => ?elpi_evar] (internal placeholder) SHELF: FUTURE GOALS STACK:?X11 ?X10 Coq-Elpi mapping: RAW: ?X10 <-> X0 ?X11 <-> X2 ELAB: ?X10 <-> X1 ?X11 <-> X2 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.10»)) 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.10} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α5 WEAK CONSTRAINTS: Query assignments: I = «foo» ----<<---- enter: coq.arity->term (parameter P explicit (sort (typ «elpi.tests.test_arg_HOAS.98»)) c0 \ parameter w explicit c0 c1 \ parameter n explicit (global (indt «nat»)) c2 \ arity (global (indt «nat»))) X0 ---->>---- exit: coq.arity->term (parameter P explicit (sort (typ «elpi.tests.test_arg_HOAS.98»)) c0 \ parameter w explicit c0 c1 \ parameter n explicit (global (indt «nat»)) c2 \ arity (global (indt «nat»))) (prod `P` (sort (typ «elpi.tests.test_arg_HOAS.98»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»)) ----<<---- enter: std.assert-ok! (coq.typecheck (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.98»)) 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.98»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»))) illtyped definition ---->>---- exit: std.assert-ok! (coq.typecheck (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.98»)) 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.98»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»))) illtyped definition ----<<---- enter: coq.env.add-const x1 (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.98»)) 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.98»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»)) X1 X2 ---->>---- exit: coq.env.add-const x1 (fun `P` (sort (typ «x1.u0»)) 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»)) X1 «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) ----<<---- enter: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (sort (typ «elpi.tests.test_arg_HOAS.101»))) X0 ---->>---- exit: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (sort (typ «elpi.tests.test_arg_HOAS.101»))) (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.101»)) ----<<---- enter: std.assert-ok! (coq.typecheck-ty (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.101»)) X1) illtyped axiom ---->>---- exit: std.assert-ok! (coq.typecheck-ty (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.101»)) (typ «elpi.tests.test_arg_HOAS.102»)) illtyped axiom ----<<---- enter: coq.env.add-axiom y (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.101»)) X2 ---->>---- exit: coq.env.add-axiom y (prod `n` (global (indt «nat»)) c0 \ sort (typ «y.u0»)) «y» y : nat -> Type : nat -> Type ----<<---- enter: coq.arity->term (parameter P explicit (sort (typ X0)) c0 \ parameter w explicit c0 c1 \ parameter n explicit (global (indt «nat»)) c2 \ arity (X1 c0 c1 c2)) X2 ---->>---- exit: coq.arity->term (parameter P explicit (sort (typ X0)) c0 \ parameter w explicit c0 c1 \ parameter n explicit (global (indt «nat»)) c2 \ arity (X3 c0 c1 c2)) (prod `P` (sort (typ X0)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) (X3 c0 c1)) ----<<---- enter: std.assert-ok! (coq.elaborate-ty-skeleton (prod `P` (sort (typ X0)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) (X3 c0 c1)) X4 X5) illtyped arity ---->>---- exit: std.assert-ok! (coq.elaborate-ty-skeleton (prod `P` (sort (typ «elpi.tests.test_arg_HOAS.104»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) (X6 c0 c1)) (typ «elpi.tests.test_arg_HOAS.107») (prod `P` (sort (typ «elpi.tests.test_arg_HOAS.105»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ X7 c0 c1 c2)) illtyped arity ----<<---- enter: std.assert-ok! (coq.elaborate-skeleton (fun `P` (sort (typ X8)) 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.105»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ X7 c0 c1 c2) X9) illtyped definition ---->>---- exit: std.assert-ok! (coq.elaborate-skeleton (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.108»)) 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.105»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»)) (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.109»)) c0 \ fun `w` c0 c1 \ fun `n` (global (indt «nat»)) c2 \ app [global (const «Nat.add»), c2, app [global (indc «S»), global (indc «O»)]])) illtyped definition ----<<---- enter: coq.env.add-const x1 (fun `P` (sort (typ «elpi.tests.test_arg_HOAS.109»)) 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.105»)) c0 \ prod `w` c0 c1 \ prod `n` (global (indt «nat»)) c2 \ global (indt «nat»)) X10 X11 ---->>---- 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»)) X10 «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) ----<<---- enter: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (sort (typ «elpi.tests.test_arg_HOAS.112»))) X0 ---->>---- exit: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (sort (typ «elpi.tests.test_arg_HOAS.112»))) (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.112»)) ----<<---- enter: std.assert-ok! (coq.typecheck-ty (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.112»)) X1) illtyped axiom ---->>---- exit: std.assert-ok! (coq.typecheck-ty (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.112»)) (typ «elpi.tests.test_arg_HOAS.113»)) illtyped axiom ----<<---- enter: coq.env.add-axiom y (prod `n` (global (indt «nat»)) c0 \ sort (typ «elpi.tests.test_arg_HOAS.112»)) X2 ---->>---- exit: coq.env.add-axiom y (prod `n` (global (indt «nat»)) c0 \ sort (typ «y.u0»)) «y» y : nat -> Type : nat -> Type ----<<---- enter: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (global (indt «nat»))) X0 ---->>---- exit: coq.arity->term (parameter n explicit (global (indt «nat»)) c0 \ arity (global (indt «nat»))) (prod `n` (global (indt «nat»)) c0 \ global (indt «nat»)) ----<<---- 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 ---->>---- 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 ----<<---- 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 ---->>---- 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» File "./tests/test_HOAS.v", line 123, characters 0-34: 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] Raw term: app [global (const «add»), primitive (uint63 2000000003333002), primitive (uint63 1)] Nice term: add 2000000003333002 1 Red: 2000000003333003 File "./tests/test_HOAS.v", line 127, characters 0-34: 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_API2.v", line 126, characters 0-16: Warning: Option Foo Bar is deprecated. elpi [deprecated-option,deprecated,default] Raw term: app [global (const «add»), primitive (float64 24000000000000), primitive (float64 1)] Nice term: 24000000000000 + 1 Red: 24000000000001 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: 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 `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»)]]] _uvk_35_ = global (indt «nat») _uvk_36_ = c0 \ global (indt «nat») _uvk_37_ = c0 \ c1 \ global (indt «nat») _uvk_38_ = c0 \ global (indt «nat») _uvk_39_ = c0 \ c1 \ global (indt «nat») _uvk_40_ = c0 \ c1 \ c2 \ global (indt «nat») _uvk_41_ = c0 \ c1 \ c2 \ global (indt «nat») File "./tests/test_API2.v", line 134, characters 0-14: Warning: Option Foo Bar is deprecated. elpi [deprecated-option,deprecated,default] 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 ----<<---- enter: coq.say raw: (inductive X1 tt (arity (sort prop)) c0 \ []) raw: inductive X1 tt (arity (sort prop)) c0 \ [] ---->>---- exit: coq.say raw: (inductive X1 tt (arity (sort prop)) c0 \ []) ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X1 tt (arity (sort prop)) c0 \ [])) Illtyped inductive declaration ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X1 tt (arity (sort prop)) c0 \ [])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (inductive X1 tt (arity (sort prop)) c0 \ []) typed: inductive X1 tt (arity (sort prop)) c0 \ [] ---->>---- exit: coq.say typed: (inductive X1 tt (arity (sort prop)) c0 \ []) ----<<---- enter: coq.env.add-indt (inductive X1 tt (arity (sort prop)) c0 \ []) X0 ---->>---- exit: coq.env.add-indt (inductive X1 tt (arity (sort prop)) c0 \ []) «X1» X1 : Prop X1 is not universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X1 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 `n` (global (indt «nat»)) c2 \ global (indt «nat»)) [c1, fun `p` (global (indt «nat»)) c2 \ app [global (indc «S»), app [fix `plus` 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»)]]] _uvk_42_ = global (indt «nat») _uvk_43_ = c0 \ global (indt «nat») _uvk_44_ = c0 \ c1 \ global (indt «nat») _uvk_45_ = c0 \ c1 \ global (indt «nat») _uvk_46_ = c0 \ c1 \ c2 \ global (indt «nat») _uvk_47_ = c0 \ c1 \ c2 \ global (indt «nat») _uvk_48_ = c0 \ c1 \ c2 \ global (indt «nat») _uvk_49_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») _uvk_50_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») _uvk_51_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») _uvk_52_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») ----<<---- enter: coq.say raw: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt) raw: inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ [] upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt ---->>---- exit: coq.say raw: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt) ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu1} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: eu1 SORTS: WEAK CONSTRAINTS: ---->>---- exit: coq.univ.print ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ [])) Illtyped inductive declaration ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ [])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ []) typed: inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ [] ---->>---- exit: coq.say typed: (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ []) ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt) X0 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt) => coq.env.add-indt (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ []) X1 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.128»] tt [] tt) => coq.env.add-indt (inductive X3 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.128»))) c0 \ []) «X3» ----<<---- enter: coq.say raw: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ []) (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt) raw: inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ [] upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt ---->>---- exit: coq.say raw: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ []) (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt) ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu2} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: eu2 SORTS: WEAK CONSTRAINTS: ---->>---- exit: coq.univ.print ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ [])) Illtyped inductive declaration ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ [])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ []) typed: inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ [] ---->>---- exit: coq.say typed: (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ []) ----<<---- enter: coq.upoly-decl->attribute (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt) X0 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt) (get-option coq:udecl-cumul (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt)) ----<<---- enter: get-option coq:udecl-cumul (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt) => coq.env.add-indt (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ []) X1 ---->>---- exit: get-option coq:udecl-cumul (upoly-decl-cumul [auto «elpi.tests.test_arg_HOAS.136»] tt [] tt) => coq.env.add-indt (inductive X4 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.136»))) c0 \ []) «X4» X3@{eu1} : Type@{eu1} (* eu1 |= *) X3 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X3 X4@{eu2} : Type@{eu2} (* *eu2 |= *) X4 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X4 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 `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»)]]]]] _uvk_53_ = c0 \ global (indt «nat») _uvk_54_ = global (indt «nat») _uvk_55_ = c0 \ global (indt «nat») _uvk_56_ = c0 \ c1 \ global (indt «nat») _uvk_57_ = c0 \ c1 \ c2 \ global (indt «nat») _uvk_58_ = c0 \ c1 \ global (indt «nat») _uvk_59_ = c0 \ c1 \ c2 \ global (indt «nat») _uvk_60_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») _uvk_61_ = c0 \ c1 \ c2 \ c3 \ global (indt «nat») Query assignments: C1 = «Nat.add» C2 = «times» X1 = tt X2 = ff 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»)]]] Query assignments: GR = indt «X3» Universe constraints: UNIVERSES: {elpi.tests.test_arg_HOAS.144} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: elpi.tests.test_arg_HOAS.144 SORTS: WEAK CONSTRAINTS: Query assignments: C1 = «x» 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]) Query assignments: GR = indt «X4» Universe constraints: UNIVERSES: {elpi.tests.test_arg_HOAS.145} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: elpi.tests.test_arg_HOAS.145 SORTS: WEAK CONSTRAINTS: ----<<---- enter: coq.say raw: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff) raw: inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ [] upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff ---->>---- exit: coq.say raw: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ []) (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff) ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu3} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: eu3 SORTS: WEAK CONSTRAINTS: ---->>---- exit: coq.univ.print ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ [])) Illtyped inductive declaration ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ [])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ []) typed: inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ [] ---->>---- exit: coq.say typed: (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ []) ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff) X0 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff) => coq.env.add-indt (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ []) X1 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.146»] ff [] ff) => coq.env.add-indt (inductive X5 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.146»))) c0 \ []) «X5» X5@{eu3} : Type@{eu3} (* eu3 |= *) X5 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X5 ----<<---- enter: coq.say raw: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))]) (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff) raw: inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))] upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff ---->>---- exit: coq.say raw: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))]) (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff) ----<<---- enter: coq.univ.print Universe constraints: UNIVERSES: {eu5 eu4} |= eu4 < eu5 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: eu5 eu4 SORTS: WEAK CONSTRAINTS: ---->>---- exit: coq.univ.print ----<<---- enter: std.assert-ok! (coq.typecheck-indt-decl (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))])) Illtyped inductive declaration ---->>---- exit: std.assert-ok! (coq.typecheck-indt-decl (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))]) typed: inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))] ---->>---- exit: coq.say typed: (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))]) ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff) X0 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff) => coq.env.add-indt (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) c1 \ c0))]) X1 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.154», «elpi.tests.test_arg_HOAS.155»] ff [lt «elpi.tests.test_arg_HOAS.154» «elpi.tests.test_arg_HOAS.155»] ff) => coq.env.add-indt (inductive X6 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.155»))) c0 \ [constructor K (arity (prod `u` (sort (typ «elpi.tests.test_arg_HOAS.154»)) 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 ----<<---- 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 ---->>---- exit: coq.say raw: (inductive X8 tt (arity (sort (typ X0))) c0 \ []) (upoly-decl [] tt [] tt) ----<<---- enter: coq.univ.print Universe constraints: ---->>---- exit: coq.univ.print ----<<---- 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 ---->>---- 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.170»))) c0 \ []) (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ [])) Illtyped inductive declaration ----<<---- enter: coq.say typed: (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) typed: inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ [] ---->>---- exit: coq.say typed: (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X2 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-indt (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) X3 ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-indt (inductive X8 tt (arity (sort (typ «elpi.tests.test_arg_HOAS.170»))) c0 \ []) «X8» X8@{u} : Type@{u} (* u |= *) X8 is universe polymorphic Expands to: Inductive elpi.tests.test_arg_HOAS.X8 ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ parameter x explicit c0 c1 \ arity c0) X0 ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ parameter x explicit c0 c1 \ arity c0) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ prod `x` c0 c1 \ c0) ----<<---- enter: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ prod `x` c0 c1 \ c0)) illtyped definition ---->>---- exit: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ prod `x` c0 c1 \ c0)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X1 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f1 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ prod `x` c0 c1 \ c0) X2 X3 ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f1 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.178»)) 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 ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ parameter x explicit c0 c2 \ arity c0) X0 ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ parameter x explicit c0 c2 \ arity c0) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ prod `x` c0 c2 \ c0) ----<<---- enter: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition ---->>---- exit: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.179»] ff [] tt) X1 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.179»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.179»] ff [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.179»] ff [] tt) => coq.env.add-const f2 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.179»] ff [] tt) => coq.env.add-const f2 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.179»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.179»)) 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 ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ X0)) c0 \ parameter x explicit c0 c1 \ arity (X1 c0 c1)) X2 ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ X0)) c0 \ parameter x explicit c0 c1 \ arity (X3 c0 c1)) (prod `T` (sort (typ X0)) c0 \ prod `x` c0 (X3 c0)) ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ X0)) c0 \ prod `x` c0 (X3 c0)) X4 X5) illtyped arity ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ prod `x` c0 (X6 c0)) (typ «elpi.tests.test_arg_HOAS.182») (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ prod `x` c0 c1 \ X7 c0 c1)) illtyped arity ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ X8)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ prod `x` c0 c1 \ X7 c0 c1) X9) illtyped definition ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.183»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ prod `x` c0 c1 \ c0) (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ fun `x` c0 c1 \ c1)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X10 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f3 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ prod `x` c0 c1 \ c0) X11 X12 ---->>---- exit: get-option coq:udecl (upoly-decl [] tt [] tt) => coq.env.add-const f3 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ fun `x` c0 c1 \ c1) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.180»)) c0 \ prod `x` c0 c1 \ c0) X11 «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 ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ parameter x explicit c0 c2 \ arity (X0 c0 c1 c2)) X1 ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ parameter x explicit c0 c2 \ arity (X2 c0 c1 c2)) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 (X2 c0 c1)) ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 (X2 c0 c1)) X3 X4) illtyped arity ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 (X5 c0 c1)) (typ «elpi.tests.test_arg_HOAS.186») (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 c2 \ X6 c0 c1 c2)) illtyped arity ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 c2 \ X6 c0 c1 c2) X7) illtyped definition ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 c2 \ c0) (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ fun `x` c0 c2 \ c2)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.184»] ff [] tt) X8 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.184»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.184»] ff [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.184»] ff [] tt) => coq.env.add-const f4 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 c2 \ c0) X9 X10 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.184»] ff [] tt) => coq.env.add-const f4 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.184»)) c1 \ prod `x` c0 c2 \ c0) X9 «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 ----<<---- 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 c0 c1 c2)) X1 ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «uuu»)) c1 \ parameter x explicit c0 c2 \ arity (X2 c0 c1 c2)) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 (X2 c0 c1)) ----<<---- enter: std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 (X2 c0 c1)) X3 X4) illtyped arity ---->>---- exit: std.assert-ok! (coq.elaborate-ty-skeleton (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 (X5 c0 c1)) (typ «elpi.tests.test_arg_HOAS.191») (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.188»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.189»)) c1 \ prod `x` c0 c2 \ X6 c0 c1 c2)) illtyped arity ----<<---- 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.188»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.189»)) c1 \ prod `x` c0 c2 \ X6 c0 c1 c2) X7) illtyped definition ---->>---- 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.188»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.189»)) c1 \ prod `x` c0 c2 \ c0) (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.192»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.193»)) c1 \ fun `x` c0 c2 \ c2)) illtyped definition ----<<---- enter: coq.env.add-const f5 (fun `T` (sort (typ «elpi.tests.test_arg_HOAS.192»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.193»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «elpi.tests.test_arg_HOAS.188»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.189»)) c1 \ prod `x` c0 c2 \ c0) X8 X9 ---->>---- 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) X8 «f5» ----<<---- enter: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ parameter x explicit c0 c2 \ arity c0) X0 ---->>---- exit: coq.arity->term (parameter T explicit (sort (typ «uuu»)) c0 \ parameter T1 explicit (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ parameter x explicit c0 c2 \ arity c0) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ prod `x` c0 c2 \ c0) ----<<---- enter: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition ---->>---- exit: std.assert-ok! (coq.typecheck (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.194»] ff [] tt) X1 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.194»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.194»] ff [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.194»] ff [] tt) => coq.env.add-const f6 (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.194»] ff [] tt) => coq.env.add-const f6 (fun `T` (sort (typ «uuu»)) c0 \ fun `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) c1 \ fun `x` c0 c2 \ c2) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.194»)) 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 ----<<---- enter: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «Set»)) c1 \ prod `x` c0 c2 \ c0)) X0 ---->>---- 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) ----<<---- 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 ---->>---- 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 ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X1 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- 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 ---->>---- 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» ----<<---- enter: coq.arity->term (arity X0) X1 ---->>---- exit: coq.arity->term (arity X1) X1 ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X1 X2 X3) illtyped arity ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X1 (typ «elpi.tests.test_arg_HOAS.195») (X4)) illtyped arity ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «Set») (X4) X5) illtyped definition ---->>---- 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 ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X6 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- 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) X7 X8 ---->>---- 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) X7 «f8» ----<<---- enter: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «uuu»)) c1 \ prod `x` c0 c2 \ c0)) X0 ---->>---- 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) ----<<---- 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 ---->>---- 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 ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X1 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- 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 ---->>---- 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'» ----<<---- enter: coq.arity->term (arity X0) X1 ---->>---- exit: coq.arity->term (arity X1) X1 ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X1 X2 X3) illtyped arity ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X1 (typ «elpi.tests.test_arg_HOAS.196») (X4)) illtyped arity ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «uuu») (X4) X5) illtyped definition ---->>---- 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 ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) X6 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [] tt [] tt) (get-option coq:udecl (upoly-decl [] tt [] tt)) ----<<---- 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) X7 X8 ---->>---- 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) X7 «f8'» ----<<---- enter: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0)) X0 ---->>---- exit: coq.arity->term (arity (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0)) (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0) ----<<---- enter: std.assert-ok! (coq.typecheck (pglobal (const «f6») «elpi.tests.test_arg_HOAS.197») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition ---->>---- exit: std.assert-ok! (coq.typecheck (pglobal (const «f6») «elpi.tests.test_arg_HOAS.197») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.197»] ff [] tt) X1 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.197»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.197»] ff [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.197»] ff [] tt) => coq.env.add-const f7'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.197») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0) X2 X3 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.197»] ff [] tt) => coq.env.add-const f7'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.197») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.197»)) c1 \ prod `x` c0 c2 \ c0) X2 «f7''» ----<<---- enter: coq.arity->term (arity X0) X1 ---->>---- exit: coq.arity->term (arity X1) X1 ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X1 X2 X3) illtyped arity ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-ty-skeleton X1 (typ «elpi.tests.test_arg_HOAS.199») (X4)) illtyped arity ----<<---- enter: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «elpi.tests.test_arg_HOAS.198») (X4) X5) illtyped definition ---->>---- exit: get-option coq:keepunivs tt => std.assert-ok! (coq.elaborate-skeleton (pglobal (const «f6») «elpi.tests.test_arg_HOAS.198») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.198»)) c1 \ prod `x` c0 c2 \ c0) (pglobal (const «f6») «elpi.tests.test_arg_HOAS.198»)) illtyped definition ----<<---- enter: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.198»] ff [] tt) X6 ---->>---- exit: coq.upoly-decl->attribute (upoly-decl [«elpi.tests.test_arg_HOAS.198»] ff [] tt) (get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.198»] ff [] tt)) ----<<---- enter: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.198»] ff [] tt) => coq.env.add-const f8'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.198») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.198»)) c1 \ prod `x` c0 c2 \ c0) X7 X8 ---->>---- exit: get-option coq:udecl (upoly-decl [«elpi.tests.test_arg_HOAS.198»] ff [] tt) => coq.env.add-const f8'' (pglobal (const «f6») «elpi.tests.test_arg_HOAS.198») (prod `T` (sort (typ «uuu»)) c0 \ prod `T1` (sort (typ «elpi.tests.test_arg_HOAS.198»)) c1 \ prod `x` c0 c2 \ c0) X7 «f8''» Query assignments: C1 = «x» M = «elpi.tests.test_API2.xx» 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)) COQC tests/test_quotation.v Query assignments: C1 = «x» M = «elpi.tests.test_API2.xx2» some (pglobal (const «toto») «elpi.tests.test_HOAS.19 elpi.tests.test_HOAS.20») prod `T1` (sort (typ «elpi.tests.test_HOAS.19»)) c0 \ prod `T2` (sort (typ «elpi.tests.test_HOAS.20»)) c1 \ prod `x` c0 c2 \ c0 Query assignments: Body = some (pglobal (const «toto») «elpi.tests.test_HOAS.19 elpi.tests.test_HOAS.20») C = «titi» Term = prod `T1` (sort (typ «elpi.tests.test_HOAS.19»)) c0 \ prod `T2` (sort (typ «elpi.tests.test_HOAS.20»)) c1 \ prod `x` c0 c2 \ c0 Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.20 elpi.tests.test_HOAS.19} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: C1 = «x» M = «elpi.tests.test_API2.xx3» pglobal (const «toto») X0 pglobal (const «toto») «u1 u2» toto Query assignments: Spilled_1 = toto _uvk_62_ = X0 _uvk_63_ = «elpi.tests.test_HOAS.23 elpi.tests.test_HOAS.24» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.24 elpi.tests.test_HOAS.23} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.24 elpi.tests.test_HOAS.23} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.24 elpi.tests.test_HOAS.23 SORTS: WEAK CONSTRAINTS: 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») app [pglobal (const «t») X0, global (indt «nat»), pglobal (const «fnat») X1] app [pglobal (const «t») «elpi.tests.test_HOAS.29», global (indt «nat»), pglobal (const «fnat») «»] Query assignments: T = app [pglobal (const «t») «elpi.tests.test_HOAS.29», global (indt «nat»), pglobal (const «fnat») «»] Ty = global (indt «nat») _uvk_64_ = «elpi.tests.test_HOAS.29» _uvk_65_ = «» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.29} |= Set <= elpi.tests.test_HOAS.29 Set = elpi.tests.test_HOAS.29 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.29} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.29 := Set SORTS: WEAK CONSTRAINTS: 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 `n` (global (indt «nat»)) c3 \ X1 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 `n` (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 `n` (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») _uvk_1_ = c0 \ c1 \ global (indt «nat») _uvk_2_ = 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.test_quotation.2»)) (X3 c0 c1) /* suspended on X3 */ Universe constraints: UNIVERSES: {elpi.tests.test_quotation.3 elpi.tests.test_quotation.2 elpi.tests.test_quotation.1} |= Set <= elpi.tests.test_quotation.3 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: elpi.tests.test_quotation.3 SORTS: α1 α2 WEAK CONSTRAINTS: Query assignments: A4 = «elpi.tests.test_HOAS.36» A5 = «elpi.tests.test_HOAS.37» A6 = «elpi.tests.test_HOAS.38» A7 = «elpi.tests.test_HOAS.39» A8 = «elpi.tests.test_HOAS.40» Arity = prod `T` (sort (typ «elpi.tests.test_HOAS.30»)) c0 \ sort (typ «elpi.tests.test_HOAS.30») Arity1 = prod `T` (sort (typ «elpi.tests.test_HOAS.31»)) c0 \ sort (typ «elpi.tests.test_HOAS.31») Arity2 = prod `T` (sort (typ «elpi.tests.test_HOAS.32»)) c0 \ sort (typ «elpi.tests.test_HOAS.32») Arity4 = prod `T` (sort (typ «elpi.tests.test_HOAS.36»)) c0 \ sort (typ «elpi.tests.test_HOAS.36») Arity5 = prod `T` (sort (typ «elpi.tests.test_HOAS.37»)) c0 \ sort (typ «elpi.tests.test_HOAS.37») B = «Build_F» B1 = «elpi.tests.test_HOAS.43» B2 = «elpi.tests.test_HOAS.44» BTy2 = prod `T` (sort (typ «elpi.tests.test_HOAS.42»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.42», c0] BTy3 = prod `T` (sort (typ «elpi.tests.test_HOAS.43»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.43», c0] BoN = none BoT = some (fun `T` (sort (typ «elpi.tests.test_HOAS.45»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.45», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.45», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) BoT1 = some (fun `T` (sort (typ «elpi.tests.test_HOAS.46»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.46», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.46», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) BoT2 = some (fun `T` (sort (typ «elpi.tests.test_HOAS.47»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.47», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.47», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) BoT4 = some (fun `T` (sort (typ «elpi.tests.test_HOAS.49»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.49», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.49», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) BoT5 = some (fun `T` (sort (typ «elpi.tests.test_HOAS.50»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.50», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.50», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) BoT6 = some (fun `T` (sort (typ «elpi.tests.test_HOAS.64»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.64», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.64», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) BoT7 = some (fun `T` (sort (typ «elpi.tests.test_HOAS.66»)) c0 \ fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.66», c0]) c1 \ match c1 (fun `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.66», c0]) c2 \ c0) [fun `t` c0 c2 \ c2]) C1 = «elpi.tests.test_HOAS.54» C2 = «elpi.tests.test_HOAS.55» C3 = «elpi.tests.test_HOAS.58» C4 = «elpi.tests.test_HOAS.59» C5 = «elpi.tests.test_HOAS.62» C6 = «elpi.tests.test_HOAS.63» D1 = «elpi.tests.test_HOAS.49» D2 = «elpi.tests.test_HOAS.50» D3 = «elpi.tests.test_HOAS.51» D4 = X0 E5 = «elpi.tests.test_HOAS.66» E6 = «elpi.tests.test_HOAS.67» GRB = indc «Build_F» GRF = indt «F» GRn = const «n» GRt = const «t» I = «elpi.tests.test_HOAS.30» I2 = «elpi.tests.test_HOAS.41» I3 = «elpi.tests.test_HOAS.45» I4 = «» Ind = «F» K = [«Build_F»] KTys = [prod `T` (sort (typ «elpi.tests.test_HOAS.30»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.30», c0]] KTys1 = [prod `T` (sort (typ «elpi.tests.test_HOAS.31»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.31», c0]] KTys3 = [prod `T` (sort (typ «elpi.tests.test_HOAS.33»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.33», c0]] KTys4 = [prod `T` (sort (typ «elpi.tests.test_HOAS.36»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.36», c0]] KTys6 = [prod `T` (sort (typ «elpi.tests.test_HOAS.38»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.38», c0]] N = «n» T = «t» TyB = prod `T` (sort (typ «elpi.tests.test_HOAS.41»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.41», c0] TyB2 = prod `T` (sort (typ «elpi.tests.test_HOAS.56»)) c0 \ prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.56», c0] TyB3 = 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.30»)) c0 \ sort (typ «elpi.tests.test_HOAS.30») TyF2 = prod `T` (sort (typ «elpi.tests.test_HOAS.52»)) c0 \ sort (typ «elpi.tests.test_HOAS.52») TyF3 = prod `T` (sort (typ «elpi.tests.test_HOAS.54»)) c0 \ sort (typ «elpi.tests.test_HOAS.54») TyN = global (indt «nat») TyT = prod `T` (sort (typ «elpi.tests.test_HOAS.45»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.45», c0]) c1 \ c0 TyT1 = prod `T` (sort (typ «elpi.tests.test_HOAS.46»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.46», c0]) c1 \ c0 TyT3 = prod `T` (sort (typ «elpi.tests.test_HOAS.48»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.48», c0]) c1 \ c0 TyT4 = prod `T` (sort (typ «elpi.tests.test_HOAS.49»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.49», c0]) c1 \ c0 TyT5 = prod `T` (sort (typ «elpi.tests.test_HOAS.51»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.51», c0]) c1 \ c0 TyT6 = prod `T` (sort (typ «elpi.tests.test_HOAS.60»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.60», c0]) c1 \ c0 TyT7 = prod `T` (sort (typ «elpi.tests.test_HOAS.62»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.62», c0]) c1 \ c0 Tyt = prod `T` (sort (typ «elpi.tests.test_HOAS.45»)) c0 \ prod `f` (app [pglobal (indt «F») «elpi.tests.test_HOAS.45», c0]) c1 \ c0 Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.67 elpi.tests.test_HOAS.66 elpi.tests.test_HOAS.65 elpi.tests.test_HOAS.64 elpi.tests.test_HOAS.63 elpi.tests.test_HOAS.62 elpi.tests.test_HOAS.61 elpi.tests.test_HOAS.60 elpi.tests.test_HOAS.59 elpi.tests.test_HOAS.58 elpi.tests.test_HOAS.57 elpi.tests.test_HOAS.56 elpi.tests.test_HOAS.55 elpi.tests.test_HOAS.54 elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52 elpi.tests.test_HOAS.51 elpi.tests.test_HOAS.50 elpi.tests.test_HOAS.49 elpi.tests.test_HOAS.48 elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.46 elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44 elpi.tests.test_HOAS.43 elpi.tests.test_HOAS.42 elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40 elpi.tests.test_HOAS.39 elpi.tests.test_HOAS.38 elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36 elpi.tests.test_HOAS.35 elpi.tests.test_HOAS.34 elpi.tests.test_HOAS.33 elpi.tests.test_HOAS.32 elpi.tests.test_HOAS.31 elpi.tests.test_HOAS.30} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44 elpi.tests.test_HOAS.43 elpi.tests.test_HOAS.42 elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40 elpi.tests.test_HOAS.39 elpi.tests.test_HOAS.38 elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36 elpi.tests.test_HOAS.35 elpi.tests.test_HOAS.34 elpi.tests.test_HOAS.33 elpi.tests.test_HOAS.32 elpi.tests.test_HOAS.31 elpi.tests.test_HOAS.30} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44 elpi.tests.test_HOAS.43 elpi.tests.test_HOAS.42 elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40 elpi.tests.test_HOAS.39 elpi.tests.test_HOAS.38 elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36 elpi.tests.test_HOAS.35 elpi.tests.test_HOAS.34 elpi.tests.test_HOAS.33 elpi.tests.test_HOAS.32 elpi.tests.test_HOAS.31 elpi.tests.test_HOAS.30 SORTS: 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 `v` (app [global (indt «Vector.t»), X1 c0 c1, X2 c0 c1]) c2 \ X3 c1 c2) [global (indc «O»), fun `_` (X4 c0) c1 \ fun `_` (X5 c0 c1) c2 \ fun `_` (X6 c0 c1 c2) 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 `v` (app [global (indt «Vector.t»), global (indt «nat»), X8 c0 c1]) c2 \ global (indt «nat»)) [global (indc «O»), fun `_` (X9 c0) c1 \ fun `_` (X10 c0 c1) c2 \ fun `_` (X11 c0 c1 c2) 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 `v` (app [global (indt «Vector.t»), global (indt «nat»), X8 c0 c1]) c2 \ global (indt «nat»)) [global (indc «O»), fun `_` (X9 c0) c1 \ fun `_` (X10 c0 c1) c2 \ fun `_` (X11 c0 c1 c2) c3 \ app [global (indc «S»), global (indc «O»)]] _uvk_10_ = c0 \ c1 \ global (indt «nat») _uvk_11_ = c0 \ X9 c0 _uvk_12_ = c0 \ c1 \ X10 c0 c1 _uvk_13_ = c0 \ c1 \ c2 \ X11 c0 c1 c2 _uvk_7_ = c0 \ X7 c0 _uvk_8_ = c0 \ c1 \ global (indt «nat») _uvk_9_ = c0 \ c1 \ X8 c0 c1 Syntactic constraints: {c0 c1 c2} : decl c2 `y0` (X10 c0 c1), decl c1 `y` (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 (X11 c0 c1 c2) (sort (typ «elpi.tests.test_quotation.10»)) (X11 c0 c1 c2) /* suspended on X11 */ {c0 c1} : decl c1 `y` (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 (X10 c0 c1) (sort (typ «elpi.tests.test_quotation.9»)) (X10 c0 c1) /* 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.test_quotation.8»)) (X9 c0) /* suspended on X9 */ {c0 c1} : decl c1 `y` (X7 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 c1) (X12 c0 c1) (X8 c0 c1) /* suspended on X8 */ {c0 c1} : decl c1 `y` (X7 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 c1) (sort (typ «elpi.tests.test_quotation.6»)) (X12 c0 c1) /* 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.test_quotation.4»)) (X7 c0) /* suspended on X7 */ Universe constraints: UNIVERSES: {elpi.tests.test_quotation.12 elpi.tests.test_quotation.11 elpi.tests.test_quotation.10 elpi.tests.test_quotation.9 elpi.tests.test_quotation.8 elpi.tests.test_quotation.7 elpi.tests.test_quotation.6 elpi.tests.test_quotation.5 elpi.tests.test_quotation.4} |= elpi.tests.test_quotation.11 < elpi.tests.test_quotation.5 Set <= Vector.t.u0 Set <= elpi.tests.test_quotation.11 Set <= elpi.tests.test_quotation.12 elpi.tests.test_quotation.11 <= Vector.t.u0 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: elpi.tests.test_quotation.12 SORTS: α3 α4 := Type α5 α6 α7 α8 α9 WEAK CONSTRAINTS: Query assignments: _uvk_1_ = X0 _uvk_2_ = X1 Syntactic constraints: evar (X1) (X2) (X1) /* suspended on X1 */ evar X3 (sort (typ «elpi.tests.test_API2.6»)) (X2) /* suspended on X3, X2 */ evar (X0) (X4) (X0) /* suspended on X0 */ evar X5 (sort (typ «elpi.tests.test_API2.5»)) (X4) /* suspended on X5, X4 */ Universe constraints: UNIVERSES: {elpi.tests.test_API2.6 elpi.tests.test_API2.5} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α4 α5 WEAK CONSTRAINTS: Non-discriminated database Unfoldable variable definitions: all Unfoldable constant definitions: all Cut: emp For any goal -> For xeq -> exact xxx(level 0, pattern 0 = _, id 0) «elpi.tests.test_HOAS.68» parameter T explicit (sort (typ «elpi.tests.test_HOAS.68»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.68»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) «elpi.tests.test_HOAS.68» parameter T explicit (sort (typ «elpi.tests.test_HOAS.68»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.68»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) parameter T explicit (sort (typ «elpi.tests.test_HOAS.69»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.69»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) Query assignments: Decl = parameter T explicit (sort (typ «elpi.tests.test_HOAS.68»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.68»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) Decl1 = parameter T explicit (sort (typ «elpi.tests.test_HOAS.68»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.68»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) Decl2 = parameter T explicit (sort (typ «elpi.tests.test_HOAS.69»)) c0 \ record F (sort (typ «elpi.tests.test_HOAS.69»)) Build_F (field [coercion off, canonical tt] t c0 c1 \ end-record) GRF = indt «F» I = «elpi.tests.test_HOAS.68» Ind = «F» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68 SORTS: WEAK CONSTRAINTS: 3 Query assignments: X = 3 «elpi.tests.test_HOAS.70» «elpi.tests.test_HOAS.71» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70 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 elpi.tests.test_HOAS.70} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70 := elpi.tests.test_HOAS.71 SORTS: WEAK CONSTRAINTS: Query assignments: GRF = indt «F» I1 = «elpi.tests.test_HOAS.70» I2 = «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 elpi.tests.test_HOAS.70} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.71 elpi.tests.test_HOAS.70 := elpi.tests.test_HOAS.71 SORTS: WEAK CONSTRAINTS: fun `x` X0 c0 \ app [X1, c0] Query assignments: X = X1 Y = fun `x` X0 c0 \ app [X1, c0] _uvk_34_ = X0 Query assignments: _uvk_19_ = «elpi.tests.test_API2.7» Universe constraints: UNIVERSES: ALGEBRAIC UNIVERSES: {elpi.tests.test_API2.7} UNDEFINED UNIVERSES: elpi.tests.test_API2.7 SORTS: WEAK CONSTRAINTS: «elpi.tests.test_HOAS.72» «» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.72} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.72} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.72 SORTS: WEAK CONSTRAINTS: different universe instance lengths Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.72} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.72} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.72 SORTS: WEAK CONSTRAINTS: Query assignments: E = different universe instance lengths GRF = indt «F» GRfnat = const «fnat» I1 = «elpi.tests.test_HOAS.72» I2 = «» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.72} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.72} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.72 SORTS: WEAK CONSTRAINTS: 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: Spilled_1 = 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) 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 `u` (X7 c0 c1 c2) c3 \ match c3 (fun `u0` (X8 c1 c2 c3) c4 \ app [c1, c4]) [fun `x` (X9 c1 c2 c3) c4 \ fun `Px` (X10 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 `u0` (app [global (indt «ord»), c0]) c3 \ match c3 (fun `u1` (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]]] _uvk_35_ = X0 _uvk_36_ = X1 _uvk_37_ = X2 _uvk_38_ = X3 _uvk_39_ = X4 _uvk_40_ = X5 _uvk_41_ = X6 _uvk_42_ = X7 _uvk_43_ = X8 _uvk_44_ = X9 _uvk_45_ = X10 _uvk_46_ = global (indt «nat») _uvk_47_ = c0 \ global (indt «nat») _uvk_48_ = c0 \ fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0] _uvk_49_ = c0 \ app [global (indt «ord»), c0] _uvk_50_ = c0 \ app [global (const «oval»), c0] _uvk_51_ = 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 `u0` (app [global (indt «ord»), c0]) c3 \ match c3 (fun `u1` (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.test_quotation.28 elpi.tests.test_quotation.27} |= Set <= is_SUB.u0 Set <= is_SUB.u1 Set <= elpi.tests.test_quotation.27 is_SUB.u2 <= elpi.tests.test_quotation.28 ALGEBRAIC UNIVERSES: {elpi.tests.test_quotation.28 elpi.tests.test_quotation.27} UNDEFINED UNIVERSES: elpi.tests.test_quotation.28 elpi.tests.test_quotation.27 SORTS: α22 := Type α23 := Type WEAK CONSTRAINTS: Query assignments: GR = const const EXN PRINTING: Not_found T = «elpi.tests.test_API2.T» Query assignments: GRF = indt «F» I1 = «elpi.tests.test_HOAS.73» I2 = «elpi.tests.test_HOAS.73» U = «elpi.tests.test_HOAS.73» UL1 = [«elpi.tests.test_HOAS.73»] Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.73} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.73} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.73 SORTS: WEAK CONSTRAINTS: COQC tests/test_vernacular1.v Cannot enforce elpi.tests.test_HOAS.74 = elpi.tests.test_HOAS.75 because elpi.tests.test_HOAS.74 < elpi.tests.test_HOAS.75 Query assignments: E = Cannot enforce elpi.tests.test_HOAS.74 = elpi.tests.test_HOAS.75 because elpi.tests.test_HOAS.74 < elpi.tests.test_HOAS.75 GRF = indt «F» I1 = «elpi.tests.test_HOAS.74» I2 = «elpi.tests.test_HOAS.75» L1 = «elpi.tests.test_HOAS.74» L2 = «elpi.tests.test_HOAS.75» U1 = «elpi.tests.test_HOAS.74» U2 = «elpi.tests.test_HOAS.75» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.75 elpi.tests.test_HOAS.74} |= elpi.tests.test_HOAS.74 < elpi.tests.test_HOAS.75 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.75 elpi.tests.test_HOAS.74} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.75 elpi.tests.test_HOAS.74 SORTS: WEAK CONSTRAINTS: test2 test1 str hello test1 too many arguments test1 str hello my str Dear test1 too many arguments «elpi.tests.test_API2.G» Query assignments: F = «elpi.tests.test_API2.F» G = «elpi.tests.test_API2.G» X = «elpi.tests.test_API2.X» Module G : Sig Definition id : X.T -> X.T. End := (F X) projSucc1 : peano -> peano -> peano : peano -> peano -> peano projSome1 : forall A : Type, A -> option A -> A : forall A : Type, A -> option A -> A projComma1 : forall A B : Type, A -> B -> pair A B -> A : forall A B : Type, A -> B -> pair A B -> A projComma2 : forall A B : Type, A -> B -> pair A B -> B : forall A B : Type, A -> B -> pair A B -> B projCons1 : forall A : Type, A -> seq A -> seq A -> A : forall A : Type, A -> seq A -> seq A -> A projCons2 : forall A : Type, A -> seq A -> seq A -> seq A : forall A : Type, A -> seq A -> seq A -> seq A projLeaf1 : forall A : Type, A -> rose A -> A : forall A : Type, A -> rose A -> A projNode1 : forall A : Type, seq (rose A) -> rose A -> seq (rose A) : forall A : Type, seq (rose A) -> rose A -> seq (rose A) projConsN1 : forall A : Type, A -> nest (pair A A) -> nest A -> A : forall A : Type, A -> nest (pair A A) -> nest A -> A projConsN2 : forall A : Type, A -> nest (pair A A) -> nest A -> nest (pair A A) : forall A : Type, A -> nest (pair A A) -> nest A -> nest (pair A A) projvia1 : forall A : Type, (A -> w A) -> w A -> A -> w A : forall A : Type, (A -> w A) -> w A -> A -> w A projVCons1 : forall (A : Type) (i : peano), A -> forall j : peano, vect A j -> vect A i -> A : forall (A : Type) (i : peano), A -> forall j : peano, vect A j -> vect A i -> A projVCons2 : forall (A : Type) (i : peano), A -> forall j : peano, vect A j -> vect A i -> peano : forall (A : Type) (i : peano), A -> forall j : peano, vect A j -> vect A i -> peano projVCons3 : forall (A : Type) (i : peano), A -> forall j : peano, vect A j -> vect A i -> {w : peano & vect A w} : forall (A : Type) (i : peano), A -> forall j : peano, vect A j -> vect A i -> {w : peano & vect A w} projbox1 : forall T : Type, T -> dyn -> Type : forall T : Type, T -> dyn -> Type projbox2 : forall T : Type, T -> dyn -> {T0 : Type & T0} : forall T : Type, T -> dyn -> {T0 : Type & T0} projEnvelope1 : forall A : Type, A -> A -> zeta A -> A : forall A : Type, A -> A -> zeta A -> A eq_refl : projEnvelope1 nat 1 1 (Envelope nat 0 1) = 0 : projEnvelope1 nat 1 1 (Envelope nat 0 1) = 0 projEnvelope2 : forall A : Type, A -> A -> zeta A -> A : forall A : Type, A -> A -> zeta A -> A eq_refl : projEnvelope2 nat 1 1 (Envelope nat 1 0) = 0 : projEnvelope2 nat 1 1 (Envelope nat 1 0) = 0 projRedex1 : forall A : Type, A -> beta A -> A : forall A : Type, A -> beta A -> A projWhy1 : forall n : peano, match n with | Zero => peano | Succ _ => unit end -> iota -> peano : forall n : peano, match n with | Zero => peano | Succ _ => unit end -> iota -> peano projWhy2 : forall n : peano, match n with | Zero => peano | Succ _ => unit end -> iota -> {i : peano & match i with | Zero => peano | Succ _ => unit end} : forall n : peano, match n with | Zero => peano | Succ _ => unit end -> iota -> {i : peano & match i with | Zero => peano | Succ _ => unit end} Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78} |= elpi.tests.test_HOAS.78 < elpi.tests.test_HOAS.79 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78 SORTS: WEAK CONSTRAINTS: Query assignments: GRF = indt «F2» I1 = «elpi.tests.test_HOAS.78» I2 = «elpi.tests.test_HOAS.79» L1 = «elpi.tests.test_HOAS.78» L2 = «elpi.tests.test_HOAS.79» U1 = «elpi.tests.test_HOAS.78» U2 = «elpi.tests.test_HOAS.79» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78} |= elpi.tests.test_HOAS.78 < elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78 <= elpi.tests.test_HOAS.79 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.79 elpi.tests.test_HOAS.78 SORTS: WEAK CONSTRAINTS: projPI1 : PrimInt63.int -> prim_int -> PrimInt63.int projPF1 : PrimFloat.float -> prim_float -> PrimFloat.float projBuild_fo_record1 : peano -> unit -> fo_record -> peano : peano -> unit -> fo_record -> peano projBuild_fo_record2 : peano -> unit -> fo_record -> unit : peano -> unit -> fo_record -> unit projBuild_pa_record2 : forall A : Type, peano -> A -> pa_record A -> A : forall A : Type, peano -> A -> pa_record A -> A projBuild_pr_record2 : forall A : Type, peano -> A -> pr_record A -> A : forall A : Type, peano -> A -> pr_record A -> A COQC tests/test_derive.v «elpi.tests.test_API2.H» Query assignments: F = «elpi.tests.test_API2.F» H = «elpi.tests.test_API2.H» X = «elpi.tests.test_API2.X» Module H : Sig Definition id : nat -> nat. End := (F X) Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.81 elpi.tests.test_HOAS.80} |= elpi.tests.test_HOAS.80 < elpi.tests.test_HOAS.81 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.81} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.81 elpi.tests.test_HOAS.80 SORTS: WEAK CONSTRAINTS: Cannot enforce elpi.tests.test_HOAS.81 = elpi.tests.test_HOAS.80 because elpi.tests.test_HOAS.80 < elpi.tests.test_HOAS.81 Query assignments: E = Cannot enforce elpi.tests.test_HOAS.81 = elpi.tests.test_HOAS.80 because elpi.tests.test_HOAS.80 < elpi.tests.test_HOAS.81 GRF = indt «F» I1 = «elpi.tests.test_HOAS.80» I2 = «elpi.tests.test_HOAS.81» L1 = «elpi.tests.test_HOAS.80» L2 = «elpi.tests.test_HOAS.81» U1 = «elpi.tests.test_HOAS.80» U2 = «elpi.tests.test_HOAS.81» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.81 elpi.tests.test_HOAS.80} |= elpi.tests.test_HOAS.80 < elpi.tests.test_HOAS.81 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.81} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.81 elpi.tests.test_HOAS.80 SORTS: WEAK CONSTRAINTS: [attribute elpi.loc (leaf-loc File "./tests/test_vernacular1.v", line 48, column 5, character 947:), attribute foo (leaf-str bar)] [get-option elpi.loc File "./tests/test_vernacular1.v", line 48, column 5, character 947:, get-option foo bar] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular1.v", line 52, column 0, character 981:), attribute foo (leaf-str bar), attribute poly (leaf-str )] [get-option elpi.loc File "./tests/test_vernacular1.v", line 52, column 0, character 981:, get-option foo bar, get-option poly tt] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular1.v", line 53, column 0, character 1009:), 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, character 1009:, get-option foo bar, get-option poly tt] Query assignments: GR = indt «nat» Query assignments: GR = const const EXN PRINTING: Not_found T = «elpi.tests.test_API2.T» Module Type FT = Funsig (P:T) Sig Parameter idT : P.T -> P.T. End Query assignments: GR = indt «F» I = «elpi.tests.test_HOAS.82» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.82} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.82 SORTS: WEAK CONSTRAINTS: «elpi.tests.test_API2.GT» Query assignments: F = «elpi.tests.test_API2.FT» G = «elpi.tests.test_API2.GT» X = «elpi.tests.test_API2.X» Module Type GT = Sig Parameter idT : X.T -> X.T. End Query assignments: X = 3 app [global (const «Nat.mul»), X0, X1] type «elpi.tests.test_API2.HT» Query assignments: F = «elpi.tests.test_API2.FT» H = «elpi.tests.test_API2.HT» X = «elpi.tests.test_API2.X» Module Type HT = Sig Parameter idT : nat -> nat. End COQC tests/test_tactic.v Query assignments: GR = indt «F» pglobal (indt «F») «elpi.tests.test_HOAS.84» «elpi.tests.test_HOAS.84» pglobal (indc «Build_F») «elpi.tests.test_HOAS.84» Query assignments: GR = indt «F» GR1 = indc «Build_F» I = «elpi.tests.test_HOAS.84» Spilled_1 = pglobal (indc «Build_F») «elpi.tests.test_HOAS.84» Spilled_2 = pglobal (indt «F») «elpi.tests.test_HOAS.84» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.84} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.84 SORTS: WEAK CONSTRAINTS: Query assignments: L = [«elpi.tests.test_API2.8», «elpi.tests.test_API2.9»] S = {{ elpi.tests.test_API2.8; elpi.tests.test_API2.9; }} U = «elpi.tests.test_API2.8» UV = «elpi.tests.test_API2.8» V = «elpi.tests.test_API2.9» VV = «elpi.tests.test_API2.9» Universe constraints: UNIVERSES: {elpi.tests.test_API2.9 elpi.tests.test_API2.8} |= ALGEBRAIC UNIVERSES: {elpi.tests.test_API2.9 elpi.tests.test_API2.8} UNDEFINED UNIVERSES: elpi.tests.test_API2.9 elpi.tests.test_API2.8 SORTS: WEAK CONSTRAINTS: File "./tests/test_API2.v", line 361, characters 3-201: Warning: constant test has no declared type. [elpi.typecheck,elpi,default] «elpi.tests.test_HOAS.85 elpi.tests.test_HOAS.85» Query assignments: I = «elpi.tests.test_HOAS.85 elpi.tests.test_HOAS.85» U = «elpi.tests.test_HOAS.85» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.85} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: Query assignments: _uvk_20_ = X0 _uvk_21_ = X0 _uvk_22_ = X1 _uvk_23_ = X2 _uvk_24_ = c0 \ X3 c0 _uvk_25_ = X4 _uvk_26_ = c0 \ X5 c0 _uvk_27_ = X4 _uvk_28_ = c0 \ X5 c0 _uvk_29_ = X6 _uvk_30_ = c0 \ X7 c0 _uvk_31_ = c0 \ c1 \ X8 c0 c1 _uvk_32_ = X9 _uvk_33_ = c0 \ X10 c0 _uvk_34_ = c0 \ c1 \ X11 c0 c1 _uvk_35_ = X12 _uvk_36_ = c0 \ X13 c0 _uvk_37_ = c0 \ c1 \ X14 c0 c1 _uvk_38_ = X12 Syntactic constraints: evar X12 (sort (typ «elpi.tests.test_API2.25»)) X12 /* suspended on X12 */ evar X12 (sort (typ «elpi.tests.test_API2.28»)) X12 /* suspended on X12 */ {c0 c1} : decl c1 `x` (X13 c0), decl c0 `z` X12 ?- evar (X14 c0 c1) (sort (typ «elpi.tests.test_API2.27»)) (X14 c0 c1) /* suspended on X14 */ {c0} : decl c0 `z` X12 ?- evar (X13 c0) (sort (typ «elpi.tests.test_API2.26»)) (X13 c0) /* suspended on X13 */ {c0 c1} : decl c1 `x` (X10 c0), decl c0 `z` X9 ?- evar (X11 c0 c1) (sort (typ «elpi.tests.test_API2.24»)) (X11 c0 c1) /* suspended on X11 */ {c0} : decl c0 `z` X9 ?- evar (X10 c0) (sort (typ «elpi.tests.test_API2.23»)) (X10 c0) /* suspended on X10 */ evar (X9) (sort (typ «elpi.tests.test_API2.22»)) (X9) /* suspended on X9 */ {c0 c1} : decl c1 `x` (X7 c0), decl c0 `z` X6 ?- evar (X8 c0 c1) (sort (typ «elpi.tests.test_API2.21»)) (X8 c0 c1) /* suspended on X8 */ {c0} : decl c0 `z` X6 ?- evar (X7 c0) (sort (typ «elpi.tests.test_API2.20»)) (X7 c0) /* suspended on X7 */ evar (X6) (sort (typ «elpi.tests.test_API2.19»)) (X6) /* suspended on X6 */ evar X4 (sort (typ «elpi.tests.test_API2.15»)) X4 /* suspended on X4 */ evar X4 (sort (typ «elpi.tests.test_API2.17»)) X4 /* suspended on X4 */ {c0} : decl c0 `x` X4 ?- evar (X5 c0) (sort (typ «elpi.tests.test_API2.16»)) (X5 c0) /* suspended on X5 */ {c0} : decl c0 `x` X4 ?- evar (X5 c0) (sort (typ «elpi.tests.test_API2.18»)) (X5 c0) /* suspended on X5 */ {c0} : decl c0 `x` X2 ?- evar (X3 c0) (sort (typ «elpi.tests.test_API2.14»)) (X3 c0) /* suspended on X3 */ evar (X2) (sort (typ «elpi.tests.test_API2.13»)) (X2) /* suspended on X2 */ evar (X1) (sort (typ «elpi.tests.test_API2.12»)) (X1) /* suspended on X1 */ evar X0 (sort (typ «elpi.tests.test_API2.10»)) X0 /* suspended on X0 */ evar X0 (sort (typ «elpi.tests.test_API2.11»)) X0 /* suspended on X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_API2.28 elpi.tests.test_API2.27 elpi.tests.test_API2.26 elpi.tests.test_API2.25 elpi.tests.test_API2.24 elpi.tests.test_API2.23 elpi.tests.test_API2.22 elpi.tests.test_API2.21 elpi.tests.test_API2.20 elpi.tests.test_API2.19 elpi.tests.test_API2.18 elpi.tests.test_API2.17 elpi.tests.test_API2.16 elpi.tests.test_API2.15 elpi.tests.test_API2.14 elpi.tests.test_API2.13 elpi.tests.test_API2.12 elpi.tests.test_API2.11 elpi.tests.test_API2.10} |= ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: α6 α7 α8 α9 α10 α11 α12 α13 α14 α15 α16 α17 α18 α19 α20 α21 α22 α23 α24 WEAK CONSTRAINTS: COQC tests/test_elaborator.v Universe constraints: ------------------ Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86} |= elpi.tests.test_HOAS.86 < elpi.tests.test_HOAS.87 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86 SORTS: WEAK CONSTRAINTS: Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86} |= elpi.tests.test_HOAS.86 < elpi.tests.test_HOAS.87 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86 SORTS: WEAK CONSTRAINTS: Query assignments: Body = sort (typ «elpi.tests.test_HOAS.86») LX = «elpi.tests.test_HOAS.86» LY = «elpi.tests.test_HOAS.87» Type = sort (typ «elpi.tests.test_HOAS.87») UX = «elpi.tests.test_HOAS.86» UY = «elpi.tests.test_HOAS.87» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86} |= elpi.tests.test_HOAS.86 < elpi.tests.test_HOAS.87 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.87 elpi.tests.test_HOAS.86 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 poly@{Set elpi.tests.test_HOAS.88} : Type@{elpi.tests.test_HOAS.88} (* {elpi.tests.test_HOAS.88} |= Set < elpi.tests.test_HOAS.88 *) Box not a defined object. sort (typ «Set») Query assignments: U = «elpi.tests.test_HOAS.89» Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.89} |= Set = elpi.tests.test_HOAS.89 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.89} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.89 := 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 |= u <= list.u0 *) 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.98»)) c0 \ inductive tree tt (arity (sort (typ «elpi.tests.test_HOAS.99»))) 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.103 elpi.tests.test_HOAS.102 elpi.tests.test_HOAS.101 elpi.tests.test_HOAS.100 elpi.tests.test_HOAS.99 elpi.tests.test_HOAS.98} |= elpi.tests.test_HOAS.98 < elpi.tests.test_HOAS.100 elpi.tests.test_HOAS.99 < elpi.tests.test_HOAS.101 Set <= elpi.tests.test_HOAS.99 Set <= elpi.tests.test_HOAS.103 elpi.tests.test_HOAS.98 <= list.u0 elpi.tests.test_HOAS.98 <= elpi.tests.test_HOAS.99 elpi.tests.test_HOAS.98 <= elpi.tests.test_HOAS.102 elpi.tests.test_HOAS.98 <= elpi.tests.test_HOAS.103 elpi.tests.test_HOAS.99 <= list.u0 elpi.tests.test_HOAS.99 <= elpi.tests.test_HOAS.102 elpi.tests.test_HOAS.99 <= elpi.tests.test_HOAS.103 elpi.tests.test_HOAS.102 <= elpi.tests.test_HOAS.99 elpi.tests.test_HOAS.103 <= elpi.tests.test_HOAS.99 ALGEBRAIC UNIVERSES: {elpi.tests.test_HOAS.98} UNDEFINED UNIVERSES: elpi.tests.test_HOAS.98 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» _uvk_66_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_HOAS.103 elpi.tests.test_HOAS.102 elpi.tests.test_HOAS.101 elpi.tests.test_HOAS.100} |= M.tree.u0 < elpi.tests.test_HOAS.100 M.tree.u1 < elpi.tests.test_HOAS.101 Set <= M.tree.u1 Set <= elpi.tests.test_HOAS.103 M.tree.u0 <= elpi.tests.test_HOAS.102 M.tree.u0 <= elpi.tests.test_HOAS.103 M.tree.u1 <= elpi.tests.test_HOAS.102 M.tree.u1 <= elpi.tests.test_HOAS.103 elpi.tests.test_HOAS.102 <= M.tree.u1 elpi.tests.test_HOAS.103 <= M.tree.u1 ALGEBRAIC UNIVERSES: {M.tree.u0} UNDEFINED UNIVERSES: M.tree.u0 SORTS: WEAK CONSTRAINTS: COQC tests/test_ltac.v 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.17»)) (X1 c0 c1 c2 c3) /* suspended on X0, X1 */ Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.23 elpi.tests.test_elaborator.22 elpi.tests.test_elaborator.21 elpi.tests.test_elaborator.20 elpi.tests.test_elaborator.19 elpi.tests.test_elaborator.18 elpi.tests.test_elaborator.17 elpi.tests.test_elaborator.16 elpi.tests.test_elaborator.15 elpi.tests.test_elaborator.14 elpi.tests.test_elaborator.13 elpi.tests.test_elaborator.12 elpi.tests.test_elaborator.11 elpi.tests.test_elaborator.10 elpi.tests.test_elaborator.9 elpi.tests.test_elaborator.8 elpi.tests.test_elaborator.7 elpi.tests.test_elaborator.6 elpi.tests.test_elaborator.5 elpi.tests.test_elaborator.4 elpi.tests.test_elaborator.3 elpi.tests.test_elaborator.2 elpi.tests.test_elaborator.1} |= Set <= elpi.tests.test_elaborator.1 Set <= elpi.tests.test_elaborator.2 Set <= elpi.tests.test_elaborator.3 Set <= elpi.tests.test_elaborator.8 Set <= elpi.tests.test_elaborator.12 Set <= elpi.tests.test_elaborator.16 Set <= elpi.tests.test_elaborator.20 elpi.tests.test_elaborator.1 <= elpi.tests.test_elaborator.6 elpi.tests.test_elaborator.2 <= elpi.tests.test_elaborator.4 elpi.tests.test_elaborator.3 <= elpi.tests.test_elaborator.4 elpi.tests.test_elaborator.4 <= elpi.tests.test_elaborator.5 elpi.tests.test_elaborator.5 <= elpi.tests.test_elaborator.6 elpi.tests.test_elaborator.6 <= elpi.tests.test_elaborator.7 elpi.tests.test_elaborator.8 <= elpi.tests.test_elaborator.10 elpi.tests.test_elaborator.9 <= elpi.tests.test_elaborator.10 elpi.tests.test_elaborator.10 <= elpi.tests.test_elaborator.11 elpi.tests.test_elaborator.12 <= elpi.tests.test_elaborator.14 elpi.tests.test_elaborator.13 <= elpi.tests.test_elaborator.14 elpi.tests.test_elaborator.14 <= elpi.tests.test_elaborator.15 elpi.tests.test_elaborator.16 <= elpi.tests.test_elaborator.18 elpi.tests.test_elaborator.17 <= elpi.tests.test_elaborator.18 elpi.tests.test_elaborator.18 <= elpi.tests.test_elaborator.19 elpi.tests.test_elaborator.20 <= elpi.tests.test_elaborator.22 elpi.tests.test_elaborator.21 <= elpi.tests.test_elaborator.22 elpi.tests.test_elaborator.22 <= elpi.tests.test_elaborator.23 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: {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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»)) ?- evar (X0 c0 c1 c2 c3) (prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]) 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»))] ------------ prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]) 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 {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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»)) ?- evar (X0 c0 c1 c2 c3) (prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]) 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»))] ------------ prod `e` (app [global (indt «eq»), sort (typ «elpi.tests.test_tactic.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]) 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 {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.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]), 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»)) ?- 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.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]), 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»)) ?- 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.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]), 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»))] ------------ app [global (indt «eq»), app [c1, c3], X1 c0 c1 c2 c3 c4 c5, X1 c0 c1 c2 c3 c4 c5] ?elpi_evar = ?elpi_evar {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.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]), 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»)) ?- 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.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]), 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»)) ?- 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.2»), app [c1, c3], sort (typ «elpi.tests.test_tactic.3»)]), 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.2»)), decl c0 `T` (sort (typ «elpi.tests.test_tactic.1»))] ------------ app [global (indt «eq»), app [c1, c3], X1 c0 c1 c2 c3 c4 c5, X1 c0 c1 c2 c3 c4 c5] ?elpi_evar0 = ?elpi_evar0 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.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} |= Set <= eq.u0 Set <= Coq.Init.Logic.11 Set <= elpi.tests.test_elaborator.24 Set <= elpi.tests.test_elaborator.28 Set <= elpi.tests.test_elaborator.32 elpi.tests.test_elaborator.24 <= elpi.tests.test_elaborator.26 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.37 elpi.tests.test_elaborator.37 <= elpi.tests.test_elaborator.38 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: z : nat CHR: Uniqueness of typing of frozen--1011 + [] <-> [] 1 |> [decl c0 `x` (uvar frozen--1011 [])] |- frozen--1011 [] : sort (typ «elpi.tests.test_elaborator.40») 0 |> [] |- frozen--1011 [] : sort (typ «elpi.tests.test_elaborator.39») 0 |> [] |- unify-eq (sort (typ «elpi.tests.test_elaborator.40»)) (sort (typ «elpi.tests.test_elaborator.39»)) Query assignments: R = fun `x` X0 c0 \ c0 T = prod `x` X0 c0 \ X0 _uvk_87_ = X1 Syntactic constraints: {c0} : decl c0 `x` X0 ?- evar X2 (sort (typ «elpi.tests.test_elaborator.40»)) X0 /* suspended on X2, X0 */ Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.42 elpi.tests.test_elaborator.41 elpi.tests.test_elaborator.40 elpi.tests.test_elaborator.39} |= elpi.tests.test_elaborator.39 <= elpi.tests.test_elaborator.41 elpi.tests.test_elaborator.40 <= elpi.tests.test_elaborator.39 elpi.tests.test_elaborator.40 <= elpi.tests.test_elaborator.41 elpi.tests.test_elaborator.41 <= elpi.tests.test_elaborator.42 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: it = elpi_subproof : True it : True it is not universe polymorphic it is transparent Expands to: Constant elpi.tests.test_ltac.it 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 Closed under the global context COQC tests/test_ltac3.v 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») _uvk_109_ = X0 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.46 elpi.tests.test_elaborator.45 elpi.tests.test_elaborator.44 elpi.tests.test_elaborator.43} |= elpi.tests.test_elaborator.43 <= elpi.tests.test_elaborator.45 elpi.tests.test_elaborator.44 <= elpi.tests.test_elaborator.45 elpi.tests.test_elaborator.45 <= elpi.tests.test_elaborator.46 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: sort (typ X0) Query assignments: _uvk_129_ = X0 derive.param1_trivial: wrong shape is_nest . It does not look like a unary parametricity translation of an inductive with no indexes. evar (X0) (global (indt «nat»)) X1 /* suspended on X0, X1 */ X0 global (indt «nat») evar (X2) (global (indt «nat»)) X3 /* suspended on X2, X3 */ hello eq_refl : one = 1 : one = 1 COQC tests/test_cache_async.v Query assignments: S = sort (typ «elpi.tests.test_elaborator.48») T = sort (typ «elpi.tests.test_elaborator.47») _uvk_130_ = «elpi.tests.test_elaborator.47» Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.48 elpi.tests.test_elaborator.47} |= elpi.tests.test_elaborator.47 < elpi.tests.test_elaborator.48 ALGEBRAIC UNIVERSES: {elpi.tests.test_elaborator.47} UNDEFINED UNIVERSES: elpi.tests.test_elaborator.47 SORTS: WEAK CONSTRAINTS: derive.param1_trivial: wrong shape is_vect A PA . It does not look like a unary parametricity translation of an inductive with no indexes. COQC tests/test_COQ_ELPI_ATTRIBUTES.v Query assignments: S = sort (typ «elpi.tests.test_elaborator.50») T = sort (typ «elpi.tests.test_elaborator.49») TW = sort (typ «elpi.tests.test_elaborator.49») W = sort (typ «elpi.tests.test_elaborator.51») _uvk_131_ = «elpi.tests.test_elaborator.49» _uvk_132_ = «elpi.tests.test_elaborator.51» Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.51 elpi.tests.test_elaborator.50 elpi.tests.test_elaborator.49} |= elpi.tests.test_elaborator.49 < elpi.tests.test_elaborator.50 elpi.tests.test_elaborator.51 < elpi.tests.test_elaborator.49 ALGEBRAIC UNIVERSES: {elpi.tests.test_elaborator.51 elpi.tests.test_elaborator.49} UNDEFINED UNIVERSES: elpi.tests.test_elaborator.51 elpi.tests.test_elaborator.49 SORTS: WEAK CONSTRAINTS: [(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.16»))] [app [global (indt «eq»), global (indt «nat»), c2, app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]], sort prop] Debug: Cannot enforce elpi.tests.test_elaborator.52 < elpi.tests.test_elaborator.52 because elpi.tests.test_elaborator.52 = elpi.tests.test_elaborator.52 Query assignments: X = sort (typ X0) _uvk_133_ = X0 COQC tests/perf_calls.v 1356 : nat this 3 app [c4, X0 c0 c1 c2 c3 c4] app [c3, app [c1, c2], global (const «a»)] foo.bar Query assignments: X = sort (typ «elpi.tests.test_elaborator.53») Y = sort (typ «elpi.tests.test_elaborator.54») Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.54 elpi.tests.test_elaborator.53} |= elpi.tests.test_elaborator.53 < elpi.tests.test_elaborator.54 ALGEBRAIC UNIVERSES: {elpi.tests.test_elaborator.54 elpi.tests.test_elaborator.53} UNDEFINED UNIVERSES: elpi.tests.test_elaborator.54 elpi.tests.test_elaborator.53 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»)]] _uvk_135_ = X2 _uvk_136_ = X3 _uvk_137_ = X4 Syntactic constraints: evar (X2) (sort (typ «ex.u0»)) X0 /* suspended on X2, X0 */ evar (X4) X0 (X1) /* suspended on X4, X1 */ evar (X1) X0 X5 /* suspended on X1, X5 */ [trm c0, trm (app [global (const «Nat.add»), c0, c1])] {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 */ COQC tests/test_require_bad_order.v [trm c0, trm (app [global (const «Nat.add»), X0 c0 c1, c1])] {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])] {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] {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])] {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])] {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])] {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»)])] {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] {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] {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] {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] {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] {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] {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])] {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])] {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])] {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] {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 */ 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]] _uvk_164_ = X0 _uvk_165_ = 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»)]] _uvk_174_ = X0 _uvk_175_ = c0 \ X1 c0 _uvk_176_ = X2 _uvk_177_ = X3 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.58 elpi.tests.test_elaborator.57 elpi.tests.test_elaborator.56 elpi.tests.test_elaborator.55} |= Set <= elpi.tests.test_elaborator.55 elpi.tests.test_elaborator.55 <= elpi.tests.test_elaborator.57 elpi.tests.test_elaborator.56 <= elpi.tests.test_elaborator.57 elpi.tests.test_elaborator.57 <= elpi.tests.test_elaborator.58 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: COQC tests/test_ctx_cache.v 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»)]] _uvk_211_ = X0 _uvk_212_ = c0 \ X1 c0 _uvk_213_ = X2 _uvk_214_ = X3 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.62 elpi.tests.test_elaborator.61 elpi.tests.test_elaborator.60 elpi.tests.test_elaborator.59} |= Set <= elpi.tests.test_elaborator.59 elpi.tests.test_elaborator.59 <= elpi.tests.test_elaborator.61 elpi.tests.test_elaborator.60 <= elpi.tests.test_elaborator.61 elpi.tests.test_elaborator.61 <= elpi.tests.test_elaborator.62 ALGEBRAIC UNIVERSES: {} UNDEFINED UNIVERSES: SORTS: WEAK CONSTRAINTS: Debug: Cannot enforce elpi.apps.derive.tests.test_derive.3354 <= Set [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 300, column 10, character 6470:)] Query assignments: A = tt B = 0 C = 0 D = sort (typ «Set») E = [«true», «false»] F = [global (indt «bool»), global (indt «bool»)] GR = «bool» 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 [ binder_constr ] | "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 ] | "9" LEFTA [ ".."; term LEVEL "0"; ".." ] | "8" LEFTA [ ] | "1" LEFTA [ SELF; ".("; "@"; global; univ_annot; LIST0 (term LEVEL "9"); ")" | SELF; ".("; global; univ_annot; LIST0 arg; ")" | SELF; "%"; IDENT ] | "0" LEFTA [ "lib"; ":"; "@"; qualified_name | "lib"; ":"; qualified_name | QUOTATION "lp:" | 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; '|}' | "{"; "'"; 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"; "}" | "{"; binder_constr; "}" | "`{"; term LEVEL "200"; "}" | "`("; term LEVEL "200"; ")" | NUMBER | atomic_constr | term_match | ident; fields; univ_annot | ident; univ_annot | test_array_opening; "["; "|"; array_elems; "|"; lconstr; type_cstr; test_array_closing; "|"; "]"; univ_annot ] ] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 311, column 12, character 6723:)] skip int 1 skip str 33 skip trm (global (indt «bool»)) [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 311, column 12, character 6723:)] 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 320, column 12, character 6909:)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 320, column 12, character 6909:)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 324, column 30, character 7010:)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 324, column 30, character 7010:)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 332, column 7, character 7186:)] [attribute elpi.loc (leaf-loc File "./tests/test_tactic.v", line 332, column 7, character 7186:)] Query assignments: F = app [global (const «nat_of_bool»), global (indc «true»)] 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»))] Skipping derivation map on indt «nat» since it has been already run Derivation lens on indt «nat» Derivation lens on indt «nat» failed, continuing Skipping derivation param1 on indt «nat» since it has been already run Skipping derivation param2 on indt «nat» since it has been already run Skipping derivation tag on indt «nat» since it has been already run Skipping derivation eqType_ast on indt «nat» since it has been already run Derivation projK on indt «nat» Derivation projK on indt «nat» took 0.002607 Derivation isK on indt «nat» Derivation isK on indt «nat» took 0.004116 Derivation eq on indt «nat» Derivation eq on indt «nat» took 0.003627 Derivation invert on indt «nat» Derivation invert on indt «nat» took 0.004750 Skipping derivation lens_laws on indt «nat» since it has been already run Skipping derivation param1_congr on indt «nat» since it has been already run Skipping derivation param1_inhab on indt «nat» since it has been already run Skipping derivation param1_functor on indt «nat» since it has been already run Skipping derivation fields on indt «nat» since it has been already run Derivation bcongr on indt «nat» Derivation bcongr on indt «nat» took 0.004454 Derivation idx2inv on indt «nat» Derivation idx2inv on indt «nat» failed, continuing Skipping derivation param1_trivial on indt «nat» since it has been already run Skipping derivation induction on indt «nat» since it has been already run Skipping derivation eqb on indt «nat» since it has been already run Derivation eqK on indt «nat» Derivation eqK on indt «nat» took 0.005049 Skipping derivation eqbcorrect on indt «nat» since it has been already run Derivation eqcorrect on indt «nat» Derivation eqcorrect on indt «nat» took 0.001947 Skipping derivation eqbOK on indt «nat» since it has been already run Derivation eqOK on indt «nat» Derivation eqOK on indt «nat» took 0.001658 nat_eqb : nat -> nat -> bool : nat -> nat -> bool is_nat : nat -> Type : nat -> Type is_nat_inhab : (forall x : nat, is_nat x) : forall x : nat, is_nat x is_nat_functor : (forall x : nat, is_nat x -> is_nat x) : forall x : nat, is_nat x -> is_nat x nat_induction : (forall P : nat -> Type, P 0 -> (forall n : nat, P n -> P (S n)) -> forall x : nat, is_nat x -> P x) : forall P : nat -> Type, P 0 -> (forall n : nat, P n -> P (S n)) -> forall x : nat, is_nat x -> P x nat_tag : nat -> BinNums.positive : nat -> BinNums.positive nat_fields_t : BinNums.positive -> Type : BinNums.positive -> Type nat_fields : (forall n : nat, nat_fields_t (nat_tag n)) : forall n : nat, nat_fields_t (nat_tag n) nat_construct : (forall p : BinNums.positive, nat_fields_t p -> option nat) : forall p : BinNums.positive, nat_fields_t p -> option nat nat_constructP : (forall n : nat, nat_construct (nat_tag n) (nat_fields n) = Some n) : forall n : nat, nat_construct (nat_tag n) (nat_fields n) = Some n nat_eqb : nat -> nat -> bool : nat -> nat -> bool nat_eqb_correct : forall x : nat, eqb_correct_on nat_eqb x nat_eqb_refl : forall x : nat, eqb_refl_on nat_eqb x list_map : (forall A B : Type, (A -> B) -> list A -> list B) : forall A B : Type, (A -> B) -> list A -> list B is_nil : (forall (A : Type) (P : A -> Type), is_list A P nil) : forall (A : Type) (P : A -> Type), is_list A P nil is_cons : (forall (A : Type) (P : A -> Type) (x : A), P x -> forall tl : list A, is_list A P tl -> is_list A P (x :: tl)) : forall (A : Type) (P : A -> Type) (x : A), P x -> forall tl : list A, is_list A P tl -> is_list A P (x :: tl) is_list_functor : (forall (A : Type) (P Q : A -> Type), (forall x : A, P x -> Q x) -> forall l : list A, is_list A P l -> is_list A Q l) : forall (A : Type) (P Q : A -> Type), (forall x : A, P x -> Q x) -> forall l : list A, is_list A P l -> is_list A Q l list_induction : (forall (A : Type) (PA : A -> Type) (P : list A -> Type), P nil -> (forall x : A, PA x -> forall xs : list A, P xs -> P (x :: xs)%list) -> forall l : list A, is_list A PA l -> P l) : forall (A : Type) (PA : A -> Type) (P : list A -> Type), P nil -> (forall x : A, PA x -> forall xs : list A, P xs -> P (x :: xs)%list) -> forall l : list A, is_list A PA l -> P l list_tag : (forall A : Type, list A -> BinNums.positive) : forall A : Type, list A -> BinNums.positive list_fields_t : Type -> BinNums.positive -> Type : Type -> BinNums.positive -> Type list_fields : (forall (A : Type) (l : list A), list_fields_t A (list_tag A l)) : forall (A : Type) (l : list A), list_fields_t A (list_tag A l) list_construct : (forall (A : Type) (p : BinNums.positive), list_fields_t A p -> option (list A)) : forall (A : Type) (p : BinNums.positive), list_fields_t A p -> option (list A) list_constructP : (forall (A : Type) (l : list A), list_construct A (list_tag A l) (list_fields A l) = Some l) : forall (A : Type) (l : list A), list_construct A (list_tag A l) (list_fields A l) = Some l list_eqb : (forall A : Type, (A -> A -> bool) -> list A -> list A -> bool) : forall A : Type, (A -> A -> bool) -> list A -> list A -> bool list_eqb_correct : forall (a : Type) (eqA : a -> a -> bool), eqb_correct eqA -> forall x : list a, eqb_correct_on (list_eqb a eqA) x list_eqb_refl : forall (a : Type) (eqA : a -> a -> bool), eqb_reflexive eqA -> forall x : list a, eqb_refl_on (list_eqb a eqA) x 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»)]]] _uvk_238_ = X0 _uvk_239_ = X1 COQC tests/test_libobject_A.v COQC tests/test_glob.v Query assignments: Res = app [global (const «Z_of_nat»), app [global (const «nat_of_bool»), global (indc «true»)]] Finished transaction in 0.798 secs (0.784u,0.s) (successful) 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»)]]] _uvk_274_ = X0 _uvk_275_ = X1 d1 : nat d2 : nat i1 : Prop i2 : Prop k1 : i1 k2 : i2 r1 : Set r2 : Type f1 : r1 -> nat f2 : r2 -> nat COQC tests/test_link_perf.v 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.75») _uvk_310_ = c0 \ c1 \ X0 c0 c1 Universe constraints: UNIVERSES: {elpi.tests.test_elaborator.75 elpi.tests.test_elaborator.74 elpi.tests.test_elaborator.73 elpi.tests.test_elaborator.72 elpi.tests.test_elaborator.70} |= ring.u0 <= elpi.tests.test_elaborator.70 elpi.tests.test_elaborator.70 <= elpi.tests.test_elaborator.75 elpi.tests.test_elaborator.73 <= elpi.tests.test_elaborator.74 elpi.tests.test_elaborator.74 <= elpi.tests.test_elaborator.75 ALGEBRAIC UNIVERSES: {} UNDEFINED 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: _uvk_323_ = X0 COQC tests/test_link_order1.v Skipping derivation map on indt «nat» since the user did not select it Skipping derivation lens on indt «nat» since the user did not select it Skipping derivation param1 on indt «nat» since it has been already run Skipping derivation param2 on indt «nat» since the user did not select it Skipping derivation tag on indt «nat» since the user did not select it Skipping derivation eqType_ast on indt «nat» since the user did not select it Skipping derivation projK on indt «nat» since it has been already run Skipping derivation isK on indt «nat» since it has been already run Skipping derivation eq on indt «nat» since it has been already run Skipping derivation invert on indt «nat» since the user did not select it Skipping derivation lens_laws on indt «nat» since the user did not select it Skipping derivation param1_congr on indt «nat» since it has been already run Skipping derivation param1_inhab on indt «nat» since it has been already run Skipping derivation param1_functor on indt «nat» since it has been already run Skipping derivation fields on indt «nat» since the user did not select it Skipping derivation bcongr on indt «nat» since it has been already run Skipping derivation idx2inv on indt «nat» since the user did not select it Skipping derivation param1_trivial on indt «nat» since it has been already run Skipping derivation induction on indt «nat» since it has been already run Skipping derivation eqb on indt «nat» since the user did not select it Skipping derivation eqK on indt «nat» since it has been already run Skipping derivation eqbcorrect on indt «nat» since the user did not select it Skipping derivation eqcorrect on indt «nat» since it has been already run Skipping derivation eqbOK on indt «nat» since the user did not select it Skipping derivation eqOK on indt «nat» since it has been already run derive.param1_trivial: wrong shape is_t A PA . It does not look like a unary parametricity translation of an inductive with no indexes. Vector.t_eq : (forall A : Type, (A -> A -> bool) -> forall n : nat, Vector.t A n -> Vector.t A n -> bool) : forall A : Type, (A -> A -> bool) -> forall n : nat, Vector.t A n -> Vector.t A n -> bool Vector.t_isk_nil : (forall (A : Type) (n : nat), Vector.t A n -> bool) : forall (A : Type) (n : nat), Vector.t A n -> bool Vector.t_isk_cons : (forall (A : Type) (n : nat), Vector.t A n -> bool) : forall (A : Type) (n : nat), Vector.t A n -> bool Vector.t_map : (forall A B : Type, (A -> B) -> forall n : nat, Vector.t A n -> Vector.t B n) : forall A B : Type, (A -> B) -> forall n : nat, Vector.t A n -> Vector.t B n Vector.t_getk_cons1 : (forall (A : Type) (n : nat), A -> forall m : nat, Vector.t A m -> Vector.t A n -> A) : forall (A : Type) (n : nat), A -> forall m : nat, Vector.t A m -> Vector.t A n -> A Vector.t_getk_cons2 : (forall (A : Type) (n : nat), A -> forall m : nat, Vector.t A m -> Vector.t A n -> nat) : forall (A : Type) (n : nat), A -> forall m : nat, Vector.t A m -> Vector.t A n -> nat Vector.t_getk_cons3 : (forall (A : Type) (n : nat), A -> forall m : nat, Vector.t A m -> Vector.t A n -> {k : nat & Vector.t A k}) : forall (A : Type) (n : nat), A -> forall m : nat, Vector.t A m -> Vector.t A n -> {k : nat & Vector.t A k} Vector.is_t : (forall A : Type, (A -> Type) -> forall n : nat, is_nat n -> Vector.t A n -> Type) : forall A : Type, (A -> Type) -> forall n : nat, is_nat n -> Vector.t A n -> Type Vector.is_nil : (forall (A : Type) (PA : A -> Type), Vector.is_t A PA 0 is_O (Vector.nil A)) : forall (A : Type) (PA : A -> Type), Vector.is_t A PA 0 is_O (Vector.nil A) Vector.is_cons : (forall (A : Type) (PA : A -> Type) (a : A), PA a -> forall (n : nat) (Pn : is_nat n) (H : Vector.t A n), Vector.is_t A PA n Pn H -> Vector.is_t A PA (S n) (is_S n Pn) (Vector.cons A a n H)) : forall (A : Type) (PA : A -> Type) (a : A), PA a -> forall (n : nat) (Pn : is_nat n) (H : Vector.t A n), Vector.is_t A PA n Pn H -> Vector.is_t A PA (S n) (is_S n Pn) (Vector.cons A a n H) Vector.is_t_functor : (forall (A : Type) (PA QA : A -> Type), (forall x : A, PA x -> QA x) -> forall (n : nat) (nR : is_nat n) (v : Vector.t A n), Vector.is_t A PA n nR v -> Vector.is_t A QA n nR v) : forall (A : Type) (PA QA : A -> Type), (forall x : A, PA x -> QA x) -> forall (n : nat) (nR : is_nat n) (v : Vector.t A n), Vector.is_t A PA n nR v -> Vector.is_t A QA n nR v Vector.t_induction : (forall (A : Type) (PA : A -> Type) (P : forall n : nat, is_nat n -> Vector.t A n -> Type), P 0 is_O (Vector.nil A) -> (forall a : A, PA a -> forall (m : nat) (mR : is_nat m) (v : Vector.t A m), P m mR v -> P (S m) (is_S m mR) (Vector.cons A a m v)) -> forall (n : nat) (nR : is_nat n) (v : Vector.t A n), Vector.is_t A PA n nR v -> P n nR v) : forall (A : Type) (PA : A -> Type) (P : forall n : nat, is_nat n -> Vector.t A n -> Type), P 0 is_O (Vector.nil A) -> (forall a : A, PA a -> forall (m : nat) (mR : is_nat m) (v : Vector.t A m), P m mR v -> P (S m) (is_S m mR) (Vector.cons A a m v)) -> forall (n : nat) (nR : is_nat n) (v : Vector.t A n), Vector.is_t A PA n nR v -> P n nR v Vector.t_tag : (forall (A : Type) (i : nat), Vector.t A i -> BinNums.positive) : forall (A : Type) (i : nat), Vector.t A i -> BinNums.positive W_tag : (forall A : Type, W A -> BinNums.positive) : forall A : Type, W A -> BinNums.positive XXX.rtree_tag : (forall A : Type, rtree A -> BinNums.positive) : forall A : Type, rtree A -> BinNums.positive XXX.rtree_fields_t : Type -> BinNums.positive -> Type : Type -> BinNums.positive -> Type XXX.rtree_fields : (forall (A : Type) (l : rtree A), XXX.rtree_fields_t A (XXX.rtree_tag A l)) : forall (A : Type) (l : rtree A), XXX.rtree_fields_t A (XXX.rtree_tag A l) XXX.rtree_construct : (forall (A : Type) (p : BinNums.positive), XXX.rtree_fields_t A p -> option (rtree A)) : forall (A : Type) (p : BinNums.positive), XXX.rtree_fields_t A p -> option (rtree A) XXX.rtree_constructP : (forall (A : Type) (l : rtree A), XXX.rtree_construct A (XXX.rtree_tag A l) (XXX.rtree_fields A l) = Some l) : forall (A : Type) (l : rtree A), XXX.rtree_construct A (XXX.rtree_tag A l) (XXX.rtree_fields A l) = Some l XXX.rtree_eqb : (forall A : Type, (A -> A -> bool) -> rtree A -> rtree A -> bool) : forall A : Type, (A -> A -> bool) -> rtree A -> rtree A -> bool derive.param1_trivial: wrong shape is_triv . It does not look like a unary parametricity translation of an inductive with no indexes. triv.induction : (forall P : forall H : Coverage.unit, is_unit H -> triv H -> Prop, (forall (t : Coverage.unit) (Pt : is_unit t), P t Pt (one t)) -> (forall (x : Coverage.unit) (Px : is_unit x), P x Px (more x)) -> forall (u : Coverage.unit) (p : is_unit u) (s : triv u), triv.is_triv u p s -> P u p s) : forall P : forall H : Coverage.unit, is_unit H -> triv H -> Prop, (forall (t : Coverage.unit) (Pt : is_unit t), P t Pt (one t)) -> (forall (x : Coverage.unit) (Px : is_unit x), P x Px (more x)) -> forall (u : Coverage.unit) (p : is_unit u) (s : triv u), triv.is_triv u p s -> P u p s Debug: Cannot enforce elpi.apps.derive.tests.test_derive.4344 <= Set COQC tests/test_link_order2.v derive.param1_trivial: wrong shape is_Pred . It does not look like a unary parametricity translation of an inductive with no indexes. Pred.Pred_to_Predinv : (forall T : RoseTree, Pred T -> Pred.Predinv T) : forall T : RoseTree, Pred T -> Pred.Predinv T wimpls.wimpls : forall {A : Type}, rtree A -> Type wimpls.wimpls is not universe polymorphic Arguments wimpls.wimpls {A}%type_scope {rtree0} Expands to: Inductive elpi.apps.derive.tests.test_derive.derive_container.wimpls.wimpls wimpls.Kwi : forall {A : Type} {rtree0 : rtree A} (x : A), x = x -> wimpls wimpls.Kwi is not universe polymorphic Arguments wimpls.Kwi {A}%type_scope {rtree0} x _ Expands to: Constructor elpi.apps.derive.tests.test_derive.derive_container.wimpls.Kwi Kwi 3 eq_refl : wimpls where ?rtree0 : [ |- rtree nat] COQC tests/test_eq.v COQC tests/test_link_order3.v empty_eq : eq_test empty : eq_test empty unit_eq : eq_test unit : eq_test unit peano_eq : eq_test peano : eq_test peano option_eq : forall A : Type, eq_test A -> eq_test (option A) : forall A : Type, eq_test A -> eq_test (option A) pair_eq : forall A : Type, eq_test A -> forall B : Type, eq_test B -> eq_test (pair A B) : forall A : Type, eq_test A -> forall B : Type, eq_test B -> eq_test (pair A B) seq_eq : forall A : Type, eq_test A -> eq_test (seq A) : forall A : Type, eq_test A -> eq_test (seq A) rose_eq : forall A : Type, eq_test A -> eq_test (rose A) : forall A : Type, eq_test A -> eq_test (rose A) vect_eq : forall A : Type, eq_test A -> forall i : peano, eq_test (vect A i) : forall A : Type, eq_test A -> forall i : peano, eq_test (vect A i) zeta_eq : forall A : Type, eq_test A -> eq_test (zeta A) : forall A : Type, eq_test A -> eq_test (zeta A) beta_eq : forall A : Type, eq_test A -> eq_test (beta A) : forall A : Type, eq_test A -> eq_test (beta A) large_eq : eq_test large : eq_test large prim_int_eq : eq_test prim_int : eq_test prim_int prim_float_eq : eq_test prim_float : eq_test prim_float fo_record_eq : eq_test fo_record : eq_test fo_record pa_record_eq : forall A : Type, eq_test A -> eq_test (pa_record A) : forall A : Type, eq_test A -> eq_test (pa_record A) pr_record_eq : forall A : Type, eq_test A -> eq_test (pr_record A) : forall A : Type, eq_test A -> eq_test (pr_record A) enum_eq : eq_test enum : eq_test enum COQC tests/test_isK.v COQC tests/test_link_order4.v unit_is_tt : unit -> bool : unit -> bool peano_is_Zero : peano -> bool : peano -> bool peano_is_Succ : peano -> bool : peano -> bool option_is_None : forall A : Type, option A -> bool : forall A : Type, option A -> bool option_is_Some : forall A : Type, option A -> bool : forall A : Type, option A -> bool pair_is_Comma : forall A B : Type, pair A B -> bool : forall A B : Type, pair A B -> bool seq_is_Nil : forall A : Type, seq A -> bool : forall A : Type, seq A -> bool seq_is_Cons : forall A : Type, seq A -> bool : forall A : Type, seq A -> bool rose_is_Leaf : forall A : Type, rose A -> bool : forall A : Type, rose A -> bool rose_is_Node : forall A : Type, rose A -> bool : forall A : Type, rose A -> bool nest_is_NilN : forall A : Type, nest A -> bool : forall A : Type, nest A -> bool nest_is_ConsN : forall A : Type, nest A -> bool : forall A : Type, nest A -> bool w_is_via : forall A : Type, w A -> bool : forall A : Type, w A -> bool vect_is_VNil : forall (A : Type) (i : peano), vect A i -> bool : forall (A : Type) (i : peano), vect A i -> bool vect_is_VCons : forall (A : Type) (i : peano), vect A i -> bool : forall (A : Type) (i : peano), vect A i -> bool dyn_is_box : dyn -> bool : dyn -> bool zeta_is_Envelope : forall A : Type, zeta A -> bool : forall A : Type, zeta A -> bool beta_is_Redex : forall A : Type, beta A -> bool : forall A : Type, beta A -> bool iota_is_Why : iota -> bool : iota -> bool large_is_K1 : large -> bool large_is_K2 : large -> bool prim_int_is_PI : prim_int -> bool prim_float_is_PF : prim_float -> bool fo_record_is_Build_fo_record : fo_record -> bool : fo_record -> bool pa_record_is_Build_pa_record : forall A : Type, pa_record A -> bool : forall A : Type, pa_record A -> bool pr_record_is_Build_pr_record : forall A : Type, pr_record A -> bool : forall A : Type, pr_record A -> bool enum_is_E1 : enum -> bool : enum -> bool COQC tests/test_param1.v COQC tests/test_link_order5.v COQC tests/test_link_order6.v is_empty : pred empty : pred empty is_unit : pred unit : pred unit is_peano : pred peano : pred peano is_option : forall A : Type, pred A -> pred (option A) : forall A : Type, pred A -> pred (option A) is_pair : forall A : Type, pred A -> forall B : Type, pred B -> pred (pair A B) : forall A : Type, pred A -> forall B : Type, pred B -> pred (pair A B) is_seq : forall A : Type, pred A -> pred (seq A) : forall A : Type, pred A -> pred (seq A) is_rose : forall A : Type, pred A -> pred (rose A) : forall A : Type, pred A -> pred (rose A) is_nest : forall A : Type, pred A -> pred (nest A) : forall A : Type, pred A -> pred (nest A) is_w : forall A : Type, pred A -> pred (w A) : forall A : Type, pred A -> pred (w A) is_vect : forall A : Type, pred A -> forall i : peano, is_peano i -> pred (vect A i) : forall A : Type, pred A -> forall i : peano, is_peano i -> pred (vect A i) is_dyn : pred dyn : pred dyn is_zeta : forall A : Type, pred A -> pred (zeta A) : forall A : Type, pred A -> pred (zeta A) is_beta : forall A : Type, pred A -> pred (beta A) : forall A : Type, pred A -> pred (beta A) is_iota : pred iota : pred iota is_large : pred large : pred large is_prim_int : pred prim_int : pred prim_int is_prim_float : pred prim_float : pred prim_float is_fo_record : pred fo_record : pred fo_record is_pa_record : forall A : Type, pred A -> pred (pa_record A) : forall A : Type, pred A -> pred (pa_record A) is_pr_record : forall A : Type, pred A -> pred (pr_record A) : forall A : Type, pred A -> pred (pr_record A) is_enum : pred enum : pred enum is_ord : forall p : peano, is_peano p -> pred (ord p) : forall p : peano, is_peano p -> pred (ord p) is_ord2 : forall p : peano, is_peano p -> pred (ord2 p) : forall p : peano, is_peano p -> pred (ord2 p) is_val : pred val : pred val Finished transaction in 7.603 secs (7.562u,0.009s) (successful) Query assignments: Y = global (indc «is_O») Finished transaction in 0.152 secs (0.151u,0.s) (successful) COQC tests/test_link_order7.v [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 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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] COQC tests/test_link_order8.v COQC tests/test_link_order9.v Query assignments: Y = app [global (indc «is_S»), app [global (indc «S»), global (indc «O»)], app [global (indc «is_S»), global (indc «O»), global (indc «is_O»)]] is_pred = fun (n : nat) (Pn : is_nat n) => match Pn in (is_nat n0) return (is_nat match n0 with | 0 => n | S u => u end) with | is_O => Pn | is_S _ Pu => Pu end : forall n : nat, is_nat n -> is_nat (Nat.pred n) Arguments is_pred n%nat_scope Pn is_pred : is_nat2nat Nat.pred : is_nat2nat Nat.pred is_predn : is_nat2nat predn : is_nat2nat predn is_add : is_nat2nat2nat Nat.add : is_nat2nat2nat Nat.add Inductive is_bla : forall H : nat, is_nat H -> bla H -> Type := is_Bla : forall H : nat, is_nat H -> is_bla 0 is_O (Bla H) | is_Blu : forall (n : nat) (Pn : is_nat n) (H : bla n), is_bla n Pn H -> is_bla 1 (is_S 0 is_O) (Blu n H). Arguments is_bla _%nat_scope P_ s1 Arguments is_Bla _%nat_scope P_ Arguments is_Blu n%nat_scope Pn _ P_ Query assignments: PDb = [tc-instance (const «reali_is_fin_length») 0, tc-instance (const «reali_is_vec_length») 0, tc-instance (const «reali_is_predn») 0, tc-instance (const «reali_is_plus'») 0, tc-instance (const «reali_is_nat_S») 0, tc-instance (const «reali_is_nat_O») 0, tc-instance (const «reali_is_prim_float») 0, tc-instance (const «reali_is_prim_float_PF») 0, tc-instance (const «reali_is_nest_ConsN») 0, tc-instance (const «reali_is_w_via») 0, tc-instance (const «reali_is_val_V») 0, tc-instance (const «reali_is_peano») 0, tc-instance (const «reali_is_large») 0, tc-instance (const «reali_is_empty») 0, tc-instance (const «reali_is_iota_Why») 0, tc-instance (const «reali_is_nat2nat2nat») 0, tc-instance (const «reali_is_unit_tt») 0, tc-instance (const «reali_is_nest_NilN») 0, tc-instance (const «reali_is_prim_int») 0, tc-instance (const «reali_is_vect_VCons») 0, tc-instance (const «reali_is_large_K26») 0, tc-instance (const «reali_is_large_K25») 0, tc-instance (const «reali_is_large_K24») 0, tc-instance (const «reali_is_large_K23») 0, tc-instance (const «reali_is_large_K22») 0, tc-instance (const «reali_is_large_K21») 0, tc-instance (const «reali_is_large_K20») 0, tc-instance (const «reali_is_large_K19») 0, tc-instance (const «reali_is_large_K18») 0, tc-instance (const «reali_is_large_K17») 0, tc-instance (const «reali_is_large_K16») 0, tc-instance (const «reali_is_large_K15») 0, tc-instance (const «reali_is_large_K14») 0, tc-instance (const «reali_is_large_K13») 0, tc-instance (const «reali_is_large_K12») 0, tc-instance (const «reali_is_large_K11») 0, tc-instance (const «reali_is_large_K10») 0, tc-instance (const «reali_is_eq_eq_refl») 0, tc-instance (const «Coverage.reali_is_unit_tt») 0, tc-instance (const «reali_is_large_K9») 0, tc-instance (const «reali_is_large_K8») 0, tc-instance (const «reali_is_large_K7») 0, tc-instance (const «reali_is_large_K6») 0, tc-instance (const «reali_is_large_K5») 0, tc-instance (const «reali_is_large_K4») 0, tc-instance (const «reali_is_large_K3») 0, tc-instance (const «reali_is_large_K2») 0, tc-instance (const «reali_is_large_K1») 0, tc-instance (const «reali_is_seq_Cons») 0, tc-instance (const «reali_is_ord_mkOrd») 0, tc-instance (const «reali_is_peano_Zero») 0, tc-instance (const «reali_is_peano_Succ») 0, tc-instance (const «reali_is_fo_record») 0, tc-instance (const «reali_is_vec_vcons») 0, tc-instance (const «reali_is_quasidn») 0, tc-instance (const «reali_is_vect_VNil») 0, tc-instance (const «reali_is_seq_Nil») 0, tc-instance (const «reali_is_zeta_Envelope») 0, tc-instance (const «reali_is_list_cons») 0, tc-instance (const «exports.reali_is_eq») 0, tc-instance (const «reali_is_beta_Redex») 0, tc-instance (const «reali_is_unit») 0, tc-instance (const «reali_is_test») 0, tc-instance (const «reali_is_prod») 0, tc-instance (const «reali_is_pred») 0, tc-instance (const «reali_is_list») 0, tc-instance (const «reali_is_bool») 0, tc-instance (const «reali_is_sigma_bool_Build_sigma_bool») 0, tc-instance (const «reali_is_option_Some») 0, tc-instance (const «reali_is_option_None») 0, tc-instance (const «reali_is_box_peano») 0, tc-instance (const «reali_is_nat2nat») 0, tc-instance (const «reali_is_sigma_bool») 0, tc-instance (const «reali_is_zeta») 0, tc-instance (const «reali_is_vect») 0, tc-instance (const «Coverage.reali_is_unit») 0, tc-instance (const «reali_is_rose») 0, tc-instance (const «reali_is_pair») 0, tc-instance (const «reali_is_ord2») 0, tc-instance (const «reali_is_nest») 0, tc-instance (const «reali_is_iota») 0, tc-instance (const «reali_is_enum») 0, tc-instance (const «Coverage.reali_is_bool») 0, tc-instance (const «reali_is_beta») 0, tc-instance (const «reali_is_vec_length_type») 0, tc-instance (const «reali_is_vec_length_rec») 0, tc-instance (const «reali_is_pr_record») 0, tc-instance (const «reali_is_rose_Node») 0, tc-instance (const «reali_is_rose_Leaf») 0, tc-instance (const «reali_is_rose_p_Nodep») 0, tc-instance (const «reali_is_rose_p_Leafp») 0, tc-instance (const «reali_is_eq») 0, tc-instance (const «reali_is_is_list») 0, tc-instance (const «reali_is_w») 0, tc-instance (const «reali_is_vec_vnil») 0, tc-instance (const «reali_is_dep_record_Build_dep_record») 0, tc-instance (const «reali_is_pr_record_Build_pr_record») 0, tc-instance (const «reali_is_rose_o_Nodeo») 0, tc-instance (const «reali_is_rose_o_Leafo») 0, tc-instance (const «reali_is_weirdn») 0, tc-instance (const «reali_is_pair_Comma») 0, tc-instance (const «reali_is_dep_record») 0, tc-instance (const «reali_is_is_zero») 0, tc-instance (const «reali_is_pa_record») 0, tc-instance (const «reali_is_fin_FS») 0, tc-instance (const «reali_is_fin_FO») 0, tc-instance (const «reali_is_bool_true») 0, tc-instance (const «reali_is_divmod») 0, tc-instance (const «reali_is_prim_int_PI») 0, tc-instance (const «reali_is_list_nil») 0, tc-instance (const «reali_is_vec») 0, tc-instance (const «reali_is_snd») 0, tc-instance (const «reali_is_nat») 0, tc-instance (const «reali_is_fst») 0, tc-instance (const «reali_is_fin») 0, tc-instance (const «reali_is_div») 0, tc-instance (const «reali_is_bla») 0, tc-instance (const «reali_is_add») 0, tc-instance (const «reali_is_rose_p») 0, tc-instance (const «reali_is_rose_o») 0, tc-instance (const «reali_is_is_list_is_nil») 0, tc-instance (const «reali_is_option») 0, tc-instance (const «reali_is_is_leq») 0, tc-instance (const «reali_is_bool_false») 0, tc-instance (const «reali_is_prod_pair») 0, tc-instance (const «Coverage.reali_is_bool_true») 0, tc-instance (const «reali_is_val») 0, tc-instance (const «reali_is_seq») 0, tc-instance (const «reali_is_ord») 0, tc-instance (const «reali_is_dyn») 0, tc-instance (const «reali_is_is_list_is_cons») 0, tc-instance (const «reali_is_fo_record_Build_fo_record») 0, tc-instance (const «Coverage.reali_is_bool_false») 0, tc-instance (const «reali_is_enum_E3») 0, tc-instance (const «reali_is_enum_E2») 0, tc-instance (const «reali_is_enum_E1») 0, tc-instance (const «reali_is_dyn_box») 0, tc-instance (const «exports.reali_is_eq_eq_refl») 0, tc-instance (const «reali_is_box_peano_Box») 0, tc-instance (const «reali_is_ord2_mkOrd2») 0, tc-instance (const «reali_is_bla_Blu») 0, tc-instance (const «reali_is_bla_Bla») 0, tc-instance (const «reali_is_pa_record_Build_pa_record») 0] Spilled_1 = indt «reali_db» File "./tests/test_param1.v", line 158, characters 0-30: Warning: Not a truly recursive fixpoint. [non-recursive,fixpoints,default] COQC tests/test_API_new_pred.v COQC tests/test_link_order_import0.v COQC tests/test_vernacular2.v COQC tests/test_ltac2.v test1 str hello str x File "./tests/test_param1.v", line 176, characters 0-66: Warning: Not a truly recursive fixpoint. [non-recursive,fixpoints,default] test1 too many arguments 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] COQC tests/test_map.v it = elpi_subproof : True it : True it is not universe polymorphic it is transparent Expands to: Constant elpi.tests.test_ltac.it 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 Closed under the global context COQC tests/test_libobject_B.v Query q X0 Query r X0 Result r 1 COQC tests/test_link_order_import1.v 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] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular2.v", line 11, column 24, character 361:), attribute fwd_compat_attr (leaf-str )] [attribute elpi.loc (leaf-loc File "./tests/test_vernacular2.v", line 12, column 0, character 366:), attribute fwd_compat_attr (leaf-str )] COQC tests/test_link_order_import2.v COQC tests/test_libobject_C.v global (indc «O») app [global (indc «S»), app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] COQC tests/test_lens_laws.v COQC tests/test_fields.v empty_map : map empty : map empty unit_map : map unit : map unit peano_map : map peano : map peano option_map : map1 option : map1 option pair_map : forall A B : Type, (A -> B) -> forall C D : Type, (C -> D) -> pair A C -> pair B D : forall A B : Type, (A -> B) -> forall C D : Type, (C -> D) -> pair A C -> pair B D seq_map : map1 seq : map1 seq rose_map : map1 rose : map1 rose vect_map : forall A B : Type, (A -> B) -> forall i : peano, vect A i -> vect B i : forall A B : Type, (A -> B) -> forall i : peano, vect A i -> vect B i dyn_map : map dyn : map dyn zeta_map : map1 zeta : map1 zeta iota_map : map iota : map iota large_map : map large : map large prim_int_map : map prim_int : map prim_int prim_float_map : map prim_float : map prim_float pa_record_map : map1 pa_record : map1 pa_record pr_record_map : map1 pr_record : map1 pr_record COQC tests/test_bcongr.v COQC tests/test_link_order_import3.v test coqdoc hyperlinks test link order COQC tests/test_param1_functor.v _f1_view_set : view_set _f1 : view_set _f1 _f2_view_set : view_set _f2 : view_set _f2 _f3_view_set : forall A : Type, view_set _f3 : forall A : Type, view_set _f3 _f4_view_set : forall A : Type, view_set _f4 : forall A : Type, view_set _f4 _pf3_view_set : forall A : Type, view_set _pf3 : forall A : Type, view_set _pf3 _pf4_view_set : forall A : Type, view_set _pf4 : forall A : Type, view_set _pf4 _f1_set_set : set_set _f1 : set_set _f1 _f2_set_set : set_set _f2 : set_set _f2 _f3_set_set : forall A : Type, set_set _f3 : forall A : Type, set_set _f3 _f4_set_set : forall A : Type, set_set _f4 : forall A : Type, set_set _f4 _pf3_set_set : forall A : Type, set_set _pf3 : forall A : Type, set_set _pf3 _pf4_set_set : forall A : Type, set_set _pf4 : forall A : Type, set_set _pf4 _f1_set_view : set_view _f1 : set_view _f1 _f2_set_view : set_view _f2 : set_view _f2 _f3_set_view : forall A : Type, set_view _f3 : forall A : Type, set_view _f3 _f4_set_view : forall A : Type, set_view _f4 : forall A : Type, set_view _f4 _pf3_set_view : forall A : Type, set_view _pf3 : forall A : Type, set_view _pf3 _pf4_set_view : forall A : Type, set_view _pf4 : forall A : Type, set_view _pf4 _f1_f2_exchange : exchange _f1 _f2 : exchange _f1 _f2 _f2_f1_exchange : exchange _f2 _f1 : exchange _f2 _f1 _f3_f4_exchange : forall A : Type, exchange _f3 _f4 : forall A : Type, exchange _f3 _f4 _f4_f3_exchange : forall A : Type, exchange _f4 _f3 : forall A : Type, exchange _f4 _f3 _pf3_pf4_exchange : forall A : Type, exchange _pf3 _pf4 : forall A : Type, exchange _pf3 _pf4 _pf4_pf3_exchange : forall A : Type, exchange _pf4 _pf3 : forall A : Type, exchange _pf4 _pf3 COQC tests/test_param1_congr.v unit_bcongr_tt : reflect (tt = tt) true : reflect (tt = tt) true peano_bcongr_Zero : reflect (Zero = Zero) true : reflect (Zero = Zero) true peano_bcongr_Succ : forall (x y : peano) (b : bool), reflect (x = y) b -> reflect (Succ x = Succ y) b : forall (x y : peano) (b : bool), reflect (x = y) b -> reflect (Succ x = Succ y) b option_bcongr_None : forall A : Type, reflect (None A = None A) true : forall A : Type, reflect (None A = None A) true option_bcongr_Some : forall (A : Type) (x y : A) (b : bool), reflect (x = y) b -> reflect (Some A x = Some A y) b : forall (A : Type) (x y : A) (b : bool), reflect (x = y) b -> reflect (Some A x = Some A y) b pair_bcongr_Comma : forall (A B : Type) (x1 x2 : A) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : B) (b2 : bool), reflect (y1 = y2) b2 -> reflect (Comma A B x1 y1 = Comma A B x2 y2) (b1 && b2) : forall (A B : Type) (x1 x2 : A) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : B) (b2 : bool), reflect (y1 = y2) b2 -> reflect (Comma A B x1 y1 = Comma A B x2 y2) (b1 && b2) seq_bcongr_Nil : forall A : Type, reflect (Nil A = Nil A) true : forall A : Type, reflect (Nil A = Nil A) true seq_bcongr_Cons : forall (A : Type) (x y : A) (b1 : bool), reflect (x = y) b1 -> forall (xs ys : seq A) (b2 : bool), reflect (xs = ys) b2 -> reflect (Cons A x xs = Cons A y ys) (b1 && b2) : forall (A : Type) (x y : A) (b1 : bool), reflect (x = y) b1 -> forall (xs ys : seq A) (b2 : bool), reflect (xs = ys) b2 -> reflect (Cons A x xs = Cons A y ys) (b1 && b2) rose_bcongr_Leaf : forall (A : Type) (x y : A) (b : bool), reflect (x = y) b -> reflect (Leaf A x = Leaf A y) b : forall (A : Type) (x y : A) (b : bool), reflect (x = y) b -> reflect (Leaf A x = Leaf A y) b rose_bcongr_Node : forall (A : Type) (l1 l2 : seq (rose A)) (b : bool), reflect (l1 = l2) b -> reflect (Node A l1 = Node A l2) b : forall (A : Type) (l1 l2 : seq (rose A)) (b : bool), reflect (l1 = l2) b -> reflect (Node A l1 = Node A l2) b nest_bcongr_NilN : forall A : Type, reflect (NilN A = NilN A) true : forall A : Type, reflect (NilN A = NilN A) true nest_bcongr_ConsN : forall (A : Type) (x y : A) (b1 : bool), reflect (x = y) b1 -> forall (xs ys : nest (pair A A)) (b2 : bool), reflect (xs = ys) b2 -> reflect (ConsN A x xs = ConsN A y ys) (b1 && b2) : forall (A : Type) (x y : A) (b1 : bool), reflect (x = y) b1 -> forall (xs ys : nest (pair A A)) (b2 : bool), reflect (xs = ys) b2 -> reflect (ConsN A x xs = ConsN A y ys) (b1 && b2) w_bcongr_via : forall (A : Type) (f g : A -> w A) (b : bool), reflect (f = g) b -> reflect (via A f = via A g) b : forall (A : Type) (f g : A -> w A) (b : bool), reflect (f = g) b -> reflect (via A f = via A g) b zeta_bcongr_Envelope : forall (A : Type) (x1 x2 : A) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : A) (b2 : bool), reflect (y1 = y2) b2 -> reflect (Envelope A x1 y1 = Envelope A x2 y2) (b1 && b2) : forall (A : Type) (x1 x2 : A) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : A) (b2 : bool), reflect (y1 = y2) b2 -> reflect (Envelope A x1 y1 = Envelope A x2 y2) (b1 && b2) beta_bcongr_Redex : forall (A : Type) (x y : A) (b : bool), reflect (x = y) b -> reflect (Redex A x = Redex A y) b : forall (A : Type) (x y : A) (b : bool), reflect (x = y) b -> reflect (Redex A x = Redex A y) b prim_int_bcongr_PI : forall (x y : PrimInt63.int) (b : bool), reflect (x = y) b -> reflect (PI x = PI y) b : forall (x y : PrimInt63.int) (b : bool), reflect (x = y) b -> reflect (PI x = PI y) b prim_float_bcongr_PF : forall (x y : PrimFloat.float) (b : bool), reflect (x = y) b -> reflect (PF x = PF y) b : forall (x y : PrimFloat.float) (b : bool), reflect (x = y) b -> reflect (PF x = PF y) b fo_record_bcongr_Build_fo_record : forall (x1 x2 : peano) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : unit) (b2 : bool), reflect (y1 = y2) b2 -> reflect ({| f1 := x1; f2 := y1 |} = {| f1 := x2; f2 := y2 |}) (b1 && b2) : forall (x1 x2 : peano) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : unit) (b2 : bool), reflect (y1 = y2) b2 -> reflect ({| f1 := x1; f2 := y1 |} = {| f1 := x2; f2 := y2 |}) (b1 && b2) pa_record_bcongr_Build_pa_record : forall (A : Type) (x1 x2 : peano) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : A) (b2 : bool), reflect (y1 = y2) b2 -> reflect ({| f3 := x1; f4 := y1 |} = {| f3 := x2; f4 := y2 |}) (b1 && b2) : forall (A : Type) (x1 x2 : peano) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : A) (b2 : bool), reflect (y1 = y2) b2 -> reflect ({| f3 := x1; f4 := y1 |} = {| f3 := x2; f4 := y2 |}) (b1 && b2) pr_record_bcongr_Build_pr_record : forall (A : Type) (x1 x2 : peano) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : A) (b2 : bool), reflect (y1 = y2) b2 -> reflect ({| pf3 := x1; pf4 := y1 |} = {| pf3 := x2; pf4 := y2 |}) (b1 && b2) : forall (A : Type) (x1 x2 : peano) (b1 : bool), reflect (x1 = x2) b1 -> forall (y1 y2 : A) (b2 : bool), reflect (y1 = y2) b2 -> reflect ({| pf3 := x1; pf4 := y1 |} = {| pf3 := x2; pf4 := y2 |}) (b1 && b2) enum_bcongr_E1 : reflect (E1 = E1) true : reflect (E1 = E1) true enum_bcongr_E2 : reflect (E2 = E2) true : reflect (E2 = E2) true enum_bcongr_E3 : reflect (E3 = E3) true : reflect (E3 = E3) true COQC tests/test_eqK.v empty_fields_t : positive -> Type : positive -> Type empty_fields : forall n : empty, empty_fields_t (empty_tag n) : forall n : empty, empty_fields_t (empty_tag n) empty_construct : forall p : positive, empty_fields_t p -> Datatypes.option empty : forall p : positive, empty_fields_t p -> Datatypes.option empty empty_constructP : forall n : empty, empty_construct (empty_tag n) (empty_fields n) = Datatypes.Some n : forall n : empty, empty_construct (empty_tag n) (empty_fields n) = Datatypes.Some n unit_fields_t : positive -> Type : positive -> Type unit_fields : forall n : unit, unit_fields_t (unit_tag n) : forall n : unit, unit_fields_t (unit_tag n) unit_construct : forall p : positive, unit_fields_t p -> Datatypes.option unit : forall p : positive, unit_fields_t p -> Datatypes.option unit unit_constructP : forall n : unit, unit_construct (unit_tag n) (unit_fields n) = Datatypes.Some n : forall n : unit, unit_construct (unit_tag n) (unit_fields n) = Datatypes.Some n peano_fields_t : positive -> Type : positive -> Type peano_fields : forall n : peano, peano_fields_t (peano_tag n) : forall n : peano, peano_fields_t (peano_tag n) peano_construct : forall p : positive, peano_fields_t p -> Datatypes.option peano : forall p : positive, peano_fields_t p -> Datatypes.option peano peano_constructP : forall n : peano, peano_construct (peano_tag n) (peano_fields n) = Datatypes.Some n : forall n : peano, peano_construct (peano_tag n) (peano_fields n) = Datatypes.Some n option_fields_t : Type -> positive -> Type : Type -> positive -> Type option_fields : forall (A : Type) (l : option A), option_fields_t A (option_tag A l) : forall (A : Type) (l : option A), option_fields_t A (option_tag A l) option_construct : forall (A : Type) (p : positive), option_fields_t A p -> Datatypes.option (option A) : forall (A : Type) (p : positive), option_fields_t A p -> Datatypes.option (option A) option_constructP : forall (A : Type) (l : option A), option_construct A (option_tag A l) (option_fields A l) = Datatypes.Some l : forall (A : Type) (l : option A), option_construct A (option_tag A l) (option_fields A l) = Datatypes.Some l pair_fields_t : Type -> Type -> positive -> Type : Type -> Type -> positive -> Type pair_fields : forall (A B : Type) (l : pair A B), pair_fields_t A B (pair_tag A B l) : forall (A B : Type) (l : pair A B), pair_fields_t A B (pair_tag A B l) pair_construct : forall (A B : Type) (p : positive), pair_fields_t A B p -> Datatypes.option (pair A B) : forall (A B : Type) (p : positive), pair_fields_t A B p -> Datatypes.option (pair A B) pair_constructP : forall (A B : Type) (l : pair A B), pair_construct A B (pair_tag A B l) (pair_fields A B l) = Datatypes.Some l : forall (A B : Type) (l : pair A B), pair_construct A B (pair_tag A B l) (pair_fields A B l) = Datatypes.Some l seq_fields_t : Type -> positive -> Type : Type -> positive -> Type seq_fields : forall (A : Type) (l : seq A), seq_fields_t A (seq_tag A l) : forall (A : Type) (l : seq A), seq_fields_t A (seq_tag A l) seq_construct : forall (A : Type) (p : positive), seq_fields_t A p -> Datatypes.option (seq A) : forall (A : Type) (p : positive), seq_fields_t A p -> Datatypes.option (seq A) seq_constructP : forall (A : Type) (l : seq A), seq_construct A (seq_tag A l) (seq_fields A l) = Datatypes.Some l : forall (A : Type) (l : seq A), seq_construct A (seq_tag A l) (seq_fields A l) = Datatypes.Some l rose_fields_t : Type -> positive -> Type : Type -> positive -> Type rose_fields : forall (A : Type) (l : rose A), rose_fields_t A (rose_tag A l) : forall (A : Type) (l : rose A), rose_fields_t A (rose_tag A l) rose_construct : forall (A : Type) (p : positive), rose_fields_t A p -> Datatypes.option (rose A) : forall (A : Type) (p : positive), rose_fields_t A p -> Datatypes.option (rose A) rose_constructP : forall (A : Type) (l : rose A), rose_construct A (rose_tag A l) (rose_fields A l) = Datatypes.Some l : forall (A : Type) (l : rose A), rose_construct A (rose_tag A l) (rose_fields A l) = Datatypes.Some l beta_fields_t : Type -> positive -> Type : Type -> positive -> Type beta_fields : forall (A : Type) (l : beta A), beta_fields_t A (beta_tag A l) : forall (A : Type) (l : beta A), beta_fields_t A (beta_tag A l) beta_construct : forall (A : Type) (p : positive), beta_fields_t A p -> Datatypes.option (beta A) : forall (A : Type) (p : positive), beta_fields_t A p -> Datatypes.option (beta A) beta_constructP : forall (A : Type) (l : beta A), beta_construct A (beta_tag A l) (beta_fields A l) = Datatypes.Some l : forall (A : Type) (l : beta A), beta_construct A (beta_tag A l) (beta_fields A l) = Datatypes.Some l large_fields_t : positive -> Type : positive -> Type large_fields : forall n : large, large_fields_t (large_tag n) : forall n : large, large_fields_t (large_tag n) large_construct : forall p : positive, large_fields_t p -> Datatypes.option large : forall p : positive, large_fields_t p -> Datatypes.option large large_constructP : forall n : large, large_construct (large_tag n) (large_fields n) = Datatypes.Some n : forall n : large, large_construct (large_tag n) (large_fields n) = Datatypes.Some n prim_int_fields_t : positive -> Type : positive -> Type prim_int_fields : forall n : prim_int, prim_int_fields_t (prim_int_tag n) : forall n : prim_int, prim_int_fields_t (prim_int_tag n) prim_int_construct : forall p : positive, prim_int_fields_t p -> Datatypes.option prim_int : forall p : positive, prim_int_fields_t p -> Datatypes.option prim_int prim_int_constructP : forall n : prim_int, prim_int_construct (prim_int_tag n) (prim_int_fields n) = Datatypes.Some n : forall n : prim_int, prim_int_construct (prim_int_tag n) (prim_int_fields n) = Datatypes.Some n pa_record_fields_t : Type -> positive -> Type : Type -> positive -> Type pa_record_fields : forall (A : Type) (l : pa_record A), pa_record_fields_t A (pa_record_tag A l) : forall (A : Type) (l : pa_record A), pa_record_fields_t A (pa_record_tag A l) pa_record_construct : forall (A : Type) (p : positive), pa_record_fields_t A p -> Datatypes.option (pa_record A) : forall (A : Type) (p : positive), pa_record_fields_t A p -> Datatypes.option (pa_record A) pa_record_constructP : forall (A : Type) (l : pa_record A), pa_record_construct A (pa_record_tag A l) (pa_record_fields A l) = Datatypes.Some l : forall (A : Type) (l : pa_record A), pa_record_construct A (pa_record_tag A l) (pa_record_fields A l) = Datatypes.Some l pr_record_fields_t : Type -> positive -> Type : Type -> positive -> Type pr_record_fields : forall (A : Type) (l : pr_record A), pr_record_fields_t A (pr_record_tag A l) : forall (A : Type) (l : pr_record A), pr_record_fields_t A (pr_record_tag A l) pr_record_construct : forall (A : Type) (p : positive), pr_record_fields_t A p -> Datatypes.option (pr_record A) : forall (A : Type) (p : positive), pr_record_fields_t A p -> Datatypes.option (pr_record A) pr_record_constructP : forall (A : Type) (l : pr_record A), pr_record_construct A (pr_record_tag A l) (pr_record_fields A l) = Datatypes.Some l : forall (A : Type) (l : pr_record A), pr_record_construct A (pr_record_tag A l) (pr_record_fields A l) = Datatypes.Some l sigma_bool_fields_t : positive -> Type : positive -> Type sigma_bool_fields : forall l : sigma_bool, sigma_bool_fields_t (sigma_bool_tag l) : forall l : sigma_bool, sigma_bool_fields_t (sigma_bool_tag l) sigma_bool_construct : forall p : positive, sigma_bool_fields_t p -> Datatypes.option sigma_bool : forall p : positive, sigma_bool_fields_t p -> Datatypes.option sigma_bool sigma_bool_constructP : forall l : sigma_bool, sigma_bool_construct (sigma_bool_tag l) (sigma_bool_fields l) = Datatypes.Some l : forall l : sigma_bool, sigma_bool_construct (sigma_bool_tag l) (sigma_bool_fields l) = Datatypes.Some l ord_fields_t : peano -> positive -> Type : peano -> positive -> Type is_empty_functor : func is_empty : func is_empty ord_fields : forall (p : peano) (o : ord p), ord_fields_t p (ord_tag p o) : forall (p : peano) (o : ord p), ord_fields_t p (ord_tag p o) ord_construct : forall (n : peano) (p : positive), ord_fields_t n p -> Datatypes.option (ord n) : forall (n : peano) (p : positive), ord_fields_t n p -> Datatypes.option (ord n) is_unit_functor : func is_unit : func is_unit ord_constructP : forall (p : peano) (o : ord p), ord_construct p (ord_tag p o) (ord_fields p o) = Datatypes.Some o : forall (p : peano) (o : ord p), ord_construct p (ord_tag p o) (ord_fields p o) = Datatypes.Some o is_peano_functor : func is_peano : func is_peano ord2_fields_t : peano -> positive -> Type : peano -> positive -> Type ord2_fields : forall (p : peano) (o : ord2 p), ord2_fields_t p (ord2_tag p o) : forall (p : peano) (o : ord2 p), ord2_fields_t p (ord2_tag p o) ord2_construct : forall (n : peano) (p : positive), ord2_fields_t n p -> Datatypes.option (ord2 n) : forall (n : peano) (p : positive), ord2_fields_t n p -> Datatypes.option (ord2 n) is_option_functor : func1 is_option : func1 is_option ord2_constructP : forall (p : peano) (o : ord2 p), ord2_construct p (ord2_tag p o) (ord2_fields p o) = Datatypes.Some o : forall (p : peano) (o : ord2 p), ord2_construct p (ord2_tag p o) (ord2_fields p o) = Datatypes.Some o val_fields_t : positive -> Type : positive -> Type val_fields : forall i : val, val_fields_t (val_tag i) : forall i : val, val_fields_t (val_tag i) is_pair_functor : func2 is_pair : func2 is_pair val_construct : forall p : positive, val_fields_t p -> Datatypes.option val : forall p : positive, val_fields_t p -> Datatypes.option val val_constructP : forall v : val, val_construct (val_tag v) (val_fields v) = Datatypes.Some v : forall v : val, val_construct (val_tag v) (val_fields v) = Datatypes.Some v is_seq_functor : func1 is_seq : func1 is_seq is_rose_functor : func1 is_rose : func1 is_rose is_vect_functor : forall (A : Type) (P Q : A -> Type), (forall y : A, P y -> Q y) -> forall (i : peano) (p : is_peano i) (v : vect A i), is_vect A P i p v -> is_vect A Q i p v : forall (A : Type) (P Q : A -> Type), (forall y : A, P y -> Q y) -> forall (i : peano) (p : is_peano i) (v : vect A i), is_vect A P i p v -> is_vect A Q i p v is_dyn_functor : func is_dyn : func is_dyn is_zeta_functor : func1 is_zeta : func1 is_zeta is_beta_functor : func1 is_beta : func1 is_beta is_iota_functor : func is_iota : func is_iota is_large_functor : func is_large : func is_large is_prim_int_functor : func is_prim_int : func is_prim_int is_prim_float_functor : func is_prim_float : func is_prim_float is_fo_record_functor : func is_fo_record : func is_fo_record is_pa_record_functor : func1 is_pa_record : func1 is_pa_record is_pr_record_functor : func1 is_pr_record : func1 is_pr_record is_enum_functor : func is_enum : func is_enum is_ord_functor : forall (n : peano) (pn : is_peano n), func (is_ord n pn) : forall (n : peano) (pn : is_peano n), func (is_ord n pn) is_ord2_functor : forall (n : peano) (pn : is_peano n), func (is_ord2 n pn) : forall (n : peano) (pn : is_peano n), func (is_ord2 n pn) is_val_functor : func is_val : func is_val COQC tests/test_induction.v congr_is_tt : is_tt = is_tt : is_tt = is_tt congr_is_Zero : is_Zero = is_Zero : is_Zero = is_Zero congr_is_Succ : forall (x : peano) (p1 p2 : is_peano x), p1 = p2 -> is_Succ x p1 = is_Succ x p2 : forall (x : peano) (p1 p2 : is_peano x), p1 = p2 -> is_Succ x p1 = is_Succ x p2 congr_is_None : forall (A : Type) (PA : A -> Type), is_None A PA = is_None A PA : forall (A : Type) (PA : A -> Type), is_None A PA = is_None A PA congr_is_Some : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> is_Some A PA x p1 = is_Some A PA x p2 : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> is_Some A PA x p1 = is_Some A PA x p2 congr_is_Comma : forall (A : Type) (PA : A -> Type) (B : Type) (PB : B -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> forall (y : B) (q1 q2 : PB y), q1 = q2 -> is_Comma A PA B PB x p1 y q1 = is_Comma A PA B PB x p2 y q2 : forall (A : Type) (PA : A -> Type) (B : Type) (PB : B -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> forall (y : B) (q1 q2 : PB y), q1 = q2 -> is_Comma A PA B PB x p1 y q1 = is_Comma A PA B PB x p2 y q2 congr_is_Nil : forall (A : Type) (PA : A -> Type), is_Nil A PA = is_Nil A PA : forall (A : Type) (PA : A -> Type), is_Nil A PA = is_Nil A PA congr_is_Cons : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> forall (y : seq A) (q1 q2 : is_seq A PA y), q1 = q2 -> is_Cons A PA x p1 y q1 = is_Cons A PA x p2 y q2 : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> forall (y : seq A) (q1 q2 : is_seq A PA y), q1 = q2 -> is_Cons A PA x p1 y q1 = is_Cons A PA x p2 y q2 congr_is_Leaf : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> is_Leaf A PA x p1 = is_Leaf A PA x p2 : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> is_Leaf A PA x p1 = is_Leaf A PA x p2 congr_is_Node : forall (A : Type) (PA : A -> Type) (x : seq (rose A)) (p1 p2 : is_seq (rose A) (is_rose A PA) x), p1 = p2 -> is_Node A PA x p1 = is_Node A PA x p2 : forall (A : Type) (PA : A -> Type) (x : seq (rose A)) (p1 p2 : is_seq (rose A) (is_rose A PA) x), p1 = p2 -> is_Node A PA x p1 = is_Node A PA x p2 congr_is_via : forall (A : Type) (PA : A -> Type) (x : A -> w A) (p1 p2 : forall H : A, PA H -> is_w A PA (x H)), p1 = p2 -> is_via A PA x p1 = is_via A PA x p2 : forall (A : Type) (PA : A -> Type) (x : A -> w A) (p1 p2 : forall H : A, PA H -> is_w A PA (x H)), p1 = p2 -> is_via A PA x p1 = is_via A PA x p2 congr_is_VNil : forall (A : Type) (PA : A -> Type), is_VNil A PA = is_VNil A PA : forall (A : Type) (PA : A -> Type), is_VNil A PA = is_VNil A PA congr_is_Envelope : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> forall (y : A) (q1 q2 : PA y), q1 = q2 -> is_Envelope A PA x p1 y q1 = is_Envelope A PA x p2 y q2 : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> forall (y : A) (q1 q2 : PA y), q1 = q2 -> is_Envelope A PA x p1 y q1 = is_Envelope A PA x p2 y q2 COQC tests/test_eqb.v congr_is_Redex : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> is_Redex A PA x p1 = is_Redex A PA x p2 : forall (A : Type) (PA : A -> Type) (x : A) (p1 p2 : PA x), p1 = p2 -> is_Redex A PA x p1 = is_Redex A PA x p2 congr_is_PI : forall (x : PrimInt63.int) (p1 p2 : is_uint63 x), p1 = p2 -> is_PI x p1 = is_PI x p2 congr_is_PF : forall (x : PrimFloat.float) (p1 p2 : is_float64 x), p1 = p2 -> is_PF x p1 = is_PF x p2 congr_is_Build_fo_record : forall (n : peano) (p1 p2 : is_peano n), p1 = p2 -> forall (b : unit) (q1 q2 : is_unit b), q1 = q2 -> is_Build_fo_record n p1 b q1 = is_Build_fo_record n p2 b q2 : forall (n : peano) (p1 p2 : is_peano n), p1 = p2 -> forall (b : unit) (q1 q2 : is_unit b), q1 = q2 -> is_Build_fo_record n p1 b q1 = is_Build_fo_record n p2 b q2 congr_is_Build_pa_record : forall (A : Type) (PA : A -> Type) (n : peano) (p1 p2 : is_peano n), p1 = p2 -> forall (b : A) (q1 q2 : PA b), q1 = q2 -> is_Build_pa_record A PA n p1 b q1 = is_Build_pa_record A PA n p2 b q2 : forall (A : Type) (PA : A -> Type) (n : peano) (p1 p2 : is_peano n), p1 = p2 -> forall (b : A) (q1 q2 : PA b), q1 = q2 -> is_Build_pa_record A PA n p1 b q1 = is_Build_pa_record A PA n p2 b q2 congr_is_Build_pr_record : forall (A : Type) (pr : A -> Type) (n : peano) (p1 p2 : is_peano n), p1 = p2 -> forall (b : A) (q1 q2 : pr b), q1 = q2 -> is_Build_pr_record A pr n p1 b q1 = is_Build_pr_record A pr n p2 b q2 : forall (A : Type) (pr : A -> Type) (n : peano) (p1 p2 : is_peano n), p1 = p2 -> forall (b : A) (q1 q2 : pr b), q1 = q2 -> is_Build_pr_record A pr n p1 b q1 = is_Build_pr_record A pr n p2 b q2 congr_is_E1 : is_E1 = is_E1 : is_E1 = is_E1 COQC tests/test_param1_trivial.v eq_axiom_tt : eq_axiom_at unit unit_eq tt : eq_axiom_at unit unit_eq tt eq_axiom_Zero : eq_axiom_at peano peano_eq Zero : eq_axiom_at peano peano_eq Zero eq_axiom_Succ : forall y : peano, eq_axiom_at peano peano_eq y -> eq_axiom_at peano peano_eq (Succ y) : forall y : peano, eq_axiom_at peano peano_eq y -> eq_axiom_at peano peano_eq (Succ y) eq_axiom_None : forall (A : Type) (f : eq_test A), eq_axiom_at (option A) (option_eq A f) (None A) : forall (A : Type) (f : eq_test A), eq_axiom_at (option A) (option_eq A f) (None A) eq_axiom_Some : forall (A : Type) (f : eq_test A) (x : A), eq_axiom_at A f x -> eq_axiom_at (option A) (option_eq A f) (Some A x) : forall (A : Type) (f : eq_test A) (x : A), eq_axiom_at A f x -> eq_axiom_at (option A) (option_eq A f) (Some A x) eq_axiom_Comma : forall (A : Type) (f : eq_test A) (B : Type) (g : eq_test B) (x : A), eq_axiom_at A f x -> forall y : B, eq_axiom_at B g y -> eq_axiom_at (pair A B) (pair_eq A f B g) (Comma A B x y) : forall (A : Type) (f : eq_test A) (B : Type) (g : eq_test B) (x : A), eq_axiom_at A f x -> forall y : B, eq_axiom_at B g y -> eq_axiom_at (pair A B) (pair_eq A f B g) (Comma A B x y) eq_axiom_Nil : forall (A : Type) (f : eq_test A), eq_axiom_at (seq A) (seq_eq A f) (Nil A) : forall (A : Type) (f : eq_test A), eq_axiom_at (seq A) (seq_eq A f) (Nil A) eq_axiom_Cons : forall (A : Type) (f : eq_test A) (x : A), eq_axiom_at A f x -> forall xs : seq A, eq_axiom_at (seq A) (seq_eq A f) xs -> eq_axiom_at (seq A) (seq_eq A f) (Cons A x xs) : forall (A : Type) (f : eq_test A) (x : A), eq_axiom_at A f x -> forall xs : seq A, eq_axiom_at (seq A) (seq_eq A f) xs -> eq_axiom_at (seq A) (seq_eq A f) (Cons A x xs) eq_axiom_Leaf : forall (A : Type) (f : eq_test A) (a : A), eq_axiom_at A f a -> eq_axiom_at (rose A) (rose_eq A f) (Leaf A a) : forall (A : Type) (f : eq_test A) (a : A), eq_axiom_at A f a -> eq_axiom_at (rose A) (rose_eq A f) (Leaf A a) eq_axiom_Node : forall (A : Type) (f : eq_test A) (l : seq (rose A)), eq_axiom_at (seq (rose A)) (seq_eq (rose A) (rose_eq A f)) l -> eq_axiom_at (rose A) (rose_eq A f) (Node A l) : forall (A : Type) (f : eq_test A) (l : seq (rose A)), eq_axiom_at (seq (rose A)) (seq_eq (rose A) (rose_eq A f)) l -> eq_axiom_at (rose A) (rose_eq A f) (Node A l) eq_axiom_Envelope : forall (Sender : Type) (f : eq_test Sender) (x : Sender), eq_axiom_at Sender f x -> forall x0 : Sender, eq_axiom_at Sender f x0 -> forall x1 : zeta Sender, eq_axiom_on (zeta Sender) (zeta_eq Sender f) (Envelope Sender x x0) x1 eq_axiom_Redex : forall (A : Type) (f : eq_test A) (x : A), eq_axiom_at A f x -> forall x0 : beta A, eq_axiom_on (beta A) (beta_eq A f) (Redex A x) x0 eq_axiom_PI : forall x : PrimInt63.int, eq_axiom_at PrimInt63.int PrimInt63.eqb x -> forall x0 : prim_int, eq_axiom_on prim_int prim_int_eq (PI x) x0 eq_axiom_PF : forall x : PrimFloat.float, eq_axiom_at PrimFloat.float PrimFloat.eqb x -> forall x0 : prim_float, eq_axiom_on prim_float prim_float_eq (PF x) x0 eq_axiom_Build_fo_record : forall x : peano, eq_axiom_at peano peano_eq x -> forall y : unit, eq_axiom_at unit unit_eq y -> eq_axiom_at fo_record fo_record_eq {| f1 := x; f2 := y |} : forall x : peano, eq_axiom_at peano peano_eq x -> forall y : unit, eq_axiom_at unit unit_eq y -> eq_axiom_at fo_record fo_record_eq {| f1 := x; f2 := y |} eq_axiom_Build_pa_record : forall (A : Type) (f : eq_test A) (x : peano), eq_axiom_at peano peano_eq x -> forall y : A, eq_axiom_at A f y -> eq_axiom_at (pa_record A) (pa_record_eq A f) {| f3 := x; f4 := y |} : forall (A : Type) (f : eq_test A) (x : peano), eq_axiom_at peano peano_eq x -> forall y : A, eq_axiom_at A f y -> eq_axiom_at (pa_record A) (pa_record_eq A f) {| f3 := x; f4 := y |} eq_axiom_Build_pr_record : forall (A : Type) (f : eq_test A) (x : peano), eq_axiom_at peano peano_eq x -> forall y : A, eq_axiom_at A f y -> eq_axiom_at (pr_record A) (pr_record_eq A f) {| pf3 := x; pf4 := y |} : forall (A : Type) (f : eq_test A) (x : peano), eq_axiom_at peano peano_eq x -> forall y : A, eq_axiom_at A f y -> eq_axiom_at (pr_record A) (pr_record_eq A f) {| pf3 := x; pf4 := y |} eq_axiom_E1 : eq_axiom_at enum enum_eq E1 : eq_axiom_at enum enum_eq E1 eq_axiom_E2 : eq_axiom_at enum enum_eq E2 : eq_axiom_at enum enum_eq E2 eq_axiom_E3 : eq_axiom_at enum enum_eq E3 : eq_axiom_at enum enum_eq E3 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) (fun P : empty -> Prop => empty_induction P) : forall (P : empty -> Prop) (x : empty), is_empty x -> P x : forall (P : empty -> Prop) (x : empty), is_empty x -> P x (fun P : unit -> Prop => unit_induction P) : forall P : unit -> Prop, P tt -> forall x : unit, is_unit x -> P x : forall P : unit -> Prop, P tt -> forall x : unit, is_unit x -> P x peano_induction : forall P : peano -> Type, P Zero -> (forall n : peano, P n -> P (Succ n)) -> forall x : peano, is_peano x -> P x : forall P : peano -> Type, P Zero -> (forall n : peano, P n -> P (Succ n)) -> forall x : peano, is_peano x -> P x option_induction : forall (A : Type) (PA : A -> Type) (P : option A -> Type), P (None A) -> (forall a : A, PA a -> P (Some A a)) -> forall x : option A, is_option A PA x -> P x : forall (A : Type) (PA : A -> Type) (P : option A -> Type), P (None A) -> (forall a : A, PA a -> P (Some A a)) -> forall x : option A, is_option A PA x -> P x pair_induction : forall (A : Type) (PA : A -> Type) (B : Type) (PB : B -> Type) (P : pair A B -> Type), (forall a : A, PA a -> forall b : B, PB b -> P (Comma A B a b)) -> forall x : pair A B, is_pair A PA B PB x -> P x : forall (A : Type) (PA : A -> Type) (B : Type) (PB : B -> Type) (P : pair A B -> Type), (forall a : A, PA a -> forall b : B, PB b -> P (Comma A B a b)) -> forall x : pair A B, is_pair A PA B PB x -> P x seq_induction : forall (A : Type) (PA : A -> Type) (P : seq A -> Type), P (Nil A) -> (forall x : A, PA x -> forall xs : seq A, P xs -> P (Cons A x xs)) -> forall l : seq A, is_seq A PA l -> P l : forall (A : Type) (PA : A -> Type) (P : seq A -> Type), P (Nil A) -> (forall x : A, PA x -> forall xs : seq A, P xs -> P (Cons A x xs)) -> forall l : seq A, is_seq A PA l -> P l rose_induction : forall (A : Type) (PA : A -> Type) (P : rose A -> Type), (forall x : A, PA x -> P (Leaf A x)) -> (forall l : seq (rose A), is_seq (rose A) P l -> P (Node A l)) -> forall x : rose A, is_rose A PA x -> P x : forall (A : Type) (PA : A -> Type) (P : rose A -> Type), (forall x : A, PA x -> P (Leaf A x)) -> (forall l : seq (rose A), is_seq (rose A) P l -> P (Node A l)) -> forall x : rose A, is_rose A PA x -> P x nest_induction : forall P : forall A : Type, (A -> Type) -> nest A -> Type, (forall (A : Type) (PA : A -> Type), P A PA (NilN A)) -> (forall (A : Type) (PA : A -> Type) (x : A), PA x -> forall xs : nest (pair A A), P (pair A A) (is_pair A PA A PA) xs -> P A PA (ConsN A x xs)) -> forall (A : Type) (PA : A -> Type) (n : nest A), is_nest A PA n -> P A PA n : forall P : forall A : Type, (A -> Type) -> nest A -> Type, (forall (A : Type) (PA : A -> Type), P A PA (NilN A)) -> (forall (A : Type) (PA : A -> Type) (x : A), PA x -> forall xs : nest (pair A A), P (pair A A) (is_pair A PA A PA) xs -> P A PA (ConsN A x xs)) -> forall (A : Type) (PA : A -> Type) (n : nest A), is_nest A PA n -> P A PA n w_induction : forall (A : Type) (PA : A -> Type) (P : w A -> Type), (forall f : A -> w A, (forall a : A, PA a -> P (f a)) -> P (via A f)) -> forall x : w A, is_w A PA x -> P x : forall (A : Type) (PA : A -> Type) (P : w A -> Type), (forall f : A -> w A, (forall a : A, PA a -> P (f a)) -> P (via A f)) -> forall x : w A, is_w A PA x -> P x vect_induction : forall (A : Type) (PA : A -> Type) (P : forall n : peano, is_peano n -> vect A n -> Type), P Zero is_Zero (VNil A) -> (forall a : A, PA a -> forall (n : peano) (nR : is_peano n) (v : vect A n), P n nR v -> P (Succ n) (is_Succ n nR) (VCons A a n v)) -> forall (l : peano) (lR : is_peano l) (x : vect A l), is_vect A PA l lR x -> P l lR x : forall (A : Type) (PA : A -> Type) (P : forall n : peano, is_peano n -> vect A n -> Type), P Zero is_Zero (VNil A) -> (forall a : A, PA a -> forall (n : peano) (nR : is_peano n) (v : vect A n), P n nR v -> P (Succ n) (is_Succ n nR) (VCons A a n v)) -> forall (l : peano) (lR : is_peano l) (x : vect A l), is_vect A PA l lR x -> P l lR x dyn_induction : forall P : dyn -> Type, (forall (T : Type) (PT : T -> Type) (t : T), PT t -> P (box T t)) -> forall x : dyn, is_dyn x -> P x : forall P : dyn -> Type, (forall (T : Type) (PT : T -> Type) (t : T), PT t -> P (box T t)) -> forall x : dyn, is_dyn x -> P x zeta_induction : forall (A : Type) (PA : A -> Type) (P : zeta A -> Type), (forall a : A, PA a -> forall c : A, PA c -> P (Envelope A a c)) -> forall x : zeta A, is_zeta A PA x -> P x : forall (A : Type) (PA : A -> Type) (P : zeta A -> Type), (forall a : A, PA a -> forall c : A, PA c -> P (Envelope A a c)) -> forall x : zeta A, is_zeta A PA x -> P x iota_induction : forall P : iota -> Type, (forall (n : peano) (Pn : is_peano n) (a : match n with | Zero => peano | Succ _ => unit end), match Pn in (is_peano n0) return (match n0 with | Zero => peano | Succ _ => unit end -> Type) with | is_Zero => is_peano | is_Succ _ _ => is_unit end a -> P (Why n a)) -> forall s1 : iota, is_iota s1 -> P s1 large_induction : forall P : large -> Type, (forall H : unit, is_unit H -> P (K1 H)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> P (K2 H H0)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> P (K3 H H0 H1)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> P (K4 H H0 H1 H2)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> P (K5 H H0 H1 H2 H3)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> P (K6 H H0 H1 H2 H3 H4)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> P (K7 H H0 H1 H2 H3 H4 H5)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> P (K8 H H0 H1 H2 H3 H4 H5 H6)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> P (K9 H H0 H1 H2 H3 H4 H5 H6 H7)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> P (K10 H H0 H1 H2 H3 H4 H5 H6 H7 H8)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> P (K11 H H0 H1 H2 H3 H4 H5 H6 H7 H8 H9)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> P (K12 H H0 H1 H2 H3 H4 H5 H6 H7 H8 H9 H10)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall H11 : unit, is_unit H11 -> P (K13 H H0 H1 H2 H3 H4 H5 H6 H7 H8 H9 H10 H11)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall H11 : unit, is_unit H11 -> forall H12 : unit, is_unit H12 -> P (K14 H H0 H1 H2 H3 H4 H5 H6 H7 H8 H9 H10 H11 H12)) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall H11 : unit, is_unit H11 -> forall H12 : unit, is_unit H12 -> forall ..., ... -> ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall H11 : unit, is_unit H11 -> forall H12 : unit, is_unit H12 -> ..., ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall H11 : unit, is_unit H11 -> forall ..., ... -> ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall H11 : unit, is_unit H11 -> ..., ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> forall ..., ... -> ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall H10 : unit, is_unit H10 -> ..., ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> forall ..., ... -> ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall H9 : unit, is_unit H9 -> ..., ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> forall ..., ... -> ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall H8 : unit, is_unit H8 -> ..., ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> forall ..., ... -> ...) -> (forall H : unit, is_unit H -> forall H0 : unit, is_unit H0 -> forall H1 : unit, is_unit H1 -> forall H2 : unit, is_unit H2 -> forall H3 : unit, is_unit H3 -> forall H4 : unit, is_unit H4 -> forall H5 : unit, is_unit H5 -> forall H6 : unit, is_unit H6 -> forall H7 : unit, is_unit H7 -> ..., ...) -> forall s1 : large, is_large s1 -> P s1 prim_int_induction : forall P : prim_int -> Type, (forall i : PrimInt63.int, is_uint63 i -> P (PI i)) -> forall s1 : prim_int, is_prim_int s1 -> P s1 prim_float_induction : forall P : prim_float -> Type, (forall f : PrimFloat.float, is_float64 f -> P (PF f)) -> forall s1 : prim_float, is_prim_float s1 -> P s1 fo_record_induction : forall P : fo_record -> Type, (forall x : peano, is_peano x -> forall y : unit, is_unit y -> P {| f1 := x; f2 := y |}) -> forall x : fo_record, is_fo_record x -> P x : forall P : fo_record -> Type, (forall x : peano, is_peano x -> forall y : unit, is_unit y -> P {| f1 := x; f2 := y |}) -> forall x : fo_record, is_fo_record x -> P x pa_record_induction : forall (A : Type) (PA : A -> Type) (P : pa_record A -> Type), (forall x : peano, is_peano x -> forall y : A, PA y -> P {| f3 := x; f4 := y |}) -> forall x : pa_record A, is_pa_record A PA x -> P x : forall (A : Type) (PA : A -> Type) (P : pa_record A -> Type), (forall x : peano, is_peano x -> forall y : A, PA y -> P {| f3 := x; f4 := y |}) -> forall x : pa_record A, is_pa_record A PA x -> P x pr_record_induction : forall (A : Type) (pr : A -> Type) (P : pr_record A -> Type), (forall x : peano, is_peano x -> forall y : A, pr y -> P {| pf3 := x; pf4 := y |}) -> forall x : pr_record A, is_pr_record A pr x -> P x : forall (A : Type) (pr : A -> Type) (P : pr_record A -> Type), (forall x : peano, is_peano x -> forall y : A, pr y -> P {| pf3 := x; pf4 := y |}) -> forall x : pr_record A, is_pr_record A pr x -> P x dep_record_induction : forall P : dep_record -> Type, (forall (x : peano) (px : is_peano x) (y : vect unit x), is_vect unit is_unit x px y -> P {| f5 := x; f6 := y |}) -> forall x : dep_record, is_dep_record x -> P x : forall P : dep_record -> Type, (forall (x : peano) (px : is_peano x) (y : vect unit x), is_vect unit is_unit x px y -> P {| f5 := x; f6 := y |}) -> forall x : dep_record, is_dep_record x -> P x enum_induction : forall P : enum -> Type, P E1 -> P E2 -> P E3 -> forall x : enum, is_enum x -> P x : forall P : enum -> Type, P E1 -> P E2 -> P E3 -> forall x : enum, is_enum x -> P x sigma_bool_induction : forall P : sigma_bool -> Type, (forall (depn : peano) (Pdepn : is_peano depn) (depeq : is_zero depn = true), is_eq bool is_bool (is_zero depn) (is_is_zero depn Pdepn) true is_true depeq -> P {| depn := depn; depeq := depeq |}) -> forall s1 : sigma_bool, is_sigma_bool s1 -> P s1 ord_induction : forall (p : peano) (Pp : is_peano p) (P : ord p -> Type), (forall (n : peano) (Pn : is_peano n) (l : is_leq n p = true), is_eq bool is_bool (is_leq n p) (is_is_leq n Pn p Pp) true is_true l -> P (mkOrd p n l)) -> forall o : ord p, is_ord p Pp o -> P o : forall (p : peano) (Pp : is_peano p) (P : ord p -> Type), (forall (n : peano) (Pn : is_peano n) (l : is_leq n p = true), is_eq bool is_bool (is_leq n p) (is_is_leq n Pn p Pp) true is_true l -> P (mkOrd p n l)) -> forall o : ord p, is_ord p Pp o -> P o ord2_induction : forall (p : peano) (Pp : is_peano p) (P : ord2 p -> Type), (forall o1 : ord p, is_ord p Pp o1 -> forall o2 : ord p, is_ord p Pp o2 -> P (mkOrd2 p o1 o2)) -> forall o : ord2 p, is_ord2 p Pp o -> P o : forall (p : peano) (Pp : is_peano p) (P : ord2 p -> Type), (forall o1 : ord p, is_ord p Pp o1 -> forall o2 : ord p, is_ord p Pp o2 -> P (mkOrd2 p o1 o2)) -> forall o : ord2 p, is_ord2 p Pp o -> P o COQC tests/test_eqcorrect.v empty_eqb : eq_test2 empty empty : eq_test2 empty empty unit_eqb : eq_test2 unit unit : eq_test2 unit unit peano_eqb : eq_test2 peano peano : eq_test2 peano peano option_eqb : forall A : Type, eq_test2 A A -> eq_test2 (option A) (option A) : forall A : Type, eq_test2 A A -> eq_test2 (option A) (option A) pair_eqb : forall A : Type, eq_test2 A A -> forall B : Type, eq_test2 B B -> eq_test2 (pair A B) (pair A B) : forall A : Type, eq_test2 A A -> forall B : Type, eq_test2 B B -> eq_test2 (pair A B) (pair A B) seq_eqb : forall A : Type, eq_test2 A A -> eq_test2 (seq A) (seq A) : forall A : Type, eq_test2 A A -> eq_test2 (seq A) (seq A) rose_eqb : forall A : Type, eq_test2 A A -> eq_test2 (rose A) (rose A) : forall A : Type, eq_test2 A A -> eq_test2 (rose A) (rose A) beta_eqb : forall A : Type, eq_test2 A A -> eq_test2 (beta A) (beta A) : forall A : Type, eq_test2 A A -> eq_test2 (beta A) (beta A) prim_int_eqb : eq_test2 prim_int prim_int : eq_test2 prim_int prim_int fo_record_eqb : eq_test2 fo_record fo_record : eq_test2 fo_record fo_record pa_record_eqb : forall A : Type, eq_test2 A A -> eq_test2 (pa_record A) (pa_record A) : forall A : Type, eq_test2 A A -> eq_test2 (pa_record A) (pa_record A) pr_record_eqb : forall A : Type, eq_test2 A A -> eq_test2 (pr_record A) (pr_record A) : forall A : Type, eq_test2 A A -> eq_test2 (pr_record A) (pr_record A) enum_eqb : eq_test2 enum enum : eq_test2 enum enum sigma_bool_eqb : eq_test2 sigma_bool sigma_bool : eq_test2 sigma_bool sigma_bool ord_eqb : forall p1 p2 : peano, eq_test2 (ord p1) (ord p2) : forall p1 p2 : peano, eq_test2 (ord p1) (ord p2) ord2_eqb : forall p1 p2 : peano, eq_test2 (ord2 p1) (ord2 p2) : forall p1 p2 : peano, eq_test2 (ord2 p1) (ord2 p2) val_eqb : eq_test2 val val : eq_test2 val val alias_eqb : eq_test2 alias alias : eq_test2 alias alias empty_eq_correct : correct empty is_empty empty_eq : correct empty is_empty empty_eq unit_eq_correct : correct unit is_unit unit_eq : correct unit is_unit unit_eq peano_eq_correct : correct peano is_peano peano_eq : correct peano is_peano peano_eq option_eq_correct : forall (A : Type) (f : eq_test A), correct (option A) (is_option A (eq_axiom_at A f)) (option_eq A f) : forall (A : Type) (f : eq_test A), correct (option A) (is_option A (eq_axiom_at A f)) (option_eq A f) pair_eq_correct : forall (A : Type) (f : eq_test A) (B : Type) (g : eq_test B), correct (pair A B) (is_pair A (eq_axiom_at A f) B (eq_axiom_at B g)) (pair_eq A f B g) : forall (A : Type) (f : eq_test A) (B : Type) (g : eq_test B), correct (pair A B) (is_pair A (eq_axiom_at A f) B (eq_axiom_at B g)) (pair_eq A f B g) seq_eq_correct : forall (A : Type) (f : eq_test A), correct (seq A) (is_seq A (eq_axiom_at A f)) (seq_eq A f) : forall (A : Type) (f : eq_test A), correct (seq A) (is_seq A (eq_axiom_at A f)) (seq_eq A f) rose_eq_correct : forall (A : Type) (f : eq_test A), correct (rose A) (is_rose A (eq_axiom_at A f)) (rose_eq A f) : forall (A : Type) (f : eq_test A), correct (rose A) (is_rose A (eq_axiom_at A f)) (rose_eq A f) zeta_eq_correct : forall (A : Type) (f : eq_test A), correct (zeta A) (is_zeta A (eq_axiom_at A f)) (zeta_eq A f) : forall (A : Type) (f : eq_test A), correct (zeta A) (is_zeta A (eq_axiom_at A f)) (zeta_eq A f) beta_eq_correct : forall (A : Type) (f : eq_test A), correct (beta A) (is_beta A (eq_axiom_at A f)) (beta_eq A f) : forall (A : Type) (f : eq_test A), correct (beta A) (is_beta A (eq_axiom_at A f)) (beta_eq A f) prim_int_eq_correct : correct prim_int is_prim_int prim_int_eq fo_record_eq_correct : correct fo_record is_fo_record fo_record_eq : correct fo_record is_fo_record fo_record_eq pa_record_eq_correct : forall (A : Type) (f : eq_test A), correct (pa_record A) (is_pa_record A (eq_axiom_at A f)) (pa_record_eq A f) : forall (A : Type) (f : eq_test A), correct (pa_record A) (is_pa_record A (eq_axiom_at A f)) (pa_record_eq A f) pr_record_eq_correct : forall (A : Type) (f : eq_test A), correct (pr_record A) (is_pr_record A (eq_axiom_at A f)) (pr_record_eq A f) : forall (A : Type) (f : eq_test A), correct (pr_record A) (is_pr_record A (eq_axiom_at A f)) (pr_record_eq A f) enum_eq_correct : correct enum is_enum enum_eq : correct enum is_enum enum_eq is_empty_trivial : trivial empty is_empty : trivial empty is_empty is_unit_trivial : trivial unit is_unit : trivial unit is_unit is_peano_trivial : trivial peano is_peano : trivial peano is_peano is_option_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (option A) (is_option A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (option A) (is_option A P) is_pair_trivial : forall (A : Type) (P : A -> Type), trivial A P -> forall (B : Type) (Q : B -> Type), trivial B Q -> trivial (pair A B) (is_pair A P B Q) : forall (A : Type) (P : A -> Type), trivial A P -> forall (B : Type) (Q : B -> Type), trivial B Q -> trivial (pair A B) (is_pair A P B Q) is_seq_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (seq A) (is_seq A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (seq A) (is_seq A P) is_rose_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (rose A) (is_rose A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (rose A) (is_rose A P) is_zeta_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (zeta A) (is_zeta A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (zeta A) (is_zeta A P) is_beta_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (beta A) (is_beta A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (beta A) (is_beta A P) is_large_trivial : trivial large is_large : trivial large is_large is_prim_int_trivial : trivial prim_int is_prim_int : trivial prim_int is_prim_int is_prim_float_trivial : trivial prim_float is_prim_float : trivial prim_float is_prim_float is_fo_record_trivial : trivial fo_record is_fo_record : trivial fo_record is_fo_record is_pa_record_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (pa_record A) (is_pa_record A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (pa_record A) (is_pa_record A P) is_pr_record_trivial : forall (A : Type) (P : A -> Type), trivial A P -> trivial (pr_record A) (is_pr_record A P) : forall (A : Type) (P : A -> Type), trivial A P -> trivial (pr_record A) (is_pr_record A P) is_enum_trivial : trivial enum is_enum : trivial enum is_enum is_sigma_bool_trivial : trivial sigma_bool is_sigma_bool : trivial sigma_bool is_sigma_bool is_ord_trivial : forall (p : peano) (px : is_peano p), trivial (ord p) (is_ord p px) : forall (p : peano) (px : is_peano p), trivial (ord p) (is_ord p px) is_ord2_trivial : forall (p : peano) (px : is_peano p), trivial (ord2 p) (is_ord2 p px) : forall (p : peano) (px : is_peano p), trivial (ord2 p) (is_ord2 p px) is_val_trivial : trivial val is_val : trivial val is_val is_empty_inhab : full empty is_empty : full empty is_empty is_unit_inhab : full unit is_unit : full unit is_unit is_peano_inhab : full peano is_peano : full peano is_peano is_option_inhab : forall (A : Type) (P : A -> Type), full A P -> full (option A) (is_option A P) : forall (A : Type) (P : A -> Type), full A P -> full (option A) (is_option A P) is_pair_inhab : forall (A : Type) (P : A -> Type), full A P -> forall (B : Type) (Q : B -> Type), full B Q -> full (pair A B) (is_pair A P B Q) : forall (A : Type) (P : A -> Type), full A P -> forall (B : Type) (Q : B -> Type), full B Q -> full (pair A B) (is_pair A P B Q) is_seq_inhab : forall (A : Type) (P : A -> Type), full A P -> full (seq A) (is_seq A P) : forall (A : Type) (P : A -> Type), full A P -> full (seq A) (is_seq A P) is_rose_inhab : forall (A : Type) (P : A -> Type), full A P -> full (rose A) (is_rose A P) : forall (A : Type) (P : A -> Type), full A P -> full (rose A) (is_rose A P) is_zeta_inhab : forall (A : Type) (P : A -> Type), full A P -> full (zeta A) (is_zeta A P) : forall (A : Type) (P : A -> Type), full A P -> full (zeta A) (is_zeta A P) is_beta_inhab : forall (A : Type) (P : A -> Type), full A P -> full (beta A) (is_beta A P) : forall (A : Type) (P : A -> Type), full A P -> full (beta A) (is_beta A P) is_large_inhab : full large is_large : full large is_large is_prim_int_inhab : full prim_int is_prim_int : full prim_int is_prim_int is_prim_float_inhab : full prim_float is_prim_float : full prim_float is_prim_float is_fo_record_inhab : full fo_record is_fo_record : full fo_record is_fo_record is_pa_record_inhab : forall (A : Type) (P : A -> Type), full A P -> full (pa_record A) (is_pa_record A P) : forall (A : Type) (P : A -> Type), full A P -> full (pa_record A) (is_pa_record A P) is_pr_record_inhab : forall (A : Type) (P : A -> Type), full A P -> full (pr_record A) (is_pr_record A P) : forall (A : Type) (P : A -> Type), full A P -> full (pr_record A) (is_pr_record A P) is_enum_inhab : full enum is_enum : full enum is_enum is_sigma_bool_inhab : full sigma_bool is_sigma_bool : full sigma_bool is_sigma_bool is_ord_inhab : forall (p : peano) (px : is_peano p), full (ord p) (is_ord p px) : forall (p : peano) (px : is_peano p), full (ord p) (is_ord p px) is_ord2_inhab : forall (p : peano) (px : is_peano p), full (ord2 p) (is_ord2 p px) : forall (p : peano) (px : is_peano p), full (ord2 p) (is_ord2 p px) is_val_inhab : full val is_val : full val is_val COQC tests/test_eqOK.v COQC tests/test_eqbcorrect.v empty_eq_OK : ok empty empty_eq : ok empty empty_eq unit_eq_OK : ok unit unit_eq : ok unit unit_eq peano_eq_OK : ok peano peano_eq : ok peano peano_eq option_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (option A) (option_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (option A) (option_eq A f) pair_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> forall (B : Type) (g : B -> B -> bool), ok B g -> ok (pair A B) (pair_eq A f B g) : forall (A : Type) (f : A -> A -> bool), ok A f -> forall (B : Type) (g : B -> B -> bool), ok B g -> ok (pair A B) (pair_eq A f B g) seq_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (seq A) (seq_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (seq A) (seq_eq A f) rose_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (rose A) (rose_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (rose A) (rose_eq A f) zeta_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (zeta A) (zeta_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (zeta A) (zeta_eq A f) beta_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (beta A) (beta_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (beta A) (beta_eq A f) prim_int_eq_OK : ok prim_int prim_int_eq fo_record_eq_OK : ok fo_record fo_record_eq : ok fo_record fo_record_eq pa_record_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (pa_record A) (pa_record_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (pa_record A) (pa_record_eq A f) pr_record_eq_OK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (pr_record A) (pr_record_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (pr_record A) (pr_record_eq A f) enum_eq_OK : ok enum enum_eq : ok enum enum_eq dlist_eqOK : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (dlist A) (dlist_eq A f) : forall (A : Type) (f : A -> A -> bool), ok A f -> ok (dlist A) (dlist_eq A f) peano_eqb_correct : (forall n m : peano, peano_eqb n m = true -> n = m) : forall n m : peano, peano_eqb n m = true -> n = m peano_eqb_refl : (forall n : peano, peano_eqb n n = true) : forall n : peano, peano_eqb n n = true ord_eqb_correct : (forall n : peano, eqb_correct (ord_eqb n n)) : forall n : peano, eqb_correct (ord_eqb n n) ord_eqb_refl : (forall n : peano, eqb_reflexive (ord_eqb n n)) : forall n : peano, eqb_reflexive (ord_eqb n n) ord2_eqb_correct : (forall n : peano, eqb_correct (ord2_eqb n n)) : forall n : peano, eqb_correct (ord2_eqb n n) ord2_eqb_refl : (forall n : peano, eqb_reflexive (ord2_eqb n n)) : forall n : peano, eqb_reflexive (ord2_eqb n n) val_eqb_correct : eqb_correct val_eqb : eqb_correct val_eqb val_eqb_refl : eqb_reflexive val_eqb : eqb_reflexive val_eqb alias_eqb_correct : eqb_correct alias_eqb : eqb_correct alias_eqb alias_eqb_refl : eqb_reflexive alias_eqb : eqb_reflexive alias_eqb COQC tests/test_eqbOK.v peano_eqb_OK : forall n m : peano, Bool.reflect (n = m) (peano_eqb n m) : forall n m : peano, Bool.reflect (n = m) (peano_eqb n m) seq_eqb_OK : forall (A : Type) (eqA : eq_test2 A A), (forall a1 a2 : A, Bool.reflect (a1 = a2) (eqA a1 a2)) -> forall l1 l2 : seq A, Bool.reflect (l1 = l2) (seq_eqb A eqA l1 l2) : forall (A : Type) (eqA : eq_test2 A A), (forall a1 a2 : A, Bool.reflect (a1 = a2) (eqA a1 a2)) -> forall l1 l2 : seq A, Bool.reflect (l1 = l2) (seq_eqb A eqA l1 l2) ord_eqb_OK : forall (n : peano) (o1 o2 : ord n), Bool.reflect (o1 = o2) (ord_eqb n n o1 o2) : forall (n : peano) (o1 o2 : ord n), Bool.reflect (o1 = o2) (ord_eqb n n o1 o2) alias_eqb_OK : forall x y : alias, Bool.reflect (x = y) (alias_eqb x y) : forall x y : alias, Bool.reflect (x = y) (alias_eqb x y) make[2]: Leaving directory '/<>/apps/derive' make[2]: Entering directory '/<>/apps/eltac' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES COQC tests/test_assumption.v COQC tests/test_constructor.v COQC tests/test_intro.v COQC tests/test_clear.v d : nat COQC tests/test_fail.v COQC tests/test_discriminate.v COQC tests/test_injection.v COQC tests/test_case.v COQC tests/test_generalize.v trying i = i COQC tests/test_cycle.v 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 COQC examples/usage_eltac.v make[2]: Leaving directory '/<>/apps/eltac' make[2]: Entering directory '/<>/apps/NES' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES COQC tests/test_NES.v COQC tests/test_NES_resolve.v COQC tests/test_NES_perf.v COQC tests/test_NES_perf_optimal.v COQC tests/test_module_namespace.v 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 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 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 x = 5 : nat x2 = 4 : nat B1.c = 1 : nat B1.d = 1 : nat d = 1 : nat A2.B2.f = 2 : nat COQC tests/test_NES_lib.v COQC examples/usage_NES.v 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 make[2]: Leaving directory '/<>/apps/NES' make[2]: Entering directory '/<>/apps/locker' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES COQC tests/test_locker.v 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 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 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 Query assignments: GR = const «id1» id2.body@{u} : forall T : Type@{u}, T -> T (* u |= u < eq.u0 *) id2.body is universe polymorphic Arguments id2.body T%type_scope x Expands to: Constant elpi.apps.locker.tests.test_locker.id2.body Query assignments: GR = const «id2.body» up1.body@{u} : forall T : Type@{u}, T -> T (* u |= u < eq.u0 *) up1.body is universe polymorphic Arguments up1.body T%type_scope x Expands to: Constant elpi.apps.locker.tests.test_locker.up1.body Query assignments: GR = const «up1.body» nup1.body : forall T : Type@{nup1.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 Query assignments: GR = const «nup1.body» up2.body@{u u0} : forall T : Type@{u}, Type@{u0} -> T -> T (* u u0 |= u < eq.u0 u0 < eq.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 Query assignments: GR = const «up2.body» make[2]: Leaving directory '/<>/apps/locker' make[2]: Entering directory '/<>/apps/coercion' Using coq found in /usr/bin//, from COQBIN or PATH Warning: ../../theories (used in -R or -Q) is not a subdirectory of the current directory COQDEP VFILES COQC tests/test_coercion.v COQC tests/test_coercion_open.v true && false : bool natmul R n : ringType_sort R : ringType_sort R natmul R n : ringType_sort R : ringType_sort R COQC tests/test_coercion_load.v true : bool : bool make[2]: Leaving directory '/<>/apps/coercion' make[1]: Leaving directory '/<>' create-stamp debian/debhelper-build-stamp dh_prep -a dh_auto_install --destdir=debian/libcoq-elpi/ -a make -j4 install DESTDIR=/<>/debian/libcoq-elpi AM_UPDATE_INFO_DIR=no "INSTALL=install --strip-program=true" make[1]: Entering directory '/<>' Using coq found in /usr/bin, from COQBIN or PATH ########################## installing plugin ############################ make[2]: Entering directory '/<>' make[2]: /usr/lib/ocaml/coq: Permission denied make[2]: /usr/lib/ocaml/coq: Permission denied make[2]: /usr/lib/ocaml/coq: Permission denied INSTALL theories/elpi.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/ INSTALL theories/elpi.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/ INSTALL theories/elpi.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/ INSTALL src/elpi_plugin.cmxs /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/ INSTALL src/elpi_plugin.cmxs /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/ ocamlfind: [WARNING] No such file: /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/META Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmx Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmxa Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmxs ocamlfind: [WARNING] Overwriting file /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmxs Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmxs Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmi Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/META make[3]: Entering directory '/<>' df="`"/usr/bin//////coq_makefile" -destination-of theories/elpi.vo -I src -Q examples elpi.examples -Q tests elpi.tests -Q src elpi -Q apps/derive/tests elpi.apps.derive.tests -Q tests elpi.tests -Q elpi elpi -R theories elpi -R apps/derive/theories elpi.apps -R apps/derive/tests elpi.apps.derive.tests -R apps/derive/examples elpi.apps.derive.examples -R apps/NES/theories elpi.apps -R apps/NES/tests elpi.apps.NES.tests -R apps/NES/examples elpi.apps.NES.examples -R apps/eltac/theories elpi.apps.eltac -R apps/eltac/tests elpi.apps.eltac.tests -R apps/eltac/examples elpi.apps.eltac.examples -R apps/coercion/theories elpi.apps.coercion`";\ install -m 0644 elpi-builtin.elpi "/<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/$df";\ install -m 0644 coq-builtin.elpi "/<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/$df";\ install -m 0644 elpi/coq-lib.elpi "/<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/$df";\ install -m 0644 elpi/elpi_elaborator.elpi "/<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/$df" make[3]: Leaving directory '/<>' make[2]: Leaving directory '/<>' make[2]: Entering directory '/<>' Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cmo Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi/elpi_plugin.cma make[2]: Leaving directory '/<>' cp etc/coq-elpi.lang /usr/lib/ocaml/coq//ide/ cp: cannot create regular file '/usr/lib/ocaml/coq//ide/': Not a directory make[1]: [Makefile:125: install] Error 1 (ignored) ########################## installing APPS ############################ make[2]: Entering directory '/<>/apps/derive' Using coq found in /usr/bin//, from COQBIN or PATH make[3]: Entering directory '/<>/apps/derive' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied INSTALL theories/derive.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/derive/std.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/legacy.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/experimental.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/bcongr.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/cast.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eq.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqcorrect.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqK.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqOK.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/map.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/isK.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/idx2inv.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/invert.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/projK.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_functor.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_congr.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_trivial.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param2.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/induction.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/lens.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/lens_laws.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqb_core_defs.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/tag.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/fields.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqb.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqbcorrect.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqbOK.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqType_ast.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/derive/std.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/legacy.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/experimental.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/bcongr.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/cast.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eq.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqcorrect.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqK.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqOK.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/map.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/isK.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/idx2inv.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/invert.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/projK.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_functor.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_congr.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_trivial.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param2.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/induction.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/lens.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/lens_laws.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqb_core_defs.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/tag.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/fields.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqb.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqbcorrect.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqbOK.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqType_ast.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/derive/std.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/legacy.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/experimental.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/bcongr.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/cast.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eq.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqcorrect.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqK.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqOK.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/map.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/isK.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/idx2inv.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/invert.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/projK.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_functor.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_congr.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param1_trivial.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/param2.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/induction.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/lens.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/lens_laws.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqb_core_defs.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/tag.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/fields.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqb.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqbcorrect.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqbOK.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive INSTALL theories/derive/eqType_ast.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps//derive make[4]: Entering directory '/<>/apps/derive' df="`"/usr/bin///////coq_makefile" -destination-of theories/derive/std.vo -I ../../src -Q ../../theories elpi -Q elpi elpi.apps.derive -R theories elpi.apps -R tests elpi.apps.derive.tests -R examples elpi.apps.derive.examples`";\ install -m 0644 elpi/bcongr.elpi elpi/cast.elpi elpi/derive.elpi elpi/derive_hook.elpi elpi/discriminate.elpi elpi/eq.elpi elpi/eqK.elpi elpi/eqOK.elpi elpi/eqType.elpi elpi/eqb.elpi elpi/eqbOK.elpi elpi/eqbcorrect.elpi elpi/eqcorrect.elpi elpi/fields.elpi elpi/idx2inv.elpi elpi/induction.elpi elpi/injection.elpi elpi/invert.elpi elpi/isK.elpi elpi/lens.elpi elpi/lens_laws.elpi elpi/map.elpi elpi/param1.elpi elpi/param1_congr.elpi elpi/param1_functor.elpi elpi/param1_inhab.elpi elpi/param1_trivial.elpi elpi/param2.elpi elpi/paramX_lib.elpi elpi/projK.elpi elpi/tag.elpi "/<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/$df" make[4]: Leaving directory '/<>/apps/derive' make[3]: Leaving directory '/<>/apps/derive' make[2]: Leaving directory '/<>/apps/derive' make[2]: Entering directory '/<>/apps/eltac' Using coq found in /usr/bin//, from COQBIN or PATH make[3]: Entering directory '/<>/apps/eltac' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied INSTALL theories/assumption.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/constructor.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/intro.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/clear.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/fail.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/discriminate.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/injection.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/case.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/generalize.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/cycle.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/tactics.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/assumption.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/constructor.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/intro.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/clear.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/fail.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/discriminate.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/injection.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/case.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/generalize.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/cycle.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/tactics.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/assumption.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/constructor.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/intro.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/clear.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/fail.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/discriminate.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/injection.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/case.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/generalize.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/cycle.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ INSTALL theories/tactics.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/eltac/ make[4]: Entering directory '/<>/apps/eltac' make[4]: Leaving directory '/<>/apps/eltac' make[3]: Leaving directory '/<>/apps/eltac' make[2]: Leaving directory '/<>/apps/eltac' make[2]: Entering directory '/<>/apps/NES' Using coq found in /usr/bin//, from COQBIN or PATH make[3]: Entering directory '/<>/apps/NES' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied INSTALL theories/NES.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/NES.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/NES.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ make[4]: Entering directory '/<>/apps/NES' df="`"/usr/bin///////coq_makefile" -destination-of theories/NES.vo -I ../../src -Q ../../theories elpi -Q elpi elpi.apps.NES -R theories elpi.apps`";\ install -m 0644 elpi/nes.elpi "/<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/$df" make[4]: Leaving directory '/<>/apps/NES' make[3]: Leaving directory '/<>/apps/NES' make[2]: Leaving directory '/<>/apps/NES' make[2]: Entering directory '/<>/apps/locker' Using coq found in /usr/bin//, from COQBIN or PATH make[3]: Entering directory '/<>/apps/locker' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied INSTALL theories/locker.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/locker.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/locker.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ make[4]: Entering directory '/<>/apps/locker' make[4]: Leaving directory '/<>/apps/locker' make[3]: Leaving directory '/<>/apps/locker' make[2]: Leaving directory '/<>/apps/locker' make[2]: Entering directory '/<>/apps/coercion' Using coq found in /usr/bin//, from COQBIN or PATH make[3]: Entering directory '/<>/apps/coercion' make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied make[3]: /usr/lib/ocaml/coq: Permission denied INSTALL theories/coercion.vo /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/coercion.v /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL theories/coercion.glob /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL src/elpi_coercion_plugin.cmxs /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ INSTALL src/elpi_coercion_plugin.cmxs /<>/debian/libcoq-elpi//usr/lib/ocaml/coq//user-contrib/elpi/apps/ ocamlfind: [WARNING] No such file: /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/META Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/elpi_coercion_plugin.cmx Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/elpi_coercion_plugin.cmxa Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/elpi_coercion_plugin.cmxs ocamlfind: [WARNING] Overwriting file /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/elpi_coercion_plugin.cmxs Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/elpi_coercion_plugin.cmxs Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/elpi_coercion_plugin.cmi Installed /<>/debian/libcoq-elpi//usr/lib/ocaml/coq/../coq-core//../coq-elpi-coercion/META make[4]: Entering directory '/<>/apps/coercion' make[4]: Leaving directory '/<>/apps/coercion' make[3]: Leaving directory '/<>/apps/coercion' make[2]: Leaving directory '/<>/apps/coercion' ########################## installing doc ############################ mkdir -p /<>/debian/libcoq-elpi/usr/lib/ocaml/coq/../../share/doc/coq-elpi cp doc/* /<>/debian/libcoq-elpi/usr/lib/ocaml/coq/../../share/doc/coq-elpi cp: cannot stat 'doc/*': No such file or directory make[1]: [Makefile:130: install] Error 1 (ignored) ########################## installed ############################ make[1]: Leaving directory '/<>' dh_ocamldoc -a dh_installdocs -a dh_installchangelogs -a dh_installexamples -a dh_lintian -a dh_perl -a dh_link -a dh_strip_nondeterminism -a dh_compress -a dh_fixperms -a dh_missing -a dh_dwz -a dwz: debian/libcoq-elpi/usr/lib/ocaml/coq-elpi-coercion/elpi_coercion_plugin.cmxs: .debug_info section not present dwz: debian/libcoq-elpi/usr/lib/ocaml/coq/user-contrib/elpi/apps/elpi_coercion_plugin.cmxs: .debug_info section not present dh_strip -a debugedit: debian/libcoq-elpi/usr/lib/ocaml/coq-elpi/elpi_plugin.cmxs: Unknown DWARF DW_FORM_0x1f21 546347fcf2efcbfda6a64e9dbd47d8d7c6d662b2 debugedit: debian/libcoq-elpi/usr/lib/ocaml/coq/user-contrib/elpi/elpi_plugin.cmxs: Unknown DWARF DW_FORM_0x1f21 546347fcf2efcbfda6a64e9dbd47d8d7c6d662b2 bb79a9c2530fe739169cca65ebac674c0d7dd57e bb79a9c2530fe739169cca65ebac674c0d7dd57e dh_makeshlibs -a dh_shlibdeps -a dh_installdeb -a debian/rules override_dh_ocaml make[1]: Entering directory '/<>' dh_ocaml --nodefined-map=libcoq-elpi-ocaml-dev:Elpi_parser,Elpi_util,Elpi_parser__Ast,Elpi__Runtime,Elpi__,Elpi_util__Util,Elpi__Builtin_checker,Elpi__Builtin,Elpi__Ptmap,Elpi_parser__Grammar,Elpi__Data,Elpi_lexer_config,Elpi__API,Elpi_parser__Parse,Elpi__Builtin_set,Trace_ppx_runtime,Elpi_parser__Parser_config,Elpi_parser__Error_messages,Elpi_parser__Lexer,Elpi,Elpi_exer_config__Tokens,Elpi_Builtin_stdlib,Elpi__Legacy_parser_proxy,Elpi__Builtin_map,Elpi_lexer_config__Tokens,Elpi__Compiler,Trace_ppx_runtime__Runtime,Elpi_lexer_config__Lexer_config,Elpi__Builtin_stdlib,Elpi__Runtime_trace_off,MenhirLib,Ppx_deriving_runtime,Re__Perl,Re__Core,Re__Pcre,Re_str,Re__Automata,Re__Emacs,Re,Re__Fmt,Re__Group,Re__,Re__Glob,Re__Pmark,Re__Category,Re__Str,Re__Posix,Re__Color_map,Re__Cset,Result make[1]: Leaving directory '/<>' dh_coq -a dh_gencontrol -a dh_md5sums -a dh_builddeb -a INFO: pkgstriptranslations version 154 INFO: pkgstriptranslations version 154 pkgstriptranslations: processing libcoq-elpi-dbgsym (in debian/.debhelper/libcoq-elpi/dbgsym-root); do_strip: , oemstrip: pkgstriptranslations: processing libcoq-elpi (in debian/libcoq-elpi); do_strip: , oemstrip: pkgmaintainermangler: Maintainer field overridden to "Ubuntu Developers " pkgstripfiles: processing control file: debian/.debhelper/libcoq-elpi/dbgsym-root/DEBIAN/control, package libcoq-elpi-dbgsym, directory debian/.debhelper/libcoq-elpi/dbgsym-root dpkg-deb: building package 'libcoq-elpi-dbgsym' in 'debian/.debhelper/scratch-space/build-libcoq-elpi/libcoq-elpi-dbgsym_1.19.3-2build1_armhf.deb'. Renaming libcoq-elpi-dbgsym_1.19.3-2build1_armhf.deb to libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb pkgmaintainermangler: Maintainer field overridden to "Ubuntu Developers " pkgstripfiles: processing control file: debian/libcoq-elpi/DEBIAN/control, package libcoq-elpi, directory debian/libcoq-elpi pkgstripfiles: Truncating usr/share/doc/libcoq-elpi/changelog.Debian.gz to topmost ten records pkgstripfiles: Running PNG optimization (using 4 cpus) for package libcoq-elpi ... pkgstripfiles: No PNG files. dpkg-deb: building package 'libcoq-elpi' in '../libcoq-elpi_1.19.3-2build1_armhf.deb'. dpkg-genbuildinfo --build=any -O../coq-elpi_1.19.3-2build1_armhf.buildinfo dpkg-genchanges --build=any -mLaunchpad Build Daemon -O../coq-elpi_1.19.3-2build1_armhf.changes dpkg-genchanges: info: binary-only arch-specific upload (source code and arch-indep packages not included) dpkg-source --after-build . dpkg-buildpackage: info: binary-only upload (no source included) -------------------------------------------------------------------------------- Build finished at 2024-02-17T08:06:36Z Finished -------- I: Built successfully +------------------------------------------------------------------------------+ | Changes | +------------------------------------------------------------------------------+ coq-elpi_1.19.3-2build1_armhf.changes: -------------------------------------- Format: 1.8 Date: Sat, 17 Feb 2024 01:24:20 +0100 Source: coq-elpi Binary: libcoq-elpi Built-For-Profiles: noudeb Architecture: armhf Version: 1.19.3-2build1 Distribution: noble-proposed Urgency: medium Maintainer: Launchpad Build Daemon Changed-By: Gianfranco Costamagna Description: libcoq-elpi - Coq plugin embedding Elpi Changes: coq-elpi (1.19.3-2build1) noble; urgency=medium . * Rebuild against new OCAML ABIs. Checksums-Sha1: 82d67f42e9d946be2b4cc7f021dded02717734af 7696 coq-elpi_1.19.3-2build1_armhf.buildinfo 1ccd89bbd5a2ef262baef1d5d5e101ec532f51dc 104072 libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb 3df4aa4f20fc694920f63ade3f9f9be2cab5bbf5 3176474 libcoq-elpi_1.19.3-2build1_armhf.deb Checksums-Sha256: 6a8f564e829353da269259f53914b1b9c32be91d3297900da7484c21a4478bc8 7696 coq-elpi_1.19.3-2build1_armhf.buildinfo c60fde4908d068a9e9d69b61767a36c60c0626baf1e95d51605c0ed868c9ff7c 104072 libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb 1bfb11aaec248d1461e9b02adf32fd7bcaf05703f2b2e75c7c167e885feeb3c3 3176474 libcoq-elpi_1.19.3-2build1_armhf.deb Files: c5e7e2510a93dd2332d0bedf6cbc1835 7696 ocaml optional coq-elpi_1.19.3-2build1_armhf.buildinfo b2766288e116fbc34cafe0f8747aaa26 104072 debug optional libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb 41c6480561c58e8c0de6a54cc96bcd85 3176474 ocaml optional libcoq-elpi_1.19.3-2build1_armhf.deb /<>/coq-elpi_1.19.3-2build1_armhf.changes.new could not be renamed to /<>/coq-elpi_1.19.3-2build1_armhf.changes: Illegal seek Distribution field may be wrong!!! +------------------------------------------------------------------------------+ | Buildinfo | +------------------------------------------------------------------------------+ Format: 1.0 Source: coq-elpi Binary: libcoq-elpi libcoq-elpi-dbgsym Architecture: armhf Version: 1.19.3-2build1 Checksums-Md5: b2766288e116fbc34cafe0f8747aaa26 104072 libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb 41c6480561c58e8c0de6a54cc96bcd85 3176474 libcoq-elpi_1.19.3-2build1_armhf.deb Checksums-Sha1: 1ccd89bbd5a2ef262baef1d5d5e101ec532f51dc 104072 libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb 3df4aa4f20fc694920f63ade3f9f9be2cab5bbf5 3176474 libcoq-elpi_1.19.3-2build1_armhf.deb Checksums-Sha256: c60fde4908d068a9e9d69b61767a36c60c0626baf1e95d51605c0ed868c9ff7c 104072 libcoq-elpi-dbgsym_1.19.3-2build1_armhf.ddeb 1bfb11aaec248d1461e9b02adf32fd7bcaf05703f2b2e75c7c167e885feeb3c3 3176474 libcoq-elpi_1.19.3-2build1_armhf.deb Build-Origin: Ubuntu Build-Architecture: armhf Build-Date: Sat, 17 Feb 2024 08:06:36 +0000 Build-Path: /<> Build-Tainted-By: merged-usr-via-aliased-dirs usr-local-has-programs Installed-Build-Depends: autoconf (= 2.71-3), automake (= 1:1.16.5-1.3ubuntu1), autopoint (= 0.21-14ubuntu1), autotools-dev (= 20220109.1), base-files (= 13ubuntu6), base-passwd (= 3.6.3), bash (= 5.2.21-2ubuntu1), binutils (= 2.42-2ubuntu1), binutils-arm-linux-gnueabihf (= 2.42-2ubuntu1), binutils-common (= 2.42-2ubuntu1), bsdextrautils (= 2.39.2-6ubuntu1), bsdutils (= 1:2.39.2-6ubuntu1), build-essential (= 12.10ubuntu1), bzip2 (= 1.0.8-5build1), coq (= 8.18.0+dfsg-1), coreutils (= 9.4-2ubuntu3), cpp (= 4:13.2.0-7ubuntu1), cpp-13 (= 13.2.0-13ubuntu1), cpp-13-arm-linux-gnueabihf (= 13.2.0-13ubuntu1), cpp-arm-linux-gnueabihf (= 4:13.2.0-7ubuntu1), dash (= 0.5.12-6ubuntu1), debconf (= 1.5.86), debhelper (= 13.13ubuntu1), debianutils (= 5.16), debugedit (= 1:5.0-5), dh-autoreconf (= 20), dh-coq (= 0.8), dh-ocaml (= 2.0), dh-strip-nondeterminism (= 1.13.1-1), diffutils (= 1:3.10-1), dpkg (= 1.22.4ubuntu3), dpkg-dev (= 1.22.4ubuntu3), dwz (= 0.15-1), file (= 1:5.45-2), findutils (= 4.9.0-5), g++ (= 4:13.2.0-7ubuntu1), g++-13 (= 13.2.0-13ubuntu1), g++-13-arm-linux-gnueabihf (= 13.2.0-13ubuntu1), g++-arm-linux-gnueabihf (= 4:13.2.0-7ubuntu1), gcc (= 4:13.2.0-7ubuntu1), gcc-13 (= 13.2.0-13ubuntu1), gcc-13-arm-linux-gnueabihf (= 13.2.0-13ubuntu1), gcc-13-base (= 13.2.0-13ubuntu1), gcc-14-base (= 14-20240201-3ubuntu1), gcc-arm-linux-gnueabihf (= 4:13.2.0-7ubuntu1), gettext (= 0.21-14ubuntu1), gettext-base (= 0.21-14ubuntu1), grep (= 3.11-4), groff-base (= 1.23.0-3), gzip (= 1.12-1ubuntu1), hostname (= 3.23+nmu1ubuntu1), init-system-helpers (= 1.66ubuntu1), intltool-debian (= 0.35.0+20060710.6), libacl1 (= 2.3.1-4ubuntu1), libarchive-zip-perl (= 1.68-1), libasan8 (= 14-20240201-3ubuntu1), libatomic1 (= 14-20240201-3ubuntu1), libattr1 (= 1:2.5.2-1), libaudit-common (= 1:3.1.2-2), libaudit1 (= 1:3.1.2-2), libbinutils (= 2.42-2ubuntu1), libblkid1 (= 2.39.2-6ubuntu1), libbz2-1.0 (= 1.0.8-5build1), libc-bin (= 2.39-0ubuntu1), libc-dev-bin (= 2.39-0ubuntu1), libc6 (= 2.39-0ubuntu1), libc6-dev (= 2.39-0ubuntu1), libcap-ng0 (= 0.8.4-2), libcap2 (= 1:2.66-4ubuntu1), libcc1-0 (= 14-20240201-3ubuntu1), libcom-err2 (= 1.47.0-2ubuntu1), libcompiler-libs-ocaml-dev (= 4.14.1-1ubuntu1), libcoq-core-ocaml (= 8.18.0+dfsg-1), libcoq-core-ocaml-dev (= 8.18.0+dfsg-1), libcoq-stdlib (= 8.18.0+dfsg-1), libcrypt-dev (= 1:4.4.36-4), libcrypt1 (= 1:4.4.36-4), libctf-nobfd0 (= 2.42-2ubuntu1), libctf0 (= 2.42-2ubuntu1), libdb5.3 (= 5.3.28+dfsg2-4), libdebconfclient0 (= 0.271ubuntu1), libdebhelper-perl (= 13.13ubuntu1), libdpkg-perl (= 1.22.4ubuntu3), libdw1 (= 0.190-1), libelf1 (= 0.190-1), libelpi-ocaml (= 1.17.4-3build1), libelpi-ocaml-dev (= 1.17.4-3build1), libexpat1 (= 2.6.0-1), libffi8 (= 3.4.4-2), libfile-stripnondeterminism-perl (= 1.13.1-1), libfindlib-ocaml (= 1.9.6-1build3), libfindlib-ocaml-dev (= 1.9.6-1build3), libgcc-13-dev (= 13.2.0-13ubuntu1), libgcc-s1 (= 14-20240201-3ubuntu1), libgcrypt20 (= 1.10.3-2), libgdbm-compat4 (= 1.23-5), libgdbm6 (= 1.23-5), libgmp-dev (= 2:6.3.0+dfsg-2ubuntu4), libgmp10 (= 2:6.3.0+dfsg-2ubuntu4), libgmp3-dev (= 2:6.3.0+dfsg-2ubuntu4), libgmpxx4ldbl (= 2:6.3.0+dfsg-2ubuntu4), libgomp1 (= 14-20240201-3ubuntu1), libgpg-error0 (= 1.47-3build1), libgssapi-krb5-2 (= 1.20.1-5build1), libicu74 (= 74.2-1ubuntu1), libisl23 (= 0.26-3), libjansson4 (= 2.14-2), libk5crypto3 (= 1.20.1-5build1), libkeyutils1 (= 1.6.3-3), libkrb5-3 (= 1.20.1-5build1), libkrb5support0 (= 1.20.1-5build1), liblz4-1 (= 1.9.4-1), liblzma5 (= 5.4.5-0.3), libmagic-mgc (= 1:5.45-2), libmagic1 (= 1:5.45-2), libmd0 (= 1.1.0-2), libmenhir-ocaml-dev (= 20231231+ds-1), libmount1 (= 2.39.2-6ubuntu1), libmpc3 (= 1.3.1-1), libmpfr6 (= 4.2.1-1), libncurses-dev (= 6.4+20240113-1ubuntu1), libncurses6 (= 6.4+20240113-1ubuntu1), libncursesw6 (= 6.4+20240113-1ubuntu1), libnsl-dev (= 1.3.0-3), libnsl2 (= 1.3.0-3), libocaml-compiler-libs-ocaml-dev (= 0.12.4-4build2), libpam-modules (= 1.5.2-9.1ubuntu2), libpam-modules-bin (= 1.5.2-9.1ubuntu2), libpam-runtime (= 1.5.2-9.1ubuntu2), libpam0g (= 1.5.2-9.1ubuntu2), libpcre2-8-0 (= 10.42-4ubuntu1), libperl5.38 (= 5.38.2-3), libpipeline1 (= 1.5.7-1), libppx-derivers-ocaml-dev (= 1.2.1-4build2), libppx-deriving-ocaml (= 5.2.1-4build2), libppx-deriving-ocaml-dev (= 5.2.1-4build2), libppxlib-ocaml-dev (= 0.32.0-1), libpython3-stdlib (= 3.12.1-0ubuntu1), libpython3.12-minimal (= 3.12.2-1), libpython3.12-stdlib (= 3.12.2-1), libre-ocaml-dev (= 1.11.0-1build2), libreadline8 (= 8.2-3), libresult-ocaml (= 1.5-4build1), libresult-ocaml-dev (= 1.5-4build1), libseccomp2 (= 2.5.5-1ubuntu1), libselinux1 (= 3.5-2build1), libsexplib0-ocaml (= 0.16.0-3build2), libsexplib0-ocaml-dev (= 0.16.0-3build2), libsframe1 (= 2.42-2ubuntu1), libsmartcols1 (= 2.39.2-6ubuntu1), libsqlite3-0 (= 3.45.1-1), libssl3 (= 3.0.10-1ubuntu4), libstdc++-13-dev (= 13.2.0-13ubuntu1), libstdc++6 (= 14-20240201-3ubuntu1), libstdlib-ocaml (= 4.14.1-1ubuntu1), libstdlib-ocaml-dev (= 4.14.1-1ubuntu1), libsub-override-perl (= 0.10-1), libsystemd0 (= 255.2-3ubuntu2), libtinfo6 (= 6.4+20240113-1ubuntu1), libtirpc-common (= 1.3.4+ds-1build1), libtirpc-dev (= 1.3.4+ds-1build1), libtirpc3 (= 1.3.4+ds-1build1), libtool (= 2.4.7-7), libubsan1 (= 14-20240201-3ubuntu1), libuchardet0 (= 0.0.8-1), libudev1 (= 255.2-3ubuntu2), libunistring5 (= 1.1-2), libuuid1 (= 2.39.2-6ubuntu1), libxml2 (= 2.9.14+dfsg-1.3ubuntu1), libzarith-ocaml (= 1.13-2build3), libzarith-ocaml-dev (= 1.13-2build3), libzstd1 (= 1.5.5+dfsg2-2), linux-libc-dev (= 6.8.0-11.11), login (= 1:4.13+dfsg1-3ubuntu1), lto-disabled-list (= 46), m4 (= 1.4.19-4), make (= 4.3-4.1build1), man-db (= 2.12.0-3), mawk (= 1.3.4.20240123-1), media-types (= 10.1.0), ncurses-base (= 6.4+20240113-1ubuntu1), ncurses-bin (= 6.4+20240113-1ubuntu1), netbase (= 6.4), ocaml (= 4.14.1-1ubuntu1), ocaml-base (= 4.14.1-1ubuntu1), ocaml-findlib (= 1.9.6-1build3), ocaml-interp (= 4.14.1-1ubuntu1), patch (= 2.7.6-7build2), perl (= 5.38.2-3), perl-base (= 5.38.2-3), perl-modules-5.38 (= 5.38.2-3), po-debconf (= 1.0.21+nmu1), python3 (= 3.12.1-0ubuntu1), python3-minimal (= 3.12.1-0ubuntu1), python3.12 (= 3.12.2-1), python3.12-minimal (= 3.12.2-1), readline-common (= 8.2-3), rpcsvc-proto (= 1.4.2-0ubuntu6), sed (= 4.9-2), sensible-utils (= 0.0.22), sysvinit-utils (= 3.08-3ubuntu1), tar (= 1.35+dfsg-3), tzdata (= 2024a-1ubuntu1), util-linux (= 2.39.2-6ubuntu1), xz-utils (= 5.4.5-0.3), zlib1g (= 1:1.3.dfsg-3ubuntu1) Environment: DEB_BUILD_OPTIONS="parallel=4" DEB_BUILD_PROFILES="noudeb" LANG="C.UTF-8" LC_ALL="C.UTF-8" SOURCE_DATE_EPOCH="1708129460" +------------------------------------------------------------------------------+ | Package contents | +------------------------------------------------------------------------------+ libcoq-elpi_1.19.3-2build1_armhf.deb ------------------------------------ new Debian package, version 2.0. size 3176474 bytes: control archive=5565 bytes. 804 bytes, 20 lines control 18858 bytes, 207 lines md5sums Package: libcoq-elpi Source: coq-elpi Version: 1.19.3-2build1 Architecture: armhf Maintainer: Ubuntu Developers Original-Maintainer: Debian OCaml Maintainers Installed-Size: 18439 Depends: libelpi-ocaml-dev, libcoq-core-ocaml-dev (>= 8.17), libcoq-stdlib-2d719, libcoq-core-ocaml-ru4g2, libelpi-ocaml-70kg3, libstdlib-ocaml-rayz1, libzarith-ocaml-wx6x8 Provides: libcoq-elpi-vied8 Section: ocaml Priority: optional Homepage: https://github.com/LPCIC/coq-elpi Description: Coq plugin embedding Elpi This package makes it possible to define new commands and tactics for Coq in Elpi. . Elpi implements a lambda-Prolog interpreter enriched with constraint handling rules. . Coq is a proof assistant for higher-order logic. drwxr-xr-x root/root 0 2024-02-17 00:24 ./ drwxr-xr-x root/root 0 2024-02-17 00:24 ./usr/ drwxr-xr-x root/root 0 2024-02-17 00:24 ./usr/lib/ drwxr-xr-x root/root 0 2024-02-17 00:24 ./usr/lib/ocaml/ drwxr-xr-x root/root 0 2024-02-17 00:24 ./usr/lib/ocaml/coq-core/ drwxr-xr-x root/root 0 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi-coercion/ -rw-r--r-- root/root 257 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi-coercion/META -rw-r--r-- root/root 7149 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi-coercion/elpi_coercion_plugin.cmi -rw-r--r-- root/root 6864 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi-coercion/elpi_coercion_plugin.cmx -rw-r--r-- root/root 6718 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi-coercion/elpi_coercion_plugin.cmxa -rw-r--r-- root/root 26424 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi-coercion/elpi_coercion_plugin.cmxs drwxr-xr-x root/root 0 2024-02-17 00:24 ./usr/lib/ocaml/coq-elpi/ -rw-r--r-- root/root 249 2024-02-17 00:24 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Build-Space: 82500 Build-Time: 123 Distribution: noble-proposed Host Architecture: armhf Install-Time: 31 Job: coq-elpi_1.19.3-2build1.dsc Machine Architecture: arm64 Package: coq-elpi Package-Time: 154 Source-Version: 1.19.3-2build1 Space: 82500 Status: successful Version: 1.19.3-2build1 -------------------------------------------------------------------------------- Finished at 2024-02-17T08:06:36Z Build needed 00:02:34, 82500k disk space RUN: /usr/share/launchpad-buildd/bin/in-target scan-for-processes --backend=chroot --series=noble --arch=armhf PACKAGEBUILD-27784850 Scanning for processes to kill in build PACKAGEBUILD-27784850