Diff of the two buildlogs: -- --- b1/build.log 2025-08-31 23:38:52.263862111 +0000 +++ b2/build.log 2025-08-31 23:42:40.748136732 +0000 @@ -1,6 +1,6 @@ I: pbuilder: network access will be disabled during build -I: Current time: Sat Oct 3 17:59:45 -12 2026 -I: pbuilder-time-stamp: 1791093585 +I: Current time: Mon Sep 1 13:38:53 +14 2025 +I: pbuilder-time-stamp: 1756683533 I: Building the build Environment I: extracting base tarball [/var/cache/pbuilder/forky-reproducible-base.tgz] I: copying local configuration @@ -24,52 +24,84 @@ dpkg-source: info: applying 0001-Increase-timeout-in-test-that-takes-a-bit-longer-on-.patch I: Not using root during the build. I: Installing the build-deps -I: user script /srv/workspace/pbuilder/3829742/tmp/hooks/D02_print_environment starting +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/D01_modify_environment starting +debug: Running on infom01-amd64. +I: Changing host+domainname to test build reproducibility +I: Adding a custom variable just for the fun of it... +I: Changing /bin/sh to bash +'/bin/sh' -> '/bin/bash' +lrwxrwxrwx 1 root root 9 Aug 31 23:39 /bin/sh -> /bin/bash +I: Setting pbuilder2's login shell to /bin/bash +I: Setting pbuilder2's GECOS to second user,second room,second work-phone,second home-phone,second other +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/D01_modify_environment finished +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/D02_print_environment starting I: set - BUILDDIR='/build/reproducible-path' - BUILDUSERGECOS='first user,first room,first work-phone,first home-phone,first other' - BUILDUSERNAME='pbuilder1' - BUILD_ARCH='amd64' - DEBIAN_FRONTEND='noninteractive' - DEB_BUILD_OPTIONS='buildinfo=+all reproducible=+all parallel=16 ' - DISTRIBUTION='forky' - HOME='/root' - HOST_ARCH='amd64' + BASH=/bin/sh + BASHOPTS=checkwinsize:cmdhist:complete_fullquote:extquote:force_fignore:globasciiranges:globskipdots:hostcomplete:interactive_comments:patsub_replacement:progcomp:promptvars:sourcepath + BASH_ALIASES=() + BASH_ARGC=() + BASH_ARGV=() + BASH_CMDS=() + BASH_LINENO=([0]="12" [1]="0") + BASH_LOADABLES_PATH=/usr/local/lib/bash:/usr/lib/bash:/opt/local/lib/bash:/usr/pkg/lib/bash:/opt/pkg/lib/bash:. + BASH_SOURCE=([0]="/tmp/hooks/D02_print_environment" [1]="/tmp/hooks/D02_print_environment") + BASH_VERSINFO=([0]="5" [1]="2" [2]="37" [3]="1" [4]="release" [5]="x86_64-pc-linux-gnu") + BASH_VERSION='5.2.37(1)-release' + BUILDDIR=/build/reproducible-path + BUILDUSERGECOS='second user,second room,second work-phone,second home-phone,second other' + BUILDUSERNAME=pbuilder2 + BUILD_ARCH=amd64 + DEBIAN_FRONTEND=noninteractive + DEB_BUILD_OPTIONS='buildinfo=+all reproducible=+all parallel=12 ' + DIRSTACK=() + DISTRIBUTION=forky + EUID=0 + FUNCNAME=([0]="Echo" [1]="main") + GROUPS=() + HOME=/root + HOSTNAME=i-capture-the-hostname + HOSTTYPE=x86_64 + HOST_ARCH=amd64 IFS=' ' - INVOCATION_ID='812d32f0f6df45d08c91179b79816dfd' - LANG='C' - LANGUAGE='en_US:en' - LC_ALL='C' - MAIL='/var/mail/root' - OPTIND='1' - PATH='/usr/sbin:/usr/bin:/sbin:/bin:/usr/games' - PBCURRENTCOMMANDLINEOPERATION='build' - PBUILDER_OPERATION='build' - PBUILDER_PKGDATADIR='/usr/share/pbuilder' - PBUILDER_PKGLIBDIR='/usr/lib/pbuilder' - PBUILDER_SYSCONFDIR='/etc' - PPID='3829742' - PS1='# ' - PS2='> ' + INVOCATION_ID=9e7153174c444f10b982220657f23248 + LANG=C + LANGUAGE=et_EE:et + LC_ALL=C + MACHTYPE=x86_64-pc-linux-gnu + MAIL=/var/mail/root + OPTERR=1 + OPTIND=1 + OSTYPE=linux-gnu + PATH=/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/i/capture/the/path + PBCURRENTCOMMANDLINEOPERATION=build + PBUILDER_OPERATION=build + PBUILDER_PKGDATADIR=/usr/share/pbuilder + PBUILDER_PKGLIBDIR=/usr/lib/pbuilder + PBUILDER_SYSCONFDIR=/etc + PIPESTATUS=([0]="0") + POSIXLY_CORRECT=y + PPID=2830754 PS4='+ ' - PWD='/' - SHELL='/bin/bash' - SHLVL='2' - SUDO_COMMAND='/usr/bin/timeout -k 18.1h 18h /usr/bin/ionice -c 3 /usr/bin/nice /usr/sbin/pbuilder --build --configfile /srv/reproducible-results/rbuild-debian/r-b-build.yW3vHZ7y/pbuilderrc_bHet --distribution forky --hookdir /etc/pbuilder/first-build-hooks --debbuildopts -b --basetgz /var/cache/pbuilder/forky-reproducible-base.tgz --buildresult /srv/reproducible-results/rbuild-debian/r-b-build.yW3vHZ7y/b1 --logfile b1/build.log coq-elpi_2.5.0-1.1.dsc' - SUDO_GID='109' - SUDO_HOME='/var/lib/jenkins' - SUDO_UID='104' - SUDO_USER='jenkins' - TERM='unknown' - TZ='/usr/share/zoneinfo/Etc/GMT+12' - USER='root' - _='/usr/bin/systemd-run' + PWD=/ + SHELL=/bin/bash + SHELLOPTS=braceexpand:errexit:hashall:interactive-comments:posix + SHLVL=3 + SUDO_COMMAND='/usr/bin/timeout -k 24.1h 24h /usr/bin/ionice -c 3 /usr/bin/nice -n 11 /usr/bin/unshare --uts -- /usr/sbin/pbuilder --build --configfile /srv/reproducible-results/rbuild-debian/r-b-build.yW3vHZ7y/pbuilderrc_lBnR --distribution forky --hookdir /etc/pbuilder/rebuild-hooks --debbuildopts -b --basetgz /var/cache/pbuilder/forky-reproducible-base.tgz --buildresult /srv/reproducible-results/rbuild-debian/r-b-build.yW3vHZ7y/b2 --logfile b2/build.log coq-elpi_2.5.0-1.1.dsc' + SUDO_GID=109 + SUDO_HOME=/var/lib/jenkins + SUDO_UID=104 + SUDO_USER=jenkins + TERM=unknown + TZ=/usr/share/zoneinfo/Etc/GMT-14 + UID=0 + USER=root + _='I: set' I: uname -a - Linux infom02-amd64 6.12.41+deb13-amd64 #1 SMP PREEMPT_DYNAMIC Debian 6.12.41-1 (2025-08-12) x86_64 GNU/Linux + Linux i-capture-the-hostname 6.12.41+deb13-cloud-amd64 #1 SMP PREEMPT_DYNAMIC Debian 6.12.41-1 (2025-08-12) x86_64 GNU/Linux I: ls -l /bin - lrwxrwxrwx 1 root root 7 Aug 10 2025 /bin -> usr/bin -I: user script /srv/workspace/pbuilder/3829742/tmp/hooks/D02_print_environment finished + lrwxrwxrwx 1 root root 7 Aug 10 12:30 /bin -> usr/bin +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/D02_print_environment finished -> Attempting to satisfy build-dependencies -> Creating pbuilder-satisfydepends-dummy package Package: pbuilder-satisfydepends-dummy @@ -211,7 +243,7 @@ Get: 86 http://deb.debian.org/debian forky/main amd64 libstdio-ocaml-dev amd64 0.17.0-1+b2 [114 kB] Get: 87 http://deb.debian.org/debian forky/main amd64 libppx-optcomp-ocaml-dev amd64 1:0.17.0-1+b7 [326 kB] Get: 88 http://deb.debian.org/debian forky/main amd64 ocaml-dune amd64 3.17.2-1+b1 [4835 kB] -Fetched 362 MB in 4s (92.8 MB/s) +Fetched 362 MB in 13s (28.9 MB/s) Preconfiguring packages ... Selecting previously unselected package libexpat1:amd64. (Reading database ... (Reading database ... 5% (Reading database ... 10% (Reading database ... 15% (Reading database ... 20% (Reading database ... 25% (Reading database ... 30% (Reading database ... 35% (Reading database ... 40% (Reading database ... 45% (Reading database ... 50% (Reading database ... 55% (Reading database ... 60% (Reading database ... 65% (Reading database ... 70% (Reading database ... 75% (Reading database ... 80% (Reading database ... 85% (Reading database ... 90% (Reading database ... 95% (Reading database ... 100% (Reading database ... 19897 files and directories currently installed.) @@ -507,8 +539,8 @@ Setting up tzdata (2025b-5) ... Current default time zone: 'Etc/UTC' -Local time is now: Sun Oct 4 06:00:57 UTC 2026. -Universal Time is now: Sun Oct 4 06:00:57 UTC 2026. +Local time is now: Sun Aug 31 23:41:46 UTC 2025. +Universal Time is now: Sun Aug 31 23:41:46 UTC 2025. Run 'dpkg-reconfigure tzdata' if you wish to change it. Setting up autotools-dev (20240727.1) ... @@ -590,7 +622,11 @@ Building tag database... -> Finished parsing the build-deps I: Building the package -I: Running cd /build/reproducible-path/coq-elpi-2.5.0/ && env PATH="/usr/sbin:/usr/bin:/sbin:/bin:/usr/games" HOME="/nonexistent/first-build" dpkg-buildpackage -us -uc -b && env PATH="/usr/sbin:/usr/bin:/sbin:/bin:/usr/games" HOME="/nonexistent/first-build" dpkg-genchanges -S > ../coq-elpi_2.5.0-1.1_source.changes +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/A99_set_merged_usr starting +Not re-configuring usrmerge for forky +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/A99_set_merged_usr finished +hostname: Name or service not known +I: Running cd /build/reproducible-path/coq-elpi-2.5.0/ && env PATH="/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/i/capture/the/path" HOME="/nonexistent/second-build" dpkg-buildpackage -us -uc -b && env PATH="/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/i/capture/the/path" HOME="/nonexistent/second-build" dpkg-genchanges -S > ../coq-elpi_2.5.0-1.1_source.changes dpkg-buildpackage: info: source package coq-elpi dpkg-buildpackage: info: source version 2.5.0-1.1 dpkg-buildpackage: info: source distribution unstable @@ -604,7 +640,7 @@ dune clean Warning: Cache directories could not be created: Permission denied; disabling cache -Hint: Make sure the directory /nonexistent/first-build/.cache/dune/db/temp +Hint: Make sure the directory /nonexistent/second-build/.cache/dune/db/temp can be created make[1]: Leaving directory '/build/reproducible-path/coq-elpi-2.5.0' dh_ocamlclean @@ -622,7 +658,7 @@ dune build Warning: Cache directories could not be created: Permission denied; disabling cache -Hint: Make sure the directory /nonexistent/first-build/.cache/dune/db/temp +Hint: Make sure the directory /nonexistent/second-build/.cache/dune/db/temp can be created File "./elpi/dummy.v", line 1, characters 0-93: Warning: To avoid stack overflow, large numbers in nat are interpreted as @@ -676,6 +712,12 @@ Warning: Using Vector.t is known to be technically difficult, see . [warn-library-file-stdlib-vector,stdlib-vector,warn-library-file,user-warn,default] +File "./apps/locker/elpi/dummy.v", line 1, characters 0-99: +Warning: To avoid stack overflow, large numbers in nat are interpreted as +applications of Nat.of_num_uint. [abstract-large-number,numbers,default] +File "./apps/locker/elpi/dummy.v", line 2, characters 0-61: +Warning: To avoid stack overflow, large numbers in nat are interpreted as +applications of Nat.of_num_uint. [abstract-large-number,numbers,default] File "./apps/derive/elpi/dummy.v", line 1, characters 0-99: Warning: To avoid stack overflow, large numbers in nat are interpreted as applications of Nat.of_num_uint. [abstract-large-number,numbers,default] @@ -778,12 +820,6 @@ File "./apps/derive/elpi/dummy.v", line 34, characters 0-58: Warning: To avoid stack overflow, large numbers in nat are interpreted as applications of Nat.of_num_uint. [abstract-large-number,numbers,default] -File "./apps/locker/elpi/dummy.v", line 1, characters 0-99: -Warning: To avoid stack overflow, large numbers in nat are interpreted as -applications of Nat.of_num_uint. [abstract-large-number,numbers,default] -File "./apps/locker/elpi/dummy.v", line 2, characters 0-61: -Warning: To avoid stack overflow, large numbers in nat are interpreted as -applications of Nat.of_num_uint. [abstract-large-number,numbers,default] File "./apps/tc/elpi/dummy.v", line 1, characters 0-99: Warning: To avoid stack overflow, large numbers in nat are interpreted as applications of Nat.of_num_uint. [abstract-large-number,numbers,default] @@ -849,17 +885,6 @@ 2410 | type 'arg tactic_main = Solve of 'arg list | Custom of string ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Warning 34 [unused-type-declaration]: unused type tactic_main. -foo = -{f1 : Type & {f2 : f1 -> Type & forall t : f1, f2 t -> bool}} - : Type -mk_foo = -fun (f1 : Type) (f2 : f1 -> Type) (f3 : forall t : f1, f2 t -> bool) => -existT (fun f4 : Type => {f5 : f4 -> Type & forall t : f4, f5 t -> bool}) f1 - (existT (fun f4 : f1 -> Type => forall t : f1, f4 t -> bool) f2 f3) - : forall (f1 : Type) (f2 : f1 -> Type), - (forall t : f1, f2 t -> bool) -> foo - -Arguments mk_foo f1%type_scope (f2 f3)%function_scope The Db contains [phone_prefix USA 1] Phone prefix for USA is 1 The Db contains @@ -868,7 +893,6 @@ sweet! brr yummy! -3 + 7 becomes fun (x : ?e) (x0 : ?e0) => S (S x0) + S (S (S (S (S (S x))))) goal X0 c0 c1 c2 c3 is [decl c3 `H` (app [global (const «lt»), c0, c1]), @@ -879,6 +903,31 @@ prod `_` (app [global (const «lt»), c1, c2]) c4 \ app [global (const «lt»), c0, c2] 3 +Notation p2 := (p2 nat 3 x) +example_import_projections.p1 nat 3 x : nat + : nat +p1 : forall (T : Type) (t : T), r T t -> nat + : forall (T : Type) (t : T), r T t -> nat +eq_refl +: +example_import_projections.p1 bool false (Build bool false 3 eq_refl eq_refl) = +3 + : example_import_projections.p1 bool false + (Build bool false 3 eq_refl eq_refl) = 3 +example_import_projections.f1 _ x + : bool +3 + 7 becomes fun (x : ?e) (x0 : ?e0) => S (S x0) + S (S (S (S (S (S x))))) +foo = +{f1 : Type & {f2 : f1 -> Type & forall t : f1, f2 t -> bool}} + : Type +mk_foo = +fun (f1 : Type) (f2 : f1 -> Type) (f3 : forall t : f1, f2 t -> bool) => +existT (fun f4 : Type => {f5 : f4 -> Type & forall t : f4, f5 t -> bool}) f1 + (existT (fun f4 : f1 -> Type => forall t : f1, f4 t -> bool) f2 f3) + : forall (f1 : Type) (f2 : f1 -> Type), + (forall t : f1, f2 t -> bool) -> foo + +Arguments mk_foo f1%type_scope (f2 f3)%function_scope DEBUG: attempt at fuzzing binary op: global (indc «PLUS») DEBUG: attempt at fuzzing binary op: global (const «Nat.add») DEBUG: attempt at fuzzing binary op: global (indc «AND») @@ -912,2989 +961,8 @@ Arguments E_AND1 e1 e2 (b1 b2)%bool_scope _ _ Arguments E_OR1 e1 e2 (b1 b2)%bool_scope _ _ Arguments E_EQ1 e1 e2 (n1 n2)%nat_scope _ _ -Notation p2 := (p2 nat 3 x) -example_import_projections.p1 nat 3 x : nat - : nat -p1 : forall (T : Type) (t : T), r T t -> nat - : forall (T : Type) (t : T), r T t -> nat -eq_refl -: -example_import_projections.p1 bool false (Build bool false 3 eq_refl eq_refl) = -3 - : example_import_projections.p1 bool false - (Build bool false 3 eq_refl eq_refl) = 3 -example_import_projections.f1 _ x - : bool (eq_refl : 2 = (let z := 1 in S z)) Query assignments: - BO = fix `add` 0 - (prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ - fun `n` (global (indt «nat»)) c1 \ - fun `m` (global (indt «nat»)) c2 \ - match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) - [c2, - fun `p` (global (indt «nat»)) c3 \ - app [global (indc «S»), app [c0, c3, c2]]] - GR = «Nat.add» - TY = prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat») -fix X0 0 - (prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ - fun `n` (global (indt «nat»)) c1 \ - fun `m` (global (indt «nat»)) c2 \ - match c1 - (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ X1 c1 c2 c3) - [c2, fun `p` (X2 c1 c2) c3 \ app [c0, c3, c2]] -fix X0 0 - (prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ - fun `n` (global (indt «nat»)) c1 \ - fun `m` (global (indt «nat»)) c2 \ - match c1 - (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ - global (indt «nat»)) [c2, fun `p` (X3 c1 c2) c3 \ app [c0, c3, c2]] -Query assignments: - BO1 = fix X0 0 - (prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ - fun `n` (global (indt «nat»)) c1 \ - fun `m` (global (indt «nat»)) c2 \ - match c1 - (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ - global (indt «nat»)) [c2, fun `p` (X3 c1 c2) c3 \ app [c0, c3, c2]] - GR = «Nat.add» - TY = prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat») - X1_ = c0 \ c1 \ c2 \ -global (indt «nat») - X2_ = c0 \ c1 \ -X3 c0 c1 -Syntactic constraints: - {c0 c1} : - decl c1 `m` (global (indt «nat»)), decl c0 `n` (global (indt «nat»)) - ?- evar (X3 c0 c1) (sort (typ «elpi_tests_stdlib.test_quotation.2»)) - (X3 c0 c1) /* suspended on X3 */ -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_quotation.3 elpi_tests_stdlib.test_quotation.2 - elpi_tests_stdlib.test_quotation.1} |= - Set <= elpi_tests_stdlib.test_quotation.3 -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - elpi_tests_stdlib.test_quotation.3 -SORTS: - α1 - α2 -WEAK CONSTRAINTS: - - -fun `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - c0 \ - match c0 - (fun `_` (X0 c0) c1 \ - fun `_elpi_renamed_v_1` (app [global (indt «Vector.t»), X1 c0, X2 c0]) - c2 \ X3 c0 c2) - [global (indc «O»), - fun `_` (X4 c0) c1 \ - fun `_` (X5 c0) c2 \ - fun `_` (X6 c0) c3 \ app [global (indc «S»), global (indc «O»)]] -fun `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - c0 \ - match c0 - (fun `_` (X7 c0) c1 \ - fun `_elpi_renamed_v_1` - (app [global (indt «Vector.t»), global (indt «nat»), X8 c0]) c2 \ - global (indt «nat»)) - [global (indc «O»), - fun `_` (X9 c0) c1 \ - fun `_` (X10 c0) c2 \ - fun `_` (X11 c0) c3 \ app [global (indc «S»), global (indc «O»)]] -Query assignments: - T = fun `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - c0 \ - match c0 - (fun `_` (X7 c0) c1 \ - fun `_elpi_renamed_v_1` - (app [global (indt «Vector.t»), global (indt «nat»), X8 c0]) c2 \ - global (indt «nat»)) - [global (indc «O»), - fun `_` (X9 c0) c1 \ - fun `_` (X10 c0) c2 \ - fun `_` (X11 c0) c3 \ app [global (indc «S»), global (indc «O»)]] - X3_ = c0 \ -X7 c0 - X4_ = c0 \ -global (indt «nat») - X5_ = c0 \ -X8 c0 - X6_ = c0 \ c1 \ -global (indt «nat») - X7_ = c0 \ -X9 c0 - X8_ = c0 \ -X10 c0 - X9_ = c0 \ -X11 c0 -Syntactic constraints: - {c0} : - decl c0 `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - ?- evar (X11 c0) (sort (typ «elpi_tests_stdlib.test_quotation.10»)) - (X11 c0) /* suspended on X11 */ - {c0} : - decl c0 `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - ?- evar (X10 c0) (sort (typ «elpi_tests_stdlib.test_quotation.9»)) - (X10 c0) /* suspended on X10 */ - {c0} : - decl c0 `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - ?- evar (X9 c0) (sort (typ «elpi_tests_stdlib.test_quotation.8»)) - (X9 c0) /* suspended on X9 */ - {c0} : - decl c0 `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - ?- evar (X8 c0) (X12 c0) (X8 c0) /* suspended on X8 */ - {c0} : - decl c0 `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - ?- evar (X13 c0) (sort (typ «elpi_tests_stdlib.test_quotation.6»)) - (X12 c0) /* suspended on X13, X12 */ - {c0} : - decl c0 `v` - (app - [global (indt «Vector.t»), global (indt «nat»), - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) - ?- evar (X7 c0) (sort (typ «elpi_tests_stdlib.test_quotation.4»)) - (X7 c0) /* suspended on X7 */ -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_quotation.12 elpi_tests_stdlib.test_quotation.11 - elpi_tests_stdlib.test_quotation.10 elpi_tests_stdlib.test_quotation.9 - elpi_tests_stdlib.test_quotation.8 elpi_tests_stdlib.test_quotation.7 - elpi_tests_stdlib.test_quotation.6 elpi_tests_stdlib.test_quotation.5 - elpi_tests_stdlib.test_quotation.4} |= - elpi_tests_stdlib.test_quotation.11 < elpi_tests_stdlib.test_quotation.5 - Set <= Vector.t.u0 - Set <= elpi_tests_stdlib.test_quotation.11 - Set <= elpi_tests_stdlib.test_quotation.12 - elpi_tests_stdlib.test_quotation.11 <= Vector.t.u0 -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - elpi_tests_stdlib.test_quotation.12 -SORTS: - α3 - α4 := Type - α5 - α6 - α7 - α8 - α9 -WEAK CONSTRAINTS: - - -3 -Query assignments: - X = 3 -fun `x` X0 c0 \ app [X1, c0] -Query assignments: - X = X1 - X10_ = X0 - Y = fun `x` X0 c0 \ app [X1, c0] -fun `r` (global (indt «nat»)) c0 \ - fun `p` - (prod `y` (global (indt «nat»)) c1 \ - app - [global (indt «eq»), global (indt «nat»), c1, global (indc «O»)]) - c1 \ - fun `q` (global (indt «bool»)) c2 \ - prod `y` (global (indt «nat»)) c3 \ - app - [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] -Query assignments: - %arg1 = c0 \ c1 \ c2 \ -prod `y` (global (indt «nat»)) c3 \ - app [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] - X = fun `r` (global (indt «nat»)) c0 \ - fun `p` - (prod `y` (global (indt «nat»)) c1 \ - app - [global (indt «eq»), global (indt «nat»), c1, global (indc «O»)]) - c1 \ - fun `q` (global (indt «bool»)) c2 \ - prod `y` (global (indt «nat»)) c3 \ - app - [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] -fun u : nat => -{| val := oval u; Sub := Ord u; Sub_rect := inlined_sub_rect |} - : forall u : nat, is_SUB nat (fun x : nat => leq x u) (ord u) -Debug: -[elpi] - gterm2lp: term=(fun u => - {| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |}) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term={| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |} -Debug: [elpi] gterm2lp: term=SubType -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(oval u) -Debug: [elpi] gterm2lp: term=oval -Debug: [elpi] gterm2lp: term=u -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=inlined_sub_rect -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term=(fun K_S u => - let (x, Px) as u0 return (K u0) := u in K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term=(fun u => let (x, Px) as u0 return (K u0) := u in K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term=(let (x, Px) as u0 return (K u0) := _elpi_renamed_u_3 in - K_S x Px) -Debug: [elpi] gterm2lp: term=_elpi_renamed_u_3 -Debug: [elpi] gterm2lp: term=(fun u0 => K u0) -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(K u0) -Debug: [elpi] gterm2lp: term=K -Debug: [elpi] gterm2lp: term=u0 -Debug: [elpi] gterm2lp: term=(fun x Px => K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(fun Px => K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(K_S x Px) -Debug: [elpi] gterm2lp: term=K_S -Debug: [elpi] gterm2lp: term=x -Debug: [elpi] gterm2lp: term=Px -Debug: -[elpi] - gterm2lp: term=(fun u => - {| val := _; Sub := elpi_code:(K) u; Sub_rect := _ |}) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] gterm2lp: term={| val := _; Sub := elpi_code:(K) u; Sub_rect := _ |} -Debug: [elpi] gterm2lp: term=SubType -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(elpi_code:(K) u) -Debug: [elpi] gterm2lp: term=elpi_code:(K) -Debug: [elpi] gterm2lp: term=u -Debug: [elpi] gterm2lp: term=_ -XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX -fun `u` X0 c0 \ - app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX -Debug: -[elpi] - elpi sigma -> coq sigma: before: -SHELF: -FUTURE GOALS STACK: - - -Rocq-Elpi mapping: -RAW: -ELAB: - -Debug: -[elpi] - elpi sigma -> coq sigma: synchronized: -SHELF: -FUTURE GOALS STACK: - - -Rocq-Elpi mapping: -RAW: -ELAB: - -Debug: -[elpi] - elpi sigma -> coq sigma: after: -SHELF: -FUTURE GOALS STACK: - - -Rocq-Elpi mapping: -RAW: -ELAB: - -Debug: -[elpi] - lp2term: depth=0 ctx=[] term=fun `u` X0 c0 \ - app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -Debug: -[elpi] - lp2term@0:fun `u` X0 c0 \ - app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -Debug: [elpi] lp2term@0:X0 -Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: -ELAB: - -Debug: -[elpi] - lp2term@1:app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -Debug: [elpi] lp2term@1:global (indc «SubType») -Debug: [elpi] lp2term@1:X1 c0 -Debug: [elpi] lp2term: evar: calldepth:0 X1 c0 RAW: -ELAB: - -Debug: [elpi] lp2term@1:X2 c0 -Debug: [elpi] lp2term: evar: calldepth:0 X2 c0 RAW: -ELAB: - -Debug: [elpi] lp2term@1:X3 c0 -Debug: [elpi] lp2term: evar: calldepth:0 X3 c0 RAW: -ELAB: - -Debug: [elpi] lp2term@1:app [global (const «oval»), c0] -Debug: [elpi] lp2term@1:global (const «oval») -Debug: [elpi] lp2term@1:c0 -Debug: [elpi] lp2term@1:X4 c0 -Debug: [elpi] lp2term: evar: calldepth:0 X4 c0 RAW: -ELAB: - -Debug: -[elpi] - lp2term@1:fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@1:X5 c0 -Debug: [elpi] lp2term: evar: calldepth:0 X5 c0 RAW: -ELAB: - -Debug: -[elpi] - lp2term@2:fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@2:X6 c0 c1 -Debug: [elpi] lp2term: evar: calldepth:0 X6 c0 c1 RAW: -ELAB: - -Debug: -[elpi] - lp2term@3:fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@3:X7 c0 c1 c2 -Debug: [elpi] lp2term: evar: calldepth:0 X7 c0 c1 c2 RAW: -ELAB: - -Debug: -[elpi] - lp2term@4:match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@4:c3 -Debug: [elpi] lp2term@4:fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4] -Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 -Debug: [elpi] lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 RAW: -ELAB: - -Debug: [elpi] lp2term@5:app [c1, c4] -Debug: [elpi] lp2term@5:c1 -Debug: [elpi] lp2term@5:c4 -Debug: -[elpi] - lp2term@4:fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] -Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 -Debug: [elpi] lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 RAW: -ELAB: - -Debug: [elpi] lp2term@5:fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] -Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 -Debug: [elpi] lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 RAW: -ELAB: - -Debug: [elpi] lp2term@6:app [c2, c4, c5] -Debug: [elpi] lp2term@6:c2 -Debug: [elpi] lp2term@6:c4 -Debug: [elpi] lp2term@6:c5 -Debug: -[elpi] - lp2term: out=(fun u : hole hole => - {| - val := oval u; - Sub := hole u hole; - Sub_rect := - fun (K : hole u hole) (K_S : hole K u hole) - (_elpi_renamed_u_3 : hole K_S K u hole) => - let - (x, Px) as u0 - return (hole u0 _elpi_renamed_u_3 K_S K hole) := - _elpi_renamed_u_3 in - K_S x Px - |}) - elpi2coq: - RAW: -ELAB: -SHELF: - - FUTURE GOALS STACK: - - -Debug: -[elpi] - detype: (fun u : hole hole => - {| - val := oval u; - Sub := hole u hole; - Sub_rect := - fun (K : hole u hole) (K_S : hole K u hole) - (_elpi_renamed_u_3 : hole K_S K u hole) => - let - (x, Px) as u0 - return (hole u0 _elpi_renamed_u_3 K_S K hole) := - _elpi_renamed_u_3 in - K_S x Px - |}) -Debug: [elpi] bringing updated sigma back to lp -Debug: -[elpi] - term2lp: depth=0 ctx= term=(forall u : nat, - is_SUB nat (fun x : nat => leq x u) (ord u)) -Debug: -[elpi] - term2lp (out): prod `u` (global (indt «nat»)) c0 \ - app - [global (indt «is_SUB»), global (indt «nat»), - fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], - app [global (indt «ord»), c0]] -Debug: -[elpi] - term2lp: depth=0 ctx= term=(fun u : nat => - {| - val := oval u; - Sub := Ord u; - Sub_rect := inlined_sub_rect - |}) -Debug: -[elpi] - term2lp (out): fun `u` (global (indt «nat»)) c0 \ - app - [global (indc «SubType»), global (indt «nat»), - fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], - app [global (indt «ord»), c0], app [global (const «oval»), c0], - app [global (indc «Ord»), c0], - fun `K` - (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) - c1 \ - fun `K_S` - (prod `x` (global (indt «nat»)) c2 \ - prod `Px` - (app - [global (indt «eq»), global (indt «bool»), - app - [fun `x` (global (indt «nat»)) c3 \ - app [global (const «leq»), c3, c0], c2], - global (indc «true»)]) c3 \ - app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ - fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ - match c3 - (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) - [fun `x` (global (indt «nat»)) c4 \ - fun `Px` - (app - [global (indt «eq»), global (indt «bool»), - app [global (const «leq»), c4, c0], global (indc «true»)]) - c5 \ app [c2, c4, c5]]] -Debug: -[elpi] - Elpi: query-compilation:0.0013 static-check:0.0000 optimization:0.0001 runtime:0.0031 (with success) - -Query assignments: - GR = indc «Ord» - K = global (indc «Ord») - T = fun `u` X0 c0 \ - app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] - T1 = fun `u` (global (indt «nat»)) c0 \ - app - [global (indc «SubType»), global (indt «nat»), - fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], - app [global (indt «ord»), c0], app [global (const «oval»), c0], - app [global (indc «Ord»), c0], - fun `K` - (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) - c1 \ - fun `K_S` - (prod `x` (global (indt «nat»)) c2 \ - prod `Px` - (app - [global (indt «eq»), global (indt «bool»), - app - [fun `x` (global (indt «nat»)) c3 \ - app [global (const «leq»), c3, c0], c2], - global (indc «true»)]) c3 \ - app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ - fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ - match c3 - (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) - [fun `x` (global (indt «nat»)) c4 \ - fun `Px` - (app - [global (indt «eq»), global (indt «bool»), - app [global (const «leq»), c4, c0], global (indc «true»)]) - c5 \ app [c2, c4, c5]]] - X11_ = X0 - X12_ = X1 - X13_ = X2 - X14_ = X3 - X15_ = X4 - X16_ = X5 - X17_ = X6 - X18_ = X7 - X19_ = X8 - X20_ = X9 - X21_ = X10 - X22_ = global (indt «nat») - X23_ = c0 \ -global (indt «nat») - X24_ = c0 \ -fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0] - X25_ = c0 \ -app [global (indt «ord»), c0] - X26_ = c0 \ -app [global (const «oval»), c0] - X27_ = c0 \ -fun `K` - (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) - c1 \ - fun `K_S` - (prod `x` (global (indt «nat»)) c2 \ - prod `Px` - (app - [global (indt «eq»), global (indt «bool»), - app - [fun `x` (global (indt «nat»)) c3 \ - app [global (const «leq»), c3, c0], c2], global (indc «true»)]) - c3 \ app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ - fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ - match c3 (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) - [fun `x` (global (indt «nat»)) c4 \ - fun `Px` - (app - [global (indt «eq»), global (indt «bool»), - app [global (const «leq»), c4, c0], global (indc «true»)]) c5 \ - app [c2, c4, c5]] -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_quotation.28 elpi_tests_stdlib.test_quotation.27} |= - Set <= is_SUB.u0 - Set <= is_SUB.u1 - Set <= elpi_tests_stdlib.test_quotation.27 - is_SUB.u2 <= elpi_tests_stdlib.test_quotation.28 -ALGEBRAIC UNIVERSES: - {elpi_tests_stdlib.test_quotation.28 elpi_tests_stdlib.test_quotation.27} -FLEXIBLE UNIVERSES: - elpi_tests_stdlib.test_quotation.28 - elpi_tests_stdlib.test_quotation.27 -SORTS: - α24 := Type - α25 := Type -WEAK CONSTRAINTS: - - -Debug: -[elpi] - gterm2lp: term=(fun u => - {| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |}) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term={| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |} -Debug: [elpi] gterm2lp: term=SubType -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(oval u) -Debug: [elpi] gterm2lp: term=oval -Debug: [elpi] gterm2lp: term=u -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=inlined_sub_rect -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term=(fun K_S u => - let (x, Px) as u0 return (K u0) := u in K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term=(fun u => let (x, Px) as u0 return (K u0) := u in K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: -[elpi] - gterm2lp: term=(let (x, Px) as u0 return (K u0) := _elpi_renamed_u_3 in - K_S x Px) -Debug: [elpi] gterm2lp: term=_elpi_renamed_u_3 -Debug: [elpi] gterm2lp: term=(fun u0 => K u0) -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(K u0) -Debug: [elpi] gterm2lp: term=K -Debug: [elpi] gterm2lp: term=u0 -Debug: [elpi] gterm2lp: term=(fun x Px => K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(fun Px => K_S x Px) -Debug: [elpi] gterm2lp: term=_ -Debug: [elpi] gterm2lp: term=(K_S x Px) -Debug: [elpi] gterm2lp: term=K_S -Debug: [elpi] gterm2lp: term=x -Debug: [elpi] gterm2lp: term=Px -Debug: -[elpi] - elpi sigma -> coq sigma: before: -SHELF: -FUTURE GOALS STACK: - - -Rocq-Elpi mapping: -RAW: -ELAB: - -Debug: -[elpi] - elpi sigma -> coq sigma: synchronized: -SHELF: -FUTURE GOALS STACK: - - -Rocq-Elpi mapping: -RAW: -ELAB: - -Debug: -[elpi] - elpi sigma -> coq sigma: after: -SHELF: -FUTURE GOALS STACK: - - -Rocq-Elpi mapping: -RAW: -ELAB: - -Debug: -[elpi] - lp2term: depth=0 ctx=[] term=fun `u` X0 c0 \ - app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -Debug: -[elpi] - lp2term@0:fun `u` X0 c0 \ - app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -Debug: [elpi] lp2term@0:X0 -Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: -ELAB: - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X0 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; -Debug: [elpi] lp2term: evar: create_unknown: visible ctx: -Debug: [elpi] restrict_coq_context: named: -Debug: [elpi] lp2term: evar: create_unknown: restricted ctx: -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X41 - EVARS: - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK: - ?X41 - -Debug: [elpi] lp2term@0:X0 -Debug: -[elpi] lp2term: evar: calldepth:0 X0 RAW: -?X41 <-> X0 -ELAB: -?X41 <-> X0 - -Debug: [elpi] lp2term: evar: already in Coq: ?X41 -Debug: -[elpi] - lp2term@1:app - [global (indc «SubType»), X1 c0, X2 c0, X3 c0, - app [global (const «oval»), c0], X4 c0, - fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] -Debug: [elpi] lp2term@1:global (indc «SubType») -Debug: [elpi] lp2term@1:X1 c0 -Debug: -[elpi] lp2term: evar: calldepth:0 X1 c0 RAW: -?X41 <-> X0 -ELAB: -?X41 <-> X0 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X1 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) -Debug: [elpi] in_elpi_evar:?X42 -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X43 - EVARS: - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@1:X1 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X1 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 - -Debug: [elpi] lp2term: evar: already in Coq: ?X43 -Debug: [elpi] lp2term@1:c0 -Debug: [elpi] lp2term@1:X2 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X2 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X2 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) -Debug: [elpi] in_elpi_evar:?X44 -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X45 - EVARS: - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 - elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X45 ?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@1:X2 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X2 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 - -Debug: [elpi] lp2term: evar: already in Coq: ?X45 -Debug: [elpi] lp2term@1:c0 -Debug: [elpi] lp2term@1:X3 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X3 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X3 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) -Debug: [elpi] in_elpi_evar:?X46 -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X47 - EVARS: - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 - elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= - -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X47 ?X46 ?X45 ?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@1:X3 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X3 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 - -Debug: [elpi] lp2term: evar: already in Coq: ?X47 -Debug: [elpi] lp2term@1:c0 -Debug: [elpi] lp2term@1:app [global (const «oval»), c0] -Debug: [elpi] lp2term@1:global (const «oval») -Debug: [elpi] lp2term@1:c0 -Debug: [elpi] lp2term@1:X4 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X4 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X4 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) -Debug: [elpi] in_elpi_evar:?X48 -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X49 - EVARS: - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 - elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 - elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@1:X4 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X4 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 - -Debug: [elpi] lp2term: evar: already in Coq: ?X49 -Debug: [elpi] lp2term@1:c0 -Debug: -[elpi] - lp2term@1:fun `K` (X5 c0) c1 \ - fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@1:X5 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X5 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X5 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X50 - EVARS: - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.34 elpi_tests_stdlib.test_quotation.33 - elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 - elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= - -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 - α31 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@1:X5 c0 -Debug: -[elpi] - lp2term: evar: calldepth:0 X5 c0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 - -Debug: [elpi] lp2term: evar: already in Coq: ?X50 -Debug: [elpi] lp2term@1:c0 -Debug: -[elpi] - lp2term@2:fun `K_S` (X6 c0 c1) c2 \ - fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@2:X6 c0 c1 -Debug: -[elpi] - lp2term: evar: calldepth:0 X6 c0 c1 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X6 -Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 -c1 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - restrict_coq_context: cur subst: u - restrict_coq_context: looking at K(dbl 1) -Debug: [elpi] ?e8--0->?e8 -Debug: -[elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X51 - EVARS: - ?X51==[u K |- Type] (internal placeholder) {?e9} - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 - elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 - elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 - elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 - α31 - α32 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@2:X6 c0 c1 -Debug: -[elpi] - lp2term: evar: calldepth:0 X6 c0 c1 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 - -Debug: [elpi] lp2term: evar: already in Coq: ?X51 -Debug: [elpi] lp2term@2:c0 -Debug: [elpi] lp2term@2:c1 -Debug: -[elpi] - lp2term@3:fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ - match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@3:X7 c0 c1 c2 -Debug: -[elpi] - lp2term: evar: calldepth:0 X7 c0 c1 c2 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X7 -Debug: -[elpi] - lp2term: evar: create_unknown: whole ctx: ; (u : ?e) - (K : ?e8) - (K_S : ?e9) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 -c2 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - restrict_coq_context: cur subst: u - restrict_coq_context: looking at K(dbl 1) -Debug: [elpi] ?e8--0->?e8 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - restrict_coq_context: cur subst: K - u - restrict_coq_context: looking at K_S(dbl 2) -Debug: [elpi] ?e9--0->?e9 -Debug: -[elpi] - lp2term: evar: create_unknown: restricted ctx:(u : ?e) - (K : ?e8) - (K_S : ?e9) -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X52 - EVARS: - ?X52==[u K K_S |- Type] (internal placeholder) {?e10} - ?X51==[u K |- Type] (internal placeholder) {?e9} - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.36 elpi_tests_stdlib.test_quotation.35 - elpi_tests_stdlib.test_quotation.34 elpi_tests_stdlib.test_quotation.33 - elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 - elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= - -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 - α31 - α32 - α33 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@3:X7 c0 c1 c2 -Debug: -[elpi] - lp2term: evar: calldepth:0 X7 c0 c1 c2 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 - -Debug: [elpi] lp2term: evar: already in Coq: ?X52 -Debug: [elpi] lp2term@3:c0 -Debug: [elpi] lp2term@3:c1 -Debug: [elpi] lp2term@3:c2 -Debug: -[elpi] - lp2term@4:match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) - [fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] -Debug: [elpi] lp2term@4:c3 -Debug: [elpi] lp2term@4:fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4] -Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 -Debug: -[elpi] - lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X8 -Debug: -[elpi] - lp2term: evar: create_unknown: whole ctx: ; (u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 -c3 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - restrict_coq_context: cur subst: u - restrict_coq_context: looking at K(dbl 1) -Debug: [elpi] ?e8--0->?e8 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - restrict_coq_context: cur subst: K - u - restrict_coq_context: looking at K_S(dbl 2) -Debug: [elpi] ?e9--0->?e9 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - (K_S : ?e9) - restrict_coq_context: cur subst: K_S - K - u - restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) -Debug: [elpi] ?e10--0->?e10 -Debug: -[elpi] - lp2term: evar: create_unknown: restricted ctx:(u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X53 - EVARS: - ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} - ?X52==[u K K_S |- Type] (internal placeholder) {?e10} - ?X51==[u K |- Type] (internal placeholder) {?e9} - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.37 elpi_tests_stdlib.test_quotation.36 - elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 - elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 - elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 - elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 - α31 - α32 - α33 - α34 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 -?X42 -?X41 - -Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 -Debug: -[elpi] - lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 - -Debug: [elpi] lp2term: evar: already in Coq: ?X53 -Debug: [elpi] lp2term@4:c0 -Debug: [elpi] lp2term@4:c1 -Debug: [elpi] lp2term@4:c2 -Debug: [elpi] lp2term@4:c3 -Debug: [elpi] lp2term@5:app [c1, c4] -Debug: [elpi] lp2term@5:c1 -Debug: [elpi] lp2term@5:c4 -Debug: -[elpi] - lp2term@4:fun `x` (X9 c0 c1 c2 c3) c4 \ - fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] -Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 -Debug: -[elpi] - lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X9 -Debug: -[elpi] - lp2term: evar: create_unknown: whole ctx: ; (u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 -c3 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - restrict_coq_context: cur subst: u - restrict_coq_context: looking at K(dbl 1) -Debug: [elpi] ?e8--0->?e8 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - restrict_coq_context: cur subst: K - u - restrict_coq_context: looking at K_S(dbl 2) -Debug: [elpi] ?e9--0->?e9 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - (K_S : ?e9) - restrict_coq_context: cur subst: K_S - K - u - restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) -Debug: [elpi] ?e10--0->?e10 -Debug: -[elpi] - lp2term: evar: create_unknown: restricted ctx:(u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X54 - EVARS: - ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} - ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} - ?X52==[u K K_S |- Type] (internal placeholder) {?e10} - ?X51==[u K |- Type] (internal placeholder) {?e9} - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.38 elpi_tests_stdlib.test_quotation.37 - elpi_tests_stdlib.test_quotation.36 elpi_tests_stdlib.test_quotation.35 - elpi_tests_stdlib.test_quotation.34 elpi_tests_stdlib.test_quotation.33 - elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 - elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= - -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 - α31 - α32 - α33 - α34 - α35 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 -?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 -Debug: -[elpi] - lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 - -Debug: [elpi] lp2term: evar: already in Coq: ?X54 -Debug: [elpi] lp2term@4:c0 -Debug: [elpi] lp2term@4:c1 -Debug: [elpi] lp2term@4:c2 -Debug: [elpi] lp2term@4:c3 -Debug: [elpi] lp2term@5:fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] -Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 -Debug: -[elpi] - lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 - -Debug: [elpi] lp2term: evar: unknown: calldepth:0 X10 -Debug: -[elpi] - lp2term: evar: create_unknown: whole ctx: ; (u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) - (x : ?e12) -Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 c3 -c4 -Debug: [elpi] restrict_coq_context: named: -Debug: -[elpi] - restrict_coq_context: cur rel ctx: - restrict_coq_context: cur subst: - restrict_coq_context: looking at u(dbl 0) -Debug: [elpi] ?e--0->?e -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - restrict_coq_context: cur subst: u - restrict_coq_context: looking at K(dbl 1) -Debug: [elpi] ?e8--0->?e8 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - restrict_coq_context: cur subst: K - u - restrict_coq_context: looking at K_S(dbl 2) -Debug: [elpi] ?e9--0->?e9 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - (K_S : ?e9) - restrict_coq_context: cur subst: K_S - K - u - restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) -Debug: [elpi] ?e10--0->?e10 -Debug: -[elpi] - restrict_coq_context: cur rel ctx: (u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) - restrict_coq_context: cur subst: _elpi_renamed_u_3 - K_S - K - u - restrict_coq_context: looking at x(dbl 4) -Debug: [elpi] ?e12--0->?e12 -Debug: -[elpi] - lp2term: evar: create_unknown: restricted ctx:(u : ?e) - (K : ?e8) - (K_S : ?e9) - (_elpi_renamed_u_3 : ?e10) - (x : ?e12) -Debug: -[elpi] - lp2term: evar: create_unknown: new link: ? |> |- ? = ?X55 - EVARS: - ?X55==[u K K_S _elpi_renamed_u_3 x |- Type] (internal placeholder) {?e13} - ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} - ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} - ?X52==[u K K_S |- Type] (internal placeholder) {?e10} - ?X51==[u K |- Type] (internal placeholder) {?e9} - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - -UNIVERSES: - {elpi_tests_stdlib.test_quotation.39 elpi_tests_stdlib.test_quotation.38 - elpi_tests_stdlib.test_quotation.37 elpi_tests_stdlib.test_quotation.36 - elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 - elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 - elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 - elpi_tests_stdlib.test_quotation.29} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α26 - α27 - α28 - α29 - α30 - α31 - α32 - α33 - α34 - α35 - α36 -WEAK CONSTRAINTS: - -SHELF: -FUTURE GOALS STACK:?X55 ?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 -?X44 ?X43 ?X42 -?X41 - -Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 -Debug: -[elpi] - lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] lp2term: evar: already in Coq: ?X55 -Debug: [elpi] lp2term@5:c0 -Debug: [elpi] lp2term@5:c1 -Debug: [elpi] lp2term@5:c2 -Debug: [elpi] lp2term@5:c3 -Debug: [elpi] lp2term@5:c4 -Debug: [elpi] lp2term@6:app [c2, c4, c5] -Debug: [elpi] lp2term@6:c2 -Debug: [elpi] lp2term@6:c4 -Debug: [elpi] lp2term@6:c5 -Debug: -[elpi] - lp2term: out=(fun u : ?e => - {| - val := oval u; - Sub := ?e7; - Sub_rect := - fun (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) => - let - (x, Px) as u0 - return - ?e11@{u:=K; K:=K_S; K_S:=_elpi_renamed_u_3; - _elpi_renamed_u_3:=u0} := _elpi_renamed_u_3 in - K_S x Px - |}) - elpi2coq: - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -EVARS: - ?X55==[u K K_S _elpi_renamed_u_3 x |- Type] (internal placeholder) {?e13} - ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} - ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} - ?X52==[u K K_S |- Type] (internal placeholder) {?e10} - ?X51==[u K |- Type] (internal placeholder) {?e9} - ?X50==[u |- Type] (internal placeholder) {?e8} - ?X49==[u |- ?e6] (internal placeholder) {?e7} - ?X48==[u |- Type] (internal placeholder) {?e6} - ?X47==[u |- ?e4] (internal placeholder) {?e5} - ?X46==[u |- Type] (internal placeholder) {?e4} - ?X45==[u |- ?e2] (internal placeholder) {?e3} - ?X44==[u |- Type] (internal placeholder) {?e2} - ?X43==[u |- ?e0] (internal placeholder) {?e1} - ?X42==[u |- Type] (internal placeholder) {?e0} - ?X41==[ |- Type] (internal placeholder) {?e} - - UNIVERSES: - {elpi_tests_stdlib.test_quotation.39 elpi_tests_stdlib.test_quotation.38 - elpi_tests_stdlib.test_quotation.37 elpi_tests_stdlib.test_quotation.36 - elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 - elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 - elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 - elpi_tests_stdlib.test_quotation.29} |= - ALGEBRAIC UNIVERSES: - {} - FLEXIBLE UNIVERSES: - - SORTS: - α26 - α27 - α28 - α29 - α30 - α31 - α32 - α33 - α34 - α35 - α36 - WEAK CONSTRAINTS: - - SHELF: - - FUTURE GOALS STACK: - ?X55 - ?X54 - ?X53 - ?X52 - ?X51 - ?X50 - ?X49 - ?X48 - ?X47 - ?X46 - ?X45 - ?X44 - ?X43 - ?X42 - ?X41 - -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X41 <-> X0 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=0 ctx= term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.29») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to0 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X41 <-> X0 - declare-evar [] (X0) (sort (typ «elpi_tests_stdlib.test_quotation.29»)) - (X0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X42 <-> X12 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.30») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X42 <-> X12 - pi c0 \ - declare-evar [decl c0 `u` (X0)] (X12 c0) - (sort (typ «elpi_tests_stdlib.test_quotation.30»)) (X11 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X43 <-> X1 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e0 -Debug: [elpi] in_elpi_evar:?X42 -Debug: [elpi] in_elpi_evar: known ?X42 as X11 -Debug: [elpi] term2lp (out): X11 c0 -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X43 <-> X1 - pi c0 \ declare-evar [decl c0 `u` (X0)] (X1 c0) (X11 c0) (X1 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X44 <-> X14 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.31») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X44 <-> X14 - pi c0 \ - declare-evar [decl c0 `u` (X0)] (X14 c0) - (sort (typ «elpi_tests_stdlib.test_quotation.31»)) (X13 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X45 <-> X2 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e2 -Debug: [elpi] in_elpi_evar:?X44 -Debug: [elpi] in_elpi_evar: known ?X44 as X13 -Debug: [elpi] term2lp (out): X13 c0 -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X45 <-> X2 - pi c0 \ declare-evar [decl c0 `u` (X0)] (X2 c0) (X13 c0) (X2 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X46 <-> X16 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.32») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X46 <-> X16 - pi c0 \ - declare-evar [decl c0 `u` (X0)] (X16 c0) - (sort (typ «elpi_tests_stdlib.test_quotation.32»)) (X15 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X47 <-> X3 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e4 -Debug: [elpi] in_elpi_evar:?X46 -Debug: [elpi] in_elpi_evar: known ?X46 as X15 -Debug: [elpi] term2lp (out): X15 c0 -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X47 <-> X3 - pi c0 \ declare-evar [decl c0 `u` (X0)] (X3 c0) (X15 c0) (X3 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X48 <-> X18 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.33») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X48 <-> X18 - pi c0 \ - declare-evar [decl c0 `u` (X0)] (X18 c0) - (sort (typ «elpi_tests_stdlib.test_quotation.33»)) (X17 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X49 <-> X4 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e6 -Debug: [elpi] in_elpi_evar:?X48 -Debug: [elpi] in_elpi_evar: known ?X48 as X17 -Debug: [elpi] term2lp (out): X17 c0 -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X49 <-> X4 - pi c0 \ declare-evar [decl c0 `u` (X0)] (X4 c0) (X17 c0) (X4 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X50 <-> X5 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.34») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X50 <-> X5 - pi c0 \ - declare-evar [decl c0 `u` (X0)] (X5 c0) - (sort (typ «elpi_tests_stdlib.test_quotation.34»)) (X5 c0) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X51 <-> X6 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 -Debug: [elpi] in_elpi_evar:?X50 -Debug: [elpi] in_elpi_evar: known ?X50 as X5 -Debug: [elpi] term2lp (out): X5 c0 -Debug: [elpi] term2lp: depth=2 ctx=u : ?e K : ?e8 term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.35») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to2 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X51 <-> X6 - pi c0 \ - pi c1 \ - declare-evar [decl c1 `K` (X5 c0), decl c0 `u` X0] (X6 c0 c1) - (sort (typ «elpi_tests_stdlib.test_quotation.35»)) (X6 c0 c1) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X52 <-> X7 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 -Debug: [elpi] in_elpi_evar:?X50 -Debug: [elpi] in_elpi_evar: known ?X50 as X5 -Debug: [elpi] term2lp (out): X5 c0 -Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 -Debug: [elpi] in_elpi_evar:?X51 -Debug: [elpi] in_elpi_evar: known ?X51 as X6 -Debug: [elpi] term2lp (out): X6 c0 c1 -Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 K_S : ?e9 term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.36») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to3 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X52 <-> X7 - pi c0 \ - pi c1 \ - pi c2 \ - declare-evar - [decl c2 `K_S` (X6 c0 c1), decl c1 `K` (X5 c0), decl c0 `u` X0] - (X7 c0 c1 c2) (sort (typ «elpi_tests_stdlib.test_quotation.36»)) - (X7 c0 c1 c2) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X53 <-> X8 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 -Debug: [elpi] in_elpi_evar:?X50 -Debug: [elpi] in_elpi_evar: known ?X50 as X5 -Debug: [elpi] term2lp (out): X5 c0 -Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 -Debug: [elpi] in_elpi_evar:?X51 -Debug: [elpi] in_elpi_evar: known ?X51 as X6 -Debug: [elpi] term2lp (out): X6 c0 c1 -Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 -Debug: [elpi] in_elpi_evar:?X52 -Debug: [elpi] in_elpi_evar: known ?X52 as X7 -Debug: [elpi] term2lp (out): X7 c0 c1 c2 -Debug: -[elpi] - term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.37») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to4 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X53 <-> X8 - pi c0 \ - pi c1 \ - pi c2 \ - pi c3 \ - declare-evar - [decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), - decl c1 `K` (X5 c0), decl c0 `u` X0] (X8 c0 c1 c2 c3) - (sort (typ «elpi_tests_stdlib.test_quotation.37»)) (X8 c0 c1 c2 c3) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X54 <-> X9 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 -Debug: [elpi] in_elpi_evar:?X50 -Debug: [elpi] in_elpi_evar: known ?X50 as X5 -Debug: [elpi] term2lp (out): X5 c0 -Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 -Debug: [elpi] in_elpi_evar:?X51 -Debug: [elpi] in_elpi_evar: known ?X51 as X6 -Debug: [elpi] term2lp (out): X6 c0 c1 -Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 -Debug: [elpi] in_elpi_evar:?X52 -Debug: [elpi] in_elpi_evar: known ?X52 as X7 -Debug: [elpi] term2lp (out): X7 c0 c1 c2 -Debug: -[elpi] - term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.38») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to4 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X54 <-> X9 - pi c0 \ - pi c1 \ - pi c2 \ - pi c3 \ - declare-evar - [decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), - decl c1 `K` (X5 c0), decl c0 `u` X0] (X9 c0 c1 c2 c3) - (sort (typ «elpi_tests_stdlib.test_quotation.38»)) (X9 c0 c1 c2 c3) -Debug: -[elpi] - in_elpi_fresh_evar: unknown ?X55 <-> X10 - RAW: -?X41 <-> X0 -?X42 <-> X12 -?X43 <-> X1 -?X44 <-> X14 -?X45 <-> X2 -?X46 <-> X16 -?X47 <-> X3 -?X48 <-> X18 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 -ELAB: -?X41 <-> X0 -?X42 <-> X11 -?X43 <-> X1 -?X44 <-> X13 -?X45 <-> X2 -?X46 <-> X15 -?X47 <-> X3 -?X48 <-> X17 -?X49 <-> X4 -?X50 <-> X5 -?X51 <-> X6 -?X52 <-> X7 -?X53 <-> X8 -?X54 <-> X9 -?X55 <-> X10 - -Debug: [elpi] term2lp: depth=1 ctx= term=?e -Debug: [elpi] in_elpi_evar:?X41 -Debug: [elpi] in_elpi_evar: known ?X41 as X0 -Debug: [elpi] term2lp (out): X0 -Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 -Debug: [elpi] in_elpi_evar:?X50 -Debug: [elpi] in_elpi_evar: known ?X50 as X5 -Debug: [elpi] term2lp (out): X5 c0 -Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 -Debug: [elpi] in_elpi_evar:?X51 -Debug: [elpi] in_elpi_evar: known ?X51 as X6 -Debug: [elpi] term2lp (out): X6 c0 c1 -Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 -Debug: [elpi] in_elpi_evar:?X52 -Debug: [elpi] in_elpi_evar: known ?X52 as X7 -Debug: [elpi] term2lp (out): X7 c0 c1 c2 -Debug: -[elpi] - term2lp: depth=5 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term= - ?e12 -Debug: [elpi] in_elpi_evar:?X54 -Debug: [elpi] in_elpi_evar: known ?X54 as X9 -Debug: [elpi] term2lp (out): X9 c0 c1 c2 c3 -Debug: -[elpi] - term2lp: depth=5 ctx=u : ?e - K : ?e8 - K_S : ?e9 - _elpi_renamed_u_3 : ?e10 - x : ?e12 term=Type -Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.39») -Debug: [elpi] in_elpi_evar_concl: moving Ctx down to5 -Debug: -[elpi] - in_elpi_fresh_evar: new decl at depth:0 for ?X55 <-> X10 - pi c0 \ - pi c1 \ - pi c2 \ - pi c3 \ - pi c4 \ - declare-evar - [decl c4 `x` (X9 c0 c1 c2 c3), - decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), - decl c1 `K` (X5 c0), decl c0 `u` X0] (X10 c0 c1 c2 c3 c4) - (sort (typ «elpi_tests_stdlib.test_quotation.39»)) - (X10 c0 c1 c2 c3 c4) -Debug: -[elpi] - Elpi: query-compilation:0.0010 static-check:0.0000 optimization:0.0001 runtime:0.0100 (with error) - -hd - : forall A : Type, A -> list A -> A -Debug: [elpi] gterm2lp: term=hd -Debug: [elpi] Compiler cache: lookups=8, hits=6 - -Debug: [elpi] Compiler cache: lookups=0, hits=0 - -File "./tests-stdlib/test_quotation.v", line 47, characters 32-33: -Warning: -File "./tests-stdlib/test_quotation.v", line 47, characters 32-33 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -Query assignments: GRnat = indt «nat» GRplus = const «Nat.add» GRs = indc «S» @@ -4327,193 +1395,6 @@ File "./examples/tutorial_coq_elpi_HOAS.v", line 754, characters 12-14 Ty is linear: name it _Ty (discard) or Ty_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -Coq version: 8.20.1 = 8 . 20 . 1 -Query assignments: - MA = 8 - MI = 20 - P = 1 - V = 8.20.1 -hello world -A -B -Query assignments: - GR = «nat» -Query assignments: - GR = «Nat.add» - MP = «Coq.Init.Datatypes» -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»] -Universe constraints: -Query assignments: - X = «elpi.tests.test_API.1» -Universe constraints: -UNIVERSES: - {elpi.tests.test_API.1} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -[foo (const «X»), foo (indt «nat»), foo (indt «bool»)] -[foo (indt «nat»), foo (indt «bool»)] -[] -[foo (indt «nat»)] -hello [int 1, int 2, trm (global (indt «nat»)), str x] -coq.pp.box (coq.pp.hv 2) - [coq.pp.str Module, coq.pp.spc, coq.pp.str Foo, coq.pp.spc, coq.pp.str :=, - coq.pp.brk 1 0, coq.pp.str body, coq.pp.spc, coq.pp.str End Foo.] -Module - Foo - := - body - End Foo. -fix foo (x : ?e3) (y : ?e4) {struct x} : ?e2 := - match x as _elpi_renamed_x_3 return ?e6 with - | true => S (S (S O)) - | false => y - end -fix foo x y {struct x} := if x as _elpi_renamed_x_3 then 3 else y -File "./tests/test_API.v", line 73, characters 37-39: -Warning: -File "./tests/test_API.v", line 73, characters 37-39 -MP is linear: name it _MP (discard) or MP_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 81, characters 54-55: -Warning: -File "./tests/test_API.v", line 81, characters 54-55 -A is linear: name it _A (discard) or A_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 82, characters 56-58: -Warning: -File "./tests/test_API.v", line 82, characters 56-58 -MP is linear: name it _MP (discard) or MP_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 91, characters 29-30: -Warning: -File "./tests/test_API.v", line 91, characters 29-30 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 92, characters 29-30: -Warning: -File "./tests/test_API.v", line 92, characters 29-30 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 92, characters 31-32: -Warning: -File "./tests/test_API.v", line 92, characters 31-32 -Y is linear: name it _Y (discard) or Y_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 93, characters 28-29: -Warning: -File "./tests/test_API.v", line 93, characters 28-29 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 93, characters 30-31: -Warning: -File "./tests/test_API.v", line 93, characters 30-31 -Y is linear: name it _Y (discard) or Y_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 94, characters 36-37: -Warning: -File "./tests/test_API.v", line 94, characters 36-37 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 94, characters 38-39: -Warning: -File "./tests/test_API.v", line 94, characters 38-39 -Y is linear: name it _Y (discard) or Y_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 94, characters 40-41: -Warning: -File "./tests/test_API.v", line 94, characters 40-41 -Z is linear: name it _Z (discard) or Z_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 95, characters 29-30: -Warning: -File "./tests/test_API.v", line 95, characters 29-30 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API.v", line 95, characters 31-32: -Warning: -File "./tests/test_API.v", line 95, characters 31-32 -Y is linear: name it _Y (discard) or Y_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] File "./tests/perf_calls.v", line 11, characters 2-3: Warning: File "./tests/perf_calls.v", line 11, characters 2-3 @@ -5377,56 +2258,6 @@ File "./examples/tutorial_elpi_lang.v", line 1518, characters 28-29 C is linear: name it _C (discard) or C_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -eq_refl : d = 3 - : d = 3 -eq_refl : e = 4 - : e = 4 -foo = fun a b c : nat => a + b + c + d + e - : nat -> nat -> nat -> nat - -Arguments foo a%nat_scope [b]%nat_scope {c}%nat_scope -Query assignments: - %arg1 = const «foo» -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: - %arg1 = const «foo» -foo 3 - : nat -Query assignments: - %arg1 = const «f» - %arg2 = const «f» - %arg3 = const «f» - %arg4 = const «f» - %arg5 = 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: - %arg1 = 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 Hello [str world!] Hello [int 46] Hello [str there] @@ -5498,7 +2329,7 @@ interp x := some (app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]) -The module is «elpi_examples.tutorial_coq_elpi_command.Module13» +The module is «elpi_examples.tutorial_coq_elpi_command.Module63» Box.Box.Box.Box.foo = fun n : nat => n + 2 : nat -> nat @@ -5513,6 +2344,16 @@ File "./examples/tutorial_coq_elpi_command.v", line 644, characters 7-14: Warning: This command does not support this attribute: unknown. [unsupported-attributes,parsing,default] +eq_refl : d = 3 + : d = 3 +eq_refl : e = 4 + : e = 4 +foo = fun a b c : nat => a + b + c + d + e + : nat -> nat -> nat -> nat + +Arguments foo a%nat_scope [b]%nat_scope {c}%nat_scope +Query assignments: + %arg1 = const «foo» Query assignments: GR = const «myi» Query assignments: @@ -5734,6 +2575,10 @@ File "./tests/test_API_TC_CS.v", line 159, characters 32-33 L is linear: name it _L (discard) or L_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] +The argument fun x : ?e => x + ?e1 was closed under 1 binders +old replacement: fun (x : ?e) (y : ?e0) => x - y with +fun (y : ?e1) (x : ?e2) => y + x +new replacement: fun y : ?e0 => x - y with fun y : ?e1 => y + x Debug: run 1 {{{ Debug: @@ -5937,7 +2782,7 @@ Debug: rid:0 step:5 gid:8 user:rule:backchain = success -Debug: }}} -> (0.000s) +Debug: }}} -> (0.001s) Debug: run 6 {{{ Debug: @@ -6434,7 +3279,7 @@ Debug: rid:0 step:22 gid:26 user:rule:backchain = success -Debug: }}} -> (0.001s) +Debug: }}} -> (0.000s) Debug: run 23 {{{ Debug: @@ -7074,7 +3919,7 @@ Debug: rid:1 step:363 gid:1037 user:rule:backchain:candidates = File "builtin_stdlib.elpi", line 279, column 0, characters 9290-9316: -Debug: }}} -> (0.001s) +Debug: }}} -> (0.000s) Debug: select 270 {{{ Debug: @@ -7472,7 +4317,7 @@ Debug: rid:1 step:367 gid:1049 user:rule:backchain = success -Debug: }}} -> (0.001s) +Debug: }}} -> (0.000s) Debug: run 368 {{{ Debug: @@ -7551,7 +4396,7 @@ Debug: rid:1 step:368 gid:1049 user:rule:eq = success -Debug: }}} -> (0.001s) +Debug: }}} -> (0.000s) Debug: run 369 {{{ Debug: @@ -7786,204 +4631,233 @@ Arguments expanded_g T%type_scope op%function_scope (l s)%list_scope h%bool_scope +Coq version: 8.20.1 = 8 . 20 . 1 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» -elpi.tests.test_API_module.X.i -[elpi, tests, test_API_module, X, Y] -[elpi, tests, test_API_module, X, Y] + MA = 8 + MI = 20 + P = 1 + V = 8.20.1 +hello world +A +B Query assignments: - %arg1 = elpi.tests.test_API_module.X.i - %arg2 = elpi.tests.test_API_module.X.i - %arg3 = elpi.tests.test_API_module.X.Y.i - %arg4 = [elpi, tests, test_API_module, X, Y] - %arg5 = [elpi, tests, test_API_module, X, Y] - L = [gref (indt «X.i»), gref (const «X.i_rect»), gref (const «X.i_ind»), - gref (const «X.i_rec»), gref (const «X.i_sind»), gref (const «X.d»), - submodule «elpi.tests.test_API_module.X.Y» - [gref (indt «X.Y.i»), gref (const «X.Y.i_rect»), - gref (const «X.Y.i_ind»), gref (const «X.Y.i_rec»), - gref (const «X.Y.i_sind»), gref (const «X.Y.d»)]] - MP = «elpi.tests.test_API_module.X» - XYi = «X.Y.i» - XYr = «X.Y.i_rect» - Xi = «X.i» + GR = «nat» Query assignments: - I = «Y.i» - ID = j - J = «Y.j» - MP = «elpi.tests.test_API_module.Y» - P = [elpi, tests, test_API_module, Y] + GR = «Nat.add» + MP = «Coq.Init.Datatypes» Query assignments: - Mp_ta = «elpi.tests.test_API_module.TA» + 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»] +Universe constraints: Query assignments: - GRy = EXN PRINTING: Not_found - I = EXN PRINTING: Not_found - L = [gref (const «A.z»), gref (const «A.i»)] - MP = «elpi.tests.test_API_module.A» - MP_TA = «elpi.tests.test_API_module.TA» - X1_ = «A.i.u0» - X2_ = «elpi.tests.test_API_module.11» + X = «elpi.tests.test_API.1» Universe constraints: UNIVERSES: - + {elpi.tests.test_API.1} |= ALGEBRAIC UNIVERSES: - {elpi.tests.test_API_module.11 A.i.u0} + {} FLEXIBLE 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 ] -Query assignments: - A = «elpi.tests.test_API_module.a» - MP_TA = «elpi.tests.test_API_module.TA» - TF = «elpi.tests.test_API_module.TF» -Query assignments: - %arg1 = «elpi.tests.test_API_module.a» - %arg2 = const const EXN PRINTING: Not_found - MP_TA = «elpi.tests.test_API_module.TA» - MP_TF = «elpi.tests.test_API_module.TF» -Module -F - : Funsig (a:TA) Funsig (b:TA) TF -:= Functor (a:TA) Functor (b:TA) Struct Definition w : nat. End -Module B : Sig Parameter w : nat. End := (F A A) -*** [ B.w : nat ] -Query assignments: - MP_TA = «elpi.tests.test_API_module.TA» -Module Type TB = Funsig (A:TA) Sig End -Query assignments: - A = «elpi.tests.test_API_module.A» Query assignments: - %arg1 = «elpi.tests.test_API_module.A» -Module IA := Struct Definition z : nat. Definition i : Type. End -Query assignments: - %arg1 = «elpi.tests.test_API_module.IA» -Query assignments: - %arg1 = «elpi.tests.test_API_module.IA» -i - : Type + 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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + +WEAK CONSTRAINTS: + + Query assignments: - %arg1 = «elpi.tests.test_API_module.TA» + 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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + +WEAK CONSTRAINTS: + + Query assignments: - %arg1 = «elpi.tests.test_API_module.TA» -Module Type ITA = Sig Parameter z : nat. Parameter i : Type. End + 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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + +WEAK CONSTRAINTS: + + 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» -File "./tests/test_API_module.v", line 7, characters 69-70: + 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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + +WEAK CONSTRAINTS: + + +[foo (const «X»), foo (indt «nat»), foo (indt «bool»)] +[foo (indt «nat»), foo (indt «bool»)] +[] +[foo (indt «nat»)] +hello [int 1, int 2, trm (global (indt «nat»)), str x] +coq.pp.box (coq.pp.hv 2) + [coq.pp.str Module, coq.pp.spc, coq.pp.str Foo, coq.pp.spc, coq.pp.str :=, + coq.pp.brk 1 0, coq.pp.str body, coq.pp.spc, coq.pp.str End Foo.] +Module + Foo + := + body + End Foo. +fix foo (x : ?e3) (y : ?e4) {struct x} : ?e2 := + match x as _elpi_renamed_x_3 return ?e6 with + | true => S (S (S O)) + | false => y + end +fix foo x y {struct x} := if x as _elpi_renamed_x_3 then 3 else y +File "./tests/test_API.v", line 73, characters 37-39: Warning: -File "./tests/test_API_module.v", line 7, characters 69-70 -L is linear: name it _L (discard) or L_ (fresh variable) +File "./tests/test_API.v", line 73, characters 37-39 +MP is linear: name it _MP (discard) or MP_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API_module.v", line 50, characters 26-28: +File "./tests/test_API.v", line 81, characters 54-55: Warning: -File "./tests/test_API_module.v", line 50, characters 26-28 -ID is linear: name it _ID (discard) or ID_ (fresh variable) +File "./tests/test_API.v", line 81, characters 54-55 +A is linear: name it _A (discard) or A_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API_module.v", line 49, characters 28-29: +File "./tests/test_API.v", line 82, characters 56-58: Warning: -File "./tests/test_API_module.v", line 49, characters 28-29 -P is linear: name it _P (discard) or P_ (fresh variable) +File "./tests/test_API.v", line 82, characters 56-58 +MP is linear: name it _MP (discard) or MP_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API_module.v", line 77, characters 21-22: +File "./tests/test_API.v", line 91, characters 29-30: Warning: -File "./tests/test_API_module.v", line 77, characters 21-22 -L is linear: name it _L (discard) or L_ (fresh variable) +File "./tests/test_API.v", line 91, characters 29-30 +X is linear: name it _X (discard) or X_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API_module.v", line 67, characters 27-32: +File "./tests/test_API.v", line 92, characters 29-30: Warning: -File "./tests/test_API_module.v", line 67, characters 27-32 -MP_TA is linear: name it _MP_TA (discard) or MP_TA_ (fresh variable) +File "./tests/test_API.v", line 92, characters 29-30 +X is linear: name it _X (discard) or X_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API_module.v", line 102, characters 31-36: +File "./tests/test_API.v", line 92, characters 31-32: Warning: -File "./tests/test_API_module.v", line 102, characters 31-36 -MP_TA is linear: name it _MP_TA (discard) or MP_TA_ (fresh variable) +File "./tests/test_API.v", line 92, characters 31-32 +Y is linear: name it _Y (discard) or Y_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_API_module.v", line 101, characters 27-32: +File "./tests/test_API.v", line 93, characters 28-29: Warning: -File "./tests/test_API_module.v", line 101, characters 27-32 -MP_TF is linear: name it _MP_TF (discard) or MP_TF_ (fresh variable) +File "./tests/test_API.v", line 93, characters 28-29 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API.v", line 93, characters 30-31: +Warning: +File "./tests/test_API.v", line 93, characters 30-31 +Y is linear: name it _Y (discard) or Y_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API.v", line 94, characters 36-37: +Warning: +File "./tests/test_API.v", line 94, characters 36-37 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API.v", line 94, characters 38-39: +Warning: +File "./tests/test_API.v", line 94, characters 38-39 +Y is linear: name it _Y (discard) or Y_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API.v", line 94, characters 40-41: +Warning: +File "./tests/test_API.v", line 94, characters 40-41 +Z is linear: name it _Z (discard) or Z_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API.v", line 95, characters 29-30: +Warning: +File "./tests/test_API.v", line 95, characters 29-30 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API.v", line 95, characters 31-32: +Warning: +File "./tests/test_API.v", line 95, characters 31-32 +Y is linear: name it _Y (discard) or Y_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +Query assignments: + I = const «imp» +X2.imp : forall (T : Type) (x : T), x = x -> Prop + +X2.imp is not universe polymorphic +Arguments X2.imp T%type_scope x _ +Expands to: Constant elpi.tests.test_API_arguments.X2.imp +Query assignments: + %arg1 = const «foo» +foo 3 + : nat +Query assignments: + %arg1 = const «f» + %arg2 = const «f» + %arg3 = const «f» + %arg4 = const «f» + %arg5 = 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: + %arg1 = 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 Query assignments: E = fun `n` (global (indt «nat»)) c0 \ fun `t` (app [global (const «T2»), c0]) c1 \ @@ -8170,90 +5044,207 @@ File "./tests/test_API_elaborate.v", line 170, characters 33-34 Y is linear: name it _Y (discard) or Y_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -The argument fun x : ?e => x + ?e1 was closed under 1 binders -old replacement: fun (x : ?e) (y : ?e0) => x - y with -fun (y : ?e1) (x : ?e2) => y + x -new replacement: fun y : ?e0 => x - y with fun y : ?e1 => y + x -«elpi.tests.test_API_notations.abbr» +Query q X0 +Query r X0 +Result r 1 Query assignments: - A = «elpi.tests.test_API_notations.abbr» - X1_ = X0 - X2_ = c0 \ -X1 c0 - X3_ = c0 \ -X2 c0 -Syntactic constraints: - {c0} : decl c0 `x` X0 ?- evar (X2 c0) (X3 c0) (X2 c0) /* suspended on X2 */ - {c0} : decl c0 `x` X0 - ?- evar (X4 c0) (sort (typ «elpi.tests.test_API_notations.3»)) (X3 c0) /* 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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α1 - α2 - α3 -WEAK CONSTRAINTS: - - -Notation abbr _elpi_ctx_entry_2_was_x_ _elpi_ctx_entry_1_ := - (_elpi_ctx_entry_2_was_x_ = _elpi_ctx_entry_2_was_x_) -Expands to: Notation elpi.tests.test_API_notations.abbr -4 = 4 - : Prop + 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» +elpi.tests.test_API_module.X.i +[elpi, tests, test_API_module, X, Y] +[elpi, tests, test_API_module, X, Y] Query assignments: - X4_ = X0 - X5_ = c0 \ -X1 c0 - X6_ = c0 \ -X2 c0 -Syntactic constraints: - {c0} : decl c0 `x` X0 ?- evar (X2 c0) (X3 c0) (X2 c0) /* suspended on X2 */ - {c0} : decl c0 `x` X0 - ?- evar (X4 c0) (sort (typ «elpi.tests.test_API_notations.6»)) (X3 c0) /* 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 */ + %arg1 = elpi.tests.test_API_module.X.i + %arg2 = elpi.tests.test_API_module.X.i + %arg3 = elpi.tests.test_API_module.X.Y.i + %arg4 = [elpi, tests, test_API_module, X, Y] + %arg5 = [elpi, tests, test_API_module, X, Y] + L = [gref (indt «X.i»), gref (const «X.i_rect»), gref (const «X.i_ind»), + gref (const «X.i_rec»), gref (const «X.i_sind»), gref (const «X.d»), + submodule «elpi.tests.test_API_module.X.Y» + [gref (indt «X.Y.i»), gref (const «X.Y.i_rect»), + gref (const «X.Y.i_ind»), gref (const «X.Y.i_rec»), + gref (const «X.Y.i_sind»), gref (const «X.Y.d»)]] + MP = «elpi.tests.test_API_module.X» + XYi = «X.Y.i» + XYr = «X.Y.i_rect» + Xi = «X.i» +Query assignments: + I = «Y.i» + ID = j + J = «Y.j» + MP = «elpi.tests.test_API_module.Y» + P = [elpi, tests, test_API_module, Y] +Query assignments: + Mp_ta = «elpi.tests.test_API_module.TA» +Query assignments: + GRy = EXN PRINTING: Not_found + I = EXN PRINTING: Not_found + L = [gref (const «A.z»), gref (const «A.i»)] + MP = «elpi.tests.test_API_module.A» + MP_TA = «elpi.tests.test_API_module.TA» + X1_ = «A.i.u0» + X2_ = «elpi.tests.test_API_module.11» Universe constraints: UNIVERSES: - {elpi.tests.test_API_notations.6 elpi.tests.test_API_notations.5 - elpi.tests.test_API_notations.4} |= + ALGEBRAIC UNIVERSES: - {} + {elpi.tests.test_API_module.11 A.i.u0} FLEXIBLE UNIVERSES: - + elpi.tests.test_API_module.11 + A.i.u0 SORTS: - α4 - α5 - α6 + WEAK CONSTRAINTS: -Notation abbr2 _elpi_ctx_entry_1_was_x_ := - (fun _ => _elpi_ctx_entry_1_was_x_ = _elpi_ctx_entry_1_was_x_) -Expands to: Notation elpi.tests.test_API_notations.abbr2 -(fun _ : nat => 2 = 2) 3 - : Prop -fun `_` X0 c0 \ - app [global (indt «eq»), X1, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] +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 ] Query assignments: - %arg1 = «elpi.tests.test_API_notations.abbr2» - T = fun `_` X0 c0 \ - app [global (indt «eq»), X1, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] - X7_ = X2 + A = «elpi.tests.test_API_module.a» + MP_TA = «elpi.tests.test_API_module.TA» + TF = «elpi.tests.test_API_module.TF» Query assignments: - %arg1 = «elpi.tests.test_API_notations.abbr2» -Query q X0 -Query r X0 -Result r 1 + %arg1 = «elpi.tests.test_API_module.a» + %arg2 = const const EXN PRINTING: Not_found + MP_TA = «elpi.tests.test_API_module.TA» + MP_TF = «elpi.tests.test_API_module.TF» +Module +F + : Funsig (a:TA) Funsig (b:TA) TF +:= Functor (a:TA) Functor (b:TA) Struct Definition w : nat. End +Module B : Sig Parameter w : nat. End := (F A A) +*** [ B.w : nat ] +Query assignments: + MP_TA = «elpi.tests.test_API_module.TA» +Module Type TB = Funsig (A:TA) Sig End +Query assignments: + A = «elpi.tests.test_API_module.A» +Query assignments: + %arg1 = «elpi.tests.test_API_module.A» +Module IA := Struct Definition z : nat. Definition i : Type. End +Query assignments: + %arg1 = «elpi.tests.test_API_module.IA» +Query assignments: + %arg1 = «elpi.tests.test_API_module.IA» +i + : Type +Query assignments: + %arg1 = «elpi.tests.test_API_module.TA» +Query assignments: + %arg1 = «elpi.tests.test_API_module.TA» +Module Type ITA = Sig Parameter z : nat. Parameter i : Type. End +Query assignments: + F = «elpi.tests.test_API_module.R.F» + FT = «elpi.tests.test_API_module.R.FT» + L = [submodule «elpi.tests.test_API_module.R.S» [gref (const «R.S.x»)], + module-type «elpi.tests.test_API_module.R.P1», + module-type «elpi.tests.test_API_module.R.P2», + «elpi.tests.test_API_module.R.F» module-functor + [«elpi.tests.test_API_module.R.P1», «elpi.tests.test_API_module.R.P2»], + «elpi.tests.test_API_module.R.FT» module-type-functor + [«elpi.tests.test_API_module.R.P2», «elpi.tests.test_API_module.R.P1»], + gref (const «R.a»)] + P1 = «elpi.tests.test_API_module.R.P1» + P2 = «elpi.tests.test_API_module.R.P2» + R = «elpi.tests.test_API_module.R» + S = «elpi.tests.test_API_module.R.S» +File "./tests/test_API_module.v", line 7, characters 69-70: +Warning: +File "./tests/test_API_module.v", line 7, characters 69-70 +L is linear: name it _L (discard) or L_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API_module.v", line 50, characters 26-28: +Warning: +File "./tests/test_API_module.v", line 50, characters 26-28 +ID is linear: name it _ID (discard) or ID_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API_module.v", line 49, characters 28-29: +Warning: +File "./tests/test_API_module.v", line 49, characters 28-29 +P is linear: name it _P (discard) or P_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API_module.v", line 77, characters 21-22: +Warning: +File "./tests/test_API_module.v", line 77, characters 21-22 +L is linear: name it _L (discard) or L_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API_module.v", line 67, characters 27-32: +Warning: +File "./tests/test_API_module.v", line 67, characters 27-32 +MP_TA is linear: name it _MP_TA (discard) or MP_TA_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API_module.v", line 102, characters 31-36: +Warning: +File "./tests/test_API_module.v", line 102, characters 31-36 +MP_TA is linear: name it _MP_TA (discard) or MP_TA_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_API_module.v", line 101, characters 27-32: +Warning: +File "./tests/test_API_module.v", line 101, characters 27-32 +MP_TF is linear: name it _MP_TF (discard) or MP_TF_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] Query assignments: CA = «a» CB = «b» @@ -8277,6 +5268,9 @@ : nat bar : bool -> nat : bool -> nat +File "./tests/test_File3.v", line 18, characters 2-16: +Warning: This command does not support this attribute: phase. +[unsupported-attributes,parsing,default] Goal: [decl c1 `y` (global (indt «nat»)), decl c0 `x` (global (indt «nat»))] |- X0 c0 c1 : @@ -8380,9 +5374,119 @@ File "./examples/tutorial_coq_elpi_tactic.v", line 844, characters 44-46 G2 is linear: name it _G2 (discard) or G2_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_File3.v", line 18, characters 2-16: -Warning: This command does not support this attribute: phase. -[unsupported-attributes,parsing,default] +«elpi.tests.test_API_notations.abbr» +Query assignments: + A = «elpi.tests.test_API_notations.abbr» + X1_ = X0 + X2_ = c0 \ +X1 c0 + X3_ = c0 \ +X2 c0 +Syntactic constraints: + {c0} : decl c0 `x` X0 ?- evar (X2 c0) (X3 c0) (X2 c0) /* suspended on X2 */ + {c0} : decl c0 `x` X0 + ?- evar (X4 c0) (sort (typ «elpi.tests.test_API_notations.3»)) (X3 c0) /* 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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α1 + α2 + α3 +WEAK CONSTRAINTS: + + +Notation abbr _elpi_ctx_entry_2_was_x_ _elpi_ctx_entry_1_ := + (_elpi_ctx_entry_2_was_x_ = _elpi_ctx_entry_2_was_x_) +Expands to: Notation elpi.tests.test_API_notations.abbr +4 = 4 + : Prop +Query assignments: + X4_ = X0 + X5_ = c0 \ +X1 c0 + X6_ = c0 \ +X2 c0 +Syntactic constraints: + {c0} : decl c0 `x` X0 ?- evar (X2 c0) (X3 c0) (X2 c0) /* suspended on X2 */ + {c0} : decl c0 `x` X0 + ?- evar (X4 c0) (sort (typ «elpi.tests.test_API_notations.6»)) (X3 c0) /* 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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α4 + α5 + α6 +WEAK CONSTRAINTS: + + +Notation abbr2 _elpi_ctx_entry_1_was_x_ := + (fun _ => _elpi_ctx_entry_1_was_x_ = _elpi_ctx_entry_1_was_x_) +Expands to: Notation elpi.tests.test_API_notations.abbr2 +(fun _ : nat => 2 = 2) 3 + : Prop +fun `_` X0 c0 \ + app [global (indt «eq»), X1, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] +Query assignments: + %arg1 = «elpi.tests.test_API_notations.abbr2» + T = fun `_` X0 c0 \ + app [global (indt «eq»), X1, fun `x` X2 c1 \ c1, fun `x` X2 c1 \ c1] + X7_ = X2 +Query assignments: + %arg1 = «elpi.tests.test_API_notations.abbr2» +normP : +forall {T : Type} {e : T} {op : T -> T -> T} {gamma : list T} {t1 t2 : lang}, +(forall a b c : T, op a (op b c) = op (op a b) c) -> +(forall a : T, op e a = a) -> +(forall a : T, op a e = a) -> +norm t1 = norm t2 -> interp T e op gamma t1 = interp T e op gamma t2 + +normP is not universe polymorphic +Arguments normP {T}%type_scope {e} {op}%function_scope + {gamma}%list_scope {t1 t2} (p1 p2 p3)%function_scope + H +normP is transparent +Expands to: Constant elpi_examples_stdlib.example_reflexive_tactic.normP +(fun x y z t : Z => + normP Z.add_assoc Z.add_0_l Z.add_0_r + (eq_refl + <: + norm (add (add (var 0) (var 1)) (add (add (var 2) zero) (var 3))) = + norm (add (add (var 0) (add (var 1) (var 2))) (var 3)))) +Debug: In environment +x, y, z, t : Z +Unable to unify "var 1" with + "var 0". +Raised at Loc.raise in file "lib/loc.ml", line 101, characters 16-23 +Called from Unification.unify_0_with_initial_metas in file "pretyping/unification.ml", line 1281, characters 13-48 +Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 +Called from Unification.unify_with_eta in file "pretyping/unification.ml", line 1320, characters 14-48 +Called from Unification.merge_instances in file "pretyping/unification.ml", line 1333, characters 23-64 +Called from Unification.w_merge.w_merge_rec in file "pretyping/unification.ml", line 1554, characters 14-63 +Called from Unification.w_merge in file "pretyping/unification.ml", lines 1608-1610, characters 4-35 +Called from Unification.w_unify_core_0 in file "pretyping/unification.ml", line 1661, characters 12-65 +Called from Clenv.clenv_unify in file "proofs/clenv.ml", line 298, characters 25-73 +Called from Clenv.res_pf.(fun) in file "proofs/clenv.ml", line 771, characters 16-56 +Called from Proofview.Goal.enter.f in file "engine/proofview.ml", line 1136, characters 40-46 +Called from Proofview.Goal.enter.(fun) in file "engine/proofview.ml", line 1141, characters 10-34 + Query assignments: BO = fix `add` 0 (prod `n` (global (indt «nat»)) c0 \ @@ -8539,42 +5643,6 @@ : r1 -> nat f2 : r2 -> nat -normP : -forall {T : Type} {e : T} {op : T -> T -> T} {gamma : list T} {t1 t2 : lang}, -(forall a b c : T, op a (op b c) = op (op a b) c) -> -(forall a : T, op e a = a) -> -(forall a : T, op a e = a) -> -norm t1 = norm t2 -> interp T e op gamma t1 = interp T e op gamma t2 - -normP is not universe polymorphic -Arguments normP {T}%type_scope {e} {op}%function_scope - {gamma}%list_scope {t1 t2} (p1 p2 p3)%function_scope - H -normP is transparent -Expands to: Constant elpi_examples_stdlib.example_reflexive_tactic.normP -(fun x y z t : Z => - normP Z.add_assoc Z.add_0_l Z.add_0_r - (eq_refl - <: - norm (add (add (var 0) (var 1)) (add (add (var 2) zero) (var 3))) = - norm (add (add (var 0) (add (var 1) (var 2))) (var 3)))) -Debug: In environment -x, y, z, t : Z -Unable to unify "var 1" with - "var 0". -Raised at Loc.raise in file "lib/loc.ml", line 101, characters 16-23 -Called from Unification.unify_0_with_initial_metas in file "pretyping/unification.ml", line 1281, characters 13-48 -Re-raised at Exninfo.iraise in file "clib/exninfo.ml", line 81, characters 4-38 -Called from Unification.unify_with_eta in file "pretyping/unification.ml", line 1320, characters 14-48 -Called from Unification.merge_instances in file "pretyping/unification.ml", line 1333, characters 23-64 -Called from Unification.w_merge.w_merge_rec in file "pretyping/unification.ml", line 1554, characters 14-63 -Called from Unification.w_merge in file "pretyping/unification.ml", lines 1608-1610, characters 4-35 -Called from Unification.w_unify_core_0 in file "pretyping/unification.ml", line 1661, characters 12-65 -Called from Clenv.clenv_unify in file "proofs/clenv.ml", line 298, characters 25-73 -Called from Clenv.res_pf.(fun) in file "proofs/clenv.ml", line 771, characters 16-56 -Called from Proofview.Goal.enter.f in file "engine/proofview.ml", line 1136, characters 40-46 -Called from Proofview.Goal.enter.(fun) in file "engine/proofview.ml", line 1141, characters 10-34 - Debug: ----<<---- enter: coq.say raw: @@ -11331,7 +8399,7 @@ Eliminators around the declaration for full backwards compatibility. [automatic-prop-lowering,deprecated-since-8.20,deprecated,default] Query assignments: - BO = fix `add` 0 + 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 \ @@ -11341,24 +8409,7 @@ fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] GR = «Nat.add» - GRNat = indt «nat» - GRSucc = indc «S» - Nat = global (indt «nat») - Succ = global (indc «S») - TY = prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat») -Query assignments: - GR = «empty_nat» - TY = global (indt «nat») -Query assignments: - GR1 = indc «Vector.nil» - GR2 = indt «nat» - GR3 = const «A» -add_equal -Query assignments: - %arg1 = add_equal - %arg2 = add_equal - BO = fix `add` 0 + 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 \ @@ -11367,2191 +8418,8 @@ [c2, fun `p` (global (indt «nat»)) c3 \ app [global (indc «S»), app [c0, c3, c2]]] - GR = «Nat.add» - NGR = «add_equal» - Name = add_equal - S = add - TY = prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat») -add_equal : nat -> nat -> nat - -add_equal is not universe polymorphic -Arguments add_equal (n m)%nat_scope -add_equal is opaque -Expands to: Constant elpi_tests_stdlib.test_API_env.add_equal -«myfalse» -Query assignments: - F = indt «False» - GR = «myfalse» -myfalse - : False -parameter T X0 (sort (typ X1)) c0 \ - record eq_class (sort (typ X2)) mk_eq_class - (field [canonical ff, coercion regular] eq_f (global (indt «bool»)) c1 \ - field X3 eq_proof - (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ - end-record) -Query assignments: - DECL = parameter T X0 (sort (typ «eq_class.u0»)) c0 \ - record eq_class (sort (typ «eq_class.u1»)) mk_eq_class - (field [canonical ff, coercion regular] eq_f (global (indt «bool»)) c1 \ - field X3 eq_proof - (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ - end-record) - GR = «eq_class» - X1_ = «eq_class.u0» - X2_ = «eq_class.u1» -Universe constraints: -UNIVERSES: - -ALGEBRAIC UNIVERSES: - {eq_class.u1 eq_class.u0} -FLEXIBLE UNIVERSES: - eq_class.u1 - eq_class.u0 -SORTS: - -WEAK CONSTRAINTS: - - -Record eq_class (T : Type@{eq_class.u0}) : Type@{eq_class.u1} := mk_eq_class - { eq_f : bool; eq_proof : eq_f = eq_f }. - -Arguments eq_class T%type_scope -Arguments mk_eq_class T%type_scope eq_f%bool_scope eq_proof -Arguments eq_f T%type_scope record -Arguments eq_proof T%type_scope record -fun x : eq_class nat => x : bool - : eq_class nat -> bool -p <- eq_proof ( xxx ) -Query assignments: - DECL = parameter T X0 (sort (typ «prim_eq_class.u0»)) c0 \ - record prim_eq_class (sort (typ «prim_eq_class.u1»)) mk_prim_eq_class - (field [canonical ff, coercion reversible] prim_eq_f - (global (indt «bool»)) c1 \ - field X1 prim_eq_proof - (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ - end-record) - GR = «prim_eq_class» - X3_ = «prim_eq_class.u0» - X4_ = «prim_eq_class.u1» -Universe constraints: -UNIVERSES: - -ALGEBRAIC UNIVERSES: - {prim_eq_class.u1 prim_eq_class.u0} -FLEXIBLE 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 *) -fun `r` (app [global (indt «prim_eq_class»), global (indt «nat»)]) c0 \ - app [primitive (proj elpi_tests_stdlib.test_API_env.prim_eq_f 1), c0] -Query assignments: - C = «pc» -Universe constraints: -UNIVERSES: - -ALGEBRAIC UNIVERSES: - {myind.u0} -FLEXIBLE 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 -Query assignments: - X6_ = «nuind.u0» - X7_ = «nuind.u1» -Universe constraints: -UNIVERSES: - -ALGEBRAIC UNIVERSES: - {nuind.u1 nuind.u0} -FLEXIBLE 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 -c0 global (indt «nat») -Query assignments: - T = global (indt «nat») -Query assignments: - D = parameter A X0 (sort (typ «tx.u0»)) c0 \ - inductive tx X1 - (parameter y X2 (global (indt «nat»)) c1 \ - arity (prod `_` (global (indt «bool»)) c2 \ sort (typ «tx.u1»))) c1 \ - [constructor K1x - (parameter y X3 (global (indt «nat»)) c2 \ - arity - (prod `x` c0 c3 \ - prod `n` (global (indt «nat»)) c4 \ - prod `p` - (app - [global (indt «eq»), global (indt «nat»), - app [global (indc «S»), c4], c2]) c5 \ - prod `e` (app [c1, c4, global (indc «true»)]) c6 \ - app [c1, c2, global (indc «true»)])), - constructor K2x - (parameter y X4 (global (indt «nat»)) c2 \ - arity (app [c1, c2, global (indc «false»)]))] - X8_ = «tx.u0» - X9_ = «tx.u1» -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_API_env.18 elpi_tests_stdlib.test_API_env.17 - elpi_tests_stdlib.test_API_env.16 elpi_tests_stdlib.test_API_env.15 - elpi_tests_stdlib.test_API_env.14 elpi_tests_stdlib.test_API_env.13 - elpi_tests_stdlib.test_API_env.11} |= - tx.u0 < elpi_tests_stdlib.test_API_env.11 - tx.u1 < elpi_tests_stdlib.test_API_env.13 - Set <= elpi_tests_stdlib.test_API_env.13 - Set <= elpi_tests_stdlib.test_API_env.14 - Set <= elpi_tests_stdlib.test_API_env.15 - Set <= elpi_tests_stdlib.test_API_env.16 - Set <= elpi_tests_stdlib.test_API_env.17 - Set <= elpi_tests_stdlib.test_API_env.18 - tx.u0 <= elpi_tests_stdlib.test_API_env.14 - tx.u1 <= elpi_tests_stdlib.test_API_env.14 - elpi_tests_stdlib.test_API_env.14 <= tx.u1 -ALGEBRAIC UNIVERSES: - {tx.u1 tx.u0} -FLEXIBLE UNIVERSES: - tx.u1 - tx.u0 -SORTS: - α2 := Type - α3 := Type - α4 := Type - α5 := Type -WEAK CONSTRAINTS: - - -Query assignments: - D = parameter A explicit (sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.22»)) c4 \ - prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.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_stdlib.test_API_env.22»)) c4 \ - prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.26» - UA = «elpi_tests_stdlib.test_API_env.20» - UB1 = «ind1.u0» - UB2 = «ind1.u0» - UB3 = «ind1.u0» - UC = «elpi_tests_stdlib.test_API_env.22» -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_API_env.26} |= - Set <= elpi_tests_stdlib.test_API_env.26 - ind1.u0 <= elpi_tests_stdlib.test_API_env.26 -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -Query assignments: - D = parameter A explicit (sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.22»)) c4 \ - prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.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_stdlib.test_API_env.22»)) c4 \ - prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.27» - UA = «elpi_tests_stdlib.test_API_env.20» - UB1 = «ind1.u0» - UB2 = «ind1.u0» - UB3 = «ind1.u0» - UC = «elpi_tests_stdlib.test_API_env.22» -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_API_env.27} |= - Set <= elpi_tests_stdlib.test_API_env.27 - ind1.u0 <= elpi_tests_stdlib.test_API_env.27 -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -Query assignments: - D = parameter P explicit (sort (typ «r1.u0»)) c0 \ - parameter p explicit c0 c1 \ - record r1 (sort (typ «r1.u0»)) mk_r1 - (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ - field [coercion off, canonical ff] f2 - (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) - D1 = parameter P explicit (sort (typ «r1.u0»)) c0 \ - parameter p explicit c0 c1 \ - record r1 (sort (typ «r1.u0»)) mk_r1 - (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ - field [coercion off, canonical ff] f2 - (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) - I = «r1» - UP = «r1.u0» - UR = «r1.u0» -Query assignments: - D = parameter P explicit (sort (typ «r1.u0»)) c0 \ - parameter p explicit c0 c1 \ - record r1 (sort (typ «r1.u0»)) mk_r1 - (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ - field [coercion regular, canonical ff] f2 - (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) - D1 = parameter P explicit (sort (typ «r1.u0»)) c0 \ - parameter p explicit c0 c1 \ - record r1 (sort (typ «r1.u0»)) mk_r1 - (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ - field [coercion regular, canonical ff] f2 - (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) - I = «r1» - UP = «r1.u0» - UR = «r1.u0» -{{ nat; S; }} -{{ nat; S; }} -Query assignments: - GR = const «Nat.add» - L = {{ nat; S; }} - S = {{ nat; S; }} -{{ X.a; }} {{ X.a; Nat.add; nat; }} -{{ X.a; }} {{ X.a; Nat.add; nat; O; S; }} -Query assignments: - %arg1 = const «X.a» - AllL = {{ X.a; Nat.add; nat; }} - AllS = {{ X.a; Nat.add; nat; O; S; }} - GR = const «X.b» - L = {{ X.a; }} - M = «elpi_tests_stdlib.test_API_env.HOAS.X» - S = {{ X.a; }} -Query assignments: - %arg1 = 3372 - 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; RIneq.Rle_Reflexive; - RIneq.Rle_Transitive; Rbasic_fun.Rle_abs; RIneq.Rle_antisym; - OrderedRing.Rle_antisymm; RIneq.Rle_dec; RIneq.Rle_ge; - OrderedRing.Rle_gt_cases; RIneq.Rle_le_eq; OrderedRing.Rle_le_minus; - RIneq.Rle_lt_dec; OrderedRing.Rle_lt_eq; OrderedRing.Rle_lt_trans; - RIneq.Rle_lt_trans; OrderedRing.Rle_ngt; RIneq.Rle_not_lt; - OrderedRing.Rle_refl; RIneq.Rle_refl; OrderedRing.Rle_trans; - RIneq.Rle_trans; Rdefinitions.RbaseSymbolsImpl.Rlt; RIneq.Rlt_0_1; - RIneq.Rlt_0_2; RIneq.Rlt_0_minus; RIneq.Rlt_0_sqr; Raxioms.Rlt_asym; - RIneq.Rlt_dec; Rdefinitions.RbaseSymbolsImpl.Rlt_def; - RIneq.Rlt_dichotomy_converse; RIneq.Rlt_gt; RIneq.Rlt_irrefl; - RIneq.Rlt_le; RIneq.Rlt_le_dec; OrderedRing.Rlt_le_neq; - OrderedRing.Rlt_le_trans; RIneq.Rlt_le_trans; OrderedRing.Rlt_lt_minus; - OrderedRing.Rlt_neq; OrderedRing.Rlt_nge; RIneq.Rlt_not_eq; - RIneq.Rlt_not_ge; RIneq.Rlt_not_le; RIneq.Rlt_or_le; - OrderedRing.Rlt_trans; Raxioms.Rlt_trans; OrderedRing.Rlt_trichotomy; - BinNat.N.Rlt_wd; PeanoNat.Nat.Rlt_wd; BinInt.Z.Rlt_wd; Rbasic_fun.Rmax; - Rbasic_fun.Rmax_Rlt; Rbasic_fun.Rmax_case_strong; Rbasic_fun.Rmax_l; - Rbasic_fun.Rmax_left; Rbasic_fun.Rmax_lub_lt; Rbasic_fun.Rmax_r; - Rbasic_fun.Rmax_right; Rbasic_fun.Rmax_stable_in_negreal; - Rbasic_fun.Rmin; Rbasic_fun.Rmin_Rgt; Rbasic_fun.Rmin_Rgt_l; - Rbasic_fun.Rmin_Rgt_r; Rbasic_fun.Rmin_case_strong; - Rbasic_fun.Rmin_glb_lt; Rbasic_fun.Rmin_l; Rbasic_fun.Rmin_r; - Rbasic_fun.Rmin_stable_in_posreal; Rdefinitions.Rminus; - RIneq.Rminus_0_r; RIneq.Rminus_diag_eq; RIneq.Rminus_diag_uniq; - RIneq.Rminus_diag_uniq_sym; OrderedRing.Rminus_eq_0; - RIneq.Rminus_eq_contra; RIneq.Rminus_ge; RIneq.Rminus_gt; - RIneq.Rminus_le; RIneq.Rminus_lt; RIneq.Rminus_not_eq; - RIneq.Rminus_plus_distr; RIneq.Rminus_plus_l_l; RIneq.Rminus_plus_r_l; - RIneq.Rminus_plus_r_r; Ring_theory.Rmul_0_l; Ring_theory.Rmul_1_l; - Ring_theory.Rmul_assoc; Ring_theory.Rmul_comm; Ring_theory.Rmul_ext; - Rdefinitions.RbaseSymbolsImpl.Rmult; RIneq.Rmult_0_l; RIneq.Rmult_0_r; - Raxioms.Rmult_1_l; RIneq.Rmult_1_r; Raxioms.Rmult_assoc; - Raxioms.Rmult_comm; Rdefinitions.RbaseSymbolsImpl.Rmult_def; - RIneq.Rmult_div_l; RIneq.Rmult_div_r; RIneq.Rmult_eq_compat_l; - RIneq.Rmult_eq_reg_l; RIneq.Rmult_ge_0_gt_0_lt_compat; - RIneq.Rmult_gt_0_compat; RIneq.Rmult_integral; - RIneq.Rmult_integral_contrapositive; - RIneq.Rmult_integral_contrapositive_currified; RIneq.Rmult_inv_r_id_l; - RIneq.Rmult_inv_r_id_m; RIneq.Rmult_inv_r_uniq; - RIneq.Rmult_le_0_lt_compat; RIneq.Rmult_le_compat; - RIneq.Rmult_le_compat_l; RIneq.Rmult_le_compat_neg_l; - RIneq.Rmult_le_compat_r; RIneq.Rmult_le_pos; RIneq.Rmult_lt_0_compat; - Raxioms.Rmult_lt_compat_l; RIneq.Rmult_lt_compat_r; - RIneq.Rmult_lt_gt_compat_neg_l; RIneq.Rmult_lt_reg_l; RIneq.Rmult_ne; - RIneq.Rmult_opp_opp; Raxioms.Rmult_plus_distr_l; - RIneq.Rmult_plus_distr_r; RMicromega.Rnegate; OrderedRing.Rneq_symm; - RMicromega.Rnormalise; RIneq.Rnot_gt_ge; RIneq.Rnot_le_gt; - RIneq.Rnot_le_lt; RIneq.Rnot_lt_ge; RIneq.Rnot_lt_le; - Rdefinitions.RbaseSymbolsImpl.Ropp; RIneq.Ropp_0; Rbasic_fun.Ropp_Rmin; - RIneq.Ropp_Ropp_IZR; Ring_theory.Ropp_add; Ring_theory.Ropp_def; - Rdefinitions.RbaseSymbolsImpl.Ropp_def; RIneq.Ropp_eq_0_compat; - RIneq.Ropp_eq_compat; RIneq.Ropp_eq_reg; Ring_theory.Ropp_ext; - RIneq.Ropp_ge_cancel; RIneq.Ropp_ge_le_contravar; - RIneq.Ropp_gt_lt_0_contravar; RIneq.Ropp_gt_lt_contravar; - RIneq.Ropp_involutive; RIneq.Ropp_le_cancel; RIneq.Ropp_le_contravar; - RIneq.Ropp_le_ge_contravar; RIneq.Ropp_lt_cancel; - RIneq.Ropp_lt_contravar; RIneq.Ropp_lt_gt_0_contravar; - RIneq.Ropp_lt_gt_contravar; OrderedRing.Ropp_lt_mono; - RIneq.Ropp_minus_distr; Ring_theory.Ropp_mul_l; RIneq.Ropp_mult_distr_l; - RIneq.Ropp_mult_distr_l_reverse; RIneq.Ropp_mult_distr_r; - RIneq.Ropp_neq_0_compat; Ring_theory.Ropp_opp; RIneq.Ropp_plus_distr; - OrderedRing.Ropp_pos_neg; RingMicromega.Rops_wd; - Rdefinitions.RbaseSymbolsImpl.Rplus; OrderedRing.Rplus_0_l; - Raxioms.Rplus_0_l; OrderedRing.Rplus_0_r; RIneq.Rplus_0_r; - RIneq.Rplus_0_r_uniq; Raxioms.Rplus_assoc; OrderedRing.Rplus_cancel_l; - OrderedRing.Rplus_comm; Raxioms.Rplus_comm; - Rdefinitions.RbaseSymbolsImpl.Rplus_def; RIneq.Rplus_diag; - RIneq.Rplus_eq_compat_l; RIneq.Rplus_eq_compat_r; RIneq.Rplus_eq_reg_l; - RIneq.Rplus_ge_compat_l; RIneq.Rplus_ge_compat_r; RIneq.Rplus_ge_reg_r; - RIneq.Rplus_half_diag; RIneq.Rplus_le_compat; RIneq.Rplus_le_compat_l; - RIneq.Rplus_le_compat_r; RIneq.Rplus_le_lt_0_compat; - RIneq.Rplus_le_lt_0_neq_0; RIneq.Rplus_le_lt_compat; - OrderedRing.Rplus_le_lt_mono; OrderedRing.Rplus_le_mono; - OrderedRing.Rplus_le_mono_l; OrderedRing.Rplus_le_mono_r; - RIneq.Rplus_le_reg_l; RIneq.Rplus_le_reg_r; RIneq.Rplus_lt_0_compat; - RIneq.Rplus_lt_compat; Raxioms.Rplus_lt_compat_l; - RIneq.Rplus_lt_compat_r; RIneq.Rplus_lt_le_0_compat; - RIneq.Rplus_lt_le_compat; OrderedRing.Rplus_lt_le_mono; - OrderedRing.Rplus_lt_mono; OrderedRing.Rplus_lt_mono_l; - OrderedRing.Rplus_lt_mono_r; RIneq.Rplus_lt_reg_l; RIneq.Rplus_lt_reg_r; - RIneq.Rplus_minus_assoc; RIneq.Rplus_minus_l; RIneq.Rplus_minus_r; - RIneq.Rplus_ne; OrderedRing.Rplus_nonneg_nonneg; - OrderedRing.Rplus_nonneg_pos; RIneq.Rplus_opp_l; Raxioms.Rplus_opp_r; - RIneq.Rplus_opp_r_uniq; OrderedRing.Rplus_pos_nonneg; - OrderedRing.Rplus_pos_pos; Rdefinitions.RbaseSymbolsImpl.Rquot1; - Rdefinitions.RbaseSymbolsImpl.Rquot2; - Rdefinitions.RbaseSymbolsImpl.Rrepr; Raxioms.Rrepr_0; Raxioms.Rrepr_1; - Rdefinitions.Rrepr_appart_0; Raxioms.Rrepr_le; Raxioms.Rrepr_mult; - Raxioms.Rrepr_opp; Raxioms.Rrepr_plus; Field_theory.Rring_ring_lemma1; - RMicromega.Rsor; RIneq.Rsqr; RIneq.Rsqr_0_uniq; RIneq.Rsqr_def; - RMicromega.Rsrt; Ring_theory.Rsub_def; Ring_theory.Rth_ARth; - OrderedRing.Rtimes_0_l; OrderedRing.Rtimes_0_r; OrderedRing.Rtimes_comm; - OrderedRing.Rtimes_neg_neg; OrderedRing.Rtimes_neq_0; - OrderedRing.Rtimes_nonneg_nonneg; OrderedRing.Rtimes_pos_neg; - OrderedRing.Rtimes_pos_pos; OrderedRing.Rtimes_square_nonneg; - RIneq.Rtotal_order; ConstructiveRcomplete.Rup_pos; - RingMicromega.SORRing_ring_lemma1; OrderedRing.SOR_ring_lemma1; - RingMicromega.SORcleb_morph; RingMicromega.SORcneqb_morph; - OrderedRing.SORle_antisymm; OrderedRing.SORle_refl; - OrderedRing.SORle_trans; OrderedRing.SORle_wd; OrderedRing.SORlt_le_neq; - OrderedRing.SORlt_trichotomy; OrderedRing.SORlt_wd; - OrderedRing.SORopp_wd; OrderedRing.SORplus_le_mono_l; - OrderedRing.SORplus_wd; RingMicromega.SORpower; RingMicromega.SORrm; - OrderedRing.SORrt; OrderedRing.SORsetoid; OrderedRing.SORtimes_pos_pos; - OrderedRing.SORtimes_wd; Ring_theory.SRadd_0_l; Ring_theory.SRadd_assoc; - Ring_theory.SRadd_comm; Ring_theory.SRadd_ext; Ring_theory.SRdistr_l; - Ring_theory.SReqe_Reqe; Ring_theory.SRmul_0_l; Ring_theory.SRmul_1_l; - Ring_theory.SRmul_assoc; Ring_theory.SRmul_comm; Ring_theory.SRmul_ext; - Ring_theory.SRopp; Ring_theory.SRopp_add; Ring_theory.SRopp_ext; - Ring_theory.SRopp_mul_l; Ring_theory.SRsub; Ring_theory.SRsub_def; - Ring_theory.SRth_ARth; Setoid.Seq_refl; Setoid.Seq_sym; - Setoid.Seq_trans; Setoid.Setoid_Theory; Ring_theory.Smorph0; - Ring_theory.Smorph1; Ring_theory.Smorph_add; Ring_theory.Smorph_eq; - Ring_theory.Smorph_morph; Ring_theory.Smorph_mul; - Ring_theory.Smorph_opp; Ring_theory.Smorph_sub; - RelationClasses.StrictOrder_Irreflexive; - RelationClasses.StrictOrder_Transitive; CRelationClasses.Symmetric; - RelationClasses.Symmetric; Tauto.TFormula; CRelationClasses.Transitive; - RelationClasses.Transitive; ConstructiveRcomplete.Un_cauchy_mod; - Rseries.Un_cv; ConstructiveLimits.Un_cv_nat_real; Init.Unconvertible; - ConstructiveCauchyRealsMult.Weaken_Qle_QpowerAddExp; - ConstructiveCauchyRealsMult.Weaken_Qle_QpowerFac; - ConstructiveCauchyRealsMult.Weaken_Qle_QpowerRemSubExp; - ZMicromega.ZChecker; ZMicromega.ZChecker_sound; ZMicromega.ZNpower; - ZMicromega.ZSORaddon; ZMicromega.ZTautoChecker; - ZMicromega.ZTautoChecker_sound; ZMicromega.ZWitness; Znat.Z_N_nat; - RIneq.Z_R_minus; ZArith_dec.Z_dec'; Zdiv.Z_div_mod; - Zdiv.Z_div_mod_eq_full; ConstructiveExtra.Z_inj_nat; -...TRUNCATED BY DUNE... - 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; 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; 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; }} - T = 0.696520 -Query assignments: - %arg1 = 4 - S = {{ Nat.add; eq; nat; O; }} - T = prod `x` (global (indt «nat»)) c0 \ - app - [global (indt «eq»), X0 c0, - app [global (const «Nat.add»), c0, global (indc «O»)], c0] - X10_ = c0 \ -X0 c0 -Syntactic constraints: - {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0) (X1 c0) (X0 c0) /* suspended on X0 */ - {c0} : decl c0 `x` (global (indt «nat»)) - ?- evar (X2 c0) (sort (typ «elpi_tests_stdlib.test_API_env.30»)) (X1 c0) /* suspended on X2, X1 */ -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_API_env.30} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α13 -WEAK CONSTRAINTS: - - -Query assignments: - Decl = record Rec (sort (typ «elpi_tests_stdlib.test_API_env.31»)) BuildRec - (field [] f (sort (typ «elpi_tests_stdlib.test_API_env.32»)) c0 \ - end-record) - X11_ = «elpi_tests_stdlib.test_API_env.31» - X12_ = «elpi_tests_stdlib.test_API_env.32» -Universe constraints: -UNIVERSES: - {elpi_tests_stdlib.test_API_env.32 elpi_tests_stdlib.test_API_env.31} |= -ALGEBRAIC UNIVERSES: - {elpi_tests_stdlib.test_API_env.32 elpi_tests_stdlib.test_API_env.31} -FLEXIBLE UNIVERSES: - elpi_tests_stdlib.test_API_env.32 - elpi_tests_stdlib.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_stdlib.test_API_env.33 -elpi_tests_stdlib.test_API_env.34} - : Test.Rec@{elpi_tests_stdlib.test_API_env.33 - elpi_tests_stdlib.test_API_env.34} -> - Type@{elpi_tests_stdlib.test_API_env.34} -(* {elpi_tests_stdlib.test_API_env.34 elpi_tests_stdlib.test_API_env.33} |= - elpi_tests_stdlib.test_API_env.34 < elpi_tests_stdlib.test_API_env.33 *) -Query assignments: - LP = «Coq.ZArith.Znat» - MP = «Coq.ZArith.Znat.N2Z» -File "./tests-stdlib/test_API_env.v", line 26, characters 24-26: -Warning: -File "./tests-stdlib/test_API_env.v", line 26, characters 24-26 -TY is linear: name it _TY (discard) or TY_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 82, characters 23-25: -Warning: -File "./tests-stdlib/test_API_env.v", line 82, characters 23-25 -GR is linear: name it _GR (discard) or GR_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 215, characters 71-72: -Warning: -File "./tests-stdlib/test_API_env.v", line 215, characters 71-72 -U is linear: name it _U (discard) or U_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 209, characters 39-41: -Warning: -File "./tests-stdlib/test_API_env.v", line 209, characters 39-41 -UA is linear: name it _UA (discard) or UA_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 212, characters 45-48: -Warning: -File "./tests-stdlib/test_API_env.v", line 212, characters 45-48 -UB1 is linear: name it _UB1 (discard) or UB1_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 218, characters 40-43: -Warning: -File "./tests-stdlib/test_API_env.v", line 218, characters 40-43 -UB2 is linear: name it _UB2 (discard) or UB2_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 225, characters 40-43: -Warning: -File "./tests-stdlib/test_API_env.v", line 225, characters 40-43 -UB3 is linear: name it _UB3 (discard) or UB3_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 215, characters 34-36: -Warning: -File "./tests-stdlib/test_API_env.v", line 215, characters 34-36 -UC is linear: name it _UC (discard) or UC_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 246, characters 71-72: -Warning: -File "./tests-stdlib/test_API_env.v", line 246, characters 71-72 -U is linear: name it _U (discard) or U_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 240, characters 39-41: -Warning: -File "./tests-stdlib/test_API_env.v", line 240, characters 39-41 -UA is linear: name it _UA (discard) or UA_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 243, characters 45-48: -Warning: -File "./tests-stdlib/test_API_env.v", line 243, characters 45-48 -UB1 is linear: name it _UB1 (discard) or UB1_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 249, characters 40-43: -Warning: -File "./tests-stdlib/test_API_env.v", line 249, characters 40-43 -UB2 is linear: name it _UB2 (discard) or UB2_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 256, characters 40-43: -Warning: -File "./tests-stdlib/test_API_env.v", line 256, characters 40-43 -UB3 is linear: name it _UB3 (discard) or UB3_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 246, characters 34-36: -Warning: -File "./tests-stdlib/test_API_env.v", line 246, characters 34-36 -UC is linear: name it _UC (discard) or UC_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 273, characters 39-41: -Warning: -File "./tests-stdlib/test_API_env.v", line 273, characters 39-41 -UP is linear: name it _UP (discard) or UP_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 275, characters 30-32: -Warning: -File "./tests-stdlib/test_API_env.v", line 275, characters 30-32 -UR is linear: name it _UR (discard) or UR_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 291, characters 39-41: -Warning: -File "./tests-stdlib/test_API_env.v", line 291, characters 39-41 -UP is linear: name it _UP (discard) or UP_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests-stdlib/test_API_env.v", line 293, characters 30-32: -Warning: -File "./tests-stdlib/test_API_env.v", line 293, characters 30-32 -UR is linear: name it _UR (discard) or UR_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -Query assignments: - P = /build/reproducible-path/coq-elpi-2.5.0/_build/default/elpi/elpi_elaborator.elpi -File "./tests/test_query_extra_dep.v", line 7, characters 44-45: -Warning: -File "./tests/test_query_extra_dep.v", line 7, characters 44-45 -P is linear: name it _P (discard) or P_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -z - : nat -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 -app - [global (indt «eq»), global (indt «nat»), - app - [global (const «map»), - fun `x` (global (indt «nat»)) c1 \ - app - [global (const «Nat.add»), c1, - app [global (indc «S»), global (indc «O»)]]], c0] -app - [global (indt «eq»), global (indt «nat»), - app - [global (const «map»), - fun `x` (global (indt «nat»)) c1 \ - app - [global (const «Nat.add»), c1, - app [global (indc «S»), global (indc «O»)]]], c0] -app - [global (indt «eq»), global (indt «nat»), - app - [global (const «map»), - fun `x0` (global (indt «nat»)) c1 \ - app - [global (const «Nat.add»), c1, - app [global (indc «S»), global (indc «O»)]]], c0] -synterp [str X] -interp [str X] -synterp [int 1] -interp [int 1] -synterp [trm _] -interp [trm (app [global (indc «S»), global (indc «O»)])] -synterp -[const-decl x (some _) - (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] -interp -[const-decl x - (some - (fun `P` (global (indt «bool»)) c0 \ - fun `Q` (global (indt «bool»)) c1 \ global (indc «O»))) - (parameter P explicit (global (indt «bool»)) c0 \ - parameter Q explicit (global (indt «bool»)) c1 \ - arity (global (indt «nat»)))] -synterp -[const-decl x none - (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] -interp -[const-decl x none - (parameter P explicit (global (indt «bool»)) c0 \ - parameter Q explicit (global (indt «bool»)) c1 \ - arity (global (indt «nat»)))] -synterp -[indt-decl - (parameter P explicit _ c0 \ - parameter Q explicit _ c1 \ - record x _ K - (field [coercion off, canonical tt] f1 _ c2 \ - field [coercion off, canonical tt] f2 _ c3 \ end-record))] -interp -[indt-decl - (parameter P explicit (global (indt «bool»)) c0 \ - parameter Q explicit (global (indt «bool»)) c1 \ - record x (sort (typ «Set»)) K - (field [coercion off, canonical tt] f1 (global (indt «nat»)) c2 \ - field [coercion off, canonical tt] f2 - (app [global (indt «eq»), global (indt «nat»), c2, c2]) c3 \ - end-record))] -synterp -[indt-decl - (parameter P explicit _ c0 \ - inductive x tt (parameter Q explicit _ c1 \ arity _) c1 \ - [constructor K (parameter Q explicit _ c2 \ arity _), - constructor R (parameter Q explicit _ c2 \ arity _)])] -interp -[indt-decl - (parameter P explicit (global (indt «bool»)) c0 \ - inductive x tt - (parameter Q explicit (global (indt «bool»)) c1 \ - arity (prod `_` (global (indt «nat»)) c2 \ sort (typ «Set»))) c1 \ - [constructor K - (parameter Q explicit (global (indt «bool»)) c2 \ - arity - (prod `_` (global (indt «nat»)) c3 \ - app - [c1, c2, - app - [global (indc «S»), - app - [global (indc «S»), - app [global (indc «S»), global (indc «O»)]]]])), - constructor R - (parameter Q explicit (global (indt «bool»)) c2 \ - arity - (prod `w` (global (indt «bool»)) c3 \ - app [c1, c2, app [global (indc «S»), global (indc «O»)]]))])] -synterp -[ctx-decl - (context-item A explicit _ none c0 \ - context-item B explicit _ none c1 \ context-end)] -interp -[ctx-decl - (context-item A explicit (global (indt «nat»)) none c0 \ - context-item B explicit (global (indt «bool»)) none c1 \ context-end)] -synterp [str X] -interp [str X] -synterp [int 1] -interp [int 1] -synterp [trm _] -interp [trm (app [global (indc «S»), global (indc «O»)])] -synterp -[const-decl x (some _) - (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] -interp -[const-decl x - (some - (fun `P` (global (indt «bool»)) c0 \ - fun `Q` (global (indt «bool»)) c1 \ global (indc «O»))) - (parameter P explicit (global (indt «bool»)) c0 \ - parameter Q explicit (global (indt «bool»)) c1 \ - arity (global (indt «nat»)))] -synterp -[const-decl x none - (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] -interp -[const-decl x none - (parameter P explicit (global (indt «bool»)) c0 \ - parameter Q explicit (global (indt «bool»)) c1 \ - arity (global (indt «nat»)))] -synterp -[indt-decl - (parameter P explicit _ c0 \ - parameter Q explicit _ c1 \ - record x _ K - (field [coercion off, canonical tt] f1 _ c2 \ - field [coercion off, canonical tt] f2 _ c3 \ end-record))] -interp -[indt-decl - (parameter P explicit (global (indt «bool»)) c0 \ - parameter Q explicit (global (indt «bool»)) c1 \ - record x (sort (typ «Set»)) K - (field [coercion off, canonical tt] f1 (global (indt «nat»)) c2 \ - field [coercion off, canonical tt] f2 - (app [global (indt «eq»), global (indt «nat»), c2, c2]) c3 \ - end-record))] -synterp -[indt-decl - (parameter P explicit _ c0 \ - inductive x tt (parameter Q explicit _ c1 \ arity _) c1 \ - [constructor K (parameter Q explicit _ c2 \ arity _), - constructor R (parameter Q explicit _ c2 \ arity _)])] -interp -[indt-decl - (parameter P explicit (global (indt «bool»)) c0 \ - inductive x tt - (parameter Q explicit (global (indt «bool»)) c1 \ - arity (prod `_` (global (indt «nat»)) c2 \ sort (typ «Set»))) c1 \ - [constructor K - (parameter Q explicit (global (indt «bool»)) c2 \ - arity - (prod `_` (global (indt «nat»)) c3 \ - app - [c1, c2, - app - [global (indc «S»), - app - [global (indc «S»), - app [global (indc «S»), global (indc «O»)]]]])), - constructor R - (parameter Q explicit (global (indt «bool»)) c2 \ - arity - (prod `w` (global (indt «bool»)) c3 \ - app [c1, c2, app [global (indc «S»), global (indc «O»)]]))])] -synterp -[ctx-decl - (context-item A explicit _ none c0 \ - context-item B explicit _ none c1 \ context-end)] -interp -[ctx-decl - (context-item A explicit (global (indt «nat»)) none c0 \ - context-item B explicit (global (indt «bool»)) none c1 \ context-end)] -a : nat - -a is not universe polymorphic -a is transparent -Expands to: Constant elpi.tests.test_synterp.X.a -Module X := Struct Definition a : nat. End -Module A := Struct Definition a : nat. End -a - : nat -L= [p 1] -File "./tests/test_synterp.v", line 38, characters 20-21: -Warning: -File "./tests/test_synterp.v", line 38, characters 20-21 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_synterp.v", line 41, characters 12-13: -Warning: -File "./tests/test_synterp.v", line 41, characters 12-13 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./apps/NES/theories/NES.v", line 39, characters 0-42: -Warning: -Undeclared globals: -- File "/build/reproducible-path/coq-elpi-2.5.0/apps/NES/elpi/nes_interp.elpi", line 6, column 24, characters 152-161: ns. -Please add the following text to your program: -type ns list string -> modpath -> prop. -[elpi.missing-types,elpi.typecheck,elpi,default] -test2 -test1 -str hello -test1 -too many arguments -test1 -str hello my -str Dear -test1 -too many arguments -[attribute elpi.loc - (leaf-loc - File "./tests/test_vernacular1.v", line 47, column 5, characters 953-961:), - attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar)] -[get-option elpi.loc - File "./tests/test_vernacular1.v", line 47, column 5, characters 953-961:, - get-option elpi.phase interp, get-option foo bar] -[attribute elpi.loc - (leaf-loc - File "./tests/test_vernacular1.v", line 51, column 0, characters 987-1014:), - attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar), - attribute poly (leaf-str )] -[get-option elpi.loc - File "./tests/test_vernacular1.v", line 51, column 0, characters 987-1014:, - get-option elpi.phase interp, get-option foo bar, get-option poly tt] -[attribute elpi.loc - (leaf-loc - File "./tests/test_vernacular1.v", line 52, column 0, characters 1015-1055:), - attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar), - attribute poly (leaf-str ), - attribute suppa (node [attribute duppa (leaf-str )])] -[get-option elpi.loc - File "./tests/test_vernacular1.v", line 52, column 0, characters 1015-1055:, - get-option elpi.phase interp, get-option foo bar, get-option poly tt] -Query assignments: - X = 3 -app [global (const «Nat.mul»), X0, X1] type -File "./tests/test_vernacular1.v", line 5, characters 0-61: -Warning: -Undeclared globals: -- File "./tests/test_vernacular1.v", line 6, column 29, characters 112-117: foo. -Please add the following text to your program: -type foo list argument -> prop. -[elpi.missing-types,elpi.typecheck,elpi,default] -File "./tests/test_vernacular1.v", line 46, characters 2-11: -Warning: This command does not support this attribute: foo. -[unsupported-attributes,parsing,default] -File "./tests/test_vernacular1.v", line 65, characters 26-27: -Warning: -File "./tests/test_vernacular1.v", line 65, characters 26-27 -X is linear: name it _X (discard) or X_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -File "./apps/eltac/theories/apply.v", line 15, characters 16-19: -Warning: -File "./apps/eltac/theories/apply.v", line 15, characters 16-19 -Ctx is linear: name it _Ctx (discard) or Ctx_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -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») + 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: @@ -14168,6 +9036,4613 @@ File "./tests/test_elaborator.v", line 157, characters 41-42 X is linear: name it _X (discard) or X_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] +z + : nat +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 +app + [global (indt «eq»), global (indt «nat»), + app + [global (const «map»), + fun `x` (global (indt «nat»)) c1 \ + app + [global (const «Nat.add»), c1, + app [global (indc «S»), global (indc «O»)]]], c0] +app + [global (indt «eq»), global (indt «nat»), + app + [global (const «map»), + fun `x` (global (indt «nat»)) c1 \ + app + [global (const «Nat.add»), c1, + app [global (indc «S»), global (indc «O»)]]], c0] +app + [global (indt «eq»), global (indt «nat»), + app + [global (const «map»), + fun `x0` (global (indt «nat»)) c1 \ + app + [global (const «Nat.add»), c1, + app [global (indc «S»), global (indc «O»)]]], c0] + {c0} : decl c0 `x` (global (indt «nat»)) + ?- evar (X0 c0) + (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) + (X1 c0) /* suspended on X0, X1 */ +EVARS: + ?X2==[x |- bool -> True] (goal evar) {?Goal} + ?X1==[ |- => fun x : nat => ?Goal] (goal evar) + +SHELF:|| +FUTURE GOALS STACK: + || + +Rocq-Elpi mapping: +RAW: +?X2 <-> c0 \ X0 c0 +ELAB: +?X2 <-> X1 + +Debug: + {c0} : decl c0 `x` (global (indt «nat»)) + ?- evar (X0 c0) + (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) + (X1 c0) /* suspended on X0, X1 */ +H +[nabla c1 \ + seal + (goal + [decl c1 `H` + (prod `b` + (prod `b` (global (indt «bool»)) c2 \ + app [global (indt «eq»), global (indt «bool»), c2, c2]) c2 \ + global (indt «True»))] (X0 c1) + (prod `b` (global (indt «bool»)) c2 \ + app [global (indt «eq»), global (indt «bool»), c2, c2]) (X1 c1) [])] +[str fun, str in, str as, int 4, str end, str match, str return, str =>, + str :, str :=, str {, str }, str ;, str ,, str |, str x, int 1, str H, + trm + (fun `x` (global (indt «False»)) c0 \ + match c0 (fun `y` (global (indt «False»)) c1 \ global (indt «nat»)) + [])] +Query assignments: + T = sort (typ «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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + +WEAK CONSTRAINTS: + + +Query assignments: + U = «foo» +Query assignments: + X = c0 \ c1 \ c2 \ +X0 c0 c1 c2 + X3_ = global (indt «nat») +Syntactic constraints: + {c0 c1 c2 c3 c4 c5 c6} : + decl c6 `z` (app [global (const «N»), c5]), + decl c5 `x` (global (indt «nat»)), + decl c4 `a` (global (indt «bool»)) + ?- evar (X0 c4 c5 c6) (X1 c4 c5 c6) (X0 c4 c5 c6) /* suspended on X0 */ + {c0 c1 c2 c3 c4 c5 c6} : + decl c6 `z` (app [global (const «N»), c5]), + decl c5 `x` (global (indt «nat»)), + decl c4 `a` (global (indt «bool»)) + ?- evar (X2 c4 c5 c6) (sort (typ «elpi.tests.test_HOAS.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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α3 := Type + α4 +WEAK 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 */ +EVARS: + ?X10==[ |- Type] (internal placeholder) {?elpi_evar} + ?X9==[a |- ?elpi_evar] (internal placeholder) {?e0} + ?X8==[a |- => ?elpi_evar] (internal placeholder) + +SHELF: +FUTURE GOALS STACK:?X10 +?X9 + +Rocq-Elpi mapping: +RAW: +?X9 <-> c0 \ X2 c0 +?X10 <-> X0 +ELAB: +?X9 <-> X2 +?X10 <-> X1 + +X2 c0 : X1 +Query assignments: + TY = X1 + X = c0 \ c1 \ +X2 c0 +Syntactic constraints: + {c0 c1} : decl c1 `a` (global (indt «bool»)) + ?- evar X0 (sort (typ «elpi.tests.test_HOAS.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: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α5 +WEAK CONSTRAINTS: + + +Raw term: +app + [global (const «add»), primitive (uint63 2000000003333002), + primitive (uint63 1)] +Nice term: (2000000003333002 + 1)%uint63 +Red: +2000000003333003%uint63 +Raw term: +app + [global (const «add»), primitive (float64 24000000000000), + primitive (float64 1)] +Nice term: 24000000000000 + 1 +Red: 24000000000001 +Query assignments: + C = «Nat.add» + F = TODO + T = app + [fix `add` 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) + [c2, + fun `p` (global (indt «nat»)) c3 \ + app [global (indc «S»), app [c0, c3, c2]]], + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T1 = app + [global (const «Nat.add»), + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T2 = app + [fix `plus` 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 + (fun `_elpi_renamed_n_3` (global (indt «nat»)) c3 \ + global (indt «nat»)) + [c2, + fun `p` (global (indt «nat»)) c3 \ + app [global (indc «S»), app [c0, c3, c2]]], + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + X10_ = c0 \ c1 \ c2 \ +global (indt «nat») + X4_ = global (indt «nat») + X5_ = c0 \ +global (indt «nat») + X6_ = c0 \ c1 \ +global (indt «nat») + X7_ = c0 \ +global (indt «nat») + X8_ = c0 \ c1 \ +global (indt «nat») + X9_ = c0 \ c1 \ c2 \ c3 \ +global (indt «nat») +Query assignments: + C = «Nat.add» + F = TODO + T = app + [fun `n` (global (indt «nat»)) c0 \ + fun `m` (global (indt «nat»)) c1 \ + match c0 (fun `n` (global (indt «nat»)) c2 \ global (indt «nat»)) + [c1, + fun `p` (global (indt «nat»)) c2 \ + app + [global (indc «S»), + app + [fix `add` 0 + (prod `n` (global (indt «nat»)) c3 \ + prod `m` (global (indt «nat»)) c4 \ global (indt «nat»)) + c3 \ + fun `n` (global (indt «nat»)) c4 \ + fun `m` (global (indt «nat»)) c5 \ + match c4 + (fun `n` (global (indt «nat»)) c6 \ global (indt «nat»)) + [c5, + fun `p` (global (indt «nat»)) c6 \ + app [global (indc «S»), app [c3, c6, c5]]], c2, c1]]], + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T1 = app + [global (const «Nat.add»), + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T2 = app + [fun `n` (global (indt «nat»)) c0 \ + fun `m` (global (indt «nat»)) c1 \ + match c0 + (fun `_elpi_renamed_n_2` (global (indt «nat»)) c2 \ + global (indt «nat»)) + [c1, + fun `p` (global (indt «nat»)) c2 \ + app + [global (indc «S»), + app + [fix `plus` 0 + (prod `_elpi_renamed_n_3` (global (indt «nat»)) c3 \ + prod `_elpi_renamed_m_4` (global (indt «nat»)) c4 \ + global (indt «nat»)) c3 \ + fun `_elpi_renamed_n_4` (global (indt «nat»)) c4 \ + fun `_elpi_renamed_m_5` (global (indt «nat»)) c5 \ + match c4 + (fun `_elpi_renamed_n_6` (global (indt «nat»)) c6 \ + global (indt «nat»)) + [c5, + fun `_elpi_renamed_p_6` (global (indt «nat»)) c6 \ + app [global (indc «S»), app [c3, c6, c5]]], c2, c1]]], + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + X11_ = global (indt «nat») + X12_ = c0 \ +global (indt «nat») + X13_ = c0 \ c1 \ c2 \ +global (indt «nat») + X14_ = c0 \ c1 \ +global (indt «nat») + X15_ = c0 \ c1 \ c2 \ +global (indt «nat») + X16_ = c0 \ c1 \ c2 \ c3 \ +global (indt «nat») + X17_ = c0 \ c1 \ c2 \ c3 \ c4 \ +global (indt «nat») + X18_ = c0 \ c1 \ c2 \ c3 \ +global (indt «nat») + X19_ = c0 \ c1 \ c2 \ c3 \ c4 \ +global (indt «nat») + X20_ = c0 \ c1 \ c2 \ c3 \ c4 \ c5 \ c6 \ +global (indt «nat») + X21_ = c0 \ c1 \ c2 \ c3 \ c4 \ c5 \ +global (indt «nat») +Query assignments: + C = «Nat.add» + F = TODO + T = match (app [global (indc «S»), global (indc «O»)]) + (fun `n` (global (indt «nat»)) c0 \ global (indt «nat»)) + [app [global (indc «S»), app [global (indc «S»), global (indc «O»)]], + fun `p` (global (indt «nat»)) c0 \ + app + [global (indc «S»), + app + [fix `add` 0 + (prod `n` (global (indt «nat»)) c1 \ + prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) c1 \ + fun `n` (global (indt «nat»)) c2 \ + fun `m` (global (indt «nat»)) c3 \ + match c2 + (fun `n` (global (indt «nat»)) c4 \ global (indt «nat»)) + [c3, + fun `p` (global (indt «nat»)) c4 \ + app [global (indc «S»), app [c1, c4, c3]]], c0, + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] + T1 = app + [global (const «Nat.add»), + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T2 = match (app [global (indc «S»), global (indc «O»)]) + (fun `_` (global (indt «nat»)) c0 \ global (indt «nat»)) + [app [global (indc «S»), app [global (indc «S»), global (indc «O»)]], + fun `p` (global (indt «nat»)) c0 \ + app + [global (indc «S»), + app + [fix `plus` 0 + (prod `n` (global (indt «nat»)) c1 \ + prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) c1 \ + fun `n` (global (indt «nat»)) c2 \ + fun `m` (global (indt «nat»)) c3 \ + match c2 + (fun `_elpi_renamed_n_4` (global (indt «nat»)) c4 \ + global (indt «nat»)) + [c3, + fun `_elpi_renamed_p_4` (global (indt «nat»)) c4 \ + app [global (indc «S»), app [c1, c4, c3]]], c0, + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] + X22_ = global (indt «nat») + X23_ = global (indt «nat») + X24_ = c0 \ +global (indt «nat») + X25_ = c0 \ c1 \ +global (indt «nat») + X26_ = c0 \ c1 \ c2 \ +global (indt «nat») + X27_ = c0 \ c1 \ +global (indt «nat») + X28_ = c0 \ c1 \ c2 \ +global (indt «nat») + X29_ = c0 \ c1 \ c2 \ c3 \ c4 \ +global (indt «nat») + X30_ = c0 \ c1 \ c2 \ c3 \ +global (indt «nat») +Query assignments: + C = «Nat.add» + F = TODO + T = app + [global (indc «S»), + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T1 = app + [global (const «Nat.add»), + app [global (indc «S»), global (indc «O»)], + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] + T2 = app + [global (indc «S»), + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] +Query assignments: + C = «proj1» +Query assignments: + C = «proj1» + P = elpi.tests.test_HOAS.P''.proj1 +elpi.tests.test_HOAS.P.p1 1 global (const «P.x») +@P.p1 +X0 global (const «P.x») +P.p1 P.x +some + (fun `A` (sort (typ «P.foo.u0»)) c0 \ + fun `f` (app [global (indt «P.foo»), c0]) c1 \ + app [primitive (proj elpi.tests.test_HOAS.P.p1 1), c1]) +elpi.tests.test_HOAS.P.p2 2 global (const «P.x») +@P.p2 +X0 global (const «P.x») +P.p2 P.x +some + (fun `A` (sort (typ «P.foo.u0»)) c0 \ + fun `f` (app [global (indt «P.foo»), c0]) c1 \ + app [primitive (proj elpi.tests.test_HOAS.P.p1 1), c1]) +some + (pglobal (const «toto») + «elpi.tests.test_HOAS.23 elpi.tests.test_HOAS.24») +prod `T1` (sort (typ «elpi.tests.test_HOAS.23»)) c0 \ + prod `T2` (sort (typ «elpi.tests.test_HOAS.24»)) c1 \ prod `x` c0 c2 \ c0 +Query assignments: + Body = some + (pglobal (const «toto») + «elpi.tests.test_HOAS.23 elpi.tests.test_HOAS.24») + C = «titi» + Term = prod `T1` (sort (typ «elpi.tests.test_HOAS.23»)) c0 \ + prod `T2` (sort (typ «elpi.tests.test_HOAS.24»)) c1 \ prod `x` c0 c2 \ c0 +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.24 elpi.tests.test_HOAS.23} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.24 + elpi.tests.test_HOAS.23 +SORTS: + +WEAK CONSTRAINTS: + + +pglobal (const «toto») X0 +pglobal (const «toto») «u1 u2» +toto +Query assignments: + %arg1 = toto + X31_ = X0 + X32_ = «elpi.tests.test_HOAS.27 elpi.tests.test_HOAS.28» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.28 elpi.tests.test_HOAS.27} |= +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.28 elpi.tests.test_HOAS.27} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.28 + elpi.tests.test_HOAS.27 +SORTS: + +WEAK CONSTRAINTS: + + +app + [pglobal (const «t») X0, global (indt «nat»), + pglobal (const «fnat») X1] +app + [pglobal (const «t») «elpi.tests.test_HOAS.33», global (indt «nat»), + pglobal (const «fnat») «»] +Query assignments: + T = app + [pglobal (const «t») «elpi.tests.test_HOAS.33», global (indt «nat»), + pglobal (const «fnat») «»] + Ty = global (indt «nat») + X33_ = «elpi.tests.test_HOAS.33» + X34_ = «» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.33} |= + Set <= elpi.tests.test_HOAS.33 + Set = elpi.tests.test_HOAS.33 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.33} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.33 := Set +SORTS: + +WEAK CONSTRAINTS: + + +Query assignments: + Arity = prod `T` (sort (typ «elpi.tests.test_HOAS.34»)) c0 \ + sort (typ «elpi.tests.test_HOAS.34») + GRF = indt «F» + I = «elpi.tests.test_HOAS.34» + Ind = «F» + K = [«Build_F»] + KTys = [prod `T` (sort (typ «elpi.tests.test_HOAS.34»)) c0 \ + prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.34», c0]] + TyF = prod `T` (sort (typ «elpi.tests.test_HOAS.34»)) c0 \ + sort (typ «elpi.tests.test_HOAS.34») +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.34} |= +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.34} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.34 +SORTS: + +WEAK CONSTRAINTS: + + +Query assignments: + Decl = parameter T explicit (sort (typ «elpi.tests.test_HOAS.35»)) c0 \ + record F (sort (typ «elpi.tests.test_HOAS.35»)) Build_F + (field [coercion off, canonical tt] t c0 c1 \ end-record) + GRF = indt «F» + I = «elpi.tests.test_HOAS.35» + Ind = «F» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.35} |= +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.35} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.35 +SORTS: + +WEAK CONSTRAINTS: + + +«elpi.tests.test_HOAS.36» «elpi.tests.test_HOAS.37» +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} |= + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.37 + elpi.tests.test_HOAS.36 + SORTS: + + WEAK CONSTRAINTS: + + +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} |= + elpi.tests.test_HOAS.36 = elpi.tests.test_HOAS.37 + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.37 + elpi.tests.test_HOAS.36 := elpi.tests.test_HOAS.37 + SORTS: + + WEAK CONSTRAINTS: + + +Query assignments: + GRF = indt «F» + I1 = «elpi.tests.test_HOAS.36» + I2 = «elpi.tests.test_HOAS.37» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} |= + elpi.tests.test_HOAS.36 = elpi.tests.test_HOAS.37 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.37 + elpi.tests.test_HOAS.36 := elpi.tests.test_HOAS.37 +SORTS: + +WEAK CONSTRAINTS: + + +«elpi.tests.test_HOAS.38» «» +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.38} |= + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.38} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.38 + SORTS: + + WEAK CONSTRAINTS: + + +different universe instance lengths +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.38} |= + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.38} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.38 + SORTS: + + WEAK CONSTRAINTS: + + +Query assignments: + E = different universe instance lengths + GRF = indt «F» + GRfnat = const «fnat» + I1 = «elpi.tests.test_HOAS.38» + I2 = «» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.38} |= +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.38} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.38 +SORTS: + +WEAK CONSTRAINTS: + + +Query assignments: + GRF = indt «F» + I1 = «elpi.tests.test_HOAS.39» + I2 = «elpi.tests.test_HOAS.39» + U = «elpi.tests.test_HOAS.39» + UL1 = [«elpi.tests.test_HOAS.39»] +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.39} |= +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.39} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.39 +SORTS: + +WEAK CONSTRAINTS: + + +Cannot enforce elpi.tests.test_HOAS.40 = elpi.tests.test_HOAS.41 because +elpi.tests.test_HOAS.40 < elpi.tests.test_HOAS.41 +Query assignments: + E = Cannot enforce elpi.tests.test_HOAS.40 = elpi.tests.test_HOAS.41 because +elpi.tests.test_HOAS.40 < elpi.tests.test_HOAS.41 + GRF = indt «F» + I1 = «elpi.tests.test_HOAS.40» + I2 = «elpi.tests.test_HOAS.41» + L1 = «elpi.tests.test_HOAS.40» + L2 = «elpi.tests.test_HOAS.41» + U1 = «elpi.tests.test_HOAS.40» + U2 = «elpi.tests.test_HOAS.41» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40} |= + elpi.tests.test_HOAS.40 < elpi.tests.test_HOAS.41 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.41 + elpi.tests.test_HOAS.40 +SORTS: + +WEAK CONSTRAINTS: + + +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} |= + elpi.tests.test_HOAS.44 < elpi.tests.test_HOAS.45 + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.45 + elpi.tests.test_HOAS.44 + SORTS: + + WEAK CONSTRAINTS: + + +Query assignments: + GRF = indt «F2» + I1 = «elpi.tests.test_HOAS.44» + I2 = «elpi.tests.test_HOAS.45» + L1 = «elpi.tests.test_HOAS.44» + L2 = «elpi.tests.test_HOAS.45» + U1 = «elpi.tests.test_HOAS.44» + U2 = «elpi.tests.test_HOAS.45» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} |= + elpi.tests.test_HOAS.44 < elpi.tests.test_HOAS.45 + elpi.tests.test_HOAS.44 <= elpi.tests.test_HOAS.45 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.45 + elpi.tests.test_HOAS.44 +SORTS: + +WEAK CONSTRAINTS: + + +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.46} |= + elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.47} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.47 + elpi.tests.test_HOAS.46 + SORTS: + + WEAK CONSTRAINTS: + + +Cannot enforce elpi.tests.test_HOAS.47 = elpi.tests.test_HOAS.46 because +elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 +Query assignments: + E = Cannot enforce elpi.tests.test_HOAS.47 = elpi.tests.test_HOAS.46 because +elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 + GRF = indt «F» + I1 = «elpi.tests.test_HOAS.46» + I2 = «elpi.tests.test_HOAS.47» + L1 = «elpi.tests.test_HOAS.46» + L2 = «elpi.tests.test_HOAS.47» + U1 = «elpi.tests.test_HOAS.46» + U2 = «elpi.tests.test_HOAS.47» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.46} |= + elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.47} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.47 + elpi.tests.test_HOAS.46 +SORTS: + +WEAK CONSTRAINTS: + + +Query assignments: + GR = indt «nat» +Query assignments: + GR = indt «F» + I = «elpi.tests.test_HOAS.48» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.48} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.48 +SORTS: + +WEAK CONSTRAINTS: + + +Query assignments: + GR = indt «F» +pglobal (indt «F») «elpi.tests.test_HOAS.50» +Query assignments: + %arg1 = pglobal (indt «F») «elpi.tests.test_HOAS.50» + GR = indt «F» + I = «elpi.tests.test_HOAS.50» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.50} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.50 +SORTS: + +WEAK CONSTRAINTS: + + +«elpi.tests.test_HOAS.51 elpi.tests.test_HOAS.51» +Query assignments: + I = «elpi.tests.test_HOAS.51 elpi.tests.test_HOAS.51» + U = «elpi.tests.test_HOAS.51» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.51} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + +WEAK CONSTRAINTS: + + +Universe constraints: +------------------ +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} |= + elpi.tests.test_HOAS.52 < elpi.tests.test_HOAS.53 + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.53 + elpi.tests.test_HOAS.52 + SORTS: + + WEAK CONSTRAINTS: + + +Universe constraints: UNIVERSES: + {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} |= + elpi.tests.test_HOAS.52 < elpi.tests.test_HOAS.53 + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.53 + elpi.tests.test_HOAS.52 + SORTS: + + WEAK CONSTRAINTS: + + +Query assignments: + Body = sort (typ «elpi.tests.test_HOAS.52») + LX = «elpi.tests.test_HOAS.52» + LY = «elpi.tests.test_HOAS.53» + Type = sort (typ «elpi.tests.test_HOAS.53») + UX = «elpi.tests.test_HOAS.52» + UY = «elpi.tests.test_HOAS.53» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} |= + elpi.tests.test_HOAS.52 < elpi.tests.test_HOAS.53 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.53 + elpi.tests.test_HOAS.52 +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.54} + : Type@{elpi.tests.test_HOAS.54} +(* {elpi.tests.test_HOAS.54} |= Set < elpi.tests.test_HOAS.54 *) +Box not a defined object. +sort (typ «Set») +Query assignments: + U = «elpi.tests.test_HOAS.55» +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.55} |= Set = elpi.tests.test_HOAS.55 +ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.55} +FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.55 := 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 |= Set <= list.u0 + 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.64»)) c0 \ + inductive tree tt (arity (sort (typ «elpi.tests.test_HOAS.65»))) 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.69 elpi.tests.test_HOAS.68 + elpi.tests.test_HOAS.67 elpi.tests.test_HOAS.66 + elpi.tests.test_HOAS.65 elpi.tests.test_HOAS.64} |= + elpi.tests.test_HOAS.64 < elpi.tests.test_HOAS.66 + elpi.tests.test_HOAS.65 < elpi.tests.test_HOAS.67 + Set <= list.u0 + Set <= elpi.tests.test_HOAS.65 + Set <= elpi.tests.test_HOAS.69 + elpi.tests.test_HOAS.64 <= list.u0 + elpi.tests.test_HOAS.64 <= elpi.tests.test_HOAS.65 + elpi.tests.test_HOAS.64 <= elpi.tests.test_HOAS.68 + elpi.tests.test_HOAS.64 <= elpi.tests.test_HOAS.69 + elpi.tests.test_HOAS.65 <= list.u0 + elpi.tests.test_HOAS.65 <= elpi.tests.test_HOAS.68 + elpi.tests.test_HOAS.65 <= elpi.tests.test_HOAS.69 + elpi.tests.test_HOAS.68 <= elpi.tests.test_HOAS.65 + elpi.tests.test_HOAS.69 <= elpi.tests.test_HOAS.65 + ALGEBRAIC UNIVERSES: + {elpi.tests.test_HOAS.64} + FLEXIBLE UNIVERSES: + elpi.tests.test_HOAS.64 + 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» + X35_ = X0 +Universe constraints: +UNIVERSES: + {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68 elpi.tests.test_HOAS.67 + elpi.tests.test_HOAS.66} |= + M.tree.u0 < elpi.tests.test_HOAS.66 + M.tree.u1 < elpi.tests.test_HOAS.67 + Set <= elpi.tests.test_HOAS.69 + M.tree.u0 <= elpi.tests.test_HOAS.68 + M.tree.u0 <= elpi.tests.test_HOAS.69 + M.tree.u1 <= elpi.tests.test_HOAS.68 + M.tree.u1 <= elpi.tests.test_HOAS.69 + elpi.tests.test_HOAS.68 <= M.tree.u1 + elpi.tests.test_HOAS.69 <= M.tree.u1 +ALGEBRAIC UNIVERSES: + {M.tree.u0} +FLEXIBLE UNIVERSES: + M.tree.u0 +SORTS: + +WEAK CONSTRAINTS: + + +File "./tests/test_HOAS.v", line 94, characters 46-61: +Warning: +File "./tests/test_HOAS.v", line 94, characters 46-61 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 101, characters 19-24: +Warning: +File "./tests/test_HOAS.v", line 101, characters 19-24 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 127, characters 0-40: +Warning: Use of “Require” inside a module is fragile. It is not recommended +to use this functionality in finished proof scripts. +[require-in-module,fragile,default] +File "./tests/test_HOAS.v", line 130, characters 0-40: +Warning: Use of “Require” inside a module is fragile. It is not recommended +to use this functionality in finished proof scripts. +[require-in-module,fragile,default] +File "./tests/test_HOAS.v", line 306, characters 18-20: +Warning: +File "./tests/test_HOAS.v", line 306, characters 18-20 +Ty is linear: name it _Ty (discard) or Ty_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 320, characters 43-48: +Warning: +File "./tests/test_HOAS.v", line 320, characters 43-48 +Arity is linear: name it _Arity (discard) or Arity_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 320, characters 49-50: +Warning: +File "./tests/test_HOAS.v", line 320, characters 49-50 +K is linear: name it _K (discard) or K_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 320, characters 51-55: +Warning: +File "./tests/test_HOAS.v", line 320, characters 51-55 +KTys is linear: name it _KTys (discard) or KTys_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 316, characters 32-35: +Warning: +File "./tests/test_HOAS.v", line 316, characters 32-35 +TyF is linear: name it _TyF (discard) or TyF_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 467, characters 42-46: +Warning: +File "./tests/test_HOAS.v", line 467, characters 42-46 +Decl is linear: name it _Decl (discard) or Decl_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "coq-builtin.elpi", line 461, characters 50-51: +Warning: +File "coq-builtin.elpi", line 461, characters 50-51 +I is linear: name it _I (discard) or I_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 506, characters 20-22: +Warning: +File "./tests/test_HOAS.v", line 506, characters 20-22 +I2 is linear: name it _I2 (discard) or I2_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 504, characters 23-26: +Warning: +File "./tests/test_HOAS.v", line 504, characters 23-26 +UL1 is linear: name it _UL1 (discard) or UL1_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 558, characters 32-33: +Warning: +File "./tests/test_HOAS.v", line 558, characters 32-33 +I is linear: name it _I (discard) or I_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "coq-builtin.elpi", line 461, characters 50-51: +Warning: +File "coq-builtin.elpi", line 461, characters 50-51 +I is linear: name it _I (discard) or I_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_HOAS.v", line 629, characters 36-37: +Warning: +File "./tests/test_HOAS.v", line 629, characters 36-37 +U is linear: name it _U (discard) or U_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +Query assignments: + P = /build/reproducible-path/coq-elpi-2.5.0/_build/default/elpi/elpi_elaborator.elpi +File "./tests/test_query_extra_dep.v", line 7, characters 44-45: +Warning: +File "./tests/test_query_extra_dep.v", line 7, characters 44-45 +P is linear: name it _P (discard) or P_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +[p 1, p 2, p 3, p 4, p 5, p 6, p 7, p 8, p 9, p 10, p 11, p 12, p 13, + p 14, p 15, p 16, p 17, p 18, p 19, p 20, p 21, p 22, p 23, p 24, p 25, + p 26, p 27, p 28, p 29, p 30, p 31, p 32, p 33, p 34, p 35, p 36, p 37, + p 38, p 39, p 40, p 41, p 42, p 43, p 44, p 45, p 46, p 47, p 48, p 49, + p 50, p 51, p 52, p 53, p 54, p 55, p 56, p 57, p 58, p 59, p 60, p 61, + p 62, p 63, p 64, p 65, p 66, p 67, p 68, p 69, p 70, p 71, p 72, p 73, + p 74, p 75, p 76, p 77, p 78, p 79, p 80, p 81, p 82, p 83, p 84, p 85, + p 86, p 87, p 88, p 89, p 90, p 91, p 92, p 93, p 94, p 95, p 96, p 97, + p 98, p 99, p 100, p 101, p 102, p 103, p 104, p 105, p 106, p 107, + p 108, p 109, p 110, p 111, p 112, p 113, p 114, p 115, p 116, p 117, + p 118, p 119, p 120, p 121, p 122, p 123, p 124, p 125, p 126, p 127, + p 128, p 129, p 130, p 131, p 132, p 133, p 134, p 135, p 136, p 137, + p 138, p 139, p 140, p 141, p 142, p 143, p 144, p 145, p 146, p 147, + p 148, p 149, p 150, p 151, p 152, p 153, p 154, p 155, p 156, p 157, + p 158, p 159, p 160, p 161, p 162, p 163, p 164, p 165, p 166, p 167, + p 168, p 169, p 170, p 171, p 172, p 173, p 174, p 175, p 176, p 177, + p 178, p 179, p 180, p 181, p 182, p 183, p 184, p 185, p 186, p 187, + p 188, p 189, p 190, p 191, p 192, p 193, p 194, p 195, p 196, p 197, + p 198, p 199, p 200, p 201, p 202, p 203, p 204, p 205, p 206, p 207, + p 208, p 209, p 210, p 211, p 212, p 213, p 214, p 215, p 216, p 217, + p 218, p 219, p 220, p 221, p 222, p 223, p 224, p 225, p 226, p 227, + p 228, p 229, p 230, p 231, p 232, p 233, p 234, p 235, p 236, p 237, + p 238, p 239, p 240, p 241, p 242, p 243, p 244, p 245, p 246, p 247, + p 248, p 249, p 250, p 251, p 252, p 253, p 254, p 255, p 256, p 257, + p 258, p 259, p 260, p 261, p 262, p 263, p 264, p 265, p 266, p 267, + p 268, p 269, p 270, p 271, p 272, p 273, p 274, p 275, p 276, p 277, + p 278, p 279, p 280, p 281, p 282, p 283, p 284, p 285, p 286, p 287, + p 288, p 289, p 290, p 291, p 292, p 293, p 294, p 295, p 296, p 297, + p 298, p 299, p 300, p 301, p 302, p 303, p 304, p 305, p 306, p 307, + p 308, p 309, p 310, p 311, p 312, p 313, p 314, p 315, p 316, p 317, + p 318, p 319, p 320, p 321, p 322, p 323, p 324, p 325, p 326, p 327, + p 328, p 329, p 330, p 331, p 332, p 333, p 334, p 335, p 336, p 337, + p 338, p 339, p 340, p 341, p 342, p 343, p 344, p 345, p 346, p 347, + p 348, p 349, p 350, p 351, p 352, p 353, p 354, p 355, p 356, p 357, + p 358, p 359, p 360, p 361, p 362, p 363, p 364, p 365, p 366, p 367, + p 368, p 369, p 370, p 371, p 372, p 373, p 374, p 375, p 376, p 377, + p 378, p 379, p 380, p 381, p 382, p 383, p 384, p 385, p 386, p 387, + p 388, p 389, p 390, p 391, p 392, p 393, p 394, p 395, p 396, p 397, + p 398, p 399, p 400, p 401, p 402, p 403, p 404, p 405, p 406, p 407, + p 408, p 409, p 410, p 411, p 412, p 413, p 414, p 415, p 416, p 417, + p 418, p 419, p 420, p 421, p 422, p 423, p 424, p 425, p 426, p 427, + p 428, p 429, p 430, p 431, p 432, p 433, p 434, p 435, p 436, p 437, + p 438, p 439, p 440, p 441, p 442, p 443, p 444, p 445, p 446, p 447, + p 448, p 449, p 450, p 451, p 452, p 453, p 454, p 455, p 456, p 457, + p 458, p 459, p 460, p 461, p 462, p 463, p 464, p 465, p 466, p 467, + p 468, p 469, p 470, p 471, p 472, p 473, p 474, p 475, p 476, p 477, + p 478, p 479, p 480, p 481, p 482, p 483, p 484, p 485, p 486, p 487, + p 488, p 489, p 490, p 491, p 492, p 493, p 494, p 495, p 496, p 497, + p 498, p 499, p 500, p 501, p 502, p 503, p 504, p 505, p 506, p 507, + p 508, p 509, p 510, p 511, p 512, p 513, p 514, p 515, p 516, p 517, + p 518, p 519, p 520, p 521, p 522, p 523, p 524, p 525, p 526, p 527, + p 528, p 529, p 530, p 531, p 532, p 533, p 534, p 535, p 536, p 537, + p 538, p 539, p 540, p 541, p 542, p 543, p 544, p 545, p 546, p 547, + p 548, p 549, p 550, p 551, p 552, p 553, p 554, p 555, p 556, p 557, + p 558, p 559, p 560, p 561, p 562, p 563, p 564, p 565, p 566, p 567, + p 568, p 569, p 570, p 571, p 572, p 573, p 574, p 575, p 576, p 577, + p 578, p 579, p 580, p 581, p 582, p 583, p 584, p 585, p 586, p 587, + p 588, p 589, p 590, p 591, p 592, p 593, p 594, p 595, p 596, p 597, + p 598, p 599, p 600, p 601, p 602, p 603, p 604, p 605, p 606, p 607, + p 608, p 609, p 610, p 611, p 612, p 613, p 614, p 615, p 616, p 617, + p 618, p 619, p 620, p 621, p 622, p 623, p 624, p 625, p 626, p 627, + p 628, p 629, p 630, p 631, p 632, p 633, p 634, p 635, p 636, p 637, + p 638, p 639, p 640, p 641, p 642, p 643, p 644, p 645, p 646, p 647, + p 648, p 649, p 650, p 651, p 652, p 653, p 654, p 655, p 656, p 657, + p 658, p 659, p 660, p 661, p 662, p 663, p 664, p 665, p 666, p 667, + p 668, p 669, p 670, p 671, p 672, p 673, p 674, p 675, p 676, p 677, + p 678, p 679, p 680, p 681, p 682, p 683, p 684, p 685, p 686, p 687, + p 688, p 689, p 690, p 691, p 692, p 693, p 694, p 695, p 696, p 697, + p 698, p 699, p 700, p 701, p 702, p 703, p 704, p 705, p 706, p 707, + p 708, p 709, p 710, p 711, p 712, p 713, p 714, p 715, p 716, p 717, + p 718, p 719, p 720, p 721, p 722, p 723, p 724, p 725, p 726, p 727, + p 728, p 729, p 730, p 731, p 732, p 733, p 734, p 735, p 736, p 737, + p 738, p 739, p 740, p 741, p 742, p 743, p 744, p 745, p 746, p 747, + p 748, p 749, p 750, p 751, p 752, p 753, p 754, p 755, p 756, p 757, + p 758, p 759, p 760, p 761, p 762, p 763, p 764, p 765, p 766, p 767, + p 768, p 769, p 770, p 771, p 772, p 773, p 774, p 775, p 776, p 777, + p 778, p 779, p 780, p 781, p 782, p 783, p 784, p 785, p 786, p 787, + p 788, p 789, p 790, p 791, p 792, p 793, p 794, p 795, p 796, p 797, + p 798, p 799, p 800, p 801, p 802, p 803, p 804, p 805, p 806, p 807, + p 808, p 809, p 810, p 811, p 812, p 813, p 814, p 815, p 816, p 817, + p 818, p 819, p 820, p 821, p 822, p 823, p 824, p 825, p 826, p 827, + p 828, p 829, p 830, p 831, p 832, p 833, p 834, p 835, p 836, p 837, + p 838, p 839, p 840, p 841, p 842, p 843, p 844, p 845, p 846, p 847, + p 848, p 849, p 850, p 851, p 852, p 853, p 854, p 855, p 856, p 857, + p 858, p 859, p 860, p 861, p 862, p 863, p 864, p 865, p 866, p 867, + p 868, p 869, p 870, p 871, p 872, p 873, p 874, p 875, p 876, p 877, + p 878, p 879, p 880, p 881, p 882, p 883, p 884, p 885, p 886, p 887, + p 888, p 889, p 890, p 891, p 892, p 893, p 894, p 895, p 896, p 897, + p 898, p 899, p 900, p 901, p 902, p 903, p 904, p 905, p 906, p 907, + p 908, p 909, p 910, p 911, p 912, p 913, p 914, p 915, p 916, p 917, + p 918, p 919, p 920, p 921, p 922, p 923, p 924, p 925, p 926, p 927, + p 928, p 929, p 930, p 931, p 932, p 933, p 934, p 935, p 936, p 937, + p 938, p 939, p 940, p 941, p 942, p 943, p 944, p 945, p 946, p 947, + p 948, p 949, p 950, p 951, p 952, p 953, p 954, p 955, p 956, p 957, + p 958, p 959, p 960, p 961, p 962, p 963, p 964, p 965, p 966, p 967, + p 968, p 969, p 970, p 971, p 972, p 973, p 974, p 975, p 976, p 977, + p 978, p 979, p 980, p 981, p 982, p 983, p 984, p 985, p 986, p 987, + p 988, p 989, p 990, p 991, p 992, p 993, p 994, p 995, p 996, p 997, + p 998, p 999, p 1000, p 1001, p 1002, p 1003, p 1004, p 1005, p 1006, + p 1007, p 1008, p 1009, p 1010, p 1011, p 1012, p 1013, p 1014, p 1015, + p 1016, p 1017, p 1018, p 1019, p 1020, p 1021, p 1022, p 1023, p 1024, + p 1025, p 1026, p 1027, p 1028, p 1029, p 1030, p 1031, p 1032, p 1033, + p 1034, p 1035, p 1036, p 1037, p 1038, p 1039, p 1040, p 1041, p 1042, + p 1043, p 1044, p 1045, p 1046, p 1047, p 1048, p 1049, p 1050, p 1051, + p 1052, p 1053, p 1054, p 1055, p 1056, p 1057, p 1058, p 1059, p 1060, + p 1061, p 1062, p 1063, p 1064, p 1065, p 1066, p 1067, p 1068, p 1069, + p 1070, p 1071, p 1072, p 1073, p 1074, p 1075, p 1076, p 1077, p 1078, + p 1079, p 1080, p 1081, p 1082, p 1083, p 1084, p 1085, p 1086, p 1087, + p 1088, p 1089, p 1090, p 1091, p 1092, p 1093, p 1094, p 1095, p 1096, + p 1097, p 1098, p 1099, p 1100, p 1101, p 1102, p 1103, p 1104, p 1105, + p 1106, p 1107, p 1108, p 1109, p 1110, p 1111, p 1112, p 1113, p 1114, + p 1115, p 1116, p 1117, p 1118, p 1119, p 1120, p 1121, p 1122, p 1123, + p 1124, p 1125, p 1126, p 1127, p 1128, p 1129, p 1130, p 1131, p 1132, + p 1133, p 1134, p 1135, p 1136, p 1137, p 1138, p 1139, p 1140, p 1141, + p 1142, p 1143, p 1144, p 1145, p 1146, p 1147, p 1148, p 1149, p 1150, + p 1151, p 1152, p 1153, p 1154, p 1155, p 1156, p 1157, p 1158, p 1159, + p 1160, p 1161, p 1162, p 1163, p 1164, p 1165, p 1166, p 1167, p 1168, + p 1169, p 1170, p 1171, p 1172, p 1173, p 1174, p 1175, p 1176, p 1177, + p 1178, p 1179, p 1180, p 1181, p 1182, p 1183, p 1184, p 1185, p 1186, + p 1187, p 1188, p 1189, p 1190, p 1191, p 1192, p 1193, p 1194, p 1195, + p 1196, p 1197, p 1198, p 1199, p 1200, p 1201, p 1202, p 1203, p 1204, + p 1205, p 1206, p 1207, p 1208, p 1209, p 1210, p 1211, p 1212, p 1213, + p 1214, p 1215, p 1216, p 1217, p 1218, p 1219, p 1220, p 1221, p 1222, + p 1223, p 1224, p 1225, p 1226, p 1227, p 1228, p 1229, p 1230, p 1231, + p 1232, p 1233, p 1234, p 1235, p 1236, p 1237, p 1238, p 1239, p 1240, + p 1241, p 1242, p 1243, p 1244, p 1245, p 1246, p 1247, p 1248, p 1249, + p 1250, p 1251, p 1252, p 1253, p 1254, p 1255, p 1256, p 1257, p 1258, + p 1259, p 1260, p 1261, p 1262, p 1263, p 1264, p 1265, p 1266, p 1267, + p 1268, p 1269, p 1270, p 1271, p 1272, p 1273, p 1274, p 1275, p 1276, + p 1277, p 1278, p 1279, p 1280, p 1281, p 1282, p 1283, p 1284, p 1285, + p 1286, p 1287, p 1288, p 1289, p 1290, p 1291, p 1292, p 1293, p 1294, + p 1295, p 1296, p 1297, p 1298, p 1299, p 1300, p 1301, p 1302, p 1303, + p 1304, p 1305, p 1306, p 1307, p 1308, p 1309, p 1310, p 1311, p 1312, + p 1313, p 1314, p 1315, p 1316, p 1317, p 1318, p 1319, p 1320, p 1321, + p 1322, p 1323, p 1324, p 1325, p 1326, p 1327, p 1328, p 1329, p 1330, + p 1331, p 1332, p 1333, p 1334, p 1335, p 1336, p 1337, p 1338, p 1339, + p 1340, p 1341, p 1342, p 1343, p 1344, p 1345, p 1346, p 1347, p 1348, + p 1349, p 1350, p 1351, p 1352, p 1353, p 1354, p 1355, p 1356, p 1357, + p 1358, p 1359, p 1360, p 1361, p 1362, p 1363, p 1364, p 1365, p 1366, + p 1367, p 1368, p 1369, p 1370, p 1371, p 1372, p 1373, p 1374, p 1375, + p 1376, p 1377, p 1378, p 1379, p 1380, p 1381, p 1382, p 1383, p 1384, + p 1385, p 1386, p 1387, p 1388, p 1389, p 1390, p 1391, p 1392, p 1393, + p 1394, p 1395, p 1396, p 1397, p 1398, p 1399, p 1400, p 1401, p 1402, + p 1403, p 1404, p 1405, p 1406, p 1407, p 1408, p 1409, p 1410, p 1411, + p 1412, p 1413, p 1414, p 1415, p 1416, p 1417, p 1418, p 1419, p 1420, + p 1421, p 1422, p 1423, p 1424, p 1425, p 1426, p 1427, p 1428, p 1429, + p 1430, p 1431, p 1432, p 1433, p 1434, p 1435, p 1436, p 1437, p 1438, + p 1439, p 1440, p 1441, p 1442, p 1443, p 1444, p 1445, p 1446, p 1447, + p 1448, p 1449, p 1450, p 1451, p 1452, p 1453, p 1454, p 1455, p 1456, + p 1457, p 1458, p 1459, p 1460, p 1461, p 1462, p 1463, p 1464, p 1465, + p 1466, p 1467, p 1468, p 1469, p 1470, p 1471, p 1472, p 1473, p 1474, + p 1475, p 1476, p 1477, p 1478, p 1479, p 1480, p 1481, p 1482, p 1483, + p 1484, p 1485, p 1486, p 1487, p 1488, p 1489, p 1490, p 1491, p 1492, + p 1493, p 1494, p 1495, p 1496, p 1497, p 1498, p 1499, p 1500, p 1501, + p 1502, p 1503, p 1504, p 1505, p 1506, p 1507, p 1508, p 1509, p 1510, + p 1511, p 1512, p 1513, p 1514, p 1515, p 1516, p 1517, p 1518, p 1519, + p 1520, p 1521, p 1522, p 1523, p 1524, p 1525, p 1526, p 1527, p 1528, + p 1529, p 1530, p 1531, p 1532, p 1533, p 1534, p 1535, p 1536, p 1537, + p 1538, p 1539, p 1540, p 1541, p 1542, p 1543, p 1544, p 1545, p 1546, + p 1547, p 1548, p 1549, p 1550, p 1551, p 1552, p 1553, p 1554, p 1555, + p 1556, p 1557, p 1558, p 1559, p 1560, p 1561, p 1562, p 1563, p 1564, + p 1565, p 1566, p 1567, p 1568, p 1569, p 1570, p 1571, p 1572, p 1573, + p 1574, p 1575, p 1576, p 1577, p 1578, p 1579, p 1580, p 1581, p 1582, + p 1583, p 1584, p 1585, p 1586, p 1587, p 1588, p 1589, p 1590, p 1591, + p 1592, p 1593, p 1594, p 1595, p 1596, p 1597, p 1598, p 1599, p 1600, + p 1601, p 1602, p 1603, p 1604, p 1605, p 1606, p 1607, p 1608, p 1609, + p 1610, p 1611, p 1612, p 1613, p 1614, p 1615, p 1616, p 1617, p 1618, + p 1619, p 1620, p 1621, p 1622, p 1623, p 1624, p 1625, p 1626, p 1627, + p 1628, p 1629, p 1630, p 1631, p 1632, p 1633, p 1634, p 1635, p 1636, + p 1637, p 1638, p 1639, p 1640, p 1641, p 1642, p 1643, p 1644, p 1645, + p 1646, p 1647, p 1648, p 1649, p 1650, p 1651, p 1652, p 1653, p 1654, + p 1655, p 1656, p 1657, p 1658, p 1659, p 1660, p 1661, p 1662, p 1663, + p 1664, p 1665, p 1666, p 1667, p 1668, p 1669, p 1670, p 1671, p 1672, + p 1673, p 1674, p 1675, p 1676, p 1677, p 1678, p 1679, p 1680, p 1681, + p 1682, p 1683, p 1684, p 1685, p 1686, p 1687, p 1688, p 1689, p 1690, + p 1691, p 1692, p 1693, p 1694, p 1695, p 1696, p 1697, p 1698, p 1699, + p 1700, p 1701, p 1702, p 1703, p 1704, p 1705, p 1706, p 1707, p 1708, + p 1709, p 1710, p 1711, p 1712, p 1713, p 1714, p 1715, p 1716, p 1717, + p 1718, p 1719, p 1720, p 1721, p 1722, p 1723, p 1724, p 1725, p 1726, + p 1727, p 1728, p 1729, p 1730, p 1731, p 1732, p 1733, p 1734, p 1735, + p 1736, p 1737, p 1738, p 1739, p 1740, p 1741, p 1742, p 1743, p 1744, + p 1745, p 1746, p 1747, p 1748, p 1749, p 1750, p 1751, p 1752, p 1753, + p 1754, p 1755, p 1756, p 1757, p 1758, p 1759, p 1760, p 1761, p 1762, + p 1763, p 1764, p 1765, p 1766, p 1767, p 1768, p 1769, p 1770, p 1771, + p 1772, p 1773, p 1774, p 1775, p 1776, p 1777, p 1778, p 1779, p 1780, + p 1781, p 1782, p 1783, p 1784, p 1785, p 1786, p 1787, p 1788, p 1789, + p 1790, p 1791, p 1792, p 1793, p 1794, p 1795, p 1796, p 1797, p 1798, + p 1799, p 1800, p 1801, p 1802, p 1803, p 1804, p 1805, p 1806, p 1807, + p 1808, p 1809, p 1810, p 1811, p 1812, p 1813, p 1814, p 1815, p 1816, + p 1817, p 1818, p 1819, p 1820, p 1821, p 1822, p 1823, p 1824, p 1825, + p 1826, p 1827, p 1828, p 1829, p 1830, p 1831, p 1832, p 1833, p 1834, + p 1835, p 1836, p 1837, p 1838, p 1839, p 1840, p 1841, p 1842, p 1843, + p 1844, p 1845, p 1846, p 1847, p 1848, p 1849, p 1850, p 1851, p 1852, + p 1853, p 1854, p 1855, p 1856, p 1857, p 1858, p 1859, p 1860, p 1861, + p 1862, p 1863, p 1864, p 1865, p 1866, p 1867, p 1868, p 1869, p 1870, + p 1871, p 1872, p 1873, p 1874, p 1875, p 1876, p 1877, p 1878, p 1879, + p 1880, p 1881, p 1882, p 1883, p 1884, p 1885, p 1886, p 1887, p 1888, + p 1889, p 1890, p 1891, p 1892, p 1893, p 1894, p 1895, p 1896, p 1897, + p 1898, p 1899, p 1900, p 1901, p 1902, p 1903, p 1904, p 1905, p 1906, + p 1907, p 1908, p 1909, p 1910, p 1911, p 1912, p 1913, p 1914, p 1915, + p 1916, p 1917, p 1918, p 1919, p 1920, p 1921, p 1922, p 1923, p 1924, + p 1925, p 1926, p 1927, p 1928, p 1929, p 1930, p 1931, p 1932, p 1933, + p 1934, p 1935, p 1936, p 1937, p 1938, p 1939, p 1940, p 1941, p 1942, + p 1943, p 1944, p 1945, p 1946, p 1947, p 1948, p 1949, p 1950, p 1951, + p 1952, p 1953, p 1954, p 1955, p 1956, p 1957, p 1958, p 1959, p 1960, + p 1961, p 1962, p 1963, p 1964, p 1965, p 1966, p 1967, p 1968, p 1969, + p 1970, p 1971, p 1972, p 1973, p 1974, p 1975, p 1976, p 1977, p 1978, + p 1979, p 1980, p 1981, p 1982, p 1983, p 1984, p 1985, p 1986, p 1987, + p 1988, p 1989, p 1990, p 1991, p 1992, p 1993, p 1994, p 1995, p 1996, + p 1997, p 1998, p 1999, p 2000, p 2001, p 2002, p 2003, p 2004, p 2005, + p 2006, p 2007, p 2008, p 2009, p 2010, p 2011, p 2012, p 2013, p 2014, + p 2015, p 2016, p 2017, p 2018, p 2019, p 2020, p 2021, p 2022, p 2023, + p 2024, p 2025, p 2026, p 2027, p 2028, p 2029, p 2030, p 2031, p 2032, + p 2033, p 2034, p 2035, p 2036, p 2037, p 2038, p 2039, p 2040, p 2041, + p 2042, p 2043, p 2044, p 2045, p 2046, p 2047, p 2048, p 2049, p 2050, + p 2051, p 2052, p 2053, p 2054, p 2055, p 2056, p 2057, p 2058, p 2059, + p 2060, p 2061, p 2062, p 2063, p 2064, p 2065, p 2066, p 2067, p 2068, + p 2069, p 2070, p 2071, p 2072, p 2073, p 2074, p 2075, p 2076, p 2077, + p 2078, p 2079, p 2080, p 2081, p 2082, p 2083, p 2084, p 2085, p 2086, + p 2087, p 2088, p 2089, p 2090, p 2091, p 2092, p 2093, p 2094, p 2095, + p 2096, p 2097, p 2098, p 2099, p 2100, p 2101, p 2102, p 2103, p 2104, + p 2105, p 2106, p 2107, p 2108, p 2109, p 2110, p 2111, p 2112, p 2113, + p 2114, p 2115, p 2116, p 2117, p 2118, p 2119, p 2120, p 2121, p 2122, + p 2123, p 2124, p 2125, p 2126, p 2127, p 2128, p 2129, p 2130, p 2131, + p 2132, p 2133, p 2134, p 2135, p 2136, p 2137, p 2138, p 2139, p 2140, + p 2141, p 2142, p 2143, p 2144, p 2145, p 2146, p 2147, p 2148, p 2149, + p 2150, p 2151, p 2152, p 2153, p 2154, p 2155, p 2156, p 2157, p 2158, + p 2159, p 2160, p 2161, p 2162, p 2163, p 2164, p 2165, p 2166, p 2167, + p 2168, p 2169, p 2170, p 2171, p 2172, p 2173, p 2174, p 2175, p 2176, + p 2177, p 2178, p 2179, p 2180, p 2181, p 2182, p 2183, p 2184, p 2185, + p 2186, p 2187, p 2188, p 2189, p 2190, p 2191, p 2192, p 2193, p 2194, + p 2195, p 2196, p 2197, p 2198, p 2199, p 2200, p 2201, p 2202, p 2203, + p 2204, p 2205, p 2206, p 2207, p 2208, p 2209, p 2210, p 2211, p 2212, + p 2213, p 2214, p 2215, p 2216, p 2217, p 2218, p 2219, p 2220, p 2221, + p 2222, p 2223, p 2224, p 2225, p 2226, p 2227, p 2228, p 2229, p 2230, + p 2231, p 2232, p 2233, p 2234, p 2235, p 2236, p 2237, p 2238, p 2239, + p 2240, p 2241, p 2242, p 2243, p 2244, p 2245, p 2246, p 2247, p 2248, + p 2249, p 2250, p 2251, p 2252, p 2253, p 2254, p 2255, p 2256, p 2257, + p 2258, p 2259, p 2260, p 2261, p 2262, p 2263, p 2264, p 2265, p 2266, + p 2267, p 2268, p 2269, p 2270, p 2271, p 2272, p 2273, p 2274, p 2275, + p 2276, p 2277, p 2278, p 2279, p 2280, p 2281, p 2282, p 2283, p 2284, + p 2285, p 2286, p 2287, p 2288, p 2289, p 2290, p 2291, p 2292, p 2293, + p 2294, p 2295, p 2296, p 2297, p 2298, p 2299, p 2300, p 2301, p 2302, + p 2303, p 2304, p 2305, p 2306, p 2307, p 2308, p 2309, p 2310, p 2311, + p 2312, p 2313, p 2314, p 2315, p 2316, p 2317, p 2318, p 2319, p 2320, + p 2321, p 2322, p 2323, p 2324, p 2325, p 2326, p 2327, p 2328, p 2329, + p 2330, p 2331, p 2332, p 2333, p 2334, p 2335, p 2336, p 2337, p 2338, + p 2339, p 2340, p 2341, p 2342, p 2343, p 2344, p 2345, p 2346, p 2347, + p 2348, p 2349, p 2350, p 2351, p 2352, p 2353, p 2354, p 2355, p 2356, + p 2357, p 2358, p 2359, p 2360, p 2361, p 2362, p 2363, p 2364, p 2365, + p 2366, p 2367, p 2368, p 2369, p 2370, p 2371, p 2372, p 2373, p 2374, + p 2375, p 2376, p 2377, p 2378, p 2379, p 2380, p 2381, p 2382, p 2383, + p 2384, p 2385, p 2386, p 2387, p 2388, p 2389, p 2390, p 2391, p 2392, + p 2393, p 2394, p 2395, p 2396, p 2397, p 2398, p 2399, p 2400, p 2401, + p 2402, p 2403, p 2404, p 2405, p 2406, p 2407, p 2408, p 2409, p 2410, + p 2411, p 2412, p 2413, p 2414, p 2415, p 2416, p 2417, p 2418, p 2419, + p 2420, p 2421, p 2422, p 2423, p 2424, p 2425, p 2426, p 2427, p 2428, + p 2429, p 2430, p 2431, p 2432, p 2433, p 2434, p 2435, p 2436, p 2437, + p 2438, p 2439, p 2440, p 2441, p 2442, p 2443, p 2444, p 2445, p 2446, + p 2447, p 2448, p 2449, p 2450, p 2451, p 2452, p 2453, p 2454, p 2455, + p 2456, p 2457, p 2458, p 2459, p 2460, p 2461, p 2462, p 2463, p 2464, + p 2465, p 2466, p 2467, p 2468, p 2469, p 2470, p 2471, p 2472, p 2473, + p 2474, p 2475, p 2476, p 2477, p 2478, p 2479, p 2480, p 2481, p 2482, + p 2483, p 2484, p 2485, p 2486, p 2487, p 2488, p 2489, p 2490, p 2491, + p 2492, p 2493, p 2494, p 2495, p 2496, p 2497, p 2498, p 2499, p 2500, + p 2501, p 2502, p 2503, p 2504, p 2505, p 2506, p 2507, p 2508, p 2509, + p 2510, p 2511, p 2512, p 2513, p 2514, p 2515, p 2516, p 2517, p 2518, + p 2519, p 2520, p 2521, p 2522, p 2523, p 2524, p 2525, p 2526, p 2527, + p 2528, p 2529, p 2530, p 2531, p 2532, p 2533, p 2534, p 2535, p 2536, + p 2537, p 2538, p 2539, p 2540, p 2541, p 2542, p 2543, p 2544, p 2545, + p 2546, p 2547, p 2548, p 2549, p 2550, p 2551, p 2552, p 2553, p 2554, + p 2555, p 2556, p 2557, p 2558, p 2559, p 2560, p 2561, p 2562, p 2563, + p 2564, p 2565, p 2566, p 2567, p 2568, p 2569, p 2570, p 2571, p 2572, + p 2573, p 2574, p 2575, p 2576, p 2577, p 2578, p 2579, p 2580, p 2581, + p 2582, p 2583, p 2584, p 2585, p 2586, p 2587, p 2588, p 2589, p 2590, + p 2591, p 2592, p 2593, p 2594, p 2595, p 2596, p 2597, p 2598, p 2599, + p 2600, p 2601, p 2602, p 2603, p 2604, p 2605, p 2606, p 2607, p 2608, + p 2609, p 2610, p 2611, p 2612, p 2613, p 2614, p 2615, p 2616, p 2617, + p 2618, p 2619, p 2620, p 2621, p 2622, p 2623, p 2624, p 2625, p 2626, + p 2627, p 2628, p 2629, p 2630, p 2631, p 2632, p 2633, p 2634, p 2635, + p 2636, p 2637, p 2638, p 2639, p 2640, p 2641, p 2642, p 2643, p 2644, + p 2645, p 2646, p 2647, p 2648, p 2649, p 2650, p 2651, p 2652, p 2653, + p 2654, p 2655, p 2656, p 2657, p 2658, p 2659, p 2660, p 2661, p 2662, + p 2663, p 2664, p 2665, p 2666, p 2667, p 2668, p 2669, p 2670, p 2671, + p 2672, p 2673, p 2674, p 2675, p 2676, p 2677, p 2678, p 2679, p 2680, + p 2681, p 2682, p 2683, p 2684, p 2685, p 2686, p 2687, p 2688, p 2689, + p 2690, p 2691, p 2692, p 2693, p 2694, p 2695, p 2696, p 2697, p 2698, + p 2699, p 2700, p 2701, p 2702, p 2703, p 2704, p 2705, p 2706, p 2707, + p 2708, p 2709, p 2710, p 2711, p 2712, p 2713, p 2714, p 2715, p 2716, + p 2717, p 2718, p 2719, p 2720, p 2721, p 2722, p 2723, p 2724, p 2725, + p 2726, p 2727, p 2728, p 2729, p 2730, p 2731, p 2732, p 2733, p 2734, + p 2735, p 2736, p 2737, p 2738, p 2739, p 2740, p 2741, p 2742, p 2743, + p 2744, p 2745, p 2746, p 2747, p 2748, p 2749, p 2750, p 2751, p 2752, + p 2753, p 2754, p 2755, p 2756, p 2757, p 2758, p 2759, p 2760, p 2761, + p 2762, p 2763, p 2764, p 2765, p 2766, p 2767, p 2768, p 2769, p 2770, + p 2771, p 2772, p 2773, p 2774, p 2775, p 2776, p 2777, p 2778, p 2779, + p 2780, p 2781, p 2782, p 2783, p 2784, p 2785, p 2786, p 2787, p 2788, + p 2789, p 2790, p 2791, p 2792, p 2793, p 2794, p 2795, p 2796, p 2797, + p 2798, p 2799, p 2800, p 2801, p 2802, p 2803, p 2804, p 2805, p 2806, + p 2807, p 2808, p 2809, p 2810, p 2811, p 2812, p 2813, p 2814, p 2815, + p 2816, p 2817, p 2818, p 2819, p 2820, p 2821, p 2822, p 2823, p 2824, + p 2825, p 2826, p 2827, p 2828, p 2829, p 2830, p 2831, p 2832, p 2833, + p 2834, p 2835, p 2836, p 2837, p 2838, p 2839, p 2840, p 2841, p 2842, + p 2843, p 2844, p 2845, p 2846, p 2847, p 2848, p 2849, p 2850, p 2851, + p 2852, p 2853, p 2854, p 2855, p 2856, p 2857, p 2858, p 2859, p 2860, + p 2861, p 2862, p 2863, p 2864, p 2865, p 2866, p 2867, p 2868, p 2869, + p 2870, p 2871, p 2872, p 2873, p 2874, p 2875, p 2876, p 2877, p 2878, + p 2879, p 2880, p 2881, p 2882, p 2883, p 2884, p 2885, p 2886, p 2887, + p 2888, p 2889, p 2890, p 2891, p 2892, p 2893, p 2894, p 2895, p 2896, + p 2897, p 2898, p 2899, p 2900, p 2901, p 2902, p 2903, p 2904, p 2905, + p 2906, p 2907, p 2908, p 2909, p 2910, p 2911, p 2912, p 2913, p 2914, + p 2915, p 2916, p 2917, p 2918, p 2919, p 2920, p 2921, p 2922, p 2923, + p 2924, p 2925, p 2926, p 2927, p 2928, p 2929, p 2930, p 2931, p 2932, + p 2933, p 2934, p 2935, p 2936, p 2937, p 2938, p 2939, p 2940, p 2941, + p 2942, p 2943, p 2944, p 2945, p 2946, p 2947, p 2948, p 2949, p 2950, + p 2951, p 2952, p 2953, p 2954, p 2955, p 2956, p 2957, p 2958, p 2959, + p 2960, p 2961, p 2962, p 2963, p 2964, p 2965, p 2966, p 2967, p 2968, + p 2969, p 2970, p 2971, p 2972, p 2973, p 2974, p 2975, p 2976, p 2977, + p 2978, p 2979, p 2980, p 2981, p 2982, p 2983, p 2984, p 2985, p 2986, + p 2987, p 2988, p 2989, p 2990, p 2991, p 2992, p 2993, p 2994, p 2995, + p 2996, p 2997, p 2998, p 2999, p 3000, p 3001, p 3002, p 3003, p 3004, + p 3005, p 3006, p 3007, p 3008, p 3009, p 3010, p 3011, p 3012, p 3013, + p 3014, p 3015, p 3016, p 3017, p 3018, p 3019, p 3020, p 3021, p 3022, + p 3023, p 3024, p 3025, p 3026, p 3027, p 3028, p 3029, p 3030, p 3031, + p 3032, p 3033, p 3034, p 3035, p 3036, p 3037, p 3038, p 3039, p 3040, + p 3041, p 3042, p 3043, p 3044, p 3045, p 3046, p 3047, p 3048, p 3049, + p 3050, p 3051, p 3052, p 3053, p 3054, p 3055, p 3056, p 3057, p 3058, + p 3059, p 3060, p 3061, p 3062, p 3063, p 3064, p 3065, p 3066, p 3067, + p 3068, p 3069, p 3070, p 3071, p 3072, p 3073, p 3074, p 3075, p 3076, + p 3077, p 3078, p 3079, p 3080, p 3081, p 3082, p 3083, p 3084, p 3085, + p 3086, p 3087, p 3088, p 3089, p 3090, p 3091, p 3092, p 3093, p 3094, + p 3095, p 3096, p 3097, p 3098, p 3099, p 3100, p 3101, p 3102, p 3103, + p 3104, p 3105, p 3106, p 3107, p 3108, p 3109, p 3110, p 3111, p 3112, + p 3113, p 3114, p 3115, p 3116, p 3117, p 3118, p 3119, p 3120, p 3121, + p 3122, p 3123, p 3124, p 3125, p 3126, p 3127, p 3128, p 3129, p 3130, + p 3131, p 3132, p 3133, p 3134, p 3135, p 3136, p 3137, p 3138, p 3139, + p 3140, p 3141, p 3142, p 3143, p 3144, p 3145, p 3146, p 3147, p 3148, + p 3149, p 3150, p 3151, p 3152, p 3153, p 3154, p 3155, p 3156, p 3157, + p 3158, p 3159, p 3160, p 3161, p 3162, p 3163, p 3164, p 3165, p 3166, + p 3167, p 3168, p 3169, p 3170, p 3171, p 3172, p 3173, p 3174, p 3175, + p 3176, p 3177, p 3178, p 3179, p 3180, p 3181, p 3182, p 3183, p 3184, + p 3185, p 3186, p 3187, p 3188, p 3189, p 3190, p 3191, p 3192, p 3193, + p 3194, p 3195, p 3196, p 3197, p 3198, p 3199, p 3200, p 3201, p 3202, + p 3203, p 3204, p 3205, p 3206, p 3207, p 3208, p 3209, p 3210, p 3211, + p 3212, p 3213, p 3214, p 3215, p 3216, p 3217, p 3218, p 3219, p 3220, + p 3221, p 3222, p 3223, p 3224, p 3225, p 3226, p 3227, p 3228, p 3229, + p 3230, p 3231, p 3232, p 3233, p 3234, p 3235, p 3236, p 3237, p 3238, + p 3239, p 3240, p 3241, p 3242, p 3243, p 3244, p 3245, p 3246, p 3247, + p 3248, p 3249, p 3250, p 3251, p 3252, p 3253, p 3254, p 3255, p 3256, + p 3257, p 3258, p 3259, p 3260, p 3261, p 3262, p 3263, p 3264, p 3265, + p 3266, p 3267, p 3268, p 3269, p 3270, p 3271, p 3272, p 3273, p 3274, + p 3275, p 3276, p 3277, p 3278, p 3279, p 3280, p 3281, p 3282, p 3283, + p 3284, p 3285, p 3286, p 3287, p 3288, p 3289, p 3290, p 3291, p 3292, + p 3293, p 3294, p 3295, p 3296, p 3297, p 3298, p 3299, p 3300, p 3301, + p 3302, p 3303, p 3304, p 3305, p 3306, p 3307, p 3308, p 3309, p 3310, + p 3311, p 3312, p 3313, p 3314, p 3315, p 3316, p 3317, p 3318, p 3319, + p 3320, p 3321, p 3322, p 3323, p 3324, p 3325, p 3326, p 3327, p 3328, + p 3329, p 3330, p 3331, p 3332, p 3333, p 3334, p 3335, p 3336, p 3337, + p 3338, p 3339, p 3340, p 3341, p 3342, p 3343, p 3344, p 3345, p 3346, + p 3347, p 3348, p 3349, p 3350, p 3351, p 3352, p 3353, p 3354, p 3355, + p 3356, p 3357, p 3358, p 3359, p 3360, p 3361, p 3362, p 3363, p 3364, + p 3365, p 3366, p 3367, p 3368, p 3369, p 3370, p 3371, p 3372, p 3373, + p 3374, p 3375, p 3376, p 3377, p 3378, p 3379, p 3380, p 3381, p 3382, + p 3383, p 3384, p 3385, p 3386, p 3387, p 3388, p 3389, p 3390, p 3391, + p 3392, p 3393, p 3394, p 3395, p 3396, p 3397, p 3398, p 3399, p 3400, + p 3401, p 3402, p 3403, p 3404, p 3405, p 3406, p 3407, p 3408, p 3409, + p 3410, p 3411, p 3412, p 3413, p 3414, p 3415, p 3416, p 3417, p 3418, + p 3419, p 3420, p 3421, p 3422, p 3423, p 3424, p 3425, p 3426, p 3427, + p 3428, p 3429, p 3430, p 3431, p 3432, p 3433, p 3434, p 3435, p 3436, + p 3437, p 3438, p 3439, p 3440, p 3441, p 3442, p 3443, p 3444, p 3445, + p 3446, p 3447, p 3448, p 3449, p 3450, p 3451, p 3452, p 3453, p 3454, + p 3455, p 3456, p 3457, p 3458, p 3459, p 3460, p 3461, p 3462, p 3463, + p 3464, p 3465, p 3466, p 3467, p 3468, p 3469, p 3470, p 3471, p 3472, + p 3473, p 3474, p 3475, p 3476, p 3477, p 3478, p 3479, p 3480, p 3481, + p 3482, p 3483, p 3484, p 3485, p 3486, p 3487, p 3488, p 3489, p 3490, + p 3491, p 3492, p 3493, p 3494, p 3495, p 3496, p 3497, p 3498, p 3499, + p 3500, p 3501, p 3502, p 3503, p 3504, p 3505, p 3506, p 3507, p 3508, + p 3509, p 3510, p 3511, p 3512, p 3513, p 3514, p 3515, p 3516, p 3517, + p 3518, p 3519, p 3520, p 3521, p 3522, p 3523, p 3524, p 3525, p 3526, + p 3527, p 3528, p 3529, p 3530, p 3531, p 3532, p 3533, p 3534, p 3535, + p 3536, p 3537, p 3538, p 3539, p 3540, p 3541, p 3542, p 3543, p 3544, + p 3545, p 3546, p 3547, p 3548, p 3549, p 3550, p 3551, p 3552, p 3553, + p 3554, p 3555, p 3556, p 3557, p 3558, p 3559, p 3560, p 3561, p 3562, + p 3563, p 3564, p 3565, p 3566, p 3567, p 3568, p 3569, p 3570, p 3571, + p 3572, p 3573, p 3574, p 3575, p 3576, p 3577, p 3578, p 3579, p 3580, + p 3581, p 3582, p 3583, p 3584, p 3585, p 3586, p 3587, p 3588, p 3589, + p 3590, p 3591, p 3592, p 3593, p 3594, p 3595, p 3596, p 3597, p 3598, + p 3599, p 3600, p 3601, p 3602, p 3603, p 3604, p 3605, p 3606, p 3607, + p 3608, p 3609, p 3610, p 3611, p 3612, p 3613, p 3614, p 3615, p 3616, + p 3617, p 3618, p 3619, p 3620, p 3621, p 3622, p 3623, p 3624, p 3625, + p 3626, p 3627, p 3628, p 3629, p 3630, p 3631, p 3632, p 3633, p 3634, + p 3635, p 3636, p 3637, p 3638, p 3639, p 3640, p 3641, p 3642, p 3643, + p 3644, p 3645, p 3646, p 3647, p 3648, p 3649, p 3650, p 3651, p 3652, + p 3653, p 3654, p 3655, p 3656, p 3657, p 3658, p 3659, p 3660, p 3661, + p 3662, p 3663, p 3664, p 3665, p 3666, p 3667, p 3668, p 3669, p 3670, + p 3671, p 3672, p 3673, p 3674, p 3675, p 3676, p 3677, p 3678, p 3679, + p 3680, p 3681, p 3682, p 3683, p 3684, p 3685, p 3686, p 3687, p 3688, + p 3689, p 3690, p 3691, p 3692, p 3693, p 3694, p 3695, p 3696, p 3697, + p 3698, p 3699, p 3700, p 3701, p 3702, p 3703, p 3704, p 3705, p 3706, + p 3707, p 3708, p 3709, p 3710] +synterp [str X] +interp [str X] +synterp [int 1] +interp [int 1] +synterp [trm _] +interp [trm (app [global (indc «S»), global (indc «O»)])] +synterp +[const-decl x (some _) + (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] +interp +[const-decl x + (some + (fun `P` (global (indt «bool»)) c0 \ + fun `Q` (global (indt «bool»)) c1 \ global (indc «O»))) + (parameter P explicit (global (indt «bool»)) c0 \ + parameter Q explicit (global (indt «bool»)) c1 \ + arity (global (indt «nat»)))] +synterp +[const-decl x none + (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] +interp +[const-decl x none + (parameter P explicit (global (indt «bool»)) c0 \ + parameter Q explicit (global (indt «bool»)) c1 \ + arity (global (indt «nat»)))] +synterp +[indt-decl + (parameter P explicit _ c0 \ + parameter Q explicit _ c1 \ + record x _ K + (field [coercion off, canonical tt] f1 _ c2 \ + field [coercion off, canonical tt] f2 _ c3 \ end-record))] +interp +[indt-decl + (parameter P explicit (global (indt «bool»)) c0 \ + parameter Q explicit (global (indt «bool»)) c1 \ + record x (sort (typ «Set»)) K + (field [coercion off, canonical tt] f1 (global (indt «nat»)) c2 \ + field [coercion off, canonical tt] f2 + (app [global (indt «eq»), global (indt «nat»), c2, c2]) c3 \ + end-record))] +synterp +[indt-decl + (parameter P explicit _ c0 \ + inductive x tt (parameter Q explicit _ c1 \ arity _) c1 \ + [constructor K (parameter Q explicit _ c2 \ arity _), + constructor R (parameter Q explicit _ c2 \ arity _)])] +interp +[indt-decl + (parameter P explicit (global (indt «bool»)) c0 \ + inductive x tt + (parameter Q explicit (global (indt «bool»)) c1 \ + arity (prod `_` (global (indt «nat»)) c2 \ sort (typ «Set»))) c1 \ + [constructor K + (parameter Q explicit (global (indt «bool»)) c2 \ + arity + (prod `_` (global (indt «nat»)) c3 \ + app + [c1, c2, + app + [global (indc «S»), + app + [global (indc «S»), + app [global (indc «S»), global (indc «O»)]]]])), + constructor R + (parameter Q explicit (global (indt «bool»)) c2 \ + arity + (prod `w` (global (indt «bool»)) c3 \ + app [c1, c2, app [global (indc «S»), global (indc «O»)]]))])] +synterp +[ctx-decl + (context-item A explicit _ none c0 \ + context-item B explicit _ none c1 \ context-end)] +interp +[ctx-decl + (context-item A explicit (global (indt «nat»)) none c0 \ + context-item B explicit (global (indt «bool»)) none c1 \ context-end)] +synterp [str X] +interp [str X] +synterp [int 1] +interp [int 1] +synterp [trm _] +interp [trm (app [global (indc «S»), global (indc «O»)])] +synterp +[const-decl x (some _) + (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] +interp +[const-decl x + (some + (fun `P` (global (indt «bool»)) c0 \ + fun `Q` (global (indt «bool»)) c1 \ global (indc «O»))) + (parameter P explicit (global (indt «bool»)) c0 \ + parameter Q explicit (global (indt «bool»)) c1 \ + arity (global (indt «nat»)))] +synterp +[const-decl x none + (parameter P explicit _ c0 \ parameter Q explicit _ c1 \ arity _)] +interp +[const-decl x none + (parameter P explicit (global (indt «bool»)) c0 \ + parameter Q explicit (global (indt «bool»)) c1 \ + arity (global (indt «nat»)))] +synterp +[indt-decl + (parameter P explicit _ c0 \ + parameter Q explicit _ c1 \ + record x _ K + (field [coercion off, canonical tt] f1 _ c2 \ + field [coercion off, canonical tt] f2 _ c3 \ end-record))] +interp +[indt-decl + (parameter P explicit (global (indt «bool»)) c0 \ + parameter Q explicit (global (indt «bool»)) c1 \ + record x (sort (typ «Set»)) K + (field [coercion off, canonical tt] f1 (global (indt «nat»)) c2 \ + field [coercion off, canonical tt] f2 + (app [global (indt «eq»), global (indt «nat»), c2, c2]) c3 \ + end-record))] +synterp +[indt-decl + (parameter P explicit _ c0 \ + inductive x tt (parameter Q explicit _ c1 \ arity _) c1 \ + [constructor K (parameter Q explicit _ c2 \ arity _), + constructor R (parameter Q explicit _ c2 \ arity _)])] +interp +[indt-decl + (parameter P explicit (global (indt «bool»)) c0 \ + inductive x tt + (parameter Q explicit (global (indt «bool»)) c1 \ + arity (prod `_` (global (indt «nat»)) c2 \ sort (typ «Set»))) c1 \ + [constructor K + (parameter Q explicit (global (indt «bool»)) c2 \ + arity + (prod `_` (global (indt «nat»)) c3 \ + app + [c1, c2, + app + [global (indc «S»), + app + [global (indc «S»), + app [global (indc «S»), global (indc «O»)]]]])), + constructor R + (parameter Q explicit (global (indt «bool»)) c2 \ + arity + (prod `w` (global (indt «bool»)) c3 \ + app [c1, c2, app [global (indc «S»), global (indc «O»)]]))])] +synterp +[ctx-decl + (context-item A explicit _ none c0 \ + context-item B explicit _ none c1 \ context-end)] +interp +[ctx-decl + (context-item A explicit (global (indt «nat»)) none c0 \ + context-item B explicit (global (indt «bool»)) none c1 \ context-end)] +a : nat + +a is not universe polymorphic +a is transparent +Expands to: Constant elpi.tests.test_synterp.X.a +Module X := Struct Definition a : nat. End +Module A := Struct Definition a : nat. End +a + : nat +L= [p 1] +File "./tests/test_synterp.v", line 38, characters 20-21: +Warning: +File "./tests/test_synterp.v", line 38, characters 20-21 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests/test_synterp.v", line 41, characters 12-13: +Warning: +File "./tests/test_synterp.v", line 41, characters 12-13 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +test2 +test1 +str hello +test1 +too many arguments +test1 +str hello my +str Dear +test1 +too many arguments +[attribute elpi.loc + (leaf-loc + File "./tests/test_vernacular1.v", line 47, column 5, characters 953-961:), + attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar)] +[get-option elpi.loc + File "./tests/test_vernacular1.v", line 47, column 5, characters 953-961:, + get-option elpi.phase interp, get-option foo bar] +[attribute elpi.loc + (leaf-loc + File "./tests/test_vernacular1.v", line 51, column 0, characters 987-1014:), + attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar), + attribute poly (leaf-str )] +[get-option elpi.loc + File "./tests/test_vernacular1.v", line 51, column 0, characters 987-1014:, + get-option elpi.phase interp, get-option foo bar, get-option poly tt] +[attribute elpi.loc + (leaf-loc + File "./tests/test_vernacular1.v", line 52, column 0, characters 1015-1055:), + attribute elpi.phase (leaf-str interp), attribute foo (leaf-str bar), + attribute poly (leaf-str ), + attribute suppa (node [attribute duppa (leaf-str )])] +[get-option elpi.loc + File "./tests/test_vernacular1.v", line 52, column 0, characters 1015-1055:, + get-option elpi.phase interp, get-option foo bar, get-option poly tt] +Query assignments: + X = 3 +app [global (const «Nat.mul»), X0, X1] type +File "./tests/test_vernacular1.v", line 5, characters 0-61: +Warning: +Undeclared globals: +- File "./tests/test_vernacular1.v", line 6, column 29, characters 112-117: foo. +Please add the following text to your program: +type foo list argument -> prop. +[elpi.missing-types,elpi.typecheck,elpi,default] +File "./tests/test_vernacular1.v", line 46, characters 2-11: +Warning: This command does not support this attribute: foo. +[unsupported-attributes,parsing,default] +File "./tests/test_vernacular1.v", line 65, characters 26-27: +Warning: +File "./tests/test_vernacular1.v", line 65, characters 26-27 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./apps/NES/theories/NES.v", line 39, characters 0-42: +Warning: +Undeclared globals: +- File "/build/reproducible-path/coq-elpi-2.5.0/apps/NES/elpi/nes_interp.elpi", line 6, column 24, characters 152-161: ns. +Please add the following text to your program: +type ns list string -> modpath -> prop. +[elpi.missing-types,elpi.typecheck,elpi,default] +Query assignments: + BO = fix `add` 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) + [c2, + fun `p` (global (indt «nat»)) c3 \ + app [global (indc «S»), app [c0, c3, c2]]] + GR = «Nat.add» + TY = prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat») +fix X0 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 + (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ X1 c1 c2 c3) + [c2, fun `p` (X2 c1 c2) c3 \ app [c0, c3, c2]] +fix X0 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 + (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ + global (indt «nat»)) [c2, fun `p` (X3 c1 c2) c3 \ app [c0, c3, c2]] +Query assignments: + BO1 = fix X0 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 + (fun `_elpi_renamed_n_2` (global (indt «nat»)) c3 \ + global (indt «nat»)) [c2, fun `p` (X3 c1 c2) c3 \ app [c0, c3, c2]] + GR = «Nat.add» + TY = prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat») + X1_ = c0 \ c1 \ c2 \ +global (indt «nat») + X2_ = c0 \ c1 \ +X3 c0 c1 +Syntactic constraints: + {c0 c1} : + decl c1 `m` (global (indt «nat»)), decl c0 `n` (global (indt «nat»)) + ?- evar (X3 c0 c1) (sort (typ «elpi_tests_stdlib.test_quotation.2»)) + (X3 c0 c1) /* suspended on X3 */ +Universe constraints: +UNIVERSES: + {elpi_tests_stdlib.test_quotation.3 elpi_tests_stdlib.test_quotation.2 + elpi_tests_stdlib.test_quotation.1} |= + Set <= elpi_tests_stdlib.test_quotation.3 +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + elpi_tests_stdlib.test_quotation.3 +SORTS: + α1 + α2 +WEAK CONSTRAINTS: + + +fun `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + c0 \ + match c0 + (fun `_` (X0 c0) c1 \ + fun `_elpi_renamed_v_1` (app [global (indt «Vector.t»), X1 c0, X2 c0]) + c2 \ X3 c0 c2) + [global (indc «O»), + fun `_` (X4 c0) c1 \ + fun `_` (X5 c0) c2 \ + fun `_` (X6 c0) c3 \ app [global (indc «S»), global (indc «O»)]] +fun `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + c0 \ + match c0 + (fun `_` (X7 c0) c1 \ + fun `_elpi_renamed_v_1` + (app [global (indt «Vector.t»), global (indt «nat»), X8 c0]) c2 \ + global (indt «nat»)) + [global (indc «O»), + fun `_` (X9 c0) c1 \ + fun `_` (X10 c0) c2 \ + fun `_` (X11 c0) c3 \ app [global (indc «S»), global (indc «O»)]] +Query assignments: + T = fun `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + c0 \ + match c0 + (fun `_` (X7 c0) c1 \ + fun `_elpi_renamed_v_1` + (app [global (indt «Vector.t»), global (indt «nat»), X8 c0]) c2 \ + global (indt «nat»)) + [global (indc «O»), + fun `_` (X9 c0) c1 \ + fun `_` (X10 c0) c2 \ + fun `_` (X11 c0) c3 \ app [global (indc «S»), global (indc «O»)]] + X3_ = c0 \ +X7 c0 + X4_ = c0 \ +global (indt «nat») + X5_ = c0 \ +X8 c0 + X6_ = c0 \ c1 \ +global (indt «nat») + X7_ = c0 \ +X9 c0 + X8_ = c0 \ +X10 c0 + X9_ = c0 \ +X11 c0 +Syntactic constraints: + {c0} : + decl c0 `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + ?- evar (X11 c0) (sort (typ «elpi_tests_stdlib.test_quotation.10»)) + (X11 c0) /* suspended on X11 */ + {c0} : + decl c0 `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + ?- evar (X10 c0) (sort (typ «elpi_tests_stdlib.test_quotation.9»)) + (X10 c0) /* suspended on X10 */ + {c0} : + decl c0 `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + ?- evar (X9 c0) (sort (typ «elpi_tests_stdlib.test_quotation.8»)) + (X9 c0) /* suspended on X9 */ + {c0} : + decl c0 `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + ?- evar (X8 c0) (X12 c0) (X8 c0) /* suspended on X8 */ + {c0} : + decl c0 `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + ?- evar (X13 c0) (sort (typ «elpi_tests_stdlib.test_quotation.6»)) + (X12 c0) /* suspended on X13, X12 */ + {c0} : + decl c0 `v` + (app + [global (indt «Vector.t»), global (indt «nat»), + app + [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]) + ?- evar (X7 c0) (sort (typ «elpi_tests_stdlib.test_quotation.4»)) + (X7 c0) /* suspended on X7 */ +Universe constraints: +UNIVERSES: + {elpi_tests_stdlib.test_quotation.12 elpi_tests_stdlib.test_quotation.11 + elpi_tests_stdlib.test_quotation.10 elpi_tests_stdlib.test_quotation.9 + elpi_tests_stdlib.test_quotation.8 elpi_tests_stdlib.test_quotation.7 + elpi_tests_stdlib.test_quotation.6 elpi_tests_stdlib.test_quotation.5 + elpi_tests_stdlib.test_quotation.4} |= + elpi_tests_stdlib.test_quotation.11 < elpi_tests_stdlib.test_quotation.5 + Set <= Vector.t.u0 + Set <= elpi_tests_stdlib.test_quotation.11 + Set <= elpi_tests_stdlib.test_quotation.12 + elpi_tests_stdlib.test_quotation.11 <= Vector.t.u0 +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + elpi_tests_stdlib.test_quotation.12 +SORTS: + α3 + α4 := Type + α5 + α6 + α7 + α8 + α9 +WEAK CONSTRAINTS: + + +3 +Query assignments: + X = 3 +fun `x` X0 c0 \ app [X1, c0] +Query assignments: + X = X1 + X10_ = X0 + Y = fun `x` X0 c0 \ app [X1, c0] +fun `r` (global (indt «nat»)) c0 \ + fun `p` + (prod `y` (global (indt «nat»)) c1 \ + app + [global (indt «eq»), global (indt «nat»), c1, global (indc «O»)]) + c1 \ + fun `q` (global (indt «bool»)) c2 \ + prod `y` (global (indt «nat»)) c3 \ + app + [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] +Query assignments: + %arg1 = c0 \ c1 \ c2 \ +prod `y` (global (indt «nat»)) c3 \ + app [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] + X = fun `r` (global (indt «nat»)) c0 \ + fun `p` + (prod `y` (global (indt «nat»)) c1 \ + app + [global (indt «eq»), global (indt «nat»), c1, global (indc «O»)]) + c1 \ + fun `q` (global (indt «bool»)) c2 \ + prod `y` (global (indt «nat»)) c3 \ + app + [global (indt «eq»), global (indt «nat»), c3, global (indc «O»)] +fun u : nat => +{| val := oval u; Sub := Ord u; Sub_rect := inlined_sub_rect |} + : forall u : nat, is_SUB nat (fun x : nat => leq x u) (ord u) +Debug: +[elpi] + gterm2lp: term=(fun u => + {| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |}) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term={| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |} +Debug: [elpi] gterm2lp: term=SubType +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(oval u) +Debug: [elpi] gterm2lp: term=oval +Debug: [elpi] gterm2lp: term=u +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=inlined_sub_rect +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term=(fun K_S u => + let (x, Px) as u0 return (K u0) := u in K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term=(fun u => let (x, Px) as u0 return (K u0) := u in K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term=(let (x, Px) as u0 return (K u0) := _elpi_renamed_u_3 in + K_S x Px) +Debug: [elpi] gterm2lp: term=_elpi_renamed_u_3 +Debug: [elpi] gterm2lp: term=(fun u0 => K u0) +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(K u0) +Debug: [elpi] gterm2lp: term=K +Debug: [elpi] gterm2lp: term=u0 +Debug: [elpi] gterm2lp: term=(fun x Px => K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(fun Px => K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(K_S x Px) +Debug: [elpi] gterm2lp: term=K_S +Debug: [elpi] gterm2lp: term=x +Debug: [elpi] gterm2lp: term=Px +Debug: +[elpi] + gterm2lp: term=(fun u => + {| val := _; Sub := elpi_code:(K) u; Sub_rect := _ |}) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] gterm2lp: term={| val := _; Sub := elpi_code:(K) u; Sub_rect := _ |} +Debug: [elpi] gterm2lp: term=SubType +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(elpi_code:(K) u) +Debug: [elpi] gterm2lp: term=elpi_code:(K) +Debug: [elpi] gterm2lp: term=u +Debug: [elpi] gterm2lp: term=_ +XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX +fun `u` X0 c0 \ + app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX +Debug: +[elpi] + elpi sigma -> coq sigma: before: +SHELF: +FUTURE GOALS STACK: + + +Rocq-Elpi mapping: +RAW: +ELAB: + +Debug: +[elpi] + elpi sigma -> coq sigma: synchronized: +SHELF: +FUTURE GOALS STACK: + + +Rocq-Elpi mapping: +RAW: +ELAB: + +Debug: +[elpi] + elpi sigma -> coq sigma: after: +SHELF: +FUTURE GOALS STACK: + + +Rocq-Elpi mapping: +RAW: +ELAB: + +Debug: +[elpi] + lp2term: depth=0 ctx=[] term=fun `u` X0 c0 \ + app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +Debug: +[elpi] + lp2term@0:fun `u` X0 c0 \ + app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +Debug: [elpi] lp2term@0:X0 +Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: +ELAB: + +Debug: +[elpi] + lp2term@1:app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +Debug: [elpi] lp2term@1:global (indc «SubType») +Debug: [elpi] lp2term@1:X1 c0 +Debug: [elpi] lp2term: evar: calldepth:0 X1 c0 RAW: +ELAB: + +Debug: [elpi] lp2term@1:X2 c0 +Debug: [elpi] lp2term: evar: calldepth:0 X2 c0 RAW: +ELAB: + +Debug: [elpi] lp2term@1:X3 c0 +Debug: [elpi] lp2term: evar: calldepth:0 X3 c0 RAW: +ELAB: + +Debug: [elpi] lp2term@1:app [global (const «oval»), c0] +Debug: [elpi] lp2term@1:global (const «oval») +Debug: [elpi] lp2term@1:c0 +Debug: [elpi] lp2term@1:X4 c0 +Debug: [elpi] lp2term: evar: calldepth:0 X4 c0 RAW: +ELAB: + +Debug: +[elpi] + lp2term@1:fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@1:X5 c0 +Debug: [elpi] lp2term: evar: calldepth:0 X5 c0 RAW: +ELAB: + +Debug: +[elpi] + lp2term@2:fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@2:X6 c0 c1 +Debug: [elpi] lp2term: evar: calldepth:0 X6 c0 c1 RAW: +ELAB: + +Debug: +[elpi] + lp2term@3:fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@3:X7 c0 c1 c2 +Debug: [elpi] lp2term: evar: calldepth:0 X7 c0 c1 c2 RAW: +ELAB: + +Debug: +[elpi] + lp2term@4:match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@4:c3 +Debug: [elpi] lp2term@4:fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4] +Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 +Debug: [elpi] lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 RAW: +ELAB: + +Debug: [elpi] lp2term@5:app [c1, c4] +Debug: [elpi] lp2term@5:c1 +Debug: [elpi] lp2term@5:c4 +Debug: +[elpi] + lp2term@4:fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] +Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 +Debug: [elpi] lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 RAW: +ELAB: + +Debug: [elpi] lp2term@5:fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] +Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 +Debug: [elpi] lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 RAW: +ELAB: + +Debug: [elpi] lp2term@6:app [c2, c4, c5] +Debug: [elpi] lp2term@6:c2 +Debug: [elpi] lp2term@6:c4 +Debug: [elpi] lp2term@6:c5 +Debug: +[elpi] + lp2term: out=(fun u : hole hole => + {| + val := oval u; + Sub := hole u hole; + Sub_rect := + fun (K : hole u hole) (K_S : hole K u hole) + (_elpi_renamed_u_3 : hole K_S K u hole) => + let + (x, Px) as u0 + return (hole u0 _elpi_renamed_u_3 K_S K hole) := + _elpi_renamed_u_3 in + K_S x Px + |}) + elpi2coq: + RAW: +ELAB: +SHELF: + + FUTURE GOALS STACK: + + +Debug: +[elpi] + detype: (fun u : hole hole => + {| + val := oval u; + Sub := hole u hole; + Sub_rect := + fun (K : hole u hole) (K_S : hole K u hole) + (_elpi_renamed_u_3 : hole K_S K u hole) => + let + (x, Px) as u0 + return (hole u0 _elpi_renamed_u_3 K_S K hole) := + _elpi_renamed_u_3 in + K_S x Px + |}) +Debug: [elpi] bringing updated sigma back to lp +Debug: +[elpi] + term2lp: depth=0 ctx= term=(forall u : nat, + is_SUB nat (fun x : nat => leq x u) (ord u)) +Debug: +[elpi] + term2lp (out): prod `u` (global (indt «nat»)) c0 \ + app + [global (indt «is_SUB»), global (indt «nat»), + fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], + app [global (indt «ord»), c0]] +Debug: +[elpi] + term2lp: depth=0 ctx= term=(fun u : nat => + {| + val := oval u; + Sub := Ord u; + Sub_rect := inlined_sub_rect + |}) +Debug: +[elpi] + term2lp (out): fun `u` (global (indt «nat»)) c0 \ + app + [global (indc «SubType»), global (indt «nat»), + fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], + app [global (indt «ord»), c0], app [global (const «oval»), c0], + app [global (indc «Ord»), c0], + fun `K` + (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) + c1 \ + fun `K_S` + (prod `x` (global (indt «nat»)) c2 \ + prod `Px` + (app + [global (indt «eq»), global (indt «bool»), + app + [fun `x` (global (indt «nat»)) c3 \ + app [global (const «leq»), c3, c0], c2], + global (indc «true»)]) c3 \ + app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ + fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ + match c3 + (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) + [fun `x` (global (indt «nat»)) c4 \ + fun `Px` + (app + [global (indt «eq»), global (indt «bool»), + app [global (const «leq»), c4, c0], global (indc «true»)]) + c5 \ app [c2, c4, c5]]] +Debug: +[elpi] + Elpi: query-compilation:0.0008 static-check:0.0000 optimization:0.0000 runtime:0.0019 (with success) + +Query assignments: + GR = indc «Ord» + K = global (indc «Ord») + T = fun `u` X0 c0 \ + app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] + T1 = fun `u` (global (indt «nat»)) c0 \ + app + [global (indc «SubType»), global (indt «nat»), + fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0], + app [global (indt «ord»), c0], app [global (const «oval»), c0], + app [global (indc «Ord»), c0], + fun `K` + (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) + c1 \ + fun `K_S` + (prod `x` (global (indt «nat»)) c2 \ + prod `Px` + (app + [global (indt «eq»), global (indt «bool»), + app + [fun `x` (global (indt «nat»)) c3 \ + app [global (const «leq»), c3, c0], c2], + global (indc «true»)]) c3 \ + app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ + fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ + match c3 + (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) + [fun `x` (global (indt «nat»)) c4 \ + fun `Px` + (app + [global (indt «eq»), global (indt «bool»), + app [global (const «leq»), c4, c0], global (indc «true»)]) + c5 \ app [c2, c4, c5]]] + X11_ = X0 + X12_ = X1 + X13_ = X2 + X14_ = X3 + X15_ = X4 + X16_ = X5 + X17_ = X6 + X18_ = X7 + X19_ = X8 + X20_ = X9 + X21_ = X10 + X22_ = global (indt «nat») + X23_ = c0 \ +global (indt «nat») + X24_ = c0 \ +fun `x` (global (indt «nat»)) c1 \ app [global (const «leq»), c1, c0] + X25_ = c0 \ +app [global (indt «ord»), c0] + X26_ = c0 \ +app [global (const «oval»), c0] + X27_ = c0 \ +fun `K` + (prod `x` (app [global (indt «ord»), c0]) c1 \ sort (typ «is_SUB.u2»)) + c1 \ + fun `K_S` + (prod `x` (global (indt «nat»)) c2 \ + prod `Px` + (app + [global (indt «eq»), global (indt «bool»), + app + [fun `x` (global (indt «nat»)) c3 \ + app [global (const «leq»), c3, c0], c2], global (indc «true»)]) + c3 \ app [c1, app [global (indc «Ord»), c0, c2, c3]]) c2 \ + fun `_elpi_renamed_u_3` (app [global (indt «ord»), c0]) c3 \ + match c3 (fun `xxx` (app [global (indt «ord»), c0]) c4 \ app [c1, c4]) + [fun `x` (global (indt «nat»)) c4 \ + fun `Px` + (app + [global (indt «eq»), global (indt «bool»), + app [global (const «leq»), c4, c0], global (indc «true»)]) c5 \ + app [c2, c4, c5]] +Universe constraints: +UNIVERSES: + {elpi_tests_stdlib.test_quotation.28 elpi_tests_stdlib.test_quotation.27} |= + Set <= is_SUB.u0 + Set <= is_SUB.u1 + Set <= elpi_tests_stdlib.test_quotation.27 + is_SUB.u2 <= elpi_tests_stdlib.test_quotation.28 +ALGEBRAIC UNIVERSES: + {elpi_tests_stdlib.test_quotation.28 elpi_tests_stdlib.test_quotation.27} +FLEXIBLE UNIVERSES: + elpi_tests_stdlib.test_quotation.28 + elpi_tests_stdlib.test_quotation.27 +SORTS: + α24 := Type + α25 := Type +WEAK CONSTRAINTS: + + +Debug: +[elpi] + gterm2lp: term=(fun u => + {| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |}) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term={| val := oval u; Sub := _; Sub_rect := inlined_sub_rect |} +Debug: [elpi] gterm2lp: term=SubType +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(oval u) +Debug: [elpi] gterm2lp: term=oval +Debug: [elpi] gterm2lp: term=u +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=inlined_sub_rect +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term=(fun K_S u => + let (x, Px) as u0 return (K u0) := u in K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term=(fun u => let (x, Px) as u0 return (K u0) := u in K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: +[elpi] + gterm2lp: term=(let (x, Px) as u0 return (K u0) := _elpi_renamed_u_3 in + K_S x Px) +Debug: [elpi] gterm2lp: term=_elpi_renamed_u_3 +Debug: [elpi] gterm2lp: term=(fun u0 => K u0) +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(K u0) +Debug: [elpi] gterm2lp: term=K +Debug: [elpi] gterm2lp: term=u0 +Debug: [elpi] gterm2lp: term=(fun x Px => K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(fun Px => K_S x Px) +Debug: [elpi] gterm2lp: term=_ +Debug: [elpi] gterm2lp: term=(K_S x Px) +Debug: [elpi] gterm2lp: term=K_S +Debug: [elpi] gterm2lp: term=x +Debug: [elpi] gterm2lp: term=Px +Debug: +[elpi] + elpi sigma -> coq sigma: before: +SHELF: +FUTURE GOALS STACK: + + +Rocq-Elpi mapping: +RAW: +ELAB: + +Debug: +[elpi] + elpi sigma -> coq sigma: synchronized: +SHELF: +FUTURE GOALS STACK: + + +Rocq-Elpi mapping: +RAW: +ELAB: + +Debug: +[elpi] + elpi sigma -> coq sigma: after: +SHELF: +FUTURE GOALS STACK: + + +Rocq-Elpi mapping: +RAW: +ELAB: + +Debug: +[elpi] + lp2term: depth=0 ctx=[] term=fun `u` X0 c0 \ + app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +Debug: +[elpi] + lp2term@0:fun `u` X0 c0 \ + app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +Debug: [elpi] lp2term@0:X0 +Debug: [elpi] lp2term: evar: calldepth:0 X0 RAW: +ELAB: + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X0 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; +Debug: [elpi] lp2term: evar: create_unknown: visible ctx: +Debug: [elpi] restrict_coq_context: named: +Debug: [elpi] lp2term: evar: create_unknown: restricted ctx: +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X41 + EVARS: + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK: + ?X41 + +Debug: [elpi] lp2term@0:X0 +Debug: +[elpi] lp2term: evar: calldepth:0 X0 RAW: +?X41 <-> X0 +ELAB: +?X41 <-> X0 + +Debug: [elpi] lp2term: evar: already in Coq: ?X41 +Debug: +[elpi] + lp2term@1:app + [global (indc «SubType»), X1 c0, X2 c0, X3 c0, + app [global (const «oval»), c0], X4 c0, + fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]]] +Debug: [elpi] lp2term@1:global (indc «SubType») +Debug: [elpi] lp2term@1:X1 c0 +Debug: +[elpi] lp2term: evar: calldepth:0 X1 c0 RAW: +?X41 <-> X0 +ELAB: +?X41 <-> X0 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X1 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) +Debug: [elpi] in_elpi_evar:?X42 +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X43 + EVARS: + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@1:X1 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X1 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 + +Debug: [elpi] lp2term: evar: already in Coq: ?X43 +Debug: [elpi] lp2term@1:c0 +Debug: [elpi] lp2term@1:X2 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X2 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X2 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) +Debug: [elpi] in_elpi_evar:?X44 +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X45 + EVARS: + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 + elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X45 ?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@1:X2 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X2 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 + +Debug: [elpi] lp2term: evar: already in Coq: ?X45 +Debug: [elpi] lp2term@1:c0 +Debug: [elpi] lp2term@1:X3 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X3 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X3 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) +Debug: [elpi] in_elpi_evar:?X46 +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X47 + EVARS: + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 + elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= + +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X47 ?X46 ?X45 ?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@1:X3 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X3 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 + +Debug: [elpi] lp2term: evar: already in Coq: ?X47 +Debug: [elpi] lp2term@1:c0 +Debug: [elpi] lp2term@1:app [global (const «oval»), c0] +Debug: [elpi] lp2term@1:global (const «oval») +Debug: [elpi] lp2term@1:c0 +Debug: [elpi] lp2term@1:X4 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X4 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X4 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) +Debug: [elpi] in_elpi_evar:?X48 +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X49 + EVARS: + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 + elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 + elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@1:X4 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X4 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 + +Debug: [elpi] lp2term: evar: already in Coq: ?X49 +Debug: [elpi] lp2term@1:c0 +Debug: +[elpi] + lp2term@1:fun `K` (X5 c0) c1 \ + fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@1:X5 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X5 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X5 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: [elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X50 + EVARS: + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.34 elpi_tests_stdlib.test_quotation.33 + elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 + elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= + +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 + α31 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@1:X5 c0 +Debug: +[elpi] + lp2term: evar: calldepth:0 X5 c0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 + +Debug: [elpi] lp2term: evar: already in Coq: ?X50 +Debug: [elpi] lp2term@1:c0 +Debug: +[elpi] + lp2term@2:fun `K_S` (X6 c0 c1) c2 \ + fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@2:X6 c0 c1 +Debug: +[elpi] + lp2term: evar: calldepth:0 X6 c0 c1 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X6 +Debug: [elpi] lp2term: evar: create_unknown: whole ctx: ; (u : ?e) (K : ?e8) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 +c1 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + restrict_coq_context: cur subst: u + restrict_coq_context: looking at K(dbl 1) +Debug: [elpi] ?e8--0->?e8 +Debug: +[elpi] lp2term: evar: create_unknown: restricted ctx:(u : ?e) (K : ?e8) +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X51 + EVARS: + ?X51==[u K |- Type] (internal placeholder) {?e9} + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 + elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 + elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 + elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 + α31 + α32 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@2:X6 c0 c1 +Debug: +[elpi] + lp2term: evar: calldepth:0 X6 c0 c1 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 + +Debug: [elpi] lp2term: evar: already in Coq: ?X51 +Debug: [elpi] lp2term@2:c0 +Debug: [elpi] lp2term@2:c1 +Debug: +[elpi] + lp2term@3:fun `_elpi_renamed_u_3` (X7 c0 c1 c2) c3 \ + match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@3:X7 c0 c1 c2 +Debug: +[elpi] + lp2term: evar: calldepth:0 X7 c0 c1 c2 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X7 +Debug: +[elpi] + lp2term: evar: create_unknown: whole ctx: ; (u : ?e) + (K : ?e8) + (K_S : ?e9) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 +c2 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + restrict_coq_context: cur subst: u + restrict_coq_context: looking at K(dbl 1) +Debug: [elpi] ?e8--0->?e8 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + restrict_coq_context: cur subst: K + u + restrict_coq_context: looking at K_S(dbl 2) +Debug: [elpi] ?e9--0->?e9 +Debug: +[elpi] + lp2term: evar: create_unknown: restricted ctx:(u : ?e) + (K : ?e8) + (K_S : ?e9) +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X52 + EVARS: + ?X52==[u K K_S |- Type] (internal placeholder) {?e10} + ?X51==[u K |- Type] (internal placeholder) {?e9} + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.36 elpi_tests_stdlib.test_quotation.35 + elpi_tests_stdlib.test_quotation.34 elpi_tests_stdlib.test_quotation.33 + elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 + elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= + +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 + α31 + α32 + α33 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@3:X7 c0 c1 c2 +Debug: +[elpi] + lp2term: evar: calldepth:0 X7 c0 c1 c2 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 + +Debug: [elpi] lp2term: evar: already in Coq: ?X52 +Debug: [elpi] lp2term@3:c0 +Debug: [elpi] lp2term@3:c1 +Debug: [elpi] lp2term@3:c2 +Debug: +[elpi] + lp2term@4:match c3 (fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4]) + [fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5]] +Debug: [elpi] lp2term@4:c3 +Debug: [elpi] lp2term@4:fun `u0` (X8 c0 c1 c2 c3) c4 \ app [c1, c4] +Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 +Debug: +[elpi] + lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X8 +Debug: +[elpi] + lp2term: evar: create_unknown: whole ctx: ; (u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 +c3 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + restrict_coq_context: cur subst: u + restrict_coq_context: looking at K(dbl 1) +Debug: [elpi] ?e8--0->?e8 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + restrict_coq_context: cur subst: K + u + restrict_coq_context: looking at K_S(dbl 2) +Debug: [elpi] ?e9--0->?e9 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + (K_S : ?e9) + restrict_coq_context: cur subst: K_S + K + u + restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) +Debug: [elpi] ?e10--0->?e10 +Debug: +[elpi] + lp2term: evar: create_unknown: restricted ctx:(u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X53 + EVARS: + ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} + ?X52==[u K K_S |- Type] (internal placeholder) {?e10} + ?X51==[u K |- Type] (internal placeholder) {?e9} + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.37 elpi_tests_stdlib.test_quotation.36 + elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 + elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 + elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 + elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 + α31 + α32 + α33 + α34 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 ?X43 +?X42 +?X41 + +Debug: [elpi] lp2term@4:X8 c0 c1 c2 c3 +Debug: +[elpi] + lp2term: evar: calldepth:0 X8 c0 c1 c2 c3 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 + +Debug: [elpi] lp2term: evar: already in Coq: ?X53 +Debug: [elpi] lp2term@4:c0 +Debug: [elpi] lp2term@4:c1 +Debug: [elpi] lp2term@4:c2 +Debug: [elpi] lp2term@4:c3 +Debug: [elpi] lp2term@5:app [c1, c4] +Debug: [elpi] lp2term@5:c1 +Debug: [elpi] lp2term@5:c4 +Debug: +[elpi] + lp2term@4:fun `x` (X9 c0 c1 c2 c3) c4 \ + fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] +Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 +Debug: +[elpi] + lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X9 +Debug: +[elpi] + lp2term: evar: create_unknown: whole ctx: ; (u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 +c3 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + restrict_coq_context: cur subst: u + restrict_coq_context: looking at K(dbl 1) +Debug: [elpi] ?e8--0->?e8 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + restrict_coq_context: cur subst: K + u + restrict_coq_context: looking at K_S(dbl 2) +Debug: [elpi] ?e9--0->?e9 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + (K_S : ?e9) + restrict_coq_context: cur subst: K_S + K + u + restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) +Debug: [elpi] ?e10--0->?e10 +Debug: +[elpi] + lp2term: evar: create_unknown: restricted ctx:(u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X54 + EVARS: + ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} + ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} + ?X52==[u K K_S |- Type] (internal placeholder) {?e10} + ?X51==[u K |- Type] (internal placeholder) {?e9} + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.38 elpi_tests_stdlib.test_quotation.37 + elpi_tests_stdlib.test_quotation.36 elpi_tests_stdlib.test_quotation.35 + elpi_tests_stdlib.test_quotation.34 elpi_tests_stdlib.test_quotation.33 + elpi_tests_stdlib.test_quotation.32 elpi_tests_stdlib.test_quotation.31 + elpi_tests_stdlib.test_quotation.30 elpi_tests_stdlib.test_quotation.29} |= + +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 + α31 + α32 + α33 + α34 + α35 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 ?X44 +?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@4:X9 c0 c1 c2 c3 +Debug: +[elpi] + lp2term: evar: calldepth:0 X9 c0 c1 c2 c3 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 + +Debug: [elpi] lp2term: evar: already in Coq: ?X54 +Debug: [elpi] lp2term@4:c0 +Debug: [elpi] lp2term@4:c1 +Debug: [elpi] lp2term@4:c2 +Debug: [elpi] lp2term@4:c3 +Debug: [elpi] lp2term@5:fun `Px` (X10 c0 c1 c2 c3 c4) c5 \ app [c2, c4, c5] +Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 +Debug: +[elpi] + lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 + +Debug: [elpi] lp2term: evar: unknown: calldepth:0 X10 +Debug: +[elpi] + lp2term: evar: create_unknown: whole ctx: ; (u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) + (x : ?e12) +Debug: [elpi] lp2term: evar: create_unknown: visible ctx:c0 c1 c2 c3 +c4 +Debug: [elpi] restrict_coq_context: named: +Debug: +[elpi] + restrict_coq_context: cur rel ctx: + restrict_coq_context: cur subst: + restrict_coq_context: looking at u(dbl 0) +Debug: [elpi] ?e--0->?e +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + restrict_coq_context: cur subst: u + restrict_coq_context: looking at K(dbl 1) +Debug: [elpi] ?e8--0->?e8 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + restrict_coq_context: cur subst: K + u + restrict_coq_context: looking at K_S(dbl 2) +Debug: [elpi] ?e9--0->?e9 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + (K_S : ?e9) + restrict_coq_context: cur subst: K_S + K + u + restrict_coq_context: looking at _elpi_renamed_u_3(dbl 3) +Debug: [elpi] ?e10--0->?e10 +Debug: +[elpi] + restrict_coq_context: cur rel ctx: (u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) + restrict_coq_context: cur subst: _elpi_renamed_u_3 + K_S + K + u + restrict_coq_context: looking at x(dbl 4) +Debug: [elpi] ?e12--0->?e12 +Debug: +[elpi] + lp2term: evar: create_unknown: restricted ctx:(u : ?e) + (K : ?e8) + (K_S : ?e9) + (_elpi_renamed_u_3 : ?e10) + (x : ?e12) +Debug: +[elpi] + lp2term: evar: create_unknown: new link: ? |> |- ? = ?X55 + EVARS: + ?X55==[u K K_S _elpi_renamed_u_3 x |- Type] (internal placeholder) {?e13} + ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} + ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} + ?X52==[u K K_S |- Type] (internal placeholder) {?e10} + ?X51==[u K |- Type] (internal placeholder) {?e9} + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + +UNIVERSES: + {elpi_tests_stdlib.test_quotation.39 elpi_tests_stdlib.test_quotation.38 + elpi_tests_stdlib.test_quotation.37 elpi_tests_stdlib.test_quotation.36 + elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 + elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 + elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 + elpi_tests_stdlib.test_quotation.29} |= +ALGEBRAIC UNIVERSES: + {} +FLEXIBLE UNIVERSES: + +SORTS: + α26 + α27 + α28 + α29 + α30 + α31 + α32 + α33 + α34 + α35 + α36 +WEAK CONSTRAINTS: + +SHELF: +FUTURE GOALS STACK:?X55 ?X54 ?X53 ?X52 ?X51 ?X50 ?X49 ?X48 ?X47 ?X46 ?X45 +?X44 ?X43 ?X42 +?X41 + +Debug: [elpi] lp2term@5:X10 c0 c1 c2 c3 c4 +Debug: +[elpi] + lp2term: evar: calldepth:0 X10 c0 c1 c2 c3 c4 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] lp2term: evar: already in Coq: ?X55 +Debug: [elpi] lp2term@5:c0 +Debug: [elpi] lp2term@5:c1 +Debug: [elpi] lp2term@5:c2 +Debug: [elpi] lp2term@5:c3 +Debug: [elpi] lp2term@5:c4 +Debug: [elpi] lp2term@6:app [c2, c4, c5] +Debug: [elpi] lp2term@6:c2 +Debug: [elpi] lp2term@6:c4 +Debug: [elpi] lp2term@6:c5 +Debug: +[elpi] + lp2term: out=(fun u : ?e => + {| + val := oval u; + Sub := ?e7; + Sub_rect := + fun (K : ?e8) (K_S : ?e9) (_elpi_renamed_u_3 : ?e10) => + let + (x, Px) as u0 + return + ?e11@{u:=K; K:=K_S; K_S:=_elpi_renamed_u_3; + _elpi_renamed_u_3:=u0} := _elpi_renamed_u_3 in + K_S x Px + |}) + elpi2coq: + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +EVARS: + ?X55==[u K K_S _elpi_renamed_u_3 x |- Type] (internal placeholder) {?e13} + ?X54==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e12} + ?X53==[u K K_S _elpi_renamed_u_3 |- Type] (internal placeholder) {?e11} + ?X52==[u K K_S |- Type] (internal placeholder) {?e10} + ?X51==[u K |- Type] (internal placeholder) {?e9} + ?X50==[u |- Type] (internal placeholder) {?e8} + ?X49==[u |- ?e6] (internal placeholder) {?e7} + ?X48==[u |- Type] (internal placeholder) {?e6} + ?X47==[u |- ?e4] (internal placeholder) {?e5} + ?X46==[u |- Type] (internal placeholder) {?e4} + ?X45==[u |- ?e2] (internal placeholder) {?e3} + ?X44==[u |- Type] (internal placeholder) {?e2} + ?X43==[u |- ?e0] (internal placeholder) {?e1} + ?X42==[u |- Type] (internal placeholder) {?e0} + ?X41==[ |- Type] (internal placeholder) {?e} + + UNIVERSES: + {elpi_tests_stdlib.test_quotation.39 elpi_tests_stdlib.test_quotation.38 + elpi_tests_stdlib.test_quotation.37 elpi_tests_stdlib.test_quotation.36 + elpi_tests_stdlib.test_quotation.35 elpi_tests_stdlib.test_quotation.34 + elpi_tests_stdlib.test_quotation.33 elpi_tests_stdlib.test_quotation.32 + elpi_tests_stdlib.test_quotation.31 elpi_tests_stdlib.test_quotation.30 + elpi_tests_stdlib.test_quotation.29} |= + ALGEBRAIC UNIVERSES: + {} + FLEXIBLE UNIVERSES: + + SORTS: + α26 + α27 + α28 + α29 + α30 + α31 + α32 + α33 + α34 + α35 + α36 + WEAK CONSTRAINTS: + + SHELF: + + FUTURE GOALS STACK: + ?X55 + ?X54 + ?X53 + ?X52 + ?X51 + ?X50 + ?X49 + ?X48 + ?X47 + ?X46 + ?X45 + ?X44 + ?X43 + ?X42 + ?X41 + +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X41 <-> X0 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=0 ctx= term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.29») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to0 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X41 <-> X0 + declare-evar [] (X0) (sort (typ «elpi_tests_stdlib.test_quotation.29»)) + (X0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X42 <-> X12 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.30») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X42 <-> X12 + pi c0 \ + declare-evar [decl c0 `u` (X0)] (X12 c0) + (sort (typ «elpi_tests_stdlib.test_quotation.30»)) (X11 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X43 <-> X1 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e0 +Debug: [elpi] in_elpi_evar:?X42 +Debug: [elpi] in_elpi_evar: known ?X42 as X11 +Debug: [elpi] term2lp (out): X11 c0 +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X43 <-> X1 + pi c0 \ declare-evar [decl c0 `u` (X0)] (X1 c0) (X11 c0) (X1 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X44 <-> X14 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.31») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X44 <-> X14 + pi c0 \ + declare-evar [decl c0 `u` (X0)] (X14 c0) + (sort (typ «elpi_tests_stdlib.test_quotation.31»)) (X13 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X45 <-> X2 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e2 +Debug: [elpi] in_elpi_evar:?X44 +Debug: [elpi] in_elpi_evar: known ?X44 as X13 +Debug: [elpi] term2lp (out): X13 c0 +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X45 <-> X2 + pi c0 \ declare-evar [decl c0 `u` (X0)] (X2 c0) (X13 c0) (X2 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X46 <-> X16 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.32») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X46 <-> X16 + pi c0 \ + declare-evar [decl c0 `u` (X0)] (X16 c0) + (sort (typ «elpi_tests_stdlib.test_quotation.32»)) (X15 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X47 <-> X3 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e4 +Debug: [elpi] in_elpi_evar:?X46 +Debug: [elpi] in_elpi_evar: known ?X46 as X15 +Debug: [elpi] term2lp (out): X15 c0 +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X47 <-> X3 + pi c0 \ declare-evar [decl c0 `u` (X0)] (X3 c0) (X15 c0) (X3 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X48 <-> X18 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.33») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X48 <-> X18 + pi c0 \ + declare-evar [decl c0 `u` (X0)] (X18 c0) + (sort (typ «elpi_tests_stdlib.test_quotation.33»)) (X17 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X49 <-> X4 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=?e6 +Debug: [elpi] in_elpi_evar:?X48 +Debug: [elpi] in_elpi_evar: known ?X48 as X17 +Debug: [elpi] term2lp (out): X17 c0 +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X49 <-> X4 + pi c0 \ declare-evar [decl c0 `u` (X0)] (X4 c0) (X17 c0) (X4 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X50 <-> X5 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=1 ctx=u : ?e term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.34») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to1 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X50 <-> X5 + pi c0 \ + declare-evar [decl c0 `u` (X0)] (X5 c0) + (sort (typ «elpi_tests_stdlib.test_quotation.34»)) (X5 c0) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X51 <-> X6 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 +Debug: [elpi] in_elpi_evar:?X50 +Debug: [elpi] in_elpi_evar: known ?X50 as X5 +Debug: [elpi] term2lp (out): X5 c0 +Debug: [elpi] term2lp: depth=2 ctx=u : ?e K : ?e8 term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.35») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to2 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X51 <-> X6 + pi c0 \ + pi c1 \ + declare-evar [decl c1 `K` (X5 c0), decl c0 `u` X0] (X6 c0 c1) + (sort (typ «elpi_tests_stdlib.test_quotation.35»)) (X6 c0 c1) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X52 <-> X7 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 +Debug: [elpi] in_elpi_evar:?X50 +Debug: [elpi] in_elpi_evar: known ?X50 as X5 +Debug: [elpi] term2lp (out): X5 c0 +Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 +Debug: [elpi] in_elpi_evar:?X51 +Debug: [elpi] in_elpi_evar: known ?X51 as X6 +Debug: [elpi] term2lp (out): X6 c0 c1 +Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 K_S : ?e9 term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.36») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to3 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X52 <-> X7 + pi c0 \ + pi c1 \ + pi c2 \ + declare-evar + [decl c2 `K_S` (X6 c0 c1), decl c1 `K` (X5 c0), decl c0 `u` X0] + (X7 c0 c1 c2) (sort (typ «elpi_tests_stdlib.test_quotation.36»)) + (X7 c0 c1 c2) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X53 <-> X8 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 +Debug: [elpi] in_elpi_evar:?X50 +Debug: [elpi] in_elpi_evar: known ?X50 as X5 +Debug: [elpi] term2lp (out): X5 c0 +Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 +Debug: [elpi] in_elpi_evar:?X51 +Debug: [elpi] in_elpi_evar: known ?X51 as X6 +Debug: [elpi] term2lp (out): X6 c0 c1 +Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 +Debug: [elpi] in_elpi_evar:?X52 +Debug: [elpi] in_elpi_evar: known ?X52 as X7 +Debug: [elpi] term2lp (out): X7 c0 c1 c2 +Debug: +[elpi] + term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.37») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to4 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X53 <-> X8 + pi c0 \ + pi c1 \ + pi c2 \ + pi c3 \ + declare-evar + [decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), + decl c1 `K` (X5 c0), decl c0 `u` X0] (X8 c0 c1 c2 c3) + (sort (typ «elpi_tests_stdlib.test_quotation.37»)) (X8 c0 c1 c2 c3) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X54 <-> X9 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 +Debug: [elpi] in_elpi_evar:?X50 +Debug: [elpi] in_elpi_evar: known ?X50 as X5 +Debug: [elpi] term2lp (out): X5 c0 +Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 +Debug: [elpi] in_elpi_evar:?X51 +Debug: [elpi] in_elpi_evar: known ?X51 as X6 +Debug: [elpi] term2lp (out): X6 c0 c1 +Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 +Debug: [elpi] in_elpi_evar:?X52 +Debug: [elpi] in_elpi_evar: known ?X52 as X7 +Debug: [elpi] term2lp (out): X7 c0 c1 c2 +Debug: +[elpi] + term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.38») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to4 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X54 <-> X9 + pi c0 \ + pi c1 \ + pi c2 \ + pi c3 \ + declare-evar + [decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), + decl c1 `K` (X5 c0), decl c0 `u` X0] (X9 c0 c1 c2 c3) + (sort (typ «elpi_tests_stdlib.test_quotation.38»)) (X9 c0 c1 c2 c3) +Debug: +[elpi] + in_elpi_fresh_evar: unknown ?X55 <-> X10 + RAW: +?X41 <-> X0 +?X42 <-> X12 +?X43 <-> X1 +?X44 <-> X14 +?X45 <-> X2 +?X46 <-> X16 +?X47 <-> X3 +?X48 <-> X18 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 +ELAB: +?X41 <-> X0 +?X42 <-> X11 +?X43 <-> X1 +?X44 <-> X13 +?X45 <-> X2 +?X46 <-> X15 +?X47 <-> X3 +?X48 <-> X17 +?X49 <-> X4 +?X50 <-> X5 +?X51 <-> X6 +?X52 <-> X7 +?X53 <-> X8 +?X54 <-> X9 +?X55 <-> X10 + +Debug: [elpi] term2lp: depth=1 ctx= term=?e +Debug: [elpi] in_elpi_evar:?X41 +Debug: [elpi] in_elpi_evar: known ?X41 as X0 +Debug: [elpi] term2lp (out): X0 +Debug: [elpi] term2lp: depth=2 ctx=u : ?e term=?e8 +Debug: [elpi] in_elpi_evar:?X50 +Debug: [elpi] in_elpi_evar: known ?X50 as X5 +Debug: [elpi] term2lp (out): X5 c0 +Debug: [elpi] term2lp: depth=3 ctx=u : ?e K : ?e8 term=?e9 +Debug: [elpi] in_elpi_evar:?X51 +Debug: [elpi] in_elpi_evar: known ?X51 as X6 +Debug: [elpi] term2lp (out): X6 c0 c1 +Debug: [elpi] term2lp: depth=4 ctx=u : ?e K : ?e8 K_S : ?e9 term=?e10 +Debug: [elpi] in_elpi_evar:?X52 +Debug: [elpi] in_elpi_evar: known ?X52 as X7 +Debug: [elpi] term2lp (out): X7 c0 c1 c2 +Debug: +[elpi] + term2lp: depth=5 ctx=u : ?e K : ?e8 K_S : ?e9 _elpi_renamed_u_3 : ?e10 term= + ?e12 +Debug: [elpi] in_elpi_evar:?X54 +Debug: [elpi] in_elpi_evar: known ?X54 as X9 +Debug: [elpi] term2lp (out): X9 c0 c1 c2 c3 +Debug: +[elpi] + term2lp: depth=5 ctx=u : ?e + K : ?e8 + K_S : ?e9 + _elpi_renamed_u_3 : ?e10 + x : ?e12 term=Type +Debug: [elpi] term2lp (out): sort (typ «elpi_tests_stdlib.test_quotation.39») +Debug: [elpi] in_elpi_evar_concl: moving Ctx down to5 +Debug: +[elpi] + in_elpi_fresh_evar: new decl at depth:0 for ?X55 <-> X10 + pi c0 \ + pi c1 \ + pi c2 \ + pi c3 \ + pi c4 \ + declare-evar + [decl c4 `x` (X9 c0 c1 c2 c3), + decl c3 `_elpi_renamed_u_3` (X7 c0 c1 c2), decl c2 `K_S` (X6 c0 c1), + decl c1 `K` (X5 c0), decl c0 `u` X0] (X10 c0 c1 c2 c3 c4) + (sort (typ «elpi_tests_stdlib.test_quotation.39»)) + (X10 c0 c1 c2 c3 c4) +Debug: +[elpi] + Elpi: query-compilation:0.0006 static-check:0.0000 optimization:0.0000 runtime:0.0059 (with error) + +hd + : forall A : Type, A -> list A -> A +Debug: [elpi] gterm2lp: term=hd +Debug: [elpi] Compiler cache: lookups=8, hits=6 + +Debug: [elpi] Compiler cache: lookups=0, hits=0 + +File "./tests-stdlib/test_quotation.v", line 47, characters 32-33: +Warning: +File "./tests-stdlib/test_quotation.v", line 47, characters 32-33 +X is linear: name it _X (discard) or X_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] nabla c1 \ seal (goal [decl c1 `P` (sort prop)] (app [global (const «id»), X0, X1]) @@ -15389,7 +14864,7 @@ Debug: rid:4 step:103 gid:241 user:rule:backchain = success -Debug: }}} -> (0.001s) +Debug: }}} -> (0.000s) Debug: run 104 {{{ Debug: @@ -16099,884 +15574,575 @@ Debug: rid:4 step:116 gid:253 user:rule = eq -Debug: - rid:4 step:116 gid:253 user:rule:builtin:name = = - -Debug: - rid:4 step:116 gid:0 user:assign:HO = X49 := c0 \ - c1 \ - c2 \ - app - [global (indt «eq»), - global (indt «nat»), c0, - app - [global (const «Nat.add»), - app - [global (const «Nat.add»), - app - [global (indc «S»), - global (indc «O»)], c2], c1]] - -Debug: - rid:4 step:116 gid:253 user:rule:eq = success - -Debug: }}} -> (0.000s) -Debug: run 117 {{{ - -Debug: - rid:4 step:117 gid:250 user:curgoal = prune - prune (X45 c2 c3 c4) [c2, c3, c4] - -Debug: - rid:4 step:117 gid:250 user:rule = builtin - -Debug: - rid:4 step:117 gid:250 user:rule:builtin:name = prune - -Debug: - rid:4 step:117 gid:250 user:rule:builtin = success - -Debug: - rid:4 step:117 gid:250 user:subgoal = 254 - -Debug: - rid:4 step:117 gid:254 user:newgoal = X45 c2 c3 c4 = X50 c2 c3 c4 - -Debug: }}} -> (0.000s) -Debug: run 118 {{{ - -Debug: - rid:4 step:118 gid:254 user:curgoal = = - X45 c2 c3 c4 = X50 c2 c3 c4 - -Debug: - rid:4 step:118 gid:254 user:rule = eq - -Debug: - rid:4 step:118 gid:254 user:rule:builtin:name = = - -Debug: - rid:4 step:118 gid:0 user:assign:HO = X45 := c0 \ - c1 \ - c2 \ - X50 c0 c1 c2 - -Debug: - rid:4 step:118 gid:254 user:rule:eq = success - -Debug: }}} -> (0.000s) -Debug: run 119 {{{ - -Debug: - rid:4 step:119 gid:251 user:curgoal = declare_constraint - declare_constraint - (evar (X50 c2 c3 c4) - (app - [global (indt «eq»), - global (indt «nat»), c2, - app - [global (const «Nat.add»), - app - [global (const «Nat.add»), - app - [global (indc «S»), - global (indc «O»)], c4], - c3]]) (X46 c2 c3 c4)) - [X50 c2 c3 c4, X46 c2 c3 c4] - -Debug: - rid:4 step:119 gid:251 user:rule = builtin - -Debug: - rid:4 step:119 gid:251 user:rule:builtin:name = declare_constraint - -Debug: - rid:4 step:119 gid:251 user:subgoal = 255 - -Debug: - rid:4 step:119 gid:255 user:newgoal = evar (X50 c2 c3 c4) - (app - [global (indt «eq»), - global (indt «nat»), c2, - app - [global (const «Nat.add»), - app - [global (const «Nat.add»), - app - [global (indc «S»), - global (indc «O»)], c4], c3]]) - (X46 c2 c3 c4) - -Debug: - rid:4 step:119 gid:251 user:rule:builtin = success - -Debug: }}} -> (0.000s) -Debug: run 120 {{{ - -Debug: - rid:4 step:120 gid:246 user:curgoal = std.append - std.append [] [] X47 - -Debug: - rid:4 step:120 gid:246 user:rule = backchain - -Debug: - rid:4 step:120 gid:246 user:rule:backchain:candidates = File "builtin_stdlib.elpi", line 87, column 0, characters 2841-2854: - -Debug: }}} -> (0.000s) -Debug: select 57 {{{ - -Debug: - rid:4 step:120 gid:246 user:rule:backchain:try = File "builtin_stdlib.elpi", line 87, column 0, characters 2841-2854: - (std.append [] A0 A0) :- . - -Debug: - rid:4 step:120 gid:0 user:assign = A0 := [] - -Debug: - rid:4 step:120 gid:0 user:assign = X47 := [] - -Debug: - rid:4 step:120 gid:246 user:rule:backchain = success - -Debug: }}} -> (0.000s) -w - : nat -File "./tests/test_tactic.v", line 5, characters 28-32: -Warning: -File "./tests/test_tactic.v", line 5, characters 28-32 -Type is linear: name it _Type (discard) or Type_ (fresh variable) -[elpi.linear-variable,elpi.typecheck,elpi,default] -(true && false)%bool - : bool -natmul R n : ringType_sort R - : ringType_sort R -natmul R n : ringType_sort R - : ringType_sort R - {c0} : decl c0 `x` (global (indt «nat»)) - ?- evar (X0 c0) - (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) - (X1 c0) /* suspended on X0, X1 */ -EVARS: - ?X2==[x |- bool -> True] (goal evar) {?Goal} - ?X1==[ |- => fun x : nat => ?Goal] (goal evar) - -SHELF:|| -FUTURE GOALS STACK: - || - -Rocq-Elpi mapping: -RAW: -?X2 <-> c0 \ X0 c0 -ELAB: -?X2 <-> X1 - -Debug: - {c0} : decl c0 `x` (global (indt «nat»)) - ?- evar (X0 c0) - (prod `_` (global (indt «bool»)) c1 \ global (indt «True»)) - (X1 c0) /* suspended on X0, X1 */ -H -[nabla c1 \ - seal - (goal - [decl c1 `H` - (prod `b` - (prod `b` (global (indt «bool»)) c2 \ - app [global (indt «eq»), global (indt «bool»), c2, c2]) c2 \ - global (indt «True»))] (X0 c1) - (prod `b` (global (indt «bool»)) c2 \ - app [global (indt «eq»), global (indt «bool»), c2, c2]) (X1 c1) [])] -[str fun, str in, str as, int 4, str end, str match, str return, str =>, - str :, str :=, str {, str }, str ;, str ,, str |, str x, int 1, str H, - trm - (fun `x` (global (indt «False»)) c0 \ - match c0 (fun `y` (global (indt «False»)) c1 \ global (indt «nat»)) - [])] -Query assignments: - T = sort (typ «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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - -WEAK CONSTRAINTS: - - -Query assignments: - U = «foo» -Query assignments: - X = c0 \ c1 \ c2 \ -X0 c0 c1 c2 - X3_ = global (indt «nat») -Syntactic constraints: - {c0 c1 c2 c3 c4 c5 c6} : - decl c6 `z` (app [global (const «N»), c5]), - decl c5 `x` (global (indt «nat»)), - decl c4 `a` (global (indt «bool»)) - ?- evar (X0 c4 c5 c6) (X1 c4 c5 c6) (X0 c4 c5 c6) /* suspended on X0 */ - {c0 c1 c2 c3 c4 c5 c6} : - decl c6 `z` (app [global (const «N»), c5]), - decl c5 `x` (global (indt «nat»)), - decl c4 `a` (global (indt «bool»)) - ?- evar (X2 c4 c5 c6) (sort (typ «elpi.tests.test_HOAS.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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α3 := Type - α4 -WEAK 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 */ -EVARS: - ?X10==[ |- Type] (internal placeholder) {?elpi_evar} - ?X9==[a |- ?elpi_evar] (internal placeholder) {?e0} - ?X8==[a |- => ?elpi_evar] (internal placeholder) - -SHELF: -FUTURE GOALS STACK:?X10 -?X9 - -Rocq-Elpi mapping: -RAW: -?X9 <-> c0 \ X2 c0 -?X10 <-> X0 -ELAB: -?X9 <-> X2 -?X10 <-> X1 - -X2 c0 : X1 -Query assignments: - TY = X1 - X = c0 \ c1 \ -X2 c0 -Syntactic constraints: - {c0 c1} : decl c1 `a` (global (indt «bool»)) - ?- evar X0 (sort (typ «elpi.tests.test_HOAS.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: - {} -FLEXIBLE UNIVERSES: - -SORTS: - α5 -WEAK CONSTRAINTS: - - -Raw term: -app - [global (const «add»), primitive (uint63 2000000003333002), - primitive (uint63 1)] -Nice term: (2000000003333002 + 1)%uint63 -Red: -2000000003333003%uint63 -Raw term: -app - [global (const «add»), primitive (float64 24000000000000), - primitive (float64 1)] -Nice term: 24000000000000 + 1 -Red: 24000000000001 -Query assignments: - C = «Nat.add» - F = TODO - T = app - [fix `add` 0 - (prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ - fun `n` (global (indt «nat»)) c1 \ - fun `m` (global (indt «nat»)) c2 \ - match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) - [c2, - fun `p` (global (indt «nat»)) c3 \ - app [global (indc «S»), app [c0, c3, c2]]], - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - T1 = app - [global (const «Nat.add»), - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - T2 = app - [fix `plus` 0 - (prod `n` (global (indt «nat»)) c0 \ - prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ - fun `n` (global (indt «nat»)) c1 \ - fun `m` (global (indt «nat»)) c2 \ - match c1 - (fun `_elpi_renamed_n_3` (global (indt «nat»)) c3 \ - global (indt «nat»)) - [c2, - fun `p` (global (indt «nat»)) c3 \ - app [global (indc «S»), app [c0, c3, c2]]], - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - X10_ = c0 \ c1 \ c2 \ -global (indt «nat») - X4_ = global (indt «nat») - X5_ = c0 \ -global (indt «nat») - X6_ = c0 \ c1 \ -global (indt «nat») - X7_ = c0 \ -global (indt «nat») - X8_ = c0 \ c1 \ -global (indt «nat») - X9_ = c0 \ c1 \ c2 \ c3 \ -global (indt «nat») -Query assignments: - C = «Nat.add» - F = TODO - T = app - [fun `n` (global (indt «nat»)) c0 \ - fun `m` (global (indt «nat»)) c1 \ - match c0 (fun `n` (global (indt «nat»)) c2 \ global (indt «nat»)) - [c1, - fun `p` (global (indt «nat»)) c2 \ - app - [global (indc «S»), - app - [fix `add` 0 - (prod `n` (global (indt «nat»)) c3 \ - prod `m` (global (indt «nat»)) c4 \ global (indt «nat»)) - c3 \ - fun `n` (global (indt «nat»)) c4 \ - fun `m` (global (indt «nat»)) c5 \ - match c4 - (fun `n` (global (indt «nat»)) c6 \ global (indt «nat»)) - [c5, - fun `p` (global (indt «nat»)) c6 \ - app [global (indc «S»), app [c3, c6, c5]]], c2, c1]]], - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - T1 = app - [global (const «Nat.add»), - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - T2 = app - [fun `n` (global (indt «nat»)) c0 \ - fun `m` (global (indt «nat»)) c1 \ - match c0 - (fun `_elpi_renamed_n_2` (global (indt «nat»)) c2 \ - global (indt «nat»)) - [c1, - fun `p` (global (indt «nat»)) c2 \ - app - [global (indc «S»), - app - [fix `plus` 0 - (prod `_elpi_renamed_n_3` (global (indt «nat»)) c3 \ - prod `_elpi_renamed_m_4` (global (indt «nat»)) c4 \ - global (indt «nat»)) c3 \ - fun `_elpi_renamed_n_4` (global (indt «nat»)) c4 \ - fun `_elpi_renamed_m_5` (global (indt «nat»)) c5 \ - match c4 - (fun `_elpi_renamed_n_6` (global (indt «nat»)) c6 \ - global (indt «nat»)) - [c5, - fun `_elpi_renamed_p_6` (global (indt «nat»)) c6 \ - app [global (indc «S»), app [c3, c6, c5]]], c2, c1]]], - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - X11_ = global (indt «nat») - X12_ = c0 \ -global (indt «nat») - X13_ = c0 \ c1 \ c2 \ -global (indt «nat») - X14_ = c0 \ c1 \ -global (indt «nat») - X15_ = c0 \ c1 \ c2 \ -global (indt «nat») - X16_ = c0 \ c1 \ c2 \ c3 \ -global (indt «nat») - X17_ = c0 \ c1 \ c2 \ c3 \ c4 \ -global (indt «nat») - X18_ = c0 \ c1 \ c2 \ c3 \ -global (indt «nat») - X19_ = c0 \ c1 \ c2 \ c3 \ c4 \ -global (indt «nat») - X20_ = c0 \ c1 \ c2 \ c3 \ c4 \ c5 \ c6 \ -global (indt «nat») - X21_ = c0 \ c1 \ c2 \ c3 \ c4 \ c5 \ -global (indt «nat») -Query assignments: - C = «Nat.add» - F = TODO - T = match (app [global (indc «S»), global (indc «O»)]) - (fun `n` (global (indt «nat»)) c0 \ global (indt «nat»)) - [app [global (indc «S»), app [global (indc «S»), global (indc «O»)]], - fun `p` (global (indt «nat»)) c0 \ - app - [global (indc «S»), - app - [fix `add` 0 - (prod `n` (global (indt «nat»)) c1 \ - prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) c1 \ - fun `n` (global (indt «nat»)) c2 \ - fun `m` (global (indt «nat»)) c3 \ - match c2 - (fun `n` (global (indt «nat»)) c4 \ global (indt «nat»)) - [c3, - fun `p` (global (indt «nat»)) c4 \ - app [global (indc «S»), app [c1, c4, c3]]], c0, - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] - T1 = app - [global (const «Nat.add»), - app [global (indc «S»), global (indc «O»)], - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] - T2 = match (app [global (indc «S»), global (indc «O»)]) - (fun `_` (global (indt «nat»)) c0 \ global (indt «nat»)) - [app [global (indc «S»), app [global (indc «S»), global (indc «O»)]], - fun `p` (global (indt «nat»)) c0 \ - app - [global (indc «S»), - app - [fix `plus` 0 - (prod `n` (global (indt «nat»)) c1 \ - prod `m` (global (indt «nat»)) c2 \ global (indt «nat»)) c1 \ - fun `n` (global (indt «nat»)) c2 \ - fun `m` (global (indt «nat»)) c3 \ - match c2 - (fun `_elpi_renamed_n_4` (global (indt «nat»)) c4 \ - global (indt «nat»)) - [c3, - fun `_elpi_renamed_p_4` (global (indt «nat»)) c4 \ - app [global (indc «S»), app [c1, c4, c3]]], c0, - app - [global (indc «S»), app [global (indc «S»), global (indc «O»)]]]]] - X22_ = global (indt «nat») - X23_ = global (indt «nat») - X24_ = c0 \ -global (indt «nat») - X25_ = c0 \ c1 \ -global (indt «nat») - X26_ = c0 \ c1 \ c2 \ -global (indt «nat») - X27_ = c0 \ c1 \ -global (indt «nat») - X28_ = c0 \ c1 \ c2 \ -global (indt «nat») - X29_ = c0 \ c1 \ c2 \ c3 \ c4 \ -global (indt «nat») - X30_ = c0 \ c1 \ c2 \ c3 \ -global (indt «nat») +Debug: + rid:4 step:116 gid:253 user:rule:builtin:name = = + +Debug: + rid:4 step:116 gid:0 user:assign:HO = X49 := c0 \ + c1 \ + c2 \ + app + [global (indt «eq»), + global (indt «nat»), c0, + app + [global (const «Nat.add»), + app + [global (const «Nat.add»), + app + [global (indc «S»), + global (indc «O»)], c2], c1]] + +Debug: + rid:4 step:116 gid:253 user:rule:eq = success + +Debug: }}} -> (0.000s) +Debug: run 117 {{{ + +Debug: + rid:4 step:117 gid:250 user:curgoal = prune + prune (X45 c2 c3 c4) [c2, c3, c4] + +Debug: + rid:4 step:117 gid:250 user:rule = builtin + +Debug: + rid:4 step:117 gid:250 user:rule:builtin:name = prune + +Debug: + rid:4 step:117 gid:250 user:rule:builtin = success + +Debug: + rid:4 step:117 gid:250 user:subgoal = 254 + +Debug: + rid:4 step:117 gid:254 user:newgoal = X45 c2 c3 c4 = X50 c2 c3 c4 + +Debug: }}} -> (0.000s) +Debug: run 118 {{{ + +Debug: + rid:4 step:118 gid:254 user:curgoal = = + X45 c2 c3 c4 = X50 c2 c3 c4 + +Debug: + rid:4 step:118 gid:254 user:rule = eq + +Debug: + rid:4 step:118 gid:254 user:rule:builtin:name = = + +Debug: + rid:4 step:118 gid:0 user:assign:HO = X45 := c0 \ + c1 \ + c2 \ + X50 c0 c1 c2 + +Debug: + rid:4 step:118 gid:254 user:rule:eq = success + +Debug: }}} -> (0.000s) +Debug: run 119 {{{ + +Debug: + rid:4 step:119 gid:251 user:curgoal = declare_constraint + declare_constraint + (evar (X50 c2 c3 c4) + (app + [global (indt «eq»), + global (indt «nat»), c2, + app + [global (const «Nat.add»), + app + [global (const «Nat.add»), + app + [global (indc «S»), + global (indc «O»)], c4], + c3]]) (X46 c2 c3 c4)) + [X50 c2 c3 c4, X46 c2 c3 c4] + +Debug: + rid:4 step:119 gid:251 user:rule = builtin + +Debug: + rid:4 step:119 gid:251 user:rule:builtin:name = declare_constraint + +Debug: + rid:4 step:119 gid:251 user:subgoal = 255 + +Debug: + rid:4 step:119 gid:255 user:newgoal = evar (X50 c2 c3 c4) + (app + [global (indt «eq»), + global (indt «nat»), c2, + app + [global (const «Nat.add»), + app + [global (const «Nat.add»), + app + [global (indc «S»), + global (indc «O»)], c4], c3]]) + (X46 c2 c3 c4) + +Debug: + rid:4 step:119 gid:251 user:rule:builtin = success + +Debug: }}} -> (0.000s) +Debug: run 120 {{{ + +Debug: + rid:4 step:120 gid:246 user:curgoal = std.append + std.append [] [] X47 + +Debug: + rid:4 step:120 gid:246 user:rule = backchain + +Debug: + rid:4 step:120 gid:246 user:rule:backchain:candidates = File "builtin_stdlib.elpi", line 87, column 0, characters 2841-2854: + +Debug: }}} -> (0.000s) +Debug: select 57 {{{ + +Debug: + rid:4 step:120 gid:246 user:rule:backchain:try = File "builtin_stdlib.elpi", line 87, column 0, characters 2841-2854: + (std.append [] A0 A0) :- . + +Debug: + rid:4 step:120 gid:0 user:assign = A0 := [] + +Debug: + rid:4 step:120 gid:0 user:assign = X47 := [] + +Debug: + rid:4 step:120 gid:246 user:rule:backchain = success + +Debug: }}} -> (0.000s) +w + : nat +File "./tests/test_tactic.v", line 5, characters 28-32: +Warning: +File "./tests/test_tactic.v", line 5, characters 28-32 +Type is linear: name it _Type (discard) or Type_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./apps/eltac/theories/apply.v", line 15, characters 16-19: +Warning: +File "./apps/eltac/theories/apply.v", line 15, characters 16-19 +Ctx is linear: name it _Ctx (discard) or Ctx_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +(true && false)%bool + : bool +natmul R n : ringType_sort R + : ringType_sort R +natmul R n : ringType_sort R + : ringType_sort R +1 + : nat +hello1 +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 +test1 +str hello +str x +test1 +too many arguments +[attribute elpi.loc + (leaf-loc + File "./tests/test_vernacular2.v", line 10, column 24, characters 326-329:), + attribute elpi.phase (leaf-str interp), + attribute fwd_compat_attr (leaf-str )] +[attribute elpi.loc + (leaf-loc + File "./tests/test_vernacular2.v", line 11, column 0, characters 331-354:), + attribute elpi.phase (leaf-str interp), + attribute fwd_compat_attr (leaf-str )] +File "./tests/test_vernacular2.v", line 6, characters 2-17: +Warning: This command does not support this attribute: fwd_compat_attr. +[unsupported-attributes,parsing,default] +File "./tests/test_vernacular2.v", line 7, characters 2-17: +Warning: This command does not support this attribute: fwd_compat_attr. +[unsupported-attributes,parsing,default] +File "./tests/test_vernacular2.v", line 8, characters 2-17: +Warning: This command does not support this attribute: fwd_compat_attr. +[unsupported-attributes,parsing,default] +File "./tests/test_vernacular2.v", line 9, characters 2-17: +Warning: This command does not support this attribute: fwd_compat_attr. +[unsupported-attributes,parsing,default] +File "./tests/test_vernacular2.v", line 10, characters 2-17: +Warning: This command does not support this attribute: fwd_compat_attr. +[unsupported-attributes,parsing,default] 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»)]]] + 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: - C = «proj1» + GR = «empty_nat» + TY = global (indt «nat») Query assignments: - C = «proj1» - P = elpi.tests.test_HOAS.P''.proj1 -elpi.tests.test_HOAS.P.p1 1 global (const «P.x») -@P.p1 -X0 global (const «P.x») -P.p1 P.x -some - (fun `A` (sort (typ «P.foo.u0»)) c0 \ - fun `f` (app [global (indt «P.foo»), c0]) c1 \ - app [primitive (proj elpi.tests.test_HOAS.P.p1 1), c1]) -elpi.tests.test_HOAS.P.p2 2 global (const «P.x») -@P.p2 -X0 global (const «P.x») -P.p2 P.x -some - (fun `A` (sort (typ «P.foo.u0»)) c0 \ - fun `f` (app [global (indt «P.foo»), c0]) c1 \ - app [primitive (proj elpi.tests.test_HOAS.P.p1 1), c1]) -some - (pglobal (const «toto») - «elpi.tests.test_HOAS.23 elpi.tests.test_HOAS.24») -prod `T1` (sort (typ «elpi.tests.test_HOAS.23»)) c0 \ - prod `T2` (sort (typ «elpi.tests.test_HOAS.24»)) c1 \ prod `x` c0 c2 \ c0 + GR1 = indc «Vector.nil» + GR2 = indt «nat» + GR3 = const «A» +add_equal Query assignments: - Body = some - (pglobal (const «toto») - «elpi.tests.test_HOAS.23 elpi.tests.test_HOAS.24») - C = «titi» - Term = prod `T1` (sort (typ «elpi.tests.test_HOAS.23»)) c0 \ - prod `T2` (sort (typ «elpi.tests.test_HOAS.24»)) c1 \ prod `x` c0 c2 \ c0 -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.24 elpi.tests.test_HOAS.23} |= -ALGEBRAIC UNIVERSES: - {} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.24 - elpi.tests.test_HOAS.23 -SORTS: - -WEAK CONSTRAINTS: - + %arg1 = add_equal + %arg2 = add_equal + BO = fix `add` 0 + (prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat»)) c0 \ + fun `n` (global (indt «nat»)) c1 \ + fun `m` (global (indt «nat»)) c2 \ + match c1 (fun `n` (global (indt «nat»)) c3 \ global (indt «nat»)) + [c2, + fun `p` (global (indt «nat»)) c3 \ + app [global (indc «S»), app [c0, c3, c2]]] + GR = «Nat.add» + NGR = «add_equal» + Name = add_equal + S = add + TY = prod `n` (global (indt «nat»)) c0 \ + prod `m` (global (indt «nat»)) c1 \ global (indt «nat») +add_equal : nat -> nat -> nat -pglobal (const «toto») X0 -pglobal (const «toto») «u1 u2» -toto +add_equal is not universe polymorphic +Arguments add_equal (n m)%nat_scope +add_equal is opaque +Expands to: Constant elpi_tests_stdlib.test_API_env.add_equal +«myfalse» Query assignments: - %arg1 = toto - X31_ = X0 - X32_ = «elpi.tests.test_HOAS.27 elpi.tests.test_HOAS.28» -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.28 elpi.tests.test_HOAS.27} |= -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.28 elpi.tests.test_HOAS.27} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.28 - elpi.tests.test_HOAS.27 -SORTS: - -WEAK CONSTRAINTS: - - -app - [pglobal (const «t») X0, global (indt «nat»), - pglobal (const «fnat») X1] -app - [pglobal (const «t») «elpi.tests.test_HOAS.33», global (indt «nat»), - pglobal (const «fnat») «»] + F = indt «False» + GR = «myfalse» +myfalse + : False +parameter T X0 (sort (typ X1)) c0 \ + record eq_class (sort (typ X2)) mk_eq_class + (field [canonical ff, coercion regular] eq_f (global (indt «bool»)) c1 \ + field X3 eq_proof + (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ + end-record) Query assignments: - T = app - [pglobal (const «t») «elpi.tests.test_HOAS.33», global (indt «nat»), - pglobal (const «fnat») «»] - Ty = global (indt «nat») - X33_ = «elpi.tests.test_HOAS.33» - X34_ = «» + DECL = parameter T X0 (sort (typ «eq_class.u0»)) c0 \ + record eq_class (sort (typ «eq_class.u1»)) mk_eq_class + (field [canonical ff, coercion regular] eq_f (global (indt «bool»)) c1 \ + field X3 eq_proof + (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ + end-record) + GR = «eq_class» + X1_ = «eq_class.u0» + X2_ = «eq_class.u1» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.33} |= - Set <= elpi.tests.test_HOAS.33 - Set = elpi.tests.test_HOAS.33 -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.33} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.33 := Set -SORTS: -WEAK CONSTRAINTS: - - -Query assignments: - Arity = prod `T` (sort (typ «elpi.tests.test_HOAS.34»)) c0 \ - sort (typ «elpi.tests.test_HOAS.34») - GRF = indt «F» - I = «elpi.tests.test_HOAS.34» - Ind = «F» - K = [«Build_F»] - KTys = [prod `T` (sort (typ «elpi.tests.test_HOAS.34»)) c0 \ - prod `t` c0 c1 \ app [pglobal (indt «F») «elpi.tests.test_HOAS.34», c0]] - TyF = prod `T` (sort (typ «elpi.tests.test_HOAS.34»)) c0 \ - sort (typ «elpi.tests.test_HOAS.34») -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.34} |= ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.34} + {eq_class.u1 eq_class.u0} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.34 + eq_class.u1 + eq_class.u0 SORTS: WEAK CONSTRAINTS: -Query assignments: - Decl = parameter T explicit (sort (typ «elpi.tests.test_HOAS.35»)) c0 \ - record F (sort (typ «elpi.tests.test_HOAS.35»)) Build_F - (field [coercion off, canonical tt] t c0 c1 \ end-record) - GRF = indt «F» - I = «elpi.tests.test_HOAS.35» - Ind = «F» -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.35} |= -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.35} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.35 -SORTS: - -WEAK CONSTRAINTS: - +Record eq_class (T : Type@{eq_class.u0}) : Type@{eq_class.u1} := mk_eq_class + { eq_f : bool; eq_proof : eq_f = eq_f }. -«elpi.tests.test_HOAS.36» «elpi.tests.test_HOAS.37» -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} |= - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.37 - elpi.tests.test_HOAS.36 - SORTS: - - WEAK CONSTRAINTS: - - -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} |= - elpi.tests.test_HOAS.36 = elpi.tests.test_HOAS.37 - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.37 - elpi.tests.test_HOAS.36 := elpi.tests.test_HOAS.37 - SORTS: - - WEAK CONSTRAINTS: - - +Arguments eq_class T%type_scope +Arguments mk_eq_class T%type_scope eq_f%bool_scope eq_proof +Arguments eq_f T%type_scope record +Arguments eq_proof T%type_scope record +fun x : eq_class nat => x : bool + : eq_class nat -> bool +p <- eq_proof ( xxx ) Query assignments: - GRF = indt «F» - I1 = «elpi.tests.test_HOAS.36» - I2 = «elpi.tests.test_HOAS.37» + DECL = parameter T X0 (sort (typ «prim_eq_class.u0»)) c0 \ + record prim_eq_class (sort (typ «prim_eq_class.u1»)) mk_prim_eq_class + (field [canonical ff, coercion reversible] prim_eq_f + (global (indt «bool»)) c1 \ + field X1 prim_eq_proof + (app [global (indt «eq»), global (indt «bool»), c1, c1]) c2 \ + end-record) + GR = «prim_eq_class» + X3_ = «prim_eq_class.u0» + X4_ = «prim_eq_class.u1» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} |= - elpi.tests.test_HOAS.36 = elpi.tests.test_HOAS.37 -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.37 elpi.tests.test_HOAS.36} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.37 - elpi.tests.test_HOAS.36 := elpi.tests.test_HOAS.37 -SORTS: -WEAK CONSTRAINTS: - - -«elpi.tests.test_HOAS.38» «» -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.38} |= - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.38} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.38 - SORTS: - - WEAK CONSTRAINTS: - - -different universe instance lengths -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.38} |= - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.38} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.38 - SORTS: - - WEAK CONSTRAINTS: - - -Query assignments: - E = different universe instance lengths - GRF = indt «F» - GRfnat = const «fnat» - I1 = «elpi.tests.test_HOAS.38» - I2 = «» -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.38} |= ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.38} + {prim_eq_class.u1 prim_eq_class.u0} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.38 + 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 *) +fun `r` (app [global (indt «prim_eq_class»), global (indt «nat»)]) c0 \ + app [primitive (proj elpi_tests_stdlib.test_API_env.prim_eq_f 1), c0] Query assignments: - GRF = indt «F» - I1 = «elpi.tests.test_HOAS.39» - I2 = «elpi.tests.test_HOAS.39» - U = «elpi.tests.test_HOAS.39» - UL1 = [«elpi.tests.test_HOAS.39»] + C = «pc» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.39} |= -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.39} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.39 -SORTS: -WEAK CONSTRAINTS: - - -Cannot enforce elpi.tests.test_HOAS.40 = elpi.tests.test_HOAS.41 because -elpi.tests.test_HOAS.40 < elpi.tests.test_HOAS.41 -Query assignments: - E = Cannot enforce elpi.tests.test_HOAS.40 = elpi.tests.test_HOAS.41 because -elpi.tests.test_HOAS.40 < elpi.tests.test_HOAS.41 - GRF = indt «F» - I1 = «elpi.tests.test_HOAS.40» - I2 = «elpi.tests.test_HOAS.41» - L1 = «elpi.tests.test_HOAS.40» - L2 = «elpi.tests.test_HOAS.41» - U1 = «elpi.tests.test_HOAS.40» - U2 = «elpi.tests.test_HOAS.41» -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40} |= - elpi.tests.test_HOAS.40 < elpi.tests.test_HOAS.41 ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.41 elpi.tests.test_HOAS.40} + {myind.u0} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.41 - elpi.tests.test_HOAS.40 + myind.u0 SORTS: WEAK CONSTRAINTS: -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} |= - elpi.tests.test_HOAS.44 < elpi.tests.test_HOAS.45 - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.45 - elpi.tests.test_HOAS.44 - 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 Query assignments: - GRF = indt «F2» - I1 = «elpi.tests.test_HOAS.44» - I2 = «elpi.tests.test_HOAS.45» - L1 = «elpi.tests.test_HOAS.44» - L2 = «elpi.tests.test_HOAS.45» - U1 = «elpi.tests.test_HOAS.44» - U2 = «elpi.tests.test_HOAS.45» + X6_ = «nuind.u0» + X7_ = «nuind.u1» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} |= - elpi.tests.test_HOAS.44 < elpi.tests.test_HOAS.45 - elpi.tests.test_HOAS.44 <= elpi.tests.test_HOAS.45 -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.45 elpi.tests.test_HOAS.44} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.45 - elpi.tests.test_HOAS.44 -SORTS: - -WEAK CONSTRAINTS: - -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.46} |= - elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.47} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.47 - elpi.tests.test_HOAS.46 - SORTS: - - WEAK CONSTRAINTS: - - -Cannot enforce elpi.tests.test_HOAS.47 = elpi.tests.test_HOAS.46 because -elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 -Query assignments: - E = Cannot enforce elpi.tests.test_HOAS.47 = elpi.tests.test_HOAS.46 because -elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 - GRF = indt «F» - I1 = «elpi.tests.test_HOAS.46» - I2 = «elpi.tests.test_HOAS.47» - L1 = «elpi.tests.test_HOAS.46» - L2 = «elpi.tests.test_HOAS.47» - U1 = «elpi.tests.test_HOAS.46» - U2 = «elpi.tests.test_HOAS.47» -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.47 elpi.tests.test_HOAS.46} |= - elpi.tests.test_HOAS.46 < elpi.tests.test_HOAS.47 ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.47} + {nuind.u1 nuind.u0} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.47 - elpi.tests.test_HOAS.46 + 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 +c0 global (indt «nat») Query assignments: - GR = indt «nat» + T = global (indt «nat») Query assignments: - GR = indt «F» - I = «elpi.tests.test_HOAS.48» + D = parameter A X0 (sort (typ «tx.u0»)) c0 \ + inductive tx X1 + (parameter y X2 (global (indt «nat»)) c1 \ + arity (prod `_` (global (indt «bool»)) c2 \ sort (typ «tx.u1»))) c1 \ + [constructor K1x + (parameter y X3 (global (indt «nat»)) c2 \ + arity + (prod `x` c0 c3 \ + prod `n` (global (indt «nat»)) c4 \ + prod `p` + (app + [global (indt «eq»), global (indt «nat»), + app [global (indc «S»), c4], c2]) c5 \ + prod `e` (app [c1, c4, global (indc «true»)]) c6 \ + app [c1, c2, global (indc «true»)])), + constructor K2x + (parameter y X4 (global (indt «nat»)) c2 \ + arity (app [c1, c2, global (indc «false»)]))] + X8_ = «tx.u0» + X9_ = «tx.u1» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.48} |= + {elpi_tests_stdlib.test_API_env.18 elpi_tests_stdlib.test_API_env.17 + elpi_tests_stdlib.test_API_env.16 elpi_tests_stdlib.test_API_env.15 + elpi_tests_stdlib.test_API_env.14 elpi_tests_stdlib.test_API_env.13 + elpi_tests_stdlib.test_API_env.11} |= + tx.u0 < elpi_tests_stdlib.test_API_env.11 + tx.u1 < elpi_tests_stdlib.test_API_env.13 + Set <= elpi_tests_stdlib.test_API_env.13 + Set <= elpi_tests_stdlib.test_API_env.14 + Set <= elpi_tests_stdlib.test_API_env.15 + Set <= elpi_tests_stdlib.test_API_env.16 + Set <= elpi_tests_stdlib.test_API_env.17 + Set <= elpi_tests_stdlib.test_API_env.18 + tx.u0 <= elpi_tests_stdlib.test_API_env.14 + tx.u1 <= elpi_tests_stdlib.test_API_env.14 + elpi_tests_stdlib.test_API_env.14 <= tx.u1 ALGEBRAIC UNIVERSES: - {} + {tx.u1 tx.u0} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.48 + tx.u1 + tx.u0 SORTS: - + α2 := Type + α3 := Type + α4 := Type + α5 := Type WEAK CONSTRAINTS: Query assignments: - GR = indt «F» -pglobal (indt «F») «elpi.tests.test_HOAS.50» -Query assignments: - %arg1 = pglobal (indt «F») «elpi.tests.test_HOAS.50» - GR = indt «F» - I = «elpi.tests.test_HOAS.50» + D = parameter A explicit (sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.22»)) c4 \ + prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.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_stdlib.test_API_env.22»)) c4 \ + prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.26» + UA = «elpi_tests_stdlib.test_API_env.20» + UB1 = «ind1.u0» + UB2 = «ind1.u0» + UB3 = «ind1.u0» + UC = «elpi_tests_stdlib.test_API_env.22» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.50} |= + {elpi_tests_stdlib.test_API_env.26} |= + Set <= elpi_tests_stdlib.test_API_env.26 + ind1.u0 <= elpi_tests_stdlib.test_API_env.26 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.50 + SORTS: WEAK CONSTRAINTS: -«elpi.tests.test_HOAS.51 elpi.tests.test_HOAS.51» Query assignments: - I = «elpi.tests.test_HOAS.51 elpi.tests.test_HOAS.51» - U = «elpi.tests.test_HOAS.51» + D = parameter A explicit (sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.22»)) c4 \ + prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.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_stdlib.test_API_env.22»)) c4 \ + prod `_` c4 c5 \ sort (typ «elpi_tests_stdlib.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_stdlib.test_API_env.27» + UA = «elpi_tests_stdlib.test_API_env.20» + UB1 = «ind1.u0» + UB2 = «ind1.u0» + UB3 = «ind1.u0» + UC = «elpi_tests_stdlib.test_API_env.22» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.51} |= + {elpi_tests_stdlib.test_API_env.27} |= + Set <= elpi_tests_stdlib.test_API_env.27 + ind1.u0 <= elpi_tests_stdlib.test_API_env.27 ALGEBRAIC UNIVERSES: {} FLEXIBLE UNIVERSES: @@ -16986,740 +16152,1549 @@ WEAK CONSTRAINTS: -Universe constraints: ------------------- -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} |= - elpi.tests.test_HOAS.52 < elpi.tests.test_HOAS.53 - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.53 - elpi.tests.test_HOAS.52 - SORTS: - - WEAK CONSTRAINTS: - - -Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} |= - elpi.tests.test_HOAS.52 < elpi.tests.test_HOAS.53 - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.53 - elpi.tests.test_HOAS.52 - SORTS: - - WEAK CONSTRAINTS: - - Query assignments: - Body = sort (typ «elpi.tests.test_HOAS.52») - LX = «elpi.tests.test_HOAS.52» - LY = «elpi.tests.test_HOAS.53» - Type = sort (typ «elpi.tests.test_HOAS.53») - UX = «elpi.tests.test_HOAS.52» - UY = «elpi.tests.test_HOAS.53» -Universe constraints: -UNIVERSES: - {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} |= - elpi.tests.test_HOAS.52 < elpi.tests.test_HOAS.53 -ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.53 elpi.tests.test_HOAS.52} -FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.53 - elpi.tests.test_HOAS.52 -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.54} - : Type@{elpi.tests.test_HOAS.54} -(* {elpi.tests.test_HOAS.54} |= Set < elpi.tests.test_HOAS.54 *) -Box not a defined object. -sort (typ «Set») + D = parameter P explicit (sort (typ «r1.u0»)) c0 \ + parameter p explicit c0 c1 \ + record r1 (sort (typ «r1.u0»)) mk_r1 + (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ + field [coercion off, canonical ff] f2 + (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) + D1 = parameter P explicit (sort (typ «r1.u0»)) c0 \ + parameter p explicit c0 c1 \ + record r1 (sort (typ «r1.u0»)) mk_r1 + (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ + field [coercion off, canonical ff] f2 + (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) + I = «r1» + UP = «r1.u0» + UR = «r1.u0» Query assignments: - U = «elpi.tests.test_HOAS.55» + D = parameter P explicit (sort (typ «r1.u0»)) c0 \ + parameter p explicit c0 c1 \ + record r1 (sort (typ «r1.u0»)) mk_r1 + (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ + field [coercion regular, canonical ff] f2 + (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) + D1 = parameter P explicit (sort (typ «r1.u0»)) c0 \ + parameter p explicit c0 c1 \ + record r1 (sort (typ «r1.u0»)) mk_r1 + (field [coercion reversible, canonical tt] f1 (prod `_` c0 c2 \ c0) c2 \ + field [coercion regular, canonical ff] f2 + (app [global (indt «eq»), c0, c1, app [c2, c1]]) c3 \ end-record) + I = «r1» + UP = «r1.u0» + UR = «r1.u0» +{{ nat; S; }} +{{ nat; S; }} +Query assignments: + GR = const «Nat.add» + L = {{ nat; S; }} + S = {{ nat; S; }} +{{ X.a; }} {{ X.a; Nat.add; nat; }} +{{ X.a; }} {{ X.a; Nat.add; nat; O; S; }} +Query assignments: + %arg1 = const «X.a» + AllL = {{ X.a; Nat.add; nat; }} + AllS = {{ X.a; Nat.add; nat; O; S; }} + GR = const «X.b» + L = {{ X.a; }} + M = «elpi_tests_stdlib.test_API_env.HOAS.X» + S = {{ X.a; }} +Query assignments: + %arg1 = 3372 + 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; RIneq.Rle_Reflexive; + RIneq.Rle_Transitive; Rbasic_fun.Rle_abs; RIneq.Rle_antisym; + OrderedRing.Rle_antisymm; RIneq.Rle_dec; RIneq.Rle_ge; + OrderedRing.Rle_gt_cases; RIneq.Rle_le_eq; OrderedRing.Rle_le_minus; + RIneq.Rle_lt_dec; OrderedRing.Rle_lt_eq; OrderedRing.Rle_lt_trans; + RIneq.Rle_lt_trans; OrderedRing.Rle_ngt; RIneq.Rle_not_lt; + OrderedRing.Rle_refl; RIneq.Rle_refl; OrderedRing.Rle_trans; + RIneq.Rle_trans; Rdefinitions.RbaseSymbolsImpl.Rlt; RIneq.Rlt_0_1; + RIneq.Rlt_0_2; RIneq.Rlt_0_minus; RIneq.Rlt_0_sqr; Raxioms.Rlt_asym; + RIneq.Rlt_dec; Rdefinitions.RbaseSymbolsImpl.Rlt_def; + RIneq.Rlt_dichotomy_converse; RIneq.Rlt_gt; RIneq.Rlt_irrefl; + RIneq.Rlt_le; RIneq.Rlt_le_dec; OrderedRing.Rlt_le_neq; + OrderedRing.Rlt_le_trans; RIneq.Rlt_le_trans; OrderedRing.Rlt_lt_minus; + OrderedRing.Rlt_neq; OrderedRing.Rlt_nge; RIneq.Rlt_not_eq; + RIneq.Rlt_not_ge; RIneq.Rlt_not_le; RIneq.Rlt_or_le; + OrderedRing.Rlt_trans; Raxioms.Rlt_trans; OrderedRing.Rlt_trichotomy; + BinNat.N.Rlt_wd; PeanoNat.Nat.Rlt_wd; BinInt.Z.Rlt_wd; Rbasic_fun.Rmax; + Rbasic_fun.Rmax_Rlt; Rbasic_fun.Rmax_case_strong; Rbasic_fun.Rmax_l; + Rbasic_fun.Rmax_left; Rbasic_fun.Rmax_lub_lt; Rbasic_fun.Rmax_r; + Rbasic_fun.Rmax_right; Rbasic_fun.Rmax_stable_in_negreal; + Rbasic_fun.Rmin; Rbasic_fun.Rmin_Rgt; Rbasic_fun.Rmin_Rgt_l; + Rbasic_fun.Rmin_Rgt_r; Rbasic_fun.Rmin_case_strong; + Rbasic_fun.Rmin_glb_lt; Rbasic_fun.Rmin_l; Rbasic_fun.Rmin_r; + Rbasic_fun.Rmin_stable_in_posreal; Rdefinitions.Rminus; + RIneq.Rminus_0_r; RIneq.Rminus_diag_eq; RIneq.Rminus_diag_uniq; + RIneq.Rminus_diag_uniq_sym; OrderedRing.Rminus_eq_0; + RIneq.Rminus_eq_contra; RIneq.Rminus_ge; RIneq.Rminus_gt; + RIneq.Rminus_le; RIneq.Rminus_lt; RIneq.Rminus_not_eq; + RIneq.Rminus_plus_distr; RIneq.Rminus_plus_l_l; RIneq.Rminus_plus_r_l; + RIneq.Rminus_plus_r_r; Ring_theory.Rmul_0_l; Ring_theory.Rmul_1_l; + Ring_theory.Rmul_assoc; Ring_theory.Rmul_comm; Ring_theory.Rmul_ext; + Rdefinitions.RbaseSymbolsImpl.Rmult; RIneq.Rmult_0_l; RIneq.Rmult_0_r; + Raxioms.Rmult_1_l; RIneq.Rmult_1_r; Raxioms.Rmult_assoc; + Raxioms.Rmult_comm; Rdefinitions.RbaseSymbolsImpl.Rmult_def; + RIneq.Rmult_div_l; RIneq.Rmult_div_r; RIneq.Rmult_eq_compat_l; + RIneq.Rmult_eq_reg_l; RIneq.Rmult_ge_0_gt_0_lt_compat; + RIneq.Rmult_gt_0_compat; RIneq.Rmult_integral; + RIneq.Rmult_integral_contrapositive; + RIneq.Rmult_integral_contrapositive_currified; RIneq.Rmult_inv_r_id_l; + RIneq.Rmult_inv_r_id_m; RIneq.Rmult_inv_r_uniq; + RIneq.Rmult_le_0_lt_compat; RIneq.Rmult_le_compat; + RIneq.Rmult_le_compat_l; RIneq.Rmult_le_compat_neg_l; + RIneq.Rmult_le_compat_r; RIneq.Rmult_le_pos; RIneq.Rmult_lt_0_compat; + Raxioms.Rmult_lt_compat_l; RIneq.Rmult_lt_compat_r; + RIneq.Rmult_lt_gt_compat_neg_l; RIneq.Rmult_lt_reg_l; RIneq.Rmult_ne; + RIneq.Rmult_opp_opp; Raxioms.Rmult_plus_distr_l; + RIneq.Rmult_plus_distr_r; RMicromega.Rnegate; OrderedRing.Rneq_symm; + RMicromega.Rnormalise; RIneq.Rnot_gt_ge; RIneq.Rnot_le_gt; + RIneq.Rnot_le_lt; RIneq.Rnot_lt_ge; RIneq.Rnot_lt_le; + Rdefinitions.RbaseSymbolsImpl.Ropp; RIneq.Ropp_0; Rbasic_fun.Ropp_Rmin; + RIneq.Ropp_Ropp_IZR; Ring_theory.Ropp_add; Ring_theory.Ropp_def; + Rdefinitions.RbaseSymbolsImpl.Ropp_def; RIneq.Ropp_eq_0_compat; + RIneq.Ropp_eq_compat; RIneq.Ropp_eq_reg; Ring_theory.Ropp_ext; + RIneq.Ropp_ge_cancel; RIneq.Ropp_ge_le_contravar; + RIneq.Ropp_gt_lt_0_contravar; RIneq.Ropp_gt_lt_contravar; + RIneq.Ropp_involutive; RIneq.Ropp_le_cancel; RIneq.Ropp_le_contravar; + RIneq.Ropp_le_ge_contravar; RIneq.Ropp_lt_cancel; + RIneq.Ropp_lt_contravar; RIneq.Ropp_lt_gt_0_contravar; + RIneq.Ropp_lt_gt_contravar; OrderedRing.Ropp_lt_mono; + RIneq.Ropp_minus_distr; Ring_theory.Ropp_mul_l; RIneq.Ropp_mult_distr_l; + RIneq.Ropp_mult_distr_l_reverse; RIneq.Ropp_mult_distr_r; + RIneq.Ropp_neq_0_compat; Ring_theory.Ropp_opp; RIneq.Ropp_plus_distr; + OrderedRing.Ropp_pos_neg; RingMicromega.Rops_wd; + Rdefinitions.RbaseSymbolsImpl.Rplus; OrderedRing.Rplus_0_l; + Raxioms.Rplus_0_l; OrderedRing.Rplus_0_r; RIneq.Rplus_0_r; + RIneq.Rplus_0_r_uniq; Raxioms.Rplus_assoc; OrderedRing.Rplus_cancel_l; + OrderedRing.Rplus_comm; Raxioms.Rplus_comm; + Rdefinitions.RbaseSymbolsImpl.Rplus_def; RIneq.Rplus_diag; + RIneq.Rplus_eq_compat_l; RIneq.Rplus_eq_compat_r; RIneq.Rplus_eq_reg_l; + RIneq.Rplus_ge_compat_l; RIneq.Rplus_ge_compat_r; RIneq.Rplus_ge_reg_r; + RIneq.Rplus_half_diag; RIneq.Rplus_le_compat; RIneq.Rplus_le_compat_l; + RIneq.Rplus_le_compat_r; RIneq.Rplus_le_lt_0_compat; + RIneq.Rplus_le_lt_0_neq_0; RIneq.Rplus_le_lt_compat; + OrderedRing.Rplus_le_lt_mono; OrderedRing.Rplus_le_mono; + OrderedRing.Rplus_le_mono_l; OrderedRing.Rplus_le_mono_r; + RIneq.Rplus_le_reg_l; RIneq.Rplus_le_reg_r; RIneq.Rplus_lt_0_compat; + RIneq.Rplus_lt_compat; Raxioms.Rplus_lt_compat_l; + RIneq.Rplus_lt_compat_r; RIneq.Rplus_lt_le_0_compat; + RIneq.Rplus_lt_le_compat; OrderedRing.Rplus_lt_le_mono; + OrderedRing.Rplus_lt_mono; OrderedRing.Rplus_lt_mono_l; + OrderedRing.Rplus_lt_mono_r; RIneq.Rplus_lt_reg_l; RIneq.Rplus_lt_reg_r; + RIneq.Rplus_minus_assoc; RIneq.Rplus_minus_l; RIneq.Rplus_minus_r; + RIneq.Rplus_ne; OrderedRing.Rplus_nonneg_nonneg; + OrderedRing.Rplus_nonneg_pos; RIneq.Rplus_opp_l; Raxioms.Rplus_opp_r; + RIneq.Rplus_opp_r_uniq; OrderedRing.Rplus_pos_nonneg; + OrderedRing.Rplus_pos_pos; Rdefinitions.RbaseSymbolsImpl.Rquot1; + Rdefinitions.RbaseSymbolsImpl.Rquot2; + Rdefinitions.RbaseSymbolsImpl.Rrepr; Raxioms.Rrepr_0; Raxioms.Rrepr_1; + Rdefinitions.Rrepr_appart_0; Raxioms.Rrepr_le; Raxioms.Rrepr_mult; + Raxioms.Rrepr_opp; Raxioms.Rrepr_plus; Field_theory.Rring_ring_lemma1; + RMicromega.Rsor; RIneq.Rsqr; RIneq.Rsqr_0_uniq; RIneq.Rsqr_def; + RMicromega.Rsrt; Ring_theory.Rsub_def; Ring_theory.Rth_ARth; + OrderedRing.Rtimes_0_l; OrderedRing.Rtimes_0_r; OrderedRing.Rtimes_comm; + OrderedRing.Rtimes_neg_neg; OrderedRing.Rtimes_neq_0; + OrderedRing.Rtimes_nonneg_nonneg; OrderedRing.Rtimes_pos_neg; + OrderedRing.Rtimes_pos_pos; OrderedRing.Rtimes_square_nonneg; + RIneq.Rtotal_order; ConstructiveRcomplete.Rup_pos; + RingMicromega.SORRing_ring_lemma1; OrderedRing.SOR_ring_lemma1; + RingMicromega.SORcleb_morph; RingMicromega.SORcneqb_morph; + OrderedRing.SORle_antisymm; OrderedRing.SORle_refl; + OrderedRing.SORle_trans; OrderedRing.SORle_wd; OrderedRing.SORlt_le_neq; + OrderedRing.SORlt_trichotomy; OrderedRing.SORlt_wd; + OrderedRing.SORopp_wd; OrderedRing.SORplus_le_mono_l; + OrderedRing.SORplus_wd; RingMicromega.SORpower; RingMicromega.SORrm; + OrderedRing.SORrt; OrderedRing.SORsetoid; OrderedRing.SORtimes_pos_pos; + OrderedRing.SORtimes_wd; Ring_theory.SRadd_0_l; Ring_theory.SRadd_assoc; + Ring_theory.SRadd_comm; Ring_theory.SRadd_ext; Ring_theory.SRdistr_l; + Ring_theory.SReqe_Reqe; Ring_theory.SRmul_0_l; Ring_theory.SRmul_1_l; + Ring_theory.SRmul_assoc; Ring_theory.SRmul_comm; Ring_theory.SRmul_ext; + Ring_theory.SRopp; Ring_theory.SRopp_add; Ring_theory.SRopp_ext; + Ring_theory.SRopp_mul_l; Ring_theory.SRsub; Ring_theory.SRsub_def; + Ring_theory.SRth_ARth; Setoid.Seq_refl; Setoid.Seq_sym; + Setoid.Seq_trans; Setoid.Setoid_Theory; Ring_theory.Smorph0; + Ring_theory.Smorph1; Ring_theory.Smorph_add; Ring_theory.Smorph_eq; + Ring_theory.Smorph_morph; Ring_theory.Smorph_mul; + Ring_theory.Smorph_opp; Ring_theory.Smorph_sub; + RelationClasses.StrictOrder_Irreflexive; + RelationClasses.StrictOrder_Transitive; CRelationClasses.Symmetric; + RelationClasses.Symmetric; Tauto.TFormula; CRelationClasses.Transitive; + RelationClasses.Transitive; ConstructiveRcomplete.Un_cauchy_mod; + Rseries.Un_cv; ConstructiveLimits.Un_cv_nat_real; Init.Unconvertible; + ConstructiveCauchyRealsMult.Weaken_Qle_QpowerAddExp; + ConstructiveCauchyRealsMult.Weaken_Qle_QpowerFac; + ConstructiveCauchyRealsMult.Weaken_Qle_QpowerRemSubExp; + ZMicromega.ZChecker; ZMicromega.ZChecker_sound; ZMicromega.ZNpower; + ZMicromega.ZSORaddon; ZMicromega.ZTautoChecker; + ZMicromega.ZTautoChecker_sound; ZMicromega.ZWitness; Znat.Z_N_nat; + RIneq.Z_R_minus; ZArith_dec.Z_dec'; Zdiv.Z_div_mod; + Zdiv.Z_div_mod_eq_full; ConstructiveExtra.Z_inj_nat; +...TRUNCATED BY DUNE... + 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; 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; 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; }} + T = 0.522170 +Query assignments: + %arg1 = 4 + S = {{ Nat.add; eq; nat; O; }} + T = prod `x` (global (indt «nat»)) c0 \ + app + [global (indt «eq»), X0 c0, + app [global (const «Nat.add»), c0, global (indc «O»)], c0] + X10_ = c0 \ +X0 c0 +Syntactic constraints: + {c0} : decl c0 `x` (global (indt «nat»)) ?- evar (X0 c0) (X1 c0) (X0 c0) /* suspended on X0 */ + {c0} : decl c0 `x` (global (indt «nat»)) + ?- evar (X2 c0) (sort (typ «elpi_tests_stdlib.test_API_env.30»)) (X1 c0) /* suspended on X2, X1 */ Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.55} |= Set = elpi.tests.test_HOAS.55 + {elpi_tests_stdlib.test_API_env.30} |= ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.55} + {} FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.55 := Set -SORTS: +SORTS: + α13 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 |= Set <= list.u0 - 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.64»)) c0 \ - inductive tree tt (arity (sort (typ «elpi.tests.test_HOAS.65»))) 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.69 elpi.tests.test_HOAS.68 - elpi.tests.test_HOAS.67 elpi.tests.test_HOAS.66 - elpi.tests.test_HOAS.65 elpi.tests.test_HOAS.64} |= - elpi.tests.test_HOAS.64 < elpi.tests.test_HOAS.66 - elpi.tests.test_HOAS.65 < elpi.tests.test_HOAS.67 - Set <= list.u0 - Set <= elpi.tests.test_HOAS.65 - Set <= elpi.tests.test_HOAS.69 - elpi.tests.test_HOAS.64 <= list.u0 - elpi.tests.test_HOAS.64 <= elpi.tests.test_HOAS.65 - elpi.tests.test_HOAS.64 <= elpi.tests.test_HOAS.68 - elpi.tests.test_HOAS.64 <= elpi.tests.test_HOAS.69 - elpi.tests.test_HOAS.65 <= list.u0 - elpi.tests.test_HOAS.65 <= elpi.tests.test_HOAS.68 - elpi.tests.test_HOAS.65 <= elpi.tests.test_HOAS.69 - elpi.tests.test_HOAS.68 <= elpi.tests.test_HOAS.65 - elpi.tests.test_HOAS.69 <= elpi.tests.test_HOAS.65 - ALGEBRAIC UNIVERSES: - {elpi.tests.test_HOAS.64} - FLEXIBLE UNIVERSES: - elpi.tests.test_HOAS.64 - 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» - X35_ = X0 + Decl = record Rec (sort (typ «elpi_tests_stdlib.test_API_env.31»)) BuildRec + (field [] f (sort (typ «elpi_tests_stdlib.test_API_env.32»)) c0 \ + end-record) + X11_ = «elpi_tests_stdlib.test_API_env.31» + X12_ = «elpi_tests_stdlib.test_API_env.32» Universe constraints: UNIVERSES: - {elpi.tests.test_HOAS.69 elpi.tests.test_HOAS.68 elpi.tests.test_HOAS.67 - elpi.tests.test_HOAS.66} |= - M.tree.u0 < elpi.tests.test_HOAS.66 - M.tree.u1 < elpi.tests.test_HOAS.67 - Set <= elpi.tests.test_HOAS.69 - M.tree.u0 <= elpi.tests.test_HOAS.68 - M.tree.u0 <= elpi.tests.test_HOAS.69 - M.tree.u1 <= elpi.tests.test_HOAS.68 - M.tree.u1 <= elpi.tests.test_HOAS.69 - elpi.tests.test_HOAS.68 <= M.tree.u1 - elpi.tests.test_HOAS.69 <= M.tree.u1 + {elpi_tests_stdlib.test_API_env.32 elpi_tests_stdlib.test_API_env.31} |= ALGEBRAIC UNIVERSES: - {M.tree.u0} + {elpi_tests_stdlib.test_API_env.32 elpi_tests_stdlib.test_API_env.31} FLEXIBLE UNIVERSES: - M.tree.u0 + elpi_tests_stdlib.test_API_env.32 + elpi_tests_stdlib.test_API_env.31 SORTS: WEAK CONSTRAINTS: -File "./tests/test_HOAS.v", line 94, characters 46-61: +Module +Test +:= Struct + Record Rec@{u u0} : Type@{u} := BuildRec + { f : Type@{u0} }. + (* u u0 |= u0 < u *) + Definition f : Rec@{u u0} -> Type@{u0}. + (* u u0 |= u0 < u *) + End +Test.f@{elpi_tests_stdlib.test_API_env.33 +elpi_tests_stdlib.test_API_env.34} + : Test.Rec@{elpi_tests_stdlib.test_API_env.33 + elpi_tests_stdlib.test_API_env.34} -> + Type@{elpi_tests_stdlib.test_API_env.34} +(* {elpi_tests_stdlib.test_API_env.34 elpi_tests_stdlib.test_API_env.33} |= + elpi_tests_stdlib.test_API_env.34 < elpi_tests_stdlib.test_API_env.33 *) +Query assignments: + LP = «Coq.ZArith.Znat» + MP = «Coq.ZArith.Znat.N2Z» +File "./tests-stdlib/test_API_env.v", line 26, characters 24-26: Warning: -File "./tests/test_HOAS.v", line 94, characters 46-61 -X is linear: name it _X (discard) or X_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 26, characters 24-26 +TY is linear: name it _TY (discard) or TY_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 101, characters 19-24: +File "./tests-stdlib/test_API_env.v", line 82, characters 23-25: Warning: -File "./tests/test_HOAS.v", line 101, characters 19-24 -X is linear: name it _X (discard) or X_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 82, characters 23-25 +GR is linear: name it _GR (discard) or GR_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 127, characters 0-40: -Warning: Use of “Require” inside a module is fragile. It is not recommended -to use this functionality in finished proof scripts. -[require-in-module,fragile,default] -File "./tests/test_HOAS.v", line 130, characters 0-40: -Warning: Use of “Require” inside a module is fragile. It is not recommended -to use this functionality in finished proof scripts. -[require-in-module,fragile,default] -File "./tests/test_HOAS.v", line 306, characters 18-20: +File "./tests-stdlib/test_API_env.v", line 215, characters 71-72: Warning: -File "./tests/test_HOAS.v", line 306, characters 18-20 -Ty is linear: name it _Ty (discard) or Ty_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 215, characters 71-72 +U is linear: name it _U (discard) or U_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 320, characters 43-48: +File "./tests-stdlib/test_API_env.v", line 209, characters 39-41: Warning: -File "./tests/test_HOAS.v", line 320, characters 43-48 -Arity is linear: name it _Arity (discard) or Arity_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 209, characters 39-41 +UA is linear: name it _UA (discard) or UA_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 320, characters 49-50: +File "./tests-stdlib/test_API_env.v", line 212, characters 45-48: Warning: -File "./tests/test_HOAS.v", line 320, characters 49-50 -K is linear: name it _K (discard) or K_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 212, characters 45-48 +UB1 is linear: name it _UB1 (discard) or UB1_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 320, characters 51-55: +File "./tests-stdlib/test_API_env.v", line 218, characters 40-43: Warning: -File "./tests/test_HOAS.v", line 320, characters 51-55 -KTys is linear: name it _KTys (discard) or KTys_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 218, characters 40-43 +UB2 is linear: name it _UB2 (discard) or UB2_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 316, characters 32-35: +File "./tests-stdlib/test_API_env.v", line 225, characters 40-43: Warning: -File "./tests/test_HOAS.v", line 316, characters 32-35 -TyF is linear: name it _TyF (discard) or TyF_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 225, characters 40-43 +UB3 is linear: name it _UB3 (discard) or UB3_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 467, characters 42-46: +File "./tests-stdlib/test_API_env.v", line 215, characters 34-36: Warning: -File "./tests/test_HOAS.v", line 467, characters 42-46 -Decl is linear: name it _Decl (discard) or Decl_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 215, characters 34-36 +UC is linear: name it _UC (discard) or UC_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "coq-builtin.elpi", line 461, characters 50-51: +File "./tests-stdlib/test_API_env.v", line 246, characters 71-72: Warning: -File "coq-builtin.elpi", line 461, characters 50-51 -I is linear: name it _I (discard) or I_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 246, characters 71-72 +U is linear: name it _U (discard) or U_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 506, characters 20-22: +File "./tests-stdlib/test_API_env.v", line 240, characters 39-41: Warning: -File "./tests/test_HOAS.v", line 506, characters 20-22 -I2 is linear: name it _I2 (discard) or I2_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 240, characters 39-41 +UA is linear: name it _UA (discard) or UA_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 504, characters 23-26: +File "./tests-stdlib/test_API_env.v", line 243, characters 45-48: Warning: -File "./tests/test_HOAS.v", line 504, characters 23-26 -UL1 is linear: name it _UL1 (discard) or UL1_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 243, characters 45-48 +UB1 is linear: name it _UB1 (discard) or UB1_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 558, characters 32-33: +File "./tests-stdlib/test_API_env.v", line 249, characters 40-43: Warning: -File "./tests/test_HOAS.v", line 558, characters 32-33 -I is linear: name it _I (discard) or I_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 249, characters 40-43 +UB2 is linear: name it _UB2 (discard) or UB2_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "coq-builtin.elpi", line 461, characters 50-51: +File "./tests-stdlib/test_API_env.v", line 256, characters 40-43: Warning: -File "coq-builtin.elpi", line 461, characters 50-51 -I is linear: name it _I (discard) or I_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 256, characters 40-43 +UB3 is linear: name it _UB3 (discard) or UB3_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -File "./tests/test_HOAS.v", line 629, characters 36-37: +File "./tests-stdlib/test_API_env.v", line 246, characters 34-36: Warning: -File "./tests/test_HOAS.v", line 629, characters 36-37 -U is linear: name it _U (discard) or U_ (fresh variable) +File "./tests-stdlib/test_API_env.v", line 246, characters 34-36 +UC is linear: name it _UC (discard) or UC_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests-stdlib/test_API_env.v", line 273, characters 39-41: +Warning: +File "./tests-stdlib/test_API_env.v", line 273, characters 39-41 +UP is linear: name it _UP (discard) or UP_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests-stdlib/test_API_env.v", line 275, characters 30-32: +Warning: +File "./tests-stdlib/test_API_env.v", line 275, characters 30-32 +UR is linear: name it _UR (discard) or UR_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests-stdlib/test_API_env.v", line 291, characters 39-41: +Warning: +File "./tests-stdlib/test_API_env.v", line 291, characters 39-41 +UP is linear: name it _UP (discard) or UP_ (fresh variable) +[elpi.linear-variable,elpi.typecheck,elpi,default] +File "./tests-stdlib/test_API_env.v", line 293, characters 30-32: +Warning: +File "./tests-stdlib/test_API_env.v", line 293, characters 30-32 +UR is linear: name it _UR (discard) or UR_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -1 - : nat -hello1 -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 -[p 1, p 2, p 3, p 4, p 5, p 6, p 7, p 8, p 9, p 10, p 11, p 12, p 13, - p 14, p 15, p 16, p 17, p 18, p 19, p 20, p 21, p 22, p 23, p 24, p 25, - p 26, p 27, p 28, p 29, p 30, p 31, p 32, p 33, p 34, p 35, p 36, p 37, - p 38, p 39, p 40, p 41, p 42, p 43, p 44, p 45, p 46, p 47, p 48, p 49, - p 50, p 51, p 52, p 53, p 54, p 55, p 56, p 57, p 58, p 59, p 60, p 61, - p 62, p 63, p 64, p 65, p 66, p 67, p 68, p 69, p 70, p 71, p 72, p 73, - p 74, p 75, p 76, p 77, p 78, p 79, p 80, p 81, p 82, p 83, p 84, p 85, - p 86, p 87, p 88, p 89, p 90, p 91, p 92, p 93, p 94, p 95, p 96, p 97, - p 98, p 99, p 100, p 101, p 102, p 103, p 104, p 105, p 106, p 107, - p 108, p 109, p 110, p 111, p 112, p 113, p 114, p 115, p 116, p 117, - p 118, p 119, p 120, p 121, p 122, p 123, p 124, p 125, p 126, p 127, - p 128, p 129, p 130, p 131, p 132, p 133, p 134, p 135, p 136, p 137, - p 138, p 139, p 140, p 141, p 142, p 143, p 144, p 145, p 146, p 147, - p 148, p 149, p 150, p 151, p 152, p 153, p 154, p 155, p 156, p 157, - p 158, p 159, p 160, p 161, p 162, p 163, p 164, p 165, p 166, p 167, - p 168, p 169, p 170, p 171, p 172, p 173, p 174, p 175, p 176, p 177, - p 178, p 179, p 180, p 181, p 182, p 183, p 184, p 185, p 186, p 187, - p 188, p 189, p 190, p 191, p 192, p 193, p 194, p 195, p 196, p 197, - p 198, p 199, p 200, p 201, p 202, p 203, p 204, p 205, p 206, p 207, - p 208, p 209, p 210, p 211, p 212, p 213, p 214, p 215, p 216, p 217, - p 218, p 219, p 220, p 221, p 222, p 223, p 224, p 225, p 226, p 227, - p 228, p 229, p 230, p 231, p 232, p 233, p 234, p 235, p 236, p 237, - p 238, p 239, p 240, p 241, p 242, p 243, p 244, p 245, p 246, p 247, - p 248, p 249, p 250, p 251, p 252, p 253, p 254, p 255, p 256, p 257, - p 258, p 259, p 260, p 261, p 262, p 263, p 264, p 265, p 266, p 267, - p 268, p 269, p 270, p 271, p 272, p 273, p 274, p 275, p 276, p 277, - p 278, p 279, p 280, p 281, p 282, p 283, p 284, p 285, p 286, p 287, - p 288, p 289, p 290, p 291, p 292, p 293, p 294, p 295, p 296, p 297, - p 298, p 299, p 300, p 301, p 302, p 303, p 304, p 305, p 306, p 307, - p 308, p 309, p 310, p 311, p 312, p 313, p 314, p 315, p 316, p 317, - p 318, p 319, p 320, p 321, p 322, p 323, p 324, p 325, p 326, p 327, - p 328, p 329, p 330, p 331, p 332, p 333, p 334, p 335, p 336, p 337, - p 338, p 339, p 340, p 341, p 342, p 343, p 344, p 345, p 346, p 347, - p 348, p 349, p 350, p 351, p 352, p 353, p 354, p 355, p 356, p 357, - p 358, p 359, p 360, p 361, p 362, p 363, p 364, p 365, p 366, p 367, - p 368, p 369, p 370, p 371, p 372, p 373, p 374, p 375, p 376, p 377, - p 378, p 379, p 380, p 381, p 382, p 383, p 384, p 385, p 386, p 387, - p 388, p 389, p 390, p 391, p 392, p 393, p 394, p 395, p 396, p 397, - p 398, p 399, p 400, p 401, p 402, p 403, p 404, p 405, p 406, p 407, - p 408, p 409, p 410, p 411, p 412, p 413, p 414, p 415, p 416, p 417, - p 418, p 419, p 420, p 421, p 422, p 423, p 424, p 425, p 426, p 427, - p 428, p 429, p 430, p 431, p 432, p 433, p 434, p 435, p 436, p 437, - p 438, p 439, p 440, p 441, p 442, p 443, p 444, p 445, p 446, p 447, - p 448, p 449, p 450, p 451, p 452, p 453, p 454, p 455, p 456, p 457, - p 458, p 459, p 460, p 461, p 462, p 463, p 464, p 465, p 466, p 467, - p 468, p 469, p 470, p 471, p 472, p 473, p 474, p 475, p 476, p 477, - p 478, p 479, p 480, p 481, p 482, p 483, p 484, p 485, p 486, p 487, - p 488, p 489, p 490, p 491, p 492, p 493, p 494, p 495, p 496, p 497, - p 498, p 499, p 500, p 501, p 502, p 503, p 504, p 505, p 506, p 507, - p 508, p 509, p 510, p 511, p 512, p 513, p 514, p 515, p 516, p 517, - p 518, p 519, p 520, p 521, p 522, p 523, p 524, p 525, p 526, p 527, - p 528, p 529, p 530, p 531, p 532, p 533, p 534, p 535, p 536, p 537, - p 538, p 539, p 540, p 541, p 542, p 543, p 544, p 545, p 546, p 547, - p 548, p 549, p 550, p 551, p 552, p 553, p 554, p 555, p 556, p 557, - p 558, p 559, p 560, p 561, p 562, p 563, p 564, p 565, p 566, p 567, - p 568, p 569, p 570, p 571, p 572, p 573, p 574, p 575, p 576, p 577, - p 578, p 579, p 580, p 581, p 582, p 583, p 584, p 585, p 586, p 587, - p 588, p 589, p 590, p 591, p 592, p 593, p 594, p 595, p 596, p 597, - p 598, p 599, p 600, p 601, p 602, p 603, p 604, p 605, p 606, p 607, - p 608, p 609, p 610, p 611, p 612, p 613, p 614, p 615, p 616, p 617, - p 618, p 619, p 620, p 621, p 622, p 623, p 624, p 625, p 626, p 627, - p 628, p 629, p 630, p 631, p 632, p 633, p 634, p 635, p 636, p 637, - p 638, p 639, p 640, p 641, p 642, p 643, p 644, p 645, p 646, p 647, - p 648, p 649, p 650, p 651, p 652, p 653, p 654, p 655, p 656, p 657, - p 658, p 659, p 660, p 661, p 662, p 663, p 664, p 665, p 666, p 667, - p 668, p 669, p 670, p 671, p 672, p 673, p 674, p 675, p 676, p 677, - p 678, p 679, p 680, p 681, p 682, p 683, p 684, p 685, p 686, p 687, - p 688, p 689, p 690, p 691, p 692, p 693, p 694, p 695, p 696, p 697, - p 698, p 699, p 700, p 701, p 702, p 703, p 704, p 705, p 706, p 707, - p 708, p 709, p 710, p 711, p 712, p 713, p 714, p 715, p 716, p 717, - p 718, p 719, p 720, p 721, p 722, p 723, p 724, p 725, p 726, p 727, - p 728, p 729, p 730, p 731, p 732, p 733, p 734, p 735, p 736, p 737, - p 738, p 739, p 740, p 741, p 742, p 743, p 744, p 745, p 746, p 747, - p 748, p 749, p 750, p 751, p 752, p 753, p 754, p 755, p 756, p 757, - p 758, p 759, p 760, p 761, p 762, p 763, p 764, p 765, p 766, p 767, - p 768, p 769, p 770, p 771, p 772, p 773, p 774, p 775, p 776, p 777, - p 778, p 779, p 780, p 781, p 782, p 783, p 784, p 785, p 786, p 787, - p 788, p 789, p 790, p 791, p 792, p 793, p 794, p 795, p 796, p 797, - p 798, p 799, p 800, p 801, p 802, p 803, p 804, p 805, p 806, p 807, - p 808, p 809, p 810, p 811, p 812, p 813, p 814, p 815, p 816, p 817, - p 818, p 819, p 820, p 821, p 822, p 823, p 824, p 825, p 826, p 827, - p 828, p 829, p 830, p 831, p 832, p 833, p 834, p 835, p 836, p 837, - p 838, p 839, p 840, p 841, p 842, p 843, p 844, p 845, p 846, p 847, - p 848, p 849, p 850, p 851, p 852, p 853, p 854, p 855, p 856, p 857, - p 858, p 859, p 860, p 861, p 862, p 863, p 864, p 865, p 866, p 867, - p 868, p 869, p 870, p 871, p 872, p 873, p 874, p 875, p 876, p 877, - p 878, p 879, p 880, p 881, p 882, p 883, p 884, p 885, p 886, p 887, - p 888, p 889, p 890, p 891, p 892, p 893, p 894, p 895, p 896, p 897, - p 898, p 899, p 900, p 901, p 902, p 903, p 904, p 905, p 906, p 907, - p 908, p 909, p 910, p 911, p 912, p 913, p 914, p 915, p 916, p 917, - p 918, p 919, p 920, p 921, p 922, p 923, p 924, p 925, p 926, p 927, - p 928, p 929, p 930, p 931, p 932, p 933, p 934, p 935, p 936, p 937, - p 938, p 939, p 940, p 941, p 942, p 943, p 944, p 945, p 946, p 947, - p 948, p 949, p 950, p 951, p 952, p 953, p 954, p 955, p 956, p 957, - p 958, p 959, p 960, p 961, p 962, p 963, p 964, p 965, p 966, p 967, - p 968, p 969, p 970, p 971, p 972, p 973, p 974, p 975, p 976, p 977, - p 978, p 979, p 980, p 981, p 982, p 983, p 984, p 985, p 986, p 987, - p 988, p 989, p 990, p 991, p 992, p 993, p 994, p 995, p 996, p 997, - p 998, p 999, p 1000, p 1001, p 1002, p 1003, p 1004, p 1005, p 1006, - p 1007, p 1008, p 1009, p 1010, p 1011, p 1012, p 1013, p 1014, p 1015, - p 1016, p 1017, p 1018, p 1019, p 1020, p 1021, p 1022, p 1023, p 1024, - p 1025, p 1026, p 1027, p 1028, p 1029, p 1030, p 1031, p 1032, p 1033, - p 1034, p 1035, p 1036, p 1037, p 1038, p 1039, p 1040, p 1041, p 1042, - p 1043, p 1044, p 1045, p 1046, p 1047, p 1048, p 1049, p 1050, p 1051, - p 1052, p 1053, p 1054, p 1055, p 1056, p 1057, p 1058, p 1059, p 1060, - p 1061, p 1062, p 1063, p 1064, p 1065, p 1066, p 1067, p 1068, p 1069, - p 1070, p 1071, p 1072, p 1073, p 1074, p 1075, p 1076, p 1077, p 1078, - p 1079, p 1080, p 1081, p 1082, p 1083, p 1084, p 1085, p 1086, p 1087, - p 1088, p 1089, p 1090, p 1091, p 1092, p 1093, p 1094, p 1095, p 1096, - p 1097, p 1098, p 1099, p 1100, p 1101, p 1102, p 1103, p 1104, p 1105, - p 1106, p 1107, p 1108, p 1109, p 1110, p 1111, p 1112, p 1113, p 1114, - p 1115, p 1116, p 1117, p 1118, p 1119, p 1120, p 1121, p 1122, p 1123, - p 1124, p 1125, p 1126, p 1127, p 1128, p 1129, p 1130, p 1131, p 1132, - p 1133, p 1134, p 1135, p 1136, p 1137, p 1138, p 1139, p 1140, p 1141, - p 1142, p 1143, p 1144, p 1145, p 1146, p 1147, p 1148, p 1149, p 1150, - p 1151, p 1152, p 1153, p 1154, p 1155, p 1156, p 1157, p 1158, p 1159, - p 1160, p 1161, p 1162, p 1163, p 1164, p 1165, p 1166, p 1167, p 1168, - p 1169, p 1170, p 1171, p 1172, p 1173, p 1174, p 1175, p 1176, p 1177, - p 1178, p 1179, p 1180, p 1181, p 1182, p 1183, p 1184, p 1185, p 1186, - p 1187, p 1188, p 1189, p 1190, p 1191, p 1192, p 1193, p 1194, p 1195, - p 1196, p 1197, p 1198, p 1199, p 1200, p 1201, p 1202, p 1203, p 1204, - p 1205, p 1206, p 1207, p 1208, p 1209, p 1210, p 1211, p 1212, p 1213, - p 1214, p 1215, p 1216, p 1217, p 1218, p 1219, p 1220, p 1221, p 1222, - p 1223, p 1224, p 1225, p 1226, p 1227, p 1228, p 1229, p 1230, p 1231, - p 1232, p 1233, p 1234, p 1235, p 1236, p 1237, p 1238, p 1239, p 1240, - p 1241, p 1242, p 1243, p 1244, p 1245, p 1246, p 1247, p 1248, p 1249, - p 1250, p 1251, p 1252, p 1253, p 1254, p 1255, p 1256, p 1257, p 1258, - p 1259, p 1260, p 1261, p 1262, p 1263, p 1264, p 1265, p 1266, p 1267, - p 1268, p 1269, p 1270, p 1271, p 1272, p 1273, p 1274, p 1275, p 1276, - p 1277, p 1278, p 1279, p 1280, p 1281, p 1282, p 1283, p 1284, p 1285, - p 1286, p 1287, p 1288, p 1289, p 1290, p 1291, p 1292, p 1293, p 1294, - p 1295, p 1296, p 1297, p 1298, p 1299, p 1300, p 1301, p 1302, p 1303, - p 1304, p 1305, p 1306, p 1307, p 1308, p 1309, p 1310, p 1311, p 1312, - p 1313, p 1314, p 1315, p 1316, p 1317, p 1318, p 1319, p 1320, p 1321, - p 1322, p 1323, p 1324, p 1325, p 1326, p 1327, p 1328, p 1329, p 1330, - p 1331, p 1332, p 1333, p 1334, p 1335, p 1336, p 1337, p 1338, p 1339, - p 1340, p 1341, p 1342, p 1343, p 1344, p 1345, p 1346, p 1347, p 1348, - p 1349, p 1350, p 1351, p 1352, p 1353, p 1354, p 1355, p 1356, p 1357, - p 1358, p 1359, p 1360, p 1361, p 1362, p 1363, p 1364, p 1365, p 1366, - p 1367, p 1368, p 1369, p 1370, p 1371, p 1372, p 1373, p 1374, p 1375, - p 1376, p 1377, p 1378, p 1379, p 1380, p 1381, p 1382, p 1383, p 1384, - p 1385, p 1386, p 1387, p 1388, p 1389, p 1390, p 1391, p 1392, p 1393, - p 1394, p 1395, p 1396, p 1397, p 1398, p 1399, p 1400, p 1401, p 1402, - p 1403, p 1404, p 1405, p 1406, p 1407, p 1408, p 1409, p 1410, p 1411, - p 1412, p 1413, p 1414, p 1415, p 1416, p 1417, p 1418, p 1419, p 1420, - p 1421, p 1422, p 1423, p 1424, p 1425, p 1426, p 1427, p 1428, p 1429, - p 1430, p 1431, p 1432, p 1433, p 1434, p 1435, p 1436, p 1437, p 1438, - p 1439, p 1440, p 1441, p 1442, p 1443, p 1444, p 1445, p 1446, p 1447, - p 1448, p 1449, p 1450, p 1451, p 1452, p 1453, p 1454, p 1455, p 1456, - p 1457, p 1458, p 1459, p 1460, p 1461, p 1462, p 1463, p 1464, p 1465, - p 1466, p 1467, p 1468, p 1469, p 1470, p 1471, p 1472, p 1473, p 1474, - p 1475, p 1476, p 1477, p 1478, p 1479, p 1480, p 1481, p 1482, p 1483, - p 1484, p 1485, p 1486, p 1487, p 1488, p 1489, p 1490, p 1491, p 1492, - p 1493, p 1494, p 1495, p 1496, p 1497, p 1498, p 1499, p 1500, p 1501, - p 1502, p 1503, p 1504, p 1505, p 1506, p 1507, p 1508, p 1509, p 1510, - p 1511, p 1512, p 1513, p 1514, p 1515, p 1516, p 1517, p 1518, p 1519, - p 1520, p 1521, p 1522, p 1523, p 1524, p 1525, p 1526, p 1527, p 1528, - p 1529, p 1530, p 1531, p 1532, p 1533, p 1534, p 1535, p 1536, p 1537, - p 1538, p 1539, p 1540, p 1541, p 1542, p 1543, p 1544, p 1545, p 1546, - p 1547, p 1548, p 1549, p 1550, p 1551, p 1552, p 1553, p 1554, p 1555, - p 1556, p 1557, p 1558, p 1559, p 1560, p 1561, p 1562, p 1563, p 1564, - p 1565, p 1566, p 1567, p 1568, p 1569, p 1570, p 1571, p 1572, p 1573, - p 1574, p 1575, p 1576, p 1577, p 1578, p 1579, p 1580, p 1581, p 1582, - p 1583, p 1584, p 1585, p 1586, p 1587, p 1588, p 1589, p 1590, p 1591, - p 1592, p 1593, p 1594, p 1595, p 1596, p 1597, p 1598, p 1599, p 1600, - p 1601, p 1602, p 1603, p 1604, p 1605, p 1606, p 1607, p 1608, p 1609, - p 1610, p 1611, p 1612, p 1613, p 1614, p 1615, p 1616, p 1617, p 1618, - p 1619, p 1620, p 1621, p 1622, p 1623, p 1624, p 1625, p 1626, p 1627, - p 1628, p 1629, p 1630, p 1631, p 1632, p 1633, p 1634, p 1635, p 1636, - p 1637, p 1638, p 1639, p 1640, p 1641, p 1642, p 1643, p 1644, p 1645, - p 1646, p 1647, p 1648, p 1649, p 1650, p 1651, p 1652, p 1653, p 1654, - p 1655, p 1656, p 1657, p 1658, p 1659, p 1660, p 1661, p 1662, p 1663, - p 1664, p 1665, p 1666, p 1667, p 1668, p 1669, p 1670, p 1671, p 1672, - p 1673, p 1674, p 1675, p 1676, p 1677, p 1678, p 1679, p 1680, p 1681, - p 1682, p 1683, p 1684, p 1685, p 1686, p 1687, p 1688, p 1689, p 1690, - p 1691, p 1692, p 1693, p 1694, p 1695, p 1696, p 1697, p 1698, p 1699, - p 1700, p 1701, p 1702, p 1703, p 1704, p 1705, p 1706, p 1707, p 1708, - p 1709, p 1710, p 1711, p 1712, p 1713, p 1714, p 1715, p 1716, p 1717, - p 1718, p 1719, p 1720, p 1721, p 1722, p 1723, p 1724, p 1725, p 1726, - p 1727, p 1728, p 1729, p 1730, p 1731, p 1732, p 1733, p 1734, p 1735, - p 1736, p 1737, p 1738, p 1739, p 1740, p 1741, p 1742, p 1743, p 1744, - p 1745, p 1746, p 1747, p 1748, p 1749, p 1750, p 1751, p 1752, p 1753, - p 1754, p 1755, p 1756, p 1757, p 1758, p 1759, p 1760, p 1761, p 1762, - p 1763, p 1764, p 1765, p 1766, p 1767, p 1768, p 1769, p 1770, p 1771, - p 1772, p 1773, p 1774, p 1775, p 1776, p 1777, p 1778, p 1779, p 1780, - p 1781, p 1782, p 1783, p 1784, p 1785, p 1786, p 1787, p 1788, p 1789, - p 1790, p 1791, p 1792, p 1793, p 1794, p 1795, p 1796, p 1797, p 1798, - p 1799, p 1800, p 1801, p 1802, p 1803, p 1804, p 1805, p 1806, p 1807, - p 1808, p 1809, p 1810, p 1811, p 1812, p 1813, p 1814, p 1815, p 1816, - p 1817, p 1818, p 1819, p 1820, p 1821, p 1822, p 1823, p 1824, p 1825, - p 1826, p 1827, p 1828, p 1829, p 1830, p 1831, p 1832, p 1833, p 1834, - p 1835, p 1836, p 1837, p 1838, p 1839, p 1840, p 1841, p 1842, p 1843, - p 1844, p 1845, p 1846, p 1847, p 1848, p 1849, p 1850, p 1851, p 1852, - p 1853, p 1854, p 1855, p 1856, p 1857, p 1858, p 1859, p 1860, p 1861, - p 1862, p 1863, p 1864, p 1865, p 1866, p 1867, p 1868, p 1869, p 1870, - p 1871, p 1872, p 1873, p 1874, p 1875, p 1876, p 1877, p 1878, p 1879, - p 1880, p 1881, p 1882, p 1883, p 1884, p 1885, p 1886, p 1887, p 1888, - p 1889, p 1890, p 1891, p 1892, p 1893, p 1894, p 1895, p 1896, p 1897, - p 1898, p 1899, p 1900, p 1901, p 1902, p 1903, p 1904, p 1905, p 1906, - p 1907, p 1908, p 1909, p 1910, p 1911, p 1912, p 1913, p 1914, p 1915, - p 1916, p 1917, p 1918, p 1919, p 1920, p 1921, p 1922, p 1923, p 1924, - p 1925, p 1926, p 1927, p 1928, p 1929, p 1930, p 1931, p 1932, p 1933, - p 1934, p 1935, p 1936, p 1937, p 1938, p 1939, p 1940, p 1941, p 1942, - p 1943, p 1944, p 1945, p 1946, p 1947, p 1948, p 1949, p 1950, p 1951, - p 1952, p 1953, p 1954, p 1955, p 1956, p 1957, p 1958, p 1959, p 1960, - p 1961, p 1962, p 1963, p 1964, p 1965, p 1966, p 1967, p 1968, p 1969, - p 1970, p 1971, p 1972, p 1973, p 1974, p 1975, p 1976, p 1977, p 1978, - p 1979, p 1980, p 1981, p 1982, p 1983, p 1984, p 1985, p 1986, p 1987, - p 1988, p 1989, p 1990, p 1991, p 1992, p 1993, p 1994, p 1995, p 1996, - p 1997, p 1998, p 1999, p 2000, p 2001, p 2002, p 2003, p 2004, p 2005, - p 2006, p 2007, p 2008, p 2009, p 2010, p 2011, p 2012, p 2013, p 2014, - p 2015, p 2016, p 2017, p 2018, p 2019, p 2020, p 2021, p 2022, p 2023, - p 2024, p 2025, p 2026, p 2027, p 2028, p 2029, p 2030, p 2031, p 2032, - p 2033, p 2034, p 2035, p 2036, p 2037, p 2038, p 2039, p 2040, p 2041, - p 2042, p 2043, p 2044, p 2045, p 2046, p 2047, p 2048, p 2049, p 2050, - p 2051, p 2052, p 2053, p 2054, p 2055, p 2056, p 2057, p 2058, p 2059, - p 2060, p 2061, p 2062, p 2063, p 2064, p 2065, p 2066, p 2067, p 2068, - p 2069, p 2070, p 2071, p 2072, p 2073, p 2074, p 2075, p 2076, p 2077, - p 2078, p 2079, p 2080, p 2081, p 2082, p 2083, p 2084, p 2085, p 2086, - p 2087, p 2088, p 2089, p 2090, p 2091, p 2092, p 2093, p 2094, p 2095, - p 2096, p 2097, p 2098, p 2099, p 2100, p 2101, p 2102, p 2103, p 2104, - p 2105, p 2106, p 2107, p 2108, p 2109, p 2110, p 2111, p 2112, p 2113, - p 2114, p 2115, p 2116, p 2117, p 2118, p 2119, p 2120, p 2121, p 2122, - p 2123, p 2124, p 2125, p 2126, p 2127, p 2128, p 2129, p 2130, p 2131, - p 2132, p 2133, p 2134, p 2135, p 2136, p 2137, p 2138, p 2139, p 2140, - p 2141, p 2142, p 2143, p 2144, p 2145, p 2146, p 2147, p 2148, p 2149, - p 2150, p 2151, p 2152, p 2153, p 2154, p 2155, p 2156, p 2157, p 2158, - p 2159, p 2160, p 2161, p 2162, p 2163, p 2164, p 2165, p 2166, p 2167, - p 2168, p 2169, p 2170, p 2171, p 2172, p 2173, p 2174, p 2175, p 2176, - p 2177, p 2178, p 2179, p 2180, p 2181, p 2182, p 2183, p 2184, p 2185, - p 2186, p 2187, p 2188, p 2189, p 2190, p 2191, p 2192, p 2193, p 2194, - p 2195, p 2196, p 2197, p 2198, p 2199, p 2200, p 2201, p 2202, p 2203, - p 2204, p 2205, p 2206, p 2207, p 2208, p 2209, p 2210, p 2211, p 2212, - p 2213, p 2214, p 2215, p 2216, p 2217, p 2218, p 2219, p 2220, p 2221, - p 2222, p 2223, p 2224, p 2225, p 2226, p 2227, p 2228, p 2229, p 2230, - p 2231, p 2232, p 2233, p 2234, p 2235, p 2236, p 2237, p 2238, p 2239, - p 2240, p 2241, p 2242, p 2243, p 2244, p 2245, p 2246, p 2247, p 2248, - p 2249, p 2250, p 2251, p 2252, p 2253, p 2254, p 2255, p 2256, p 2257, - p 2258, p 2259, p 2260, p 2261, p 2262, p 2263, p 2264, p 2265, p 2266, - p 2267, p 2268, p 2269, p 2270, p 2271, p 2272, p 2273, p 2274, p 2275, - p 2276, p 2277, p 2278, p 2279, p 2280, p 2281, p 2282, p 2283, p 2284, - p 2285, p 2286, p 2287, p 2288, p 2289, p 2290, p 2291, p 2292, p 2293, - p 2294, p 2295, p 2296, p 2297, p 2298, p 2299, p 2300, p 2301, p 2302, - p 2303, p 2304, p 2305, p 2306, p 2307, p 2308, p 2309, p 2310, p 2311, - p 2312, p 2313, p 2314, p 2315, p 2316, p 2317, p 2318, p 2319, p 2320, - p 2321, p 2322, p 2323, p 2324, p 2325, p 2326, p 2327, p 2328, p 2329, - p 2330, p 2331, p 2332, p 2333, p 2334, p 2335, p 2336, p 2337, p 2338, - p 2339, p 2340, p 2341, p 2342, p 2343, p 2344, p 2345, p 2346, p 2347, - p 2348, p 2349, p 2350, p 2351, p 2352, p 2353, p 2354, p 2355, p 2356, - p 2357, p 2358, p 2359, p 2360, p 2361, p 2362, p 2363, p 2364, p 2365, - p 2366, p 2367, p 2368, p 2369, p 2370, p 2371, p 2372, p 2373, p 2374, - p 2375, p 2376, p 2377, p 2378, p 2379, p 2380, p 2381, p 2382, p 2383, - p 2384, p 2385, p 2386, p 2387, p 2388, p 2389, p 2390, p 2391, p 2392, - p 2393, p 2394, p 2395, p 2396, p 2397, p 2398, p 2399, p 2400, p 2401, - p 2402, p 2403, p 2404, p 2405, p 2406, p 2407, p 2408, p 2409, p 2410, - p 2411, p 2412, p 2413, p 2414, p 2415, p 2416, p 2417, p 2418, p 2419, - p 2420, p 2421, p 2422, p 2423, p 2424, p 2425, p 2426, p 2427, p 2428, - p 2429, p 2430, p 2431, p 2432, p 2433, p 2434, p 2435, p 2436, p 2437, - p 2438, p 2439, p 2440, p 2441, p 2442, p 2443, p 2444, p 2445, p 2446, - p 2447, p 2448, p 2449, p 2450, p 2451, p 2452, p 2453, p 2454, p 2455, - p 2456, p 2457, p 2458, p 2459, p 2460, p 2461, p 2462, p 2463, p 2464, - p 2465, p 2466, p 2467, p 2468, p 2469, p 2470, p 2471, p 2472, p 2473, - p 2474, p 2475, p 2476, p 2477, p 2478, p 2479, p 2480, p 2481, p 2482, - p 2483, p 2484, p 2485, p 2486, p 2487, p 2488, p 2489, p 2490, p 2491, - p 2492, p 2493, p 2494, p 2495, p 2496, p 2497, p 2498, p 2499, p 2500, - p 2501, p 2502, p 2503, p 2504, p 2505, p 2506, p 2507, p 2508, p 2509, - p 2510, p 2511, p 2512, p 2513, p 2514, p 2515, p 2516, p 2517, p 2518, - p 2519, p 2520, p 2521, p 2522, p 2523, p 2524, p 2525, p 2526, p 2527, - p 2528, p 2529, p 2530, p 2531, p 2532, p 2533, p 2534, p 2535, p 2536, - p 2537, p 2538, p 2539, p 2540, p 2541, p 2542, p 2543, p 2544, p 2545, - p 2546, p 2547, p 2548, p 2549, p 2550, p 2551, p 2552, p 2553, p 2554, - p 2555, p 2556, p 2557, p 2558, p 2559, p 2560, p 2561, p 2562, p 2563, - p 2564, p 2565, p 2566, p 2567, p 2568, p 2569, p 2570, p 2571, p 2572, - p 2573, p 2574, p 2575, p 2576, p 2577, p 2578, p 2579, p 2580, p 2581, - p 2582, p 2583, p 2584, p 2585, p 2586, p 2587, p 2588, p 2589, p 2590, - p 2591, p 2592, p 2593, p 2594, p 2595, p 2596, p 2597, p 2598, p 2599, - p 2600, p 2601, p 2602, p 2603, p 2604, p 2605, p 2606, p 2607, p 2608, - p 2609, p 2610, p 2611, p 2612, p 2613, p 2614, p 2615, p 2616, p 2617, - p 2618, p 2619, p 2620, p 2621, p 2622, p 2623, p 2624, p 2625, p 2626, - p 2627, p 2628, p 2629, p 2630, p 2631, p 2632, p 2633, p 2634, p 2635, - p 2636, p 2637, p 2638, p 2639, p 2640, p 2641, p 2642, p 2643, p 2644, - p 2645, p 2646, p 2647, p 2648, p 2649, p 2650, p 2651, p 2652, p 2653, - p 2654, p 2655, p 2656, p 2657, p 2658, p 2659, p 2660, p 2661, p 2662, - p 2663, p 2664, p 2665, p 2666, p 2667, p 2668, p 2669, p 2670, p 2671, - p 2672, p 2673, p 2674, p 2675, p 2676, p 2677, p 2678, p 2679, p 2680, - p 2681, p 2682, p 2683, p 2684, p 2685, p 2686, p 2687, p 2688, p 2689, - p 2690, p 2691, p 2692, p 2693, p 2694, p 2695, p 2696, p 2697, p 2698, - p 2699, p 2700, p 2701, p 2702, p 2703, p 2704, p 2705, p 2706, p 2707, - p 2708, p 2709, p 2710, p 2711, p 2712, p 2713, p 2714, p 2715, p 2716, - p 2717, p 2718, p 2719, p 2720, p 2721, p 2722, p 2723, p 2724, p 2725, - p 2726, p 2727, p 2728, p 2729, p 2730, p 2731, p 2732, p 2733, p 2734, - p 2735, p 2736, p 2737, p 2738, p 2739, p 2740, p 2741, p 2742, p 2743, - p 2744, p 2745, p 2746, p 2747, p 2748, p 2749, p 2750, p 2751, p 2752, - p 2753, p 2754, p 2755, p 2756, p 2757, p 2758, p 2759, p 2760, p 2761, - p 2762, p 2763, p 2764, p 2765, p 2766, p 2767, p 2768, p 2769, p 2770, - p 2771, p 2772, p 2773, p 2774, p 2775, p 2776, p 2777, p 2778, p 2779, - p 2780, p 2781, p 2782, p 2783, p 2784, p 2785, p 2786, p 2787, p 2788, - p 2789, p 2790, p 2791, p 2792, p 2793, p 2794, p 2795, p 2796, p 2797, - p 2798, p 2799, p 2800, p 2801, p 2802, p 2803, p 2804, p 2805, p 2806, - p 2807, p 2808, p 2809, p 2810, p 2811, p 2812, p 2813, p 2814, p 2815, - p 2816, p 2817, p 2818, p 2819, p 2820, p 2821, p 2822, p 2823, p 2824, - p 2825, p 2826, p 2827, p 2828, p 2829, p 2830, p 2831, p 2832, p 2833, - p 2834, p 2835, p 2836, p 2837, p 2838, p 2839, p 2840, p 2841, p 2842, - p 2843, p 2844, p 2845, p 2846, p 2847, p 2848, p 2849, p 2850, p 2851, - p 2852, p 2853, p 2854, p 2855, p 2856, p 2857, p 2858, p 2859, p 2860, - p 2861, p 2862, p 2863, p 2864, p 2865, p 2866, p 2867, p 2868, p 2869, - p 2870, p 2871, p 2872, p 2873, p 2874, p 2875, p 2876, p 2877, p 2878, - p 2879, p 2880, p 2881, p 2882, p 2883, p 2884, p 2885, p 2886, p 2887, - p 2888, p 2889, p 2890, p 2891, p 2892, p 2893, p 2894, p 2895, p 2896, - p 2897, p 2898, p 2899, p 2900, p 2901, p 2902, p 2903, p 2904, p 2905, - p 2906, p 2907, p 2908, p 2909, p 2910, p 2911, p 2912, p 2913, p 2914, - p 2915, p 2916, p 2917, p 2918, p 2919, p 2920, p 2921, p 2922, p 2923, - p 2924, p 2925, p 2926, p 2927, p 2928, p 2929, p 2930, p 2931, p 2932, - p 2933, p 2934, p 2935, p 2936, p 2937, p 2938, p 2939, p 2940, p 2941, - p 2942, p 2943, p 2944, p 2945, p 2946, p 2947, p 2948, p 2949, p 2950, - p 2951, p 2952, p 2953, p 2954, p 2955, p 2956, p 2957, p 2958, p 2959, - p 2960, p 2961, p 2962, p 2963, p 2964, p 2965, p 2966, p 2967, p 2968, - p 2969, p 2970, p 2971, p 2972, p 2973, p 2974, p 2975, p 2976, p 2977, - p 2978, p 2979, p 2980, p 2981, p 2982, p 2983, p 2984, p 2985, p 2986, - p 2987, p 2988, p 2989, p 2990, p 2991, p 2992, p 2993, p 2994, p 2995, - p 2996, p 2997, p 2998, p 2999, p 3000, p 3001, p 3002, p 3003, p 3004, - p 3005, p 3006, p 3007, p 3008, p 3009, p 3010, p 3011, p 3012, p 3013, - p 3014, p 3015, p 3016, p 3017, p 3018, p 3019, p 3020, p 3021, p 3022, - p 3023, p 3024, p 3025, p 3026, p 3027, p 3028, p 3029, p 3030, p 3031, - p 3032, p 3033, p 3034, p 3035, p 3036, p 3037, p 3038, p 3039, p 3040, - p 3041, p 3042, p 3043, p 3044, p 3045, p 3046, p 3047, p 3048, p 3049, - p 3050, p 3051, p 3052, p 3053, p 3054, p 3055, p 3056, p 3057, p 3058, - p 3059, p 3060, p 3061, p 3062, p 3063, p 3064, p 3065, p 3066, p 3067, - p 3068, p 3069, p 3070, p 3071, p 3072, p 3073, p 3074, p 3075, p 3076, - p 3077, p 3078, p 3079, p 3080, p 3081, p 3082, p 3083, p 3084, p 3085, - p 3086, p 3087, p 3088, p 3089, p 3090, p 3091, p 3092, p 3093, p 3094, - p 3095, p 3096, p 3097, p 3098, p 3099, p 3100, p 3101, p 3102, p 3103, - p 3104, p 3105, p 3106, p 3107, p 3108, p 3109, p 3110, p 3111, p 3112, - p 3113, p 3114, p 3115, p 3116, p 3117, p 3118, p 3119, p 3120, p 3121, - p 3122, p 3123, p 3124, p 3125, p 3126, p 3127, p 3128, p 3129, p 3130, - p 3131, p 3132, p 3133, p 3134, p 3135, p 3136, p 3137, p 3138, p 3139, - p 3140, p 3141, p 3142, p 3143, p 3144, p 3145, p 3146, p 3147, p 3148, - p 3149, p 3150, p 3151, p 3152, p 3153, p 3154, p 3155, p 3156, p 3157, - p 3158, p 3159, p 3160, p 3161, p 3162, p 3163, p 3164, p 3165, p 3166, - p 3167, p 3168, p 3169, p 3170, p 3171, p 3172, p 3173, p 3174, p 3175, - p 3176, p 3177, p 3178, p 3179, p 3180, p 3181, p 3182, p 3183, p 3184, - p 3185, p 3186, p 3187, p 3188, p 3189, p 3190, p 3191, p 3192, p 3193, - p 3194, p 3195, p 3196, p 3197, p 3198, p 3199, p 3200, p 3201, p 3202, - p 3203, p 3204, p 3205, p 3206, p 3207, p 3208, p 3209, p 3210, p 3211, - p 3212, p 3213, p 3214, p 3215, p 3216, p 3217, p 3218, p 3219, p 3220, - p 3221, p 3222, p 3223, p 3224, p 3225, p 3226, p 3227, p 3228, p 3229, - p 3230, p 3231, p 3232, p 3233, p 3234, p 3235, p 3236, p 3237, p 3238, - p 3239, p 3240, p 3241, p 3242, p 3243, p 3244, p 3245, p 3246, p 3247, - p 3248, p 3249, p 3250, p 3251, p 3252, p 3253, p 3254, p 3255, p 3256, - p 3257, p 3258, p 3259, p 3260, p 3261, p 3262, p 3263, p 3264, p 3265, - p 3266, p 3267, p 3268, p 3269, p 3270, p 3271, p 3272, p 3273, p 3274, - p 3275, p 3276, p 3277, p 3278, p 3279, p 3280, p 3281, p 3282, p 3283, - p 3284, p 3285, p 3286, p 3287, p 3288, p 3289, p 3290, p 3291, p 3292, - p 3293, p 3294, p 3295, p 3296, p 3297, p 3298, p 3299, p 3300, p 3301, - p 3302, p 3303, p 3304, p 3305, p 3306, p 3307, p 3308, p 3309, p 3310, - p 3311, p 3312, p 3313, p 3314, p 3315, p 3316, p 3317, p 3318, p 3319, - p 3320, p 3321, p 3322, p 3323, p 3324, p 3325, p 3326, p 3327, p 3328, - p 3329, p 3330, p 3331, p 3332, p 3333, p 3334, p 3335, p 3336, p 3337, - p 3338, p 3339, p 3340, p 3341, p 3342, p 3343, p 3344, p 3345, p 3346, - p 3347, p 3348, p 3349, p 3350, p 3351, p 3352, p 3353, p 3354, p 3355, - p 3356, p 3357, p 3358, p 3359, p 3360, p 3361, p 3362, p 3363, p 3364, - p 3365, p 3366, p 3367, p 3368, p 3369, p 3370, p 3371, p 3372, p 3373, - p 3374, p 3375, p 3376, p 3377, p 3378, p 3379, p 3380, p 3381, p 3382, - p 3383, p 3384, p 3385, p 3386, p 3387, p 3388, p 3389, p 3390, p 3391, - p 3392, p 3393, p 3394, p 3395, p 3396, p 3397, p 3398, p 3399, p 3400, - p 3401, p 3402, p 3403, p 3404, p 3405, p 3406, p 3407, p 3408, p 3409, - p 3410, p 3411, p 3412, p 3413, p 3414, p 3415, p 3416, p 3417, p 3418, - p 3419, p 3420, p 3421, p 3422, p 3423, p 3424, p 3425, p 3426, p 3427, - p 3428, p 3429, p 3430, p 3431, p 3432, p 3433, p 3434, p 3435, p 3436, - p 3437, p 3438, p 3439, p 3440, p 3441, p 3442, p 3443, p 3444, p 3445, - p 3446, p 3447, p 3448, p 3449, p 3450, p 3451, p 3452, p 3453, p 3454, - p 3455, p 3456, p 3457, p 3458, p 3459, p 3460, p 3461, p 3462, p 3463, - p 3464, p 3465, p 3466, p 3467, p 3468, p 3469, p 3470, p 3471, p 3472, - p 3473, p 3474, p 3475, p 3476, p 3477, p 3478, p 3479, p 3480, p 3481, - p 3482, p 3483, p 3484, p 3485, p 3486, p 3487, p 3488, p 3489, p 3490, - p 3491, p 3492, p 3493, p 3494, p 3495, p 3496, p 3497, p 3498, p 3499, - p 3500, p 3501, p 3502, p 3503, p 3504, p 3505, p 3506, p 3507, p 3508, - p 3509, p 3510, p 3511, p 3512, p 3513, p 3514, p 3515, p 3516, p 3517, - p 3518, p 3519, p 3520, p 3521, p 3522, p 3523, p 3524, p 3525, p 3526, - p 3527, p 3528, p 3529, p 3530, p 3531, p 3532, p 3533, p 3534, p 3535, - p 3536, p 3537, p 3538, p 3539, p 3540, p 3541, p 3542, p 3543, p 3544, - p 3545, p 3546, p 3547, p 3548, p 3549, p 3550, p 3551, p 3552, p 3553, - p 3554, p 3555, p 3556, p 3557, p 3558, p 3559, p 3560, p 3561, p 3562, - p 3563, p 3564, p 3565, p 3566, p 3567, p 3568, p 3569, p 3570, p 3571, - p 3572, p 3573, p 3574, p 3575, p 3576, p 3577, p 3578, p 3579, p 3580, - p 3581, p 3582, p 3583, p 3584, p 3585, p 3586, p 3587, p 3588, p 3589, - p 3590, p 3591, p 3592, p 3593, p 3594, p 3595, p 3596, p 3597, p 3598, - p 3599, p 3600, p 3601, p 3602, p 3603, p 3604, p 3605, p 3606, p 3607, - p 3608, p 3609, p 3610, p 3611, p 3612, p 3613, p 3614, p 3615, p 3616, - p 3617, p 3618, p 3619, p 3620, p 3621, p 3622, p 3623, p 3624, p 3625, - p 3626, p 3627, p 3628, p 3629, p 3630, p 3631, p 3632, p 3633, p 3634, - p 3635, p 3636, p 3637, p 3638, p 3639, p 3640, p 3641, p 3642, p 3643, - p 3644, p 3645, p 3646, p 3647, p 3648, p 3649, p 3650, p 3651, p 3652, - p 3653, p 3654, p 3655, p 3656, p 3657, p 3658, p 3659, p 3660, p 3661, - p 3662, p 3663, p 3664, p 3665, p 3666, p 3667, p 3668, p 3669, p 3670, - p 3671, p 3672, p 3673, p 3674, p 3675, p 3676, p 3677, p 3678, p 3679, - p 3680, p 3681, p 3682, p 3683, p 3684, p 3685, p 3686, p 3687, p 3688, - p 3689, p 3690, p 3691, p 3692, p 3693, p 3694, p 3695, p 3696, p 3697, - p 3698, p 3699, p 3700, p 3701, p 3702, p 3703, p 3704, p 3705, p 3706, - p 3707, p 3708, p 3709, p 3710] -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 -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 -Cats.And.Dogs.x = 42 - : nat -test1 -str hello -str x -test1 -too many arguments -[attribute elpi.loc - (leaf-loc - File "./tests/test_vernacular2.v", line 10, column 24, characters 326-329:), - attribute elpi.phase (leaf-str interp), - attribute fwd_compat_attr (leaf-str )] -[attribute elpi.loc - (leaf-loc - File "./tests/test_vernacular2.v", line 11, column 0, characters 331-354:), - attribute elpi.phase (leaf-str interp), - attribute fwd_compat_attr (leaf-str )] -File "./tests/test_vernacular2.v", line 6, characters 2-17: -Warning: This command does not support this attribute: fwd_compat_attr. -[unsupported-attributes,parsing,default] -File "./tests/test_vernacular2.v", line 7, characters 2-17: -Warning: This command does not support this attribute: fwd_compat_attr. -[unsupported-attributes,parsing,default] -File "./tests/test_vernacular2.v", line 8, characters 2-17: -Warning: This command does not support this attribute: fwd_compat_attr. -[unsupported-attributes,parsing,default] -File "./tests/test_vernacular2.v", line 9, characters 2-17: -Warning: This command does not support this attribute: fwd_compat_attr. -[unsupported-attributes,parsing,default] -File "./tests/test_vernacular2.v", line 10, characters 2-17: -Warning: This command does not support this attribute: fwd_compat_attr. -[unsupported-attributes,parsing,default] -trying i = i -trying elpi_ctx_entry_2_ = elpi_ctx_entry_2_ -trying elpi_ctx_entry_1_ = elpi_ctx_entry_1_ /\ p0 = p0 -trying elpi_ctx_entry_1_ = elpi_ctx_entry_1_ /\ p0 = p0 -d - : nat Query assignments: X1 = «x1» X2 = «x2» @@ -17967,14 +17942,71 @@ Please add the following text to your program: type test term -> term -> prop. [elpi.missing-types,elpi.typecheck,elpi,default] +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 +Cats.And.Dogs.x = 42 + : nat +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 +d + : nat +trying i = i +trying elpi_ctx_entry_2_ = elpi_ctx_entry_2_ +trying elpi_ctx_entry_1_ = elpi_ctx_entry_1_ /\ p0 = p0 +trying elpi_ctx_entry_1_ = elpi_ctx_entry_1_ /\ p0 = p0 true : bool : bool program [p] -global (indc «O») -app - [global (indc «S»), - app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] Module d3 : d3_Locked @@ -18065,6 +18097,10 @@ Called from Elpi_plugin__Rocq_elpi_vernacular.Compiler.run_and_print in file "src/rocq_elpi_vernacular.ml", line 166, characters 8-38 Called from Elpi_plugin__Rocq_elpi_vernacular.Interp.run_program.(fun) in file "src/rocq_elpi_vernacular.ml", line 557, characters 34-90 +global (indc «O») +app + [global (indc «S»), + app [global (indc «S»), app [global (indc «S»), global (indc «O»)]]] 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, @@ -18077,7 +18113,6 @@ 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 _ _ -ok nth_R = fun (T1 T2 : Type) (T_R : T1 -> T2 -> Type) (x01 : T1) (x02 : T2) (x0_R : T_R x01 x02) => @@ -18224,6 +18259,7 @@ Arguments pred_R (n1 n2)%nat_scope n_R File "./apps/derive/tests/test_param2.v", line 85, characters 0-30: Warning: Not a truly recursive fixpoint. [non-recursive,fixpoints,default] +ok In tc-A In tc-A In tc-B @@ -18261,920 +18297,926 @@ search mode is : tc.deterministic modes are : [o, o] Query assignments: - Len = 2 - Rules = [tc.instance [] (const «Bool.Decidable_eq_bool») - (indt «DecidableClass.Decidable») [], - tc.instance [] (const «DecidableClass.Decidable_not») - (indt «DecidableClass.Decidable») []] -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: 1: looking for (C ?i) with backtracking -Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) -Debug: 2: looking for (E 2) without backtracking -Debug: 2: no match for (E 2), 0 possibilities -Debug: 1.2: exact i1 on (C ?i), 0 subgoal(s) -Debug: 2: looking for (E 1) without backtracking -Debug: 2.1: exact e1 on (E 1), 0 subgoal(s) -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: 1: looking for (C ?i) with backtracking -Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: 1: looking for (E 2) without backtracking -Debug: 1: no match for (E 2), 0 possibilities -Debug: 1: looking for (C ?i) with backtracking -Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) -Debug: 2: looking for (E 2) without backtracking -Debug: 2: no match for (E 2), 0 possibilities -Debug: 1.2: exact i1 on (C ?i), 0 subgoal(s) -Debug: 2: looking for (E 1) without backtracking -Debug: 2.1: exact e1 on (E 1), 0 subgoal(s) -[seal (goal [] (X0) (app [global (indt «C»), X1]) (X2) []), - seal (goal [] (X3) (app [global (indt «E»), X1]) (X4) [])] -Goal is C ?i -Solution for C 2 is i2 -Goal is E 2 -Solution for C 1 is i1 -Goal is E 1 -Solution for E 1 is e1 -All the remaining goals are on the shelf. - -1 goal - -goal 1 is: - C -1 goal - - ============================ - C -All the remaining goals are on the shelf. - -1 goal - -goal 1 is: - C -1 goal - - ============================ - C -((fun (A : Type) (f : Type -> Type) (H : forall x : Type, Y (f x)) => - ex_intro (fun g : Type -> Type => Ex g A /\ g nat = g bool) f - (conj (Inst2 A f H) ?Goal)) - : - goal) -2 focused goals (shelved: 1) - - A : Type - f : Type -> Type - H : forall x : Type, Y (f x) - ============================ - Ex ?g A - -goal 2 is: - ?g nat = ?g bool -1 focused goal (shelved: 1) - - A : Type - f : Type -> Type - H : forall x : Type, Y (f x) - ============================ - (fun H0 : Type => f ?e0@{T:=H0}) nat = - (fun H0 : Type => f ?e0@{T:=H0}) bool -(fun x : tele => tele_fmap) -Normalizing app [global (indt «nat2»), global (const «Nat.succ»)] -Normalizing app [global (indt «nat2»), global (indc «S»)] -Normalizing app [global (indt «nat2»), global (const «Nat.succ»)] -File "./apps/tc/tests/test_tc_declare.v", line 8, characters 2-36: -Warning: -This command does not fully mirror the watned behavior if the class has methods -with implicit arguments (those implicits will be neglected) -[[TC] Warning,TC.Declare,elpi,default] -File "./apps/tc/tests/test_tc_declare.v", line 20, characters 2-53: -Warning: -This command does not fully mirror the watned behavior if the class has methods -with implicit arguments (those implicits will be neglected) -[[TC] Warning,TC.Declare,elpi,default] -File "./apps/tc/tests/test_tc_declare.v", line 50, characters 2-47: -Warning: -This command does not fully mirror the watned behavior if the class has methods -with implicit arguments (those implicits will be neglected) -[[TC] Warning,TC.Declare,elpi,default] -File "./apps/tc/tests/test_tc_declare.v", line 63, characters 2-51: -Warning: -This command does not fully mirror the watned behavior if the class has methods -with implicit arguments (those implicits will be neglected) -[[TC] Warning,TC.Declare,elpi,default] -Now click "Start watching" in the Elpi Trace Browser panel and then execute -the Command/Tactic/Query you want to trace. Also try "F1 Elpi". -(fun H : C Q => - ex_intro (fun T : Type -> Type => forall R : Type -> Type, C R -> C T) Q - (fun (R : Type -> Type) (_ : C R) => let H1 : C Q := H in H1)) -Now click "Start watching" in the Elpi Trace Browser panel and then execute -the Command/Tactic/Query you want to trace. Also try "F1 Elpi". -Query assignments: - S = app - [global (const «IsAnimal»), global (indc «Fly»), global (const «dove»)] -Query assignments: - S = X0 -Instances list for indt «Eqb» is: -const «eqBool» with locality [] -const «eqProd» with locality [] -Instances list for indt «DecidableClass.Decidable» is: -const «Decidable_eq_bool» with locality [] -const «DecidableClass.Decidable_not» with locality [] -[TC] For indt «Eqb» : - elpi predicate : tc-elpi.apps.tc.examples.tutorial.tc-Eqb - search mode is : tc.classic - modes are : [o, o] -Instances list for indt «Eqb» is: -const «eqProd'» with locality [get-option coq:locality local] -const «HB» with locality [get-option coq:locality local] -const «HA» with locality [get-option coq:locality local] -const «eqBool» with locality [] -const «eqProd» with locality [] -Instances list for indt «Eqb» is: -const «eqBool» with locality [] -const «eqProd'» with locality [get-option coq:locality global] -const «eqProd» with locality [] -[TC] For indt «Eqb» : - elpi predicate : tc-elpi.apps.tc.examples.tutorial.tc-Eqb - search mode is : tc.classic - modes are : [o, o] -Instances list for indt «Eqb» is: -const «eqBool» with locality [] -const «eqProd'» with locality [get-option coq:locality global] -const «eqProd» with locality [] -Instances list for indt «DecidableClass.Decidable» is: -const «Decidable_eq_bool» with locality [] -const «DecidableClass.Decidable_not» with locality [] -(fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) -eq_refl -: -ex1 = -(fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) - : ex1 = - (fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => - partial_app T (p 0) x) -eq_refl -: -ex2 = -(fun (T : Type) (p : nat -> T -> T -> Prop) (y : T) => partial_app T (p 0) y) - : ex2 = - (fun (T : Type) (p : nat -> T -> T -> Prop) (y : T) => - partial_app T (p 0) y) -(ex_intro - (fun R : Type -> Type => C (fun _ : Type => R nat) /\ R bool = f nat) f - (conj I ?Goal)) -eq_refl : ex1 = fun_1 nat (fun _ : nat => nat) - : ex1 = fun_1 nat (fun _ : nat => nat) -eq_refl : ex2 = fun_1 nat (fun a : nat => a = a + 1) - : ex2 = fun_1 nat (fun a : nat => a = a + 1) -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: 1: looking for (Decision (Exists (?P z y) l)) with backtracking -Debug: 1.1: simple apply Exists_dec on -(Decision (Exists (?P z y) l)), 1 subgoal(s) -Debug: 1.1-1 : (forall x : A, Decision (?P z y x)) -Debug: -1.1-1: looking for (forall x : A, Decision (?P z y x)) with backtracking -Debug: 1.1-1.1: simple apply H on -(forall x : A, Decision (?P z y x)), 0 subgoal(s) -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: [tactic-unification] Starting unification: Prop ~= Type -Debug: [tactic-unification] Leaving unification with success -Debug: [tactic-unification] Starting unification: ?T ~= D -Debug: [tactic-unification] ?T ~= D -Debug: [tactic-unification] Leaving unification with success -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: 1: looking for D without backtracking -Debug: [tactic-unification] Starting unification: D ~= D -Debug: [tactic-unification] Leaving unification with success -Debug: 1.1: simple eapply I on D, 1 subgoal(s) -Debug: 1.1-1 : (C1 ?T (fun x : Type => ?H x)) -Debug: 1.1-1: looking for (C1 ?T (fun x : Type => ?H x)) with backtracking -Debug: -[tactic-unification] - Starting unification: - C1 T H - ~= - C1 ?T (fun x : Type => ?H x) -Debug: [tactic-unification] C1 T H ~= C1 ?T (fun x : Type => ?H x) -Debug: [tactic-unification] C1 ~= C1 -Debug: [tactic-unification] T ~= ?T -Debug: [tactic-unification] H ~= fun x : Type => ?H x -Debug: [tactic-unification] Leaving unification with failure -Debug: 1.1-1: no match for (C1 ?T (fun x : Type => ?H x)), 1 possibilities -Debug: [tactic-unification] Starting unification: Prop ~= Type -Debug: [tactic-unification] Leaving unification with success -Debug: [tactic-unification] Starting unification: ?T ~= D -Debug: [tactic-unification] ?T ~= D -Debug: [tactic-unification] Leaving unification with success -Debug: -Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true -Debug: [tactic-unification] Starting unification: Prop ~= Type -Debug: [tactic-unification] Leaving unification with success -Debug: [tactic-unification] Starting unification: ?T ~= D -Debug: [tactic-unification] ?T ~= D -Debug: [tactic-unification] Leaving unification with success -Debug: [tactic-unification] Starting unification: D ~= D -Debug: [tactic-unification] Leaving unification with success -Debug: -[tactic-unification] - Starting unification: - C2 T (fun x : Type => H x) - ~= - C2 ?T ?H -Debug: [tactic-unification] C2 T (fun x : Type => H x) ~= C2 ?T ?H -Debug: [tactic-unification] C2 ~= C2 -Debug: [tactic-unification] T ~= ?T -Debug: [tactic-unification] fun x : Type => H x ~= ?H -Debug: [tactic-unification] Leaving unification with success -Debug: [tactic-unification] Starting unification: Prop ~= Type -Debug: [tactic-unification] Leaving unification with success -Debug: -[tactic-unification] - Starting unification: - ?T - ~= - forall (T : Type -> Type) (H : forall x : Type, T x), - C2 T (fun x : Type => H x) -> D -Debug: -[tactic-unification] - ?T - ~= - forall (T : Type -> Type) (H : forall x : Type, T x), - C2 T (fun x : Type => H x) -> D -Debug: [tactic-unification] Leaving unification with success -Debug: -[tactic-unification] - Starting unification: - forall (T : Type -> Type) (H : forall x : Type, T x), C2 T H -> D - ~= - forall (T : Type -> Type) (H : forall x : Type, T x), - C2 T (fun x : Type => H x) -> D -Debug: [tactic-unification] Leaving unification with success -File "./apps/eltac/tests-stdlib/test_injection.v", line 15, characters 0-15: -Warning: Using Vector.t is known to be technically difficult, see -. -[warn-library-file-stdlib-vector,stdlib-vector,warn-library-file,user-warn,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: + EqP = const «eqU» +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) rewrite_relation_fun +(*external*) Morphisms.rewrite_relation_fun [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (equiv_rewrite_relation R) +(*external*) (RelationClasses.equiv_rewrite_relation R) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (eq_rewrite_relation A) +(*external*) (Morphisms.eq_rewrite_relation A) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_StrictOrder) +(*external*) (Init.class_apply @RelationClasses.flip_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @PartialOrder_StrictOrder) +(*external*) (Init.class_apply @Morphisms.PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_StrictOrder) +(*external*) (Init.class_apply @CRelationClasses.flip_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.PartialOrder_StrictOrder) +(*external*) (Init.class_apply @CMorphisms.PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_PreOrder) +(*external*) (Init.class_apply @RelationClasses.flip_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @StrictOrder_PreOrder) +(*external*) (Init.class_apply @Morphisms.StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_PreOrder) +(*external*) (Init.class_apply @CRelationClasses.flip_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.StrictOrder_PreOrder) +(*external*) (Init.class_apply @CMorphisms.StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_Antisymmetric) +(*external*) (Init.class_apply @CRelationClasses.flip_Antisymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_Symmetric) +(*external*) (Init.class_apply @CRelationClasses.flip_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.complement_Symmetric) +(*external*) (Init.class_apply @CRelationClasses.complement_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @PartialOrder_inverse) +(*external*) (Init.class_apply @RelationClasses.PartialOrder_inverse) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @StrictOrder_PartialOrder) +(*external*) (Init.class_apply @Morphisms.StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @eq_proper_proxy || - class_apply @reflexive_proper_proxy) +(*external*) (Init.class_apply @Morphisms.eq_proper_proxy || + Init.class_apply @Morphisms.reflexive_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (not_evar R; class_apply @proper_proper_proxy) +(*external*) (not_evar R; Init.class_apply @Morphisms.proper_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) normalizes +(*external*) Morphisms.normalizes [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip2) +(*external*) (Init.class_apply @Morphisms.flip2) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip1) +(*external*) (Init.class_apply @Morphisms.flip1) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (subrelation_tac T U) +(*external*) (Morphisms.subrelation_tac T U) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (apply (forall_subrelation B R S); intro) +(*external*) (apply (Morphisms.forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @subrelation_symmetric) +(*external*) (Init.class_apply @RelationClasses.subrelation_symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.PartialOrder_inverse) +(*external*) (Init.class_apply @CRelationClasses.PartialOrder_inverse) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.StrictOrder_PartialOrder) +(*external*) (Init.class_apply @CMorphisms.StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_Transitive) +(*external*) (Init.class_apply @RelationClasses.flip_Transitive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.flip2) +(*external*) (Init.class_apply @CMorphisms.flip2) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.flip1) +(*external*) (Init.class_apply @CMorphisms.flip1) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (CMorphisms.subrelation_tac T U) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply (CMorphisms.forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.subrelation_symmetric) +(*external*) (Init.class_apply @CRelationClasses.subrelation_symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply @CMorphisms.flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.proper_flip_proper) +(*external*) (Init.class_apply @CMorphisms.proper_flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.partial_application_tactic [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_subrelation [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_normalization [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_reflexive [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_Transitive) +(*external*) (Init.class_apply @CRelationClasses.flip_Transitive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_Irreflexive) +(*external*) (Init.class_apply @RelationClasses.flip_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @complement_Irreflexive) +(*external*) (Init.class_apply @RelationClasses.complement_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_Asymmetric) +(*external*) (Init.class_apply @RelationClasses.flip_Asymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (apply @flip_proper) +(*external*) (apply @Morphisms.flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (apply @complement_proper) +(*external*) (apply @Morphisms.complement_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @proper_flip_proper) +(*external*) (Init.class_apply @Morphisms.proper_flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) partial_application_tactic +(*external*) Morphisms.partial_application_tactic [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) proper_subrelation +(*external*) Morphisms.proper_subrelation [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) proper_normalization +(*external*) Morphisms.proper_normalization [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) proper_reflexive +(*external*) Morphisms.proper_reflexive [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_Irreflexive) +(*external*) (Init.class_apply @CRelationClasses.flip_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.complement_Irreflexive) +(*external*) (Init.class_apply @CRelationClasses.complement_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.flip_Asymmetric) +(*external*) (Init.class_apply @CRelationClasses.flip_Asymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @irreflexivity) +(*external*) (Init.class_apply @RelationClasses.irreflexivity) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (apply flip_Reflexive) +(*external*) (apply RelationClasses.flip_Reflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CRelationClasses.irreflexivity) +(*external*) (Init.class_apply @CRelationClasses.irreflexivity) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) (apply CRelationClasses.flip_Reflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) unconvertible +(*external*) Init.unconvertible [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @CMorphisms.eq_proper_proxy || - class_apply @CMorphisms.reflexive_proper_proxy) +(*external*) (Init.class_apply @CMorphisms.eq_proper_proxy || + Init.class_apply @CMorphisms.reflexive_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (not_evar R; class_apply @CMorphisms.proper_proper_proxy) +(*external*) (not_evar R; Init.class_apply @CMorphisms.proper_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.normalizes [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_Antisymmetric) +(*external*) (Init.class_apply @RelationClasses.flip_Antisymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @flip_Symmetric) +(*external*) (Init.class_apply @RelationClasses.flip_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (class_apply @complement_Symmetric) +(*external*) (Init.class_apply @RelationClasses.complement_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: +File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: Warning: There is an hint extern in the typeclass db: -(*external*) (reflexive_proxy_tac A R) +(*external*) (Morphisms.reflexive_proxy_tac A R) [elpi.TC.hints,elpi,default] -Received the following event -[str new_instance, str I4, str A, str Export, int -1] -Query assignments: - EqP = const «eqU» -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Morphisms.rewrite_relation_fun +(*external*) rewrite_relation_fun [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (RelationClasses.equiv_rewrite_relation R) +(*external*) (equiv_rewrite_relation R) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Morphisms.eq_rewrite_relation A) +(*external*) (eq_rewrite_relation A) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_StrictOrder) +(*external*) (class_apply @flip_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.PartialOrder_StrictOrder) +(*external*) (class_apply @PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_StrictOrder) +(*external*) (class_apply @CRelationClasses.flip_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.PartialOrder_StrictOrder) +(*external*) (class_apply @CMorphisms.PartialOrder_StrictOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_PreOrder) +(*external*) (class_apply @flip_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.StrictOrder_PreOrder) +(*external*) (class_apply @StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_PreOrder) +(*external*) (class_apply @CRelationClasses.flip_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.StrictOrder_PreOrder) +(*external*) (class_apply @CMorphisms.StrictOrder_PreOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_Antisymmetric) +(*external*) (class_apply @CRelationClasses.flip_Antisymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_Symmetric) +(*external*) (class_apply @CRelationClasses.flip_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.complement_Symmetric) +(*external*) (class_apply @CRelationClasses.complement_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.PartialOrder_inverse) +(*external*) (class_apply @PartialOrder_inverse) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.StrictOrder_PartialOrder) +(*external*) (class_apply @StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.eq_proper_proxy || - Init.class_apply @Morphisms.reflexive_proper_proxy) +(*external*) (class_apply @eq_proper_proxy || + class_apply @reflexive_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (not_evar R; Init.class_apply @Morphisms.proper_proper_proxy) +(*external*) (not_evar R; class_apply @proper_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Morphisms.normalizes +(*external*) normalizes [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.flip2) +(*external*) (class_apply @flip2) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.flip1) +(*external*) (class_apply @flip1) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Morphisms.subrelation_tac T U) +(*external*) (subrelation_tac T U) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (apply (Morphisms.forall_subrelation B R S); intro) +(*external*) (apply (forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.subrelation_symmetric) +(*external*) (class_apply @subrelation_symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.PartialOrder_inverse) +(*external*) (class_apply @CRelationClasses.PartialOrder_inverse) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.StrictOrder_PartialOrder) +(*external*) (class_apply @CMorphisms.StrictOrder_PartialOrder) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_Transitive) +(*external*) (class_apply @flip_Transitive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.flip2) +(*external*) (class_apply @CMorphisms.flip2) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.flip1) +(*external*) (class_apply @CMorphisms.flip1) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (CMorphisms.subrelation_tac T U) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply (CMorphisms.forall_subrelation B R S); intro) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.subrelation_symmetric) +(*external*) (class_apply @CRelationClasses.subrelation_symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply @CMorphisms.flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.proper_flip_proper) +(*external*) (class_apply @CMorphisms.proper_flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.partial_application_tactic [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_subrelation [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_normalization [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.proper_reflexive [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_Transitive) +(*external*) (class_apply @CRelationClasses.flip_Transitive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_Irreflexive) +(*external*) (class_apply @flip_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.complement_Irreflexive) +(*external*) (class_apply @complement_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_Asymmetric) +(*external*) (class_apply @flip_Asymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (apply @Morphisms.flip_proper) +(*external*) (apply @flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (apply @Morphisms.complement_proper) +(*external*) (apply @complement_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @Morphisms.proper_flip_proper) +(*external*) (class_apply @proper_flip_proper) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Morphisms.partial_application_tactic +(*external*) partial_application_tactic [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Morphisms.proper_subrelation +(*external*) proper_subrelation [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Morphisms.proper_normalization +(*external*) proper_normalization [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Morphisms.proper_reflexive +(*external*) proper_reflexive [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_Irreflexive) +(*external*) (class_apply @CRelationClasses.flip_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.complement_Irreflexive) +(*external*) (class_apply @CRelationClasses.complement_Irreflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.flip_Asymmetric) +(*external*) (class_apply @CRelationClasses.flip_Asymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.irreflexivity) +(*external*) (class_apply @irreflexivity) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (apply RelationClasses.flip_Reflexive) +(*external*) (apply flip_Reflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CRelationClasses.irreflexivity) +(*external*) (class_apply @CRelationClasses.irreflexivity) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) (apply CRelationClasses.flip_Reflexive) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) Init.unconvertible +(*external*) unconvertible [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @CMorphisms.eq_proper_proxy || - Init.class_apply @CMorphisms.reflexive_proper_proxy) +(*external*) (class_apply @CMorphisms.eq_proper_proxy || + class_apply @CMorphisms.reflexive_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (not_evar R; Init.class_apply @CMorphisms.proper_proper_proxy) +(*external*) (not_evar R; class_apply @CMorphisms.proper_proper_proxy) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: (*external*) CMorphisms.normalizes [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_Antisymmetric) +(*external*) (class_apply @flip_Antisymmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.flip_Symmetric) +(*external*) (class_apply @flip_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Init.class_apply @RelationClasses.complement_Symmetric) +(*external*) (class_apply @complement_Symmetric) [elpi.TC.hints,elpi,default] -File "./apps/tc/tests-stdlib/test_commands_API.v", line 52, characters 2-25: +File "./apps/tc/tests-stdlib/stdppInj.v", line 13, characters 0-24: Warning: There is an hint extern in the typeclass db: -(*external*) (Morphisms.reflexive_proxy_tac A R) +(*external*) (reflexive_proxy_tac A R) [elpi.TC.hints,elpi,default] Query assignments: + Len = 2 + Rules = [tc.instance [] (const «Bool.Decidable_eq_bool») + (indt «DecidableClass.Decidable») [], + tc.instance [] (const «DecidableClass.Decidable_not») + (indt «DecidableClass.Decidable») []] +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: 1: looking for (C ?i) with backtracking +Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) +Debug: 2: looking for (E 2) without backtracking +Debug: 2: no match for (E 2), 0 possibilities +Debug: 1.2: exact i1 on (C ?i), 0 subgoal(s) +Debug: 2: looking for (E 1) without backtracking +Debug: 2.1: exact e1 on (E 1), 0 subgoal(s) +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: 1: looking for (C ?i) with backtracking +Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: 1: looking for (E 2) without backtracking +Debug: 1: no match for (E 2), 0 possibilities +Debug: 1: looking for (C ?i) with backtracking +Debug: 1.1: exact i2 on (C ?i), 0 subgoal(s) +Debug: 2: looking for (E 2) without backtracking +Debug: 2: no match for (E 2), 0 possibilities +Debug: 1.2: exact i1 on (C ?i), 0 subgoal(s) +Debug: 2: looking for (E 1) without backtracking +Debug: 2.1: exact e1 on (E 1), 0 subgoal(s) +[seal (goal [] (X0) (app [global (indt «C»), X1]) (X2) []), + seal (goal [] (X3) (app [global (indt «E»), X1]) (X4) [])] +Goal is C ?i +Solution for C 2 is i2 +Goal is E 2 +Solution for C 1 is i1 +Goal is E 1 +Solution for E 1 is e1 +((fun (A : Type) (f : Type -> Type) (H : forall x : Type, Y (f x)) => + ex_intro (fun g : Type -> Type => Ex g A /\ g nat = g bool) f + (conj (Inst2 A f H) ?Goal)) + : + goal) +2 focused goals (shelved: 1) + + A : Type + f : Type -> Type + H : forall x : Type, Y (f x) + ============================ + Ex ?g A + +goal 2 is: + ?g nat = ?g bool +1 focused goal (shelved: 1) + + A : Type + f : Type -> Type + H : forall x : Type, Y (f x) + ============================ + (fun H0 : Type => f ?e0@{T:=H0}) nat = + (fun H0 : Type => f ?e0@{T:=H0}) bool +All the remaining goals are on the shelf. + +1 goal + +goal 1 is: + C +1 goal + + ============================ + C +All the remaining goals are on the shelf. + +1 goal + +goal 1 is: + C +1 goal + + ============================ + C +(fun x : tele => tele_fmap) +Now click "Start watching" in the Elpi Trace Browser panel and then execute +the Command/Tactic/Query you want to trace. Also try "F1 Elpi". +(fun H : C Q => + ex_intro (fun T : Type -> Type => forall R : Type -> Type, C R -> C T) Q + (fun (R : Type -> Type) (_ : C R) => let H1 : C Q := H in H1)) +Now click "Start watching" in the Elpi Trace Browser panel and then execute +the Command/Tactic/Query you want to trace. Also try "F1 Elpi". +File "./apps/tc/tests/test_tc_declare.v", line 8, characters 2-36: +Warning: +This command does not fully mirror the watned behavior if the class has methods +with implicit arguments (those implicits will be neglected) +[[TC] Warning,TC.Declare,elpi,default] +File "./apps/tc/tests/test_tc_declare.v", line 20, characters 2-53: +Warning: +This command does not fully mirror the watned behavior if the class has methods +with implicit arguments (those implicits will be neglected) +[[TC] Warning,TC.Declare,elpi,default] +File "./apps/tc/tests/test_tc_declare.v", line 50, characters 2-47: +Warning: +This command does not fully mirror the watned behavior if the class has methods +with implicit arguments (those implicits will be neglected) +[[TC] Warning,TC.Declare,elpi,default] +File "./apps/tc/tests/test_tc_declare.v", line 63, characters 2-51: +Warning: +This command does not fully mirror the watned behavior if the class has methods +with implicit arguments (those implicits will be neglected) +[[TC] Warning,TC.Declare,elpi,default] +Query assignments: + S = app + [global (const «IsAnimal»), global (indc «Fly»), global (const «dove»)] +Query assignments: + S = X0 +Normalizing app [global (indt «nat2»), global (const «Nat.succ»)] +Normalizing app [global (indt «nat2»), global (indc «S»)] +Normalizing app [global (indt «nat2»), global (const «Nat.succ»)] +(fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) +eq_refl +: +ex1 = +(fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => partial_app T (p 0) x) + : ex1 = + (fun (T : Type) (p : nat -> T -> T -> Prop) (x : T) => + partial_app T (p 0) x) +eq_refl +: +ex2 = +(fun (T : Type) (p : nat -> T -> T -> Prop) (y : T) => partial_app T (p 0) y) + : ex2 = + (fun (T : Type) (p : nat -> T -> T -> Prop) (y : T) => + partial_app T (p 0) y) +(ex_intro + (fun R : Type -> Type => C (fun _ : Type => R nat) /\ R bool = f nat) f + (conj I ?Goal)) +eq_refl : ex1 = fun_1 nat (fun _ : nat => nat) + : ex1 = fun_1 nat (fun _ : nat => nat) +eq_refl : ex2 = fun_1 nat (fun a : nat => a = a + 1) + : ex2 = fun_1 nat (fun a : nat => a = a + 1) +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: 1: looking for (Decision (Exists (?P z y) l)) with backtracking +Debug: 1.1: simple apply Exists_dec on +(Decision (Exists (?P z y) l)), 1 subgoal(s) +Debug: 1.1-1 : (forall x : A, Decision (?P z y x)) +Debug: +1.1-1: looking for (forall x : A, Decision (?P z y x)) with backtracking +Debug: 1.1-1.1: simple apply H on +(forall x : A, Decision (?P z y x)), 0 subgoal(s) +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: [tactic-unification] Starting unification: Prop ~= Type +Debug: [tactic-unification] Leaving unification with success +Debug: [tactic-unification] Starting unification: ?T ~= D +Debug: [tactic-unification] ?T ~= D +Debug: [tactic-unification] Leaving unification with success +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: 1: looking for D without backtracking +Debug: [tactic-unification] Starting unification: D ~= D +Debug: [tactic-unification] Leaving unification with success +Debug: 1.1: simple eapply I on D, 1 subgoal(s) +Debug: 1.1-1 : (C1 ?T (fun x : Type => ?H x)) +Debug: 1.1-1: looking for (C1 ?T (fun x : Type => ?H x)) with backtracking +Debug: +[tactic-unification] + Starting unification: + C1 T H + ~= + C1 ?T (fun x : Type => ?H x) +Debug: [tactic-unification] C1 T H ~= C1 ?T (fun x : Type => ?H x) +Debug: [tactic-unification] C1 ~= C1 +Debug: [tactic-unification] T ~= ?T +Debug: [tactic-unification] H ~= fun x : Type => ?H x +Debug: [tactic-unification] Leaving unification with failure +Debug: 1.1-1: no match for (C1 ?T (fun x : Type => ?H x)), 1 possibilities +Debug: [tactic-unification] Starting unification: Prop ~= Type +Debug: [tactic-unification] Leaving unification with success +Debug: [tactic-unification] Starting unification: ?T ~= D +Debug: [tactic-unification] ?T ~= D +Debug: [tactic-unification] Leaving unification with success +Debug: +Calling typeclass resolution with flags: depth = ∞,unique = false,fail = true +Debug: [tactic-unification] Starting unification: Prop ~= Type +Debug: [tactic-unification] Leaving unification with success +Debug: [tactic-unification] Starting unification: ?T ~= D +Debug: [tactic-unification] ?T ~= D +Debug: [tactic-unification] Leaving unification with success +Debug: [tactic-unification] Starting unification: D ~= D +Debug: [tactic-unification] Leaving unification with success +Debug: +[tactic-unification] + Starting unification: + C2 T (fun x : Type => H x) + ~= + C2 ?T ?H +Debug: [tactic-unification] C2 T (fun x : Type => H x) ~= C2 ?T ?H +Debug: [tactic-unification] C2 ~= C2 +Debug: [tactic-unification] T ~= ?T +Debug: [tactic-unification] fun x : Type => H x ~= ?H +Debug: [tactic-unification] Leaving unification with success +Debug: [tactic-unification] Starting unification: Prop ~= Type +Debug: [tactic-unification] Leaving unification with success +Debug: +[tactic-unification] + Starting unification: + ?T + ~= + forall (T : Type -> Type) (H : forall x : Type, T x), + C2 T (fun x : Type => H x) -> D +Debug: +[tactic-unification] + ?T + ~= + forall (T : Type -> Type) (H : forall x : Type, T x), + C2 T (fun x : Type => H x) -> D +Debug: [tactic-unification] Leaving unification with success +Debug: +[tactic-unification] + Starting unification: + forall (T : Type -> Type) (H : forall x : Type, T x), C2 T H -> D + ~= + forall (T : Type -> Type) (H : forall x : Type, T x), + C2 T (fun x : Type => H x) -> D +Debug: [tactic-unification] Leaving unification with success +Instances list for indt «Eqb» is: +const «eqBool» with locality [] +const «eqProd» with locality [] +Instances list for indt «DecidableClass.Decidable» is: +const «Decidable_eq_bool» with locality [] +const «DecidableClass.Decidable_not» with locality [] +[TC] For indt «Eqb» : + elpi predicate : tc-elpi.apps.tc.examples.tutorial.tc-Eqb + search mode is : tc.classic + modes are : [o, o] +Instances list for indt «Eqb» is: +const «eqProd'» with locality [get-option coq:locality local] +const «HB» with locality [get-option coq:locality local] +const «HA» with locality [get-option coq:locality local] +const «eqBool» with locality [] +const «eqProd» with locality [] +Instances list for indt «Eqb» is: +const «eqBool» with locality [] +const «eqProd'» with locality [get-option coq:locality global] +const «eqProd» with locality [] +[TC] For indt «Eqb» : + elpi predicate : tc-elpi.apps.tc.examples.tutorial.tc-Eqb + search mode is : tc.classic + modes are : [o, o] +Instances list for indt «Eqb» is: +const «eqBool» with locality [] +const «eqProd'» with locality [get-option coq:locality global] +const «eqProd» with locality [] +Instances list for indt «DecidableClass.Decidable» is: +const «Decidable_eq_bool» with locality [] +const «DecidableClass.Decidable_not» with locality [] +File "./apps/eltac/tests-stdlib/test_injection.v", line 15, characters 0-15: +Warning: Using Vector.t is known to be technically difficult, see +. +[warn-library-file-stdlib-vector,stdlib-vector,warn-library-file,user-warn,default] +Debug: [elpitime] Elpi: get_and_compile 0.0001 +Debug: [TC] - Time of instance search is 0.000048 +Debug: [TC] - Time of refine.typecheck is 0.000119 +Debug: +[elpitime] + Elpi: query-compilation:0.0001 static-check:0.0000 optimization:0.0000 runtime:0.0011 (with success) + +Finished transaction in 0.001 secs (0.001u,0.s) (successful) +Query assignments: T = c0 \ prod `c` X0 c1 \ prod `_` (prod `a` X1 c2 \ app [global X2, app [c0, c2], c1]) c2 \ @@ -19192,7 +19234,7 @@ X3_ = X2 X4_ = X3 X5_ = X4 -Finished transaction in 0.034 secs (0.03u,0.003s) (successful) +Finished transaction in 0.022 secs (0.018u,0.003s) (successful) Query assignments: A = c0 \ c0 @@ -19479,14 +19521,8 @@ File "./apps/tc/tests/test.v", line 558, characters 51-56 Y is linear: name it _Y (discard) or Y_ (fresh variable) [elpi.linear-variable,elpi.typecheck,elpi,default] -Debug: [elpitime] Elpi: get_and_compile 0.0001 -Debug: [TC] - Time of instance search is 0.000105 -Debug: [TC] - Time of refine.typecheck is 0.000172 -Debug: -[elpitime] - Elpi: query-compilation:0.0001 static-check:0.0000 optimization:0.0001 runtime:0.0017 (with success) - -Finished transaction in 0.002 secs (0.002u,0.s) (successful) +Received the following event +[str new_instance, str I4, str A, str Export, int -1] 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) @@ -19914,9 +19950,9 @@ 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 0.002140 +Derivation param1 on const «Nat.add» took 0.001916 Derivation param2 on const «Nat.add» -Derivation param2 on const «Nat.add» took 0.002647 +Derivation param2 on const «Nat.add» took 0.002185 Derivation eqb-alias on const «Nat.add» Derivation eqb-alias on const «Nat.add» failed, continuing Derivation eqbcorrect-alias on const «Nat.add» @@ -19956,37 +19992,37 @@ (arity (prod `l` (app [global (indt «tickle.tickle»), c1]) c2 \ c1))] Deriving Derivation map on indt «rtree» -Derivation map on indt «rtree» took 0.001548 +Derivation map on indt «rtree» took 0.001127 Derivation lens on indt «rtree» Derivation lens on indt «rtree» failed, continuing Derivation param1 on indt «rtree» -Derivation param1 on indt «rtree» took 0.004451 +Derivation param1 on indt «rtree» took 0.003074 Derivation param2 on indt «rtree» -Derivation param2 on indt «rtree» took 0.005531 +Derivation param2 on indt «rtree» took 0.004001 Derivation tag on indt «rtree» -Derivation tag on indt «rtree» took 0.000787 +Derivation tag on indt «rtree» took 0.000651 Derivation eqType_ast on indt «rtree» -Derivation eqType_ast on indt «rtree» took 0.000323 +Derivation eqType_ast on indt «rtree» took 0.000263 Derivation lens_laws on indt «rtree» -Derivation lens_laws on indt «rtree» took 0.000037 +Derivation lens_laws on indt «rtree» took 0.000031 Derivation param1_congr on indt «rtree» -Derivation param1_congr on indt «rtree» took 0.001659 +Derivation param1_congr on indt «rtree» took 0.001290 Derivation param1_inhab on indt «rtree» -Derivation param1_inhab on indt «rtree» took 0.001448 +Derivation param1_inhab on indt «rtree» took 0.001146 Derivation param1_functor on indt «rtree» -Derivation param1_functor on indt «rtree» took 0.001652 +Derivation param1_functor on indt «rtree» took 0.001230 Derivation fields on indt «rtree» -Derivation fields on indt «rtree» took 0.005454 +Derivation fields on indt «rtree» took 0.003676 Derivation param1_trivial on indt «rtree» -Derivation param1_trivial on indt «rtree» took 0.094480 +Derivation param1_trivial on indt «rtree» took 0.073208 Derivation induction on indt «rtree» -Derivation induction on indt «rtree» took 0.001647 +Derivation induction on indt «rtree» took 0.001353 Derivation eqb on indt «rtree» -Derivation eqb on indt «rtree» took 0.005497 +Derivation eqb on indt «rtree» took 0.003691 Derivation eqbcorrect on indt «rtree» -Derivation eqbcorrect on indt «rtree» took 0.018750 +Derivation eqbcorrect on indt «rtree» took 0.013311 Derivation eqbOK on indt «rtree» -Derivation eqbOK on indt «rtree» took 0.001086 +Derivation eqbOK on indt «rtree» took 0.000683 Done rtree.induction : @@ -20010,15 +20046,15 @@ 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 0.002778 +Derivation lens on indt «Box» took 0.001808 Skipping derivation param1 on indt «Box» since the user did not select it Skipping derivation param2 on indt «Box» since the user did not select it Derivation tag on indt «Box» -Derivation tag on indt «Box» took 0.000791 +Derivation tag on indt «Box» took 0.000550 Derivation eqType_ast on indt «Box» -Derivation eqType_ast on indt «Box» took 0.000214 +Derivation eqType_ast on indt «Box» took 0.000156 Derivation lens_laws on indt «Box» -Derivation lens_laws on indt «Box» took 0.009151 +Derivation lens_laws on indt «Box» took 0.006277 Skipping derivation param1_congr on indt «Box» since the user did not select it Skipping derivation param1_inhab on indt «Box» @@ -20026,13 +20062,13 @@ 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 0.003626 +Derivation fields on indt «Box» took 0.002709 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 0.002209 +Derivation eqb on indt «Box» took 0.001604 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 @@ -20058,65 +20094,65 @@ 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 0.000736 +Derivation map on indt «a» took 0.000482 Derivation lens on indt «a» Derivation lens on indt «a» failed, continuing Derivation param1 on indt «a» -Derivation param1 on indt «a» took 0.001660 +Derivation param1 on indt «a» took 0.001139 Derivation param2 on indt «a» -Derivation param2 on indt «a» took 0.001852 +Derivation param2 on indt «a» took 0.001230 Derivation tag on indt «a» -Derivation tag on indt «a» took 0.000503 +Derivation tag on indt «a» took 0.000375 Derivation eqType_ast on indt «a» -Derivation eqType_ast on indt «a» took 0.000160 +Derivation eqType_ast on indt «a» took 0.000093 Derivation lens_laws on indt «a» -Derivation lens_laws on indt «a» took 0.000037 +Derivation lens_laws on indt «a» took 0.000026 Derivation param1_congr on indt «a» -Derivation param1_congr on indt «a» took 0.000216 +Derivation param1_congr on indt «a» took 0.000151 Derivation param1_inhab on indt «a» -Derivation param1_inhab on indt «a» took 0.000526 +Derivation param1_inhab on indt «a» took 0.000355 Derivation param1_functor on indt «a» -Derivation param1_functor on indt «a» took 0.000504 +Derivation param1_functor on indt «a» took 0.000431 Derivation fields on indt «a» -Derivation fields on indt «a» took 0.001935 +Derivation fields on indt «a» took 0.001476 Derivation param1_trivial on indt «a» -Derivation param1_trivial on indt «a» took 0.000850 +Derivation param1_trivial on indt «a» took 0.000599 Derivation induction on indt «a» -Derivation induction on indt «a» took 0.000649 +Derivation induction on indt «a» took 0.000478 Derivation eqb on indt «a» -Derivation eqb on indt «a» took 0.001011 +Derivation eqb on indt «a» took 0.000721 Derivation eqbcorrect on indt «a» -Derivation eqbcorrect on indt «a» took 0.002494 +Derivation eqbcorrect on indt «a» took 0.001680 Derivation eqbOK on indt «a» -Derivation eqbOK on indt «a» took 0.000403 +Derivation eqbOK on indt «a» took 0.000277 Skipping derivation map on indt «b» since the user did not select it Skipping derivation lens on indt «b» since the user did not select it Derivation param1 on indt «b» -Derivation param1 on indt «b» took 0.001953 +Derivation param1 on indt «b» took 0.001308 Skipping derivation param2 on indt «b» since the user did not select it Derivation tag on indt «b» -Derivation tag on indt «b» took 0.000512 +Derivation tag on indt «b» took 0.000383 Derivation eqType_ast on indt «b» -Derivation eqType_ast on indt «b» took 0.000181 +Derivation eqType_ast on indt «b» took 0.000131 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 0.000598 +Derivation param1_inhab on indt «b» took 0.000414 Derivation param1_functor on indt «b» -Derivation param1_functor on indt «b» took 0.000555 +Derivation param1_functor on indt «b» took 0.000372 Derivation fields on indt «b» -Derivation fields on indt «b» took 0.002531 +Derivation fields on indt «b» took 0.001579 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 0.000782 +Derivation induction on indt «b» took 0.000548 Derivation eqb on indt «b» -Derivation eqb on indt «b» took 0.001477 +Derivation eqb on indt «b» took 0.000980 Derivation eqbcorrect on indt «b» -Derivation eqbcorrect on indt «b» took 0.002977 +Derivation eqbcorrect on indt «b» took 0.002059 Derivation eqbOK on indt «b» -Derivation eqbOK on indt «b» took 0.000421 +Derivation eqbOK on indt «b» took 0.000286 a_eqb : a -> a -> bool b_eqb @@ -20124,6 +20160,9 @@ File "./apps/derive/examples/usage.v", line 52, characters 0-92: Warning: Global name tag is taken, using tag1 instead [elpi.renamed,elpi,default] +Finished transaction in 0.518 secs (0.41u,0.107s) (successful) +Finished transaction in 11.389 secs (10.685u,0.071s) (successful) +Finished transaction in 0.175 secs (0.175u,0.s) (successful) Inductive peano : Set := Zero : peano | Succ : peano -> peano. Arguments Succ p @@ -20316,9 +20355,6 @@ : bool Peano.eqb_OK : forall x1 x2 : Peano.peano, reflect (x1 = x2) (Peano.eqb x1 x2) -Finished transaction in 0.684 secs (0.584u,0.099s) (successful) -Finished transaction in 11.448 secs (11.318u,0.095s) (successful) -Finished transaction in 0.184 secs (0.184u,0.s) (successful) derive.param1_trivial: wrong shape is_nest . It does not look like a unary parametricity translation of an inductive with no indexes. derive.param1_trivial: wrong shape is_vect A PA @@ -20332,13 +20368,13 @@ 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 0.000663 +Derivation projK on indt «nat» took 0.000660 Derivation isK on indt «nat» -Derivation isK on indt «nat» took 0.000963 +Derivation isK on indt «nat» took 0.000862 Derivation eq on indt «nat» -Derivation eq on indt «nat» took 0.000865 +Derivation eq on indt «nat» took 0.000739 Derivation invert on indt «nat» -Derivation invert on indt «nat» took 0.000821 +Derivation invert on indt «nat» took 0.000737 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 @@ -20348,7 +20384,7 @@ 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 0.001525 +Derivation bcongr on indt «nat» took 0.001405 Derivation idx2inv on indt «nat» Derivation idx2inv on indt «nat» failed, continuing Skipping derivation param1_trivial on indt «nat» @@ -20356,13 +20392,13 @@ 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 0.001675 +Derivation eqK on indt «nat» took 0.001509 Skipping derivation eqbcorrect on indt «nat» since it has been already run Derivation eqcorrect on indt «nat» -Derivation eqcorrect on indt «nat» took 0.000501 +Derivation eqcorrect on indt «nat» took 0.000490 Skipping derivation eqbOK on indt «nat» since it has been already run Derivation eqOK on indt «nat» -Derivation eqOK on indt «nat» took 0.000283 +Derivation eqOK on indt «nat» took 0.000255 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 @@ -20407,12 +20443,12 @@ Skipping derivation map on indt «foo» since the user did not select it Skipping derivation lens on indt «foo» since the user did not select it Derivation param1 on indt «foo» -Derivation param1 on indt «foo» took 0.002626 +Derivation param1 on indt «foo» took 0.001873 Skipping derivation param2 on indt «foo» since the user did not select it Derivation tag on indt «foo» -Derivation tag on indt «foo» took 0.000705 +Derivation tag on indt «foo» took 0.000546 Derivation eqType_ast on indt «foo» -Derivation eqType_ast on indt «foo» took 0.000221 +Derivation eqType_ast on indt «foo» took 0.000166 Skipping derivation projK on indt «foo» since the user did not select it Skipping derivation isK on indt «foo» since the user did not select it Skipping derivation eq on indt «foo» since the user did not select it @@ -20422,26 +20458,26 @@ Skipping derivation param1_congr on indt «foo» since the user did not select it Derivation param1_inhab on indt «foo» -Derivation param1_inhab on indt «foo» took 0.000794 +Derivation param1_inhab on indt «foo» took 0.000565 Derivation param1_functor on indt «foo» -Derivation param1_functor on indt «foo» took 0.000674 +Derivation param1_functor on indt «foo» took 0.000496 Derivation fields on indt «foo» -Derivation fields on indt «foo» took 0.003166 +Derivation fields on indt «foo» took 0.002292 Skipping derivation bcongr on indt «foo» since the user did not select it Skipping derivation idx2inv on indt «foo» since the user did not select it Skipping derivation param1_trivial on indt «foo» since the user did not select it Derivation induction on indt «foo» -Derivation induction on indt «foo» took 0.000862 +Derivation induction on indt «foo» took 0.000606 Derivation eqb on indt «foo» -Derivation eqb on indt «foo» took 0.001691 +Derivation eqb on indt «foo» took 0.001250 Skipping derivation eqK on indt «foo» since the user did not select it Derivation eqbcorrect on indt «foo» -Derivation eqbcorrect on indt «foo» took 0.003731 +Derivation eqbcorrect on indt «foo» took 0.002853 Skipping derivation eqcorrect on indt «foo» since the user did not select it Derivation eqbOK on indt «foo» -Derivation eqbOK on indt «foo» took 0.000593 +Derivation eqbOK on indt «foo» took 0.000435 Skipping derivation eqOK on indt «foo» since the user did not select it File "./apps/derive/tests-stdlib/test_derive.v", line 33, characters 2-9: Warning: This command does not support this attribute: verbose. @@ -20453,7 +20489,7 @@ dune build builtin-doc Warning: Cache directories could not be created: Permission denied; disabling cache -Hint: Make sure the directory /nonexistent/first-build/.cache/dune/db/temp +Hint: Make sure the directory /nonexistent/second-build/.cache/dune/db/temp can be created make[2]: Leaving directory '/build/reproducible-path/coq-elpi-2.5.0' make[1]: Leaving directory '/build/reproducible-path/coq-elpi-2.5.0' @@ -20465,7 +20501,7 @@ dune install rocq-elpi --destdir=/build/reproducible-path/coq-elpi-2.5.0/debian/tmp --prefix=/usr --libdir=/usr/lib/x86_64-linux-gnu/ocaml/5.3.0 Warning: Cache directories could not be created: Permission denied; disabling cache -Hint: Make sure the directory /nonexistent/first-build/.cache/dune/db/temp +Hint: Make sure the directory /nonexistent/second-build/.cache/dune/db/temp can be created rm -fr /build/reproducible-path/coq-elpi-2.5.0/debian/tmp/usr/doc/coq-elpi rm -fr /build/reproducible-path/coq-elpi-2.5.0/debian/tmp/usr/doc/rocq-elpi @@ -20513,12 +20549,14 @@ dpkg-buildpackage: info: binary-only upload (no source included) dpkg-genchanges: info: not including original source code in upload I: copying local configuration +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/B01_cleanup starting +I: user script /srv/workspace/pbuilder/2830754/tmp/hooks/B01_cleanup finished I: unmounting dev/ptmx filesystem I: unmounting dev/pts filesystem I: unmounting dev/shm filesystem I: unmounting proc filesystem I: unmounting sys filesystem I: cleaning the build env -I: removing directory /srv/workspace/pbuilder/3829742 and its subdirectories -I: Current time: Sat Oct 3 18:01:52 -12 2026 -I: pbuilder-time-stamp: 1791093712 +I: removing directory /srv/workspace/pbuilder/2830754 and its subdirectories +I: Current time: Mon Sep 1 13:42:39 +14 2025 +I: pbuilder-time-stamp: 1756683759