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Diffstat (limited to 'syntax/PPConstr.v')
| -rwxr-xr-x | syntax/PPConstr.v | 264 |
1 files changed, 0 insertions, 264 deletions
diff --git a/syntax/PPConstr.v b/syntax/PPConstr.v deleted file mode 100755 index a4374c86..00000000 --- a/syntax/PPConstr.v +++ /dev/null @@ -1,264 +0,0 @@ -(************************************************************************) -(* v * The Coq Proof Assistant / The Coq Development Team *) -(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *) -(* \VV/ **************************************************************) -(* // * This file is distributed under the terms of the *) -(* * GNU Lesser General Public License Version 2.1 *) -(************************************************************************) - -(* $Id: PPConstr.v,v 1.25.2.1 2004/07/16 19:30:51 herbelin Exp $ *) - -(* Syntax for the Calculus of Constructions. *) - -Syntax constr - level 0: - ne_command_listcons [ << (NECOMMANDLIST $c1 ($LIST $cl)) >> ] - -> [ $c1 [1 0] (NECOMMANDLIST ($LIST $cl)) ] - | ne_command_listone [ << (NECOMMANDLIST $c1) >> ] -> [ $c1 ] - ; - -(* Things parsed in binder *) -(* ======================= *) - - level 0: - idbindercons [ << (IDBINDER ($VAR $id) ($LIST $L)) >> ] -> - [ $id ","[0 0] (IDBINDER ($LIST $L))] - | idbinderone [ << (IDBINDER ($VAR $id)) >> ] -> [$id] - | idbindernil [ << (IDBINDER) >> ] -> [ ] - - | binderscons [ << (BINDERS (BINDER $c ($LIST $id)) ($LIST $b)) >> ] -> - [ [<hv 0> [<hov 0> (IDBINDER ($LIST $id))] ":" - [0 1] $c:E] ";"[1 0] - (BINDERS ($LIST $b)) ] - | bindersone [ << (BINDERS (BINDER $c ($LIST $id))) >> ] -> - [ [<hov 0> (IDBINDER ($LIST $id))] ":" $c:E ] - - | letbindercons [ << (BINDERS (LETBINDER $c $id) ($LIST $b)) >> ] -> - [ [<hov 0> id ":=" [0 1] $c:E ";" [1 0] (BINDERS ($LIST $b)) ] ] - | letbinderone [ << (BINDERS (LETBINDER $c $id)) >> ] -> - [ [<hov 0> id ":=" [0 1] $c:E ] ] - ; - - -(* Things parsed in command0 *) - level 0: - prop [ Prop ] -> ["Prop"] - | set [ Set ] -> ["Set"] - | type [ Type ] -> ["Type"] - | type_sp [ << (TYPE $id) >> ] -> ["Type" $id] -(* Note: Atomic constants (Nvar, CONST, MUTIND, MUTCONSTRUCT) are printed in - Printer to know if they must be qualified or not (and previously to - deal with the duality CCI/FW) *) - - | evar [ ? ] -> ["?"] - | meta [ << (META $n) >> ] -> [ $n ] - | implicit [ << (IMPLICIT) >> ] -> ["<Implicit>"] - | indice [ << (REL ($NUM $n)) >> ] -> ["<Unbound ref: " $n ">"] - | instantiation [ << (INSTANCE $a ($LIST $l)) >> ] -> - [ $a "{" (CONTEXT ($LIST $l)) "}"] - | instantiation_nil [ << (CONTEXT) >> ] -> [ ] - | instantiation_one [ << (CONTEXT $a) >> ] -> [ $a ] - | instantiation_many [ << (CONTEXT $a $b ($LIST $l)) >> ] -> - [ (CONTEXT $b ($LIST $l)) ";" $a ] - | qualid [ << (QUALID $id ($LIST $l)) >> ] -> [ $id (FIELDS ($LIST $l)) ] - | fieldsnil [ << (FIELDS) >> ] -> [ ] - | fieldscons [ << (FIELDS $id ($LIST $l)) >> ] -> - [ "." $id (FIELDS ($LIST $l)) ] - ; - -(* Things parsed in command1 *) - level 1: - soap [ << (SOAPP $lc1 ($LIST $cl)) >> ] - -> [ [<hov 0> "(" $lc1 ")@[" (NECOMMANDLIST ($LIST $cl)) "]"] ] - - (* For debug *) - | abstpatnamed [ << [$id1]$c >> ] -> [ [<hov 0> "<<" $id1 ">>" [0 1] $c:E ] ] - | abstpatanon [ << [ <> ]$c >> ] -> [ [<hov 0> "<<_>>" [0 1] $c:E ] ] - ; - -(* Things parsed in command2 *) - -(* Things parsed in command3 *) - -(* Things parsed in command4 *) - -(* Things parsed in command5 *) - -(* Things parsed in command6 *) - -(* Things parsed in command7 *) - -(* Things parsed in command8 *) - level 8: - lambda [ << (LAMBDA $Dom [$x]$Body) >> ] - -> [(LAMBOX (BINDERS (BINDER $Dom $x)) $Body)] - | lambda_anon [ << (LAMBDA $Dom [<>]$Body) >> ] - -> [(LAMBOX (BINDERS (BINDER $Dom _)) $Body)] - | lambdalist [ << (LAMBDALIST $c [$x]$body) >> ] - -> [(LAMLBOX (BINDERS) $c (IDS $x) $body)] - | lambdalist_anon [ << (LAMBDALIST $c [<>]$body) >> ] - -> [(LAMLBOX (BINDERS) $c (IDS _) $body)] - - | formated_lambda [ << (LAMBOX $pbi $t) >> ] - -> [ [<hov 0> "[" [<hv 0> $pbi] "]" [0 1] $t:E ] ] - - | lambda_cons [<<(LAMBOX (BINDERS ($LIST $acc)) (LAMBDA $Dom [$x]$body))>>] - -> [(LAMBOX (BINDERS ($LIST $acc) (BINDER $Dom $x)) $body) ] - | lambda_cons_anon - [ << (LAMBOX (BINDERS ($LIST $acc)) (LAMBDA $Dom [<>]$body)) >> ] - -> [(LAMBOX (BINDERS ($LIST $acc) (BINDER $Dom _)) $body)] - | lambdal_start [ << (LAMBOX $pbi (LAMBDALIST $Dom $Body)) >> ] - -> [(LAMLBOX $pbi $Dom (IDS) $Body)] - - | lambdal_end [<<(LAMLBOX (BINDERS ($LIST $acc)) $c (IDS ($LIST $ids)) $t)>>] - -> [(LAMBOX (BINDERS ($LIST $acc) (BINDER $c ($LIST $ids))) $t)] - | lambdal_cons_anon [ << (LAMLBOX $pbi $c (IDS ($LIST $ids)) [<>]$body) >> ] - -> [(LAMLBOX $pbi $c (IDS ($LIST $ids) _) $body)] - | lambdal_cons [ << (LAMLBOX $pbi $c (IDS ($LIST $ids)) [$id]$body) >> ] - -> [(LAMLBOX $pbi $c (IDS ($LIST $ids) $id) $body)] - - | pi [ << (PROD $A [$x]$B) >> ] -> [ (PRODBOX (BINDERS) (PROD $A [$x]$B)) ] - | prodlist [ << (PRODLIST $c $b) >> ] - -> [(PRODBOX (BINDERS) (PRODLIST $c $b))] - - | formated_prod [ << (PRODBOX $pbi $t) >> ] - -> [ [<hov 0> "(" [<hov 0> $pbi] ")" [0 1] $t:E ] ] - - | prod_cons - [ << (PRODBOX (BINDERS ($LIST $acc)) (PROD $Dom [$x]$body)) >> ] - -> [(PRODBOX (BINDERS ($LIST $acc) (BINDER $Dom $x)) $body)] - | prodl_start_cons [ << (PRODBOX $pbi (PRODLIST $Dom $Body)) >> ] - -> [(PRODLBOX $pbi $Dom (IDS) $Body)] - - | prodl_end [<<(PRODLBOX (BINDERS ($LIST $acc)) $c (IDS ($LIST $ids)) $t)>>] - -> [(PRODBOX (BINDERS ($LIST $acc) (BINDER $c ($LIST $ids))) $t)] - | prodl_cons_anon [ << (PRODLBOX $pbi $c (IDS ($LIST $ids)) [<>]$body) >> ] - -> [(PRODLBOX $pbi $c (IDS ($LIST $ids) _) $body)] - | prodl_cons [ << (PRODLBOX $pbi $c (IDS ($LIST $ids)) [$id]$body) >> ] - -> [(PRODLBOX $pbi $c (IDS ($LIST $ids) $id) $body)] - - - | arrow [ << (ARROW $A [<>]$B) >> ] -> - [ [<hv 0> $A:L " ->" [0 0] (ARROWBOX $B) ] ] - | arrow_stop [ << (ARROWBOX $c) >> ] -> [ $c:E ] - | arrow_again [ << (ARROWBOX (PROD $A [<>]$B)) >> ] -> - [ $A:L " ->" [0 0] (ARROWBOX $B) ] - -(* These are synonymous *) -(* redundant - | let [ [$x = $M]$N ] -> [ [<hov 0> "[" $x "=" $M:E "]" [0 1] $N:E ] ] -*) - | letin [ << (LETIN $A [$x]$B) >> ] -> [ [ <hov 0> "[" $x ":=" [0 1] $A:E "]" [0 1] $B:E ] ] - | letincast [ << (LETIN (CAST $A $C) [$x]$B) >> ] -> [ [ <hov 0> "[" $x ":=" [0 1] $A:E ":" $C:E "]" [0 1] $B:E ] ] - ; - -(* Things parsed in command9 *) - level 9: - cast [ << (CAST $C $T) >> ] -> [ [<hv 0> $C:L [0 0] "::" $T:E] ] - ; - -(* Things parsed in command10 *) - level 10: - app_cons [ << (APPLIST $H ($LIST $T)) >> ] - -> [ [<hov 0> $H:E (APPTAIL ($LIST $T)):E ] ] - - | app_imp [ << (APPLISTEXPL $H ($LIST $T)) >> ] - -> [ [<hov 0> "!" $H:E (APPTAIL ($LIST $T)):E ] ] - -(* - | app_imp [ << (APPLISTEXPL $H ($LIST $T)) >> ] - -> [ (APPLISTIMPL (ACC $H) ($LIST $T)):E ] - - | app_imp_arg [ << (APPLISTIMPL (ACC ($LIST $AC)) $a ($LIST $T)) >> ] - -> [ (APPLISTIMPL (ACC ($LIST $AC) $a) ($LIST $T)):E ] - - | app_imp_imp_arg [ << (APPLISTIMPL $AC (EXPL $_ $_) ($LIST $T)) >> ] - -> [ (APPLISTIMPL $AC ($LIST $T)):E ] - - | app_imp_last [ << (APPLISTIMPL (ACC ($LIST $A)) $T) >> ] - -> [ (APPLIST ($LIST $A) $T):E ] -*) - - | apptailcons [ << (APPTAIL $H ($LIST $T)) >> ] - -> [ [1 1] $H:L (APPTAIL ($LIST $T)):E ] - | apptailnil [ << (APPTAIL) >> ] -> [ ] - -(* Implicits *) - | apptailcons1 [ << (APPTAIL (EXPL $n $c1) ($LIST $T)) >> ] - -> [ [1 1] $n "!" $c1:E (APPTAIL ($LIST $T)):E ] - ; -(* - level 8: - arg_implicit [ << (EXPL ($NUM $n) $c1) >> ] -> [ $n "!" $c1:L ] -(* | arg_implicit1 [(EXPL "EX" ($NUM $n) $c1)] -> [ $n "!" $c1:L ] - | fun_explicit [ << (EXPL $f) >> ] -> [ $f ]*) - ; -*) - - level 8: - recterm [ << (MATCH $P $c ($LIST $BL)) >> ] -> - [ [<hov 0> [<hov 0> (ELIMPRED $P) - [0 2] [<hov 0> "Match" [1 1] $c:E [1 0] "with" ]] - [1 3] [<hov 0> (MATCHBRANCHES ($LIST $BL)):E ] "end"] ] - - | matchbranchescons [ << (MATCHBRANCHES $B ($LIST $T)) >> ] - -> [ [<hov 0> [<hov 0> $B:E ] FNL] (MATCHBRANCHES ($LIST $T)):E ] - | matchbranchesnil [ << (MATCHBRANCHES) >> ] -> [ ] - - | caseterm [ << (CASE $P $c ($LIST $BL)) >> ] -> - [ [<hov 0> [<hov 0> (ELIMPRED $P) - [0 2][<hov 0> "Case" [1 1] $c:E [1 0] "of" ]] - [1 3][<hov 0> (MATCHBRANCHES ($LIST $BL)):E ] "end"] ] - - | ifterm [ << (IF $P $c $b1 $b2) >> ] -> - [ (FORCEIF $P $c (EQN $b1 JUNK) (EQN $b2 JUNK)):E ] - - | letterm [ << (LET $P $c (LAMBDALIST $_ $b)) >> ] -> - [ (LETSLAM $P $c $b) ] - | letslamend [ << (LETSLAM $P $c $b ($LIST $IDL))>> ] -> - [ (FORCELET $P $c (EQN $b (PATTCONSTRUCT JUNK ($LIST $IDL)))):E ] - | letslam [ << (LETSLAM $P $c [$ID]$b ($LIST $IDL))>> ] -> - [ (LETSLAM $P $c $b ($LIST $IDL) $ID) ] - | letslamanon [ << (LETSLAM $P $c [<>]$b ($LIST $IDL))>> ] -> - [ (LETSLAM $P $c $b ($LIST $IDL) _) ] - - | elim_pred [ << (ELIMPRED $pred) >> ] -> [ "<" $pred:E ">" [0 2] ] - | elim_pred_xtra [ << (ELIMPRED "SYNTH") >> ] -> [ ] - ; - - level 0: - fix [ << (FIX $f $def ($LIST $lfs)) >> ] -> - [ [<hov 0> "Fix " $f - [0 2] "{" [<v 0> [<hov 0> $def] - (FIXDECLS ($LIST $lfs)) ] "}"] ] - - | cofix [ << (COFIX $f $def ($LIST $lfs)) >> ] -> - [ [<hov 0> "CoFix " $f - [0 2] "{" [<v 0> [<hov 0> $def] - (FIXDECLS ($LIST $lfs)) ] "}"] ] - - | nofixdefs [ << (FIXDECLS) >> ] -> [ ] - | fixdefs [ << (FIXDECLS $def1 ($LIST $defs)) >> ] -> - [ FNL [<hov 0> "with " $def1] (FIXDECLS ($LIST $defs)) ] - ; - - level 8: - onefixnumdecl [ << (NUMFDECL $f ($NUM $x) $A $t) >> ] -> - [ $f "/" $x " :" - [1 2] $A:E " :=" - [1 2] $t:E ] - | onefixdecl [ << (FDECL $f (BINDERS ($LIST $l)) $A $t) >> ] -> - [ $f - [1 2] "[" [<hv 0> (BINDERS ($LIST $l))] "]" - [1 2] ": " $A:E " :=" - [1 2] $t:E ] - | onecofixdecl [ << (CFDECL $f $A $t) >> ] -> - [ $f " : " - [1 2] $A:E " :=" - [1 2] $t:E ] - ; - - level 8: - evalconstr [ << (EVAL $c $r) >> ] -> - [ [<hv 0> "Eval" [1 1] $r [1 0] "in" [1 1] $c:E ] ]. - |