(***********************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* Lexer.add_token ("",s)) tactic_kw (* Functions overloaded by quotifier *) let induction_arg_of_constr c = try ElimOnIdent (Topconstr.constr_loc c,coerce_to_id c) with _ -> ElimOnConstr c let local_compute = [FBeta;FIota;FDeltaBut [];FZeta] let error_oldelim _ = error "OldElim no longer supported" ifdef Quotify then let induction_arg_of_constr = function | Qast.Node ("Nvar", [_;id]) -> Qast.Node ("ElimOnIdent", [id]) | c -> Qast.Node ("ElimOnConstr", [c]) ifdef Quotify then let make_red_flag s = Qast.Apply ("make_red_flag", [s]) ifdef Quotify then let local_compute = Qast.List [ Qast.Node ("FBeta", []); Qast.Node ("FDeltaBut", [Qast.List []]); Qast.Node ("FIota", []); Qast.Node ("FZeta", [])] ifdef Quotify then open Q let join_to_constr loc c2 = (fst loc), snd (Topconstr.constr_loc c2) (* Auxiliary grammar rules *) if !Options.v7 then GEXTEND Gram GLOBAL: simple_tactic constrarg constr_with_bindings quantified_hypothesis red_expr int_or_var castedopenconstr; int_or_var: [ [ n = integer -> Genarg.ArgArg n | id = identref -> Genarg.ArgVar id ] ] ; autoarg_depth: [ [ n = OPT natural -> n ] ] ; autoarg_adding: [ [ IDENT "Adding" ; "["; l = LIST1 global; "]" -> l | -> [] ] ] ; autoarg_destructing: [ [ IDENT "Destructing" -> true | -> false ] ] ; autoarg_usingTDB: [ [ "Using"; "TDB" -> true | -> false ] ] ; autoargs: [ [ a0 = autoarg_depth; l = autoarg_adding; a2 = autoarg_destructing; a3 = autoarg_usingTDB -> (a0,l,a2,a3) ] ] ; (* Either an hypothesis or a ltac ref (variable or pattern patvar) *) id_or_ltac_ref: [ [ id = base_ident -> AI (loc,id) | "?"; n = natural -> AI (loc,Pattern.patvar_of_int n) ] ] ; (* Either a global ref or a ltac ref (variable or pattern patvar) *) global_or_ltac_ref: [ [ qid = global -> qid | "?"; n = natural -> Libnames.Ident (loc,Pattern.patvar_of_int n) ] ] ; (* An identifier or a quotation meta-variable *) id_or_meta: [ [ id = identref -> AI id (* This is used in quotations *) | id = METAIDENT -> MetaId (loc,id) ] ] ; (* A number or a quotation meta-variable *) num_or_meta: [ [ n = integer -> AI n | id = METAIDENT -> MetaId (loc,id) ] ] ; constrarg: [ [ IDENT "Inst"; id = identref; "["; c = constr; "]" -> ConstrContext (id, c) | IDENT "Eval"; rtc = Tactic.red_expr; "in"; c = constr -> ConstrEval (rtc,c) | IDENT "Check"; c = constr -> ConstrTypeOf c | c = constr -> ConstrTerm c ] ] ; castedopenconstr: [ [ c = constr -> c ] ] ; induction_arg: [ [ n = natural -> ElimOnAnonHyp n | c = constr -> induction_arg_of_constr c ] ] ; quantified_hypothesis: [ [ id = base_ident -> NamedHyp id | n = natural -> AnonHyp n ] ] ; conversion: [ [ nl = LIST1 integer; c1 = constr; "with"; c2 = constr -> (Some (nl,c1), c2) | c1 = constr; "with"; c2 = constr -> (Some ([],c1), c2) | c = constr -> (None, c) ] ] ; pattern_occ: [ [ nl = LIST0 integer; c = constr -> (nl,c) ] ] ; pattern_occ_hyp_tail_list: [ [ pl = pattern_occ_hyp_list -> pl | -> (None,[]) ] ] ; pattern_occ_hyp_list: [ [ nl = LIST1 natural; IDENT "Goal" -> (Some nl,[]) | nl = LIST1 natural; id = id_or_meta; (g,l) = pattern_occ_hyp_tail_list -> (g,(id,nl)::l) | IDENT "Goal" -> (Some [],[]) | id = id_or_meta; (g,l) = pattern_occ_hyp_tail_list -> (g,(id,[])::l) ] ] ; clause_pattern: [ [ "in"; p = pattern_occ_hyp_list -> p | -> None, [] ] ] ; intropatterns: [ [ l = LIST0 simple_intropattern -> l ]] ; simple_intropattern: [ [ "["; tc = LIST1 intropatterns SEP "|" ; "]" -> IntroOrAndPattern tc | "("; tc = LIST1 simple_intropattern SEP "," ; ")" -> IntroOrAndPattern [tc] | IDENT "_" -> IntroWildcard | id = base_ident -> IntroIdentifier id ] ] ; simple_binding: [ [ id = base_ident; ":="; c = constr -> (loc, NamedHyp id, c) | n = natural; ":="; c = constr -> (loc, AnonHyp n, c) ] ] ; binding_list: [ [ c1 = constr; ":="; c2 = constr; bl = LIST0 simple_binding -> ExplicitBindings ((join_to_constr loc c2,NamedHyp (coerce_to_id c1), c2) :: bl) | n = natural; ":="; c = constr; bl = LIST0 simple_binding -> ExplicitBindings ((join_to_constr loc c,AnonHyp n, c) :: bl) | c1 = constr; bl = LIST0 constr -> ImplicitBindings (c1 :: bl) ] ] ; constr_with_bindings: [ [ c = constr; l = with_binding_list -> (c, l) ] ] ; with_binding_list: [ [ "with"; bl = binding_list -> bl | -> NoBindings ] ] ; unfold_occ: [ [ nl = LIST0 integer; c = global_or_ltac_ref -> (nl,c) ] ] ; red_flag: [ [ IDENT "Beta" -> FBeta | IDENT "Delta" -> FDeltaBut [] | IDENT "Iota" -> FIota | IDENT "Zeta" -> FZeta | IDENT "Delta"; "["; idl = LIST1 global_or_ltac_ref; "]" -> FConst idl | IDENT "Delta"; "-"; "["; idl = LIST1 global_or_ltac_ref; "]" -> FDeltaBut idl ] ] ; red_tactic: [ [ IDENT "Red" -> Red false | IDENT "Hnf" -> Hnf | IDENT "Simpl"; po = OPT pattern_occ -> Simpl po | IDENT "Cbv"; s = LIST1 red_flag -> Cbv (make_red_flag s) | IDENT "Lazy"; s = LIST1 red_flag -> Lazy (make_red_flag s) | IDENT "Compute" -> Cbv (make_red_flag [FBeta;FIota;FDeltaBut [];FZeta]) | IDENT "Unfold"; ul = LIST1 unfold_occ -> Unfold ul | IDENT "Fold"; cl = LIST1 constr -> Fold cl | IDENT "Pattern"; pl = LIST1 pattern_occ -> Pattern pl ] ] ; (* This is [red_tactic] including possible extensions *) red_expr: [ [ IDENT "Red" -> Red false | IDENT "Hnf" -> Hnf | IDENT "Simpl"; po = OPT pattern_occ -> Simpl po | IDENT "Cbv"; s = LIST1 red_flag -> Cbv (make_red_flag s) | IDENT "Lazy"; s = LIST1 red_flag -> Lazy (make_red_flag s) | IDENT "Compute" -> Cbv (make_red_flag [FBeta;FIota;FDeltaBut [];FZeta]) | IDENT "Unfold"; ul = LIST1 unfold_occ -> Unfold ul | IDENT "Fold"; cl = LIST1 constr -> Fold cl | IDENT "Pattern"; pl = LIST1 pattern_occ -> Pattern pl | s = IDENT; c = constr -> ExtraRedExpr (s,c) ] ] ; hypident: [ [ id = id_or_meta -> InHyp id | "("; "Type"; "of"; id = id_or_meta; ")" -> InHypType id ] ] ; clause: [ [ "in"; idl = LIST1 hypident -> idl | -> [] ] ] ; simple_clause: [ [ "in"; idl = LIST1 id_or_meta -> idl | -> [] ] ] ; fixdecl: [ [ id = base_ident; "/"; n = natural; ":"; c = constr -> (id,n,c) ] ] ; cofixdecl: [ [ id = base_ident; ":"; c = constr -> (id,c) ] ] ; hintbases: [ [ "with"; "*" -> None | "with"; l = LIST1 IDENT -> Some l | -> Some [] ] ] ; eliminator: [ [ "using"; el = constr_with_bindings -> el ] ] ; with_names: [ [ "as"; "["; ids = LIST1 (LIST0 simple_intropattern) SEP "|"; "]" -> ids | -> [] ] ] ; simple_tactic: [ [ (* Basic tactics *) IDENT "Intros"; IDENT "until"; id = quantified_hypothesis -> TacIntrosUntil id | IDENT "Intros"; pl = intropatterns -> TacIntroPattern pl | IDENT "Intro"; id = base_ident; IDENT "after"; id2 = identref -> TacIntroMove (Some id, Some id2) | IDENT "Intro"; IDENT "after"; id2 = identref -> TacIntroMove (None, Some id2) | IDENT "Intro"; id = base_ident -> TacIntroMove (Some id,None) | IDENT "Intro" -> TacIntroMove (None, None) | IDENT "Assumption" -> TacAssumption | IDENT "Exact"; c = constr -> TacExact c | IDENT "Apply"; cl = constr_with_bindings -> TacApply cl | IDENT "Elim"; cl = constr_with_bindings; el = OPT eliminator -> TacElim (cl,el) | IDENT "OldElim"; c = constr -> (* TacOldElim c *) error_oldelim () | IDENT "ElimType"; c = constr -> TacElimType c | IDENT "Case"; cl = constr_with_bindings -> TacCase cl | IDENT "CaseType"; c = constr -> TacCaseType c | IDENT "Fix"; n = natural -> TacFix (None,n) | IDENT "Fix"; id = base_ident; n = natural -> TacFix (Some id,n) | IDENT "Fix"; id = base_ident; n = natural; "with"; fd = LIST0 fixdecl -> TacMutualFix (id,n,fd) | IDENT "Cofix" -> TacCofix None | IDENT "Cofix"; id = base_ident -> TacCofix (Some id) | IDENT "Cofix"; id = base_ident; "with"; fd = LIST0 cofixdecl -> TacMutualCofix (id,fd) | IDENT "Cut"; c = constr -> TacCut c | IDENT "Assert"; c = constr -> TacTrueCut (None,c) | IDENT "Assert"; c = constr; ":"; t = constr -> TacTrueCut (Some (coerce_to_id c),t) | IDENT "Assert"; c = constr; ":="; b = constr -> TacForward (false,Names.Name (coerce_to_id c),b) | IDENT "Pose"; c = constr; ":="; b = constr -> TacForward (true,Names.Name (coerce_to_id c),b) | IDENT "Pose"; b = constr -> TacForward (true,Names.Anonymous,b) | IDENT "Generalize"; lc = LIST1 constr -> TacGeneralize lc | IDENT "Generalize"; IDENT "Dependent"; c = constr -> TacGeneralizeDep c | IDENT "LetTac"; id = base_ident; ":="; c = constr; p = clause_pattern -> TacLetTac (id,c,p) | IDENT "Instantiate"; n = natural; c = constr; ido = OPT [ "in"; id = id_or_ltac_ref -> id ] -> TacInstantiate (n,c,ido) | IDENT "Specialize"; n = OPT natural; lcb = constr_with_bindings -> TacSpecialize (n,lcb) | IDENT "LApply"; c = constr -> TacLApply c (* Derived basic tactics *) | IDENT "Induction"; h = quantified_hypothesis -> TacSimpleInduction h | IDENT "NewInduction"; c = induction_arg; el = OPT eliminator; ids = with_names -> TacNewInduction (c,el,ids) | IDENT "Double"; IDENT "Induction"; h1 = quantified_hypothesis; h2 = quantified_hypothesis -> TacDoubleInduction (h1,h2) | IDENT "Destruct"; h = quantified_hypothesis -> TacSimpleDestruct h | IDENT "NewDestruct"; c = induction_arg; el = OPT eliminator; ids = with_names -> TacNewDestruct (c,el,ids) | IDENT "Decompose"; IDENT "Record" ; c = constr -> TacDecomposeAnd c | IDENT "Decompose"; IDENT "Sum"; c = constr -> TacDecomposeOr c | IDENT "Decompose"; "["; l = LIST1 global_or_ltac_ref; "]"; c = constr -> TacDecompose (l,c) (* Automation tactic *) | IDENT "Trivial"; db = hintbases -> TacTrivial db | IDENT "Auto"; n = OPT natural; db = hintbases -> TacAuto (n, db) | IDENT "AutoTDB"; n = OPT natural -> TacAutoTDB n | IDENT "CDHyp"; id = identref -> TacDestructHyp (true,id) | IDENT "DHyp"; id = identref -> TacDestructHyp (false,id) | IDENT "DConcl" -> TacDestructConcl | IDENT "SuperAuto"; l = autoargs -> TacSuperAuto l | IDENT "Auto"; n = OPT natural; IDENT "Decomp"; p = OPT natural -> TacDAuto (n, p) (* Context management *) | IDENT "Clear"; l = LIST1 id_or_ltac_ref -> TacClear l | IDENT "ClearBody"; l = LIST1 id_or_ltac_ref -> TacClearBody l | IDENT "Move"; id1 = id_or_ltac_ref; IDENT "after"; id2 = id_or_ltac_ref -> TacMove (true,id1,id2) | IDENT "Rename"; id1 = id_or_ltac_ref; IDENT "into"; id2 = id_or_ltac_ref -> TacRename (id1,id2) (* Constructors *) | IDENT "Left"; bl = with_binding_list -> TacLeft bl | IDENT "Right"; bl = with_binding_list -> TacRight bl | IDENT "Split"; bl = with_binding_list -> TacSplit (false,bl) | IDENT "Exists"; bl = binding_list -> TacSplit (true,bl) | IDENT "Exists" -> TacSplit (true,NoBindings) | IDENT "Constructor"; n = num_or_meta; l = with_binding_list -> TacConstructor (n,l) | IDENT "Constructor"; t = OPT tactic -> TacAnyConstructor t (* Equivalence relations *) | IDENT "Reflexivity" -> TacReflexivity | IDENT "Symmetry"; ido = OPT [ "in"; id = id_or_ltac_ref -> id ] -> TacSymmetry ido | IDENT "Transitivity"; c = constr -> TacTransitivity c (* Equality and inversion *) | IDENT "Dependent"; k = [ IDENT "Simple"; IDENT "Inversion" -> SimpleInversion | IDENT "Inversion" -> FullInversion | IDENT "Inversion_clear" -> FullInversionClear ]; hyp = quantified_hypothesis; ids = with_names; co = OPT ["with"; c = constr -> c] -> TacInversion (DepInversion (k,co,ids),hyp) | IDENT "Simple"; IDENT "Inversion"; hyp = quantified_hypothesis; ids = with_names; cl = simple_clause -> TacInversion (NonDepInversion (SimpleInversion, cl, ids), hyp) | IDENT "Inversion"; hyp = quantified_hypothesis; ids = with_names; cl = simple_clause -> TacInversion (NonDepInversion (FullInversion, cl, ids), hyp) | IDENT "Inversion_clear"; hyp = quantified_hypothesis; ids = with_names; cl = simple_clause -> TacInversion (NonDepInversion (FullInversionClear, cl, ids), hyp) | IDENT "Inversion"; hyp = quantified_hypothesis; "using"; c = constr; cl = simple_clause -> TacInversion (InversionUsing (c,cl), hyp) (* Conversion *) | r = red_tactic; cl = clause -> TacReduce (r, cl) (* Change ne doit pas s'appliquer dans un Definition t := Eval ... *) | IDENT "Change"; (oc,c) = conversion; cl = clause -> TacChange (oc,c,cl) ] ] ; END;;