(* Copyright (C) 2005, HELM Team. * * This file is part of HELM, an Hypertextual, Electronic * Library of Mathematics, developed at the Computer Science * Department, University of Bologna, Italy. * * HELM is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * HELM is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with HELM; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, * MA 02111-1307, USA. * * For details, see the HELM World-Wide-Web page, * http://helm.cs.unibo.it/ *) (* $Id$ *) (* mo file name, ma file name *) exception NMacro of GrafiteAst.loc * GrafiteAst.nmacro type 'a disambiguator_input = string * int * 'a type options = { do_heavy_checks: bool ; } let basic_eval_unification_hint (t,n) status = NCicUnifHint.add_user_provided_hint status t n ;; let inject_unification_hint = let basic_eval_unification_hint (t,n) ~refresh_uri_in_universe:_ ~refresh_uri_in_term ~refresh_uri_in_reference:_ ~alias_only status = if not alias_only then let t = refresh_uri_in_term (status :> NCic.status) t in basic_eval_unification_hint (t,n) status else status in GrafiteTypes.Serializer.register#run "unification_hints" basic_eval_unification_hint ;; let eval_unification_hint status t n = let metasenv,subst,status,t = GrafiteDisambiguate.disambiguate_nterm status `XTSort [] [] [] ("",0,t) in assert (metasenv=[]); let t = NCicUntrusted.apply_subst status subst [] t in let status = basic_eval_unification_hint (t,n) status in NCicLibrary.dump_obj status (inject_unification_hint (t,n)) ;; let basic_index_obj l (status:#NCic.status) = status#set_auto_cache (List.fold_left (fun t (ks,v) -> List.fold_left (fun t k -> NDiscriminationTree.DiscriminationTree.index t k v) t ks) status#auto_cache l) ;; let basic_eval_interpretation ~alias_only (dsc, (symbol, args), cic_appl_pattern) status = let status = if not alias_only then Interpretations.add_interpretation status dsc (symbol, args) cic_appl_pattern else status in let mode = GrafiteAst.WithPreferences (*assert false*) in (* MATITA 1.0 VEDI SOTTO *) let diff = [DisambiguateTypes.Symbol (symbol, 0), GrafiteAst.Symbol_alias (symbol,0,dsc)] in GrafiteDisambiguate.set_proof_aliases status ~implicit_aliases:false mode diff ;; let inject_interpretation = let basic_eval_interpretation (dsc, (symbol, args), cic_appl_pattern) ~refresh_uri_in_universe:_ ~refresh_uri_in_term:_ ~refresh_uri_in_reference:_ ~alias_only = let rec refresh = function NotationPt.NRefPattern (NReference.Ref (uri,spec)) -> NotationPt.NRefPattern (NReference.reference_of_spec (NCicLibrary.refresh_uri uri) spec) | NotationPt.VarPattern _ | NotationPt.ImplicitPattern as x -> x | NotationPt.ApplPattern l -> NotationPt.ApplPattern (List.map refresh l) in let cic_appl_pattern = refresh cic_appl_pattern in basic_eval_interpretation ~alias_only (dsc, (symbol, args), cic_appl_pattern) in GrafiteTypes.Serializer.register#run "interpretation" basic_eval_interpretation ;; let eval_interpretation status data= let status = basic_eval_interpretation ~alias_only:false data status in NCicLibrary.dump_obj status (inject_interpretation data) ;; let basic_eval_alias (mode,diff) status = GrafiteDisambiguate.set_proof_aliases status ~implicit_aliases:false mode diff ;; let inject_alias = let basic_eval_alias (mode,diff) ~refresh_uri_in_universe:_ ~refresh_uri_in_term:_ ~refresh_uri_in_reference:_ ~alias_only:_ = basic_eval_alias (mode,diff) in GrafiteTypes.Serializer.register#run "alias" basic_eval_alias ;; let eval_alias status data= let status = basic_eval_alias data status in NCicLibrary.dump_obj status (inject_alias data) ;; let basic_eval_input_notation (l1,l2) status = GrafiteParser.extend status l1 (fun env loc -> NotationPt.AttributedTerm (`Loc loc,TermContentPres.instantiate_level2 status env l2)) ;; let inject_input_notation = let basic_eval_input_notation (l1,l2) ~refresh_uri_in_universe:_ ~refresh_uri_in_term ~refresh_uri_in_reference ~alias_only status = if not alias_only then let l1 = CicNotationParser.refresh_uri_in_checked_l1_pattern ~refresh_uri_in_term:(refresh_uri_in_term (status:>NCic.status)) ~refresh_uri_in_reference l1 in let l2 = NotationUtil.refresh_uri_in_term ~refresh_uri_in_term:(refresh_uri_in_term (status:>NCic.status)) ~refresh_uri_in_reference l2 in basic_eval_input_notation (l1,l2) status else status in GrafiteTypes.Serializer.register#run "input_notation" basic_eval_input_notation ;; let eval_input_notation status data= let status = basic_eval_input_notation data status in NCicLibrary.dump_obj status (inject_input_notation data) ;; let basic_eval_output_notation (l1,l2) status = TermContentPres.add_pretty_printer status l2 l1 ;; let inject_output_notation = let basic_eval_output_notation (l1,l2) ~refresh_uri_in_universe:_ ~refresh_uri_in_term ~refresh_uri_in_reference ~alias_only status = if not alias_only then let l1 = CicNotationParser.refresh_uri_in_checked_l1_pattern ~refresh_uri_in_term:(refresh_uri_in_term (status:>NCic.status)) ~refresh_uri_in_reference l1 in let l2 = NotationUtil.refresh_uri_in_term ~refresh_uri_in_term:(refresh_uri_in_term (status:>NCic.status)) ~refresh_uri_in_reference l2 in basic_eval_output_notation (l1,l2) status else status in GrafiteTypes.Serializer.register#run "output_notation" basic_eval_output_notation ;; let eval_output_notation status data= let status = basic_eval_output_notation data status in NCicLibrary.dump_obj status (inject_output_notation data) ;; let record_index_obj = let aux l ~refresh_uri_in_universe:_ ~refresh_uri_in_term ~refresh_uri_in_reference:_ ~alias_only status = let refresh_uri_in_term = refresh_uri_in_term (status:>NCic.status) in if not alias_only then basic_index_obj (List.map (fun (ks,v) -> List.map refresh_uri_in_term ks, refresh_uri_in_term v) l) status else status in GrafiteTypes.Serializer.register#run "index_obj" aux ;; let compute_keys status uri height kind = let mk_item ty spec = let orig_ty = NTacStatus.mk_cic_term [] ty in let status,keys = NnAuto.keys_of_type status orig_ty in let keys = List.map (fun t -> snd (NTacStatus.term_of_cic_term status t (NTacStatus.ctx_of t))) keys in keys,NCic.Const(NReference.reference_of_spec uri spec) in let data = match kind with | NCic.Fixpoint (ind,ifl,_) -> HExtlib.list_mapi (fun (_,_,rno,ty,_) i -> if ind then mk_item ty (NReference.Fix (i,rno,height)) else mk_item ty (NReference.CoFix height)) ifl | NCic.Inductive (b,lno,itl,_) -> HExtlib.list_mapi (fun (_,_,ty,_) i -> mk_item ty (NReference.Ind (b,i,lno))) itl @ List.map (fun ((_,_,ty),i,j) -> mk_item ty (NReference.Con (i,j+1,lno))) (List.flatten (HExtlib.list_mapi (fun (_,_,_,cl) i -> HExtlib.list_mapi (fun x j-> x,i,j) cl) itl)) | NCic.Constant (_,_,Some _, ty, _) -> [ mk_item ty (NReference.Def height) ] | NCic.Constant (_,_,None, ty, _) -> [ mk_item ty NReference.Decl ] in HExtlib.filter_map (fun (keys, t) -> let keys = List.filter (function | (NCic.Meta _) | (NCic.Appl (NCic.Meta _::_)) -> false | _ -> true) keys in if keys <> [] then begin HLog.debug ("Indexing:" ^ status#ppterm ~metasenv:[] ~subst:[] ~context:[] t); HLog.debug ("With keys:" ^ String.concat "\n" (List.map (fun t -> status#ppterm ~metasenv:[] ~subst:[] ~context:[] t) keys)); Some (keys,t) end else begin HLog.debug ("Not indexing:" ^ status#ppterm ~metasenv:[] ~subst:[] ~context:[] t); None end) data ;; let index_obj_for_auto status (uri, height, _, _, kind) = (*prerr_endline (string_of_int height);*) let data = compute_keys status uri height kind in let status = basic_index_obj data status in NCicLibrary.dump_obj status (record_index_obj data) ;; let basic_extract_obj obj status = try ignore (Helm_registry.get "extract_haskell"); let status,(msg,infos) = NCicExtraction.haskell_of_obj status obj in prerr_endline msg; status,infos with Helm_registry.Key_not_found _ -> status,NCicExtraction.empty_info | exn -> prerr_endline ("EXTRACTION FAILURE: " ^ Printexc.to_string exn); assert false ;; let basic_extract_ocaml_obj obj status = try let status = OcamlExtraction.print_ocaml_of_obj status obj in let infos,status = status#get_info in status,infos with exn -> prerr_endline ("EXTRACTION FAILURE: " ^ Printexc.to_string exn); assert false ;; let inject_extract_obj = let basic_extract_obj info ~refresh_uri_in_universe:__ ~refresh_uri_in_term:_ ~refresh_uri_in_reference ~alias_only:_ status = let info= NCicExtraction.refresh_uri_in_info ~refresh_uri_in_reference info in status#set_extraction_db (NCicExtraction.register_infos status#extraction_db info) in GrafiteTypes.Serializer.register#run "extraction" basic_extract_obj ;; let inject_extract_ocaml_obj = let basic_extract_ocaml_obj info ~refresh_uri_in_universe:_ ~refresh_uri_in_term:_ ~refresh_uri_in_reference ~alias_only:_ status = let info= OcamlExtractionTable.refresh_uri_in_info ~refresh_uri_in_reference ~refresh_uri:NCicLibrary.refresh_uri info in status#set_ocaml_extraction_db (OcamlExtractionTable.register_infos status#ocaml_extraction_db info) in GrafiteTypes.Serializer.register#run "ocaml_extraction" basic_extract_ocaml_obj ;; let eval_extract_obj status obj = let status,infos = basic_extract_obj obj status in NCicLibrary.dump_obj status (inject_extract_obj infos) ;; let eval_extract_ocaml_obj status obj = let status,infos = basic_extract_ocaml_obj obj status in NCicLibrary.dump_obj status (inject_extract_ocaml_obj infos) ;; (* module EmptyC = struct let metasenv = [] let subst = [] let context = [] end *) let index_eq print uri (status:#NCic.status) = let eq_status = status#eq_cache in let eq_status,clause = NCicParamod.index_obj status eq_status uri in if print then ((*let module NCicBlob = struct include NCicBlob.NCicBlob(EmptyC) let pp t = status#ppterm ~metasenv:[] ~subst:[] ~context:[] t end in let module Pp = Pp.Pp(NCicBlob) in*) (match clause with | Some (*clause*) (_,Terms.Equation (_,_,_,o),_,_) -> HLog.debug ("Indexed with orientation: " ^ Pp.string_of_comparison o); (*HLog.debug ("Indexed as:" ^ Pp.pp_unit_clause clause)*) | _ -> HLog.debug "Not indexed (i.e. pruned)")) ; status#set_eq_cache eq_status ;; let record_index_eq = let basic_index_eq uri ~refresh_uri_in_universe:_ ~refresh_uri_in_term:_ ~refresh_uri_in_reference:_ ~alias_only status = if not alias_only then index_eq false (NCicLibrary.refresh_uri uri) status else status in GrafiteTypes.Serializer.register#run "index_eq" basic_index_eq ;; let index_eq_for_auto status uri = if NnAuto.is_a_fact_obj status uri then let newstatus = index_eq true uri status in if newstatus#eq_cache == status#eq_cache then status else ((*prerr_endline ("recording " ^ (NUri.string_of_uri uri));*) NCicLibrary.dump_obj newstatus (record_index_eq uri)) else ((*prerr_endline "Not a fact";*) status) ;; let inject_constraint = let basic_eval_add_constraint (acyclic,u1,u2) ~refresh_uri_in_universe ~refresh_uri_in_term:_ ~refresh_uri_in_reference:_ ~alias_only status = if not alias_only then let u1 = refresh_uri_in_universe u1 in let u2 = refresh_uri_in_universe u2 in (* NCicLibrary.add_constraint adds the constraint to the NCicEnvironment * and also to the storage (for undo/redo). During inclusion of compiled * files the storage must not be touched. *) NCicEnvironment.add_lt_constraint acyclic u1 u2; status else status in GrafiteTypes.Serializer.register#run "constraints" basic_eval_add_constraint ;; let eval_add_constraint status acyclic u1 u2 = let status = NCicLibrary.add_constraint status acyclic u1 u2 in NCicLibrary.dump_obj status (inject_constraint (acyclic,u1,u2)) ;; let eval_ng_tac tac = let just_to_tacstatus_just just text prefix_len = match just with | `Term t -> `Term (text,prefix_len,t) | `Auto (l,params) -> ( match l with | None -> `Auto (None,params) | Some l -> `Auto (Some (List.map (fun t -> (text,prefix_len,t)) l),params) ) | _ -> assert false in let rec aux f (text, prefix_len, tac) = match tac with | GrafiteAst.NApply (_loc, t) -> NTactics.apply_tac (text,prefix_len,t) | GrafiteAst.NSmartApply (_loc, t) -> NnAuto.smart_apply_tac (text,prefix_len,t) | GrafiteAst.NAssert (_loc, seqs) -> NTactics.assert_tac ((List.map (function (hyps,concl) -> List.map (function (id,`Decl t) -> id,`Decl (text,prefix_len,t) |(id,`Def (b,t))->id,`Def((text,prefix_len,b),(text,prefix_len,t)) ) hyps, (text,prefix_len,concl)) ) seqs) | GrafiteAst.NAuto (_loc, (None,a)) -> NnAuto.auto_tac ~params:(None,a) ?trace_ref:None | GrafiteAst.NAuto (_loc, (Some l,a)) -> NnAuto.auto_tac ~params:(Some (List.map (fun x -> "",0,x) l),a) ?trace_ref:None | GrafiteAst.NBranch _ -> NTactics.branch_tac ~force:false | GrafiteAst.NCases (_loc, what, where) -> NTactics.cases_tac ~what:(text,prefix_len,what) ~where:(text,prefix_len,where) | GrafiteAst.NCase1 (_loc,n) -> NTactics.case1_tac n | GrafiteAst.NChange (_loc, pat, ww) -> NTactics.change_tac ~where:(text,prefix_len,pat) ~with_what:(text,prefix_len,ww) | GrafiteAst.NConstructor (_loc,num,args) -> NTactics.constructor_tac ?num ~args:(List.map (fun x -> text,prefix_len,x) args) | GrafiteAst.NCut (_loc, t) -> NTactics.cut_tac (text,prefix_len,t) (*| GrafiteAst.NDiscriminate (_,what) -> NDestructTac.discriminate_tac ~what:(text,prefix_len,what) | GrafiteAst.NSubst (_,what) -> NDestructTac.subst_tac ~what:(text,prefix_len,what)*) | GrafiteAst.NClear (_loc, l) -> NTactics.clear_tac l | GrafiteAst.NDestruct (_,dom,skip) -> NDestructTac.destruct_tac dom skip | GrafiteAst.NDot _ -> NTactics.dot_tac | GrafiteAst.NElim (_loc, what, where) -> NTactics.elim_tac ~what:(text,prefix_len,what) ~where:(text,prefix_len,where) | GrafiteAst.NFocus (_,l) -> NTactics.focus_tac l | GrafiteAst.NGeneralize (_loc, where) -> NTactics.generalize_tac ~where:(text,prefix_len,where) | GrafiteAst.NId _ -> (fun x -> x) | GrafiteAst.NIntro (_loc,n) -> NTactics.intro_tac n | GrafiteAst.NIntros (_loc,ns) -> NTactics.intros_tac ns | GrafiteAst.NInversion (_loc, what, where) -> NTactics.inversion_tac ~what:(text,prefix_len,what) ~where:(text,prefix_len,where) | GrafiteAst.NLApply (_loc, t) -> NTactics.lapply_tac (text,prefix_len,t) | GrafiteAst.NLetIn (_loc,where,what,name) -> NTactics.letin_tac ~where:(text,prefix_len,where) ~what:(text,prefix_len,what) name | GrafiteAst.NMerge _ -> NTactics.merge_tac | GrafiteAst.NPos (_,l) -> NTactics.pos_tac l | GrafiteAst.NPosbyname (_,s) -> NTactics.case_tac s | GrafiteAst.NReduce (_loc, reduction, where) -> NTactics.reduce_tac ~reduction ~where:(text,prefix_len,where) | GrafiteAst.NRewrite (_loc,dir,what,where) -> NTactics.rewrite_tac ~dir ~what:(text,prefix_len,what) ~where:(text,prefix_len,where) | GrafiteAst.NSemicolon _ -> fun x -> x | GrafiteAst.NShift _ -> NTactics.shift_tac | GrafiteAst.NSkip _ -> NTactics.skip_tac | GrafiteAst.NUnfocus _ -> NTactics.unfocus_tac | GrafiteAst.NWildcard _ -> NTactics.wildcard_tac | GrafiteAst.NTry (_,tac) -> NTactics.try_tac (f f (text, prefix_len, tac)) | GrafiteAst.NAssumption _ -> NTactics.assumption_tac | GrafiteAst.NBlock (_,l) -> NTactics.block_tac (List.map (fun x -> aux f (text,prefix_len,x)) l) |GrafiteAst.NRepeat (_,tac) -> NTactics.repeat_tac (f f (text, prefix_len, tac)) |GrafiteAst.Assume (_,id,t) -> Declarative.assume id (text,prefix_len,t) |GrafiteAst.Suppose (_,t,id) -> Declarative.suppose (text,prefix_len,t) id |GrafiteAst.By_just_we_proved (_,j,t1,s) -> Declarative.by_just_we_proved (just_to_tacstatus_just j text prefix_len) (text,prefix_len,t1) s |GrafiteAst.We_need_to_prove (_, t, id) -> Declarative.we_need_to_prove (text,prefix_len,t) id |GrafiteAst.BetaRewritingStep (_, t) -> Declarative.beta_rewriting_step (text,prefix_len,t) | GrafiteAst.Bydone (_, j) -> Declarative.bydone (just_to_tacstatus_just j text prefix_len) | GrafiteAst.ExistsElim (_, just, id1, t1, t2, id2) -> Declarative.existselim (just_to_tacstatus_just just text prefix_len) id1 (text,prefix_len,t1) (text,prefix_len,t2) id2 | GrafiteAst.AndElim(_,just,t1,id1,t2,id2) -> Declarative.andelim (just_to_tacstatus_just just text prefix_len) (text,prefix_len,t1) id1 (text,prefix_len,t2) id2 | GrafiteAst.Thesisbecomes (_, t1) -> Declarative.thesisbecomes (text,prefix_len,t1) | GrafiteAst.RewritingStep (_,rhs,just,cont) -> Declarative.rewritingstep (text,prefix_len,rhs) (match just with `Term _ | `Auto _ -> just_to_tacstatus_just just text prefix_len |`Proof -> `Proof |`SolveWith t -> `SolveWith (text,prefix_len,t) ) cont | GrafiteAst.Obtain (_,id,t1) -> Declarative.obtain id (text,prefix_len,t1) | GrafiteAst.Conclude (_,t1) -> Declarative.conclude (text,prefix_len,t1) | GrafiteAst.We_proceed_by_cases_on (_, t, t1) -> Declarative.we_proceed_by_cases_on (text,prefix_len,t) (text,prefix_len,t1) | GrafiteAst.We_proceed_by_induction_on (_, t, t1) -> Declarative.we_proceed_by_induction_on (text,prefix_len,t) (text,prefix_len,t1) | GrafiteAst.Byinduction (_, t, id) -> Declarative.byinduction (text,prefix_len,t) id | GrafiteAst.Case (_,id,params) -> Declarative.case id params | GrafiteAst.PrintStack (_) -> Declarative.print_stack in aux aux tac (* trick for non uniform recursion call *) ;; let subst_metasenv_and_fix_names status = let u,h,metasenv, subst,o = status#obj in let o = NCicUntrusted.map_obj_kind ~skip_body:true (NCicUntrusted.apply_subst status subst []) o in status#set_obj(u,h,NCicUntrusted.apply_subst_metasenv status subst metasenv,subst,o) ;; let is_proof_irrelevant status context ty = match NCicReduction.whd status ~subst:[] context (NCicTypeChecker.typeof status ~subst:[] ~metasenv:[] context ty) with NCic.Sort NCic.Prop -> true | NCic.Sort _ -> false | _ -> assert false ;; let rec relevance_of status ?(context=[]) ty = match NCicReduction.whd status ~subst:[] context ty with NCic.Prod (n,s,t) -> not (is_proof_irrelevant status context s) :: relevance_of status ~context:((n,NCic.Decl s)::context) t | _ -> [] ;; let compute_relevance status uri = function NCic.Constant (_,name,bo,ty,attrs) -> let relevance = relevance_of status ty in NCic.Constant (relevance,name,bo,ty,attrs) | NCic.Fixpoint (ind,funs,attrs) -> let funs = List.map (fun (_,name,recno,ty,bo) -> let relevance = relevance_of status ty in relevance,name,recno,ty,bo ) funs in NCic.Fixpoint (ind,funs,attrs) | NCic.Inductive (ind,leftno,tys,attrs) -> let context = List.rev_map (fun (_,name,arity,_) -> name,NCic.Decl arity) tys in let tysno = List.length tys in let tys = List.map (fun (_,name,arity,cons) -> let relevance = relevance_of status arity in let cons = List.map (fun (_,name,ty) -> let dety = NCicTypeChecker.debruijn status uri tysno ~subst:[] [] ty in let relevance = relevance_of status ~context dety in relevance,name,ty ) cons in (relevance,name,arity,cons) ) tys in NCic.Inductive (ind,leftno,tys,attrs) ;; let extract_uris status uris = List.fold_left (fun status uri -> let obj = NCicEnvironment.get_checked_obj status uri in let status = eval_extract_obj status obj in eval_extract_ocaml_obj status obj ) status uris ;; let rec eval_ncommand ~include_paths opts status (text,prefix_len,cmd) = match cmd with | GrafiteAst.Include (_loc, mode, fname) -> let _root, baseuri, fullpath, _rrelpath = Librarian.baseuri_of_script ~include_paths fname in let baseuri = NUri.uri_of_string baseuri in (* MATITA 1.0: keep WithoutPreferences? *) let alias_only = (mode = GrafiteAst.OnlyPreferences) in let status = GrafiteTypes.Serializer.require ~alias_only ~baseuri ~fname:fullpath status in OcamlExtraction.print_open status (NCicLibrary.get_transitively_included status) | GrafiteAst.UnificationHint (_loc, t, n) -> eval_unification_hint status t n | GrafiteAst.NCoercion (loc, name, compose, None) -> let status, t, ty, source, target = let o_t = NotationPt.Ident (name,None) in let metasenv,subst, status,t = GrafiteDisambiguate.disambiguate_nterm status `XTNone [] [] [] ("",0,o_t) in assert( metasenv = [] && subst = []); let ty = NCicTypeChecker.typeof status [] [] [] t in let source, target = let clean = function | NCic.Appl (NCic.Const _ as r :: l) -> NotationPt.Appl (NotationPt.NCic r :: List.map (fun _ -> NotationPt.Implicit `JustOne)l) | NCic.Const _ as r -> NotationPt.NCic r | NCic.Sort _ as r -> NotationPt.NCic r (* FG: missing case *) | _ -> assert false in let rec aux = function | NCic.Prod (_,_, (NCic.Prod _ as rest)) -> aux rest | NCic.Prod (name, src, tgt) -> (name, clean src), clean tgt | _ -> assert false in aux ty in status, o_t, NotationPt.NCic ty, source, target in let cmd = GrafiteAst.NCoercion (loc, name, compose, Some (t, ty, source, target)) in eval_ncommand ~include_paths opts status (text,prefix_len,cmd) | GrafiteAst.NCoercion (_loc, name, compose, Some (t, ty, source, target)) -> let status, composites = NCicCoercDeclaration.eval_ncoercion status name compose t ty source target in let status = extract_uris status composites in let mode = GrafiteAst.WithPreferences in (* MATITA 1.0: fixme *) let aliases = GrafiteDisambiguate.aliases_for_objs status composites in eval_alias status (mode,aliases) | GrafiteAst.NQed (_loc,index) -> if status#ng_mode <> `ProofMode then raise (GrafiteTypes.Command_error "Not in proof mode") else let uri,_height,menv,subst,obj_kind = status#obj in if menv <> [] then raise (GrafiteTypes.Command_error"You can't Qed an incomplete theorem") else let obj_kind = NCicUntrusted.map_obj_kind (NCicUntrusted.apply_subst status subst []) obj_kind in let height = NCicTypeChecker.height_of_obj_kind status uri [] obj_kind in (* fix the height inside the object *) let rec fix () = function | NCic.Const (NReference.Ref (u,spec)) when NUri.eq u uri -> NCic.Const (NReference.reference_of_spec u (match spec with | NReference.Def _ -> NReference.Def height | NReference.Fix (i,j,_) -> NReference.Fix(i,j,height) | NReference.CoFix i -> NReference.CoFix i | NReference.Ind _ | NReference.Con _ | NReference.Decl as s -> s)) | t -> NCicUtils.map status (fun _ () -> ()) () fix t in let obj_kind = match obj_kind with | NCic.Fixpoint _ -> NCicUntrusted.map_obj_kind (fix ()) obj_kind | _ -> obj_kind in let obj_kind = compute_relevance status uri obj_kind in let obj = uri,height,[],[],obj_kind in let old_status = status in let status = NCicLibrary.add_obj status obj in let status = eval_extract_obj status obj in let status = eval_extract_ocaml_obj status obj in (try let index_obj = index && match obj_kind with NCic.Constant (_,_,_,_,(_,`Example,_)) | NCic.Fixpoint (_,_,(_,`Example,_)) -> false | _ -> true in let status = if index_obj then let status = index_obj_for_auto status obj in (try index_eq_for_auto status uri with Sys.Break as exn -> raise exn | _ -> status) else status in (* purge tinycals stack *) let ninitial_stack = Continuationals.Stack.of_nmetasenv [] in let status = status#set_stack ninitial_stack in (* try index_eq uri status with _ -> prerr_endline "got an exception"; status in *) (* prerr_endline (status#ppobj obj); *) HLog.message ("New object: " ^ NUri.string_of_uri uri); (*prerr_endline (status#ppobj obj);*) let boxml = NCicElim.mk_elims status obj in let boxml = boxml @ NCicElim.mk_projections status obj in let status = status#set_ng_mode `CommandMode in let xxaliases = GrafiteDisambiguate.aliases_for_objs status [uri] in let mode = GrafiteAst.WithPreferences in (* MATITA 1.0: fixme *) let status = eval_alias status (mode,xxaliases) in let status = List.fold_left (fun status boxml -> try let nstatus = eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NObj (HExtlib.dummy_floc,boxml,true)) in if nstatus#ng_mode <> `CommandMode then begin (*HLog.warn "error in generating projection/eliminator";*) assert(status#ng_mode = `CommandMode); status end else nstatus with | MultiPassDisambiguator.DisambiguationError _ -> HLog.warn "error in disambiguating projection/eliminator"; status | NCicTypeChecker.TypeCheckerFailure _ -> HLog.warn "error in typechecking projection/eliminator"; status ) status boxml in let _,_,_,_,nobj = obj in (* attempting to generate an inversion principle on the maximum * universe can take a long time to fail: this code removes maximal * sorts from the universe list *) let universes = NCicEnvironment.get_universes () in let max_univ = List.fold_left max [] universes in let universes = List.filter (fun x -> NCicEnvironment.universe_lt x max_univ) universes in let status = match nobj with NCic.Inductive (is_ind,leftno,itl,_) -> List.fold_left (fun status it -> (let _,ind_name,_ty,_cl = it in List.fold_left (fun status outsort -> let status = status#set_ng_mode `ProofMode in try (let status,invobj = NInversion.mk_inverter (ind_name ^ "_inv_" ^ (snd (NCicElim.ast_of_sort outsort))) is_ind it leftno outsort status status#baseuri in let _,_,menv,_,_ = invobj in (match menv with [] -> eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed (Stdpp.dummy_loc,false)) | _ -> status)) (* XXX *) with Sys.Break as exn -> raise exn | _ -> (*HLog.warn "error in generating inversion principle"; *) let status = status#set_ng_mode `CommandMode in status) status (NCic.Prop:: List.map (fun s -> NCic.Type s) universes))) status itl | _ -> status in let status = match nobj with NCic.Inductive (_is_ind,leftno,itl,_) -> (* first leibniz *) let status' = List.fold_left (fun status it -> let _,ind_name,_ty,_cl = it in let status = status#set_ng_mode `ProofMode in try (let status,invobj = NDestructTac.mk_discriminator ~use_jmeq:false (ind_name ^ "_discr") it leftno status status#baseuri in let _,_,menv,_,_ = invobj in (match menv with [] -> eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false)) | _ -> status)) (* XXX *) with | NDestructTac.ConstructorTooBig k -> HLog.warn (Printf.sprintf "unable to generate leibniz discrimination principle (constructor %s too big)" k); let status = status#set_ng_mode `CommandMode in status | _ -> (*HLog.warn "error in generating discrimination principle"; *) let status = status#set_ng_mode `CommandMode in status) status itl in (* then JMeq *) List.fold_left (fun status it -> let _,ind_name,_ty,_cl = it in let status = status#set_ng_mode `ProofMode in try (let status,invobj = NDestructTac.mk_discriminator ~use_jmeq:true (ind_name ^ "_jmdiscr") it leftno status status#baseuri in let _,_,menv,_,_ = invobj in (match menv with [] -> eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false)) | _ -> status)) (* XXX *) with Sys.Break as exn -> raise exn | _ -> (*HLog.warn "error in generating discrimination principle"; *) let status = status#set_ng_mode `CommandMode in status) status' itl | _ -> status in let coercions = match obj with _,_,_,_,NCic.Inductive (true,leftno,[_,_,_,[_,_,_]],(_,`Record fields)) -> HExtlib.filter_map (fun (name,is_coercion,arity) -> if is_coercion then Some(name,leftno,arity) else None) fields | _ -> [] in let status = List.fold_left (fun status (name,cpos,arity) -> try let metasenv,subst,status,t = GrafiteDisambiguate.disambiguate_nterm status `XTNone [] [] [] ("",0,NotationPt.Ident (name,None)) in assert (metasenv = [] && subst = []); let status, nuris = NCicCoercDeclaration. basic_eval_and_record_ncoercion_from_t_cpos_arity status (name,true,t,cpos,arity) in let aliases = GrafiteDisambiguate.aliases_for_objs status nuris in let status = extract_uris status nuris in eval_alias status (mode,aliases) with MultiPassDisambiguator.DisambiguationError _-> HLog.warn ("error in generating coercion: "^name); status) status coercions in status with exn -> NCicLibrary.time_travel old_status; raise exn) | GrafiteAst.NCopy (_loc,tgt,src_uri, map) -> if status#ng_mode <> `CommandMode then raise (GrafiteTypes.Command_error "Not in command mode") else let tgt_uri_ext, old_ok = match NCicEnvironment.get_checked_obj status src_uri with | _,_,[],[], (NCic.Inductive _ as ok) -> ".ind", ok | _,_,[],[], (NCic.Fixpoint _ as ok) -> ".con", ok | _,_,[],[], (NCic.Constant _ as ok) -> ".con", ok | _ -> assert false in let tgt_uri = NUri.uri_of_string (status#baseuri^"/"^tgt^tgt_uri_ext) in let map = (src_uri, tgt_uri) :: map in let ok = let rec subst () = function | NCic.Meta _ -> assert false | NCic.Const (NReference.Ref (u,spec)) as t -> (try NCic.Const (NReference.reference_of_spec (List.assoc u map)spec) with Not_found -> t) | t -> NCicUtils.map status (fun _ _ -> ()) () subst t in NCicUntrusted.map_obj_kind ~skip_body:false (subst ()) old_ok in let ninitial_stack = Continuationals.Stack.of_nmetasenv [] in let status = status#set_obj (tgt_uri,0,[],[],ok) in (*prerr_endline (status#ppobj (tgt_uri,0,[],[],ok));*) let status = status#set_stack ninitial_stack in let status = subst_metasenv_and_fix_names status in let status = status#set_ng_mode `ProofMode in eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false)) | GrafiteAst.NObj (_loc,obj,index) -> if status#ng_mode <> `CommandMode then raise (GrafiteTypes.Command_error "Not in command mode") else let status,obj = GrafiteDisambiguate.disambiguate_nobj status ~baseuri:status#baseuri (text,prefix_len,obj) in let _uri,_height,nmenv,_nsubst,_nobj = obj in let ninitial_stack = Continuationals.Stack.of_nmetasenv nmenv in let status = status#set_obj obj in let status = status#set_stack ninitial_stack in let status = subst_metasenv_and_fix_names status in let status = status#set_ng_mode `ProofMode in (match nmenv with [] -> eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,index)) | _ -> status) | GrafiteAst.NDiscriminator (_loc, indty) -> if status#ng_mode <> `CommandMode then raise (GrafiteTypes.Command_error "Not in command mode") else let status = status#set_ng_mode `ProofMode in let _metasenv,_subst,status,indty = GrafiteDisambiguate.disambiguate_nterm status `XTNone [] [] [] (text,prefix_len,indty) in let indtyno, (_,_,tys,_,_),leftno = match indty with NCic.Const ((NReference.Ref (_,NReference.Ind (_,indtyno,leftno))) as r) -> indtyno, NCicEnvironment.get_checked_indtys status r, leftno | _ -> prerr_endline ("engine: indty expected... (fix this error message)"); assert false in let (_,ind_name,_,_ as it) = List.nth tys indtyno in let status,obj = NDestructTac.mk_discriminator ~use_jmeq:true ~force:true (ind_name ^ "_jmdiscr") it leftno status status#baseuri in let _,_,menv,_,_ = obj in (match menv with [] -> eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false)) | _ -> prerr_endline ("Discriminator: non empty metasenv"); status) | GrafiteAst.NInverter (_loc, name, indty, selection, sort) -> if status#ng_mode <> `CommandMode then raise (GrafiteTypes.Command_error "Not in command mode") else let metasenv,subst,status,sort = match sort with | None -> [],[],status,NCic.Sort NCic.Prop | Some s -> GrafiteDisambiguate.disambiguate_nterm status `XTSort [] [] [] (text,prefix_len,s) in assert (metasenv = []); let sort = NCicReduction.whd status ~subst [] sort in let sort = match sort with NCic.Sort s -> s | _ -> raise (Invalid_argument (Printf.sprintf "ninverter: found target %s, which is not a sort" (status#ppterm ~metasenv ~subst ~context:[] sort))) in let status = status#set_ng_mode `ProofMode in let _metasenv,_subst,status,indty = GrafiteDisambiguate.disambiguate_nterm status `XTNone [] [] subst (text,prefix_len,indty) in let indtyno,(_,leftno,tys,_,_) = match indty with NCic.Const ((NReference.Ref (_,NReference.Ind (_,indtyno,_))) as r) -> indtyno, NCicEnvironment.get_checked_indtys status r | _ -> prerr_endline ("engine: indty =" ^ status#ppterm ~metasenv:[] ~subst:[] ~context:[] indty); assert false in let it = List.nth tys indtyno in let status,obj = NInversion.mk_inverter name true it leftno ?selection sort status status#baseuri in let _,_,menv,_,_ = obj in (match menv with [] -> eval_ncommand ~include_paths opts status ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false)) | _ -> assert false) | GrafiteAst.NUnivConstraint (_loc,acyclic,u1,u2) -> eval_add_constraint status acyclic [`Type,u1] [`Type,u2] (* ex lexicon commands *) | GrafiteAst.Interpretation (_loc, dsc, (symbol, args), cic_appl_pattern) -> let cic_appl_pattern = GrafiteDisambiguate.disambiguate_cic_appl_pattern status args cic_appl_pattern in eval_interpretation status (dsc,(symbol, args),cic_appl_pattern) | GrafiteAst.Notation (_loc, dir, l1, associativity, precedence, l2) -> let l1 = CicNotationParser.check_l1_pattern l1 (dir = Some `RightToLeft) precedence associativity in let status = if dir <> Some `RightToLeft then eval_input_notation status (l1,l2) else status in if dir <> Some `LeftToRight then eval_output_notation status (l1,l2) else status | GrafiteAst.Alias (_loc, spec) -> let diff = (*CSC: Warning: this code should be factorized with the corresponding code in DisambiguatePp *) match spec with | GrafiteAst.Ident_alias (id,_uri) -> [DisambiguateTypes.Id id,spec] | GrafiteAst.Symbol_alias (symb, instance, _desc) -> [DisambiguateTypes.Symbol (symb,instance),spec] | GrafiteAst.Number_alias (instance,_desc) -> [DisambiguateTypes.Num instance,spec] in let mode = GrafiteAst.WithPreferences in(*assert false in (* VEDI SOPRA *) MATITA 1.0*) eval_alias status (mode,diff) ;; let eval_comment _opts status (_text,_prefix_len,_c) = status let rec eval_executable ~include_paths opts status (text,prefix_len,ex) = match ex with | GrafiteAst.NTactic (_(*loc*), tacl) -> if status#ng_mode <> `ProofMode then raise (GrafiteTypes.Command_error "Not in proof mode") else let status = List.fold_left (fun status tac -> let time0 = Unix.gettimeofday () in let status = eval_ng_tac (text,prefix_len,tac) status in let time3 = Unix.gettimeofday () in HLog.debug ("... eval_ng_tac done in " ^ string_of_float (time3 -. time0) ^ "s"); let status = subst_metasenv_and_fix_names status in let time3 = Unix.gettimeofday () in HLog.debug ("... subst_metasenv_and_fix_names done in " ^ string_of_float (time3 -. time0) ^ "s"); status) status tacl in status | GrafiteAst.NCommand (_, cmd) -> eval_ncommand ~include_paths opts status (text,prefix_len,cmd) | GrafiteAst.NMacro (loc, macro) -> raise (NMacro (loc,macro)) and eval_ast ~include_paths ?(do_heavy_checks=false) status (text,prefix_len,st) = let opts = { do_heavy_checks = do_heavy_checks ; } in match st with | GrafiteAst.Executable (_,ex) -> eval_executable ~include_paths opts status (text,prefix_len,ex) | GrafiteAst.Comment (_,c) -> eval_comment opts status (text,prefix_len,c) ;;