2 ||M|| This file is part of HELM, an Hypertextual, Electronic
3 ||A|| Library of Mathematics, developed at the Computer Science
4 ||T|| Department, University of Bologna, Italy.
6 ||T|| HELM is free software; you can redistribute it and/or
7 ||A|| modify it under the terms of the GNU General Public License
8 \ / version 2 or (at your option) any later version.
9 \ / This software is distributed as is, NO WARRANTY.
10 V_______________________________________________________________ *)
14 let print ?(depth=0) s =
15 prerr_endline (String.make (2*depth) ' '^Lazy.force s)
16 let noprint ?(depth=0) _ = ()
17 let debug_print = noprint
19 open Continuationals.Stack
21 module Ast = NotationPt
23 (* ======================= statistics ========================= *)
25 let app_counter = ref 0
28 type t = NReference.reference
29 let equal = NReference.eq
30 let compare = NReference.compare
31 let hash = NReference.hash
34 module RefHash = Hashtbl.Make(RHT);;
37 nominations : int ref;
41 let statistics: info RefHash.t = RefHash.create 503
43 let incr_nominations tbl item =
45 let v = RefHash.find tbl item in incr v.nominations
47 RefHash.add tbl item {nominations = ref 1; uses = ref 0}
49 let incr_uses tbl item =
51 let v = RefHash.find tbl item in incr v.uses
52 with Not_found -> assert false
58 | Ast.NCic _ (* local candidate *)
61 let is_relevant tbl item =
63 let v = RefHash.find tbl item in
64 if !(v.nominations) < 60 then true (* not enough info *)
65 else if !(v.uses) = 0 then false
67 with Not_found -> true
69 let print_stat status tbl =
70 let l = RefHash.fold (fun a v l -> (a,v)::l) tbl [] in
71 let relevance v = float !(v.uses) /. float !(v.nominations) in
72 let vcompare (_,v1) (_,v2) =
73 Pervasives.compare (relevance v1) (relevance v2) in
74 let l = List.sort vcompare l in
76 Filename.chop_extension
77 (Filename.basename (NReference.string_of_reference r))
80 short_name a ^ ": rel = " ^
81 (string_of_float (relevance v)) ^
82 "; uses = " ^ (string_of_int !(v.uses)) ^
83 "; nom = " ^ (string_of_int !(v.nominations)) in
84 lazy ("\n\nSTATISTICS:\n" ^
85 String.concat "\n" (List.map vstring l))
87 (* ======================= utility functions ========================= *)
88 module IntSet = Set.Make(struct type t = int let compare = compare end)
90 let get_sgoalty status g =
91 let _,_,metasenv,subst,_ = status#obj in
93 let _, ctx, ty = NCicUtils.lookup_meta g metasenv in
94 let ty = NCicUntrusted.apply_subst status subst ctx ty in
95 let ctx = NCicUntrusted.apply_subst_context status
96 ~fix_projections:true subst ctx
98 NTacStatus.mk_cic_term ctx ty
99 with NCicUtils.Meta_not_found _ as exn -> fail ~exn (lazy "get_sgoalty")
103 let gty = get_sgoalty status g in
104 metas_of_term status gty
107 let menv_closure status gl =
108 let rec closure acc = function
110 | x::l when IntSet.mem x acc -> closure acc l
111 | x::l -> closure (IntSet.add x acc) (deps status x @ l)
112 in closure IntSet.empty gl
115 (* we call a "fact" an object whose hypothesis occur in the goal
116 or in types of goal-variables *)
117 let branch status ty =
118 let status, ty, metas = saturate ~delta:0 status ty in
119 noprint (lazy ("saturated ty :" ^ (ppterm status ty)));
120 let g_metas = metas_of_term status ty in
121 let clos = menv_closure status g_metas in
122 (* let _,_,metasenv,_,_ = status#obj in *)
126 let _, m = term_of_cic_term status m (ctx_of m) in
128 | NCic.Meta(i,_) -> IntSet.add i acc
132 (* IntSet.subset menv clos *)
133 IntSet.cardinal(IntSet.diff menv clos)
135 let is_a_fact status ty = branch status ty = 0
137 let is_a_fact_obj s uri =
138 let obj = NCicEnvironment.get_checked_obj s uri in
140 | (_,_,[],[],NCic.Constant(_,_,_,ty,_)) ->
141 is_a_fact s (mk_cic_term [] ty)
142 (* aggiungere i costruttori *)
145 let is_a_fact_ast status subst metasenv ctx cand =
147 (lazy ("checking facts " ^ NotationPp.pp_term status cand));
148 let status, t = disambiguate status ctx ("",0,cand) `XTNone in
149 let status,t = term_of_cic_term status t ctx in
150 let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
151 is_a_fact status (mk_cic_term ctx ty)
153 let current_goal status =
154 let open_goals = head_goals status#stack in
155 assert (List.length open_goals = 1);
156 let open_goal = List.hd open_goals in
157 let gty = get_goalty status open_goal in
158 let ctx = ctx_of gty in
161 let height_of_ref status (NReference.Ref (uri, x)) =
166 | NReference.CoFix _ ->
167 let _,height,_,_,_ = NCicEnvironment.get_checked_obj status uri in
169 | NReference.Def h -> h
170 | NReference.Fix (_,_,h) -> h
173 (*************************** height functions ********************************)
174 let fast_height_of_term status t =
178 NCic.Meta (_,(_,NCic.Ctx l)) -> List.iter aux l
182 | NCic.Implicit _ -> assert false
185 prerr_endline (status#ppterm ~metasenv:[] ~subst:[]
186 ~context:[] t ^ ":" ^ string_of_int (height_of_ref status nref));
188 h := max !h (height_of_ref status nref)
189 | NCic.Prod (_,t1,t2)
190 | NCic.Lambda (_,t1,t2) -> aux t1; aux t2
191 | NCic.LetIn (_,s,ty,t) -> aux s; aux ty; aux t
192 | NCic.Appl l -> List.iter aux l
193 | NCic.Match (_,outty,t,pl) -> aux outty; aux t; List.iter aux pl
198 let height_of_goal g status =
199 let ty = get_goalty status g in
200 let context = ctx_of ty in
201 let _, ty = term_of_cic_term status ty (ctx_of ty) in
202 let h = ref (fast_height_of_term status ty) in
205 | _, NCic.Decl ty -> h := max !h (fast_height_of_term status ty)
206 | _, NCic.Def (bo,ty) ->
207 h := max !h (fast_height_of_term status ty);
208 h := max !h (fast_height_of_term status bo);
214 let height_of_goals status =
215 let open_goals = head_goals status#stack in
216 assert (List.length open_goals > 0);
220 h := max !h (height_of_goal open_goal status))
222 noprint (lazy ("altezza sequente: " ^ string_of_int !h));
226 (* =============================== paramod =========================== *)
227 let solve f status eq_cache goal =
230 if fast then NCicParamod.fast_eq_check
231 else NCicParamod.paramod in
233 let n,h,metasenv,subst,o = status#obj in
234 let gname, ctx, gty = List.assoc goal metasenv in
235 let gty = NCicUntrusted.apply_subst status subst ctx gty in
236 let build_status (pt, _, metasenv, subst) =
238 debug_print (lazy ("refining: "^(status#ppterm ctx subst metasenv pt)));
239 let stamp = Unix.gettimeofday () in
240 let metasenv, subst, pt, pty =
241 (* NCicRefiner.typeof status
242 (* (status#set_coerc_db NCicCoercion.empty_db) *)
243 metasenv subst ctx pt None in
244 debug_print (lazy ("refined: "^(status#ppterm ctx subst metasenv pt)));
245 noprint (lazy ("synt: "^(status#ppterm ctx subst metasenv pty)));
246 let metasenv, subst =
247 NCicUnification.unify status metasenv subst ctx gty pty *)
249 (status#set_coerc_db NCicCoercion.empty_db)
250 metasenv subst ctx pt (`XTSome gty)
252 noprint (lazy (Printf.sprintf "Refined in %fs"
253 (Unix.gettimeofday() -. stamp)));
254 let status = status#set_obj (n,h,metasenv,subst,o) in
255 let metasenv = List.filter (fun j,_ -> j <> goal) metasenv in
256 let subst = (goal,(gname,ctx,pt,pty)) :: subst in
257 Some (status#set_obj (n,h,metasenv,subst,o))
259 NCicRefiner.RefineFailure msg
260 | NCicRefiner.Uncertain msg ->
261 debug_print (lazy ("WARNING U: refining in fast_eq_check failed\n" ^
262 snd (Lazy.force msg) ^
263 "\n in the environment\n" ^
264 status#ppmetasenv subst metasenv)); None
265 | NCicRefiner.AssertFailure msg ->
266 debug_print (lazy ("WARNING F: refining in fast_eq_check failed" ^
268 "\n in the environment\n" ^
269 status#ppmetasenv subst metasenv)); None
270 | Sys.Break as e -> raise e
273 HExtlib.filter_map build_status
274 (f status metasenv subst ctx eq_cache (NCic.Rel ~-1,gty))
277 let fast_eq_check eq_cache status (goal:int) =
278 match solve NCicParamod.fast_eq_check status eq_cache goal with
279 | [] -> raise (Error (lazy "no proof found",None))
283 let dist_fast_eq_check eq_cache s =
284 NTactics.distribute_tac (fast_eq_check eq_cache) s
287 let auto_eq_check eq_cache status =
289 let s = dist_fast_eq_check eq_cache status in
292 | Error _ -> debug_print (lazy ("no paramod proof found"));[]
295 let index_local_equations eq_cache ?(flag=false) status =
297 NCicParamod.empty_state
299 noprint (lazy "indexing equations");
300 let open_goals = head_goals status#stack in
301 let open_goal = List.hd open_goals in
302 let ngty = get_goalty status open_goal in
303 let _,_,metasenv,subst,_ = status#obj in
304 let ctx = apply_subst_context ~fix_projections:true status (ctx_of ngty) in
309 let t = NCic.Rel !c in
311 let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
312 if is_a_fact status (mk_cic_term ctx ty) then
313 (debug_print(lazy("eq indexing " ^ (status#ppterm ctx subst metasenv ty)));
314 NCicParamod.forward_infer_step status metasenv subst ctx eq_cache t ty)
316 (noprint (lazy ("not a fact: " ^ (status#ppterm ctx subst metasenv ty)));
319 | NCicTypeChecker.TypeCheckerFailure _
320 | NCicTypeChecker.AssertFailure _ -> eq_cache)
325 let index_local_equations2 eq_cache status open_goal lemmas ?(flag=false) nohyps =
326 noprint (lazy "indexing equations");
327 let eq_cache,lemmas =
330 | Some l -> NCicParamod.empty_state,l
332 let ngty = get_goalty status open_goal in
333 let _,_,metasenv,subst,_ = status#obj in
334 let ctx = apply_subst_context ~fix_projections:true status (ctx_of ngty) in
337 (fun (status,lemmas) l ->
338 let status,l = NTacStatus.disambiguate status ctx l `XTNone in
339 let status,l = NTacStatus.term_of_cic_term status l ctx in
341 (status,[]) lemmas in
342 let local_equations =
343 if nohyps then [] else
344 List.map (fun i -> NCic.Rel (i + 1))
345 (HExtlib.list_seq 1 (List.length ctx)) in
346 let lemmas = lemmas @ local_equations in
350 let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
351 if is_a_fact status (mk_cic_term ctx ty) then
352 (debug_print(lazy("eq indexing " ^ (status#ppterm ctx subst metasenv ty)));
353 NCicParamod.forward_infer_step status metasenv subst ctx eq_cache t ty)
355 (noprint (lazy ("not a fact: " ^ (status#ppterm ctx subst metasenv ty)));
358 | NCicTypeChecker.TypeCheckerFailure _
359 | NCicTypeChecker.AssertFailure _ -> eq_cache)
363 let fast_eq_check_tac ~params s =
364 let unit_eq = index_local_equations s#eq_cache s in
365 dist_fast_eq_check unit_eq s
368 let paramod eq_cache status goal =
369 match solve NCicParamod.paramod status eq_cache goal with
370 | [] -> raise (Error (lazy "no proof found",None))
374 let paramod_tac ~params s =
375 let unit_eq = index_local_equations s#eq_cache s in
376 NTactics.distribute_tac (paramod unit_eq) s
379 let demod eq_cache status goal =
380 match solve NCicParamod.demod status eq_cache goal with
381 | [] -> raise (Error (lazy "no progress",None))
385 let demod_tac ~params s =
387 index_local_equations2 s#eq_cache s i (fst params)
388 (List.mem_assoc "nohyps" (snd params))
390 NTactics.distribute_tac (fun s i -> demod (unit_eq s i) s i) s
394 let fast_eq_check_tac_all ~params eq_cache status =
395 let g,_,_ = current_goal status in
396 let allstates = fast_eq_check_all status eq_cache g in
397 let pseudo_low_tac s _ _ = s in
398 let pseudo_low_tactics =
399 List.map pseudo_low_tac allstates
401 List.map (fun f -> NTactics.distribute_tac f status) pseudo_low_tactics
406 let demod status eq_cache goal =
407 let n,h,metasenv,subst,o = status#obj in
408 let gname, ctx, gty = List.assoc goal metasenv in
409 let gty = NCicUntrusted.apply_subst subst ctx gty in
411 let demod_tac ~params s =
412 let unit_eq = index_local_equations s#eq_cache s in
413 dist_fast_eq_check unit_eq s
416 (*************** subsumption ****************)
418 let close_wrt_context status =
422 | name, NCic.Decl t -> NCic.Prod(name,t,ty)
423 | name, NCic.Def(bo, _) -> NCicSubstitution.subst status bo ty)
426 let args_for_context ?(k=1) ctx =
429 (fun (n,l) ctx_entry ->
431 | name, NCic.Decl t -> n+1,NCic.Rel(n)::l
432 | name, NCic.Def(bo, _) -> n+1,l)
436 let constant_for_meta status ctx ty i =
437 let name = "cic:/foo"^(string_of_int i)^".con" in
438 let uri = NUri.uri_of_string name in
439 let ty = close_wrt_context status ty ctx in
440 (* prerr_endline (status#ppterm [] [] [] ty); *)
441 let attr = (`Generated,`Definition,`Local) in
442 let obj = NCic.Constant([],name,None,ty,attr) in
443 (* Constant of relevance * string * term option * term * c_attr *)
447 let refresh metasenv =
449 (fun (metasenv,subst) (i,(iattr,ctx,ty)) ->
450 let ikind = NCicUntrusted.kind_of_meta iattr in
451 let metasenv,j,instance,ty =
452 NCicMetaSubst.mk_meta ~attrs:iattr
453 metasenv ctx ~with_type:ty ikind in
454 let s_entry = i,(iattr, ctx, instance, ty) in
455 let metasenv = List.filter (fun x,_ -> i <> x) metasenv in
456 metasenv,s_entry::subst)
457 (metasenv,[]) metasenv
459 (* close metasenv returns a ground instance of all the metas in the
460 metasenv, insantiatied with axioms, and the list of these axioms *)
461 let close_metasenv status metasenv subst =
463 let metasenv = NCicUntrusted.apply_subst_metasenv subst metasenv in
465 let metasenv = NCicUntrusted.sort_metasenv status subst metasenv in
467 (fun (subst,objs) (i,(iattr,ctx,ty)) ->
468 let ty = NCicUntrusted.apply_subst status subst ctx ty in
470 NCicUntrusted.apply_subst_context status ~fix_projections:true
472 let (uri,_,_,_,obj) as okind =
473 constant_for_meta status ctx ty i in
475 NCicEnvironment.check_and_add_obj status okind;
476 let iref = NReference.reference_of_spec uri NReference.Decl in
478 let args = args_for_context ctx in
479 if args = [] then NCic.Const iref
480 else NCic.Appl(NCic.Const iref::args)
482 (* prerr_endline (status#ppterm ctx [] [] iterm); *)
483 let s_entry = i, ([], ctx, iterm, ty)
484 in s_entry::subst,okind::objs
486 Sys.Break as e -> raise e
491 let ground_instances status gl =
492 let _,_,metasenv,subst,_ = status#obj in
493 let subset = menv_closure status gl in
494 let submenv = List.filter (fun (x,_) -> IntSet.mem x subset) metasenv in
496 let submenv = metasenv in
498 let subst, objs = close_metasenv status submenv subst in
502 let (_, ctx, t, _) = List.assoc i subst in
503 noprint (lazy (status#ppterm ctx [] [] t));
505 (fun (uri,_,_,_,_) as obj ->
506 NCicEnvironment.invalidate_item (`Obj (uri, obj)))
511 Not_found -> assert false
515 let replace_meta status i args target =
516 let rec aux k = function
517 (* TODO: local context *)
518 | NCic.Meta (j,lc) when i = j ->
522 List.map (NCicSubstitution.subst_meta status lc) args in
523 NCic.Appl(NCic.Rel k::args))
524 | NCic.Meta (j,lc) as m ->
531 aux k (NCicSubstitution.lift status n t)) l))))
532 | t -> NCicUtils.map status (fun _ k -> k+1) k aux t
537 let close_wrt_metasenv status subst =
539 (fun ty (i,(iattr,ctx,mty)) ->
540 let mty = NCicUntrusted.apply_subst status subst ctx mty in
542 NCicUntrusted.apply_subst_context status ~fix_projections:true
544 let cty = close_wrt_context status mty ctx in
545 let name = "foo"^(string_of_int i) in
546 let ty = NCicSubstitution.lift status 1 ty in
547 let args = args_for_context ~k:1 ctx in
548 (* prerr_endline (status#ppterm ctx [] [] iterm); *)
549 let ty = replace_meta status i args ty
551 NCic.Prod(name,cty,ty))
555 let _,_,metasenv,subst,_ = status#obj in
556 let subset = menv_closure status [g] in
557 let subset = IntSet.remove g subset in
558 let elems = IntSet.elements subset in
559 let _, ctx, ty = NCicUtils.lookup_meta g metasenv in
560 let ty = NCicUntrusted.apply_subst status subst ctx ty in
561 noprint (lazy ("metas in " ^ (status#ppterm ctx [] metasenv ty)));
562 noprint (lazy (String.concat ", " (List.map string_of_int elems)));
563 let submenv = List.filter (fun (x,_) -> IntSet.mem x subset) metasenv in
564 let submenv = List.rev (NCicUntrusted.sort_metasenv status subst submenv) in
566 let submenv = metasenv in
568 let ty = close_wrt_metasenv status subst ty submenv in
569 noprint (lazy (status#ppterm ctx [] [] ty));
573 (****************** smart application ********************)
575 let saturate_to_ref status metasenv subst ctx nref ty =
576 let height = height_of_ref status nref in
577 let rec aux metasenv ty args =
578 let ty,metasenv,moreargs =
579 NCicMetaSubst.saturate status ~delta:height metasenv subst ctx ty 0 in
581 | NCic.Const(NReference.Ref (_,NReference.Def _) as nre)
583 let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def status nre in
584 aux metasenv bo (args@moreargs)
585 | NCic.Appl(NCic.Const(NReference.Ref (_,NReference.Def _) as nre)::tl)
587 let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def status nre in
588 aux metasenv (NCic.Appl(bo::tl)) (args@moreargs)
589 | _ -> ty,metasenv,(args@moreargs)
593 let smart_apply t unit_eq status g =
594 let n,h,metasenv,subst,o = status#obj in
595 let gname, ctx, gty = List.assoc g metasenv in
596 (* let ggty = mk_cic_term context gty in *)
597 let status, t = disambiguate status ctx t `XTNone in
598 let status,t = term_of_cic_term status t ctx in
599 let _,_,metasenv,subst,_ = status#obj in
600 let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
601 let ty,metasenv,args =
604 | NCic.Appl(NCic.Const(nref)::_) ->
605 saturate_to_ref status metasenv subst ctx nref ty
607 NCicMetaSubst.saturate status metasenv subst ctx ty 0 in
608 let metasenv,j,inst,_ = NCicMetaSubst.mk_meta metasenv ctx `IsTerm in
609 let status = status#set_obj (n,h,metasenv,subst,o) in
610 let pterm = if args=[] then t else
612 | NCic.Appl l -> NCic.Appl(l@args)
613 | _ -> NCic.Appl(t::args)
615 noprint(lazy("pterm " ^ (status#ppterm ctx [] [] pterm)));
616 noprint(lazy("pty " ^ (status#ppterm ctx [] [] ty)));
619 NUri.uri_of_string "cic:/matita/basics/logic/eq_coerc.con" in
620 let ref = NReference.reference_of_spec uri (NReference.Def(2)) in
624 NCic.Appl[eq_coerc;ty;NCic.Implicit `Type;pterm;inst] in
625 let smart = mk_cic_term ctx smart in
627 let status = instantiate status g smart in
628 let _,_,metasenv,subst,_ = status#obj in
629 let _,ctx,jty = List.assoc j metasenv in
630 let jty = NCicUntrusted.apply_subst status subst ctx jty in
631 debug_print(lazy("goal " ^ (status#ppterm ctx [] [] jty)));
632 let res = fast_eq_check unit_eq status j in
633 debug_print(lazy("ritorno da fast_eq_check"));
636 | NCicEnvironment.ObjectNotFound s as e ->
637 raise (Error (lazy "eq_coerc non yet defined",Some e))
638 | Error _ as e -> debug_print (lazy "error"); raise e
639 (* FG: for now we catch TypeCheckerFailure; to be understood *)
640 | NCicTypeChecker.TypeCheckerFailure _ ->
641 debug_print (lazy "TypeCheckerFailure");
642 raise (Error (lazy "no proof found",None))
645 let compare_statuses ~past ~present =
646 let _,_,past,_,_ = past#obj in
647 let _,_,present,_,_ = present#obj in
648 List.map fst (List.filter (fun (i,_) -> not(List.mem_assoc i past)) present),
649 List.map fst (List.filter (fun (i,_) -> not (List.mem_assoc i present)) past)
652 (* paramodulation has only an implicit knoweledge of the symmetry of equality;
653 hence it is in trouble in proving (a = b) = (b = a) *)
654 let try_sym tac status g =
655 let sym_eq = Ast.Appl [Ast.Ident("sym_eq",None); Ast.Implicit `Vector] in
656 let _,_,metasenv,subst,_ = status#obj in
657 let _, context, gty = List.assoc g metasenv in
659 NCicParamod.is_equation status metasenv subst context gty
664 let new_status = instantiate_with_ast status g ("",0,sym_eq) in
665 let go, _ = compare_statuses ~past:status ~present:new_status in
666 assert (List.length go = 1);
667 let ng = List.hd go in
672 let smart_apply_tac t s =
673 let unit_eq = index_local_equations s#eq_cache s in
674 NTactics.distribute_tac (try_sym (smart_apply t unit_eq)) s
675 (* NTactics.distribute_tac (smart_apply t unit_eq) s *)
677 let smart_apply_auto t eq_cache =
678 NTactics.distribute_tac (try_sym (smart_apply t eq_cache))
679 (* NTactics.distribute_tac (smart_apply t eq_cache) *)
682 (****************** types **************)
685 type th_cache = (NCic.context * InvRelDiscriminationTree.t) list
687 (* cartesian: term set list -> term list set *)
690 [] -> NDiscriminationTree.TermListSet.empty
692 NDiscriminationTree.TermSet.fold
693 (fun x acc -> NDiscriminationTree.TermListSet.add [x] acc) l NDiscriminationTree.TermListSet.empty
695 let rest = cartesian tl in
696 NDiscriminationTree.TermSet.fold
698 NDiscriminationTree.TermListSet.fold (fun l acc' -> NDiscriminationTree.TermListSet.add (x::l) acc') rest acc
699 ) he NDiscriminationTree.TermListSet.empty
702 (* all_keys_of_cic_type: term -> term set *)
703 let all_keys_of_cic_type status metasenv subst context ty =
705 (* Here we are dropping the metasenv, but this should not raise any
706 exception (hopefully...) *)
708 NCicMetaSubst.saturate status ~delta:max_int metasenv subst context ty 0
714 NCic.Appl (he::tl) ->
717 let wty = NCicReduction.whd status ~delta:0 ~subst context ty in
719 NDiscriminationTree.TermSet.add ty (aux ty)
721 NDiscriminationTree.TermSet.union
722 (NDiscriminationTree.TermSet.add ty (aux ty))
723 (NDiscriminationTree.TermSet.add wty (aux wty))
726 NDiscriminationTree.TermListSet.fold
727 (fun l acc -> NDiscriminationTree.TermSet.add (NCic.Appl l) acc)
728 (cartesian ((NDiscriminationTree.TermSet.singleton he)::tl'))
729 NDiscriminationTree.TermSet.empty
730 | _ -> NDiscriminationTree.TermSet.empty
732 let ty,ity = saturate ty in
733 let wty,iwty = saturate (NCicReduction.whd status ~delta:0 ~subst context ty) in
735 [ity, NDiscriminationTree.TermSet.add ty (aux ty)]
737 [ity, NDiscriminationTree.TermSet.add ty (aux ty) ;
738 iwty, NDiscriminationTree.TermSet.add wty (aux wty) ]
741 let all_keys_of_type status t =
742 let _,_,metasenv,subst,_ = status#obj in
743 let context = ctx_of t in
744 let status, t = apply_subst status context t in
746 all_keys_of_cic_type status metasenv subst context
747 (snd (term_of_cic_term status t context))
751 (fun (intros,keys) ->
753 NDiscriminationTree.TermSet.fold
754 (fun t acc -> Ncic_termSet.add (mk_cic_term context t) acc)
755 keys Ncic_termSet.empty
760 let keys_of_type status orig_ty =
761 (* Here we are dropping the metasenv (in the status), but this should not
762 raise any exception (hopefully...) *)
763 let _, ty, _ = saturate ~delta:max_int status orig_ty in
764 let _, ty = apply_subst status (ctx_of ty) ty in
767 let orig_ty' = NCicTacReduction.normalize ~subst context orig_ty in
768 if orig_ty' <> orig_ty then
769 let ty',_,_= NCicMetaSubst.saturate ~delta:0 metasenv subst context orig_ty' 0 in
775 (*CSC: strange: we keep ty, ty normalized and ty ~delta:(h-1) *)
777 let _, ty = term_of_cic_term status ty (ctx_of ty) in
779 | NCic.Const (NReference.Ref (_,(NReference.Def h | NReference.Fix (_,_,h))))
780 | NCic.Appl (NCic.Const(NReference.Ref(_,(NReference.Def h | NReference.Fix (_,_,h))))::_)
782 let _,ty,_= saturate status ~delta:(h-1) orig_ty in
789 let all_keys_of_term status t =
790 let status, orig_ty = typeof status (ctx_of t) t in
791 all_keys_of_type status orig_ty
794 let keys_of_term status t =
795 let status, orig_ty = typeof status (ctx_of t) t in
796 keys_of_type status orig_ty
799 let mk_th_cache status gl =
801 (fun (status, acc) g ->
802 let gty = get_goalty status g in
803 let ctx = ctx_of gty in
804 noprint(lazy("th cache for: "^ppterm status gty));
805 noprint(lazy("th cache in: "^ppcontext status ctx));
806 if List.mem_assq ctx acc then status, acc else
807 let idx = InvRelDiscriminationTree.empty in
810 (fun (status, i, idx) _ ->
811 let t = mk_cic_term ctx (NCic.Rel i) in
812 let status, keys = keys_of_term status t in
813 noprint(lazy("indexing: "^ppterm status t ^ ": " ^ string_of_int (List.length keys)));
815 List.fold_left (fun idx k ->
816 InvRelDiscriminationTree.index idx k t) idx keys
821 status, (ctx, idx) :: acc)
825 let all_elements ctx cache =
826 let dummy = mk_cic_term ctx (NCic.Meta (0,(0, (NCic.Irl 0)))) in
828 let idx = List.assq ctx cache in
829 Ncic_termSet.elements
830 (InvRelDiscriminationTree.retrieve_unifiables idx dummy)
833 let add_to_th t c ty =
834 let key_c = ctx_of t in
835 if not (List.mem_assq key_c c) then
836 (key_c ,InvRelDiscriminationTree.index
837 InvRelDiscriminationTree.empty ty t ) :: c
839 let rec replace = function
841 | (x, idx) :: tl when x == key_c ->
842 (x, InvRelDiscriminationTree.index idx ty t) :: tl
843 | x :: tl -> x :: replace tl
848 let rm_from_th t c ty =
849 let key_c = ctx_of t in
850 if not (List.mem_assq key_c c) then assert false
852 let rec replace = function
854 | (x, idx) :: tl when x == key_c ->
855 (x, InvRelDiscriminationTree.remove_index idx ty t) :: tl
856 | x :: tl -> x :: replace tl
861 let pp_idx status idx =
862 InvRelDiscriminationTree.iter idx
864 noprint(lazy("K: " ^ NCicInverseRelIndexable.string_of_path k));
866 (fun t -> debug_print(lazy("\t"^ppterm status t)))
870 let pp_th (status: #NTacStatus.pstatus) =
873 noprint(lazy( "-----------------------------------------------"));
874 noprint(lazy( (status#ppcontext ~metasenv:[] ~subst:[] ctx)));
875 noprint(lazy( "||====> "));
879 let search_in_th gty th =
880 let c = ctx_of gty in
881 let rec aux acc = function
882 | [] -> (* Ncic_termSet.elements *) acc
885 let idx = List.assoc(*q*) k th in
886 let acc = Ncic_termSet.union acc
887 (InvRelDiscriminationTree.retrieve_unifiables idx gty)
890 with Not_found -> aux acc tl
892 aux Ncic_termSet.empty c
896 do_types : bool; (* solve goals in Type *)
897 last : bool; (* last goal: take first solution only *)
898 candidates: Ast.term list option;
899 local_candidates: bool;
906 {facts : th_cache; (* positive results *)
907 under_inspection : cic_term list * th_cache; (* to prune looping *)
908 failures : th_cache; (* to avoid repetitions *)
909 unit_eq : NCicParamod.state;
913 let add_to_trace status ~depth cache t =
916 debug_print ~depth (lazy ("Adding to trace: " ^ NotationPp.pp_term status t));
917 {cache with trace = t::cache.trace}
918 | Ast.NCic _ (* local candidate *)
919 | _ -> (*not an application *) cache
921 let pptrace status tr =
922 (lazy ("Proof Trace: " ^ (String.concat ";"
923 (List.map (NotationPp.pp_term status) tr))))
925 let remove_from_trace cache t =
928 (match cache.trace with
929 | _::tl -> {cache with trace = tl}
931 | Ast.NCic _ (* local candidate *)
932 | _ -> (*not an application *) cache *)
935 type goal = int * sort (* goal, depth, sort *)
936 type fail = goal * cic_term
937 type candidate = int * Ast.term (* unique candidate number, candidate *)
939 exception Gaveup of th_cache (* failure cache *)
940 exception Proved of NTacStatus.tac_status * Ast.term list
942 (* let close_failures _ c = c;; *)
943 (* let prunable _ _ _ = false;; *)
944 (* let cache_examine cache gty = `Notfound;; *)
945 (* let put_in_subst s _ _ _ = s;; *)
946 (* let add_to_cache_and_del_from_orlist_if_green_cut _ _ c _ _ o f _ = c, o, f, false ;; *)
947 (* let cache_add_underinspection c _ _ = c;; *)
949 let init_cache ?(facts=[]) ?(under_inspection=[],[])
951 ?(unit_eq=NCicParamod.empty_state)
956 under_inspection = under_inspection;
960 let only signature _context candidate = true
962 (* TASSI: nel trie ci mettiamo solo il body, non il ty *)
964 NCicTypeChecker.typeof ~subst:[] ~metasenv:[] [] candidate
966 let height = fast_height_of_term status candidate_ty in
967 let rc = signature >= height in
969 noprint (lazy ("Filtro: " ^ status#ppterm ~context:[] ~subst:[]
970 ~metasenv:[] candidate ^ ": " ^ string_of_int height))
972 noprint (lazy ("Tengo: " ^ status#ppterm ~context:[] ~subst:[]
973 ~metasenv:[] candidate ^ ": " ^ string_of_int height));
978 let candidate_no = ref 0;;
980 let openg_no status = List.length (head_goals status#stack)
982 let sort_candidates status ctx candidates =
983 let _,_,metasenv,subst,_ = status#obj in
985 let status,ct = disambiguate status ctx ("",0,cand) `XTNone in
986 let status,t = term_of_cic_term status ct ctx in
987 let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
988 let res = branch status (mk_cic_term ctx ty) in
989 noprint (lazy ("branch factor for: " ^ (ppterm status ct) ^ " = "
990 ^ (string_of_int res)));
993 let candidates = List.map (fun t -> branch t,t) candidates in
995 List.sort (fun (a,_) (b,_) -> a - b) candidates in
996 let candidates = List.map snd candidates in
997 noprint (lazy ("candidates =\n" ^ (String.concat "\n"
998 (List.map (NotationPp.pp_term status) candidates))));
1001 let sort_new_elems l =
1002 List.sort (fun (_,s1) (_,s2) -> openg_no s1 - openg_no s2) l
1004 let rec stack_goals level gs =
1005 if level = 0 then []
1007 | [] -> assert false
1009 let is_open = function
1010 | (_,Continuationals.Stack.Open i) -> Some i
1011 | (_,Continuationals.Stack.Closed _) -> None
1013 HExtlib.filter_map is_open g @ stack_goals (level-1) s
1016 let open_goals level status = stack_goals level status#stack
1019 let try_candidate ?(smart=0) flags depth status eq_cache ctx t =
1021 let old_og_no = List.length (open_goals (depth+1) status) in
1022 debug_print ~depth (lazy ("try " ^ (string_of_int smart) ^ " : "
1023 ^ (NotationPp.pp_term status) t));
1025 if smart = 0 then NTactics.apply_tac ("",0,t) status
1026 else if smart = 1 then
1027 smart_apply_auto ("",0,t) eq_cache status
1028 else (* smart = 2: both *)
1029 try NTactics.apply_tac ("",0,t) status
1031 smart_apply_auto ("",0,t) eq_cache status
1033 (* FG: this optimization rules out some applications of
1034 * lift_bind (from contribs/lambda_delta/Basic_2/substitution/lift.ma)
1036 (* we compare the expected branching with the actual one and
1037 prune the candidate when the latter is larger. The optimization
1038 is meant to rule out stange applications of flexible terms,
1039 such as the application of eq_f that always succeeds.
1040 There is some gain but less than expected *)
1041 let og_no = List.length (open_goals (depth+1) status) in
1042 let status, cict = disambiguate status ctx ("",0,t) None in
1043 let status,ct = term_of_cic_term status cict ctx in
1044 let _,_,metasenv,subst,_ = status#obj in
1045 let ty = NCicTypeChecker.typeof status subst metasenv ctx ct in
1046 let res = branch status (mk_cic_term ctx ty) in
1047 let diff = og_no - old_og_no in
1048 debug_print (lazy ("expected branching: " ^ (string_of_int res)));
1049 debug_print (lazy ("actual: branching" ^ (string_of_int diff)));
1050 (* some flexibility *)
1051 if og_no - old_og_no > res then
1052 (debug_print (lazy ("branch factor for: " ^ (ppterm status cict) ^ " = "
1053 ^ (string_of_int res) ^ " vs. " ^ (string_of_int og_no)));
1054 debug_print ~depth (lazy "strange application"); None)
1056 *) (incr candidate_no; Some ((!candidate_no,t),status))
1057 with Error (msg,exn) -> debug_print ~depth (lazy "failed"); None
1060 let sort_of status subst metasenv ctx t =
1061 let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
1062 let metasenv',ty = NCicUnification.fix_sorts status metasenv subst ty in
1063 assert (metasenv = metasenv');
1064 NCicTypeChecker.typeof status subst metasenv ctx ty
1067 let type0= NUri.uri_of_string ("cic:/matita/pts/Type0.univ")
1070 let perforate_small status subst metasenv context t =
1071 let rec aux = function
1072 | NCic.Appl (hd::tl) ->
1074 let s = sort_of status subst metasenv context t in
1076 | NCic.Sort(NCic.Type [`Type,u])
1077 when u=type0 -> NCic.Meta (0,(0,NCic.Irl 0))
1080 NCic.Appl (hd::List.map map tl)
1086 let get_cands retrieve_for diff empty gty weak_gty =
1087 let cands = retrieve_for gty in
1089 | None -> cands, empty
1091 let more_cands = retrieve_for weak_gty in
1092 cands, diff more_cands cands
1095 let is_a_needed_uri s d =
1096 prerr_endline ("DEBUG: " ^ d ^ ": "^ s);
1097 s = "cic:/matita/basics/logic/eq.ind" ||
1098 s = "cic:/matita/basics/logic/sym_eq.con" ||
1099 s = "cic:/matita/basics/logic/trans_eq.con" ||
1100 s = "cic:/matita/basics/logic/eq_f3.con" ||
1101 s = "cic:/matita/basics/logic/eq_f2.con" ||
1102 s = "cic:/matita/basics/logic/eq_f.con"
1104 let get_candidates ?(smart=true) ~pfailed depth flags status cache signature gty =
1105 let universe = status#auto_cache in
1106 let _,_,metasenv,subst,_ = status#obj in
1107 let context = ctx_of gty in
1108 let _, raw_gty = term_of_cic_term status gty context in
1109 let is_prod, is_eq =
1110 let status, t = term_of_cic_term status gty context in
1111 let t = NCicReduction.whd status subst context t in
1113 | NCic.Prod _ -> true, false
1114 | _ -> false, NCicParamod.is_equation status metasenv subst context t
1116 debug_print ~depth (lazy ("gty:" ^ NTacStatus.ppterm status gty));
1118 NCicParamod.is_equation status metasenv subst context raw_gty
1120 let raw_weak_gty, weak_gty =
1127 perforate_small status subst metasenv context raw_gty in
1128 let weak = mk_cic_term context raw_weak in
1129 noprint ~depth (lazy ("weak_gty:" ^ NTacStatus.ppterm status weak));
1130 Some raw_weak, Some (weak)
1134 (* we now compute global candidates *)
1135 let global_cands, smart_global_cands =
1137 let to_ast = function
1138 | NCic.Const r when true
1139 (*is_relevant statistics r*) -> Some (Ast.NRef r)
1140 (* | NCic.Const _ -> None *)
1141 | _ -> assert false in
1143 to_ast (NDiscriminationTree.TermSet.elements s) in
1146 (NDiscriminationTree.DiscriminationTree.retrieve_unifiables universe)
1147 NDiscriminationTree.TermSet.diff
1148 NDiscriminationTree.TermSet.empty
1149 raw_gty raw_weak_gty in
1152 let global_cands,smart_global_cands =
1153 if flags.local_candidates then global_cands,smart_global_cands
1154 else let filter = List.filter (function Ast.NRef NReference.Ref (uri,_) -> is_a_needed_uri
1156 uri) "GLOBAL" | _ -> false)
1157 in filter global_cands,filter smart_global_cands
1159 (* we now compute local candidates *)
1160 let local_cands,smart_local_cands =
1163 let _status, t = term_of_cic_term status t context
1165 List.map to_ast (Ncic_termSet.elements s) in
1168 (fun ty -> search_in_th ty cache)
1169 Ncic_termSet.diff Ncic_termSet.empty gty weak_gty in
1172 let local_cands,smart_local_cands =
1173 if flags.local_candidates then local_cands,smart_local_cands
1174 else let filter = List.filter (function Ast.NRef NReference.Ref (uri,_) -> is_a_needed_uri
1176 uri) "LOCAL" | _ -> false)
1177 in filter local_cands,filter smart_local_cands
1179 (* we now splits candidates in facts or not facts *)
1180 let test = is_a_fact_ast status subst metasenv context in
1181 let by,given_candidates =
1182 match flags.candidates with
1184 | None -> false, [] in
1185 (* we compute candidates to be applied in normal mode, splitted in
1186 facts and not facts *)
1187 let candidates_facts,candidates_other =
1188 let gl1,gl2 = List.partition test global_cands in
1189 let ll1,ll2 = List.partition test local_cands in
1190 (* if the goal is an equation and paramodulation did not fail
1191 we avoid to apply unit equalities; refl is an
1192 exception since it prompts for convertibility *)
1193 let l1 = if is_eq && (not pfailed)
1194 then [Ast.Ident("refl",None)] else gl1@ll1 in
1196 (* if smart given candidates are applied in smart mode *)
1197 if by && smart then ll2
1198 else if by then given_candidates@ll2
1202 (* we now compute candidates to be applied in smart mode, splitted in
1203 facts and not facts *)
1204 let smart_candidates_facts, smart_candidates_other =
1205 if is_prod || not(smart) then [],[]
1207 let sgl1,sgl2 = List.partition test smart_global_cands in
1208 let sll1,sll2 = List.partition test smart_local_cands in
1209 let l1 = if is_eq then [] else sgl1@sll1 in
1211 if by && smart then given_candidates@sll2
1212 else if by then sll2
1217 smart_candidates_facts,
1218 sort_candidates status context (candidates_other),
1219 sort_candidates status context (smart_candidates_other)
1222 let applicative_case ~pfailed depth signature status flags gty cache =
1223 app_counter:= !app_counter+1;
1224 let _,_,metasenv,subst,_ = status#obj in
1225 let context = ctx_of gty in
1226 let tcache = cache.facts in
1227 let is_prod, is_eq =
1228 let status, t = term_of_cic_term status gty context in
1229 let t = NCicReduction.whd status subst context t in
1231 | NCic.Prod _ -> true, false
1232 | _ -> false, NCicParamod.is_equation status metasenv subst context t
1234 debug_print ~depth (lazy (string_of_bool is_eq));
1236 let candidates_facts, smart_candidates_facts,
1237 candidates_other, smart_candidates_other =
1238 get_candidates ~smart:true ~pfailed depth
1239 flags status tcache signature gty
1241 let sm = if is_eq || is_prod then 0 else 2 in
1242 let sm1 = if flags.last then 2 else 0 in
1243 let maxd = (depth + 1 = flags.maxdepth) in
1244 let try_candidates only_one sm acc candidates =
1247 if (only_one && (elems <> [])) then elems
1249 match try_candidate (~smart:sm)
1250 flags depth status cache.unit_eq context cand with
1252 | Some x -> x::elems)
1255 (* if the goal is the last one we stop at the first fact *)
1256 let elems = try_candidates flags.last sm [] candidates_facts in
1257 (* now we add smart_facts *)
1258 let elems = try_candidates flags.last sm elems smart_candidates_facts in
1259 (* if we are at maxdepth and the goal is not a product we are done
1260 similarly, if the goal is the last one and we already found a
1262 if (maxd && not(is_prod)) || (flags.last && elems<>[]) then elems
1264 let elems = try_candidates false 2 elems candidates_other in
1265 debug_print ~depth (lazy ("not facts: try smart application"));
1266 try_candidates false 2 elems smart_candidates_other
1272 (* gty is supposed to be meta-closed *)
1273 let is_subsumed depth filter_depth status gty cache =
1274 if cache=[] then false else (
1275 debug_print ~depth (lazy("Subsuming " ^ (ppterm status gty)));
1276 let n,h,metasenv,subst,obj = status#obj in
1277 let ctx = ctx_of gty in
1278 let _ , raw_gty = term_of_cic_term status gty ctx in
1279 let target = NCicSubstitution.lift status 1 raw_gty in
1280 (* we compute candidates using the perforated type *)
1287 perforate_small status subst metasenv ctx raw_gty in
1288 let weak = mk_cic_term ctx raw_weak in
1289 debug_print ~depth (lazy ("weak_gty:" ^ NTacStatus.ppterm status weak));
1293 (* candidates must only be searched w.r.t the given context *)
1296 let idx = List.assq ctx cache in
1299 Ncic_termSet.elements
1300 (InvRelDiscriminationTree.retrieve_unifiables idx weak)
1302 with Not_found -> []
1304 (* this is a dirty trick: the first argument of an application is used
1305 to remember at which depth a goal failed *)
1307 let ctx = ctx_of t in
1308 let _, src = term_of_cic_term status t ctx in
1310 | NCic.Appl [NCic.Implicit (`Typeof d); t]
1311 when d <= depth -> Some (mk_cic_term ctx t)
1314 if filter_depth then HExtlib.filter_map filter candidates else candidates in
1316 (lazy ("failure candidates: " ^ string_of_int (List.length candidates)));
1320 let _ , source = term_of_cic_term status t ctx in
1322 NCic.Prod("foo",source,target) in
1323 let metasenv,j,_,_ =
1324 NCicMetaSubst.mk_meta
1325 metasenv ctx ~with_type:implication `IsType in
1326 let status = status#set_obj (n,h,metasenv,subst,obj) in
1327 let status = status#set_stack [([1,Open j],[],[],`NoTag,[])] in
1329 let status = NTactics.intro_tac "foo" status in
1331 NTactics.apply_tac ("",0,Ast.NCic (NCic.Rel 1)) status
1333 if (head_goals status#stack = []) then raise Found
1338 with Found -> debug_print ~depth (lazy "success");true)
1341 let rec guess_name name ctx =
1342 if name = "_" then guess_name "auto" ctx else
1343 if not (List.mem_assoc name ctx) then name else
1344 guess_name (name^"'") ctx
1347 let is_prod status =
1348 let _, ctx, gty = current_goal status in
1349 let status, gty = apply_subst status ctx gty in
1350 let _, raw_gty = term_of_cic_term status gty ctx in
1352 | NCic.Prod (name,src,_) ->
1353 let status, src = whd status ~delta:0 ctx (mk_cic_term ctx src) in
1354 (match snd (term_of_cic_term status src ctx) with
1355 | NCic.Const(NReference.Ref (_,NReference.Ind _) as r)
1356 | NCic.Appl (NCic.Const(NReference.Ref (_,NReference.Ind _) as r)::_) ->
1357 let _,_,itys,_,_ = NCicEnvironment.get_checked_indtys status r in
1359 (* | [_,_,_,[_;_]] con nat va, ovviamente, in loop *)
1361 | [_,_,_,[]] -> `Inductive (guess_name name ctx)
1362 | _ -> `Some (guess_name name ctx))
1363 | _ -> `Some (guess_name name ctx))
1366 let intro ~depth status facts name =
1367 let status = NTactics.intro_tac name status in
1368 let _, ctx, ngty = current_goal status in
1369 let t = mk_cic_term ctx (NCic.Rel 1) in
1370 let status, keys = keys_of_term status t in
1371 let facts = List.fold_left (add_to_th t) facts keys in
1372 debug_print ~depth (lazy ("intro: "^ name));
1373 (* unprovability is not stable w.r.t introduction *)
1377 let rec intros_facts ~depth status facts =
1378 if List.length (head_goals status#stack) <> 1 then status, facts else
1379 match is_prod status with
1383 intro ~depth status facts name
1384 in intros_facts ~depth status facts
1385 (* | `Inductive name ->
1386 let status = NTactics.case1_tac name status in
1387 intros_facts ~depth status facts *)
1388 | _ -> status, facts
1391 let intros ~depth status ?(use_given_only=false) cache =
1392 match is_prod status with
1395 let trace = cache.trace in
1397 intros_facts ~depth status cache.facts
1399 if head_goals status#stack = [] then
1400 let status = NTactics.merge_tac status in
1401 [(0,Ast.Ident("__intros",None)),status], cache
1403 (* we reindex the equation from scratch *)
1404 let unit_eq = index_local_equations status#eq_cache status ~flag:use_given_only in
1405 let status = NTactics.merge_tac status in
1406 [(0,Ast.Ident("__intros",None)),status],
1407 init_cache ~facts ~unit_eq () ~trace
1411 let reduce ~whd ~depth status g =
1412 let n,h,metasenv,subst,o = status#obj in
1413 let attr, ctx, ty = NCicUtils.lookup_meta g metasenv in
1414 let ty = NCicUntrusted.apply_subst status subst ctx ty in
1416 (if whd then NCicReduction.whd else NCicTacReduction.normalize) status ~subst ctx ty
1421 (lazy ("reduced to: "^ status#ppterm ctx subst metasenv ty'));
1423 (g,(attr,ctx,ty'))::(List.filter (fun (i,_) -> i<>g) metasenv)
1425 let status = status#set_obj (n,h,metasenv,subst,o) in
1426 (* we merge to gain a depth level; the previous goal level should
1428 let status = NTactics.merge_tac status in
1430 [(!candidate_no,Ast.Ident("__whd",None)),status])
1433 let is_meta status gty =
1434 let _, ty = term_of_cic_term status gty (ctx_of gty) in
1436 | NCic.Meta _ -> true
1440 let do_something signature flags status g depth gty ?(use_given_only=false) cache =
1441 (* if the goal is meta we close it with I:True. This should work
1442 thanks to the toplogical sorting of goals. *)
1443 if is_meta status gty then
1444 let t = Ast.Ident("I",None) in
1445 debug_print (lazy ("using default term" ^ (NotationPp.pp_term status) t));
1446 let s = NTactics.apply_tac ("",0,t) status in
1449 let l0, cache = intros ~depth status cache ~use_given_only in
1450 if l0 <> [] then l0, cache
1453 let l = reduce ~whd:true ~depth status g in
1454 (* if l <> [] then l,cache else *)
1455 (* backward aplications *)
1460 ((!candidate_no,Ast.Ident("__paramod",None)),s))
1461 (auto_eq_check cache.unit_eq status)
1464 if ((l1 <> []) && flags.last) then [] else
1465 applicative_case ~pfailed:(l1=[]) depth signature status flags gty cache
1469 (fun ((_,t),_) -> toref incr_nominations statistics t) l2;
1470 (* states in l1 have have an empty set of subgoals: no point to sort them *)
1472 (lazy ("alternatives = " ^ (string_of_int (List.length (l1@l@l2)))));
1473 (* we order alternatives w.r.t the number of subgoals they open *)
1474 l1 @ (sort_new_elems l2) @ l, cache
1477 let pp_goal = function
1478 | (_,Continuationals.Stack.Open i)
1479 | (_,Continuationals.Stack.Closed i) -> string_of_int i
1482 let pp_goals status l =
1486 let gty = get_goalty status i in
1487 NTacStatus.ppterm status gty)
1494 let compare = Pervasives.compare
1498 module MS = HTopoSort.Make(M)
1501 let sort_tac status =
1503 match status#stack with
1504 | [] -> assert false
1505 | (goals, t, k, tag, p) :: s ->
1506 let g = head_goals status#stack in
1508 (List.rev (MS.topological_sort g (deps status))) in
1509 noprint (lazy ("old g = " ^
1510 String.concat "," (List.map string_of_int g)));
1511 noprint (lazy ("sorted goals = " ^
1512 String.concat "," (List.map string_of_int sortedg)));
1513 let is_it i = function
1514 | (_,Continuationals.Stack.Open j )
1515 | (_,Continuationals.Stack.Closed j ) -> i = j
1518 List.map (fun i -> List.find (is_it i) goals) sortedg
1520 (sorted_goals, t, k, tag, p) :: s
1522 status#set_stack gstatus
1525 let clean_up_tac status =
1527 match status#stack with
1528 | [] -> assert false
1529 | (g, t, k, tag, p) :: s ->
1530 let is_open = function
1531 | (_,Continuationals.Stack.Open _) -> true
1532 | (_,Continuationals.Stack.Closed _) -> false
1534 let g' = List.filter is_open g in
1535 (g', t, k, tag, p) :: s
1537 status#set_stack gstatus
1540 let focus_tac focus status =
1542 match status#stack with
1543 | [] -> assert false
1544 | (g, t, k, tag) :: s ->
1545 let in_focus = function
1546 | (_,Continuationals.Stack.Open i)
1547 | (_,Continuationals.Stack.Closed i) -> List.mem i focus
1549 let focus,others = List.partition in_focus g
1551 (* we need to mark it as a BranchTag, otherwise cannot merge later *)
1552 (focus,[],[],`BranchTag) :: (others, t, k, tag) :: s
1554 status#set_stack gstatus
1557 let deep_focus_tac level focus status =
1558 let in_focus = function
1559 | (_,Continuationals.Stack.Open i)
1560 | (_,Continuationals.Stack.Closed i) -> List.mem i focus
1562 let rec slice level gs =
1563 if level = 0 then [],[],gs else
1565 | [] -> assert false
1566 | (g, t, k, tag,p) :: s ->
1567 let f,o,gs = slice (level-1) s in
1568 let f1,o1 = List.partition in_focus g
1570 (f1,[],[],`BranchTag, [])::f, (o1, t, k, tag, p)::o, gs
1573 let f,o,s = slice level status#stack in f@o@s
1575 status#set_stack gstatus
1578 let move_to_side level status =
1579 match status#stack with
1580 | [] -> assert false
1581 | (g,_,_,_,_)::tl ->
1582 let is_open = function
1583 | (_,Continuationals.Stack.Open i) -> Some i
1584 | (_,Continuationals.Stack.Closed _) -> None
1586 let others = menv_closure status (stack_goals (level-1) tl) in
1587 List.for_all (fun i -> IntSet.mem i others)
1588 (HExtlib.filter_map is_open g)
1590 let top_cache ~depth top status ?(use_given_only=false) cache =
1592 let unit_eq = index_local_equations status#eq_cache status ~flag:use_given_only in
1593 {cache with unit_eq = unit_eq}
1596 let rec auto_clusters ?(top=false) flags signature cache depth ?(use_given_only=false) status : unit =
1597 debug_print ~depth (lazy ("entering auto clusters at depth " ^
1598 (string_of_int depth)));
1599 debug_print ~depth (pptrace status cache.trace);
1600 (* ignore(Unix.select [] [] [] 0.01); *)
1601 let status = clean_up_tac status in
1602 let goals = head_goals status#stack in
1604 if depth = 0 then raise (Proved (status, cache.trace))
1606 let status = NTactics.merge_tac status in
1608 let l,tree = cache.under_inspection in
1610 | [] -> cache (* possible because of intros that cleans the cache *)
1611 | a::tl -> let tree = rm_from_th a tree a in
1612 {cache with under_inspection = tl,tree}
1614 auto_clusters flags signature cache (depth-1) status ~use_given_only
1615 else if List.length goals < 2 then
1616 let cache = top_cache ~depth top status cache ~use_given_only in
1617 auto_main flags signature cache depth status ~use_given_only
1619 let all_goals = open_goals (depth+1) status in
1620 debug_print ~depth (lazy ("goals = " ^
1621 String.concat "," (List.map string_of_int all_goals)));
1622 let classes = HExtlib.clusters (deps status) all_goals in
1623 (* if any of the classes exceed maxwidth we fail *)
1626 if List.length gl > flags.maxwidth then
1628 debug_print ~depth (lazy "FAIL GLOBAL WIDTH");
1629 HLog.warn (sprintf "global width (%u) exceeded: %u"
1630 flags.maxwidth (List.length gl));
1631 raise (Gaveup cache.failures)
1632 end else ()) classes;
1633 if List.length classes = 1 then
1635 {flags with last = (List.length all_goals = 1)} in
1636 (* no need to cluster *)
1637 let cache = top_cache ~depth top status cache ~use_given_only in
1638 auto_main flags signature cache depth status ~use_given_only
1640 let classes = if top then List.rev classes else classes in
1646 ("cluster:" ^ String.concat "," (List.map string_of_int l)))
1648 (* we now process each cluster *)
1649 let status,cache,b =
1651 (fun (status,cache,b) gl ->
1653 {flags with last = (List.length gl = 1)} in
1654 let lold = List.length status#stack in
1655 debug_print ~depth (lazy ("stack length = " ^
1656 (string_of_int lold)));
1657 let fstatus = deep_focus_tac (depth+1) gl status in
1658 let cache = top_cache ~depth top fstatus cache ~use_given_only in
1660 debug_print ~depth (lazy ("focusing on" ^
1661 String.concat "," (List.map string_of_int gl)));
1662 auto_main flags signature cache depth fstatus ~use_given_only; assert false
1664 | Proved(status,trace) ->
1665 let status = NTactics.merge_tac status in
1666 let cache = {cache with trace = trace} in
1667 let lnew = List.length status#stack in
1668 assert (lold = lnew);
1670 | Gaveup failures when top ->
1671 let cache = {cache with failures = failures} in
1674 (status,cache,false) classes
1676 let rec final_merge n s =
1677 if n = 0 then s else final_merge (n-1) (NTactics.merge_tac s)
1678 in let status = final_merge depth status
1679 in if b then raise (Proved(status,cache.trace)) else raise (Gaveup cache.failures)
1683 (* BRAND NEW VERSION *)
1684 auto_main flags signature cache depth status ?(use_given_only=false): unit=
1685 debug_print ~depth (lazy "entering auto main");
1686 debug_print ~depth (pptrace status cache.trace);
1687 debug_print ~depth (lazy ("stack length = " ^
1688 (string_of_int (List.length status#stack))));
1689 (* ignore(Unix.select [] [] [] 0.01); *)
1690 let status = sort_tac (clean_up_tac status) in
1691 let goals = head_goals status#stack in
1693 | [] when depth = 0 -> raise (Proved (status,cache.trace))
1695 let status = NTactics.merge_tac status in
1697 let l,tree = cache.under_inspection in
1699 | [] -> cache (* possible because of intros that cleans the cache *)
1700 | a::tl -> let tree = rm_from_th a tree a in
1701 {cache with under_inspection = tl,tree}
1703 auto_clusters flags signature cache (depth-1) status ~use_given_only
1705 if depth > 0 && move_to_side depth status
1707 let status = NTactics.merge_tac status in
1709 let l,tree = cache.under_inspection in
1711 | [] -> cache (* possible because of intros that cleans the cache*)
1712 | a::tl -> let tree = rm_from_th a tree a in
1713 {cache with under_inspection = tl,tree}
1715 auto_clusters flags signature cache (depth-1) status ~use_given_only
1717 let ng = List.length goals in
1718 (* moved inside auto_clusters *)
1719 if ng > flags.maxwidth then begin
1720 debug_print ~depth (lazy "FAIL LOCAL WIDTH");
1721 HLog.warn (sprintf "local width (%u) exceeded: %u"
1723 raise (Gaveup cache.failures)
1724 end else if depth = flags.maxdepth then
1725 raise (Gaveup cache.failures)
1727 let status = NTactics.branch_tac ~force:true status in
1728 let g,gctx, gty = current_goal status in
1729 let ctx,ty = close status g in
1730 let closegty = mk_cic_term ctx ty in
1731 let status, gty = apply_subst status gctx gty in
1732 debug_print ~depth (lazy("Attacking goal " ^
1733 string_of_int g ^ " : "^ppterm status gty));
1734 debug_print ~depth (lazy ("current failures: " ^
1735 string_of_int (List.length (all_elements ctx cache.failures))));
1737 let _,_,metasenv,subst,_ = status#obj in
1738 NCicParamod.is_equation status metasenv subst ctx ty in
1739 (* if the goal is an equality we artificially raise its depth up to
1740 flags.maxdepth - 1 *)
1741 if (not flags.last && is_eq && (depth < (flags.maxdepth -2))) then
1742 (* for efficiency reasons, in this case we severely cripple the
1744 (debug_print ~depth (lazy ("RAISING DEPTH TO " ^ string_of_int (depth+1)));
1745 auto_main flags signature cache (depth+1) status ~use_given_only)
1746 (* check for loops *)
1747 else if is_subsumed depth false status closegty (snd cache.under_inspection) then
1748 (debug_print ~depth (lazy "SUBSUMED");
1749 raise (Gaveup cache.failures))
1750 (* check for failures *)
1751 else if is_subsumed depth true status closegty cache.failures then
1752 (debug_print ~depth (lazy "ALREADY MET");
1753 raise (Gaveup cache.failures))
1755 let new_sig = height_of_goal g status in
1756 if new_sig < signature then
1757 (debug_print ~depth (lazy ("news = " ^ (string_of_int new_sig)));
1758 debug_print ~depth (lazy ("olds = " ^ (string_of_int signature))));
1759 let alternatives, cache =
1760 do_something signature flags status g depth gty cache ~use_given_only in
1763 let l,tree = cache.under_inspection in
1764 let l,tree = closegty::l, add_to_th closegty tree closegty in
1765 {cache with under_inspection = l,tree}
1769 (fun allfailures ((_,t),status) ->
1771 (lazy ("(re)considering goal " ^
1772 (string_of_int g) ^" : "^ppterm status gty));
1773 debug_print (~depth:depth)
1774 (lazy ("Case: " ^ NotationPp.pp_term status t));
1776 if t=Ast.Ident("__whd",None) ||
1777 t=Ast.Ident("__intros",None)
1779 else depth+1,loop_cache in
1780 let cache = add_to_trace status ~depth cache t in
1781 let cache = {cache with failures = allfailures} in
1783 auto_clusters flags signature cache depth status ~use_given_only;
1786 debug_print ~depth (lazy "Failed");
1788 cache.failures alternatives in
1792 let dty = NCic.Appl [NCic.Implicit (`Typeof depth); ty] in
1795 (*prerr_endline ("FAILURE : " ^ ppterm status gty);*)
1796 add_to_th newfail failures closegty
1798 debug_print ~depth (lazy "no more candidates");
1799 raise (Gaveup failures)
1802 let int name l def =
1803 try int_of_string (List.assoc name l)
1804 with Failure _ | Not_found -> def
1807 module AstSet = Set.Make(struct type t = Ast.term let compare = compare end)
1809 let cleanup_trace s trace =
1810 (* removing duplicates *)
1813 (fun acc t -> AstSet.add t acc)
1814 AstSet.empty trace in
1815 let trace = AstSet.elements trace_set
1816 (* filtering facts *)
1820 | Ast.NRef (NReference.Ref (u,_)) -> not (is_a_fact_obj s u)
1826 - auto_params e' una high tactic che prende in input i parametri e poi li
1827 processa nel contesto vuoto calcolando i candidate
1829 - astrarla su una auto_params' che prende in input gia' i candidate e un
1830 nuovo parametro per evitare il calcolo dei candidate locali che invece
1831 diventano vuoti (ovvero: non usare automaticamente tutte le ipotesi, bensi'
1834 - reimplementi la auto_params chiamando la auto_params' con il flag a
1835 false e il vecchio codice per andare da parametri a candiddati
1836 OVVERO: usa tutti le ipotesi locali + candidati globali
1838 - crei un nuovo entry point lowtac che calcola i candidati usando il contesto
1839 corrente e poi fa exec della auto_params' con i candidati e il flag a true
1840 OVVERO: usa solo candidati globali che comprendono ipotesi locali
1843 type auto_params = NTacStatus.tactic_term list option * (string * string) list
1845 (*let auto_tac ~params:(univ,flags) ?(trace_ref=ref []) status =*)
1846 let auto_tac' candidates ~local_candidates ?(use_given_only=false) flags ?(trace_ref=ref []) status =
1847 let oldstatus = status in
1848 let status = (status:> NTacStatus.tac_status) in
1849 let goals = head_goals status#stack in
1850 let status, facts = mk_th_cache status goals in
1851 (* let unit_eq = index_local_equations status#eq_cache status in *)
1852 let cache = init_cache ~facts () in
1853 (* pp_th status facts; *)
1855 NDiscriminationTree.DiscriminationTree.iter status#auto_cache (fun p t ->
1857 NDiscriminationTree.NCicIndexable.string_of_path p ^ " |--> " ^
1858 String.concat "\n " (List.map (
1859 status#ppterm ~metasenv:[] ~context:[] ~subst:[])
1860 (NDiscriminationTree.TermSet.elements t))
1863 let depth = int "depth" flags 3 in
1864 let size = int "size" flags 10 in
1865 let width = int "width" flags 4 (* (3+List.length goals)*) in
1867 (* let goals = List.map (fun i -> (i,P)) goals in *)
1868 let signature = height_of_goals status in
1871 candidates = candidates;
1872 local_candidates = local_candidates;
1878 let initial_time = Unix.gettimeofday() in
1883 ("TIME ELAPSED:"^string_of_float(Unix.gettimeofday()-.initial_time)));
1885 ("Applicative nodes:"^string_of_int !app_counter));
1886 raise (Error (lazy "auto gave up", None)))
1888 let _ = debug_print (lazy("\n\nRound "^string_of_int x^"\n")) in
1889 let flags = { flags with maxdepth = x }
1891 try auto_clusters (~top:true) flags signature cache 0 status ~use_given_only;assert false
1893 try auto_main flags signature cache 0 status;assert false
1896 | Gaveup _ -> up_to (x+1) y
1897 | Proved (s,trace) ->
1898 debug_print (lazy ("proved at depth " ^ string_of_int x));
1899 List.iter (toref incr_uses statistics) trace;
1900 let trace = cleanup_trace s trace in
1901 let _ = debug_print (pptrace status trace) in
1904 | (g,t,k,f,p) :: rest -> (filter_open g,t,k,f,p):: rest
1907 let s = s#set_stack stack in
1909 oldstatus#set_status s
1911 let s = up_to depth depth in
1912 debug_print (print_stat status statistics);
1914 ("TIME ELAPSED:"^string_of_float(Unix.gettimeofday()-.initial_time)));
1916 ("Applicative nodes:"^string_of_int !app_counter));
1920 let candidates_from_ctx univ ctx status =
1925 (* FG: `XTSort here? *)
1926 let status, res = disambiguate status ctx t `XTNone in
1927 let _,res = term_of_cic_term status res (ctx_of res)
1929 in Some (List.map to_Ast l)
1931 let auto_lowtac ~params:(univ,flags as params) status goal =
1932 let gty = get_goalty status goal in
1933 let ctx = ctx_of gty in
1934 let candidates = candidates_from_ctx univ ctx status in
1935 auto_tac' candidates ~local_candidates:false ~use_given_only:true flags ~trace_ref:(ref [])
1937 let auto_tac ~params:(univ,flags) ?(trace_ref=ref []) status =
1938 let candidates = candidates_from_ctx univ [] status in
1939 auto_tac' candidates ~local_candidates:true ~use_given_only:false flags ~trace_ref status
1941 let auto_tac ~params:(_,flags as params) ?trace_ref =
1942 if List.mem_assoc "demod" flags then
1944 else if List.mem_assoc "paramod" flags then
1946 else if List.mem_assoc "fast_paramod" flags then
1947 fast_eq_check_tac ~params
1948 else auto_tac ~params ?trace_ref