let debug_print s =
if debug then prerr_endline (Lazy.force s);;
+
+let mk_irl ctx = CicMkImplicit.identity_relocation_list_for_metavariable ctx;;
+let ugraph = CicUniv.oblivion_ugraph;;
+let typeof = CicTypeChecker.type_of_aux';;
+let ppterm ctx t =
+ let names = List.map (function None -> None | Some (x,_) -> Some x) ctx in
+ CicPp.pp t names
+;;
+let is_propositional context sort =
+ match CicReduction.whd context sort with
+ | Cic.Sort Cic.Prop
+ | Cic.Sort (Cic.CProp _) -> true
+ | _-> false
+;;
+let is_in_prop context subst metasenv ty =
+ let sort,u = typeof ~subst metasenv context ty CicUniv.oblivion_ugraph in
+ is_propositional context sort
+;;
+
+exception NotConvertible;;
+
+let check_proof_is_valid proof metasenv context goalty =
+ if debug then
+ begin
+ try
+ let ty,u = typeof metasenv context proof CicUniv.oblivion_ugraph in
+ let b,_ = CicReduction.are_convertible context ty goalty u in
+ if not b then raise NotConvertible else b
+ with _ ->
+ let names =
+ List.map (function None -> None | Some (x,_) -> Some x) context
+ in
+ debug_print (lazy ("PROOF:" ^ CicPp.pp proof names));
+ (* debug_print (lazy ("PROOFTY:" ^ CicPp.pp ty names)); *)
+ debug_print (lazy ("GOAL:" ^ CicPp.pp goalty names));
+ debug_print (lazy ("MENV:" ^ CicMetaSubst.ppmetasenv [] metasenv));
+ false
+ end
+ else true
+;;
+
+let assert_proof_is_valid proof metasenv context goalty =
+ assert (check_proof_is_valid proof metasenv context goalty)
+;;
+
+let assert_subst_are_disjoint subst subst' =
+ if debug then
+ assert(List.for_all
+ (fun (i,_) -> List.for_all (fun (j,_) -> i<>j) subst')
+ subst)
+ else ()
+;;
+
+let split_goals_in_prop metasenv subst gl =
+ List.partition
+ (fun g ->
+ let _,context,ty = CicUtil.lookup_meta g metasenv in
+ try
+ let sort,u = typeof ~subst metasenv context ty ugraph in
+ is_propositional context sort
+ with
+ | CicTypeChecker.AssertFailure s
+ | CicTypeChecker.TypeCheckerFailure s ->
+ debug_print
+ (lazy ("NON TIPA" ^ ppterm context (CicMetaSubst.apply_subst subst ty)));
+ debug_print s;
+ false)
+ (* FIXME... they should type! *)
+ gl
+;;
+
+let split_goals_with_metas metasenv subst gl =
+ List.partition
+ (fun g ->
+ let _,context,ty = CicUtil.lookup_meta g metasenv in
+ let ty = CicMetaSubst.apply_subst subst ty in
+ CicUtil.is_meta_closed ty)
+ gl
+;;
+
+let order_new_goals metasenv subst open_goals ppterm =
+ let prop,rest = split_goals_in_prop metasenv subst open_goals in
+ let closed_prop, open_prop = split_goals_with_metas metasenv subst prop in
+ let closed_type, open_type = split_goals_with_metas metasenv subst rest in
+ let open_goals =
+ (List.map (fun x -> x,P) (open_prop @ closed_prop))
+ @
+ (List.map (fun x -> x,T) (open_type @ closed_type))
+ in
+ let tys =
+ List.map
+ (fun (i,sort) ->
+ let _,_,ty = CicUtil.lookup_meta i metasenv in i,ty,sort) open_goals
+ in
+ debug_print (lazy (" OPEN: "^
+ String.concat "\n"
+ (List.map
+ (function
+ | (i,t,P) -> string_of_int i ^ ":"^ppterm t^ "Prop"
+ | (i,t,T) -> string_of_int i ^ ":"^ppterm t^ "Type")
+ tys)));
+ open_goals
+;;
+
+let is_an_equational_goal = function
+ | Cic.Appl [Cic.MutInd(u,_,_);_;_;_] when LibraryObjects.is_eq_URI u -> true
+ | _ -> false
+;;
+
+type auto_params = Cic.term list * (string * string) list
+
let elems = ref [] ;;
(* closing a term w.r.t. its metavariables
very naif version: it does not take dependencies properly into account *)
let naif_closure ?(prefix_name="xxx_") t metasenv context =
+ let in_term t (i,_,_) =
+ List.exists (fun (j,_) -> j=i) (CicUtil.metas_of_term t)
+ in
+ let metasenv = List.filter (in_term t) metasenv in
let metasenv = ProofEngineHelpers.sort_metasenv metasenv in
let n = List.length metasenv in
let what = List.map (fun (i,cc,ty) -> Cic.Meta(i,[])) metasenv in
CicSubstitution.lift n ty,t))
(n-1,body) metasenv
in
- t
+ t, List.length metasenv
;;
let lambda_close ?prefix_name t menv ctx =
- let t = naif_closure ?prefix_name t menv ctx in
+ let t, num_lambdas = naif_closure ?prefix_name t menv ctx in
List.fold_left
- (fun t -> function
- | None -> CicSubstitution.subst (Cic.Implicit None) t (* delift *)
- | Some (name, Cic.Decl ty) -> Cic.Lambda (name, ty, t)
- | Some (name, Cic.Def (bo, _)) -> Cic.LetIn (name, bo, t))
- t ctx
+ (fun (t,i) -> function
+ | None -> CicSubstitution.subst (Cic.Implicit None) t,i (* delift *)
+ | Some (name, Cic.Decl ty) -> Cic.Lambda (name, ty, t),i+1
+ | Some (name, Cic.Def (bo, ty)) -> Cic.LetIn (name, bo, ty, t),i+1)
+ (t,num_lambdas) ctx
;;
(* functions for retrieving theorems *)
-exception FillingFailure of AutoCache.cache * int
+
+exception FillingFailure of AutoCache.cache * AutomationCache.tables
let rec unfold context = function
| Cic.Prod(name,s,t) ->
let terms = List.map CicUtil.term_of_uri univ in
List.map
(fun t ->
- (t,fst(CicTypeChecker.type_of_aux' [] [] t CicUniv.empty_ugraph)))
+ (t,fst(CicTypeChecker.type_of_aux' [] [] t CicUniv.oblivion_ugraph)))
terms
let find_context_theorems context metasenv =
match ctxentry with
| Some (_,Cic.Decl t) ->
(Cic.Rel i, CicSubstitution.lift i t)::res,i+1
- | Some (_,Cic.Def (_,Some t)) ->
+ | Some (_,Cic.Def (_,t)) ->
(Cic.Rel i, CicSubstitution.lift i t)::res,i+1
- | Some (_,Cic.Def (_,None)) ->
- let t = Cic.Rel i in
- let ty,_ =
- CicTypeChecker.type_of_aux'
- metasenv context t CicUniv.empty_ugraph
- in
- (t,ty)::res,i+1
- | _ -> res,i+1)
+ | None -> res,i+1)
([],1) context
in l
List.partition (fun (_,ty) -> is_an_equality ty)
-let default_auto maxm _ _ cache _ _ _ _ = [],cache,maxm ;;
+let default_auto tables _ cache _ _ _ _ = [],cache,tables ;;
+(* giusto per provare che succede
+let is_unit_equation context metasenv oldnewmeta term =
+ let head, metasenv, args, newmeta =
+ TermUtil.saturate_term oldnewmeta metasenv context term 0
+ in
+ let newmetas =
+ List.filter (fun (i,_,_) -> i >= oldnewmeta) metasenv
+ in
+ Some (args,metasenv,newmetas,head,newmeta) *)
let is_unit_equation context metasenv oldnewmeta term =
let head, metasenv, args, newmeta =
let _,_,mt = CicUtil.lookup_meta i metasenv in
let sort,u =
CicTypeChecker.type_of_aux' metasenv context mt
- CicUniv.empty_ugraph
- in
- let b, _ =
- CicReduction.are_convertible ~metasenv context
- sort (Cic.Sort Cic.Prop) u
+ CicUniv.oblivion_ugraph
in
- if b then Some i else None
+ if is_propositional context sort then Some i else None
| _ -> assert false)
args
in
if propositional_args = [] then
- let newmetas = List.filter (fun (i,_,_) -> i >= oldnewmeta) metasenv in
+ let newmetas =
+ List.filter (fun (i,_,_) -> i >= oldnewmeta) metasenv
+ in
Some (args,metasenv,newmetas,head,newmeta)
else None
;;
-let get_candidates universe cache t =
+let get_candidates skip_trie_filtering universe cache t =
+ let t = if skip_trie_filtering then Cic.Meta(0,[]) else t in
let candidates=
(Universe.get_candidates universe t)@(AutoCache.get_candidates cache t)
in
candidates
;;
-let only signature context t =
+let only signature context metasenv t =
try
- let ty,_ = CicTypeChecker.type_of_aux' [] context t CicUniv.empty_ugraph in
+ let ty,_ =
+ CicTypeChecker.type_of_aux' metasenv context t CicUniv.oblivion_ugraph
+ in
let consts = MetadataConstraints.constants_of ty in
let b = MetadataConstraints.UriManagerSet.subset consts signature in
+(* if b then (prerr_endline ("keeping " ^ (CicPp.ppterm t)); b) *)
if b then b
else
- try
- let ty' = unfold context ty in
- let consts' = MetadataConstraints.constants_of ty' in
- MetadataConstraints.UriManagerSet.subset consts' signature
- with _-> false
- with _ -> false
+ let ty' = unfold context ty in
+ let consts' = MetadataConstraints.constants_of ty' in
+ let b = MetadataConstraints.UriManagerSet.subset consts' signature in
+(*
+ if not b then prerr_endline ("filtering " ^ (CicPp.ppterm t))
+ else prerr_endline ("keeping " ^ (CicPp.ppterm t));
+*)
+ b
+ with
+ | CicTypeChecker.TypeCheckerFailure _ -> assert false
+ | ProofEngineTypes.Fail _ -> false (* unfold may fail *)
;;
let not_default_eq_term t =
not (LibraryObjects.in_eq_URIs uri)
with Invalid_argument _ -> true
-let retrieve_equations signature universe cache context=
+let retrieve_equations dont_filter signature universe cache context metasenv =
match LibraryObjects.eq_URI() with
| None -> []
| Some eq_uri ->
let eq_uri = UriManager.strip_xpointer eq_uri in
let fake= Cic.Meta(-1,[]) in
let fake_eq = Cic.Appl [Cic.MutInd (eq_uri,0, []);fake;fake;fake] in
- let candidates = get_candidates universe cache fake_eq in
- (* defaults eq uris are built-in in auto *)
- let candidates = List.filter not_default_eq_term candidates in
- let candidates = List.filter (only signature context) candidates in
- List.iter (fun t -> debug_print (lazy (CicPp.ppterm t))) candidates;
- candidates
-
-let build_equality bag head args proof newmetas maxmeta =
+ let candidates = get_candidates false universe cache fake_eq in
+ if dont_filter then candidates
+ else let eq_uri = UriManager.uri_of_uriref eq_uri 0 None in
+ (* let candidates = List.filter not_default_eq_term candidates in *)
+ List.filter
+ (only (MetadataConstraints.UriManagerSet.add eq_uri signature)
+ context metasenv) candidates
+
+let build_equality bag head args proof newmetas =
match head with
| Cic.Appl [Cic.MutInd (uri, _, _); ty; t1; t2] ->
let p =
(* let w = compute_equality_weight stat in *)
let w = 0 in
let proof = Equality.Exact p in
- let e = Equality.mk_equality bag (w, proof, stat, newmetas) in
+ let bag, e = Equality.mk_equality bag (w, proof, stat, newmetas) in
(* to clean the local context of metas *)
- Equality.fix_metas bag maxmeta e
+ Equality.fix_metas bag e
| _ -> assert false
;;
let partition_unit_equalities context metasenv newmeta bag equations =
List.fold_left
- (fun (units,other,maxmeta)(t,ty) ->
+ (fun (bag,units,other,maxmeta)(t,ty) ->
+ if not (CicUtil.is_meta_closed t && CicUtil.is_meta_closed ty) then
+ let _ =
+ HLog.warn
+ ("Skipping " ^ CicMetaSubst.ppterm_in_context ~metasenv [] t context
+ ^ " since it is not meta closed")
+ in
+ bag, units,(t,ty)::other,maxmeta
+ else
match is_unit_equation context metasenv maxmeta ty with
| Some (args,metasenv,newmetas,head,newmeta') ->
- let maxmeta,equality =
- build_equality bag head args t newmetas newmeta' in
- equality::units,other,maxmeta
+ let bag, equality =
+ build_equality bag head args t newmetas in
+ bag, equality::units,other,maxmeta
| None ->
- units,(t,ty)::other,maxmeta)
- ([],[],newmeta) equations
-
-let empty_tables =
- (Saturation.make_active [],
- Saturation.make_passive [],
- Equality.mk_equality_bag)
-
-let init_cache_and_tables dbd use_library paramod universe (proof, goal) =
- (* the local cache in initially empty *)
- let cache = AutoCache.cache_empty in
- let _, metasenv, _subst,_, _, _ = proof in
- let signature = MetadataQuery.signature_of metasenv goal in
- let newmeta = CicMkImplicit.new_meta metasenv [] in
+ bag, units,(t,ty)::other,maxmeta)
+ (bag,[],[],newmeta) equations
+;;
+
+let init_cache_and_tables
+ ?dbd ~use_library ~use_context
+ automation_cache restricted_univ (proof, goal)
+=
+ let _, metasenv, _, _, _, _ = proof in
let _,context,_ = CicUtil.lookup_meta goal metasenv in
- let ct = find_context_theorems context metasenv in
- debug_print
- (lazy ("ho trovato nel contesto " ^ (string_of_int (List.length ct))));
- let lt =
- if use_library then
- find_library_theorems dbd metasenv goal
- else [] in
- debug_print
- (lazy ("ho trovato nella libreria " ^ (string_of_int (List.length lt))));
- let cache = cache_add_list cache context (ct@lt) in
+ if restricted_univ = [] then
+ let ct =
+ if use_context then find_context_theorems context metasenv else []
+ in
+ let lt =
+ match use_library, dbd with
+ | true, Some dbd -> find_library_theorems dbd metasenv goal
+ | _ -> []
+ in
+ let cache = AutoCache.cache_empty in
+ let cache = cache_add_list cache context (ct@lt) in
+ let tables =
+ let env = metasenv, context, CicUniv.oblivion_ugraph in
+ List.fold_left
+ (fun (a,p,b) (t,ty) ->
+ let mes = CicUtil.metas_of_term ty in
+ Saturation.add_to_active b a p env ty t
+ (List.filter (fun (i,_,_) -> List.mem_assoc i mes) metasenv))
+ automation_cache.AutomationCache.tables ct
+ in
+(* AutomationCache.pp_cache { automation_cache with AutomationCache.tables =
+ * tables }; *)
+ automation_cache.AutomationCache.univ, tables, cache
+ else
+ let metasenv, t_ty, s_t_ty, _ =
+ List.fold_left
+ (fun (metasenv,acc, sacc, maxmeta) t ->
+ let ty, _ =
+ CicTypeChecker.type_of_aux'
+ metasenv ~subst:[] context t CicUniv.oblivion_ugraph
+ in
+ let head, metasenv, args, maxmeta =
+ TermUtil.saturate_term maxmeta metasenv context ty 0
+ in
+ let st = if args = [] then t else Cic.Appl (t::args) in
+ metasenv, (t, ty)::acc, (st,head)::sacc, maxmeta)
+ (metasenv, [],[], CicMkImplicit.new_meta metasenv []) restricted_univ
+ in
+ let automation_cache = AutomationCache.empty () in
+ let automation_cache =
+ let universe = automation_cache.AutomationCache.univ in
+ let universe =
+ Universe.index_list universe context t_ty
+ in
+ { automation_cache with AutomationCache.univ = universe }
+ in
+ let automation_cache =
+ List.fold_left
+ (fun c (t,ty) ->
+ AutomationCache.add_term_to_active c metasenv [] context t (Some ty))
+ automation_cache s_t_ty
+ in
+(* AutomationCache.pp_cache automation_cache; *)
+ automation_cache.AutomationCache.univ,
+ automation_cache.AutomationCache.tables,
+ cache_add_list cache_empty context t_ty
+;;
+ (*
+(* let signature = MetadataQuery.signature_of metasenv goal in *)
+(* let newmeta = CicMkImplicit.new_meta metasenv [] in *)
let equations =
- retrieve_equations signature universe cache context in
+ retrieve_equations dont_filter (* true *) signature universe cache context metasenv
+ in
debug_print
(lazy ("ho trovato equazioni n. "^(string_of_int (List.length equations))));
let eqs_and_types =
HExtlib.filter_map
(fun t ->
let ty,_ =
- CicTypeChecker.type_of_aux' metasenv context t CicUniv.empty_ugraph in
- (* retrieve_equations could also return flexible terms *)
- if is_an_equality ty then Some(t,ty)
- else
- try
- let ty' = unfold context ty in
- if is_an_equality ty' then Some(t,ty') else None
- with _ -> None) (* catturare l'eccezione giusta di unfold *)
- equations in
+ CicTypeChecker.type_of_aux'
+ metasenv context t CicUniv.oblivion_ugraph
+ in
+ (* retrieve_equations could also return flexible terms *)
+ if is_an_equality ty then Some(t,ty)
+ else
+ try
+ let ty' = unfold context ty in
+ if is_an_equality ty' then Some(t,ty') else None
+ with ProofEngineTypes.Fail _ -> None)
+ equations
+ in
let bag = Equality.mk_equality_bag () in
let units, other_equalities, newmeta =
- partition_unit_equalities context metasenv newmeta bag eqs_and_types in
- (* let env = (metasenv, context, CicUniv.empty_ugraph) in
- let equalities =
- let eq_uri =
- match LibraryObjects.eq_URI() with
- | None ->assert false
- | Some eq_uri -> eq_uri in
- Saturation.simplify_equalities bag eq_uri env units in *)
+ partition_unit_equalities context metasenv newmeta bag eqs_and_types
+ in
+ (* SIMPLIFICATION STEP
+ let equalities =
+ let env = (metasenv, context, CicUniv.oblivion_ugraph) in
+ let eq_uri = HExtlib.unopt (LibraryObjects.eq_URI()) in
+ Saturation.simplify_equalities bag eq_uri env units
+ in
+ *)
let passive = Saturation.make_passive units in
let no = List.length units in
let active = Saturation.make_active [] in
context bag newmeta active passive (no+1) infinity
in
(active,passive,bag),cache,newmeta
+*)
-let fill_hypothesis context metasenv oldnewmeta term tables (universe:Universe.universe) cache auto fast =
- let head, metasenv, args, newmeta =
- TermUtil.saturate_term oldnewmeta metasenv context term 0
+let fill_hypothesis context metasenv term tables (universe:Universe.universe) cache auto fast =
+ let actives, passives, bag = tables in
+ let bag, head, metasenv, args =
+ Equality.saturate_term bag metasenv context term
in
+ let tables = actives, passives, bag in
let propositional_args =
HExtlib.filter_map
(function
let _,_,mt = CicUtil.lookup_meta i metasenv in
let sort,u =
CicTypeChecker.type_of_aux' metasenv context mt
- CicUniv.empty_ugraph
+ CicUniv.oblivion_ugraph
in
- let b, _ =
- CicReduction.are_convertible ~metasenv context
- sort (Cic.Sort Cic.Prop) u
- in
- if b then Some i else None
+ if is_propositional context sort then Some i else None
| _ -> assert false)
args
in
- let results,cache,newmeta =
+ let results,cache,tables =
if propositional_args = [] then
- let newmetas = List.filter (fun (i,_,_) -> i >= oldnewmeta) metasenv in
- [args,metasenv,newmetas,head,newmeta],cache,newmeta
+ let _,_,bag = tables in
+ let newmetas = Equality.filter_metasenv_gt_maxmeta bag metasenv in
+ [args,metasenv,newmetas,head],cache,tables
else
(*
let proof =
maxwidth = 2;maxdepth = 4;
use_paramod=true;use_only_paramod=false}
in
- match auto newmeta tables universe cache context metasenv propositional_args flags with
- | [],cache,newmeta -> raise (FillingFailure (cache,newmeta))
- | substs,cache,newmeta ->
- List.map
- (fun subst ->
+ match auto tables universe cache context metasenv propositional_args flags with
+ | [],cache,tables -> raise (FillingFailure (cache,tables))
+ | substs,cache,tables ->
+ let actives, passaives, bag = tables in
+ let bag, res =
+ List.fold_right
+ (fun subst (bag,acc) ->
let metasenv =
CicMetaSubst.apply_subst_metasenv subst metasenv
in
let head = CicMetaSubst.apply_subst subst head in
- let newmetas =
- List.filter (fun (i,_,_) ->i >= oldnewmeta) metasenv
- in
+ let newmetas = Equality.filter_metasenv_gt_maxmeta bag metasenv in
let args = List.map (CicMetaSubst.apply_subst subst) args in
let newm = CicMkImplicit.new_meta metasenv subst in
- args,metasenv,newmetas,head,max newm newmeta)
- substs, cache, newmeta
+ let bag = Equality.push_maxmeta bag newm in
+ bag, ((args,metasenv,newmetas,head) :: acc))
+ substs (bag,[])
+ in
+ let tables = actives, passives, bag in
+ res, cache, tables
in
- results,cache,newmeta
+ results,cache,tables
+;;
-let build_equalities auto context metasenv tables universe cache newmeta equations =
+let build_equalities auto context metasenv tables universe cache equations =
List.fold_left
- (fun (facts,cache,newmeta) (t,ty) ->
+ (fun (tables,facts,cache) (t,ty) ->
(* in any case we add the equation to the cache *)
let cache = AutoCache.cache_add_list cache context [(t,ty)] in
try
- let saturated,cache,newmeta =
- fill_hypothesis context metasenv newmeta ty tables universe cache auto true
+ let saturated, cache, tables =
+ fill_hypothesis context metasenv ty tables universe cache auto true
in
- let (active,passive,bag) = tables in
- let eqs,bag,newmeta =
+ let eqs, tables =
List.fold_left
- (fun (acc,bag,newmeta) (args,metasenv,newmetas,head,newmeta') ->
- let maxmeta,equality =
- build_equality bag head args t newmetas newmeta'
+ (fun (acc, tables) (args,metasenv,newmetas,head) ->
+ let actives, passives, bag = tables in
+ let bag, equality =
+ build_equality bag head args t newmetas
in
- equality::acc,bag,maxmeta)
- ([],bag,newmeta) saturated
+ let tables = actives, passives, bag in
+ equality::acc,tables)
+ ([],tables) saturated
in
- (eqs@facts, cache, newmeta)
- with FillingFailure (cache,newmeta) ->
+ (tables, eqs@facts, cache)
+ with FillingFailure (cache,tables) ->
(* if filling hypothesis fails we add the equation to
the cache *)
- (facts,cache,newmeta)
+ (tables,facts,cache)
)
- ([],cache,newmeta) equations
+ (tables,[],cache) equations
-let close_more tables maxmeta context status auto universe cache =
- let (active,passive,bag) = tables in
+let close_more tables context status auto universe cache =
let proof, goalno = status in
let _, metasenv,_subst,_,_, _ = proof in
let signature = MetadataQuery.signature_of metasenv goalno in
- let equations = retrieve_equations signature universe cache context in
+ let equations =
+ retrieve_equations false signature universe cache context metasenv
+ in
let eqs_and_types =
HExtlib.filter_map
(fun t ->
let ty,_ =
- CicTypeChecker.type_of_aux' metasenv context t CicUniv.empty_ugraph in
+ CicTypeChecker.type_of_aux' metasenv context t
+ CicUniv.oblivion_ugraph in
(* retrieve_equations could also return flexible terms *)
if is_an_equality ty then Some(t,ty) else None)
equations in
- let units, cache, maxm =
- build_equalities auto context metasenv tables universe cache maxmeta eqs_and_types in
- debug_print (lazy (">>>>>>> gained from a new context saturation >>>>>>>>>" ^
- string_of_int maxm));
- List.iter
- (fun e -> debug_print (lazy (Equality.string_of_equality e)))
- units;
- debug_print (lazy ">>>>>>>>>>>>>>>>>>>>>>");
+ let tables, units, cache =
+ build_equalities auto context metasenv tables universe cache eqs_and_types
+ in
+ let active,passive,bag = tables in
let passive = Saturation.add_to_passive units passive in
let no = List.length units in
- debug_print (lazy ("No = " ^ (string_of_int no)));
- let active,passive,newmeta =
- Saturation.pump_actives context bag maxm active passive (no+1) infinity
+ let active, passive, bag =
+ Saturation.pump_actives context bag active passive (no+1) infinity
in
- (active,passive,bag),cache,newmeta
+ (active,passive,bag), cache
+;;
-let find_context_equalities
- maxmeta bag context proof (universe:Universe.universe) cache
+let find_context_equalities tables context proof (universe:Universe.universe) cache
=
let module C = Cic in
let module S = CicSubstitution in
let module T = CicTypeChecker in
let _,metasenv,_subst,_,_, _ = proof in
- let newmeta = max (ProofEngineHelpers.new_meta_of_proof ~proof) maxmeta in
(* if use_auto is true, we try to close the hypothesis of equational
statements using auto; a naif, and probably wrong approach *)
- let rec aux cache index newmeta = function
- | [] -> [], newmeta,cache
+ let rec aux tables cache index = function
+ | [] -> tables, [], cache
| (Some (_, C.Decl (term)))::tl ->
debug_print
(lazy
(Printf.sprintf "Examining: %d (%s)" index (CicPp.ppterm term)));
- let do_find context term =
+ let do_find tables context term =
match term with
| C.Prod (name, s, t) when is_an_equality t ->
(try
-
let term = S.lift index term in
- let saturated,cache,newmeta =
- fill_hypothesis context metasenv newmeta term
- empty_tables universe cache default_auto false
+ let saturated, cache, tables =
+ fill_hypothesis context metasenv term
+ tables universe cache default_auto false
in
- let eqs,newmeta =
+ let actives, passives, bag = tables in
+ let bag,eqs =
List.fold_left
- (fun (acc,newmeta) (args,metasenv,newmetas,head,newmeta') ->
- let newmeta, equality =
- build_equality
- bag head args (Cic.Rel index) newmetas (max newmeta newmeta')
+ (fun (bag,acc) (args,metasenv,newmetas,head) ->
+ let bag, equality =
+ build_equality bag head args (Cic.Rel index) newmetas
in
- equality::acc, newmeta + 1)
- ([],newmeta) saturated
+ bag, equality::acc)
+ (bag,[]) saturated
in
- eqs, newmeta, cache
- with FillingFailure (cache,newmeta) ->
- [],newmeta,cache)
+ let tables = actives, passives, bag in
+ tables, eqs, cache
+ with FillingFailure (cache,tables) ->
+ tables, [], cache)
| C.Appl [C.MutInd (uri, _, _); ty; t1; t2]
when LibraryObjects.is_eq_URI uri ->
let term = S.lift index term in
- let newmeta, e =
- build_equality bag term [] (Cic.Rel index) [] newmeta
+ let actives, passives, bag = tables in
+ let bag, e =
+ build_equality bag term [] (Cic.Rel index) []
in
- [e], (newmeta+1),cache
- | _ -> [], newmeta, cache
+ let tables = actives, passives, bag in
+ tables, [e], cache
+ | _ -> tables, [], cache
in
- let eqs, newmeta, cache = do_find context term in
- let rest, newmeta,cache = aux cache (index+1) newmeta tl in
- List.map (fun x -> index,x) eqs @ rest, newmeta, cache
+ let tables, eqs, cache = do_find tables context term in
+ let tables, rest, cache = aux tables cache (index+1) tl in
+ tables, List.map (fun x -> index,x) eqs @ rest, cache
| _::tl ->
- aux cache (index+1) newmeta tl
- in
- let il, maxm, cache =
- aux cache 1 newmeta context
+ aux tables cache (index+1) tl
in
+ let tables, il, cache = aux tables cache 1 context in
let indexes, equalities = List.split il in
- indexes, equalities, maxm, cache
+ tables, indexes, equalities, cache
;;
+(********** PARAMETERS PASSING ***************)
+
+let bool params name default =
+ try
+ let s = List.assoc name params in
+ if s = "" || s = "1" || s = "true" || s = "yes" || s = "on" then true
+ else if s = "0" || s = "false" || s = "no" || s= "off" then false
+ else
+ let msg = "Unrecognized value for parameter "^name^"\n" in
+ let msg = msg^"Accepted values are 1,true,yes,on and 0,false,no,off" in
+ raise (ProofEngineTypes.Fail (lazy msg))
+ with Not_found -> default
+;;
+
+let string params name default =
+ try List.assoc name params with
+ | Not_found -> default
+;;
+
+let int params name default =
+ try int_of_string (List.assoc name params) with
+ | Not_found -> default
+ | Failure _ ->
+ raise (ProofEngineTypes.Fail (lazy (name ^ " must be an integer")))
+;;
+
+let flags_of_params params ?(for_applyS=false) () =
+ let int = int params in
+ let bool = bool params in
+ let close_more = bool "close_more" false in
+ let use_paramod = bool "use_paramod" true in
+ let skip_trie_filtering = bool "skip_trie_filtering" false in
+ let skip_context = bool "skip_context" false in
+ let use_only_paramod =
+ if for_applyS then true else bool "paramodulation" false in
+ let use_library = bool "library"
+ ((AutoTypes.default_flags()).AutoTypes.use_library) in
+ let depth = int "depth" ((AutoTypes.default_flags()).AutoTypes.maxdepth) in
+ let width = int "width" ((AutoTypes.default_flags()).AutoTypes.maxwidth) in
+ let size = int "size" ((AutoTypes.default_flags()).AutoTypes.maxsize) in
+ let gsize = int "gsize" ((AutoTypes.default_flags()).AutoTypes.maxgoalsizefactor) in
+ let do_type = bool "type" false in
+ let timeout = int "timeout" 0 in
+ { AutoTypes.maxdepth =
+ if use_only_paramod then 2 else depth;
+ AutoTypes.maxwidth = width;
+ AutoTypes.maxsize = size;
+ AutoTypes.timeout =
+ if timeout = 0 then
+ if for_applyS then Unix.gettimeofday () +. 30.0
+ else
+ infinity
+ else
+ Unix.gettimeofday() +. (float_of_int timeout);
+ AutoTypes.use_library = use_library;
+ AutoTypes.use_paramod = use_paramod;
+ AutoTypes.use_only_paramod = use_only_paramod;
+ AutoTypes.close_more = close_more;
+ AutoTypes.dont_cache_failures = false;
+ AutoTypes.maxgoalsizefactor = gsize;
+ AutoTypes.do_types = do_type;
+ AutoTypes.skip_trie_filtering = skip_trie_filtering;
+ AutoTypes.skip_context = skip_context;
+ }
+
(***************** applyS *******************)
-let new_metasenv_and_unify_and_t
- dbd flags universe proof goal ?tables newmeta' metasenv'
+let apply_smart_aux
+ dbd flags automation_cache univ proof goal newmeta' metasenv'
context term' ty termty goal_arity
-=
+=
+(* let ppterm = ppterm context in *)
let (consthead,newmetasenv,arguments,_) =
TermUtil.saturate_term newmeta' metasenv' context termty goal_arity in
let term'' =
(PrimitiveTactics.apply_tac term'')
(proof''',goal)
in
+ let universe, tables, cache =
+ init_cache_and_tables ~dbd ~use_library:flags.use_library
+ ~use_context:true automation_cache univ (proof'''',newmeta)
+ in
+ let active, passive, bag = tables in
match
- let (active, passive,bag), cache, maxmeta =
- init_cache_and_tables dbd flags.use_library true universe
- (proof'''',newmeta)
- in
- Saturation.given_clause bag maxmeta (proof'''',newmeta) active passive
- max_int max_int flags.timeout
+ Saturation.given_clause bag (proof'''',newmeta) active passive
+ 20 10 flags.timeout
with
| None, _,_,_ ->
raise (ProofEngineTypes.Fail (lazy ("FIXME: propaga le tabelle")))
- | Some (_,proof''''',_), active,passive,_ ->
+ | Some (_,proof''''',_), active,passive,bag ->
proof''''',
ProofEngineHelpers.compare_metasenvs ~oldmetasenv
~newmetasenv:(let _,m,_subst,_,_, _ = proof''''' in m), active, passive
+(*
+ debug_print
+ (lazy
+ ("SUBSUMPTION SU: " ^ string_of_int newmeta ^ " " ^ ppterm goal_for_paramod));
+ let res, maxmeta =
+ Saturation.all_subsumed bag maxm (proof'''',newmeta) active passive
+ in
+ if res = [] then
+ raise (ProofEngineTypes.Fail (lazy("BUM")))
+ else let (_,proof''''',_) = List.hd res in
+ proof''''',ProofEngineHelpers.compare_metasenvs ~oldmetasenv
+ ~newmetasenv:(let _,m,_subst,_,_, _ = proof''''' in m), active, passive
+*)
;;
let rec count_prods context ty =
Cic.Prod (n,s,t) -> 1 + count_prods (Some (n,Cic.Decl s)::context) t
| _ -> 0
-let apply_smart ~dbd ~term ~subst ~universe ?tables flags (proof, goal) =
+let apply_smart
+ ~dbd ~term ~subst ~automation_cache ~params:(univ,params) (proof, goal)
+=
let module T = CicTypeChecker in
let module R = CicReduction in
let module C = Cic in
let (_,metasenv,_subst,_,_, _) = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
+ let flags = flags_of_params params ~for_applyS:true () in
let newmeta = CicMkImplicit.new_meta metasenv subst in
let exp_named_subst_diff,newmeta',newmetasenvfragment,term' =
match term with
in
let metasenv' = metasenv@newmetasenvfragment in
let termty,_ =
- CicTypeChecker.type_of_aux' metasenv' context term' CicUniv.empty_ugraph
+ CicTypeChecker.type_of_aux' metasenv' context term' CicUniv.oblivion_ugraph
in
let termty = CicSubstitution.subst_vars exp_named_subst_diff termty in
let goal_arity = count_prods context ty in
let proof, gl, active, passive =
- new_metasenv_and_unify_and_t dbd flags universe proof goal ?tables
+ apply_smart_aux dbd flags automation_cache univ proof goal
newmeta' metasenv' context term' ty termty goal_arity
in
proof, gl, active, passive
(****************** AUTO ********************)
-let mk_irl ctx = CicMkImplicit.identity_relocation_list_for_metavariable ctx;;
-let ugraph = CicUniv.empty_ugraph;;
-let typeof = CicTypeChecker.type_of_aux';;
-let ppterm ctx t =
- let names = List.map (function None -> None | Some (x,_) -> Some x) ctx in
- CicPp.pp t names
-;;
-let is_in_prop context subst metasenv ty =
- let sort,u = typeof ~subst metasenv context ty CicUniv.empty_ugraph in
- fst (CicReduction.are_convertible context sort (Cic.Sort Cic.Prop) u)
-;;
-
-let assert_proof_is_valid proof metasenv context goalty =
- if debug then
- begin
- let ty,u = typeof metasenv context proof CicUniv.empty_ugraph in
- let b,_ = CicReduction.are_convertible context ty goalty u in
- if not b then
- begin
- let names =
- List.map (function None -> None | Some (x,_) -> Some x) context
- in
- debug_print (lazy ("PROOF:" ^ CicPp.pp proof names));
- debug_print (lazy ("PROOFTY:" ^ CicPp.pp ty names));
- debug_print (lazy ("GOAL:" ^ CicPp.pp goalty names));
- debug_print (lazy ("MENV:" ^ CicMetaSubst.ppmetasenv [] metasenv));
- end;
- assert b
- end
- else ()
-;;
-
-let assert_subst_are_disjoint subst subst' =
- if debug then
- assert(List.for_all
- (fun (i,_) -> List.for_all (fun (j,_) -> i<>j) subst')
- subst)
- else ()
-;;
-
-let split_goals_in_prop metasenv subst gl =
- List.partition
- (fun g ->
- let _,context,ty = CicUtil.lookup_meta g metasenv in
- try
- let sort,u = typeof ~subst metasenv context ty ugraph in
- let b,_ =
- CicReduction.are_convertible
- ~subst ~metasenv context sort (Cic.Sort Cic.Prop) u in
- b
- with
- | CicTypeChecker.AssertFailure s
- | CicTypeChecker.TypeCheckerFailure s ->
- debug_print
- (lazy ("NON TIPA" ^ ppterm context (CicMetaSubst.apply_subst subst ty)));
- debug_print s;
- false)
- (* FIXME... they should type! *)
- gl
-;;
-let split_goals_with_metas metasenv subst gl =
- List.partition
- (fun g ->
- let _,context,ty = CicUtil.lookup_meta g metasenv in
- let ty = CicMetaSubst.apply_subst subst ty in
- CicUtil.is_meta_closed ty)
- gl
-;;
-
-let order_new_goals metasenv subst open_goals ppterm =
- let prop,rest = split_goals_in_prop metasenv subst open_goals in
- let closed_prop, open_prop = split_goals_with_metas metasenv subst prop in
- let open_goals =
- (List.map (fun x -> x,P) (closed_prop @ open_prop))
- @
- (List.map (fun x -> x,T) rest)
- in
- let tys =
- List.map
- (fun (i,sort) ->
- let _,_,ty = CicUtil.lookup_meta i metasenv in i,ty,sort) open_goals
- in
- debug_print (lazy (" OPEN: "^
- String.concat "\n"
- (List.map
- (function
- | (i,t,P) -> string_of_int i ^ ":"^ppterm t^ "Prop"
- | (i,t,T) -> string_of_int i ^ ":"^ppterm t^ "Type")
- tys)));
- open_goals
-;;
-
-let is_an_equational_goal = function
- | Cic.Appl [Cic.MutInd(u,_,_);_;_;_] when LibraryObjects.is_eq_URI u -> true
- | _ -> false
-;;
(*
let prop = function (_,depth,P) -> depth < 9 | _ -> false;;
type subst = Cic.substitution
type goal = ProofEngineTypes.goal * int * AutoTypes.sort
let candidate_no = ref 0;;
-type candidate = int * Cic.term
+type candidate = int * Cic.term Lazy.t
type cache = AutoCache.cache
-type tables =
- Saturation.active_table * Saturation.passive_table * Equality.equality_bag
type fail =
(* the goal (mainly for depth) and key of the goal *)
* end with the same (S(g,_)) *)
elem list
type auto_result =
- (* menv, subst, alternatives, tables, cache, maxmeta *)
- | Proved of menv * subst * elem list * tables * cache * int
- | Gaveup of tables * cache * int
+ (* menv, subst, alternatives, tables, cache *)
+ | Proved of menv * subst * elem list * AutomationCache.tables * cache
+ | Gaveup of AutomationCache.tables * cache
(* the status exported to the external observer *)
type auto_status =
(* context, (goal,candidate) list, and_list, history *)
- Cic.context * (int * Cic.term * bool * int * (int * Cic.term) list) list *
- (int * Cic.term * int) list * Cic.term list
+ Cic.context * (int * Cic.term * bool * int * (int * Cic.term Lazy.t) list) list *
+ (int * Cic.term * int) list * Cic.term Lazy.t list
let d_prefix l =
let rec aux acc = function
in
aux [] l
;;
+
let calculate_goal_ty (goalno,_,_) s m =
try
let _,cc,goalty = CicUtil.lookup_meta goalno m in
Some (cc, CicMetaSubst.apply_subst s goalty)
with CicUtil.Meta_not_found i when i = goalno -> None
;;
+
let calculate_closed_goal_ty (goalno,_,_) s =
try
let cc,_,goalty = List.assoc goalno s in
Some (cc, CicMetaSubst.apply_subst s goalty)
with Not_found -> None
;;
+
let pp_status ctx status =
if debug then
let names = Utils.names_of_context ctx in
| None -> Printf.sprintf "D(%d, _, %d)" gi d
in
let string_of_s m su k (ci,ct) gi =
- Printf.sprintf "S(%d, %s, %s, %d)" gi (pp k) (pp ct) ci
+ Printf.sprintf "S(%d, %s, %s, %d)" gi (pp k) (pp (Lazy.force ct)) ci
in
let string_of_ol m su l =
String.concat " | "
(* TODO ottimizzare compare *)
HExtlib.list_uniq (List.sort compare (l1 @ l1))
;;
+let rec eq_todo l1 l2 =
+ match l1,l2 with
+ | (D g1) :: tl1,(D g2) :: tl2 when g1=g2 -> eq_todo tl1 tl2
+ | (S (g1,k1,(c1,lt1),i1)) :: tl1, (S (g2,k2,(c2,lt2),i2)) :: tl2
+ when i1 = i2 && g1 = g2 && k1 = k2 && c1 = c2 ->
+ if Lazy.force lt1 = Lazy.force lt2 then eq_todo tl1 tl2 else false
+ | [],[] -> true
+ | _ -> false
+;;
let eat_head todo id fl orlist =
let rec aux acc = function
| [] -> [], acc
| None -> orlist, acc
| Some (((gno,_,_),_,_,_), todo11) ->
(* TODO confronto tra todo da ottimizzare *)
- if gno = id && todo11 = todo then
+ if gno = id && eq_todo todo11 todo then
aux (list_union fl1 acc) tl
else
aux1 todo11
| None -> assert false
| Some (canonical_ctx , gty) ->
let goalno,depth,sort = g in
- assert (sort = P);
let irl = mk_irl canonical_ctx in
let goal = Cic.Meta(goalno, irl) in
let proof = CicMetaSubst.apply_subst s goal in
let entry = goalno, (canonical_ctx, t,ty) in
assert_subst_are_disjoint subst [entry];
let subst = entry :: subst in
+
let metasenv = CicMetaSubst.apply_subst_metasenv subst metasenv in
+
subst, metasenv
;;
+
let mk_fake_proof metasenv subst (goalno,_,_) goalty context =
- None,metasenv,subst ,Cic.Meta(goalno,mk_irl context),goalty, []
+ None,metasenv,subst ,(lazy (Cic.Meta(goalno,mk_irl context))),goalty, []
;;
let equational_case
- tables maxm cache depth fake_proof goalno goalty subst context
+ tables cache depth fake_proof goalno goalty subst context
flags
=
let active,passive,bag = tables in
let goal_steps, saturation_steps, timeout =
max_int,max_int,flags.timeout
in
+
match
- Saturation.given_clause bag maxm status active passive
+ Saturation.given_clause bag status active passive
goal_steps saturation_steps timeout
with
- | None, active, passive, maxmeta ->
- [], (active,passive,bag), cache, maxmeta, flags
+ | None, active, passive, bag ->
+ [], (active,passive,bag), cache, flags
| Some(subst',(_,metasenv,_subst,proof,_, _),open_goals),active,
- passive,maxmeta ->
+ passive,bag ->
assert_subst_are_disjoint subst subst';
let subst = subst@subst' in
let open_goals =
List.map (fun (x,sort) -> x,depth-1,sort) open_goals
in
incr candidate_no;
- [(!candidate_no,proof),metasenv,subst,open_goals],
- (active,passive,bag),
- cache, maxmeta, flags
+ [(!candidate_no,proof),metasenv,subst,open_goals],
+ (active,passive,bag), cache, flags
end
else
begin
debug_print
(lazy
("SUBSUMPTION SU: " ^ string_of_int goalno ^ " " ^ ppterm goalty));
- let res, maxmeta =
- Saturation.all_subsumed bag maxm status active passive
- in
- assert (maxmeta >= maxm);
+ let res = Saturation.all_subsumed bag status active passive in
let res' =
List.map
(fun (subst',(_,metasenv,_subst,proof,_, _),open_goals) ->
(!candidate_no,proof),metasenv,subst,open_goals)
res
in
- res', (active,passive,bag), cache, maxmeta, flags
+ res', (active,passive,bag), cache, flags
end
;;
let try_candidate
- goalty tables maxm subst fake_proof goalno depth context cand
+ goalty tables subst fake_proof goalno depth context cand
=
let ppterm = ppterm context in
try
+ let actives, passives, bag = tables in
let subst,((_,metasenv,_,_,_,_), open_goals),maxmeta =
- (PrimitiveTactics.apply_with_subst ~subst ~maxmeta:maxm ~term:cand)
+ (PrimitiveTactics.apply_with_subst ~subst ~maxmeta:(Equality.maxmeta bag) ~term:cand)
(fake_proof,goalno)
in
+ let tables = actives, passives, Equality.push_maxmeta bag maxmeta in
debug_print (lazy (" OK: " ^ ppterm cand));
let metasenv = CicRefine.pack_coercion_metasenv metasenv in
let open_goals = order_new_goals metasenv subst open_goals ppterm in
let open_goals = List.map (fun (x,sort) -> x,depth-1,sort) open_goals in
incr candidate_no;
- Some ((!candidate_no,cand),metasenv,subst,open_goals), tables , maxmeta
+ Some ((!candidate_no,lazy cand),metasenv,subst,open_goals), tables
with
- | ProofEngineTypes.Fail s -> None,tables, maxm
- | CicUnification.Uncertain s -> None,tables, maxm
+ | ProofEngineTypes.Fail s -> None,tables
+ | CicUnification.Uncertain s -> None,tables
;;
let sort_new_elems =
- List.sort (fun (_,_,_,l1) (_,_,_,l2) -> List.length l1 - List.length l2)
-(* List.sort (fun (_,_,_,l2) (_,_,_,l1) -> List.length l1 - List.length l2) *)
+ List.sort (fun (_,_,_,l1) (_,_,_,l2) ->
+ List.length (prop_only l1) - List.length (prop_only l2))
;;
let applicative_case
- tables maxm depth subst fake_proof goalno goalty metasenv context universe
- cache
+ tables depth subst fake_proof goalno goalty metasenv context universe
+ cache flags
=
- let candidates = get_candidates universe cache goalty in
- let tables, elems, maxm =
+ let candidates = get_candidates flags.skip_trie_filtering universe cache goalty in
+ let tables, elems =
List.fold_left
- (fun (tables,elems,maxm) cand ->
+ (fun (tables,elems) cand ->
match
try_candidate goalty
- tables maxm subst fake_proof goalno depth context cand
+ tables subst fake_proof goalno depth context cand
with
- | None, tables,maxm -> tables,elems, maxm
- | Some x, tables, maxm -> tables,x::elems, maxm)
- (tables,[],maxm) candidates
+ | None, tables -> tables, elems
+ | Some x, tables -> tables, x::elems)
+ (tables,[]) candidates
in
let elems = sort_new_elems elems in
- elems, tables, cache, maxm
+ elems, tables, cache
;;
let equational_and_applicative_case
- universe flags m s g gty tables cache maxm context
+ universe flags m s g gty tables cache context
=
let goalno, depth, sort = g in
let fake_proof = mk_fake_proof m s g gty context in
if is_equational_case gty flags then
- let elems,tables,cache,maxm1, flags =
- equational_case tables maxm cache
+ let elems,tables,cache, flags =
+ equational_case tables cache
depth fake_proof goalno gty s context flags
in
- let maxm = maxm1 in
- let more_elems, tables, cache, maxm1 =
+ let more_elems, tables, cache =
if flags.use_only_paramod then
- [],tables, cache, maxm
+ [],tables, cache
else
applicative_case
- tables maxm depth s fake_proof goalno
- gty m context universe cache
+ tables depth s fake_proof goalno
+ gty m context universe cache flags
in
- let maxm = maxm1 in
- elems@more_elems, tables, cache, maxm, flags
+ elems@more_elems, tables, cache, flags
else
- let elems, tables, cache, maxm =
- applicative_case tables maxm depth s fake_proof goalno
- gty m context universe cache
+ let elems, tables, cache =
+ applicative_case tables depth s fake_proof goalno
+ gty m context universe cache flags
in
- elems, tables, cache, maxm, flags
+ elems, tables, cache, flags
;;
let rec condition_for_hint i = function
| [] -> false
| (D g)::tl ->
(match calculate_goal_ty g s m with
| None -> aux b tl
- | Some (canonical_ctx, gty) ->
+ | Some (canonical_ctx, gty) ->
let gsize, _ =
Utils.weight_of_term
~consider_metas:false ~count_metas_occurrences:true gty in
| (D (_,_,T))::tl -> aux tl
| _ -> false
and no_progress variant = function
- | [] -> prerr_endline "++++++++++++++++++++++++ no_progress"; true
+ | [] -> (*prerr_endline "++++++++++++++++++++++++ no_progress";*) true
| D ((n,_,P) as g)::tl ->
(match calculate_goal_ty g subst menv with
| None -> no_progress variant tl
(match calculate_goal_ty g variant menv with
| None -> assert false
| Some (_, gty') ->
- if gty = gty' then
- no_progress variant tl
+ if gty = gty' then no_progress variant tl
+(*
+(prerr_endline (string_of_int n);
+ prerr_endline (CicPp.ppterm gty);
+ prerr_endline (CicPp.ppterm gty');
+ prerr_endline "---------- subst";
+ prerr_endline (CicMetaSubst.ppsubst ~metasenv:menv subst);
+ prerr_endline "---------- variant";
+ prerr_endline (CicMetaSubst.ppsubst ~metasenv:menv variant);
+ prerr_endline "---------- menv";
+ prerr_endline (CicMetaSubst.ppmetasenv [] menv);
+ no_progress variant tl) *)
else false))
| _::tl -> no_progress variant tl
in
if prune = [] then l
else List.filter (condition_for_prune_hint prune) l
;;
-let auto_main tables maxm context flags universe cache elems =
+let auto_main tables context flags universe cache elems =
auto_context := context;
- let rec aux tables maxm flags cache (elems : status) =
+ let rec aux tables flags cache (elems : status) =
(* pp_status context elems; *)
(* DEBUGGING CODE: uncomment these two lines to stop execution at each iteration
auto_status := elems;
let elems = filter_prune_hint elems in
match elems with
| (m, s, size, don, todo, fl)::orlist when !hint <> None ->
+ debug_print (lazy "skip");
(match !hint with
| Some i when condition_for_hint i todo ->
- aux tables maxm flags cache orlist
+ aux tables flags cache orlist
| _ ->
hint := None;
- aux tables maxm flags cache elems)
+ aux tables flags cache elems)
| [] ->
(* complete failure *)
- Gaveup (tables, cache, maxm)
+ debug_print (lazy "give up");
+ Gaveup (tables, cache)
| (m, s, _, _, [],_)::orlist ->
(* complete success *)
- Proved (m, s, orlist, tables, cache, maxm)
- | (m, s, size, don, (D (_,_,T))::todo, fl)::orlist ->
+ debug_print (lazy "success");
+ Proved (m, s, orlist, tables, cache)
+ | (m, s, size, don, (D (_,_,T))::todo, fl)::orlist
+ when not flags.AutoTypes.do_types ->
(* skip since not Prop, don't even check if closed by side-effect *)
- aux tables maxm flags cache ((m, s, size, don, todo, fl)::orlist)
+ debug_print (lazy "skip existential goal");
+ aux tables flags cache ((m, s, size, don, todo, fl)::orlist)
| (m, s, size, don, (S(g, key, c,minsize) as op)::todo, fl)::orlist ->
(* partial success, cache g and go on *)
let cache, orlist, fl, sibling_pruned =
debug_print (lazy (AutoCache.cache_print context cache));
let fl = remove_s_from_fl g fl in
let don = if sibling_pruned then don else op::don in
- aux tables maxm flags cache ((m, s, size, don, todo, fl)::orlist)
+ aux tables flags cache ((m, s, size, don, todo, fl)::orlist)
| (m, s, size, don, todo, fl)::orlist
when List.length(prop_only (d_goals todo)) > flags.maxwidth ->
debug_print (lazy ("FAIL: WIDTH"));
(* too many goals in and generated by last th *)
let cache = close_failures fl cache in
- aux tables maxm flags cache orlist
+ aux tables flags cache orlist
| (m, s, size, don, todo, fl)::orlist when size > flags.maxsize ->
debug_print
(lazy ("FAIL: SIZE: "^string_of_int size ^
" > " ^ string_of_int flags.maxsize ));
(* we already have a too large proof term *)
let cache = close_failures fl cache in
- aux tables maxm flags cache orlist
+ aux tables flags cache orlist
| _ when Unix.gettimeofday () > flags.timeout ->
(* timeout *)
debug_print (lazy ("FAIL: TIMEOUT"));
- Gaveup (tables, cache, maxm)
- | (m, s, size, don, (D (gno,depth,P as g))::todo, fl)::orlist as status ->
- (* attack g *)
+ Gaveup (tables, cache)
+ | (m, s, size, don, (D (gno,depth,_ as g))::todo, fl)::orlist as status ->
+ (* attack g *)
+ debug_print (lazy "attack goal");
match calculate_goal_ty g s m with
| None ->
(* closed by side effect *)
debug_print (lazy ("SUCCESS: SIDE EFFECT: " ^ string_of_int gno));
- aux tables maxm flags cache ((m,s,size,don,todo, fl)::orlist)
- | Some (canonical_ctx, gty) ->
+ aux tables flags cache ((m,s,size,don,todo, fl)::orlist)
+ | Some (canonical_ctx, gty) ->
let gsize, _ =
Utils.weight_of_term ~consider_metas:false ~count_metas_occurrences:true gty
in
if gsize > flags.maxgoalsizefactor then
(debug_print (lazy ("FAIL: SIZE: goal: "^string_of_int gsize));
- aux tables maxm flags cache orlist)
+ aux tables flags cache orlist)
else if prunable_for_size flags s m todo then
- (prerr_endline ("POTO at depth: "^(string_of_int depth));
- aux tables maxm flags cache orlist)
+ (debug_print (lazy ("POTO at depth: "^(string_of_int depth)));
+ aux tables flags cache orlist)
else
(* still to be proved *)
(debug_print (lazy ("EXAMINE: "^CicPp.ppterm gty));
(* fail depth *)
debug_print (lazy ("FAIL: DEPTH (cache): "^string_of_int gno));
let cache = close_failures fl cache in
- aux tables maxm flags cache orlist
+ aux tables flags cache orlist
| UnderInspection ->
(* fail loop *)
debug_print (lazy ("FAIL: LOOP: " ^ string_of_int gno));
let cache = close_failures fl cache in
- aux tables maxm flags cache orlist
+ aux tables flags cache orlist
| Succeded t ->
debug_print (lazy ("SUCCESS: CACHE HIT: " ^ string_of_int gno));
let s, m = put_in_subst s m g canonical_ctx t gty in
- aux tables maxm flags cache ((m, s, size, don,todo, fl)::orlist)
+ aux tables flags cache ((m, s, size, don,todo, fl)::orlist)
| Notfound
| Failed_in _ when depth > 0 ->
( (* more depth or is the first time we see the goal *)
if prunable m s gty todo then
(debug_print (lazy(
"FAIL: LOOP: one father is equal"));
- aux tables maxm flags cache orlist)
+ aux tables flags cache orlist)
else
let cache = cache_add_underinspection cache gty depth in
auto_status := status;
string_of_int gno ^ "("^ string_of_int size ^ "): "^
CicPp.ppterm gty));
(* elems are possible computations for proving gty *)
- let elems, tables, cache, maxm, flags =
+ let elems, tables, cache, flags =
equational_and_applicative_case
- universe flags m s g gty tables cache maxm context
+ universe flags m s g gty tables cache context
in
if elems = [] then
(* this goal has failed *)
let cache = close_failures ((g,gty)::fl) cache in
- aux tables maxm flags cache orlist
+ aux tables flags cache orlist
else
(* elems = (cand,m,s,gl) *)
let size_gl l = List.length
in
map elems
in
- aux tables maxm flags cache elems)
+ aux tables flags cache elems)
| _ ->
(* no more depth *)
debug_print (lazy ("FAIL: DEPTH: " ^ string_of_int gno));
let cache = close_failures fl cache in
- aux tables maxm flags cache orlist)
+ aux tables flags cache orlist)
in
- (aux tables maxm flags cache elems : auto_result)
+ (aux tables flags cache elems : auto_result)
;;
let
- auto_all_solutions maxm tables universe cache context metasenv gl flags
+ auto_all_solutions tables universe cache context metasenv gl flags
=
let goals = order_new_goals metasenv [] gl CicPp.ppterm in
let goals =
(fun (x,s) -> D (x,flags.maxdepth,s)) goals
in
let elems = [metasenv,[],1,[],goals,[]] in
- let rec aux tables maxm solutions cache elems flags =
- match auto_main tables maxm context flags universe cache elems with
- | Gaveup (tables,cache,maxm) ->
- solutions,cache,maxm
- | Proved (metasenv,subst,others,tables,cache,maxm) ->
+ let rec aux tables solutions cache elems flags =
+ match auto_main tables context flags universe cache elems with
+ | Gaveup (tables,cache) ->
+ solutions,cache, tables
+ | Proved (metasenv,subst,others,tables,cache) ->
if Unix.gettimeofday () > flags.timeout then
- ((subst,metasenv)::solutions), cache, maxm
+ ((subst,metasenv)::solutions), cache, tables
else
- aux tables maxm ((subst,metasenv)::solutions) cache others flags
+ aux tables ((subst,metasenv)::solutions) cache others flags
in
- let rc = aux tables maxm [] cache elems flags in
+ let rc = aux tables [] cache elems flags in
match rc with
- | [],cache,maxm -> [],cache,maxm
- | solutions,cache,maxm ->
+ | [],cache,tables -> [],cache,tables
+ | solutions, cache,tables ->
let solutions =
HExtlib.filter_map
(fun (subst,newmetasenv) ->
if opened = [] then Some subst else None)
solutions
in
- solutions,cache,maxm
+ solutions,cache,tables
;;
-(* }}} ****************** AUTO ***************)
+(******************* AUTO ***************)
let auto flags metasenv tables universe cache context metasenv gl =
let initial_time = Unix.gettimeofday() in
let goals = order_new_goals metasenv [] gl CicPp.ppterm in
let goals = List.map (fun (x,s) -> D(x,flags.maxdepth,s)) goals in
let elems = [metasenv,[],1,[],goals,[]] in
- match auto_main tables 0 context flags universe cache elems with
- | Proved (metasenv,subst,_, tables,cache,_) ->
+ match auto_main tables context flags universe cache elems with
+ | Proved (metasenv,subst,_, tables,cache) ->
debug_print(lazy
("TIME:"^string_of_float(Unix.gettimeofday()-.initial_time)));
Some (subst,metasenv), cache
- | Gaveup (tables,cache,maxm) ->
+ | Gaveup (tables,cache) ->
debug_print(lazy
("TIME:"^string_of_float(Unix.gettimeofday()-.initial_time)));
None,cache
;;
-let bool params name default =
- try
- let s = List.assoc name params in
- if s = "" || s = "1" || s = "true" || s = "yes" || s = "on" then true
- else if s = "0" || s = "false" || s = "no" || s= "off" then false
- else
- let msg = "Unrecognized value for parameter "^name^"\n" in
- let msg = msg^"Accepted values are 1,true,yes,on and 0,false,no,off" in
- raise (ProofEngineTypes.Fail (lazy msg))
- with Not_found -> default
-;;
-
-let string params name default =
- try List.assoc name params with
- | Not_found -> default
-;;
-
-let int params name default =
- try int_of_string (List.assoc name params) with
- | Not_found -> default
- | Failure _ ->
- raise (ProofEngineTypes.Fail (lazy (name ^ " must be an integer")))
-;;
-
-let flags_of_params params ?(for_applyS=false) () =
- let int = int params in
- let bool = bool params in
- let close_more = bool "close_more" false in
- let use_paramod = bool "use_paramod" true in
- let use_only_paramod =
- if for_applyS then true else bool "paramodulation" false in
- let use_library = bool "library"
- ((AutoTypes.default_flags()).AutoTypes.use_library) in
- let depth = int "depth" ((AutoTypes.default_flags()).AutoTypes.maxdepth) in
- let width = int "width" ((AutoTypes.default_flags()).AutoTypes.maxwidth) in
- let size = int "size" ((AutoTypes.default_flags()).AutoTypes.maxsize) in
- let gsize = int "gsize" ((AutoTypes.default_flags()).AutoTypes.maxgoalsizefactor) in
- let timeout = int "timeout" 0 in
- { AutoTypes.maxdepth =
- if use_only_paramod then 2 else depth;
- AutoTypes.maxwidth = width;
- AutoTypes.maxsize = size;
- AutoTypes.timeout =
- if timeout = 0 then
- if for_applyS then Unix.gettimeofday () +. 30.0
- else
- infinity
- else
- Unix.gettimeofday() +. (float_of_int timeout);
- AutoTypes.use_library = use_library;
- AutoTypes.use_paramod = use_paramod;
- AutoTypes.use_only_paramod = use_only_paramod;
- AutoTypes.close_more = close_more;
- AutoTypes.dont_cache_failures = false;
- AutoTypes.maxgoalsizefactor = gsize;
- }
-
-let applyS_tac ~dbd ~term ~params ~universe =
+let applyS_tac ~dbd ~term ~params ~automation_cache =
ProofEngineTypes.mk_tactic
(fun status ->
try
let proof, gl,_,_ =
- apply_smart ~dbd ~term ~subst:[] ~universe
- (flags_of_params params ~for_applyS:true ()) status
+ apply_smart ~dbd ~term ~subst:[] ~params ~automation_cache status
in
proof, gl
with
| CicTypeChecker.TypeCheckerFailure msg ->
raise (ProofEngineTypes.Fail msg))
-(* SUPERPOSITION *)
+let auto_tac ~(dbd:HSql.dbd) ~params:(univ,params) ~automation_cache (proof, goal) =
+ let flags = flags_of_params params () in
+ let use_library = flags.use_library in
+ let universe, tables, cache =
+ init_cache_and_tables
+ ~dbd ~use_library ~use_context:(not flags.skip_context)
+ automation_cache univ (proof, goal)
+ in
+ let _,metasenv,_subst,_,_, _ = proof in
+ let _,context,goalty = CicUtil.lookup_meta goal metasenv in
+ let tables,cache =
+ if flags.close_more then
+ close_more
+ tables context (proof, goal)
+ auto_all_solutions universe cache
+ else tables,cache in
+ let initial_time = Unix.gettimeofday() in
+ let (_,oldmetasenv,_subst,_,_, _) = proof in
+ hint := None;
+ let elem =
+ metasenv,[],1,[],[D (goal,flags.maxdepth,P)],[]
+ in
+ match auto_main tables context flags universe cache [elem] with
+ | Proved (metasenv,subst,_, tables,cache) ->
+ debug_print (lazy
+ ("TIME:"^string_of_float(Unix.gettimeofday()-.initial_time)));
+ let proof,metasenv =
+ ProofEngineHelpers.subst_meta_and_metasenv_in_proof
+ proof goal subst metasenv
+ in
+ let opened =
+ ProofEngineHelpers.compare_metasenvs ~oldmetasenv
+ ~newmetasenv:metasenv
+ in
+ proof,opened
+ | Gaveup (tables,cache) ->
+ debug_print
+ (lazy ("TIME:"^
+ string_of_float(Unix.gettimeofday()-.initial_time)));
+ raise (ProofEngineTypes.Fail (lazy "Auto gave up"))
+;;
-(* Syntax:
- * auto superposition target = NAME
- * [table = NAME_LIST] [demod_table = NAME_LIST] [subterms_only]
- *
- * - if table is omitted no superposition will be performed
- * - if demod_table is omitted no demodulation will be prformed
- * - subterms_only is passed to Indexing.superposition_right
- *
- * lists are coded using _ (example: H_H1_H2)
- *)
+let auto_tac ~dbd ~params ~automation_cache =
+ ProofEngineTypes.mk_tactic (auto_tac ~params ~dbd ~automation_cache);;
-let eq_and_ty_of_goal = function
- | Cic.Appl [Cic.MutInd(uri,0,_);t;_;_] when LibraryObjects.is_eq_URI uri ->
- uri,t
+let eq_of_goal = function
+ | Cic.Appl [Cic.MutInd(uri,0,_);_;_;_] when LibraryObjects.is_eq_URI uri ->
+ uri
| _ -> raise (ProofEngineTypes.Fail (lazy ("The goal is not an equality ")))
;;
-let rec find_in_ctx i name = function
- | [] -> raise (ProofEngineTypes.Fail (lazy ("Hypothesis not found: " ^ name)))
- | Some (Cic.Name name', _)::tl when name = name' -> i
- | _::tl -> find_in_ctx (i+1) name tl
+(* performs steps of rewrite with the universe, obtaining if possible
+ * a trivial goal *)
+let solve_rewrite_tac ~automation_cache ~params:(univ,params) (proof,goal)=
+ let steps = int_of_string (string params "steps" "1") in
+ let use_context = bool params "use_context" true in
+ let universe, tables, cache =
+ init_cache_and_tables ~use_library:false ~use_context
+ automation_cache univ (proof,goal)
+ in
+ let actives, passives, bag = tables in
+ let pa,metasenv,_subst,pb,pc,pd = proof in
+ let _,context,ty = CicUtil.lookup_meta goal metasenv in
+ let eq_uri = eq_of_goal ty in
+ let initgoal = [], metasenv, ty in
+ let table =
+ let equalities = (Saturation.list_of_passive passives) in
+ List.fold_left (fun tbl eq -> Indexing.index tbl eq) (snd actives) equalities
+ in
+ let env = metasenv,context,CicUniv.oblivion_ugraph in
+ match Indexing.solve_demodulating bag env table initgoal steps with
+ | Some (proof, metasenv, newty) ->
+ let refl =
+ match newty with
+ | Cic.Appl[Cic.MutInd _;eq_ty;left;_] ->
+ Equality.Exact (Equality.refl_proof eq_uri eq_ty left)
+ | _ -> assert false
+ in
+ let proofterm,_ =
+ Equality.build_goal_proof
+ bag eq_uri proof refl newty [] context metasenv
+ in
+ let proofterm, _, metasenv, _ =
+ CicRefine.type_of_aux' metasenv context proofterm
+ CicUniv.oblivion_ugraph
+ in
+ let status = (pa,metasenv,_subst,pb,pc,pd), goal in
+ ProofEngineTypes.apply_tactic
+ (PrimitiveTactics.apply_tac ~term:proofterm) status
+ | None ->
+ raise
+ (ProofEngineTypes.Fail (lazy
+ ("Unable to solve with " ^ string_of_int steps ^ " demodulations")))
;;
-
-let rec position_of i x = function
- | [] -> assert false
- | j::tl when j <> x -> position_of (i+1) x tl
- | _ -> i
+let solve_rewrite_tac ~params ~automation_cache () =
+ ProofEngineTypes.mk_tactic (solve_rewrite_tac ~automation_cache ~params)
;;
+(* Demodulate thorem *)
+let open_type ty bo =
+ let rec open_type_aux context ty k args =
+ match ty with
+ | Cic.Prod (n,s,t) ->
+ let n' =
+ FreshNamesGenerator.mk_fresh_name [] context n ~typ:s ~subst:[] in
+ let entry = match n' with
+ | Cic.Name _ -> Some (n',(Cic.Decl s))
+ | Cic.Anonymous -> None
+ in
+ open_type_aux (entry::context) t (k+1) ((Cic.Rel k)::args)
+ | Cic.LetIn (n,s,sty,t) ->
+ let entry = Some (n,(Cic.Def (s,sty)))
+ in
+ open_type_aux (entry::context) t (k+1) args
+ | _ -> context, ty, args
+ in
+ let context, ty, args = open_type_aux [] ty 1 [] in
+ match args with
+ | [] -> context, ty, bo
+ | _ -> context, ty, Cic.Appl (bo::args)
+;;
-let superposition_tac ~target ~table ~subterms_only ~demod_table status =
- Saturation.reset_refs();
- let proof,goalno = status in
- let curi,metasenv,_subst,pbo,pty, attrs = proof in
- let metano,context,ty = CicUtil.lookup_meta goalno metasenv in
- let eq_uri,tty = eq_and_ty_of_goal ty in
- let env = (metasenv, context, CicUniv.empty_ugraph) in
- let names = Utils.names_of_context context in
- let bag = Equality.mk_equality_bag () in
- let eq_index, equalities, maxm,cache =
- find_context_equalities 0 bag context proof Universe.empty AutoCache.cache_empty
+let rec close_type bo ty context =
+ match context with
+ | [] -> assert_proof_is_valid bo [] [] ty; (bo,ty)
+ | Some (n,(Cic.Decl s))::tl ->
+ close_type (Cic.Lambda (n,s,bo)) (Cic.Prod (n,s,ty)) tl
+ | Some (n,(Cic.Def (s,sty)))::tl ->
+ close_type (Cic.LetIn (n,s,sty,bo)) (Cic.LetIn (n,s,sty,ty)) tl
+ | _ -> assert false
+;;
+
+let is_subsumed univ context ty =
+ let candidates = Universe.get_candidates univ ty in
+ List.fold_left
+ (fun res cand ->
+ match res with
+ | Some found -> Some found
+ | None ->
+ try
+ let mk_irl = CicMkImplicit.identity_relocation_list_for_metavariable in
+ let metasenv = [(0,context,ty)] in
+ let fake_proof = None,metasenv,[] , (lazy (Cic.Meta(0,mk_irl context))),ty,[] in
+ let subst,((_,metasenv,_,_,_,_), open_goals),maxmeta =
+ (PrimitiveTactics.apply_with_subst ~subst:[] ~maxmeta:0 ~term:cand) (fake_proof,0)
+ in
+ let prop_goals, other = split_goals_in_prop metasenv subst open_goals in
+ if prop_goals = [] then Some cand else None
+ with
+ | ProofEngineTypes.Fail s -> None
+ | CicUnification.Uncertain s -> None
+ ) None candidates
+;;
+
+let demodulate_theorem ~automation_cache uri =
+ let eq_uri =
+ match LibraryObjects.eq_URI () with
+ | Some (uri) -> uri
+ | None -> raise (ProofEngineTypes.Fail (lazy "equality not declared")) in
+ let obj,_ = CicEnvironment.get_cooked_obj CicUniv.empty_ugraph uri
in
- let eq_what =
- let what = find_in_ctx 1 target context in
- List.nth equalities (position_of 0 what eq_index)
+ let context,ty,bo =
+ match obj with
+ | Cic.Constant(n, _, ty ,_, _) -> open_type ty (Cic.Const(uri,[]))
+ | _ -> raise (ProofEngineTypes.Fail (lazy "not a theorem"))
in
- let eq_other =
- if table <> "" then
- let other =
- let others = Str.split (Str.regexp "_") table in
- List.map (fun other -> find_in_ctx 1 other context) others
- in
- List.map
- (fun other -> List.nth equalities (position_of 0 other eq_index))
- other
- else
- []
+ if CicUtil.is_closed ty then
+ raise (ProofEngineTypes.Fail (lazy ("closed term: dangerous reduction")));
+ let initgoal = [], [], ty in
+ (* compute the signature *)
+ let signature =
+ let ty_set = MetadataConstraints.constants_of ty in
+ let hyp_set = MetadataQuery.signature_of_hypothesis context [] in
+ let set = MetadataConstraints.UriManagerSet.union ty_set hyp_set in
+ MetadataQuery.close_with_types set [] context
in
- let index = List.fold_left Indexing.index Indexing.empty eq_other in
- let maxm, eql =
- if table = "" then maxm,[eq_what] else
- Indexing.superposition_right bag
- ~subterms_only eq_uri maxm env index eq_what
+ (* retrieve equations from the universe universe *)
+ (* XXX automation_cache *)
+ let universe = automation_cache.AutomationCache.univ in
+ let equations =
+ retrieve_equations true signature universe AutoCache.cache_empty context []
in
- debug_print (lazy ("Superposition right:"));
- debug_print (lazy ("\n eq: " ^ Equality.string_of_equality eq_what ~env));
- debug_print (lazy ("\n table: "));
- List.iter
- (fun e ->
- debug_print (lazy (" " ^ Equality.string_of_equality e ~env))) eq_other;
- debug_print (lazy ("\n result: "));
- List.iter (fun e -> debug_print (lazy (Equality.string_of_equality e ~env))) eql;
- debug_print (lazy ("\n result (cut&paste): "));
- List.iter
- (fun e ->
- let t = Equality.term_of_equality eq_uri e in
- debug_print (lazy (CicPp.pp t names)))
- eql;
- debug_print (lazy ("\n result proofs: "));
- List.iter (fun e ->
- debug_print (lazy (let _,p,_,_,_ = Equality.open_equality e in
- let s = match p with Equality.Exact _ -> Subst.empty_subst | Equality.Step (s,_) -> s in
- Subst.ppsubst s ^ "\n" ^
- CicPp.pp (Equality.build_proof_term bag eq_uri [] 0 p) names))) eql;
- if demod_table <> "" then
+ debug_print
+ (lazy ("ho trovato equazioni n. "^(string_of_int (List.length equations))));
+ let eqs_and_types =
+ HExtlib.filter_map
+ (fun t ->
+ let ty,_ =
+ CicTypeChecker.type_of_aux' [] context t CicUniv.oblivion_ugraph
+ in
+ (* retrieve_equations could also return flexible terms *)
+ if is_an_equality ty then Some(t,ty)
+ else
+ try
+ let ty' = unfold context ty in
+ if is_an_equality ty' then Some(t,ty') else None
+ with ProofEngineTypes.Fail _ -> None)
+ equations
+ in
+ let bag = Equality.mk_equality_bag () in
+
+ let bag, units, _, newmeta =
+ partition_unit_equalities context [] (CicMkImplicit.new_meta [] []) bag eqs_and_types
+ in
+ let table =
+ List.fold_left
+ (fun tbl eq -> Indexing.index tbl eq)
+ Indexing.empty units
+ in
+ let changed,(newproof,newmetasenv, newty) =
+ Indexing.demod bag
+ ([],context,CicUniv.oblivion_ugraph) table initgoal in
+ if changed then
begin
- let eql =
- if eql = [] then [eq_what] else eql
- in
- let demod =
- let demod = Str.split (Str.regexp "_") demod_table in
- List.map (fun other -> find_in_ctx 1 other context) demod
- in
- let eq_demod =
- List.map
- (fun demod -> List.nth equalities (position_of 0 demod eq_index))
- demod
- in
- let table = List.fold_left Indexing.index Indexing.empty eq_demod in
- let maxm,eql =
- List.fold_left
- (fun (maxm,acc) e ->
- let maxm,eq =
- Indexing.demodulation_equality bag eq_uri maxm env table e
- in
- maxm,eq::acc)
- (maxm,[]) eql
- in
- let eql = List.rev eql in
- debug_print (lazy ("\n result [demod]: "));
- List.iter
- (fun e -> debug_print (lazy (Equality.string_of_equality e ~env))) eql;
- debug_print (lazy ("\n result [demod] (cut&paste): "));
- List.iter
- (fun e ->
- let t = Equality.term_of_equality eq_uri e in
- debug_print (lazy (CicPp.pp t names)))
- eql;
- end;
- proof,[goalno]
-;;
-
-let auto_tac ~(dbd:HSql.dbd) ~params ~universe (proof, goal) =
- (* argument parsing *)
- let string = string params in
- let bool = bool params in
- (* hacks to debug paramod *)
- let superposition = bool "superposition" false in
- let target = string "target" "" in
- let table = string "table" "" in
- let subterms_only = bool "subterms_only" false in
- let demod_table = string "demod_table" "" in
- match superposition with
- | true ->
- (* this is the ugly hack to debug paramod *)
- superposition_tac
- ~target ~table ~subterms_only ~demod_table (proof,goal)
- | false ->
- (* this is the real auto *)
- let _,metasenv,_subst,_,_, _ = proof in
- let _,context,goalty = CicUtil.lookup_meta goal metasenv in
- let flags = flags_of_params params () in
- (* just for testing *)
- let use_library = flags.use_library in
- let tables,cache,newmeta =
- init_cache_and_tables dbd use_library flags.use_only_paramod
- universe (proof, goal) in
- let tables,cache,newmeta =
- if flags.close_more then
- close_more
- tables newmeta context (proof, goal)
- auto_all_solutions universe cache
- else tables,cache,newmeta in
- let initial_time = Unix.gettimeofday() in
- let (_,oldmetasenv,_subst,_,_, _) = proof in
- hint := None;
- let elem =
- metasenv,[],1,[],[D (goal,flags.maxdepth,P)],[]
+ let oldproof = Equality.Exact bo in
+ let proofterm,_ =
+ Equality.build_goal_proof (~contextualize:false) (~forward:true) bag
+ eq_uri newproof oldproof ty [] context newmetasenv
in
- match auto_main tables newmeta context flags universe cache [elem] with
- | Proved (metasenv,subst,_, tables,cache,_) ->
- prerr_endline
- ("TIME:"^string_of_float(Unix.gettimeofday()-.initial_time));
- let proof,metasenv =
- ProofEngineHelpers.subst_meta_and_metasenv_in_proof
- proof goal subst metasenv
- in
- let opened =
- ProofEngineHelpers.compare_metasenvs ~oldmetasenv
- ~newmetasenv:metasenv
- in
- proof,opened
- | Gaveup (tables,cache,maxm) ->
- debug_print
- (lazy ("TIME:"^
- string_of_float(Unix.gettimeofday()-.initial_time)));
- raise (ProofEngineTypes.Fail (lazy "Auto gave up"))
-;;
-
-let auto_tac ~dbd ~params ~universe =
- ProofEngineTypes.mk_tactic (auto_tac ~params ~dbd ~universe);;
+ if newmetasenv <> [] then
+ raise (ProofEngineTypes.Fail (lazy ("metasenv not empty")))
+ else
+ begin
+ assert_proof_is_valid proofterm newmetasenv context newty;
+ match is_subsumed universe context newty with
+ | Some t -> raise
+ (ProofEngineTypes.Fail (lazy ("subsumed by " ^ CicPp.ppterm t)))
+ | None -> close_type proofterm newty context
+ end
+ end
+ else (* if newty = ty then *)
+ raise (ProofEngineTypes.Fail (lazy "no progress"))
+ (*else ProofEngineTypes.apply_tactic
+ (ReductionTactics.simpl_tac
+ ~pattern:(ProofEngineTypes.conclusion_pattern None)) initialstatus*)
+;;
-let eq_of_goal = function
- | Cic.Appl [Cic.MutInd(uri,0,_);_;_;_] when LibraryObjects.is_eq_URI uri ->
- uri
- | _ -> raise (ProofEngineTypes.Fail (lazy ("The goal is not an equality ")))
-;;
-(* DEMODULATE *)
-let demodulate_tac ~dbd ~universe (proof,goal)=
+(* NEW DEMODULATE *)
+let demodulate_tac ~dbd ~automation_cache ~params:(univ, params) (proof,goal)=
+ let universe, tables, cache =
+ init_cache_and_tables
+ ~dbd ~use_library:false ~use_context:true
+ automation_cache univ (proof,goal)
+ in
+ let eq_uri =
+ match LibraryObjects.eq_URI () with
+ | Some (uri) -> uri
+ | None -> raise (ProofEngineTypes.Fail (lazy "equality not declared")) in
+ let active, passive, bag = tables in
let curi,metasenv,_subst,pbo,pty, attrs = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
let irl = CicMkImplicit.identity_relocation_list_for_metavariable context in
- let initgoal = [], [], ty in
- let eq_uri = eq_of_goal ty in
- let (active,passive,bag), cache, maxm =
- init_cache_and_tables dbd false true universe (proof,goal) in
+ let initgoal = [], metasenv, ty in
let equalities = (Saturation.list_of_passive passive) in
(* we demodulate using both actives passives *)
+ let env = metasenv,context,CicUniv.empty_ugraph in
+ debug_print (lazy ("PASSIVES:" ^ string_of_int(List.length equalities)));
+ List.iter (fun e -> debug_print (lazy (Equality.string_of_equality ~env e)))
+ equalities;
let table =
List.fold_left
(fun tbl eq -> Indexing.index tbl eq)
(snd active) equalities
in
- let changed,(newproof,newmetasenv, newty) =
- Indexing.demodulation_goal bag
- (metasenv,context,CicUniv.empty_ugraph) table initgoal
+ let changed,(newproof,newmetasenv, newty) =
+ (* Indexing.demodulation_goal bag *)
+ Indexing.demod bag
+ (metasenv,context,CicUniv.oblivion_ugraph) table initgoal
in
if changed then
begin
+ let maxm = CicMkImplicit.new_meta metasenv [] in
let opengoal = Equality.Exact (Cic.Meta(maxm,irl)) in
let proofterm,_ =
- Equality.build_goal_proof bag
+ Equality.build_goal_proof (~contextualize:false) bag
eq_uri newproof opengoal ty [] context metasenv
in
- let extended_metasenv = (maxm,context,newty)::metasenv in
+ let metasenv = (maxm,context,newty)::metasenv in
+ let proofterm, _, metasenv, _ =
+ CicRefine.type_of_aux' metasenv context proofterm
+ CicUniv.oblivion_ugraph
+ in
let extended_status =
- (curi,extended_metasenv,_subst,pbo,pty, attrs),goal in
+ (curi,metasenv,_subst,pbo,pty, attrs),goal in
let (status,newgoals) =
ProofEngineTypes.apply_tactic
(PrimitiveTactics.apply_tac ~term:proofterm)
~pattern:(ProofEngineTypes.conclusion_pattern None)) initialstatus*)
;;
-let demodulate_tac ~dbd ~universe =
- ProofEngineTypes.mk_tactic (demodulate_tac ~dbd ~universe);;
+let demodulate_tac ~dbd ~params ~automation_cache =
+ ProofEngineTypes.mk_tactic (demodulate_tac ~dbd ~params ~automation_cache);;
+
+let demodulate_tac ~dbd ~params:(_,flags as params) ~automation_cache =
+ let all = bool flags "all" false in
+ if all then
+ solve_rewrite_tac ~params ~automation_cache ()
+ else
+ demodulate_tac ~dbd ~params ~automation_cache
+;;
let pp_proofterm = Equality.pp_proofterm;;