No of int
| Yes of Cic.term * int
| NotYetInspected
-
+
let inspected_goals = Hashtbl.create 503;;
let search_theorems_in_context status =
let (_, ey1, ty1) = CicUtil.lookup_meta goal1 metasenv in
let (_, ey2, ty2) = CicUtil.lookup_meta goal2 metasenv in
let ty_sort1,_ = CicTypeChecker.type_of_aux' metasenv ey1 ty1
- CicUniv.empty_ugraph in
+ CicUniv.empty_ugraph in
let ty_sort2,_ = CicTypeChecker.type_of_aux' metasenv ey2 ty2
- CicUniv.empty_ugraph in
+ CicUniv.empty_ugraph in
let prop1 =
let b,_ = CicReduction.are_convertible ey1 (Cic.Sort Cic.Prop) ty_sort1
- CicUniv.empty_ugraph in
+ CicUniv.empty_ugraph in
if b then 0 else 1
in
let prop2 =
let b,_ = CicReduction.are_convertible ey2 (Cic.Sort Cic.Prop) ty_sort2
- CicUniv.empty_ugraph in
+ CicUniv.empty_ugraph in
if b then 0 else 1
in
prop1 - prop2
let is_meta_closed = CicUtil.is_meta_closed ty in
begin
match exitus with
- Yes (bo,_) ->
+ Yes (bo,_) ->
(*
debug_print (lazy "ALREADY PROVED!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
- debug_print (lazy (CicPp.ppterm ty));
+ debug_print (lazy (CicPp.ppterm ty));
*)
let subst_in =
(* if we just apply the subtitution, the type
is irrelevant: we may use Implicit, since it will
be dropped *)
- CicMetaSubst.apply_subst
- [(goal,(ey, bo, Cic.Implicit None))] in
- let (proof,_) =
- ProofEngineHelpers.subst_meta_and_metasenv_in_proof
- proof goal subst_in metasenv in
- [(subst_in,(proof,[],sign))]
+ CicMetaSubst.apply_subst
+ [(goal,(ey, bo, Cic.Implicit None))] in
+ let (proof,_) =
+ ProofEngineHelpers.subst_meta_and_metasenv_in_proof
+ proof goal subst_in metasenv in
+ [(subst_in,(proof,[],sign))]
| No d when (d >= depth) ->
- (* debug_print (lazy "PRUNED!!!!!!!!!!!!!!!!!!!!!!!!!!!!"); *)
- [] (* the empty list means no choices, i.e. failure *)
- | No _
- | NotYetInspected ->
- debug_print (lazy ("CURRENT GOAL = " ^ CicPp.ppterm ty));
- debug_print (lazy ("CURRENT PROOF = " ^ CicPp.ppterm p));
- debug_print (lazy ("CURRENT HYP = " ^ CicPp.ppcontext ey));
- let sign, new_sign =
- if is_meta_closed then
- None, Some (MetadataConstraints.signature_of ty)
- else sign,sign in (* maybe the union ? *)
- let local_choices =
- new_search_theorems
- search_theorems_in_context dbd
- proof goal (depth-1) new_sign in
- let global_choices =
- new_search_theorems
- (fun status ->
- List.map snd
- (new_experimental_hint
- ~dbd ~facts:facts ?signature:sign ~universe status))
- dbd proof goal (depth-1) new_sign in
- let all_choices =
- local_choices@global_choices in
- let sorted_choices =
- List.stable_sort
- (fun (_, (_, goals1, _)) (_, (_, goals2, _)) ->
- Pervasives.compare
- (List.length goals1) (List.length goals2))
- all_choices in
- (match (auto_new dbd width already_seen_goals universe sorted_choices)
- with
- [] ->
- (* no proof has been found; we update the
- hastable *)
- (* if is_meta_closed then *)
- Hashtbl.add inspected_goals ty (No depth);
- []
- | (subst,(proof,[],sign))::tl1 ->
- (* a proof for goal has been found:
- in order to get the proof we apply subst to
- Meta[goal] *)
- if is_meta_closed then
- begin
- let irl =
- CicMkImplicit.identity_relocation_list_for_metavariable ey in
- let meta_proof =
- subst (Cic.Meta(goal,irl)) in
- Hashtbl.add inspected_goals
- ty (Yes (meta_proof,depth));
+ (* debug_print (lazy "PRUNED!!!!!!!!!!!!!!!!!!!!!!!!!!!!"); *)
+ [] (* the empty list means no choices, i.e. failure *)
+ | No _
+ | NotYetInspected ->
+ debug_print (lazy ("CURRENT GOAL = " ^ CicPp.ppterm ty));
+ debug_print (lazy ("CURRENT PROOF = " ^ CicPp.ppterm p));
+ debug_print (lazy ("CURRENT HYP = " ^ CicPp.ppcontext ey));
+ let sign, new_sign =
+ if is_meta_closed then
+ None, Some (MetadataConstraints.signature_of ty)
+ else sign,sign in (* maybe the union ? *)
+ let local_choices =
+ new_search_theorems
+ search_theorems_in_context dbd
+ proof goal (depth-1) new_sign in
+ let global_choices =
+ new_search_theorems
+ (fun status ->
+ List.map snd
+ (new_experimental_hint
+ ~dbd ~facts:facts ?signature:sign ~universe status))
+ dbd proof goal (depth-1) new_sign in
+ let all_choices =
+ local_choices@global_choices in
+ let sorted_choices =
+ List.stable_sort
+ (fun (_, (_, goals1, _)) (_, (_, goals2, _)) ->
+ Pervasives.compare
+ (List.length goals1) (List.length goals2))
+ all_choices in
+ (match (auto_new dbd width already_seen_goals universe sorted_choices)
+ with
+ [] ->
+ (* no proof has been found; we update the
+ hastable *)
+ (* if is_meta_closed then *)
+ Hashtbl.add inspected_goals ty (No depth);
+ []
+ | (subst,(proof,[],sign))::tl1 ->
+ (* a proof for goal has been found:
+ in order to get the proof we apply subst to
+ Meta[goal] *)
+ if is_meta_closed then
+ begin
+ let irl =
+ CicMkImplicit.identity_relocation_list_for_metavariable ey in
+ let meta_proof =
+ subst (Cic.Meta(goal,irl)) in
+ Hashtbl.add inspected_goals
+ ty (Yes (meta_proof,depth));
(*
- begin
- let cty,_ =
- CicTypeChecker.type_of_aux' metasenv ey meta_proof CicUniv.empty_ugraph
- in
- if not (cty = ty) then
- begin
- debug_print (lazy ("ty = "^CicPp.ppterm ty));
- debug_print (lazy ("cty = "^CicPp.ppterm cty));
- assert false
- end
- Hashtbl.add inspected_goals
- ty (Yes (meta_proof,depth));
- end;
+ begin
+ let cty,_ =
+ CicTypeChecker.type_of_aux' metasenv ey meta_proof CicUniv.empty_ugraph
+ in
+ if not (cty = ty) then
+ begin
+ debug_print (lazy ("ty = "^CicPp.ppterm ty));
+ debug_print (lazy ("cty = "^CicPp.ppterm cty));
+ assert false
+ end
+ Hashtbl.add inspected_goals
+ ty (Yes (meta_proof,depth));
+ end;
*)
- end;
- (subst,(proof,[],sign))::tl1
- | _ -> assert false)
+ end;
+ (subst,(proof,[],sign))::tl1
+ | _ -> assert false)
end
and auto_new dbd width already_seen_goals universe = function
let goals'=
List.filter (fun (goal, _) -> CicUtil.exists_meta goal metasenv) goals
in
- auto_new_aux dbd
+ auto_new_aux dbd
width already_seen_goals universe ((subst,(proof, goals', sign))::tl)
and auto_new_aux dbd width already_seen_goals universe = function
let _,metasenv,p,_ = proof in
let (_, ey ,ty) = CicUtil.lookup_meta goal metasenv in
match (auto_single dbd proof goal ey ty depth
- (width - (List.length gtl)) sign already_seen_goals) universe
+ (width - (List.length gtl)) sign already_seen_goals) universe
with
- [] -> auto_new dbd width already_seen_goals universe tl
- | (local_subst,(proof,[],sign))::tl1 ->
- let new_subst f t = f (subst t) in
- let is_meta_closed = CicUtil.is_meta_closed ty in
- let all_choices =
- if is_meta_closed then
- (new_subst local_subst,(proof,gtl,sign))::tl
- else
- let tl2 =
- (List.map
- (function (f,(p,l,s)) -> (new_subst f,(p,l@gtl,s))) tl1)
- in
- (new_subst local_subst,(proof,gtl,sign))::tl2@tl in
- auto_new dbd width already_seen_goals universe all_choices
- | _ -> assert false
+ [] -> auto_new dbd width already_seen_goals universe tl
+ | (local_subst,(proof,[],sign))::tl1 ->
+ let new_subst f t = f (subst t) in
+ let is_meta_closed = CicUtil.is_meta_closed ty in
+ let all_choices =
+ if is_meta_closed then
+ (new_subst local_subst,(proof,gtl,sign))::tl
+ else
+ let tl2 =
+ (List.map
+ (function (f,(p,l,s)) -> (new_subst f,(p,l@gtl,s))) tl1)
+ in
+ (new_subst local_subst,(proof,gtl,sign))::tl2@tl in
+ auto_new dbd width already_seen_goals universe all_choices
+ | _ -> assert false
;;
let default_depth = 5
let t1 = Unix.gettimeofday () in
match auto_new dbd width [] universe [id,(proof, [(goal,depth)],None)] with
[] -> debug_print (lazy "Auto failed");
- raise (ProofEngineTypes.Fail "No Applicable theorem")
+ raise (ProofEngineTypes.Fail "No Applicable theorem")
| (_,(proof,[],_))::_ ->
let t2 = Unix.gettimeofday () in
- debug_print (lazy "AUTO_TAC HA FINITO");
- let _,_,p,_ = proof in
- debug_print (lazy (CicPp.ppterm p));
+ debug_print (lazy "AUTO_TAC HA FINITO");
+ let _,_,p,_ = proof in
+ debug_print (lazy (CicPp.ppterm p));
Printf.printf "tempo: %.9f\n" (t2 -. t1);
- (proof,[])
+ (proof,[])
| _ -> assert false
in
ProofEngineTypes.mk_tactic (auto_tac dbd)
(fun term -> debug_print (lazy "term_is_equality E` DUMMY!!!!"); false);;
*)
-let auto_tac ?(depth=default_depth) ?(width=default_width) ?paramodulation
- ?full ~(dbd:HMysql.dbd) () =
+let bool name params =
+ try let _ = List.assoc name params in true with
+ | Not_found -> false
+;;
+
+let string name params =
+ try List.assoc name params with
+ | Not_found -> ""
+;;
+
+let int name params =
+ try int_of_string (List.assoc name params) with
+ | Not_found -> default_depth
+ | Failure _ ->
+ raise (ProofEngineTypes.Fail (lazy (name ^ " must be an integer")))
+;;
+
+let auto_tac ~params ~(dbd:HMysql.dbd) =
+ (* argument parsing *)
+ let depth = int "depth" params in
+ let width = int "width" params in
+ let paramodulation = bool "paramodulation" params in
+ let full = bool "full" params in
+ let superposition = bool "superposition" params in
+ let target = string "target" params in
+ let table = string "table" params in
+ let subterms_only = bool "subterms_only" params in
+ let caso_strano = bool "caso_strano" params in
+ let demod_table = string "demod_table" params in
+ (* the real tactic *)
let auto_tac dbd (proof, goal) =
let normal_auto () =
let universe = MetadataQuery.signature_of_goal ~dbd (proof, goal) in
auto_new dbd width [] universe [id, (proof, [(goal, depth)], None)]
with
[] -> debug_print(lazy "Auto failed");
- raise (ProofEngineTypes.Fail (lazy "No Applicable theorem"))
+ raise (ProofEngineTypes.Fail (lazy "No Applicable theorem"))
| (_,(proof,[],_))::_ ->
let t2 = Unix.gettimeofday () in
- debug_print (lazy "AUTO_TAC HA FINITO");
- let _,_,p,_ = proof in
- debug_print (lazy (CicPp.ppterm p));
+ debug_print (lazy "AUTO_TAC HA FINITO");
+ let _,_,p,_ = proof in
+ debug_print (lazy (CicPp.ppterm p));
debug_print (lazy (Printf.sprintf "tempo: %.9f\n" (t2 -. t1)));
- (proof,[])
+ (proof,[])
| _ -> assert false
in
- let full = match full with None -> false | Some _ -> true in
let paramodulation_ok =
- match paramodulation with
- | None -> false
- | Some _ ->
- let _, metasenv, _, _ = proof in
- let _, _, meta_goal = CicUtil.lookup_meta goal metasenv in
- full || (Equality.term_is_equality meta_goal)
+ let _, metasenv, _, _ = proof in
+ let _, _, meta_goal = CicUtil.lookup_meta goal metasenv in
+ paramodulation && (full || (Equality.term_is_equality meta_goal))
in
if paramodulation_ok then (
debug_print (lazy "USO PARAMODULATION...");
(* try *)
try
- let rc = Saturation.saturate dbd ~depth ~width ~full (proof, goal) in
+ let rc = Saturation.saturate caso_strano dbd ~depth ~width ~full (proof, goal) in
prerr_endline (Saturation.get_stats ());
rc
with exn ->
) else
normal_auto ()
in
- ProofEngineTypes.mk_tactic (auto_tac dbd)
+ match superposition with
+ | true ->
+ ProofEngineTypes.mk_tactic
+ (Saturation.superposition_tac ~target ~table ~subterms_only ~demod_table)
+ | _ -> ProofEngineTypes.mk_tactic (auto_tac dbd)
;;
+
+(********************** applyS *******************)
+
+let new_metasenv_and_unify_and_t dbd proof goal newmeta' metasenv' context term' ty termty goal_arity =
+ let (consthead,newmetasenv,arguments,_) =
+ ProofEngineHelpers.saturate_term newmeta' metasenv' context termty goal_arity in
+ let term'' = match arguments with [] -> term' | _ -> Cic.Appl (term'::arguments) in
+ let proof',metasenv =
+ let (puri,metasenv,pbo,pty) = proof in
+ (puri,newmetasenv,pbo,pty),metasenv
+ in
+ let proof'',goals =
+ match LibraryObjects.eq_URI () with
+ | Some uri ->
+ ProofEngineTypes.apply_tactic
+ (Tacticals.then_
+ ~start:(PrimitiveTactics.letin_tac term''(*Tacticals.id_tac*))
+ ~continuation:
+ (PrimitiveTactics.cut_tac
+ (CicSubstitution.lift 1
+ (Cic.Appl
+ [Cic.MutInd (uri,0,[]);
+ Cic.Sort Cic.Prop;
+ consthead;
+ ty])))) (proof',goal)
+ | None -> raise (ProofEngineTypes.Fail (lazy "No equality defined"))
+ in
+ match goals with
+ [g1;g2] ->
+ let proof'',goals =
+ ProofEngineTypes.apply_tactic
+ (auto_tac ~params:["caso_strano","on";"paramodulation","on"] ~dbd) (proof'',g2)
+ in
+ let proof'',goals =
+ ProofEngineTypes.apply_tactic
+ (Tacticals.then_
+ ~start:(EqualityTactics.rewrite_tac ~direction:`RightToLeft
+ ~pattern:(ProofEngineTypes.conclusion_pattern None) (Cic.Rel 1))
+ ~continuation:(PrimitiveTactics.apply_tac (Cic.Rel 2))
+ ) (proof'',g1)
+ in
+ proof'',
+ (*CSC: Brrrr.... *)
+ ProofEngineHelpers.compare_metasenvs ~oldmetasenv:metasenv
+ ~newmetasenv:(let _,m,_,_ = proof'' in m)
+ | _ -> assert false
+
+let rec count_prods context ty =
+ match CicReduction.whd context ty with
+ Cic.Prod (n,s,t) -> 1 + count_prods (Some (n,Cic.Decl s)::context) t
+ | _ -> 0
+
+let applyS_tac ~dbd ~term (proof, goal) =
+ let module T = CicTypeChecker in
+ let module R = CicReduction in
+ let module C = Cic in
+ let (_,metasenv,_,_) = proof in
+ let metano,context,ty = CicUtil.lookup_meta goal metasenv in
+ let newmeta = ProofEngineHelpers.new_meta_of_proof ~proof in
+ let exp_named_subst_diff,newmeta',newmetasenvfragment,term' =
+ match term with
+ C.Var (uri,exp_named_subst) ->
+ let newmeta',newmetasenvfragment,exp_named_subst',exp_named_subst_diff =
+ PrimitiveTactics.generalize_exp_named_subst_with_fresh_metas context newmeta uri
+ exp_named_subst
+ in
+ exp_named_subst_diff,newmeta',newmetasenvfragment,
+ C.Var (uri,exp_named_subst')
+ | C.Const (uri,exp_named_subst) ->
+ let newmeta',newmetasenvfragment,exp_named_subst',exp_named_subst_diff =
+ PrimitiveTactics.generalize_exp_named_subst_with_fresh_metas context newmeta uri
+ exp_named_subst
+ in
+ exp_named_subst_diff,newmeta',newmetasenvfragment,
+ C.Const (uri,exp_named_subst')
+ | C.MutInd (uri,tyno,exp_named_subst) ->
+ let newmeta',newmetasenvfragment,exp_named_subst',exp_named_subst_diff =
+ PrimitiveTactics.generalize_exp_named_subst_with_fresh_metas context newmeta uri
+ exp_named_subst
+ in
+ exp_named_subst_diff,newmeta',newmetasenvfragment,
+ C.MutInd (uri,tyno,exp_named_subst')
+ | C.MutConstruct (uri,tyno,consno,exp_named_subst) ->
+ let newmeta',newmetasenvfragment,exp_named_subst',exp_named_subst_diff =
+ PrimitiveTactics.generalize_exp_named_subst_with_fresh_metas context newmeta uri
+ exp_named_subst
+ in
+ exp_named_subst_diff,newmeta',newmetasenvfragment,
+ C.MutConstruct (uri,tyno,consno,exp_named_subst')
+ | _ -> [],newmeta,[],term
+ in
+ let metasenv' = metasenv@newmetasenvfragment in
+ let termty,_ =
+ CicTypeChecker.type_of_aux' metasenv' context term' CicUniv.empty_ugraph
+ in
+ let termty =
+ CicSubstitution.subst_vars exp_named_subst_diff termty in
+ let goal_arity = count_prods context ty in
+ let res =
+ new_metasenv_and_unify_and_t dbd proof goal
+ newmeta' metasenv' context term' ty termty goal_arity
+ in
+ res
+
+let applyS_tac ~dbd ~term =
+ ProofEngineTypes.mk_tactic
+ (fun status ->
+ try applyS_tac ~dbd ~term status
+ with
+ | CicUnification.UnificationFailure msg
+ | CicTypeChecker.TypeCheckerFailure msg ->
+ raise (ProofEngineTypes.Fail msg))