* http://cs.unibo.it/helm/.
*)
-(* Da rimuovere, solo per debug*)
-let print_context ctx =
- let print_name =
- function
- Cic.Name n -> n
- | Cic.Anonymous -> "_"
- in
- List.fold_right
- (fun i (output,context) ->
- let (newoutput,context') =
- match i with
- Some (n,Cic.Decl t) ->
- print_name n ^ ":" ^ CicPp.pp t context ^ "\n", (Some n)::context
- | Some (n,Cic.Def (t,None)) ->
- print_name n ^ ":=" ^ CicPp.pp t context ^ "\n", (Some n)::context
- | None ->
- "_ ?= _\n", None::context
- | Some (_,Cic.Def (_,Some _)) -> assert false
- in
- output^newoutput,context'
- ) ctx ("",[])
- ;;
+ let debug_print = (* ignore *) prerr_endline
+
+(* let debug_print = fun _ -> () *)
+
+let new_experimental_hint =
+ let profile = CicUtil.profile "new_experimental_hint" in
+ fun ~dbd ~facts ?signature ~universe status ->
+ profile (MetadataQuery.new_experimental_hint ~dbd ~facts ?signature ~universe) status
+
+(* In this versions of auto_tac we maintain an hash table of all inspected
+ goals. We assume that the context is invariant for application.
+ To this aim, it is essential to sall hint_verbose, that in turns calls
+ apply_verbose. *)
+type exitus =
+ No of int
+ | Yes of Cic.term * int
+ | NotYetInspected
+
+let inspected_goals = Hashtbl.create 503;;
let search_theorems_in_context status =
let (proof, goal) = status in
let _,metasenv,_,_ = proof in
let _,context,ty = CicUtil.lookup_meta goal metasenv in
let rec find n = function
- [] -> []
+ | [] -> []
| hd::tl ->
- let res =
- try
- Some (PET.apply_tactic
- (PT.apply_tac ~term:(C.Rel n)) status )
- with
- PET.Fail _ -> None in
- (match res with
- Some res -> res::(find (n+1) tl)
- | None -> find (n+1) tl)
+ let res =
+ (* we should check that the hypothesys has not been cleared *)
+ if List.nth context (n-1) = None then
+ None
+ else
+ try
+ let (subst,(proof, goal_list)) =
+ PT.apply_tac_verbose ~term:(C.Rel n) status
+ in
+ (*
+ let goal_list =
+ List.stable_sort (compare_goal_list proof) goal_list in
+ *)
+ Some (subst,(proof, goal_list))
+ with
+ PET.Fail _ -> None
+ in
+ (match res with
+ | Some res -> res::(find (n+1) tl)
+ | None -> find (n+1) tl)
in
try
find 1 context
- with Failure s ->
- []
+ with Failure s -> []
;;
-let depth = 9;;
-let width = 9;;
-
-let new_search_theorems f proof goal depth gtl sign =
- let choices = f (proof,goal)
- in
- List.map
- (function (proof, goallist) ->
- (proof,(List.map (function g -> (g,depth)) goallist)@gtl, sign))
- choices
-;;
-
-exception NoOtherChoices;;
-let rec auto dbd = function
- [] -> []
- | (proof, [], sign)::tl -> (proof, [], sign)::tl
- | (proof, (goal,0)::_, _)::tl -> auto dbd tl
- | (proof, (((goal,depth)::gtl) as allg), sign)::tl ->
- (* first we check if the metavariable has not been already
- closed as a side effect by some other application *)
- let facts = (depth = 1) in
- let name,metasenv,p,statement = proof in
- let meta_inf =
- (try
- let (_, ey ,ty) = CicUtil.lookup_meta goal metasenv in
- Some (ey, ty)
- with _ -> None) in
- match meta_inf with
- Some (ey, ty) ->
- (* the goal is still there *)
- (*
- prerr_endline ("CURRENT GOAL = " ^ (CicPp.ppterm ty));
- prerr_endline ("CURRENT PROOF = " ^ (CicPp.ppterm p));
- prerr_endline ("CURRENT HYP = " ^ (fst (print_context ey)));
- *)
- (* if the goal contains metavariables we use the input
- signature for at_most constraints *)
- let is_meta_closed = CicUtil.is_meta_closed ty in
- 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
- proof goal (depth-1) [] new_sign in
- let global_choices =
- new_search_theorems
- (fun status ->
- List.map snd
- (MetadataQuery.hint
- ~dbd ~facts:facts ?signature:sign status))
- proof goal (depth-1) [] new_sign in
- (* we proceed depth-first on the current goal. This is
- a MAJOR optimization, since in case of success, and
- if the goal is meta_closed, we may just drop the alternatives
- tl1, avoiding useless backtracking. *)
- let all_choices =
- local_choices@global_choices in
- (match (auto dbd all_choices)
- with
- [] -> auto dbd tl
- | (proof,[],_)::tl1 ->
- let all_choices =
- let gtl' = List.map fst gtl in
- if (gtl = [] || is_meta_closed) then
- (proof,gtl,sign)::tl
- else
- let tl2 =
- (List.map
- (function (p,l,s) -> (p,l@gtl,s)) tl1)
- in
- (proof,gtl,sign)::tl2@tl in
- auto dbd all_choices
- | _ -> assert false)
- | None -> auto dbd ((proof,gtl,sign)::tl)
-;;
-
-
-let auto_tac ?num ~(dbd:Mysql.dbd) =
- let auto_tac dbh (proof,goal) =
- prerr_endline "Entro in Auto";
- match (auto dbd [(proof, [(goal,depth)],None)]) with
- [] -> prerr_endline("Auto failed");
- raise (ProofEngineTypes.Fail "No Applicable theorem")
- | (proof,[],_)::_ ->
- prerr_endline "AUTO_TAC HA FINITO";
- (proof,[])
- | _ -> assert false
- in
- ProofEngineTypes.mk_tactic (auto_tac dbd)
-;;
-
-
-(************************** EXPERIMENTAL VERSION ****************************)
-(* In this versions of auto_tac we maintain an hash table of all inspected
- goals. We assume that the context is invariant for application.
- To this aim, it is essential to sall hint_verbose, that in turns calls
- apply_verbose. *)
-
-
-
-type exitus =
- No of int
- | Yes of Cic.term * int
- | NotYetInspected
-
-let inspected_goals = Hashtbl.create 503;;
-
-let compare_goal_list proof goal1 goal2 =
+let compare_goals proof goal1 goal2 =
let _,metasenv,_,_ = proof in
let (_, ey1, ty1) = CicUtil.lookup_meta goal1 metasenv in
let (_, ey2, ty2) = CicUtil.lookup_meta goal2 metasenv in
in
prop1 - prop2
-let search_theorems_in_context status =
- let (proof, goal) = status in
- let module C = Cic in
- let module R = CicReduction in
- let module S = CicSubstitution in
- let module PET = ProofEngineTypes in
- let module PT = PrimitiveTactics in
- let _,metasenv,_,_ = proof in
- let _,context,ty = CicUtil.lookup_meta goal metasenv in
- let rec find n = function
- [] -> []
- | hd::tl ->
- let res =
- try
- let (subst,(proof, goal_list)) =
- PT.apply_tac_verbose ~term:(C.Rel n) status in
- let goal_list =
- List.stable_sort (compare_goal_list proof) goal_list in
- Some (subst,(proof, goal_list))
- with
- PET.Fail _ -> None in
- (match res with
- Some res -> res::(find (n+1) tl)
- | None -> find (n+1) tl)
- in
- try
- find 1 context
- with Failure s ->
- []
-;;
-let new_search_theorems f proof goal depth sign =
+let new_search_theorems f dbd proof goal depth sign =
let choices = f (proof,goal)
in
List.map
(function (subst,(proof, goallist)) ->
+ (* let goallist = reorder_goals dbd sign proof goallist in *)
+ let goallist = List.sort (compare_goals proof) goallist in
(subst,(proof,(List.map (function g -> (g,depth)) goallist), sign)))
choices
;;
exception NoOtherChoices;;
-let rec auto_single dbd proof goal ey ty depth width sign
+let is_in_metasenv goal metasenv =
+ try
+ let (_, ey ,ty) =
+ CicUtil.lookup_meta goal metasenv in
+ true
+ with CicUtil.Meta_not_found _ -> false
+
+let rec auto_single dbd proof goal ey ty depth width sign already_seen_goals
+ universe
=
if depth = 0 then [] else
+ if List.mem ty already_seen_goals then [] else
+ let already_seen_goals = ty::already_seen_goals in
let facts = (depth = 1) in
- let _,metasenv,_,_ = proof in
+ let _,metasenv,p,_ = proof in
(* first of all we check if the goal has been already
inspected *)
+ assert (is_in_metasenv goal metasenv);
let exitus =
try Hashtbl.find inspected_goals ty
with Not_found -> NotYetInspected in
match exitus with
Yes (bo,_) ->
(*
- prerr_endline "ALREADY PROVED!!!!!!!!!!!!!!!!!!!!!!!!!!!!";
- prerr_endline (CicPp.ppterm ty);
+ debug_print "ALREADY PROVED!!!!!!!!!!!!!!!!!!!!!!!!!!!!";
+ debug_print (CicPp.ppterm ty);
*)
let subst_in =
(* if we just apply the subtitution, the type
proof goal subst_in metasenv in
[(subst_in,(proof,[],sign))]
| No d when (d >= depth) ->
- (*
- prerr_endline "PRUNED!!!!!!!!!!!!!!!!!!!!!!!!!!!!";
- *)
+ (* debug_print "PRUNED!!!!!!!!!!!!!!!!!!!!!!!!!!!!"; *)
[] (* the empty list means no choices, i.e. failure *)
| No _
- | NotYetInspected ->
- (*
- prerr_endline ("CURRENT GOAL = " ^ (CicPp.ppterm ty));
- prerr_endline ("CURRENT PROOF = " ^ (CicPp.ppterm p));
- prerr_endline ("CURRENT HYP = " ^ (fst (print_context ey)));
- *)
+ | NotYetInspected ->
+ debug_print ("CURRENT GOAL = " ^ CicPp.ppterm ty);
+ debug_print ("CURRENT PROOF = " ^ CicPp.ppterm p);
+ debug_print ("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
+ search_theorems_in_context dbd
proof goal (depth-1) new_sign in
let global_choices =
new_search_theorems
(fun status ->
- List.map snd
- (MetadataQuery.experimental_hint
- ~dbd ~facts:facts ?signature:sign status))
- proof goal (depth-1) new_sign in
+ 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 =
+ 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 sorted_choices)
+ all_choices in
+ (match (auto_new dbd width already_seen_goals universe sorted_choices)
with
[] ->
(* no proof has been found; we update the
in
if not (cty = ty) then
begin
- prerr_endline ("ty = "^CicPp.ppterm ty);
- prerr_endline ("cty = "^CicPp.ppterm cty);
+ debug_print ("ty = "^CicPp.ppterm ty);
+ debug_print ("cty = "^CicPp.ppterm cty);
assert false
end
Hashtbl.add inspected_goals
| _ -> assert false)
end
-and auto_new dbd width = function
- [] -> []
+and auto_new dbd width already_seen_goals universe = function
+ | [] -> []
+ | (subst,(proof, goals, sign))::tl ->
+ let _,metasenv,_,_ = proof in
+ let is_in_metasenv (goal, _) =
+ try
+ let (_, ey ,ty) = CicUtil.lookup_meta goal metasenv in
+ true
+ with CicUtil.Meta_not_found _ -> false
+ in
+ let goals'= List.filter is_in_metasenv goals in
+ 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
+ | [] -> []
| (subst,(proof, [], sign))::tl -> (subst,(proof, [], sign))::tl
- | (subst,(proof, (goal,0)::_, _))::tl -> auto_new dbd width tl
- | (subst,(proof, (goal,depth)::goals, _))::tl when
- (List.length goals) > width -> auto_new dbd width tl
- | (subst,(proof, (goal,depth)::gtl, sign))::tl ->
+ | (subst,(proof, (goal,0)::_, _))::tl ->
+ auto_new dbd width already_seen_goals universe tl
+ | (subst,(proof, goals, _))::tl when
+ (List.length goals) > width ->
+ auto_new dbd width already_seen_goals universe tl
+ | (subst,(proof, (goal,depth)::gtl, sign))::tl ->
let _,metasenv,p,_ = proof in
- let meta_inf =
- try
- let (_, ey ,ty) =
- CicUtil.lookup_meta goal metasenv in
- Some (ey,ty)
- with _ -> None in
- match meta_inf with
- Some (ey,ty) ->
- let (_, ey ,ty) = CicUtil.lookup_meta goal metasenv in
- begin
- match (auto_single dbd proof goal ey ty depth
- (width - (List.length gtl)) sign)
- with
- [] -> auto_new dbd width 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
- let sorted_choices = all_choices in
-(*
- List.stable_sort
- (fun (_, (_, goals1, _)) (_, (_, goals2, _)) ->
- Pervasives.compare
- (List.length goals1) (List.length goals2))
- all_choices in *)
-
- auto_new dbd width sorted_choices
- | _ -> assert false
- end
- | None -> auto_new dbd width ((subst,(proof, gtl, sign))::tl)
-;;
+ 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
+ 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
+ ;;
+let default_depth = 5
+let default_width = 3
-let auto_tac_new ~(dbd:Mysql.dbd) =
+(*
+let auto_tac ?(depth=default_depth) ?(width=default_width) ~(dbd:Mysql.dbd)
+ ()
+=
let auto_tac dbd (proof,goal) =
+ let universe = MetadataQuery.signature_of_goal ~dbd (proof,goal) in
Hashtbl.clear inspected_goals;
- prerr_endline "Entro in Auto";
+ debug_print "Entro in Auto";
let id t = t in
- match (auto_new dbd width [id,(proof, [(goal,depth)],None)]) with
- [] -> prerr_endline("Auto failed");
+ let t1 = Unix.gettimeofday () in
+ match auto_new dbd width [] universe [id,(proof, [(goal,depth)],None)] with
+ [] -> debug_print("Auto failed");
raise (ProofEngineTypes.Fail "No Applicable theorem")
- | (_,(proof,[],_))::_ ->
- prerr_endline "AUTO_TAC HA FINITO";
+ | (_,(proof,[],_))::_ ->
+ let t2 = Unix.gettimeofday () in
+ debug_print "AUTO_TAC HA FINITO";
let _,_,p,_ = proof in
- prerr_endline (CicPp.ppterm p);
+ debug_print (CicPp.ppterm p);
+ Printf.printf "tempo: %.9f\n" (t2 -. t1);
(proof,[])
| _ -> assert false
in
ProofEngineTypes.mk_tactic (auto_tac dbd)
;;
+*)
+
+let paramodulation_tactic = ref
+ (fun dbd status -> raise (ProofEngineTypes.Fail "Not Ready yet..."));;
+
+let term_is_equality = ref
+ (fun term -> debug_print "term_is_equality E` DUMMY!!!!"; false);;
+let auto_tac ?(depth=default_depth) ?(width=default_width) ?paramodulation ~(dbd:Mysql.dbd) () =
+ let auto_tac dbd (proof, goal) =
+ let normal_auto () =
+ let universe = MetadataQuery.signature_of_goal ~dbd (proof, goal) in
+ Hashtbl.clear inspected_goals;
+ debug_print "Entro in Auto";
+ let id t = t in
+ let t1 = Unix.gettimeofday () in
+ match
+ auto_new dbd width [] universe [id, (proof, [(goal, depth)], None)]
+ with
+ [] -> debug_print("Auto failed");
+ raise (ProofEngineTypes.Fail "No Applicable theorem")
+ | (_,(proof,[],_))::_ ->
+ let t2 = Unix.gettimeofday () in
+ debug_print "AUTO_TAC HA FINITO";
+ let _,_,p,_ = proof in
+ debug_print (CicPp.ppterm p);
+ debug_print (Printf.sprintf "tempo: %.9f\n" (t2 -. t1));
+ (proof,[])
+ | _ -> assert false
+ in
+ let paramodulation_ok =
+ match paramodulation with
+ | None -> false
+ | Some _ ->
+ let _, metasenv, _, _ = proof in
+ let _, _, meta_goal = CicUtil.lookup_meta goal metasenv in
+ !term_is_equality meta_goal
+ in
+ if paramodulation_ok then (
+ debug_print "USO PARAMODULATION...";
+(* try *)
+ !paramodulation_tactic dbd (proof, goal)
+(* with ProofEngineTypes.Fail _ -> *)
+(* normal_auto () *)
+ ) else
+ normal_auto ()
+ in
+ ProofEngineTypes.mk_tactic (auto_tac dbd)
+;;