open Continuationals.Stack
open NTacStatus
module Ast = CicNotationPt
+
+(* ======================= statistics ========================= *)
+
let app_counter = ref 0
+module RHT = struct
+ type t = NReference.reference
+ let equal = (==)
+ let compare = Pervasives.compare
+ let hash = Hashtbl.hash
+end;;
+
+module RefHash = Hashtbl.Make(RHT);;
+
+type info = {
+ nominations : int ref;
+ uses: int ref;
+}
+
+let statistics: info RefHash.t = RefHash.create 503
+
+let incr_nominations tbl item =
+ try
+ let v = RefHash.find tbl item in incr v.nominations
+ with Not_found ->
+ RefHash.add tbl item {nominations = ref 1; uses = ref 0}
+
+let incr_uses tbl item =
+ try
+ let v = RefHash.find tbl item in incr v.uses
+ with Not_found -> assert false
+
+let toref f tbl t =
+ match t with
+ | Ast.NRef n ->
+ f tbl n
+ | Ast.NCic _ (* local candidate *)
+ | _ -> ()
+
+let is_relevant tbl item =
+ try
+ let v = RefHash.find tbl item in
+ if !(v.nominations) < 60 then true (* not enough info *)
+ else if !(v.uses) = 0 then false
+ else true
+ with Not_found -> true
+
+let print_stat tbl =
+ let l = RefHash.fold (fun a v l -> (a,v)::l) tbl [] in
+ let relevance v = float !(v.uses) /. float !(v.nominations) in
+ let vcompare (_,v1) (_,v2) =
+ Pervasives.compare (relevance v1) (relevance v2) in
+ let l = List.sort vcompare l in
+ let vstring (a,v)=
+ CicNotationPp.pp_term (Ast.NCic (NCic.Const a)) ^ ": rel = " ^
+ (string_of_float (relevance v)) ^
+ "; uses = " ^ (string_of_int !(v.uses)) ^
+ "; nom = " ^ (string_of_int !(v.nominations)) in
+ lazy ("\n\nSTATISTICS:\n" ^
+ String.concat "\n" (List.map vstring l))
+
(* ======================= utility functions ========================= *)
module IntSet = Set.Make(struct type t = int let compare = compare end)
let is_a_fact_obj s uri =
let obj = NCicEnvironment.get_checked_obj uri in
match obj with
- | (_,_,[],[],NCic.Constant(_,_,Some(t),ty,_)) ->
+ | (_,_,[],[],NCic.Constant(_,_,_,ty,_)) ->
is_a_fact s (mk_cic_term [] ty)
(* aggiungere i costruttori *)
| _ -> false
| NCic.Rel _
| NCic.Sort _ -> ()
| NCic.Implicit _ -> assert false
- | NCic.Const nref as t ->
+ | NCic.Const nref ->
(*
prerr_endline (NCicPp.ppterm ~metasenv:[] ~subst:[]
~context:[] t ^ ":" ^ string_of_int (height_of_ref nref));
with
NCicRefiner.RefineFailure msg
| NCicRefiner.Uncertain msg ->
- debug_print (lazy ("WARNING: refining in fast_eq_check failed" ^
- snd (Lazy.force msg))); None
+ debug_print (lazy ("WARNING: refining in fast_eq_check failed\n" ^
+ snd (Lazy.force msg) ^
+ "\n in the environment\n" ^
+ NCicPp.ppmetasenv subst metasenv)); None
| NCicRefiner.AssertFailure msg ->
debug_print (lazy ("WARNING: refining in fast_eq_check failed" ^
- Lazy.force msg)); None
+ Lazy.force msg ^
+ "\n in the environment\n" ^
+ NCicPp.ppmetasenv subst metasenv)); None
| _ -> None
in
HExtlib.filter_map build_status
(f status metasenv subst ctx eq_cache (NCic.Rel ~-1,gty))
;;
-let fast_eq_check eq_cache status goal =
+let fast_eq_check eq_cache status (goal:int) =
match solve NCicParamod.fast_eq_check status eq_cache goal with
| [] -> raise (Error (lazy "no proof found",None))
| s::_ -> s
let s = dist_fast_eq_check eq_cache status in
[s]
with
- | Error _ -> []
+ | Error _ -> debug_print (lazy ("no paramod proof found"));[]
;;
-(* warning: ctx is supposed to be already instantiated w.r.t subst *)
let index_local_equations eq_cache status =
debug_print (lazy "indexing equations");
let open_goals = head_goals status#stack in
let open_goal = List.hd open_goals in
let ngty = get_goalty status open_goal in
- let ctx = ctx_of ngty in
+ let ctx = apply_subst_context ~fix_projections:true status (ctx_of ngty) in
let c = ref 0 in
List.fold_left
(fun eq_cache _ ->
| NCic.Const(NReference.Ref (_,NReference.Def _) as nre)
when nre<>nref ->
let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def nre in
- aux metasenv ty (args@moreargs)
+ aux metasenv bo (args@moreargs)
| NCic.Appl(NCic.Const(NReference.Ref (_,NReference.Def _) as nre)::tl)
when nre<>nref ->
let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def nre in
let _,_,metasenv,subst,_ = status#obj in
let _,ctx,jty = List.assoc j metasenv in
let jty = NCicUntrusted.apply_subst subst ctx jty in
- print(lazy("goal " ^ (NCicPp.ppterm ctx [] [] jty)));
+ debug_print(lazy("goal " ^ (NCicPp.ppterm ctx [] [] jty)));
fast_eq_check unit_eq status j
with
+ | NCicEnvironment.ObjectNotFound s as e ->
+ raise (Error (lazy "eq_coerc non yet defined",Some e))
| Error _ as e -> debug_print (lazy "error"); raise e
let smart_apply_tac t s =
type th_cache = (NCic.context * InvRelDiscriminationTree.t) list
-let keys_of_term status t =
- let status, orig_ty = typeof status (ctx_of t) t in
+(* cartesian: term set list -> term list set *)
+let rec cartesian =
+ function
+ [] -> NDiscriminationTree.TermListSet.empty
+ | [l] ->
+ NDiscriminationTree.TermSet.fold
+ (fun x acc -> NDiscriminationTree.TermListSet.add [x] acc) l NDiscriminationTree.TermListSet.empty
+ | he::tl ->
+ let rest = cartesian tl in
+ NDiscriminationTree.TermSet.fold
+ (fun x acc ->
+ NDiscriminationTree.TermListSet.fold (fun l acc' -> NDiscriminationTree.TermListSet.add (x::l) acc') rest acc
+ ) he NDiscriminationTree.TermListSet.empty
+;;
+
+(* all_keys_of_cic_type: term -> term set *)
+let all_keys_of_cic_type metasenv subst context ty =
+ let saturate ty =
+ (* Here we are dropping the metasenv, but this should not raise any
+ exception (hopefully...) *)
+ let ty,_,hyps =
+ NCicMetaSubst.saturate ~delta:max_int metasenv subst context ty 0
+ in
+ ty,List.length hyps
+ in
+ let rec aux ty =
+ match ty with
+ NCic.Appl (he::tl) ->
+ let tl' =
+ List.map (fun ty ->
+ let wty = NCicReduction.whd ~delta:0 ~subst context ty in
+ if ty = wty then
+ NDiscriminationTree.TermSet.add ty (aux ty)
+ else
+ NDiscriminationTree.TermSet.union
+ (NDiscriminationTree.TermSet.add ty (aux ty))
+ (NDiscriminationTree.TermSet.add wty (aux wty))
+ ) tl
+ in
+ NDiscriminationTree.TermListSet.fold
+ (fun l acc -> NDiscriminationTree.TermSet.add (NCic.Appl l) acc)
+ (cartesian ((NDiscriminationTree.TermSet.singleton he)::tl'))
+ NDiscriminationTree.TermSet.empty
+ | _ -> NDiscriminationTree.TermSet.empty
+ in
+ let ty,ity = saturate ty in
+ let wty,iwty = saturate (NCicReduction.whd ~delta:0 ~subst context ty) in
+ if ty = wty then
+ [ity, NDiscriminationTree.TermSet.add ty (aux ty)]
+ else
+ [ity, NDiscriminationTree.TermSet.add ty (aux ty) ;
+ iwty, NDiscriminationTree.TermSet.add wty (aux wty) ]
+;;
+
+let all_keys_of_type status t =
+ let _,_,metasenv,subst,_ = status#obj in
+ let context = ctx_of t in
+ let status, t = apply_subst status context t in
+ let keys =
+ all_keys_of_cic_type metasenv subst context
+ (snd (term_of_cic_term status t context))
+ in
+ status,
+ List.map
+ (fun (intros,keys) ->
+ intros,
+ NDiscriminationTree.TermSet.fold
+ (fun t acc -> Ncic_termSet.add (mk_cic_term context t) acc)
+ keys Ncic_termSet.empty
+ ) keys
+;;
+
+
+let keys_of_type status orig_ty =
+ (* Here we are dropping the metasenv (in the status), but this should not
+ raise any exception (hopefully...) *)
let _, ty, _ = saturate ~delta:max_int status orig_ty in
- let keys = [ty] in
+ let _, ty = apply_subst status (ctx_of ty) ty in
+ let keys =
+(*
+ let orig_ty' = NCicTacReduction.normalize ~subst context orig_ty in
+ if orig_ty' <> orig_ty then
+ let ty',_,_= NCicMetaSubst.saturate ~delta:0 metasenv subst context orig_ty' 0 in
+ [ty;ty']
+ else
+ [ty]
+*)
+ [ty] in
+(*CSC: strange: we keep ty, ty normalized and ty ~delta:(h-1) *)
let keys =
let _, ty = term_of_cic_term status ty (ctx_of ty) in
match ty with
status, keys
;;
+let all_keys_of_term status t =
+ let status, orig_ty = typeof status (ctx_of t) t in
+ all_keys_of_type status orig_ty
+;;
+
+let keys_of_term status t =
+ let status, orig_ty = typeof status (ctx_of t) t in
+ keys_of_type status orig_ty
+;;
+
let mk_th_cache status gl =
List.fold_left
(fun (status, acc) g ->
| [] -> (* Ncic_termSet.elements *) acc
| (_::tl) as k ->
try
- let idx = List.assq k th in
+ let idx = List.assoc(*q*) k th in
let acc = Ncic_termSet.union acc
(InvRelDiscriminationTree.retrieve_unifiables idx gty)
in
type flags = {
do_types : bool; (* solve goals in Type *)
last : bool; (* last goal: take first solution only *)
+ candidates: Ast.term list option;
maxwidth : int;
maxsize : int;
maxdepth : int;
type cache =
{facts : th_cache; (* positive results *)
under_inspection : cic_term list * th_cache; (* to prune looping *)
- unit_eq : NCicParamod.state
+ unit_eq : NCicParamod.state;
+ trace: Ast.term list
}
+let add_to_trace ~depth cache t =
+ match t with
+ | Ast.NRef _ ->
+ debug_print ~depth (lazy ("Adding to trace: " ^ CicNotationPp.pp_term t));
+ {cache with trace = t::cache.trace}
+ | Ast.NCic _ (* local candidate *)
+ | _ -> (*not an application *) cache
+
+let pptrace tr =
+ (lazy ("Proof Trace: " ^ (String.concat ";"
+ (List.map CicNotationPp.pp_term tr))))
+(* not used
+let remove_from_trace cache t =
+ match t with
+ | Ast.NRef _ ->
+ (match cache.trace with
+ | _::tl -> {cache with trace = tl}
+ | _ -> assert false)
+ | Ast.NCic _ (* local candidate *)
+ | _ -> (*not an application *) cache *)
+
type sort = T | P
type goal = int * sort (* goal, depth, sort *)
type fail = goal * cic_term
exception Gaveup of IntSet.t (* a sublist of unprovable conjunctive
atoms of the input goals *)
-exception Proved of NTacStatus.tac_status
+exception Proved of NTacStatus.tac_status * Ast.term list
(* let close_failures _ c = c;; *)
(* let prunable _ _ _ = false;; *)
(* let cache_add_underinspection c _ _ = c;; *)
let init_cache ?(facts=[]) ?(under_inspection=[],[])
- ?(unit_eq=NCicParamod.empty_state) _ =
+ ?(unit_eq=NCicParamod.empty_state)
+ ?(trace=[])
+ _ =
{facts = facts;
under_inspection = under_inspection;
- unit_eq = unit_eq
- }
+ unit_eq = unit_eq;
+ trace = trace}
let only signature _context candidate = true
(*
else if smart = 1 then smart_apply_auto ("",0,t) eq_cache status
else (* smart = 2: both *)
try NTactics.apply_tac ("",0,t) status
- with Error _ as exc ->
+ with Error _ ->
smart_apply_auto ("",0,t) eq_cache status
in
(*
aux t
;;
+let get_cands retrieve_for diff empty gty weak_gty =
+ let cands = retrieve_for gty in
+ match weak_gty with
+ | None -> cands, empty
+ | Some weak_gty ->
+ let more_cands = retrieve_for weak_gty in
+ cands, diff more_cands cands
+;;
+
+let get_candidates ?(smart=true) depth flags status cache signature gty =
+ let maxd = ((depth + 1) = flags.maxdepth) in
+ let universe = status#auto_cache in
+ let _,_,metasenv,subst,_ = status#obj in
+ let context = ctx_of gty in
+ let _, raw_gty = term_of_cic_term status gty context in
+ let raw_weak_gty, weak_gty =
+ if smart then
+ match raw_gty with
+ | NCic.Appl _
+ | NCic.Const _
+ | NCic.Rel _ ->
+ let weak = perforate_small subst metasenv context raw_gty in
+ Some weak, Some (mk_cic_term context weak)
+ | _ -> None,None
+ else None,None
+ in
+ let global_cands, smart_global_cands =
+ match flags.candidates with
+ | Some l when (not maxd) -> l,[]
+ | Some _
+ | None ->
+ let mapf s =
+ let to_ast = function
+ | NCic.Const r when true (*is_relevant statistics r*) -> Some (Ast.NRef r)
+ | NCic.Const _ -> None
+ | _ -> assert false in
+ HExtlib.filter_map
+ to_ast (NDiscriminationTree.TermSet.elements s) in
+ let g,l =
+ get_cands
+ (NDiscriminationTree.DiscriminationTree.retrieve_unifiables
+ universe)
+ NDiscriminationTree.TermSet.diff
+ NDiscriminationTree.TermSet.empty
+ raw_gty raw_weak_gty in
+ mapf g, mapf l in
+ let local_cands,smart_local_cands =
+ let mapf s =
+ let to_ast t =
+ let _status, t = term_of_cic_term status t context
+ in Ast.NCic t in
+ List.map to_ast (Ncic_termSet.elements s) in
+ let g,l =
+ get_cands
+ (fun ty -> search_in_th ty cache)
+ Ncic_termSet.diff Ncic_termSet.empty gty weak_gty in
+ mapf g, mapf l in
+ sort_candidates status context (global_cands@local_cands),
+ sort_candidates status context (smart_global_cands@smart_local_cands)
+;;
+
+(* old version
let get_candidates ?(smart=true) status cache signature gty =
let universe = status#auto_cache in
let _,_,metasenv,subst,_ = status#obj in
let c_ast = function
| NCic.Const r -> Ast.NRef r | _ -> assert false in
let _, raw_gty = term_of_cic_term status gty context in
+ let keys = all_keys_of_cic_term metasenv subst context raw_gty in
+ (* we only keep those keys that do not require any intros for now *)
+ let no_intros_keys = snd (List.hd keys) in
+ let cands =
+ NDiscriminationTree.TermSet.fold
+ (fun ty acc ->
+ NDiscriminationTree.TermSet.union acc
+ (NDiscriminationTree.DiscriminationTree.retrieve_unifiables
+ universe ty)
+ ) no_intros_keys NDiscriminationTree.TermSet.empty in
+(* old code:
let cands = NDiscriminationTree.DiscriminationTree.retrieve_unifiables
universe raw_gty in
+*)
+ let local_cands =
+ NDiscriminationTree.TermSet.fold
+ (fun ty acc ->
+ Ncic_termSet.union acc (search_in_th (mk_cic_term context ty) cache)
+ ) no_intros_keys Ncic_termSet.empty in
+(* old code:
let local_cands = search_in_th gty cache in
+*)
debug_print (lazy ("candidates for" ^ NTacStatus.ppterm status gty));
debug_print (lazy ("local cands = " ^ (string_of_int (List.length (Ncic_termSet.elements local_cands)))));
let together global local =
NCic.Appl (hd:: HExtlib.mk_list(NCic.Meta (0,(0,NCic.Irl 0)))
(List.length tl)) in *)
let more_cands =
- NDiscriminationTree.DiscriminationTree.retrieve_unifiables
- universe weak_gty in
+ NDiscriminationTree.DiscriminationTree.retrieve_unifiables
+ universe weak_gty
+ in
let smart_cands =
NDiscriminationTree.TermSet.diff more_cands cands in
- let cic_weak_gty = mk_cic_term context weak_gty in
+ let cic_weak_gty = mk_cic_term context weak_gty in
let more_local_cands = search_in_th cic_weak_gty cache in
let smart_local_cands =
Ncic_termSet.diff more_local_cands local_cands in
(* if smart then smart_candidates, []
else candidates, [] *)
candidates, smart_candidates
-;;
+;;
-let applicative_case depth signature status flags gty (cache:cache) =
+let get_candidates ?(smart=true) flags status cache signature gty =
+ match flags.candidates with
+ | None -> get_candidates ~smart status cache signature gty
+ | Some l -> l,[]
+;; *)
+
+let applicative_case depth signature status flags gty cache =
app_counter:= !app_counter+1;
let _,_,metasenv,subst,_ = status#obj in
let context = ctx_of gty in
| NCic.Prod _ -> true, false
| _ -> false, NCicParamod.is_equation metasenv subst context t
in
- debug_print(lazy (string_of_bool is_eq));
+ debug_print~depth (lazy (string_of_bool is_eq));
+ (* old
+ let candidates, smart_candidates =
+ get_candidates ~smart:(not is_eq) depth
+ flags status tcache signature gty in
+ (* if the goal is an equation we avoid to apply unit equalities,
+ since superposition should take care of them; refl is an
+ exception since it prompts for convertibility *)
+ let candidates =
+ let test x = not (is_a_fact_ast status subst metasenv context x) in
+ if is_eq then
+ Ast.Ident("refl",None) ::List.filter test candidates
+ else candidates in *)
+ (* new *)
let candidates, smart_candidates =
- get_candidates ~smart:(not is_eq) status tcache signature gty in
+ get_candidates ~smart:true depth
+ flags status tcache signature gty in
+ (* if the goal is an equation we avoid to apply unit equalities,
+ since superposition should take care of them; refl is an
+ exception since it prompts for convertibility *)
+ let candidates,smart_candidates =
+ let test x = not (is_a_fact_ast status subst metasenv context x) in
+ if is_eq then
+ Ast.Ident("refl",None) ::List.filter test candidates,
+ List.filter test smart_candidates
+ else candidates,smart_candidates in
debug_print ~depth
(lazy ("candidates: " ^ string_of_int (List.length candidates)));
debug_print ~depth
let is_prod status =
let _, ctx, gty = current_goal status in
+ let status, gty = apply_subst status ctx gty in
let _, raw_gty = term_of_cic_term status gty ctx in
match raw_gty with
- | NCic.Prod (name,_,_) -> Some (guess_name name ctx)
- | _ -> None
+ | NCic.Prod (name,src,_) ->
+ let status, src = whd status ~delta:0 ctx (mk_cic_term ctx src) in
+ (match snd (term_of_cic_term status src ctx) with
+ | NCic.Const(NReference.Ref (_,NReference.Ind _) as r)
+ | NCic.Appl (NCic.Const(NReference.Ref (_,NReference.Ind _) as r)::_) ->
+ let _,_,itys,_,_ = NCicEnvironment.get_checked_indtys r in
+ (match itys with
+ (* | [_,_,_,[_;_]] con nat va, ovviamente, in loop *)
+ | [_,_,_,[_]]
+ | [_,_,_,[]] -> `Inductive (guess_name name ctx)
+ | _ -> `Some (guess_name name ctx))
+ | _ -> `Some (guess_name name ctx))
+ | _ -> `None
let intro ~depth status facts name =
let status = NTactics.intro_tac name status in
;;
let rec intros_facts ~depth status facts =
+ if List.length (head_goals status#stack) <> 1 then status, facts else
match is_prod status with
- | Some(name) ->
+ | `Inductive name
+ | `Some(name) ->
let status,facts =
intro ~depth status facts name
- in intros_facts ~depth status facts
+ in intros_facts ~depth status facts
+(* | `Inductive name ->
+ let status = NTactics.case1_tac name status in
+ intros_facts ~depth status facts *)
| _ -> status, facts
;;
-let rec intros ~depth status (cache:cache) =
+let intros ~depth status cache =
match is_prod status with
- | Some _ ->
+ | `Inductive _
+ | `Some _ ->
+ let trace = cache.trace in
let status,facts =
intros_facts ~depth status cache.facts
in
+ if head_goals status#stack = [] then
+ let status = NTactics.merge_tac status in
+ [(0,Ast.Ident("__intros",None)),status], cache
+ else
(* we reindex the equation from scratch *)
- let unit_eq =
- index_local_equations status#eq_cache status in
- status, init_cache ~facts ~unit_eq ()
- | _ -> status, cache
+ let unit_eq = index_local_equations status#eq_cache status in
+ let status = NTactics.merge_tac status in
+ [(0,Ast.Ident("__intros",None)),status],
+ init_cache ~facts ~unit_eq () ~trace
+ | _ -> [],cache
;;
-let reduce ~depth status g =
+let reduce ~whd ~depth status g =
let n,h,metasenv,subst,o = status#obj in
let attr, ctx, ty = NCicUtils.lookup_meta g metasenv in
let ty = NCicUntrusted.apply_subst subst ctx ty in
- let ty' = NCicReduction.whd ~subst ctx ty in
+ let ty' =
+ (if whd then NCicReduction.whd else NCicTacReduction.normalize) ~subst ctx ty
+ in
if ty = ty' then []
else
(debug_print ~depth
;;
let do_something signature flags status g depth gty cache =
+ let l0, cache = intros ~depth status cache in
+ if l0 <> [] then l0, cache
+ else
(* whd *)
- let l = reduce ~depth status g in
+ let l = (*reduce ~whd:true ~depth status g @*) reduce ~whd:true ~depth status g in
(* if l <> [] then l,cache else *)
(* backward aplications *)
let l1 =
let l2 =
if ((l1 <> []) && flags.last) then [] else
applicative_case depth signature status flags gty cache
- (* fast paramodulation *)
in
+ (* statistics *)
+ List.iter
+ (fun ((_,t),_) -> toref incr_nominations statistics t) l2;
(* states in l1 have have an empty set of subgoals: no point to sort them *)
debug_print ~depth
(lazy ("alternatives = " ^ (string_of_int (List.length (l1@l@l2)))));
flags signature cache depth status : unit =
debug_print ~depth (lazy ("entering auto clusters at depth " ^
(string_of_int depth)));
+ debug_print ~depth (pptrace cache.trace);
(* ignore(Unix.select [] [] [] 0.01); *)
let status = clean_up_tac status in
let goals = head_goals status#stack in
if goals = [] then
- if depth = 0 then raise (Proved status)
+ if depth = 0 then raise (Proved (status, cache.trace))
else
let status = NTactics.merge_tac status in
let cache =
(fun l ->
("cluster:" ^ String.concat "," (List.map string_of_int l)))
classes)));
- let status,b =
+ let status,trace,b =
List.fold_left
- (fun (status,b) gl ->
+ (fun (status,trace,b) gl ->
+ let cache = {cache with trace = trace} in
let flags =
{flags with last = (List.length gl = 1)} in
let lold = List.length status#stack in
String.concat "," (List.map string_of_int gl)));
auto_main flags signature cache depth fstatus; assert false
with
- | Proved(status) ->
+ | Proved(status,trace) ->
let status = NTactics.merge_tac status in
let lnew = List.length status#stack in
assert (lold = lnew);
- (status,true)
- | Gaveup _ when top -> (status,b)
+ (status,trace,true)
+ | Gaveup _ when top -> (status,trace,b)
)
- (status,false) classes
+ (status,cache.trace,false) classes
in
let rec final_merge n s =
if n = 0 then s else final_merge (n-1) (NTactics.merge_tac s)
in let status = final_merge depth status
- in if b then raise (Proved status) else raise (Gaveup IntSet.empty)
+ in if b then raise (Proved(status,trace)) else raise (Gaveup IntSet.empty)
and
(* BRAND NEW VERSION *)
-auto_main flags signature (cache:cache) depth status: unit =
+auto_main flags signature cache depth status: unit =
debug_print ~depth (lazy "entering auto main");
+ debug_print ~depth (pptrace cache.trace);
debug_print ~depth (lazy ("stack length = " ^
(string_of_int (List.length status#stack))));
(* ignore(Unix.select [] [] [] 0.01); *)
let status = sort_tac (clean_up_tac status) in
let goals = head_goals status#stack in
match goals with
- | [] when depth = 0 -> raise (Proved status)
+ | [] when depth = 0 -> raise (Proved (status,cache.trace))
| [] ->
let status = NTactics.merge_tac status in
let cache =
raise (Gaveup IntSet.empty)
else
let status = NTactics.branch_tac ~force:true status in
- let status, cache = intros ~depth status cache in
let g,gctx, gty = current_goal status in
let ctx,ty = close status g in
let closegty = mk_cic_term ctx ty in
debug_print (~depth:depth)
(lazy ("Case: " ^ CicNotationPp.pp_term t));
let depth,cache =
- if t=Ast.Ident("__whd",None) then depth, cache
+ if t=Ast.Ident("__whd",None) ||
+ t=Ast.Ident("__intros",None)
+ then depth, cache
else depth+1,loop_cache in
+ let cache = add_to_trace ~depth cache t in
try
- auto_clusters flags signature (cache:cache) depth status
+ auto_clusters flags signature cache depth status
with Gaveup _ ->
- debug_print ~depth (lazy "Failed");())
+ debug_print ~depth (lazy "Failed");
+ ())
alternatives;
raise (debug_print(lazy "no more candidates"); Gaveup IntSet.empty)
;;
with Failure _ | Not_found -> def
;;
-let auto_tac ~params:(_univ,flags) status =
+module AstSet = Set.Make(struct type t = Ast.term let compare = compare end)
+
+let cleanup_trace s trace =
+ (* removing duplicates *)
+ let trace_set =
+ List.fold_left
+ (fun acc t -> AstSet.add t acc)
+ AstSet.empty trace in
+ let trace = AstSet.elements trace_set
+ (* filtering facts *)
+ in List.filter
+ (fun t ->
+ match t with
+ | Ast.NRef (NReference.Ref (u,_)) -> not (is_a_fact_obj s u)
+ | _ -> false) trace
+;;
+
+let auto_tac ~params:(univ,flags) ?(trace_ref=ref []) status =
let oldstatus = status in
let status = (status:> NTacStatus.tac_status) in
let goals = head_goals status#stack in
let status, facts = mk_th_cache status goals in
let unit_eq = index_local_equations status#eq_cache status in
- let cache = init_cache ~facts ~unit_eq () in
+ let cache = init_cache ~facts ~unit_eq () in
(* pp_th status facts; *)
(*
NDiscriminationTree.DiscriminationTree.iter status#auto_cache (fun p t ->
(NDiscriminationTree.TermSet.elements t))
)));
*)
+ let candidates =
+ match univ with
+ | None -> None
+ | Some l ->
+ let to_Ast t =
+ let status, res = disambiguate status [] t None in
+ let _,res = term_of_cic_term status res (ctx_of res)
+ in Ast.NCic res
+ in Some (List.map to_Ast l)
+ in
let depth = int "depth" flags 3 in
let size = int "size" flags 10 in
let width = int "width" flags 4 (* (3+List.length goals)*) in
let signature = height_of_goals status in
let flags = {
last = true;
+ candidates = candidates;
maxwidth = width;
maxsize = size;
maxdepth = depth;
*)
with
| Gaveup _ -> up_to (x+1) y
- | Proved s ->
+ | Proved (s,trace) ->
debug_print (lazy ("proved at depth " ^ string_of_int x));
+ List.iter (toref incr_uses statistics) trace;
+ let trace = cleanup_trace s trace in
+ let _ = debug_print (pptrace trace) in
let stack =
match s#stack with
| (g,t,k,f) :: rest -> (filter_open g,t,k,f):: rest
| _ -> assert false
in
let s = s#set_stack stack in
+ trace_ref := trace;
oldstatus#set_status s
in
let s = up_to depth depth in
+ debug_print (print_stat statistics);
debug_print(lazy
("TIME ELAPSED:"^string_of_float(Unix.gettimeofday()-.initial_time)));
debug_print(lazy