let print ?(depth=0) s =
prerr_endline (String.make (2*depth) ' '^Lazy.force s)
-let noprint ?(depth=0) _ = ()
+let noprint ?depth:(_=0) _ = ()
let debug_print = noprint
open Continuationals.Stack
type t = NReference.reference
let equal = NReference.eq
let compare = NReference.compare
- let hash = NReferece.hash
+ let hash = NReference.hash
end;;
module RefHash = Hashtbl.Make(RHT);;
let toref f tbl t =
match t with
| Ast.NRef n ->
- f tbl n
+ f tbl n
| Ast.NCic _ (* local candidate *)
| _ -> ()
else true
with Not_found -> true
-let print_stat status tbl =
+let print_stat _status 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) =
"; uses = " ^ (string_of_int !(v.uses)) ^
"; nom = " ^ (string_of_int !(v.nominations)) in
lazy ("\n\nSTATISTICS:\n" ^
- String.concat "\n" (List.map vstring l))
+ 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_ast status subst metasenv ctx cand =
noprint ~depth:0
(lazy ("checking facts " ^ NotationPp.pp_term status cand));
- let status, t = disambiguate status ctx ("",0,cand) None in
+ let status, t = disambiguate status ctx ("",0,cand) `XTNone in
let status,t = term_of_cic_term status t ctx in
let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
is_a_fact status (mk_cic_term ctx ty)
debug_print (lazy ("refining: "^(status#ppterm ctx subst metasenv pt)));
let stamp = Unix.gettimeofday () in
let metasenv, subst, pt, pty =
- (* NCicRefiner.typeof status
+ (* NCicRefiner.typeof status
(* (status#set_coerc_db NCicCoercion.empty_db) *)
metasenv subst ctx pt None in
debug_print (lazy ("refined: "^(status#ppterm ctx subst metasenv pt)));
NCicUnification.unify status metasenv subst ctx gty pty *)
NCicRefiner.typeof
(status#set_coerc_db NCicCoercion.empty_db)
- metasenv subst ctx pt (Some gty)
+ metasenv subst ctx pt (`XTSome gty)
in
noprint (lazy (Printf.sprintf "Refined in %fs"
(Unix.gettimeofday() -. stamp)));
NCicRefiner.RefineFailure msg
| NCicRefiner.Uncertain msg ->
debug_print (lazy ("WARNING U: refining in fast_eq_check failed\n" ^
- snd (Lazy.force msg) ^
- "\n in the environment\n" ^
- status#ppmetasenv subst metasenv)); None
+ snd (Lazy.force msg) ^
+ "\n in the environment\n" ^
+ status#ppmetasenv subst metasenv)); None
| NCicRefiner.AssertFailure msg ->
debug_print (lazy ("WARNING F: refining in fast_eq_check failed" ^
Lazy.force msg ^
- "\n in the environment\n" ^
- status#ppmetasenv subst metasenv)); None
+ "\n in the environment\n" ^
+ status#ppmetasenv subst metasenv)); None
| Sys.Break as e -> raise e
| _ -> None
in
| Error _ -> debug_print (lazy ("no paramod proof found"));[]
;;
-let index_local_equations eq_cache status =
+let index_local_equations eq_cache ?(flag=false) status =
+ if flag then
+ NCicParamod.empty_state
+ else begin
noprint (lazy "indexing equations");
let open_goals = head_goals status#stack in
let open_goal = List.hd open_goals in
| NCicTypeChecker.TypeCheckerFailure _
| NCicTypeChecker.AssertFailure _ -> eq_cache)
eq_cache ctx
+ end
;;
-let fast_eq_check_tac ~params s =
+let index_local_equations2 eq_cache status open_goal lemmas ?flag:(_=false) nohyps =
+ noprint (lazy "indexing equations");
+ let eq_cache,lemmas =
+ match lemmas with
+ None -> eq_cache,[]
+ | Some l -> NCicParamod.empty_state,l
+ in
+ let ngty = get_goalty status open_goal in
+ let _,_,metasenv,subst,_ = status#obj in
+ let ctx = apply_subst_context ~fix_projections:true status (ctx_of ngty) in
+ let status,lemmas =
+ List.fold_left
+ (fun (status,lemmas) l ->
+ let status,l = NTacStatus.disambiguate status ctx l `XTNone in
+ let status,l = NTacStatus.term_of_cic_term status l ctx in
+ status,l::lemmas)
+ (status,[]) lemmas in
+ let local_equations =
+ if nohyps then [] else
+ List.map (fun i -> NCic.Rel (i + 1))
+ (HExtlib.list_seq 1 (List.length ctx)) in
+ let lemmas = lemmas @ local_equations in
+ List.fold_left
+ (fun eq_cache t ->
+ try
+ let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
+ if is_a_fact status (mk_cic_term ctx ty) then
+ (debug_print(lazy("eq indexing " ^ (status#ppterm ctx subst metasenv ty)));
+ NCicParamod.forward_infer_step status metasenv subst ctx eq_cache t ty)
+ else
+ (noprint (lazy ("not a fact: " ^ (status#ppterm ctx subst metasenv ty)));
+ eq_cache)
+ with
+ | NCicTypeChecker.TypeCheckerFailure _
+ | NCicTypeChecker.AssertFailure _ -> eq_cache)
+ eq_cache lemmas
+;;
+
+let fast_eq_check_tac ~params:_ s =
let unit_eq = index_local_equations s#eq_cache s in
dist_fast_eq_check unit_eq s
;;
| s::_ -> s
;;
-let paramod_tac ~params s =
+let paramod_tac ~params:_ s =
let unit_eq = index_local_equations s#eq_cache s in
NTactics.distribute_tac (paramod unit_eq) s
;;
;;
let demod_tac ~params s =
- let unit_eq = index_local_equations s#eq_cache s in
- NTactics.distribute_tac (demod unit_eq) s
+ let unit_eq s i =
+ index_local_equations2 s#eq_cache s i (fst params)
+ (List.mem_assoc "nohyps" (snd params))
+ in
+ NTactics.distribute_tac (fun s i -> demod (unit_eq s i) s i) s
;;
(*
(fun ty ctx_entry ->
match ctx_entry with
| name, NCic.Decl t -> NCic.Prod(name,t,ty)
- | name, NCic.Def(bo, _) -> NCicSubstitution.subst status bo ty)
+ | _name, NCic.Def(bo, _) -> NCicSubstitution.subst status bo ty)
;;
let args_for_context ?(k=1) ctx =
List.fold_left
(fun (n,l) ctx_entry ->
match ctx_entry with
- | name, NCic.Decl t -> n+1,NCic.Rel(n)::l
- | name, NCic.Def(bo, _) -> n+1,l)
+ | _name, NCic.Decl _t -> n+1,NCic.Rel(n)::l
+ | _name, NCic.Def(_bo, _) -> n+1,l)
(k,[]) ctx in
args
List.fold_left
(fun (metasenv,subst) (i,(iattr,ctx,ty)) ->
let ikind = NCicUntrusted.kind_of_meta iattr in
- let metasenv,j,instance,ty =
+ let metasenv,_j,instance,ty =
NCicMetaSubst.mk_meta ~attrs:iattr
metasenv ctx ~with_type:ty ikind in
let s_entry = i,(iattr, ctx, instance, ty) in
*)
let metasenv = NCicUntrusted.sort_metasenv status subst metasenv in
List.fold_left
- (fun (subst,objs) (i,(iattr,ctx,ty)) ->
+ (fun (subst,objs) (i,(_iattr,ctx,ty)) ->
let ty = NCicUntrusted.apply_subst status subst ctx ty in
let ctx =
NCicUntrusted.apply_subst_context status ~fix_projections:true
subst ctx in
- let (uri,_,_,_,obj) as okind =
+ let (uri,_,_,_,_obj) as okind =
constant_for_meta status ctx ty i in
try
NCicEnvironment.check_and_add_obj status okind;
| _ -> let args =
List.map (NCicSubstitution.subst_meta status lc) args in
NCic.Appl(NCic.Rel k::args))
- | NCic.Meta (j,lc) as m ->
+ | NCic.Meta (_j,lc) as m ->
(match lc with
_,NCic.Irl _ -> m
| n,NCic.Ctx l ->
let close_wrt_metasenv status subst =
List.fold_left
- (fun ty (i,(iattr,ctx,mty)) ->
+ (fun ty (i,(_iattr,ctx,mty)) ->
let mty = NCicUntrusted.apply_subst status subst ctx mty in
let ctx =
NCicUntrusted.apply_subst_context status ~fix_projections:true
NCicMetaSubst.saturate status ~delta:height metasenv subst ctx ty 0 in
match ty with
| NCic.Const(NReference.Ref (_,NReference.Def _) as nre)
- when nre<>nref ->
- let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def status nre in
- aux metasenv bo (args@moreargs)
+ when nre<>nref ->
+ let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def status nre in
+ 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 status nre in
- aux metasenv (NCic.Appl(bo::tl)) (args@moreargs)
+ when nre<>nref ->
+ let _, _, bo, _, _, _ = NCicEnvironment.get_checked_def status nre in
+ aux metasenv (NCic.Appl(bo::tl)) (args@moreargs)
| _ -> ty,metasenv,(args@moreargs)
in
aux metasenv ty []
let smart_apply t unit_eq status g =
- let n,h,metasenv,subst,o = status#obj in
- let gname, ctx, gty = List.assoc g metasenv in
+ let n,h,metasenv,_subst,o = status#obj in
+ let _gname, ctx, gty = List.assoc g metasenv in
(* let ggty = mk_cic_term context gty in *)
- let status, t = disambiguate status ctx t None in
+ let status, t = disambiguate status ctx t `XTNone in
let status,t = term_of_cic_term status t ctx in
let _,_,metasenv,subst,_ = status#obj in
let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
match gty with
| NCic.Const(nref)
| NCic.Appl(NCic.Const(nref)::_) ->
- saturate_to_ref status metasenv subst ctx nref ty
+ saturate_to_ref status metasenv subst ctx nref ty
| _ ->
- NCicMetaSubst.saturate status metasenv subst ctx ty 0 in
+ NCicMetaSubst.saturate status metasenv subst ctx ty 0 in
let metasenv,j,inst,_ = NCicMetaSubst.mk_meta metasenv ctx `IsTerm in
let status = status#set_obj (n,h,metasenv,subst,o) in
let pterm = if args=[] then t else
debug_print(lazy("ritorno da fast_eq_check"));
res
with
- | NCicEnvironment.ObjectNotFound s as e ->
+ | NCicEnvironment.ObjectNotFound _s as e ->
raise (Error (lazy "eq_coerc non yet defined",Some e))
| Error _ as e -> debug_print (lazy "error"); raise e
+(* FG: for now we catch TypeCheckerFailure; to be understood *)
+ | NCicTypeChecker.TypeCheckerFailure _ ->
+ debug_print (lazy "TypeCheckerFailure");
+ raise (Error (lazy "no proof found",None))
;;
let compare_statuses ~past ~present =
do_types : bool; (* solve goals in Type *)
last : bool; (* last goal: take first solution only *)
candidates: Ast.term list option;
+ local_candidates: bool;
maxwidth : int;
maxsize : int;
maxdepth : int;
- timeout : float;
}
type cache =
let add_to_trace status ~depth cache t =
match t with
| Ast.NRef _ ->
- debug_print ~depth (lazy ("Adding to trace: " ^ NotationPp.pp_term status t));
- {cache with trace = t::cache.trace}
+ debug_print ~depth (lazy ("Adding to trace: " ^ NotationPp.pp_term status t));
+ {cache with trace = t::cache.trace}
| Ast.NCic _ (* local candidate *)
| _ -> (*not an application *) cache
let pptrace status tr =
(lazy ("Proof Trace: " ^ (String.concat ";"
- (List.map (NotationPp.pp_term status) tr))))
+ (List.map (NotationPp.pp_term status) tr))))
(* not used
let remove_from_trace cache t =
match t with
| Ast.NRef _ ->
- (match cache.trace with
- | _::tl -> {cache with trace = tl}
+ (match cache.trace with
+ | _::tl -> {cache with trace = tl}
| _ -> assert false)
| Ast.NCic _ (* local candidate *)
| _ -> (*not an application *) cache *)
unit_eq = unit_eq;
trace = trace}
-let only signature _context candidate = true
+let only _signature _context _candidate = true
(*
(* TASSI: nel trie ci mettiamo solo il body, non il ty *)
let candidate_ty =
let sort_candidates status ctx candidates =
let _,_,metasenv,subst,_ = status#obj in
let branch cand =
- let status,ct = disambiguate status ctx ("",0,cand) None in
+ let status,ct = disambiguate status ctx ("",0,cand) `XTNone in
let status,t = term_of_cic_term status ct ctx in
let ty = NCicTypeChecker.typeof status subst metasenv ctx t in
let res = branch status (mk_cic_term ctx ty) in
noprint (lazy ("branch factor for: " ^ (ppterm status ct) ^ " = "
- ^ (string_of_int res)));
+ ^ (string_of_int res)));
res
in
let candidates = List.map (fun t -> branch t,t) candidates in
List.sort (fun (a,_) (b,_) -> a - b) candidates in
let candidates = List.map snd candidates in
noprint (lazy ("candidates =\n" ^ (String.concat "\n"
- (List.map (NotationPp.pp_term status) candidates))));
+ (List.map (NotationPp.pp_term status) candidates))));
candidates
let sort_new_elems l =
if level = 0 then []
else match gs with
| [] -> assert false
- | (g,_,_,_)::s ->
+ | (g,_,_,_,_)::s ->
let is_open = function
| (_,Continuationals.Stack.Open i) -> Some i
| (_,Continuationals.Stack.Closed _) -> None
in
- HExtlib.filter_map is_open g @ stack_goals (level-1) s
+ HExtlib.filter_map is_open g @ stack_goals (level-1) s
;;
let open_goals level status = stack_goals level status#stack
;;
-let try_candidate ?(smart=0) flags depth status eq_cache ctx t =
+let try_candidate ?(smart=0) _flags depth status eq_cache _ctx t =
try
- let old_og_no = List.length (open_goals (depth+1) status) in
+ (*let old_og_no = List.length (open_goals (depth+1) status) in*)
debug_print ~depth (lazy ("try " ^ (string_of_int smart) ^ " : "
^ (NotationPp.pp_term status) t));
let status =
(* some flexibility *)
if og_no - old_og_no > res then
(debug_print (lazy ("branch factor for: " ^ (ppterm status cict) ^ " = "
- ^ (string_of_int res) ^ " vs. " ^ (string_of_int og_no)));
+ ^ (string_of_int res) ^ " vs. " ^ (string_of_int og_no)));
debug_print ~depth (lazy "strange application"); None)
else
*) (incr candidate_no; Some ((!candidate_no,t),status))
- with Error (msg,exn) -> debug_print ~depth (lazy "failed"); None
+ with Error _ -> debug_print ~depth (lazy "failed"); None
;;
let sort_of status subst metasenv ctx t =
let perforate_small status subst metasenv context t =
let rec aux = function
| NCic.Appl (hd::tl) ->
- let map t =
- let s = sort_of status subst metasenv context t in
- match s with
- | NCic.Sort(NCic.Type [`Type,u])
- when u=type0 -> NCic.Meta (0,(0,NCic.Irl 0))
- | _ -> aux t
- in
- NCic.Appl (hd::List.map map tl)
+ let map t =
+ let s = sort_of status subst metasenv context t in
+ match s with
+ | NCic.Sort(NCic.Type [`Type,u])
+ when u=type0 -> NCic.Meta (0,(0,NCic.Irl 0))
+ | _ -> aux t
+ in
+ NCic.Appl (hd::List.map map tl)
| t -> t
in
aux t
cands, diff more_cands cands
;;
-let get_candidates ?(smart=true) ~pfailed depth flags status cache signature gty =
+let is_a_needed_uri s =
+ s = "cic:/matita/basics/logic/eq.ind" ||
+ s = "cic:/matita/basics/logic/sym_eq.con" ||
+ s = "cic:/matita/basics/logic/trans_eq.con" ||
+ s = "cic:/matita/basics/logic/eq_f3.con" ||
+ s = "cic:/matita/basics/logic/eq_f2.con" ||
+ s = "cic:/matita/basics/logic/eq_f.con"
+
+let get_candidates ?(smart=true) ~pfailed depth flags status cache _signature gty =
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 is_prod, is_eq =
- let status, t = term_of_cic_term status gty context in
- let t = NCicReduction.whd status subst context t in
- match t with
- | NCic.Prod _ -> true, false
- | _ -> false, NCicParamod.is_equation status metasenv subst context t
+ let is_prod, _is_eq =
+ let status, t = term_of_cic_term status gty context in
+ let t = NCicReduction.whd status subst context t in
+ match t with
+ | NCic.Prod _ -> true, false
+ | _ -> false, NCicParamod.is_equation status metasenv subst context t
in
debug_print ~depth (lazy ("gty:" ^ NTacStatus.ppterm status gty));
let is_eq =
let raw_weak_gty, weak_gty =
if smart then
match raw_gty with
- | NCic.Appl _
- | NCic.Const _
- | NCic.Rel _ ->
+ | NCic.Appl _
+ | NCic.Const _
+ | NCic.Rel _ ->
let raw_weak =
perforate_small status subst metasenv context raw_gty in
let weak = mk_cic_term context raw_weak in
noprint ~depth (lazy ("weak_gty:" ^ NTacStatus.ppterm status weak));
Some raw_weak, Some (weak)
- | _ -> None,None
+ | _ -> None,None
else None,None
in
(* we now compute global candidates *)
let global_cands, smart_global_cands =
- 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 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 global_cands,smart_global_cands =
+ if flags.local_candidates then global_cands,smart_global_cands
+ else let filter = List.filter (function Ast.NRef NReference.Ref (uri,_) -> is_a_needed_uri
+ (NUri.string_of_uri
+ uri) | _ -> false)
+ in filter global_cands,filter smart_global_cands
+ in
(* we now compute local candidates *)
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 _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
+ (fun ty -> search_in_th ty cache)
+ Ncic_termSet.diff Ncic_termSet.empty gty weak_gty in
+ mapf g, mapf l
+ in
+ let local_cands,smart_local_cands =
+ if flags.local_candidates then local_cands,smart_local_cands
+ else let filter = List.filter (function Ast.NRef NReference.Ref (uri,_) -> is_a_needed_uri
+ (NUri.string_of_uri
+ uri) | _ -> false)
+ in filter local_cands,filter smart_local_cands
+ in
(* we now splits candidates in facts or not facts *)
let test = is_a_fact_ast status subst metasenv context in
let by,given_candidates =
let status, t = term_of_cic_term status gty context in
let t = NCicReduction.whd status subst context t in
match t with
- | NCic.Prod _ -> true, false
- | _ -> false, NCicParamod.is_equation status metasenv subst context t
+ | NCic.Prod _ -> true, false
+ | _ -> false, NCicParamod.is_equation status metasenv subst context t
in
debug_print ~depth (lazy (string_of_bool is_eq));
(* new *)
flags status tcache signature gty
in
let sm = if is_eq || is_prod then 0 else 2 in
- let sm1 = if flags.last then 2 else 0 in
+ (*let sm1 = if flags.last then 2 else 0 in *)
let maxd = (depth + 1 = flags.maxdepth) in
let try_candidates only_one sm acc candidates =
List.fold_left
NCicMetaSubst.mk_meta
metasenv ctx ~with_type:implication `IsType in
let status = status#set_obj (n,h,metasenv,subst,obj) in
- let status = status#set_stack [([1,Open j],[],[],`NoTag)] in
+ let status = status#set_stack [([1,Open j],[],[],`NoTag,[])] in
try
let status = NTactics.intro_tac "foo" status in
let status =
let intro ~depth status facts name =
let status = NTactics.intro_tac name status in
- let _, ctx, ngty = current_goal status in
+ let _, ctx, _ngty = current_goal status in
let t = mk_cic_term ctx (NCic.Rel 1) in
let status, keys = keys_of_term status t in
let facts = List.fold_left (add_to_th t) facts keys in
| _ -> status, facts
;;
-let intros ~depth status cache =
+let intros ~depth status ?(use_given_only=false) cache =
match is_prod status with
| `Inductive _
| `Some _ ->
- let trace = cache.trace in
+ let trace = cache.trace in
let status,facts =
intros_facts ~depth status cache.facts
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
+ let unit_eq = index_local_equations status#eq_cache status ~flag:use_given_only in
let status = NTactics.merge_tac status in
[(0,Ast.Ident("__intros",None)),status],
init_cache ~facts ~unit_eq () ~trace
| _ -> false
;;
-let do_something signature flags status g depth gty cache =
+let do_something signature flags status g depth gty ?(use_given_only=false) cache =
(* if the goal is meta we close it with I:True. This should work
thanks to the toplogical sorting of goals. *)
if is_meta status gty then
let s = NTactics.apply_tac ("",0,t) status in
[(0,t),s], cache
else
- let l0, cache = intros ~depth status cache in
+ let l0, cache = intros ~depth status cache ~use_given_only in
if l0 <> [] then l0, cache
else
(* whd *)
let gstatus =
match status#stack with
| [] -> assert false
- | (goals, t, k, tag) :: s ->
+ | (goals, t, k, tag, p) :: s ->
let g = head_goals status#stack in
let sortedg =
(List.rev (MS.topological_sort g (deps status))) in
let sorted_goals =
List.map (fun i -> List.find (is_it i) goals) sortedg
in
- (sorted_goals, t, k, tag) :: s
+ (sorted_goals, t, k, tag, p) :: s
in
status#set_stack gstatus
;;
let gstatus =
match status#stack with
| [] -> assert false
- | (g, t, k, tag) :: s ->
+ | (g, t, k, tag, p) :: s ->
let is_open = function
| (_,Continuationals.Stack.Open _) -> true
| (_,Continuationals.Stack.Closed _) -> false
in
let g' = List.filter is_open g in
- (g', t, k, tag) :: s
+ (g', t, k, tag, p) :: s
in
status#set_stack gstatus
;;
let rec slice level gs =
if level = 0 then [],[],gs else
match gs with
- | [] -> assert false
- | (g, t, k, tag) :: s ->
+ | [] -> assert false
+ | (g, t, k, tag,p) :: s ->
let f,o,gs = slice (level-1) s in
let f1,o1 = List.partition in_focus g
in
- (f1,[],[],`BranchTag)::f, (o1, t, k, tag)::o, gs
+ (f1,[],[],`BranchTag, [])::f, (o1, t, k, tag, p)::o, gs
in
let gstatus =
let f,o,s = slice level status#stack in f@o@s
let move_to_side level status =
match status#stack with
| [] -> assert false
- | (g,_,_,_)::tl ->
+ | (g,_,_,_,_)::tl ->
let is_open = function
| (_,Continuationals.Stack.Open i) -> Some i
| (_,Continuationals.Stack.Closed _) -> None
in
let others = menv_closure status (stack_goals (level-1) tl) in
List.for_all (fun i -> IntSet.mem i others)
- (HExtlib.filter_map is_open g)
+ (HExtlib.filter_map is_open g)
-let top_cache ~depth top status cache =
+let top_cache ~depth:_ top status ?(use_given_only=false) cache =
if top then
- let unit_eq = index_local_equations status#eq_cache status in
+ let unit_eq = index_local_equations status#eq_cache status ~flag:use_given_only in
{cache with unit_eq = unit_eq}
else cache
-let rec auto_clusters ?(top=false)
- flags signature cache depth status : unit =
+let rec auto_clusters ?(top=false) flags signature cache depth ?(use_given_only=false) status : unit =
debug_print ~depth (lazy ("entering auto clusters at depth " ^
- (string_of_int depth)));
+ (string_of_int depth)));
debug_print ~depth (pptrace status cache.trace);
(* ignore(Unix.select [] [] [] 0.01); *)
let status = clean_up_tac status in
let status = NTactics.merge_tac status in
let cache =
let l,tree = cache.under_inspection in
- match l with
- | [] -> cache (* possible because of intros that cleans the cache *)
- | a::tl -> let tree = rm_from_th a tree a in
- {cache with under_inspection = tl,tree}
+ match l with
+ | [] -> cache (* possible because of intros that cleans the cache *)
+ | a::tl -> let tree = rm_from_th a tree a in
+ {cache with under_inspection = tl,tree}
in
- auto_clusters flags signature cache (depth-1) status
+ auto_clusters flags signature cache (depth-1) status ~use_given_only
else if List.length goals < 2 then
- let cache = top_cache ~depth top status cache in
- auto_main flags signature cache depth status
+ let cache = top_cache ~depth top status cache ~use_given_only in
+ auto_main flags signature cache depth status ~use_given_only
else
let all_goals = open_goals (depth+1) status in
debug_print ~depth (lazy ("goals = " ^
(fun gl ->
if List.length gl > flags.maxwidth then
begin
- debug_print ~depth (lazy "FAIL GLOBAL WIDTH");
- HLog.warn (sprintf "global width (%u) exceeded: %u"
- flags.maxwidth (List.length gl));
- raise (Gaveup cache.failures)
- end else ()) classes;
+ debug_print ~depth (lazy "FAIL GLOBAL WIDTH");
+ HLog.warn (sprintf "global width (%u) exceeded: %u"
+ flags.maxwidth (List.length gl));
+ raise (Gaveup cache.failures)
+ end else ()) classes;
if List.length classes = 1 then
let flags =
{flags with last = (List.length all_goals = 1)} in
- (* no need to cluster *)
- let cache = top_cache ~depth top status cache in
- auto_main flags signature cache depth status
+ (* no need to cluster *)
+ let cache = top_cache ~depth top status cache ~use_given_only in
+ auto_main flags signature cache depth status ~use_given_only
else
let classes = if top then List.rev classes else classes in
debug_print ~depth
let flags =
{flags with last = (List.length gl = 1)} in
let lold = List.length status#stack in
- debug_print ~depth (lazy ("stack length = " ^
- (string_of_int lold)));
+ debug_print ~depth (lazy ("stack length = " ^
+ (string_of_int lold)));
let fstatus = deep_focus_tac (depth+1) gl status in
- let cache = top_cache ~depth top fstatus cache in
+ let cache = top_cache ~depth top fstatus cache ~use_given_only in
try
debug_print ~depth (lazy ("focusing on" ^
String.concat "," (List.map string_of_int gl)));
- auto_main flags signature cache depth fstatus; assert false
+ auto_main flags signature cache depth fstatus ~use_given_only; assert false
with
| Proved(status,trace) ->
- let status = NTactics.merge_tac status in
- let cache = {cache with trace = trace} in
- let lnew = List.length status#stack in
- assert (lold = lnew);
- (status,cache,true)
+ let status = NTactics.merge_tac status in
+ let cache = {cache with trace = trace} in
+ let lnew = List.length status#stack in
+ assert (lold = lnew);
+ (status,cache,true)
| Gaveup failures when top ->
let cache = {cache with failures = failures} in
(status,cache,b)
(status,cache,false) classes
in
let rec final_merge n s =
- if n = 0 then s else final_merge (n-1) (NTactics.merge_tac 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,cache.trace)) else raise (Gaveup cache.failures)
and
(* BRAND NEW VERSION *)
-auto_main flags signature cache depth status: unit =
+auto_main flags signature cache depth ?(use_given_only=false) status: unit=
debug_print ~depth (lazy "entering auto main");
debug_print ~depth (pptrace status cache.trace);
debug_print ~depth (lazy ("stack length = " ^
- (string_of_int (List.length status#stack))));
+ (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
| a::tl -> let tree = rm_from_th a tree a in
{cache with under_inspection = tl,tree}
in
- auto_clusters flags signature cache (depth-1) status
- | orig::_ ->
+ auto_clusters flags signature cache (depth-1) status ~use_given_only
+ | _orig::_ ->
if depth > 0 && move_to_side depth status
then
let status = NTactics.merge_tac status in
| a::tl -> let tree = rm_from_th a tree a in
{cache with under_inspection = tl,tree}
in
- auto_clusters flags signature cache (depth-1) status
+ auto_clusters flags signature cache (depth-1) status ~use_given_only
else
let ng = List.length goals in
(* moved inside auto_clusters *)
if ng > flags.maxwidth then begin
debug_print ~depth (lazy "FAIL LOCAL WIDTH");
- HLog.warn (sprintf "local width (%u) exceeded: %u"
- flags.maxwidth ng);
- raise (Gaveup cache.failures)
+ HLog.warn (sprintf "local width (%u) exceeded: %u"
+ flags.maxwidth ng);
+ raise (Gaveup cache.failures)
end else if depth = flags.maxdepth then
- raise (Gaveup cache.failures)
+ raise (Gaveup cache.failures)
else
let status = NTactics.branch_tac ~force:true status in
let g,gctx, gty = current_goal status in
(* for efficiency reasons, in this case we severely cripple the
search depth *)
(debug_print ~depth (lazy ("RAISING DEPTH TO " ^ string_of_int (depth+1)));
- auto_main flags signature cache (depth+1) status)
+ auto_main flags signature cache (depth+1) status ~use_given_only)
(* check for loops *)
else if is_subsumed depth false status closegty (snd cache.under_inspection) then
(debug_print ~depth (lazy "SUBSUMED");
(debug_print ~depth (lazy "ALREADY MET");
raise (Gaveup cache.failures))
else
- let new_sig = height_of_goal g status in
+ let new_sig = height_of_goal g status in
if new_sig < signature then
- (debug_print ~depth (lazy ("news = " ^ (string_of_int new_sig)));
- debug_print ~depth (lazy ("olds = " ^ (string_of_int signature))));
+ (debug_print ~depth (lazy ("news = " ^ (string_of_int new_sig)));
+ debug_print ~depth (lazy ("olds = " ^ (string_of_int signature))));
let alternatives, cache =
- do_something signature flags status g depth gty cache in
+ do_something signature flags status g depth gty cache ~use_given_only in
let loop_cache =
if flags.last then
- let l,tree = cache.under_inspection in
- let l,tree = closegty::l, add_to_th closegty tree closegty in
+ let l,tree = cache.under_inspection in
+ let l,tree = closegty::l, add_to_th closegty tree closegty in
{cache with under_inspection = l,tree}
else cache in
let failures =
List.fold_left
(fun allfailures ((_,t),status) ->
debug_print ~depth
- (lazy ("(re)considering goal " ^
- (string_of_int g) ^" : "^ppterm status gty));
+ (lazy ("(re)considering goal " ^
+ (string_of_int g) ^" : "^ppterm status gty));
debug_print (~depth:depth)
(lazy ("Case: " ^ NotationPp.pp_term status t));
let depth,cache =
- if t=Ast.Ident("__whd",None) ||
+ 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 status ~depth cache t in
+ else depth+1,loop_cache in
+ let cache = add_to_trace status ~depth cache t in
let cache = {cache with failures = allfailures} in
- try
- auto_clusters flags signature cache depth status;
+ try
+ auto_clusters flags signature cache depth status ~use_given_only;
assert false;
- with Gaveup fail ->
- debug_print ~depth (lazy "Failed");
- fail)
- cache.failures alternatives in
+ with Gaveup fail ->
+ debug_print ~depth (lazy "Failed");
+ fail)
+ cache.failures alternatives in
let failures =
if flags.last then
let newfail =
add_to_th newfail failures closegty
else failures in
debug_print ~depth (lazy "no more candidates");
- raise (Gaveup failures)
+ raise (Gaveup failures)
;;
let int name l def =
(* filtering facts *)
in List.filter
(fun t ->
- match t with
- | Ast.NRef (NReference.Ref (u,_)) -> not (is_a_fact_obj s u)
- | _ -> false) trace
+ 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 =
+(*CSC: TODO
+
+- auto_params e' una high tactic che prende in input i parametri e poi li
+ processa nel contesto vuoto calcolando i candidate
+
+- astrarla su una auto_params' che prende in input gia' i candidate e un
+ nuovo parametro per evitare il calcolo dei candidate locali che invece
+ diventano vuoti (ovvero: non usare automaticamente tutte le ipotesi, bensi'
+ nessuna)
+
+- reimplementi la auto_params chiamando la auto_params' con il flag a
+ false e il vecchio codice per andare da parametri a candiddati
+ OVVERO: usa tutti le ipotesi locali + candidati globali
+
+- crei un nuovo entry point lowtac che calcola i candidati usando il contesto
+ corrente e poi fa exec della auto_params' con i candidati e il flag a true
+ OVVERO: usa solo candidati globali che comprendono ipotesi locali
+*)
+
+type auto_params = NTacStatus.tactic_term list option * (string * string) list
+
+(*let auto_tac ~params:(univ,flags) ?(trace_ref=ref []) status =*)
+let auto_tac' candidates ~local_candidates ?(use_given_only=false) flags ?(trace_ref=ref []) status =
let oldstatus = status in
let status = (status:> NTacStatus.tac_status) in
let goals = head_goals status#stack in
(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 flags = {
last = true;
candidates = candidates;
+ local_candidates = local_candidates;
maxwidth = width;
maxsize = size;
maxdepth = depth;
- timeout = Unix.gettimeofday() +. 3000.;
do_types = false;
} in
let initial_time = Unix.gettimeofday() in
let _ = debug_print (lazy("\n\nRound "^string_of_int x^"\n")) in
let flags = { flags with maxdepth = x }
in
- try auto_clusters (~top:true) flags signature cache 0 status;assert false
+ try auto_clusters (~top:true) flags signature cache 0 status ~use_given_only;assert false
(*
try auto_main flags signature cache 0 status;assert false
*)
| Gaveup _ -> up_to (x+1) y
| Proved (s,trace) ->
debug_print (lazy ("proved at depth " ^ string_of_int x));
- List.iter (toref incr_uses statistics) trace;
+ List.iter (toref incr_uses statistics) trace;
let trace = cleanup_trace s trace in
- let _ = debug_print (pptrace status trace) in
+ let _ = debug_print (pptrace status trace) in
let stack =
match s#stack with
- | (g,t,k,f) :: rest -> (filter_open g,t,k,f):: rest
+ | (g,t,k,f,p) :: rest -> (filter_open g,t,k,f,p):: rest
| _ -> assert false
in
let s = s#set_stack stack in
s
;;
+let candidates_from_ctx univ ctx status =
+ match univ with
+ | None -> None
+ | Some l ->
+ let to_Ast t =
+ (* FG: `XTSort here? *)
+ let status, res = disambiguate status ctx t `XTNone in
+ let _,res = term_of_cic_term status res (ctx_of res)
+ in Ast.NCic res
+ in Some (List.map to_Ast l)
+(* FG: adding these lemmas to (List.map to_Ast l) slows auto very much in some cases
+ @ [Ast.Ident("refl",None); Ast.Ident("sym_eq",None);
+ Ast.Ident("trans_eq",None); Ast.Ident("eq_f",None);
+ Ast.Ident("eq_f2",None); Ast.Ident("eq_f3",None);
+ Ast.Ident("rewrite_r",None); Ast.Ident("rewrite_l",None)
+ ]
+*)
+
+let auto_lowtac ~params:(univ,flags) status goal =
+ let gty = get_goalty status goal in
+ let ctx = ctx_of gty in
+ let candidates = candidates_from_ctx univ ctx status in
+ auto_tac' candidates ~local_candidates:true ~use_given_only:false flags ~trace_ref:(ref [])
+
+let auto_tac ~params:(univ,flags) ?(trace_ref=ref []) status =
+ let candidates = candidates_from_ctx univ [] status in
+ auto_tac' candidates ~local_candidates:true ~use_given_only:false flags ~trace_ref status
+
let auto_tac ~params:(_,flags as params) ?trace_ref =
if List.mem_assoc "demod" flags then
demod_tac ~params
fast_eq_check_tac ~params
else auto_tac ~params ?trace_ref
;;
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