(* $Id: nCicRefiner.mli 9227 2008-11-21 16:00:06Z tassi $ *)
-module COT : Set.OrderedType with type t = int * NCic.term =
+let debug s = prerr_endline (Lazy.force s);;
+let debug _ = ();;
+
+module HOT : Set.OrderedType
+with type t = int * NCic.term * NCic.term * NCic.term =
+ struct
+ (* precedence, skel1, skel2, term *)
+ type t = int * NCic.term * NCic.term * NCic.term
+ let compare = Pervasives.compare
+ end
+
+module EOT : Set.OrderedType
+with type t = int * NCic.term =
struct
- type t = int * NCic.term
+ type t = int * NCic.term
let compare = Pervasives.compare
end
-module HintSet = Set.Make(COT)
+module HintSet = Set.Make(HOT)
+module EqSet = Set.Make(EOT)
-module DB =
+module HDB =
Discrimination_tree.Make(NDiscriminationTree.NCicIndexable)(HintSet)
-type db = DB.t
+module EQDB =
+ Discrimination_tree.Make(NDiscriminationTree.NCicIndexable)(EqSet)
+
+type db =
+ HDB.t * (* hint database: (dummy A B)[?] |-> \forall X.(summy a b)[X] *)
+ EQDB.t (* eqclass DB: A[?] |-> \forall X.B[X] and viceversa *)
+
+exception HintNotValid
+
+let skel_dummy = NCic.Implicit `Type;;
+
+class type g_status =
+ object
+ method uhint_db: db
+ end
+
+class status =
+ object
+ val db = HDB.empty, EQDB.empty
+ method uhint_db = db
+ method set_uhint_db v = {< db = v >}
+ method set_unifhint_status
+ : 'status. #g_status as 'status -> 'self
+ = fun o -> {< db = o#uhint_db >}
+ end
let dummy = NCic.Const (NReference.reference_of_string "cic:/dummy_conv.dec");;
let pair t1 t2 = (NCic.Appl [dummy;t1;t2]) ;;
(match t2 with
| NCic.Meta _ | NCic.Appl (NCic.Meta _ :: _) -> false | _ -> true)
);
- let pair' = pair t1 t2 in
- let data =
+ (* here we do not use skel_dummy since it could cause an assert false in
+ * the subst function that lives in the kernel *)
+ let hole = NCic.Meta (-1,(0,NCic.Irl 0)) in
+ let t1_skeleton =
+ List.fold_left (fun t _ -> NCicSubstitution.subst hole t) t1 context
+ in
+ let t2_skeleton =
+ List.fold_left (fun t _ -> NCicSubstitution.subst hole t) t2 context
+ in
+ let rec cleanup_skeleton () = function
+ | NCic.Meta _ -> skel_dummy
+ | t -> NCicUtils.map (fun _ () -> ()) () cleanup_skeleton t
+ in
+ let t1_skeleton = cleanup_skeleton () t1_skeleton in
+ let t2_skeleton = cleanup_skeleton () t2_skeleton in
+ let src = pair t1_skeleton t2_skeleton in
+ let ctx2abstractions context t =
List.fold_left
(fun t (n,e) ->
match e with
| NCic.Decl ty -> NCic.Prod (n,ty,t)
| NCic.Def (b,ty) -> NCic.LetIn (n,ty,b,t))
- pair' context in
- let src =
- List.fold_left
- (fun t (_,e) ->
- match e with
- | NCic.Decl _ ->
- NCicSubstitution.subst (NCic.Meta (-1,(0,NCic.Irl 0))) t
- | NCic.Def _ ->
- NCicSubstitution.subst (NCic.Meta (-1,(0,NCic.Irl 0))) t)
- pair' context in
-(*
- prerr_endline ("INDEXING: " ^
+ t context
+ in
+ let data_hint =
+ precedence, t1_skeleton, t2_skeleton, ctx2abstractions context (pair t1 t2)
+ in
+ let data_t1 = t2_skeleton in
+ let data_t2 = t1_skeleton in
+
+ debug(lazy ("INDEXING: " ^
NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] src ^ " |==> " ^
- NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] data);
-*)
- DB.index hdb src (precedence, data)
-;;
+ NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[]
+ (let _,x,_,_ = data_hint in x)));
-let empty_db = DB.empty ;;
+ hdb#set_uhint_db (
+ HDB.index (fst (hdb#uhint_db)) src data_hint,
+ EQDB.index
+ (EQDB.index (snd (hdb#uhint_db)) t2_skeleton (precedence, data_t2))
+ t1_skeleton (precedence, data_t1))
+;;
let add_user_provided_hint db t precedence =
let c, a, b =
let rec aux ctx = function
| NCic.Appl l ->
(match List.rev l with
- | b::a::_ -> ctx, a, b
+ | b::a::_ ->
+ if
+ let ty_a =
+ NCicTypeChecker.typeof ~metasenv:[] ~subst:[] ctx a
+ in
+ let ty_b =
+ NCicTypeChecker.typeof ~metasenv:[] ~subst:[] ctx b
+ in
+ NCicReduction.are_convertible
+ ~metasenv:[] ~subst:[] ctx ty_a ty_b
+ &&
+ NCicReduction.are_convertible
+ ~metasenv:[] ~subst:[] ctx a b
+ then ctx, a, b
+ else raise HintNotValid
| _ -> assert false)
| NCic.Prod (n,s,t) -> aux ((n, NCic.Decl s) :: ctx) t
| NCic.LetIn (n,ty,t,b) -> aux ((n, NCic.Def (t,ty)) :: ctx) b
index_hint db c a b precedence
;;
+(*
let db () =
let combine f l =
List.flatten
| b1,b2 ->
if NCicReduction.are_convertible ~subst:[] ~metasenv:[] ctx b1 b2
then begin
-(*
- prerr_endline ("hint: " ^ NCicPp.ppterm ~metasenv:[] ~subst:[]
- ~context:ctx b1 ^ " === " ^ NCicPp.ppterm ~metasenv:[]
- ~subst:[] ~context:ctx b2);
-*)
let rec mk_rels =
function 0 -> [] | n -> NCic.Rel n :: mk_rels (n-1)
in
aux [] l r
| _ -> []
in
- let hints =
+ let _hints =
List.fold_left
(fun acc (_,_,l) ->
acc @
!user_db (List.flatten hints)
*)
;;
+*)
let saturate ?(delta=0) metasenv subst context ty goal_arity =
assert (goal_arity >= 0);
let rec aux metasenv = function
| NCic.Prod (name,s,t) as ty ->
let metasenv1, _, arg,_ =
- NCicMetaSubst.mk_meta ~name:name metasenv context (`WithType s) in
+ NCicMetaSubst.mk_meta ~attrs:[`Name name] metasenv context
+ ~with_type:s `IsTerm
+ in
let t, metasenv1, args, pno =
aux metasenv1 (NCicSubstitution.subst arg t)
in
res, newmetasenv, arguments
;;
+let eq_class_of hdb t1 =
+ let eq_class =
+ if NDiscriminationTree.NCicIndexable.path_string_of t1 =
+ [Discrimination_tree.Variable]
+ then
+ [] (* if the trie is unable to handle the key, we skip the query since
+ it sould retulr the whole content of the trie *)
+ else
+ let candidates = EQDB.retrieve_unifiables (snd hdb#uhint_db) t1 in
+ let candidates = EqSet.elements candidates in
+ let candidates = List.sort (fun (x,_) (y,_) -> compare x y) candidates in
+ List.map snd candidates
+ in
+ debug(lazy("eq_class of: " ^ NCicPp.ppterm ~metasenv:[] ~context:[] ~subst:[]
+ t1 ^ " is\n" ^ String.concat "\n"
+ (List.map (NCicPp.ppterm ~subst:[] ~metasenv:[] ~context:[]) eq_class)));
+ eq_class
+;;
+
let look_for_hint hdb metasenv subst context t1 t2 =
+ if NDiscriminationTree.NCicIndexable.path_string_of t1 =
+ [Discrimination_tree.Variable] ||
+ NDiscriminationTree.NCicIndexable.path_string_of t2 =
+ [Discrimination_tree.Variable] then [] else begin
+
+ debug(lazy ("KEY1: "^NCicPp.ppterm ~metasenv ~subst ~context t1));
+ debug(lazy ("KEY2: "^NCicPp.ppterm ~metasenv ~subst ~context t2));
(*
- prerr_endline ("KEY1: "^NCicPp.ppterm ~metasenv ~subst ~context (pair t1 t2));
- prerr_endline ("KEY2: "^NCicPp.ppterm ~metasenv ~subst ~context (pair t2 t1));
- DB.iter hdb
+ HDB.iter hdb
(fun p ds ->
prerr_endline ("ENTRY: " ^
NDiscriminationTree.NCicIndexable.string_of_path p ^ " |--> " ^
String.concat "|" (List.map (NCicPp.ppterm ~metasenv:[] ~subst:[]
~context:[]) (HintSet.elements ds))));
*)
- let candidates1 = DB.retrieve_unifiables hdb (pair t1 t2) in
- let candidates2 = DB.retrieve_unifiables hdb (pair t2 t1) in
+ let candidates1 = HDB.retrieve_unifiables (fst hdb#uhint_db) (pair t1 t2) in
+ let candidates2 = HDB.retrieve_unifiables (fst hdb#uhint_db) (pair t2 t1) in
let candidates1 =
- List.map (fun (prec,ty) ->
+ List.map (fun (prec,_,_,ty) ->
prec,true,saturate ~delta:max_int metasenv subst context ty 0)
(HintSet.elements candidates1)
in
let candidates2 =
- List.map (fun (prec,ty) ->
+ List.map (fun (prec,_,_,ty) ->
prec,false,saturate ~delta:max_int metasenv subst context ty 0)
(HintSet.elements candidates2)
in
| NCic.Meta _ as t -> acc, t
| NCic.LetIn (name,ty,bo,t) ->
let m,_,i,_=
- NCicMetaSubst.mk_meta ~name m context (`WithType ty)in
+ NCicMetaSubst.mk_meta ~attrs:[`Name name] m context
+ ~with_type:ty `IsTerm
+ in
let t = NCicSubstitution.subst i t in
aux () (m, (i,bo)::l) t
| t -> NCicUntrusted.map_term_fold_a (fun _ () -> ()) () aux acc t
List.sort (fun (x,_,_,_) (y,_,_,_) -> Pervasives.compare x y) rc
in
let rc = List.map (fun (_,x,y,z) -> x,y,z) rc in
+
+ debug(lazy ("Hints:"^
+ String.concat "\n" (List.map
+ (fun (metasenv, (t1, t2), premises) ->
+ ("\t" ^ String.concat "; "
+ (List.map (fun (a,b) ->
+ NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context a ^
+ " =?= "^
+ NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context b)
+ premises) ^
+ " ==> "^
+ NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context t1 ^
+ " = "^NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context t2))
+ rc)));
+
+ rc
+ end
+;;
+
+let pp_hint t p =
+ let context, t =
+ let rec aux ctx = function
+ | NCic.Prod (name, ty, rest) -> aux ((name, NCic.Decl ty) :: ctx) rest
+ | t -> ctx, t
+ in
+ aux [] t
+ in
+ let recproblems, concl =
+ let rec aux ctx = function
+ | NCic.LetIn (name,ty,bo,rest) -> aux ((name, NCic.Def(bo,ty))::ctx) rest
+ | t -> ctx, t
+ in
+ aux [] t
+ in
+ let buff = Buffer.create 100 in
+ let fmt = Format.formatter_of_buffer buff in
(*
- prerr_endline "Hints:";
- List.iter
- (fun (metasenv, (t1, t2), premises) ->
- prerr_endline
- ("\t" ^ String.concat "; "
- (List.map (fun (a,b) ->
- NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context a ^
- " =?= "^
- NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context b)
- premises) ^
- " ==> "^
- NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context t1 ^
- " = "^NCicPp.ppterm ~margin:max_int ~metasenv ~subst ~context t2))
- rc;
+ F.fprintf "@[<hov>"
+ F.fprintf "@[<hov>"
+(* pp_ctx [] context *)
+ F.fprintf "@]"
+ F.fprintf "@;"
+ F.fprintf "@[<hov>"
+(* pp_ctx context recproblems *)
+ F.fprintf "@]"
+ F.fprintf "\vdash@;";
+ NCicPp.ppterm ~fmt ~context:(recproblems@context) ~subst:[] ~metasenv:[];
+ F.fprintf "@]"
+ F.fprintf formatter "@?";
+ prerr_endline (Buffer.contents buff);
*)
- rc
+()
+;;
+
+let generate_dot_file status fmt =
+ let module Pp = GraphvizPp.Dot in
+ let h_db, _ = status#uhint_db in
+ let names = ref [] in
+ let id = ref 0 in
+ let mangle l =
+ try List.assoc l !names
+ with Not_found ->
+ incr id;
+ names := (l,"node"^string_of_int!id) :: !names;
+ List.assoc l !names
+ in
+ let nodes = ref [] in
+ let edges = ref [] in
+ HDB.iter h_db (fun _key dataset ->
+ List.iter
+ (fun (precedence, l,r, hint) ->
+ let l =
+ Str.global_substitute (Str.regexp "\n") (fun _ -> "")
+ (NCicPp.ppterm
+ ~margin:max_int ~metasenv:[] ~context:[] ~subst:[] l)
+ in
+ let r =
+ Str.global_substitute (Str.regexp "\n") (fun _ -> "")
+ (NCicPp.ppterm
+ ~margin:max_int ~metasenv:[] ~context:[] ~subst:[] r)
+ in
+ let shint = "???" (*
+ string_of_int precedence ^ "..." ^
+ Str.global_substitute (Str.regexp "\n") (fun _ -> "")
+ (NCicPp.ppterm
+ ~margin:max_int ~metasenv:[] ~context:[] ~subst:[] hint)*)
+ in
+ nodes := (mangle l,l) :: (mangle r,r) :: !nodes;
+ edges := (mangle l, mangle r, shint, precedence, hint) :: !edges)
+ (HintSet.elements dataset);
+ );
+ List.iter (fun x, l -> Pp.node x ~attrs:["label",l] fmt) !nodes;
+ List.iter (fun x, y, l, _, _ ->
+ Pp.raw (Printf.sprintf "%s -- %s [ label=\"%s\" ];\n" x y "?") fmt)
+ !edges;
+ edges := List.sort (fun (_,_,_,p1,_) (_,_,_,p2,_) -> p1 - p2) !edges;
+ List.iter (fun x, y, _, p, l -> pp_hint l p) !edges;
;;