X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fcomponents%2Fng_paramodulation%2FnCicBlob.ml;h=c1c7a9071fdee01ed9ad69959782f7e73886ad25;hb=12f96bd48b460d06f9858a334ee7c52d6831712f;hp=87d081deae51cad79c4951bf7eb004c2660729e7;hpb=3c1a432c1612f8ed21f5b2220005599c4d9da1d5;p=helm.git

diff --git a/helm/software/components/ng_paramodulation/nCicBlob.ml b/helm/software/components/ng_paramodulation/nCicBlob.ml
index 87d081dea..c1c7a9071 100644
--- a/helm/software/components/ng_paramodulation/nCicBlob.ml
+++ b/helm/software/components/ng_paramodulation/nCicBlob.ml
@@ -11,28 +11,134 @@
 
 (* $Id: terms.mli 9822 2009-06-03 15:37:06Z tassi $ *)
 
-module type NCicContext = 
+let eqPref = ref (fun _ -> assert false);;
+let set_eqP t = eqPref := fun _ -> t;;
+
+let default_eqP() = 
+  let uri = NUri.uri_of_string "cic:/matita/ng/Plogic/equality/eq.ind" in
+  let ref = NReference.reference_of_spec uri (NReference.Ind(true,0,2)) in
+    NCic.Const ref
+;;
+
+let equivalence_relation =
+  let uri = NUri.uri_of_string "cic:/matita/ng/properties/relations/eq_rel.con"
+  in
+  let ref = NReference.reference_of_spec uri (NReference.Fix(0,1,2)) 
+  in NCic.Const ref
+
+let setoid_eq =
+  let uri = NUri.uri_of_string "cic:/matita/ng/sets/setoids/eq.con" in
+  let ref = NReference.reference_of_spec uri (NReference.Fix(0,0,2)) 
+  in NCic.Const ref
+
+let set_default_eqP() = eqPref := default_eqP
+
+let set_reference_of_oxuri f = 
+  let eqnew = function 
+      _ -> 
+	let r = f(UriManager.uri_of_string 
+          "cic:/matita/logic/equality/eq.ind#xpointer(1/1)")
+	in
+	  NCic.Const r
+  in
+    eqPref := eqnew
+;;
+
+
+module type NCicContext =
   sig
     val metasenv : NCic.metasenv
     val subst : NCic.substitution
     val context : NCic.context
   end
 
-module NCicBlob(C : NCicContext) : Terms.Blob with type t = NCic.term = struct
+module NCicBlob(C : NCicContext) : Terms.Blob 
+with type t = NCic.term and type input = NCic.term = struct
 
   type t = NCic.term
 
-  let eq x y = NCicReduction.alpha_eq C.metasenv C.subst C.context x y;;
+  let eq x y = x = y;;
+    (* NCicReduction.alpha_eq C.metasenv C.subst C.context x y;; *)
+
+  let height_of_ref = function
+    | NReference.Def h -> h
+    | NReference.Fix(_,_,h) -> h
+    | _ -> 0
+
+  let compare_refs (NReference.Ref (u1,r1)) (NReference.Ref (u2,r2)) =
+    let x = height_of_ref r2 - height_of_ref r1 in
+      if x = 0 then 
+	Hashtbl.hash (NUri.string_of_uri u1,r1) - 
+	  Hashtbl.hash (NUri.string_of_uri u2,r2)
+      else x 
 
   let rec compare x y = 
     match x,y with
-    | NCic.Rel i, NCic.Rel j -> i-j
-    | NCic.Const r1, NCic.Const r2 -> NReference.compare r1 r2
-    | NCic.Appl l1, NCic.Appl l2 -> assert false (* TODO *)
-    | _ -> assert false
+    | NCic.Rel i, NCic.Rel j -> j-i
+    | NCic.Meta (i,_), NCic.Meta (j,_) -> i-j
+    | NCic.Const r1, NCic.Const r2 -> compare_refs r1 r2
+    (*NReference.compare r1 r2*)
+    | NCic.Appl l1, NCic.Appl l2 -> FoUtils.lexicograph compare l1 l2
+    | NCic.Rel _, ( NCic.Meta _ | NCic.Const _ | NCic.Appl _ ) -> ~-1
+    | ( NCic.Meta _ | NCic.Const _ | NCic.Appl _ ), NCic.Rel _ -> 1
+    | NCic.Const _, ( NCic.Meta _ | NCic.Appl _ ) -> ~-1
+    | ( NCic.Meta _ | NCic.Appl _ ), NCic.Const _ -> 1
+    | NCic.Appl _, NCic.Meta _ -> ~-1
+    | NCic.Meta _, NCic.Appl _ -> 1
+    | _ -> Pervasives.compare x y
+	(* was assert false, but why? *)
+	
+  ;;
+  
+  let compare x y = 
+    (* if NCicReduction.alpha_eq C.metasenv C.subst C.context x y  then 0 *)
+    if x = y  then 0
+    else compare x y
   ;;
 
+  let eqP = (!eqPref)()
+  ;;
+
+  let is_eq = function
+    | Terms.Node [ Terms.Leaf eqt ; ty; l; r ] when eq eqP eqt ->
+        Some (ty,l,r) 
+(*
+    | Terms.Node [ Terms.Leaf eqt ; _; Terms.Node [Terms.Leaf eqt2 ; ty]; l; r]
+	when eq equivalence_relation eqt && eq setoid_eq eqt2 ->
+        Some (ty,l,r) *)
+    | _ -> None
+
   let pp t = 
     NCicPp.ppterm ~context:C.context ~metasenv:C.metasenv ~subst:C.subst t;;
 
+  type input = NCic.term
+
+  let rec embed = function
+    | NCic.Meta (i,_) -> Terms.Var i, [i]
+    | NCic.Appl l ->
+	let rec aux acc l = function
+	  |[] -> acc@l
+	  |hd::tl -> if List.mem hd l then aux acc l tl else aux (hd::acc) l tl
+	in
+	let res,vars = List.fold_left
+	  (fun (r,v) t -> let r1,v1 = embed t in (r1::r),aux [] v v1) ([],[]) l
+	in (Terms.Node (List.rev res)), vars
+    | t -> Terms.Leaf t, []
+  ;;
+
+  let embed t = fst (embed t) ;;
+
+  let saturate t ty = 
+    let sty, _, args = 
+      NCicMetaSubst.saturate ~delta:0 C.metasenv C.subst C.context
+        ty 0
+    in
+    let proof = 
+      if args = [] then Terms.Leaf t 
+      else Terms.Node (Terms.Leaf t :: List.map embed args)
+    in
+    let sty = embed sty in
+    proof, sty
+  ;;
+  
  end