X-Git-Url: http://git.nguyen.vg/gitweb/?a=blobdiff_plain;f=src%2Frun.ml;fp=src%2Frun.ml;h=39eec26448307d4fb828b3606a2e1858addaf58f;hb=05eaaee159125065661a69fbe3d11f54a3534f3f;hp=1dfb6a8614327aac3f0b80ef37447d2529ece831;hpb=71804e81fe8aaa4c95073663b1cabdb5ba1dc87a;p=tatoo.git

diff --git a/src/run.ml b/src/run.ml
index 1dfb6a8..39eec26 100644
--- a/src/run.ml
+++ b/src/run.ml
@@ -35,41 +35,7 @@ exception Max_fail
 
 
 (* Hash Consign modules *)
-
-module type Oracle_fixpoint =
-sig
-  type t = StateSet.t*StateSet.t*StateSet.t*((StateSet.elt*Formula.t) list)*QName.t
-  val equal : t -> t -> bool
-  val hash : t -> int
-end
-
-type dStateS = StateSet.t*StateSet.t
-module type Run_fixpoint =
-sig
-  type t = dStateS*dStateS*dStateS*(State.t*Formula.t) list*QName.t
-  val equal : t -> t -> bool
-  val hash : t -> int
-end
-    
-module Oracle_fixpoint : Oracle_fixpoint = struct
-  type t =
-      StateSet.t*StateSet.t*StateSet.t*((StateSet.elt*Formula.t) list)*QName.t
-  let equal (s,l,r,list,t) (s',l',r',list',t') = StateSet.equal s s' &&
-    StateSet.equal l l' && StateSet.equal r r' && QName.equal t t'
-  let hash (s,l,r,list,t) =
-    HASHINT4(StateSet.hash s, StateSet.hash l, StateSet.hash r, QName.hash t)
-end
-  
-let dequal (x,y) (x',y') = StateSet.equal x x' && StateSet.equal y y'
-let dhash (x,y) = HASHINT2(StateSet.hash x, StateSet.hash y)
-module Run_fixpoint : Run_fixpoint = struct
-  type t = dStateS*dStateS*dStateS*(State.t*Formula.t) list*QName.t
-  let equal (s,l,r,list,t) (s',l',r',list',t') = dequal s s' &&
-    dequal l l' && dequal r r' && QName.equal t t'
-  let hash (s,l,r,list,t) =
-    HASHINT4(dhash s, dhash l, dhash r, QName.hash t)
-end
-
+open Hconsed_run
 module HashOracle = Hashtbl.Make(Oracle_fixpoint)
 module HashRun = Hashtbl.Make(Run_fixpoint)
 
@@ -77,7 +43,7 @@ module HashRun = Hashtbl.Make(Run_fixpoint)
 let map_leaf asta = (Asta.bot_states_s asta, StateSet.empty)
 
 (* Build the Oracle *)
-let rec bu_oracle asta run tree tnode hashOracle=
+let rec bu_oracle asta run tree tnode hashOracle hashEval =
   let node = Tree.preorder tree tnode in
   if Tree.is_leaf tree tnode
   then
@@ -90,13 +56,13 @@ let rec bu_oracle asta run tree tnode hashOracle=
     let fnode,nnode =                            (* their preorders *)
       (Tree.preorder tree tfnode, Tree.preorder tree tnnode) in
     begin
-      bu_oracle asta run tree tfnode hashOracle;
-      bu_oracle asta run tree tnnode hashOracle;
+      bu_oracle asta run tree tfnode hashOracle hashEval;
+      bu_oracle asta run tree tnnode hashOracle hashEval;
       (* add states which satisfy a transition *)
       let rec result set qfr qnr flag = function
         | [] -> set,flag
         | (q,form) :: tl ->
-          if Formula.eval_form (set,qfr,qnr) form (* evaluates the formula*)
+          if Formula.eval_form (set,qfr,qnr) form hashEval
           then
             if StateSet.mem q set
             then result set qfr qnr 0 tl
@@ -122,7 +88,7 @@ let rec bu_oracle asta run tree tnode hashOracle=
     end
 
 (* Build the over-approx. of the maximal run *)
-let rec bu_over_max asta run tree tnode hashOver =
+let rec bu_over_max asta run tree tnode hashOver hashInfer =
   if (Tree.is_leaf tree tnode)      (* BU_oracle has already created the map *)
   then
     ()
@@ -130,8 +96,8 @@ let rec bu_over_max asta run tree tnode hashOver =
     let tfnode = Tree.first_child_x tree tnode
     and tnnode = Tree.next_sibling tree tnode in
     begin
-      bu_over_max asta run tree tfnode hashOver;
-      bu_over_max asta run tree tnnode hashOver;
+      bu_over_max asta run tree tfnode hashOver hashInfer;
+      bu_over_max asta run tree tnnode hashOver hashInfer;
       let (fnode,nnode) =
         (Tree.preorder tree tfnode, Tree.preorder tree tnnode)
       and node = Tree.preorder tree tnode in          
@@ -148,7 +114,7 @@ let rec bu_over_max asta run tree tnode hashOver =
         | (q,form) :: tl ->
           if StateSet.mem q set
           then result set qf qn 0 list_tr tl
-          else if Formula.infer_form (set,resultr) qf qn form
+          else if Formula.infer_form (set,resultr) qf qn form hashInfer
           then result (StateSet.add q set) qf qn 1 list_tr tl
           else result set qf qn 0 list_tr tl in
       let result_set () =
@@ -163,7 +129,7 @@ let rec bu_over_max asta run tree tnode hashOver =
 
 
 (* Build the maximal run *)
-let rec tp_max asta run tree tnode hashMax =
+let rec tp_max asta run tree tnode hashMax hashInfer =
   if (Tree.is_leaf tree tnode)      (* BU_oracle has already created the map *)
   then
     ()
@@ -204,7 +170,7 @@ let rec tp_max asta run tree tnode hashMax =
       and result_st_q self_q queue flag = function (*for computing the fixed p*)
         | [] -> flag,queue
         | form :: tl ->
-          if Formula.infer_form (self_q,self_r) qf qn form
+          if Formula.infer_form (self_q,self_r) qf qn form hashInfer
           then begin 
             let q_cand,_,_ = Formula.st form in
             StateSet.iter (fun x -> Queue.push x queue) q_cand;
@@ -229,7 +195,7 @@ let rec tp_max asta run tree tnode hashMax =
         | [] -> []
         | (q,form) :: tl ->
           if (StateSet.mem q (fst self)) && (* infers & trans. can start here *)
-            (Formula.infer_form self qf qn form)
+            (Formula.infer_form self qf qn form hashInfer)
           then form :: (result self qf qn tl)
           else result self qf qn tl in      
       let list_form =
@@ -257,8 +223,8 @@ let rec tp_max asta run tree tnode hashMax =
         then ()
         else NodeHash.replace run nnode (StateSet.inter qnq qr,qnr);
         (* indeed we delete all states from self transitions!  *)
-        tp_max asta run tree tfnode hashMax;
-        tp_max asta run tree tnnode hashMax;
+        tp_max asta run tree tfnode hashMax hashInfer;
+        tp_max asta run tree tnnode hashMax hashInfer;
       end;
     end
         
@@ -267,17 +233,21 @@ let compute tree asta =
   let size_tree = 10000 in              (* todo (Tree.size ?) *)
   let size_hcons_O = 1000 in            (* todo size Hashtbl *)
   let size_hcons_M = 1000 in            (* todo size Hashtbl *)
+  let size_hcons_F = 1000 in            (* todo size Hashtbl *)
   let map = NodeHash.create size_tree in
   let hashOracle = HashOracle.create(size_hcons_O) in
-  bu_oracle asta map tree (Tree.root tree) hashOracle;
+  let hashEval = Formula.HashEval.create(size_hcons_F) in
+  let hashInfer = Formula.HashInfer.create(size_hcons_F) in
+  bu_oracle asta map tree (Tree.root tree) hashOracle hashEval;
   HashOracle.clear hashOracle;
+  Formula.HashEval.clear hashEval;
   if flag > 0 then begin
     let hashOver = HashRun.create(size_hcons_M) in
     let hashMax = HashRun.create(size_hcons_M) in
-    bu_over_max asta map tree (Tree.root tree) hashOver;
+    bu_over_max asta map tree (Tree.root tree) hashOver hashInfer;
     if flag = 2
     then
-      tp_max asta map tree (Tree.root tree) hashMax
+      tp_max asta map tree (Tree.root tree) hashMax hashInfer
     else ();
     HashRun.clear hashOver;
     HashRun.clear hashMax;