X-Git-Url: http://git.nguyen.vg/gitweb/?a=blobdiff_plain;ds=inline;f=src%2Frun.ml;h=482a7494d50c6afea8816885ace254e2f45255b1;hb=f608b765e000a540be707b35966eaea90ced268c;hp=83fa0e009d39649e94e4aa929d7ab6e3b41aa6d0;hpb=fc25fccd005bca9e1dd3e9f4f3f93d002917367b;p=tatoo.git
diff --git a/src/run.ml b/src/run.ml
index 83fa0e0..482a749 100644
--- a/src/run.ml
+++ b/src/run.ml
@@ -1,7 +1,9 @@
(***********************************************************************)
(* *)
-(* Lucca Hirschi, ? *)
-(* ? *)
+(* TAToo *)
+(* *)
+(* Lucca Hirschi, LRI UMR8623 *)
+(* Université Paris-Sud & CNRS *)
(* *)
(* Copyright 2010-2012 Université Paris-Sud and Centre National de la *)
(* Recherche Scientifique. All rights reserved. This file is *)
@@ -11,20 +13,190 @@
(* *)
(***********************************************************************)
-
-(* Il faut tout paramétrer par tr!!!! je ne sais pas comment faire >< **)
-
module Node =
struct
- type t = Tree.node
- let tr = Tree.load_xml_string ""
- let compare n1 n2 = (Tree.preorder tr n2) - (Tree.preorder tr n1)
+ type t = int
+ let hash n = n
+ let compare = (-)
+ let equal = (=)
end
-module NodeMap = Map.Make (Node)
+module NodeHash = Hashtbl.Make (Node)
+
+type t = (StateSet.t*StateSet.t) NodeHash.t
+(** Map from nodes to query and recognizing states *)
+(* Note that we do not consider the nil nodes *)
+
+exception Oracle_fail
+exception Over_max_fail
+exception Max_fail
+
+(* Mapped sets for leaves *)
+let map_leaf asta = (Asta.bot_states_s asta, StateSet.empty)
+
+(* Build the Oracle *)
+let rec bu_oracle asta run tree tnode =
+ let node = Tree.preorder tree tnode in
+ if Tree.is_leaf tree tnode
+ then
+ if tnode == Tree.nil
+ then ()
+ else NodeHash.add run node (map_leaf asta)
+ else
+ let tfnode = Tree.first_child tree tnode (* first child *)
+ and tnnode = Tree.next_sibling tree tnode in (* next-sibling *)
+ let fnode,nnode = (* their preorders *)
+ (Tree.preorder tree tfnode, Tree.preorder tree tnnode) in
+ begin
+ bu_oracle asta run tree tfnode;
+ bu_oracle asta run tree tnnode;
+ let q_rec n = (* compute the set for child/sibling *)
+ try NodeHash.find run n
+ with Not_found -> map_leaf asta in
+ let (_,qfr),(_,qnr) = q_rec fnode,q_rec nnode (* computed in rec call *)
+ and lab = Tree.tag tree tnode in
+ let _,list_tr = Asta.transitions_lab asta lab in (* only reco. tran.*)
+ let rec result set = function
+ | [] -> set
+ | (q,form) :: tl ->
+ if Formula.eval_form (qfr,qnr) form (* evaluates the formula *)
+ then result (StateSet.add q set) tl
+ else result set tl in
+ let result_set = result StateSet.empty list_tr in
+ NodeHash.add run node (StateSet.empty, result_set)
+ end
+
+(* Build the over-approx. of the maximal run *)
+let rec bu_over_max asta run tree tnode =
+ if (Tree.is_leaf tree tnode) (* BU_oracle has already created the map *)
+ then
+ ()
+ else
+ let tfnode = Tree.first_child tree tnode
+ and tnnode = Tree.next_sibling tree tnode in
+ begin
+ bu_over_max asta run tree tfnode;
+ bu_over_max asta run tree tnnode;
+ let (fnode,nnode) =
+ (Tree.preorder tree tfnode, Tree.preorder tree tnnode)
+ and node = Tree.preorder tree tnode in
+ let q_rec n =
+ try NodeHash.find run n
+ with Not_found -> map_leaf asta in
+ let (qfq,qfr),(qnq,qnr) = q_rec fnode,q_rec nnode in
+ let lab = Tree.tag tree tnode in
+ let list_tr,_ = Asta.transitions_lab asta lab in (* only take query st. *)
+ let rec result set = function
+ | [] -> set
+ | (q,form) :: tl ->
+ if Formula.infer_form (qfq,qnq) (qfr,qnr) form (* infers the formula*)
+ then result (StateSet.add q set) tl
+ else result set tl in
+ let _,resultr = try NodeHash.find run node
+ with _ -> raise Over_max_fail in
+ let result_set = result StateSet.empty list_tr in
+ (* we keep the old recognizing states set *)
+ NodeHash.replace run node (result_set, resultr)
+ end
+
-type t = StateSet.t NodeMap.t
+(* Build the maximal run *)
+let rec tp_max asta run tree tnode =
+ if (Tree.is_leaf tree tnode) (* BU_oracle has already created the map *)
+ then
+ ()
+ else
+ let node = Tree.preorder tree tnode
+ and tfnode = Tree.first_child tree tnode
+ and tnnode = Tree.next_sibling tree tnode in
+ let (fnode,nnode) =
+ (Tree.preorder tree tfnode, Tree.preorder tree tnnode) in
+ begin
+ if tnode == Tree.root tree (* we must intersect with top states *)
+ then let setq,_ = try NodeHash.find run node
+ with _ -> raise Max_fail in
+ NodeHash.replace run node
+ ((StateSet.inter (Asta.top_states_s asta) setq),StateSet.empty)
+ else ();
+ let q_rec n =
+ try NodeHash.find run n
+ with Not_found -> map_leaf asta in
+ let (qfq,qfr),(qnq,qnr) = q_rec fnode,q_rec nnode in
+ let lab = Tree.tag tree tnode in
+ let list_tr,_ = Asta.transitions_lab asta lab in (* only take query. *)
+ let set_node,_ = try NodeHash.find run node
+ with _ -> raise Max_fail in
+ let rec result = function
+ | [] -> []
+ | (q,form) :: tl ->
+ if (Formula.infer_form (qfq,qnq) (qfr,qnr) form) &&
+ (StateSet.mem q set_node) (* infers & trans. can start here *)
+ then form :: (result tl)
+ else result tl in
+ let list_form = result list_tr in (* tran. candidates *)
+ (* compute states occuring in transition candidates *)
+ let rec add_st (ql,qr) = function
+ | [] -> ql,qr
+ | f :: tl -> let sql,sqr = Formula.st f in
+ let ql' = StateSet.union sql ql
+ and qr' = StateSet.union sqr qr in
+ add_st (ql',qr') tl in
+ let ql,qr = add_st (StateSet.empty, StateSet.empty) list_form in
+ let qfq,qfr = try NodeHash.find run fnode
+ with | _ -> map_leaf asta
+ and qnq,qnr = try NodeHash.find run nnode
+ with | _ -> map_leaf asta in
+ begin
+ if tfnode == Tree.nil
+ then ()
+ else NodeHash.replace run fnode (StateSet.inter qfq ql,qfr);
+ if tnnode == Tree.nil
+ then ()
+ else NodeHash.replace run nnode (StateSet.inter qnq qr,qnr);
+ tp_max asta run tree tfnode;
+ tp_max asta run tree tnnode;
+ end;
+ end
+
+let compute tree asta =
+ let flag = 2 in (* debug *)
+ let size_tree = 10000 in (* todo (Tree.size ?) *)
+ let map = NodeHash.create size_tree in
+ bu_oracle asta map tree (Tree.root tree);
+ if flag > 0 then begin
+ bu_over_max asta map tree (Tree.root tree);
+ if flag = 2
+ then
+ tp_max asta map tree (Tree.root tree)
+ else ()
+ end
+ else ();
+ map
-let compute tree asta = NodeMap.empty
+let selected_nodes tree asta =
+ let run = compute tree asta in
+ NodeHash.fold
+ (fun key set acc ->
+ if not(StateSet.is_empty
+ (StateSet.inter (fst set) (Asta.selec_states asta)))
+ then key :: acc
+ else acc)
+ run []
-let print fmt run = ()
+let print fmt run =
+ let print_d_set fmt (s_1,s_2) =
+ Format.fprintf fmt "(%a,%a)"
+ StateSet.print s_1 StateSet.print s_2 in
+ let print_map fmt run =
+ let pp = Format.fprintf fmt in
+ if NodeHash.length run = 0
+ then Format.fprintf fmt "ø"
+ else
+ NodeHash.iter (fun cle set -> pp "| %i->%a @ " cle print_d_set set)
+ run in
+ let print_box fmt run =
+ let pp = Format.fprintf fmt in
+ pp "@[@. # Mapping:@. @[%a@]@]"
+ print_map run
+ in
+ Format.fprintf fmt "@[##### RUN #####@, %a@]@." print_box run