label * self-set * fc-set * ns-set * parent-set * node-shape -> self-set
*)
node_summaries: (int, int16_unsigned_elt, c_layout) Array1.t;
+
}
let dummy_form = Ata.Formula.stay State.dummy
}
- let top_down run =
+ let top_down run update_res =
let i = run.pass in
let tree = run.tree in
let auto = run.auto in
else
states_by_rank.(i+1)
in
+ let last_run = i >= Array.length states_by_rank - 2 in
let rec loop_td_and_bu node parent parent_sat =
if node == T.nil then StateSet.empty
else begin
(* update the cache if the status of the node changed
unsafe_set run.sat node_id status1 status0;*)
- let fcs1 = loop_td_and_bu fc node status1 in
if bu_todo == StateSet.empty then begin
unsafe_set run.sat node_id status1 status0; (* write the td_states *)
+ update_res false status1 node;
+ let _ = loop_td_and_bu fc node status1 in
loop_td_and_bu ns node status1 (* tail call *)
end else
- let nss1 = loop_td_and_bu ns node status1 in
+ let fcs1, nss1 =
+ if last_run then
+ let nss1 = loop_td_and_bu ns node status1 in
+ let fcs1 = loop_td_and_bu fc node status1 in
+ fcs1, nss1
+ else
+ let fcs1 = loop_td_and_bu fc node status1 in
+ let nss1 = loop_td_and_bu ns node status1 in
+ fcs1, nss1
+ in
let status2 =
eval_trans auto run.fetch_trans_cache run.bu_cache tag
summary fcs1
status1 bu_todo
in
unsafe_set run.sat node_id status2 status0;
+ if last_run then update_res true status2 node;
status2
end
in
run.pass <- run.pass + 2
- let get_results run =
- let cache = IFHTML((List.hd run.sat), run.sat) in
- let auto = run.auto in
- let tree = run.tree in
- let sel_states = Ata.get_selecting_states auto in
- let res = L.create () in
- let rec loop node =
- if node != T.nil then begin
- if StateSet.intersect sel_states cache.(T.preorder tree node) then
- L.push_back node res;
- loop (T.first_child tree node);
- loop (T.next_sibling tree node)
- end
- in
- loop (T.root tree);
- res
-
-
- let get_full_results run =
- let cache = IFHTML((List.hd run.sat), run.sat) in
- let auto = run.auto in
- let tree = run.tree in
- let res_mapper = Hashtbl.create MED_H_SIZE in
- let () =
- StateSet.iter
- (fun q -> Hashtbl.add res_mapper q [])
- (Ata.get_selecting_states auto)
- in
- let dummy = L.create () in
-
- let res_mapper = Cache.N1.create dummy in
- let () =
- StateSet.iter
- (fun q -> Cache.N1.add res_mapper (q :> int) (L.create()))
- (Ata.get_selecting_states auto)
- in
- let rec loop node =
- if node != T.nil then begin
- StateSet.iter
- (fun q ->
- let res = Cache.N1.find res_mapper (q :> int) in
- if res != dummy then L.add node res
- )
- cache.(T.preorder tree node);
- loop (T.first_child tree node);
- loop (T.next_sibling tree node)
- end
- in
- loop (T.root tree);
- (StateSet.fold_right
- (fun q acc -> (q, Cache.N1.find res_mapper (q :> int))::acc)
- (Ata.get_selecting_states auto) [])
-
+ let mk_update_result auto =
+ let sel_states = Ata.get_selecting_states auto in
+ let res = L.create () in
+ (fun prepend sat node ->
+ if StateSet.intersect sel_states sat then begin
+ if prepend then L.push_front node res else
+ L.push_back node res
+ end),
+ (fun () -> res)
+
+
+ let mk_update_full_result auto =
+ let dummy = L.create () in
+ let res_mapper = Cache.N1.create dummy in
+ let () =
+ StateSet.iter
+ (fun q -> Cache.N1.add res_mapper (q :> int) (L.create()))
+ (Ata.get_selecting_states auto)
+ in
+ (fun prepend sat node ->
+ StateSet.iter
+ (fun q ->
+ let res = Cache.N1.find res_mapper (q :> int) in
+ if res != dummy then begin
+ if prepend then L.push_front node res
+ else L.push_back node res
+ end
+ ) sat),
+ (fun () ->
+ StateSet.fold_right
+ (fun q acc -> (q, Cache.N1.find res_mapper (q :> int))::acc)
+ (Ata.get_selecting_states auto) [])
let prepare_run run list =
let tree = run.tree in
let tree_size = ref 0
let pass = ref 0
-let time f arg msg =
- let t1 = Unix.gettimeofday () in
- let r = f arg in
- let t2 = Unix.gettimeofday () in
- let time = (t2 -. t1) *. 1000. in
- Printf.eprintf "%s: %fms%!" msg time;
- r
-
-
-
- let compute_run auto tree nodes =
+ let compute_run auto tree nodes update_res =
pass := 0;
tree_size := T.size tree;
let run = make auto tree in
prepare_run run nodes;
let rank = Ata.get_max_rank auto in
while run.pass <= rank do
- time top_down run ("Timing run number " ^ string_of_int run.pass ^ "/" ^ string_of_int (Ata.get_max_rank auto + 1));
+ top_down run update_res;
IFHTML((run.sat <- (Array.copy (List.hd run.sat)) :: run.sat), ());
run.td_cache <- Cache.N6.create dummy_set;
run.bu_cache <- Cache.N6.create dummy_set;
IFHTML(Html_trace.gen_trace auto run.sat (module T : Tree.S with type t = T.t) tree ,());
run
+
+
let full_eval auto tree nodes =
- let r = compute_run auto tree nodes in
- get_full_results r
+ let update_full,get_full = mk_update_full_result auto in
+ let _ = compute_run auto tree nodes update_full in
+ get_full ()
let eval auto tree nodes =
- let r = compute_run auto tree nodes in
- let nl = get_results r in
- nl
+ let update_res,get_res = mk_update_result auto in
+ let _ = compute_run auto tree nodes update_res in
+ get_res ()
let stats () = {
tree_size = !tree_size;