INCLUDE "debug.ml"
+INCLUDE "trace.ml"
INCLUDE "utils.ml"
open Format
type result_set
val top_down_run : Ata.t -> Tree.t -> Tree.node -> result_set
val bottom_up_run : Ata.t -> Tree.t -> Compile.text_query * string -> result_set
+ val grammar_run : Ata.t -> Grammar.t -> unit -> result_set
+
end
module Make (U : ResJIT.S) : S with type result_set = U.NS.t =
| Formula.Atom (`Right, b, q) ->
Formula.of_bool(b == (StateSet.mem q s2)),
if b && StateSet.mem q auto.topdown_marking_states then [ResJIT.RIGHT q] else []
+ | Formula.Atom (`Epsilon, _, _) -> assert false
| Formula.Or(f1, f2) ->
let b1, i1 = loop f1 in
in
let lvl3 = Array.fold_left
(fun acc a ->
- Array.fold_left (fun acc2 a2 ->
- Array.fold_left
- (fun acc3 a3 -> if a3 == dummy then acc3 else acc3+1) acc2 a2)
- acc a) 0 d
- in
+ Array.fold_left (fun acc2 a2 ->
+ Array.fold_left
+ (fun acc3 a3 -> if a3 != dummy then acc3+1 else acc3)
+ acc2 a2)
+ acc a) 0 d
+ in
fprintf fmt "L3JIT Statistics:
\t%i entries
\t%i used L1 lines
Translist.fold (fun t (a1, a2) ->
let _, _, _, f = Transition.node t in
let (_, _, fs1), (_, _, fs2) = Formula.st f in
- (StateSet.union s1 fs1, StateSet.union s2 fs2)
+ (StateSet.union a1 fs1, StateSet.union a2 fs2)
) trl (StateSet.empty, StateSet.empty)
in
let ns1 = StateSet.inter s1 orig_s1
and ns2 = StateSet.inter s2 orig_s2 in
- let res, ops, todo = eval_trans auto ns1 ns2 trl in
+ let res, ops, todo = eval_trans auto s1 s2 trl in
let code, not_marking = ResJIT.compile ops in
let todo_code, todo_notmarking =
List.fold_left (fun (l, b) (p, q, o) -> let c, b' = ResJIT.compile o in
let cache_apply cache auto tlist s1 s2 =
let f = gen_code auto tlist s1 s2 in
+ TRACE("grammar", 2, __ "Inserting: %i, %a, %a\n%!"
+ (Uid.to_int tlist.Translist.Node.id) StateSet.print s1 StateSet.print s2);
add cache tlist s1 s2 f; f
end
DEFINE LOOP (t, states, ctx) = (
let _t = (t) in
+ TRACE("top-down-run", 3,
+ __ "Entering node %i with loop (tag %s, context %i) with states %a\n%!"
+ (Node.to_int _t)
+ (Tag.to_string (Tree.tag tree _t))
+ (Node.to_int (ctx))
+ (StateSet.print) (states));
if _t == Tree.nil then nil_res
else
let tag = Tree.tag tree _t in
DEFINE LOOP_TAG (t, states, tag, ctx) = (
let _t = (t) in (* to avoid duplicating expression t *)
+ TRACE("top-down-run", 3,
+ __ "Entering node %i with loop_tag (tag %s, context %i) with states %a\n%!"
+ (Node.to_int _t)
+ (Tag.to_string (tag))
+ (Node.to_int (ctx))
+ (StateSet.print) (states));
if _t == Tree.nil then nil_res
else
l2jit_dispatch
| L2JIT.NOP () -> nil_res
| L2JIT.FIRST_CHILD s -> LOOP ((Tree.first_child tree t), s, ctx)
| L2JIT.NEXT_SIBLING s -> LOOP ((Tree.next_sibling tree t), s, ctx)
+(* | L2JIT.NEXT_SIBLING s -> LOOP ((Tree.next_node_before tree t ctx), s, ctx) *)
| L2JIT.FIRST_ELEMENT s -> LOOP ((Tree.first_element tree t), s, ctx)
| L2JIT.NEXT_ELEMENT s -> LOOP ((Tree.next_element tree t), s, ctx)
+(* | L2JIT.NEXT_ELEMENT s -> LOOP ((Tree.next_node_before tree t ctx), s, ctx) *)
| L2JIT.TAGGED_DESCENDANT (s, tag) ->
LOOP_TAG ((Tree.tagged_descendant tree t tag), s, tag, ctx)
s,empty_slot
in
- LOOP (root, states, ctx)
+ let r = LOOP (root, states, ctx) in
+ (*L3JIT.stats err_formatter cache3; *)
+ r
let full_top_down_run auto states tree root =
(*Ata.init (); *)
let top_down_run auto tree root =
(*Ata.init (); *)
let res, slot = full_top_down_run auto auto.init tree root in
+
slot.(StateSet.min_elt auto.topdown_marking_states)
slot.(StateSet.min_elt auto.topdown_marking_states)
+(* Grammar run *)
+ module ArrayPool =
+ struct
+ let pool = Queue.create ()
+ let create dummy =
+ if Queue.is_empty pool then
+ Array.create 16 dummy
+ else
+ Queue.take pool
+ let create dummy = Array.create 16 dummy
+ let free p = Queue.add p pool
+ end
+
+
+ let grammar_run auto g () =
+
+ let start_symbol = (Node.of_int 0) in
+ let dummy_leaf = Grammar.Leaf (Node.nil) in
+
+ let res_len = (StateSet.max_elt auto.states) + 1 in
+ let empty_slot = Array.create res_len U.NS.empty in
+ let nil_res = auto.bottom_states, empty_slot in
+ let empty_res = StateSet.empty, empty_slot in
+ let cache3 = L3JIT.create () in
+ let dummy2 = (StateSet.empty, StateSet.empty, Translist.nil) in
+ let cache2 = Cache.Lvl2.create 512 dummy2 in
+ let tmp1 = Array.create 16 dummy_leaf in
+ let tmp2 = Array.create 16 dummy_leaf in
+ let get_trans tag states =
+ let c = Cache.Lvl2.find cache2 tag (Uid.to_int states.StateSet.Node.id) in
+ if c == dummy2 then
+ let c =
+ StateSet.fold (fun q tr_acc ->
+ List.fold_left
+ (fun ((lstates, rstates, tacc) as acc) (ts, trs) ->
+ if TagSet.mem (Tag.translate tag) ts then
+ let _, _, _, phi = Transition.node trs in
+ let (_,_,l),(_,_,r) = Formula.st phi in
+ (StateSet.union l lstates,
+ StateSet.union r rstates,
+ Translist.cons trs tacc)
+ else acc)
+ tr_acc (Hashtbl.find auto.trans q)
+ ) states (StateSet.empty, StateSet.empty, Translist.nil)
+ in
+ begin
+ Cache.Lvl2.add cache2 tag (Uid.to_int states.StateSet.Node.id) c;
+ c
+ end
+ else c
+ in
+ let rec start_loop idx states =
+ TRACE("grammar", 2, __ "Node %i\n%!" (Node.to_int idx));
+ if idx < Node.null then nil_res
+ else if StateSet.is_empty states then empty_res
+ else begin
+ let symbol = Grammar.get_symbol_at g start_symbol idx in
+ if Grammar.is_terminal symbol then
+ let symbol = Grammar.terminal symbol in
+ let tag = Grammar.tag symbol in
+ let lst, rst, trans = get_trans tag states in
+ let fs = Grammar.first_child g start_symbol idx in
+ let s1, slot1 = start_loop fs lst in
+ let s2, slot2 = start_loop (Grammar.next_sibling g start_symbol fs) rst in
+ let opcode = L3JIT.find cache3 trans s1 s2 in
+ if opcode == L3JIT.dummy then (L3JIT.cache_apply cache3 auto trans s1 s2) empty_slot slot1 slot2 (Obj.magic ()) (Obj.magic ())
+ else opcode empty_slot slot1 slot2 (Obj.magic ()) (Obj.magic())
+ else
+ let tn = Grammar.non_terminal symbol in
+ let nparam = Grammar.num_params tn in
+ let a_param = tmp1 (*ArrayPool.create dummy_leaf*) in
+ let child = ref (Grammar.first_child g start_symbol idx) in
+ for i = 0 to nparam - 1 do
+ let c = !child in
+ a_param.(i) <- Grammar.Leaf c;
+ child := Grammar.next_sibling g start_symbol c;
+ done;
+ (*let a_param = Array.init nparam
+ (fun _ -> let c = !child in
+ child := Grammar.next_sibling g start_symbol c;
+ Grammar.Leaf c)
+ in *)
+ rule_loop tn a_param states
+
+ end
+ and counter = ref 0
+ and rule_loop (t : Grammar.n_symbol) a_param states =
+
+ incr counter;
+ if !counter land 8191 == 0 then Gc.minor();
+
+ let id1 = Grammar.get_id1 g t in
+ let id2 = Grammar.get_id2 g t in
+ let param_pos = Grammar.get_param_pos g t in
+ let nparam1 = Grammar.num_children id1 in
+ let nparam2 =
+ if Grammar.is_terminal id2 && Grammar.is_nil g (Grammar.terminal id2) then 0
+ else Grammar.num_children id2
+ in
+ let a_param1 = (*ArrayPool.create dummy_leaf*) tmp2 (* Array.create nparam1 dummy_leaf *) in
+ let a_param2 = Array.create nparam2 dummy_leaf (* Array.create nparam2 dummy_leaf *) in
+ let i = param_pos - 2 in
+ (*Array.blit a_param 0 a_param1 0 (i+1); (* Pass parameters before id2 *) *)
+ (* Array.blit is too slow *)
+ for k = 0 to i do
+ a_param1.(k) <- a_param.(k);
+ done;
+ a_param1.(i+1) <- Grammar.Node(id2, a_param2); (* id2( ... ) *)
+ (*Array.blit a_param (i + nparam2 + 1) a_param1 (i+2) (nparam1 - i - 2); (* Pass parameters after id2 *) *)
+ for k = 0 to nparam1 - i -3 do
+ a_param1.(i+2+k) <- a_param.(i + nparam2 + 1 + k);
+ done;
+ (*Array.blit a_param (i + 1) a_param2 0 nparam2; (* parameters below id2 *) *)
+ for k = 0 to nparam2 - 1 do
+ a_param2.(k) <- a_param.(i+1+k)
+ done;
+ for i = 0 to nparam1 do
+ a_param.(i) <- a_param1.(i)
+ done;
+ if Grammar.is_non_terminal id1 then
+ let id1 = Grammar.non_terminal id1 in
+ rule_loop id1 a_param states
+ else
+ let id1 = Grammar.terminal id1 in
+ terminal_loop id1 a_param states
+
+ and terminal_loop (symbol : Grammar.t_symbol) a_param states =
+ if Grammar.is_nil g symbol then nil_res else begin
+ (* todo factor in from start_loop *)
+ let tag = Grammar.tag symbol in
+ let lst, rst, trans = get_trans tag states in
+ let s1, slot1 = partial_loop a_param.(0) lst in
+ let s2, slot2 = partial_loop a_param.(1) rst in
+ let opcode = L3JIT.find cache3 trans s1 s2 in
+ if opcode == L3JIT.dummy then (L3JIT.cache_apply cache3 auto trans s1 s2) empty_slot slot1 slot2 (Obj.magic ()) (Obj.magic ())
+ else
+ opcode empty_slot slot1 slot2 (Obj.magic()) (Obj.magic())
+
+ (* End: TODO refactor *)
+
+ end
+
+ and partial_loop l states =
+ match l with
+ | Grammar.Leaf id -> start_loop id states
+ | Grammar.Node (id, a_param) ->
+ if Grammar.is_terminal id then terminal_loop (Grammar.terminal id) a_param states
+ else rule_loop (Grammar.non_terminal id) a_param states
+ in
+ (*L3JIT.stats err_formatter cache3; *)
+ let _, slot = start_loop (Node.null) auto.init in
+ slot.(StateSet.min_elt auto.topdown_marking_states)
+ ;;
+
+
+
+
+
+
+
end