X-Git-Url: http://git.nguyen.vg/gitweb/?a=blobdiff_plain;f=src%2Fruntime.ml;fp=src%2Fruntime.ml;h=a02f7a8a8bf1cf37a8bd567fa12174a8f090360c;hb=cf52ba2084fe3d15f08d0b84e91ccb17261a0001;hp=82803082360f5369f9cd0b3802a886c3f20201d2;hpb=a6c781462ddca7c25fe95789c81c2265f153203c;p=SXSI%2Fxpathcomp.git diff --git a/src/runtime.ml b/src/runtime.ml index 8280308..a02f7a8 100644 --- a/src/runtime.ml +++ b/src/runtime.ml @@ -68,15 +68,22 @@ module Make (U : ResJIT.S) : S with type result_set = U.NS.t = let dummy _ _ _ _ _ = failwith "Uninitialized L3JIT" - let create () = Cache.Lvl3.create 1024 dummy + + let show_stats a = + let count = ref 0 in + Cache.Lvl3.iteri (fun _ _ _ _ b -> if not b then incr count) a; + eprintf "%!L3JIT: %i used entries\n%!" !count + let create () = + let v = Cache.Lvl3.create 1024 dummy in + if !Options.verbose then at_exit (fun () -> show_stats v); + v + let find t tlist s1 s2 = Cache.Lvl3.find t (Uid.to_int s2.StateSet.Node.id) (Uid.to_int s1.StateSet.Node.id) (Uid.to_int tlist.Translist.Node.id) - - let add t tlist s1 s2 v = Cache.Lvl3.add t (Uid.to_int s2.StateSet.Node.id) @@ -164,7 +171,7 @@ module Make (U : ResJIT.S) : S with type result_set = U.NS.t = end DEFINE LOOP (t, states, ctx) = ( - let _t = (t) in + 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) @@ -191,13 +198,22 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( l2jit_dispatch _t (tag) (states) (ctx) (L2JIT.find cache2 (tag) (states))) +DEFINE LOOP(t, states, ctx) = loop (t) (states) (ctx) +DEFINE LOOP_TAG(t, states, tag, ctx) = loop_tag (t) (states) (ctx) (tag) let top_down_run auto tree root states ctx = 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 cache3 = L3JIT.create () in - + let mark_subtree = + fun s subtree -> if subtree != U.NS.empty then + let r = Array.copy empty_slot in + r.(auto.last) <- subtree; + s,r + else + s,empty_slot + in let l3jit_dispatch trl s1 s2 t sl1 sl2 = let f = L3JIT.find cache3 trl s1 s2 in if f == L3JIT.dummy then (L3JIT.cache_apply cache3 auto trl s1 s2) empty_slot sl1 sl2 tree t @@ -206,8 +222,18 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( in let cache2 = L2JIT.create () in - - let rec l2jit_dispatch t tag states ctx opcode = + let rec loop t states ctx = + if t == Tree.nil then nil_res + else + let tag = Tree.tag tree t in + l2jit_dispatch + t tag (states) (ctx) (L2JIT.find cache2 tag (states)) + and loop_tag t states ctx tag = + if t == Tree.nil then nil_res + else + l2jit_dispatch + t (tag) (states) (ctx) (L2JIT.find cache2 (tag) (states)) + and l2jit_dispatch t tag states ctx opcode = match opcode with | L2JIT.RETURN -> nil_res | L2JIT.CACHE -> @@ -216,22 +242,26 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( | L2JIT.LEFT (tr_list, instr) -> let res1, slot1 = - l2jit_dispatch_instr t tag states (Tree.closing tree t) instr + l2jit_dispatch_instr t (Tree.closing tree t) instr in l3jit_dispatch tr_list res1 auto.bottom_states t slot1 empty_slot | L2JIT.RIGHT (tr_list, instr) -> - let res2, slot2 = l2jit_dispatch_instr t tag states ctx instr in - l3jit_dispatch tr_list auto.bottom_states res2 t empty_slot slot2 + let res2, slot2 = + l2jit_dispatch_instr t ctx instr + in + l3jit_dispatch tr_list auto.bottom_states res2 t empty_slot slot2 | L2JIT.BOTH (tr_list, instr1, instr2) -> let res1, slot1 = - l2jit_dispatch_instr t tag states (Tree.closing tree t) instr1 + l2jit_dispatch_instr t (Tree.closing tree t) instr1 + in + let res2, slot2 = + l2jit_dispatch_instr t ctx instr2 in - let res2, slot2 = l2jit_dispatch_instr t tag states ctx instr2 in l3jit_dispatch tr_list res1 res2 t slot1 slot2 - and l2jit_dispatch_instr t tag states ctx instr = + and l2jit_dispatch_instr t ctx instr = match instr with | L2JIT.FIRST_CHILD s -> LOOP ((Tree.first_child tree t), s, ctx) | L2JIT.NEXT_SIBLING s -> LOOP ((Tree.next_sibling tree t), s, ctx) @@ -240,49 +270,34 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( | L2JIT.NEXT_ELEMENT s -> LOOP ((Tree.next_element tree t), s, ctx) | L2JIT.TAGGED_DESCENDANT (s, tag) -> - LOOP_TAG ((Tree.tagged_descendant tree t tag), s, tag, ctx) + LOOP_TAG ((Tree.tagged_descendant tree t tag), s, tag, ctx) | L2JIT.TAGGED_FOLLOWING (s, tag) -> - LOOP_TAG((Tree.tagged_following_before tree t tag ctx), s, tag, ctx) + LOOP_TAG((Tree.tagged_following_before tree t tag ctx), s, tag, ctx) | L2JIT.SELECT_DESCENDANT (s, _, us) -> - LOOP((Tree.select_descendant tree t us), s, ctx) + LOOP((Tree.select_descendant tree t us), s, ctx) | L2JIT.SELECT_FOLLOWING (s, pt, us) -> - LOOP ((Tree.select_following_before tree t us ctx), s, ctx) + LOOP ((Tree.select_following_before tree t us ctx), s, ctx) | L2JIT.TAGGED_CHILD (s, tag) -> - LOOP_TAG((Tree.tagged_child tree t tag), s, tag, ctx) + LOOP_TAG((Tree.tagged_child tree t tag), s, tag, ctx) | L2JIT.TAGGED_FOLLOWING_SIBLING (s, tag) -> - LOOP_TAG((Tree.tagged_following_sibling tree t tag), s, tag, ctx) + LOOP_TAG((Tree.tagged_following_sibling tree t tag), s, tag, ctx) | L2JIT.SELECT_CHILD (s, _, us) -> - LOOP ((Tree.select_child tree t us), s, ctx) + LOOP ((Tree.select_child tree t us), s, ctx) | L2JIT.SELECT_FOLLOWING_SIBLING (s, _, us) -> - LOOP ((Tree.select_following_sibling tree t us), s, ctx) + LOOP ((Tree.select_following_sibling tree t us), s, ctx) | L2JIT.TAGGED_SUBTREE(s, tag) -> - - let count = U.NS.subtree_tags tree t tag in - if count != U.NS.empty then - let r = Array.copy empty_slot in - r.(auto.last) <- count; - s,r - else - s,empty_slot + mark_subtree s (U.NS.subtree_tags tree t tag) | L2JIT.ELEMENT_SUBTREE(s) -> - - let count = U.NS.subtree_elements tree t in - if count != U.NS.empty then - let r = Array.copy empty_slot in - r.(auto.last) <- count; - s,r - else - s,empty_slot - + mark_subtree s (U.NS.subtree_elements tree t) in let r = LOOP (root, states, ctx) in (*L3JIT.stats err_formatter cache3; *) @@ -316,9 +331,14 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( let eval_trans auto tree parent res1 res2 = assert false + let rec uniq = function + | ([] | [ _ ]) as l -> l + | e1 :: ((e2 :: ll) as l) -> if e1 == e2 then uniq l + else e1 :: e2 :: (uniq ll);; let bottom_up_run auto tree (query, pat) = - let leaves = Array.to_list (Tree.full_text_query query tree pat) in + let array = time ~msg:"Timing text query" (Tree.full_text_query query tree) pat in + let leaves = Array.to_list array in let states = auto.states in let res_len = (StateSet.max_elt states) + 1 in let empty_slot = Array.create res_len U.NS.empty in @@ -329,7 +349,10 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( [] -> acc | node :: ll -> let res, lll = bottom_up_next node ll Tree.nil in - if (lll <> []) then Printf.eprintf "Leftover elements\n%!"; + if (lll <> []) then + begin + eprintf "Leftover nodes: %i\n" (List.length lll); + end; res and bottom_up_next node rest stop = @@ -525,19 +548,19 @@ let dispatch_param1 conf id2 y0 y1 = if t = Node.nil || states == dummy_set then nil_res else let () = incr rule_counter in if !rule_counter land 65535 == 0 then begin Gc.minor() end; - let k = (t, states) in - let pstates = DCache.find dcache k in - let notfound = DCache.notfound pstates in +(* let k = (t, states) in*) +(* let pstates = DCache.find dcache k in + let notfound = DCache.notfound pstates in *) let rhs = Grammar2.get_rule g t in let id1 = Grammar2.get_id1 rhs in let id2 = Grammar2.get_id2 rhs in let conf = Grammar2.get_conf rhs in - if notfound then +(* if notfound then*) let ny0 = dispatch_param0 conf id2 y0 y1 in let ny1 = dispatch_param1 conf id2 y0 y1 in let res = dispatch_loop id1 states ny0 ny1 in - pstates.(0) <- res.in0; - pstates.(1) <- res.in1; +(* pstates.(0) <- res.in0; + pstates.(1) <- res.in1; *) res (* UCache.add ucache (t, states, fst res.out0, fst res.out1) res.main; @@ -549,7 +572,7 @@ let dispatch_param1 conf id2 y0 y1 = { res with main = ((fst res.main), (U.close h (snd res.main))); } *) - +(* else let res0 = partial_loop y0 pstates.(0) in let res1 = partial_loop y1 pstates.(1) in @@ -577,7 +600,7 @@ let dispatch_param1 conf id2 y0 y1 = out1 = res1.main; main = s, U.close h r; } - +*) and dispatch_loop id1 states ny0 ny1 = if Grammar2.is_non_terminal g id1 then rule_loop (Grammar2.non_terminal id1) states ny0 ny1