X-Git-Url: http://git.nguyen.vg/gitweb/?a=blobdiff_plain;f=src%2Fruntime.ml;fp=src%2Fruntime.ml;h=782293f442064e2d1608c214412e770f1c2ef20f;hb=071e25c710e9a48116f66ddf51bfdca25e20502b;hp=98369523fd3d00deaecd2db18eb945341222d9fd;hpb=791c8ffadb7e65fc61d18e6ad8e497f1cfe46fb3;p=SXSI%2Fxpathcomp.git diff --git a/src/runtime.ml b/src/runtime.ml index 9836952..782293f 100644 --- a/src/runtime.ml +++ b/src/runtime.ml @@ -8,7 +8,7 @@ module type S = sig 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 + val grammar_run : Ata.t -> Grammar2.t -> unit -> result_set end @@ -425,6 +425,7 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( (* Grammar run *) + external is_young : 'a array -> bool = "caml_custom_is_young" "noalloc" external blit : 'a array -> int -> 'a array -> int -> int -> unit = "caml_custom_array_blit" module M = Map.Make(struct type t = Grammar.n_symbol let compare = compare end) @@ -446,9 +447,7 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( let grammar_run auto g () = - let start_symbol = Node.of_int 0 in - let dummy_leaf = Grammar.Leaf (Node.nil) in - let nil_symbol = Grammar.nil_symbol g in + let dummy_leaf = Grammar2.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 @@ -491,65 +490,63 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( 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 - if symbol == nil_symbol then nil_res else - let tag = Grammar.tag symbol in + let symbol = Grammar2.start_tag g idx in + if Grammar2.is_terminal g symbol then + let symbol = Grammar2.terminal symbol in + if symbol == Grammar2.nil_symbol then nil_res else + let tag = Grammar2.tag symbol in let lst, rst, trans = get_trans tag states in - let fs = Grammar.start_first_child g idx in + let fs = Grammar2.start_first_child g idx in let s1, slot1 = start_loop fs lst in - let s2, slot2 = start_loop (Grammar.start_next_sibling g fs) rst in + let s2, slot2 = start_loop (Grammar2.start_next_sibling g 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 nt = Grammar.non_terminal symbol in - let nparam = Grammar.num_params nt in - let child = ref (Grammar.first_child g start_symbol idx) in + let nt = Grammar2.non_terminal symbol in + let rhs = Grammar2.get_rule g nt in + let nparam = Grammar2.get_rank rhs in + let child = ref (Grammar2.start_first_child g idx) in for i = 0 to nparam - 1 do let c = !child in - parameters.(i) <- Grammar.Leaf c; - child := Grammar.next_sibling g start_symbol c; + parameters.(i) <- Grammar2.Leaf c; + child := Grammar2.start_next_sibling g c; done; rule_loop nt states parameters end - and rule_loop (t : Grammar.n_symbol) states a_param = + and rule_loop (t : Grammar2.n_symbol) states a_param = incr rule_counter; -(* log_symbol (t); *) if !rule_counter land (4095) == 0 then begin Gc.minor() end; - let id1 = Grammar.get_id1 g t in - let id2 = Grammar.get_id2 g t in - let param_pos = Grammar.get_param_pos t in - let nparam1 = Grammar.num_children id1 in - let nparam2 = - if Grammar.is_terminal id2 && nil_symbol == (Grammar.terminal id2) then 0 - else Grammar.num_children id2 - in + let rhs = Grammar2.get_rule g t in + let id1 = Grammar2.get_id1 rhs in + let id2 = Grammar2.get_id2 rhs in + let param_pos = Grammar2.get_id2_pos rhs in + let nparam1 = Grammar2.get_id1_rank rhs in + let nparam2 = Grammar2.get_id2_rank rhs in let a_param2 = if nparam2 == 0 then [||] else Array.create nparam2 dummy_leaf in let i = param_pos - 2 in let ip1 = i + 1 in let offset2d = i+2 in let offset2s = i+nparam2 + 1 in blit a_param 0 parameters_tmp 0 (i+1); - parameters_tmp.(ip1) <- Grammar.Node(id2, a_param2); (* id2( ... ) *) + parameters_tmp.(ip1) <- Grammar2.Node(id2, a_param2); (* id2( ... ) *) blit a_param offset2s parameters_tmp offset2d (nparam1 - i - 2); blit a_param ip1 a_param2 0 nparam2; blit parameters_tmp 0 parameters 0 nparam1; - if Grammar.is_non_terminal id1 then - let id1 = Grammar.non_terminal id1 in + if Grammar2.is_non_terminal g id1 then + let id1 = Grammar2.non_terminal id1 in rule_loop id1 states parameters else - let id1 = Grammar.terminal id1 in + let id1 = Grammar2.terminal id1 in terminal_loop id1 states parameters - and terminal_loop (symbol : Grammar.t_symbol) states a_param = - if symbol == nil_symbol then nil_res else begin + and terminal_loop (symbol : Grammar2.t_symbol) states a_param = + if symbol == Grammar2.nil_symbol then nil_res else begin (* todo factor in from start_loop *) - let tag = Grammar.tag symbol in + let tag = Grammar2.tag symbol in let lst, rst, trans = get_trans tag states in let next = a_param.(1) in let s1, slot1 = partial_loop a_param.(0) lst in @@ -560,19 +557,17 @@ DEFINE LOOP_TAG (t, states, tag, ctx) = ( 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) -> - let is_term = Grammar.is_terminal id in + | Grammar2.Leaf id -> start_loop id states + | Grammar2.Node (id, a_param) -> + let is_term = Grammar2.is_terminal g id in if is_term then - terminal_loop (Grammar.terminal id) states a_param + terminal_loop (Grammar2.terminal id) states a_param else - rule_loop (Grammar.non_terminal id) states a_param + rule_loop (Grammar2.non_terminal id) states a_param in let _, slot = start_loop (Node.null) auto.init in