1 (***********************************************************************)
5 (* Kim Nguyen, LRI UMR8623 *)
6 (* Université Paris-Sud & CNRS *)
8 (* Copyright 2010-2013 Université Paris-Sud and Centre National de la *)
9 (* Recherche Scientifique. All rights reserved. This file is *)
10 (* distributed under the terms of the GNU Lesser General Public *)
11 (* License, with the special exception on linking described in file *)
14 (***********************************************************************)
17 Time-stamp: <Last modified on 2013-03-14 11:12:24 CET by Kim Nguyen>
24 module Make (T : Tree.Sig.S) :
26 val eval : Ata.t -> T.t -> T.node -> T.node list
30 type cache = StateSet.t Cache.N1.t
31 let get c t n = Cache.N1.find c (T.preorder t n)
33 let set c t n v = Cache.N1.add c (T.preorder t n) v
36 type t = { is_left : bool;
40 kind : Tree.Common.NodeKind.t;
43 let hash a = Hashtbl.hash a
46 module NodeInfo = Hcons.Make(Info)
48 let eval_form phi node_info fcs nss ps ss =
52 begin match Ata.SFormula.expr phi with
54 | Formula.False -> false
56 let p, b, q = Ata.Atom.node a in
60 | First_child -> StateSet.mem q fcs
61 | Next_sibling -> StateSet.mem q nss
62 | Parent | Previous_sibling -> StateSet.mem q ps
63 | Stay -> StateSet.mem q ss
64 | Is_first_child -> node_info.node.is_left
65 | Is_next_sibling -> node_info.node.is_right
66 | Is k -> k == node_info.node.kind
67 | Has_first_child -> node_info.node.has_left
68 | Has_next_sibling -> node_info.node.has_right
70 if Ata.is_move p && (not b) then
71 eprintf "Warning: Invalid negative atom %a" Ata.Atom.print a;
73 | Formula.And(phi1, phi2) -> loop phi1 && loop phi2
74 | Formula.Or (phi1, phi2) -> loop phi1 || loop phi2
79 let eval_trans cache ltrs node_info fcs nss ps ss =
80 let j = (node_info.NodeInfo.id :> int)
81 and k = (fcs.StateSet.id :> int)
82 and l = (nss.StateSet.id :> int)
83 and m = (ps.StateSet.id :> int) in
84 let rec loop ltrs ss =
85 let i = (ltrs.Ata.TransList.id :> int)
86 and n = (ss.StateSet.id :> int) in
87 let (new_ltrs, new_ss) as res =
88 let res = Cache.N6.find cache i j k l m n in
89 if res == Cache.N6.dummy cache then
91 Ata.TransList.fold (fun trs (acct, accs) ->
92 let q, _, phi = Ata.Transition.node trs in
93 if StateSet.mem q accs then (acct, accs) else
94 if eval_form phi node_info fcs nss ps accs then
95 (acct, StateSet.add q accs)
97 (Ata.TransList.cons trs acct, accs)
98 ) ltrs (Ata.TransList.nil, ss)
100 Cache.N6.add cache i j k l m n res; res
104 if new_ss == ss then res else
109 let top_down_run auto tree node cache trans_cache2 trans_cache6 _i =
110 let redo = ref false in
112 if node != T.nil then begin
113 let parent = T.parent tree node in
114 let fc = T.first_child tree node in
115 let ns = T.next_sibling tree node in
116 let tag = T.tag tree node in
117 let states0 = get cache tree node in
120 Cache.N2.find trans_cache2
121 (tag.QName.id :> int) (auto.Ata.states.StateSet.id :> int)
123 if trs == Cache.N2.dummy trans_cache2 then
124 let trs = Ata.get_trans auto auto.Ata.states tag in
127 (tag.QName.id :> int)
128 (auto.Ata.states.StateSet.id :> int) trs; trs)
131 let ps = get cache tree parent in
132 let fcs = get cache tree fc in
133 let nss = get cache tree ns in
134 let node_info = NodeInfo.make
135 (Info.({ is_left = node == T.first_child tree parent;
136 is_right = node == T.next_sibling tree parent;
137 has_left = fc != T.nil;
138 has_right = ns != T.nil;
139 kind = T.kind tree node }))
141 let trans1, states1 =
142 eval_trans trans_cache6 trans0 node_info fcs nss ps states0
144 if states1 != states0 then set cache tree node states1;
146 let fcs1 = get cache tree fc in
147 let trans2, states2 =
148 eval_trans trans_cache6 trans1 node_info fcs1 nss ps states1
150 if states2 != states1 then set cache tree node states2;
153 eval_trans trans_cache6 trans2 node_info fcs1 (get cache tree ns) ps states2
155 if states3 != states2 then set cache tree node states3;
156 if states0 != states3 && (not !redo) then redo := true
162 let get_results auto tree node cache =
163 let rec loop node acc =
164 if node == T.nil then acc
166 let acc0 = loop (T.next_sibling tree node) acc in
167 let acc1 = loop (T.first_child tree node) acc0 in
169 if StateSet.intersect (get cache tree node) auto.Ata.selection_states then
176 let eval auto tree node =
177 let cache = Cache.N1.create (T.size tree) StateSet.empty in
178 let redo = ref true in
180 let dummy2 = Ata.TransList.cons
181 (Ata.Transition.make (State.dummy,QNameSet.empty, Ata.SFormula.false_))
184 let dummy6 = (dummy2, StateSet.empty) in
185 let trans_cache6 = Cache.N6.create 17 dummy6 in
186 let trans_cache2 = Cache.N2.create 17 dummy2 in
187 let () = at_exit (fun () ->
188 let num_phi = ref 0 in
189 let num_trans = ref 0 in
190 Cache.N6.iteri (fun _ _ _ _ _ _ _ b -> if not b then incr num_phi) trans_cache6;
191 Cache.N2.iteri (fun _ _ _ b -> if not b then incr num_trans) trans_cache2;
192 Format.eprintf "PROFILE:materialized %i transitions and %i configurations\n@." !num_trans !num_phi
196 redo := top_down_run auto tree node cache trans_cache2 trans_cache6 !iter;
199 get_results auto tree node cache