+++ /dev/null
-INCLUDE "utils.ml"
-
-open Format
-module M = Map.Make(struct type t = int let compare = compare end)
-
-type info = { sat : StateSet.t;
- todo : StateSet.t;
- msg : string;
- }
-let info = Hashtbl.create 2017
-let final = Hashtbl.create 2017
-
-let max_round = ref 0
-
-
-let buff = Buffer.create 20
-let fmt = formatter_of_buffer buff
-
-
-let trace ?(msg="") nid r t d =
- if r > !max_round then max_round := r;
- let m = try Hashtbl.find info nid with Not_found -> M.empty in
- let () = pp_print_flush fmt () in
- let _ = fprintf fmt
- "node: %i<br/>%s<br/>todo: %a<br/>sat: %a<br/>_______________________<br/>"
- nid msg StateSet.print t StateSet.print d
- in
- let () = pp_print_flush fmt () in
- let msg = Buffer.contents buff in
- let () = Buffer.clear buff in
- let old_inf = try M.find r m with Not_found -> [] in
- let m' = M.add r ({ sat = d; todo = t; msg = msg }::old_inf) m in
- Hashtbl.replace info nid m'
-
-let finalize_node n r b =
- Hashtbl.replace final n (b,r)
-module K =
-struct
- type t = StateSet.t list
- let hash l =
- List.fold_left (fun acc set ->
- HASHINT2(acc, (set.StateSet.id :> int))) 17 l
-
- let equal l1 l2 =
- try
- List.for_all2 (==) l1 l2
- with _ -> false
-end
-
-module CTable = Hashtbl.Make (K)
-
-let ctable = CTable.create 20
-
-let rgb x =
- let h = K.hash x in
- let r = h land 0xff
- and g = (h lsr 8) land 0xff
- and b = (h lsr 16) land 0xff
- in
- r, g, b
-
-let color x =
- try
- CTable.find ctable x
- with
- Not_found ->
- let r,g,b = rgb x in
- let s = "rgb(" ^ (string_of_int r) ^ ","
- ^ (string_of_int g) ^ ","
- ^ (string_of_int b) ^ ")"
- in
- CTable.add ctable x s;
- s
-
-let text_color x =
- let r,g,b = rgb x in
- let av = (r + g + b) / 3 in
- if av > 128 then "rgb(0,0,0)"
- else "rgb(255,255,255)"
-
-let get_conf sel l i =
- List.fold_left (fun (accb,accl) a ->
- accb || StateSet.intersect a.(i) sel,
- a.(i) :: accl) (false,[]) l
-
-let gen_trace (type s) = fun auto sat_arrays t tree ->
- let module T = (val (t) : Tree.S with type t = s) in
- let root = T.root tree in
- let sel = Ata.get_selecting_states auto in
- let rec loop output node parent x y =
- if node != T.nil then begin
- let node_id = T.preorder tree node in
- let marked, conf = get_conf sel sat_arrays node_id in
- let scolor, tcolor = color conf, text_color conf in
- let tag = QName.to_string (T.tag tree node) in
- let lbox = (String.length tag + 2) * 10 in
- let s_node = "node" ^ (string_of_int node_id) in
- fprintf output
- "<rect id=\"%s\" onclick=\"activate(\'%s\');\" x=\"%i\" y=\"%i\"\
- width=\"%i\" height=\"20\" style=\"fill:%s;stroke:rgb(0,0,0)%s\"/>\n%!"
- s_node
- s_node
- x y
- lbox
- scolor
- (if marked
- then ";stroke-width:4"
- else ";stroke-width:2;stroke-dasharray:2,2");
- fprintf output "<text x=\"%i\" y=\"%i\" style=\"fill:%s;font-size:17;\
-font-family:typewriter;\" onclick=\"activate(\'%s\');\" >%s</text>\n"
- (x+10)
- (y+15)
- tcolor s_node tag;
- let first = T.first_child tree node in
- let maxw1, maxy1 = loop output first node x (y + 40) in
- let next = T.next_sibling tree node in
- let x_next = max (x+lbox) (maxw1+10) in
- if node != root then begin
- if node == T.first_child tree parent then
- fprintf output "<line x1=\"%i\" y1=\"%i\" x2=\"%i\" y2=\"%i\"\
-style=\"stroke:rgb(0,0,0);stroke-width:2\"/>\n"
- (x + lbox / 2) (y-20) (x + lbox / 2) (y);
- if next != T.nil then
- fprintf output "<line x1=\"%i\" y1=\"%i\" x2=\"%i\" y2=\"%i\"\
-style=\"stroke:rgb(0,0,0);stroke-width:2\"/>\n"
- (x + lbox) (y+10) x_next (y+10);
- end;
- let maxw2, maxy2 = loop output next node x_next y in
- maxw2, max maxy1 maxy2
- end
- else x, y
- in
- ignore (Sys.command "mkdir -p tests/trace");
- let ohtml_ = open_out "tests/trace/trace.html" in
- let ohtml = formatter_of_out_channel ohtml_ in
- fprintf ohtml "<html>\
-<head><title></title>
-<meta http-equiv='content-type' content='text/html;charset=utf-8'/>\
-<style>\
-div#data {\
- position: absolute;\
- top: 0%%;\
- left: 50%%;\
- width: 50%%;\
- height: 50%%;\
- overflow: auto;\
-}\
-div#svg {\
- position: absolute;\
- top: 50%%;\
- left: 0%%;\
- width: 100%%;\
- height: 50%%;\
- overflow: auto;\
-}\
-\
-div#automata {\
- white-space: pre;\
- overflow: auto;\
- position: absolute;\
- width: 50%%;\
- top: 0%%;\
- left: 0%%;\
- height: 50%%;\
-}\
-</style>\
-</head>\
-<body>\
-<div id='automata' >%a
-</div>
-<div id='data' > </div>\n\
-<script type='text/javascript'>\n\
-var data = new Array();\n\
-var rounds = %i;\n"
- Ata.print auto
- (List.length sat_arrays);
- List.iteri (fun i a ->
- fprintf ohtml "data[%i] = new Array();\n" i;
- Array.iteri (fun id set ->
- fprintf ohtml "data[%i]['node%i'] = \"%a\";\n"
- i id StateSet.print set) a) (List.rev sat_arrays);
- fprintf ohtml "var activate = function (id) {\
- var d = document.getElementById('data');
- var msg = '';
- for (i=0; i < rounds; i++)
- msg += ('<p>round: ' + i + ':<br/>') + data[i][id] + '</p>\\n';
- d.innerHTML = msg;
- return;
- };\n";
- fprintf ohtml "</script>\n<div id='svg'><svg id='svgimg' width='' height='' xmlns=\"http://www.w3.org/2000/svg\" version=\"1.1\">\n";
- let maxw, maxh = loop ohtml (T.root tree) T.nil 50 50 in
- fprintf ohtml "</svg>\n<script type=\"text/javascript\">window.onload = function () {\
- var svg = document.getElementById('svgimg');
- svg.setAttribute('width', %i);
- svg.setAttribute('height', %i);
-};\
-</script>\
-</div></body></html>\n%!"
- maxw maxh;
- pp_print_flush ohtml ();
- close_out ohtml_