(* *)
(***********************************************************************)
-(*
- Time-stamp: <Last modified on 2013-03-13 21:29:17 CET by Kim Nguyen>
-*)
+open Format
-let doc =
- let fd = open_in Sys.argv.(1) in
- let d = Tree.Naive.load_xml_file fd in
- close_in fd; d
+let time f arg msg =
+ let t1 = Unix.gettimeofday () in
+ let r = f arg in
+ let t2 = Unix.gettimeofday () in
+ let time = (t2 -. t1) *. 1000. in
+ Logger.msg `STATS "%s: %fms" msg time;
+ r
-let query =
- let arg2 = Sys.argv.(2) in
- Xpath.Parser.parse (Ulexing.from_latin1_string arg2)
+let compose_parallel run auto_list tree nodes () =
+ match auto_list with
+ [ auto ] -> [run auto tree nodes]
+ | _ -> assert false
-let auto =
- Xpath.Compile.path query
+let compose_sequential run auto_list tree nodes () =
+ [ List.fold_left (fun acc auto ->
+ run auto tree acc) nodes auto_list ]
+
+
+let restart_parallel run auto_list tree nodes () =
+ match auto_list with
+ [ auto ] -> List.map snd (run auto tree nodes)
+ | _ -> assert false
+
+let restart_sequential run auto_list tree nodes () =
+ List.map (fun auto -> run auto tree nodes) auto_list
+
+let main () =
+ let () = Options.parse () in
+ let doc =
+ let fd, close_fd = match !Options.input_file with
+ None | Some "-" | Some "/dev/stdin" -> stdin, ignore
+ | Some input ->
+ let fd = open_in input in fd, fun () -> close_in fd
+ in
+ let d = time Naive_tree.load_xml_file fd "parsing xml document" in
+ close_fd (); d
+ in
+ let queries =
+ time
+ (fun l ->
+ List.map (fun q ->
+ Xpath.Parser.parse
+ (Ulexing.from_utf8_string q)) l)
+ !Options.queries
+ "parsing XPath queries"
+ in
+ (* parallel, compose -> action
+ true, true -> Ata.concat of all automata and single run
+ true, false -> Ata.merge of all automata and single run
+ false, true -> Eval first, then run on results then ...
+ false, false -> Eval first on root, then second on root then ...
+ *)
+ let auto_list =
+ time
+ (fun l ->
+ List.map (fun query -> Xpath.Compile.path query) l)
+ queries
+ "compiling XPath queries"
+ in
+ let auto_list =
+ if !Options.parallel then
+ match auto_list with
+ fst :: rest ->
+ let f =
+ if !Options.compose then
+ Ata.concat
+ else
+ Ata.merge
+ in
+ let big_auto = List.fold_left f fst rest in
+ [big_auto]
+ | _ -> assert false
+
+ else
+ auto_list
+ in
+ let output =
+ match !Options.output_file with
+ | None | Some "-" | Some "/dev/stdout" -> stdout
+ | Some f -> open_out f
+ in
+ if !Options.stats then begin
+ List.iter (fun query ->
+ Logger.msg `STATS "Query: %a " Xpath.Ast.print_path query) queries;
+ List.iter (fun auto ->
+ Logger.msg `STATS "@[Automaton: @\n%a@]" Ata.print auto) auto_list;
+ end;
+
+ let module Naive = Run.Make(Naive_tree) in
+ let result_list =
+ let root = [ Naive_tree.root doc] in
+ let f, msg =
+ match !Options.parallel, !Options.compose with
+ true, true ->
+ compose_parallel Naive.eval auto_list doc root, "parallel/compose"
+ | true, false ->
+ restart_parallel Naive.full_eval auto_list doc root, "parallel/restart"
+ | false, true ->
+ compose_sequential Naive.eval auto_list doc root , "sequential/compose"
+ | false, false ->
+ restart_sequential Naive.eval auto_list doc root, "sequential/restart"
+ in
+ time f () ("evaluating query in " ^ msg ^ " mode")
+ in
+ let s = Naive.stats () in
+ Run.(
+ Logger.msg `STATS
+ "@[tree size: %d@\ntraversals: %d@\ntransition fetch cache hit ratio: %f@\ntransition eval cache hit ratio: %f@]"
+ s.tree_size s.run
+ (float s.fetch_trans_cache_hit /. float s.fetch_trans_cache_access)
+ (float s.eval_trans_cache_hit /. float s.eval_trans_cache_access));
+ time (fun () ->
+ let count = ref 1 in
+ List.iter (fun results ->
+ output_string output "<xml_result num=\"";
+ output_string output (string_of_int !count);
+ output_string output "\" >\n";
+ if !Options.count then begin
+ output_string output (string_of_int (List.length results));
+ output_char output '\n';
+ end else
+ List.iter (fun n ->
+ Naive_tree.print_xml output doc n;
+ output_char output '\n'
+ ) results;
+ output_string output "</xml_result>\n";
+ incr count
+ ) result_list;
+ flush output;
+ if output != stdout then close_out output
+
+ ) () "serializing results"
-open Format
let () =
- fprintf err_formatter "Query: %a\n%!" Xpath.Ast.print_path query;
- fprintf err_formatter "Automata: %a\n%!" Auto.Ata.print auto;
- fprintf err_formatter "Evaluating automaton:\n%!";
- let module Naive = Auto.Eval.Make(Tree.Naive) in
- let t1 = Unix.gettimeofday() in
- let results = Naive.eval auto doc (Tree.Naive.root doc) in
- let teval = (Unix.gettimeofday () -. t1) *. 1000. in
- let t1 = Unix.gettimeofday () in
- output_string stdout "<xml_result>\n";
- List.iter (fun n ->
- Tree.Naive.print_xml stdout doc n;
- output_char stdout '\n'
- ) results;
- output_string stdout "</xml_result>\n";
- let tprint = (Unix.gettimeofday () -. t1) *. 1000. in
- flush stdout;
- fprintf err_formatter "evaluation time: %fms\nserialization time: %fms\n%!" teval tprint
+ try
+ main ()
+ with
+ Arg.Bad msg -> eprintf "Error: %s\n%!" msg; Options.usage (); exit 1
+ | Sys_error msg -> eprintf "Error: %s\n%!" msg; exit 2
+ | Tree.Parse_error msg ->
+ eprintf "Error: %s, %s\n%!"
+ (match !Options.input_file with
+ Some s -> ("file " ^ s)
+ | None -> "[stdin]") msg; exit 3
+ | Xpath.Ulexer.Error (s, e, msg) -> eprintf "Error: character %i-%i: %s\n%!" s e msg; exit 4
+ | e -> eprintf "FATAL ERROR: %s\n%!" (Printexc.to_string e); exit 128