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trx_interpreter.ml
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trx_interpreter.ml
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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
(*
@author Adam Koprowski
**)
(* FIXME, proper trace output for --multiple option *)
(* FIXME, in --analyze-memo stop parsing with given settings when it takes longer than the best result so far (timeout) *)
module T = Tgrammar
module P = Tgrammar.PreGrammar
module List = BaseList
module Char = BaseChar
let pr = Printf.sprintf
(* TODO: change this printf *)
let log fmt =
Printf.eprintf (fmt^^"\n")
let grammar_to_string g =
pr "Start: {%s}\nProductions:\n%s\n" g.T.start
(T.def_map_to_string (StringMap.map fst g.T.grammar))
let errorHandling = ref true
let grammarFile = ref None
let inputFile = ref None
let startProd = ref None
let cmd = ref `parsing
let mode = ref `parseOne
let memo_default = ref None
let get_val_or_fail v err =
match !v with
| Some s -> s
| _ -> failwith err
let get_grammar_fn () = get_val_or_fail grammarFile "Unspecified grammar!"
let get_input_fn () = get_val_or_fail inputFile "Unspecified input file!"
let measureTime f =
let startT = Sys.time () in
let res = f () in
let endT = Sys.time () in
res, endT -. startT
(***************************************************************)
(************************** Error handling *********************)
(***************************************************************)
open Trx_runtime
(***************************************************************)
(************************** Parsing trace **********************)
(***************************************************************)
type traceParseResult =
| Failure
| Success of int (* number of consumed characters *)
type traceType =
| CallBeg of pos * (traceParseResult * Trx_runtime.parseError) ref * bool ref (* result of memoization? *)
| CallEnd
type tagInfo =
{ def : string
; level : int
}
type traceEntry = tagInfo * traceType
let traceFile = ref None
let trace = MutableList.create ()
let tracingEnabled () =
match !traceFile with
| Some _ -> true
| None -> false
let lev = ref 1
let enableTracing s =
traceFile := Some s
let rec indent = function
| 0 -> ""
| n -> " " ^ indent (n-1)
let write_trace input fn =
let max_indent = ref 0 in
let write_tag (ti, tt) =
match tt with
| CallBeg (pos, tr, memo) ->
let pos_str =
let line, col = FilePos.get_pos_no_cache input pos in
pr "%d/%d" line col
in
let memo_str = if !memo then " memoized=\"true\"" else "" in
let res_str, len_str =
match fst !tr with
| Failure -> "fail", ""
| Success i -> "ok", pr " consumed=\"%d\"" i
in
(* let err_str = Trx_runtime.show_parse_error input (snd !tr) in*)
max_indent := max !max_indent ti.level;
Printf.fprintf fn "%s<%s pos=\"%s\" result=\"%s\" %s%s >\n" (indent ti.level) ti.def pos_str res_str len_str memo_str;
(* Printf.fprintf fn "%s<![CDATA[%s]]>\n" (indent ti.level) err_str*)
| CallEnd ->
Printf.fprintf fn "%s</%s>\n" (indent ti.level) ti.def
in
Printf.fprintf fn "<trx_interpreter grammar=\"%s\" input=\"%s\">\n"
(get_grammar_fn ()) (get_input_fn ());
MutableList.iter write_tag trace;
Printf.fprintf fn "</trx_interpreter>\n";
Printf.eprintf "Max nesting: %d\n" !max_indent
(***************************************************************)
(************************* TRX interpreter *********************)
(***************************************************************)
let option_to_res_no_err res pos =
match res with
| Some res -> Ok (res, emptyError pos)
| None -> Fail (emptyError pos)
let addErrorInfo err res =
if !errorHandling then
Trx_runtime.addErrorInfo err res
else
res
let parse peg input =
let _len = String.length input in
let _get_char = String.unsafe_get input in
let memo = Hashtbl.create 128 in
let process_literal literal case pos =
let literal_len = String.length literal in
let eq = if case then (=) else Char.equal_insensitive in
let rec aux i =
if i = literal_len then
true
else
eq (_get_char (pos + i)) (String.unsafe_get literal i) && aux (i + 1)
in
let res =
if pos + literal_len <= _len && aux 0 then
Some (pos + literal_len, ())
else
None
in
if !errorHandling then
option_to_res_msg res pos ("\"" ^ literal ^ "\"")
else
option_to_res_no_err res pos
in
let process_range ranges pos =
let encode = function
| T.Any -> `Any
| T.One c -> `One c
| T.Range (c1, c2) -> `Range (c1, c2)
in
let res =
if pos < _len then begin
let c = _get_char pos in
let rec aux = function
| [] -> false
| T.Any::_ -> true
| T.One c'::cs -> c = c' || aux cs
| T.Range (c1, c2)::cs -> (c >= c1 && c <= c2) || aux cs
in
if aux ranges then
Some (pos + 1, ())
else
None
end else
None
in
if !errorHandling then
let err = range_to_error (List.map encode ranges) in
option_to_res_err res pos err
else
option_to_res_no_err res pos
in
let get_def id =
try
StringMap.find id peg.T.grammar
with
Not_found ->
log "Could not find a definition for the production: %s" id;
raise Not_found
in
let rec parse_definition id pos =
let d, def_annots = get_def id in
let do_parse () =
let res, memoized =
try
Hashtbl.find memo (id, pos), true
with
Not_found ->
parse_expression pos d.P.expression, false
in
let res =
match def_annots.T.rule_name with
| T.NoName -> res (* decorateConstruct res pos [Expected id] *) (* uncommenting turns on use of rule ids (not only names) for error reporting *)
| T.PrimaryName def_name -> setMainConstruct res pos (Expected def_name)
| T.SecondaryName def_name -> decorateConstruct res pos [Expected def_name]
in
let success =
match res with
| Ok _ -> true
| Fail _ -> false
in
let do_memo =
match def_annots.T.rule_memo with
| T.MemoNone -> false
| T.MemoFail -> not success
| T.MemoSuccess -> success
| T.MemoFull -> true
| T.MemoNoInfo -> assert false
in
if do_memo then
Hashtbl.add memo (id, pos) res;
res, memoized
in
if not (tracingEnabled ()) then
fst (do_parse ())
else
begin
let tagInfo =
{ def = id
; level = !lev
}
in
let tr = ref (Failure, Trx_runtime.emptyError 0) in
let memo_mark = ref false in
lev := !lev + 1;
MutableList.add trace (tagInfo, CallBeg (pos, tr, memo_mark));
let res, memoized = do_parse () in
if memoized then
memo_mark := true;
tr :=
begin match res with
| Fail e -> Failure, e
| Ok ((pos', _), e) -> Success (pos' - pos), e
end;
lev := !lev - 1;
MutableList.add trace (tagInfo, CallEnd);
res
end
and parse_expression pos = function
| P.App _ -> failwith "Unexpected App"
| P.Expr [] -> Fail (emptyError pos)
| P.Expr (s::ss) ->
let (items, _, prod) = s in
match prod with
| Some (_, _, _, true) ->
(* Printf.eprintf "WARNING! Skipping sequence with production {| ... |}\n";*)
Fail (emptyError pos)
| _ ->
match parse_sequence pos items with
| Fail e ->
let res = parse_expression pos (P.Expr ss) in
addErrorInfo e res
| res -> res
and parse_sequence pos = function
| [] -> Ok ((pos, ()), emptyError pos)
| i::is ->
match parse_item pos i with
| Fail e -> Fail e
| Ok ((pos', _), e) ->
let res = parse_sequence pos' is in
addErrorInfo e res
and parse_item pos (prefix, prim, suffix) =
let rec loop pos required =
match parse_primary pos prim with
| Ok ((pos', _), e) ->
let res = loop pos' false in
addErrorInfo e res
| Fail e ->
if required then
Fail e
else
Ok ((pos, ()), e)
in
let suffixr =
match suffix with
| `NORMAL -> parse_primary pos prim
| `STAR -> loop pos false
| `PLUS -> loop pos true
| `QUESTION ->
match parse_primary pos prim with
| Fail e -> Ok ((pos, ()), e)
| res -> res
in
(* FIXME, Handle errors *)
match prefix, suffixr with
| `NORMAL, res -> res
| `AND, Fail e -> Fail e
| `AND, Ok (_, e) -> Ok ((pos, ()), e)
| `NOT, Fail e -> Ok ((pos, ()), e)
| `NOT, Ok (_, e) -> Fail e
and parse_primary pos = function
| P.Paren e ->
parse_expression pos e
| P.Literal (l, case) ->
process_literal l case pos
| P.Class ranges ->
process_range ranges pos
| P.Ident id ->
parse_definition id pos
in
(* FIXME, at the moment if -start switch is not provided then all productions
* marked with '+' are tried.
*)
let rec try_parse print_success = function
| [] -> None
| s::ss ->
(*jlog ~level:2 (pr "Trying to parse with the start production: %s" s);*)
match parse_definition s 0 with
| Fail e ->
let err_str = show_parse_error (FilePos.get_pos_no_cache input) e in
log "Production %s gives syntax error: %s" s err_str;
try_parse print_success ss
| Ok ((pos, _), _e) ->
if print_success then
log "Success with: %s" s;
Some pos
in
(*jlog ~level:3 (pr "Parsing with the following grammar:\n%s\n======\n" (grammar_to_string peg));*)
match !startProd with
| None -> try_parse true (Pgrammar.start_definitions peg.T.grammar)
| Some s -> try_parse false [s]
(**************************************************************)
(************************* Main front-end *********************)
(**************************************************************)
let str2memo = function
| "none" -> T.MemoNone
| "fail" -> T.MemoFail
| "success" -> T.MemoSuccess
| "full" -> T.MemoFull
| s -> failwith (pr "Unknown memoization option: '%s' (should be: 'none', 'fail', 'success' or 'full')" s)
let usage_msg = Printf.sprintf "%s: parser interpreter for the Opa project\nUsage: %s [options] syntax_file.[trx|prx]\n" Sys.argv.(0) Sys.argv.(0)
let parse_args () =
let anon_fun s =
if !grammarFile = None then
grammarFile := Some s
else if !inputFile = None then
inputFile := Some s
else
failwith (pr "Don't know what to do with <%s> argument" s)
in
Arg.parse (Arg.align [
("--no-error-handling",
Arg.Unit (fun () -> errorHandling := false),
" turns off error handling (faster, but no error msgs)");
("--multiple",
Arg.Unit (fun () -> mode := `parseMany),
" parses a number of files; the input file contains a list of files to parse, one per line");
("--trace",
Arg.String (fun s -> enableTracing s),
" file.[xml] produces an XML trace of parsing in <file>");
("--start",
Arg.String (fun s -> startProd := Some s),
" prod starting production to be used (if not provided all marked with + will be tried)");
("--verbose",
Arg.Unit (fun () -> ()),
" deprecated");
("--more-verbose",
Arg.Unit (fun () -> ()),
" deprecated");
("--analyze-memo",
Arg.Unit (fun () -> cmd := `analyze_memo),
" instead of parsing peform memoization analysis with given input");
("--memoization",
Arg.String (fun s -> memo_default := Some (str2memo s)),
" default memoization level for rules with no annotations [none | fail | success | full]");
]) anon_fun
(usage_msg^"Options:")
let load_grammar grammarFn =
let peg, _ = Pgrammar.read_grammar ?memo_default:!memo_default ~verbose:true None grammarFn in
peg
let parse_file peg inputFn =
log "Parsing <%s>..." inputFn;
let input = File.content inputFn in
let all = String.length input in
let go () = parse peg input in
let res, t = measureTime go in
begin match res with
| Some pos ->
log "Parsing successful [%d/%d] in %4.2fsec." pos all t
| None ->
log "Parsing failed"
end;
begin match !traceFile with
| None -> ()
| Some fn ->
write_trace input (open_out fn);
log "Parsing trace written to <%s>" fn
end
let parse_files peg inputFn =
let inc = open_in inputFn in
log "Parsing all files from <%s>" inputFn;
let n = ref 0 in
let go () =
try
while true do
let fn = input_line inc in
parse_file peg fn;
incr n
done
with
End_of_file ->
close_in inc
in
let _, t = measureTime go in
log "Total time of parsing %d files from <%s>: %4.2fsec." !n inputFn t
let parsing peg =
let inputFn = get_input_fn () in
match !mode with
| `parseOne ->
parse_file peg inputFn
| `parseMany ->
parse_files peg inputFn
let analyze_memo peg =
let i = ref 0 in
let progress () =
let rules = StringMap.size peg.T.grammar in
let total = float_of_int (rules * 3) in
incr i;
Printf.eprintf "\rProgress: %3.2f%%...%!" (float_of_int (100 * !i) /. total)
in
let parseWithPeg peg =
let res = measureTime (fun () -> parsing peg) in
res
in
let memo2str = function
| T.MemoNone -> "none"
| T.MemoFail -> "fail"
| T.MemoSuccess -> "success"
| T.MemoFull -> "full"
| T.MemoNoInfo -> "noInfo"
in
let apply_move move peg =
let def_name, memo_opt = move in
let (def, annots) = StringMap.find def_name peg.T.grammar in
let new_annots = { annots with T.rule_memo = memo_opt } in
let new_entry = def, new_annots in
{ peg with T.grammar = StringMap.add def_name new_entry peg.T.grammar }
in
let try_to_improve_on peg def_name (best_move, best) memo_opt =
let move = def_name, memo_opt in
let peg' = apply_move move peg in
let _, t = parseWithPeg peg' in
progress ();
(*if false then
jlog ~level:2 (pr "Trying to change memo option for def. <%s> to <%s> gives time: %4.3fsec." def_name (memo2str memo_opt) t);*)
if t < best then
(Some move, t)
else
(best_move, best)
in
let try_to_improve peg def_name (_, def_annots) (best_move, best) =
let opts = [T.MemoNone; T.MemoFail; T.MemoSuccess; T.MemoFull] in
let opts = List.remove_first def_annots.T.rule_memo opts in
List.fold_left (try_to_improve_on peg def_name) (best_move, best) opts
in
let rec improve (best, peg) =
i := 0;
let res, best' = StringMap.fold (try_to_improve peg) peg.T.grammar (None, best) in
match res with
| None ->
log "\nNo improvement..."
| Some move ->
let impr = best -. best' in
log "\nConsider changing memoization option for definition <%s> to <%s>.\nIt resulted in time %4.3fsec. (%4.3fsec./%1.3f%% improvement)"
(fst move) (memo2str (snd move)) best' impr (100.0 *. impr /. best);
improve (best', apply_move move peg)
in
let _, best = parseWithPeg peg in
log "Initial grammar gives timing: %4.3fsec. [no. of rules: %d]" best (StringMap.size peg.T.grammar);
improve (best, peg)
let _ =
parse_args ();
let grammarFn = get_grammar_fn () in
let inputFn = get_input_fn () in
log "Loading grammar from {%s} and then parsing {%s}\n" grammarFn inputFn;
try
let peg = load_grammar grammarFn in
match !cmd with
| `parsing -> parsing peg
| `analyze_memo -> analyze_memo peg
with
| Pgrammar.GrammarParse _err ->
log "Failed while parsing the input grammar: {%s}!\n" grammarFn