462 lines
12 KiB
OCaml
462 lines
12 KiB
OCaml
(**************************************************************************)
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(* *)
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(* OCaml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. *)
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(* *)
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(* All rights reserved. This file is distributed under the terms of *)
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(* the GNU Lesser General Public License version 2.1, with the *)
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(* special exception on linking described in the file LICENSE. *)
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(* *)
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(**************************************************************************)
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(* The lexer definition *)
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{
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open Lexing
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open Misc
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type token =
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AMPERAMPER
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| AMPERSAND
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| AND
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| AS
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| ASSERT
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| BACKQUOTE
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| BAR
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| BARBAR
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| BARRBRACKET
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| BEGIN
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| CHAR of (char)
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| CLASS
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| COLON
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| COLONCOLON
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| COLONEQUAL
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| COLONGREATER
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| COMMA
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| CONSTRAINT
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| DO
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| DONE
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| DOT
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| DOTDOT
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| DOWNTO
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| ELSE
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| END
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| EOF
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| EQUAL
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| EXCEPTION
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| EXTERNAL
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| FALSE
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| FLOAT of (string)
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| FOR
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| FUN
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| FUNCTION
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| FUNCTOR
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| GREATER
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| GREATERRBRACE
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| GREATERRBRACKET
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| IF
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| IN
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| INCLUDE
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| INFIXOP0 of (string)
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| INFIXOP1 of (string)
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| INFIXOP2 of (string)
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| INFIXOP3 of (string)
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| INFIXOP4 of (string)
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| INHERIT
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| INITIALIZER
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| INT of (int)
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| LABEL of (string)
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| LABELID of (string)
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| LAZY
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| LBRACE
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| LBRACELESS
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| LBRACKET
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| LBRACKETBAR
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| LBRACKETLESS
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| LESS
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| LESSMINUS
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| LET
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| LIDENT of (string)
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| LPAREN
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| MATCH
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| METHOD
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| MINUSGREATER
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| MODULE
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| MUTABLE
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| NEW
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| OBJECT
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| OF
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| OPEN
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| OR
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| PARSER
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| PREFIXOP of (string)
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| PRIVATE
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| QUESTION
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| QUESTION2
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| QUOTE
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| RBRACE
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| RBRACKET
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| REC
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| RPAREN
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| SEMI
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| SEMISEMI
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| SHARP
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| SIG
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| STAR
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| STRING of (string)
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| STRUCT
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| SUBTRACTIVE of (string)
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| THEN
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| TO
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| TRUE
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| TRY
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| TYPE
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| UIDENT of (string)
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| UNDERSCORE
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| VAL
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| VIRTUAL
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| WHEN
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| WHILE
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| WITH
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type error =
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| Illegal_character of char
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| Unterminated_comment
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| Unterminated_string
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| Unterminated_string_in_comment
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;;
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exception Error of error * int * int
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(* The table of keywords *)
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let keyword_table =
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create_hashtable 149 [
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"and", AND;
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"as", AS;
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"assert", ASSERT;
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"begin", BEGIN;
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"class", CLASS;
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"constraint", CONSTRAINT;
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"do", DO;
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"done", DONE;
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"downto", DOWNTO;
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"else", ELSE;
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"end", END;
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"exception", EXCEPTION;
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"external", EXTERNAL;
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"false", FALSE;
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"for", FOR;
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"fun", FUN;
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"function", FUNCTION;
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"functor", FUNCTOR;
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"if", IF;
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"in", IN;
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"include", INCLUDE;
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"inherit", INHERIT;
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"initializer", INITIALIZER;
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"lazy", LAZY;
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"let", LET;
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"match", MATCH;
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"method", METHOD;
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"module", MODULE;
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"mutable", MUTABLE;
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"new", NEW;
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"object", OBJECT;
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"of", OF;
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"open", OPEN;
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"or", OR;
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"parser", PARSER;
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"private", PRIVATE;
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"rec", REC;
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"sig", SIG;
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"struct", STRUCT;
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"then", THEN;
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"to", TO;
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"true", TRUE;
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"try", TRY;
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"type", TYPE;
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"val", VAL;
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"virtual", VIRTUAL;
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"when", WHEN;
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"while", WHILE;
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"with", WITH;
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"mod", INFIXOP3("mod");
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"land", INFIXOP3("land");
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"lor", INFIXOP3("lor");
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"lxor", INFIXOP3("lxor");
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"lsl", INFIXOP4("lsl");
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"lsr", INFIXOP4("lsr");
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"asr", INFIXOP4("asr")
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]
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(* To buffer string literals *)
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let initial_string_buffer = String.create 256
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let string_buff = ref initial_string_buffer
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let string_index = ref 0
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let reset_string_buffer () =
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string_buff := initial_string_buffer;
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string_index := 0
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let store_string_char c =
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if !string_index >= String.length (!string_buff) then begin
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let new_buff = String.create (String.length (!string_buff) * 2) in
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String.blit (!string_buff) 0 new_buff 0 (String.length (!string_buff));
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string_buff := new_buff
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end;
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String.unsafe_set (!string_buff) (!string_index) c;
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incr string_index
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let get_stored_string () =
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let s = String.sub (!string_buff) 0 (!string_index) in
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string_buff := initial_string_buffer;
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s
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(* To translate escape sequences *)
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let char_for_backslash = function
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| 'n' -> '\010'
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| 'r' -> '\013'
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| 'b' -> '\008'
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| 't' -> '\009'
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| c -> c
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let char_for_decimal_code lexbuf i =
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let c = 100 * (Char.code(Lexing.lexeme_char lexbuf i) - 48) +
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10 * (Char.code(Lexing.lexeme_char lexbuf (i+1)) - 48) +
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(Char.code(Lexing.lexeme_char lexbuf (i+2)) - 48) in
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Char.chr(c land 0xFF)
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(* To store the position of the beginning of a string and comment *)
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let string_start_pos = ref 0;;
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let comment_start_pos = ref [];;
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(* Error report *)
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open Format
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let report_error ppf = function
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| Illegal_character c ->
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fprintf ppf "Illegal character (%s)" (Char.escaped c)
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| Unterminated_comment ->
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fprintf ppf "Comment not terminated"
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| Unterminated_string ->
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fprintf ppf "String literal not terminated"
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| Unterminated_string_in_comment ->
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fprintf ppf "This comment contains an unterminated string literal"
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;;
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}
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let blank = [' ' '\010' '\013' '\009' '\012']
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let lowercase = ['a'-'z' '\223'-'\246' '\248'-'\255' '_']
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let uppercase = ['A'-'Z' '\192'-'\214' '\216'-'\222']
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let identchar =
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['A'-'Z' 'a'-'z' '_' '\192'-'\214' '\216'-'\246' '\248'-'\255' '\'' '0'-'9']
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let symbolchar =
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['!' '$' '%' '&' '*' '+' '-' '.' '/' ':' '<' '=' '>' '?' '@' '^' '|' '~']
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let symbolchar2 =
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['!' '$' '%' '&' '*' '+' '-' '.' '/' '<' '=' '>' '?' '@' '^' '|' '~']
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(* ['!' '$' '&' '*' '+' '-' '.' '/' ':' '<' '=' '>' '?' '@' '^' '|' '~'] *)
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let decimal_literal = ['0'-'9']+
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let hex_literal = '0' ['x' 'X'] ['0'-'9' 'A'-'F' 'a'-'f']+
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let oct_literal = '0' ['o' 'O'] ['0'-'7']+
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let bin_literal = '0' ['b' 'B'] ['0'-'1']+
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let float_literal =
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['0'-'9']+ ('.' ['0'-'9']* )? (['e' 'E'] ['+' '-']? ['0'-'9']+)?
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rule token = parse
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blank +
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{ token lexbuf }
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| "_"
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{ UNDERSCORE }
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| lowercase identchar * ':' [ ^ ':' '=' '>']
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{ let s = Lexing.lexeme lexbuf in
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lexbuf.lex_curr_pos <- lexbuf.lex_curr_pos - 1;
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lexbuf.lex_curr_p <-
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{lexbuf.lex_curr_p with pos_cnum = lexbuf.lex_curr_p.pos_cnum - 1};
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LABEL (String.sub s 0 (String.length s - 2)) }
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(*
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| lowercase identchar * ':'
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{ let s = Lexing.lexeme lexbuf in
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LABEL (String.sub s 0 (String.length s - 1)) }
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| '%' lowercase identchar *
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*)
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| ':' lowercase identchar *
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{ let s = Lexing.lexeme lexbuf in
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let l = String.length s - 1 in
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LABELID (String.sub s 1 l) }
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| lowercase identchar *
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{ let s = Lexing.lexeme lexbuf in
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try
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Hashtbl.find keyword_table s
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with Not_found ->
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LIDENT s }
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| uppercase identchar *
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{ UIDENT(Lexing.lexeme lexbuf) } (* No capitalized keywords *)
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| decimal_literal | hex_literal | oct_literal | bin_literal
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{ INT (int_of_string(Lexing.lexeme lexbuf)) }
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| float_literal
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{ FLOAT (Lexing.lexeme lexbuf) }
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| "\""
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{ reset_string_buffer();
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let string_start = Lexing.lexeme_start lexbuf in
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string_start_pos := string_start;
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string lexbuf;
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lexbuf.Lexing.lex_start_pos <-
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string_start - lexbuf.Lexing.lex_abs_pos;
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STRING (get_stored_string()) }
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| "'" [^ '\\' '\''] "'"
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{ CHAR(Lexing.lexeme_char lexbuf 1) }
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| "'" '\\' ['\\' '\'' 'n' 't' 'b' 'r'] "'"
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{ CHAR(char_for_backslash (Lexing.lexeme_char lexbuf 2)) }
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| "'" '\\' ['0'-'9'] ['0'-'9'] ['0'-'9'] "'"
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{ CHAR(char_for_decimal_code lexbuf 2) }
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| "(*"
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{ comment_start_pos := [Lexing.lexeme_start lexbuf];
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comment lexbuf;
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token lexbuf }
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| "(*)"
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{ let loc = { Location.loc_start = Lexing.lexeme_start_p lexbuf;
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Location.loc_end = Lexing.lexeme_end_p lexbuf;
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Location.loc_ghost = false }
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in
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Location.prerr_warning loc (Warnings.Comment_start);
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comment_start_pos := [Lexing.lexeme_start lexbuf];
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comment lexbuf;
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token lexbuf
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}
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| "*)"
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{ let loc = { Location.loc_start = Lexing.lexeme_start_p lexbuf;
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Location.loc_end = Lexing.lexeme_end_p lexbuf;
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Location.loc_ghost = false }
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in
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Location.prerr_warning loc Warnings.Comment_not_end;
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lexbuf.Lexing.lex_curr_pos <- lexbuf.Lexing.lex_curr_pos - 1;
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STAR
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}
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| "#" [' ' '\t']* ['0'-'9']+ [^ '\n' '\r'] * ('\n' | '\r' | "\r\n")
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(* # linenum ... *)
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{ token lexbuf }
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| "#" { SHARP }
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| "&" { AMPERSAND }
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| "&&" { AMPERAMPER }
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| "`" { BACKQUOTE }
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| "'" { QUOTE }
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| "(" { LPAREN }
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| ")" { RPAREN }
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| "*" { STAR }
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| "," { COMMA }
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| "?" { QUESTION }
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| "??" { QUESTION2 }
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| "->" { MINUSGREATER }
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| "." { DOT }
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| ".." { DOTDOT }
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| ":" { COLON }
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| "::" { COLONCOLON }
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| ":=" { COLONEQUAL }
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| ":>" { COLONGREATER }
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| ";" { SEMI }
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| ";;" { SEMISEMI }
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| "<" { LESS }
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| "<-" { LESSMINUS }
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| "=" { EQUAL }
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| "[" { LBRACKET }
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| "[|" { LBRACKETBAR }
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| "[<" { LBRACKETLESS }
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| "]" { RBRACKET }
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| "{" { LBRACE }
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| "{<" { LBRACELESS }
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| "|" { BAR }
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| "||" { BARBAR }
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| "|]" { BARRBRACKET }
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| ">" { GREATER }
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| ">]" { GREATERRBRACKET }
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| "}" { RBRACE }
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| ">}" { GREATERRBRACE }
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| "!=" { INFIXOP0 "!=" }
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| "-" { SUBTRACTIVE "-" }
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| "-." { SUBTRACTIVE "-." }
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| ['!' '~'] symbolchar *
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{ PREFIXOP(Lexing.lexeme lexbuf) }
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| '?' symbolchar2 *
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{ PREFIXOP(Lexing.lexeme lexbuf) }
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| ['=' '<' '>' '|' '&' '$'] symbolchar *
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{ INFIXOP0(Lexing.lexeme lexbuf) }
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| ['@' '^'] symbolchar *
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{ INFIXOP1(Lexing.lexeme lexbuf) }
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| ['+' '-'] symbolchar *
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{ INFIXOP2(Lexing.lexeme lexbuf) }
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| "**" symbolchar *
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{ INFIXOP4(Lexing.lexeme lexbuf) }
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| ['*' '/' '%'] symbolchar *
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{ INFIXOP3(Lexing.lexeme lexbuf) }
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| eof { EOF }
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| _
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{ raise (Error(Illegal_character ((Lexing.lexeme lexbuf).[0]),
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Lexing.lexeme_start lexbuf, Lexing.lexeme_end lexbuf)) }
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and comment = parse
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"(*"
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{ comment_start_pos := Lexing.lexeme_start lexbuf :: !comment_start_pos;
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comment lexbuf;
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}
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| "*)"
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{ match !comment_start_pos with
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| [] -> assert false
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| [x] -> ()
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| _ :: l -> comment_start_pos := l;
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comment lexbuf;
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}
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| "\""
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{ reset_string_buffer();
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string_start_pos := Lexing.lexeme_start lexbuf;
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begin try string lexbuf
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with Error (Unterminated_string, _, _) ->
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let st = List.hd !comment_start_pos in
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raise (Error (Unterminated_string_in_comment, st, st + 2))
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end;
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string_buff := initial_string_buffer;
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comment lexbuf }
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| "''"
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{ comment lexbuf }
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| "'" [^ '\\' '\''] "'"
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{ comment lexbuf }
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| "'\\" ['\\' '\'' 'n' 't' 'b' 'r'] "'"
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{ comment lexbuf }
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| "'\\" ['0'-'9'] ['0'-'9'] ['0'-'9'] "'"
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{ comment lexbuf }
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| eof
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{ let st = List.hd !comment_start_pos in
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raise (Error (Unterminated_comment, st, st + 2));
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}
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| _
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{ comment lexbuf }
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and string = parse
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'"'
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{ () }
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| '\\' ("\010" | "\013" | "\013\010") [' ' '\009'] *
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{ string lexbuf }
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| '\\' ['\\' '"' 'n' 't' 'b' 'r']
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{ store_string_char(char_for_backslash(Lexing.lexeme_char lexbuf 1));
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string lexbuf }
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| '\\' ['0'-'9'] ['0'-'9'] ['0'-'9']
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{ store_string_char(char_for_decimal_code lexbuf 1);
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string lexbuf }
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| eof
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{ raise (Error (Unterminated_string,
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!string_start_pos, !string_start_pos+1)) }
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| _
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{ store_string_char(Lexing.lexeme_char lexbuf 0);
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string lexbuf }
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