231 lines
6.9 KiB
OCaml
231 lines
6.9 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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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. All rights reserved. This file is distributed *)
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(* under the terms of the GNU Library General Public License, with *)
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(* the special exception on linking described in file ../LICENSE. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* The run-time library for lexers generated by camllex *)
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type position = {
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pos_fname : string;
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pos_lnum : int;
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pos_bol : int;
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pos_cnum : int;
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}
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let dummy_pos = {
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pos_fname = "";
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pos_lnum = 0;
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pos_bol = 0;
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pos_cnum = -1;
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}
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type lexbuf =
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{ refill_buff : lexbuf -> unit;
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mutable lex_buffer : string;
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mutable lex_buffer_len : int;
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mutable lex_abs_pos : int;
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mutable lex_start_pos : int;
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mutable lex_curr_pos : int;
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mutable lex_last_pos : int;
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mutable lex_last_action : int;
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mutable lex_eof_reached : bool;
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mutable lex_mem : int array;
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mutable lex_start_p : position;
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mutable lex_curr_p : position;
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}
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type lex_tables =
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{ lex_base: string;
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lex_backtrk: string;
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lex_default: string;
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lex_trans: string;
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lex_check: string;
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lex_base_code : string;
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lex_backtrk_code : string;
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lex_default_code : string;
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lex_trans_code : string;
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lex_check_code : string;
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lex_code: string;}
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external c_engine: lex_tables -> int -> lexbuf -> int = "lex_engine"
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external c_new_engine: lex_tables -> int -> lexbuf -> int = "new_lex_engine"
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let engine tbl state buf =
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let result = c_engine tbl state buf in
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if result >= 0 then begin
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buf.lex_start_p <- buf.lex_curr_p;
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buf.lex_curr_p <- {buf.lex_curr_p
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with pos_cnum = buf.lex_abs_pos + buf.lex_curr_pos};
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end;
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result
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;;
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let new_engine tbl state buf =
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let result = c_new_engine tbl state buf in
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if result >= 0 then begin
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buf.lex_start_p <- buf.lex_curr_p;
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buf.lex_curr_p <- {buf.lex_curr_p
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with pos_cnum = buf.lex_abs_pos + buf.lex_curr_pos};
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end;
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result
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;;
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let lex_refill read_fun aux_buffer lexbuf =
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let read =
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read_fun aux_buffer (String.length aux_buffer) in
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let n =
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if read > 0
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then read
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else (lexbuf.lex_eof_reached <- true; 0) in
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(* Current state of the buffer:
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<-------|---------------------|----------->
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| junk | valid data | junk |
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^ ^ ^ ^
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0 start_pos buffer_end String.length buffer
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*)
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if lexbuf.lex_buffer_len + n > String.length lexbuf.lex_buffer then begin
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(* There is not enough space at the end of the buffer *)
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if lexbuf.lex_buffer_len - lexbuf.lex_start_pos + n
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<= String.length lexbuf.lex_buffer
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then begin
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(* But there is enough space if we reclaim the junk at the beginning
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of the buffer *)
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String.blit lexbuf.lex_buffer lexbuf.lex_start_pos
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lexbuf.lex_buffer 0
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(lexbuf.lex_buffer_len - lexbuf.lex_start_pos)
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end else begin
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(* We must grow the buffer. Doubling its size will provide enough
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space since n <= String.length aux_buffer <= String.length buffer.
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Watch out for string length overflow, though. *)
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let newlen =
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min (2 * String.length lexbuf.lex_buffer) Sys.max_string_length in
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if lexbuf.lex_buffer_len - lexbuf.lex_start_pos + n > newlen
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then failwith "Lexing.lex_refill: cannot grow buffer";
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let newbuf = String.create newlen in
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(* Copy the valid data to the beginning of the new buffer *)
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String.blit lexbuf.lex_buffer lexbuf.lex_start_pos
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newbuf 0
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(lexbuf.lex_buffer_len - lexbuf.lex_start_pos);
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lexbuf.lex_buffer <- newbuf
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end;
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(* Reallocation or not, we have shifted the data left by
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start_pos characters; update the positions *)
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let s = lexbuf.lex_start_pos in
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lexbuf.lex_abs_pos <- lexbuf.lex_abs_pos + s;
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lexbuf.lex_curr_pos <- lexbuf.lex_curr_pos - s;
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lexbuf.lex_start_pos <- 0;
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lexbuf.lex_last_pos <- lexbuf.lex_last_pos - s;
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lexbuf.lex_buffer_len <- lexbuf.lex_buffer_len - s ;
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let t = lexbuf.lex_mem in
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for i = 0 to Array.length t-1 do
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let v = t.(i) in
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if v >= 0 then
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t.(i) <- v-s
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done
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end;
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(* There is now enough space at the end of the buffer *)
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String.blit aux_buffer 0
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lexbuf.lex_buffer lexbuf.lex_buffer_len
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n;
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lexbuf.lex_buffer_len <- lexbuf.lex_buffer_len + n
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let zero_pos = {
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pos_fname = "";
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pos_lnum = 1;
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pos_bol = 0;
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pos_cnum = 0;
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};;
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let from_function f =
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{ refill_buff = lex_refill f (String.create 512);
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lex_buffer = String.create 1024;
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lex_buffer_len = 0;
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lex_abs_pos = 0;
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lex_start_pos = 0;
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lex_curr_pos = 0;
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lex_last_pos = 0;
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lex_last_action = 0;
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lex_mem = [||];
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lex_eof_reached = false;
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lex_start_p = zero_pos;
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lex_curr_p = zero_pos;
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}
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let from_channel ic =
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from_function (fun buf n -> input ic buf 0 n)
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let from_string s =
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{ refill_buff = (fun lexbuf -> lexbuf.lex_eof_reached <- true);
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lex_buffer = s ^ "";
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lex_buffer_len = String.length s;
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lex_abs_pos = 0;
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lex_start_pos = 0;
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lex_curr_pos = 0;
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lex_last_pos = 0;
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lex_last_action = 0;
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lex_mem = [||];
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lex_eof_reached = true;
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lex_start_p = zero_pos;
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lex_curr_p = zero_pos;
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}
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let lexeme lexbuf =
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let len = lexbuf.lex_curr_pos - lexbuf.lex_start_pos in
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let s = String.create len in
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String.unsafe_blit lexbuf.lex_buffer lexbuf.lex_start_pos s 0 len;
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s
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let sub_lexeme lexbuf i1 i2 =
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let len = i2-i1 in
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let s = String.create len in
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String.unsafe_blit lexbuf.lex_buffer i1 s 0 len;
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s
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let sub_lexeme_opt lexbuf i1 i2 =
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if i1 >= 0 then begin
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let len = i2-i1 in
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let s = String.create len in
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String.unsafe_blit lexbuf.lex_buffer i1 s 0 len;
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Some s
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end else begin
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None
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end
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let sub_lexeme_char lexbuf i = lexbuf.lex_buffer.[i]
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let sub_lexeme_char_opt lexbuf i =
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if i >= 0 then
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Some lexbuf.lex_buffer.[i]
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else
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None
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let lexeme_char lexbuf i =
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String.get lexbuf.lex_buffer (lexbuf.lex_start_pos + i)
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let lexeme_start lexbuf = lexbuf.lex_start_p.pos_cnum;;
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let lexeme_end lexbuf = lexbuf.lex_curr_p.pos_cnum;;
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let lexeme_start_p lexbuf = lexbuf.lex_start_p;;
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let lexeme_end_p lexbuf = lexbuf.lex_curr_p;;
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(* Discard data left in lexer buffer. *)
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let flush_input lb =
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lb.lex_curr_pos <- 0;
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lb.lex_abs_pos <- 0;
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lb.lex_curr_p <- {lb.lex_curr_p with pos_cnum = 0};
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lb.lex_buffer_len <- 0;
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;;
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