ocaml/lex/output.ml

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(***********************************************************************)
(* *)
(* Objective Caml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. All rights reserved. This file is distributed *)
(* under the terms of the Q Public License version 1.0. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* Output the DFA tables and its entry points *)
open Printf
open Syntax
open Lexgen
open Compact
open Common
(* To output an array of short ints, encoded as a string *)
let output_byte oc b =
output_char oc '\\';
output_char oc (Char.chr(48 + b / 100));
output_char oc (Char.chr(48 + (b / 10) mod 10));
output_char oc (Char.chr(48 + b mod 10))
let output_array oc v =
output_string oc " \"";
for i = 0 to Array.length v - 1 do
output_byte oc (v.(i) land 0xFF);
output_byte oc ((v.(i) asr 8) land 0xFF);
if i land 7 = 7 then output_string oc "\\\n "
done;
output_string oc "\""
let output_byte_array oc v =
output_string oc " \"";
for i = 0 to Array.length v - 1 do
output_byte oc (v.(i) land 0xFF);
if i land 15 = 15 then output_string oc "\\\n "
done;
output_string oc "\""
(* Output the tables *)
let output_tables oc tbl =
output_string oc "let __ocaml_lex_tables = {\n";
fprintf oc " Lexing.lex_base = \n%a;\n" output_array tbl.tbl_base;
fprintf oc " Lexing.lex_backtrk = \n%a;\n" output_array tbl.tbl_backtrk;
fprintf oc " Lexing.lex_default = \n%a;\n" output_array tbl.tbl_default;
fprintf oc " Lexing.lex_trans = \n%a;\n" output_array tbl.tbl_trans;
fprintf oc " Lexing.lex_check = \n%a;\n" output_array tbl.tbl_check;
fprintf oc " Lexing.lex_base_code = \n%a;\n" output_array tbl.tbl_base_code;
fprintf oc " Lexing.lex_backtrk_code = \n%a;\n"
output_array tbl.tbl_backtrk_code;
fprintf oc " Lexing.lex_default_code = \n%a;\n"
output_array tbl.tbl_default_code;
fprintf oc " Lexing.lex_trans_code = \n%a;\n"
output_array tbl.tbl_trans_code;
fprintf oc " Lexing.lex_check_code = \n%a;\n"
output_array tbl.tbl_check_code;
fprintf oc " Lexing.lex_code = \n%a;\n" output_byte_array tbl.tbl_code;
output_string oc "}\n\n"
(* Output the entries *)
let output_entry sourcefile ic oc oci e =
let init_num, init_moves = e.auto_initial_state in
fprintf oc "%s %alexbuf =\n\
%a%a __ocaml_lex_%s_rec %alexbuf %d\n"
e.auto_name
output_args e.auto_args
(fun oc x ->
if x > 0 then
fprintf oc "lexbuf.Lexing.lex_mem <- Array.create %d (-1) ; " x)
e.auto_mem_size
(output_memory_actions " ") init_moves
e.auto_name
output_args e.auto_args
init_num;
fprintf oc "and __ocaml_lex_%s_rec %alexbuf __ocaml_lex_state =\n"
e.auto_name output_args e.auto_args ;
fprintf oc " match Lexing.%sengine"
(if e.auto_mem_size == 0 then "" else "new_");
fprintf oc " __ocaml_lex_tables __ocaml_lex_state lexbuf with\n ";
List.iter
(fun (num, env, loc) ->
fprintf oc " | ";
fprintf oc "%d ->\n" num;
output_env sourcefile ic oc oci env;
copy_chunk sourcefile ic oc oci loc true;
fprintf oc "\n")
e.auto_actions;
fprintf oc " | __ocaml_lex_state -> lexbuf.Lexing.refill_buff lexbuf; \
__ocaml_lex_%s_rec %alexbuf __ocaml_lex_state\n\n"
e.auto_name output_args e.auto_args
(* Main output function *)
exception Table_overflow
let output_lexdef sourcefile ic oc oci header tables entry_points trailer =
if not !Common.quiet_mode then
Printf.printf "%d states, %d transitions, table size %d bytes\n"
(Array.length tables.tbl_base)
(Array.length tables.tbl_trans)
(2 * (Array.length tables.tbl_base + Array.length tables.tbl_backtrk +
Array.length tables.tbl_default + Array.length tables.tbl_trans +
Array.length tables.tbl_check));
let size_groups =
(2 * (Array.length tables.tbl_base_code +
Array.length tables.tbl_backtrk_code +
Array.length tables.tbl_default_code +
Array.length tables.tbl_trans_code +
Array.length tables.tbl_check_code) +
Array.length tables.tbl_code) in
if size_groups > 0 && not !Common.quiet_mode then
Printf.printf "%d additional bytes used for bindings\n" size_groups ;
flush stdout;
if Array.length tables.tbl_trans > 0x8000 then raise Table_overflow;
copy_chunk sourcefile ic oc oci header false;
output_tables oc tables;
begin match entry_points with
[] -> ()
| entry1 :: entries ->
output_string oc "let rec "; output_entry sourcefile ic oc oci entry1;
List.iter
(fun e -> output_string oc "and "; output_entry sourcefile ic oc oci e)
entries;
output_string oc ";;\n\n";
end;
copy_chunk sourcefile ic oc oci trailer false