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* transcode_data.h (rb_transcoding): new field "stateful".

Browse source 
(rb_transcoder): preprocessor and postprocessor field removed.
  change arguments of func_ii, func_si, func_io and func_so.
  new field "finish_func".

* tool/transcode-tblgen.rb: make FUNii, FUNsi and FUNio
  generatable.

* transcode.c (transcoder_lib_table): removed.
  (transcoder_table): change structure.
  (transcoder_key): removed because the above structure change.
  (make_transcoder_entry): new function.
  (get_transcoder_entry): ditto.
  (rb_register_transcoder): follow the structure change.
  (declare_transcoder): ditto.
  (transcode_search_path): new function for breadth first search to
  find a list of converters.
  (transcode_search_path_i): new function.
  (transcode_dispatch_cb): ditto.
  (transcode_dispatch): use transcode_search_path.
  (transcode_loop): follow the argument change.
  (str_transcode): preprocessor and postprocessor stuff removed.

* enc/trans/iso2022.erb.c: new file.  ISO-2022-JP conversion
  re-implemented.

* enc/trans/japanese.erb.c: ISO-2022-JP stuff removed.

nute(23:52:53)% head -40 ChangeLog
Thu Aug  7 23:43:11 2008  Tanaka Akira  <akr@fsij.org>

* transcode_data.h (rb_transcoding): new field "stateful".
  (rb_transcoder): preprocessor and postprocessor field removed.
  change arguments of func_ii, func_si, func_io and func_so.
  new field "finish_func".

* tool/transcode-tblgen.rb: make FUNii, FUNsi and FUNio
  generatable.

* transcode.c (transcoder_lib_table): removed.
  (transcoder_table): change structure.
  (transcoder_key): removed because the above structure change.
  (make_transcoder_entry): new function.
  (get_transcoder_entry): ditto.
  (rb_register_transcoder): follow the structure change.
  (declare_transcoder): ditto.
  (transcode_search_path): new function for breadth first search to
  find a list of converters.
  (transcode_search_path_i): new function.
  (transcode_dispatch_cb): ditto.
  (transcode_dispatch): use transcode_search_path.
  (transcode_loop): follow the argument change.
  (str_transcode): preprocessor and postprocessor stuff removed.

* enc/trans/iso2022.erb.c: new file.  ISO-2022-JP conversion
  re-implemented.

* enc/trans/japanese.erb.c: ISO-2022-JP stuff removed.

* enc/trans/utf_16_32.erb.c: follow argument change of FUNso.

[ruby-dev:35798]


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18419 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
This commit is contained in:
akr 2008-08-07 14:53:30 +00:00
parent 05373c4469
commit 1504652373
8 changed files with 430 additions and 339 deletions
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34
ChangeLog
View file

@ -1,3 +1,37 @@
Thu Aug 7 23:43:11 2008 Tanaka Akira <akr@fsij.org>
* transcode_data.h (rb_transcoding): new field "stateful".
(rb_transcoder): preprocessor and postprocessor field removed.
change arguments of func_ii, func_si, func_io and func_so.
new field "finish_func".
* tool/transcode-tblgen.rb: make FUNii, FUNsi and FUNio
generatable.
* transcode.c (transcoder_lib_table): removed.
(transcoder_table): change structure.
(transcoder_key): removed because the above structure change.
(make_transcoder_entry): new function.
(get_transcoder_entry): ditto.
(rb_register_transcoder): follow the structure change.
(declare_transcoder): ditto.
(transcode_search_path): new function for breadth first search to
find a list of converters.
(transcode_search_path_i): new function.
(transcode_dispatch_cb): ditto.
(transcode_dispatch): use transcode_search_path.
(transcode_loop): follow the argument change.
(str_transcode): preprocessor and postprocessor stuff removed.
* enc/trans/iso2022.erb.c: new file. ISO-2022-JP conversion
re-implemented.
* enc/trans/japanese.erb.c: ISO-2022-JP stuff removed.
* enc/trans/utf_16_32.erb.c: follow argument change of FUNso.
[ruby-dev:35798]
Thu Aug 7 22:55:44 2008 TAKAO Kouji <kouji@takao7.net>
* ext/readline/README.ja: updated API document for Readline module.

142
enc/trans/iso2022.erb.c Normal file
View file

@ -0,0 +1,142 @@
#include "transcode_data.h"
<%
map = {}
map["1b2842"] = :func_so # designate US-ASCII to G0. "ESC ( B"
map["1b284a"] = :func_so # designate JIS X 0201 latin to G0. "ESC ( J"
map["1b2440"] = :func_so # designate JIS X 0208 1978 to G0. "ESC $ @"
map["1b2442"] = :func_so # designate JIS X 0208 1983 to G0. "ESC $ B"
map["{00-0d,10-1a,1c-7f}"] = :func_si
map_jisx0208_rest = {}
map_jisx0208_rest["{21-7e}"] = :func_so
%>
<%= transcode_generate_node(ActionMap.parse(map), "iso2022jp_to_eucjp", []) %>
<%= transcode_generate_node(ActionMap.parse(map_jisx0208_rest), "iso2022jp_to_eucjp_jisx0208_rest", []) %>
static VALUE
fun_si_iso2022jp_to_eucjp(rb_transcoding* t, const unsigned char* s, size_t l)
{
if (t->stateful[0] == 0)
return (VALUE)NOMAP;
else if (0x21 <= s[0] && s[0] <= 0x7e)
return (VALUE)&iso2022jp_to_eucjp_jisx0208_rest;
else
return (VALUE)INVALID;
}
static int
fun_so_iso2022jp_to_eucjp(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
if (s[0] == 0x1b) {
if (s[1] == '(') {
switch (s[l-1]) {
case 'B':
case 'J':
t->stateful[0] = 0;
break;
}
}
else {
switch (s[l-1]) {
case '@':
case 'B':
t->stateful[0] = 1;
break;
}
}
return 0;
}
else {
o[0] = s[0] | 0x80;
o[1] = s[1] | 0x80;
return 2;
}
}
static const rb_transcoder
rb_ISO_2022_JP_to_EUC_JP = {
"ISO-2022-JP", "EUC-JP", &iso2022jp_to_eucjp, 3, 0,
NULL, fun_si_iso2022jp_to_eucjp, NULL, fun_so_iso2022jp_to_eucjp
};
<%
map_eucjp = {
"{0e,0f,1b}" => :undef,
"{00-0d,10-1a,1c-7f}" => :func_so,
"{a1-fe}{a1-fe}" => :func_so,
"8e{a1-fe}" => :undef,
"8f{a1-fe}{a1-fe}" => :undef,
}
%>
<%= transcode_generate_node(ActionMap.parse(map_eucjp), "eucjp_to_iso2022jp", []) %>
static int
fun_so_eucjp_to_iso2022jp(rb_transcoding *t, const unsigned char *s, size_t l, unsigned char *o)
{
unsigned char *output0 = o;
if (t->stateful[0] == 0) {
t->stateful[0] = 1; /* initialized flag */
t->stateful[1] = 1; /* ASCII mode */
}
if (l != t->stateful[1]) {
if (l == 1) {
*o++ = 0x1b;
*o++ = '(';
*o++ = 'B';
t->stateful[1] = 1;
}
else {
*o++ = 0x1b;
*o++ = '$';
*o++ = 'B';
t->stateful[1] = 2;
}
}
if (l == 1) {
*o++ = s[0] & 0x7f;
}
else {
*o++ = s[0] & 0x7f;
*o++ = s[1] & 0x7f;
}
return o - output0;
}
static int
finish_eucjp_to_iso2022jp(rb_transcoding *t, unsigned char *o)
{
unsigned char *output0 = o;
if (t->stateful[0] == 0)
return 0;
if (t->stateful[1] != 1) {
*o++ = 0x1b;
*o++ = '(';
*o++ = 'B';
t->stateful[1] = 1;
}
return o - output0;
}
static const rb_transcoder
rb_EUC_JP_to_ISO_2022_JP = {
"EUC-JP", "ISO-2022-JP", &eucjp_to_iso2022jp, 5, 0,
NULL, NULL, NULL, fun_so_eucjp_to_iso2022jp, finish_eucjp_to_iso2022jp
};
void
Init_iso2022(void)
{
rb_register_transcoder(&rb_ISO_2022_JP_to_EUC_JP);
rb_register_transcoder(&rb_EUC_JP_to_ISO_2022_JP);
}

227
enc/trans/japanese.erb.c
View file

@ -17,235 +17,8 @@
<%= transcode_tblgen "UTF-8", "EUC-JP", [["{00-7f}", :nomap], *UCS_TO_EUCJP_TBL] %>
<%= transcode_tblgen "UTF-8", "CP51932", [["{00-7f}", :nomap], *UCS_TO_EUCJP_TBL] %>
#define ISO_2022_ENCODING(escseq, byte) ((escseq<<8)|byte)
enum ISO_2022_ESCSEQ {
ISO_2022_CZD = '!',
ISO_2022_C1D = '"',
ISO_2022_GZD4 = '(',
ISO_2022_G1D4 = ')',
ISO_2022_G2D4 = '*',
ISO_2022_G3D4 = '+',
ISO_2022_G1D6 = '-',
ISO_2022_G2D6 = '.',
ISO_2022_G3D6 = '/',
ISO_2022_GZDM4 = ISO_2022_ENCODING('$','('),
ISO_2022_G1DM4 = ISO_2022_ENCODING('$',')'),
ISO_2022_G2DM4 = ISO_2022_ENCODING('$','*'),
ISO_2022_G3DM4 = ISO_2022_ENCODING('$','+'),
ISO_2022_G1DM6 = ISO_2022_ENCODING('$','-'),
ISO_2022_G2DM6 = ISO_2022_ENCODING('$','.'),
ISO_2022_G3DM6 = ISO_2022_ENCODING('$','/'),
ISO_2022_DOCS = ISO_2022_ENCODING('%','I'),
ISO_2022_IRR = '&'
};
#define ISO_2022_GZ_ASCII ISO_2022_ENCODING(ISO_2022_GZD4, 'B')
#define ISO_2022_GZ_JIS_X_0201_Katakana ISO_2022_ENCODING(ISO_2022_GZD4, 'I')
#define ISO_2022_GZ_JIS_X_0201_Roman ISO_2022_ENCODING(ISO_2022_GZD4, 'J')
#define ISO_2022_GZ_JIS_C_6226_1978 ISO_2022_ENCODING(ISO_2022_GZDM4,'@')
#define ISO_2022_GZ_JIS_X_0208_1983 ISO_2022_ENCODING(ISO_2022_GZDM4,'B')
#define ISO_2022_GZ_JIS_X_0212_1990 ISO_2022_ENCODING(ISO_2022_GZDM4,'D')
#define ISO_2022_GZ_JIS_X_0213_2000_1 ISO_2022_ENCODING(ISO_2022_GZDM4,'O')
#define ISO_2022_GZ_JIS_X_0213_2000_2 ISO_2022_ENCODING(ISO_2022_GZDM4,'P')
#define ISO_2022_GZ_JIS_X_0213_2004_1 ISO_2022_ENCODING(ISO_2022_GZDM4,'Q')
#define UNSUPPORTED_MODE TRANSCODE_ERROR
static int
get_iso_2022_mode(const unsigned char **in_pos)
{
int new_mode;
const unsigned char *in_p = *in_pos;
switch (*in_p++) {
case '(':
switch (*in_p++) {
case 'B': case 'I': case 'J':
new_mode = ISO_2022_ENCODING(ISO_2022_GZD4, *(in_p-1));
break;
default:
rb_raise(UNSUPPORTED_MODE, "this mode is not supported (ESC ( %c)", *(in_p-1));
break;
}
break;
case '$':
switch (*in_p++) {
case '@': case 'A': case 'B':
new_mode = ISO_2022_ENCODING(ISO_2022_GZDM4, *(in_p-1));
break;
case '(':
switch (*in_p++) {
case 'D': case 'O': case 'P': case 'Q':
new_mode = ISO_2022_ENCODING(ISO_2022_GZDM4, *(in_p-1));
break;
default:
rb_raise(UNSUPPORTED_MODE, "this mode is not supported (ESC $ ( %c)", *(in_p-1));
break;
}
break;
default:
rb_raise(UNSUPPORTED_MODE, "this mode is not supported (ESC $ %c)", *(in_p-1));
break;
}
break;
default:
rb_raise(UNSUPPORTED_MODE, "this mode is not supported (ESC %c)", *(in_p-1));
break;
}
*in_pos = in_p;
return new_mode;
}
static void
from_iso_2022_jp_transcoder_preprocessor(const unsigned char **in_pos, unsigned char **out_pos,
const unsigned char *in_stop, unsigned char *out_stop,
rb_transcoding *my_transcoding)
{
const rb_transcoder *my_transcoder = my_transcoding->transcoder;
const unsigned char *in_p = *in_pos;
unsigned char *out_p = *out_pos;
int cur_mode = ISO_2022_GZ_ASCII;
unsigned char c1;
unsigned char *out_s = out_stop - my_transcoder->max_output + 1;
while (in_p < in_stop) {
if (out_p >= out_s) {
int len = (out_p - *out_pos);
int new_len = (len + my_transcoder->max_output) * 2;
*out_pos = (*my_transcoding->flush_func)(my_transcoding, len, new_len);
out_p = *out_pos + len;
out_s = *out_pos + new_len - my_transcoder->max_output;
}
c1 = *in_p++;
if (c1 == 0x1B) {
cur_mode = get_iso_2022_mode(&in_p);
}
else if (c1 == 0x1E || c1 == 0x1F) {
/* SHIFT */
rb_raise(UNSUPPORTED_MODE, "shift is not supported");
}
else if (c1 >= 0x80) {
rb_raise(TRANSCODE_ERROR, "invalid byte sequence");
}
else {
switch (cur_mode) {
case ISO_2022_GZ_ASCII:
case ISO_2022_GZ_JIS_X_0201_Roman:
*out_p++ = c1;
break;
case ISO_2022_GZ_JIS_X_0201_Katakana:
*out_p++ = 0x8E;
*out_p++ = c1 | 0x80;
break;
case ISO_2022_GZ_JIS_X_0212_1990:
*out_p++ = 0x8F;
case ISO_2022_GZ_JIS_C_6226_1978:
case ISO_2022_GZ_JIS_X_0208_1983:
*out_p++ = c1 | 0x80;
*out_p++ = *in_p++ | 0x80;
break;
}
}
}
/* cleanup */
*in_pos = in_p;
*out_pos = out_p;
}
static int
select_iso_2022_mode(unsigned char **out_pos, int new_mode)
{
unsigned char *out_p = *out_pos;
*out_p++ = '\x1b';
switch (new_mode>>8) {
case ISO_2022_GZD4:
*out_p++ = new_mode >> 8;
*out_p++ = new_mode & 0x7F;
break;
case ISO_2022_GZDM4:
*out_p++ = new_mode >> 16;
if ((new_mode & 0x7F) != '@' &&
(new_mode & 0x7F) != 'A' &&
(new_mode & 0x7F) != 'B')
{
*out_p++ = (new_mode>>8) & 0x7F;
}
*out_p++ = new_mode & 0x7F;
break;
default:
rb_raise(UNSUPPORTED_MODE, "this mode is not supported.");
break;
}
*out_pos = out_p;
return new_mode;
}
static void
to_iso_2022_jp_transcoder_postprocessor(const unsigned char **in_pos, unsigned char **out_pos,
const unsigned char *in_stop, unsigned char *out_stop,
rb_transcoding *my_transcoding)
{
const rb_transcoder *my_transcoder = my_transcoding->transcoder;
const unsigned char *in_p = *in_pos;
unsigned char *out_p = *out_pos;
int cur_mode = ISO_2022_GZ_ASCII, new_mode = 0;
unsigned char next_byte;
unsigned char *out_s = out_stop - my_transcoder->max_output + 1;
while (in_p < in_stop) {
if (out_p >= out_s) {
int len = (out_p - *out_pos);
int new_len = (len + my_transcoder->max_output) * 2;
*out_pos = (*my_transcoding->flush_func)(my_transcoding, len, new_len);
out_p = *out_pos + len;
out_s = *out_pos + new_len - my_transcoder->max_output;
}
next_byte = *in_p++;
if (next_byte < 0x80) {
new_mode = ISO_2022_GZ_ASCII;
}
else if (next_byte == 0x8E) {
new_mode = ISO_2022_GZ_JIS_X_0201_Katakana;
next_byte = *in_p++;
}
else if (next_byte == 0x8F) {
new_mode = ISO_2022_GZ_JIS_X_0212_1990;
next_byte = *in_p++;
}
else {
new_mode = ISO_2022_GZ_JIS_X_0208_1983;
}
if (cur_mode != new_mode)
cur_mode = select_iso_2022_mode(&out_p, new_mode);
if (cur_mode < 0xFFFF) {
*out_p++ = next_byte & 0x7F;
}
else {
*out_p++ = next_byte & 0x7F;
*out_p++ = *in_p++ & 0x7F;
}
}
if (cur_mode != ISO_2022_GZ_ASCII)
cur_mode = select_iso_2022_mode(&out_p, ISO_2022_GZ_ASCII);
/* cleanup */
*in_pos = in_p;
*out_pos = out_p;
}
static const rb_transcoder
rb_from_ISO_2022_JP = {
"ISO-2022-JP", "UTF-8", &from_EUC_JP, 8, 0,
&from_iso_2022_jp_transcoder_preprocessor, NULL,
};
static const rb_transcoder
rb_to_ISO_2022_JP = {
"UTF-8", "ISO-2022-JP", &to_EUC_JP, 8, 1,
NULL, &to_iso_2022_jp_transcoder_postprocessor,
};
void
Init_japanese(void)
{
<%= transcode_register_code %>
rb_register_transcoder(&rb_from_ISO_2022_JP);
rb_register_transcoder(&rb_to_ISO_2022_JP);
}

32
enc/trans/utf_16_32.erb.c
View file

@ -1,7 +1,7 @@
#include "transcode_data.h"
static int
fun_so_from_utf_16be(const unsigned char* s, unsigned char* o)
fun_so_from_utf_16be(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
if (!s[0] && s[1]<0x80) {
o[0] = s[1];
@ -29,7 +29,7 @@ fun_so_from_utf_16be(const unsigned char* s, unsigned char* o)
}
static int
fun_so_to_utf_16be(const unsigned char* s, unsigned char* o)
fun_so_to_utf_16be(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
if (!(s[0]&0x80)) {
o[0] = 0x00;
@ -57,7 +57,7 @@ fun_so_to_utf_16be(const unsigned char* s, unsigned char* o)
}
static int
fun_so_from_utf_16le(const unsigned char* s, unsigned char* o)
fun_so_from_utf_16le(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
if (!s[1] && s[0]<0x80) {
o[0] = s[0];
@ -85,7 +85,7 @@ fun_so_from_utf_16le(const unsigned char* s, unsigned char* o)
}
static int
fun_so_to_utf_16le(const unsigned char* s, unsigned char* o)
fun_so_to_utf_16le(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
if (!(s[0]&0x80)) {
o[1] = 0x00;
@ -113,7 +113,7 @@ fun_so_to_utf_16le(const unsigned char* s, unsigned char* o)
}
static int
fun_so_from_utf_32be(const unsigned char* s, unsigned char* o)
fun_so_from_utf_32be(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
if (!s[1]) {
if (s[2]==0 && s[3]<0x80) {
@ -142,7 +142,7 @@ fun_so_from_utf_32be(const unsigned char* s, unsigned char* o)
}
static int
fun_so_to_utf_32be(const unsigned char* s, unsigned char* o)
fun_so_to_utf_32be(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
o[0] = 0;
if (!(s[0]&0x80)) {
@ -168,13 +168,13 @@ fun_so_to_utf_32be(const unsigned char* s, unsigned char* o)
}
static int
fun_so_from_utf_32le(const unsigned char* s, unsigned char* o)
fun_so_from_utf_32le(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
return 1;
}
static int
fun_so_to_utf_32le(const unsigned char* s, unsigned char* o)
fun_so_to_utf_32le(rb_transcoding* t, const unsigned char* s, size_t l, unsigned char* o)
{
return 4;
}
@ -191,7 +191,7 @@ fun_so_to_utf_32le(const unsigned char* s, unsigned char* o)
static const rb_transcoder
rb_from_UTF_16BE = {
"UTF-16BE", "UTF-8", &from_UTF_16BE, 4, 0,
NULL, NULL, NULL, NULL, NULL, &fun_so_from_utf_16be
NULL, NULL, NULL, &fun_so_from_utf_16be
};
<%=
@ -217,7 +217,7 @@ rb_from_UTF_16BE = {
static const rb_transcoder
rb_to_UTF_16BE = {
"UTF-8", "UTF-16BE", &to_UTF_16BE, 4, 1,
NULL, NULL, NULL, NULL, NULL, &fun_so_to_utf_16be
NULL, NULL, NULL, &fun_so_to_utf_16be
};
<%=
@ -232,13 +232,13 @@ rb_to_UTF_16BE = {
static const rb_transcoder
rb_from_UTF_16LE = {
"UTF-16LE", "UTF-8", &from_UTF_16LE, 4, 0,
NULL, NULL, NULL, NULL, NULL, &fun_so_from_utf_16le
NULL, NULL, NULL, &fun_so_from_utf_16le
};
static const rb_transcoder
rb_to_UTF_16LE = {
"UTF-8", "UTF-16LE", &to_UTF_16BE, 4, 1,
NULL, NULL, NULL, NULL, NULL, &fun_so_to_utf_16le
NULL, NULL, NULL, &fun_so_to_utf_16le
};
<%=
@ -254,13 +254,13 @@ rb_to_UTF_16LE = {
static const rb_transcoder
rb_from_UTF_32BE = {
"UTF-32BE", "UTF-8", &from_UTF_32BE, 4, 0,
NULL, NULL, NULL, NULL, NULL, &fun_so_from_utf_32be
NULL, NULL, NULL, &fun_so_from_utf_32be
};
static const rb_transcoder
rb_to_UTF_32BE = {
"UTF-8", "UTF-32BE", &to_UTF_16BE, 4, 1,
NULL, NULL, NULL, NULL, NULL, &fun_so_to_utf_32be
NULL, NULL, NULL, &fun_so_to_utf_32be
};
<%=
@ -276,13 +276,13 @@ rb_to_UTF_32BE = {
static const rb_transcoder
rb_from_UTF_32LE = {
"UTF-32LE", "UTF-8", &from_UTF_32LE, 4, 0,
NULL, NULL, NULL, NULL, NULL, &fun_so_from_utf_32le
NULL, NULL, NULL, &fun_so_from_utf_32le
};
static const rb_transcoder
rb_to_UTF_32LE = {
"UTF-8", "UTF-32LE", &to_UTF_16BE, 4, 1,
NULL, NULL, NULL, NULL, NULL, &fun_so_to_utf_32le
NULL, NULL, NULL, &fun_so_to_utf_32le
};
void

7
test/ruby/test_transcode.rb
View file

@ -321,12 +321,13 @@ class TestTranscode < Test::Unit::TestCase
assert_raise(RuntimeError) { "\x1b(A".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\x1b$(A".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\x1b$C".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\x1e".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\x0e".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\x80".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\x1b$(Dd!\x1b(B".encode("utf-8", "iso-2022-jp") }
assert_raise(RuntimeError) { "\u9299".encode("iso-2022-jp") }
#@@@@ TODO: the next test should actually fail, because iso-2022-jp does not include half-width kana
check_both_ways("\uff71\uff72\uff73\uff74\uff75", "\x1b(I12345\x1b(B", "iso-2022-jp") # JIS X 0201 ァィゥェォ
assert_raise(RuntimeError) { "\u9299".encode("iso-2022-jp") }
assert_raise(RuntimeError) { "\uff71\uff72\uff73\uff74\uff75".encode("iso-2022-jp") }
assert_raise(RuntimeError) { "\x1b(I12345\x1b(B".encode("utf-8", "iso-2022-jp") }
end
def test_iso_2022_jp_1

6
tool/transcode-tblgen.rb
View file

@ -234,6 +234,12 @@ class ActionMap
"UNDEF"
when :invalid
"INVALID"
when :func_ii
"FUNii"
when :func_si
"FUNsi"
when :func_io
"FUNio"
when :func_so
"FUNso"
when /\A([0-9a-f][0-9a-f])\z/i

300
transcode.c
View file

@ -25,53 +25,78 @@ static VALUE sym_invalid, sym_undef, sym_ignore, sym_replace;
* Dispatch data and logic
*/
static st_table *transcoder_table, *transcoder_lib_table;
typedef struct {
const char *from;
const char *to;
const char *lib; /* maybe null. it means that don't load the library. */
const rb_transcoder *transcoder;
} transcoder_entry_t;
#define TRANSCODER_INTERNAL_SEPARATOR '\t'
static st_table *transcoder_table;
static char *
transcoder_key(const char *from_e, const char *to_e)
static transcoder_entry_t *
make_transcoder_entry(const char *from, const char *to)
{
int to_len = strlen(to_e);
int from_len = strlen(from_e);
char *const key = xmalloc(to_len + from_len + 2);
st_data_t val;
st_table *table2;
memcpy(key, to_e, to_len);
memcpy(key + to_len + 1, from_e, from_len + 1);
key[to_len] = TRANSCODER_INTERNAL_SEPARATOR;
return key;
if (!st_lookup(transcoder_table, (st_data_t)from, &val)) {
val = (st_data_t)st_init_strcasetable();
st_add_direct(transcoder_table, (st_data_t)from, val);
}
table2 = (st_table *)val;
if (!st_lookup(table2, (st_data_t)to, &val)) {
transcoder_entry_t *entry = ALLOC(transcoder_entry_t);
entry->from = from;
entry->to = to;
entry->lib = NULL;
entry->transcoder = NULL;
val = (st_data_t)entry;
st_add_direct(table2, (st_data_t)to, val);
}
return (transcoder_entry_t *)val;
}
static transcoder_entry_t *
get_transcoder_entry(const char *from, const char *to)
{
st_data_t val;
st_table *table2;
if (!st_lookup(transcoder_table, (st_data_t)from, &val)) {
return NULL;
}
table2 = (st_table *)val;
if (!st_lookup(table2, (st_data_t)to, &val)) {
return NULL;
}
return (transcoder_entry_t *)val;
}
void
rb_register_transcoder(const rb_transcoder *tr)
{
st_data_t k, val = 0;
const char *const from_e = tr->from_encoding;
const char *const to_e = tr->to_encoding;
char *const key = transcoder_key(from_e, to_e);
if (st_lookup(transcoder_table, (st_data_t)key, &val)) {
xfree(key);
transcoder_entry_t *entry;
entry = make_transcoder_entry(from_e, to_e);
if (entry->transcoder) {
rb_raise(rb_eArgError, "transcoder from %s to %s has been already registered",
from_e, to_e);
}
k = (st_data_t)key;
if (st_delete(transcoder_lib_table, &k, &val)) {
xfree((char *)k);
}
st_insert(transcoder_table, (st_data_t)key, (st_data_t)tr);
entry->transcoder = tr;
}
static void
declare_transcoder(const char *to, const char *from, const char *lib)
{
const char *const key = transcoder_key(to, from);
st_data_t k = (st_data_t)key, val;
transcoder_entry_t *entry;
if (st_delete(transcoder_lib_table, &k, &val)) {
xfree((char *)k);
}
st_insert(transcoder_lib_table, (st_data_t)key, (st_data_t)lib);
entry = make_transcoder_entry(from, to);
entry->lib = lib;
}
#define MAX_TRANSCODER_LIBNAME_LEN 64
@ -90,39 +115,167 @@ rb_declare_transcoder(const char *enc1, const char *enc2, const char *lib)
#define encoding_equal(enc1, enc2) (STRCASECMP(enc1, enc2) == 0)
static const rb_transcoder *
transcode_dispatch(const char *from_encoding, const char *to_encoding)
{
char *const key = transcoder_key(from_encoding, to_encoding);
st_data_t k, val = 0;
typedef struct search_path_queue_tag {
struct search_path_queue_tag *next;
const char *enc;
} search_path_queue_t;
while (!st_lookup(transcoder_table, (k = (st_data_t)key), &val) &&
st_delete(transcoder_lib_table, &k, &val)) {
const char *const lib = (const char *)val;
typedef struct {
st_table *visited;
search_path_queue_t *queue;
search_path_queue_t **queue_last_ptr;
const char *base_enc;
} search_path_bfs_t;
static int
transcode_search_path_i(st_data_t key, st_data_t val, st_data_t arg)
{
const char *to = (const char *)key;
search_path_bfs_t *bfs = (search_path_bfs_t *)arg;
search_path_queue_t *q;
if (st_lookup(bfs->visited, (st_data_t)to, &val)) {
return ST_CONTINUE;
}
q = ALLOC(search_path_queue_t);
q->enc = to;
q->next = NULL;
*bfs->queue_last_ptr = q;
bfs->queue_last_ptr = &q->next;
st_add_direct(bfs->visited, (st_data_t)to, (st_data_t)bfs->base_enc);
return ST_CONTINUE;
}
static int
transcode_search_path(const char *from, const char *to,
void (*callback)(const char *from, const char *to, int depth, void *arg),
void *arg)
{
search_path_bfs_t bfs;
search_path_queue_t *q;
st_data_t val;
st_table *table2;
int found;
q = ALLOC(search_path_queue_t);
q->enc = from;
q->next = NULL;
bfs.queue_last_ptr = &q->next;
bfs.queue = q;
bfs.visited = st_init_strcasetable();
st_add_direct(bfs.visited, (st_data_t)from, (st_data_t)NULL);
while (bfs.queue) {
q = bfs.queue;
bfs.queue = q->next;
if (!bfs.queue)
bfs.queue_last_ptr = &bfs.queue;
if (!st_lookup(transcoder_table, (st_data_t)q->enc, &val)) {
xfree(q);
continue;
}
table2 = (st_table *)val;
if (st_lookup(table2, (st_data_t)to, &val)) {
st_add_direct(bfs.visited, (st_data_t)to, (st_data_t)q->enc);
xfree(q);
found = 1;
goto cleanup;
}
bfs.base_enc = q->enc;
st_foreach(table2, transcode_search_path_i, (st_data_t)&bfs);
bfs.base_enc = NULL;
xfree(q);
}
found = 0;
cleanup:
while (bfs.queue) {
q = bfs.queue;
bfs.queue = q->next;
xfree(q);
}
if (found) {
const char *enc = to;
int depth = 0;
while (1) {
st_lookup(bfs.visited, (st_data_t)enc, &val);
if (!val)
break;
depth++;
enc = (const char *)val;
}
enc = to;
while (1) {
st_lookup(bfs.visited, (st_data_t)enc, &val);
if (!val)
break;
callback((const char *)val, enc, --depth, arg);
enc = (const char *)val;
}
}
st_free_table(bfs.visited);
return found;
}
static void
transcode_dispatch_cb(const char *from, const char *to, int depth, void *arg)
{
const rb_transcoder **first_transcoder_ptr = (const rb_transcoder **)arg;
transcoder_entry_t *entry;
if (!*first_transcoder_ptr)
return;
entry = get_transcoder_entry(from, to);
if (!entry)
goto failed;
if (!entry->transcoder && entry->lib) {
const char *lib = entry->lib;
int len = strlen(lib);
char path[sizeof(transcoder_lib_prefix) + MAX_TRANSCODER_LIBNAME_LEN];
xfree((char *)k);
if (len > MAX_TRANSCODER_LIBNAME_LEN) return NULL;
entry->lib = NULL;
if (len > MAX_TRANSCODER_LIBNAME_LEN) goto failed;
memcpy(path, transcoder_lib_prefix, sizeof(transcoder_lib_prefix) - 1);
memcpy(path + sizeof(transcoder_lib_prefix) - 1, lib, len + 1);
if (!rb_require(path)) return NULL;
if (!rb_require(path)) goto failed;
}
if (!val) {
if (!st_lookup(transcoder_table, (st_data_t)key, &val)) {
xfree(key);
/* multistep logic, via UTF-8 */
if (!encoding_equal(from_encoding, "UTF-8") &&
!encoding_equal(to_encoding, "UTF-8") &&
transcode_dispatch("UTF-8", to_encoding)) { /* check that we have a second step */
return transcode_dispatch(from_encoding, "UTF-8"); /* return first step */
if (!entry->transcoder)
goto failed;
if (depth == 0)
*first_transcoder_ptr = entry->transcoder;
return;
failed:
*first_transcoder_ptr = NULL;
return;
}
static const rb_transcoder *
transcode_dispatch(const char *from_encoding, const char *to_encoding)
{
const rb_transcoder *first_transcoder = (rb_transcoder *)1;
if (transcode_search_path(from_encoding, to_encoding, transcode_dispatch_cb, (void *)&first_transcoder)) {
return first_transcoder;
}
return NULL;
}
}
xfree(key);
return (rb_transcoder *)val;
}
static void
output_replacement_character(unsigned char **out_pp, rb_encoding *enc)
@ -245,17 +398,17 @@ transcode_loop(const unsigned char **in_pos, unsigned char **out_pos,
*out_p++ = getBT3(next_info);
continue;
case FUNii:
next_info = (VALUE)(*my_transcoder->func_ii)(next_info);
next_info = (VALUE)(*my_transcoder->func_ii)(my_transcoding, next_info);
goto follow_info;
case FUNsi:
next_info = (VALUE)(*my_transcoder->func_si)(char_start);
next_info = (VALUE)(*my_transcoder->func_si)(my_transcoding, char_start, (size_t)(in_p-char_start));
goto follow_info;
break;
case FUNio:
out_p += (VALUE)(*my_transcoder->func_io)(next_info, out_p);
out_p += (VALUE)(*my_transcoder->func_io)(my_transcoding, next_info, out_p);
break;
case FUNso:
out_p += (VALUE)(*my_transcoder->func_so)(char_start, out_p);
out_p += (VALUE)(*my_transcoder->func_so)(my_transcoding, char_start, (size_t)(in_p-char_start), out_p);
break;
case INVALID:
goto invalid;
@ -290,6 +443,16 @@ transcode_loop(const unsigned char **in_pos, unsigned char **out_pos,
continue;
}
/* cleanup */
if (my_transcoder->finish_func) {
if (out_p >= out_s) {
int len = (out_p - *out_pos);
int new_len = (len + my_transcoder->max_output) * 2;
*out_pos = (*my_transcoding->flush_func)(my_transcoding, len, new_len);
out_p = *out_pos + len;
out_s = *out_pos + new_len - my_transcoder->max_output;
}
out_p += my_transcoder->finish_func(my_transcoding, out_p);
}
*in_pos = in_p;
*out_pos = out_p;
}
@ -401,21 +564,8 @@ str_transcode(int argc, VALUE *argv, VALUE *self)
}
my_transcoding.transcoder = my_transcoder;
memset(my_transcoding.stateful, 0, sizeof(my_transcoding.stateful));
if (my_transcoder->preprocessor) {
fromp = sp = (unsigned char *)RSTRING_PTR(str);
slen = RSTRING_LEN(str);
blen = slen + 30; /* len + margin */
dest = rb_str_tmp_new(blen);
bp = (unsigned char *)RSTRING_PTR(dest);
my_transcoding.ruby_string_dest = dest;
(*my_transcoder->preprocessor)(&fromp, &bp, (sp+slen), (bp+blen), &my_transcoding);
if (fromp != sp+slen) {
rb_raise(rb_eArgError, "not fully converted, %"PRIdPTRDIFF" bytes left", sp+slen-fromp);
}
rb_str_set_len(dest, (char *)bp - RSTRING_PTR(dest));
str = dest;
}
fromp = sp = (unsigned char *)RSTRING_PTR(str);
slen = RSTRING_LEN(str);
blen = slen + 30; /* len + margin */
@ -431,21 +581,6 @@ str_transcode(int argc, VALUE *argv, VALUE *self)
buf = (unsigned char *)RSTRING_PTR(dest);
*bp = '\0';
rb_str_set_len(dest, bp - buf);
if (my_transcoder->postprocessor) {
str = dest;
fromp = sp = (unsigned char *)RSTRING_PTR(str);
slen = RSTRING_LEN(str);
blen = slen + 30; /* len + margin */
dest = rb_str_tmp_new(blen);
bp = (unsigned char *)RSTRING_PTR(dest);
my_transcoding.ruby_string_dest = dest;
(*my_transcoder->postprocessor)(&fromp, &bp, (sp+slen), (bp+blen), &my_transcoding);
if (fromp != sp+slen) {
rb_raise(rb_eArgError, "not fully converted, %"PRIdPTRDIFF" bytes left", sp+slen-fromp);
}
buf = (unsigned char *)RSTRING_PTR(dest);
rb_str_set_len(dest, bp - buf);
}
if (encoding_equal(my_transcoder->to_encoding, to_e)) {
final_encoding = 1;
@ -541,7 +676,6 @@ void
Init_transcode(void)
{
transcoder_table = st_init_strcasetable();
transcoder_lib_table = st_init_strcasetable();
sym_invalid = ID2SYM(rb_intern("invalid"));
sym_undef = ID2SYM(rb_intern("undef"));

13
transcode_data.h
View file

@ -63,6 +63,8 @@ typedef struct rb_transcoding {
VALUE ruby_string_dest; /* the String used as the conversion destination,
or NULL if something else is being converted */
unsigned char *(*flush_func)(struct rb_transcoding*, int, int);
unsigned char stateful[256]; /* opaque data for stateful encoding */
} rb_transcoding;
/* static structure, one per supported encoding pair */
@ -72,12 +74,11 @@ typedef struct rb_transcoder {
const BYTE_LOOKUP *conv_tree_start;
int max_output;
int from_utf8;
void (*preprocessor)(const unsigned char**, unsigned char**, const unsigned char*, unsigned char*, struct rb_transcoding *);
void (*postprocessor)(const unsigned char**, unsigned char**, const unsigned char*, unsigned char*, struct rb_transcoding *);
VALUE (*func_ii)(VALUE); /* info -> info */
VALUE (*func_si)(const unsigned char *); /* start -> info */
int (*func_io)(VALUE, const unsigned char*); /* info -> output */
int (*func_so)(const unsigned char*, unsigned char*); /* start -> output */
VALUE (*func_ii)(rb_transcoding*, VALUE); /* info -> info */
VALUE (*func_si)(rb_transcoding*, const unsigned char*, size_t); /* start -> info */
int (*func_io)(rb_transcoding*, VALUE, const unsigned char*); /* info -> output */
int (*func_so)(rb_transcoding*, const unsigned char*, size_t, unsigned char*); /* start -> output */
int (*finish_func)(rb_transcoding*, unsigned char*); /* -> output */
} rb_transcoder;
void rb_declare_transcoder(const char *enc1, const char *enc2, const char *lib);