#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "mbfilter.h"
#include "mbfilter_utf32.h"
static const char *mbfl_encoding_utf32_aliases[] = {"utf32", NULL};
const mbfl_encoding mbfl_encoding_utf32 = {
mbfl_no_encoding_utf32,
"UTF-32",
"UTF-32",
(const char *(*)[])&mbfl_encoding_utf32_aliases,
NULL,
MBFL_ENCTYPE_WCS4BE
};
const mbfl_encoding mbfl_encoding_utf32be = {
mbfl_no_encoding_utf32be,
"UTF-32BE",
"UTF-32BE",
NULL,
NULL,
MBFL_ENCTYPE_WCS4BE
};
const mbfl_encoding mbfl_encoding_utf32le = {
mbfl_no_encoding_utf32le,
"UTF-32LE",
"UTF-32LE",
NULL,
NULL,
MBFL_ENCTYPE_WCS4LE
};
const struct mbfl_convert_vtbl vtbl_utf32_wchar = {
mbfl_no_encoding_utf32,
mbfl_no_encoding_wchar,
mbfl_filt_conv_common_ctor,
mbfl_filt_conv_common_dtor,
mbfl_filt_conv_utf32_wchar,
mbfl_filt_conv_common_flush
};
const struct mbfl_convert_vtbl vtbl_wchar_utf32 = {
mbfl_no_encoding_wchar,
mbfl_no_encoding_utf32,
mbfl_filt_conv_common_ctor,
mbfl_filt_conv_common_dtor,
mbfl_filt_conv_wchar_utf32be,
mbfl_filt_conv_common_flush
};
const struct mbfl_convert_vtbl vtbl_utf32be_wchar = {
mbfl_no_encoding_utf32be,
mbfl_no_encoding_wchar,
mbfl_filt_conv_common_ctor,
mbfl_filt_conv_common_dtor,
mbfl_filt_conv_utf32be_wchar,
mbfl_filt_conv_common_flush
};
const struct mbfl_convert_vtbl vtbl_wchar_utf32be = {
mbfl_no_encoding_wchar,
mbfl_no_encoding_utf32be,
mbfl_filt_conv_common_ctor,
mbfl_filt_conv_common_dtor,
mbfl_filt_conv_wchar_utf32be,
mbfl_filt_conv_common_flush
};
const struct mbfl_convert_vtbl vtbl_utf32le_wchar = {
mbfl_no_encoding_utf32le,
mbfl_no_encoding_wchar,
mbfl_filt_conv_common_ctor,
mbfl_filt_conv_common_dtor,
mbfl_filt_conv_utf32le_wchar,
mbfl_filt_conv_common_flush
};
const struct mbfl_convert_vtbl vtbl_wchar_utf32le = {
mbfl_no_encoding_wchar,
mbfl_no_encoding_utf32le,
mbfl_filt_conv_common_ctor,
mbfl_filt_conv_common_dtor,
mbfl_filt_conv_wchar_utf32le,
mbfl_filt_conv_common_flush
};
#define CK(statement) do { if ((statement) < 0) return (-1); } while (0)
int mbfl_filt_conv_utf32_wchar(int c, mbfl_convert_filter *filter)
{
int n, endian;
endian = filter->status & 0xff00;
switch (filter->status & 0xff) {
case 0:
if (endian) {
n = c & 0xff;
} else {
n = (c & 0xff) << 24;
}
filter->cache = n;
filter->status++;
break;
case 1:
if (endian) {
n = (c & 0xff) << 8;
} else {
n = (c & 0xff) << 16;
}
filter->cache |= n;
filter->status++;
break;
case 2:
if (endian) {
n = (c & 0xff) << 16;
} else {
n = (c & 0xff) << 8;
}
filter->cache |= n;
filter->status++;
break;
default:
if (endian) {
n = (c & 0xff) << 24;
} else {
n = c & 0xff;
}
n |= filter->cache;
if ((n & 0xffff) == 0 && ((n >> 16) & 0xffff) == 0xfffe) {
if (endian) {
filter->status = 0;
} else {
filter->status = 0x100;
}
CK((*filter->output_function)(0xfeff, filter->data));
} else {
filter->status &= ~0xff;
if (n < MBFL_WCSPLANE_UTF32MAX && (n < 0xd800 || n > 0xdfff)) {
CK((*filter->output_function)(n, filter->data));
} else {
n = (n & MBFL_WCSGROUP_MASK) | MBFL_WCSGROUP_THROUGH;
CK((*filter->output_function)(n, filter->data));
}
}
break;
}
return c;
}
int mbfl_filt_conv_utf32be_wchar(int c, mbfl_convert_filter *filter)
{
int n;
if (filter->status == 0) {
filter->status = 1;
n = (c & 0xff) << 24;
filter->cache = n;
} else if (filter->status == 1) {
filter->status = 2;
n = (c & 0xff) << 16;
filter->cache |= n;
} else if (filter->status == 2) {
filter->status = 3;
n = (c & 0xff) << 8;
filter->cache |= n;
} else {
filter->status = 0;
n = (c & 0xff) | filter->cache;
if (n < MBFL_WCSPLANE_UTF32MAX && (n < 0xd800 || n > 0xdfff)) {
CK((*filter->output_function)(n, filter->data));
} else {
n = (n & MBFL_WCSGROUP_MASK) | MBFL_WCSGROUP_THROUGH;
CK((*filter->output_function)(n, filter->data));
}
}
return c;
}
int mbfl_filt_conv_wchar_utf32be(int c, mbfl_convert_filter *filter)
{
if (c >= 0 && c < MBFL_WCSPLANE_UTF32MAX) {
CK((*filter->output_function)((c >> 24) & 0xff, filter->data));
CK((*filter->output_function)((c >> 16) & 0xff, filter->data));
CK((*filter->output_function)((c >> 8) & 0xff, filter->data));
CK((*filter->output_function)(c & 0xff, filter->data));
} else {
if (filter->illegal_mode != MBFL_OUTPUTFILTER_ILLEGAL_MODE_NONE) {
CK(mbfl_filt_conv_illegal_output(c, filter));
}
}
return c;
}
int mbfl_filt_conv_utf32le_wchar(int c, mbfl_convert_filter *filter)
{
int n;
if (filter->status == 0) {
filter->status = 1;
n = (c & 0xff);
filter->cache = n;
} else if (filter->status == 1) {
filter->status = 2;
n = (c & 0xff) << 8;
filter->cache |= n;
} else if (filter->status == 2) {
filter->status = 3;
n = (c & 0xff) << 16;
filter->cache |= n;
} else {
filter->status = 0;
n = ((c & 0xff) << 24) | filter->cache;
if (n < MBFL_WCSPLANE_UTF32MAX && (n < 0xd800 || n > 0xdfff)) {
CK((*filter->output_function)(n, filter->data));
} else {
n = (n & MBFL_WCSGROUP_MASK) | MBFL_WCSGROUP_THROUGH;
CK((*filter->output_function)(n, filter->data));
}
}
return c;
}
int mbfl_filt_conv_wchar_utf32le(int c, mbfl_convert_filter *filter)
{
if (c >= 0 && c < MBFL_WCSPLANE_UTF32MAX) {
CK((*filter->output_function)(c & 0xff, filter->data));
CK((*filter->output_function)((c >> 8) & 0xff, filter->data));
CK((*filter->output_function)((c >> 16) & 0xff, filter->data));
CK((*filter->output_function)((c >> 24) & 0xff, filter->data));
} else {
if (filter->illegal_mode != MBFL_OUTPUTFILTER_ILLEGAL_MODE_NONE) {
CK(mbfl_filt_conv_illegal_output(c, filter));
}
}
return c;
}