gimp/plug-ins/file-psd/psd-util.c

905 lines
26 KiB
C

/* GIMP - The GNU Image Manipulation Program
* Copyright (C) 1995 Spencer Kimball and Peter Mattis
*
* GIMP PSD Plug-in
* Copyright 2007 by John Marshall
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "config.h"
#include <string.h>
#include <errno.h>
#include <glib/gstdio.h>
#include <libgimp/gimp.h>
#include "psd.h"
#include "psd-util.h"
#include "libgimp/stdplugins-intl.h"
/* Local constants */
#define MIN_RUN 3
/* Local function prototypes */
static gchar * gimp_layer_mode_effects_name (const GimpLayerModeEffects mode);
/* Utility function */
void
psd_set_error (const gboolean file_eof,
const gint err_no,
GError **error)
{
if (file_eof)
{
g_set_error (error, G_FILE_ERROR, G_FILE_ERROR_FAILED,
"%s", _("Unexpected end of file"));
}
else
{
g_set_error (error, G_FILE_ERROR, g_file_error_from_errno (err_no),
"%s", g_strerror (err_no));
}
return;
}
gchar *
fread_pascal_string (gint32 *bytes_read,
gint32 *bytes_written,
const guint16 mod_len,
FILE *f,
GError **error)
{
/*
* Reads a pascal string from the file padded to a multiple of mod_len
* and returns a utf-8 string.
*/
gchar *str;
gchar *utf8_str;
guchar len;
gint32 padded_len;
*bytes_read = 0;
*bytes_written = -1;
if (fread (&len, 1, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return NULL;
}
(*bytes_read)++;
IFDBG(3) g_debug ("Pascal string length %d", len);
if (len == 0)
{
if (fseek (f, mod_len - 1, SEEK_CUR) < 0)
{
psd_set_error (feof (f), errno, error);
return NULL;
}
*bytes_read += (mod_len - 1);
*bytes_written = 0;
return NULL;
}
str = g_malloc (len);
if (fread (str, len, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
g_free (str);
return NULL;
}
*bytes_read += len;
if (mod_len > 0)
{
padded_len = len + 1;
while (padded_len % mod_len != 0)
{
if (fseek (f, 1, SEEK_CUR) < 0)
{
psd_set_error (feof (f), errno, error);
return NULL;
}
(*bytes_read)++;
padded_len++;
}
}
utf8_str = gimp_any_to_utf8 (str, len, NULL);
*bytes_written = strlen (utf8_str);
g_free (str);
IFDBG(3) g_debug ("Pascal string: %s, bytes_read: %d, bytes_written: %d",
utf8_str, *bytes_read, *bytes_written);
return utf8_str;
}
gint32
fwrite_pascal_string (const gchar *src,
const guint16 mod_len,
FILE *f,
GError **error)
{
/*
* Converts utf-8 string to current locale and writes as pascal
* string with padding to a multiple of mod_len.
*/
gchar *str;
gchar *pascal_str;
gchar null_str = 0x0;
guchar pascal_len;
gint32 bytes_written = 0;
gsize len;
if (src == NULL)
{
/* Write null string as two null bytes (0x0) */
if (fwrite (&null_str, 1, 1, f) < 1
|| fwrite (&null_str, 1, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return -1;
}
bytes_written += 2;
}
else
{
str = g_locale_from_utf8 (src, -1, NULL, &len, NULL);
if (len > 255)
pascal_len = 255;
else
pascal_len = len;
pascal_str = g_strndup (str, pascal_len);
g_free (str);
if (fwrite (&pascal_len, 1, 1, f) < 1
|| fwrite (pascal_str, pascal_len, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return -1;
}
bytes_written++;
bytes_written += pascal_len;
IFDBG(2) g_debug ("Pascal string: %s, bytes_written: %d",
pascal_str, bytes_written);
}
/* Pad with nulls */
if (mod_len > 0)
{
while (bytes_written % mod_len != 0)
{
if (fwrite (&null_str, 1, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return -1;
}
bytes_written++;
}
}
return bytes_written;
}
gchar *
fread_unicode_string (gint32 *bytes_read,
gint32 *bytes_written,
const guint16 mod_len,
FILE *f,
GError **error)
{
/*
* Reads a utf-16 string from the file padded to a multiple of mod_len
* and returns a utf-8 string.
*/
gchar *utf8_str;
gunichar2 *utf16_str;
gint32 len;
gint32 i;
gint32 padded_len;
glong utf8_str_len;
*bytes_read = 0;
*bytes_written = -1;
if (fread (&len, 4, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return NULL;
}
*bytes_read += 4;
len = GINT32_FROM_BE (len);
IFDBG(3) g_debug ("Unicode string length %d", len);
if (len == 0)
{
if (fseek (f, mod_len - 1, SEEK_CUR) < 0)
{
psd_set_error (feof (f), errno, error);
return NULL;
}
*bytes_read += (mod_len - 1);
*bytes_written = 0;
return NULL;
}
utf16_str = g_malloc (len * 2);
for (i = 0; i < len; ++i)
{
if (fread (&utf16_str[i], 2, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
g_free (utf16_str);
return NULL;
}
*bytes_read += 2;
utf16_str[i] = GINT16_FROM_BE (utf16_str[i]);
}
if (mod_len > 0)
{
padded_len = len + 1;
while (padded_len % mod_len != 0)
{
if (fseek (f, 1, SEEK_CUR) < 0)
{
psd_set_error (feof (f), errno, error);
return NULL;
}
(*bytes_read)++;
padded_len++;
}
}
utf8_str = g_utf16_to_utf8 (utf16_str, len, NULL, &utf8_str_len, NULL);
*bytes_written = utf8_str_len;
g_free (utf16_str);
IFDBG(3) g_debug ("Unicode string: %s, bytes_read: %d, bytes_written: %d",
utf8_str, *bytes_read, *bytes_written);
return utf8_str;
}
gint32
fwrite_unicode_string (const gchar *src,
const guint16 mod_len,
FILE *f,
GError **error)
{
/*
* Converts utf-8 string to utf-16 and writes 4 byte length
* then string padding to multiple of mod_len.
*/
gunichar2 *utf16_str;
gchar null_str = 0x0;
gint32 utf16_len = 0;
gint32 bytes_written = 0;
gint i;
glong len;
if (src == NULL)
{
/* Write null string as four byte 0 int32 */
if (fwrite (&utf16_len, 4, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return -1;
}
bytes_written += 4;
}
else
{
utf16_str = g_utf8_to_utf16 (src, -1, NULL, &len, NULL);
/* Byte swap as required */
utf16_len = len;
for (i = 0; i < utf16_len; ++i)
utf16_str[i] = GINT16_TO_BE (utf16_str[i]);
utf16_len = GINT32_TO_BE (utf16_len);
if (fwrite (&utf16_len, 4, 1, f) < 1
|| fwrite (utf16_str, 2, utf16_len + 1, f) < utf16_len + 1)
{
psd_set_error (feof (f), errno, error);
return -1;
}
bytes_written += (4 + 2 * utf16_len + 2);
IFDBG(2) g_debug ("Unicode string: %s, bytes_written: %d",
src, bytes_written);
}
/* Pad with nulls */
if (mod_len > 0)
{
while (bytes_written % mod_len != 0)
{
if (fwrite (&null_str, 1, 1, f) < 1)
{
psd_set_error (feof (f), errno, error);
return -1;
}
bytes_written++;
}
}
return bytes_written;
}
gint
decode_packbits (const gchar *src,
gchar *dst,
guint16 packed_len,
guint32 unpacked_len)
{
/*
* Decode a PackBits chunk.
*/
gint n;
gchar dat;
gint32 unpack_left = unpacked_len;
gint32 pack_left = packed_len;
gint32 error_code = 0;
gint32 return_val = 0;
while (unpack_left > 0 && pack_left > 0)
{
n = *src;
src++;
pack_left--;
if (n == 128) /* nop */
continue;
else if (n > 128)
n -= 256;
if (n < 0) /* replicate next gchar |n|+ 1 times */
{
n = 1 - n;
if (! pack_left)
{
IFDBG(2) g_debug ("Input buffer exhausted in replicate");
error_code = 1;
break;
}
if (n > unpack_left)
{
IFDBG(2) g_debug ("Overrun in packbits replicate of %d chars", n - unpack_left);
error_code = 2;
}
dat = *src;
for (; n > 0; --n)
{
if (! unpack_left)
break;
*dst = dat;
dst++;
unpack_left--;
}
if (unpack_left)
{
src++;
pack_left--;
}
}
else /* copy next n+1 gchars literally */
{
n++;
for (; n > 0; --n)
{
if (! pack_left)
{
IFDBG(2) g_debug ("Input buffer exhausted in copy");
error_code = 3;
break;
}
if (! unpack_left)
{
IFDBG(2) g_debug ("Output buffer exhausted in copy");
error_code = 4;
break;
}
*dst = *src;
dst++;
unpack_left--;
src++;
pack_left--;
}
}
}
if (unpack_left > 0)
{
/* Pad with zeros to end of output buffer */
for (n = 0; n < pack_left; ++n)
{
*dst = 0;
dst++;
}
}
if (unpack_left)
{
IFDBG(2) g_debug ("Packbits decode - unpack left %d", unpack_left);
return_val -= unpack_left;
}
if (pack_left)
{
/* Some images seem to have a pad byte at the end of the packed data */
if (error_code || pack_left != 1)
{
IFDBG(2) g_debug ("Packbits decode - pack left %d", pack_left);
return_val = pack_left;
}
}
IFDBG(2)
if (error_code)
g_debug ("Error code %d", error_code);
return return_val;
}
gchar *
encode_packbits (const gchar *src,
const guint32 unpacked_len,
guint16 *packed_len)
{
/*
* Encode a PackBits chunk.
*/
GString *dst_str; /* destination string */
gint curr_char; /* current character */
gchar char_buff[128]; /* buffer of already read characters */
guchar run_len; /* number of characters in a run */
gint32 unpack_left = unpacked_len;
IFDBG(2) g_debug ("Encode packbits");
/* Initialise destination string */
dst_str = g_string_sized_new (unpacked_len);
/* prime the read loop */
curr_char = *src;
src++;
run_len = 0;
/* read input until there's nothing left */
while (unpack_left > 0)
{
char_buff[run_len] = (gchar) curr_char;
IFDBG(2) g_debug ("buff %x, run len %d, curr char %x",
char_buff[run_len], run_len, (gchar) curr_char);
run_len++;
if (run_len >= MIN_RUN)
{
gint i;
/* check for run */
for (i = 2; i <= MIN_RUN; ++i)
{
if (curr_char != char_buff[run_len - i])
{
/* no run */
i = 0;
break;
}
}
if (i != 0)
{
/* we have a run write out buffer before run*/
gint next_char;
if (run_len > MIN_RUN)
{
/* block size - 1 followed by contents */
g_string_append_c (dst_str, (run_len - MIN_RUN - 1));
g_string_append_len (dst_str, char_buff, (run_len - MIN_RUN));
IFDBG(2) g_debug ("(1) Number of chars: %d, run length tag: %d",
run_len - MIN_RUN, run_len - MIN_RUN - 1);
}
/* determine run length (MIN_RUN so far) */
run_len = MIN_RUN;
/* get next character */
next_char = *src;
src++;
unpack_left--;
while (next_char == curr_char)
{
run_len++;
if (run_len == 128)
{
/* run is at max length */
break;
}
next_char = *src;
src++;
unpack_left--;
}
/* write out encoded run length and run symbol */
g_string_append_c (dst_str, (gchar)(1 - (gint)(run_len)));
g_string_append_c (dst_str, curr_char);
IFDBG(2) g_debug ("(2) Number of chars: %d, run length tag: %d",
run_len, (1 - (gint)(run_len)));
if (unpack_left > 0)
{
/* make run breaker start of next buffer */
char_buff[0] = next_char;
run_len = 1;
}
else
{
/* file ends in a run */
run_len = 0;
}
}
}
if (run_len == 128)
{
/* write out buffer */
g_string_append_c (dst_str, 127);
g_string_append_len (dst_str, char_buff, 128);
IFDBG(2) g_debug ("(3) Number of chars: 128, run length tag: 127");
/* start a new buffer */
run_len = 0;
}
curr_char = *src;
src++;
unpack_left--;
}
/* write out last buffer */
if (run_len != 0)
{
if (run_len <= 128)
{
/* write out entire copy buffer */
g_string_append_c (dst_str, run_len - 1);
g_string_append_len (dst_str, char_buff, run_len);
IFDBG(2) g_debug ("(4) Number of chars: %d, run length tag: %d",
run_len, run_len - 1);
}
else
{
IFDBG(2) g_debug ("(5) Very bad - should not be here");
}
}
*packed_len = dst_str->len;
IFDBG(2) g_debug ("Packed len %d, unpacked %d", *packed_len, unpacked_len);
return g_string_free (dst_str, FALSE);
}
GimpLayerModeEffects
psd_to_gimp_blend_mode (const gchar *psd_mode)
{
if (g_ascii_strncasecmp (psd_mode, "norm", 4) == 0) /* Normal (ps3) */
return GIMP_NORMAL_MODE;
if (g_ascii_strncasecmp (psd_mode, "dark", 4) == 0) /* Darken (ps3) */
return GIMP_DARKEN_ONLY_MODE;
if (g_ascii_strncasecmp (psd_mode, "lite", 4) == 0) /* Lighten (ps3) */
return GIMP_LIGHTEN_ONLY_MODE;
if (g_ascii_strncasecmp (psd_mode, "hue ", 4) == 0) /* Hue (ps3) */
return GIMP_HUE_MODE;
if (g_ascii_strncasecmp (psd_mode, "sat ", 4) == 0) /* Saturation (ps3) */
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "SATURATION";
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
mode_name);
}
return GIMP_SATURATION_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "colr", 4) == 0) /* Color (ps3) */
return GIMP_COLOR_MODE;
if (g_ascii_strncasecmp (psd_mode, "lum ", 4) == 0) /* Luminosity (ps3) */
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "LUMINOSITY (VALUE)";
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
mode_name);
}
return GIMP_VALUE_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "mul ", 4) == 0) /* Multiply (ps3) */
return GIMP_MULTIPLY_MODE;
if (g_ascii_strncasecmp (psd_mode, "lddg", 4) == 0) /* Linear Dodge (cs2) */
return GIMP_ADDITION_MODE;
if (g_ascii_strncasecmp (psd_mode, "scrn", 4) == 0) /* Screen (ps3) */
return GIMP_SCREEN_MODE;
if (g_ascii_strncasecmp (psd_mode, "diss", 4) == 0) /* Dissolve (ps3) */
return GIMP_DISSOLVE_MODE;
if (g_ascii_strncasecmp (psd_mode, "over", 4) == 0) /* Overlay (ps3) */
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "OVERLAY";
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
mode_name);
}
return GIMP_OVERLAY_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "hLit", 4) == 0) /* Hard light (ps3) */
return GIMP_HARDLIGHT_MODE;
if (g_ascii_strncasecmp (psd_mode, "sLit", 4) == 0) /* Soft light (ps3) */
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "SOFT LIGHT";
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
mode_name);
}
return GIMP_SOFTLIGHT_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "diff", 4) == 0) /* Difference (ps3) */
return GIMP_DIFFERENCE_MODE;
if (g_ascii_strncasecmp (psd_mode, "smud", 4) == 0) /* Exclusion (ps6) */
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "EXCLUSION";
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
}
return GIMP_NORMAL_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "div ", 4) == 0) /* Color dodge (ps6) */
return GIMP_DODGE_MODE;
if (g_ascii_strncasecmp (psd_mode, "idiv", 4) == 0) /* Color burn (ps6) */
return GIMP_BURN_MODE;
if (g_ascii_strncasecmp (psd_mode, "lbrn", 4) == 0) /* Linear burn (ps7)*/
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "LINEAR BURN";
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
}
return GIMP_NORMAL_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "lddg", 4) == 0) /* Linear dodge (ps7)*/
return GIMP_ADDITION_MODE;
if (g_ascii_strncasecmp (psd_mode, "lLit", 4) == 0) /* Linear light (ps7)*/
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "LINEAR LIGHT";
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
}
return GIMP_NORMAL_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "pLit", 4) == 0) /* Pin light (ps7)*/
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "PIN LIGHT";
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
}
return GIMP_NORMAL_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "vLit", 4) == 0) /* Vivid light (ps7)*/
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "VIVID LIGHT";
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
}
return GIMP_NORMAL_MODE;
}
if (g_ascii_strncasecmp (psd_mode, "hMix", 4) == 0) /* Hard Mix (CS)*/
{
if (CONVERSION_WARNINGS)
{
static gchar *mode_name = "HARD MIX";
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
}
return GIMP_NORMAL_MODE;
}
if (CONVERSION_WARNINGS)
{
gchar *mode_name = g_strndup (psd_mode, 4);
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
mode_name);
g_free (mode_name);
}
return GIMP_NORMAL_MODE;
}
gchar *
gimp_to_psd_blend_mode (const GimpLayerModeEffects gimp_layer_mode)
{
gchar *psd_mode;
switch (gimp_layer_mode)
{
case GIMP_NORMAL_MODE:
psd_mode = g_strndup ("norm", 4); /* Normal (ps3) */
break;
case GIMP_DISSOLVE_MODE:
psd_mode = g_strndup ("diss", 4); /* Dissolve (ps3) */
break;
case GIMP_BEHIND_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
break;
case GIMP_MULTIPLY_MODE:
psd_mode = g_strndup ("mul ", 4); /* Multiply (ps3) */
break;
case GIMP_SCREEN_MODE:
psd_mode = g_strndup ("scrn", 4); /* Screen (ps3) */
break;
case GIMP_OVERLAY_MODE:
if (CONVERSION_WARNINGS)
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("over", 4); /* Overlay (ps3) */
break;
case GIMP_DIFFERENCE_MODE:
psd_mode = g_strndup ("diff", 4); /* Difference (ps3) */
break;
case GIMP_ADDITION_MODE:
psd_mode = g_strndup ("lddg", 4); /* Linear dodge (ps7)*/
break;
case GIMP_SUBTRACT_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
break;
case GIMP_DARKEN_ONLY_MODE:
psd_mode = g_strndup ("dark", 4); /* Darken (ps3) */
break;
case GIMP_LIGHTEN_ONLY_MODE:
psd_mode = g_strndup ("lite", 4); /* Lighten (ps3) */
break;
case GIMP_HUE_MODE:
psd_mode = g_strndup ("hue ", 4); /* Hue (ps3) */
break;
case GIMP_SATURATION_MODE:
if (CONVERSION_WARNINGS)
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("sat ", 4); /* Saturation (ps3) */
break;
case GIMP_COLOR_MODE:
psd_mode = g_strndup ("colr", 4); /* Color (ps3) */
break;
case GIMP_VALUE_MODE:
if (CONVERSION_WARNINGS)
g_message ("Gimp uses a different equation to photoshop for "
"blend mode: %s. Results will differ.",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("lum ", 4); /* Luminosity (ps3) */
break;
case GIMP_DIVIDE_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
break;
case GIMP_DODGE_MODE:
psd_mode = g_strndup ("div ", 4); /* Color Dodge (ps6) */
break;
case GIMP_BURN_MODE:
psd_mode = g_strndup ("idiv", 4); /* Color Burn (ps6) */
break;
case GIMP_HARDLIGHT_MODE:
psd_mode = g_strndup ("hLit", 4); /* Hard Light (ps3) */
break;
case GIMP_SOFTLIGHT_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("sLit", 4); /* Soft Light (ps3) */
break;
case GIMP_GRAIN_EXTRACT_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
break;
case GIMP_GRAIN_MERGE_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
break;
case GIMP_COLOR_ERASE_MODE:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
break;
default:
if (CONVERSION_WARNINGS)
g_message ("Unsupported blend mode: %s. Mode reverts to normal",
gimp_layer_mode_effects_name (gimp_layer_mode));
psd_mode = g_strndup ("norm", 4);
}
return psd_mode;
}
static gchar *
gimp_layer_mode_effects_name (const GimpLayerModeEffects mode)
{
static gchar *layer_mode_effects_names[] =
{
"NORMAL",
"DISSOLVE",
"BEHIND",
"MULTIPLY",
"SCREEN",
"OVERLAY",
"DIFFERENCE",
"ADD",
"SUBTRACT",
"DARKEN",
"LIGHTEN",
"HUE",
"SATURATION",
"COLOR",
"VALUE",
"DIVIDE",
"DODGE",
"BURN",
"HARD LIGHT",
"SOFT LIGHT",
"GRAIN EXTRACT",
"GRAIN MERGE",
"COLOR ERASE"
};
static gchar *err_name = NULL;
if (mode >= 0 && mode <= GIMP_COLOR_ERASE_MODE)
return layer_mode_effects_names[mode];
g_free (err_name);
err_name = g_strdup_printf ("UNKNOWN (%d)", mode);
return err_name;
}