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PIKApp/plug-ins/file-psd/psd-save.c

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/*
* PSD Export Plugin version 1.0 (BETA)
* This PIKA plug-in is designed to export Adobe Photoshop(tm) files (.PSD)
*
* Monigotes
*
* If this plug-in fails to export a file which you think it should,
* please tell me what seemed to go wrong, and anything you know
* about the image you tried to export. Please don't send big PSD
* files to me without asking first.
*
* Copyright (C) 2000 Monigotes
*
* 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 <https://www.gnu.org/licenses/>.
*/
/*
* Adobe and Adobe Photoshop are trademarks of Adobe Systems
* Incorporated that may be registered in certain jurisdictions.
*/
/*
* Revision history:
*
* 2000.02 / v1.0 / Monigotes
* First version.
*
* 2003-05-10 Pedro Gimeno <pggimeno@wanadoo.es>
* - Cleaned up and GNUstylized.
* - Translated all comments and vars in Spanish to English.
*
* 2005-2-11 Jay Cox <jaycox@gimp.org>
* Rewrote all the code that deals with pixels to be stingy with
* memory and operate on tile-size chunks. Create a flattened
* copy of the image when necessary. Fixes file corruption bug
* #167139 and memory bug #121871
*
* 2006-03-29 Guillermo S. Romero <gsr.bugs@infernal-iceberg.com>
* - Added/enabled basic support for layer masks based in psd.c
* and whatever was already here.
* Layers that are not canvas sized need investigation, here
* or in the import plugin something seems wrong.
* - Cosmetic changes about the debug messages, more like psd.c.
*/
/*
* TODO:
* Export preview
*/
/*
* BUGS:
*/
#include "config.h"
#include <errno.h>
#include <string.h>
#include <glib/gstdio.h>
#include "libpika/pika.h"
#include "libpika/pikaui.h"
#include "libpikamath/pikamath.h"
#include "psd.h"
#include "psd-util.h"
#include "psd-save.h"
#include "libpika/stdplugins-intl.h"
#define PSD_UNIT_INCH 1
#define PSD_UNIT_CM 2
/* Local types etc
*/
typedef enum PsdLayerType
{
PSD_LAYER_TYPE_LAYER,
PSD_LAYER_TYPE_GROUP_START,
PSD_LAYER_TYPE_GROUP_END
} PSD_Layer_Type;
typedef struct PsdLayer
{
PikaLayer *layer;
PSD_Layer_Type type;
} PSD_Layer;
typedef struct PsdImageData
{
gboolean compression;
gint32 image_height;
gint32 image_width;
PikaImageBaseType baseType;
PikaLayer *merged_layer;/* Merged image,
to be used for the image data section */
gint nChannels; /* Number of user channels in the image */
GList *lChannels; /* List of PikaChannel (User channels in the image) */
gint nLayers; /* Number of layers in the image */
GList *lLayers; /* List of PSD_Layer */
} PSD_Image_Data;
typedef struct PsdResourceOptions
{
gboolean cmyk;
gboolean duotone;
gboolean clipping_path;
gchar *clipping_path_name;
gdouble clipping_path_flatness;
} PSD_Resource_Options;
static PSD_Image_Data PSDImageData;
/* Declare some local functions.
*/
static const gchar * psd_lmode_layer (PikaLayer *layer,
gboolean section_divider);
static void reshuffle_cmap_write (guchar *mapPika);
static void save_header (GOutputStream *output,
PikaImage *image,
gboolean export_cmyk,
gboolean export_duotone);
static void save_color_mode_data (GOutputStream *output,
PikaImage *image,
gboolean export_duotone);
static void save_resources (GOutputStream *output,
PikaImage *image,
PSD_Resource_Options
*options);
static void save_paths (GOutputStream *output,
PikaImage *image);
static void save_clipping_path (GOutputStream *output,
PikaImage *image,
const gchar *path_name,
gfloat path_flatness);
static void save_layer_and_mask (GOutputStream *output,
PikaImage *image,
gboolean export_cmyk);
static void save_data (GOutputStream *output,
PikaImage *image,
gboolean export_cmyk);
static void double_to_psd_fixed (gdouble value,
gchar *target);
static void xfwrite (GOutputStream *output,
gconstpointer buf,
gsize len,
const gchar *why);
static void write_pascalstring (GOutputStream *output,
const gchar *val,
gint padding,
const gchar *why);
static void write_string (GOutputStream *output,
const gchar *val,
const gchar *why);
static void write_gchar (GOutputStream *output,
guchar val,
const gchar *why);
static void write_gint16 (GOutputStream *output,
gint16 val,
const gchar *why);
static void write_gint32 (GOutputStream *output,
gint32 val,
const gchar *why);
static void write_datablock_luni (GOutputStream *output,
const gchar *val,
const gchar *why);
static void write_pixel_data (GOutputStream *output,
PikaImage *image,
PikaDrawable *drawable,
goffset *ChanLenPosition,
goffset rowlenOffset,
gboolean write_mask,
gboolean export_cmyk);
static PikaLayer * create_merged_image (PikaImage *image);
static gint get_bpc (PikaImage *image);
static const Babl * get_pixel_format (PikaDrawable *drawable);
static const Babl * get_channel_format (PikaDrawable *drawable);
static const Babl * get_mask_format (PikaLayerMask *mask);
static GList * image_get_all_layers (PikaImage *image,
gint *n_layers);
static void update_clipping_path
(PikaIntComboBox *combo,
gpointer data);
static const gchar *
psd_lmode_layer (PikaLayer *layer,
gboolean section_divider)
{
LayerModeInfo mode_info;
mode_info.mode = pika_layer_get_mode (layer);
mode_info.blend_space = pika_layer_get_blend_space (layer);
mode_info.composite_space = pika_layer_get_composite_space (layer);
mode_info.composite_mode = pika_layer_get_composite_mode (layer);
/* pass-through groups use normal mode in their layer record; the
* pass-through mode is specified in their section divider resource.
*/
if (mode_info.mode == PIKA_LAYER_MODE_PASS_THROUGH && ! section_divider)
mode_info.mode = PIKA_LAYER_MODE_NORMAL;
return pika_to_psd_blend_mode (&mode_info);
}
static void
write_string (GOutputStream *output,
const gchar *val,
const gchar *why)
{
write_gchar (output, strlen (val), why);
xfwrite (output, val, strlen (val), why);
}
static void
write_pascalstring (GOutputStream *output,
const gchar *val,
gint padding,
const gchar *why)
{
guchar len;
gint i;
/* Calculate string length to write and limit it to 255 */
len = (strlen (val) > 255) ? 255 : (guchar) strlen (val);
/* Perform actual writing */
if (len != 0)
{
write_gchar (output, len, why);
xfwrite (output, val, len, why);
}
else
{
write_gchar (output, 0, why);
}
/* If total length (length byte + content) is not a multiple of PADDING,
add zeros to pad it. */
len++; /* Add the length field */
if ((len % padding) == 0)
return;
for (i = 0; i < (padding - (len % padding)); i++)
write_gchar (output, 0, why);
}
static void
xfwrite (GOutputStream *output,
gconstpointer buf,
gsize len,
const gchar *why)
{
gsize bytes_written;
if (len == 0)
return;
/* FIXME Instead of NULL use error parameter and add error to all functions!
* and then we also need to change functions from void to gboolean or something
* and check the return values. */
if (! g_output_stream_write_all (output, buf, len,
&bytes_written, NULL, NULL))
{
g_printerr ("%s: Error while writing '%s'\n", G_STRFUNC, why);
pika_quit ();
}
}
static void
write_gchar (GOutputStream *output,
guchar val,
const gchar *why)
{
guchar b[2];
goffset pos;
gsize bytes_written;
b[0] = val;
b[1] = 0;
pos = g_seekable_tell (G_SEEKABLE (output));
/* FIXME: Use error in write and seek */
if (! g_output_stream_write_all (output, &b, 2,
&bytes_written, NULL, NULL))
{
g_printerr ("%s: Error while writing '%s'\n", G_STRFUNC, why);
pika_quit ();
}
g_seekable_seek (G_SEEKABLE (output),
pos + 1, G_SEEK_SET,
NULL, NULL);
}
static void
write_gint16 (GOutputStream *output,
gint16 val,
const gchar *why)
{
guchar b[2];
gsize bytes_written;
/* b[0] = val & 255;
b[1] = (val >> 8) & 255;*/
b[1] = val & 255;
b[0] = (val >> 8) & 255;
/* FIXME: Use error */
if (! g_output_stream_write_all (output, &b, 2,
&bytes_written, NULL, NULL))
{
g_printerr ("%s: Error while writing '%s'\n", G_STRFUNC, why);
pika_quit ();
}
}
static void
write_gint32 (GOutputStream *output,
gint32 val,
const gchar *why)
{
guchar b[4];
gsize bytes_written;
b[3] = val & 255;
b[2] = (val >> 8) & 255;
b[1] = (val >> 16) & 255;
b[0] = (val >> 24) & 255;
/* FIXME: Use error */
if (! g_output_stream_write_all (output, &b, 4,
&bytes_written, NULL, NULL))
{
g_printerr ("%s: Error while writing '%s'\n", G_STRFUNC, why);
pika_quit ();
}
}
static void
write_datablock_luni (GOutputStream *output,
const gchar *val,
const gchar *why)
{
if (val)
{
guint32 count;
guint32 xdBlockSize;
glong numchars;
gunichar2 *luniName;
luniName = g_utf8_to_utf16 (val, -1, NULL, &numchars, NULL);
if (luniName)
{
guchar len = MIN (numchars, 255);
/* Only pad to even num of chars */
if( len % 2 )
xdBlockSize = len + 1;
else
xdBlockSize = len;
/* 2 bytes / char + 4 bytes for pascal num chars */
xdBlockSize = (xdBlockSize * 2) + 4;
xfwrite (output, "8BIMluni", 8, "luni xdb signature");
write_gint32 (output, xdBlockSize, "luni xdb size");
write_gint32 (output, len, "luni xdb pascal string");
for (count = 0; count < len; count++)
write_gint16 (output, luniName[count], "luni xdb pascal string");
/* Pad to an even number of chars */
if (len % 2)
write_gint16 (output, 0x0000, "luni xdb pascal string padding");
}
}
}
static gint32
pack_pb_line (guchar *start,
gint32 length,
guchar *dest_ptr)
{
gint32 remaining = length;
gint i, j;
length = 0;
while (remaining > 0)
{
/* Look for characters matching the first */
i = 0;
while ((i < 128) &&
(remaining - i > 0) &&
(start[0] == start[i]))
i++;
if (i > 1) /* Match found */
{
*dest_ptr++ = -(i - 1);
*dest_ptr++ = *start;
start += i;
remaining -= i;
length += 2;
}
else /* Look for characters different from the previous */
{
i = 0;
while ((i < 128) &&
(remaining - (i + 1) > 0) &&
(start[i] != start[i + 1] ||
remaining - (i + 2) <= 0 || start[i] != start[i+2]))
i++;
/* If there's only 1 remaining, the previous WHILE stmt doesn't
catch it */
if (remaining == 1)
{
i = 1;
}
if (i > 0) /* Some distinct ones found */
{
*dest_ptr++ = i - 1;
for (j = 0; j < i; j++)
{
*dest_ptr++ = start[j];
}
start += i;
remaining -= i;
length += i + 1;
}
}
}
return length;
}
static gint
pikaBaseTypeToPsdMode (PikaImageBaseType pikaBaseType)
{
switch (pikaBaseType)
{
case PIKA_RGB:
return 3; /* RGB */
case PIKA_GRAY:
return 1; /* Grayscale */
case PIKA_INDEXED:
return 2; /* Indexed */
default:
g_message (_("Error: Can't convert PIKA base imagetype to PSD mode"));
IFDBG(1) g_debug ("PSD Export: pikaBaseType value is %d, "
"can't convert to PSD mode", pikaBaseType);
pika_quit ();
return 3; /* Return RGB by default */
}
}
static gint
nChansLayer (gint pikaBaseType,
gint hasAlpha,
gint hasMask)
{
gint incAlpha = 0;
gint incMask = 0;
incAlpha = (hasAlpha == 0) ? 0 : 1;
incMask = (hasMask == 0) ? 0 : 1;
switch (pikaBaseType)
{
case PIKA_RGB:
return 3 + incAlpha + incMask; /* R,G,B & Alpha & Mask (if any) */
case PIKA_GRAY:
return 1 + incAlpha + incMask; /* G & Alpha & Mask (if any) */
case PIKA_INDEXED:
return 1 + incAlpha + incMask; /* I & Alpha & Mask (if any) */
default:
return 0; /* Return 0 channels by default */
}
}
static void
reshuffle_cmap_write (guchar *mapPika)
{
guchar *mapPSD;
gint i;
mapPSD = g_malloc (768);
for (i = 0; i < 256; i++)
{
mapPSD[i] = mapPika[i * 3];
mapPSD[i + 256] = mapPika[i * 3 + 1];
mapPSD[i + 512] = mapPika[i * 3 + 2];
}
for (i = 0; i < 768; i++)
{
mapPika[i] = mapPSD[i];
}
g_free (mapPSD);
}
static void
save_header (GOutputStream *output,
PikaImage *image,
gboolean export_cmyk,
gboolean export_duotone)
{
gint nChannels;
IFDBG(1) g_debug ("Function: save_header\n"
"\tRows: %d\n"
"\tColumns: %d\n"
"\tBase type: %d\n"
"\tNumber of channels: %d\n",
PSDImageData.image_height, PSDImageData.image_width,
PSDImageData.baseType, PSDImageData.nChannels);
if (export_cmyk)
{
nChannels =
pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)) ?
5 : 4;
}
else
{
nChannels = (PSDImageData.nChannels + nChansLayer (PSDImageData.baseType,
pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)), 0));
}
xfwrite (output, "8BPS", 4, "signature");
write_gint16 (output, 1, "version");
write_gint32 (output, 0, "reserved 1"); /* 6 for the 'reserved' field + 4 bytes for a long */
write_gint16 (output, 0, "reserved 1"); /* and 2 bytes for a short */
write_gint16 (output, nChannels, "channels");
write_gint32 (output, PSDImageData.image_height, "rows");
write_gint32 (output, PSDImageData.image_width, "columns");
write_gint16 (output, 8 * get_bpc (image), "depth");
if (export_cmyk)
write_gint16 (output, PSD_CMYK, "mode");
else if (export_duotone)
write_gint16 (output, PSD_DUOTONE, "mode");
else
write_gint16 (output, pikaBaseTypeToPsdMode (PSDImageData.baseType), "mode");
}
static void
save_color_mode_data (GOutputStream *output,
PikaImage *image,
gboolean export_duotone)
{
guchar *cmap;
guchar *cmap_modified;
gint i;
gint32 nColors;
PikaParasite *parasite = NULL;
IFDBG(1) g_debug ("Function: save_color_mode_data");
parasite = pika_image_get_parasite (image, PSD_PARASITE_DUOTONE_DATA);
if (export_duotone && parasite)
{
const guchar *parasite_data;
guint32 parasite_size;
IFDBG(1) g_debug ("\tImage type: DUOTONE");
parasite_data = (const guchar *) pika_parasite_get_data (parasite, &parasite_size);
write_gint32 (output, parasite_size, "color data length");
xfwrite (output, parasite_data, parasite_size, "colormap");
pika_parasite_free (parasite);
return;
}
switch (PSDImageData.baseType)
{
case PIKA_INDEXED:
IFDBG(1) g_debug ("\tImage type: INDEXED");
cmap = pika_image_get_colormap (image, NULL, &nColors);
IFDBG(1) g_debug ("\t\tLength of colormap returned by pika_image_get_colormap: %d", nColors);
if (nColors == 0)
{
IFDBG(1) g_debug ("\t\tThe indexed image lacks a colormap");
write_gint32 (output, 0, "color data length");
}
else if (nColors != 256)
{
IFDBG(1) g_debug ("\t\tThe indexed image has %d!=256 colors", nColors);
IFDBG(1) g_debug ("\t\tPadding with zeros up to 256");
write_gint32 (output, 768, "color data length");
/* For this type, length is always 768 */
cmap_modified = g_malloc (768);
for (i = 0; i < nColors * 3; i++)
cmap_modified[i] = cmap[i];
for (i = nColors * 3; i < 768; i++)
cmap_modified[i] = 0;
reshuffle_cmap_write (cmap_modified);
xfwrite (output, cmap_modified, 768, "colormap"); /* Write readjusted colormap */
g_free (cmap_modified);
}
else /* nColors equals 256 */
{
write_gint32 (output, 768, "color data length"); /* For this type, length is always 768 */
reshuffle_cmap_write (cmap);
xfwrite (output, cmap, 768, "colormap"); /* Write readjusted colormap */
}
break;
default:
IFDBG(1) g_debug ("\tImage type: Not INDEXED");
write_gint32 (output, 0, "color data length");
}
}
static void
save_resources (GOutputStream *output,
PikaImage *image,
PSD_Resource_Options *options)
{
GList *iter;
gint i;
GList *SelLayers; /* The selected layers */
goffset eof_pos; /* Position for End of file */
goffset rsc_pos; /* Position for Lengths of Resources section */
goffset name_sec; /* Position for Lengths of Channel Names */
/* Only relevant resources in PIKA are: 0x03EE, 0x03F0 & 0x0400 */
/* For Adobe Photoshop version 4.0 these can also be considered:
0x0408, 0x040A & 0x040B (1006, 1008, 1024, 1032, 1034, and 1035) */
IFDBG(1) g_debug ("Function: save_resources");
/* Get the image title from its filename */
IFDBG(1) g_debug ("\tImage title: %s",
g_file_peek_path (pika_image_get_file (image)));
/* Get the selected layers */
SelLayers = pika_image_list_selected_layers (image);
/* Here's where actual writing starts */
rsc_pos = g_seekable_tell (G_SEEKABLE (output));
write_gint32 (output, 0, "image resources length");
/* --------------- Write Channel names --------------- */
if (! options->cmyk)
{
if (PSDImageData.nChannels > 0 ||
pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)))
{
xfwrite (output, "8BIM", 4, "imageresources signature");
write_gint16 (output, 0x03EE, "0x03EE Id"); /* 1006 */
/* write_pascalstring (output, Name, "Id name"); */
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
/* Mark current position in the file */
name_sec = g_seekable_tell (G_SEEKABLE (output));
write_gint32 (output, 0, "0x03EE resource size");
/* Write all strings */
/* if the merged_image contains transparency, write a name for it first */
if (pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)))
write_string (output, "Transparency", "channel name");
for (iter = PSDImageData.lChannels; iter; iter = g_list_next (iter))
{
char *chName = pika_item_get_name (iter->data);
write_string (output, chName, "channel name");
g_free (chName);
}
/* Calculate and write actual resource's length */
eof_pos = g_seekable_tell (G_SEEKABLE (output));
g_seekable_seek (G_SEEKABLE (output),
name_sec, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, eof_pos - name_sec - sizeof (gint32), "0x03EE resource size");
IFDBG(1) g_debug ("\tTotal length of 0x03EE resource: %d",
(int) (eof_pos - name_sec - sizeof (gint32)));
/* Return to EOF to continue writing */
g_seekable_seek (G_SEEKABLE (output),
eof_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
/* Pad if length is odd */
if ((eof_pos - name_sec - sizeof (gint32)) & 1)
write_gchar (output, 0, "pad byte");
}
/* --------------- Write Channel properties --------------- */
if (PSDImageData.nChannels > 0 ||
pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)))
{
xfwrite (output, "8BIM", 4, "imageresources signature");
write_gint16 (output, 0x0435, "0x0435 Id"); /* 1077 */
/* write_pascalstring (output, Name, "Id name"); */
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
write_gint32 (output,
4 +
13 * (pika_drawable_has_alpha (
PIKA_DRAWABLE (PSDImageData.merged_layer)) +
PSDImageData.nChannels),
"0x0435 resource size");
/* The function of the first 4 bytes is unclear. As per
* load_resource_1077() in psd-image-res-load.c, it seems to be a version
* number that is always one.
*/
write_gint32 (output, 1, "0x0435 version");
/* Write all channel properties */
#define DOUBLE_TO_INT16(x) ROUND (SAFE_CLAMP (x, 0.0, 1.0) * 0xffff)
/* if the merged_image contains transparency, write its properties first */
if (pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)))
{
write_gint16 (output, PSD_CS_RGB, "channel color space");
write_gint16 (output, DOUBLE_TO_INT16 (1.0), "channel color r");
write_gint16 (output, DOUBLE_TO_INT16 (0.0), "channel color g");
write_gint16 (output, DOUBLE_TO_INT16 (0.0), "channel color b");
write_gint16 (output, 0, "channel color padding");
write_gint16 (output, 100, "channel opacity");
write_gchar (output, 1, "channel mode");
}
for (iter = PSDImageData.lChannels; iter; iter = g_list_next (iter))
{
PikaChannel *channel = iter->data;
PikaRGB color;
gdouble opacity;
pika_channel_get_color (channel, &color);
opacity = pika_channel_get_opacity (channel);
write_gint16 (output, PSD_CS_RGB, "channel color space");
write_gint16 (output, DOUBLE_TO_INT16 (color.r), "channel color r");
write_gint16 (output, DOUBLE_TO_INT16 (color.g), "channel color g");
write_gint16 (output, DOUBLE_TO_INT16 (color.b), "channel color b");
write_gint16 (output, 0, "channel color padding");
write_gint16 (output, ROUND (opacity), "channel opacity");
write_gchar (output, 1, "channel mode");
}
#undef DOUBLE_TO_INT16
/* Pad if length is odd */
if (g_seekable_tell (G_SEEKABLE (output)) & 1)
write_gchar (output, 0, "pad byte");
}
}
/* --------------- Write Guides --------------- */
if (pika_image_find_next_guide (image, 0))
{
gint n_guides = 0;
gint guide_id = 0;
/* Count the guides */
while ((guide_id = pika_image_find_next_guide(image, guide_id)))
n_guides++;
xfwrite (output, "8BIM", 4, "imageresources signature");
write_gint16 (output, 0x0408, "0x0408 Id (Guides)"); /* 1032 */
/* write_pascalstring (output, Name, "Id name"); */
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
write_gint32 (output, 16 + 5 * n_guides, "0x0408 resource size");
/* Save grid and guide header */
write_gint32 (output, 1, "grid/guide header version");
write_gint32 (output, 576, "grid custom spacing horizontal");/* dpi*32/4??*/
write_gint32 (output, 576, "grid custom spacing vertical"); /* dpi*32/4??*/
write_gint32 (output, n_guides, "number of guides");
/* write the guides */
while ((guide_id = pika_image_find_next_guide (image, guide_id)))
{
gchar orientation;
gint32 position;
orientation = pika_image_get_guide_orientation (image, guide_id);
position = 32 * pika_image_get_guide_position (image, guide_id);
orientation ^= 1; /* in the psd vert =0 , horiz = 1 */
write_gint32 (output, position, "Position of guide");
write_gchar (output, orientation, "Orientation of guide");
n_guides--;
}
if ((g_seekable_tell (G_SEEKABLE (output)) & 1))
write_gchar(output, 0, "pad byte");
if (n_guides != 0)
g_warning("Screwed up guide resource:: wrong number of guides\n");
IFDBG(1) g_debug ("\tTotal length of 0x0400 resource: %d",
(int) sizeof (gint16));
}
/* --------------- Write paths ------------------- */
save_paths (output, image);
if (options->clipping_path)
{
PikaParasite *parasite;
save_clipping_path (output, image,
options->clipping_path_name,
options->clipping_path_flatness);
/* Update parasites */
parasite = pika_parasite_new (PSD_PARASITE_CLIPPING_PATH, 0,
strlen (options->clipping_path_name) + 1,
options->clipping_path_name);
pika_image_attach_parasite (image, parasite);
pika_parasite_free (parasite);
parasite = pika_parasite_new (PSD_PARASITE_PATH_FLATNESS, 0,
sizeof (gfloat),
(gpointer) &options->clipping_path_flatness);
pika_image_attach_parasite (image, parasite);
pika_parasite_free (parasite);
}
/* --------------- Write resolution data ------------------- */
{
gdouble xres = 0, yres = 0;
guint32 xres_fix, yres_fix;
PikaUnit g_unit;
gint16 psd_unit;
g_unit = pika_image_get_unit (image);
pika_image_get_resolution (image, &xres, &yres);
if (g_unit == PIKA_UNIT_MM)
{
psd_unit = PSD_UNIT_CM;
}
else
{
psd_unit = PSD_UNIT_INCH;
}
/* Don't convert resolution based on g_unit which is a display unit.
* PSD resolution is always in pixels/inch. */
xres_fix = xres * 65536.0 + .5; /* Convert to 16.16 fixed point */
yres_fix = yres * 65536.0 + .5; /* Convert to 16.16 fixed point */
xfwrite (output, "8BIM", 4, "imageresources signature (for resolution)");
write_gint16(output, 0x03ed, "0x03ed Id (resolution)"); /* 1005 */
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
write_gint32 (output, 16, "0x0400 resource size");
write_gint32 (output, xres_fix, "hRes (16.16 fixed point)");
write_gint16 (output, psd_unit, "hRes unit");
write_gint16 (output, psd_unit, "width unit");
write_gint32 (output, yres_fix, "vRes (16.16 fixed point)");
write_gint16 (output, psd_unit, "vRes unit");
write_gint16 (output, psd_unit, "height unit");
}
/* --------------- Write Selected Layers --------------- */
if (SelLayers)
{
if (g_list_length (SelLayers) == 1)
{
/* Write the Layer State Information (0x0400) if and only if
* there is exactly one selected layer.
* Unless mistaken, this block does not seem used for multiple
* layer selected. It seems anyway redundant with the Layer
* Selection ID(s) block (0x042D) which is more recent
* (Photoshop CS2) but it's probably a good idea to store both
* information.
*/
for (iter = PSDImageData.lLayers, i = 0;
iter;
iter = g_list_next (iter), i++)
{
if (SelLayers->data == ((PSD_Layer *) iter->data)->layer)
{
xfwrite (output, "8BIM", 4, "imageresources signature");
write_gint16 (output, 0x0400, "0x0400 Id"); /* 1024 */
/* write_pascalstring (output, Name, "Id name"); */
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
write_gint32 (output, sizeof (gint16), "0x0400 resource size");
/* Layer State Information uses the layer index. */
write_gint16 (output, PSDImageData.nLayers - i - 1, "active layer");
IFDBG(1) g_debug ("\tTotal length of 0x0400 resource: %d",
(int) sizeof (gint16));
break;
}
}
}
/* Write the Layer Selection ID(s) block when there is at least
* one selected layer or more.
*/
xfwrite (output, "8BIM", 4, "imageresources signature");
write_gint16 (output, 0x042D, "0x042D Id"); /* 1069 */
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
write_gint32 (output, sizeof (gint16) + sizeof (gint32) * g_list_length (SelLayers), "0x0400 resource size");
write_gint16 (output, g_list_length (SelLayers), "2 bytes count");
for (iter = SelLayers; iter; iter = iter->next)
write_gint32 (output, GPOINTER_TO_INT (pika_item_get_tattoo (iter->data)), "4 bytes layer ID");
}
g_list_free (SelLayers);
/* --------------- Write ICC profile data ------------------- */
{
PikaColorProfile *profile = NULL;
if (options->cmyk)
{
profile = pika_image_get_simulation_profile (image);
if (profile && ! pika_color_profile_is_cmyk (profile))
g_clear_object (&profile);
}
else if (! options->duotone)
{
profile = pika_image_get_effective_color_profile (image);
}
if (profile)
{
const guint8 *icc_data;
gsize icc_length;
icc_data = pika_color_profile_get_icc_profile (profile, &icc_length);
xfwrite (output, "8BIM", 4, "imageresources signature");
write_gint16 (output, 0x040f, "0x040f Id");
write_gint16 (output, 0, "Id name"); /* Set to null string (two zeros) */
write_gint32 (output, icc_length, "0x040f resource size");
xfwrite (output, icc_data, icc_length, "ICC profile");
g_object_unref (profile);
}
}
/* --------------- Write Total Section Length --------------- */
eof_pos = g_seekable_tell (G_SEEKABLE (output));
g_seekable_seek (G_SEEKABLE (output),
rsc_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, eof_pos - rsc_pos - sizeof (gint32), "image resources length");
IFDBG(1) g_debug ("\tResource section total length: %d",
(int) (eof_pos - rsc_pos - sizeof (gint32)));
/* Return to EOF to continue writing */
g_seekable_seek (G_SEEKABLE (output),
eof_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
}
static int
get_compress_channel_data (guchar *channel_data,
gint32 channel_cols,
gint32 channel_rows,
gint32 stride,
gint32 bpc,
gint16 *LengthsTable,
guchar *remdata)
{
gint i;
gint32 len; /* Length of compressed data */
guchar *start; /* Starting position of a row in channel_data */
stride /= bpc;
/* Pack channel data, and perform byte-order conversion */
switch (bpc)
{
case 1:
{
if (stride > 1)
{
const guint8 *src = (const guint8 *) channel_data;
guint8 *dest = (guint8 *) channel_data;
for (i = 0; i < channel_rows * channel_cols; i++)
{
*dest = *src;
dest++;
src += stride;
}
}
}
break;
case 2:
{
const guint16 *src = (const guint16 *) channel_data;
guint16 *dest = (guint16 *) channel_data;
for (i = 0; i < channel_rows * channel_cols; i++)
{
*dest = GUINT16_TO_BE (*src);
dest++;
src += stride;
}
}
break;
case 4:
{
const guint32 *src = (const guint32 *) channel_data;
guint32 *dest = (guint32 *) channel_data;
for (i = 0; i < channel_rows * channel_cols; i++)
{
*dest = GUINT32_TO_BE (*src);
dest++;
src += stride;
}
}
break;
default:
g_return_val_if_reached (0);
}
/* For every row in the channel */
len = 0;
for (i = 0; i < channel_rows; i++)
{
start = channel_data + i * channel_cols * bpc;
/* Create packed data for this row */
LengthsTable[i] = pack_pb_line (start, channel_cols * bpc,
&remdata[len]);
len += LengthsTable[i];
}
/* return((len + channel_rows * sizeof (gint16)) + sizeof (gint16));*/
return len;
}
/* Ported /from plug-ins/file-tiff/file-tiff-save.c */
static void
double_to_psd_fixed (gdouble value,
gchar *target)
{
gdouble in, frac;
gint i, f;
frac = modf (value, &in);
if (frac < 0)
{
in -= 1;
frac += 1;
}
i = (gint) CLAMP (in, -16, 15);
f = CLAMP ((gint) (frac * 0xFFFFFF), 0, 0xFFFFFF);
target[0] = i & 0xFF;
target[1] = (f >> 16) & 0xFF;
target[2] = (f >> 8) & 0xFF;
target[3] = f & 0xFF;
}
/* Ported from /plug-ins/file-tiff/file-tiff-save.c */
static void
save_paths (GOutputStream *output,
PikaImage *image)
{
gshort id = 0x07D0; /* Photoshop paths have IDs >= 2000 */
gdouble width = pika_image_get_width (image);
gdouble height = pika_image_get_height (image);
GList *vectors;
GList *iter;
gint v;
gint num_strokes;
gint *strokes;
gint s;
vectors = pika_image_list_vectors (image);
if (! vectors)
return;
/* Only up to 997 paths supported */
for (iter = vectors, v = 0;
iter && v <= 997;
iter = g_list_next (iter), v++)
{
GString *data;
gchar *name, *nameend;
gsize len;
gint lenpos;
gchar pointrecord[26] = { 0, };
gchar *tmpname;
GError *err = NULL;
data = g_string_new ("8BIM");
g_string_append_c (data, id / 256);
g_string_append_c (data, id % 256);
/*
* - use iso8859-1 if possible
* - otherwise use UTF-8, prepended with \xef\xbb\xbf (Byte-Order-Mark)
*/
name = pika_item_get_name (iter->data);
tmpname = g_convert (name, -1, "iso8859-1", "utf-8", NULL, &len, &err);
if (tmpname && err == NULL)
{
g_string_append_c (data, MIN (len, 255));
g_string_append_len (data, tmpname, MIN (len, 255));
g_free (tmpname);
}
else
{
/* conversion failed, we fall back to UTF-8 */
len = g_utf8_strlen (name, 255 - 3); /* need three marker-bytes */
nameend = g_utf8_offset_to_pointer (name, len);
len = nameend - name; /* in bytes */
g_assert (len + 3 <= 255);
g_string_append_c (data, len + 3);
g_string_append_len (data, "\xEF\xBB\xBF", 3); /* Unicode 0xfeff */
g_string_append_len (data, name, len);
if (tmpname)
g_free (tmpname);
}
if (data->len % 2) /* padding to even size */
g_string_append_c (data, 0);
g_free (name);
lenpos = data->len;
g_string_append_len (data, "\0\0\0\0", 4); /* will be filled in later */
len = data->len; /* to calculate the data size later */
pointrecord[1] = 6; /* fill rule record */
g_string_append_len (data, pointrecord, 26);
strokes = pika_vectors_get_strokes (iter->data, &num_strokes);
for (s = 0; s < num_strokes; s++)
{
PikaVectorsStrokeType type;
gdouble *points;
gint num_points;
gboolean closed;
gint p = 0;
type = pika_vectors_stroke_get_points (iter->data, strokes[s],
&num_points, &points, &closed);
if (type != PIKA_VECTORS_STROKE_TYPE_BEZIER ||
num_points > 65535 ||
num_points % 6)
{
g_printerr ("psd-save: unsupported stroke type: "
"%d (%d points)\n", type, num_points);
continue;
}
memset (pointrecord, 0, 26);
pointrecord[1] = closed ? 0 : 3;
pointrecord[2] = (num_points / 6) / 256;
pointrecord[3] = (num_points / 6) % 256;
g_string_append_len (data, pointrecord, 26);
for (p = 0; p < num_points; p += 6)
{
pointrecord[1] = closed ? 2 : 5;
double_to_psd_fixed (points[p+1] / height, pointrecord + 2);
double_to_psd_fixed (points[p+0] / width, pointrecord + 6);
double_to_psd_fixed (points[p+3] / height, pointrecord + 10);
double_to_psd_fixed (points[p+2] / width, pointrecord + 14);
double_to_psd_fixed (points[p+5] / height, pointrecord + 18);
double_to_psd_fixed (points[p+4] / width, pointrecord + 22);
g_string_append_len (data, pointrecord, 26);
}
}
g_free (strokes);
/* fix up the length */
len = data->len - len;
data->str[lenpos + 0] = (len & 0xFF000000) >> 24;
data->str[lenpos + 1] = (len & 0x00FF0000) >> 16;
data->str[lenpos + 2] = (len & 0x0000FF00) >> 8;
data->str[lenpos + 3] = (len & 0x000000FF) >> 0;
xfwrite (output, data->str, data->len, "path resources data");
g_string_free (data, TRUE);
id += 0x01;
}
g_list_free (vectors);
}
static void
save_clipping_path (GOutputStream *output,
PikaImage *image,
const gchar *path_name,
gfloat path_flatness)
{
gshort id = 0x0BB7;
gsize len;
GString *data;
gchar *tmpname;
gchar flatness[4];
GList *paths;
GError *err = NULL;
paths = pika_image_list_vectors (image);
if (! paths)
return;
data = g_string_new ("8BIM");
g_string_append_c (data, id / 256);
g_string_append_c (data, id % 256);
tmpname = g_convert (path_name, -1, "iso8859-1", "utf-8", NULL, &len, &err);
g_string_append_len (data, "\x00\x00\x00\x00", 4);
if ((len + 6 + 1) <= 255)
g_string_append_len (data, "\x00", 1);
g_string_append_c (data, len + 6 + 1);
g_string_append_c (data, MIN (len, 255));
g_string_append_len (data, tmpname, MIN (len, 255));
g_free (tmpname);
if (data->len % 2) /* padding to even size */
g_string_append_c (data, 0);
double_to_psd_fixed (path_flatness, flatness);
g_string_append_len (data, flatness, 4);
/* Adobe specifications state they ignore the fill rule,
* but we'll write it anyway.
*/
g_string_append_len (data, "\x00\x01", 2);
xfwrite (output, data->str, data->len, "clipping path resources data");
g_string_free (data, TRUE);
}
static void
save_layer_and_mask (GOutputStream *output,
PikaImage *image,
gboolean export_cmyk)
{
gint i,j;
gint idChannel;
gint offset_x; /* X offset for each layer */
gint offset_y; /* Y offset for each layer */
gint32 layerWidth; /* Width of each layer */
gint32 layerHeight; /* Height of each layer */
const gchar *blendMode; /* Blending mode of the layer */
guchar layerOpacity; /* Opacity of the layer */
guchar flags; /* Layer flags */
gint nChannelsLayer; /* Number of channels of a layer */
gint32 ChanSize; /* Data length for a channel */
gchar *layerName; /* Layer name */
PikaLayerMask *mask; /* Layer mask */
gint depth; /* Layer group nesting depth */
gint bpc; /* Image BPC */
goffset eof_pos; /* Position: End of file */
goffset ExtraDataPos; /* Position: Extra data length */
goffset LayerMaskPos; /* Position: Layer & Mask section length */
goffset LayerInfoPos; /* Position: Layer info section length*/
goffset **ChannelLengthPos; /* Position: Channel length */
GList *iter;
IFDBG(1) g_debug ("Function: save_layer_and_mask");
/* Create first array dimension (layers, channels) */
ChannelLengthPos = g_newa (goffset *, PSDImageData.nLayers);
/* Layer and mask information section */
LayerMaskPos = g_seekable_tell (G_SEEKABLE (output));
write_gint32 (output, 0, "layers & mask information length");
/* Layer info section */
LayerInfoPos = g_seekable_tell (G_SEEKABLE (output));
write_gint32 (output, 0, "layers info section length");
/* Layer structure section */
if (pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)))
write_gint16 (output, -PSDImageData.nLayers, "Layer structure count");
else
write_gint16 (output, PSDImageData.nLayers, "Layer structure count");
depth = 0;
bpc = get_bpc (image);
/* Layer records section */
/* PIKA layers must be written in reverse order */
for (iter = g_list_last (PSDImageData.lLayers), i = PSDImageData.nLayers;
iter;
iter = g_list_previous (iter), i--)
{
PSD_Layer *psd_layer = (PSD_Layer *) iter->data;
gint hasMask = 0;
if (psd_layer->type == PSD_LAYER_TYPE_LAYER)
{
pika_drawable_get_offsets (PIKA_DRAWABLE (psd_layer->layer),
&offset_x, &offset_y);
layerWidth = pika_drawable_get_width (PIKA_DRAWABLE (psd_layer->layer));
layerHeight = pika_drawable_get_height (PIKA_DRAWABLE (psd_layer->layer));
}
else
{
/* groups don't specify their dimensions, and have empty channel
* data
*/
offset_x = 0;
offset_y = 0;
layerWidth = 0;
layerHeight = 0;
}
IFDBG(1)
{
const gchar *type;
switch (psd_layer->type)
{
case PSD_LAYER_TYPE_LAYER: type = "normal layer"; break;
case PSD_LAYER_TYPE_GROUP_START: type = "group start marker"; break;
case PSD_LAYER_TYPE_GROUP_END: type = "group end marker"; break;
default: type = "unknown"; break;
}
g_debug ("\n\tLayer number: %d\n"
"\t\tType: %s\n"
"\t\tX offset: %d\n"
"\t\tY offset: %d\n"
"\t\tWidth: %d\n"
"\t\tHeight: %d\n",
i-1, type, offset_x, offset_y,
layerWidth, layerHeight);
}
write_gint32 (output, offset_y, "Layer top");
write_gint32 (output, offset_x, "Layer left");
write_gint32 (output, offset_y + layerHeight, "Layer bottom");
write_gint32 (output, offset_x + layerWidth, "Layer right");
hasMask = (psd_layer->type != PSD_LAYER_TYPE_GROUP_END &&
pika_layer_get_mask (psd_layer->layer) != NULL);
nChannelsLayer = nChansLayer (PSDImageData.baseType,
pika_drawable_has_alpha (PIKA_DRAWABLE (psd_layer->layer)),
hasMask);
/* Manually set channels to 4 or 5 when export as CMYK;
* Can be removed once CMYK channels are accessible in PIKA
*/
if (export_cmyk)
{
nChannelsLayer =
pika_drawable_has_alpha (PIKA_DRAWABLE (psd_layer->layer)) ?
5 : 4;
}
write_gint16 (output, nChannelsLayer, "Number channels in the layer");
IFDBG(1) g_debug ("\t\tNumber of channels: %d", nChannelsLayer);
/* Create second array dimension (layers, channels) */
ChannelLengthPos[i-1] = g_new (goffset, nChannelsLayer);
/* Try with pika_drawable_get_bpp() */
for (j = 0; j < nChannelsLayer; j++)
{
if (pika_drawable_has_alpha (PIKA_DRAWABLE (psd_layer->layer)))
idChannel = j - 1;
else
idChannel = j;
if (hasMask && (j+1 == nChannelsLayer)) /* Last channel ... */
idChannel = -2; /* ... will be layer mask */
write_gint16 (output, idChannel, "Channel ID");
IFDBG(1) g_debug ("\t\t\tChannel Identifier: %d", idChannel);
/* Write the length assuming no compression. In case there is,
will modify it later when writing data. */
ChannelLengthPos[i-1][j] = g_seekable_tell (G_SEEKABLE (output));
ChanSize = sizeof (gint16) + (layerWidth * layerHeight * bpc);
write_gint32 (output, ChanSize, "Channel Size");
IFDBG(1) g_debug ("\t\t\tLength: %d", ChanSize);
}
xfwrite (output, "8BIM", 4, "blend mode signature");
blendMode = psd_lmode_layer (psd_layer->layer, FALSE);
IFDBG(1) g_debug ("\t\tBlend mode: %s", blendMode);
xfwrite (output, blendMode, 4, "blend mode key");
layerOpacity = RINT ((pika_layer_get_opacity (psd_layer->layer) * 255.0) / 100.0);
IFDBG(1) g_debug ("\t\tOpacity: %u", layerOpacity);
write_gchar (output, layerOpacity, "Opacity");
if (pika_layer_get_composite_mode (psd_layer->layer) == PIKA_LAYER_COMPOSITE_CLIP_TO_BACKDROP)
write_gchar (output, 1, "Clipping");
else
write_gchar (output, 0, "Clipping");
flags = 0;
if (pika_layer_get_lock_alpha (psd_layer->layer)) flags |= 1;
if (! pika_item_get_visible (PIKA_ITEM (psd_layer->layer))) flags |= 2;
if (psd_layer->type != PSD_LAYER_TYPE_LAYER) flags |= 0x18;
IFDBG(1) g_debug ("\t\tFlags: %u", flags);
write_gchar (output, flags, "Flags");
/* Padding byte to make the length even */
write_gchar (output, 0, "Filler");
ExtraDataPos = g_seekable_tell (G_SEEKABLE (output)); /* Position of Extra Data size */
write_gint32 (output, 0, "Extra data size");
if (hasMask)
{
gint maskOffset_x;
gint maskOffset_y;
gint maskWidth;
gint maskHeight;
gboolean apply;
mask = pika_layer_get_mask (psd_layer->layer);
pika_drawable_get_offsets (PIKA_DRAWABLE (mask), &maskOffset_x, &maskOffset_y);
maskWidth = pika_drawable_get_width (PIKA_DRAWABLE (mask));
maskHeight = pika_drawable_get_height (PIKA_DRAWABLE (mask));
apply = pika_layer_get_apply_mask (psd_layer->layer);
IFDBG(1) g_debug ("\t\tLayer mask size: %d", 20);
write_gint32 (output, 20, "Layer mask size");
write_gint32 (output, maskOffset_y, "Layer mask top");
write_gint32 (output, maskOffset_x, "Layer mask left");
write_gint32 (output, maskOffset_y + maskHeight, "Layer mask bottom");
write_gint32 (output, maskOffset_x + maskWidth, "Layer mask right");
write_gchar (output, 0, "Layer mask default color");
flags = (0 | /* position relative to layer */
(apply ? 0 : 1) << 1 | /* layer mask disabled */
0 << 2); /* invert layer mask */
write_gchar (output, flags, "Layer mask flags");
write_gint16 (output, 0, "Layer mask Padding");
}
else
{
/* NOTE Writing empty Layer mask / adjustment layer data */
write_gint32 (output, 0, "Layer mask size");
IFDBG(1) g_debug ("\t\tLayer mask size: %d", 0);
}
/* NOTE Writing empty Layer blending ranges data */
write_gint32 (output, 0, "Layer blending size");
IFDBG(1) g_debug ("\t\tLayer blending size: %d", 0);
if (psd_layer->type != PSD_LAYER_TYPE_GROUP_END)
layerName = pika_item_get_name (PIKA_ITEM (psd_layer->layer));
else
layerName = g_strdup ("</Layer group>");
write_pascalstring (output, layerName, 4, "layer name");
IFDBG(1) g_debug ("\t\tLayer name: %s", layerName);
/* Additional layer information blocks */
/* Unicode layer name */
write_datablock_luni (output, layerName, "luni extra data block");
g_free (layerName);
/* Layer ID */
xfwrite (output, "8BIMlyid", 8, "lyid signature");
write_gint32 (output, 4, "lyid size");
write_gint32 (output, pika_item_get_tattoo (PIKA_ITEM (psd_layer->layer)), "Layer ID");
/* Layer color tag */
xfwrite (output, "8BIMlclr", 8, "sheet color signature");
write_gint32 (output, 8, "sheet color size");
write_gint16 (output,
pika_to_psd_layer_color_tag (pika_item_get_color_tag (PIKA_ITEM (psd_layer->layer))),
"sheet color code");
write_gint16 (output, 0, "sheet color unused value");
write_gint16 (output, 0, "sheet color unused value");
write_gint16 (output, 0, "sheet color unused value");
/* Group layer section divider */
if (psd_layer->type != PSD_LAYER_TYPE_LAYER)
{
gint32 size;
gint32 type;
size = 12;
if (psd_layer->type == PSD_LAYER_TYPE_GROUP_START)
{
type = pika_item_get_expanded (PIKA_ITEM (psd_layer->layer)) ? 1 : 2;
depth--;
}
else
{
type = 3;
depth++;
}
blendMode = psd_lmode_layer (psd_layer->layer, TRUE);
if (type < 3 || depth <= 5)
{
xfwrite (output, "8BIMlsct", 8, "section divider");
}
else
{
/* layer groups whose nesting depth is above 5 are only supported
* by Photoshop CS5 and up, and their end markers use the
* (undocumented) "lsdk" key, instead of "lsct".
*/
xfwrite (output, "8BIMlsdk", 8, "nested section divider");
}
write_gint32 (output, size, "section divider size");
write_gint32 (output, type, "section divider type");
xfwrite (output, "8BIM", 4, "section divider blend mode signature");
xfwrite (output, blendMode, 4, "section divider blend mode key");
}
/* Write real length for: Extra data */
eof_pos = g_seekable_tell (G_SEEKABLE (output));
g_seekable_seek (G_SEEKABLE (output),
ExtraDataPos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, eof_pos - ExtraDataPos - sizeof (gint32), "Extra data size");
IFDBG(1) g_debug ("\t\tExtraData size: %d",
(int) (eof_pos - ExtraDataPos - sizeof (gint32)));
/* Return to EOF to continue writing */
g_seekable_seek (G_SEEKABLE (output),
eof_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
}
/* Channel image data section */
/* Pika layers must be written in reverse order */
for (iter = g_list_last (PSDImageData.lLayers), i = PSDImageData.nLayers;
iter;
iter = g_list_previous (iter), i--)
{
PSD_Layer *psd_layer = (PSD_Layer *) iter->data;
pika_progress_update ((PSDImageData.nLayers - i - 1.0) / (PSDImageData.nLayers + 1.0));
IFDBG(1) g_debug ("\t\tWriting pixel data for layer slot %d", i-1);
write_pixel_data (output, image, PIKA_DRAWABLE (psd_layer->layer), ChannelLengthPos[i-1], 0,
psd_layer->type != PSD_LAYER_TYPE_GROUP_END, export_cmyk);
g_free (ChannelLengthPos[i-1]);
}
pika_progress_update (PSDImageData.nLayers / (PSDImageData.nLayers + 1.0));
eof_pos = g_seekable_tell (G_SEEKABLE (output));
/* Write actual size of Layer info section */
g_seekable_seek (G_SEEKABLE (output),
LayerInfoPos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, eof_pos - LayerInfoPos - sizeof (gint32), "layers info section length");
IFDBG(1) g_debug ("\t\tTotal layers info section length: %d",
(int) (eof_pos - LayerInfoPos - sizeof (gint32)));
/* Write actual size of Layer and mask information section */
g_seekable_seek (G_SEEKABLE (output),
LayerMaskPos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, eof_pos - LayerMaskPos - sizeof (gint32), "layers & mask information length");
IFDBG(1) g_debug ("\t\tTotal layers & mask information length: %d",
(int) (eof_pos - LayerMaskPos - sizeof (gint32)));
/* Return to EOF to continue writing */
g_seekable_seek (G_SEEKABLE (output),
eof_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
}
static void
write_pixel_data (GOutputStream *output,
PikaImage *image,
PikaDrawable *drawable,
goffset *ChanLenPosition,
goffset ltable_offset,
gboolean write_mask,
gboolean export_cmyk)
{
GeglBuffer *buffer = pika_drawable_get_buffer (drawable);
const Babl *format;
const Babl *space = NULL;
const Babl *type;
PikaColorProfile *profile;
PikaLayerMask *mask;
gint32 tile_height = pika_tile_height ();
gint32 height = gegl_buffer_get_height (buffer);
gint32 width = gegl_buffer_get_width (buffer);
gint32 bytes;
gint32 components;
gint32 bpc;
gint32 colors;
gint32 y;
gsize len; /* Length of compressed data */
gint16 *LengthsTable; /* Lengths of every compressed row */
guchar *rledata; /* Compressed data from a region */
guchar *data; /* Temporary copy of pixel data */
goffset length_table_pos; /* position in file of the length table */
int i, j;
IFDBG(1) g_debug ("Function: write_pixel_data, drw %d, lto %" G_GOFFSET_FORMAT,
pika_item_get_id (PIKA_ITEM (drawable)), ltable_offset);
if (write_mask)
mask = pika_layer_get_mask (PIKA_LAYER (drawable));
else
mask = NULL;
/* groups have empty channel data, but may have a mask */
if (pika_item_is_group (PIKA_ITEM (drawable)) && mask == NULL)
{
width = 0;
height = 0;
}
if (pika_item_is_channel (PIKA_ITEM (drawable)))
format = get_channel_format (drawable);
else
format = get_pixel_format (drawable);
if (export_cmyk && ! pika_item_is_channel (PIKA_ITEM (drawable)))
{
profile = pika_image_get_simulation_profile (image);
if (profile && pika_color_profile_is_cmyk (profile))
space = pika_color_profile_get_space (profile,
pika_image_get_simulation_intent (image),
NULL);
if (profile)
g_object_unref (profile);
if (get_bpc (image) == 1)
type = babl_type ("u8");
else
type = babl_type ("u16");
if (pika_drawable_has_alpha (drawable))
format = babl_format_new (babl_model ("cmykA"),
type,
babl_component ("cyan"),
babl_component ("magenta"),
babl_component ("yellow"),
babl_component ("key"),
babl_component ("A"),
NULL);
else
format = babl_format_new (babl_model ("cmyk"),
type,
babl_component ("cyan"),
babl_component ("magenta"),
babl_component ("yellow"),
babl_component ("key"),
NULL);
format = babl_format_with_space (babl_format_get_encoding (format),
space);
}
bytes = babl_format_get_bytes_per_pixel (format);
components = babl_format_get_n_components (format);
bpc = bytes / components;
colors = components;
if (pika_drawable_has_alpha (drawable) &&
! pika_drawable_is_indexed (drawable))
colors -= 1;
LengthsTable = g_new (gint16, height);
rledata = g_new (guchar, (MIN (height, tile_height) *
(width + 10 + (width / 100))) * bpc);
data = g_new (guchar, MIN (height, tile_height) * width * bytes);
/* groups have empty channel data */
if (pika_item_is_group (PIKA_ITEM (drawable)))
{
width = 0;
height = 0;
}
for (i = 0; i < components; i++)
{
gint chan;
len = 0;
if (components != colors && ltable_offset == 0) /* Need to write alpha channel first, except in image data section */
{
if (i == 0)
{
chan = components - 1;
}
else
{
chan = i - 1;
}
}
else
{
chan = i;
}
if (ChanLenPosition)
{
write_gint16 (output, 1, "Compression type (RLE)");
len += 2;
}
if (ltable_offset > 0)
{
length_table_pos = ltable_offset + 2 * chan * height;
}
else
{
length_table_pos = g_seekable_tell (G_SEEKABLE (output));
xfwrite (output, LengthsTable, height * sizeof(gint16),
"Dummy RLE length");
len += height * sizeof(gint16);
IFDBG(3) g_debug ("\t\t\t\t. ltable, pos %" G_GOFFSET_FORMAT
" len %" G_GSIZE_FORMAT,
length_table_pos, len);
}
for (y = 0; y < height; y += tile_height)
{
int tlen;
gegl_buffer_get (buffer,
GEGL_RECTANGLE (0, y,
width,
MIN (height - y, tile_height)),
1.0, format, data,
GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
tlen = get_compress_channel_data (&data[chan * bpc],
width,
MIN(height - y, tile_height),
bytes, bpc,
&LengthsTable[y],
rledata);
len += tlen;
xfwrite (output, rledata, tlen, "Compressed pixel data");
IFDBG(3) g_debug ("\t\t\t\t. Writing compressed pixels, stream of %d", tlen);
}
/* Write compressed lengths table */
g_seekable_seek (G_SEEKABLE (output),
length_table_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
for (j = 0; j < height; j++) /* write real length table */
write_gint16 (output, LengthsTable[j], "RLE length");
if (ChanLenPosition) /* Update total compressed length */
{
g_seekable_seek (G_SEEKABLE (output),
ChanLenPosition[i], G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, len, "channel data length");
IFDBG(1) g_debug ("\t\tUpdating data len to %" G_GSIZE_FORMAT, len);
}
g_seekable_seek (G_SEEKABLE (output),
0, G_SEEK_END,
NULL, NULL /*FIXME: error*/);
IFDBG(3) g_debug ("\t\t\t\t. Cur pos %" G_GOFFSET_FORMAT, g_seekable_tell (G_SEEKABLE (output)));
}
/* Write layer mask, as last channel, id -2 */
if (mask != NULL)
{
GeglBuffer *mbuffer = pika_drawable_get_buffer (PIKA_DRAWABLE (mask));
const Babl *mformat = get_mask_format (mask);
width = gegl_buffer_get_width (buffer);
height = gegl_buffer_get_height (buffer);
len = 0;
if (ChanLenPosition)
{
write_gint16 (output, 1, "Compression type (RLE)");
len += 2;
IFDBG(3) g_debug ("\t\t\t\t. ChanLenPos, len %" G_GSIZE_FORMAT, len);
}
if (ltable_offset > 0)
{
length_table_pos = ltable_offset + 2 * (components+1) * height;
IFDBG(3) g_debug ("\t\t\t\t. ltable, pos %" G_GOFFSET_FORMAT,
length_table_pos);
}
else
{
length_table_pos = g_seekable_tell (G_SEEKABLE (output));
xfwrite (output, LengthsTable, height * sizeof(gint16),
"Dummy RLE length");
len += height * sizeof(gint16);
IFDBG(3) g_debug ("\t\t\t\t. ltable, pos %" G_GOFFSET_FORMAT
" len %" G_GSIZE_FORMAT,
length_table_pos, len);
}
for (y = 0; y < height; y += tile_height)
{
int tlen;
gegl_buffer_get (mbuffer,
GEGL_RECTANGLE (0, y,
width,
MIN (height - y, tile_height)),
1.0, mformat, data,
GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
tlen = get_compress_channel_data (&data[0],
width,
MIN(height - y, tile_height),
bpc, bpc,
&LengthsTable[y],
rledata);
len += tlen;
xfwrite (output, rledata, tlen, "Compressed mask data");
IFDBG(3) g_debug ("\t\t\t\t. Writing compressed mask, stream of %d", tlen);
}
/* Write compressed lengths table */
g_seekable_seek (G_SEEKABLE (output),
length_table_pos, G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
for (j = 0; j < height; j++) /* write real length table */
{
write_gint16 (output, LengthsTable[j], "RLE length");
IFDBG(3) g_debug ("\t\t\t\t. Updating RLE len %d",
LengthsTable[j]);
}
if (ChanLenPosition) /* Update total compressed length */
{
/* Mask follows other components so use that as offset. */
g_seekable_seek (G_SEEKABLE (output),
ChanLenPosition[components], G_SEEK_SET,
NULL, NULL /*FIXME: error*/);
write_gint32 (output, len, "channel data length");
IFDBG(1) g_debug ("\t\tUpdating data len to %" G_GSIZE_FORMAT
", at %" G_GOFFSET_FORMAT,
len, g_seekable_tell (G_SEEKABLE (output)));
}
g_seekable_seek (G_SEEKABLE (output),
0, G_SEEK_END,
NULL, NULL /*FIXME: error*/);
IFDBG(3) g_debug ("\t\t\t\t. Cur pos %" G_GOFFSET_FORMAT,
g_seekable_tell (G_SEEKABLE (output)));
g_object_unref (mbuffer);
}
g_object_unref (buffer);
g_free (data);
g_free (rledata);
g_free (LengthsTable);
}
static void
save_data (GOutputStream *output,
PikaImage *image,
gboolean export_cmyk)
{
GList *iter;
gint ChanCount;
gint i, j;
gint32 imageHeight; /* Height of image */
goffset offset; /* offset in file of rle lengths */
gint chan;
IFDBG(1) g_debug ("Function: save_data");
ChanCount = (PSDImageData.nChannels +
nChansLayer (PSDImageData.baseType,
pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)),
0));
imageHeight = pika_image_get_height (image);
write_gint16 (output, 1, "RLE compression");
/* All line lengths go before the rle pixel data */
offset = g_seekable_tell (G_SEEKABLE (output)); /* Offset in file of line lengths */
for (i = 0; i < ChanCount; i++)
for (j = 0; j < imageHeight; j++)
write_gint16 (output, 0, "junk line lengths");
IFDBG(1) g_debug ("\t\tWriting compressed image data");
write_pixel_data (output, image, PIKA_DRAWABLE (PSDImageData.merged_layer),
NULL, offset, FALSE, export_cmyk);
chan = nChansLayer (PSDImageData.baseType,
pika_drawable_has_alpha (PIKA_DRAWABLE (PSDImageData.merged_layer)), 0);
for (iter = PSDImageData.lChannels; iter; iter = g_list_next (iter))
{
IFDBG(1) g_debug ("\t\tWriting compressed channel data for channel %d", i);
write_pixel_data (output, image, iter->data, NULL,
offset + 2*imageHeight*chan, FALSE,
export_cmyk); //check how imgs are channels here
chan++;
}
}
static PikaLayer *
create_merged_image (PikaImage *image)
{
PikaLayer *projection;
projection = pika_layer_new_from_visible (image, image, "psd-save");
if (! pika_drawable_has_alpha (PIKA_DRAWABLE (projection)))
return projection;
if (pika_image_get_base_type (image) != PIKA_INDEXED)
{
GeglBuffer *buffer = pika_drawable_get_buffer (PIKA_DRAWABLE (projection));
const Babl *format = get_pixel_format (PIKA_DRAWABLE (projection));
gboolean transparency_found = FALSE;
gint bpp = babl_format_get_bytes_per_pixel (format);
GeglBufferIterator *iter;
iter = gegl_buffer_iterator_new (buffer, NULL, 0, format,
GEGL_ACCESS_READWRITE, GEGL_ABYSS_NONE, 1);
while (gegl_buffer_iterator_next (iter))
{
guchar *d = iter->items[0].data;
gint i;
for (i = 0; i < iter->length; i++)
{
gint32 alpha = d[bpp - 1];
if (alpha < 255)
{
gint c;
transparency_found = TRUE;
/* blend against white, photoshop does this. */
for (c = 0; c < bpp - 1; c++)
d[c] = ((guint32) d[c] * alpha + 128) / 255 + 255 - alpha;
}
d += bpp;
}
}
g_object_unref (buffer);
if (! transparency_found)
pika_layer_flatten (projection);
}
else
{
pika_layer_flatten (projection); /* PSDs don't support transparency information in indexed images*/
}
return projection;
}
static void
get_image_data (PikaImage *image)
{
IFDBG(1) g_debug ("Function: get_image_data");
PSDImageData.compression = FALSE;
PSDImageData.image_height = pika_image_get_height (image);
IFDBG(1) g_debug ("\tGot number of rows: %d", PSDImageData.image_height);
PSDImageData.image_width = pika_image_get_width (image);
IFDBG(1) g_debug ("\tGot number of cols: %d", PSDImageData.image_width);
PSDImageData.baseType = pika_image_get_base_type (image);
IFDBG(1) g_debug ("\tGot base type: %d", PSDImageData.baseType);
PSDImageData.merged_layer = create_merged_image (image);
PSDImageData.lChannels = pika_image_list_channels (image);
PSDImageData.nChannels = g_list_length (PSDImageData.lChannels);
IFDBG(1) g_debug ("\tGot number of channels: %d", PSDImageData.nChannels);
PSDImageData.lLayers = image_get_all_layers (image,
&PSDImageData.nLayers);
IFDBG(1) g_debug ("\tGot number of layers: %d", PSDImageData.nLayers);
}
static void
clear_image_data (void)
{
IFDBG(1) g_debug ("Function: clear_image_data");
g_list_free (PSDImageData.lChannels);
PSDImageData.lChannels = NULL;
g_list_free (PSDImageData.lLayers);
PSDImageData.lLayers = NULL;
}
gboolean
save_image (GFile *file,
PikaImage *image,
GObject *config,
GError **error)
{
GOutputStream *output;
GeglBuffer *buffer;
GList *iter;
GError *local_error = NULL;
PikaParasite *parasite = NULL;
PSD_Resource_Options resource_options;
g_object_get (config,
"cmyk", &resource_options.cmyk,
"duotone", &resource_options.duotone,
"clippingpath", &resource_options.clipping_path,
"clippingpathname", &resource_options.clipping_path_name,
"clippingpathflatness", &resource_options.clipping_path_flatness,
NULL);
IFDBG(1) g_debug ("Function: save_image");
if (resource_options.cmyk)
resource_options.duotone = FALSE;
if (pika_image_get_width (image) > 30000 ||
pika_image_get_height (image) > 30000)
{
g_set_error (error, G_FILE_ERROR, G_FILE_ERROR_FAILED,
_("Unable to export '%s'. The PSD file format does not "
"support images that are more than 30,000 pixels wide "
"or tall."),
pika_file_get_utf8_name (file));
return FALSE;
}
pika_progress_init_printf (_("Exporting '%s'"),
pika_file_get_utf8_name (file));
/* If image is not grayscale or lacks Duotone color space parasite,
* turn off "Export as Duotone".
*/
parasite = pika_image_get_parasite (image, PSD_PARASITE_DUOTONE_DATA);
if (parasite)
{
if (pika_image_get_base_type (image) != PIKA_GRAY)
resource_options.duotone = FALSE;
pika_parasite_free (parasite);
}
else
{
resource_options.duotone = FALSE;
}
get_image_data (image);
/* Need to check each of the layers size individually also */
for (iter = PSDImageData.lLayers; iter; iter = iter->next)
{
PSD_Layer *layer = iter->data;
if (layer->type == PSD_LAYER_TYPE_LAYER)
{
buffer = pika_drawable_get_buffer (PIKA_DRAWABLE (layer->layer));
if (gegl_buffer_get_width (buffer) > 30000 ||
gegl_buffer_get_height (buffer) > 30000)
{
g_set_error (error, G_FILE_ERROR, G_FILE_ERROR_FAILED,
_("Unable to export '%s'. The PSD file format does not "
"support images with layers that are more than 30,000 "
"pixels wide or tall."),
pika_file_get_utf8_name (file));
clear_image_data ();
return FALSE;
}
g_object_unref (buffer);
}
}
output = G_OUTPUT_STREAM (g_file_replace (file, NULL, FALSE,
G_FILE_CREATE_NONE, NULL,
&local_error));
if (! output)
{
if (! local_error)
g_set_error (error, G_FILE_ERROR, g_file_error_from_errno (errno),
_("Could not open '%s' for writing: %s"),
pika_file_get_utf8_name (file), g_strerror (errno));
else
{
g_set_error (error, G_FILE_ERROR, G_FILE_ERROR_FAILED,
_("Could not open '%s' for reading: %s"),
pika_file_get_utf8_name (file), local_error->message);
g_error_free (local_error);
}
clear_image_data ();
return FALSE;
}
IFDBG(1) g_debug ("\tFile '%s' has been opened",
pika_file_get_utf8_name (file));
save_header (output, image, resource_options.cmyk, resource_options.duotone);
save_color_mode_data (output, image, resource_options.duotone);
save_resources (output, image, &resource_options);
/* PSD format does not support layers in indexed images */
if (PSDImageData.baseType == PIKA_INDEXED)
write_gint32 (output, 0, "layers info section length");
else
save_layer_and_mask (output, image, resource_options.cmyk);
/* If this is an indexed image, write now channel and layer info */
save_data (output, image, resource_options.cmyk);
/* Delete merged image now */
pika_item_delete (PIKA_ITEM (PSDImageData.merged_layer));
clear_image_data ();
IFDBG(1) g_debug ("----- Closing PSD file, done -----\n");
g_object_unref (output);
g_free (resource_options.clipping_path_name);
pika_progress_update (1.0);
return TRUE;
}
static gint
get_bpc (PikaImage *image)
{
switch (pika_image_get_precision (image))
{
case PIKA_PRECISION_U8_LINEAR:
case PIKA_PRECISION_U8_NON_LINEAR:
case PIKA_PRECISION_U8_PERCEPTUAL:
return 1;
case PIKA_PRECISION_U16_LINEAR:
case PIKA_PRECISION_U16_NON_LINEAR:
case PIKA_PRECISION_U16_PERCEPTUAL:
case PIKA_PRECISION_HALF_LINEAR:
case PIKA_PRECISION_HALF_NON_LINEAR:
case PIKA_PRECISION_HALF_PERCEPTUAL:
return 2;
case PIKA_PRECISION_U32_LINEAR:
case PIKA_PRECISION_U32_NON_LINEAR:
case PIKA_PRECISION_U32_PERCEPTUAL:
case PIKA_PRECISION_FLOAT_LINEAR:
case PIKA_PRECISION_FLOAT_NON_LINEAR:
case PIKA_PRECISION_FLOAT_PERCEPTUAL:
default:
/* FIXME: we *should* encode the image as u32 in this case, but simply
* using the same code as for the other cases produces invalid psd files
* (they're rejected by photoshop, although they can be read by the
* corresponding psd-load.c code, which in turn can't actually read
* photoshop-generated u32 files.)
*
* simply encode the image as u16 for now.
*/
/* return 4; */
return 2;
}
}
static const Babl *
get_pixel_format (PikaDrawable *drawable)
{
PikaImage *image = pika_item_get_image (PIKA_ITEM (drawable));
const gchar *model;
gint bpc;
gchar format[32];
switch (pika_drawable_type (drawable))
{
case PIKA_GRAY_IMAGE:
model = "Y'";
break;
case PIKA_GRAYA_IMAGE:
model = "Y'A";
break;
case PIKA_RGB_IMAGE:
model = "R'G'B'";
break;
case PIKA_RGBA_IMAGE:
model = "R'G'B'A";
break;
case PIKA_INDEXED_IMAGE:
case PIKA_INDEXEDA_IMAGE:
return pika_drawable_get_format (drawable);
default:
g_return_val_if_reached (NULL);
}
bpc = get_bpc (image);
sprintf (format, "%s u%d", model, 8 * bpc);
return babl_format (format);
}
static const Babl *
get_channel_format (PikaDrawable *drawable)
{
PikaImage *image = pika_item_get_image (PIKA_ITEM (drawable));
gint bpc;
gchar format[32];
/* see pika_image_get_channel_format() */
if (pika_image_get_precision (image) == PIKA_PRECISION_U8_NON_LINEAR)
return babl_format ("Y' u8");
bpc = get_bpc (image);
sprintf (format, "Y u%d", 8 * bpc);
return babl_format (format);
}
static const Babl *
get_mask_format (PikaLayerMask *mask)
{
PikaImage *image = pika_item_get_image (PIKA_ITEM (mask));
gint bpc;
gchar format[32];
bpc = get_bpc (image);
sprintf (format, "Y u%d", 8 * bpc);
return babl_format (format);
}
static GList *
append_layers (GList *layers)
{
GList *psd_layers = NULL;
GList *iter;
for (iter = layers; iter; iter = iter->next)
{
PSD_Layer *layer = g_new0 (PSD_Layer, 1);
gboolean is_group;
layer->layer = iter->data;
is_group = pika_item_is_group (iter->data);
if (! is_group)
layer->type = PSD_LAYER_TYPE_LAYER;
else
layer->type = PSD_LAYER_TYPE_GROUP_START;
psd_layers = g_list_append (psd_layers, layer);
if (is_group)
{
PSD_Layer *end_layer = g_new0 (PSD_Layer, 1);
GList *group_layers;
group_layers = pika_item_list_children (iter->data);
psd_layers = g_list_concat (psd_layers,
append_layers (group_layers));
g_list_free (group_layers);
end_layer->layer = iter->data;
end_layer->type = PSD_LAYER_TYPE_GROUP_END;
psd_layers = g_list_append (psd_layers, end_layer);
}
}
return psd_layers;
}
static GList *
image_get_all_layers (PikaImage *image,
gint *n_layers)
{
GList *psd_layers = NULL;
GList *layers;
layers = pika_image_list_layers (image);
psd_layers = append_layers (layers);
g_list_free (layers);
*n_layers = g_list_length (psd_layers);
return psd_layers;
}
gboolean
save_dialog (PikaImage *image,
PikaProcedure *procedure,
GObject *config)
{
GtkWidget *dialog;
GtkWidget *duotone_notice;
GtkWidget *label;
gchar *text;
GtkWidget *profile_label;
PikaColorProfile *cmyk_profile;
PikaParasite *parasite = NULL;
gboolean has_duotone_data = FALSE;
GList *paths;
gboolean run;
dialog = pika_procedure_dialog_new (procedure,
PIKA_PROCEDURE_CONFIG (config),
_("Export Image as PSD"));
/* CMYK profile label */
profile_label = pika_procedure_dialog_get_label (PIKA_PROCEDURE_DIALOG (dialog),
"profile-label", _("No soft-proofing profile"),
FALSE, FALSE);
gtk_label_set_xalign (GTK_LABEL (profile_label), 0.0);
gtk_label_set_ellipsize (GTK_LABEL (profile_label), PANGO_ELLIPSIZE_END);
pika_label_set_attributes (GTK_LABEL (profile_label),
PANGO_ATTR_STYLE, PANGO_STYLE_ITALIC,
-1);
pika_help_set_help_data (profile_label,
_("Name of the color profile used for CMYK export."), NULL);
pika_procedure_dialog_fill_frame (PIKA_PROCEDURE_DIALOG (dialog),
"cmyk-frame", "cmyk", FALSE,
"profile-label");
cmyk_profile = pika_image_get_simulation_profile (image);
if (cmyk_profile)
{
if (pika_color_profile_is_cmyk (cmyk_profile))
{
gchar *label_text;
label_text = g_strdup_printf (_("Profile: %s"),
pika_color_profile_get_label (cmyk_profile));
gtk_label_set_text (GTK_LABEL (profile_label), label_text);
pika_label_set_attributes (GTK_LABEL (profile_label),
PANGO_ATTR_STYLE, PANGO_STYLE_NORMAL,
-1);
g_free (label_text);
}
g_object_unref (cmyk_profile);
}
/* Only show dialog if image is grayscale and duotone color space
* information was attached from the original image imported
*/
parasite = pika_image_get_parasite (image, PSD_PARASITE_DUOTONE_DATA);
if (parasite)
{
if (pika_image_get_base_type (image) == PIKA_GRAY)
{
has_duotone_data = TRUE;
/* Duotone Option label */
duotone_notice = pika_procedure_dialog_get_label (PIKA_PROCEDURE_DIALOG (dialog),
"duotone-notice",
_("Duotone color space information "
"from the original\nimported image "
"will be used."),
FALSE, FALSE);
gtk_label_set_xalign (GTK_LABEL (duotone_notice), 0.0);
gtk_label_set_ellipsize (GTK_LABEL (duotone_notice), PANGO_ELLIPSIZE_END);
pika_label_set_attributes (GTK_LABEL (duotone_notice),
PANGO_ATTR_STYLE, PANGO_STYLE_ITALIC,
-1);
pika_procedure_dialog_fill_frame (PIKA_PROCEDURE_DIALOG (dialog),
"duotone-frame", "duotone", FALSE,
"duotone-notice");
/* Prevent you from setting both Duotone and CMYK exports */
pika_procedure_dialog_set_sensitive (PIKA_PROCEDURE_DIALOG (dialog),
"duotone",
TRUE, config, "cmyk", TRUE);
pika_procedure_dialog_set_sensitive (PIKA_PROCEDURE_DIALOG (dialog),
"cmyk",
TRUE, config, "duotone", TRUE);
}
pika_parasite_free (parasite);
}
/* Clipping Path */
paths = pika_image_list_vectors (image);
if (paths)
{
GtkWidget *vbox;
GtkWidget *frame;
GtkWidget *entry;
GtkWidget *combo;
GtkWidget *label;
GList *list;
GtkTreeModel *model;
GtkTreeIter iter;
gint v;
gint saved_id = -1;
gchar *path_name = NULL;
parasite = pika_image_get_parasite (image, PSD_PARASITE_CLIPPING_PATH);
if (parasite)
{
guint32 parasite_size;
path_name = (gchar *) pika_parasite_get_data (parasite, &parasite_size);
path_name = g_strndup (path_name, parasite_size);
pika_parasite_free (parasite);
}
else
{
/* Uncheck clipping path if no parasite data saved */
g_object_set (config,
"clippingpath", FALSE,
NULL);
}
vbox = gtk_box_new (GTK_ORIENTATION_VERTICAL, 6);
combo = pika_vectors_combo_box_new (NULL, NULL, NULL);
/* Alert user if they have more than 998 paths */
if (g_list_length (paths) > 998)
{
label = pika_procedure_dialog_get_label (PIKA_PROCEDURE_DIALOG (dialog),
"path-warning",
_("PSD files can store up to "
"998 paths. \nThe rest "
"will be discarded."),
FALSE, FALSE);
gtk_label_set_xalign (GTK_LABEL (label), 0.0);
gtk_label_set_ellipsize (GTK_LABEL (label), PANGO_ELLIPSIZE_END);
pika_label_set_attributes (GTK_LABEL (label),
PANGO_ATTR_STYLE, PANGO_STYLE_ITALIC,
-1);
pika_procedure_dialog_fill (PIKA_PROCEDURE_DIALOG (dialog),
"path-warning",
NULL);
gtk_widget_show (label);
}
/* Fixing labels */
model = gtk_combo_box_get_model (GTK_COMBO_BOX (combo));
gtk_list_store_clear (GTK_LIST_STORE (model));
for (list = paths, v = 0;
list && v <= 997;
list = g_list_next (list), v++)
{
gtk_list_store_append (GTK_LIST_STORE (model), &iter);
gtk_list_store_set (GTK_LIST_STORE (model), &iter,
PIKA_INT_STORE_VALUE, pika_item_get_id (list->data),
PIKA_INT_STORE_LABEL, pika_item_get_name (list->data),
PIKA_INT_STORE_PIXBUF, NULL,
PIKA_INT_STORE_USER_DATA, pika_item_get_name (list->data),
-1);
if (! g_strcmp0 (pika_item_get_name (list->data),
path_name))
saved_id = pika_item_get_id (list->data);
}
if (saved_id != -1)
pika_int_combo_box_set_active (PIKA_INT_COMBO_BOX (combo),
saved_id);
pika_int_combo_box_connect (PIKA_INT_COMBO_BOX (combo),
0,
G_CALLBACK (update_clipping_path),
config, NULL);
gtk_widget_show (combo);
entry = pika_procedure_dialog_get_spin_scale (PIKA_PROCEDURE_DIALOG (dialog),
"clippingpathflatness", 1.0);
parasite = pika_image_get_parasite (image, PSD_PARASITE_PATH_FLATNESS);
if (parasite)
{
gfloat *path_flatness = NULL;
guint32 parasite_size;
path_flatness = (gfloat *) pika_parasite_get_data (parasite, &parasite_size);
if (path_flatness && *path_flatness > 0)
{
gtk_spin_button_set_value (GTK_SPIN_BUTTON (entry), *path_flatness);
g_object_set (config,
"clippingpathflatness", *path_flatness,
NULL);
}
pika_parasite_free (parasite);
}
gtk_widget_show (entry);
pika_procedure_dialog_fill_frame (PIKA_PROCEDURE_DIALOG (dialog),
"clipping-path-frame", "clippingpath", FALSE,
NULL);
frame = pika_procedure_dialog_fill_frame (PIKA_PROCEDURE_DIALOG (dialog),
"clipping-path-subframe", NULL, FALSE,
NULL);
gtk_container_add (GTK_CONTAINER (frame), vbox);
gtk_box_pack_start (GTK_BOX (vbox), combo, FALSE, FALSE, 0);
gtk_box_pack_start (GTK_BOX (vbox), entry, FALSE, FALSE, 0);
gtk_widget_show (vbox);
pika_procedure_dialog_fill (PIKA_PROCEDURE_DIALOG (dialog),
"clipping-path-frame",
"clipping-path-subframe",
NULL);
pika_procedure_dialog_set_sensitive (PIKA_PROCEDURE_DIALOG (dialog),
"clipping-path-subframe",
TRUE, config, "clippingpath", FALSE);
}
if (has_duotone_data)
pika_procedure_dialog_fill (PIKA_PROCEDURE_DIALOG (dialog),
"cmyk-frame",
"duotone-frame",
NULL);
else
pika_procedure_dialog_fill (PIKA_PROCEDURE_DIALOG (dialog),
"cmyk-frame",
NULL);
/* Compatibility Notice */
text = g_strdup_printf ("\n<b>%s</b>: %s",
_("Compatibility Notice"),
_("Legacy layer modes have been reported "
"to have better compatibility with Photoshop. "
"If you encounter display issues, consider "
"switching to those layer modes."));
label = pika_procedure_dialog_get_label (PIKA_PROCEDURE_DIALOG (dialog),
"compat-notice", "Compatibility Notice",
FALSE, FALSE);
gtk_label_set_markup (GTK_LABEL (label), text);
gtk_label_set_xalign (GTK_LABEL (label), 0.0);
gtk_label_set_max_width_chars (GTK_LABEL (label), 50);
gtk_label_set_line_wrap (GTK_LABEL (label), TRUE);
pika_procedure_dialog_fill (PIKA_PROCEDURE_DIALOG (dialog),
"compat-notice", NULL);
g_free (text);
gtk_widget_show (dialog);
run = pika_procedure_dialog_run (PIKA_PROCEDURE_DIALOG (dialog));
gtk_widget_destroy (dialog);
return run;
}
static void update_clipping_path (PikaIntComboBox *combo,
gpointer data)
{
gpointer value;
if (pika_int_combo_box_get_active_user_data (PIKA_INT_COMBO_BOX (combo),
&value))
{
GObject *config = G_OBJECT (data);
g_object_set (config,
"clippingpathname", (gchar *) value,
NULL);
}
}
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