/* GIMP - The GNU Image Manipulation Program
* Copyright (C) 1995 Spencer Kimball and Peter Mattis
*
* 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 .
*/
#include "config.h"
#include
#include
#include
#include
#include
#include "libgimpbase/gimpbase.h"
#include "libgimpcolor/gimpcolor.h"
#include "core/core-types.h"
#include "gegl/gimp-babl-compat.h"
#include "gegl/gimp-gegl-tile-compat.h"
#include "core/gimp.h"
#include "core/gimpcontainer.h"
#include "core/gimpchannel.h"
#include "core/gimpdrawable.h"
#include "core/gimpgrid.h"
#include "core/gimpguide.h"
#include "core/gimpimage.h"
#include "core/gimpimage-colormap.h"
#include "core/gimpimage-grid.h"
#include "core/gimpimage-guides.h"
#include "core/gimpimage-metadata.h"
#include "core/gimpimage-private.h"
#include "core/gimpimage-sample-points.h"
#include "core/gimpimage-symmetry.h"
#include "core/gimplayer.h"
#include "core/gimplayermask.h"
#include "core/gimpparasitelist.h"
#include "core/gimpprogress.h"
#include "core/gimpsamplepoint.h"
#include "core/gimpsymmetry.h"
#include "operations/layer-modes/gimp-layer-modes.h"
#include "text/gimptextlayer.h"
#include "text/gimptextlayer-xcf.h"
#include "vectors/gimpanchor.h"
#include "vectors/gimpstroke.h"
#include "vectors/gimpbezierstroke.h"
#include "vectors/gimpvectors.h"
#include "vectors/gimpvectors-compat.h"
#include "xcf-private.h"
#include "xcf-read.h"
#include "xcf-save.h"
#include "xcf-seek.h"
#include "xcf-write.h"
#include "gimp-intl.h"
static gboolean xcf_save_image_props (XcfInfo *info,
GimpImage *image,
GError **error);
static gboolean xcf_save_layer_props (XcfInfo *info,
GimpImage *image,
GimpLayer *layer,
GError **error);
static gboolean xcf_save_channel_props (XcfInfo *info,
GimpImage *image,
GimpChannel *channel,
GError **error);
static gboolean xcf_save_prop (XcfInfo *info,
GimpImage *image,
PropType prop_type,
GError **error,
...);
static gboolean xcf_save_layer (XcfInfo *info,
GimpImage *image,
GimpLayer *layer,
GError **error);
static gboolean xcf_save_channel (XcfInfo *info,
GimpImage *image,
GimpChannel *channel,
GError **error);
static gboolean xcf_save_buffer (XcfInfo *info,
GeglBuffer *buffer,
GError **error);
static gboolean xcf_save_level (XcfInfo *info,
GeglBuffer *buffer,
GError **error);
static gboolean xcf_save_tile (XcfInfo *info,
GeglBuffer *buffer,
GeglRectangle *tile_rect,
const Babl *format,
GError **error);
static gboolean xcf_save_tile_rle (XcfInfo *info,
GeglBuffer *buffer,
GeglRectangle *tile_rect,
const Babl *format,
guchar *rlebuf,
GError **error);
static gboolean xcf_save_tile_zlib (XcfInfo *info,
GeglBuffer *buffer,
GeglRectangle *tile_rect,
const Babl *format,
GError **error);
static gboolean xcf_save_parasite (XcfInfo *info,
GimpParasite *parasite,
GError **error);
static gboolean xcf_save_parasite_list (XcfInfo *info,
GimpParasiteList *parasite,
GError **error);
static gboolean xcf_save_old_paths (XcfInfo *info,
GimpImage *image,
GError **error);
static gboolean xcf_save_vectors (XcfInfo *info,
GimpImage *image,
GError **error);
/* private convenience macros */
#define xcf_write_int32_check_error(info, data, count) G_STMT_START { \
xcf_write_int32 (info, data, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_offset_check_error(info, data, count) G_STMT_START { \
xcf_write_offset (info, data, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_zero_offset_check_error(info, count) G_STMT_START { \
xcf_write_zero_offset (info, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_int8_check_error(info, data, count) G_STMT_START { \
xcf_write_int8 (info, data, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_float_check_error(info, data, count) G_STMT_START { \
xcf_write_float (info, data, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_string_check_error(info, data, count) G_STMT_START { \
xcf_write_string (info, data, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_component_check_error(info, bpc, data, count) G_STMT_START { \
xcf_write_component (info, bpc, data, count, &tmp_error); \
if (tmp_error) \
{ \
g_propagate_error (error, tmp_error); \
return FALSE; \
} \
} G_STMT_END
#define xcf_write_prop_type_check_error(info, prop_type) G_STMT_START { \
guint32 _prop_int32 = prop_type; \
xcf_write_int32_check_error (info, &_prop_int32, 1); \
} G_STMT_END
#define xcf_check_error(x) G_STMT_START { \
if (! (x)) \
return FALSE; \
} G_STMT_END
#define xcf_progress_update(info) G_STMT_START \
{ \
progress++; \
if (info->progress) \
gimp_progress_set_value (info->progress, \
(gdouble) progress / (gdouble) max_progress); \
} G_STMT_END
gboolean
xcf_save_image (XcfInfo *info,
GimpImage *image,
GError **error)
{
GList *all_layers;
GList *all_channels;
GList *list;
goffset saved_pos;
goffset offset;
guint32 value;
guint n_layers;
guint n_channels;
guint progress = 0;
guint max_progress;
gchar version_tag[16];
GError *tmp_error = NULL;
/* write out the tag information for the image */
if (info->file_version > 0)
{
g_snprintf (version_tag, sizeof (version_tag),
"gimp xcf v%03d", info->file_version);
}
else
{
strcpy (version_tag, "gimp xcf file");
}
xcf_write_int8_check_error (info, (guint8 *) version_tag, 14);
/* write out the width, height and image type information for the image */
value = gimp_image_get_width (image);
xcf_write_int32_check_error (info, (guint32 *) &value, 1);
value = gimp_image_get_height (image);
xcf_write_int32_check_error (info, (guint32 *) &value, 1);
value = gimp_image_get_base_type (image);
xcf_write_int32_check_error (info, &value, 1);
if (info->file_version >= 4)
{
value = gimp_image_get_precision (image);
xcf_write_int32_check_error (info, &value, 1);
}
/* determine the number of layers and channels in the image */
all_layers = gimp_image_get_layer_list (image);
all_channels = gimp_image_get_channel_list (image);
/* check and see if we have to save out the selection */
if (! gimp_channel_is_empty (gimp_image_get_mask (image)))
{
all_channels = g_list_append (all_channels, gimp_image_get_mask (image));
}
n_layers = (guint) g_list_length (all_layers);
n_channels = (guint) g_list_length (all_channels);
max_progress = 1 + n_layers + n_channels;
/* write the property information for the image */
xcf_check_error (xcf_save_image_props (info, image, error));
xcf_progress_update (info);
/* 'saved_pos' is the next slot in the offset table */
saved_pos = info->cp;
/* write an empty offset table */
xcf_write_zero_offset_check_error (info, n_layers + n_channels + 2);
/* 'offset' is where we will write the next layer or channel */
offset = info->cp;
for (list = all_layers; list; list = g_list_next (list))
{
GimpLayer *layer = list->data;
/* seek back to the next slot in the offset table and write the
* offset of the layer
*/
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
xcf_write_offset_check_error (info, &offset, 1);
/* remember the next slot in the offset table */
saved_pos = info->cp;
/* seek to the layer offset and save the layer */
xcf_check_error (xcf_seek_pos (info, offset, error));
xcf_check_error (xcf_save_layer (info, image, layer, error));
/* the next layer's offset is after the layer we just wrote */
offset = info->cp;
xcf_progress_update (info);
}
/* skip a '0' in the offset table to indicate the end of the layer
* offsets
*/
saved_pos += info->bytes_per_offset;
for (list = all_channels; list; list = g_list_next (list))
{
GimpChannel *channel = list->data;
/* seek back to the next slot in the offset table and write the
* offset of the channel
*/
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
xcf_write_offset_check_error (info, &offset, 1);
/* remember the next slot in the offset table */
saved_pos = info->cp;
/* seek to the channel offset and save the channel */
xcf_check_error (xcf_seek_pos (info, offset, error));
xcf_check_error (xcf_save_channel (info, image, channel, error));
/* the next channels's offset is after the channel we just wrote */
offset = info->cp;
xcf_progress_update (info);
}
/* there is already a '0' at the end of the offset table to indicate
* the end of the channel offsets
*/
g_list_free (all_layers);
g_list_free (all_channels);
return ! g_output_stream_is_closed (info->output);
}
static gboolean
xcf_save_image_props (XcfInfo *info,
GimpImage *image,
GError **error)
{
GimpImagePrivate *private = GIMP_IMAGE_GET_PRIVATE (image);
GimpParasite *grid_parasite = NULL;
GimpParasite *meta_parasite = NULL;
GList *symmetry_parasites = NULL;
GList *iter;
GimpUnit unit = gimp_image_get_unit (image);
gdouble xres;
gdouble yres;
gimp_image_get_resolution (image, &xres, &yres);
/* check and see if we should save the colormap property */
if (gimp_image_get_colormap (image))
xcf_check_error (xcf_save_prop (info, image, PROP_COLORMAP, error,
gimp_image_get_colormap_size (image),
gimp_image_get_colormap (image)));
if (info->compression != COMPRESS_NONE)
xcf_check_error (xcf_save_prop (info, image, PROP_COMPRESSION, error,
info->compression));
if (gimp_image_get_guides (image))
xcf_check_error (xcf_save_prop (info, image, PROP_GUIDES, error,
gimp_image_get_guides (image)));
if (gimp_image_get_sample_points (image))
{
/* save the new property before the old one, so loading can skip
* the latter
*/
xcf_check_error (xcf_save_prop (info, image, PROP_SAMPLE_POINTS, error,
gimp_image_get_sample_points (image)));
xcf_check_error (xcf_save_prop (info, image, PROP_OLD_SAMPLE_POINTS, error,
gimp_image_get_sample_points (image)));
}
xcf_check_error (xcf_save_prop (info, image, PROP_RESOLUTION, error,
xres, yres));
xcf_check_error (xcf_save_prop (info, image, PROP_TATTOO, error,
gimp_image_get_tattoo_state (image)));
if (unit < gimp_unit_get_number_of_built_in_units ())
xcf_check_error (xcf_save_prop (info, image, PROP_UNIT, error, unit));
if (gimp_container_get_n_children (gimp_image_get_vectors (image)) > 0)
{
if (gimp_vectors_compat_is_compatible (image))
xcf_check_error (xcf_save_prop (info, image, PROP_PATHS, error));
else
xcf_check_error (xcf_save_prop (info, image, PROP_VECTORS, error));
}
if (unit >= gimp_unit_get_number_of_built_in_units ())
xcf_check_error (xcf_save_prop (info, image, PROP_USER_UNIT, error, unit));
if (gimp_image_get_grid (image))
{
GimpGrid *grid = gimp_image_get_grid (image);
grid_parasite = gimp_grid_to_parasite (grid);
gimp_parasite_list_add (private->parasites, grid_parasite);
}
if (gimp_image_get_metadata (image))
{
GimpMetadata *metadata = gimp_image_get_metadata (image);
gchar *meta_string;
meta_string = gimp_metadata_serialize (metadata);
if (meta_string)
{
meta_parasite = gimp_parasite_new ("gimp-image-metadata",
GIMP_PARASITE_PERSISTENT,
strlen (meta_string) + 1,
meta_string);
gimp_parasite_list_add (private->parasites, meta_parasite);
g_free (meta_string);
}
}
if (g_list_length (gimp_image_symmetry_get (image)))
{
GimpParasite *parasite = NULL;
GimpSymmetry *symmetry;
for (iter = gimp_image_symmetry_get (image); iter; iter = g_list_next (iter))
{
symmetry = GIMP_SYMMETRY (iter->data);
if (G_TYPE_FROM_INSTANCE (symmetry) == GIMP_TYPE_SYMMETRY)
/* Do not save the identity symmetry. */
continue;
parasite = gimp_symmetry_to_parasite (GIMP_SYMMETRY (iter->data));
gimp_parasite_list_add (private->parasites, parasite);
symmetry_parasites = g_list_prepend (symmetry_parasites, parasite);
}
}
if (gimp_parasite_list_length (private->parasites) > 0)
{
xcf_check_error (xcf_save_prop (info, image, PROP_PARASITES, error,
private->parasites));
}
if (grid_parasite)
{
gimp_parasite_list_remove (private->parasites,
gimp_parasite_name (grid_parasite));
gimp_parasite_free (grid_parasite);
}
if (meta_parasite)
{
gimp_parasite_list_remove (private->parasites,
gimp_parasite_name (meta_parasite));
gimp_parasite_free (meta_parasite);
}
for (iter = symmetry_parasites; iter; iter = g_list_next (iter))
{
GimpParasite *parasite = iter->data;
gimp_parasite_list_remove (private->parasites,
gimp_parasite_name (parasite));
}
g_list_free_full (symmetry_parasites,
(GDestroyNotify) gimp_parasite_free);
xcf_check_error (xcf_save_prop (info, image, PROP_END, error));
return TRUE;
}
static gboolean
xcf_save_layer_props (XcfInfo *info,
GimpImage *image,
GimpLayer *layer,
GError **error)
{
GimpParasiteList *parasites;
gint offset_x;
gint offset_y;
if (gimp_viewable_get_children (GIMP_VIEWABLE (layer)))
xcf_check_error (xcf_save_prop (info, image, PROP_GROUP_ITEM, error));
if (gimp_viewable_get_parent (GIMP_VIEWABLE (layer)))
{
GList *path;
path = gimp_item_get_path (GIMP_ITEM (layer));
xcf_check_error (xcf_save_prop (info, image, PROP_ITEM_PATH, error,
path));
g_list_free (path);
}
if (layer == gimp_image_get_active_layer (image))
xcf_check_error (xcf_save_prop (info, image, PROP_ACTIVE_LAYER, error));
if (layer == gimp_image_get_floating_selection (image))
{
info->floating_sel_drawable = gimp_layer_get_floating_sel_drawable (layer);
xcf_check_error (xcf_save_prop (info, image, PROP_FLOATING_SELECTION,
error));
}
xcf_check_error (xcf_save_prop (info, image, PROP_OPACITY, error,
gimp_layer_get_opacity (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_FLOAT_OPACITY, error,
gimp_layer_get_opacity (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_VISIBLE, error,
gimp_item_get_visible (GIMP_ITEM (layer))));
xcf_check_error (xcf_save_prop (info, image, PROP_LINKED, error,
gimp_item_get_linked (GIMP_ITEM (layer))));
xcf_check_error (xcf_save_prop (info, image, PROP_COLOR_TAG, error,
gimp_item_get_color_tag (GIMP_ITEM (layer))));
xcf_check_error (xcf_save_prop (info, image, PROP_LOCK_CONTENT, error,
gimp_item_get_lock_content (GIMP_ITEM (layer))));
xcf_check_error (xcf_save_prop (info, image, PROP_LOCK_ALPHA, error,
gimp_layer_get_lock_alpha (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_LOCK_POSITION, error,
gimp_item_get_lock_position (GIMP_ITEM (layer))));
if (gimp_layer_get_mask (layer))
{
xcf_check_error (xcf_save_prop (info, image, PROP_APPLY_MASK, error,
gimp_layer_get_apply_mask (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_EDIT_MASK, error,
gimp_layer_get_edit_mask (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_SHOW_MASK, error,
gimp_layer_get_show_mask (layer)));
}
else
{
xcf_check_error (xcf_save_prop (info, image, PROP_APPLY_MASK, error,
FALSE));
xcf_check_error (xcf_save_prop (info, image, PROP_EDIT_MASK, error,
FALSE));
xcf_check_error (xcf_save_prop (info, image, PROP_SHOW_MASK, error,
FALSE));
}
gimp_item_get_offset (GIMP_ITEM (layer), &offset_x, &offset_y);
xcf_check_error (xcf_save_prop (info, image, PROP_OFFSETS, error,
offset_x, offset_y));
xcf_check_error (xcf_save_prop (info, image, PROP_MODE, error,
gimp_layer_get_mode (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_BLEND_SPACE, error,
gimp_layer_get_mode (layer),
gimp_layer_get_blend_space (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_COMPOSITE_SPACE, error,
gimp_layer_get_mode (layer),
gimp_layer_get_composite_space (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_COMPOSITE_MODE, error,
gimp_layer_get_mode (layer),
gimp_layer_get_composite_mode (layer)));
xcf_check_error (xcf_save_prop (info, image, PROP_TATTOO, error,
gimp_item_get_tattoo (GIMP_ITEM (layer))));
if (GIMP_IS_TEXT_LAYER (layer) && GIMP_TEXT_LAYER (layer)->text)
{
GimpTextLayer *text_layer = GIMP_TEXT_LAYER (layer);
guint32 flags = gimp_text_layer_get_xcf_flags (text_layer);
gimp_text_layer_xcf_save_prepare (text_layer);
if (flags)
xcf_check_error (xcf_save_prop (info,
image, PROP_TEXT_LAYER_FLAGS, error,
flags));
}
if (gimp_viewable_get_children (GIMP_VIEWABLE (layer)))
{
gint32 flags = 0;
if (gimp_viewable_get_expanded (GIMP_VIEWABLE (layer)))
flags |= XCF_GROUP_ITEM_EXPANDED;
xcf_check_error (xcf_save_prop (info,
image, PROP_GROUP_ITEM_FLAGS, error,
flags));
}
parasites = gimp_item_get_parasites (GIMP_ITEM (layer));
if (gimp_parasite_list_length (parasites) > 0)
{
xcf_check_error (xcf_save_prop (info, image, PROP_PARASITES, error,
parasites));
}
xcf_check_error (xcf_save_prop (info, image, PROP_END, error));
return TRUE;
}
static gboolean
xcf_save_channel_props (XcfInfo *info,
GimpImage *image,
GimpChannel *channel,
GError **error)
{
GimpParasiteList *parasites;
if (channel == gimp_image_get_active_channel (image))
xcf_check_error (xcf_save_prop (info, image, PROP_ACTIVE_CHANNEL, error));
if (channel == gimp_image_get_mask (image))
xcf_check_error (xcf_save_prop (info, image, PROP_SELECTION, error));
xcf_check_error (xcf_save_prop (info, image, PROP_OPACITY, error,
gimp_channel_get_opacity (channel)));
xcf_check_error (xcf_save_prop (info, image, PROP_FLOAT_OPACITY, error,
gimp_channel_get_opacity (channel)));
xcf_check_error (xcf_save_prop (info, image, PROP_VISIBLE, error,
gimp_item_get_visible (GIMP_ITEM (channel))));
xcf_check_error (xcf_save_prop (info, image, PROP_LINKED, error,
gimp_item_get_linked (GIMP_ITEM (channel))));
xcf_check_error (xcf_save_prop (info, image, PROP_COLOR_TAG, error,
gimp_item_get_color_tag (GIMP_ITEM (channel))));
xcf_check_error (xcf_save_prop (info, image, PROP_LOCK_CONTENT, error,
gimp_item_get_lock_content (GIMP_ITEM (channel))));
xcf_check_error (xcf_save_prop (info, image, PROP_LOCK_POSITION, error,
gimp_item_get_lock_position (GIMP_ITEM (channel))));
xcf_check_error (xcf_save_prop (info, image, PROP_SHOW_MASKED, error,
gimp_channel_get_show_masked (channel)));
xcf_check_error (xcf_save_prop (info, image, PROP_COLOR, error,
&channel->color));
xcf_check_error (xcf_save_prop (info, image, PROP_FLOAT_COLOR, error,
&channel->color));
xcf_check_error (xcf_save_prop (info, image, PROP_TATTOO, error,
gimp_item_get_tattoo (GIMP_ITEM (channel))));
parasites = gimp_item_get_parasites (GIMP_ITEM (channel));
if (gimp_parasite_list_length (parasites) > 0)
{
xcf_check_error (xcf_save_prop (info, image, PROP_PARASITES, error,
parasites));
}
xcf_check_error (xcf_save_prop (info, image, PROP_END, error));
return TRUE;
}
static gboolean
xcf_save_prop (XcfInfo *info,
GimpImage *image,
PropType prop_type,
GError **error,
...)
{
guint32 size;
va_list args;
GError *tmp_error = NULL;
va_start (args, error);
switch (prop_type)
{
case PROP_END:
size = 0;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
break;
case PROP_COLORMAP:
{
guint32 n_colors = va_arg (args, guint32);
guchar *colors = va_arg (args, guchar *);
size = 4 + n_colors * 3;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &n_colors, 1);
xcf_write_int8_check_error (info, colors, n_colors * 3);
}
break;
case PROP_ACTIVE_LAYER:
case PROP_ACTIVE_CHANNEL:
case PROP_SELECTION:
case PROP_GROUP_ITEM:
size = 0;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
break;
case PROP_FLOATING_SELECTION:
size = info->bytes_per_offset;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
info->floating_sel_offset = info->cp;
xcf_write_zero_offset_check_error (info, 1);
break;
case PROP_OPACITY:
{
gdouble opacity = va_arg (args, gdouble);
guint32 uint_opacity = opacity * 255.999;
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &uint_opacity, 1);
}
break;
case PROP_FLOAT_OPACITY:
{
gfloat opacity = va_arg (args, gdouble);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_float_check_error (info, &opacity, 1);
}
break;
case PROP_MODE:
{
gint32 mode = va_arg (args, gint32);
size = 4;
if (mode == GIMP_LAYER_MODE_OVERLAY_LEGACY)
mode = GIMP_LAYER_MODE_SOFTLIGHT_LEGACY;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, (guint32 *) &mode, 1);
}
break;
case PROP_BLEND_SPACE:
{
GimpLayerMode mode = va_arg (args, GimpLayerMode);
gint32 blend_space = va_arg (args, gint32);
G_STATIC_ASSERT (GIMP_LAYER_COLOR_SPACE_AUTO == 0);
/* if blend_space is AUTO, save the negative of the actual value AUTO
* maps to for the given mode, so that we can correctly load it even if
* the mapping changes in the future.
*/
if (blend_space == GIMP_LAYER_COLOR_SPACE_AUTO)
blend_space = -gimp_layer_mode_get_blend_space (mode);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, (guint32 *) &blend_space, 1);
}
break;
case PROP_COMPOSITE_SPACE:
{
GimpLayerMode mode = va_arg (args, GimpLayerMode);
gint32 composite_space = va_arg (args, gint32);
G_STATIC_ASSERT (GIMP_LAYER_COLOR_SPACE_AUTO == 0);
/* if composite_space is AUTO, save the negative of the actual value
* AUTO maps to for the given mode, so that we can correctly load it
* even if the mapping changes in the future.
*/
if (composite_space == GIMP_LAYER_COLOR_SPACE_AUTO)
composite_space = -gimp_layer_mode_get_composite_space (mode);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, (guint32 *) &composite_space, 1);
}
break;
case PROP_COMPOSITE_MODE:
{
GimpLayerMode mode = va_arg (args, GimpLayerMode);
gint32 composite_mode = va_arg (args, gint32);
G_STATIC_ASSERT (GIMP_LAYER_COMPOSITE_AUTO == 0);
/* if composite_mode is AUTO, save the negative of the actual value
* AUTO maps to for the given mode, so that we can correctly load it
* even if the mapping changes in the future.
*/
if (composite_mode == GIMP_LAYER_COMPOSITE_AUTO)
composite_mode = -gimp_layer_mode_get_composite_mode (mode);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, (guint32 *) &composite_mode, 1);
}
break;
case PROP_VISIBLE:
{
guint32 visible = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &visible, 1);
}
break;
case PROP_LINKED:
{
guint32 linked = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &linked, 1);
}
break;
case PROP_COLOR_TAG:
{
guint32 color_tag = va_arg (args, gint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &color_tag, 1);
}
break;
case PROP_LOCK_CONTENT:
{
guint32 lock_content = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &lock_content, 1);
}
break;
case PROP_LOCK_ALPHA:
{
guint32 lock_alpha = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &lock_alpha, 1);
}
break;
case PROP_LOCK_POSITION:
{
guint32 lock_position = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &lock_position, 1);
}
break;
case PROP_APPLY_MASK:
{
guint32 apply_mask = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &apply_mask, 1);
}
break;
case PROP_EDIT_MASK:
{
guint32 edit_mask = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &edit_mask, 1);
}
break;
case PROP_SHOW_MASK:
{
guint32 show_mask = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &show_mask, 1);
}
break;
case PROP_SHOW_MASKED:
{
guint32 show_masked = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &show_masked, 1);
}
break;
case PROP_OFFSETS:
{
gint32 offsets[2];
offsets[0] = va_arg (args, gint32);
offsets[1] = va_arg (args, gint32);
size = 8;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, (guint32 *) offsets, 2);
}
break;
case PROP_COLOR:
{
GimpRGB *color = va_arg (args, GimpRGB *);
guchar col[3];
gimp_rgb_get_uchar (color, &col[0], &col[1], &col[2]);
size = 3;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int8_check_error (info, col, 3);
}
break;
case PROP_FLOAT_COLOR:
{
GimpRGB *color = va_arg (args, GimpRGB *);
gfloat col[3];
col[0] = color->r;
col[1] = color->g;
col[2] = color->b;
size = 3 * 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_float_check_error (info, col, 3);
}
break;
case PROP_COMPRESSION:
{
guint8 compression = (guint8) va_arg (args, guint32);
size = 1;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int8_check_error (info, &compression, 1);
}
break;
case PROP_GUIDES:
{
GList *guides = va_arg (args, GList *);
gint n_guides = g_list_length (guides);
GList *iter;
for (iter = guides; iter; iter = g_list_next (iter))
{
/* Do not save custom guides. */
if (gimp_guide_is_custom (GIMP_GUIDE (iter->data)))
n_guides--;
}
if (n_guides > 0)
{
size = n_guides * (4 + 1);
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
for (; guides; guides = g_list_next (guides))
{
GimpGuide *guide = guides->data;
gint32 position = gimp_guide_get_position (guide);
gint8 orientation;
if (gimp_guide_is_custom (guide))
continue;
switch (gimp_guide_get_orientation (guide))
{
case GIMP_ORIENTATION_HORIZONTAL:
orientation = XCF_ORIENTATION_HORIZONTAL;
break;
case GIMP_ORIENTATION_VERTICAL:
orientation = XCF_ORIENTATION_VERTICAL;
break;
default:
g_warning ("%s: skipping guide with bad orientation",
G_STRFUNC);
continue;
}
xcf_write_int32_check_error (info, (guint32 *) &position, 1);
xcf_write_int8_check_error (info, (guint8 *) &orientation, 1);
}
}
}
break;
case PROP_SAMPLE_POINTS:
{
GList *sample_points = va_arg (args, GList *);
gint n_sample_points = g_list_length (sample_points);
size = n_sample_points * (5 * 4);
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
for (; sample_points; sample_points = g_list_next (sample_points))
{
GimpSamplePoint *sample_point = sample_points->data;
gint32 x, y;
GimpColorPickMode pick_mode;
guint32 padding[2] = { 0, };
gimp_sample_point_get_position (sample_point, &x, &y);
pick_mode = gimp_sample_point_get_pick_mode (sample_point);
xcf_write_int32_check_error (info, (guint32 *) &x, 1);
xcf_write_int32_check_error (info, (guint32 *) &y, 1);
xcf_write_int32_check_error (info, (guint32 *) &pick_mode, 1);
xcf_write_int32_check_error (info, (guint32 *) padding, 2);
}
}
break;
case PROP_OLD_SAMPLE_POINTS:
{
GList *sample_points = va_arg (args, GList *);
gint n_sample_points = g_list_length (sample_points);
size = n_sample_points * (4 + 4);
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
for (; sample_points; sample_points = g_list_next (sample_points))
{
GimpSamplePoint *sample_point = sample_points->data;
gint32 x, y;
gimp_sample_point_get_position (sample_point, &x, &y);
xcf_write_int32_check_error (info, (guint32 *) &x, 1);
xcf_write_int32_check_error (info, (guint32 *) &y, 1);
}
}
break;
case PROP_RESOLUTION:
{
gfloat resolution[2];
resolution[0] = va_arg (args, double);
resolution[1] = va_arg (args, double);
size = 2 * 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_float_check_error (info, resolution, 2);
}
break;
case PROP_TATTOO:
{
guint32 tattoo = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &tattoo, 1);
}
break;
case PROP_PARASITES:
{
GimpParasiteList *list = va_arg (args, GimpParasiteList *);
if (gimp_parasite_list_persistent_length (list) > 0)
{
goffset base;
goffset pos;
size = 0;
xcf_write_prop_type_check_error (info, prop_type);
/* because we don't know how much room the parasite list
* will take we save the file position and write the
* length later
*/
pos = info->cp;
xcf_write_int32_check_error (info, &size, 1);
base = info->cp;
xcf_check_error (xcf_save_parasite_list (info, list, error));
size = info->cp - base;
/* go back to the saved position and write the length */
xcf_check_error (xcf_seek_pos (info, pos, error));
xcf_write_int32_check_error (info, &size, 1);
xcf_check_error (xcf_seek_pos (info, base + size, error));
}
}
break;
case PROP_UNIT:
{
guint32 unit = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &unit, 1);
}
break;
case PROP_PATHS:
{
goffset base;
goffset pos;
size = 0;
xcf_write_prop_type_check_error (info, prop_type);
/* because we don't know how much room the paths list will
* take we save the file position and write the length later
*/
pos = info->cp;
xcf_write_int32_check_error (info, &size, 1);
base = info->cp;
xcf_check_error (xcf_save_old_paths (info, image, error));
size = info->cp - base;
/* go back to the saved position and write the length */
xcf_check_error (xcf_seek_pos (info, pos, error));
xcf_write_int32_check_error (info, &size, 1);
xcf_check_error (xcf_seek_pos (info, base + size, error));
}
break;
case PROP_USER_UNIT:
{
GimpUnit unit = va_arg (args, guint32);
const gchar *unit_strings[5];
gfloat factor;
guint32 digits;
/* write the entire unit definition */
unit_strings[0] = gimp_unit_get_identifier (unit);
factor = gimp_unit_get_factor (unit);
digits = gimp_unit_get_digits (unit);
unit_strings[1] = gimp_unit_get_symbol (unit);
unit_strings[2] = gimp_unit_get_abbreviation (unit);
unit_strings[3] = gimp_unit_get_singular (unit);
unit_strings[4] = gimp_unit_get_plural (unit);
size =
2 * 4 +
strlen (unit_strings[0]) ? strlen (unit_strings[0]) + 5 : 4 +
strlen (unit_strings[1]) ? strlen (unit_strings[1]) + 5 : 4 +
strlen (unit_strings[2]) ? strlen (unit_strings[2]) + 5 : 4 +
strlen (unit_strings[3]) ? strlen (unit_strings[3]) + 5 : 4 +
strlen (unit_strings[4]) ? strlen (unit_strings[4]) + 5 : 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_float_check_error (info, &factor, 1);
xcf_write_int32_check_error (info, &digits, 1);
xcf_write_string_check_error (info, (gchar **) unit_strings, 5);
}
break;
case PROP_VECTORS:
{
goffset base;
goffset pos;
size = 0;
xcf_write_prop_type_check_error (info, prop_type);
/* because we don't know how much room the paths list will
* take we save the file position and write the length later
*/
pos = info->cp;
xcf_write_int32_check_error (info, &size, 1);
base = info->cp;
xcf_check_error (xcf_save_vectors (info, image, error));
size = info->cp - base;
/* go back to the saved position and write the length */
xcf_check_error (xcf_seek_pos (info, pos, error));
xcf_write_int32_check_error (info, &size, 1);
xcf_check_error (xcf_seek_pos (info, base + size, error));
}
break;
case PROP_TEXT_LAYER_FLAGS:
{
guint32 flags = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &flags, 1);
}
break;
case PROP_ITEM_PATH:
{
GList *path = va_arg (args, GList *);
size = 4 * g_list_length (path);
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
while (path)
{
guint32 index = GPOINTER_TO_UINT (path->data);
xcf_write_int32_check_error (info, &index, 1);
path = g_list_next (path);
}
}
break;
case PROP_GROUP_ITEM_FLAGS:
{
guint32 flags = va_arg (args, guint32);
size = 4;
xcf_write_prop_type_check_error (info, prop_type);
xcf_write_int32_check_error (info, &size, 1);
xcf_write_int32_check_error (info, &flags, 1);
}
break;
}
va_end (args);
return TRUE;
}
static gboolean
xcf_save_layer (XcfInfo *info,
GimpImage *image,
GimpLayer *layer,
GError **error)
{
goffset saved_pos;
goffset offset;
guint32 value;
const gchar *string;
GError *tmp_error = NULL;
/* check and see if this is the drawable that the floating
* selection is attached to.
*/
if (GIMP_DRAWABLE (layer) == info->floating_sel_drawable)
{
saved_pos = info->cp;
xcf_check_error (xcf_seek_pos (info, info->floating_sel_offset, error));
xcf_write_offset_check_error (info, &saved_pos, 1);
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
}
/* write out the width, height and image type information for the layer */
value = gimp_item_get_width (GIMP_ITEM (layer));
xcf_write_int32_check_error (info, &value, 1);
value = gimp_item_get_height (GIMP_ITEM (layer));
xcf_write_int32_check_error (info, &value, 1);
value = gimp_babl_format_get_image_type (gimp_drawable_get_format (GIMP_DRAWABLE (layer)));
xcf_write_int32_check_error (info, &value, 1);
/* write out the layers name */
string = gimp_object_get_name (layer);
xcf_write_string_check_error (info, (gchar **) &string, 1);
/* write out the layer properties */
xcf_save_layer_props (info, image, layer, error);
/* write out the layer tile hierarchy */
offset = info->cp + 2 * info->bytes_per_offset;
xcf_write_offset_check_error (info, &offset, 1);
saved_pos = info->cp;
/* write a zero layer mask offset */
xcf_write_zero_offset_check_error (info, 1);
xcf_check_error (xcf_save_buffer (info,
gimp_drawable_get_buffer (GIMP_DRAWABLE (layer)),
error));
offset = info->cp;
/* write out the layer mask */
if (gimp_layer_get_mask (layer))
{
GimpLayerMask *mask = gimp_layer_get_mask (layer);
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
xcf_write_offset_check_error (info, &offset, 1);
xcf_check_error (xcf_seek_pos (info, offset, error));
xcf_check_error (xcf_save_channel (info, image, GIMP_CHANNEL (mask),
error));
}
return TRUE;
}
static gboolean
xcf_save_channel (XcfInfo *info,
GimpImage *image,
GimpChannel *channel,
GError **error)
{
goffset saved_pos;
goffset offset;
guint32 value;
const gchar *string;
GError *tmp_error = NULL;
/* check and see if this is the drawable that the floating
* selection is attached to.
*/
if (GIMP_DRAWABLE (channel) == info->floating_sel_drawable)
{
saved_pos = info->cp;
xcf_check_error (xcf_seek_pos (info, info->floating_sel_offset, error));
xcf_write_offset_check_error (info, &saved_pos, 1);
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
}
/* write out the width and height information for the channel */
value = gimp_item_get_width (GIMP_ITEM (channel));
xcf_write_int32_check_error (info, &value, 1);
value = gimp_item_get_height (GIMP_ITEM (channel));
xcf_write_int32_check_error (info, &value, 1);
/* write out the channels name */
string = gimp_object_get_name (channel);
xcf_write_string_check_error (info, (gchar **) &string, 1);
/* write out the channel properties */
xcf_save_channel_props (info, image, channel, error);
/* write out the channel tile hierarchy */
offset = info->cp + info->bytes_per_offset;
xcf_write_offset_check_error (info, &offset, 1);
xcf_check_error (xcf_save_buffer (info,
gimp_drawable_get_buffer (GIMP_DRAWABLE (channel)),
error));
return TRUE;
}
static gint
xcf_calc_levels (gint size,
gint tile_size)
{
gint levels;
levels = 1;
while (size > tile_size)
{
size /= 2;
levels += 1;
}
return levels;
}
static gboolean
xcf_save_buffer (XcfInfo *info,
GeglBuffer *buffer,
GError **error)
{
const Babl *format;
goffset saved_pos;
goffset offset;
guint32 width;
guint32 height;
guint32 bpp;
gint i;
gint nlevels;
gint tmp1, tmp2;
GError *tmp_error = NULL;
format = gegl_buffer_get_format (buffer);
width = gegl_buffer_get_width (buffer);
height = gegl_buffer_get_height (buffer);
bpp = babl_format_get_bytes_per_pixel (format);
xcf_write_int32_check_error (info, (guint32 *) &width, 1);
xcf_write_int32_check_error (info, (guint32 *) &height, 1);
xcf_write_int32_check_error (info, (guint32 *) &bpp, 1);
tmp1 = xcf_calc_levels (width, XCF_TILE_WIDTH);
tmp2 = xcf_calc_levels (height, XCF_TILE_HEIGHT);
nlevels = MAX (tmp1, tmp2);
/* 'saved_pos' is the next slot in the offset table */
saved_pos = info->cp;
/* write an empty offset table */
xcf_write_zero_offset_check_error (info, nlevels + 1);
/* 'offset' is where we will write the next level */
offset = info->cp;
for (i = 0; i < nlevels; i++)
{
/* seek back to the next slot in the offset table and write the
* offset of the level
*/
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
xcf_write_offset_check_error (info, &offset, 1);
/* remember the next slot in the offset table */
saved_pos = info->cp;
/* seek to the level offset and save the level */
xcf_check_error (xcf_seek_pos (info, offset, error));
if (i == 0)
{
/* write out the level. */
xcf_check_error (xcf_save_level (info, buffer, error));
}
else
{
/* fake an empty level */
tmp1 = 0;
width /= 2;
height /= 2;
xcf_write_int32_check_error (info, (guint32 *) &width, 1);
xcf_write_int32_check_error (info, (guint32 *) &height, 1);
/* NOTE: this should be an offset, not an int32! however...
* since there are already 64-bit-offsets XCFs out there in
* which this field is 32-bit, and since it's not actually
* being used, we're going to keep this field 32-bit for the
* dummy levels, to remain consistent. if we ever make use
* of levels above the first, we should turn this field into
* an offset, and bump the xcf version.
*/
xcf_write_int32_check_error (info, (guint32 *) &tmp1, 1);
}
/* the next level's offset if after the level we just wrote */
offset = info->cp;
}
/* there is already a '0' at the end of the offset table to indicate
* the end of the level offsets
*/
return TRUE;
}
static gboolean
xcf_save_level (XcfInfo *info,
GeglBuffer *buffer,
GError **error)
{
const Babl *format;
goffset *offset_table;
goffset *next_offset;
goffset saved_pos;
goffset offset;
goffset max_data_length;
guint32 width;
guint32 height;
gint bpp;
gint n_tile_rows;
gint n_tile_cols;
guint ntiles;
gint i;
guchar *rlebuf = NULL;
GError *tmp_error = NULL;
format = gegl_buffer_get_format (buffer);
width = gegl_buffer_get_width (buffer);
height = gegl_buffer_get_height (buffer);
bpp = babl_format_get_bytes_per_pixel (format);
xcf_write_int32_check_error (info, (guint32 *) &width, 1);
xcf_write_int32_check_error (info, (guint32 *) &height, 1);
saved_pos = info->cp;
/* maximal allowable size of on-disk tile data. make it somewhat bigger than
* the uncompressed tile size, to allow for the possibility of negative
* compression. xcf_load_level() enforces this limit.
*/
max_data_length = XCF_TILE_WIDTH * XCF_TILE_HEIGHT * bpp *
XCF_TILE_MAX_DATA_LENGTH_FACTOR /* = 1.5, currently */;
/* allocate a temporary buffer to store the rle data before it is
* written to disk
*/
if (info->compression == COMPRESS_RLE)
rlebuf = g_alloca (max_data_length);
n_tile_rows = gimp_gegl_buffer_get_n_tile_rows (buffer, XCF_TILE_HEIGHT);
n_tile_cols = gimp_gegl_buffer_get_n_tile_cols (buffer, XCF_TILE_WIDTH);
ntiles = n_tile_rows * n_tile_cols;
/* allocate an offset table so we don't have to seek back after each
* tile, see bug #686862. allocate ntiles + 1 slots because a zero
* offset indicates the offset table's end.
*/
offset_table = g_alloca ((ntiles + 1) * sizeof (goffset));
memset (offset_table, 0, (ntiles + 1) * sizeof (goffset));
next_offset = offset_table;
/* 'saved_pos' is the offset of the tile offset table */
saved_pos = info->cp;
/* write an empty offset table */
xcf_write_zero_offset_check_error (info, ntiles + 1);
/* 'offset' is where we will write the next tile */
offset = info->cp;
for (i = 0; i < ntiles; i++)
{
GeglRectangle rect;
/* store the offset in the table and increment the next pointer */
*next_offset++ = offset;
gimp_gegl_buffer_get_tile_rect (buffer,
XCF_TILE_WIDTH, XCF_TILE_HEIGHT,
i, &rect);
/* write out the tile. */
switch (info->compression)
{
case COMPRESS_NONE:
xcf_check_error (xcf_save_tile (info, buffer, &rect, format,
error));
break;
case COMPRESS_RLE:
xcf_check_error (xcf_save_tile_rle (info, buffer, &rect, format,
rlebuf, error));
break;
case COMPRESS_ZLIB:
xcf_check_error (xcf_save_tile_zlib (info, buffer, &rect, format,
error));
break;
case COMPRESS_FRACTAL:
g_warning ("xcf: fractal compression unimplemented");
return FALSE;
}
/* make sure the on-disk tile data didn't end up being too big.
* xcf_load_level() would refuse to load the file if it did.
*/
if (info->cp < offset || info->cp - offset > max_data_length)
{
g_message ("xcf: invalid tile data length: %" G_GOFFSET_FORMAT,
info->cp - offset);
return FALSE;
}
/* the next tile's offset is after the tile we just wrote */
offset = info->cp;
}
/* seek back to the offset table and write it */
xcf_check_error (xcf_seek_pos (info, saved_pos, error));
xcf_write_offset_check_error (info, offset_table, ntiles + 1);
/* seek to the end of the file */
xcf_check_error (xcf_seek_pos (info, offset, error));
return TRUE;
}
static gboolean
xcf_save_tile (XcfInfo *info,
GeglBuffer *buffer,
GeglRectangle *tile_rect,
const Babl *format,
GError **error)
{
gint bpp = babl_format_get_bytes_per_pixel (format);
gint tile_size = bpp * tile_rect->width * tile_rect->height;
guchar *tile_data = g_alloca (tile_size);
GError *tmp_error = NULL;
gegl_buffer_get (buffer, tile_rect, 1.0, format, tile_data,
GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
if (info->file_version <= 11)
{
xcf_write_int8_check_error (info, tile_data, tile_size);
}
else
{
gint n_components = babl_format_get_n_components (format);
xcf_write_component_check_error (info, bpp / n_components, tile_data,
tile_size / bpp * n_components);
}
return TRUE;
}
static gboolean
xcf_save_tile_rle (XcfInfo *info,
GeglBuffer *buffer,
GeglRectangle *tile_rect,
const Babl *format,
guchar *rlebuf,
GError **error)
{
gint bpp = babl_format_get_bytes_per_pixel (format);
gint tile_size = bpp * tile_rect->width * tile_rect->height;
guchar *tile_data = g_alloca (tile_size);
gint len = 0;
gint i, j;
GError *tmp_error = NULL;
gegl_buffer_get (buffer, tile_rect, 1.0, format, tile_data,
GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
if (info->file_version >= 12)
{
gint n_components = babl_format_get_n_components (format);
xcf_write_to_be (bpp / n_components, tile_data,
tile_size / bpp * n_components);
}
for (i = 0; i < bpp; i++)
{
const guchar *data = tile_data + i;
gint state = 0;
gint length = 0;
gint count = 0;
gint size = tile_rect->width * tile_rect->height;
guint last = -1;
while (size > 0)
{
switch (state)
{
case 0:
/* in state 0 we try to find a long sequence of
* matching values.
*/
if ((length == 32768) ||
((size - length) <= 0) ||
((length > 1) && (last != *data)))
{
count += length;
if (length >= 128)
{
rlebuf[len++] = 127;
rlebuf[len++] = (length >> 8);
rlebuf[len++] = length & 0x00FF;
rlebuf[len++] = last;
}
else
{
rlebuf[len++] = length - 1;
rlebuf[len++] = last;
}
size -= length;
length = 0;
}
else if ((length == 1) && (last != *data))
{
state = 1;
}
break;
case 1:
/* in state 1 we try and find a long sequence of
* non-matching values.
*/
if ((length == 32768) ||
((size - length) == 0) ||
((length > 0) && (last == *data) &&
((size - length) == 1 || last == data[bpp])))
{
const guchar *t;
/* if we came here because of a new run, backup one */
if (!((length == 32768) || ((size - length) == 0)))
{
length--;
data -= bpp;
}
count += length;
state = 0;
if (length >= 128)
{
rlebuf[len++] = 255 - 127;
rlebuf[len++] = (length >> 8);
rlebuf[len++] = length & 0x00FF;
}
else
{
rlebuf[len++] = 255 - (length - 1);
}
t = data - length * bpp;
for (j = 0; j < length; j++)
{
rlebuf[len++] = *t;
t += bpp;
}
size -= length;
length = 0;
}
break;
}
if (size > 0)
{
length += 1;
last = *data;
data += bpp;
}
}
if (count != (tile_rect->width * tile_rect->height))
g_message ("xcf: uh oh! xcf rle tile saving error: %d", count);
}
xcf_write_int8_check_error (info, rlebuf, len);
return TRUE;
}
static gboolean
xcf_save_tile_zlib (XcfInfo *info,
GeglBuffer *buffer,
GeglRectangle *tile_rect,
const Babl *format,
GError **error)
{
gint bpp = babl_format_get_bytes_per_pixel (format);
gint tile_size = bpp * tile_rect->width * tile_rect->height;
guchar *tile_data = g_alloca (tile_size);
/* The buffer for compressed data. */
guchar *buf = g_alloca (tile_size);
GError *tmp_error = NULL;
z_stream strm;
int action;
int status;
gegl_buffer_get (buffer, tile_rect, 1.0, format, tile_data,
GEGL_AUTO_ROWSTRIDE, GEGL_ABYSS_NONE);
if (info->file_version >= 12)
{
gint n_components = babl_format_get_n_components (format);
xcf_write_to_be (bpp / n_components, tile_data,
tile_size / bpp * n_components);
}
/* allocate deflate state */
strm.zalloc = Z_NULL;
strm.zfree = Z_NULL;
strm.opaque = Z_NULL;
status = deflateInit (&strm, Z_DEFAULT_COMPRESSION);
if (status != Z_OK)
return FALSE;
strm.next_in = tile_data;
strm.avail_in = tile_size;
strm.next_out = buf;
strm.avail_out = tile_size;
action = Z_NO_FLUSH;
while (status == Z_OK || status == Z_BUF_ERROR)
{
if (strm.avail_in == 0)
{
/* Finish the encoding. */
action = Z_FINISH;
}
status = deflate (&strm, action);
if (status == Z_STREAM_END || status == Z_BUF_ERROR)
{
size_t write_size = tile_size - strm.avail_out;
xcf_write_int8_check_error (info, buf, write_size);
/* Reset next_out and avail_out. */
strm.next_out = buf;
strm.avail_out = tile_size;
}
else if (status != Z_OK)
{
g_printerr ("xcf: tile compression failed: %s", zError (status));
deflateEnd (&strm);
return FALSE;
}
}
deflateEnd (&strm);
return TRUE;
}
static gboolean
xcf_save_parasite (XcfInfo *info,
GimpParasite *parasite,
GError **error)
{
if (gimp_parasite_is_persistent (parasite))
{
guint32 value;
const gchar *string;
GError *tmp_error = NULL;
string = gimp_parasite_name (parasite);
xcf_write_string_check_error (info, (gchar **) &string, 1);
value = gimp_parasite_flags (parasite);
xcf_write_int32_check_error (info, &value, 1);
value = gimp_parasite_data_size (parasite);
xcf_write_int32_check_error (info, &value, 1);
xcf_write_int8_check_error (info,
gimp_parasite_data (parasite),
gimp_parasite_data_size (parasite));
}
return TRUE;
}
typedef struct
{
XcfInfo *info;
GError *error;
} XcfParasiteData;
static void
xcf_save_parasite_func (gchar *key,
GimpParasite *parasite,
XcfParasiteData *data)
{
if (! data->error)
xcf_save_parasite (data->info, parasite, &data->error);
}
static gboolean
xcf_save_parasite_list (XcfInfo *info,
GimpParasiteList *list,
GError **error)
{
XcfParasiteData data;
data.info = info;
data.error = NULL;
gimp_parasite_list_foreach (list, (GHFunc) xcf_save_parasite_func, &data);
if (data.error)
{
g_propagate_error (error, data.error);
return FALSE;
}
return TRUE;
}
static gboolean
xcf_save_old_paths (XcfInfo *info,
GimpImage *image,
GError **error)
{
GimpVectors *active_vectors;
guint32 num_paths;
guint32 active_index = 0;
GList *list;
GError *tmp_error = NULL;
/* Write out the following:-
*
* last_selected_row (gint)
* number_of_paths (gint)
*
* then each path:-
*/
num_paths = gimp_container_get_n_children (gimp_image_get_vectors (image));
active_vectors = gimp_image_get_active_vectors (image);
if (active_vectors)
active_index = gimp_container_get_child_index (gimp_image_get_vectors (image),
GIMP_OBJECT (active_vectors));
xcf_write_int32_check_error (info, &active_index, 1);
xcf_write_int32_check_error (info, &num_paths, 1);
for (list = gimp_image_get_vectors_iter (image);
list;
list = g_list_next (list))
{
GimpVectors *vectors = list->data;
gchar *name;
guint32 locked;
guint8 state;
guint32 version;
guint32 pathtype;
guint32 tattoo;
GimpVectorsCompatPoint *points;
guint32 num_points;
guint32 closed;
gint i;
/*
* name (string)
* locked (gint)
* state (gchar)
* closed (gint)
* number points (gint)
* version (gint)
* pathtype (gint)
* tattoo (gint)
* then each point.
*/
points = gimp_vectors_compat_get_points (vectors,
(gint32 *) &num_points,
(gint32 *) &closed);
/* if no points are generated because of a faulty path we should
* skip saving the path - this is unfortunately impossible, because
* we already saved the number of paths and I won't start seeking
* around to fix that cruft */
name = (gchar *) gimp_object_get_name (vectors);
locked = gimp_item_get_linked (GIMP_ITEM (vectors));
state = closed ? 4 : 2; /* EDIT : ADD (editing state, 1.2 compat) */
version = 3;
pathtype = 1; /* BEZIER (1.2 compat) */
tattoo = gimp_item_get_tattoo (GIMP_ITEM (vectors));
xcf_write_string_check_error (info, &name, 1);
xcf_write_int32_check_error (info, &locked, 1);
xcf_write_int8_check_error (info, &state, 1);
xcf_write_int32_check_error (info, &closed, 1);
xcf_write_int32_check_error (info, &num_points, 1);
xcf_write_int32_check_error (info, &version, 1);
xcf_write_int32_check_error (info, &pathtype, 1);
xcf_write_int32_check_error (info, &tattoo, 1);
for (i = 0; i < num_points; i++)
{
gfloat x;
gfloat y;
x = points[i].x;
y = points[i].y;
/*
* type (gint)
* x (gfloat)
* y (gfloat)
*/
xcf_write_int32_check_error (info, &points[i].type, 1);
xcf_write_float_check_error (info, &x, 1);
xcf_write_float_check_error (info, &y, 1);
}
g_free (points);
}
return TRUE;
}
static gboolean
xcf_save_vectors (XcfInfo *info,
GimpImage *image,
GError **error)
{
GimpVectors *active_vectors;
guint32 version = 1;
guint32 active_index = 0;
guint32 num_paths;
GList *list;
GList *stroke_list;
GError *tmp_error = NULL;
/* Write out the following:-
*
* version (gint)
* active_index (gint)
* num_paths (gint)
*
* then each path:-
*/
active_vectors = gimp_image_get_active_vectors (image);
if (active_vectors)
active_index = gimp_container_get_child_index (gimp_image_get_vectors (image),
GIMP_OBJECT (active_vectors));
num_paths = gimp_container_get_n_children (gimp_image_get_vectors (image));
xcf_write_int32_check_error (info, &version, 1);
xcf_write_int32_check_error (info, &active_index, 1);
xcf_write_int32_check_error (info, &num_paths, 1);
for (list = gimp_image_get_vectors_iter (image);
list;
list = g_list_next (list))
{
GimpVectors *vectors = list->data;
GimpParasiteList *parasites;
const gchar *name;
guint32 tattoo;
guint32 visible;
guint32 linked;
guint32 num_parasites;
guint32 num_strokes;
/*
* name (string)
* tattoo (gint)
* visible (gint)
* linked (gint)
* num_parasites (gint)
* num_strokes (gint)
*
* then each parasite
* then each stroke
*/
name = gimp_object_get_name (vectors);
visible = gimp_item_get_visible (GIMP_ITEM (vectors));
linked = gimp_item_get_linked (GIMP_ITEM (vectors));
tattoo = gimp_item_get_tattoo (GIMP_ITEM (vectors));
parasites = gimp_item_get_parasites (GIMP_ITEM (vectors));
num_parasites = gimp_parasite_list_persistent_length (parasites);
num_strokes = g_queue_get_length (vectors->strokes);
xcf_write_string_check_error (info, (gchar **) &name, 1);
xcf_write_int32_check_error (info, &tattoo, 1);
xcf_write_int32_check_error (info, &visible, 1);
xcf_write_int32_check_error (info, &linked, 1);
xcf_write_int32_check_error (info, &num_parasites, 1);
xcf_write_int32_check_error (info, &num_strokes, 1);
xcf_check_error (xcf_save_parasite_list (info, parasites, error));
for (stroke_list = g_list_first (vectors->strokes->head);
stroke_list;
stroke_list = g_list_next (stroke_list))
{
GimpStroke *stroke = stroke_list->data;
guint32 stroke_type;
guint32 closed;
guint32 num_axes;
GArray *control_points;
gint i;
guint32 type;
gfloat coords[6];
/*
* stroke_type (gint)
* closed (gint)
* num_axes (gint)
* num_control_points (gint)
*
* then each control point.
*/
if (GIMP_IS_BEZIER_STROKE (stroke))
{
stroke_type = XCF_STROKETYPE_BEZIER_STROKE;
num_axes = 2; /* hardcoded, might be increased later */
}
else
{
g_printerr ("Skipping unknown stroke type!\n");
continue;
}
control_points = gimp_stroke_control_points_get (stroke,
(gint32 *) &closed);
xcf_write_int32_check_error (info, &stroke_type, 1);
xcf_write_int32_check_error (info, &closed, 1);
xcf_write_int32_check_error (info, &num_axes, 1);
xcf_write_int32_check_error (info, &control_points->len, 1);
for (i = 0; i < control_points->len; i++)
{
GimpAnchor *anchor;
anchor = & (g_array_index (control_points, GimpAnchor, i));
type = anchor->type;
coords[0] = anchor->position.x;
coords[1] = anchor->position.y;
coords[2] = anchor->position.pressure;
coords[3] = anchor->position.xtilt;
coords[4] = anchor->position.ytilt;
coords[5] = anchor->position.wheel;
/*
* type (gint)
*
* the first num_axis elements of:
* [0] x (gfloat)
* [1] y (gfloat)
* [2] pressure (gfloat)
* [3] xtilt (gfloat)
* [4] ytilt (gfloat)
* [5] wheel (gfloat)
*/
xcf_write_int32_check_error (info, &type, 1);
xcf_write_float_check_error (info, coords, num_axes);
}
g_array_free (control_points, TRUE);
}
}
return TRUE;
}