/* 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 2 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, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "config.h" #include #include /* strcpy, strlen */ #include #include "libgimpbase/gimpbase.h" #include "libgimpcolor/gimpcolor.h" #include "core/core-types.h" #include "base/tile.h" #include "base/tile-manager.h" #include "base/tile-manager-private.h" #include "core/gimp.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-sample-points.h" #include "core/gimplayer.h" #include "core/gimplayer-floating-sel.h" #include "core/gimplayermask.h" #include "core/gimplist.h" #include "core/gimpparasitelist.h" #include "core/gimpprogress.h" #include "core/gimpsamplepoint.h" #include "core/gimpunit.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_hierarchy (XcfInfo *info, TileManager *tiles, GError **error); static gboolean xcf_save_level (XcfInfo *info, TileManager *tiles, GError **error); static gboolean xcf_save_tile (XcfInfo *info, Tile *tile, GError **error); static gboolean xcf_save_tile_rle (XcfInfo *info, Tile *tile, guchar *rlebuf, 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 { \ info->cp += xcf_write_int32 (info->fp, data, 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 { \ info->cp += xcf_write_int8 (info->fp, 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 { \ info->cp += xcf_write_float (info->fp, 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 { \ info->cp += xcf_write_string (info->fp, 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 void xcf_save_choose_format (XcfInfo *info, GimpImage *image) { GList *list; gint save_version = 0; /* default to oldest */ if (gimp_image_get_colormap (image)) save_version = 1; /* need version 1 for colormaps */ for (list = GIMP_LIST (image->layers)->list; list && save_version < 2; list = g_list_next (list)) { GimpLayer *layer = GIMP_LAYER (list->data); switch (gimp_layer_get_mode (layer)) { /* new layer modes not supported by gimp-1.2 */ case GIMP_SOFTLIGHT_MODE: case GIMP_GRAIN_EXTRACT_MODE: case GIMP_GRAIN_MERGE_MODE: case GIMP_COLOR_ERASE_MODE: save_version = 2; break; default: break; } } info->file_version = save_version; } gint xcf_save_image (XcfInfo *info, GimpImage *image, GError **error) { GimpLayer *layer; GimpLayer *floating_layer; GimpChannel *channel; GList *list; guint32 saved_pos; guint32 offset; guint32 value; guint n_layers; guint n_channels; guint progress = 0; guint max_progress; gboolean have_selection; gint t1, t2, t3, t4; gchar version_tag[16]; GError *tmp_error = NULL; floating_layer = gimp_image_floating_sel (image); if (floating_layer) floating_sel_relax (floating_layer, FALSE); /* write out the tag information for the image */ if (info->file_version > 0) { sprintf (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_base_type (image); xcf_write_int32_check_error (info, &value, 1); /* determine the number of layers and channels in the image */ n_layers = (guint) gimp_container_num_children (image->layers); n_channels = (guint) gimp_container_num_children (image->channels); max_progress = 1 + n_layers + n_channels; /* check and see if we have to save out the selection */ have_selection = gimp_channel_bounds (gimp_image_get_mask (image), &t1, &t2, &t3, &t4); if (have_selection) n_channels += 1; /* write the property information for the image. */ xcf_check_error (xcf_save_image_props (info, image, error)); xcf_progress_update (info); /* save the current file position as it is the start of where * we place the layer offset information. */ saved_pos = info->cp; /* seek to after the offset lists */ xcf_check_error (xcf_seek_pos (info, info->cp + (n_layers + n_channels + 2) * 4, error)); for (list = GIMP_LIST (image->layers)->list; list; list = g_list_next (list)) { layer = list->data; /* save the start offset of where we are writing * out the next layer. */ offset = info->cp; /* write out the layer. */ xcf_check_error (xcf_save_layer (info, image, layer, error)); xcf_progress_update (info); /* seek back to where we are to write out the next * layer offset and write it out. */ xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); /* increment the location we are to write out the * next offset. */ saved_pos = info->cp; /* seek to the end of the file which is where * we will write out the next layer. */ xcf_check_error (xcf_seek_end (info, error)); } /* write out a '0' offset position to indicate the end * of the layer offsets. */ offset = 0; xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); saved_pos = info->cp; xcf_check_error (xcf_seek_end (info, error)); list = GIMP_LIST (image->channels)->list; while (list || have_selection) { if (list) { channel = list->data; list = g_list_next (list); } else { channel = gimp_image_get_mask (image); have_selection = FALSE; } /* save the start offset of where we are writing * out the next channel. */ offset = info->cp; /* write out the layer. */ xcf_check_error (xcf_save_channel (info, image, channel, error)); xcf_progress_update (info); /* seek back to where we are to write out the next * channel offset and write it out. */ xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); /* increment the location we are to write out the * next offset. */ saved_pos = info->cp; /* seek to the end of the file which is where * we will write out the next channel. */ xcf_check_error (xcf_seek_end (info, error)); } /* write out a '0' offset position to indicate the end * of the channel offsets. */ offset = 0; xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); saved_pos = info->cp; if (floating_layer) floating_sel_rigor (floating_layer, FALSE); return !ferror (info->fp); } static gboolean xcf_save_image_props (XcfInfo *info, GimpImage *image, GError **error) { GimpParasite *parasite = NULL; 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)) 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_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 (image->gimp)) xcf_check_error (xcf_save_prop (info, image, PROP_UNIT, error, unit)); if (gimp_container_num_children (image->vectors) > 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 (image->gimp)) xcf_check_error (xcf_save_prop (info, image, PROP_USER_UNIT, error, unit)); if (GIMP_IS_GRID (image->grid)) { GimpGrid *grid = gimp_image_get_grid (image); parasite = gimp_grid_to_parasite (grid); gimp_parasite_list_add (GIMP_IMAGE (image)->parasites, parasite); } if (gimp_parasite_list_length (GIMP_IMAGE (image)->parasites) > 0) { xcf_check_error (xcf_save_prop (info, image, PROP_PARASITES, error, GIMP_IMAGE (image)->parasites)); } if (parasite) { gimp_parasite_list_remove (GIMP_IMAGE (image)->parasites, gimp_parasite_name (parasite)); gimp_parasite_free (parasite); } 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) { GimpParasite *parasite = NULL; if (layer == gimp_image_get_active_layer (image)) xcf_check_error (xcf_save_prop (info, image, PROP_ACTIVE_LAYER, error)); if (layer == gimp_image_floating_sel (image)) { info->floating_sel_drawable = layer->fs.drawable; 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_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_LOCK_ALPHA, error, gimp_layer_get_lock_alpha (layer))); if (gimp_layer_get_mask (layer)) { GimpLayerMask *mask = gimp_layer_get_mask (layer); xcf_check_error (xcf_save_prop (info, image, PROP_APPLY_MASK, error, gimp_layer_mask_get_apply (mask))); xcf_check_error (xcf_save_prop (info, image, PROP_EDIT_MASK, error, gimp_layer_mask_get_edit (mask))); xcf_check_error (xcf_save_prop (info, image, PROP_SHOW_MASK, error, gimp_layer_mask_get_show (mask))); } 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)); } xcf_check_error (xcf_save_prop (info, image, PROP_OFFSETS, error, GIMP_ITEM (layer)->offset_x, GIMP_ITEM (layer)->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_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_parasite_list_length (GIMP_ITEM (layer)->parasites) > 0) { xcf_check_error (xcf_save_prop (info, image, PROP_PARASITES, error, GIMP_ITEM (layer)->parasites)); } if (parasite) { gimp_parasite_list_remove (GIMP_ITEM (layer)->parasites, gimp_parasite_name (parasite)); gimp_parasite_free (parasite); } 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) { guchar col[3]; 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_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_SHOW_MASKED, error, gimp_channel_get_show_masked (channel))); gimp_rgb_get_uchar (&channel->color, &col[0], &col[1], &col[2]); xcf_check_error (xcf_save_prop (info, image, PROP_COLOR, error, col)); xcf_check_error (xcf_save_prop (info, image, PROP_TATTOO, error, gimp_item_get_tattoo (GIMP_ITEM (channel)))); if (gimp_parasite_list_length (GIMP_ITEM (channel)->parasites) > 0) xcf_check_error (xcf_save_prop (info, image, PROP_PARASITES, error, GIMP_ITEM (channel)->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; guchar *colors; n_colors = va_arg (args, guint32); 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: size = 0; xcf_write_prop_type_check_error (info, prop_type); xcf_write_int32_check_error (info, &size, 1); break; case PROP_FLOATING_SELECTION: { guint32 dummy; dummy = 0; size = 4; 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_int32_check_error (info, &dummy, 1); } break; case PROP_OPACITY: { gdouble opacity; guint32 uint_opacity; opacity = va_arg (args, gdouble); 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_MODE: { gint32 mode; mode = 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, (guint32 *) &mode, 1); } break; case PROP_VISIBLE: { guint32 visible; 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; 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_LOCK_ALPHA: { guint32 lock_alpha; 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_APPLY_MASK: { guint32 apply_mask; 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; 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; 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; 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: { guchar *color; color = va_arg (args, guchar*); 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, color, 3); } break; case PROP_COMPRESSION: { guint8 compression; 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; gint n_guides; guides = va_arg (args, GList *); n_guides = g_list_length (guides); 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; 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; gint n_sample_points; sample_points = va_arg (args, GList *); 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; x = sample_point->x; y = sample_point->y; xcf_write_int32_check_error (info, (guint32 *) &x, 1); xcf_write_int32_check_error (info, (guint32 *) &y, 1); } } break; case PROP_RESOLUTION: { gfloat xresolution, yresolution; /* we pass in floats, but they are promoted to double by the compiler */ xresolution = va_arg (args, double); yresolution = va_arg (args, double); size = 4*2; xcf_write_prop_type_check_error (info, prop_type); xcf_write_int32_check_error (info, &size, 1); xcf_write_float_check_error (info, &xresolution, 1); xcf_write_float_check_error (info, &yresolution, 1); } break; case PROP_TATTOO: { guint32 tattoo; 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; guint32 base, length; long pos; list = va_arg (args, GimpParasiteList *); if (gimp_parasite_list_persistent_length (list) > 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, &length, 1); base = info->cp; xcf_check_error (xcf_save_parasite_list (info, list, error)); length = 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 (info->fp, &length, 1, &tmp_error); if (tmp_error) { g_propagate_error (error, tmp_error); return FALSE; } xcf_check_error (xcf_seek_end (info, error)); } } break; case PROP_UNIT: { guint32 unit; 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: { guint32 base, length; glong pos; 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, &length, 1); base = info->cp; xcf_check_error (xcf_save_old_paths (info, image, error)); length = 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 (info->fp, &length, 1, &tmp_error); if (tmp_error) { g_propagate_error (error, tmp_error); return FALSE; } xcf_check_error (xcf_seek_end (info, error)); } break; case PROP_USER_UNIT: { GimpUnit unit; const gchar *unit_strings[5]; gfloat factor; guint32 digits; unit = va_arg (args, guint32); /* write the entire unit definition */ unit_strings[0] = _gimp_unit_get_identifier (image->gimp, unit); factor = _gimp_unit_get_factor (image->gimp, unit); digits = _gimp_unit_get_digits (image->gimp, unit); unit_strings[1] = _gimp_unit_get_symbol (image->gimp, unit); unit_strings[2] = _gimp_unit_get_abbreviation (image->gimp, unit); unit_strings[3] = _gimp_unit_get_singular (image->gimp, unit); unit_strings[4] = _gimp_unit_get_plural (image->gimp, 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: { guint32 base, length; glong pos; 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, &length, 1); base = info->cp; xcf_check_error (xcf_save_vectors (info, image, error)); length = 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 (info->fp, &length, 1, &tmp_error); if (tmp_error) { g_propagate_error (error, tmp_error); return FALSE; } xcf_check_error (xcf_seek_end (info, error)); } break; case PROP_TEXT_LAYER_FLAGS: { guint32 flags; 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) { guint32 saved_pos; guint32 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_int32_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_width (GIMP_ITEM (layer)); xcf_write_int32_check_error (info, &value, 1); value = gimp_item_height (GIMP_ITEM (layer)); xcf_write_int32_check_error (info, &value, 1); value = gimp_drawable_type (GIMP_DRAWABLE (layer)); xcf_write_int32_check_error (info, &value, 1); /* write out the layers name */ string = gimp_object_get_name (GIMP_OBJECT (layer)); xcf_write_string_check_error (info, (gchar **) &string, 1); /* write out the layer properties */ xcf_save_layer_props (info, image, layer, error); /* save the current position which is where the hierarchy offset * will be stored. */ saved_pos = info->cp; /* write out the layer tile hierarchy */ xcf_check_error (xcf_seek_pos (info, info->cp + 8, error)); offset = info->cp; xcf_check_error (xcf_save_hierarchy (info, gimp_drawable_get_tiles (GIMP_DRAWABLE (layer)), error)); xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); saved_pos = 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_end (info, error)); offset = info->cp; xcf_check_error (xcf_save_channel (info, image, GIMP_CHANNEL (mask), error)); } else offset = 0; xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); return TRUE; } static gboolean xcf_save_channel (XcfInfo *info, GimpImage *image, GimpChannel *channel, GError **error) { guint32 saved_pos; guint32 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_int32_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_width (GIMP_ITEM (channel)); xcf_write_int32_check_error (info, &value, 1); value = gimp_item_height (GIMP_ITEM (channel)); xcf_write_int32_check_error (info, &value, 1); /* write out the channels name */ string = gimp_object_get_name (GIMP_OBJECT (channel)); xcf_write_string_check_error (info, (gchar **) &string, 1); /* write out the channel properties */ xcf_save_channel_props (info, image, channel, error); /* save the current position which is where the hierarchy offset * will be stored. */ saved_pos = info->cp; /* write out the channel tile hierarchy */ xcf_check_error (xcf_seek_pos (info, info->cp + 4, error)); offset = info->cp; xcf_check_error (xcf_save_hierarchy (info, gimp_drawable_get_tiles (GIMP_DRAWABLE (channel)), error)); xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); saved_pos = info->cp; return TRUE; } static gint xcf_calc_levels (gint size, gint tile_size) { int levels; levels = 1; while (size > tile_size) { size /= 2; levels += 1; } return levels; } static gboolean xcf_save_hierarchy (XcfInfo *info, TileManager *tiles, GError **error) { guint32 saved_pos; guint32 offset; guint32 width; guint32 height; guint32 bpp; gint i; gint nlevels; gint tmp1, tmp2; GError *tmp_error = NULL; width = tile_manager_width (tiles); height = tile_manager_height (tiles); bpp = tile_manager_bpp (tiles); 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); saved_pos = info->cp; tmp1 = xcf_calc_levels (width, TILE_WIDTH); tmp2 = xcf_calc_levels (height, TILE_HEIGHT); nlevels = MAX (tmp1, tmp2); xcf_check_error (xcf_seek_pos (info, info->cp + (1 + nlevels) * 4, error)); for (i = 0; i < nlevels; i++) { offset = info->cp; if (i == 0) { /* write out the level. */ xcf_check_error (xcf_save_level (info, tiles, 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); xcf_write_int32_check_error (info, (guint32 *) &tmp1, 1); } /* seek back to where we are to write out the next * level offset and write it out. */ xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); /* increment the location we are to write out the * next offset. */ saved_pos = info->cp; /* seek to the end of the file which is where * we will write out the next level. */ xcf_check_error (xcf_seek_end (info, error)); } /* write out a '0' offset position to indicate the end * of the level offsets. */ offset = 0; xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); return TRUE; } static gboolean xcf_save_level (XcfInfo *info, TileManager *level, GError **error) { guint32 saved_pos; guint32 offset; guint32 width; guint32 height; guint ntiles; gint i; guchar *rlebuf; GError *tmp_error = NULL; width = tile_manager_width (level); height = tile_manager_height (level); xcf_write_int32_check_error (info, (guint32 *) &width, 1); xcf_write_int32_check_error (info, (guint32 *) &height, 1); saved_pos = info->cp; /* allocate a temporary buffer to store the rle data before it is written to disk */ rlebuf = g_malloc (TILE_WIDTH * TILE_HEIGHT * tile_manager_bpp (level) * 1.5); if (level->tiles) { ntiles = level->ntile_rows * level->ntile_cols; xcf_check_error (xcf_seek_pos (info, info->cp + (ntiles + 1) * 4, error)); for (i = 0; i < ntiles; i++) { /* save the start offset of where we are writing * out the next tile. */ offset = info->cp; /* write out the tile. */ switch (info->compression) { case COMPRESS_NONE: xcf_check_error (xcf_save_tile (info, level->tiles[i], error)); break; case COMPRESS_RLE: xcf_check_error (xcf_save_tile_rle (info, level->tiles[i], rlebuf, error)); break; case COMPRESS_ZLIB: g_error ("xcf: zlib compression unimplemented"); break; case COMPRESS_FRACTAL: g_error ("xcf: fractal compression unimplemented"); break; } /* seek back to where we are to write out the next * tile offset and write it out. */ xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); /* increment the location we are to write out the * next offset. */ saved_pos = info->cp; /* seek to the end of the file which is where * we will write out the next tile. */ xcf_check_error (xcf_seek_end (info, error)); } } g_free (rlebuf); /* write out a '0' offset position to indicate the end * of the level offsets. */ offset = 0; xcf_check_error (xcf_seek_pos (info, saved_pos, error)); xcf_write_int32_check_error (info, &offset, 1); return TRUE; } static gboolean xcf_save_tile (XcfInfo *info, Tile *tile, GError **error) { GError *tmp_error = NULL; tile_lock (tile); xcf_write_int8_check_error (info, tile_data_pointer (tile, 0, 0), tile_size (tile)); tile_release (tile, FALSE); return TRUE; } static gboolean xcf_save_tile_rle (XcfInfo *info, Tile *tile, guchar *rlebuf, GError **error) { GError *tmp_error = NULL; gint len = 0; gint bpp; gint i, j; tile_lock (tile); bpp = tile_bpp (tile); for (i = 0; i < bpp; i++) { const guchar *data = (const guchar *) tile_data_pointer (tile, 0, 0) + i; gint state = 0; gint length = 0; gint count = 0; gint size = tile_ewidth (tile) * tile_eheight (tile); 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; 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_ewidth (tile) * tile_eheight (tile))) g_message ("xcf: uh oh! xcf rle tile saving error: %d", count); } xcf_write_int8_check_error (info, rlebuf, len); tile_release (tile, FALSE); 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_num_children (image->vectors); active_vectors = gimp_image_get_active_vectors (image); if (active_vectors) active_index = gimp_container_get_child_index (image->vectors, 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_LIST (image->vectors)->list; 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 wont start seeking * around to fix that cruft */ name = (gchar *) gimp_object_get_name (GIMP_OBJECT (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 (image->vectors, GIMP_OBJECT (active_vectors)); num_paths = gimp_container_num_children (image->vectors); 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_LIST (image->vectors)->list; 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 */ parasites = GIMP_ITEM (vectors)->parasites; name = gimp_object_get_name (GIMP_OBJECT (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)); num_parasites = gimp_parasite_list_persistent_length (parasites); num_strokes = g_list_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); 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; }