/* gtkiconcache.c * Copyright (C) 2004 Anders Carlsson * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include "gtkdebug.h" #include "gtkiconcache.h" #include "gtkiconcachevalidator.h" #include "gtkalias.h" #include #include #ifdef HAVE_UNISTD_H #include #endif #ifdef G_OS_WIN32 #include #endif #include #include #include #include #ifndef _O_BINARY #define _O_BINARY 0 #endif #define MAJOR_VERSION 1 #define MINOR_VERSION 0 #define GET_UINT16(cache, offset) (GUINT16_FROM_BE (*(guint16 *)((cache) + (offset)))) #define GET_UINT32(cache, offset) (GUINT32_FROM_BE (*(guint32 *)((cache) + (offset)))) struct _GtkIconCache { gint ref_count; GMappedFile *map; gchar *buffer; }; GtkIconCache * _gtk_icon_cache_ref (GtkIconCache *cache) { cache->ref_count++; return cache; } void _gtk_icon_cache_unref (GtkIconCache *cache) { cache->ref_count --; if (cache->ref_count == 0) { GTK_NOTE (ICONTHEME, g_print ("unmapping icon cache\n")); if (cache->map) g_mapped_file_free (cache->map); g_free (cache); } } GtkIconCache * _gtk_icon_cache_new_for_path (const gchar *path) { GtkIconCache *cache = NULL; GMappedFile *map; gchar *cache_filename; gint fd = -1; struct stat st; struct stat path_st; CacheInfo info; /* Check if we have a cache file */ cache_filename = g_build_filename (path, "icon-theme.cache", NULL); GTK_NOTE (ICONTHEME, g_print ("look for cache in %s\n", path)); if (g_stat (path, &path_st) < 0) goto done; /* Open the file and map it into memory */ fd = g_open (cache_filename, O_RDONLY|_O_BINARY, 0); if (fd < 0) goto done; if (fstat (fd, &st) < 0 || st.st_size < 4) goto done; /* Verify cache is uptodate */ if (st.st_mtime < path_st.st_mtime) { GTK_NOTE (ICONTHEME, g_print ("cache outdated\n")); goto done; } map = g_mapped_file_new (cache_filename, FALSE, NULL); if (!map) goto done; info.cache = g_mapped_file_get_contents (map); info.cache_size = g_mapped_file_get_length (map); info.n_directories = 0; info.flags = CHECK_OFFSETS|CHECK_STRINGS; #ifdef G_ENABLE_DEBUG if (gtk_debug_flags & GTK_DEBUG_ICONTHEME) { if (!_gtk_icon_cache_validate (&info)) { g_mapped_file_free (map); g_warning ("Icon cache '%s' is invalid\n", cache_filename); goto done; } } #endif GTK_NOTE (ICONTHEME, g_print ("found cache for %s\n", path)); cache = g_new0 (GtkIconCache, 1); cache->ref_count = 1; cache->map = map; cache->buffer = g_mapped_file_get_contents (map); done: g_free (cache_filename); if (fd >= 0) close (fd); return cache; } GtkIconCache * _gtk_icon_cache_new (const gchar *data) { GtkIconCache *cache; cache = g_new0 (GtkIconCache, 1); cache->ref_count = 1; cache->map = NULL; cache->buffer = (gchar *)data; return cache; } static gint get_directory_index (GtkIconCache *cache, const gchar *directory) { guint32 dir_list_offset; gint n_dirs; gint i; dir_list_offset = GET_UINT32 (cache->buffer, 8); n_dirs = GET_UINT32 (cache->buffer, dir_list_offset); for (i = 0; i < n_dirs; i++) { guint32 name_offset = GET_UINT32 (cache->buffer, dir_list_offset + 4 + 4 * i); gchar *name = cache->buffer + name_offset; if (strcmp (name, directory) == 0) return i; } return -1; } gboolean _gtk_icon_cache_has_directory (GtkIconCache *cache, const gchar *directory) { return get_directory_index (cache, directory) != -1; } static guint icon_name_hash (gconstpointer key) { const signed char *p = key; guint32 h = *p; if (h) for (p += 1; *p != '\0'; p++) h = (h << 5) - h + *p; return h; } static gint find_image_offset (GtkIconCache *cache, const gchar *icon_name, const gchar *directory) { guint32 hash_offset; guint32 n_buckets; guint32 chain_offset; int hash, directory_index; guint32 image_list_offset, n_images; gboolean found = FALSE; int i; hash_offset = GET_UINT32 (cache->buffer, 4); n_buckets = GET_UINT32 (cache->buffer, hash_offset); hash = icon_name_hash (icon_name) % n_buckets; chain_offset = GET_UINT32 (cache->buffer, hash_offset + 4 + 4 * hash); while (chain_offset != 0xffffffff) { guint32 name_offset = GET_UINT32 (cache->buffer, chain_offset + 4); gchar *name = cache->buffer + name_offset; if (strcmp (name, icon_name) == 0) { found = TRUE; break; } chain_offset = GET_UINT32 (cache->buffer, chain_offset); } if (!found) { return 0; } /* We've found an icon list, now check if we have the right icon in it */ directory_index = get_directory_index (cache, directory); image_list_offset = GET_UINT32 (cache->buffer, chain_offset + 8); n_images = GET_UINT32 (cache->buffer, image_list_offset); for (i = 0; i < n_images; i++) { if (GET_UINT16 (cache->buffer, image_list_offset + 4 + 8 * i) == directory_index) return image_list_offset + 4 + 8 * i; } return 0; } gint _gtk_icon_cache_get_icon_flags (GtkIconCache *cache, const gchar *icon_name, const gchar *directory) { guint32 image_offset; image_offset = find_image_offset (cache, icon_name, directory); if (!image_offset) return 0; return GET_UINT16 (cache->buffer, image_offset + 2); } void _gtk_icon_cache_add_icons (GtkIconCache *cache, const gchar *directory, GHashTable *hash_table) { int directory_index; guint32 hash_offset, n_buckets; guint32 chain_offset; guint32 image_list_offset, n_images; int i, j; directory_index = get_directory_index (cache, directory); if (directory_index == -1) return; hash_offset = GET_UINT32 (cache->buffer, 4); n_buckets = GET_UINT32 (cache->buffer, hash_offset); for (i = 0; i < n_buckets; i++) { chain_offset = GET_UINT32 (cache->buffer, hash_offset + 4 + 4 * i); while (chain_offset != 0xffffffff) { guint32 name_offset = GET_UINT32 (cache->buffer, chain_offset + 4); gchar *name = cache->buffer + name_offset; image_list_offset = GET_UINT32 (cache->buffer, chain_offset + 8); n_images = GET_UINT32 (cache->buffer, image_list_offset); for (j = 0; j < n_images; j++) { if (GET_UINT16 (cache->buffer, image_list_offset + 4 + 8 * j) == directory_index) g_hash_table_insert (hash_table, name, NULL); } chain_offset = GET_UINT32 (cache->buffer, chain_offset); } } } gboolean _gtk_icon_cache_has_icon (GtkIconCache *cache, const gchar *icon_name) { guint32 hash_offset; guint32 n_buckets; guint32 chain_offset; gint hash; hash_offset = GET_UINT32 (cache->buffer, 4); n_buckets = GET_UINT32 (cache->buffer, hash_offset); hash = icon_name_hash (icon_name) % n_buckets; chain_offset = GET_UINT32 (cache->buffer, hash_offset + 4 + 4 * hash); while (chain_offset != 0xffffffff) { guint32 name_offset = GET_UINT32 (cache->buffer, chain_offset + 4); gchar *name = cache->buffer + name_offset; if (strcmp (name, icon_name) == 0) return TRUE; chain_offset = GET_UINT32 (cache->buffer, chain_offset); } return FALSE; } gboolean _gtk_icon_cache_has_icon_in_directory (GtkIconCache *cache, const gchar *icon_name, const gchar *directory) { guint32 hash_offset; guint32 n_buckets; guint32 chain_offset; gint hash; gboolean found_icon = FALSE; gint directory_index; directory_index = get_directory_index (cache, directory); if (directory_index == -1) return FALSE; hash_offset = GET_UINT32 (cache->buffer, 4); n_buckets = GET_UINT32 (cache->buffer, hash_offset); hash = icon_name_hash (icon_name) % n_buckets; chain_offset = GET_UINT32 (cache->buffer, hash_offset + 4 + 4 * hash); while (chain_offset != 0xffffffff) { guint32 name_offset = GET_UINT32 (cache->buffer, chain_offset + 4); gchar *name = cache->buffer + name_offset; if (strcmp (name, icon_name) == 0) { found_icon = TRUE; break; } chain_offset = GET_UINT32 (cache->buffer, chain_offset); } if (found_icon) { guint32 image_list_offset = GET_UINT32 (cache->buffer, chain_offset + 8); guint32 n_images = GET_UINT32 (cache->buffer, image_list_offset); guint32 image_offset = image_list_offset + 4; gint i; for (i = 0; i < n_images; i++) { guint16 index = GET_UINT16 (cache->buffer, image_offset); if (index == directory_index) return TRUE; image_offset += 8; } } return FALSE; } static void pixbuf_destroy_cb (guchar *pixels, gpointer data) { GtkIconCache *cache = data; _gtk_icon_cache_unref (cache); } GdkPixbuf * _gtk_icon_cache_get_icon (GtkIconCache *cache, const gchar *icon_name, const gchar *directory) { guint32 offset, image_data_offset, pixel_data_offset; guint32 length, type; GdkPixbuf *pixbuf; GdkPixdata pixdata; GError *error = NULL; offset = find_image_offset (cache, icon_name, directory); image_data_offset = GET_UINT32 (cache->buffer, offset + 4); if (!image_data_offset) return NULL; pixel_data_offset = GET_UINT32 (cache->buffer, image_data_offset); type = GET_UINT32 (cache->buffer, pixel_data_offset); if (type != 0) { GTK_NOTE (ICONTHEME, g_print ("invalid pixel data type %u\n", type)); return NULL; } length = GET_UINT32 (cache->buffer, pixel_data_offset + 4); if (!gdk_pixdata_deserialize (&pixdata, length, (guchar *)(cache->buffer + pixel_data_offset + 8), &error)) { GTK_NOTE (ICONTHEME, g_print ("could not deserialize data: %s\n", error->message)); g_error_free (error); return NULL; } pixbuf = gdk_pixbuf_new_from_data (pixdata.pixel_data, GDK_COLORSPACE_RGB, (pixdata.pixdata_type & GDK_PIXDATA_COLOR_TYPE_MASK) == GDK_PIXDATA_COLOR_TYPE_RGBA, 8, pixdata.width, pixdata.height, pixdata.rowstride, (GdkPixbufDestroyNotify)pixbuf_destroy_cb, cache); if (!pixbuf) { GTK_NOTE (ICONTHEME, g_print ("could not convert pixdata to pixbuf: %s\n", error->message)); g_error_free (error); return NULL; } _gtk_icon_cache_ref (cache); return pixbuf; } GtkIconData * _gtk_icon_cache_get_icon_data (GtkIconCache *cache, const gchar *icon_name, const gchar *directory) { guint32 offset, image_data_offset, meta_data_offset; GtkIconData *data; int i; offset = find_image_offset (cache, icon_name, directory); if (!offset) return NULL; image_data_offset = GET_UINT32 (cache->buffer, offset + 4); if (!image_data_offset) return NULL; meta_data_offset = GET_UINT32 (cache->buffer, image_data_offset + 4); if (!meta_data_offset) return NULL; data = g_slice_new0 (GtkIconData); offset = GET_UINT32 (cache->buffer, meta_data_offset); if (offset) { data->has_embedded_rect = TRUE; data->x0 = GET_UINT16 (cache->buffer, offset); data->y0 = GET_UINT16 (cache->buffer, offset + 2); data->x1 = GET_UINT16 (cache->buffer, offset + 4); data->y1 = GET_UINT16 (cache->buffer, offset + 6); } offset = GET_UINT32 (cache->buffer, meta_data_offset + 4); if (offset) { data->n_attach_points = GET_UINT32 (cache->buffer, offset); data->attach_points = g_new (GdkPoint, data->n_attach_points); for (i = 0; i < data->n_attach_points; i++) { data->attach_points[i].x = GET_UINT16 (cache->buffer, offset + 4 + 4 * i); data->attach_points[i].y = GET_UINT16 (cache->buffer, offset + 4 + 4 * i + 2); } } offset = GET_UINT32 (cache->buffer, meta_data_offset + 8); if (offset) { gint n_names; gchar *lang, *name; gchar **langs; GHashTable *table = g_hash_table_new (g_str_hash, g_str_equal); n_names = GET_UINT32 (cache->buffer, offset); for (i = 0; i < n_names; i++) { lang = cache->buffer + GET_UINT32 (cache->buffer, offset + 4 + 8 * i); name = cache->buffer + GET_UINT32 (cache->buffer, offset + 4 + 8 * i + 4); g_hash_table_insert (table, lang, name); } langs = (gchar **)g_get_language_names (); for (i = 0; langs[i]; i++) { name = g_hash_table_lookup (table, langs[i]); if (name) { data->display_name = g_strdup (name); break; } } g_hash_table_destroy (table); } return data; }