/*
* Geeqie
* (C) 2004 John Ellis
- * Copyright (C) 2008 - 2009 The Geeqie Team
+ * Copyright (C) 2008 - 2012 The Geeqie Team
*
* Author: John Ellis, Laurent Monin
*
#include "ui_misc.h"
#include "utilops.h"
#include "filefilter.h"
-#include "layout.h"
+#include "layout_util.h"
#include "rcfile.h"
typedef enum {
MK_COMMENT
} MetadataKey;
-static const gchar *group_keys[] = {KEYWORD_KEY, COMMENT_KEY, NULL}; /* tags that will be written to all files in a group */
+static const gchar *group_keys[] = { /* tags that will be written to all files in a group, options->metadata.sync_grouped_files */
+ "Xmp.dc.title",
+ "Xmp.photoshop.Urgency",
+ "Xmp.photoshop.Category",
+ "Xmp.photoshop.SupplementalCategory",
+ "Xmp.dc.subject",
+ "Xmp.iptc.Location",
+ "Xmp.photoshop.Instruction",
+ "Xmp.photoshop.DateCreated",
+ "Xmp.dc.creator",
+ "Xmp.photoshop.AuthorsPosition",
+ "Xmp.photoshop.City",
+ "Xmp.photoshop.State",
+ "Xmp.iptc.CountryCode",
+ "Xmp.photoshop.Country",
+ "Xmp.photoshop.TransmissionReference",
+ "Xmp.photoshop.Headline",
+ "Xmp.photoshop.Credit",
+ "Xmp.photoshop.Source",
+ "Xmp.dc.rights",
+ "Xmp.dc.description",
+ "Xmp.photoshop.CaptionWriter",
+ NULL};
static gboolean metadata_write_queue_idle_cb(gpointer data);
static gboolean metadata_legacy_write(FileData *fd);
static void metadata_legacy_delete(FileData *fd, const gchar *except);
+static gboolean metadata_file_read(gchar *path, GList **keywords, gchar **comment);
+
+
+/*
+ *-------------------------------------------------------------------
+ * long-term cache - keep keywords from whole dir in memory
+ *-------------------------------------------------------------------
+ */
+
+/* fd->cached metadata list of lists
+ each particular list contains key as a first entry, then the values
+*/
+
+static void metadata_cache_update(FileData *fd, const gchar *key, const GList *values)
+{
+ GList *work;
+
+ work = fd->cached_metadata;
+ while (work)
+ {
+ GList *entry = work->data;
+ gchar *entry_key = entry->data;
+
+ if (strcmp(entry_key, key) == 0)
+ {
+ /* key found - just replace values */
+ GList *old_values = entry->next;
+ entry->next = NULL;
+ old_values->prev = NULL;
+ string_list_free(old_values);
+ work->data = g_list_append(entry, string_list_copy(values));
+ DEBUG_1("updated %s %s\n", key, fd->path);
+ return;
+ }
+ work = work->next;
+ }
+
+ /* key not found - prepend new entry */
+ fd->cached_metadata = g_list_prepend(fd->cached_metadata,
+ g_list_prepend(string_list_copy(values), g_strdup(key)));
+ DEBUG_1("added %s %s\n", key, fd->path);
+
+}
+
+static const GList *metadata_cache_get(FileData *fd, const gchar *key)
+{
+ GList *work;
+
+ work = fd->cached_metadata;
+ while (work)
+ {
+ GList *entry = work->data;
+ gchar *entry_key = entry->data;
+
+ if (strcmp(entry_key, key) == 0)
+ {
+ /* key found */
+ DEBUG_1("found %s %s\n", key, fd->path);
+ return entry;
+ }
+ work = work->next;
+ }
+ return NULL;
+ DEBUG_1("not found %s %s\n", key, fd->path);
+}
+
+static void metadata_cache_remove(FileData *fd, const gchar *key)
+{
+ GList *work;
+
+ work = fd->cached_metadata;
+ while (work)
+ {
+ GList *entry = work->data;
+ gchar *entry_key = entry->data;
+
+ if (strcmp(entry_key, key) == 0)
+ {
+ /* key found */
+ string_list_free(entry);
+ fd->cached_metadata = g_list_delete_link(fd->cached_metadata, work);
+ DEBUG_1("removed %s %s\n", key, fd->path);
+ return;
+ }
+ work = work->next;
+ }
+ DEBUG_1("not removed %s %s\n", key, fd->path);
+}
+
+void metadata_cache_free(FileData *fd)
+{
+ GList *work;
+ if (fd->cached_metadata) DEBUG_1("freed %s\n", fd->path);
+
+ work = fd->cached_metadata;
+ while (work)
+ {
+ GList *entry = work->data;
+ string_list_free(entry);
+
+ work = work->next;
+ }
+ g_list_free(fd->cached_metadata);
+ fd->cached_metadata = NULL;
+}
+
+
+
*/
static GList *metadata_write_queue = NULL;
-static gint metadata_write_idle_id = -1;
+static guint metadata_write_idle_id = 0; /* event source id */
static void metadata_write_queue_add(FileData *fd)
{
metadata_write_queue = g_list_prepend(metadata_write_queue, fd);
file_data_ref(fd);
- layout_status_update_write_all();
+ layout_util_status_update_write_all();
}
- if (metadata_write_idle_id != -1)
+ if (metadata_write_idle_id)
{
g_source_remove(metadata_write_idle_id);
- metadata_write_idle_id = -1;
+ metadata_write_idle_id = 0;
}
if (options->metadata.confirm_after_timeout)
file_data_unref(fd);
- layout_status_update_write_all();
+ layout_util_status_update_write_all();
return TRUE;
}
return ret;
}
+void metadata_notify_cb(FileData *fd, NotifyType type, gpointer data)
+{
+ if (type & (NOTIFY_REREAD | NOTIFY_CHANGE))
+ {
+ metadata_cache_free(fd);
+
+ if (g_list_find(metadata_write_queue, fd))
+ {
+ DEBUG_1("Notify metadata: %s %04x", fd->path, type);
+ if (!isname(fd->path))
+ {
+ /* ignore deleted files */
+ metadata_write_queue_remove(fd);
+ }
+ }
+ }
+}
-gboolean metadata_write_queue_confirm(FileUtilDoneFunc done_func, gpointer done_data)
+gboolean metadata_write_queue_confirm(gboolean force_dialog, FileUtilDoneFunc done_func, gpointer done_data)
{
GList *work;
GList *to_approve = NULL;
FileData *fd = work->data;
work = work->next;
+ if (!isname(fd->path))
+ {
+ /* ignore deleted files */
+ metadata_write_queue_remove(fd);
+ continue;
+ }
+
if (fd->change) continue; /* another operation in progress, skip this file for now */
to_approve = g_list_prepend(to_approve, file_data_ref(fd));
}
- file_util_write_metadata(NULL, to_approve, NULL, done_func, done_data);
-
- filelist_free(to_approve);
+ file_util_write_metadata(NULL, to_approve, NULL, force_dialog, done_func, done_data);
return (metadata_write_queue != NULL);
}
static gboolean metadata_write_queue_idle_cb(gpointer data)
{
- metadata_write_queue_confirm(NULL, NULL);
- metadata_write_idle_id = -1;
+ metadata_write_queue_confirm(FALSE, NULL, NULL);
+ metadata_write_idle_id = 0;
return FALSE;
}
g_assert(fd->change);
- if (fd->change->dest &&
+ if (fd->change->dest &&
strcmp(extension_from_path(fd->change->dest), GQ_CACHE_EXT_METADATA) == 0)
{
success = metadata_legacy_write(fd);
}
/* write via exiv2 */
- /* we can either use cached metadata which have fd->modified_xmp already applied
+ /* we can either use cached metadata which have fd->modified_xmp already applied
or read metadata from file and apply fd->modified_xmp
metadata are read also if the file was modified meanwhile */
- exif = exif_read_fd(fd);
+ exif = exif_read_fd(fd);
if (!exif) return FALSE;
success = (fd->change->dest) ? exif_write_sidecar(exif, fd->change->dest) : exif_write(exif); /* write modified metadata */
exif_free_fd(fd, exif);
if (fd->change->dest)
- /* this will create a FileData for the sidecar and link it to the main file
+ /* this will create a FileData for the sidecar and link it to the main file
(we can't wait until the sidecar is discovered by directory scanning because
- exif_read_fd is called before that and it would read the main file only and
+ exif_read_fd is called before that and it would read the main file only and
store the metadata in the cache)
FIXME: this does not catch new sidecars created by independent external programs
*/
- file_data_unref(file_data_new_simple(fd->change->dest));
+ file_data_unref(file_data_new_group(fd->change->dest));
if (success) metadata_legacy_delete(fd, fd->change->dest);
return success;
return FALSE;
}
+gboolean metadata_write_revert(FileData *fd, const gchar *key)
+{
+ if (!fd->modified_xmp) return FALSE;
+
+ g_hash_table_remove(fd->modified_xmp, key);
+
+ if (g_hash_table_size(fd->modified_xmp) == 0)
+ {
+ metadata_write_queue_remove(fd);
+ }
+ else
+ {
+ /* reread the metadata to restore the original value */
+ file_data_increment_version(fd);
+ file_data_send_notification(fd, NOTIFY_REREAD);
+ }
+ return TRUE;
+}
+
gboolean metadata_write_list(FileData *fd, const gchar *key, const GList *values)
{
if (!fd->modified_xmp)
fd->modified_xmp = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, (GDestroyNotify)string_list_free);
}
g_hash_table_insert(fd->modified_xmp, g_strdup(key), string_list_copy((GList *)values));
+
+ metadata_cache_remove(fd, key);
+
if (fd->exif)
{
exif_update_metadata(fd->exif, key, values);
FileData *sfd = work->data;
work = work->next;
- if (filter_file_class(sfd->extension, FORMAT_CLASS_META)) continue;
+ if (filter_file_class(sfd->extension, FORMAT_CLASS_META)) continue;
metadata_write_list(sfd, key, values);
}
return ret;
}
+gboolean metadata_write_int(FileData *fd, const gchar *key, guint64 value)
+{
+ gchar string[50];
+
+ g_snprintf(string, sizeof(string), "%llu", (unsigned long long) value);
+ return metadata_write_string(fd, key, string);
+}
/*
*-------------------------------------------------------------------
*-------------------------------------------------------------------
*/
-static gboolean metadata_file_write(gchar *path, GHashTable *modified_xmp)
+static gboolean metadata_file_write(gchar *path, const GList *keywords, const gchar *comment)
{
SecureSaveInfo *ssi;
- GList *keywords = g_hash_table_lookup(modified_xmp, KEYWORD_KEY);
- GList *comment_l = g_hash_table_lookup(modified_xmp, COMMENT_KEY);
- gchar *comment = comment_l ? comment_l->data : NULL;
ssi = secure_open(path);
if (!ssi) return FALSE;
{
gboolean success = FALSE;
gchar *metadata_pathl;
+ gpointer keywords;
+ gpointer comment_l;
+ gboolean have_keywords;
+ gboolean have_comment;
+ const gchar *comment;
+ GList *orig_keywords = NULL;
+ gchar *orig_comment = NULL;
g_assert(fd->change && fd->change->dest);
DEBUG_1("Saving comment: %s", fd->change->dest);
+ if (!fd->modified_xmp) return TRUE;
+
metadata_pathl = path_from_utf8(fd->change->dest);
- success = metadata_file_write(metadata_pathl, fd->modified_xmp);
+ have_keywords = g_hash_table_lookup_extended(fd->modified_xmp, KEYWORD_KEY, NULL, &keywords);
+ have_comment = g_hash_table_lookup_extended(fd->modified_xmp, COMMENT_KEY, NULL, &comment_l);
+ comment = (have_comment && comment_l) ? ((GList *)comment_l)->data : NULL;
+
+ if (!have_keywords || !have_comment) metadata_file_read(metadata_pathl, &orig_keywords, &orig_comment);
+
+ success = metadata_file_write(metadata_pathl,
+ have_keywords ? (GList *)keywords : orig_keywords,
+ have_comment ? comment : orig_comment);
g_free(metadata_pathl);
-
+ g_free(orig_comment);
+ string_list_free(orig_keywords);
+
return success;
}
fclose(f);
- if (keywords)
+ if (keywords)
{
*keywords = g_list_reverse(list);
}
if (!fd) return;
metadata_path = cache_find_location(CACHE_TYPE_METADATA, fd->path);
- if (metadata_path && (!except || strcmp(metadata_path, except) != 0))
+ if (metadata_path && (!except || strcmp(metadata_path, except) != 0))
{
metadata_pathl = path_from_utf8(metadata_path);
unlink(metadata_pathl);
g_free(metadata_pathl);
g_free(metadata_path);
}
+
+#ifdef HAVE_EXIV2
+ /* without exiv2: do not delete xmp metadata because we are not able to convert it,
+ just ignore it */
metadata_path = cache_find_location(CACHE_TYPE_XMP_METADATA, fd->path);
- if (metadata_path && (!except || strcmp(metadata_path, except) != 0))
+ if (metadata_path && (!except || strcmp(metadata_path, except) != 0))
{
metadata_pathl = path_from_utf8(metadata_path);
unlink(metadata_pathl);
g_free(metadata_pathl);
g_free(metadata_path);
}
+#endif
}
static gboolean metadata_legacy_read(FileData *fd, GList **keywords, gchar **comment)
{
ExifData *exif;
GList *list = NULL;
+ const GList *cache_entry;
if (!fd) return NULL;
/* unwritten data overide everything */
if (list) return string_list_copy(list);
}
- /*
+
+ if (format == METADATA_PLAIN && strcmp(key, KEYWORD_KEY) == 0
+ && (cache_entry = metadata_cache_get(fd, key)))
+ {
+ return string_list_copy(cache_entry->next);
+ }
+
+ /*
Legacy metadata file is the primary source if it exists.
Merging the lists does not make much sense, because the existence of
legacy metadata file indicates that the other metadata sources are not
*/
if (strcmp(key, KEYWORD_KEY) == 0)
{
- if (metadata_legacy_read(fd, &list, NULL)) return list;
- }
-
- if (strcmp(key, COMMENT_KEY) == 0)
+ if (metadata_legacy_read(fd, &list, NULL))
+ {
+ if (format == METADATA_PLAIN)
+ {
+ metadata_cache_update(fd, key, list);
+ }
+ return list;
+ }
+ }
+ else if (strcmp(key, COMMENT_KEY) == 0)
{
gchar *comment = NULL;
if (metadata_legacy_read(fd, NULL, &comment)) return g_list_append(NULL, comment);
}
-
- if (strncmp(key, "file.", 5) == 0)
+ else if (strncmp(key, "file.", 5) == 0)
{
return g_list_append(NULL, metadata_file_info(fd, key, format));
}
if (!exif) return NULL;
list = exif_get_metadata(exif, key, format);
exif_free_fd(fd, exif);
+
+ if (format == METADATA_PLAIN && strcmp(key, KEYWORD_KEY) == 0)
+ {
+ metadata_cache_update(fd, key, list);
+ }
+
return list;
}
g_free(string);
return ret;
}
+
+gdouble metadata_read_GPS_coord(FileData *fd, const gchar *key, gdouble fallback)
+{
+ gdouble coord;
+ gchar *endptr;
+ gdouble deg, min, sec;
+ gboolean ok = FALSE;
+ gchar *string = metadata_read_string(fd, key, METADATA_PLAIN);
+ if (!string) return fallback;
+
+ deg = g_ascii_strtod(string, &endptr);
+ if (*endptr == ',')
+ {
+ min = g_ascii_strtod(endptr + 1, &endptr);
+ if (*endptr == ',')
+ sec = g_ascii_strtod(endptr + 1, &endptr);
+ else
+ sec = 0.0;
+
+
+ if (*endptr == 'S' || *endptr == 'W' || *endptr == 'N' || *endptr == 'E')
+ {
+ coord = deg + min /60.0 + sec / 3600.0;
+ ok = TRUE;
+ if (*endptr == 'S' || *endptr == 'W') coord = -coord;
+ }
+ }
+
+ if (!ok)
+ {
+ coord = fallback;
+ log_printf("unable to parse GPS coordinate '%s'\n", string);
+ }
+
+ g_free(string);
+ return coord;
+}
gboolean metadata_append_string(FileData *fd, const gchar *key, const char *value)
{
gchar *str = metadata_read_string(fd, key, METADATA_PLAIN);
- if (!str)
+ if (!str)
{
return metadata_write_string(fd, key, value);
}
{
GList *list = metadata_read_list(fd, key, METADATA_PLAIN);
- if (!list)
+ if (!list)
{
return metadata_write_list(fd, key, values);
}
}
}
+/**
+ * \see find_string_in_list
+ */
gchar *find_string_in_list_utf8nocase(GList *list, const gchar *string)
{
gchar *string_casefold = g_utf8_casefold(string, -1);
while (list)
{
gchar *haystack = list->data;
-
+
if (haystack)
{
gboolean equal;
return haystack;
}
}
-
+
list = list->next;
}
-
+
g_free(string_casefold);
return NULL;
}
+/**
+ * \see find_string_in_list
+ */
+gchar *find_string_in_list_utf8case(GList *list, const gchar *string)
+{
+ while (list)
+ {
+ gchar *haystack = list->data;
+
+ if (haystack && strcmp(haystack, string) == 0)
+ return haystack;
+
+ list = list->next;
+ } // while (list)
+
+ return NULL;
+} // gchar *find_string_in_list_utf...
+
+/**
+ * \brief Find a existent string in a list.
+ *
+ * This is a switch between find_string_in_list_utf8case and
+ * find_string_in_list_utf8nocase to search with or without case for the
+ * existence of a string.
+ *
+ * \param list The list to search in
+ * \param string The string to search for
+ * \return The string or NULL
+ *
+ * \see find_string_in_list_utf8case
+ * \see find_string_in_list_utf8nocase
+ */
+gchar *find_string_in_list(GList *list, const gchar *string)
+{
+ if (options->metadata.keywords_case_sensitive)
+ return find_string_in_list_utf8case(list, string);
+ else
+ return find_string_in_list_utf8nocase(list, string);
+}
#define KEYWORDS_SEPARATOR(c) ((c) == ',' || (c) == ';' || (c) == '\n' || (c) == '\r' || (c) == '\b')
gchar *keyword = g_strndup(begin, l);
/* only add if not already in the list */
- if (!find_string_in_list_utf8nocase(list, keyword))
+ if (!find_string_in_list(list, keyword))
list = g_list_append(list, keyword);
else
g_free(keyword);
if (!!keyword_tree_is_set(GTK_TREE_MODEL(keyword_tree), &iter, keywords) != !!value)
{
- if (value)
+ if (value)
{
keyword_tree_set(GTK_TREE_MODEL(keyword_tree), &iter, &keywords);
}
for (i = 0; i < FILEDATA_MARKS_SIZE; i++)
{
file_data_get_registered_mark_func(i, &get_mark_func, &set_mark_func, &mark_func_data);
- if (get_mark_func == meta_data_get_keyword_mark)
+ if (get_mark_func == meta_data_get_keyword_mark)
{
GtkTreeIter old_kw_iter;
GList *old_path = mark_func_data;
- if (keyword_tree_get_iter(keyword_tree, &old_kw_iter, old_path) &&
+ if (keyword_tree_get_iter(keyword_tree, &old_kw_iter, old_path) &&
(i == mark || /* release any previous connection of given mark */
keyword_compare(keyword_tree, &old_kw_iter, kw_iter) == 0)) /* or given keyword */
{
{
if (!(exclude_sibling && sibling && keyword_compare(keyword_tree, &iter, sibling) == 0))
{
- gchar *iter_casefold = keyword_get_casefold(keyword_tree, &iter);
- ret = strcmp(casefold, iter_casefold) == 0;
- g_free(iter_casefold);
+ if (options->metadata.keywords_case_sensitive)
+ {
+ gchar *iter_name = keyword_get_name(keyword_tree, &iter);
+ ret = strcmp(name, iter_name) == 0;
+ g_free(iter_name);
+ }
+ else
+ {
+ gchar *iter_casefold = keyword_get_casefold(keyword_tree, &iter);
+ ret = strcmp(casefold, iter_casefold) == 0;
+ g_free(iter_casefold);
+ } // if (options->metadata.tags_cas...
}
- if (ret)
+ if (ret)
{
if (result) *result = iter;
break;
if (!gtk_tree_model_iter_next(keyword_tree, &iter)) return FALSE;
}
path = path->next;
- if (!path)
+ if (!path)
{
*iter_ptr = iter;
return TRUE;
{
/* for the purpose of expanding and hiding, a helper is set if it has any children set */
GtkTreeIter child;
- if (!gtk_tree_model_iter_children(keyword_tree, &child, &iter))
+ if (!gtk_tree_model_iter_children(keyword_tree, &child, &iter))
return FALSE; /* this should happen only on empty helpers */
while (TRUE)
}
}
+static gboolean keyword_tree_is_set_casefull(GtkTreeModel *keyword_tree, GtkTreeIter iter, GList *kw_list)
+{
+ if (!kw_list) return FALSE;
+
+ if (!keyword_get_is_keyword(keyword_tree, &iter))
+ {
+ /* for the purpose of expanding and hiding, a helper is set if it has any children set */
+ GtkTreeIter child;
+ if (!gtk_tree_model_iter_children(keyword_tree, &child, &iter))
+ return FALSE; /* this should happen only on empty helpers */
+
+ while (TRUE)
+ {
+ if (keyword_tree_is_set_casefull(keyword_tree, child, kw_list)) return TRUE;
+ if (!gtk_tree_model_iter_next(keyword_tree, &child)) return FALSE;
+ }
+ }
+
+ while (TRUE)
+ {
+ GtkTreeIter parent;
+
+ if (keyword_get_is_keyword(keyword_tree, &iter))
+ {
+ GList *work = kw_list;
+ gboolean found = FALSE;
+ gchar *iter_name = keyword_get_name(keyword_tree, &iter);
+ while (work)
+ {
+ const gchar *name = work->data;
+ work = work->next;
+
+ if (strcmp(iter_name, name) == 0)
+ {
+ found = TRUE;
+ break;
+ }
+ }
+ g_free(iter_name);
+ if (!found) return FALSE;
+ }
+
+ if (!gtk_tree_model_iter_parent(keyword_tree, &parent, &iter)) return TRUE;
+ iter = parent;
+ }
+}
+
gboolean keyword_tree_is_set(GtkTreeModel *keyword_tree, GtkTreeIter *iter, GList *kw_list)
{
gboolean ret;
GList *casefold_list = NULL;
GList *work;
- work = kw_list;
- while (work)
+ if (options->metadata.keywords_case_sensitive)
{
- const gchar *kw = work->data;
- work = work->next;
+ ret = keyword_tree_is_set_casefull(keyword_tree, *iter, kw_list);
+ }
+ else
+ {
+ work = kw_list;
+ while (work)
+ {
+ const gchar *kw = work->data;
+ work = work->next;
+
+ casefold_list = g_list_prepend(casefold_list, g_utf8_casefold(kw, -1));
+ }
- casefold_list = g_list_prepend(casefold_list, g_utf8_casefold(kw, -1));
+ ret = keyword_tree_is_set_casefold(keyword_tree, *iter, casefold_list);
+
+ string_list_free(casefold_list);
}
-
- ret = keyword_tree_is_set_casefold(keyword_tree, *iter, casefold_list);
-
- string_list_free(casefold_list);
+
return ret;
}
if (keyword_get_is_keyword(keyword_tree, &iter))
{
gchar *name = keyword_get_name(keyword_tree, &iter);
- if (!find_string_in_list_utf8nocase(*kw_list, name))
+ if (!find_string_in_list(*kw_list, name))
{
*kw_list = g_list_append(*kw_list, name);
}
}
}
+GList *keyword_tree_get(GtkTreeModel *keyword_tree, GtkTreeIter *iter_ptr)
+{
+ GtkTreeIter iter = *iter_ptr;
+ GList *kw_list = NULL;
+
+ while (TRUE)
+ {
+ GtkTreeIter parent;
+
+ if (keyword_get_is_keyword(keyword_tree, &iter))
+ {
+ gchar *name = keyword_get_name(keyword_tree, &iter);
+ kw_list = g_list_append(kw_list, name);
+ }
+
+ if (!gtk_tree_model_iter_parent(keyword_tree, &parent, &iter)) return kw_list;
+ iter = parent;
+ }
+} // GList *keyword_tree_get(GtkTre...
+
static void keyword_tree_reset1(GtkTreeModel *keyword_tree, GtkTreeIter *iter, GList **kw_list)
{
gchar *found;
if (!keyword_get_is_keyword(keyword_tree, iter)) return;
name = keyword_get_name(keyword_tree, iter);
- found = find_string_in_list_utf8nocase(*kw_list, name);
+ found = find_string_in_list(*kw_list, name);
if (found)
{
{
GtkTreeIter iter;
- if (!gtk_tree_model_iter_children(keyword_tree, &iter, parent))
+ if (!gtk_tree_model_iter_children(keyword_tree, &iter, parent))
return TRUE; /* this should happen only on empty helpers */
while (TRUE)
else
{
GtkTreeIter child;
- if (gtk_tree_model_iter_children(GTK_TREE_MODEL(keyword_tree), &child, &iter))
+ if (gtk_tree_model_iter_children(GTK_TREE_MODEL(keyword_tree), &child, &iter))
{
keyword_hide_unset_in_recursive(keyword_tree, &child, id, keywords);
}
keyword_tree = gtk_tree_store_new(KEYWORD_COLUMN_COUNT, G_TYPE_STRING, G_TYPE_STRING, G_TYPE_STRING, G_TYPE_BOOLEAN, G_TYPE_POINTER);
}
+static GtkTreeIter keyword_tree_default_append(GtkTreeStore *keyword_tree, GtkTreeIter *parent, const gchar *name, gboolean is_keyword)
+{
+ GtkTreeIter iter;
+ gtk_tree_store_append(keyword_tree, &iter, parent);
+ keyword_set(keyword_tree, &iter, name, is_keyword);
+ return iter;
+}
void keyword_tree_new_default(void)
{
- if (keyword_tree) return;
-
- keyword_tree_new();
-
- GtkTreeIter i1, i2, i3;
-
- gtk_tree_store_append(keyword_tree, &i1, NULL);
- keyword_set(keyword_tree, &i1, "animal", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i2, &i1);
- keyword_set(keyword_tree, &i2, "mammal", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i3, &i2);
- keyword_set(keyword_tree, &i3, "dog", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i3, &i2);
- keyword_set(keyword_tree, &i3, "cat", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i2, &i1);
- keyword_set(keyword_tree, &i2, "insect", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i3, &i2);
- keyword_set(keyword_tree, &i3, "fly", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i3, &i2);
- keyword_set(keyword_tree, &i3, "dragonfly", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i1, NULL);
- keyword_set(keyword_tree, &i1, "daytime", FALSE);
-
- gtk_tree_store_append(keyword_tree, &i2, &i1);
- keyword_set(keyword_tree, &i2, "morning", TRUE);
-
- gtk_tree_store_append(keyword_tree, &i2, &i1);
- keyword_set(keyword_tree, &i2, "noon", TRUE);
-
+ GtkTreeIter i1, i2;
+
+ if (!keyword_tree) keyword_tree_new();
+
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("People"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Family"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Free time"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Children"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Sport"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Culture"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Festival"), TRUE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("Nature"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Animal"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Bird"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Insect"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Pets"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Wildlife"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Zoo"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Plant"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Tree"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Flower"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Water"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("River"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Lake"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Sea"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Landscape"), TRUE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("Art"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Statue"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Painting"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Historic"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Modern"), TRUE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("City"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Park"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Street"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Square"), TRUE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("Architecture"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Buildings"), FALSE);
+ keyword_tree_default_append(keyword_tree, &i2, _("House"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Cathedral"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Palace"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Castle"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Bridge"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Interior"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Historic"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Modern"), TRUE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("Places"), FALSE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("Conditions"), FALSE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Night"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Lights"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Reflections"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Sun"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Weather"), FALSE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Fog"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Rain"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Clouds"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Snow"), TRUE);
+ keyword_tree_default_append(keyword_tree, &i2, _("Sunny weather"), TRUE);
+ i1 = keyword_tree_default_append(keyword_tree, NULL, _("Photo"), FALSE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Edited"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Detail"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Macro"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Portrait"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Black and White"), TRUE);
+ i2 = keyword_tree_default_append(keyword_tree, &i1, _("Perspective"), TRUE);
}
write_char_option(outstr, indent, "name", name);
g_free(name);
write_bool_option(outstr, indent, "kw", keyword_get_is_keyword(keyword_tree, &iter));
- if (gtk_tree_model_iter_children(keyword_tree, &children, &iter))
+ if (gtk_tree_model_iter_children(keyword_tree, &children, &iter))
{
WRITE_STRING(">");
indent++;
indent--;
WRITE_NL(); WRITE_STRING("</keyword>");
}
- else
+ else
{
WRITE_STRING("/>");
}
log_printf("unknown attribute %s = %s\n", option, value);
}
- if (name && name[0])
+ if (name && name[0])
{
GtkTreeIter iter;
/* re-use existing keyword if any */