/* gtktreestore.c * Copyright (C) 2000 Red Hat, Inc., Jonathan Blandford * * 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, see . */ #include "config.h" #include #include #include "gtktreemodel.h" #include "gtktreestore.h" #include "gtktreedatalist.h" #include "gtktreednd.h" #include "gtkbuildable.h" #include "gtkdebug.h" #include "gtkintl.h" /** * SECTION:gtktreestore * @Short_description: A tree-like data structure that can be used with the GtkTreeView * @Title: GtkTreeStore * @See_also: #GtkTreeModel * * The #GtkTreeStore object is a list model for use with a #GtkTreeView * widget. It implements the #GtkTreeModel interface, and consequentialy, * can use all of the methods available there. It also implements the * #GtkTreeSortable interface so it can be sorted by the view. Finally, * it also implements the tree * drag and drop * interfaces. * * * GtkTreeStore as GtkBuildable * The GtkTreeStore implementation of the #GtkBuildable interface allows * to specify the model columns with a <columns> element that may * contain multiple <column> elements, each specifying one model * column. The "type" attribute specifies the data type for the column. * * A UI Definition fragment for a tree store * * * * * * * * ]]> * * */ struct _GtkTreeStorePrivate { gint stamp; gpointer root; gpointer last; gint n_columns; gint sort_column_id; GList *sort_list; GtkSortType order; GType *column_headers; GtkTreeIterCompareFunc default_sort_func; gpointer default_sort_data; GDestroyNotify default_sort_destroy; guint columns_dirty : 1; }; #define G_NODE(node) ((GNode *)node) #define GTK_TREE_STORE_IS_SORTED(tree) (((GtkTreeStore*)(tree))->priv->sort_column_id != GTK_TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID) #define VALID_ITER(iter, tree_store) ((iter)!= NULL && (iter)->user_data != NULL && ((GtkTreeStore*)(tree_store))->priv->stamp == (iter)->stamp) static void gtk_tree_store_tree_model_init (GtkTreeModelIface *iface); static void gtk_tree_store_drag_source_init(GtkTreeDragSourceIface *iface); static void gtk_tree_store_drag_dest_init (GtkTreeDragDestIface *iface); static void gtk_tree_store_sortable_init (GtkTreeSortableIface *iface); static void gtk_tree_store_buildable_init (GtkBuildableIface *iface); static void gtk_tree_store_finalize (GObject *object); static GtkTreeModelFlags gtk_tree_store_get_flags (GtkTreeModel *tree_model); static gint gtk_tree_store_get_n_columns (GtkTreeModel *tree_model); static GType gtk_tree_store_get_column_type (GtkTreeModel *tree_model, gint index); static gboolean gtk_tree_store_get_iter (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreePath *path); static GtkTreePath *gtk_tree_store_get_path (GtkTreeModel *tree_model, GtkTreeIter *iter); static void gtk_tree_store_get_value (GtkTreeModel *tree_model, GtkTreeIter *iter, gint column, GValue *value); static gboolean gtk_tree_store_iter_next (GtkTreeModel *tree_model, GtkTreeIter *iter); static gboolean gtk_tree_store_iter_previous (GtkTreeModel *tree_model, GtkTreeIter *iter); static gboolean gtk_tree_store_iter_children (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreeIter *parent); static gboolean gtk_tree_store_iter_has_child (GtkTreeModel *tree_model, GtkTreeIter *iter); static gint gtk_tree_store_iter_n_children (GtkTreeModel *tree_model, GtkTreeIter *iter); static gboolean gtk_tree_store_iter_nth_child (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreeIter *parent, gint n); static gboolean gtk_tree_store_iter_parent (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreeIter *child); static void gtk_tree_store_set_n_columns (GtkTreeStore *tree_store, gint n_columns); static void gtk_tree_store_set_column_type (GtkTreeStore *tree_store, gint column, GType type); static void gtk_tree_store_increment_stamp (GtkTreeStore *tree_store); /* DND interfaces */ static gboolean real_gtk_tree_store_row_draggable (GtkTreeDragSource *drag_source, GtkTreePath *path); static gboolean gtk_tree_store_drag_data_delete (GtkTreeDragSource *drag_source, GtkTreePath *path); static gboolean gtk_tree_store_drag_data_get (GtkTreeDragSource *drag_source, GtkTreePath *path, GtkSelectionData *selection_data); static gboolean gtk_tree_store_drag_data_received (GtkTreeDragDest *drag_dest, GtkTreePath *dest, GtkSelectionData *selection_data); static gboolean gtk_tree_store_row_drop_possible (GtkTreeDragDest *drag_dest, GtkTreePath *dest_path, GtkSelectionData *selection_data); /* Sortable Interfaces */ static void gtk_tree_store_sort (GtkTreeStore *tree_store); static void gtk_tree_store_sort_iter_changed (GtkTreeStore *tree_store, GtkTreeIter *iter, gint column, gboolean emit_signal); static gboolean gtk_tree_store_get_sort_column_id (GtkTreeSortable *sortable, gint *sort_column_id, GtkSortType *order); static void gtk_tree_store_set_sort_column_id (GtkTreeSortable *sortable, gint sort_column_id, GtkSortType order); static void gtk_tree_store_set_sort_func (GtkTreeSortable *sortable, gint sort_column_id, GtkTreeIterCompareFunc func, gpointer data, GDestroyNotify destroy); static void gtk_tree_store_set_default_sort_func (GtkTreeSortable *sortable, GtkTreeIterCompareFunc func, gpointer data, GDestroyNotify destroy); static gboolean gtk_tree_store_has_default_sort_func (GtkTreeSortable *sortable); /* buildable */ static gboolean gtk_tree_store_buildable_custom_tag_start (GtkBuildable *buildable, GtkBuilder *builder, GObject *child, const gchar *tagname, GMarkupParser *parser, gpointer *data); static void gtk_tree_store_buildable_custom_finished (GtkBuildable *buildable, GtkBuilder *builder, GObject *child, const gchar *tagname, gpointer user_data); static void validate_gnode (GNode *node); static void gtk_tree_store_move (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *position, gboolean before); static inline void validate_tree (GtkTreeStore *tree_store) { if (gtk_get_debug_flags () & GTK_DEBUG_TREE) { g_assert (G_NODE (tree_store->priv->root)->parent == NULL); validate_gnode (G_NODE (tree_store->priv->root)); } } G_DEFINE_TYPE_WITH_CODE (GtkTreeStore, gtk_tree_store, G_TYPE_OBJECT, G_IMPLEMENT_INTERFACE (GTK_TYPE_TREE_MODEL, gtk_tree_store_tree_model_init) G_IMPLEMENT_INTERFACE (GTK_TYPE_TREE_DRAG_SOURCE, gtk_tree_store_drag_source_init) G_IMPLEMENT_INTERFACE (GTK_TYPE_TREE_DRAG_DEST, gtk_tree_store_drag_dest_init) G_IMPLEMENT_INTERFACE (GTK_TYPE_TREE_SORTABLE, gtk_tree_store_sortable_init) G_IMPLEMENT_INTERFACE (GTK_TYPE_BUILDABLE, gtk_tree_store_buildable_init)) static void gtk_tree_store_class_init (GtkTreeStoreClass *class) { GObjectClass *object_class; object_class = (GObjectClass *) class; object_class->finalize = gtk_tree_store_finalize; g_type_class_add_private (class, sizeof (GtkTreeStorePrivate)); } static void gtk_tree_store_tree_model_init (GtkTreeModelIface *iface) { iface->get_flags = gtk_tree_store_get_flags; iface->get_n_columns = gtk_tree_store_get_n_columns; iface->get_column_type = gtk_tree_store_get_column_type; iface->get_iter = gtk_tree_store_get_iter; iface->get_path = gtk_tree_store_get_path; iface->get_value = gtk_tree_store_get_value; iface->iter_next = gtk_tree_store_iter_next; iface->iter_previous = gtk_tree_store_iter_previous; iface->iter_children = gtk_tree_store_iter_children; iface->iter_has_child = gtk_tree_store_iter_has_child; iface->iter_n_children = gtk_tree_store_iter_n_children; iface->iter_nth_child = gtk_tree_store_iter_nth_child; iface->iter_parent = gtk_tree_store_iter_parent; } static void gtk_tree_store_drag_source_init (GtkTreeDragSourceIface *iface) { iface->row_draggable = real_gtk_tree_store_row_draggable; iface->drag_data_delete = gtk_tree_store_drag_data_delete; iface->drag_data_get = gtk_tree_store_drag_data_get; } static void gtk_tree_store_drag_dest_init (GtkTreeDragDestIface *iface) { iface->drag_data_received = gtk_tree_store_drag_data_received; iface->row_drop_possible = gtk_tree_store_row_drop_possible; } static void gtk_tree_store_sortable_init (GtkTreeSortableIface *iface) { iface->get_sort_column_id = gtk_tree_store_get_sort_column_id; iface->set_sort_column_id = gtk_tree_store_set_sort_column_id; iface->set_sort_func = gtk_tree_store_set_sort_func; iface->set_default_sort_func = gtk_tree_store_set_default_sort_func; iface->has_default_sort_func = gtk_tree_store_has_default_sort_func; } void gtk_tree_store_buildable_init (GtkBuildableIface *iface) { iface->custom_tag_start = gtk_tree_store_buildable_custom_tag_start; iface->custom_finished = gtk_tree_store_buildable_custom_finished; } static void gtk_tree_store_init (GtkTreeStore *tree_store) { GtkTreeStorePrivate *priv; priv = G_TYPE_INSTANCE_GET_PRIVATE (tree_store, GTK_TYPE_TREE_STORE, GtkTreeStorePrivate); tree_store->priv = priv; priv->root = g_node_new (NULL); /* While the odds are against us getting 0... */ do { priv->stamp = g_random_int (); } while (priv->stamp == 0); priv->sort_list = NULL; priv->sort_column_id = GTK_TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID; priv->columns_dirty = FALSE; } /** * gtk_tree_store_new: * @n_columns: number of columns in the tree store * @...: all #GType types for the columns, from first to last * * Creates a new tree store as with @n_columns columns each of the types passed * in. Note that only types derived from standard GObject fundamental types * are supported. * * As an example, gtk_tree_store_new (3, G_TYPE_INT, G_TYPE_STRING, * GDK_TYPE_PIXBUF); will create a new #GtkTreeStore with three columns, of type * int, string and #GdkPixbuf respectively. * * Return value: a new #GtkTreeStore **/ GtkTreeStore * gtk_tree_store_new (gint n_columns, ...) { GtkTreeStore *retval; va_list args; gint i; g_return_val_if_fail (n_columns > 0, NULL); retval = g_object_new (GTK_TYPE_TREE_STORE, NULL); gtk_tree_store_set_n_columns (retval, n_columns); va_start (args, n_columns); for (i = 0; i < n_columns; i++) { GType type = va_arg (args, GType); if (! _gtk_tree_data_list_check_type (type)) { g_warning ("%s: Invalid type %s\n", G_STRLOC, g_type_name (type)); g_object_unref (retval); va_end (args); return NULL; } gtk_tree_store_set_column_type (retval, i, type); } va_end (args); return retval; } /** * gtk_tree_store_newv: * @n_columns: number of columns in the tree store * @types: (array length=n_columns): an array of #GType types for the columns, from first to last * * Non vararg creation function. Used primarily by language bindings. * * Return value: (transfer full): a new #GtkTreeStore * Rename to: gtk_tree_store_new **/ GtkTreeStore * gtk_tree_store_newv (gint n_columns, GType *types) { GtkTreeStore *retval; gint i; g_return_val_if_fail (n_columns > 0, NULL); retval = g_object_new (GTK_TYPE_TREE_STORE, NULL); gtk_tree_store_set_n_columns (retval, n_columns); for (i = 0; i < n_columns; i++) { if (! _gtk_tree_data_list_check_type (types[i])) { g_warning ("%s: Invalid type %s\n", G_STRLOC, g_type_name (types[i])); g_object_unref (retval); return NULL; } gtk_tree_store_set_column_type (retval, i, types[i]); } return retval; } /** * gtk_tree_store_set_column_types: * @tree_store: A #GtkTreeStore * @n_columns: Number of columns for the tree store * @types: (array length=n_columns): An array of #GType types, one for each column * * This function is meant primarily for #GObjects that inherit from * #GtkTreeStore, and should only be used when constructing a new * #GtkTreeStore. It will not function after a row has been added, * or a method on the #GtkTreeModel interface is called. **/ void gtk_tree_store_set_column_types (GtkTreeStore *tree_store, gint n_columns, GType *types) { gint i; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (tree_store->priv->columns_dirty == 0); gtk_tree_store_set_n_columns (tree_store, n_columns); for (i = 0; i < n_columns; i++) { if (! _gtk_tree_data_list_check_type (types[i])) { g_warning ("%s: Invalid type %s\n", G_STRLOC, g_type_name (types[i])); continue; } gtk_tree_store_set_column_type (tree_store, i, types[i]); } } static void gtk_tree_store_set_n_columns (GtkTreeStore *tree_store, gint n_columns) { GtkTreeStorePrivate *priv = tree_store->priv; int i; if (priv->n_columns == n_columns) return; priv->column_headers = g_renew (GType, priv->column_headers, n_columns); for (i = priv->n_columns; i < n_columns; i++) priv->column_headers[i] = G_TYPE_INVALID; priv->n_columns = n_columns; if (priv->sort_list) _gtk_tree_data_list_header_free (priv->sort_list); priv->sort_list = _gtk_tree_data_list_header_new (n_columns, priv->column_headers); } /** * gtk_tree_store_set_column_type: * @tree_store: a #GtkTreeStore * @column: column number * @type: type of the data to be stored in @column * * Supported types include: %G_TYPE_UINT, %G_TYPE_INT, %G_TYPE_UCHAR, * %G_TYPE_CHAR, %G_TYPE_BOOLEAN, %G_TYPE_POINTER, %G_TYPE_FLOAT, * %G_TYPE_DOUBLE, %G_TYPE_STRING, %G_TYPE_OBJECT, and %G_TYPE_BOXED, along with * subclasses of those types such as %GDK_TYPE_PIXBUF. * **/ static void gtk_tree_store_set_column_type (GtkTreeStore *tree_store, gint column, GType type) { GtkTreeStorePrivate *priv = tree_store->priv; if (!_gtk_tree_data_list_check_type (type)) { g_warning ("%s: Invalid type %s\n", G_STRLOC, g_type_name (type)); return; } priv->column_headers[column] = type; } static gboolean node_free (GNode *node, gpointer data) { if (node->data) _gtk_tree_data_list_free (node->data, (GType*)data); node->data = NULL; return FALSE; } static void gtk_tree_store_finalize (GObject *object) { GtkTreeStore *tree_store = GTK_TREE_STORE (object); GtkTreeStorePrivate *priv = tree_store->priv; g_node_traverse (priv->root, G_POST_ORDER, G_TRAVERSE_ALL, -1, node_free, priv->column_headers); g_node_destroy (priv->root); _gtk_tree_data_list_header_free (priv->sort_list); g_free (priv->column_headers); if (priv->default_sort_destroy) { GDestroyNotify d = priv->default_sort_destroy; priv->default_sort_destroy = NULL; d (priv->default_sort_data); priv->default_sort_data = NULL; } /* must chain up */ G_OBJECT_CLASS (gtk_tree_store_parent_class)->finalize (object); } /* fulfill the GtkTreeModel requirements */ /* NOTE: GtkTreeStore::root is a GNode, that acts as the parent node. However, * it is not visible to the tree or to the user., and the path "0" refers to the * first child of GtkTreeStore::root. */ static GtkTreeModelFlags gtk_tree_store_get_flags (GtkTreeModel *tree_model) { return GTK_TREE_MODEL_ITERS_PERSIST; } static gint gtk_tree_store_get_n_columns (GtkTreeModel *tree_model) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; priv->columns_dirty = TRUE; return priv->n_columns; } static GType gtk_tree_store_get_column_type (GtkTreeModel *tree_model, gint index) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; g_return_val_if_fail (index < priv->n_columns, G_TYPE_INVALID); priv->columns_dirty = TRUE; return priv->column_headers[index]; } static gboolean gtk_tree_store_get_iter (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreePath *path) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; GtkTreeIter parent; gint *indices; gint depth, i; priv->columns_dirty = TRUE; indices = gtk_tree_path_get_indices (path); depth = gtk_tree_path_get_depth (path); g_return_val_if_fail (depth > 0, FALSE); parent.stamp = priv->stamp; parent.user_data = priv->root; if (!gtk_tree_store_iter_nth_child (tree_model, iter, &parent, indices[0])) { iter->stamp = 0; return FALSE; } for (i = 1; i < depth; i++) { parent = *iter; if (!gtk_tree_store_iter_nth_child (tree_model, iter, &parent, indices[i])) { iter->stamp = 0; return FALSE; } } return TRUE; } static GtkTreePath * gtk_tree_store_get_path (GtkTreeModel *tree_model, GtkTreeIter *iter) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *retval; GNode *tmp_node; gint i = 0; g_return_val_if_fail (iter->user_data != NULL, NULL); g_return_val_if_fail (iter->stamp == priv->stamp, NULL); validate_tree (tree_store); if (G_NODE (iter->user_data)->parent == NULL && G_NODE (iter->user_data) == priv->root) return gtk_tree_path_new (); g_assert (G_NODE (iter->user_data)->parent != NULL); if (G_NODE (iter->user_data)->parent == G_NODE (priv->root)) { retval = gtk_tree_path_new (); tmp_node = G_NODE (priv->root)->children; } else { GtkTreeIter tmp_iter = *iter; tmp_iter.user_data = G_NODE (iter->user_data)->parent; retval = gtk_tree_store_get_path (tree_model, &tmp_iter); tmp_node = G_NODE (iter->user_data)->parent->children; } if (retval == NULL) return NULL; if (tmp_node == NULL) { gtk_tree_path_free (retval); return NULL; } for (; tmp_node; tmp_node = tmp_node->next) { if (tmp_node == G_NODE (iter->user_data)) break; i++; } if (tmp_node == NULL) { /* We couldn't find node, meaning it's prolly not ours */ /* Perhaps I should do a g_return_if_fail here. */ gtk_tree_path_free (retval); return NULL; } gtk_tree_path_append_index (retval, i); return retval; } static void gtk_tree_store_get_value (GtkTreeModel *tree_model, GtkTreeIter *iter, gint column, GValue *value) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; GtkTreeDataList *list; gint tmp_column = column; g_return_if_fail (column < priv->n_columns); g_return_if_fail (VALID_ITER (iter, tree_store)); list = G_NODE (iter->user_data)->data; while (tmp_column-- > 0 && list) list = list->next; if (list) { _gtk_tree_data_list_node_to_value (list, priv->column_headers[column], value); } else { /* We want to return an initialized but empty (default) value */ g_value_init (value, priv->column_headers[column]); } } static gboolean gtk_tree_store_iter_next (GtkTreeModel *tree_model, GtkTreeIter *iter) { g_return_val_if_fail (iter->user_data != NULL, FALSE); g_return_val_if_fail (iter->stamp == GTK_TREE_STORE (tree_model)->priv->stamp, FALSE); if (G_NODE (iter->user_data)->next == NULL) { iter->stamp = 0; return FALSE; } iter->user_data = G_NODE (iter->user_data)->next; return TRUE; } static gboolean gtk_tree_store_iter_previous (GtkTreeModel *tree_model, GtkTreeIter *iter) { g_return_val_if_fail (iter->user_data != NULL, FALSE); g_return_val_if_fail (iter->stamp == GTK_TREE_STORE (tree_model)->priv->stamp, FALSE); if (G_NODE (iter->user_data)->prev == NULL) { iter->stamp = 0; return FALSE; } iter->user_data = G_NODE (iter->user_data)->prev; return TRUE; } static gboolean gtk_tree_store_iter_children (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreeIter *parent) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; GNode *children; if (parent) g_return_val_if_fail (VALID_ITER (parent, tree_store), FALSE); if (parent) children = G_NODE (parent->user_data)->children; else children = G_NODE (priv->root)->children; if (children) { iter->stamp = priv->stamp; iter->user_data = children; return TRUE; } else { iter->stamp = 0; return FALSE; } } static gboolean gtk_tree_store_iter_has_child (GtkTreeModel *tree_model, GtkTreeIter *iter) { g_return_val_if_fail (iter->user_data != NULL, FALSE); g_return_val_if_fail (VALID_ITER (iter, tree_model), FALSE); return G_NODE (iter->user_data)->children != NULL; } static gint gtk_tree_store_iter_n_children (GtkTreeModel *tree_model, GtkTreeIter *iter) { GNode *node; gint i = 0; g_return_val_if_fail (iter == NULL || iter->user_data != NULL, 0); if (iter == NULL) node = G_NODE (GTK_TREE_STORE (tree_model)->priv->root)->children; else node = G_NODE (iter->user_data)->children; while (node) { i++; node = node->next; } return i; } static gboolean gtk_tree_store_iter_nth_child (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreeIter *parent, gint n) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; GNode *parent_node; GNode *child; g_return_val_if_fail (parent == NULL || parent->user_data != NULL, FALSE); if (parent == NULL) parent_node = priv->root; else parent_node = parent->user_data; child = g_node_nth_child (parent_node, n); if (child) { iter->user_data = child; iter->stamp = priv->stamp; return TRUE; } else { iter->stamp = 0; return FALSE; } } static gboolean gtk_tree_store_iter_parent (GtkTreeModel *tree_model, GtkTreeIter *iter, GtkTreeIter *child) { GtkTreeStore *tree_store = (GtkTreeStore *) tree_model; GtkTreeStorePrivate *priv = tree_store->priv; GNode *parent; g_return_val_if_fail (iter != NULL, FALSE); g_return_val_if_fail (VALID_ITER (child, tree_store), FALSE); parent = G_NODE (child->user_data)->parent; g_assert (parent != NULL); if (parent != priv->root) { iter->user_data = parent; iter->stamp = priv->stamp; return TRUE; } else { iter->stamp = 0; return FALSE; } } /* Does not emit a signal */ static gboolean gtk_tree_store_real_set_value (GtkTreeStore *tree_store, GtkTreeIter *iter, gint column, GValue *value, gboolean sort) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreeDataList *list; GtkTreeDataList *prev; gint old_column = column; GValue real_value = G_VALUE_INIT; gboolean converted = FALSE; gboolean retval = FALSE; if (! g_type_is_a (G_VALUE_TYPE (value), priv->column_headers[column])) { if (! (g_value_type_transformable (G_VALUE_TYPE (value), priv->column_headers[column]))) { g_warning ("%s: Unable to convert from %s to %s\n", G_STRLOC, g_type_name (G_VALUE_TYPE (value)), g_type_name (priv->column_headers[column])); return retval; } g_value_init (&real_value, priv->column_headers[column]); if (!g_value_transform (value, &real_value)) { g_warning ("%s: Unable to make conversion from %s to %s\n", G_STRLOC, g_type_name (G_VALUE_TYPE (value)), g_type_name (priv->column_headers[column])); g_value_unset (&real_value); return retval; } converted = TRUE; } prev = list = G_NODE (iter->user_data)->data; while (list != NULL) { if (column == 0) { if (converted) _gtk_tree_data_list_value_to_node (list, &real_value); else _gtk_tree_data_list_value_to_node (list, value); retval = TRUE; if (converted) g_value_unset (&real_value); if (sort && GTK_TREE_STORE_IS_SORTED (tree_store)) gtk_tree_store_sort_iter_changed (tree_store, iter, old_column, TRUE); return retval; } column--; prev = list; list = list->next; } if (G_NODE (iter->user_data)->data == NULL) { G_NODE (iter->user_data)->data = list = _gtk_tree_data_list_alloc (); list->next = NULL; } else { list = prev->next = _gtk_tree_data_list_alloc (); list->next = NULL; } while (column != 0) { list->next = _gtk_tree_data_list_alloc (); list = list->next; list->next = NULL; column --; } if (converted) _gtk_tree_data_list_value_to_node (list, &real_value); else _gtk_tree_data_list_value_to_node (list, value); retval = TRUE; if (converted) g_value_unset (&real_value); if (sort && GTK_TREE_STORE_IS_SORTED (tree_store)) gtk_tree_store_sort_iter_changed (tree_store, iter, old_column, TRUE); return retval; } /** * gtk_tree_store_set_value: * @tree_store: a #GtkTreeStore * @iter: A valid #GtkTreeIter for the row being modified * @column: column number to modify * @value: new value for the cell * * Sets the data in the cell specified by @iter and @column. * The type of @value must be convertible to the type of the * column. * **/ void gtk_tree_store_set_value (GtkTreeStore *tree_store, GtkTreeIter *iter, gint column, GValue *value) { g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (VALID_ITER (iter, tree_store)); g_return_if_fail (column >= 0 && column < tree_store->priv->n_columns); g_return_if_fail (G_IS_VALUE (value)); if (gtk_tree_store_real_set_value (tree_store, iter, column, value, TRUE)) { GtkTreePath *path; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_changed (GTK_TREE_MODEL (tree_store), path, iter); gtk_tree_path_free (path); } } static GtkTreeIterCompareFunc gtk_tree_store_get_compare_func (GtkTreeStore *tree_store) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreeIterCompareFunc func = NULL; if (GTK_TREE_STORE_IS_SORTED (tree_store)) { if (priv->sort_column_id != -1) { GtkTreeDataSortHeader *header; header = _gtk_tree_data_list_get_header (priv->sort_list, priv->sort_column_id); g_return_val_if_fail (header != NULL, NULL); g_return_val_if_fail (header->func != NULL, NULL); func = header->func; } else { func = priv->default_sort_func; } } return func; } static void gtk_tree_store_set_vector_internal (GtkTreeStore *tree_store, GtkTreeIter *iter, gboolean *emit_signal, gboolean *maybe_need_sort, gint *columns, GValue *values, gint n_values) { GtkTreeStorePrivate *priv = tree_store->priv; gint i; GtkTreeIterCompareFunc func = NULL; func = gtk_tree_store_get_compare_func (tree_store); if (func != _gtk_tree_data_list_compare_func) *maybe_need_sort = TRUE; for (i = 0; i < n_values; i++) { *emit_signal = gtk_tree_store_real_set_value (tree_store, iter, columns[i], &values[i], FALSE) || *emit_signal; if (func == _gtk_tree_data_list_compare_func && columns[i] == priv->sort_column_id) *maybe_need_sort = TRUE; } } static void gtk_tree_store_set_valist_internal (GtkTreeStore *tree_store, GtkTreeIter *iter, gboolean *emit_signal, gboolean *maybe_need_sort, va_list var_args) { GtkTreeStorePrivate *priv = tree_store->priv; gint column; GtkTreeIterCompareFunc func = NULL; column = va_arg (var_args, gint); func = gtk_tree_store_get_compare_func (tree_store); if (func != _gtk_tree_data_list_compare_func) *maybe_need_sort = TRUE; while (column != -1) { GValue value = G_VALUE_INIT; gchar *error = NULL; if (column < 0 || column >= priv->n_columns) { g_warning ("%s: Invalid column number %d added to iter (remember to end your list of columns with a -1)", G_STRLOC, column); break; } G_VALUE_COLLECT_INIT (&value, priv->column_headers[column], var_args, 0, &error); if (error) { g_warning ("%s: %s", G_STRLOC, error); g_free (error); /* we purposely leak the value here, it might not be * in a sane state if an error condition occoured */ break; } *emit_signal = gtk_tree_store_real_set_value (tree_store, iter, column, &value, FALSE) || *emit_signal; if (func == _gtk_tree_data_list_compare_func && column == priv->sort_column_id) *maybe_need_sort = TRUE; g_value_unset (&value); column = va_arg (var_args, gint); } } /** * gtk_tree_store_set_valuesv: * @tree_store: A #GtkTreeStore * @iter: A valid #GtkTreeIter for the row being modified * @columns: (array length=n_values): an array of column numbers * @values: (array length=n_values): an array of GValues * @n_values: the length of the @columns and @values arrays * * A variant of gtk_tree_store_set_valist() which takes * the columns and values as two arrays, instead of varargs. This * function is mainly intended for language bindings or in case * the number of columns to change is not known until run-time. * * Since: 2.12 * Rename to: gtk_tree_store_set **/ void gtk_tree_store_set_valuesv (GtkTreeStore *tree_store, GtkTreeIter *iter, gint *columns, GValue *values, gint n_values) { GtkTreeStorePrivate *priv = tree_store->priv; gboolean emit_signal = FALSE; gboolean maybe_need_sort = FALSE; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (VALID_ITER (iter, tree_store)); gtk_tree_store_set_vector_internal (tree_store, iter, &emit_signal, &maybe_need_sort, columns, values, n_values); if (maybe_need_sort && GTK_TREE_STORE_IS_SORTED (tree_store)) gtk_tree_store_sort_iter_changed (tree_store, iter, priv->sort_column_id, TRUE); if (emit_signal) { GtkTreePath *path; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_changed (GTK_TREE_MODEL (tree_store), path, iter); gtk_tree_path_free (path); } } /** * gtk_tree_store_set_valist: * @tree_store: A #GtkTreeStore * @iter: A valid #GtkTreeIter for the row being modified * @var_args: va_list of column/value pairs * * See gtk_tree_store_set(); this version takes a va_list for * use by language bindings. * **/ void gtk_tree_store_set_valist (GtkTreeStore *tree_store, GtkTreeIter *iter, va_list var_args) { GtkTreeStorePrivate *priv = tree_store->priv; gboolean emit_signal = FALSE; gboolean maybe_need_sort = FALSE; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (VALID_ITER (iter, tree_store)); gtk_tree_store_set_valist_internal (tree_store, iter, &emit_signal, &maybe_need_sort, var_args); if (maybe_need_sort && GTK_TREE_STORE_IS_SORTED (tree_store)) gtk_tree_store_sort_iter_changed (tree_store, iter, priv->sort_column_id, TRUE); if (emit_signal) { GtkTreePath *path; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_changed (GTK_TREE_MODEL (tree_store), path, iter); gtk_tree_path_free (path); } } /** * gtk_tree_store_set: * @tree_store: A #GtkTreeStore * @iter: A valid #GtkTreeIter for the row being modified * @...: pairs of column number and value, terminated with -1 * * Sets the value of one or more cells in the row referenced by @iter. * The variable argument list should contain integer column numbers, * each column number followed by the value to be set. * The list is terminated by a -1. For example, to set column 0 with type * %G_TYPE_STRING to "Foo", you would write * gtk_tree_store_set (store, iter, 0, "Foo", -1). * * The value will be referenced by the store if it is a %G_TYPE_OBJECT, and it * will be copied if it is a %G_TYPE_STRING or %G_TYPE_BOXED. **/ void gtk_tree_store_set (GtkTreeStore *tree_store, GtkTreeIter *iter, ...) { va_list var_args; va_start (var_args, iter); gtk_tree_store_set_valist (tree_store, iter, var_args); va_end (var_args); } /** * gtk_tree_store_remove: * @tree_store: A #GtkTreeStore * @iter: A valid #GtkTreeIter * * Removes @iter from @tree_store. After being removed, @iter is set to the * next valid row at that level, or invalidated if it previously pointed to the * last one. * * Return value: %TRUE if @iter is still valid, %FALSE if not. **/ gboolean gtk_tree_store_remove (GtkTreeStore *tree_store, GtkTreeIter *iter) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *path; GtkTreeIter new_iter = {0,}; GNode *parent; GNode *next_node; g_return_val_if_fail (GTK_IS_TREE_STORE (tree_store), FALSE); g_return_val_if_fail (VALID_ITER (iter, tree_store), FALSE); parent = G_NODE (iter->user_data)->parent; g_assert (parent != NULL); next_node = G_NODE (iter->user_data)->next; if (G_NODE (iter->user_data)->data) g_node_traverse (G_NODE (iter->user_data), G_POST_ORDER, G_TRAVERSE_ALL, -1, node_free, priv->column_headers); path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); g_node_destroy (G_NODE (iter->user_data)); gtk_tree_model_row_deleted (GTK_TREE_MODEL (tree_store), path); if (parent != G_NODE (priv->root)) { /* child_toggled */ if (parent->children == NULL) { gtk_tree_path_up (path); new_iter.stamp = priv->stamp; new_iter.user_data = parent; gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, &new_iter); } } gtk_tree_path_free (path); /* revalidate iter */ if (next_node != NULL) { iter->stamp = priv->stamp; iter->user_data = next_node; return TRUE; } else { iter->stamp = 0; iter->user_data = NULL; } return FALSE; } /** * gtk_tree_store_insert: * @tree_store: A #GtkTreeStore * @iter: (out): An unset #GtkTreeIter to set to the new row * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * @position: position to insert the new row, or -1 for last * * Creates a new row at @position. If parent is non-%NULL, then the row will be * made a child of @parent. Otherwise, the row will be created at the toplevel. * If @position is -1 or is larger than the number of rows at that level, then * the new row will be inserted to the end of the list. @iter will be changed * to point to this new row. The row will be empty after this function is * called. To fill in values, you need to call gtk_tree_store_set() or * gtk_tree_store_set_value(). * **/ void gtk_tree_store_insert (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent, gint position) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *path; GNode *parent_node; GNode *new_node; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (iter != NULL); if (parent) g_return_if_fail (VALID_ITER (parent, tree_store)); if (parent) parent_node = parent->user_data; else parent_node = priv->root; priv->columns_dirty = TRUE; new_node = g_node_new (NULL); iter->stamp = priv->stamp; iter->user_data = new_node; g_node_insert (parent_node, position, new_node); path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { if (new_node->prev == NULL && new_node->next == NULL) { gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, parent); } } gtk_tree_path_free (path); validate_tree ((GtkTreeStore*)tree_store); } /** * gtk_tree_store_insert_before: * @tree_store: A #GtkTreeStore * @iter: (out): An unset #GtkTreeIter to set to the new row * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * @sibling: (allow-none): A valid #GtkTreeIter, or %NULL * * Inserts a new row before @sibling. If @sibling is %NULL, then the row will * be appended to @parent 's children. If @parent and @sibling are %NULL, then * the row will be appended to the toplevel. If both @sibling and @parent are * set, then @parent must be the parent of @sibling. When @sibling is set, * @parent is optional. * * @iter will be changed to point to this new row. The row will be empty after * this function is called. To fill in values, you need to call * gtk_tree_store_set() or gtk_tree_store_set_value(). * **/ void gtk_tree_store_insert_before (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent, GtkTreeIter *sibling) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *path; GNode *parent_node = NULL; GNode *new_node; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (iter != NULL); if (parent != NULL) g_return_if_fail (VALID_ITER (parent, tree_store)); if (sibling != NULL) g_return_if_fail (VALID_ITER (sibling, tree_store)); if (parent == NULL && sibling == NULL) parent_node = priv->root; else if (parent == NULL) parent_node = G_NODE (sibling->user_data)->parent; else if (sibling == NULL) parent_node = G_NODE (parent->user_data); else { g_return_if_fail (G_NODE (sibling->user_data)->parent == G_NODE (parent->user_data)); parent_node = G_NODE (parent->user_data); } priv->columns_dirty = TRUE; new_node = g_node_new (NULL); g_node_insert_before (parent_node, sibling ? G_NODE (sibling->user_data) : NULL, new_node); iter->stamp = priv->stamp; iter->user_data = new_node; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { if (new_node->prev == NULL && new_node->next == NULL) { GtkTreeIter parent_iter; parent_iter.stamp = priv->stamp; parent_iter.user_data = parent_node; gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, &parent_iter); } } gtk_tree_path_free (path); validate_tree (tree_store); } /** * gtk_tree_store_insert_after: * @tree_store: A #GtkTreeStore * @iter: (out): An unset #GtkTreeIter to set to the new row * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * @sibling: (allow-none): A valid #GtkTreeIter, or %NULL * * Inserts a new row after @sibling. If @sibling is %NULL, then the row will be * prepended to @parent 's children. If @parent and @sibling are %NULL, then * the row will be prepended to the toplevel. If both @sibling and @parent are * set, then @parent must be the parent of @sibling. When @sibling is set, * @parent is optional. * * @iter will be changed to point to this new row. The row will be empty after * this function is called. To fill in values, you need to call * gtk_tree_store_set() or gtk_tree_store_set_value(). * **/ void gtk_tree_store_insert_after (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent, GtkTreeIter *sibling) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *path; GNode *parent_node; GNode *new_node; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (iter != NULL); if (parent != NULL) g_return_if_fail (VALID_ITER (parent, tree_store)); if (sibling != NULL) g_return_if_fail (VALID_ITER (sibling, tree_store)); if (parent == NULL && sibling == NULL) parent_node = priv->root; else if (parent == NULL) parent_node = G_NODE (sibling->user_data)->parent; else if (sibling == NULL) parent_node = G_NODE (parent->user_data); else { g_return_if_fail (G_NODE (sibling->user_data)->parent == G_NODE (parent->user_data)); parent_node = G_NODE (parent->user_data); } priv->columns_dirty = TRUE; new_node = g_node_new (NULL); g_node_insert_after (parent_node, sibling ? G_NODE (sibling->user_data) : NULL, new_node); iter->stamp = priv->stamp; iter->user_data = new_node; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { if (new_node->prev == NULL && new_node->next == NULL) { GtkTreeIter parent_iter; parent_iter.stamp = priv->stamp; parent_iter.user_data = parent_node; gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, &parent_iter); } } gtk_tree_path_free (path); validate_tree (tree_store); } /** * gtk_tree_store_insert_with_values: * @tree_store: A #GtkTreeStore * @iter: (out) (allow-none): An unset #GtkTreeIter to set the new row, or %NULL. * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * @position: position to insert the new row, or -1 to append after existing rows * @...: pairs of column number and value, terminated with -1 * * Creates a new row at @position. @iter will be changed to point to this * new row. If @position is -1, or larger than the number of rows on the list, then * the new row will be appended to the list. The row will be filled with * the values given to this function. * * Calling * gtk_tree_store_insert_with_values (tree_store, iter, position, ...) * has the same effect as calling * |[ * gtk_tree_store_insert (tree_store, iter, position); * gtk_tree_store_set (tree_store, iter, ...); * ]| * with the different that the former will only emit a row_inserted signal, * while the latter will emit row_inserted, row_changed and if the tree store * is sorted, rows_reordered. Since emitting the rows_reordered signal * repeatedly can affect the performance of the program, * gtk_tree_store_insert_with_values() should generally be preferred when * inserting rows in a sorted tree store. * * Since: 2.10 */ void gtk_tree_store_insert_with_values (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent, gint position, ...) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *path; GNode *parent_node; GNode *new_node; GtkTreeIter tmp_iter; va_list var_args; gboolean changed = FALSE; gboolean maybe_need_sort = FALSE; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); if (!iter) iter = &tmp_iter; if (parent) g_return_if_fail (VALID_ITER (parent, tree_store)); if (parent) parent_node = parent->user_data; else parent_node = priv->root; priv->columns_dirty = TRUE; new_node = g_node_new (NULL); iter->stamp = priv->stamp; iter->user_data = new_node; g_node_insert (parent_node, position, new_node); va_start (var_args, position); gtk_tree_store_set_valist_internal (tree_store, iter, &changed, &maybe_need_sort, var_args); va_end (var_args); if (maybe_need_sort && GTK_TREE_STORE_IS_SORTED (tree_store)) gtk_tree_store_sort_iter_changed (tree_store, iter, priv->sort_column_id, FALSE); path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { if (new_node->prev == NULL && new_node->next == NULL) { gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, parent); } } gtk_tree_path_free (path); validate_tree ((GtkTreeStore *)tree_store); } /** * gtk_tree_store_insert_with_valuesv: * @tree_store: A #GtkTreeStore * @iter: (out) (allow-none): An unset #GtkTreeIter to set the new row, or %NULL. * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * @position: position to insert the new row, or -1 for last * @columns: (array length=n_values): an array of column numbers * @values: (array length=n_values): an array of GValues * @n_values: the length of the @columns and @values arrays * * A variant of gtk_tree_store_insert_with_values() which takes * the columns and values as two arrays, instead of varargs. This * function is mainly intended for language bindings. * * Since: 2.10 * Rename to: gtk_tree_store_insert_with_values */ void gtk_tree_store_insert_with_valuesv (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent, gint position, gint *columns, GValue *values, gint n_values) { GtkTreeStorePrivate *priv = tree_store->priv; GtkTreePath *path; GNode *parent_node; GNode *new_node; GtkTreeIter tmp_iter; gboolean changed = FALSE; gboolean maybe_need_sort = FALSE; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); if (!iter) iter = &tmp_iter; if (parent) g_return_if_fail (VALID_ITER (parent, tree_store)); if (parent) parent_node = parent->user_data; else parent_node = priv->root; priv->columns_dirty = TRUE; new_node = g_node_new (NULL); iter->stamp = priv->stamp; iter->user_data = new_node; g_node_insert (parent_node, position, new_node); gtk_tree_store_set_vector_internal (tree_store, iter, &changed, &maybe_need_sort, columns, values, n_values); if (maybe_need_sort && GTK_TREE_STORE_IS_SORTED (tree_store)) gtk_tree_store_sort_iter_changed (tree_store, iter, priv->sort_column_id, FALSE); path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { if (new_node->prev == NULL && new_node->next == NULL) { gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, parent); } } gtk_tree_path_free (path); validate_tree ((GtkTreeStore *)tree_store); } /** * gtk_tree_store_prepend: * @tree_store: A #GtkTreeStore * @iter: (out): An unset #GtkTreeIter to set to the prepended row * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * * Prepends a new row to @tree_store. If @parent is non-%NULL, then it will prepend * the new row before the first child of @parent, otherwise it will prepend a row * to the top level. @iter will be changed to point to this new row. The row * will be empty after this function is called. To fill in values, you need to * call gtk_tree_store_set() or gtk_tree_store_set_value(). **/ void gtk_tree_store_prepend (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent) { GtkTreeStorePrivate *priv = tree_store->priv; GNode *parent_node; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (iter != NULL); if (parent != NULL) g_return_if_fail (VALID_ITER (parent, tree_store)); priv->columns_dirty = TRUE; if (parent == NULL) parent_node = priv->root; else parent_node = parent->user_data; if (parent_node->children == NULL) { GtkTreePath *path; iter->stamp = priv->stamp; iter->user_data = g_node_new (NULL); g_node_prepend (parent_node, G_NODE (iter->user_data)); path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, parent); } gtk_tree_path_free (path); } else { gtk_tree_store_insert_after (tree_store, iter, parent, NULL); } validate_tree (tree_store); } /** * gtk_tree_store_append: * @tree_store: A #GtkTreeStore * @iter: (out): An unset #GtkTreeIter to set to the appended row * @parent: (allow-none): A valid #GtkTreeIter, or %NULL * * Appends a new row to @tree_store. If @parent is non-%NULL, then it will append the * new row after the last child of @parent, otherwise it will append a row to * the top level. @iter will be changed to point to this new row. The row will * be empty after this function is called. To fill in values, you need to call * gtk_tree_store_set() or gtk_tree_store_set_value(). **/ void gtk_tree_store_append (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *parent) { GtkTreeStorePrivate *priv = tree_store->priv; GNode *parent_node; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (iter != NULL); if (parent != NULL) g_return_if_fail (VALID_ITER (parent, tree_store)); if (parent == NULL) parent_node = priv->root; else parent_node = parent->user_data; priv->columns_dirty = TRUE; if (parent_node->children == NULL) { GtkTreePath *path; iter->stamp = priv->stamp; iter->user_data = g_node_new (NULL); g_node_append (parent_node, G_NODE (iter->user_data)); path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_model_row_inserted (GTK_TREE_MODEL (tree_store), path, iter); if (parent_node != priv->root) { gtk_tree_path_up (path); gtk_tree_model_row_has_child_toggled (GTK_TREE_MODEL (tree_store), path, parent); } gtk_tree_path_free (path); } else { gtk_tree_store_insert_before (tree_store, iter, parent, NULL); } validate_tree (tree_store); } /** * gtk_tree_store_is_ancestor: * @tree_store: A #GtkTreeStore * @iter: A valid #GtkTreeIter * @descendant: A valid #GtkTreeIter * * Returns %TRUE if @iter is an ancestor of @descendant. That is, @iter is the * parent (or grandparent or great-grandparent) of @descendant. * * Return value: %TRUE, if @iter is an ancestor of @descendant **/ gboolean gtk_tree_store_is_ancestor (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *descendant) { g_return_val_if_fail (GTK_IS_TREE_STORE (tree_store), FALSE); g_return_val_if_fail (VALID_ITER (iter, tree_store), FALSE); g_return_val_if_fail (VALID_ITER (descendant, tree_store), FALSE); return g_node_is_ancestor (G_NODE (iter->user_data), G_NODE (descendant->user_data)); } /** * gtk_tree_store_iter_depth: * @tree_store: A #GtkTreeStore * @iter: A valid #GtkTreeIter * * Returns the depth of @iter. This will be 0 for anything on the root level, 1 * for anything down a level, etc. * * Return value: The depth of @iter **/ gint gtk_tree_store_iter_depth (GtkTreeStore *tree_store, GtkTreeIter *iter) { g_return_val_if_fail (GTK_IS_TREE_STORE (tree_store), 0); g_return_val_if_fail (VALID_ITER (iter, tree_store), 0); return g_node_depth (G_NODE (iter->user_data)) - 2; } /* simple ripoff from g_node_traverse_post_order */ static gboolean gtk_tree_store_clear_traverse (GNode *node, GtkTreeStore *store) { GtkTreeIter iter; if (node->children) { GNode *child; child = node->children; while (child) { register GNode *current; current = child; child = current->next; if (gtk_tree_store_clear_traverse (current, store)) return TRUE; } if (node->parent) { iter.stamp = store->priv->stamp; iter.user_data = node; gtk_tree_store_remove (store, &iter); } } else if (node->parent) { iter.stamp = store->priv->stamp; iter.user_data = node; gtk_tree_store_remove (store, &iter); } return FALSE; } static void gtk_tree_store_increment_stamp (GtkTreeStore *tree_store) { GtkTreeStorePrivate *priv = tree_store->priv; do { priv->stamp++; } while (priv->stamp == 0); } /** * gtk_tree_store_clear: * @tree_store: a #GtkTreeStore * * Removes all rows from @tree_store **/ void gtk_tree_store_clear (GtkTreeStore *tree_store) { g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); gtk_tree_store_clear_traverse (tree_store->priv->root, tree_store); gtk_tree_store_increment_stamp (tree_store); } static gboolean gtk_tree_store_iter_is_valid_helper (GtkTreeIter *iter, GNode *first) { GNode *node; node = first; do { if (node == iter->user_data) return TRUE; if (node->children) if (gtk_tree_store_iter_is_valid_helper (iter, node->children)) return TRUE; node = node->next; } while (node); return FALSE; } /** * gtk_tree_store_iter_is_valid: * @tree_store: A #GtkTreeStore. * @iter: A #GtkTreeIter. * * WARNING: This function is slow. Only use it for debugging and/or testing * purposes. * * Checks if the given iter is a valid iter for this #GtkTreeStore. * * Return value: %TRUE if the iter is valid, %FALSE if the iter is invalid. * * Since: 2.2 **/ gboolean gtk_tree_store_iter_is_valid (GtkTreeStore *tree_store, GtkTreeIter *iter) { g_return_val_if_fail (GTK_IS_TREE_STORE (tree_store), FALSE); g_return_val_if_fail (iter != NULL, FALSE); if (!VALID_ITER (iter, tree_store)) return FALSE; return gtk_tree_store_iter_is_valid_helper (iter, tree_store->priv->root); } /* DND */ static gboolean real_gtk_tree_store_row_draggable (GtkTreeDragSource *drag_source, GtkTreePath *path) { return TRUE; } static gboolean gtk_tree_store_drag_data_delete (GtkTreeDragSource *drag_source, GtkTreePath *path) { GtkTreeIter iter; if (gtk_tree_store_get_iter (GTK_TREE_MODEL (drag_source), &iter, path)) { gtk_tree_store_remove (GTK_TREE_STORE (drag_source), &iter); return TRUE; } else { return FALSE; } } static gboolean gtk_tree_store_drag_data_get (GtkTreeDragSource *drag_source, GtkTreePath *path, GtkSelectionData *selection_data) { /* Note that we don't need to handle the GTK_TREE_MODEL_ROW * target, because the default handler does it for us, but * we do anyway for the convenience of someone maybe overriding the * default handler. */ if (gtk_tree_set_row_drag_data (selection_data, GTK_TREE_MODEL (drag_source), path)) { return TRUE; } else { /* FIXME handle text targets at least. */ } return FALSE; } static void copy_node_data (GtkTreeStore *tree_store, GtkTreeIter *src_iter, GtkTreeIter *dest_iter) { GtkTreeDataList *dl = G_NODE (src_iter->user_data)->data; GtkTreeDataList *copy_head = NULL; GtkTreeDataList *copy_prev = NULL; GtkTreeDataList *copy_iter = NULL; GtkTreePath *path; gint col; col = 0; while (dl) { copy_iter = _gtk_tree_data_list_node_copy (dl, tree_store->priv->column_headers[col]); if (copy_head == NULL) copy_head = copy_iter; if (copy_prev) copy_prev->next = copy_iter; copy_prev = copy_iter; dl = dl->next; ++col; } G_NODE (dest_iter->user_data)->data = copy_head; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), dest_iter); gtk_tree_model_row_changed (GTK_TREE_MODEL (tree_store), path, dest_iter); gtk_tree_path_free (path); } static void recursive_node_copy (GtkTreeStore *tree_store, GtkTreeIter *src_iter, GtkTreeIter *dest_iter) { GtkTreeIter child; GtkTreeModel *model; model = GTK_TREE_MODEL (tree_store); copy_node_data (tree_store, src_iter, dest_iter); if (gtk_tree_store_iter_children (model, &child, src_iter)) { /* Need to create children and recurse. Note our * dependence on persistent iterators here. */ do { GtkTreeIter copy; /* Gee, a really slow algorithm... ;-) FIXME */ gtk_tree_store_append (tree_store, ©, dest_iter); recursive_node_copy (tree_store, &child, ©); } while (gtk_tree_store_iter_next (model, &child)); } } static gboolean gtk_tree_store_drag_data_received (GtkTreeDragDest *drag_dest, GtkTreePath *dest, GtkSelectionData *selection_data) { GtkTreeModel *tree_model; GtkTreeStore *tree_store; GtkTreeModel *src_model = NULL; GtkTreePath *src_path = NULL; gboolean retval = FALSE; tree_model = GTK_TREE_MODEL (drag_dest); tree_store = GTK_TREE_STORE (drag_dest); validate_tree (tree_store); if (gtk_tree_get_row_drag_data (selection_data, &src_model, &src_path) && src_model == tree_model) { /* Copy the given row to a new position */ GtkTreeIter src_iter; GtkTreeIter dest_iter; GtkTreePath *prev; if (!gtk_tree_store_get_iter (src_model, &src_iter, src_path)) { goto out; } /* Get the path to insert _after_ (dest is the path to insert _before_) */ prev = gtk_tree_path_copy (dest); if (!gtk_tree_path_prev (prev)) { GtkTreeIter dest_parent; GtkTreePath *parent; GtkTreeIter *dest_parent_p; /* dest was the first spot at the current depth; which means * we are supposed to prepend. */ /* Get the parent, NULL if parent is the root */ dest_parent_p = NULL; parent = gtk_tree_path_copy (dest); if (gtk_tree_path_up (parent) && gtk_tree_path_get_depth (parent) > 0) { gtk_tree_store_get_iter (tree_model, &dest_parent, parent); dest_parent_p = &dest_parent; } gtk_tree_path_free (parent); parent = NULL; gtk_tree_store_prepend (tree_store, &dest_iter, dest_parent_p); retval = TRUE; } else { if (gtk_tree_store_get_iter (tree_model, &dest_iter, prev)) { GtkTreeIter tmp_iter = dest_iter; gtk_tree_store_insert_after (tree_store, &dest_iter, NULL, &tmp_iter); retval = TRUE; } } gtk_tree_path_free (prev); /* If we succeeded in creating dest_iter, walk src_iter tree branch, * duplicating it below dest_iter. */ if (retval) { recursive_node_copy (tree_store, &src_iter, &dest_iter); } } else { /* FIXME maybe add some data targets eventually, or handle text * targets in the simple case. */ } out: if (src_path) gtk_tree_path_free (src_path); return retval; } static gboolean gtk_tree_store_row_drop_possible (GtkTreeDragDest *drag_dest, GtkTreePath *dest_path, GtkSelectionData *selection_data) { GtkTreeModel *src_model = NULL; GtkTreePath *src_path = NULL; GtkTreePath *tmp = NULL; gboolean retval = FALSE; /* don't accept drops if the tree has been sorted */ if (GTK_TREE_STORE_IS_SORTED (drag_dest)) return FALSE; if (!gtk_tree_get_row_drag_data (selection_data, &src_model, &src_path)) goto out; /* can only drag to ourselves */ if (src_model != GTK_TREE_MODEL (drag_dest)) goto out; /* Can't drop into ourself. */ if (gtk_tree_path_is_ancestor (src_path, dest_path)) goto out; /* Can't drop if dest_path's parent doesn't exist */ { GtkTreeIter iter; if (gtk_tree_path_get_depth (dest_path) > 1) { tmp = gtk_tree_path_copy (dest_path); gtk_tree_path_up (tmp); if (!gtk_tree_store_get_iter (GTK_TREE_MODEL (drag_dest), &iter, tmp)) goto out; } } /* Can otherwise drop anywhere. */ retval = TRUE; out: if (src_path) gtk_tree_path_free (src_path); if (tmp) gtk_tree_path_free (tmp); return retval; } /* Sorting and reordering */ typedef struct _SortTuple { gint offset; GNode *node; } SortTuple; /* Reordering */ static gint gtk_tree_store_reorder_func (gconstpointer a, gconstpointer b, gpointer user_data) { SortTuple *a_reorder; SortTuple *b_reorder; a_reorder = (SortTuple *)a; b_reorder = (SortTuple *)b; if (a_reorder->offset < b_reorder->offset) return -1; if (a_reorder->offset > b_reorder->offset) return 1; return 0; } /** * gtk_tree_store_reorder: (skip) * @tree_store: A #GtkTreeStore. * @parent: A #GtkTreeIter. * @new_order: (array): an array of integers mapping the new position of each child * to its old position before the re-ordering, * i.e. @new_order[newpos] = oldpos. * * Reorders the children of @parent in @tree_store to follow the order * indicated by @new_order. Note that this function only works with * unsorted stores. * * Since: 2.2 **/ void gtk_tree_store_reorder (GtkTreeStore *tree_store, GtkTreeIter *parent, gint *new_order) { gint i, length = 0; GNode *level, *node; GtkTreePath *path; SortTuple *sort_array; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (!GTK_TREE_STORE_IS_SORTED (tree_store)); g_return_if_fail (parent == NULL || VALID_ITER (parent, tree_store)); g_return_if_fail (new_order != NULL); if (!parent) level = G_NODE (tree_store->priv->root)->children; else level = G_NODE (parent->user_data)->children; /* count nodes */ node = level; while (node) { length++; node = node->next; } /* set up sortarray */ sort_array = g_new (SortTuple, length); node = level; for (i = 0; i < length; i++) { sort_array[new_order[i]].offset = i; sort_array[i].node = node; node = node->next; } g_qsort_with_data (sort_array, length, sizeof (SortTuple), gtk_tree_store_reorder_func, NULL); /* fix up level */ for (i = 0; i < length - 1; i++) { sort_array[i].node->next = sort_array[i+1].node; sort_array[i+1].node->prev = sort_array[i].node; } sort_array[length-1].node->next = NULL; sort_array[0].node->prev = NULL; if (parent) G_NODE (parent->user_data)->children = sort_array[0].node; else G_NODE (tree_store->priv->root)->children = sort_array[0].node; /* emit signal */ if (parent) path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), parent); else path = gtk_tree_path_new (); gtk_tree_model_rows_reordered (GTK_TREE_MODEL (tree_store), path, parent, new_order); gtk_tree_path_free (path); g_free (sort_array); } /** * gtk_tree_store_swap: * @tree_store: A #GtkTreeStore. * @a: A #GtkTreeIter. * @b: Another #GtkTreeIter. * * Swaps @a and @b in the same level of @tree_store. Note that this function * only works with unsorted stores. * * Since: 2.2 **/ void gtk_tree_store_swap (GtkTreeStore *tree_store, GtkTreeIter *a, GtkTreeIter *b) { GNode *tmp, *node_a, *node_b, *parent_node; GNode *a_prev, *a_next, *b_prev, *b_next; gint i, a_count, b_count, length, *order; GtkTreePath *path_a, *path_b; GtkTreeIter parent; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (VALID_ITER (a, tree_store)); g_return_if_fail (VALID_ITER (b, tree_store)); node_a = G_NODE (a->user_data); node_b = G_NODE (b->user_data); /* basic sanity checking */ if (node_a == node_b) return; path_a = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), a); path_b = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), b); g_return_if_fail (path_a && path_b); gtk_tree_path_up (path_a); gtk_tree_path_up (path_b); if (gtk_tree_path_get_depth (path_a) == 0 || gtk_tree_path_get_depth (path_b) == 0) { if (gtk_tree_path_get_depth (path_a) != gtk_tree_path_get_depth (path_b)) { gtk_tree_path_free (path_a); gtk_tree_path_free (path_b); g_warning ("Given children are not in the same level\n"); return; } parent_node = G_NODE (tree_store->priv->root); } else { if (gtk_tree_path_compare (path_a, path_b)) { gtk_tree_path_free (path_a); gtk_tree_path_free (path_b); g_warning ("Given children don't have a common parent\n"); return; } gtk_tree_store_get_iter (GTK_TREE_MODEL (tree_store), &parent, path_a); parent_node = G_NODE (parent.user_data); } gtk_tree_path_free (path_b); /* old links which we have to keep around */ a_prev = node_a->prev; a_next = node_a->next; b_prev = node_b->prev; b_next = node_b->next; /* fix up links if the nodes are next to eachother */ if (a_prev == node_b) a_prev = node_a; if (a_next == node_b) a_next = node_a; if (b_prev == node_a) b_prev = node_b; if (b_next == node_a) b_next = node_b; /* counting nodes */ tmp = parent_node->children; i = a_count = b_count = 0; while (tmp) { if (tmp == node_a) a_count = i; if (tmp == node_b) b_count = i; tmp = tmp->next; i++; } length = i; /* hacking the tree */ if (!a_prev) parent_node->children = node_b; else a_prev->next = node_b; if (a_next) a_next->prev = node_b; if (!b_prev) parent_node->children = node_a; else b_prev->next = node_a; if (b_next) b_next->prev = node_a; node_a->prev = b_prev; node_a->next = b_next; node_b->prev = a_prev; node_b->next = a_next; /* emit signal */ order = g_new (gint, length); for (i = 0; i < length; i++) if (i == a_count) order[i] = b_count; else if (i == b_count) order[i] = a_count; else order[i] = i; gtk_tree_model_rows_reordered (GTK_TREE_MODEL (tree_store), path_a, parent_node == tree_store->priv->root ? NULL : &parent, order); gtk_tree_path_free (path_a); g_free (order); } /* WARNING: this function is *incredibly* fragile. Please smashtest after * making changes here. * -Kris */ static void gtk_tree_store_move (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *position, gboolean before) { GNode *parent, *node, *a, *b, *tmp, *tmp_a, *tmp_b; gint old_pos, new_pos, length, i, *order; GtkTreePath *path = NULL, *tmppath, *pos_path = NULL; GtkTreeIter parent_iter, dst_a, dst_b; gint depth = 0; gboolean handle_b = TRUE; g_return_if_fail (GTK_IS_TREE_STORE (tree_store)); g_return_if_fail (!GTK_TREE_STORE_IS_SORTED (tree_store)); g_return_if_fail (VALID_ITER (iter, tree_store)); if (position) g_return_if_fail (VALID_ITER (position, tree_store)); a = b = NULL; /* sanity checks */ if (position) { path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); pos_path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), position); /* if before: * moving the iter before path or "path + 1" doesn't make sense * else * moving the iter before path or "path - 1" doesn't make sense */ if (!gtk_tree_path_compare (path, pos_path)) goto free_paths_and_out; if (before) gtk_tree_path_next (path); else gtk_tree_path_prev (path); if (!gtk_tree_path_compare (path, pos_path)) goto free_paths_and_out; if (before) gtk_tree_path_prev (path); else gtk_tree_path_next (path); if (gtk_tree_path_get_depth (path) != gtk_tree_path_get_depth (pos_path)) { g_warning ("Given children are not in the same level\n"); goto free_paths_and_out; } tmppath = gtk_tree_path_copy (pos_path); gtk_tree_path_up (path); gtk_tree_path_up (tmppath); if (gtk_tree_path_get_depth (path) > 0 && gtk_tree_path_compare (path, tmppath)) { g_warning ("Given children are not in the same level\n"); gtk_tree_path_free (tmppath); goto free_paths_and_out; } gtk_tree_path_free (tmppath); } if (!path) { path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), iter); gtk_tree_path_up (path); } depth = gtk_tree_path_get_depth (path); if (depth) { gtk_tree_store_get_iter (GTK_TREE_MODEL (tree_store), &parent_iter, path); parent = G_NODE (parent_iter.user_data); } else parent = G_NODE (tree_store->priv->root); /* yes, I know that this can be done shorter, but I'm doing it this way * so the code is also maintainable */ if (before && position) { b = G_NODE (position->user_data); if (gtk_tree_path_get_indices (pos_path)[gtk_tree_path_get_depth (pos_path) - 1] > 0) { gtk_tree_path_prev (pos_path); if (gtk_tree_store_get_iter (GTK_TREE_MODEL (tree_store), &dst_a, pos_path)) a = G_NODE (dst_a.user_data); else a = NULL; gtk_tree_path_next (pos_path); } /* if b is NULL, a is NULL too -- we are at the beginning of the list * yes and we leak memory here ... */ g_return_if_fail (b); } else if (before && !position) { /* move before without position is appending */ a = NULL; b = NULL; } else /* !before */ { if (position) a = G_NODE (position->user_data); else a = NULL; if (position) { gtk_tree_path_next (pos_path); if (gtk_tree_store_get_iter (GTK_TREE_MODEL (tree_store), &dst_b, pos_path)) b = G_NODE (dst_b.user_data); else b = NULL; gtk_tree_path_prev (pos_path); } else { /* move after without position is prepending */ if (depth) gtk_tree_store_iter_children (GTK_TREE_MODEL (tree_store), &dst_b, &parent_iter); else gtk_tree_store_iter_children (GTK_TREE_MODEL (tree_store), &dst_b, NULL); b = G_NODE (dst_b.user_data); } /* if a is NULL, b is NULL too -- we are at the end of the list * yes and we leak memory here ... */ if (position) g_return_if_fail (a); } /* counting nodes */ tmp = parent->children; length = old_pos = 0; while (tmp) { if (tmp == iter->user_data) old_pos = length; tmp = tmp->next; length++; } /* remove node from list */ node = G_NODE (iter->user_data); tmp_a = node->prev; tmp_b = node->next; if (tmp_a) tmp_a->next = tmp_b; else parent->children = tmp_b; if (tmp_b) tmp_b->prev = tmp_a; /* and reinsert the node */ if (a) { tmp = a->next; a->next = node; node->next = tmp; node->prev = a; } else if (!a && !before) { tmp = parent->children; node->prev = NULL; parent->children = node; node->next = tmp; if (tmp) tmp->prev = node; handle_b = FALSE; } else if (!a && before) { if (!position) { node->parent = NULL; node->next = node->prev = NULL; /* before with sibling = NULL appends */ g_node_insert_before (parent, NULL, node); } else { node->parent = NULL; node->next = node->prev = NULL; /* after with sibling = NULL prepends */ g_node_insert_after (parent, NULL, node); } handle_b = FALSE; } if (handle_b) { if (b) { tmp = b->prev; b->prev = node; node->prev = tmp; node->next = b; } else if (!(!a && before)) /* !a && before is completely handled above */ node->next = NULL; } /* emit signal */ if (position) new_pos = gtk_tree_path_get_indices (pos_path)[gtk_tree_path_get_depth (pos_path)-1]; else if (before) { if (depth) new_pos = gtk_tree_store_iter_n_children (GTK_TREE_MODEL (tree_store), &parent_iter) - 1; else new_pos = gtk_tree_store_iter_n_children (GTK_TREE_MODEL (tree_store), NULL) - 1; } else new_pos = 0; if (new_pos > old_pos) { if (before && position) new_pos--; } else { if (!before && position) new_pos++; } order = g_new (gint, length); if (new_pos > old_pos) { for (i = 0; i < length; i++) if (i < old_pos) order[i] = i; else if (i >= old_pos && i < new_pos) order[i] = i + 1; else if (i == new_pos) order[i] = old_pos; else order[i] = i; } else { for (i = 0; i < length; i++) if (i == new_pos) order[i] = old_pos; else if (i > new_pos && i <= old_pos) order[i] = i - 1; else order[i] = i; } if (depth) { tmppath = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), &parent_iter); gtk_tree_model_rows_reordered (GTK_TREE_MODEL (tree_store), tmppath, &parent_iter, order); } else { tmppath = gtk_tree_path_new (); gtk_tree_model_rows_reordered (GTK_TREE_MODEL (tree_store), tmppath, NULL, order); } gtk_tree_path_free (tmppath); gtk_tree_path_free (path); if (position) gtk_tree_path_free (pos_path); g_free (order); return; free_paths_and_out: gtk_tree_path_free (path); gtk_tree_path_free (pos_path); } /** * gtk_tree_store_move_before: * @tree_store: A #GtkTreeStore. * @iter: A #GtkTreeIter. * @position: (allow-none): A #GtkTreeIter or %NULL. * * Moves @iter in @tree_store to the position before @position. @iter and * @position should be in the same level. Note that this function only * works with unsorted stores. If @position is %NULL, @iter will be * moved to the end of the level. * * Since: 2.2 **/ void gtk_tree_store_move_before (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *position) { gtk_tree_store_move (tree_store, iter, position, TRUE); } /** * gtk_tree_store_move_after: * @tree_store: A #GtkTreeStore. * @iter: A #GtkTreeIter. * @position: (allow-none): A #GtkTreeIter. * * Moves @iter in @tree_store to the position after @position. @iter and * @position should be in the same level. Note that this function only * works with unsorted stores. If @position is %NULL, @iter will be moved * to the start of the level. * * Since: 2.2 **/ void gtk_tree_store_move_after (GtkTreeStore *tree_store, GtkTreeIter *iter, GtkTreeIter *position) { gtk_tree_store_move (tree_store, iter, position, FALSE); } /* Sorting */ static gint gtk_tree_store_compare_func (gconstpointer a, gconstpointer b, gpointer user_data) { GtkTreeStore *tree_store = user_data; GtkTreeStorePrivate *priv = tree_store->priv; GNode *node_a; GNode *node_b; GtkTreeIterCompareFunc func; gpointer data; GtkTreeIter iter_a; GtkTreeIter iter_b; gint retval; if (priv->sort_column_id != -1) { GtkTreeDataSortHeader *header; header = _gtk_tree_data_list_get_header (priv->sort_list, priv->sort_column_id); g_return_val_if_fail (header != NULL, 0); g_return_val_if_fail (header->func != NULL, 0); func = header->func; data = header->data; } else { g_return_val_if_fail (priv->default_sort_func != NULL, 0); func = priv->default_sort_func; data = priv->default_sort_data; } node_a = ((SortTuple *) a)->node; node_b = ((SortTuple *) b)->node; iter_a.stamp = priv->stamp; iter_a.user_data = node_a; iter_b.stamp = priv->stamp; iter_b.user_data = node_b; retval = (* func) (GTK_TREE_MODEL (user_data), &iter_a, &iter_b, data); if (priv->order == GTK_SORT_DESCENDING) { if (retval > 0) retval = -1; else if (retval < 0) retval = 1; } return retval; } static void gtk_tree_store_sort_helper (GtkTreeStore *tree_store, GNode *parent, gboolean recurse) { GtkTreeIter iter; GArray *sort_array; GNode *node; GNode *tmp_node; gint list_length; gint i; gint *new_order; GtkTreePath *path; node = parent->children; if (node == NULL || node->next == NULL) { if (recurse && node && node->children) gtk_tree_store_sort_helper (tree_store, node, TRUE); return; } list_length = 0; for (tmp_node = node; tmp_node; tmp_node = tmp_node->next) list_length++; sort_array = g_array_sized_new (FALSE, FALSE, sizeof (SortTuple), list_length); i = 0; for (tmp_node = node; tmp_node; tmp_node = tmp_node->next) { SortTuple tuple; tuple.offset = i; tuple.node = tmp_node; g_array_append_val (sort_array, tuple); i++; } /* Sort the array */ g_array_sort_with_data (sort_array, gtk_tree_store_compare_func, tree_store); for (i = 0; i < list_length - 1; i++) { g_array_index (sort_array, SortTuple, i).node->next = g_array_index (sort_array, SortTuple, i + 1).node; g_array_index (sort_array, SortTuple, i + 1).node->prev = g_array_index (sort_array, SortTuple, i).node; } g_array_index (sort_array, SortTuple, list_length - 1).node->next = NULL; g_array_index (sort_array, SortTuple, 0).node->prev = NULL; parent->children = g_array_index (sort_array, SortTuple, 0).node; /* Let the world know about our new order */ new_order = g_new (gint, list_length); for (i = 0; i < list_length; i++) new_order[i] = g_array_index (sort_array, SortTuple, i).offset; iter.stamp = tree_store->priv->stamp; iter.user_data = parent; path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), &iter); gtk_tree_model_rows_reordered (GTK_TREE_MODEL (tree_store), path, &iter, new_order); gtk_tree_path_free (path); g_free (new_order); g_array_free (sort_array, TRUE); if (recurse) { for (tmp_node = parent->children; tmp_node; tmp_node = tmp_node->next) { if (tmp_node->children) gtk_tree_store_sort_helper (tree_store, tmp_node, TRUE); } } } static void gtk_tree_store_sort (GtkTreeStore *tree_store) { GtkTreeStorePrivate *priv = tree_store->priv; if (!GTK_TREE_STORE_IS_SORTED (tree_store)) return; if (priv->sort_column_id != -1) { GtkTreeDataSortHeader *header = NULL; header = _gtk_tree_data_list_get_header (priv->sort_list, priv->sort_column_id); /* We want to make sure that we have a function */ g_return_if_fail (header != NULL); g_return_if_fail (header->func != NULL); } else { g_return_if_fail (priv->default_sort_func != NULL); } gtk_tree_store_sort_helper (tree_store, G_NODE (priv->root), TRUE); } static void gtk_tree_store_sort_iter_changed (GtkTreeStore *tree_store, GtkTreeIter *iter, gint column, gboolean emit_signal) { GtkTreeStorePrivate *priv = tree_store->priv; GNode *prev = NULL; GNode *next = NULL; GNode *node; GtkTreePath *tmp_path; GtkTreeIter tmp_iter; gint cmp_a = 0; gint cmp_b = 0; gint i; gint old_location; gint new_location; gint *new_order; gint length; GtkTreeIterCompareFunc func; gpointer data; g_return_if_fail (G_NODE (iter->user_data)->parent != NULL); tmp_iter.stamp = priv->stamp; if (priv->sort_column_id != -1) { GtkTreeDataSortHeader *header; header = _gtk_tree_data_list_get_header (priv->sort_list, priv->sort_column_id); g_return_if_fail (header != NULL); g_return_if_fail (header->func != NULL); func = header->func; data = header->data; } else { g_return_if_fail (priv->default_sort_func != NULL); func = priv->default_sort_func; data = priv->default_sort_data; } /* If it's the built in function, we don't sort. */ if (func == _gtk_tree_data_list_compare_func && priv->sort_column_id != column) return; old_location = 0; node = G_NODE (iter->user_data)->parent->children; /* First we find the iter, its prev, and its next */ while (node) { if (node == G_NODE (iter->user_data)) break; old_location++; node = node->next; } g_assert (node != NULL); prev = node->prev; next = node->next; /* Check the common case, where we don't need to sort it moved. */ if (prev != NULL) { tmp_iter.user_data = prev; cmp_a = (* func) (GTK_TREE_MODEL (tree_store), &tmp_iter, iter, data); } if (next != NULL) { tmp_iter.user_data = next; cmp_b = (* func) (GTK_TREE_MODEL (tree_store), iter, &tmp_iter, data); } if (priv->order == GTK_SORT_DESCENDING) { if (cmp_a < 0) cmp_a = 1; else if (cmp_a > 0) cmp_a = -1; if (cmp_b < 0) cmp_b = 1; else if (cmp_b > 0) cmp_b = -1; } if (prev == NULL && cmp_b <= 0) return; else if (next == NULL && cmp_a <= 0) return; else if (prev != NULL && next != NULL && cmp_a <= 0 && cmp_b <= 0) return; /* We actually need to sort it */ /* First, remove the old link. */ if (prev) prev->next = next; else node->parent->children = next; if (next) next->prev = prev; node->prev = NULL; node->next = NULL; /* FIXME: as an optimization, we can potentially start at next */ prev = NULL; node = node->parent->children; new_location = 0; tmp_iter.user_data = node; if (priv->order == GTK_SORT_DESCENDING) cmp_a = (* func) (GTK_TREE_MODEL (tree_store), &tmp_iter, iter, data); else cmp_a = (* func) (GTK_TREE_MODEL (tree_store), iter, &tmp_iter, data); while ((node->next) && (cmp_a > 0)) { prev = node; node = node->next; new_location++; tmp_iter.user_data = node; if (priv->order == GTK_SORT_DESCENDING) cmp_a = (* func) (GTK_TREE_MODEL (tree_store), &tmp_iter, iter, data); else cmp_a = (* func) (GTK_TREE_MODEL (tree_store), iter, &tmp_iter, data); } if ((!node->next) && (cmp_a > 0)) { new_location++; node->next = G_NODE (iter->user_data); node->next->prev = node; } else if (prev) { prev->next = G_NODE (iter->user_data); prev->next->prev = prev; G_NODE (iter->user_data)->next = node; G_NODE (iter->user_data)->next->prev = G_NODE (iter->user_data); } else { G_NODE (iter->user_data)->next = G_NODE (iter->user_data)->parent->children; G_NODE (iter->user_data)->next->prev = G_NODE (iter->user_data); G_NODE (iter->user_data)->parent->children = G_NODE (iter->user_data); } if (!emit_signal) return; /* Emit the reordered signal. */ length = g_node_n_children (node->parent); new_order = g_new (int, length); if (old_location < new_location) for (i = 0; i < length; i++) { if (i < old_location || i > new_location) new_order[i] = i; else if (i >= old_location && i < new_location) new_order[i] = i + 1; else if (i == new_location) new_order[i] = old_location; } else for (i = 0; i < length; i++) { if (i < new_location || i > old_location) new_order[i] = i; else if (i > new_location && i <= old_location) new_order[i] = i - 1; else if (i == new_location) new_order[i] = old_location; } tmp_iter.user_data = node->parent; tmp_path = gtk_tree_store_get_path (GTK_TREE_MODEL (tree_store), &tmp_iter); gtk_tree_model_rows_reordered (GTK_TREE_MODEL (tree_store), tmp_path, &tmp_iter, new_order); gtk_tree_path_free (tmp_path); g_free (new_order); } static gboolean gtk_tree_store_get_sort_column_id (GtkTreeSortable *sortable, gint *sort_column_id, GtkSortType *order) { GtkTreeStore *tree_store = (GtkTreeStore *) sortable; GtkTreeStorePrivate *priv = tree_store->priv; if (sort_column_id) * sort_column_id = priv->sort_column_id; if (order) * order = priv->order; if (priv->sort_column_id == GTK_TREE_SORTABLE_DEFAULT_SORT_COLUMN_ID || priv->sort_column_id == GTK_TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID) return FALSE; return TRUE; } static void gtk_tree_store_set_sort_column_id (GtkTreeSortable *sortable, gint sort_column_id, GtkSortType order) { GtkTreeStore *tree_store = (GtkTreeStore *) sortable; GtkTreeStorePrivate *priv = tree_store->priv; if ((priv->sort_column_id == sort_column_id) && (priv->order == order)) return; if (sort_column_id != GTK_TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID) { if (sort_column_id != GTK_TREE_SORTABLE_DEFAULT_SORT_COLUMN_ID) { GtkTreeDataSortHeader *header = NULL; header = _gtk_tree_data_list_get_header (priv->sort_list, sort_column_id); /* We want to make sure that we have a function */ g_return_if_fail (header != NULL); g_return_if_fail (header->func != NULL); } else { g_return_if_fail (priv->default_sort_func != NULL); } } priv->sort_column_id = sort_column_id; priv->order = order; gtk_tree_sortable_sort_column_changed (sortable); gtk_tree_store_sort (tree_store); } static void gtk_tree_store_set_sort_func (GtkTreeSortable *sortable, gint sort_column_id, GtkTreeIterCompareFunc func, gpointer data, GDestroyNotify destroy) { GtkTreeStore *tree_store = (GtkTreeStore *) sortable; GtkTreeStorePrivate *priv = tree_store->priv; priv->sort_list = _gtk_tree_data_list_set_header (priv->sort_list, sort_column_id, func, data, destroy); if (priv->sort_column_id == sort_column_id) gtk_tree_store_sort (tree_store); } static void gtk_tree_store_set_default_sort_func (GtkTreeSortable *sortable, GtkTreeIterCompareFunc func, gpointer data, GDestroyNotify destroy) { GtkTreeStore *tree_store = (GtkTreeStore *) sortable; GtkTreeStorePrivate *priv = tree_store->priv; if (priv->default_sort_destroy) { GDestroyNotify d = priv->default_sort_destroy; priv->default_sort_destroy = NULL; d (priv->default_sort_data); } priv->default_sort_func = func; priv->default_sort_data = data; priv->default_sort_destroy = destroy; if (priv->sort_column_id == GTK_TREE_SORTABLE_DEFAULT_SORT_COLUMN_ID) gtk_tree_store_sort (tree_store); } static gboolean gtk_tree_store_has_default_sort_func (GtkTreeSortable *sortable) { GtkTreeStore *tree_store = (GtkTreeStore *) sortable; return (tree_store->priv->default_sort_func != NULL); } static void validate_gnode (GNode* node) { GNode *iter; iter = node->children; while (iter != NULL) { g_assert (iter->parent == node); if (iter->prev) g_assert (iter->prev->next == iter); validate_gnode (iter); iter = iter->next; } } /* GtkBuildable custom tag implementation * * * * * */ typedef struct { GtkBuilder *builder; GObject *object; GSList *items; } GSListSubParserData; static void tree_model_start_element (GMarkupParseContext *context, const gchar *element_name, const gchar **names, const gchar **values, gpointer user_data, GError **error) { guint i; GSListSubParserData *data = (GSListSubParserData*)user_data; for (i = 0; names[i]; i++) { if (strcmp (names[i], "type") == 0) data->items = g_slist_prepend (data->items, g_strdup (values[i])); } } static void tree_model_end_element (GMarkupParseContext *context, const gchar *element_name, gpointer user_data, GError **error) { GSListSubParserData *data = (GSListSubParserData*)user_data; g_assert(data->builder); if (strcmp (element_name, "columns") == 0) { GSList *l; GType *types; int i; GType type; data = (GSListSubParserData*)user_data; data->items = g_slist_reverse (data->items); types = g_new0 (GType, g_slist_length (data->items)); for (l = data->items, i = 0; l; l = l->next, i++) { type = gtk_builder_get_type_from_name (data->builder, l->data); if (type == G_TYPE_INVALID) { g_warning ("Unknown type %s specified in treemodel %s", (const gchar*)l->data, gtk_buildable_get_name (GTK_BUILDABLE (data->object))); continue; } types[i] = type; g_free (l->data); } gtk_tree_store_set_column_types (GTK_TREE_STORE (data->object), i, types); g_free (types); } } static const GMarkupParser tree_model_parser = { tree_model_start_element, tree_model_end_element }; static gboolean gtk_tree_store_buildable_custom_tag_start (GtkBuildable *buildable, GtkBuilder *builder, GObject *child, const gchar *tagname, GMarkupParser *parser, gpointer *data) { GSListSubParserData *parser_data; if (child) return FALSE; if (strcmp (tagname, "columns") == 0) { parser_data = g_slice_new0 (GSListSubParserData); parser_data->builder = builder; parser_data->items = NULL; parser_data->object = G_OBJECT (buildable); *parser = tree_model_parser; *data = parser_data; return TRUE; } return FALSE; } static void gtk_tree_store_buildable_custom_finished (GtkBuildable *buildable, GtkBuilder *builder, GObject *child, const gchar *tagname, gpointer user_data) { GSListSubParserData *data; if (strcmp (tagname, "columns")) return; data = (GSListSubParserData*)user_data; g_slist_free (data->items); g_slice_free (GSListSubParserData, data); }