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|
/* gtktreemodel.c
* Copyright (C) 2000 Red Hat, Inc., Jonathan Blandford <jrb@redhat.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <glib.h>
#include <gobject/gvaluecollector.h>
#include "gtktreemodel.h"
#include "gtktreeview.h"
#include "gtktreeprivate.h"
#include "gtksignal.h"
struct _GtkTreePath
{
gint depth;
gint *indices;
};
static void gtk_tree_model_base_init (gpointer g_class);
GtkType
gtk_tree_model_get_type (void)
{
static GtkType tree_model_type = 0;
if (!tree_model_type)
{
static const GTypeInfo tree_model_info =
{
sizeof (GtkTreeModelIface), /* class_size */
gtk_tree_model_base_init, /* base_init */
NULL, /* base_finalize */
NULL,
NULL, /* class_finalize */
NULL, /* class_data */
0,
0, /* n_preallocs */
NULL
};
tree_model_type = g_type_register_static (G_TYPE_INTERFACE, "GtkTreeModel", &tree_model_info, 0);
}
return tree_model_type;
}
static void
gtk_tree_model_base_init (gpointer g_class)
{
static gboolean initted = FALSE;
if (! initted)
{
g_signal_newc ("changed",
GTK_TYPE_TREE_MODEL,
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkTreeModelIface, changed),
NULL,
gtk_marshal_VOID__BOXED_BOXED,
G_TYPE_NONE, 2,
GTK_TYPE_TREE_PATH,
GTK_TYPE_TREE_ITER);
g_signal_newc ("inserted",
GTK_TYPE_TREE_MODEL,
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkTreeModelIface, inserted),
NULL,
gtk_marshal_VOID__BOXED_BOXED,
G_TYPE_NONE, 2,
GTK_TYPE_TREE_PATH,
GTK_TYPE_TREE_ITER);
g_signal_newc ("has_child_toggled",
GTK_TYPE_TREE_MODEL,
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkTreeModelIface, has_child_toggled),
NULL,
gtk_marshal_VOID__BOXED_BOXED,
G_TYPE_NONE, 2,
GTK_TYPE_TREE_PATH,
GTK_TYPE_TREE_ITER);
g_signal_newc ("deleted",
GTK_TYPE_TREE_MODEL,
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkTreeModelIface, deleted),
NULL,
gtk_marshal_VOID__BOXED,
G_TYPE_NONE, 1,
GTK_TYPE_TREE_PATH);
initted = TRUE;
}
}
/**
* gtk_tree_path_new:
*
* Creates a new #GtkTreePath.
*
* Return value: A newly created #GtkTreePath.
**/
/* GtkTreePath Operations */
GtkTreePath *
gtk_tree_path_new (void)
{
GtkTreePath *retval;
retval = (GtkTreePath *) g_new (GtkTreePath, 1);
retval->depth = 0;
retval->indices = NULL;
return retval;
}
/**
* gtk_tree_path_new_from_string:
* @path: The string representation of a path.
*
* Creates a new #GtkTreePath initialized to @path. @path is expected
* to be a colon separated list of numbers. For example, the string
* "10:4:0" would create a path of depth 3 pointing to the 11th child
* of the root node, the 5th child of that 11th child, and the 1st
* child of that 5th child.
*
* Return value: A newly created #GtkTreePath.
**/
GtkTreePath *
gtk_tree_path_new_from_string (gchar *path)
{
GtkTreePath *retval;
gchar *ptr;
gint i;
g_return_val_if_fail (path != NULL, gtk_tree_path_new ());
retval = gtk_tree_path_new ();
while (1)
{
i = strtol (path, &ptr, 10);
gtk_tree_path_append_index (retval, i);
if (*ptr == '\000')
break;
/* FIXME: should we error out if this is not a ':', or should we be tolerant? */
path = ptr + 1;
}
return retval;
}
/**
* gtk_tree_path_to_string:
* @path: A #GtkTreePath
*
* Generates a string representation of the path. This string is a ':'
* separated list of numbers. For example, "4:10:0:3" would be an acceptable return value for this string.
*
* Return value: A newly allocated string. Must be freed with #g_free.
**/
gchar *
gtk_tree_path_to_string (GtkTreePath *path)
{
gchar *retval, *ptr;
gint i;
if (path->depth == 0)
return NULL;
ptr = retval = (gchar *) g_new0 (char *, path->depth*8);
sprintf (retval, "%d", path->indices[0]);
while (*ptr != '\000')
ptr++;
for (i = 1; i < path->depth; i++)
{
sprintf (ptr, ":%d", path->indices[i]);
while (*ptr != '\000')
ptr++;
}
return retval;
}
/**
* gtk_tree_path_new_root:
*
* Creates a new root #GtkTreePath. The string representation of this path is
* "0"
*
* Return value: A new #GtkTreePath.
**/
GtkTreePath *
gtk_tree_path_new_root (void)
{
GtkTreePath *retval;
retval = gtk_tree_path_new ();
gtk_tree_path_append_index (retval, 0);
return retval;
}
/**
* gtk_tree_path_append_index:
* @path: A #GtkTreePath.
* @index: The index.
*
* Appends a new index to a path. As a result, the depth of the path is
* increased.
**/
void
gtk_tree_path_append_index (GtkTreePath *path,
gint index)
{
g_return_if_fail (path != NULL);
g_return_if_fail (index >= 0);
path->depth += 1;
path->indices = g_realloc (path->indices, path->depth * sizeof(gint));
path->indices[path->depth - 1] = index;
}
/**
* gtk_tree_path_prepend_index:
* @path: A #GtkTreePath.
* @index: The index.
*
* Prepends a new index to a path. As a result, the depth of the path is
* increased.
**/
void
gtk_tree_path_prepend_index (GtkTreePath *path,
gint index)
{
gint *new_indices = g_new (gint, ++path->depth);
if (path->indices == NULL)
{
path->indices = new_indices;
path->indices[0] = index;
return;
}
memcpy (new_indices + 1, path->indices, (path->depth - 1)*sizeof (gint));
g_free (path->indices);
path->indices = new_indices;
path->indices[0] = index;
}
/**
* gtk_tree_path_get_depth:
* @path: A #GtkTreePath.
*
* Returns the current depth of @path.
*
* Return value: The depth of @path
**/
gint
gtk_tree_path_get_depth (GtkTreePath *path)
{
g_return_val_if_fail (path != NULL, 0);
return path->depth;
}
/**
* gtk_tree_path_get_indices:
* @path: A #GtkTreePath.
*
* Returns the current indices of @path. This is an array of integers, each
* representing a node in a tree.
*
* Return value: The current indices, or NULL.
**/
gint *
gtk_tree_path_get_indices (GtkTreePath *path)
{
g_return_val_if_fail (path != NULL, NULL);
return path->indices;
}
/**
* gtk_tree_path_free:
* @path: A #GtkTreePath.
*
* Frees @path.
**/
void
gtk_tree_path_free (GtkTreePath *path)
{
g_return_if_fail (path != NULL);
g_free (path->indices);
g_free (path);
}
/**
* gtk_tree_path_copy:
* @path: A #GtkTreePath.
*
* Creates a new #GtkTreePath as a copy of @path.
*
* Return value: A new #GtkTreePath.
**/
GtkTreePath *
gtk_tree_path_copy (GtkTreePath *path)
{
GtkTreePath *retval;
g_return_val_if_fail (path != NULL, NULL);
retval = g_new (GtkTreePath, 1);
retval->depth = path->depth;
retval->indices = g_new (gint, path->depth);
memcpy (retval->indices, path->indices, path->depth * sizeof (gint));
return retval;
}
/**
* gtk_tree_path_compare:
* @a: A #GtkTreePath.
* @b: A #GtkTreePath to compare with.
*
* Compares two paths. If @a appears before @b in a tree, then 1, is returned.
* If @b appears before @a, then -1 is returned. If the two nodes are equal,
* then 0 is returned.
*
* Return value: The relative positions of @a and @b
**/
gint
gtk_tree_path_compare (const GtkTreePath *a,
const GtkTreePath *b)
{
gint p = 0, q = 0;
g_return_val_if_fail (a != NULL, 0);
g_return_val_if_fail (b != NULL, 0);
g_return_val_if_fail (a->depth > 0, 0);
g_return_val_if_fail (b->depth > 0, 0);
do
{
if (a->indices[p] == b->indices[q])
continue;
return (a->indices[p] < b->indices[q]?1:-1);
}
while (++p < a->depth && ++q < b->depth);
if (a->depth == b->depth)
return 0;
return (a->depth < b->depth?1:-1);
}
/**
* gtk_tree_path_is_ancestor:
* @path: a #GtkTreePath
* @descendant: another #GtkTreePath
*
*
*
* Return value: %TRUE if @descendant is contained inside @path
**/
gboolean
gtk_tree_path_is_ancestor (GtkTreePath *path,
GtkTreePath *descendant)
{
gint i;
g_return_val_if_fail (path != NULL, FALSE);
g_return_val_if_fail (descendant != NULL, FALSE);
/* can't be an ancestor if we're deeper */
if (path->depth >= descendant->depth)
return FALSE;
i = 0;
while (i < path->depth)
{
if (path->indices[i] != descendant->indices[i])
return FALSE;
++i;
}
return TRUE;
}
/**
* gtk_tree_path_is_descendant:
* @path: a #GtkTreePath
* @ancestor: another #GtkTreePath
*
*
*
* Return value: %TRUE if @ancestor contains @path somewhere below it
**/
gboolean
gtk_tree_path_is_descendant (GtkTreePath *path,
GtkTreePath *ancestor)
{
gint i;
g_return_val_if_fail (path != NULL, FALSE);
g_return_val_if_fail (ancestor != NULL, FALSE);
/* can't be a descendant if we're shallower in the tree */
if (path->depth <= ancestor->depth)
return FALSE;
i = 0;
while (i < ancestor->depth)
{
if (path->indices[i] != ancestor->indices[i])
return FALSE;
++i;
}
return TRUE;
}
/**
* gtk_tree_path_next:
* @path: A #GtkTreePath.
*
* Moves the @path to point to the next node at the current depth.
**/
void
gtk_tree_path_next (GtkTreePath *path)
{
g_return_if_fail (path != NULL);
g_return_if_fail (path->depth > 0);
path->indices[path->depth - 1] ++;
}
/**
* gtk_tree_path_prev:
* @path: A #GtkTreePath.
*
* Moves the @path to point to the previous node at the current depth, if it exists.
*
* Return value: TRUE if @path has a previous node, and the move was made.
**/
gboolean
gtk_tree_path_prev (GtkTreePath *path)
{
g_return_val_if_fail (path != NULL, FALSE);
if (path->indices[path->depth - 1] == 0)
return FALSE;
path->indices[path->depth - 1] -= 1;
return TRUE;
}
/**
* gtk_tree_path_up:
* @path: A #GtkTreePath.
*
* Moves the @path to point to it's parent node, if it has a parent.
*
* Return value: TRUE if @path has a parent, and the move was made.
**/
gboolean
gtk_tree_path_up (GtkTreePath *path)
{
g_return_val_if_fail (path != NULL, FALSE);
if (path->depth == 1)
return FALSE;
path->depth--;
return TRUE;
}
/**
* gtk_tree_path_down:
* @path: A #GtkTreePath.
*
* Moves @path to point to the first child of the current path.
**/
void
gtk_tree_path_down (GtkTreePath *path)
{
g_return_if_fail (path != NULL);
gtk_tree_path_append_index (path, 0);
}
/**
* gtk_tree_iter_copy:
* @iter: A #GtkTreeIter.
*
* Creates a dynamically allocated tree iterator as a copy of @iter. This
* function is not intended for use in applications, because you can just copy
* the structs by value (GtkTreeIter new_iter = iter;). You
* must free this iter with gtk_tree_iter_free ().
*
* Return value: a newly allocated copy of @iter.
**/
GtkTreeIter *
gtk_tree_iter_copy (GtkTreeIter *iter)
{
GtkTreeIter *retval;
g_return_val_if_fail (iter != NULL, NULL);
retval = g_new (GtkTreeIter, 1);
*retval = *iter;
return retval;
}
/**
* gtk_tree_iter_free:
* @iter: A dynamically allocated tree iterator.
*
* Free an iterator that has been allocated on the heap. This function is
* mainly used for language bindings.
**/
void
gtk_tree_iter_free (GtkTreeIter *iter)
{
g_return_if_fail (iter != NULL);
g_free (iter);
}
/**
* gtk_tree_model_get_flags:
* @tree_model: A #GtkTreeModel.
*
* Returns a set of flags supported by this interface. The flags are a bitwise
* combination of #GtkTreeModelFlags. It is expected that the flags supported
* do not change for an interface.
*
* Return value: The flags supported by this interface.
**/
GtkTreeModelFlags
gtk_tree_model_get_flags (GtkTreeModel *tree_model)
{
g_return_val_if_fail (tree_model != NULL, 0);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), 0);
if (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_flags)
return (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_flags) (tree_model);
return 0;
}
/**
* gtk_tree_model_get_n_columns:
* @tree_model: A #GtkTreeModel.
*
* Returns the number of columns supported by the #tree_model
*
* Return value: The number of columns.
**/
gint
gtk_tree_model_get_n_columns (GtkTreeModel *tree_model)
{
g_return_val_if_fail (tree_model != NULL, 0);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), 0);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_n_columns != NULL, 0);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->get_n_columns) (tree_model);
}
/**
* gtk_tree_model_get_column_type:
* @tree_model: A #GtkTreeModel.
* @index: The column index.
*
* Returns the type of the column.
*
* Return value: The type of the column.
**/
GType
gtk_tree_model_get_column_type (GtkTreeModel *tree_model,
gint index)
{
g_return_val_if_fail (tree_model != NULL, G_TYPE_INVALID);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), G_TYPE_INVALID);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_column_type != NULL, G_TYPE_INVALID);
g_return_val_if_fail (index >= 0, G_TYPE_INVALID);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->get_column_type) (tree_model, index);
}
/**
* gtk_tree_model_get_iter:
* @tree_model: A #GtkTreeModel.
* @iter: The uninitialized #GtkTreeIter.
* @path: The #GtkTreePath.
*
* Sets @iter to a valid iterator pointing to @path. If the model does not
* provide an implementation of this function, it is implemented in terms of
* @gtk_tree_model_iter_nth_child.
*
* Return value: TRUE, if @iter was set.
**/
gboolean
gtk_tree_model_get_iter (GtkTreeModel *tree_model,
GtkTreeIter *iter,
GtkTreePath *path)
{
GtkTreeIter parent;
gint *indices;
gint depth, i;
g_return_val_if_fail (tree_model != NULL, FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (path != NULL, FALSE);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
if (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_iter != NULL)
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->get_iter) (tree_model, iter, path);
indices = gtk_tree_path_get_indices (path);
depth = gtk_tree_path_get_depth (path);
g_return_val_if_fail (depth > 0, FALSE);
if (! gtk_tree_model_iter_nth_child (tree_model, iter, NULL, indices[0]))
return FALSE;
for (i = 1; i < depth; i++)
{
parent = *iter;
if (! gtk_tree_model_iter_nth_child (tree_model, iter, &parent, indices[i]))
return FALSE;
}
return TRUE;
}
/**
* gtk_tree_model_get_first:
* @tree_model: a #GtkTreeModel
* @iter: iterator to initialize
*
* Initialized @iter with the first iterator in the tree (the one at the
* root path) and returns %TRUE, or returns %FALSE if there are no
* iterable locations in the model (i.e. the tree is empty).
*
* Return value: %TRUE if @iter was initialized
**/
gboolean
gtk_tree_model_get_first (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
gboolean retval;
GtkTreePath *path;
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
path = gtk_tree_path_new_root ();
retval = gtk_tree_model_get_iter (tree_model, iter, path);
gtk_tree_path_free (path);
return retval;
}
/**
* gtk_tree_model_get_path:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter.
*
* Returns a newly created #GtkTreePath referenced by @iter. This path should
* be freed with #gtk_tree_path_free.
*
* Return value: a newly created #GtkTreePath.
**/
GtkTreePath *
gtk_tree_model_get_path (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
g_return_val_if_fail (tree_model != NULL, NULL);
g_return_val_if_fail (iter != NULL, NULL);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), NULL);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_path != NULL, NULL);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->get_path) (tree_model, iter);
}
/**
* gtk_tree_model_get_value:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter.
* @column: The column to lookup the value at.
* @value: An empty #GValue to set.
*
* Sets initializes and sets @value to that at @column. When done with value,
* #g_value_unset needs to be called on it.
**/
void
gtk_tree_model_get_value (GtkTreeModel *tree_model,
GtkTreeIter *iter,
gint column,
GValue *value)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (iter != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
g_return_if_fail (value != NULL);
g_return_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->get_value != NULL);
(* GTK_TREE_MODEL_GET_IFACE (tree_model)->get_value) (tree_model, iter, column, value);
}
/**
* gtk_tree_model_iter_next:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter.
*
* Sets @iter to point to the node following it at the current level. If there
* is no next @iter, FALSE is returned and @iter is set to be invalid.
*
* Return value: TRUE if @iter has been changed to the next node.
**/
gboolean
gtk_tree_model_iter_next (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
g_return_val_if_fail (tree_model != NULL, FALSE);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_next != NULL, FALSE);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_next) (tree_model, iter);
}
/**
* gtk_tree_model_iter_children:
* @tree_model: A #GtkTreeModel.
* @iter: The new #GtkTreeIter to be set to the child.
* @parent: The #GtkTreeIter.
*
* Sets @iter to point to the first child of @parent. If @parent has no children,
* FALSE is returned and @iter is set to be invalid. @parent will remain a valid
* node after this function has been called.
*
* Return value: TRUE, if @child has been set to the first child.
**/
gboolean
gtk_tree_model_iter_children (GtkTreeModel *tree_model,
GtkTreeIter *iter,
GtkTreeIter *parent)
{
g_return_val_if_fail (tree_model != NULL, FALSE);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_children != NULL, FALSE);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_children) (tree_model, iter, parent);
}
/**
* gtk_tree_model_iter_has_child:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter to test for children.
*
* Returns TRUE if @iter has children, FALSE otherwise.
*
* Return value: TRUE if @iter has children.
**/
gboolean
gtk_tree_model_iter_has_child (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
g_return_val_if_fail (tree_model != NULL, FALSE);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_has_child != NULL, FALSE);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_has_child) (tree_model, iter);
}
/**
* gtk_tree_model_iter_n_children:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter, or NULL.
*
* Returns the number of children that @iter has. If @iter is NULL, then the
* number of toplevel nodes is returned.
*
* Return value: The number of children of @iter.
**/
gint
gtk_tree_model_iter_n_children (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
g_return_val_if_fail (tree_model != NULL, 0);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), 0);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_n_children != NULL, 0);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_n_children) (tree_model, iter);
}
/**
* gtk_tree_model_iter_nth_child:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter to set to the nth child.
* @parent: The #GtkTreeIter to get the child from, or NULL.
* @n: Then index of the desired child.
*
* Sets @iter to be the child of @parent, using the given index. The first
* index is 0. If the index is too big, or @parent has no children, @iter is
* set to an invalid iterator and FALSE is returned. @parent will remain a
* valid node after this function has been called. If @parent is NULL, then the
* root node is assumed.
*
* Return value: TRUE, if @parent has an nth child.
**/
gboolean
gtk_tree_model_iter_nth_child (GtkTreeModel *tree_model,
GtkTreeIter *iter,
GtkTreeIter *parent,
gint n)
{
g_return_val_if_fail (tree_model != NULL, FALSE);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (n >= 0, FALSE);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_nth_child != NULL, FALSE);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_nth_child) (tree_model, iter, parent, n);
}
/**
* gtk_tree_model_iter_parent:
* @tree_model: A #GtkTreeModel
* @iter: The new #GtkTreeIter to set to the parent.
* @child: The #GtkTreeIter.
*
* Sets @iter to be the parent of @child. If @child is at the toplevel, and
* doesn't have a parent, then @iter is set to an invalid iterator and FALSE
* is returned. @child will remain a valid node after this function has been
* called.
*
* Return value: TRUE, if @iter is set to the parent of @child.
**/
gboolean
gtk_tree_model_iter_parent (GtkTreeModel *tree_model,
GtkTreeIter *iter,
GtkTreeIter *child)
{
g_return_val_if_fail (tree_model != NULL, FALSE);
g_return_val_if_fail (GTK_IS_TREE_MODEL (tree_model), FALSE);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (child != NULL, FALSE);
g_return_val_if_fail (GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_parent != NULL, FALSE);
return (* GTK_TREE_MODEL_GET_IFACE (tree_model)->iter_parent) (tree_model, iter, child);
}
/* FIXME explain what the method is supposed to do! */
/**
* gtk_tree_model_ref_iter:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter.
*
* Ref's the iter. This is an optional method for models to implement. To be
* more specific, models may ignore this call as it exists primarily for
* performance reasons.
**/
void
gtk_tree_model_ref_iter (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
if (GTK_TREE_MODEL_GET_IFACE (tree_model)->ref_iter)
(* GTK_TREE_MODEL_GET_IFACE (tree_model)->ref_iter) (tree_model, iter);
}
/* FIXME explain what the method is supposed to do! */
/**
* gtk_tree_model_unref_iter:
* @tree_model: A #GtkTreeModel.
* @iter: The #GtkTreeIter.
*
* Unref's the iter. This is an optional method for models to implement. To be
* more specific, models may ignore this call as it exists primarily for
* performance reasons.
**/
void
gtk_tree_model_unref_iter (GtkTreeModel *tree_model,
GtkTreeIter *iter)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
if (GTK_TREE_MODEL_GET_IFACE (tree_model)->unref_iter)
(* GTK_TREE_MODEL_GET_IFACE (tree_model)->unref_iter) (tree_model, iter);
}
/**
* gtk_tree_model_get:
* @tree_model: a #GtkTreeModel
* @iter: a row in @tree_model
* @Varargs: pairs of column number and value return locations, terminated by -1
*
* Gets 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 a place to store the value being
* retrieved. The list is terminated by a -1. For example, to get a
* value from column 0 with type %G_TYPE_STRING, you would
* write: gtk_tree_model_set (model, iter, 0, &place_string_here, -1),
* where place_string_here is a gchar* to be filled with the string.
* If appropriate, the returned values have to be freed or unreferenced.
*
**/
void
gtk_tree_model_get (GtkTreeModel *tree_model,
GtkTreeIter *iter,
...)
{
va_list var_args;
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
va_start (var_args, iter);
gtk_tree_model_get_valist (tree_model, iter, var_args);
va_end (var_args);
}
/**
* gtk_tree_model_get_valist:
* @tree_model: a #GtkTreeModel
* @iter: a row in @tree_model
* @var_args: va_list of column/return location pairs
*
* See gtk_tree_model_get(), this version takes a va_list for
* language bindings to use.
*
**/
void
gtk_tree_model_get_valist (GtkTreeModel *tree_model,
GtkTreeIter *iter,
va_list var_args)
{
gint column;
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
column = va_arg (var_args, gint);
while (column != -1)
{
GValue value = { 0, };
gchar *error = NULL;
if (column >= gtk_tree_model_get_n_columns (tree_model))
{
g_warning ("%s: Invalid column number %d accessed (remember to end your list of columns with a -1)", G_STRLOC, column);
break;
}
gtk_tree_model_get_value (GTK_TREE_MODEL (tree_model), iter, column, &value);
G_VALUE_LCOPY (&value, 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;
}
g_value_unset (&value);
column = va_arg (var_args, gint);
}
}
void
gtk_tree_model_changed (GtkTreeModel *tree_model,
GtkTreePath *path,
GtkTreeIter *iter)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
g_return_if_fail (path != NULL);
g_return_if_fail (iter != NULL);
g_signal_emit_by_name (tree_model, "changed", path, iter);
}
void
gtk_tree_model_inserted (GtkTreeModel *tree_model,
GtkTreePath *path,
GtkTreeIter *iter)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
g_return_if_fail (path != NULL);
g_return_if_fail (iter != NULL);
g_signal_emit_by_name (tree_model, "inserted", path, iter);
}
void
gtk_tree_model_has_child_toggled (GtkTreeModel *tree_model,
GtkTreePath *path,
GtkTreeIter *iter)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
g_return_if_fail (path != NULL);
g_return_if_fail (iter != NULL);
g_signal_emit_by_name (tree_model, "has_child_toggled", path, iter);
}
void
gtk_tree_model_deleted (GtkTreeModel *tree_model,
GtkTreePath *path)
{
g_return_if_fail (tree_model != NULL);
g_return_if_fail (GTK_IS_TREE_MODEL (tree_model));
g_return_if_fail (path != NULL);
g_signal_emit_by_name (tree_model, "deleted", path);
}
/**
** GtkTreeRowReference
**/
#define ROW_REF_DATA_STRING "gtk-tree-row-refs"
struct _GtkTreeRowReference
{
GObject *proxy;
GtkTreeModel *model;
GtkTreePath *path;
};
typedef struct
{
GSList *list;
} RowRefList;
static void
release_row_references (gpointer data)
{
RowRefList *refs = data;
GSList *tmp_list = NULL;
tmp_list = refs->list;
while (tmp_list != NULL)
{
GtkTreeRowReference *reference = tmp_list->data;
if (reference->proxy == (GObject *)reference->model)
reference->model = NULL;
reference->proxy = NULL;
/* we don't free the reference, users are responsible for that. */
tmp_list = g_slist_next (tmp_list);
}
g_slist_free (refs->list);
g_free (refs);
}
static void
gtk_tree_row_ref_inserted_callback (GObject *object,
GtkTreePath *path,
GtkTreeIter *iter,
gpointer data)
{
RowRefList *refs = g_object_get_data (data, ROW_REF_DATA_STRING);
GSList *tmp_list;
if (refs == NULL)
return;
/* This function corrects the path stored in the reference to
* account for an insertion. Note that it's called _after_ the insertion
* with the path to the newly-inserted row. Which means that
* the inserted path is in a different "coordinate system" than
* the old path (e.g. if the inserted path was just before the old path,
* then inserted path and old path will be the same, and old path must be
* moved down one).
*/
tmp_list = refs->list;
while (tmp_list != NULL)
{
GtkTreeRowReference *reference = tmp_list->data;
if (reference->path)
{
gint depth = gtk_tree_path_get_depth (path);
gint ref_depth = gtk_tree_path_get_depth (reference->path);
if (ref_depth >= depth)
{
gint *indices = gtk_tree_path_get_indices (path);
gint *ref_indices = gtk_tree_path_get_indices (reference->path);
gint i;
/* This is the depth that might affect us. */
i = depth - 1;
if (indices[i] <= ref_indices[i])
ref_indices[i] += 1;
}
}
tmp_list = g_slist_next (tmp_list);
}
}
static void
gtk_tree_row_ref_deleted_callback (GObject *object,
GtkTreePath *path,
gpointer data)
{
RowRefList *refs = g_object_get_data (data, ROW_REF_DATA_STRING);
GSList *tmp_list;
if (refs == NULL)
return;
/* This function corrects the path stored in the reference to
* account for an deletion. Note that it's called _after_ the
* deletion with the old path of the just-deleted row. Which means
* that the deleted path is the same now-defunct "coordinate system"
* as the path saved in the reference, which is what we want to fix.
*
* Note that this is different from the situation in "inserted," so
* while you might think you can cut-and-paste between these
* functions, it's not going to work. ;-)
*/
tmp_list = refs->list;
while (tmp_list != NULL)
{
GtkTreeRowReference *reference = tmp_list->data;
if (reference->path)
{
gint depth = gtk_tree_path_get_depth (path);
gint ref_depth = gtk_tree_path_get_depth (reference->path);
if (ref_depth >= depth)
{
/* Need to adjust path upward */
gint *indices = gtk_tree_path_get_indices (path);
gint *ref_indices = gtk_tree_path_get_indices (reference->path);
gint i;
i = depth - 1;
if (indices[i] < ref_indices[i])
ref_indices[i] -= 1;
else if (indices[i] == ref_indices[i])
{
/* the referenced node itself, or its parent, was
* deleted, mark invalid
*/
gtk_tree_path_free (reference->path);
reference->path = NULL;
}
}
}
tmp_list = g_slist_next (tmp_list);
}
}
static void
connect_ref_callbacks (GtkTreeModel *model)
{
g_signal_connect_data (G_OBJECT (model),
"inserted",
(GCallback) gtk_tree_row_ref_inserted_callback,
model,
NULL,
FALSE,
FALSE);
g_signal_connect_data (G_OBJECT (model),
"deleted",
(GCallback) gtk_tree_row_ref_deleted_callback,
model,
NULL,
FALSE,
FALSE);
}
static void
disconnect_ref_callbacks (GtkTreeModel *model)
{
g_signal_handlers_disconnect_matched (G_OBJECT (model),
G_SIGNAL_MATCH_FUNC,
0, 0, NULL,
gtk_tree_row_ref_inserted_callback,
NULL);
g_signal_handlers_disconnect_matched (G_OBJECT (model),
G_SIGNAL_MATCH_FUNC,
0, 0, NULL,
gtk_tree_row_ref_deleted_callback,
NULL);
}
GtkTreeRowReference *
gtk_tree_row_reference_new (GtkTreeModel *model,
GtkTreePath *path)
{
g_return_val_if_fail (model != NULL, NULL);
g_return_val_if_fail (GTK_IS_TREE_MODEL (model), NULL);
g_return_val_if_fail (path != NULL, NULL);
return gtk_tree_row_reference_new_proxy (G_OBJECT (model), model, path);
}
GtkTreeRowReference *
gtk_tree_row_reference_new_proxy (GObject *proxy,
GtkTreeModel *model,
GtkTreePath *path)
{
GtkTreeRowReference *reference;
RowRefList *refs;
g_return_val_if_fail (proxy != NULL, NULL);
g_return_val_if_fail (G_IS_OBJECT (proxy), NULL);
g_return_val_if_fail (model != NULL, NULL);
g_return_val_if_fail (GTK_IS_TREE_MODEL (model), NULL);
g_return_val_if_fail (path != NULL, NULL);
reference = g_new (GtkTreeRowReference, 1);
reference->proxy = proxy;
reference->model = model;
reference->path = gtk_tree_path_copy (path);
refs = g_object_get_data (G_OBJECT (proxy), ROW_REF_DATA_STRING);
if (refs == NULL)
{
refs = g_new (RowRefList, 1);
refs->list = NULL;
if (G_OBJECT (model) == proxy)
connect_ref_callbacks (model);
g_object_set_data_full (G_OBJECT (proxy),
ROW_REF_DATA_STRING,
refs, release_row_references);
}
refs->list = g_slist_prepend (refs->list, reference);
return reference;
}
GtkTreePath *
gtk_tree_row_reference_get_path (GtkTreeRowReference *reference)
{
g_return_val_if_fail (reference != NULL, NULL);
if (reference->proxy == NULL)
return NULL;
if (reference->path == NULL)
return NULL;
return gtk_tree_path_copy (reference->path);
}
void
gtk_tree_row_reference_free (GtkTreeRowReference *reference)
{
RowRefList *refs;
g_return_if_fail (reference != NULL);
if (reference->proxy)
{
refs = g_object_get_data (G_OBJECT (reference->proxy), ROW_REF_DATA_STRING);
if (refs == NULL)
{
g_warning (G_STRLOC": bad row reference, proxy has no outstanding row references");
return;
}
refs->list = g_slist_remove (refs->list, reference);
if (refs->list == NULL)
{
disconnect_ref_callbacks (reference->model);
g_object_set_data (G_OBJECT (reference->proxy),
ROW_REF_DATA_STRING,
NULL);
}
}
if (reference->path)
gtk_tree_path_free (reference->path);
g_free (reference);
}
void
gtk_tree_row_reference_inserted (GObject *proxy,
GtkTreePath *path)
{
g_return_if_fail (proxy != NULL);
g_return_if_fail (G_IS_OBJECT (proxy));
gtk_tree_row_ref_inserted_callback (NULL, path, NULL, proxy);
}
void
gtk_tree_row_reference_deleted (GObject *proxy,
GtkTreePath *path)
{
g_return_if_fail (proxy != NULL);
g_return_if_fail (G_IS_OBJECT (proxy));
gtk_tree_row_ref_deleted_callback (NULL, path, proxy);
}
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