ctktreemodel.c

Bug Summary

File:	ctk/ctktreemodel.c
Warning:	line 2039, column 7 This statement is never executed

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clang -cc1 -cc1 -triple x86_64-pc-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name ctktreemodel.c -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -fhalf-no-semantic-interposition -mframe-pointer=all -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fdebug-compilation-dir=/rootdir/ctk -fcoverage-compilation-dir=/rootdir/ctk -resource-dir /usr/lib/llvm-19/lib/clang/19 -D HAVE_CONFIG_H -I . -I .. -D G_LOG_DOMAIN="Ctk" -D G_LOG_USE_STRUCTURED=1 -D CTK_VERSION="3.25.6" -D CTK_BINARY_VERSION="3.0.0" -D CTK_COMPILATION -D CTK_PRINT_BACKEND_ENABLE_UNSUPPORTED -D CTK_LIBDIR="/usr/lib" -D CTK_LOCALEDIR="/usr/share/locale" -D CTK_DATADIR="/usr/share" -D CTK_DATA_PREFIX="/usr" -D CTK_SYSCONFDIR="/usr/etc" -D CTK_HOST="x86_64-pc-linux-gnu" -D CTK_PRINT_BACKENDS="file,cups" -D X11_DATA_PREFIX="/usr" -D ISO_CODES_PREFIX="" -I .. -I ../ctk -I .. -I ../cdk -I /usr/include/glib-2.0 -I /usr/lib/x86_64-linux-gnu/glib-2.0/include -I /usr/include/sysprof-6 -D G_ENABLE_DEBUG -D G_ENABLE_CONSISTENCY_CHECKS -D GLIB_MIN_REQUIRED_VERSION=GLIB_VERSION_2_66 -D GLIB_MAX_ALLOWED_VERSION=GLIB_VERSION_2_66 -I /usr/include/pango-1.0 -I /usr/include/glib-2.0 -I /usr/lib/x86_64-linux-gnu/glib-2.0/include -I /usr/include/sysprof-6 -I /usr/include/harfbuzz -I /usr/include/freetype2 -I /usr/include/libpng16 -I /usr/include/libmount -I /usr/include/blkid -I /usr/include/fribidi -I /usr/include/cairo -I /usr/include/pixman-1 -I /usr/include/atk-1.0 -I /usr/include/gdk-pixbuf-2.0 -I /usr/include/x86_64-linux-gnu -I /usr/include/webp -I /usr/include/at-spi2-atk/2.0 -I /usr/include/at-spi-2.0 -I /usr/include/dbus-1.0 -I /usr/lib/x86_64-linux-gnu/dbus-1.0/include -I /usr/include/gio-unix-2.0 -I /usr/include/harfbuzz -I /usr/include/freetype2 -I /usr/include/libpng16 -I /usr/include/glib-2.0 -I /usr/lib/x86_64-linux-gnu/glib-2.0/include -I /usr/include/sysprof-6 -I /usr/include/pango-1.0 -I /usr/include/libmount -I /usr/include/blkid -I /usr/include/fribidi -I /usr/include/cairo -I /usr/include/pixman-1 -D PIC -internal-isystem /usr/lib/llvm-19/lib/clang/19/include -internal-isystem /usr/local/include -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/15/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -ferror-limit 19 -fvisibility=hidden -fgnuc-version=4.2.1 -fskip-odr-check-in-gmf -analyzer-checker deadcode.DeadStores -analyzer-checker alpha.deadcode.UnreachableCode -analyzer-checker alpha.core.CastSize -analyzer-checker alpha.core.CastToStruct -analyzer-checker alpha.core.IdenticalExpr -analyzer-checker alpha.security.ArrayBoundV2 -analyzer-checker alpha.security.MallocOverflow -analyzer-checker alpha.security.ReturnPtrRange -analyzer-checker alpha.unix.SimpleStream -analyzer-checker alpha.unix.cstring.BufferOverlap -analyzer-checker alpha.unix.cstring.NotNullTerminated -analyzer-checker alpha.unix.cstring.OutOfBounds -analyzer-checker alpha.core.FixedAddr -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /rootdir/html-report/2025-10-16-170533-43934-1 -x c ctktreemodel.c

1	/* ctktreemodel.c
2	* Copyright (C) 2000 Red Hat, Inc., Jonathan Blandford <jrb@redhat.com>
3	*
4	* This library is free software; you can redistribute it and/or
5	* modify it under the terms of the GNU Library General Public
6	* License as published by the Free Software Foundation; either
7	* version 2 of the License, or (at your option) any later version.
8	*
9	* This library is distributed in the hope that it will be useful,
10	* but WITHOUT ANY WARRANTY; without even the implied warranty of
11	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12	* Library General Public License for more details.
13	*
14	* You should have received a copy of the GNU Library General Public
15	* License along with this library. If not, see <http://www.gnu.org/licenses/>.
16	*/
17
18	#include "config.h"
19	#include <stdlib.h>
20	#include <string.h>
21	#include <glib.h>
22	#include <glib/gprintf.h>
23	#include <gobject/gvaluecollector.h>
24	#include "ctktreemodel.h"
25	#include "ctktreeview.h"
26	#include "ctktreeprivate.h"
27	#include "ctkmarshalers.h"
28	#include "ctkintl.h"
29
30	/**
31	* SECTION:ctktreemodel
32	* @Title: CtkTreeModel
33	* @Short_description: The tree interface used by CtkTreeView
34	* @See_also: #CtkTreeView, #CtkTreeStore, #CtkListStore,
35	* [CtkTreeView drag-and-drop][ctk3-CtkTreeView-drag-and-drop]
36	* #CtkTreeSortable
37	*
38	* The #CtkTreeModel interface defines a generic tree interface for
39	* use by the #CtkTreeView widget. It is an abstract interface, and
40	* is designed to be usable with any appropriate data structure. The
41	* programmer just has to implement this interface on their own data
42	* type for it to be viewable by a #CtkTreeView widget.
43	*
44	* The model is represented as a hierarchical tree of strongly-typed,
45	* columned data. In other words, the model can be seen as a tree where
46	* every node has different values depending on which column is being
47	* queried. The type of data found in a column is determined by using
48	* the GType system (ie. #G_TYPE_INT, #CTK_TYPE_BUTTON, #G_TYPE_POINTER,
49	* etc). The types are homogeneous per column across all nodes. It is
50	* important to note that this interface only provides a way of examining
51	* a model and observing changes. The implementation of each individual
52	* model decides how and if changes are made.
53	*
54	* In order to make life simpler for programmers who do not need to
55	* write their own specialized model, two generic models are provided
56	* — the #CtkTreeStore and the #CtkListStore. To use these, the
57	* developer simply pushes data into these models as necessary. These
58	* models provide the data structure as well as all appropriate tree
59	* interfaces. As a result, implementing drag and drop, sorting, and
60	* storing data is trivial. For the vast majority of trees and lists,
61	* these two models are sufficient.
62	*
63	* Models are accessed on a node/column level of granularity. One can
64	* query for the value of a model at a certain node and a certain
65	* column on that node. There are two structures used to reference a
66	* particular node in a model. They are the #CtkTreePath-struct and
67	* the #CtkTreeIter-struct (“iter” is short for iterator). Most of the
68	* interface consists of operations on a #CtkTreeIter-struct.
69	*
70	* A path is essentially a potential node. It is a location on a model
71	* that may or may not actually correspond to a node on a specific
72	* model. The #CtkTreePath-struct can be converted into either an
73	* array of unsigned integers or a string. The string form is a list
74	* of numbers separated by a colon. Each number refers to the offset
75	* at that level. Thus, the path `0` refers to the root
76	* node and the path `2:4` refers to the fifth child of
77	* the third node.
78	*
79	* By contrast, a #CtkTreeIter-struct is a reference to a specific node on
80	* a specific model. It is a generic struct with an integer and three
81	* generic pointers. These are filled in by the model in a model-specific
82	* way. One can convert a path to an iterator by calling
83	* ctk_tree_model_get_iter(). These iterators are the primary way
84	* of accessing a model and are similar to the iterators used by
85	* #CtkTextBuffer. They are generally statically allocated on the
86	* stack and only used for a short time. The model interface defines
87	* a set of operations using them for navigating the model.
88	*
89	* It is expected that models fill in the iterator with private data.
90	* For example, the #CtkListStore model, which is internally a simple
91	* linked list, stores a list node in one of the pointers. The
92	* #CtkTreeModelSort stores an array and an offset in two of the
93	* pointers. Additionally, there is an integer field. This field is
94	* generally filled with a unique stamp per model. This stamp is for
95	* catching errors resulting from using invalid iterators with a model.
96	*
97	* The lifecycle of an iterator can be a little confusing at first.
98	* Iterators are expected to always be valid for as long as the model
99	* is unchanged (and doesn’t emit a signal). The model is considered
100	* to own all outstanding iterators and nothing needs to be done to
101	* free them from the user’s point of view. Additionally, some models
102	* guarantee that an iterator is valid for as long as the node it refers
103	* to is valid (most notably the #CtkTreeStore and #CtkListStore).
104	* Although generally uninteresting, as one always has to allow for
105	* the case where iterators do not persist beyond a signal, some very
106	* important performance enhancements were made in the sort model.
107	* As a result, the #CTK_TREE_MODEL_ITERS_PERSIST flag was added to
108	* indicate this behavior.
109	*
110	* To help show some common operation of a model, some examples are
111	* provided. The first example shows three ways of getting the iter at
112	* the location `3:2:5`. While the first method shown is
113	* easier, the second is much more common, as you often get paths from
114	* callbacks.
115	*
116	* ## Acquiring a #CtkTreeIter-struct
117	*
118	* \|[<!-- language="C" -->
119	* // Three ways of getting the iter pointing to the location
120	* CtkTreePath *path;
121	* CtkTreeIter iter;
122	* CtkTreeIter parent_iter;
123	*
124	* // get the iterator from a string
125	* ctk_tree_model_get_iter_from_string (model,
126	* &iter,
127	* "3:2:5");
128	*
129	* // get the iterator from a path
130	* path = ctk_tree_path_new_from_string ("3:2:5");
131	* ctk_tree_model_get_iter (model, &iter, path);
132	* ctk_tree_path_free (path);
133	*
134	* // walk the tree to find the iterator
135	* ctk_tree_model_iter_nth_child (model, &iter,
136	* NULL, 3);
137	* parent_iter = iter;
138	* ctk_tree_model_iter_nth_child (model, &iter,
139	* &parent_iter, 2);
140	* parent_iter = iter;
141	* ctk_tree_model_iter_nth_child (model, &iter,
142	* &parent_iter, 5);
143	* ]\|
144	*
145	* This second example shows a quick way of iterating through a list
146	* and getting a string and an integer from each row. The
147	* populate_model() function used below is not
148	* shown, as it is specific to the #CtkListStore. For information on
149	* how to write such a function, see the #CtkListStore documentation.
150	*
151	* ## Reading data from a #CtkTreeModel
152	*
153	* \|[<!-- language="C" -->
154	* enum
155	* {
156	* STRING_COLUMN,
157	* INT_COLUMN,
158	* N_COLUMNS
159	* };
160	*
161	* ...
162	*
163	* CtkTreeModel *list_store;
164	* CtkTreeIter iter;
165	* gboolean valid;
166	* gint row_count = 0;
167	*
168	* // make a new list_store
169	* list_store = ctk_list_store_new (N_COLUMNS,
170	* G_TYPE_STRING,
171	* G_TYPE_INT);
172	*
173	* // Fill the list store with data
174	* populate_model (list_store);
175	*
176	* // Get the first iter in the list, check it is valid and walk
177	* // through the list, reading each row.
178	*
179	* valid = ctk_tree_model_get_iter_first (list_store,
180	* &iter);
181	* while (valid)
182	* {
183	* gchar *str_data;
184	* gint int_data;
185	*
186	* // Make sure you terminate calls to ctk_tree_model_get() with a “-1” value
187	* ctk_tree_model_get (list_store, &iter,
188	* STRING_COLUMN, &str_data,
189	* INT_COLUMN, &int_data,
190	* -1);
191	*
192	* // Do something with the data
193	* g_print ("Row %d: (%s,%d)\n",
194	* row_count, str_data, int_data);
195	* g_free (str_data);
196	*
197	* valid = ctk_tree_model_iter_next (list_store,
198	* &iter);
199	* row_count++;
200	* }
201	* ]\|
202	*
203	* The #CtkTreeModel interface contains two methods for reference
204	* counting: ctk_tree_model_ref_node() and ctk_tree_model_unref_node().
205	* These two methods are optional to implement. The reference counting
206	* is meant as a way for views to let models know when nodes are being
207	* displayed. #CtkTreeView will take a reference on a node when it is
208	* visible, which means the node is either in the toplevel or expanded.
209	* Being displayed does not mean that the node is currently directly
210	* visible to the user in the viewport. Based on this reference counting
211	* scheme a caching model, for example, can decide whether or not to cache
212	* a node based on the reference count. A file-system based model would
213	* not want to keep the entire file hierarchy in memory, but just the
214	* folders that are currently expanded in every current view.
215	*
216	* When working with reference counting, the following rules must be taken
217	* into account:
218	*
219	* - Never take a reference on a node without owning a reference on its parent.
220	* This means that all parent nodes of a referenced node must be referenced
221	* as well.
222	*
223	* - Outstanding references on a deleted node are not released. This is not
224	* possible because the node has already been deleted by the time the
225	* row-deleted signal is received.
226	*
227	* - Models are not obligated to emit a signal on rows of which none of its
228	* siblings are referenced. To phrase this differently, signals are only
229	* required for levels in which nodes are referenced. For the root level
230	* however, signals must be emitted at all times (however the root level
231	* is always referenced when any view is attached).
232	*/
233
234	#define INITIALIZE_TREE_ITER(Iter)do{ (Iter)->stamp = 0; (Iter)->user_data = ((void)0); ( Iter)->user_data2 = ((void)0); (Iter)->user_data3 = (( void*)0); }while (0) \
235	G_STMT_STARTdo{ \
236	(Iter)->stamp = 0; \
237	(Iter)->user_data = NULL((void*)0); \
238	(Iter)->user_data2 = NULL((void*)0); \
239	(Iter)->user_data3 = NULL((void*)0); \
240	}G_STMT_ENDwhile (0)
241
242	#define ROW_REF_DATA_STRING"ctk-tree-row-refs" "ctk-tree-row-refs"
243
244	enum {
245	ROW_CHANGED,
246	ROW_INSERTED,
247	ROW_HAS_CHILD_TOGGLED,
248	ROW_DELETED,
249	ROWS_REORDERED,
250	LAST_SIGNAL
251	};
252
253	static guint tree_model_signals[LAST_SIGNAL] = { 0 };
254
255	struct _CtkTreePath
256	{
257	gint depth; /* Number of elements */
258	gint alloc; /* Number of allocated elements */
259	gint *indices;
260	};
261
262	typedef struct
263	{
264	GSList *list;
265	} RowRefList;
266
267	static void ctk_tree_model_base_init (gpointer g_class);
268
269	/* custom closures */
270	static void row_inserted_marshal (GClosure *closure,
271	GValue /* out / return_value,
272	guint n_param_value,
273	const GValue *param_values,
274	gpointer invocation_hint,
275	gpointer marshal_data);
276	static void row_deleted_marshal (GClosure *closure,
277	GValue /* out / return_value,
278	guint n_param_value,
279	const GValue *param_values,
280	gpointer invocation_hint,
281	gpointer marshal_data);
282	static void rows_reordered_marshal (GClosure *closure,
283	GValue /* out / return_value,
284	guint n_param_value,
285	const GValue *param_values,
286	gpointer invocation_hint,
287	gpointer marshal_data);
288
289	static void ctk_tree_row_ref_inserted (RowRefList *refs,
290	CtkTreePath *path,
291	CtkTreeIter *iter);
292	static void ctk_tree_row_ref_deleted (RowRefList *refs,
293	CtkTreePath *path);
294	static void ctk_tree_row_ref_reordered (RowRefList *refs,
295	CtkTreePath *path,
296	CtkTreeIter *iter,
297	gint *new_order);
298
299	GType
300	ctk_tree_model_get_type (void)
301	{
302	static GType tree_model_type = 0;
303
304	if (! tree_model_type)
305	{
306	const GTypeInfo tree_model_info =
307	{
308	.class_size = sizeof (CtkTreeModelIface),
309	.base_init = ctk_tree_model_base_init,
310	.instance_size = 0,
311	.n_preallocs = 0
312	};
313
314	tree_model_type =
315	g_type_register_static (G_TYPE_INTERFACE((GType) ((2) << (2))), I_("CtkTreeModel")g_intern_static_string ("CtkTreeModel"),
316	&tree_model_info, 0);
317
318	g_type_interface_add_prerequisite (tree_model_type, G_TYPE_OBJECT((GType) ((20) << (2))));
319	}
320
321	return tree_model_type;
322	}
323
324	static void
325	ctk_tree_model_base_init (gpointer g_class)
326	{
327	static gboolean initialized = FALSE(0);
328	GClosure *closure;
329
330	if (! initialized)
331	{
332	GType row_inserted_params[2];
333	GType row_deleted_params[1];
334	GType rows_reordered_params[3];
335
336	row_inserted_params[0] = CTK_TYPE_TREE_PATH(ctk_tree_path_get_type ()) \| G_SIGNAL_TYPE_STATIC_SCOPE(((GType) (1 << 0)));
337	row_inserted_params[1] = CTK_TYPE_TREE_ITER(ctk_tree_iter_get_type ());
338
339	row_deleted_params[0] = CTK_TYPE_TREE_PATH(ctk_tree_path_get_type ()) \| G_SIGNAL_TYPE_STATIC_SCOPE(((GType) (1 << 0)));
340
341	rows_reordered_params[0] = CTK_TYPE_TREE_PATH(ctk_tree_path_get_type ()) \| G_SIGNAL_TYPE_STATIC_SCOPE(((GType) (1 << 0)));
342	rows_reordered_params[1] = CTK_TYPE_TREE_ITER(ctk_tree_iter_get_type ());
343	rows_reordered_params[2] = G_TYPE_POINTER((GType) ((17) << (2)));
344
345	/**
346	* CtkTreeModel::row-changed:
347	* @tree_model: the #CtkTreeModel on which the signal is emitted
348	* @path: a #CtkTreePath-struct identifying the changed row
349	* @iter: a valid #CtkTreeIter-struct pointing to the changed row
350	*
351	* This signal is emitted when a row in the model has changed.
352	*/
353	tree_model_signals[ROW_CHANGED] =
354	g_signal_new (I_("row-changed")g_intern_static_string ("row-changed"),
355	CTK_TYPE_TREE_MODEL(ctk_tree_model_get_type ()),
356	G_SIGNAL_RUN_LAST,
357	G_STRUCT_OFFSET (CtkTreeModelIface, row_changed)((glong) __builtin_offsetof(CtkTreeModelIface, row_changed)),
358	NULL((void)0), NULL((void)0),
359	_ctk_marshal_VOID__BOXED_BOXED,
360	G_TYPE_NONE((GType) ((1) << (2))), 2,
361	CTK_TYPE_TREE_PATH(ctk_tree_path_get_type ()) \| G_SIGNAL_TYPE_STATIC_SCOPE(((GType) (1 << 0))),
362	CTK_TYPE_TREE_ITER(ctk_tree_iter_get_type ()));
363	g_signal_set_va_marshaller (tree_model_signals[ROW_CHANGED],
364	G_TYPE_FROM_CLASS (g_class)(((GTypeClass*) (g_class))->g_type),
365	_ctk_marshal_VOID__BOXED_BOXEDv);
366
367	/* We need to get notification about structure changes
368	* to update row references., so instead of using the
369	* standard g_signal_new() with an offset into our interface
370	* structure, we use a customs closures for the class
371	* closures (default handlers) that first update row references
372	* and then calls the function from the interface structure.
373	*
374	* The reason we don't simply update the row references from
375	* the wrapper functions (ctk_tree_model_row_inserted(), etc.)
376	* is to keep proper ordering with respect to signal handlers
377	* connected normally and after.
378	*/
379
380	/**
381	* CtkTreeModel::row-inserted:
382	* @tree_model: the #CtkTreeModel on which the signal is emitted
383	* @path: a #CtkTreePath-struct identifying the new row
384	* @iter: a valid #CtkTreeIter-struct pointing to the new row
385	*
386	* This signal is emitted when a new row has been inserted in
387	* the model.
388	*
389	* Note that the row may still be empty at this point, since
390	* it is a common pattern to first insert an empty row, and
391	* then fill it with the desired values.
392	*/
393	closure = g_closure_new_simple (sizeof (GClosure), NULL((void*)0));
394	g_closure_set_marshal (closure, row_inserted_marshal);
395	tree_model_signals[ROW_INSERTED] =
396	g_signal_newv (I_("row-inserted")g_intern_static_string ("row-inserted"),
397	CTK_TYPE_TREE_MODEL(ctk_tree_model_get_type ()),
398	G_SIGNAL_RUN_FIRST,
399	closure,
400	NULL((void)0), NULL((void)0),
401	_ctk_marshal_VOID__BOXED_BOXED,
402	G_TYPE_NONE((GType) ((1) << (2))), 2,
403	row_inserted_params);
404	g_signal_set_va_marshaller (tree_model_signals[ROW_INSERTED],
405	G_TYPE_FROM_CLASS (g_class)(((GTypeClass*) (g_class))->g_type),
406	_ctk_marshal_VOID__BOXED_BOXEDv);
407
408	/**
409	* CtkTreeModel::row-has-child-toggled:
410	* @tree_model: the #CtkTreeModel on which the signal is emitted
411	* @path: a #CtkTreePath-struct identifying the row
412	* @iter: a valid #CtkTreeIter-struct pointing to the row
413	*
414	* This signal is emitted when a row has gotten the first child
415	* row or lost its last child row.
416	*/
417	tree_model_signals[ROW_HAS_CHILD_TOGGLED] =
418	g_signal_new (I_("row-has-child-toggled")g_intern_static_string ("row-has-child-toggled"),
419	CTK_TYPE_TREE_MODEL(ctk_tree_model_get_type ()),
420	G_SIGNAL_RUN_LAST,
421	G_STRUCT_OFFSET (CtkTreeModelIface, row_has_child_toggled)((glong) __builtin_offsetof(CtkTreeModelIface, row_has_child_toggled )),
422	NULL((void)0), NULL((void)0),
423	_ctk_marshal_VOID__BOXED_BOXED,
424	G_TYPE_NONE((GType) ((1) << (2))), 2,
425	CTK_TYPE_TREE_PATH(ctk_tree_path_get_type ()) \| G_SIGNAL_TYPE_STATIC_SCOPE(((GType) (1 << 0))),
426	CTK_TYPE_TREE_ITER(ctk_tree_iter_get_type ()));
427	g_signal_set_va_marshaller (tree_model_signals[ROW_HAS_CHILD_TOGGLED],
428	G_TYPE_FROM_CLASS (g_class)(((GTypeClass*) (g_class))->g_type),
429	_ctk_marshal_VOID__BOXED_BOXEDv);
430
431	/**
432	* CtkTreeModel::row-deleted:
433	* @tree_model: the #CtkTreeModel on which the signal is emitted
434	* @path: a #CtkTreePath-struct identifying the row
435	*
436	* This signal is emitted when a row has been deleted.
437	*
438	* Note that no iterator is passed to the signal handler,
439	* since the row is already deleted.
440	*
441	* This should be called by models after a row has been removed.
442	* The location pointed to by @path should be the location that
443	* the row previously was at. It may not be a valid location anymore.
444	*/
445	closure = g_closure_new_simple (sizeof (GClosure), NULL((void*)0));
446	g_closure_set_marshal (closure, row_deleted_marshal);
447	tree_model_signals[ROW_DELETED] =
448	g_signal_newv (I_("row-deleted")g_intern_static_string ("row-deleted"),
449	CTK_TYPE_TREE_MODEL(ctk_tree_model_get_type ()),
450	G_SIGNAL_RUN_FIRST,
451	closure,
452	NULL((void)0), NULL((void)0),
453	NULL((void*)0),
454	G_TYPE_NONE((GType) ((1) << (2))), 1,
455	row_deleted_params);
456
457	/**
458	* CtkTreeModel::rows-reordered: (skip)
459	* @tree_model: the #CtkTreeModel on which the signal is emitted
460	* @path: a #CtkTreePath-struct identifying the tree node whose children
461	* have been reordered
462	* @iter: a valid #CtkTreeIter-struct pointing to the node whose children
463	* have been reordered, or %NULL if the depth of @path is 0
464	* @new_order: an array of integers mapping the current position
465	* of each child to its old position before the re-ordering,
466	* i.e. @new_order`[newpos] = oldpos`
467	*
468	* This signal is emitted when the children of a node in the
469	* #CtkTreeModel have been reordered.
470	*
471	* Note that this signal is not emitted
472	* when rows are reordered by DND, since this is implemented
473	* by removing and then reinserting the row.
474	*/
475	closure = g_closure_new_simple (sizeof (GClosure), NULL((void*)0));
476	g_closure_set_marshal (closure, rows_reordered_marshal);
477	tree_model_signals[ROWS_REORDERED] =
478	g_signal_newv (I_("rows-reordered")g_intern_static_string ("rows-reordered"),
479	CTK_TYPE_TREE_MODEL(ctk_tree_model_get_type ()),
480	G_SIGNAL_RUN_FIRST,
481	closure,
482	NULL((void)0), NULL((void)0),
483	_ctk_marshal_VOID__BOXED_BOXED_POINTER,
484	G_TYPE_NONE((GType) ((1) << (2))), 3,
485	rows_reordered_params);
486	g_signal_set_va_marshaller (tree_model_signals[ROWS_REORDERED],
487	G_TYPE_FROM_CLASS (g_class)(((GTypeClass*) (g_class))->g_type),
488	_ctk_marshal_VOID__BOXED_BOXED_POINTERv);
489	initialized = TRUE(!(0));
490	}
491	}
492
493	static void
494	row_inserted_marshal (GClosure *closure G_GNUC_UNUSED__attribute__ ((__unused__)),
495	GValue /* out / return_value G_GNUC_UNUSED__attribute__ ((__unused__)),
496	guint n_param_values G_GNUC_UNUSED__attribute__ ((__unused__)),
497	const GValue *param_values,
498	gpointer invocation_hint G_GNUC_UNUSED__attribute__ ((__unused__)),
499	gpointer marshal_data G_GNUC_UNUSED__attribute__ ((__unused__)))
500	{
501	CtkTreeModelIface *iface;
502
503	void (* row_inserted_callback) (CtkTreeModel *tree_model,
504	CtkTreePath *path,
505	CtkTreeIter iter) = NULL((void)0);
506
507	GObject *model = g_value_get_object (param_values + 0);
508	CtkTreePath path = (CtkTreePath )g_value_get_boxed (param_values + 1);
509	CtkTreeIter iter = (CtkTreeIter )g_value_get_boxed (param_values + 2);
510
511	/* first, we need to update internal row references */
512	ctk_tree_row_ref_inserted ((RowRefList *)g_object_get_data (model, ROW_REF_DATA_STRING"ctk-tree-row-refs"),
513	path, iter);
514
515	/* fetch the interface ->row_inserted implementation */
516	iface = CTK_TREE_MODEL_GET_IFACE (model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((model)))->g_class, ((ctk_tree_model_get_type ()))))));
517	row_inserted_callback = G_STRUCT_MEMBER (gpointer, iface,((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, row_inserted)))) )))
518	G_STRUCT_OFFSET (CtkTreeModelIface,((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, row_inserted)))) )))
519	row_inserted))((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, row_inserted)))) )));
520
521	/* Call that default signal handler, it if has been set */
522	if (row_inserted_callback)
523	row_inserted_callback (CTK_TREE_MODEL (model)((((CtkTreeModel) (void ) g_type_check_instance_cast ((GTypeInstance *) ((model)), ((ctk_tree_model_get_type ())))))), path, iter);
524	}
525
526	static void
527	row_deleted_marshal (GClosure *closure G_GNUC_UNUSED__attribute__ ((__unused__)),
528	GValue /* out / return_value G_GNUC_UNUSED__attribute__ ((__unused__)),
529	guint n_param_values G_GNUC_UNUSED__attribute__ ((__unused__)),
530	const GValue *param_values,
531	gpointer invocation_hint G_GNUC_UNUSED__attribute__ ((__unused__)),
532	gpointer marshal_data G_GNUC_UNUSED__attribute__ ((__unused__)))
533	{
534	CtkTreeModelIface *iface;
535	void (* row_deleted_callback) (CtkTreeModel *tree_model,
536	CtkTreePath path) = NULL((void)0);
537	GObject *model = g_value_get_object (param_values + 0);
538	CtkTreePath path = (CtkTreePath )g_value_get_boxed (param_values + 1);
539
540	/* first, we need to update internal row references */
541	ctk_tree_row_ref_deleted ((RowRefList *)g_object_get_data (model, ROW_REF_DATA_STRING"ctk-tree-row-refs"),
542	path);
543
544	/* fetch the interface ->row_deleted implementation */
545	iface = CTK_TREE_MODEL_GET_IFACE (model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((model)))->g_class, ((ctk_tree_model_get_type ()))))));
546	row_deleted_callback = G_STRUCT_MEMBER (gpointer, iface,((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, row_deleted))))) ))
547	G_STRUCT_OFFSET (CtkTreeModelIface,((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, row_deleted))))) ))
548	row_deleted))((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, row_deleted))))) ));
549
550	/* Call that default signal handler, it if has been set */
551	if (row_deleted_callback)
552	row_deleted_callback (CTK_TREE_MODEL (model)((((CtkTreeModel) (void ) g_type_check_instance_cast ((GTypeInstance *) ((model)), ((ctk_tree_model_get_type ())))))), path);
553	}
554
555	static void
556	rows_reordered_marshal (GClosure *closure G_GNUC_UNUSED__attribute__ ((__unused__)),
557	GValue /* out / return_value G_GNUC_UNUSED__attribute__ ((__unused__)),
558	guint n_param_values G_GNUC_UNUSED__attribute__ ((__unused__)),
559	const GValue *param_values,
560	gpointer invocation_hint G_GNUC_UNUSED__attribute__ ((__unused__)),
561	gpointer marshal_data G_GNUC_UNUSED__attribute__ ((__unused__)))
562	{
563	CtkTreeModelIface *iface;
564	void (* rows_reordered_callback) (CtkTreeModel *tree_model,
565	CtkTreePath *path,
566	CtkTreeIter *iter,
567	gint *new_order);
568
569	GObject *model = g_value_get_object (param_values + 0);
570	CtkTreePath path = (CtkTreePath )g_value_get_boxed (param_values + 1);
571	CtkTreeIter iter = (CtkTreeIter )g_value_get_boxed (param_values + 2);
572	gint new_order = (gint )g_value_get_pointer (param_values + 3);
573
574	/* first, we need to update internal row references */
575	ctk_tree_row_ref_reordered ((RowRefList *)g_object_get_data (model, ROW_REF_DATA_STRING"ctk-tree-row-refs"),
576	path, iter, new_order);
577
578	/* fetch the interface ->rows_reordered implementation */
579	iface = CTK_TREE_MODEL_GET_IFACE (model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((model)))->g_class, ((ctk_tree_model_get_type ()))))));
580	rows_reordered_callback = G_STRUCT_MEMBER (gpointer, iface,((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, rows_reordered)) )))))
581	G_STRUCT_OFFSET (CtkTreeModelIface,((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, rows_reordered)) )))))
582	rows_reordered))((gpointer) ((gpointer) ((guint8*) ((iface)) + (glong) (((( glong) __builtin_offsetof(CtkTreeModelIface, rows_reordered)) )))));
583
584	/* Call that default signal handler, it if has been set */
585	if (rows_reordered_callback)
586	rows_reordered_callback (CTK_TREE_MODEL (model)((((CtkTreeModel) (void ) g_type_check_instance_cast ((GTypeInstance *) ((model)), ((ctk_tree_model_get_type ())))))), path, iter, new_order);
587	}
588
589	/**
590	* ctk_tree_path_new:
591	*
592	* Creates a new #CtkTreePath-struct.
593	* This refers to a row.
594	*
595	* Returns: A newly created #CtkTreePath-struct.
596	*/
597	CtkTreePath *
598	ctk_tree_path_new (void)
599	{
600	CtkTreePath *retval;
601	retval = g_slice_new (CtkTreePath)((CtkTreePath*) g_slice_alloc (sizeof (CtkTreePath)));
602	retval->depth = 0;
603	retval->alloc = 0;
604	retval->indices = NULL((void*)0);
605
606	return retval;
607	}
608
609	/**
610	* ctk_tree_path_new_from_string:
611	* @path: The string representation of a path
612	*
613	* Creates a new #CtkTreePath-struct initialized to @path.
614	*
615	* @path is expected to be a colon separated list of numbers.
616	* For example, the string “10:4:0” would create a path of depth
617	* 3 pointing to the 11th child of the root node, the 5th
618	* child of that 11th child, and the 1st child of that 5th child.
619	* If an invalid path string is passed in, %NULL is returned.
620	*
621	* Returns: A newly-created #CtkTreePath-struct, or %NULL
622	*/
623	CtkTreePath *
624	ctk_tree_path_new_from_string (const gchar *path)
625	{
626	CtkTreePath *retval;
627	const gchar *orig_path = path;
628	gchar *ptr;
629	gint i;
630
631	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
632	g_return_val_if_fail (path != '\000', NULL)do { if ((path != '\000')) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != '\\000'"); return (((void*)0)); } } while (0);
633
634	retval = ctk_tree_path_new ();
635
636	while (1)
637	{
638	i = strtol (path, &ptr, 10);
639	if (i < 0)
640	{
641	g_warning (G_STRLOC"ctktreemodel.c" ":" "641" ": Negative numbers in path %s passed to ctk_tree_path_new_from_string", orig_path);
642	ctk_tree_path_free (retval);
643	return NULL((void*)0);
644	}
645
646	ctk_tree_path_append_index (retval, i);
647
648	if (*ptr == '\000')
649	break;
650	if (ptr == path \|\| *ptr != ':')
651	{
652	g_warning (G_STRLOC"ctktreemodel.c" ":" "652" ": Invalid path %s passed to ctk_tree_path_new_from_string", orig_path);
653	ctk_tree_path_free (retval);
654	return NULL((void*)0);
655	}
656	path = ptr + 1;
657	}
658
659	return retval;
660	}
661
662	/**
663	* ctk_tree_path_new_from_indices:
664	* @first_index: first integer
665	* @...: list of integers terminated by -1
666	*
667	* Creates a new path with @first_index and @varargs as indices.
668	*
669	* Returns: A newly created #CtkTreePath-struct
670	*
671	* Since: 2.2
672	*/
673	CtkTreePath *
674	ctk_tree_path_new_from_indices (gint first_index,
675	...)
676	{
677	int arg;
678	va_list args;
679	CtkTreePath *path;
680
681	path = ctk_tree_path_new ();
682
683	va_start (args, first_index)__builtin_va_start(args, first_index);
684	arg = first_index;
685
686	while (arg != -1)
687	{
688	ctk_tree_path_append_index (path, arg);
689	arg = va_arg (args, gint)__builtin_va_arg(args, gint);
690	}
691
692	va_end (args)__builtin_va_end(args);
693
694	return path;
695	}
696
697	/**
698	* ctk_tree_path_new_from_indicesv: (rename-to ctk_tree_path_new_from_indices)
699	* @indices: (array length=length): array of indices
700	* @length: length of @indices array
701	*
702	* Creates a new path with the given @indices array of @length.
703	*
704	* Returns: A newly created #CtkTreePath-struct
705	*
706	* Since: 3.12
707	*/
708	CtkTreePath *
709	ctk_tree_path_new_from_indicesv (gint *indices,
710	gsize length)
711	{
712	CtkTreePath *path;
713
714	g_return_val_if_fail (indices != NULL && length != 0, NULL)do { if ((indices != ((void)0) && length != 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__) ), "indices != NULL && length != 0"); return (((void* )0)); } } while (0);
715
716	path = ctk_tree_path_new ();
717	path->alloc = length;
718	path->depth = length;
719	path->indices = g_new (gint, length)((gint *) g_malloc_n ((length), sizeof (gint)));
720	memcpy (path->indices, indices, length * sizeof (gint));
721
722	return path;
723	}
724
725	/**
726	* ctk_tree_path_to_string:
727	* @path: A #CtkTreePath-struct
728	*
729	* Generates a string representation of the path.
730	*
731	* This string is a “:” separated list of numbers.
732	* For example, “4:10:0:3” would be an acceptable
733	* return value for this string.
734	*
735	* Returns: A newly-allocated string.
736	* Must be freed with g_free().
737	*/
738	gchar *
739	ctk_tree_path_to_string (CtkTreePath *path)
740	{
741	gchar retval, ptr, *end;
742	gint i, n;
743
744	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
745
746	if (path->depth == 0)
747	return NULL((void*)0);
748
749	n = path->depth * 12;
750	ptr = retval = g_new0 (gchar, n)((gchar *) g_malloc0_n ((n), sizeof (gchar)));
751	end = ptr + n;
752	g_snprintf (retval, end - ptr, "%d", path->indices[0]);
753	while (*ptr != '\000')
754	ptr++;
755
756	for (i = 1; i < path->depth; i++)
757	{
758	g_snprintf (ptr, end - ptr, ":%d", path->indices[i]);
759	while (*ptr != '\000')
760	ptr++;
761	}
762
763	return retval;
764	}
765
766	/**
767	* ctk_tree_path_new_first:
768	*
769	* Creates a new #CtkTreePath-struct.
770	*
771	* The string representation of this path is “0”.
772	*
773	* Returns: A new #CtkTreePath-struct
774	*/
775	CtkTreePath *
776	ctk_tree_path_new_first (void)
777	{
778	CtkTreePath *retval;
779
780	retval = ctk_tree_path_new ();
781	ctk_tree_path_append_index (retval, 0);
782
783	return retval;
784	}
785
786	/**
787	* ctk_tree_path_append_index:
788	* @path: a #CtkTreePath-struct
789	* @index_: the index
790	*
791	* Appends a new index to a path.
792	*
793	* As a result, the depth of the path is increased.
794	*/
795	void
796	ctk_tree_path_append_index (CtkTreePath *path,
797	gint index_)
798	{
799	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
800	g_return_if_fail (index_ >= 0)do { if ((index_ >= 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "index_ >= 0"); return ; } } while (0);
801
802	if (path->depth == path->alloc)
803	{
804	gint *indices;
805	path->alloc = MAX (path->alloc * 2, 1)(((path->alloc * 2) > (1)) ? (path->alloc * 2) : (1) );
806	indices = g_new (gint, path->alloc)((gint *) g_malloc_n ((path->alloc), sizeof (gint)));
807	memcpy (indices, path->indices, path->depth * sizeof (gint));
808	g_free (path->indices);
809	path->indices = indices;
810	}
811
812	path->depth += 1;
813	path->indices[path->depth - 1] = index_;
814	}
815
816	/**
817	* ctk_tree_path_prepend_index:
818	* @path: a #CtkTreePath-struct
819	* @index_: the index
820	*
821	* Prepends a new index to a path.
822	*
823	* As a result, the depth of the path is increased.
824	*/
825	void
826	ctk_tree_path_prepend_index (CtkTreePath *path,
827	gint index)
828	{
829	if (path->depth == path->alloc)
830	{
831	gint *indices;
832	path->alloc = MAX (path->alloc * 2, 1)(((path->alloc * 2) > (1)) ? (path->alloc * 2) : (1) );
833	indices = g_new (gint, path->alloc)((gint *) g_malloc_n ((path->alloc), sizeof (gint)));
834	memcpy (indices + 1, path->indices, path->depth * sizeof (gint));
835	g_free (path->indices);
836	path->indices = indices;
837	}
838	else if (path->depth > 0)
839	memmove (path->indices + 1, path->indices, path->depth * sizeof (gint));
840
841	path->depth += 1;
842	path->indices[0] = index;
843	}
844
845	/**
846	* ctk_tree_path_get_depth:
847	* @path: a #CtkTreePath-struct
848	*
849	* Returns the current depth of @path.
850	*
851	* Returns: The depth of @path
852	*/
853	gint
854	ctk_tree_path_get_depth (CtkTreePath *path)
855	{
856	g_return_val_if_fail (path != NULL, 0)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( 0); } } while (0);
857
858	return path->depth;
859	}
860
861	/**
862	* ctk_tree_path_get_indices: (skip)
863	* @path: a #CtkTreePath-struct
864	*
865	* Returns the current indices of @path.
866	*
867	* This is an array of integers, each representing a node in a tree.
868	* This value should not be freed.
869	*
870	* The length of the array can be obtained with ctk_tree_path_get_depth().
871	*
872	* Returns: The current indices, or %NULL
873	*/
874	gint *
875	ctk_tree_path_get_indices (CtkTreePath *path)
876	{
877	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
878
879	return path->indices;
880	}
881
882	/**
883	* ctk_tree_path_get_indices_with_depth: (rename-to ctk_tree_path_get_indices)
884	* @path: a #CtkTreePath-struct
885	* @depth: (out) (allow-none): return location for number of elements
886	* returned in the integer array, or %NULL
887	*
888	* Returns the current indices of @path.
889	*
890	* This is an array of integers, each representing a node in a tree.
891	* It also returns the number of elements in the array.
892	* The array should not be freed.
893	*
894	* Returns: (array length=depth) (transfer none): The current
895	* indices, or %NULL
896	*
897	* Since: 3.0
898	*/
899	gint *
900	ctk_tree_path_get_indices_with_depth (CtkTreePath *path,
901	gint *depth)
902	{
903	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
904
905	if (depth)
906	*depth = path->depth;
907
908	return path->indices;
909	}
910
911	/**
912	* ctk_tree_path_free:
913	* @path: (allow-none): a #CtkTreePath-struct
914	*
915	* Frees @path. If @path is %NULL, it simply returns.
916	*/
917	void
918	ctk_tree_path_free (CtkTreePath *path)
919	{
920	if (!path)
921	return;
922
923	g_free (path->indices);
924	g_slice_free (CtkTreePath, path)do { if (1) g_slice_free1 (sizeof (CtkTreePath), (path)); else (void) ((CtkTreePath*) 0 == (path)); } while (0);
925	}
926
927	/**
928	* ctk_tree_path_copy:
929	* @path: a #CtkTreePath-struct
930	*
931	* Creates a new #CtkTreePath-struct as a copy of @path.
932	*
933	* Returns: a new #CtkTreePath-struct
934	*/
935	CtkTreePath *
936	ctk_tree_path_copy (const CtkTreePath *path)
937	{
938	CtkTreePath *retval;
939
940	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
941
942	retval = g_slice_new (CtkTreePath)((CtkTreePath*) g_slice_alloc (sizeof (CtkTreePath)));
943	retval->depth = path->depth;
944	retval->alloc = retval->depth;
945	retval->indices = g_new (gint, path->alloc)((gint *) g_malloc_n ((path->alloc), sizeof (gint)));
946	memcpy (retval->indices, path->indices, path->depth * sizeof (gint));
947	return retval;
948	}
949
950	G_DEFINE_BOXED_TYPE (CtkTreePath, ctk_tree_path,static GType ctk_tree_path_get_type_once (void); GType ctk_tree_path_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); (void) ( 0 ? (gpointer) (&static_g_define_type_id) : ((void)0)) ; (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_path_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer) , "Expression evaluates to false"); 0 ? (void) ((&static_g_define_type_id ) = (g_define_type_id)) : (void) 0; g_once_init_leave_pointer ((&static_g_define_type_id), (gpointer) (guintptr) (g_define_type_id )); })) ; } return static_g_define_type_id; } __attribute__ ( (__noinline__)) static GType ctk_tree_path_get_type_once (void ) { GType ( _g_register_boxed) (const gchar , union { CtkTreePath (do_copy_type) (CtkTreePath ); CtkTreePath * (do_const_copy_type ) (const CtkTreePath ); GBoxedCopyFunc do_copy_boxed; } __attribute__ ((__transparent_union__)), union { void (* do_free_type) (CtkTreePath *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__ )) ) = g_boxed_type_register_static; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreePath"), ctk_tree_path_copy , ctk_tree_path_free); { {{};} } return g_define_type_id; }
951	ctk_tree_path_copy,static GType ctk_tree_path_get_type_once (void); GType ctk_tree_path_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); (void) ( 0 ? (gpointer) (&static_g_define_type_id) : ((void)0)) ; (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_path_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer) , "Expression evaluates to false"); 0 ? (void) ((&static_g_define_type_id ) = (g_define_type_id)) : (void) 0; g_once_init_leave_pointer ((&static_g_define_type_id), (gpointer) (guintptr) (g_define_type_id )); })) ; } return static_g_define_type_id; } __attribute__ ( (__noinline__)) static GType ctk_tree_path_get_type_once (void ) { GType ( _g_register_boxed) (const gchar , union { CtkTreePath (do_copy_type) (CtkTreePath ); CtkTreePath * (do_const_copy_type ) (const CtkTreePath ); GBoxedCopyFunc do_copy_boxed; } __attribute__ ((__transparent_union__)), union { void (* do_free_type) (CtkTreePath *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__ )) ) = g_boxed_type_register_static; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreePath"), ctk_tree_path_copy , ctk_tree_path_free); { {{};} } return g_define_type_id; }
952	ctk_tree_path_free)static GType ctk_tree_path_get_type_once (void); GType ctk_tree_path_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); (void) ( 0 ? (gpointer) (&static_g_define_type_id) : ((void)0)) ; (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_path_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer) , "Expression evaluates to false"); 0 ? (void) ((&static_g_define_type_id ) = (g_define_type_id)) : (void) 0; g_once_init_leave_pointer ((&static_g_define_type_id), (gpointer) (guintptr) (g_define_type_id )); })) ; } return static_g_define_type_id; } __attribute__ ( (__noinline__)) static GType ctk_tree_path_get_type_once (void ) { GType ( _g_register_boxed) (const gchar , union { CtkTreePath (do_copy_type) (CtkTreePath ); CtkTreePath * (do_const_copy_type ) (const CtkTreePath ); GBoxedCopyFunc do_copy_boxed; } __attribute__ ((__transparent_union__)), union { void (* do_free_type) (CtkTreePath *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__ )) ) = g_boxed_type_register_static; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreePath"), ctk_tree_path_copy , ctk_tree_path_free); { {{};} } return g_define_type_id; }
953
954	/**
955	* ctk_tree_path_compare:
956	* @a: a #CtkTreePath-struct
957	* @b: a #CtkTreePath-struct to compare with
958	*
959	* Compares two paths.
960	*
961	* If @a appears before @b in a tree, then -1 is returned.
962	* If @b appears before @a, then 1 is returned.
963	* If the two nodes are equal, then 0 is returned.
964	*
965	* Returns: the relative positions of @a and @b
966	*/
967	gint
968	ctk_tree_path_compare (const CtkTreePath *a,
969	const CtkTreePath *b)
970	{
971	gint p = 0, q = 0;
972
973	g_return_val_if_fail (a != NULL, 0)do { if ((a != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "a != NULL"); return (0) ; } } while (0);
974	g_return_val_if_fail (b != NULL, 0)do { if ((b != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "b != NULL"); return (0) ; } } while (0);
975	g_return_val_if_fail (a->depth > 0, 0)do { if ((a->depth > 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "a->depth > 0"); return (0); } } while (0);
976	g_return_val_if_fail (b->depth > 0, 0)do { if ((b->depth > 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "b->depth > 0"); return (0); } } while (0);
977
978	do
979	{
980	if (a->indices[p] == b->indices[q])
981	continue;
982	return (a->indices[p] < b->indices[q]?-1:1);
983	}
984	while (++p < a->depth && ++q < b->depth);
985	if (a->depth == b->depth)
986	return 0;
987	return (a->depth < b->depth?-1:1);
988	}
989
990	/**
991	* ctk_tree_path_is_ancestor:
992	* @path: a #CtkTreePath-struct
993	* @descendant: another #CtkTreePath-struct
994	*
995	* Returns %TRUE if @descendant is a descendant of @path.
996	*
997	* Returns: %TRUE if @descendant is contained inside @path
998	*/
999	gboolean
1000	ctk_tree_path_is_ancestor (CtkTreePath *path,
1001	CtkTreePath *descendant)
1002	{
1003	gint i;
1004
1005	g_return_val_if_fail (path != NULL, FALSE)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( (0)); } } while (0);
1006	g_return_val_if_fail (descendant != NULL, FALSE)do { if ((descendant != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "descendant != NULL"); return ((0)); } } while (0);
1007
1008	/* can't be an ancestor if we're deeper */
1009	if (path->depth >= descendant->depth)
1010	return FALSE(0);
1011
1012	i = 0;
1013	while (i < path->depth)
1014	{
1015	if (path->indices[i] != descendant->indices[i])
1016	return FALSE(0);
1017	++i;
1018	}
1019
1020	return TRUE(!(0));
1021	}
1022
1023	/**
1024	* ctk_tree_path_is_descendant:
1025	* @path: a #CtkTreePath-struct
1026	* @ancestor: another #CtkTreePath-struct
1027	*
1028	* Returns %TRUE if @path is a descendant of @ancestor.
1029	*
1030	* Returns: %TRUE if @ancestor contains @path somewhere below it
1031	*/
1032	gboolean
1033	ctk_tree_path_is_descendant (CtkTreePath *path,
1034	CtkTreePath *ancestor)
1035	{
1036	gint i;
1037
1038	g_return_val_if_fail (path != NULL, FALSE)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( (0)); } } while (0);
1039	g_return_val_if_fail (ancestor != NULL, FALSE)do { if ((ancestor != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "ancestor != NULL"); return ((0)); } } while (0);
1040
1041	/* can't be a descendant if we're shallower in the tree */
1042	if (path->depth <= ancestor->depth)
1043	return FALSE(0);
1044
1045	i = 0;
1046	while (i < ancestor->depth)
1047	{
1048	if (path->indices[i] != ancestor->indices[i])
1049	return FALSE(0);
1050	++i;
1051	}
1052
1053	return TRUE(!(0));
1054	}
1055
1056
1057	/**
1058	* ctk_tree_path_next:
1059	* @path: a #CtkTreePath-struct
1060	*
1061	* Moves the @path to point to the next node at the current depth.
1062	*/
1063	void
1064	ctk_tree_path_next (CtkTreePath *path)
1065	{
1066	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
1067	g_return_if_fail (path->depth > 0)do { if ((path->depth > 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "path->depth > 0") ; return; } } while (0);
1068
1069	path->indices[path->depth - 1] ++;
1070	}
1071
1072	/**
1073	* ctk_tree_path_prev:
1074	* @path: a #CtkTreePath-struct
1075	*
1076	* Moves the @path to point to the previous node at the
1077	* current depth, if it exists.
1078	*
1079	* Returns: %TRUE if @path has a previous node, and
1080	* the move was made
1081	*/
1082	gboolean
1083	ctk_tree_path_prev (CtkTreePath *path)
1084	{
1085	g_return_val_if_fail (path != NULL, FALSE)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( (0)); } } while (0);
1086
1087	if (path->depth == 0)
1088	return FALSE(0);
1089
1090	if (path->indices[path->depth - 1] == 0)
1091	return FALSE(0);
1092
1093	path->indices[path->depth - 1] -= 1;
1094
1095	return TRUE(!(0));
1096	}
1097
1098	/**
1099	* ctk_tree_path_up:
1100	* @path: a #CtkTreePath-struct
1101	*
1102	* Moves the @path to point to its parent node, if it has a parent.
1103	*
1104	* Returns: %TRUE if @path has a parent, and the move was made
1105	*/
1106	gboolean
1107	ctk_tree_path_up (CtkTreePath *path)
1108	{
1109	g_return_val_if_fail (path != NULL, FALSE)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( (0)); } } while (0);
1110
1111	if (path->depth == 0)
1112	return FALSE(0);
1113
1114	path->depth--;
1115
1116	return TRUE(!(0));
1117	}
1118
1119	/**
1120	* ctk_tree_path_down:
1121	* @path: a #CtkTreePath-struct
1122	*
1123	* Moves @path to point to the first child of the current path.
1124	*/
1125	void
1126	ctk_tree_path_down (CtkTreePath *path)
1127	{
1128	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
1129
1130	ctk_tree_path_append_index (path, 0);
1131	}
1132
1133	/**
1134	* ctk_tree_iter_copy:
1135	* @iter: a #CtkTreeIter-struct
1136	*
1137	* Creates a dynamically allocated tree iterator as a copy of @iter.
1138	*
1139	* This function is not intended for use in applications,
1140	* because you can just copy the structs by value
1141	* (`CtkTreeIter new_iter = iter;`).
1142	* You must free this iter with ctk_tree_iter_free().
1143	*
1144	* Returns: a newly-allocated copy of @iter
1145	*/
1146	CtkTreeIter *
1147	ctk_tree_iter_copy (CtkTreeIter *iter)
1148	{
1149	CtkTreeIter *retval;
1150
1151	g_return_val_if_fail (iter != NULL, NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( ((void*)0)); } } while (0);
1152
1153	retval = g_slice_new (CtkTreeIter)((CtkTreeIter*) g_slice_alloc (sizeof (CtkTreeIter)));
1154	retval = iter;
1155
1156	return retval;
1157	}
1158
1159	/**
1160	* ctk_tree_iter_free:
1161	* @iter: a dynamically allocated tree iterator
1162	*
1163	* Frees an iterator that has been allocated by ctk_tree_iter_copy().
1164	*
1165	* This function is mainly used for language bindings.
1166	*/
1167	void
1168	ctk_tree_iter_free (CtkTreeIter *iter)
1169	{
1170	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1171
1172	g_slice_free (CtkTreeIter, iter)do { if (1) g_slice_free1 (sizeof (CtkTreeIter), (iter)); else (void) ((CtkTreeIter*) 0 == (iter)); } while (0);
1173	}
1174
1175	G_DEFINE_BOXED_TYPE (CtkTreeIter, ctk_tree_iter,static GType ctk_tree_iter_get_type_once (void); GType ctk_tree_iter_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); (void) ( 0 ? (gpointer) (&static_g_define_type_id) : ((void)0)) ; (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_iter_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer) , "Expression evaluates to false"); 0 ? (void) ((&static_g_define_type_id ) = (g_define_type_id)) : (void) 0; g_once_init_leave_pointer ((&static_g_define_type_id), (gpointer) (guintptr) (g_define_type_id )); })) ; } return static_g_define_type_id; } __attribute__ ( (__noinline__)) static GType ctk_tree_iter_get_type_once (void ) { GType ( _g_register_boxed) (const gchar , union { CtkTreeIter (do_copy_type) (CtkTreeIter ); CtkTreeIter * (do_const_copy_type ) (const CtkTreeIter ); GBoxedCopyFunc do_copy_boxed; } __attribute__ ((__transparent_union__)), union { void (* do_free_type) (CtkTreeIter *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__ )) ) = g_boxed_type_register_static; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreeIter"), ctk_tree_iter_copy , ctk_tree_iter_free); { {{};} } return g_define_type_id; }
1176	ctk_tree_iter_copy,static GType ctk_tree_iter_get_type_once (void); GType ctk_tree_iter_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); (void) ( 0 ? (gpointer) (&static_g_define_type_id) : ((void)0)) ; (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_iter_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer) , "Expression evaluates to false"); 0 ? (void) ((&static_g_define_type_id ) = (g_define_type_id)) : (void) 0; g_once_init_leave_pointer ((&static_g_define_type_id), (gpointer) (guintptr) (g_define_type_id )); })) ; } return static_g_define_type_id; } __attribute__ ( (__noinline__)) static GType ctk_tree_iter_get_type_once (void ) { GType ( _g_register_boxed) (const gchar , union { CtkTreeIter (do_copy_type) (CtkTreeIter ); CtkTreeIter * (do_const_copy_type ) (const CtkTreeIter ); GBoxedCopyFunc do_copy_boxed; } __attribute__ ((__transparent_union__)), union { void (* do_free_type) (CtkTreeIter *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__ )) ) = g_boxed_type_register_static; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreeIter"), ctk_tree_iter_copy , ctk_tree_iter_free); { {{};} } return g_define_type_id; }
1177	ctk_tree_iter_free)static GType ctk_tree_iter_get_type_once (void); GType ctk_tree_iter_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); (void) ( 0 ? (gpointer) (&static_g_define_type_id) : ((void)0)) ; (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_iter_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer) , "Expression evaluates to false"); 0 ? (void) ((&static_g_define_type_id ) = (g_define_type_id)) : (void) 0; g_once_init_leave_pointer ((&static_g_define_type_id), (gpointer) (guintptr) (g_define_type_id )); })) ; } return static_g_define_type_id; } __attribute__ ( (__noinline__)) static GType ctk_tree_iter_get_type_once (void ) { GType ( _g_register_boxed) (const gchar , union { CtkTreeIter (do_copy_type) (CtkTreeIter ); CtkTreeIter * (do_const_copy_type ) (const CtkTreeIter ); GBoxedCopyFunc do_copy_boxed; } __attribute__ ((__transparent_union__)), union { void (* do_free_type) (CtkTreeIter *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__ )) ) = g_boxed_type_register_static; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreeIter"), ctk_tree_iter_copy , ctk_tree_iter_free); { {{};} } return g_define_type_id; }
1178
1179	/**
1180	* ctk_tree_model_get_flags:
1181	* @tree_model: a #CtkTreeModel
1182	*
1183	* Returns a set of flags supported by this interface.
1184	*
1185	* The flags are a bitwise combination of #CtkTreeModelFlags.
1186	* The flags supported should not change during the lifetime
1187	* of the @tree_model.
1188	*
1189	* Returns: the flags supported by this interface
1190	*/
1191	CtkTreeModelFlags
1192	ctk_tree_model_get_flags (CtkTreeModel *tree_model)
1193	{
1194	CtkTreeModelIface *iface;
1195
1196	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), 0)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return (0) ; } } while (0);
1197
1198	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1199	if (iface->get_flags)
1200	return (* iface->get_flags) (tree_model);
1201
1202	return 0;
1203	}
1204
1205	/**
1206	* ctk_tree_model_get_n_columns:
1207	* @tree_model: a #CtkTreeModel
1208	*
1209	* Returns the number of columns supported by @tree_model.
1210	*
1211	* Returns: the number of columns
1212	*/
1213	gint
1214	ctk_tree_model_get_n_columns (CtkTreeModel *tree_model)
1215	{
1216	CtkTreeModelIface *iface;
1217	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), 0)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return (0) ; } } while (0);
1218
1219	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1220	g_return_val_if_fail (iface->get_n_columns != NULL, 0)do { if ((iface->get_n_columns != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->get_n_columns != NULL" ); return (0); } } while (0);
1221
1222	return (* iface->get_n_columns) (tree_model);
1223	}
1224
1225	/**
1226	* ctk_tree_model_get_column_type:
1227	* @tree_model: a #CtkTreeModel
1228	* @index_: the column index
1229	*
1230	* Returns the type of the column.
1231	*
1232	* Returns: the type of the column
1233	*/
1234	GType
1235	ctk_tree_model_get_column_type (CtkTreeModel *tree_model,
1236	gint index)
1237	{
1238	CtkTreeModelIface *iface;
1239
1240	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), G_TYPE_INVALID)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((( GType) ((0) << (2)))); } } while (0);
1241
1242	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1243	g_return_val_if_fail (iface->get_column_type != NULL, G_TYPE_INVALID)do { if ((iface->get_column_type != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->get_column_type != NULL"); return (((GType) ((0) << (2)))); } } while (0);
1244	g_return_val_if_fail (index >= 0, G_TYPE_INVALID)do { if ((index >= 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "index >= 0"); return (((GType) ((0) << (2)))); } } while (0);
1245
1246	return (* iface->get_column_type) (tree_model, index);
1247	}
1248
1249	/**
1250	* ctk_tree_model_get_iter:
1251	* @tree_model: a #CtkTreeModel
1252	* @iter: (out): the uninitialized #CtkTreeIter-struct
1253	* @path: the #CtkTreePath-struct
1254	*
1255	* Sets @iter to a valid iterator pointing to @path. If @path does
1256	* not exist, @iter is set to an invalid iterator and %FALSE is returned.
1257	*
1258	* Returns: %TRUE, if @iter was set
1259	*/
1260	gboolean
1261	ctk_tree_model_get_iter (CtkTreeModel *tree_model,
1262	CtkTreeIter *iter,
1263	CtkTreePath *path)
1264	{
1265	CtkTreeModelIface *iface;
1266
1267	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1268	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1269	g_return_val_if_fail (path != NULL, FALSE)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( (0)); } } while (0);
1270
1271	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1272	g_return_val_if_fail (iface->get_iter != NULL, FALSE)do { if ((iface->get_iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->get_iter != NULL" ); return ((0)); } } while (0);
1273	g_return_val_if_fail (path->depth > 0, FALSE)do { if ((path->depth > 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "path->depth > 0") ; return ((0)); } } while (0);
1274
1275	INITIALIZE_TREE_ITER (iter)do{ (iter)->stamp = 0; (iter)->user_data = ((void)0); ( iter)->user_data2 = ((void)0); (iter)->user_data3 = (( void*)0); }while (0);
1276
1277	return (* iface->get_iter) (tree_model, iter, path);
1278	}
1279
1280	/**
1281	* ctk_tree_model_get_iter_from_string:
1282	* @tree_model: a #CtkTreeModel
1283	* @iter: (out): an uninitialized #CtkTreeIter-struct
1284	* @path_string: a string representation of a #CtkTreePath-struct
1285	*
1286	* Sets @iter to a valid iterator pointing to @path_string, if it
1287	* exists. Otherwise, @iter is left invalid and %FALSE is returned.
1288	*
1289	* Returns: %TRUE, if @iter was set
1290	*/
1291	gboolean
1292	ctk_tree_model_get_iter_from_string (CtkTreeModel *tree_model,
1293	CtkTreeIter *iter,
1294	const gchar *path_string)
1295	{
1296	gboolean retval;
1297	CtkTreePath *path;
1298
1299	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1300	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1301	g_return_val_if_fail (path_string != NULL, FALSE)do { if ((path_string != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path_string != NULL"); return ((0)); } } while (0);
1302
1303	path = ctk_tree_path_new_from_string (path_string);
1304
1305	g_return_val_if_fail (path != NULL, FALSE)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( (0)); } } while (0);
1306
1307	retval = ctk_tree_model_get_iter (tree_model, iter, path);
1308	ctk_tree_path_free (path);
1309
1310	return retval;
1311	}
1312
1313	/**
1314	* ctk_tree_model_get_string_from_iter:
1315	* @tree_model: a #CtkTreeModel
1316	* @iter: a #CtkTreeIter-struct
1317	*
1318	* Generates a string representation of the iter.
1319	*
1320	* This string is a “:” separated list of numbers.
1321	* For example, “4:10:0:3” would be an acceptable
1322	* return value for this string.
1323	*
1324	* Returns: a newly-allocated string.
1325	* Must be freed with g_free().
1326	*
1327	* Since: 2.2
1328	*/
1329	gchar *
1330	ctk_tree_model_get_string_from_iter (CtkTreeModel *tree_model,
1331	CtkTreeIter *iter)
1332	{
1333	CtkTreePath *path;
1334	gchar *ret;
1335
1336	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), NULL)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char ) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((( void)0)); } } while (0);
1337	g_return_val_if_fail (iter != NULL, NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( ((void*)0)); } } while (0);
1338
1339	path = ctk_tree_model_get_path (tree_model, iter);
1340
1341	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
1342
1343	ret = ctk_tree_path_to_string (path);
1344	ctk_tree_path_free (path);
1345
1346	return ret;
1347	}
1348
1349	/**
1350	* ctk_tree_model_get_iter_first:
1351	* @tree_model: a #CtkTreeModel
1352	* @iter: (out): the uninitialized #CtkTreeIter-struct
1353	*
1354	* Initializes @iter with the first iterator in the tree
1355	* (the one at the path "0") and returns %TRUE. Returns
1356	* %FALSE if the tree is empty.
1357	*
1358	* Returns: %TRUE, if @iter was set
1359	*/
1360	gboolean
1361	ctk_tree_model_get_iter_first (CtkTreeModel *tree_model,
1362	CtkTreeIter *iter)
1363	{
1364	CtkTreePath *path;
1365	gboolean retval;
1366
1367	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1368	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1369
1370	path = ctk_tree_path_new_first ();
1371	retval = ctk_tree_model_get_iter (tree_model, iter, path);
1372	ctk_tree_path_free (path);
1373
1374	return retval;
1375	}
1376
1377	/**
1378	* ctk_tree_model_get_path:
1379	* @tree_model: a #CtkTreeModel
1380	* @iter: the #CtkTreeIter-struct
1381	*
1382	* Returns a newly-created #CtkTreePath-struct referenced by @iter.
1383	*
1384	* This path should be freed with ctk_tree_path_free().
1385	*
1386	* Returns: a newly-created #CtkTreePath-struct
1387	*/
1388	CtkTreePath *
1389	ctk_tree_model_get_path (CtkTreeModel *tree_model,
1390	CtkTreeIter *iter)
1391	{
1392	CtkTreeModelIface *iface;
1393
1394	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), NULL)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char ) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((( void)0)); } } while (0);
1395	g_return_val_if_fail (iter != NULL, NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( ((void*)0)); } } while (0);
1396
1397	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1398	g_return_val_if_fail (iface->get_path != NULL, NULL)do { if ((iface->get_path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->get_path != NULL" ); return (((void*)0)); } } while (0);
1399
1400	return (* iface->get_path) (tree_model, iter);
1401	}
1402
1403	/**
1404	* ctk_tree_model_get_value:
1405	* @tree_model: a #CtkTreeModel
1406	* @iter: the #CtkTreeIter-struct
1407	* @column: the column to lookup the value at
1408	* @value: (out) (transfer none): an empty #GValue to set
1409	*
1410	* Initializes and sets @value to that at @column.
1411	*
1412	* When done with @value, g_value_unset() needs to be called
1413	* to free any allocated memory.
1414	*/
1415	void
1416	ctk_tree_model_get_value (CtkTreeModel *tree_model,
1417	CtkTreeIter *iter,
1418	gint column,
1419	GValue *value)
1420	{
1421	CtkTreeModelIface *iface;
1422
1423	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1424	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1425	g_return_if_fail (value != NULL)do { if ((value != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "value != NULL"); return ; } } while (0);
1426
1427	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1428	g_return_if_fail (iface->get_value != NULL)do { if ((iface->get_value != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->get_value != NULL" ); return; } } while (0);
1429
1430	(* iface->get_value) (tree_model, iter, column, value);
1431	}
1432
1433	/**
1434	* ctk_tree_model_iter_next:
1435	* @tree_model: a #CtkTreeModel
1436	* @iter: (in): the #CtkTreeIter-struct
1437	*
1438	* Sets @iter to point to the node following it at the current level.
1439	*
1440	* If there is no next @iter, %FALSE is returned and @iter is set
1441	* to be invalid.
1442	*
1443	* Returns: %TRUE if @iter has been changed to the next node
1444	*/
1445	gboolean
1446	ctk_tree_model_iter_next (CtkTreeModel *tree_model,
1447	CtkTreeIter *iter)
1448	{
1449	CtkTreeModelIface *iface;
1450
1451	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1452	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1453
1454	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1455	g_return_val_if_fail (iface->iter_next != NULL, FALSE)do { if ((iface->iter_next != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->iter_next != NULL" ); return ((0)); } } while (0);
1456
1457	return (* iface->iter_next) (tree_model, iter);
1458	}
1459
1460	static gboolean
1461	ctk_tree_model_iter_previous_default (CtkTreeModel *tree_model,
1462	CtkTreeIter *iter)
1463	{
1464	gboolean retval;
1465	CtkTreePath *path;
1466
1467	path = ctk_tree_model_get_path (tree_model, iter);
1468	if (path == NULL((void*)0))
1469	return FALSE(0);
1470
1471	retval = ctk_tree_path_prev (path) &&
1472	ctk_tree_model_get_iter (tree_model, iter, path);
1473	if (retval == FALSE(0))
1474	iter->stamp = 0;
1475
1476	ctk_tree_path_free (path);
1477
1478	return retval;
1479	}
1480
1481	/**
1482	* ctk_tree_model_iter_previous:
1483	* @tree_model: a #CtkTreeModel
1484	* @iter: (in): the #CtkTreeIter-struct
1485	*
1486	* Sets @iter to point to the previous node at the current level.
1487	*
1488	* If there is no previous @iter, %FALSE is returned and @iter is
1489	* set to be invalid.
1490	*
1491	* Returns: %TRUE if @iter has been changed to the previous node
1492	*
1493	* Since: 3.0
1494	*/
1495	gboolean
1496	ctk_tree_model_iter_previous (CtkTreeModel *tree_model,
1497	CtkTreeIter *iter)
1498	{
1499	gboolean retval;
1500	CtkTreeModelIface *iface;
1501
1502	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1503	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1504
1505	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1506
1507	if (iface->iter_previous)
1508	retval = (* iface->iter_previous) (tree_model, iter);
1509	else
1510	retval = ctk_tree_model_iter_previous_default (tree_model, iter);
1511
1512	return retval;
1513	}
1514
1515	/**
1516	* ctk_tree_model_iter_children:
1517	* @tree_model: a #CtkTreeModel
1518	* @iter: (out): the new #CtkTreeIter-struct to be set to the child
1519	* @parent: (allow-none): the #CtkTreeIter-struct, or %NULL
1520	*
1521	* Sets @iter to point to the first child of @parent.
1522	*
1523	* If @parent has no children, %FALSE is returned and @iter is
1524	* set to be invalid. @parent will remain a valid node after this
1525	* function has been called.
1526	*
1527	* If @parent is %NULL returns the first node, equivalent to
1528	* `ctk_tree_model_get_iter_first (tree_model, iter);`
1529	*
1530	* Returns: %TRUE, if @iter has been set to the first child
1531	*/
1532	gboolean
1533	ctk_tree_model_iter_children (CtkTreeModel *tree_model,
1534	CtkTreeIter *iter,
1535	CtkTreeIter *parent)
1536	{
1537	CtkTreeModelIface *iface;
1538
1539	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1540	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1541
1542	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1543	g_return_val_if_fail (iface->iter_children != NULL, FALSE)do { if ((iface->iter_children != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->iter_children != NULL" ); return ((0)); } } while (0);
1544
1545	INITIALIZE_TREE_ITER (iter)do{ (iter)->stamp = 0; (iter)->user_data = ((void)0); ( iter)->user_data2 = ((void)0); (iter)->user_data3 = (( void*)0); }while (0);
1546
1547	return (* iface->iter_children) (tree_model, iter, parent);
1548	}
1549
1550	/**
1551	* ctk_tree_model_iter_has_child:
1552	* @tree_model: a #CtkTreeModel
1553	* @iter: the #CtkTreeIter-struct to test for children
1554	*
1555	* Returns %TRUE if @iter has children, %FALSE otherwise.
1556	*
1557	* Returns: %TRUE if @iter has children
1558	*/
1559	gboolean
1560	ctk_tree_model_iter_has_child (CtkTreeModel *tree_model,
1561	CtkTreeIter *iter)
1562	{
1563	CtkTreeModelIface *iface;
1564
1565	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1566	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1567
1568	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1569	g_return_val_if_fail (iface->iter_has_child != NULL, FALSE)do { if ((iface->iter_has_child != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->iter_has_child != NULL"); return ((0)); } } while (0);
1570
1571	return (* iface->iter_has_child) (tree_model, iter);
1572	}
1573
1574	/**
1575	* ctk_tree_model_iter_n_children:
1576	* @tree_model: a #CtkTreeModel
1577	* @iter: (allow-none): the #CtkTreeIter-struct, or %NULL
1578	*
1579	* Returns the number of children that @iter has.
1580	*
1581	* As a special case, if @iter is %NULL, then the number
1582	* of toplevel nodes is returned.
1583	*
1584	* Returns: the number of children of @iter
1585	*/
1586	gint
1587	ctk_tree_model_iter_n_children (CtkTreeModel *tree_model,
1588	CtkTreeIter *iter)
1589	{
1590	CtkTreeModelIface *iface;
1591
1592	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), 0)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return (0) ; } } while (0);
1593
1594	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1595	g_return_val_if_fail (iface->iter_n_children != NULL, 0)do { if ((iface->iter_n_children != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->iter_n_children != NULL"); return (0); } } while ( 0);
1596
1597	return (* iface->iter_n_children) (tree_model, iter);
1598	}
1599
1600	/**
1601	* ctk_tree_model_iter_nth_child:
1602	* @tree_model: a #CtkTreeModel
1603	* @iter: (out): the #CtkTreeIter-struct to set to the nth child
1604	* @parent: (allow-none): the #CtkTreeIter-struct to get the child from, or %NULL.
1605	* @n: the index of the desired child
1606	*
1607	* Sets @iter to be the child of @parent, using the given index.
1608	*
1609	* The first index is 0. If @n is too big, or @parent has no children,
1610	* @iter is set to an invalid iterator and %FALSE is returned. @parent
1611	* will remain a valid node after this function has been called. As a
1612	* special case, if @parent is %NULL, then the @n-th root node
1613	* is set.
1614	*
1615	* Returns: %TRUE, if @parent has an @n-th child
1616	*/
1617	gboolean
1618	ctk_tree_model_iter_nth_child (CtkTreeModel *tree_model,
1619	CtkTreeIter *iter,
1620	CtkTreeIter *parent,
1621	gint n)
1622	{
1623	CtkTreeModelIface *iface;
1624
1625	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1626	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1627	g_return_val_if_fail (n >= 0, FALSE)do { if ((n >= 0)) { } else { g_return_if_fail_warning ("Ctk" , ((const char*) (__func__)), "n >= 0"); return ((0)); } } while (0);
1628
1629	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1630	g_return_val_if_fail (iface->iter_nth_child != NULL, FALSE)do { if ((iface->iter_nth_child != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->iter_nth_child != NULL"); return ((0)); } } while (0);
1631
1632	INITIALIZE_TREE_ITER (iter)do{ (iter)->stamp = 0; (iter)->user_data = ((void)0); ( iter)->user_data2 = ((void)0); (iter)->user_data3 = (( void*)0); }while (0);
1633
1634	return (* iface->iter_nth_child) (tree_model, iter, parent, n);
1635	}
1636
1637	/**
1638	* ctk_tree_model_iter_parent:
1639	* @tree_model: a #CtkTreeModel
1640	* @iter: (out): the new #CtkTreeIter-struct to set to the parent
1641	* @child: the #CtkTreeIter-struct
1642	*
1643	* Sets @iter to be the parent of @child.
1644	*
1645	* If @child is at the toplevel, and doesn’t have a parent, then
1646	* @iter is set to an invalid iterator and %FALSE is returned.
1647	* @child will remain a valid node after this function has been
1648	* called.
1649	*
1650	* @iter will be initialized before the lookup is performed, so @child
1651	* and @iter cannot point to the same memory location.
1652	*
1653	* Returns: %TRUE, if @iter is set to the parent of @child
1654	*/
1655	gboolean
1656	ctk_tree_model_iter_parent (CtkTreeModel *tree_model,
1657	CtkTreeIter *iter,
1658	CtkTreeIter *child)
1659	{
1660	CtkTreeModelIface *iface;
1661
1662	g_return_val_if_fail (CTK_IS_TREE_MODEL (tree_model), FALSE)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return ((0 )); } } while (0);
1663	g_return_val_if_fail (iter != NULL, FALSE)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return ( (0)); } } while (0);
1664	g_return_val_if_fail (child != NULL, FALSE)do { if ((child != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "child != NULL"); return ((0)); } } while (0);
1665
1666	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1667	g_return_val_if_fail (iface->iter_parent != NULL, FALSE)do { if ((iface->iter_parent != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iface->iter_parent != NULL" ); return ((0)); } } while (0);
1668
1669	INITIALIZE_TREE_ITER (iter)do{ (iter)->stamp = 0; (iter)->user_data = ((void)0); ( iter)->user_data2 = ((void)0); (iter)->user_data3 = (( void*)0); }while (0);
1670
1671	return (* iface->iter_parent) (tree_model, iter, child);
1672	}
1673
1674	/**
1675	* ctk_tree_model_ref_node:
1676	* @tree_model: a #CtkTreeModel
1677	* @iter: the #CtkTreeIter-struct
1678	*
1679	* Lets the tree ref the node.
1680	*
1681	* This is an optional method for models to implement.
1682	* To be more specific, models may ignore this call as it exists
1683	* primarily for performance reasons.
1684	*
1685	* This function is primarily meant as a way for views to let
1686	* caching models know when nodes are being displayed (and hence,
1687	* whether or not to cache that node). Being displayed means a node
1688	* is in an expanded branch, regardless of whether the node is currently
1689	* visible in the viewport. For example, a file-system based model
1690	* would not want to keep the entire file-hierarchy in memory,
1691	* just the sections that are currently being displayed by
1692	* every current view.
1693	*
1694	* A model should be expected to be able to get an iter independent
1695	* of its reffed state.
1696	*/
1697	void
1698	ctk_tree_model_ref_node (CtkTreeModel *tree_model,
1699	CtkTreeIter *iter)
1700	{
1701	CtkTreeModelIface *iface;
1702
1703	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1704
1705	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1706	if (iface->ref_node)
1707	(* iface->ref_node) (tree_model, iter);
1708	}
1709
1710	/**
1711	* ctk_tree_model_unref_node:
1712	* @tree_model: a #CtkTreeModel
1713	* @iter: the #CtkTreeIter-struct
1714	*
1715	* Lets the tree unref the node.
1716	*
1717	* This is an optional method for models to implement.
1718	* To be more specific, models may ignore this call as it exists
1719	* primarily for performance reasons. For more information on what
1720	* this means, see ctk_tree_model_ref_node().
1721	*
1722	* Please note that nodes that are deleted are not unreffed.
1723	*/
1724	void
1725	ctk_tree_model_unref_node (CtkTreeModel *tree_model,
1726	CtkTreeIter *iter)
1727	{
1728	CtkTreeModelIface *iface;
1729
1730	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1731	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1732
1733	iface = CTK_TREE_MODEL_GET_IFACE (tree_model)((((CtkTreeModelIface) g_type_interface_peek (((GTypeInstance ) ((tree_model)))->g_class, ((ctk_tree_model_get_type ()) )))));
1734	if (iface->unref_node)
1735	(* iface->unref_node) (tree_model, iter);
1736	}
1737
1738	/**
1739	* ctk_tree_model_get:
1740	* @tree_model: a #CtkTreeModel
1741	* @iter: a row in @tree_model
1742	* @...: pairs of column number and value return locations,
1743	* terminated by -1
1744	*
1745	* Gets the value of one or more cells in the row referenced by @iter.
1746	* The variable argument list should contain integer column numbers,
1747	* each column number followed by a place to store the value being
1748	* retrieved. The list is terminated by a -1. For example, to get a
1749	* value from column 0 with type %G_TYPE_STRING, you would
1750	* write: `ctk_tree_model_get (model, iter, 0, &place_string_here, -1)`,
1751	* where `place_string_here` is a #gchararray
1752	* to be filled with the string.
1753	*
1754	* Returned values with type %G_TYPE_OBJECT have to be unreferenced,
1755	* values with type %G_TYPE_STRING or %G_TYPE_BOXED have to be freed.
1756	* Other values are passed by value.
1757	*/
1758	void
1759	ctk_tree_model_get (CtkTreeModel *tree_model,
1760	CtkTreeIter *iter,
1761	...)
1762	{
1763	va_list var_args;
1764
1765	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1766	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1767
1768	va_start (var_args, iter)__builtin_va_start(var_args, iter);
1769	ctk_tree_model_get_valist (tree_model, iter, var_args);
1770	va_end (var_args)__builtin_va_end(var_args);
1771	}
1772
1773	/**
1774	* ctk_tree_model_get_valist:
1775	* @tree_model: a #CtkTreeModel
1776	* @iter: a row in @tree_model
1777	* @var_args: va_list of column/return location pairs
1778	*
1779	* See ctk_tree_model_get(), this version takes a va_list
1780	* for language bindings to use.
1781	*/
1782	void
1783	ctk_tree_model_get_valist (CtkTreeModel *tree_model,
1784	CtkTreeIter *iter,
1785	va_list var_args)
1786	{
1787	gint column;
1788
1789	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1790	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1791
1792	column = va_arg (var_args, gint)__builtin_va_arg(var_args, gint);
1793
1794	while (column != -1)
1795	{
1796	GValue value = G_VALUE_INIT{ 0, { { 0 } } };
1797	gchar error = NULL((void)0);
1798
1799	if (column >= ctk_tree_model_get_n_columns (tree_model))
1800	{
1801	g_warning ("%s: Invalid column number %d accessed (remember to end your list of columns with a -1)", G_STRLOC"ctktreemodel.c" ":" "1801", column);
1802	break;
1803	}
1804
1805	ctk_tree_model_get_value (CTK_TREE_MODEL (tree_model)((((CtkTreeModel) (void ) g_type_check_instance_cast ((GTypeInstance *) ((tree_model)), ((ctk_tree_model_get_type ())))))), iter, column, &value);
1806
1807	G_VALUE_LCOPY (&value, var_args, 0, &error)do { const GValue g_vl_value = (&value); guint g_vl_flags = (0); GType g_vl_value_type = (((GValue) (g_vl_value))-> g_type); GTypeValueTable g_vl_vtable = g_type_value_table_peek (g_vl_value_type); const gchar g_vl_lcopy_format = g_vl_vtable ->lcopy_format; GTypeCValue g_vl_cvalues[(8)] = { { 0, }, } ; guint g_vl_n_values = 0; while (g_vl_lcopy_format) { GTypeCValue g_vl_cvalue = g_vl_cvalues + g_vl_n_values++; switch (g_vl_lcopy_format ++) { case G_VALUE_COLLECT_INT: g_vl_cvalue->v_int = __builtin_va_arg ((var_args), gint); break; case G_VALUE_COLLECT_LONG: g_vl_cvalue ->v_long = __builtin_va_arg((var_args), glong); break; case G_VALUE_COLLECT_INT64: g_vl_cvalue->v_int64 = __builtin_va_arg ((var_args), gint64); break; case G_VALUE_COLLECT_DOUBLE: g_vl_cvalue ->v_double = __builtin_va_arg((var_args), gdouble); break; case G_VALUE_COLLECT_POINTER: g_vl_cvalue->v_pointer = __builtin_va_arg ((var_args), gpointer); break; default: do { g_assertion_message_expr ("Ctk", "ctktreemodel.c", 1807, ((const char) (__func__)), ( (void)0)); } while (0); } } (&error) = g_vl_vtable-> lcopy_value (g_vl_value, g_vl_n_values, g_vl_cvalues, g_vl_flags ); } while (0);
1808	if (error)
1809	{
1810	g_warning ("%s: %s", G_STRLOC"ctktreemodel.c" ":" "1810", error);
1811	g_free (error);
1812
1813	/* we purposely leak the value here, it might not be
1814	* in a sane state if an error condition occurred
1815	*/
1816	break;
1817	}
1818
1819	g_value_unset (&value);
1820
1821	column = va_arg (var_args, gint)__builtin_va_arg(var_args, gint);
1822	}
1823	}
1824
1825	/**
1826	* ctk_tree_model_row_changed:
1827	* @tree_model: a #CtkTreeModel
1828	* @path: a #CtkTreePath-struct pointing to the changed row
1829	* @iter: a valid #CtkTreeIter-struct pointing to the changed row
1830	*
1831	* Emits the #CtkTreeModel::row-changed signal on @tree_model.
1832	*/
1833	void
1834	ctk_tree_model_row_changed (CtkTreeModel *tree_model,
1835	CtkTreePath *path,
1836	CtkTreeIter *iter)
1837	{
1838	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1839	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
1840	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1841
1842	g_signal_emit (tree_model, tree_model_signals[ROW_CHANGED], 0, path, iter);
1843	}
1844
1845	/**
1846	* ctk_tree_model_row_inserted:
1847	* @tree_model: a #CtkTreeModel
1848	* @path: a #CtkTreePath-struct pointing to the inserted row
1849	* @iter: a valid #CtkTreeIter-struct pointing to the inserted row
1850	*
1851	* Emits the #CtkTreeModel::row-inserted signal on @tree_model.
1852	*/
1853	void
1854	ctk_tree_model_row_inserted (CtkTreeModel *tree_model,
1855	CtkTreePath *path,
1856	CtkTreeIter *iter)
1857	{
1858	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1859	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
1860	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1861
1862	g_signal_emit (tree_model, tree_model_signals[ROW_INSERTED], 0, path, iter);
1863	}
1864
1865	/**
1866	* ctk_tree_model_row_has_child_toggled:
1867	* @tree_model: a #CtkTreeModel
1868	* @path: a #CtkTreePath-struct pointing to the changed row
1869	* @iter: a valid #CtkTreeIter-struct pointing to the changed row
1870	*
1871	* Emits the #CtkTreeModel::row-has-child-toggled signal on
1872	* @tree_model. This should be called by models after the child
1873	* state of a node changes.
1874	*/
1875	void
1876	ctk_tree_model_row_has_child_toggled (CtkTreeModel *tree_model,
1877	CtkTreePath *path,
1878	CtkTreeIter *iter)
1879	{
1880	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1881	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
1882	g_return_if_fail (iter != NULL)do { if ((iter != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "iter != NULL"); return; } } while (0);
1883
1884	g_signal_emit (tree_model, tree_model_signals[ROW_HAS_CHILD_TOGGLED], 0, path, iter);
1885	}
1886
1887	/**
1888	* ctk_tree_model_row_deleted:
1889	* @tree_model: a #CtkTreeModel
1890	* @path: a #CtkTreePath-struct pointing to the previous location of
1891	* the deleted row
1892	*
1893	* Emits the #CtkTreeModel::row-deleted signal on @tree_model.
1894	*
1895	* This should be called by models after a row has been removed.
1896	* The location pointed to by @path should be the location that
1897	* the row previously was at. It may not be a valid location anymore.
1898	*
1899	* Nodes that are deleted are not unreffed, this means that any
1900	* outstanding references on the deleted node should not be released.
1901	*/
1902	void
1903	ctk_tree_model_row_deleted (CtkTreeModel *tree_model,
1904	CtkTreePath *path)
1905	{
1906	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1907	g_return_if_fail (path != NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return; } } while (0);
1908
1909	g_signal_emit (tree_model, tree_model_signals[ROW_DELETED], 0, path);
1910	}
1911
1912	/**
1913	* ctk_tree_model_rows_reordered: (skip)
1914	* @tree_model: a #CtkTreeModel
1915	* @path: a #CtkTreePath-struct pointing to the tree node whose children
1916	* have been reordered
1917	* @iter: a valid #CtkTreeIter-struct pointing to the node whose children
1918	* have been reordered, or %NULL if the depth of @path is 0
1919	* @new_order: an array of integers mapping the current position of
1920	* each child to its old position before the re-ordering,
1921	* i.e. @new_order`[newpos] = oldpos`
1922	*
1923	* Emits the #CtkTreeModel::rows-reordered signal on @tree_model.
1924	*
1925	* This should be called by models when their rows have been
1926	* reordered.
1927	*/
1928	void
1929	ctk_tree_model_rows_reordered (CtkTreeModel *tree_model,
1930	CtkTreePath *path,
1931	CtkTreeIter *iter,
1932	gint *new_order)
1933	{
1934	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1935	g_return_if_fail (new_order != NULL)do { if ((new_order != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "new_order != NULL"); return ; } } while (0);
1936
1937	g_signal_emit (tree_model, tree_model_signals[ROWS_REORDERED], 0, path, iter, new_order);
1938	}
1939
1940	/**
1941	* ctk_tree_model_rows_reordered_with_length: (rename-to ctk_tree_model_rows_reordered)
1942	* @tree_model: a #CtkTreeModel
1943	* @path: a #CtkTreePath-struct pointing to the tree node whose children
1944	* have been reordered
1945	* @iter: (allow-none): a valid #CtkTreeIter-struct pointing to the node
1946	* whose children have been reordered, or %NULL if the depth
1947	* of @path is 0
1948	* @new_order: (array length=length): an array of integers
1949	* mapping the current position of each child to its old
1950	* position before the re-ordering,
1951	* i.e. @new_order`[newpos] = oldpos`
1952	* @length: length of @new_order array
1953	*
1954	* Emits the #CtkTreeModel::rows-reordered signal on @tree_model.
1955	*
1956	* This should be called by models when their rows have been
1957	* reordered.
1958	*
1959	* Since: 3.10
1960	*/
1961	void
1962	ctk_tree_model_rows_reordered_with_length (CtkTreeModel *tree_model,
1963	CtkTreePath *path,
1964	CtkTreeIter *iter,
1965	gint *new_order,
1966	gint length)
1967	{
1968	g_return_if_fail (CTK_IS_TREE_MODEL (tree_model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((tree_model)); GType __t = ((ctk_tree_model_get_type ())) ; gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0) ); else __r = g_type_check_instance_is_a (__inst, __t); __r; } )))))) { } else { g_return_if_fail_warning ("Ctk", ((const char *) (__func__)), "CTK_IS_TREE_MODEL (tree_model)"); return; } } while (0);
1969	g_return_if_fail (new_order != NULL)do { if ((new_order != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "new_order != NULL"); return ; } } while (0);
1970	g_return_if_fail (length == ctk_tree_model_iter_n_children (tree_model, iter))do { if ((length == ctk_tree_model_iter_n_children (tree_model , iter))) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__)), "length == ctk_tree_model_iter_n_children (tree_model, iter)" ); return; } } while (0);
1971
1972	g_signal_emit (tree_model, tree_model_signals[ROWS_REORDERED], 0, path, iter, new_order);
1973	}
1974
1975	static gboolean
1976	ctk_tree_model_foreach_helper (CtkTreeModel *model,
1977	CtkTreeIter *iter,
1978	CtkTreePath *path,
1979	CtkTreeModelForeachFunc func,
1980	gpointer user_data)
1981	{
1982	gboolean iters_persist;
1983
1984	iters_persist = ctk_tree_model_get_flags (model) & CTK_TREE_MODEL_ITERS_PERSIST;
1985
1986	do
1987	{
1988	CtkTreeIter child;
1989
1990	if ((* func) (model, path, iter, user_data))
1991	return TRUE(!(0));
1992
1993	if (!iters_persist)
1994	{
1995	if (!ctk_tree_model_get_iter (model, iter, path))
1996	return TRUE(!(0));
1997	}
1998
1999	if (ctk_tree_model_iter_children (model, &child, iter))
2000	{
2001	ctk_tree_path_down (path);
2002	if (ctk_tree_model_foreach_helper (model, &child, path, func, user_data))
2003	return TRUE(!(0));
2004	ctk_tree_path_up (path);
2005	}
2006
2007	ctk_tree_path_next (path);
2008	}
2009	while (ctk_tree_model_iter_next (model, iter));
2010
2011	return FALSE(0);
2012	}
2013
2014	/**
2015	* ctk_tree_model_foreach:
2016	* @model: a #CtkTreeModel
2017	* @func: (scope call): a function to be called on each row
2018	* @user_data: user data to passed to @func
2019	*
2020	* Calls func on each node in model in a depth-first fashion.
2021	*
2022	* If @func returns %TRUE, then the tree ceases to be walked,
2023	* and ctk_tree_model_foreach() returns.
2024	*/
2025	void
2026	ctk_tree_model_foreach (CtkTreeModel *model,
2027	CtkTreeModelForeachFunc func,
2028	gpointer user_data)
2029	{
2030	CtkTreePath *path;
2031	CtkTreeIter iter;
2032
2033	g_return_if_fail (CTK_IS_TREE_MODEL (model))do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((model)); GType __t = ((ctk_tree_model_get_type ())); gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0)); else __r = g_type_check_instance_is_a (__inst, __t); __r; })))))) { } else { g_return_if_fail_warning ("Ctk", ((const char*) (__func__ )), "CTK_IS_TREE_MODEL (model)"); return; } } while (0);
2034	g_return_if_fail (func != NULL)do { if ((func != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "func != NULL"); return; } } while (0);
2035
2036	path = ctk_tree_path_new_first ();
2037	if (!ctk_tree_model_get_iter (model, &iter, path))
2038	{
2039	ctk_tree_path_free (path);
	This statement is never executed
2040	return;
2041	}
2042
2043	ctk_tree_model_foreach_helper (model, &iter, path, func, user_data);
2044	ctk_tree_path_free (path);
2045	}
2046
2047
2048	/*
2049	* CtkTreeRowReference
2050	*/
2051
2052	static void ctk_tree_row_reference_unref_path (CtkTreePath *path,
2053	CtkTreeModel *model,
2054	gint depth);
2055
2056
2057	G_DEFINE_BOXED_TYPE (CtkTreeRowReference, ctk_tree_row_reference,static GType ctk_tree_row_reference_get_type_once (void); GType ctk_tree_row_reference_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); (void ) (0 ? (gpointer) (&static_g_define_type_id) : ((void) 0)); (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_row_reference_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); 0 ? (void) (( &static_g_define_type_id) = (g_define_type_id)) : (void) 0 ; g_once_init_leave_pointer ((&static_g_define_type_id), ( gpointer) (guintptr) (g_define_type_id)); })) ; } return static_g_define_type_id ; } __attribute__ ((__noinline__)) static GType ctk_tree_row_reference_get_type_once (void) { GType ( _g_register_boxed) (const gchar , union { CtkTreeRowReference (do_copy_type) (CtkTreeRowReference ); CtkTreeRowReference * (do_const_copy_type) (const CtkTreeRowReference ); GBoxedCopyFunc do_copy_boxed; } __attribute__((__transparent_union__ )), union { void (* do_free_type) (CtkTreeRowReference *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__)) ) = g_boxed_type_register_static ; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreeRowReference"), ctk_tree_row_reference_copy, ctk_tree_row_reference_free ); { {{};} } return g_define_type_id; }
2058	ctk_tree_row_reference_copy,static GType ctk_tree_row_reference_get_type_once (void); GType ctk_tree_row_reference_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); (void ) (0 ? (gpointer) (&static_g_define_type_id) : ((void) 0)); (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_row_reference_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); 0 ? (void) (( &static_g_define_type_id) = (g_define_type_id)) : (void) 0 ; g_once_init_leave_pointer ((&static_g_define_type_id), ( gpointer) (guintptr) (g_define_type_id)); })) ; } return static_g_define_type_id ; } __attribute__ ((__noinline__)) static GType ctk_tree_row_reference_get_type_once (void) { GType ( _g_register_boxed) (const gchar , union { CtkTreeRowReference (do_copy_type) (CtkTreeRowReference ); CtkTreeRowReference * (do_const_copy_type) (const CtkTreeRowReference ); GBoxedCopyFunc do_copy_boxed; } __attribute__((__transparent_union__ )), union { void (* do_free_type) (CtkTreeRowReference *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__)) ) = g_boxed_type_register_static ; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreeRowReference"), ctk_tree_row_reference_copy, ctk_tree_row_reference_free ); { {{};} } return g_define_type_id; }
2059	ctk_tree_row_reference_free)static GType ctk_tree_row_reference_get_type_once (void); GType ctk_tree_row_reference_get_type (void) { static GType static_g_define_type_id = 0; if ((__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); (void ) (0 ? (gpointer) (&static_g_define_type_id) : ((void) 0)); (!(__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id ) == sizeof (gpointer), "Expression evaluates to false"); __typeof__ ((&static_g_define_type_id)) gapg_temp_newval; __typeof__ ((&static_g_define_type_id)) gapg_temp_atomic = (&static_g_define_type_id ); __atomic_load (gapg_temp_atomic, &gapg_temp_newval, 5) ; gapg_temp_newval; })) && g_once_init_enter_pointer ( &static_g_define_type_id)); })) ) { GType g_define_type_id = ctk_tree_row_reference_get_type_once (); (__extension__ ({ _Static_assert (sizeof (&static_g_define_type_id) == sizeof (gpointer), "Expression evaluates to false"); 0 ? (void) (( &static_g_define_type_id) = (g_define_type_id)) : (void) 0 ; g_once_init_leave_pointer ((&static_g_define_type_id), ( gpointer) (guintptr) (g_define_type_id)); })) ; } return static_g_define_type_id ; } __attribute__ ((__noinline__)) static GType ctk_tree_row_reference_get_type_once (void) { GType ( _g_register_boxed) (const gchar , union { CtkTreeRowReference (do_copy_type) (CtkTreeRowReference ); CtkTreeRowReference * (do_const_copy_type) (const CtkTreeRowReference ); GBoxedCopyFunc do_copy_boxed; } __attribute__((__transparent_union__ )), union { void (* do_free_type) (CtkTreeRowReference *); GBoxedFreeFunc do_free_boxed; } __attribute__((__transparent_union__)) ) = g_boxed_type_register_static ; GType g_define_type_id = _g_register_boxed (g_intern_static_string ("CtkTreeRowReference"), ctk_tree_row_reference_copy, ctk_tree_row_reference_free ); { {{};} } return g_define_type_id; }
2060
2061	struct _CtkTreeRowReference
2062	{
2063	GObject *proxy;
2064	CtkTreeModel *model;
2065	CtkTreePath *path;
2066	};
2067
2068
2069	static void
2070	release_row_references (gpointer data)
2071	{
2072	RowRefList *refs = data;
2073	GSList tmp_list = NULL((void)0);
2074
2075	tmp_list = refs->list;
2076	while (tmp_list != NULL((void*)0))
2077	{
2078	CtkTreeRowReference *reference = tmp_list->data;
2079
2080	if (reference->proxy == (GObject *)reference->model)
2081	reference->model = NULL((void*)0);
2082	reference->proxy = NULL((void*)0);
2083
2084	/* we don't free the reference, users are responsible for that. */
2085
2086	tmp_list = tmp_list->next;
2087	}
2088
2089	g_slist_free (refs->list);
2090	g_free (refs);
2091	}
2092
2093	static void
2094	ctk_tree_row_ref_inserted (RowRefList *refs,
2095	CtkTreePath *path,
2096	CtkTreeIter *iter G_GNUC_UNUSED__attribute__ ((__unused__)))
2097	{
2098	GSList *tmp_list;
2099
2100	if (refs == NULL((void*)0))
2101	return;
2102
2103	/* This function corrects the path stored in the reference to
2104	* account for an insertion. Note that it's called _after_ the
2105	* insertion with the path to the newly-inserted row. Which means
2106	* that the inserted path is in a different "coordinate system" than
2107	* the old path (e.g. if the inserted path was just before the old
2108	* path, then inserted path and old path will be the same, and old
2109	* path must be moved down one).
2110	*/
2111
2112	tmp_list = refs->list;
2113
2114	while (tmp_list != NULL((void*)0))
2115	{
2116	CtkTreeRowReference *reference = tmp_list->data;
2117
2118	if (reference->path == NULL((void*)0))
2119	goto done;
2120
2121	if (reference->path->depth >= path->depth)
2122	{
2123	gint i;
2124	gboolean ancestor = TRUE(!(0));
2125
2126	for (i = 0; i < path->depth - 1; i ++)
2127	{
2128	if (path->indices[i] != reference->path->indices[i])
2129	{
2130	ancestor = FALSE(0);
2131	break;
2132	}
2133	}
2134	if (ancestor == FALSE(0))
2135	goto done;
2136
2137	if (path->indices[path->depth-1] <= reference->path->indices[path->depth-1])
2138	reference->path->indices[path->depth-1] += 1;
2139	}
2140	done:
2141	tmp_list = tmp_list->next;
2142	}
2143	}
2144
2145	static void
2146	ctk_tree_row_ref_deleted (RowRefList *refs,
2147	CtkTreePath *path)
2148	{
2149	GSList *tmp_list;
2150
2151	if (refs == NULL((void*)0))
2152	return;
2153
2154	/* This function corrects the path stored in the reference to
2155	* account for an deletion. Note that it's called _after_ the
2156	* deletion with the old path of the just-deleted row. Which means
2157	* that the deleted path is the same now-defunct "coordinate system"
2158	* as the path saved in the reference, which is what we want to fix.
2159	*/
2160
2161	tmp_list = refs->list;
2162
2163	while (tmp_list != NULL((void*)0))
2164	{
2165	CtkTreeRowReference *reference = tmp_list->data;
2166
2167	if (reference->path)
2168	{
2169	gint i;
2170
2171	if (path->depth > reference->path->depth)
2172	goto next;
2173	for (i = 0; i < path->depth - 1; i++)
2174	{
2175	if (path->indices[i] != reference->path->indices[i])
2176	goto next;
2177	}
2178
2179	/* We know it affects us. */
2180	if (path->indices[i] == reference->path->indices[i])
2181	{
2182	if (reference->path->depth > path->depth)
2183	/* some parent was deleted, trying to unref any node
2184	* between the deleted parent and the node the reference
2185	* is pointing to is bad, as those nodes are already gone.
2186	*/
2187	ctk_tree_row_reference_unref_path (reference->path, reference->model, path->depth - 1);
2188	else
2189	ctk_tree_row_reference_unref_path (reference->path, reference->model, reference->path->depth - 1);
2190	ctk_tree_path_free (reference->path);
2191	reference->path = NULL((void*)0);
2192	}
2193	else if (path->indices[i] < reference->path->indices[i])
2194	{
2195	reference->path->indices[path->depth-1]-=1;
2196	}
2197	}
2198
2199	next:
2200	tmp_list = tmp_list->next;
2201	}
2202	}
2203
2204	static void
2205	ctk_tree_row_ref_reordered (RowRefList *refs,
2206	CtkTreePath *path,
2207	CtkTreeIter *iter,
2208	gint *new_order)
2209	{
2210	GSList *tmp_list;
2211	gint length;
2212
2213	if (refs == NULL((void*)0))
2214	return;
2215
2216	tmp_list = refs->list;
2217
2218	while (tmp_list != NULL((void*)0))
2219	{
2220	CtkTreeRowReference *reference = tmp_list->data;
2221
2222	length = ctk_tree_model_iter_n_children (CTK_TREE_MODEL (reference->model)((((CtkTreeModel) (void ) g_type_check_instance_cast ((GTypeInstance *) ((reference->model)), ((ctk_tree_model_get_type ()))))) ), iter);
2223
2224	if (length < 2)
2225	return;
2226
2227	if ((reference->path) &&
2228	(ctk_tree_path_is_ancestor (path, reference->path)))
2229	{
2230	gint ref_depth = ctk_tree_path_get_depth (reference->path);
2231	gint depth = ctk_tree_path_get_depth (path);
2232
2233	if (ref_depth > depth)
2234	{
2235	gint i;
2236	gint *indices = ctk_tree_path_get_indices (reference->path);
2237
2238	for (i = 0; i < length; i++)
2239	{
2240	if (new_order[i] == indices[depth])
2241	{
2242	indices[depth] = i;
2243	break;
2244	}
2245	}
2246	}
2247	}
2248
2249	tmp_list = tmp_list->next;
2250	}
2251	}
2252
2253	/* We do this recursively so that we can unref children nodes
2254	* before their parent
2255	*/
2256	static void
2257	ctk_tree_row_reference_unref_path_helper (CtkTreePath *path,
2258	CtkTreeModel *model,
2259	CtkTreeIter *parent_iter,
2260	gint depth,
2261	gint current_depth)
2262	{
2263	CtkTreeIter iter;
2264
2265	if (depth == current_depth)
2266	return;
2267
2268	ctk_tree_model_iter_nth_child (model, &iter, parent_iter, path->indices[current_depth]);
2269	ctk_tree_row_reference_unref_path_helper (path, model, &iter, depth, current_depth + 1);
2270	ctk_tree_model_unref_node (model, &iter);
2271	}
2272
2273	static void
2274	ctk_tree_row_reference_unref_path (CtkTreePath *path,
2275	CtkTreeModel *model,
2276	gint depth)
2277	{
2278	CtkTreeIter iter;
2279
2280	if (depth <= 0)
2281	return;
2282
2283	ctk_tree_model_iter_nth_child (model, &iter, NULL((void*)0), path->indices[0]);
2284	ctk_tree_row_reference_unref_path_helper (path, model, &iter, depth, 1);
2285	ctk_tree_model_unref_node (model, &iter);
2286	}
2287
2288	/**
2289	* ctk_tree_row_reference_new:
2290	* @model: a #CtkTreeModel
2291	* @path: a valid #CtkTreePath-struct to monitor
2292	*
2293	* Creates a row reference based on @path.
2294	*
2295	* This reference will keep pointing to the node pointed to
2296	* by @path, so long as it exists. Any changes that occur on @model are
2297	* propagated, and the path is updated appropriately. If
2298	* @path isn’t a valid path in @model, then %NULL is returned.
2299	*
2300	* Returns: a newly allocated #CtkTreeRowReference, or %NULL
2301	*/
2302	CtkTreeRowReference *
2303	ctk_tree_row_reference_new (CtkTreeModel *model,
2304	CtkTreePath *path)
2305	{
2306	g_return_val_if_fail (CTK_IS_TREE_MODEL (model), NULL)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((model)); GType __t = ((ctk_tree_model_get_type ())); gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0)); else __r = g_type_check_instance_is_a (__inst, __t); __r; })))))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__ )), "CTK_IS_TREE_MODEL (model)"); return (((void)0)); } } while (0);
2307	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
2308
2309	/* We use the model itself as the proxy object; and call
2310	* ctk_tree_row_reference_inserted(), etc, in the
2311	* class closure (default handler) marshalers for the signal.
2312	*/
2313	return ctk_tree_row_reference_new_proxy (G_OBJECT (model)((((GObject) (void ) g_type_check_instance_cast ((GTypeInstance *) ((model)), (((GType) ((20) << (2)))))))), model, path);
2314	}
2315
2316	/**
2317	* ctk_tree_row_reference_new_proxy:
2318	* @proxy: a proxy #GObject
2319	* @model: a #CtkTreeModel
2320	* @path: a valid #CtkTreePath-struct to monitor
2321	*
2322	* You do not need to use this function.
2323	*
2324	* Creates a row reference based on @path.
2325	*
2326	* This reference will keep pointing to the node pointed to
2327	* by @path, so long as it exists. If @path isn’t a valid
2328	* path in @model, then %NULL is returned. However, unlike
2329	* references created with ctk_tree_row_reference_new(), it
2330	* does not listen to the model for changes. The creator of
2331	* the row reference must do this explicitly using
2332	* ctk_tree_row_reference_inserted(), ctk_tree_row_reference_deleted(),
2333	* ctk_tree_row_reference_reordered().
2334	*
2335	* These functions must be called exactly once per proxy when the
2336	* corresponding signal on the model is emitted. This single call
2337	* updates all row references for that proxy. Since built-in CTK+
2338	* objects like #CtkTreeView already use this mechanism internally,
2339	* using them as the proxy object will produce unpredictable results.
2340	* Further more, passing the same object as @model and @proxy
2341	* doesn’t work for reasons of internal implementation.
2342	*
2343	* This type of row reference is primarily meant by structures that
2344	* need to carefully monitor exactly when a row reference updates
2345	* itself, and is not generally needed by most applications.
2346	*
2347	* Returns: a newly allocated #CtkTreeRowReference, or %NULL
2348	*/
2349	CtkTreeRowReference *
2350	ctk_tree_row_reference_new_proxy (GObject *proxy,
2351	CtkTreeModel *model,
2352	CtkTreePath *path)
2353	{
2354	CtkTreeRowReference *reference;
2355	RowRefList *refs;
2356	CtkTreeIter parent_iter;
2357	gint i;
2358
2359	g_return_val_if_fail (G_IS_OBJECT (proxy), NULL)do { if (((((g_type_check_instance_is_fundamentally_a ((GTypeInstance ) ((proxy)), (((GType) ((20) << (2)))))))))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "G_IS_OBJECT (proxy)"); return (((void*)0)); } } while (0);
2360	g_return_val_if_fail (CTK_IS_TREE_MODEL (model), NULL)do { if (((((__extension__ ({ GTypeInstance __inst = (GTypeInstance ) ((model)); GType __t = ((ctk_tree_model_get_type ())); gboolean __r; if (!__inst) __r = (0); else if (__inst->g_class && __inst->g_class->g_type == __t) __r = (!(0)); else __r = g_type_check_instance_is_a (__inst, __t); __r; })))))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__ )), "CTK_IS_TREE_MODEL (model)"); return (((void)0)); } } while (0);
2361	g_return_val_if_fail (path != NULL, NULL)do { if ((path != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path != NULL"); return ( ((void*)0)); } } while (0);
2362	g_return_val_if_fail (path->depth > 0, NULL)do { if ((path->depth > 0)) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "path->depth > 0") ; return (((void)0)); } } while (0);
2363
2364	/* check that the path is valid */
2365	if (ctk_tree_model_get_iter (model, &parent_iter, path) == FALSE(0))
2366	return NULL((void*)0);
2367
2368	/* Now we want to ref every node */
2369	ctk_tree_model_iter_nth_child (model, &parent_iter, NULL((void*)0), path->indices[0]);
2370	ctk_tree_model_ref_node (model, &parent_iter);
2371
2372	for (i = 1; i < path->depth; i++)
2373	{
2374	CtkTreeIter iter;
2375	ctk_tree_model_iter_nth_child (model, &iter, &parent_iter, path->indices[i]);
2376	ctk_tree_model_ref_node (model, &iter);
2377	parent_iter = iter;
2378	}
2379
2380	/* Make the row reference */
2381	reference = g_new (CtkTreeRowReference, 1)((CtkTreeRowReference *) g_malloc_n ((1), sizeof (CtkTreeRowReference )));
2382
2383	g_object_ref (proxy)((__typeof__ (proxy)) (g_object_ref) (proxy));
2384	g_object_ref (model)((__typeof__ (model)) (g_object_ref) (model));
2385	reference->proxy = proxy;
2386	reference->model = model;
2387	reference->path = ctk_tree_path_copy (path);
2388
2389	refs = g_object_get_data (G_OBJECT (proxy)((((GObject) (void ) g_type_check_instance_cast ((GTypeInstance *) ((proxy)), (((GType) ((20) << (2)))))))), ROW_REF_DATA_STRING"ctk-tree-row-refs");
2390
2391	if (refs == NULL((void*)0))
2392	{
2393	refs = g_new (RowRefList, 1)((RowRefList *) g_malloc_n ((1), sizeof (RowRefList)));
2394	refs->list = NULL((void*)0);
2395
2396	g_object_set_data_full (G_OBJECT (proxy)((((GObject) (void ) g_type_check_instance_cast ((GTypeInstance *) ((proxy)), (((GType) ((20) << (2)))))))),
2397	I_(ROW_REF_DATA_STRING)g_intern_static_string ("ctk-tree-row-refs"),
2398	refs, release_row_references);
2399	}
2400
2401	refs->list = g_slist_prepend (refs->list, reference);
2402
2403	return reference;
2404	}
2405
2406	/**
2407	* ctk_tree_row_reference_get_path:
2408	* @reference: a #CtkTreeRowReference
2409	*
2410	* Returns a path that the row reference currently points to,
2411	* or %NULL if the path pointed to is no longer valid.
2412	*
2413	* Returns: (nullable) (transfer full): a current path, or %NULL
2414	*/
2415	CtkTreePath *
2416	ctk_tree_row_reference_get_path (CtkTreeRowReference *reference)
2417	{
2418	g_return_val_if_fail (reference != NULL, NULL)do { if ((reference != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "reference != NULL"); return (((void*)0)); } } while (0);
2419
2420	if (reference->proxy == NULL((void*)0))
2421	return NULL((void*)0);
2422
2423	if (reference->path == NULL((void*)0))
2424	return NULL((void*)0);
2425
2426	return ctk_tree_path_copy (reference->path);
2427	}
2428
2429	/**
2430	* ctk_tree_row_reference_get_model:
2431	* @reference: a #CtkTreeRowReference
2432	*
2433	* Returns the model that the row reference is monitoring.
2434	*
2435	* Returns: (transfer none): the model
2436	*
2437	* Since: 2.8
2438	*/
2439	CtkTreeModel *
2440	ctk_tree_row_reference_get_model (CtkTreeRowReference *reference)
2441	{
2442	g_return_val_if_fail (reference != NULL, NULL)do { if ((reference != ((void)0))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "reference != NULL"); return (((void*)0)); } } while (0);
2443
2444	return reference->model;
2445	}
2446
2447	/**
2448	* ctk_tree_row_reference_valid:
2449	* @reference: (allow-none): a #CtkTreeRowReference, or %NULL
2450	*
2451	* Returns %TRUE if the @reference is non-%NULL and refers to
2452	* a current valid path.
2453	*
2454	* Returns: %TRUE if @reference points to a valid path
2455	*/
2456	gboolean
2457	ctk_tree_row_reference_valid (CtkTreeRowReference *reference)
2458	{
2459	if (reference == NULL((void)0) \|\| reference->path == NULL((void)0))
2460	return FALSE(0);
2461
2462	return TRUE(!(0));
2463	}
2464
2465
2466	/**
2467	* ctk_tree_row_reference_copy:
2468	* @reference: a #CtkTreeRowReference
2469	*
2470	* Copies a #CtkTreeRowReference.
2471	*
2472	* Returns: a copy of @reference
2473	*
2474	* Since: 2.2
2475	*/
2476	CtkTreeRowReference *
2477	ctk_tree_row_reference_copy (CtkTreeRowReference *reference)
2478	{
2479	return ctk_tree_row_reference_new_proxy (reference->proxy,
2480	reference->model,
2481	reference->path);
2482	}
2483
2484	/**
2485	* ctk_tree_row_reference_free:
2486	* @reference: (allow-none): a #CtkTreeRowReference, or %NULL
2487	*
2488	* Free’s @reference. @reference may be %NULL
2489	*/
2490	void
2491	ctk_tree_row_reference_free (CtkTreeRowReference *reference)
2492	{
2493	RowRefList *refs;
2494
2495	if (reference == NULL((void*)0))
2496	return;
2497
2498	refs = g_object_get_data (G_OBJECT (reference->proxy)((((GObject) (void ) g_type_check_instance_cast ((GTypeInstance *) ((reference->proxy)), (((GType) ((20) << (2)))))) )), ROW_REF_DATA_STRING"ctk-tree-row-refs");
2499
2500	if (refs == NULL((void*)0))
2501	{
2502	g_warning (G_STRLOC"ctktreemodel.c" ":" "2502"": bad row reference, proxy has no outstanding row references");
2503	return;
2504	}
2505
2506	refs->list = g_slist_remove (refs->list, reference);
2507
2508	if (refs->list == NULL((void*)0))
2509	{
2510	g_object_set_data (G_OBJECT (reference->proxy)((((GObject) (void ) g_type_check_instance_cast ((GTypeInstance *) ((reference->proxy)), (((GType) ((20) << (2)))))) )),
2511	I_(ROW_REF_DATA_STRING)g_intern_static_string ("ctk-tree-row-refs"),
2512	NULL((void*)0));
2513	}
2514
2515	if (reference->path)
2516	{
2517	ctk_tree_row_reference_unref_path (reference->path, reference->model, reference->path->depth);
2518	ctk_tree_path_free (reference->path);
2519	}
2520
2521	g_object_unref (reference->proxy);
2522	g_object_unref (reference->model);
2523	g_free (reference);
2524	}
2525
2526	/**
2527	* ctk_tree_row_reference_inserted:
2528	* @proxy: a #GObject
2529	* @path: the row position that was inserted
2530	*
2531	* Lets a set of row reference created by
2532	* ctk_tree_row_reference_new_proxy() know that the
2533	* model emitted the #CtkTreeModel::row-inserted signal.
2534	*/
2535	void
2536	ctk_tree_row_reference_inserted (GObject *proxy,
2537	CtkTreePath *path)
2538	{
2539	g_return_if_fail (G_IS_OBJECT (proxy))do { if (((((g_type_check_instance_is_fundamentally_a ((GTypeInstance ) ((proxy)), (((GType) ((20) << (2)))))))))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "G_IS_OBJECT (proxy)"); return; } } while (0);
2540
2541	ctk_tree_row_ref_inserted ((RowRefList )g_object_get_data (proxy, ROW_REF_DATA_STRING"ctk-tree-row-refs"), path, NULL((void)0));
2542	}
2543
2544	/**
2545	* ctk_tree_row_reference_deleted:
2546	* @proxy: a #GObject
2547	* @path: the path position that was deleted
2548	*
2549	* Lets a set of row reference created by
2550	* ctk_tree_row_reference_new_proxy() know that the
2551	* model emitted the #CtkTreeModel::row-deleted signal.
2552	*/
2553	void
2554	ctk_tree_row_reference_deleted (GObject *proxy,
2555	CtkTreePath *path)
2556	{
2557	g_return_if_fail (G_IS_OBJECT (proxy))do { if (((((g_type_check_instance_is_fundamentally_a ((GTypeInstance ) ((proxy)), (((GType) ((20) << (2)))))))))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "G_IS_OBJECT (proxy)"); return; } } while (0);
2558
2559	ctk_tree_row_ref_deleted ((RowRefList *)g_object_get_data (proxy, ROW_REF_DATA_STRING"ctk-tree-row-refs"), path);
2560	}
2561
2562	/**
2563	* ctk_tree_row_reference_reordered: (skip)
2564	* @proxy: a #GObject
2565	* @path: the parent path of the reordered signal
2566	* @iter: the iter pointing to the parent of the reordered
2567	* @new_order: (array): the new order of rows
2568	*
2569	* Lets a set of row reference created by
2570	* ctk_tree_row_reference_new_proxy() know that the
2571	* model emitted the #CtkTreeModel::rows-reordered signal.
2572	*/
2573	void
2574	ctk_tree_row_reference_reordered (GObject *proxy,
2575	CtkTreePath *path,
2576	CtkTreeIter *iter,
2577	gint *new_order)
2578	{
2579	g_return_if_fail (G_IS_OBJECT (proxy))do { if (((((g_type_check_instance_is_fundamentally_a ((GTypeInstance ) ((proxy)), (((GType) ((20) << (2)))))))))) { } else { g_return_if_fail_warning ("Ctk", ((const char) (__func__)), "G_IS_OBJECT (proxy)"); return; } } while (0);
2580
2581	ctk_tree_row_ref_reordered ((RowRefList *)g_object_get_data (proxy, ROW_REF_DATA_STRING"ctk-tree-row-refs"), path, iter, new_order);
2582	}