/* GObject - GLib Type, Object, Parameter and Signal Library

 * Copyright (C) 1998-1999, 2000-2001 Tim Janik and Red Hat, Inc.

 *

 * SPDX-License-Identifier: LGPL-2.1-or-later

 *

 * This library is free software; you can redistribute it and/or

 * modify it under the terms of the GNU Lesser General Public

 * License as published by the Free Software Foundation; either

 * version 2.1 of the License, or (at your option) any later version.

 *

 * This library is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

 * Lesser General Public License for more details.

 *

 * You should have received a copy of the GNU Lesser General

 * Public License along with this library; if not, see <http://www.gnu.org/licenses/>.

 */

#ifndef __G_OBJECT_H__

#define __G_OBJECT_H__

#if !defined (__GLIB_GOBJECT_H_INSIDE__) && !defined (GOBJECT_COMPILATION)

#error "Only <glib-object.h> can be included directly."

#endif

#include        <gobject/gtype.h>

#include        <gobject/gvalue.h>

#include        <gobject/gparam.h>

#include        <gobject/gclosure.h>

#include        <gobject/gsignal.h>

#include        <gobject/gboxed.h>

G_BEGIN_DECLS

/* --- type macros --- */

/**

 * G_TYPE_IS_OBJECT:

 * @type: Type id to check

 * 

 * Check if the passed in type id is a %G_TYPE_OBJECT or derived from it.

 * 

 * Returns: %FALSE or %TRUE, indicating whether @type is a %G_TYPE_OBJECT.

 */

#define G_TYPE_IS_OBJECT(type)      (G_TYPE_FUNDAMENTAL (type) == G_TYPE_OBJECT)

/**

 * G_OBJECT:

 * @object: Object which is subject to casting.

 * 

 * Casts a #GObject or derived pointer into a (GObject*) pointer.

 *

 * Depending on the current debugging level, this function may invoke

 * certain runtime checks to identify invalid casts.

 */

#define G_OBJECT(object)            (G_TYPE_CHECK_INSTANCE_CAST ((object), G_TYPE_OBJECT, GObject))

/**

 * G_OBJECT_CLASS:

 * @class: a valid #GObjectClass

 * 

 * Casts a derived #GObjectClass structure into a #GObjectClass structure.

 */

#define G_OBJECT_CLASS(class)       (G_TYPE_CHECK_CLASS_CAST ((class), G_TYPE_OBJECT, GObjectClass))

/**

 * G_IS_OBJECT:

 * @object: Instance to check for being a %G_TYPE_OBJECT.

 * 

 * Checks whether a valid #GTypeInstance pointer is of type %G_TYPE_OBJECT.

 */

#if GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_42

#define G_IS_OBJECT(object)         (G_TYPE_CHECK_INSTANCE_FUNDAMENTAL_TYPE ((object), G_TYPE_OBJECT))

#else

#define G_IS_OBJECT(object)         (G_TYPE_CHECK_INSTANCE_TYPE ((object), G_TYPE_OBJECT))

#endif

/**

 * G_IS_OBJECT_CLASS:

 * @class: a #GObjectClass

 * 

 * Checks whether @class "is a" valid #GObjectClass structure of type

 * %G_TYPE_OBJECT or derived.

 */

#define G_IS_OBJECT_CLASS(class)    (G_TYPE_CHECK_CLASS_TYPE ((class), G_TYPE_OBJECT))

/**

 * G_OBJECT_GET_CLASS:

 * @object: a #GObject instance.

 * 

 * Get the class structure associated to a #GObject instance.

 *

 * Returns: pointer to object class structure.

 */

#define G_OBJECT_GET_CLASS(object)  (G_TYPE_INSTANCE_GET_CLASS ((object), G_TYPE_OBJECT, GObjectClass))

/**

 * G_OBJECT_TYPE:

 * @object: Object to return the type id for.

 * 

 * Get the type id of an object.

 * 

 * Returns: Type id of @object.

 */

#define G_OBJECT_TYPE(object)       (G_TYPE_FROM_INSTANCE (object))

/**

 * G_OBJECT_TYPE_NAME:

 * @object: Object to return the type name for.

 * 

 * Get the name of an object's type.

 * 

 * Returns: Type name of @object. The string is owned by the type system and 

 *  should not be freed.

 */

#define G_OBJECT_TYPE_NAME(object)  (g_type_name (G_OBJECT_TYPE (object)))

/**

 * G_OBJECT_CLASS_TYPE:

 * @class: a valid #GObjectClass

 * 

 * Get the type id of a class structure.

 * 

 * Returns: Type id of @class.

 */

#define G_OBJECT_CLASS_TYPE(class)  (G_TYPE_FROM_CLASS (class))

/**

 * G_OBJECT_CLASS_NAME:

 * @class: a valid #GObjectClass

 * 

 * Return the name of a class structure's type.

 * 

 * Returns: Type name of @class. The string is owned by the type system and 

 *  should not be freed.

 */

#define G_OBJECT_CLASS_NAME(class)  (g_type_name (G_OBJECT_CLASS_TYPE (class)))

/**

 * G_VALUE_HOLDS_OBJECT:

 * @value: a valid #GValue structure

 * 

 * Checks whether the given #GValue can hold values derived from type %G_TYPE_OBJECT.

 * 

 * Returns: %TRUE on success.

 */

#define G_VALUE_HOLDS_OBJECT(value) (G_TYPE_CHECK_VALUE_TYPE ((value), G_TYPE_OBJECT))

/* --- type macros --- */

/**

 * G_TYPE_INITIALLY_UNOWNED:

 * 

 * The type for #GInitiallyUnowned.

 */

#define G_TYPE_INITIALLY_UNOWNED        (g_initially_unowned_get_type())

/**

 * G_INITIALLY_UNOWNED:

 * @object: Object which is subject to casting.

 * 

 * Casts a #GInitiallyUnowned or derived pointer into a (GInitiallyUnowned*) 

 * pointer.

 *

 * Depending on the current debugging level, this function may invoke

 * certain runtime checks to identify invalid casts.

 */

#define G_INITIALLY_UNOWNED(object)           (G_TYPE_CHECK_INSTANCE_CAST ((object), G_TYPE_INITIALLY_UNOWNED, GInitiallyUnowned))

/**

 * G_INITIALLY_UNOWNED_CLASS:

 * @class: a valid #GInitiallyUnownedClass

 * 

 * Casts a derived #GInitiallyUnownedClass structure into a

 * #GInitiallyUnownedClass structure.

 */

#define G_INITIALLY_UNOWNED_CLASS(class)      (G_TYPE_CHECK_CLASS_CAST ((class), G_TYPE_INITIALLY_UNOWNED, GInitiallyUnownedClass))

/**

 * G_IS_INITIALLY_UNOWNED:

 * @object: Instance to check for being a %G_TYPE_INITIALLY_UNOWNED.

 * 

 * Checks whether a valid #GTypeInstance pointer is of type %G_TYPE_INITIALLY_UNOWNED.

 */

#define G_IS_INITIALLY_UNOWNED(object)        (G_TYPE_CHECK_INSTANCE_TYPE ((object), G_TYPE_INITIALLY_UNOWNED))

/**

 * G_IS_INITIALLY_UNOWNED_CLASS:

 * @class: a #GInitiallyUnownedClass

 * 

 * Checks whether @class "is a" valid #GInitiallyUnownedClass structure of type

 * %G_TYPE_INITIALLY_UNOWNED or derived.

 */

#define G_IS_INITIALLY_UNOWNED_CLASS(class)   (G_TYPE_CHECK_CLASS_TYPE ((class), G_TYPE_INITIALLY_UNOWNED))

/**

 * G_INITIALLY_UNOWNED_GET_CLASS:

 * @object: a #GInitiallyUnowned instance.

 * 

 * Get the class structure associated to a #GInitiallyUnowned instance.

 *

 * Returns: pointer to object class structure.

 */

#define G_INITIALLY_UNOWNED_GET_CLASS(object) (G_TYPE_INSTANCE_GET_CLASS ((object), G_TYPE_INITIALLY_UNOWNED, GInitiallyUnownedClass))

/* GInitiallyUnowned ia a GObject with initially floating reference count */

/* --- typedefs & structures --- */

typedef struct _GObject                  GObject;

typedef struct _GObjectClass             GObjectClass;

typedef struct _GObject                  GInitiallyUnowned;

typedef struct _GObjectClass             GInitiallyUnownedClass;

typedef struct _GObjectConstructParam    GObjectConstructParam;

/**

 * GObjectGetPropertyFunc:

 * @object: a #GObject

 * @property_id: the numeric id under which the property was registered with

 *  g_object_class_install_property().

 * @value: a #GValue to return the property value in

 * @pspec: the #GParamSpec describing the property

 * 

 * The type of the @get_property function of #GObjectClass. 

 */

typedef void (*GObjectGetPropertyFunc)  (GObject      *object,

                                         guint         property_id,

                                         GValue       *value,

                                         GParamSpec   *pspec);

/**

 * GObjectSetPropertyFunc:

 * @object: a #GObject

 * @property_id: the numeric id under which the property was registered with

 *  g_object_class_install_property().

 * @value: the new value for the property

 * @pspec: the #GParamSpec describing the property

 * 

 * The type of the @set_property function of #GObjectClass. 

 */

typedef void (*GObjectSetPropertyFunc)  (GObject      *object,

                                         guint         property_id,

                                         const GValue *value,

                                         GParamSpec   *pspec);

/**

 * GObjectFinalizeFunc:

 * @object: the #GObject being finalized

 * 

 * The type of the @finalize function of #GObjectClass.

 */

typedef void (*GObjectFinalizeFunc)     (GObject      *object);

/**

 * GWeakNotify:

 * @data: data that was provided when the weak reference was established

 * @where_the_object_was: the object being disposed

 * 

 * A #GWeakNotify function can be added to an object as a callback that gets

 * triggered when the object is finalized.

 *

 * Since the object is already being disposed when the #GWeakNotify is called,

 * there's not much you could do with the object, apart from e.g. using its

 * address as hash-index or the like.

 *

 * In particular, this means it’s invalid to call g_object_ref(),

 * g_weak_ref_init(), g_weak_ref_set(), g_object_add_toggle_ref(),

 * g_object_weak_ref(), g_object_add_weak_pointer() or any function which calls

 * them on the object from this callback.

 */

typedef void (*GWeakNotify)   (gpointer      data,

           GObject      *where_the_object_was);

struct  _GObject

{

  GTypeInstance  g_type_instance;

  /*< private >*/

  guint          ref_count;  /* (atomic) */

  GData         *qdata;

};

/**

 * GObjectClass:

 * @g_type_class: the parent class

 * @constructor: the @constructor function is called by g_object_new () to 

 *  complete the object initialization after all the construction properties are

 *  set. The first thing a @constructor implementation must do is chain up to the

 *  @constructor of the parent class. Overriding @constructor should be rarely 

 *  needed, e.g. to handle construct properties, or to implement singletons.

 * @set_property: the generic setter for all properties of this type. Should be

 *  overridden for every type with properties. If implementations of

 *  @set_property don't emit property change notification explicitly, this will

 *  be done implicitly by the type system. However, if the notify signal is

 *  emitted explicitly, the type system will not emit it a second time.

 * @get_property: the generic getter for all properties of this type. Should be

 *  overridden for every type with properties.

 * @dispose: the @dispose function is supposed to drop all references to other 

 *  objects, but keep the instance otherwise intact, so that client method 

 *  invocations still work. It may be run multiple times (due to reference 

 *  loops). Before returning, @dispose should chain up to the @dispose method 

 *  of the parent class.

 * @finalize: instance finalization function, should finish the finalization of 

 *  the instance begun in @dispose and chain up to the @finalize method of the 

 *  parent class.

 * @dispatch_properties_changed: emits property change notification for a bunch

 *  of properties. Overriding @dispatch_properties_changed should be rarely 

 *  needed.

 * @notify: the class closure for the notify signal

 * @constructed: the @constructed function is called by g_object_new() as the

 *  final step of the object creation process.  At the point of the call, all

 *  construction properties have been set on the object.  The purpose of this

 *  call is to allow for object initialisation steps that can only be performed

 *  after construction properties have been set.  @constructed implementors

 *  should chain up to the @constructed call of their parent class to allow it

 *  to complete its initialisation.

 * 

 * The class structure for the GObject type.

 * 

 * |[<!-- language="C" -->

 * // Example of implementing a singleton using a constructor.

 * static MySingleton *the_singleton = NULL;

 * 

 * static GObject*

 * my_singleton_constructor (GType                  type,

 *                           guint                  n_construct_params,

 *                           GObjectConstructParam *construct_params)

 * {

 *   GObject *object;

 *   

 *   if (!the_singleton)

 *     {

 *       object = G_OBJECT_CLASS (parent_class)->constructor (type,

 *                                                            n_construct_params,

 *                                                            construct_params);

 *       the_singleton = MY_SINGLETON (object);

 *     }

 *   else

 *     object = g_object_ref (G_OBJECT (the_singleton));

 * 

 *   return object;

 * }

 * ]|

 */

struct  _GObjectClass

{

  GTypeClass   g_type_class;

  /*< private >*/

  GSList      *construct_properties;

  /*< public >*/

  /* seldom overridden */

  GObject*   (*constructor)     (GType                  type,

                                 guint                  n_construct_properties,

                                 GObjectConstructParam *construct_properties);

  /* overridable methods */

  void       (*set_property)    (GObject        *object,

                                         guint           property_id,

                                         const GValue   *value,

                                         GParamSpec     *pspec);

  void       (*get_property)    (GObject        *object,

                                         guint           property_id,

                                         GValue         *value,

                                         GParamSpec     *pspec);

  void       (*dispose)     (GObject        *object);

  void       (*finalize)    (GObject        *object);

  /* seldom overridden */

  void       (*dispatch_properties_changed) (GObject      *object,

               guint     n_pspecs,

               GParamSpec  **pspecs);

  /* signals */

  void       (*notify)      (GObject  *object,

           GParamSpec *pspec);

  /* called when done constructing */

  void       (*constructed)   (GObject  *object);

  /*< private >*/

  gsize   flags;

  gsize         n_construct_properties;

  gpointer pspecs;

  gsize n_pspecs;

  /* padding */

  gpointer  pdummy[3];

};

/**

 * GObjectConstructParam:

 * @pspec: the #GParamSpec of the construct parameter

 * @value: the value to set the parameter to

 * 

 * The GObjectConstructParam struct is an auxiliary structure used to hand

 * #GParamSpec/#GValue pairs to the @constructor of a #GObjectClass.

 */

struct _GObjectConstructParam

{

  GParamSpec *pspec;

  GValue     *value;

};

/**

 * GInitiallyUnowned:

 *

 * A type for objects that have an initially floating reference.

 * 

 * All the fields in the `GInitiallyUnowned` structure are private to the

 * implementation and should never be accessed directly.

 */

/**

 * GInitiallyUnownedClass:

 * 

 * The class structure for the GInitiallyUnowned type.

 */

/* --- prototypes --- */

GOBJECT_AVAILABLE_IN_ALL

GType       g_initially_unowned_get_type      (void);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_class_install_property   (GObjectClass   *oclass,

                 guint           property_id,

                 GParamSpec     *pspec);

GOBJECT_AVAILABLE_IN_ALL

GParamSpec* g_object_class_find_property      (GObjectClass   *oclass,

                 const gchar    *property_name);

GOBJECT_AVAILABLE_IN_ALL

GParamSpec**g_object_class_list_properties    (GObjectClass   *oclass,

                 guint        *n_properties);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_class_override_property  (GObjectClass   *oclass,

                 guint           property_id,

                 const gchar    *name);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_class_install_properties (GObjectClass   *oclass,

                                               guint           n_pspecs,

                                               GParamSpec    **pspecs);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_interface_install_property (gpointer     g_iface,

             GParamSpec  *pspec);

GOBJECT_AVAILABLE_IN_ALL

GParamSpec* g_object_interface_find_property    (gpointer     g_iface,

             const gchar *property_name);

GOBJECT_AVAILABLE_IN_ALL

GParamSpec**g_object_interface_list_properties  (gpointer     g_iface,

             guint       *n_properties_p);

GOBJECT_AVAILABLE_IN_ALL

GType       g_object_get_type                 (void) G_GNUC_CONST;

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_new                      (GType           object_type,

                 const gchar    *first_property_name,

                 ...);

GOBJECT_AVAILABLE_IN_2_54

GObject*    g_object_new_with_properties      (GType           object_type,

                                               guint           n_properties,

                                               const char     *names[],

                                               const GValue    values[]);

G_GNUC_BEGIN_IGNORE_DEPRECATIONS

GOBJECT_DEPRECATED_IN_2_54_FOR(g_object_new_with_properties)

gpointer    g_object_newv         (GType           object_type,

                 guint         n_parameters,

                 GParameter     *parameters);

G_GNUC_END_IGNORE_DEPRECATIONS

GOBJECT_AVAILABLE_IN_ALL

GObject*    g_object_new_valist               (GType           object_type,

                 const gchar    *first_property_name,

                 va_list         var_args);

GOBJECT_AVAILABLE_IN_ALL

void      g_object_set                      (gpointer        object,

                 const gchar    *first_property_name,

                 ...) G_GNUC_NULL_TERMINATED;

GOBJECT_AVAILABLE_IN_ALL

void        g_object_get                      (gpointer        object,

                 const gchar    *first_property_name,

                 ...) G_GNUC_NULL_TERMINATED;

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_connect                  (gpointer        object,

                 const gchar    *signal_spec,

                 ...) G_GNUC_NULL_TERMINATED;

GOBJECT_AVAILABLE_IN_ALL

void      g_object_disconnect               (gpointer        object,

                 const gchar    *signal_spec,

                 ...) G_GNUC_NULL_TERMINATED;

GOBJECT_AVAILABLE_IN_2_54

void        g_object_setv                     (GObject        *object,

                                               guint           n_properties,

                                               const gchar    *names[],

                                               const GValue    values[]);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_set_valist               (GObject        *object,

                 const gchar    *first_property_name,

                 va_list         var_args);

GOBJECT_AVAILABLE_IN_2_54

void        g_object_getv                     (GObject        *object,

                                               guint           n_properties,

                                               const gchar    *names[],

                                               GValue          values[]);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_get_valist               (GObject        *object,

                 const gchar    *first_property_name,

                 va_list         var_args);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_set_property             (GObject        *object,

                 const gchar    *property_name,

                 const GValue   *value);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_get_property             (GObject        *object,

                 const gchar    *property_name,

                 GValue         *value);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_freeze_notify            (GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_notify                   (GObject        *object,

                 const gchar    *property_name);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_notify_by_pspec          (GObject        *object,

                 GParamSpec     *pspec);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_thaw_notify              (GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

gboolean    g_object_is_floating            (gpointer        object);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_ref_sink               (gpointer        object);

GOBJECT_AVAILABLE_IN_2_70

gpointer    g_object_take_ref                 (gpointer        object);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_ref                      (gpointer        object);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_unref                    (gpointer        object);

GOBJECT_AVAILABLE_IN_ALL

void      g_object_weak_ref         (GObject        *object,

                 GWeakNotify     notify,

                 gpointer        data);

GOBJECT_AVAILABLE_IN_ALL

void      g_object_weak_unref         (GObject        *object,

                 GWeakNotify     notify,

                 gpointer        data);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_add_weak_pointer         (GObject        *object, 

                                               gpointer       *weak_pointer_location);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_remove_weak_pointer      (GObject        *object, 

                                               gpointer       *weak_pointer_location);

#if defined(glib_typeof) && GLIB_VERSION_MAX_ALLOWED >= GLIB_VERSION_2_56

/* Make reference APIs type safe with macros */

#define g_object_ref(Obj) ((glib_typeof (Obj)) (g_object_ref) (Obj))

#define g_object_ref_sink(Obj) ((glib_typeof (Obj)) (g_object_ref_sink) (Obj))

#endif

/**

 * GToggleNotify:

 * @data: Callback data passed to g_object_add_toggle_ref()

 * @object: The object on which g_object_add_toggle_ref() was called.

 * @is_last_ref: %TRUE if the toggle reference is now the

 *  last reference to the object. %FALSE if the toggle

 *  reference was the last reference and there are now other

 *  references.

 * 

 * A callback function used for notification when the state

 * of a toggle reference changes.

 *

 * See also: g_object_add_toggle_ref()

 */

typedef void (*GToggleNotify) (gpointer      data,

             GObject      *object,

             gboolean      is_last_ref);

GOBJECT_AVAILABLE_IN_ALL

void g_object_add_toggle_ref    (GObject       *object,

         GToggleNotify  notify,

         gpointer       data);

GOBJECT_AVAILABLE_IN_ALL

void g_object_remove_toggle_ref (GObject       *object,

         GToggleNotify  notify,

         gpointer       data);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_get_qdata                (GObject        *object,

                 GQuark          quark);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_set_qdata                (GObject        *object,

                 GQuark          quark,

                 gpointer        data);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_set_qdata_full           (GObject        *object,

                 GQuark          quark,

                 gpointer        data,

                 GDestroyNotify  destroy);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_steal_qdata              (GObject        *object,

                 GQuark          quark);

GOBJECT_AVAILABLE_IN_2_34

gpointer    g_object_dup_qdata                (GObject        *object,

                                               GQuark          quark,

                                               GDuplicateFunc  dup_func,

                 gpointer         user_data);

GOBJECT_AVAILABLE_IN_2_34

gboolean    g_object_replace_qdata            (GObject        *object,

                                               GQuark          quark,

                                               gpointer        oldval,

                                               gpointer        newval,

                                               GDestroyNotify  destroy,

                 GDestroyNotify *old_destroy);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_get_data                 (GObject        *object,

                 const gchar    *key);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_set_data                 (GObject        *object,

                 const gchar    *key,

                 gpointer        data);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_set_data_full            (GObject        *object,

                 const gchar    *key,

                 gpointer        data,

                 GDestroyNotify  destroy);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_object_steal_data               (GObject        *object,

                 const gchar    *key);

GOBJECT_AVAILABLE_IN_2_34

gpointer    g_object_dup_data                 (GObject        *object,

                                               const gchar    *key,

                                               GDuplicateFunc  dup_func,

                 gpointer         user_data);

GOBJECT_AVAILABLE_IN_2_34

gboolean    g_object_replace_data             (GObject        *object,

                                               const gchar    *key,

                                               gpointer        oldval,

                                               gpointer        newval,

                                               GDestroyNotify  destroy,

                 GDestroyNotify *old_destroy);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_watch_closure            (GObject        *object,

                 GClosure       *closure);

GOBJECT_AVAILABLE_IN_ALL

GClosure*   g_cclosure_new_object             (GCallback       callback_func,

                 GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

GClosure*   g_cclosure_new_object_swap        (GCallback       callback_func,

                 GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

GClosure*   g_closure_new_object              (guint           sizeof_closure,

                 GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

void        g_value_set_object                (GValue         *value,

                 gpointer        v_object);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_value_get_object                (const GValue   *value);

GOBJECT_AVAILABLE_IN_ALL

gpointer    g_value_dup_object                (const GValue   *value);

GOBJECT_AVAILABLE_IN_ALL

gulong      g_signal_connect_object           (gpointer        instance,

                 const gchar    *detailed_signal,

                 GCallback       c_handler,

                 gpointer        gobject,

                 GConnectFlags   connect_flags);

/*< protected >*/

GOBJECT_AVAILABLE_IN_ALL

void        g_object_force_floating           (GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

void        g_object_run_dispose        (GObject        *object);

GOBJECT_AVAILABLE_IN_ALL

void        g_value_take_object               (GValue         *value,

                 gpointer        v_object);

GOBJECT_DEPRECATED_FOR(g_value_take_object)

void        g_value_set_object_take_ownership (GValue         *value,

                                               gpointer        v_object);

GOBJECT_DEPRECATED

gsize     g_object_compat_control       (gsize         what,

                 gpointer        data);

/* --- implementation macros --- */

#define G_OBJECT_WARN_INVALID_PSPEC(object, pname, property_id, pspec) \

G_STMT_START { \

  GObject *_glib__object = (GObject*) (object); \

  GParamSpec *_glib__pspec = (GParamSpec*) (pspec); \

  guint _glib__property_id = (property_id); \

  g_warning ("%s:%d: invalid %s id %u for \"%s\" of type '%s' in '%s'", \

             __FILE__, __LINE__, \

             (pname), \

             _glib__property_id, \

             _glib__pspec->name, \

             g_type_name (G_PARAM_SPEC_TYPE (_glib__pspec)), \

             G_OBJECT_TYPE_NAME (_glib__object)); \

} G_STMT_END

/**

 * G_OBJECT_WARN_INVALID_PROPERTY_ID:

 * @object: the #GObject on which set_property() or get_property() was called

 * @property_id: the numeric id of the property

 * @pspec: the #GParamSpec of the property

 * 

 * This macro should be used to emit a standard warning about unexpected 

 * properties in set_property() and get_property() implementations.

 */

#define G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec) \

    G_OBJECT_WARN_INVALID_PSPEC ((object), "property", (property_id), (pspec))

GOBJECT_AVAILABLE_IN_ALL

void    g_clear_object (GObject **object_ptr);

#define g_clear_object(object_ptr) g_clear_pointer ((object_ptr), g_object_unref)

/**

 * g_set_object: (skip)

 * @object_ptr: (inout) (not optional) (nullable): a pointer to a #GObject reference

 * @new_object: (nullable) (transfer none): a pointer to the new #GObject to

 *   assign to @object_ptr, or %NULL to clear the pointer

 *

 * Updates a #GObject pointer to refer to @new_object.

 *

 * It increments the reference count of @new_object (if non-%NULL), decrements

 * the reference count of the current value of @object_ptr (if non-%NULL), and

 * assigns @new_object to @object_ptr. The assignment is not atomic.

 *

 * @object_ptr must not be %NULL, but can point to a %NULL value.

 *

 * A macro is also included that allows this function to be used without

 * pointer casts. The function itself is static inline, so its address may vary

 * between compilation units.

 *

 * One convenient usage of this function is in implementing property setters:

 * |[

 *   void

 *   foo_set_bar (Foo *foo,

 *                Bar *new_bar)

 *   {

 *     g_return_if_fail (IS_FOO (foo));

 *     g_return_if_fail (new_bar == NULL || IS_BAR (new_bar));

 *

 *     if (g_set_object (&foo->bar, new_bar))

 *       g_object_notify (foo, "bar");

 *   }

 * ]|

 *

 * Returns: %TRUE if the value of @object_ptr changed, %FALSE otherwise

 *

 * Since: 2.44

 */

static inline gboolean

(g_set_object) (GObject **object_ptr,

                GObject  *new_object)

{

  GObject *old_object = *object_ptr;

  /* rely on g_object_[un]ref() to check the pointers are actually GObjects;

   * elide a (object_ptr != NULL) check because most of the time we will be

   * operating on struct members with a constant offset, so a NULL check would

   * not catch bugs

   */

  if (old_object == new_object)

    return FALSE;

  if (new_object != NULL)

    g_object_ref (new_object);

  *object_ptr = new_object;

  if (old_object != NULL)

    g_object_unref (old_object);

  return TRUE;

}

/* We need GCC for __extension__, which we need to sort out strict aliasing of @object_ptr */

#if defined(__GNUC__)

#define g_set_object(object_ptr, new_object) \

  (G_GNUC_EXTENSION ({ \

    G_STATIC_ASSERT (sizeof *(object_ptr) == sizeof (new_object)); \

    /* Only one access, please; work around type aliasing */ \

    union { char *in; GObject **out; } _object_ptr; \

    _object_ptr.in = (char *) (object_ptr); \

    /* Check types match */ \

    (void) (0 ? *(object_ptr) = (new_object), FALSE : FALSE); \

    (g_set_object) (_object_ptr.out, (GObject *) new_object); \

  })) \

  GOBJECT_AVAILABLE_MACRO_IN_2_44

#else  /* if !defined(__GNUC__) */

#define g_set_object(object_ptr, new_object) \

 (/* Check types match. */ \

  0 ? *(object_ptr) = (new_object), FALSE : \

  (g_set_object) ((GObject **) (object_ptr), (GObject *) (new_object)) \

 )

#endif  /* !defined(__GNUC__) */

/**

 * g_assert_finalize_object: (skip)

 * @object: (transfer full) (type GObject.Object): an object

 *

 * Assert that @object is non-%NULL, then release one reference to it with

 * g_object_unref() and assert that it has been finalized (i.e. that there

 * are no more references).

 *

 * If assertions are disabled via `G_DISABLE_ASSERT`,

 * this macro just calls g_object_unref() without any further checks.

 *

 * This macro should only be used in regression tests.

 *

 * Since: 2.62

 */

static inline void

(g_assert_finalize_object) (GObject *object)

{

  gpointer weak_pointer = object;

  g_assert_true (G_IS_OBJECT (weak_pointer));

  g_object_add_weak_pointer (object, &weak_pointer);

  g_object_unref (weak_pointer);

  g_assert_null (weak_pointer);

}

#ifdef G_DISABLE_ASSERT

#define g_assert_finalize_object(object) g_object_unref (object)

#else

#define g_assert_finalize_object(object) (g_assert_finalize_object ((GObject *) object))

#endif

/**

 * g_clear_weak_pointer: (skip)

 * @weak_pointer_location: The memory address of a pointer

 *

 * Clears a weak reference to a #GObject.

 *

 * @weak_pointer_location must not be %NULL.

 *

 * If the weak reference is %NULL then this function does nothing.

 * Otherwise, the weak reference to the object is removed for that location

 * and the pointer is set to %NULL.

 *

 * A macro is also included that allows this function to be used without

 * pointer casts. The function itself is static inline, so its address may vary

 * between compilation units.

 *

 * Since: 2.56

 */

static inline void

(g_clear_weak_pointer) (gpointer *weak_pointer_location)

{

  GObject *object = (GObject *) *weak_pointer_location;

  if (object != NULL)

    {

      g_object_remove_weak_pointer (object, weak_pointer_location);

      *weak_pointer_location = NULL;

    }

}

#define g_clear_weak_pointer(weak_pointer_location) \

 (/* Check types match. */ \

  (g_clear_weak_pointer) ((gpointer *) (weak_pointer_location)) \

 )

/**

 * g_set_weak_pointer: (skip)

 * @weak_pointer_location: the memory address of a pointer

 * @new_object: (nullable) (transfer none): a pointer to the new #GObject to

 *   assign to it, or %NULL to clear the pointer

 *

 * Updates a pointer to weakly refer to @new_object.

 *

 * It assigns @new_object to @weak_pointer_location and ensures

 * that @weak_pointer_location will automatically be set to %NULL

 * if @new_object gets destroyed. The assignment is not atomic.

 * The weak reference is not thread-safe, see g_object_add_weak_pointer()

 * for details.

 *

 * The @weak_pointer_location argument must not be %NULL.

 *

 * A macro is also included that allows this function to be used without

 * pointer casts. The function itself is static inline, so its address may vary

 * between compilation units.

 *

 * One convenient usage of this function is in implementing property setters:

 * |[

 *   void

 *   foo_set_bar (Foo *foo,

 *                Bar *new_bar)

 *   {

 *     g_return_if_fail (IS_FOO (foo));

 *     g_return_if_fail (new_bar == NULL || IS_BAR (new_bar));

 *

 *     if (g_set_weak_pointer (&foo->bar, new_bar))

 *       g_object_notify (foo, "bar");

 *   }

 * ]|

 *

 * Returns: %TRUE if the value of @weak_pointer_location changed, %FALSE otherwise

 *

 * Since: 2.56

 */

static inline gboolean

(g_set_weak_pointer) (gpointer *weak_pointer_location,

                      GObject  *new_object)

{

  GObject *old_object = (GObject *) *weak_pointer_location;

  /* elide a (weak_pointer_location != NULL) check because most of the time we

   * will be operating on struct members with a constant offset, so a NULL

   * check would not catch bugs

   */

  if (old_object == new_object)

    return FALSE;

  if (old_object != NULL)

    g_object_remove_weak_pointer (old_object, weak_pointer_location);

  *weak_pointer_location = new_object;

  if (new_object != NULL)

    g_object_add_weak_pointer (new_object, weak_pointer_location);

  return TRUE;

}

#define g_set_weak_pointer(weak_pointer_location, new_object) \

 (/* Check types match. */ \

  0 ? *(weak_pointer_location) = (new_object), FALSE : \

  (g_set_weak_pointer) ((gpointer *) (weak_pointer_location), (GObject *) (new_object)) \

 )

typedef struct {

    /*<private>*/

    union { gpointer p; } priv;

} GWeakRef;

GOBJECT_AVAILABLE_IN_ALL

void     g_weak_ref_init       (GWeakRef *weak_ref,

                                gpointer  object);

GOBJECT_AVAILABLE_IN_ALL

void     g_weak_ref_clear      (GWeakRef *weak_ref);

GOBJECT_AVAILABLE_IN_ALL

gpointer g_weak_ref_get        (GWeakRef *weak_ref);

GOBJECT_AVAILABLE_IN_ALL

void     g_weak_ref_set        (GWeakRef *weak_ref,

                                gpointer  object);

G_END_DECLS

#endif /* __G_OBJECT_H__ */