2008-06-02 17:41:35 -04:00
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// -*- c++ -*-
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2009-07-02 12:00:45 -04:00
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/* $Id: objectbase.cc 530 2008-01-20 18:54:44Z murrayc $ */
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2008-06-02 17:41:35 -04:00
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/* Copyright 2002 The gtkmm Development Team
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*
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* This library is free software; you can redistribute it and/or
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2009-07-02 12:00:45 -04:00
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* modify it under the terms of the GNU Library General Public
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2008-06-02 17:41:35 -04:00
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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2008-06-02 17:41:35 -04:00
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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2009-07-02 12:00:45 -04:00
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* Library General Public License for more details.
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2008-06-02 17:41:35 -04:00
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the Free
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* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#include <glib-object.h>
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#include <glibmm/quark.h>
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#include <glibmm/objectbase.h>
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#include <glibmm/propertyproxy_base.h> //For PropertyProxyConnectionNode
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namespace
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{
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// Used by the Glib::ObjectBase default ctor. Using an explicitly defined
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// char array rather than a string literal allows for fast pointer comparison,
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// which is otherwise not guaranteed to work.
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static const char anonymous_custom_type_name[] = "gtkmm__anonymous_custom_type";
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} // anonymous namespace
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namespace Glib
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{
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/**** Glib::ObjectBase *****************************************************/
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ObjectBase::ObjectBase()
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:
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gobject_ (0),
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custom_type_name_ (anonymous_custom_type_name),
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cpp_destruction_in_progress_ (false)
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{}
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ObjectBase::ObjectBase(const char* custom_type_name)
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:
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gobject_ (0),
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custom_type_name_ (custom_type_name),
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cpp_destruction_in_progress_ (false)
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{}
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ObjectBase::ObjectBase(const std::type_info& custom_type_info)
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:
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gobject_ (0),
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custom_type_name_ (custom_type_info.name()),
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cpp_destruction_in_progress_ (false)
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{}
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// initialize() actually initializes the wrapper. Glib::ObjectBase is used
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// as virtual base class, which means the most-derived class' ctor invokes
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// the Glib::ObjectBase ctor -- thus it's useless for Glib::Object.
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//
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void ObjectBase::initialize(GObject* castitem)
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{
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if(gobject_)
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{
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// initialize() might be called twice when used with MI, e.g. by the ctors
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// of Glib::Object and Glib::Interface. However, they must both refer to
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// the same underlying GObject instance.
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//
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g_assert(gobject_ == castitem);
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// TODO: Think about it. Will this really be called twice?
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g_printerr("ObjectBase::initialize() called twice for the same GObject\n");
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return; // Don't initialize the wrapper twice.
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}
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//g_print("%s : %s\n", G_GNUC_PRETTY_FUNCTION, G_OBJECT_TYPE_NAME(castitem));
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gobject_ = castitem;
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_set_current_wrapper(castitem);
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}
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ObjectBase::~ObjectBase()
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{
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// Normally, gobject_ should always be 0 at this point, because:
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//
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// a) Gtk::Object handles memory management on its own and always resets
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// the gobject_ pointer in its destructor.
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//
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// b) Glib::Object instances that aren't Gtk::Objects will always be
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// deleted by the destroy_notify_() virtual method. Calling delete
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// on a Glib::Object is a programming error.
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//
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// The *only* situation where gobject_ is validly not 0 at this point
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// happens if a derived class's ctor throws an exception. In that case
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// we have to call g_object_unref() on our own.
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//
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if(GObject *const gobject = gobject_)
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{
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#ifdef GLIBMM_DEBUG_REFCOUNTING
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g_warning("(Glib::ObjectBase::~ObjectBase): gobject_ = %p", (void*) gobject_);
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#endif
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gobject_ = 0;
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#ifdef GLIBMM_DEBUG_REFCOUNTING
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g_warning("(Glib::ObjectBase::~ObjectBase): before g_object_steal_qdata()");
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#endif
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// Remove the pointer to the wrapper from the underlying instance.
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// This does _not_ cause invocation of the destroy_notify callback.
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g_object_steal_qdata(gobject, quark_);
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#ifdef GLIBMM_DEBUG_REFCOUNTING
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g_warning("(Glib::ObjectBase::~ObjectBase): calling g_object_unref()");
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#endif
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g_object_unref(gobject);
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}
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}
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void ObjectBase::reference() const
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{
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GLIBMM_DEBUG_REFERENCE(this, gobject_);
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g_object_ref(gobject_);
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}
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void ObjectBase::unreference() const
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{
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GLIBMM_DEBUG_UNREFERENCE(this, gobject_);
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g_object_unref(gobject_);
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}
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GObject* ObjectBase::gobj_copy() const
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{
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reference();
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return gobject_;
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}
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void ObjectBase::_set_current_wrapper(GObject* object)
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{
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// Store a pointer to this wrapper in the underlying instance, so that we
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// never create a second wrapper for the same underlying instance. Also,
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// specify a callback that will tell us when it's time to delete this C++
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// wrapper instance:
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if(object)
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{
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if(!g_object_get_qdata(object, Glib::quark_))
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{
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g_object_set_qdata_full(object, Glib::quark_, this, &destroy_notify_callback_);
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}
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else
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{
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g_warning("This object, of type %s, already has a wrapper.\n"
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"You should use wrap() instead of a constructor.",
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G_OBJECT_TYPE_NAME(object));
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}
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}
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}
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// static
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ObjectBase* ObjectBase::_get_current_wrapper(GObject* object)
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{
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if(object)
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return static_cast<ObjectBase*>(g_object_get_qdata(object, Glib::quark_));
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else
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return 0;
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}
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// static
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void ObjectBase::destroy_notify_callback_(void* data)
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{
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//GLIBMM_LIFECYCLE
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// This method is called (indirectly) from g_object_run_dispose().
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// Get the C++ instance associated with the C instance:
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ObjectBase* cppObject = static_cast<ObjectBase*>(data); //Previously set with g_object_set_qdata_full().
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#ifdef GLIBMM_DEBUG_REFCOUNTING
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g_warning("ObjectBase::destroy_notify_callback_: cppObject = %p, gobject_ = %p, gtypename = %s",
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(void*) cppObject, (void*) cppObject->gobject_, cppObject->gobject_);
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#endif
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if(cppObject) //This will be 0 if the C++ destructor has already run.
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{
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cppObject->destroy_notify_(); //Virtual - it does different things for GObject and GtkObject.
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}
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}
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void ObjectBase::destroy_notify_()
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{
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// The C instance is about to be disposed, making it unusable. Now is a
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// good time to delete the C++ wrapper of the C instance. There is no way
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// to force the disposal of the GObject (though GtkObject has
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// gtk_object_destroy()), So this is the *only* place where we delete the
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// C++ wrapper.
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//
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// This will only happen after the last unreference(), which will be done by
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// the RefPtr<> destructor. There should be no way to access the wrapper or
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// the undobjecterlying instance after that, so it's OK to delete this.
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#ifdef GLIBMM_DEBUG_REFCOUNTING
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g_warning("Glib::ObjectBase::destroy_notify_: gobject_ = %p", (void*) gobject_);
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#endif
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gobject_ = 0; // Make sure we don't unref it again in the dtor.
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delete this;
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}
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bool ObjectBase::is_anonymous_custom_() const
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{
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// Doing high-speed pointer comparison is OK here.
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return (custom_type_name_ == anonymous_custom_type_name);
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}
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bool ObjectBase::is_derived_() const
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{
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// gtkmmproc-generated classes initialize this to 0 by default.
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return (custom_type_name_ != 0);
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}
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void ObjectBase::set_manage()
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{
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// This is a private method and Gtk::manage() is a template function.
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// Thus this will probably never run, unless you do something like:
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//
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// manage(static_cast<Gtk::Object*>(refptr.operator->()));
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g_error("Glib::ObjectBase::set_manage(): "
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"only Gtk::Object instances can be managed");
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}
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bool ObjectBase::_cpp_destruction_is_in_progress() const
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{
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return cpp_destruction_in_progress_;
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}
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void ObjectBase::set_property_value(const Glib::ustring& property_name, const Glib::ValueBase& value)
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{
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g_object_set_property(gobj(), property_name.c_str(), value.gobj());
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}
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void ObjectBase::get_property_value(const Glib::ustring& property_name, Glib::ValueBase& value) const
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{
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g_object_get_property(const_cast<GObject*>(gobj()), property_name.c_str(), value.gobj());
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}
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void ObjectBase::connect_property_changed(const Glib::ustring& property_name, const sigc::slot<void>& slot)
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{
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connect_property_changed_with_return(property_name, slot);
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}
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sigc::connection ObjectBase::connect_property_changed_with_return(const Glib::ustring& property_name, const sigc::slot<void>& slot)
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{
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// Create a proxy to hold our connection info
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// This will be deleted by destroy_notify_handler.
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PropertyProxyConnectionNode* pConnectionNode = new PropertyProxyConnectionNode(slot, gobj());
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// connect it to gtk+
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// pConnectionNode will be passed as the data argument to the callback.
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// The callback will then call the virtual Object::property_change_notify() method,
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// which will contain a switch/case statement which will examine the property name.
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const Glib::ustring notify_signal_name = "notify::" + property_name;
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pConnectionNode->connection_id_ = g_signal_connect_data(gobj(),
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notify_signal_name.c_str(), (GCallback)(&PropertyProxyConnectionNode::callback), pConnectionNode,
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&PropertyProxyConnectionNode::destroy_notify_handler,
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G_CONNECT_AFTER);
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return sigc::connection(pConnectionNode->slot_);
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}
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bool _gobject_cppinstance_already_deleted(GObject* gobject)
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{
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//This function is used to prevent calling wrap() on a GTK+ instance whose gtkmm instance has been deleted.
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if(gobject)
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return (bool)g_object_get_qdata(gobject, Glib::quark_cpp_wrapper_deleted_); //true means that something is odd.
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else
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return false; //Nothing is particularly wrong.
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}
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} // namespace Glib
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