// Generated by gmmproc 2.54.1 -- DO NOT MODIFY!
#include <glibmm.h>
#include <giomm/actiongroup.h>
#include <giomm/private/actiongroup_p.h>
/* Copyright (C) 2010 The giomm Development Team
*
* 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/>.
*/
#include <glibmm/exceptionhandler.h>
#include <glibmm/variant.h>
#include <glibmm/vectorutils.h>
#include <gio/gio.h>
namespace Gio
{
} // namespace Gio
namespace
{
static void ActionGroup_signal_action_added_callback(GActionGroup* self, const gchar* p0,void* data)
{
using namespace Gio;
using SlotType = sigc::slot< void,const Glib::ustring& >;
auto obj = dynamic_cast<ActionGroup*>(Glib::ObjectBase::_get_current_wrapper((GObject*) self));
// Do not try to call a signal on a disassociated wrapper.
if(obj)
{
try
{
if(const auto slot = Glib::SignalProxyNormal::data_to_slot(data))
(*static_cast<SlotType*>(slot))(Glib::convert_const_gchar_ptr_to_ustring(p0)
);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
static const Glib::SignalProxyInfo ActionGroup_signal_action_added_info =
{
"action-added",
(GCallback) &ActionGroup_signal_action_added_callback,
(GCallback) &ActionGroup_signal_action_added_callback
};
static void ActionGroup_signal_action_enabled_changed_callback(GActionGroup* self, const gchar* p0,gboolean p1,void* data)
{
using namespace Gio;
using SlotType = sigc::slot< void,const Glib::ustring&,bool >;
auto obj = dynamic_cast<ActionGroup*>(Glib::ObjectBase::_get_current_wrapper((GObject*) self));
// Do not try to call a signal on a disassociated wrapper.
if(obj)
{
try
{
if(const auto slot = Glib::SignalProxyNormal::data_to_slot(data))
(*static_cast<SlotType*>(slot))(Glib::convert_const_gchar_ptr_to_ustring(p0)
, p1
);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
static const Glib::SignalProxyInfo ActionGroup_signal_action_enabled_changed_info =
{
"action-enabled-changed",
(GCallback) &ActionGroup_signal_action_enabled_changed_callback,
(GCallback) &ActionGroup_signal_action_enabled_changed_callback
};
static void ActionGroup_signal_action_removed_callback(GActionGroup* self, const gchar* p0,void* data)
{
using namespace Gio;
using SlotType = sigc::slot< void,const Glib::ustring& >;
auto obj = dynamic_cast<ActionGroup*>(Glib::ObjectBase::_get_current_wrapper((GObject*) self));
// Do not try to call a signal on a disassociated wrapper.
if(obj)
{
try
{
if(const auto slot = Glib::SignalProxyNormal::data_to_slot(data))
(*static_cast<SlotType*>(slot))(Glib::convert_const_gchar_ptr_to_ustring(p0)
);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
static const Glib::SignalProxyInfo ActionGroup_signal_action_removed_info =
{
"action-removed",
(GCallback) &ActionGroup_signal_action_removed_callback,
(GCallback) &ActionGroup_signal_action_removed_callback
};
static void ActionGroup_signal_action_state_changed_callback(GActionGroup* self, const gchar* p0,GVariant* p1,void* data)
{
using namespace Gio;
using SlotType = sigc::slot< void,const Glib::ustring&,const Glib::VariantBase& >;
auto obj = dynamic_cast<ActionGroup*>(Glib::ObjectBase::_get_current_wrapper((GObject*) self));
// Do not try to call a signal on a disassociated wrapper.
if(obj)
{
try
{
if(const auto slot = Glib::SignalProxyNormal::data_to_slot(data))
(*static_cast<SlotType*>(slot))(Glib::convert_const_gchar_ptr_to_ustring(p0)
, Glib::wrap(p1, true)
);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
static const Glib::SignalProxyInfo ActionGroup_signal_action_state_changed_info =
{
"action-state-changed",
(GCallback) &ActionGroup_signal_action_state_changed_callback,
(GCallback) &ActionGroup_signal_action_state_changed_callback
};
} // anonymous namespace
namespace Glib
{
Glib::RefPtr<Gio::ActionGroup> wrap(GActionGroup* object, bool take_copy)
{
return Glib::RefPtr<Gio::ActionGroup>( dynamic_cast<Gio::ActionGroup*> (Glib::wrap_auto_interface<Gio::ActionGroup> ((GObject*)(object), take_copy)) );
//We use dynamic_cast<> in case of multiple inheritance.
}
} // namespace Glib
namespace Gio
{
/* The *_Class implementation: */
const Glib::Interface_Class& ActionGroup_Class::init()
{
if(!gtype_) // create the GType if necessary
{
// Glib::Interface_Class has to know the interface init function
// in order to add interfaces to implementing types.
class_init_func_ = &ActionGroup_Class::iface_init_function;
// We can not derive from another interface, and it is not necessary anyway.
gtype_ = g_action_group_get_type();
}
return *this;
}
void ActionGroup_Class::iface_init_function(void* g_iface, void*)
{
const auto klass = static_cast<BaseClassType*>(g_iface);
//This is just to avoid an "unused variable" warning when there are no vfuncs or signal handlers to connect.
//This is a temporary fix until I find out why I can not seem to derive a GtkFileChooser interface. murrayc
g_assert(klass != nullptr);
klass->has_action = &has_action_vfunc_callback;
klass->list_actions = &list_actions_vfunc_callback;
klass->get_action_enabled = &get_action_enabled_vfunc_callback;
klass->get_action_parameter_type = &get_action_parameter_type_vfunc_callback;
klass->get_action_state_type = &get_action_state_type_vfunc_callback;
klass->get_action_state_hint = &get_action_state_hint_vfunc_callback;
klass->get_action_state = &get_action_state_vfunc_callback;
klass->change_action_state = &change_action_state_vfunc_callback;
klass->activate_action = &activate_action_vfunc_callback;
klass->action_added = &action_added_callback;
klass->action_enabled_changed = &action_enabled_changed_callback;
klass->action_removed = &action_removed_callback;
klass->action_state_changed = &action_state_changed_callback;
}
gboolean ActionGroup_Class::has_action_vfunc_callback(GActionGroup* self, const gchar* action_name)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
return static_cast<int>(obj->has_action_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
));
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->has_action)
return (*base->has_action)(self, action_name);
using RType = gboolean;
return RType();
}
gchar** ActionGroup_Class::list_actions_vfunc_callback(GActionGroup* self)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
return g_strdupv(const_cast<gchar**>(Glib::ArrayHandler<Glib::ustring>::vector_to_array(obj->list_actions_vfunc()).data()));
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->list_actions)
return (*base->list_actions)(self);
using RType = gchar**;
return RType();
}
gboolean ActionGroup_Class::get_action_enabled_vfunc_callback(GActionGroup* self, const gchar* action_name)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
return static_cast<int>(obj->get_action_enabled_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
));
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->get_action_enabled)
return (*base->get_action_enabled)(self, action_name);
using RType = gboolean;
return RType();
}
const GVariantType* ActionGroup_Class::get_action_parameter_type_vfunc_callback(GActionGroup* self, const gchar* action_name)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
static auto quark_return_value = g_quark_from_static_string("Gio::ActionGroup::get_action_parameter_type_vfunc");
auto return_value = static_cast<Glib::VariantType*>(g_object_get_qdata(obj_base->gobj(), quark_return_value));
if (!return_value)
{
return_value = new Glib::VariantType();
g_object_set_qdata_full(obj_base->gobj(), quark_return_value, return_value,
&Glib::destroy_notify_delete<Glib::VariantType>);
}
// Keep a copy of the return value. The caller is not expected
// to free the object that the returned pointer points to.
*return_value = obj->get_action_parameter_type_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
);
return (*return_value).gobj();
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->get_action_parameter_type)
return (*base->get_action_parameter_type)(self, action_name);
using RType = const GVariantType*;
return RType();
}
const GVariantType* ActionGroup_Class::get_action_state_type_vfunc_callback(GActionGroup* self, const gchar* action_name)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
static auto quark_return_value = g_quark_from_static_string("Gio::ActionGroup::get_action_state_type_vfunc");
auto return_value = static_cast<Glib::VariantType*>(g_object_get_qdata(obj_base->gobj(), quark_return_value));
if (!return_value)
{
return_value = new Glib::VariantType();
g_object_set_qdata_full(obj_base->gobj(), quark_return_value, return_value,
&Glib::destroy_notify_delete<Glib::VariantType>);
}
// Keep a copy of the return value. The caller is not expected
// to free the object that the returned pointer points to.
*return_value = obj->get_action_state_type_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
);
return (*return_value).gobj();
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->get_action_state_type)
return (*base->get_action_state_type)(self, action_name);
using RType = const GVariantType*;
return RType();
}
GVariant* ActionGroup_Class::get_action_state_hint_vfunc_callback(GActionGroup* self, const gchar* action_name)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
return Glib::unwrap_copy(obj->get_action_state_hint_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
));
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->get_action_state_hint)
return (*base->get_action_state_hint)(self, action_name);
using RType = GVariant*;
return RType();
}
GVariant* ActionGroup_Class::get_action_state_vfunc_callback(GActionGroup* self, const gchar* action_name)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
return Glib::unwrap_copy(obj->get_action_state_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
));
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->get_action_state)
return (*base->get_action_state)(self, action_name);
using RType = GVariant*;
return RType();
}
void ActionGroup_Class::change_action_state_vfunc_callback(GActionGroup* self, const gchar* action_name, GVariant* value)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
obj->change_action_state_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
, Glib::wrap(value, true)
);
return;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->change_action_state)
(*base->change_action_state)(self, action_name, value);
}
void ActionGroup_Class::activate_action_vfunc_callback(GActionGroup* self, const gchar* action_name, GVariant* parameter)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
obj->activate_action_vfunc(Glib::convert_const_gchar_ptr_to_ustring(action_name)
, Glib::wrap(parameter, true)
);
return;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
BaseClassType *const base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->activate_action)
(*base->activate_action)(self, action_name, parameter);
}
void ActionGroup_Class::action_added_callback(GActionGroup* self, const gchar* p0)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
obj->on_action_added(Glib::convert_const_gchar_ptr_to_ustring(p0)
);
return;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->action_added)
(*base->action_added)(self, p0);
}
void ActionGroup_Class::action_enabled_changed_callback(GActionGroup* self, const gchar* p0, gboolean p1)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
obj->on_action_enabled_changed(Glib::convert_const_gchar_ptr_to_ustring(p0)
, p1
);
return;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->action_enabled_changed)
(*base->action_enabled_changed)(self, p0, p1);
}
void ActionGroup_Class::action_removed_callback(GActionGroup* self, const gchar* p0)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
obj->on_action_removed(Glib::convert_const_gchar_ptr_to_ustring(p0)
);
return;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->action_removed)
(*base->action_removed)(self, p0);
}
void ActionGroup_Class::action_state_changed_callback(GActionGroup* self, const gchar* p0, GVariant* p1)
{
const auto obj_base = static_cast<Glib::ObjectBase*>(
Glib::ObjectBase::_get_current_wrapper((GObject*)self));
// Non-gtkmmproc-generated custom classes implicitly call the default
// Glib::ObjectBase constructor, which sets is_derived_. But gtkmmproc-
// generated classes can use this optimisation, which avoids the unnecessary
// parameter conversions if there is no possibility of the virtual function
// being overridden:
if(obj_base && obj_base->is_derived_())
{
const auto obj = dynamic_cast<CppObjectType* const>(obj_base);
if(obj) // This can be NULL during destruction.
{
try // Trap C++ exceptions which would normally be lost because this is a C callback.
{
// Call the virtual member method, which derived classes might override.
obj->on_action_state_changed(Glib::convert_const_gchar_ptr_to_ustring(p0)
, Glib::wrap(p1, true)
);
return;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
}
}
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(self), CppObjectType::get_type()) // Get the interface.
) );
// Call the original underlying C function:
if(base && base->action_state_changed)
(*base->action_state_changed)(self, p0, p1);
}
Glib::ObjectBase* ActionGroup_Class::wrap_new(GObject* object)
{
return new ActionGroup((GActionGroup*)(object));
}
/* The implementation: */
ActionGroup::ActionGroup()
:
Glib::Interface(actiongroup_class_.init())
{}
ActionGroup::ActionGroup(GActionGroup* castitem)
:
Glib::Interface((GObject*)(castitem))
{}
ActionGroup::ActionGroup(const Glib::Interface_Class& interface_class)
: Glib::Interface(interface_class)
{
}
ActionGroup::ActionGroup(ActionGroup&& src) noexcept
: Glib::Interface(std::move(src))
{}
ActionGroup& ActionGroup::operator=(ActionGroup&& src) noexcept
{
Glib::Interface::operator=(std::move(src));
return *this;
}
ActionGroup::~ActionGroup() noexcept
{}
// static
void ActionGroup::add_interface(GType gtype_implementer)
{
actiongroup_class_.init().add_interface(gtype_implementer);
}
ActionGroup::CppClassType ActionGroup::actiongroup_class_; // initialize static member
GType ActionGroup::get_type()
{
return actiongroup_class_.init().get_type();
}
GType ActionGroup::get_base_type()
{
return g_action_group_get_type();
}
bool ActionGroup::has_action(const Glib::ustring& action_name) const
{
return g_action_group_has_action(const_cast<GActionGroup*>(gobj()), action_name.c_str());
}
std::vector<Glib::ustring> ActionGroup::list_actions() const
{
return Glib::ArrayHandler<Glib::ustring>::array_to_vector(g_action_group_list_actions(const_cast<GActionGroup*>(gobj())), Glib::OWNERSHIP_DEEP);
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantType& parameter_type, Glib::VariantBase& state_hint, Glib::VariantType& state_type, Glib::VariantBase& state)
{
gboolean g_enabled = gboolean();
const GVariantType* g_parameter_type = nullptr;
const GVariantType* g_state_type = nullptr;
GVariant* g_state_hint = nullptr;
GVariant* g_state = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, &g_parameter_type, &g_state_type, &g_state_hint, &g_state);
enabled = static_cast<bool>(g_enabled);
parameter_type = Glib::wrap(const_cast<GVariantType*>(g_parameter_type));
state_type = Glib::wrap(const_cast<GVariantType*>(g_state_type));
state_hint = Glib::wrap(g_state_hint);
state = Glib::wrap(g_state);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantType& parameter_type, Glib::VariantBase& state_hint, Glib::VariantType& state_type)
{
gboolean g_enabled = gboolean();
const GVariantType* g_parameter_type = nullptr;
const GVariantType* g_state_type = nullptr;
GVariant* g_state_hint = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, &g_parameter_type, &g_state_type, &g_state_hint, nullptr);
enabled = static_cast<bool>(g_enabled);
parameter_type = Glib::wrap(const_cast<GVariantType*>(g_parameter_type));
state_type = Glib::wrap(const_cast<GVariantType*>(g_state_type));
state_hint = Glib::wrap(g_state_hint);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantType& parameter_type, Glib::VariantBase& state_hint, Glib::VariantBase& state)
{
gboolean g_enabled = gboolean();
const GVariantType* g_parameter_type = nullptr;
GVariant* g_state_hint = nullptr;
GVariant* g_state = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, &g_parameter_type, nullptr, &g_state_hint, &g_state);
enabled = static_cast<bool>(g_enabled);
parameter_type = Glib::wrap(const_cast<GVariantType*>(g_parameter_type));
state_hint = Glib::wrap(g_state_hint);
state = Glib::wrap(g_state);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantType& parameter_type, Glib::VariantBase& state_hint)
{
gboolean g_enabled = gboolean();
const GVariantType* g_parameter_type = nullptr;
GVariant* g_state_hint = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, &g_parameter_type, nullptr, &g_state_hint, nullptr);
enabled = static_cast<bool>(g_enabled);
parameter_type = Glib::wrap(const_cast<GVariantType*>(g_parameter_type));
state_hint = Glib::wrap(g_state_hint);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantBase& state_hint, Glib::VariantType& state_type, Glib::VariantBase& state)
{
gboolean g_enabled = gboolean();
const GVariantType* g_state_type = nullptr;
GVariant* g_state_hint = nullptr;
GVariant* g_state = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, nullptr, &g_state_type, &g_state_hint, &g_state);
enabled = static_cast<bool>(g_enabled);
state_type = Glib::wrap(const_cast<GVariantType*>(g_state_type));
state_hint = Glib::wrap(g_state_hint);
state = Glib::wrap(g_state);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantBase& state_hint, Glib::VariantType& state_type)
{
gboolean g_enabled = gboolean();
const GVariantType* g_state_type = nullptr;
GVariant* g_state_hint = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, nullptr, &g_state_type, &g_state_hint, nullptr);
enabled = static_cast<bool>(g_enabled);
state_type = Glib::wrap(const_cast<GVariantType*>(g_state_type));
state_hint = Glib::wrap(g_state_hint);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantBase& state_hint, Glib::VariantBase& state)
{
gboolean g_enabled = gboolean();
GVariant* g_state_hint = nullptr;
GVariant* g_state = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, nullptr, nullptr, &g_state_hint, &g_state);
enabled = static_cast<bool>(g_enabled);
state_hint = Glib::wrap(g_state_hint);
state = Glib::wrap(g_state);
return retvalue;
}
bool ActionGroup::query_action(const Glib::ustring& action_name, bool& enabled, Glib::VariantBase& state_hint)
{
gboolean g_enabled = gboolean();
GVariant* g_state_hint = nullptr;
bool retvalue = g_action_group_query_action(gobj(), action_name.c_str(), &g_enabled, nullptr, nullptr, &g_state_hint, nullptr);
enabled = static_cast<bool>(g_enabled);
state_hint = Glib::wrap(g_state_hint);
return retvalue;
}
bool ActionGroup::get_action_enabled(const Glib::ustring& action_name) const
{
return g_action_group_get_action_enabled(const_cast<GActionGroup*>(gobj()), action_name.c_str());
}
Glib::VariantType ActionGroup::get_action_parameter_type(const Glib::ustring& action_name) const
{
return Glib::wrap(const_cast<GVariantType*>(g_action_group_get_action_parameter_type(const_cast<GActionGroup*>(gobj()), action_name.c_str())), true);
}
Glib::VariantType ActionGroup::get_action_state_type(const Glib::ustring& action_name) const
{
return Glib::wrap(const_cast<GVariantType*>(g_action_group_get_action_state_type(const_cast<GActionGroup*>(gobj()), action_name.c_str())), true);
}
#ifndef GIOMM_DISABLE_DEPRECATED
G_GNUC_BEGIN_IGNORE_DEPRECATIONS
Glib::VariantContainerBase ActionGroup::get_action_state_hint(const Glib::ustring& action_name) const
{
return Glib::VariantContainerBase(g_action_group_get_action_state_hint(const_cast<GActionGroup*>(gobj()), action_name.c_str()), false);
}
G_GNUC_END_IGNORE_DEPRECATIONS
#endif // GIOMM_DISABLE_DEPRECATED
Glib::VariantContainerBase ActionGroup::get_action_state_hint_variant(const Glib::ustring& action_name) const
{
return Glib::VariantContainerBase(g_action_group_get_action_state_hint(const_cast<GActionGroup*>(gobj()), action_name.c_str()), false);
}
#ifndef GIOMM_DISABLE_DEPRECATED
G_GNUC_BEGIN_IGNORE_DEPRECATIONS
Glib::VariantBase ActionGroup::get_action_state(const Glib::ustring& action_name) const
{
return Glib::wrap(g_action_group_get_action_state(const_cast<GActionGroup*>(gobj()), action_name.c_str()), false);
}
G_GNUC_END_IGNORE_DEPRECATIONS
#endif // GIOMM_DISABLE_DEPRECATED
Glib::VariantBase ActionGroup::get_action_state_variant(const Glib::ustring& action_name) const
{
return Glib::wrap(g_action_group_get_action_state(const_cast<GActionGroup*>(gobj()), action_name.c_str()), false);
}
void ActionGroup::change_action_state(const Glib::ustring& action_name, const Glib::VariantBase& value)
{
g_action_group_change_action_state(gobj(), action_name.c_str(), const_cast<GVariant*>((value).gobj()));
}
void ActionGroup::activate_action(const Glib::ustring& action_name, const Glib::VariantBase& parameter)
{
g_action_group_activate_action(gobj(), action_name.c_str(), const_cast<GVariant*>((parameter).gobj()));
}
void ActionGroup::activate_action(const Glib::ustring& action_name)
{
g_action_group_activate_action(gobj(), action_name.c_str(), nullptr);
}
void ActionGroup::action_added(const Glib::ustring& action_name)
{
g_action_group_action_added(gobj(), action_name.c_str());
}
void ActionGroup::action_removed(const Glib::ustring& action_name)
{
g_action_group_action_removed(gobj(), action_name.c_str());
}
void ActionGroup::action_enabled_changed(const Glib::ustring& action_name, bool enabled)
{
g_action_group_action_enabled_changed(gobj(), action_name.c_str(), static_cast<int>(enabled));
}
void ActionGroup::action_state_changed(const Glib::ustring& action_name, const Glib::VariantBase& state)
{
g_action_group_action_state_changed(gobj(), action_name.c_str(), const_cast<GVariant*>((state).gobj()));
}
Glib::SignalProxy< void,const Glib::ustring& > ActionGroup::signal_action_added()
{
return Glib::SignalProxy< void,const Glib::ustring& >(this, &ActionGroup_signal_action_added_info);
}
Glib::SignalProxyDetailedAnyType< void,const Glib::ustring& > ActionGroup::signal_action_added(const Glib::ustring& action_name)
{
return Glib::SignalProxyDetailedAnyType< void,const Glib::ustring& >(this, &ActionGroup_signal_action_added_info, action_name);
}
Glib::SignalProxy< void,const Glib::ustring&,bool > ActionGroup::signal_action_enabled_changed()
{
return Glib::SignalProxy< void,const Glib::ustring&,bool >(this, &ActionGroup_signal_action_enabled_changed_info);
}
Glib::SignalProxyDetailedAnyType< void,const Glib::ustring&,bool > ActionGroup::signal_action_enabled_changed(const Glib::ustring& action_name)
{
return Glib::SignalProxyDetailedAnyType< void,const Glib::ustring&,bool >(this, &ActionGroup_signal_action_enabled_changed_info, action_name);
}
Glib::SignalProxy< void,const Glib::ustring& > ActionGroup::signal_action_removed()
{
return Glib::SignalProxy< void,const Glib::ustring& >(this, &ActionGroup_signal_action_removed_info);
}
Glib::SignalProxyDetailedAnyType< void,const Glib::ustring& > ActionGroup::signal_action_removed(const Glib::ustring& action_name)
{
return Glib::SignalProxyDetailedAnyType< void,const Glib::ustring& >(this, &ActionGroup_signal_action_removed_info, action_name);
}
Glib::SignalProxy< void,const Glib::ustring&,const Glib::VariantBase& > ActionGroup::signal_action_state_changed()
{
return Glib::SignalProxy< void,const Glib::ustring&,const Glib::VariantBase& >(this, &ActionGroup_signal_action_state_changed_info);
}
Glib::SignalProxyDetailedAnyType< void,const Glib::ustring&,const Glib::VariantBase& > ActionGroup::signal_action_state_changed(const Glib::ustring& action_name)
{
return Glib::SignalProxyDetailedAnyType< void,const Glib::ustring&,const Glib::VariantBase& >(this, &ActionGroup_signal_action_state_changed_info, action_name);
}
void Gio::ActionGroup::on_action_added(const Glib::ustring& action_name)
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->action_added)
(*base->action_added)(gobj(),action_name.c_str());
}
void Gio::ActionGroup::on_action_enabled_changed(const Glib::ustring& action_name, bool enabled)
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->action_enabled_changed)
(*base->action_enabled_changed)(gobj(),action_name.c_str(),static_cast<int>(enabled));
}
void Gio::ActionGroup::on_action_removed(const Glib::ustring& action_name)
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->action_removed)
(*base->action_removed)(gobj(),action_name.c_str());
}
void Gio::ActionGroup::on_action_state_changed(const Glib::ustring& action_name, const Glib::VariantBase& value)
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->action_state_changed)
(*base->action_state_changed)(gobj(),action_name.c_str(),const_cast<GVariant*>((value).gobj()));
}
bool Gio::ActionGroup::has_action_vfunc(const Glib::ustring& name) const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->has_action)
{
bool retval((*base->has_action)(const_cast<GActionGroup*>(gobj()),name.c_str()));
return retval;
}
using RType = bool;
return RType();
}
std::vector<Glib::ustring> Gio::ActionGroup::list_actions_vfunc() const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->list_actions)
{
std::vector<Glib::ustring> retval(Glib::ArrayHandler<Glib::ustring>::array_to_vector((*base->list_actions)(const_cast<GActionGroup*>(gobj())), Glib::OWNERSHIP_DEEP));
return retval;
}
using RType = std::vector<Glib::ustring>;
return RType();
}
bool Gio::ActionGroup::get_action_enabled_vfunc(const Glib::ustring& name) const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->get_action_enabled)
{
bool retval((*base->get_action_enabled)(const_cast<GActionGroup*>(gobj()),name.c_str()));
return retval;
}
using RType = bool;
return RType();
}
Glib::VariantType Gio::ActionGroup::get_action_parameter_type_vfunc(const Glib::ustring& name) const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->get_action_parameter_type)
{
Glib::VariantType retval(Glib::wrap(const_cast<GVariantType*>((*base->get_action_parameter_type)(const_cast<GActionGroup*>(gobj()),name.c_str())), true));
return retval;
}
using RType = Glib::VariantType;
return RType();
}
Glib::VariantType Gio::ActionGroup::get_action_state_type_vfunc(const Glib::ustring& name) const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->get_action_state_type)
{
Glib::VariantType retval(Glib::wrap(const_cast<GVariantType*>((*base->get_action_state_type)(const_cast<GActionGroup*>(gobj()),name.c_str())), true));
return retval;
}
using RType = Glib::VariantType;
return RType();
}
Glib::VariantBase Gio::ActionGroup::get_action_state_hint_vfunc(const Glib::ustring& name) const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->get_action_state_hint)
{
Glib::VariantBase retval(Glib::wrap((*base->get_action_state_hint)(const_cast<GActionGroup*>(gobj()),name.c_str()), false));
return retval;
}
using RType = Glib::VariantBase;
return RType();
}
Glib::VariantBase Gio::ActionGroup::get_action_state_vfunc(const Glib::ustring& name) const
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->get_action_state)
{
Glib::VariantBase retval(Glib::wrap((*base->get_action_state)(const_cast<GActionGroup*>(gobj()),name.c_str()), false));
return retval;
}
using RType = Glib::VariantBase;
return RType();
}
void Gio::ActionGroup::change_action_state_vfunc(const Glib::ustring& name, const Glib::VariantBase& value)
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->change_action_state)
{
(*base->change_action_state)(gobj(),name.c_str(),const_cast<GVariant*>((value).gobj()));
}
}
void Gio::ActionGroup::activate_action_vfunc(const Glib::ustring& name, const Glib::VariantBase& parameter)
{
const auto base = static_cast<BaseClassType*>(
g_type_interface_peek_parent( // Get the parent interface of the interface (The original underlying C interface).
g_type_interface_peek(G_OBJECT_GET_CLASS(gobject_), CppObjectType::get_type()) // Get the interface.
) );
if(base && base->activate_action)
{
(*base->activate_action)(gobj(),name.c_str(),const_cast<GVariant*>((parameter).gobj()));
}
}
} // namespace Gio