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livetrax/libs/glibmm2/gio/giomm/drive.cc

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// Generated by gtkmmproc -- DO NOT MODIFY!
#include <giomm/drive.h>
#include <giomm/private/drive_p.h>
// -*- Mode: C++; indent-tabs-mode: nil; c-basic-offset: 2 -*-
/* Copyright (C) 2007 The gtkmm Development Team
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <gio/gio.h>
#include <glibmm/error.h>
#include <glibmm/exceptionhandler.h>
#include "slot_async.h"
namespace Gio
{
void Drive::eject(const SlotAsyncReady& slot, const Glib::RefPtr<Cancellable>& cancellable, MountUnmountFlags flags)
{
// Create a copy of the slot.
// A pointer to it will be passed through the callback's data parameter
// and deleted in the callback.
SlotAsyncReady* slot_copy = new SlotAsyncReady(slot);
g_drive_eject(gobj(),
static_cast<GMountUnmountFlags>(flags),
cancellable->gobj(),
&SignalProxy_async_callback,
slot_copy);
}
void Drive::eject(const SlotAsyncReady& slot, MountUnmountFlags flags)
{
// Create a copy of the slot.
// A pointer to it will be passed through the callback's data parameter
// and deleted in the callback.
SlotAsyncReady* slot_copy = new SlotAsyncReady(slot);
g_drive_eject(gobj(),
static_cast<GMountUnmountFlags>(flags),
NULL, // cancellable
&SignalProxy_async_callback,
slot_copy);
}
void Drive::eject(MountUnmountFlags flags)
{
g_drive_eject(gobj(),
static_cast<GMountUnmountFlags>(flags),
NULL, // cancellable
NULL,
NULL);
}
void Drive::poll_for_media(const SlotAsyncReady& slot, const Glib::RefPtr<Cancellable>& cancellable)
{
// Create a copy of the slot.
// A pointer to it will be passed through the callback's data parameter
// and deleted in the callback.
SlotAsyncReady* slot_copy = new SlotAsyncReady(slot);
g_drive_poll_for_media(gobj(),
cancellable->gobj(),
&SignalProxy_async_callback,
slot_copy);
}
void Drive::poll_for_media(const SlotAsyncReady& slot)
{
// Create a copy of the slot.
// A pointer to it will be passed through the callback's data parameter
// and deleted in the callback.
SlotAsyncReady* slot_copy = new SlotAsyncReady(slot);
g_drive_poll_for_media(gobj(),
NULL, // cancellable
&SignalProxy_async_callback,
slot_copy);
}
void Drive::poll_for_media()
{
g_drive_poll_for_media(gobj(),
NULL, // cancellable
NULL,
NULL);
}
} // namespace Gio
namespace
{
} // anonymous namespace
namespace Glib
{
Glib::RefPtr<Gio::Drive> wrap(GDrive* object, bool take_copy)
{
return Glib::RefPtr<Gio::Drive>( dynamic_cast<Gio::Drive*> (Glib::wrap_auto_interface<Gio::Drive> ((GObject*)(object), take_copy)) );
//We use dynamic_cast<> in case of multiple inheritance.
}
} // namespace Glib
namespace Gio
{
/* The *_Class implementation: */
const Glib::Interface_Class& Drive_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_ = &Drive_Class::iface_init_function;
// We can not derive from another interface, and it is not necessary anyway.
gtype_ = g_drive_get_type();
}
return *this;
}
void Drive_Class::iface_init_function(void* g_iface, void*)
{
BaseClassType *const 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 != 0);
#ifdef GLIBMM_VFUNCS_ENABLED
#endif //GLIBMM_VFUNCS_ENABLED
#ifdef GLIBMM_DEFAULT_SIGNAL_HANDLERS_ENABLED
#endif //GLIBMM_DEFAULT_SIGNAL_HANDLERS_ENABLED
}
#ifdef GLIBMM_VFUNCS_ENABLED
#endif //GLIBMM_VFUNCS_ENABLED
#ifdef GLIBMM_DEFAULT_SIGNAL_HANDLERS_ENABLED
#endif //GLIBMM_DEFAULT_SIGNAL_HANDLERS_ENABLED
Glib::ObjectBase* Drive_Class::wrap_new(GObject* object)
{
return new Drive((GDrive*)(object));
}
/* The implementation: */
Drive::Drive()
:
Glib::Interface(drive_class_.init())
{}
Drive::Drive(GDrive* castitem)
:
Glib::Interface((GObject*)(castitem))
{}
Drive::Drive(const Glib::Interface_Class& interface_class)
: Glib::Interface(interface_class)
{
}
Drive::~Drive()
{}
// static
void Drive::add_interface(GType gtype_implementer)
{
drive_class_.init().add_interface(gtype_implementer);
}
Drive::CppClassType Drive::drive_class_; // initialize static member
GType Drive::get_type()
{
return drive_class_.init().get_type();
}
GType Drive::get_base_type()
{
return g_drive_get_type();
}
Glib::ustring Drive::get_name() const
{
return Glib::convert_return_gchar_ptr_to_ustring(g_drive_get_name(const_cast<GDrive*>(gobj())));
}
Glib::RefPtr<Icon> Drive::get_icon()
{
Glib::RefPtr<Icon> retvalue = Glib::wrap(g_drive_get_icon(gobj()));
if(retvalue)
retvalue->reference(); //The function does not do a ref for us.
return retvalue;
}
Glib::RefPtr<const Icon> Drive::get_icon() const
{
return const_cast<Drive*>(this)->get_icon();
}
bool Drive::has_volumes() const
{
return g_drive_has_volumes(const_cast<GDrive*>(gobj()));
}
Glib::ListHandle< Glib::RefPtr<Volume> > Drive::get_volumes()
{
return Glib::ListHandle< Glib::RefPtr<Volume> >(g_drive_get_volumes(gobj()), Glib::OWNERSHIP_SHALLOW);
}
bool Drive::is_media_removable() const
{
return g_drive_is_media_removable(const_cast<GDrive*>(gobj()));
}
bool Drive::has_media() const
{
return g_drive_has_media(const_cast<GDrive*>(gobj()));
}
bool Drive::is_media_check_automatic() const
{
return g_drive_is_media_check_automatic(const_cast<GDrive*>(gobj()));
}
bool Drive::can_poll_for_media() const
{
return g_drive_can_poll_for_media(const_cast<GDrive*>(gobj()));
}
bool Drive::can_eject() const
{
return g_drive_can_eject(const_cast<GDrive*>(gobj()));
}
#ifdef GLIBMM_EXCEPTIONS_ENABLED
bool Drive::eject_finish(const Glib::RefPtr<AsyncResult>& result)
#else
bool Drive::eject_finish(const Glib::RefPtr<AsyncResult>& result, std::auto_ptr<Glib::Error>& error)
#endif //GLIBMM_EXCEPTIONS_ENABLED
{
GError* gerror = 0;
bool retvalue = g_drive_eject_finish(gobj(), Glib::unwrap(result), &(gerror));
#ifdef GLIBMM_EXCEPTIONS_ENABLED
if(gerror)
::Glib::Error::throw_exception(gerror);
#else
if(gerror)
error = ::Glib::Error::throw_exception(gerror);
#endif //GLIBMM_EXCEPTIONS_ENABLED
return retvalue;
}
#ifdef GLIBMM_EXCEPTIONS_ENABLED
bool Drive::poll_for_media_finish(const Glib::RefPtr<AsyncResult>& result)
#else
bool Drive::poll_for_media_finish(const Glib::RefPtr<AsyncResult>& result, std::auto_ptr<Glib::Error>& error)
#endif //GLIBMM_EXCEPTIONS_ENABLED
{
GError* gerror = 0;
bool retvalue = g_drive_poll_for_media_finish(gobj(), Glib::unwrap(result), &(gerror));
#ifdef GLIBMM_EXCEPTIONS_ENABLED
if(gerror)
::Glib::Error::throw_exception(gerror);
#else
if(gerror)
error = ::Glib::Error::throw_exception(gerror);
#endif //GLIBMM_EXCEPTIONS_ENABLED
return retvalue;
}
std::string Drive::get_identifier(const std::string& kind) const
{
return Glib::convert_return_gchar_ptr_to_stdstring(g_drive_get_identifier(const_cast<GDrive*>(gobj()), kind.c_str()));
}
Glib::StringArrayHandle Drive::enumerate_identifiers() const
{
return Glib::StringArrayHandle(g_drive_enumerate_identifiers(const_cast<GDrive*>(gobj())));
}
#ifdef GLIBMM_DEFAULT_SIGNAL_HANDLERS_ENABLED
#endif //GLIBMM_DEFAULT_SIGNAL_HANDLERS_ENABLED
#ifdef GLIBMM_VFUNCS_ENABLED
#endif //GLIBMM_VFUNCS_ENABLED
} // namespace Gio