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efl/src/bindings/cxx/eo_cxx/eo_event.hh

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///
/// @file eo_event.hh
///
#ifndef EFL_CXX_EO_EVENT_HH
#define EFL_CXX_EO_EVENT_HH
#include <Eo.h>
#include <Ecore.h>
#include "eo_concrete.hh"
#include "eo_cxx_interop.hh"
#include <functional>
#include <memory>
namespace efl { namespace eolian {
typedef ::Efl_Callback_Priority callback_priority;
namespace callback_priorities
{
static const callback_priority before = -100;
static const callback_priority default_ = 0;
static const callback_priority after = 100;
}
struct signal_connection
{
signal_connection(std::function<void()> deleter)
: _deleter(deleter) {}
void disconnect()
{
if(_deleter)
{
_deleter();
_deleter = std::function<void()>();
}
}
private:
std::function<void()> _deleter;
friend struct scoped_signal_connection;
};
struct scoped_signal_connection
{
scoped_signal_connection(signal_connection const& other)
: _deleter(other._deleter)
{
}
~scoped_signal_connection()
{
disconnect();
}
void disconnect()
{
if(_deleter)
{
_deleter();
_deleter = std::function<void()>();
}
}
scoped_signal_connection(scoped_signal_connection&& other)
: _deleter(other._deleter)
{
other._deleter = std::function<void()>();
}
private:
std::function<void()> _deleter;
scoped_signal_connection& operator=(scoped_signal_connection const&) = delete;
scoped_signal_connection(scoped_signal_connection const&) = delete;
};
template <typename F>
struct _event_deleter
{
_event_deleter(F* data, Eo* eo, ::Efl_Event_Cb cb, Efl_Event_Description const* description)
: _data(data), _eo( ::efl_ref(eo)), _cb(cb), _description(description)
{
}
~_event_deleter()
{
::efl_unref(_eo);
}
_event_deleter(_event_deleter const& other)
: _data(other._data), _eo( ::efl_ref(other._eo)), _cb(other._cb), _description(other._description)
{}
_event_deleter& operator=(_event_deleter const& other)
{
::efl_unref( _eo);
_data = other._data;
_eo = ::efl_ref(other._eo);
_cb = other._cb;
_description = other._description;
return *this;
}
void operator()() const
{
::efl_event_callback_del(_eo, _description, _cb, _data);
::ecore_main_loop_thread_safe_call_async(&_deleter_call, _data);
}
private:
static void _deleter_call(void* data)
{
delete static_cast<F*>(data);
}
F* _data;
Eo* _eo;
::Efl_Event_Cb _cb;
Efl_Event_Description const* _description;
};
template <typename F>
signal_connection make_signal_connection(std::unique_ptr<F>& data, Eo* eo, ::Efl_Event_Cb cb, Efl_Event_Description const* description)
{
signal_connection c(_event_deleter<F>(data.get(), eo, cb, description));
data.release();
return c;
}
namespace _detail {
template <typename T, typename P, typename F>
void really_call_event(T& wrapper, F& f, void *, std::true_type)
{
f(wrapper);
}
template <typename T, typename P, typename F>
void really_call_event(T& wrapper, F& f, void *info, std::false_type)
{
f(wrapper, convert_to_event<P>(info));
}
template <typename T, typename P, typename F>
void event_callback(void *data, ::Efl_Event const* event)
{
T wrapper(::efl_ref(event->object));
F *f = static_cast<F*>(data);
_detail::really_call_event<T, P>
(wrapper, *f, event->info, std::is_void<P>{});
}
}
template <typename Event, typename Object, typename F>
signal_connection event_add(Event event, Object object, F&& function)
{
static_assert((eo::is_eolian_object<Object>::value), "Type is not an object");
typedef typename std::remove_reference<F>::type function_type;
std::unique_ptr<function_type> f(new function_type(std::forward<F>(function)));
::efl_event_callback_priority_add
(object._eo_ptr(), event.description(), 0
, static_cast<Efl_Event_Cb>
(&_detail::event_callback<Object, typename Event::parameter_type, function_type>)
, f.get());
return make_signal_connection
(f, object._eo_ptr()
, static_cast<Efl_Event_Cb>
(&_detail::event_callback<Object, typename Event::parameter_type, function_type>)
, event.description());
}
} }
#endif
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