/usr/include/QtGStreamer/QGlib/connectimpl.h is in libqtgstreamer-dev 1.2.0-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 2010 George Kiagiadakis <kiagiadakis.george@gmail.com>
Copyright (C) 2010 Collabora Ltd.
@author George Kiagiadakis <george.kiagiadakis@collabora.co.uk>
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 program 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 program. If not, see <http://www.gnu.org/licenses/>.
*/
#if !defined(BOOST_PP_IS_ITERATING) || !BOOST_PP_IS_ITERATING
# ifndef IN_QGLIB_CONNECT_H
# error "This file must not be included directly"
# endif
# include "value.h"
# include "refpointer.h"
# include <QtCore/QList>
# include <stdexcept>
# include <boost/type_traits.hpp>
namespace QGlib {
namespace Private {
//BEGIN ******** CppClosure prototype ********
template <typename Function, typename Signature>
struct CppClosure {};
//END ******** CppClosure prototype ********
//BEGIN ******** invoker ********
template <typename Function, typename R>
struct invoker
{
static inline void invoke(const Function & f, Value & result) { ValueImpl<R>::set(result, f()); }
};
template <typename Function>
struct invoker<Function, void>
{
static inline void invoke(const Function & f, Value &) { f(); }
};
//END ******** invoker ********
} //namespace Private
} //namespace QGlib
# if QGLIB_HAVE_CXX0X
namespace QGlib {
namespace Private {
//BEGIN ******** MemberFunction ********
template <typename T, typename R, typename... Args>
class MemberFunction
{
public:
inline MemberFunction(R (T::*fn)(Args...), T *obj)
: m_function(fn), m_object(obj) {}
inline R operator()(Args&&... args) const
{
return (m_object->*m_function)(std::forward<Args>(args)...);
}
private:
R (T::*m_function)(Args...);
T *m_object;
};
template <typename T, typename R, typename... Args>
MemberFunction<T, R, Args...> mem_fn(R (T::*fn)(Args...), T *obj)
{
return MemberFunction<T, R, Args...>(fn, obj);
}
//END ******** MemberFunction ********
//BEGIN ******** BoundArgumentFunction ********
template <typename ParentFunction, typename R, typename Arg1, typename... Args>
class BoundArgumentFunction
{
public:
inline BoundArgumentFunction(ParentFunction && fn, Arg1 && arg)
: m_function(std::forward<ParentFunction>(fn)),
m_firstArg(std::forward<Arg1>(arg)) {}
inline R operator()(Args&&... args) const
{
return m_function(std::forward<Arg1>(m_firstArg), std::forward<Args>(args)...);
}
private:
ParentFunction && m_function;
Arg1 && m_firstArg;
};
template <typename F, typename R, typename Arg1, typename... Args>
inline BoundArgumentFunction<F, R, Arg1, Args...> partial_bind(F && f, Arg1 && a1)
{
return BoundArgumentFunction<F, R, Arg1, Args...>(std::forward<F>(f), std::forward<Arg1>(a1));
}
//END ******** BoundArgumentFunction ********
//BEGIN ******** unpackAndInvoke ********
template <typename F, typename R>
inline void unpackAndInvoke(F && function, Value & result,
QList<Value>::const_iterator &&,
QList<Value>::const_iterator &&)
{
invoker<F, R>::invoke(function, result);
}
template <typename F, typename R, typename Arg1, typename... Args>
inline void unpackAndInvoke(F && function, Value & result,
QList<Value>::const_iterator && argsBegin,
QList<Value>::const_iterator && argsEnd)
{
typedef typename boost::remove_const<
typename boost::remove_reference<Arg1>::type
>::type CleanArg1;
typedef BoundArgumentFunction<F, R, Arg1, Args...> F1;
CleanArg1 && boundArg = ValueImpl<CleanArg1>::get(*argsBegin);
F1 && f = partial_bind<F, R, Arg1, Args...>(std::forward<F>(function), std::forward<Arg1>(boundArg));
unpackAndInvoke< F1, R, Args... >(std::forward<F1>(f), result,
std::forward<QList<Value>::const_iterator>(++argsBegin),
std::forward<QList<Value>::const_iterator>(argsEnd));
}
//END ******** unpackAndInvoke ********
//BEGIN ******** CppClosure ********
template <typename F, typename R, typename... Args>
struct CppClosure<F, R (Args...)>
{
class ClosureData : public ClosureDataBase
{
public:
inline ClosureData(const F & func, bool passSender)
: ClosureDataBase(passSender), m_function(func) {}
virtual void marshaller(Value & result, const QList<Value> & params)
{
if (static_cast<size_t>(params.size()) < sizeof...(Args)) {
throw std::logic_error("The signal provides less arguments than what the closure expects");
}
unpackAndInvoke<F, R, Args...>(std::forward<F>(m_function), result,
params.constBegin(), params.constEnd());
}
private:
F m_function;
};
static inline ClosureDataBase *create(const F & function, bool passSender)
{
return new ClosureData(function, passSender);
}
};
//END ******** CppClosure ********
} //namespace Private
//BEGIN ******** QGlib::connect ********
template <typename T, typename R, typename... Args>
bool connect(void *instance, const char *detailedSignal,
T *receiver, R (T::*slot)(Args...), ConnectFlags flags = 0)
{
typedef Private::MemberFunction<T, R, Args...> F;
F && f = Private::mem_fn(slot, receiver);
Private::ClosureDataBase* && closure
= Private::CppClosure<F, R (Args...)>::create(f, flags & PassSender);
return Private::connect(instance, detailedSignal, Quark(),
receiver, Private::GetDestroyNotifier<T>(),
Private::hashMfp(slot), closure, flags);
}
//END ******** QGlib::connect ********
} //namespace QGlib
# else //QGLIB_HAVE_CXX0X
# include <boost/function.hpp>
# include <boost/preprocessor.hpp>
# include <boost/bind.hpp>
// include the second part of this file as many times as QGLIB_CONNECT_MAX_ARGS specifies
# define BOOST_PP_ITERATION_PARAMS_1 (3,(0, QGLIB_CONNECT_MAX_ARGS, "QGlib/connectimpl.h"))
# include BOOST_PP_ITERATE()
# undef BOOST_PP_ITERATION_PARAMS_1
# undef QGLIB_CONNECT_MAX_ARGS
# endif //QGLIB_HAVE_CXX0X
#else // !defined(BOOST_PP_IS_ITERATING) || !BOOST_PP_IS_ITERATING
/*
This part is included from BOOST_PP_ITERATE(). It defines a CppClosureN class
(where N is the number of template arguments it takes) and a specialization for class
CppClosure, so that the CppClosure<R (Args...), F> syntax is supported. This part is
included multiple times (QGLIB_CONNECT_MAX_ARGS defines how many), and each time
it defines those classes with different number of arguments.
The concept is based on the implementation of boost::function.
*/
# define QGLIB_CONNECT_IMPL_NUM_ARGS \
BOOST_PP_ITERATION()
# define QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_PARAMS \
BOOST_PP_ENUM_TRAILING_PARAMS(QGLIB_CONNECT_IMPL_NUM_ARGS, typename A)
# define QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_ARGS \
BOOST_PP_ENUM_TRAILING_PARAMS(QGLIB_CONNECT_IMPL_NUM_ARGS, A)
# define QGLIB_CONNECT_IMPL_TEMPLATE_ARGS \
BOOST_PP_ENUM_PARAMS(QGLIB_CONNECT_IMPL_NUM_ARGS, A)
namespace QGlib {
namespace Private {
//BEGIN ******** boostpp CppClosure ********
# define QGLIB_CONNECT_IMPL_CPPCLOSUREN \
BOOST_PP_CAT(CppClosure, QGLIB_CONNECT_IMPL_NUM_ARGS)
# define QGLIB_CONNECT_IMPL_UNPACK_ARGS_STEP(z, n, list) \
,ValueImpl< \
typename boost::remove_const< \
typename boost::remove_reference<A ##n>::type \
>::type \
>::get(list.at(n))
# define QGLIB_CONNECT_IMPL_UNPACK_ARGS(list) \
BOOST_PP_REPEAT(QGLIB_CONNECT_IMPL_NUM_ARGS, QGLIB_CONNECT_IMPL_UNPACK_ARGS_STEP, list)
template <typename F, typename R QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_PARAMS>
struct QGLIB_CONNECT_IMPL_CPPCLOSUREN
{
class ClosureData : public ClosureDataBase
{
public:
inline ClosureData(const F & func, bool passSender)
: ClosureDataBase(passSender), m_function(func) {}
virtual void marshaller(Value & result, const QList<Value> & params)
{
if (params.size() < QGLIB_CONNECT_IMPL_NUM_ARGS) {
throw std::logic_error("The signal provides less arguments than what the closure expects");
}
# if QGLIB_CONNECT_IMPL_NUM_ARGS > 0
boost::function<R ()> callback = boost::bind<R>(m_function
QGLIB_CONNECT_IMPL_UNPACK_ARGS(params));
invoker< boost::function<R ()>, R >::invoke(callback, result);
# else
invoker< F, R >::invoke(m_function, result);
# endif
}
private:
F m_function;
};
static ClosureDataBase *create(const F & function, bool passSender)
{
return new ClosureData(function, passSender);
}
};
//partial specialization of struct CppClosure to support the CppClosure<F, R (Args...)> syntax
template <typename F, typename R QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_PARAMS>
struct CppClosure<F, R (QGLIB_CONNECT_IMPL_TEMPLATE_ARGS)>
: public QGLIB_CONNECT_IMPL_CPPCLOSUREN< F, R QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_ARGS >
{
};
# undef QGLIB_CONNECT_IMPL_UNPACK_ARGS
# undef QGLIB_CONNECT_IMPL_UNPACK_ARGS_STEP
# undef QGLIB_CONNECT_IMPL_CPPCLOSUREN
//END ******** boostpp CppClosure ********
} //namespace Private
//BEGIN ******** bostpp QGlib::connect ********
# define QGLIB_CONNECT_IMPL_BIND_ARGS \
BOOST_PP_COMMA_IF(QGLIB_CONNECT_IMPL_NUM_ARGS) \
BOOST_PP_ENUM_SHIFTED_PARAMS(BOOST_PP_INC(QGLIB_CONNECT_IMPL_NUM_ARGS), _)
template <typename T, typename R QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_PARAMS>
bool connect(void *instance, const char *detailedSignal,
T *receiver, R (T::*slot)(QGLIB_CONNECT_IMPL_TEMPLATE_ARGS), ConnectFlags flags = 0)
{
boost::function<R (QGLIB_CONNECT_IMPL_TEMPLATE_ARGS)> f
= boost::bind(slot, receiver QGLIB_CONNECT_IMPL_BIND_ARGS);
Private::ClosureDataBase *closure = Private::CppClosure<
boost::function<R (QGLIB_CONNECT_IMPL_TEMPLATE_ARGS)>,
R (QGLIB_CONNECT_IMPL_TEMPLATE_ARGS)
>::create(f, flags & PassSender);
return Private::connect(instance, detailedSignal, Quark(),
receiver, Private::GetDestroyNotifier<T>(),
Private::hashMfp(slot), closure, flags);
}
# undef QGLIB_CONNECT_IMPL_BIND_ARGS
//END ******** bostpp QGlib::connect ********
} //namespace QGlib
# undef QGLIB_CONNECT_IMPL_TEMPLATE_ARGS
# undef QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_ARGS
# undef QGLIB_CONNECT_IMPL_TRAILING_TEMPLATE_PARAMS
# undef QGLIB_CONNECT_IMPL_NUM_ARGS
#endif // !defined(BOOST_PP_IS_ITERATING) || !BOOST_PP_IS_ITERATING
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