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SqMod/vendor/POCO/Foundation/include/Poco/Delegate.h
Sandu Liviu Catalin 4a6bfc086c Major plugin refactor and cleanup.
Switched to POCO library for unified platform/library interface.
Deprecated the external module API. It was creating more problems than solving.
Removed most built-in libraries in favor of system libraries for easier maintenance.
Cleaned and secured code with help from static analyzers.
2021-01-30 08:51:39 +02:00

453 lines
9.9 KiB
C++

//
// Delegate.h
//
// Library: Foundation
// Package: Events
// Module: Delegate
//
// Implementation of the Delegate template.
//
// Copyright (c) 2006-2011, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_Delegate_INCLUDED
#define Foundation_Delegate_INCLUDED
#include "Poco/Foundation.h"
#include "Poco/AbstractDelegate.h"
#include "Poco/FunctionDelegate.h"
#include "Poco/Expire.h"
#include "Poco/Mutex.h"
namespace Poco {
template <class TObj, class TArgs, bool withSender = true>
class Delegate: public AbstractDelegate<TArgs>
{
public:
typedef void (TObj::*NotifyMethod)(const void*, TArgs&);
Delegate(TObj* obj, NotifyMethod method):
_receiverObject(obj),
_receiverMethod(method)
{
}
Delegate(const Delegate& delegate):
AbstractDelegate<TArgs>(delegate),
_receiverObject(delegate._receiverObject),
_receiverMethod(delegate._receiverMethod)
{
}
~Delegate()
{
}
Delegate& operator = (const Delegate& delegate)
{
if (&delegate != this)
{
this->_receiverObject = delegate._receiverObject;
this->_receiverMethod = delegate._receiverMethod;
}
return *this;
}
bool notify(const void* sender, TArgs& arguments)
{
Mutex::ScopedLock lock(_mutex);
if (_receiverObject)
{
(_receiverObject->*_receiverMethod)(sender, arguments);
return true;
}
else return false;
}
bool equals(const AbstractDelegate<TArgs>& other) const
{
const Delegate* pOtherDelegate = dynamic_cast<const Delegate*>(other.unwrap());
return pOtherDelegate && _receiverObject == pOtherDelegate->_receiverObject && _receiverMethod == pOtherDelegate->_receiverMethod;
}
AbstractDelegate<TArgs>* clone() const
{
return new Delegate(*this);
}
void disable()
{
Mutex::ScopedLock lock(_mutex);
_receiverObject = 0;
}
protected:
TObj* _receiverObject;
NotifyMethod _receiverMethod;
Mutex _mutex;
private:
Delegate();
};
template <class TObj, class TArgs>
class Delegate<TObj, TArgs, false>: public AbstractDelegate<TArgs>
{
public:
typedef void (TObj::*NotifyMethod)(TArgs&);
Delegate(TObj* obj, NotifyMethod method):
_receiverObject(obj),
_receiverMethod(method)
{
}
Delegate(const Delegate& delegate):
AbstractDelegate<TArgs>(delegate),
_receiverObject(delegate._receiverObject),
_receiverMethod(delegate._receiverMethod)
{
}
~Delegate()
{
}
Delegate& operator = (const Delegate& delegate)
{
if (&delegate != this)
{
this->_receiverObject = delegate._receiverObject;
this->_receiverMethod = delegate._receiverMethod;
}
return *this;
}
bool notify(const void*, TArgs& arguments)
{
Mutex::ScopedLock lock(_mutex);
if (_receiverObject)
{
(_receiverObject->*_receiverMethod)(arguments);
return true;
}
else return false;
}
bool equals(const AbstractDelegate<TArgs>& other) const
{
const Delegate* pOtherDelegate = dynamic_cast<const Delegate*>(other.unwrap());
return pOtherDelegate && _receiverObject == pOtherDelegate->_receiverObject && _receiverMethod == pOtherDelegate->_receiverMethod;
}
AbstractDelegate<TArgs>* clone() const
{
return new Delegate(*this);
}
void disable()
{
Mutex::ScopedLock lock(_mutex);
_receiverObject = 0;
}
protected:
TObj* _receiverObject;
NotifyMethod _receiverMethod;
Mutex _mutex;
private:
Delegate();
};
template <class TObj, class TArgs>
inline Delegate<TObj, TArgs, true> delegate(TObj* pObj, void (TObj::*NotifyMethod)(const void*, TArgs&))
{
return Delegate<TObj, TArgs, true>(pObj, NotifyMethod);
}
template <class TObj, class TArgs>
inline Delegate<TObj, TArgs, false> delegate(TObj* pObj, void (TObj::*NotifyMethod)(TArgs&))
{
return Delegate<TObj, TArgs, false>(pObj, NotifyMethod);
}
template <class TObj, class TArgs>
inline Expire<TArgs> delegate(TObj* pObj, void (TObj::*NotifyMethod)(const void*, TArgs&), Timestamp::TimeDiff expireMillisecs)
{
return Expire<TArgs>(Delegate<TObj, TArgs, true>(pObj, NotifyMethod), expireMillisecs);
}
template <class TObj, class TArgs>
inline Expire<TArgs> delegate(TObj* pObj, void (TObj::*NotifyMethod)(TArgs&), Timestamp::TimeDiff expireMillisecs)
{
return Expire<TArgs>(Delegate<TObj, TArgs, false>(pObj, NotifyMethod), expireMillisecs);
}
template <class TArgs>
inline Expire<TArgs> delegate(void (*NotifyMethod)(const void*, TArgs&), Timestamp::TimeDiff expireMillisecs)
{
return Expire<TArgs>(FunctionDelegate<TArgs, true, true>(NotifyMethod), expireMillisecs);
}
template <class TArgs>
inline Expire<TArgs> delegate(void (*NotifyMethod)(void*, TArgs&), Timestamp::TimeDiff expireMillisecs)
{
return Expire<TArgs>(FunctionDelegate<TArgs, true, false>(NotifyMethod), expireMillisecs);
}
template <class TArgs>
inline Expire<TArgs> delegate(void (*NotifyMethod)(TArgs&), Timestamp::TimeDiff expireMillisecs)
{
return Expire<TArgs>(FunctionDelegate<TArgs, false>(NotifyMethod), expireMillisecs);
}
template <class TArgs>
inline FunctionDelegate<TArgs, true, true> delegate(void (*NotifyMethod)(const void*, TArgs&))
{
return FunctionDelegate<TArgs, true, true>(NotifyMethod);
}
template <class TArgs>
inline FunctionDelegate<TArgs, true, false> delegate(void (*NotifyMethod)(void*, TArgs&))
{
return FunctionDelegate<TArgs, true, false>(NotifyMethod);
}
template <class TArgs>
inline FunctionDelegate<TArgs, false> delegate(void (*NotifyMethod)(TArgs&))
{
return FunctionDelegate<TArgs, false>(NotifyMethod);
}
template <class TObj>
class Delegate<TObj,void,true>: public AbstractDelegate<void>
{
public:
typedef void (TObj::*NotifyMethod)(const void*);
Delegate(TObj* obj, NotifyMethod method):
_receiverObject(obj),
_receiverMethod(method)
{
}
Delegate(const Delegate& delegate):
AbstractDelegate<void>(delegate),
_receiverObject(delegate._receiverObject),
_receiverMethod(delegate._receiverMethod)
{
}
~Delegate()
{
}
Delegate& operator = (const Delegate& delegate)
{
if (&delegate != this)
{
this->_receiverObject = delegate._receiverObject;
this->_receiverMethod = delegate._receiverMethod;
}
return *this;
}
bool notify(const void* sender)
{
Mutex::ScopedLock lock(_mutex);
if (_receiverObject)
{
(_receiverObject->*_receiverMethod)(sender);
return true;
}
else return false;
}
bool equals(const AbstractDelegate<void>& other) const
{
const Delegate* pOtherDelegate = dynamic_cast<const Delegate*>(other.unwrap());
return pOtherDelegate && _receiverObject == pOtherDelegate->_receiverObject && _receiverMethod == pOtherDelegate->_receiverMethod;
}
AbstractDelegate<void>* clone() const
{
return new Delegate(*this);
}
void disable()
{
Mutex::ScopedLock lock(_mutex);
_receiverObject = 0;
}
protected:
TObj* _receiverObject;
NotifyMethod _receiverMethod;
Mutex _mutex;
private:
Delegate();
};
template <class TObj>
class Delegate<TObj, void, false>: public AbstractDelegate<void>
{
public:
typedef void (TObj::*NotifyMethod)();
Delegate(TObj* obj, NotifyMethod method):
_receiverObject(obj),
_receiverMethod(method)
{
}
Delegate(const Delegate& delegate):
AbstractDelegate<void>(delegate),
_receiverObject(delegate._receiverObject),
_receiverMethod(delegate._receiverMethod)
{
}
~Delegate()
{
}
Delegate& operator = (const Delegate& delegate)
{
if (&delegate != this)
{
this->_receiverObject = delegate._receiverObject;
this->_receiverMethod = delegate._receiverMethod;
}
return *this;
}
bool notify(const void*)
{
Mutex::ScopedLock lock(_mutex);
if (_receiverObject)
{
(_receiverObject->*_receiverMethod)();
return true;
}
else return false;
}
bool equals(const AbstractDelegate<void>& other) const
{
const Delegate* pOtherDelegate = dynamic_cast<const Delegate*>(other.unwrap());
return pOtherDelegate && _receiverObject == pOtherDelegate->_receiverObject && _receiverMethod == pOtherDelegate->_receiverMethod;
}
AbstractDelegate<void>* clone() const
{
return new Delegate(*this);
}
void disable()
{
Mutex::ScopedLock lock(_mutex);
_receiverObject = 0;
}
protected:
TObj* _receiverObject;
NotifyMethod _receiverMethod;
Mutex _mutex;
private:
Delegate();
};
template <class TObj>
inline Delegate<TObj, void, true> delegate(TObj* pObj, void (TObj::*NotifyMethod)(const void*))
{
return Delegate<TObj, void, true>(pObj, NotifyMethod);
}
template <class TObj>
inline Delegate<TObj, void, false> delegate(TObj* pObj, void (TObj::*NotifyMethod)())
{
return Delegate<TObj, void, false>(pObj, NotifyMethod);
}
template <class TObj>
inline Expire<void> delegate(TObj* pObj, void (TObj::*NotifyMethod)(const void*), Timestamp::TimeDiff expireMillisecs)
{
return Expire<void>(Delegate<TObj, void, true>(pObj, NotifyMethod), expireMillisecs);
}
template <class TObj>
inline Expire<void> delegate(TObj* pObj, void (TObj::*NotifyMethod)(), Timestamp::TimeDiff expireMillisecs)
{
return Expire<void>(Delegate<TObj, void, false>(pObj, NotifyMethod), expireMillisecs);
}
inline Expire<void> delegate(void (*NotifyMethod)(const void*), Timestamp::TimeDiff expireMillisecs)
{
return Expire<void>(FunctionDelegate<void, true, true>(NotifyMethod), expireMillisecs);
}
inline Expire<void> delegate(void (*NotifyMethod)(void*), Timestamp::TimeDiff expireMillisecs)
{
return Expire<void>(FunctionDelegate<void, true, false>(NotifyMethod), expireMillisecs);
}
inline Expire<void> delegate(void (*NotifyMethod)(), Timestamp::TimeDiff expireMillisecs)
{
return Expire<void>(FunctionDelegate<void, false>(NotifyMethod), expireMillisecs);
}
inline FunctionDelegate<void, true, true> delegate(void (*NotifyMethod)(const void*))
{
return FunctionDelegate<void, true, true>(NotifyMethod);
}
inline FunctionDelegate<void, true, false> delegate(void (*NotifyMethod)(void*))
{
return FunctionDelegate<void, true, false>(NotifyMethod);
}
inline FunctionDelegate<void, false> delegate(void (*NotifyMethod)())
{
return FunctionDelegate<void, false>(NotifyMethod);
}
} // namespace Poco
#endif // Foundation_Delegate_INCLUDED