kuhar/Callback.h

## Callback.h
/*
* Callback.h
*
*  Created on: Dec 28, 2013
*      Author: Jakub 'kuhar' Kuderski
*/

#ifndef CALLBACK_H_
#define CALLBACK_H_

#include <vector>
#include <utility>
#include <type_traits>
#include <functional>
#include "cocos2d.h"

#define CALLBACK_ENABLE_ASSERTIONS 1

#if CALLBACK_ENABLE_ASSERTIONS == 1
#include <cassert>
#endif

#if CALLBACK_ENABLE_ASSERTIONS == 1
#define CALLBACK_ASSERT( CONDITION ) assert( CONDITION )
#else
#define CALLBACK_ASSERT( CONDITION )
#endif

namespace Utils
{
	/**
	* WARNING FOR VISUAL C++: set additional /vmg flag, otherwise generated code may not work!
	*
	* Example usage:
	*
	* Callback<void(int)> callback; // void --> return type, other types --> argument types
	* callback.set(pObject ,&CCObject::methodWithInt);
	*
	* or Callback<void(int)> callback(pObject, &CCObject::methodWithInt);
	*
	* or Callback<int(int, float)> callback = makeCallback( pObject, &SomeClass::someMethod );
	*
	* or even: auto callback = makeCallback( pObject, &SomeClass::someMethod );
	*
	* then call methods with some args: int result = callback.call ( some, args );
	*
	* You can also use functions/static methods and non-capturing lambdas.
	* Ex. auto callback = Callback<void(int)>( []( int n ){ cout << n; } );
	*
	* Please note that the following implementation uses chakra magic - be careful when modifying.
	* If you are out of mana, see previous revisions that used std::function.
	*/

	typedef cocos2d::CCObject BaseClass;

	template<typename T>
	class Callback;

	template<typename ReturnType, typename... Args>
	class Callback<ReturnType( Args... )>
	{

	public:

		Callback() :
			m_pointerType( PointerType::NonConstMethod )
		{
		}

		template<typename ClassType, typename MethodType>
		Callback( ClassType* pObject, const MethodType& method ) :
			m_pointerType( PointerType::NonConstMethod )
		{
			static_assert( std::is_member_function_pointer<MethodType>::value,
				"The second argument must be a pointer to a method" );
			set( pObject, method );
		}

		template<typename FunctionType>
		Callback( const FunctionType& functor ) :
			m_pointerType( PointerType::Function )
		{
			set( functor );
		}

		Callback( const Callback& otherCallback )
		{
			m_callableObject = otherCallback.m_callableObject;
			m_pointerType = otherCallback.m_pointerType;
		}

		Callback& operator= ( const Callback& otherCallback )
		{
			m_callableObject = otherCallback.m_callableObject;
			m_pointerType = otherCallback.m_pointerType;
			return *this;
		}

		bool isCallable() const
		{
			return m_callableObject.first || m_pointerType == PointerType::Function;
		}

		BaseClass* getObject() const
		{
			return m_callableObject.first;
		}

		template<typename ObjectType, typename ClassType, typename ClassReturnType, typename... ClassArgs>
		Callback& set( ObjectType* pObject, ClassReturnType( ClassType::*method ) ( ClassArgs... ) )
		{
			static_assert( std::is_base_of<BaseClass, ClassType>::value,
				"CCObject must be the base of used class" );

			static_assert( std::is_base_of<ClassType, ObjectType>::value,
				"Pointer to method must be the base of object's pointer" );

			m_pointerType = PointerType::NonConstMethod;
			MethodPointer methodPointer;
			methodPointer.nonConstMethod = static_cast<ReturnType( BaseClass::* ) ( Args... )> ( method );

			m_callableObject = std::make_pair( pObject, methodPointer );
			return *this;
		}

		template<typename ObjectType, typename ClassType, typename ClassReturnType, typename... ClassArgs>
		Callback& set( ObjectType* pObject, ClassReturnType( ClassType::*method ) ( ClassArgs... ) const )
		{
			static_assert( std::is_base_of<BaseClass, ClassType>::value,
				"CCObject must be the base of used class" );

			static_assert( std::is_base_of<ClassType, ObjectType>::value,
				"Pointer to method must be the base of object's pointer" );

			m_pointerType = PointerType::ConstMethod;
			MethodPointer methodPointer;
			methodPointer.constMethod = static_cast<ReturnType( BaseClass::* ) ( Args... ) const> ( method );

			m_callableObject = std::make_pair( pObject, methodPointer );
			return *this;
		}

		template<typename FunctionType>
		Callback& set( const FunctionType& functor )
		{
			static_assert( std::is_convertible<FunctionType, std::function<ReturnType( Args... )>>::value,
				"Parameter must be either function (static method) pointer or non-capturing lambda" );

			m_pointerType = PointerType::Function;
			MethodPointer methodPointer;
			methodPointer.function = static_cast<ReturnType( *) ( Args... )>( functor );

			m_callableObject = std::make_pair( nullptr, methodPointer );
			return *this;
		}

		ReturnType call( Args... params ) const
		{
			CALLBACK_ASSERT( isCallable() );

			if ( m_pointerType == PointerType::ConstMethod )
			{
				return ( m_callableObject.first->*m_callableObject.second.constMethod ) ( params... );
			}

			else if ( m_pointerType == PointerType::NonConstMethod )
			{
				return ( m_callableObject.first->*m_callableObject.second.nonConstMethod ) ( params... );
			}

			return ( *m_callableObject.second.function ) ( params... );
		}

	private:

		union MethodPointer
		{
			ReturnType( BaseClass::*nonConstMethod ) ( Args... );
			ReturnType( BaseClass::*constMethod ) ( Args... ) const;
			ReturnType( *function ) ( Args... );
		};

		enum class PointerType : unsigned char
		{
			NonConstMethod,
			ConstMethod,
			Function
		};

		typedef std::pair<BaseClass*, MethodPointer> ObjectMethodPair;
		ObjectMethodPair m_callableObject;
		PointerType m_pointerType;
	};


	template<typename ReturnType, typename ObjectType, typename MethodType, typename... Args>
	Callback<ReturnType( Args... )> makeCallback( ObjectType* pObject, ReturnType( MethodType::*method ) ( Args... ) )
	{
		return Callback<ReturnType( Args... )>( pObject, method );
	}

	template<typename ReturnType, typename ObjectType, typename MethodType, typename... Args>
	Callback<ReturnType( Args... )> makeCallback( ObjectType* pObject, ReturnType( MethodType::*method ) ( Args... ) const )
	{
		return Callback<ReturnType( Args... )>( pObject, method );
	}

	template<typename ReturnType, typename... Args>
	Callback<ReturnType( Args... )> makeCallback( ReturnType( *function ) ( Args... ) )
	{
		return Callback<ReturnType( Args... )>( function );
	}


} // namespace Utils


#endif /* CALLBACK_H_ */
	/*
	* Callback.h
	*
	* Created on: Dec 28, 2013
	* Author: Jakub 'kuhar' Kuderski
	*/

	#ifndef CALLBACK_H_
	#define CALLBACK_H_

	#include <vector>
	#include <utility>
	#include <type_traits>
	#include <functional>
	#include "cocos2d.h"

	#define CALLBACK_ENABLE_ASSERTIONS 1

	#if CALLBACK_ENABLE_ASSERTIONS == 1
	#include <cassert>
	#endif

	#if CALLBACK_ENABLE_ASSERTIONS == 1
	#define CALLBACK_ASSERT( CONDITION ) assert( CONDITION )
	#else
	#define CALLBACK_ASSERT( CONDITION )
	#endif

	namespace Utils
	{
	/**
	* WARNING FOR VISUAL C++: set additional /vmg flag, otherwise generated code may not work!
	*
	* Example usage:
	*
	* Callback<void(int)> callback; // void --> return type, other types --> argument types
	* callback.set(pObject ,&CCObject::methodWithInt);
	*
	* or Callback<void(int)> callback(pObject, &CCObject::methodWithInt);
	*
	* or Callback<int(int, float)> callback = makeCallback( pObject, &SomeClass::someMethod );
	*
	* or even: auto callback = makeCallback( pObject, &SomeClass::someMethod );
	*
	* then call methods with some args: int result = callback.call ( some, args );
	*
	* You can also use functions/static methods and non-capturing lambdas.
	* Ex. auto callback = Callback<void(int)>( []( int n ){ cout << n; } );
	*
	* Please note that the following implementation uses chakra magic - be careful when modifying.
	* If you are out of mana, see previous revisions that used std::function.
	*/

	typedef cocos2d::CCObject BaseClass;

	template<typename T>
	class Callback;

	template<typename ReturnType, typename... Args>
	class Callback<ReturnType( Args... )>
	{

	public:

	Callback() :
	m_pointerType( PointerType::NonConstMethod )
	{
	}

	template<typename ClassType, typename MethodType>
	Callback( ClassType* pObject, const MethodType& method ) :
	m_pointerType( PointerType::NonConstMethod )
	{
	static_assert( std::is_member_function_pointer<MethodType>::value,
	"The second argument must be a pointer to a method" );
	set( pObject, method );
	}

	template<typename FunctionType>
	Callback( const FunctionType& functor ) :
	m_pointerType( PointerType::Function )
	{
	set( functor );
	}

	Callback( const Callback& otherCallback )
	{
	m_callableObject = otherCallback.m_callableObject;
	m_pointerType = otherCallback.m_pointerType;
	}

	Callback& operator= ( const Callback& otherCallback )
	{
	m_callableObject = otherCallback.m_callableObject;
	m_pointerType = otherCallback.m_pointerType;
	return *this;
	}

	bool isCallable() const
	{
	return m_callableObject.first \|\| m_pointerType == PointerType::Function;
	}

	BaseClass* getObject() const
	{
	return m_callableObject.first;
	}

	template<typename ObjectType, typename ClassType, typename ClassReturnType, typename... ClassArgs>
	Callback& set( ObjectType* pObject, ClassReturnType( ClassType::*method ) ( ClassArgs... ) )
	{
	static_assert( std::is_base_of<BaseClass, ClassType>::value,
	"CCObject must be the base of used class" );

	static_assert( std::is_base_of<ClassType, ObjectType>::value,
	"Pointer to method must be the base of object's pointer" );

	m_pointerType = PointerType::NonConstMethod;
	MethodPointer methodPointer;
	methodPointer.nonConstMethod = static_cast<ReturnType( BaseClass::* ) ( Args... )> ( method );

	m_callableObject = std::make_pair( pObject, methodPointer );
	return *this;
	}

	template<typename ObjectType, typename ClassType, typename ClassReturnType, typename... ClassArgs>
	Callback& set( ObjectType* pObject, ClassReturnType( ClassType::*method ) ( ClassArgs... ) const )
	{
	static_assert( std::is_base_of<BaseClass, ClassType>::value,
	"CCObject must be the base of used class" );

	static_assert( std::is_base_of<ClassType, ObjectType>::value,
	"Pointer to method must be the base of object's pointer" );

	m_pointerType = PointerType::ConstMethod;
	MethodPointer methodPointer;
	methodPointer.constMethod = static_cast<ReturnType( BaseClass::* ) ( Args... ) const> ( method );

	m_callableObject = std::make_pair( pObject, methodPointer );
	return *this;
	}

	template<typename FunctionType>
	Callback& set( const FunctionType& functor )
	{
	static_assert( std::is_convertible<FunctionType, std::function<ReturnType( Args... )>>::value,
	"Parameter must be either function (static method) pointer or non-capturing lambda" );

	m_pointerType = PointerType::Function;
	MethodPointer methodPointer;
	methodPointer.function = static_cast<ReturnType( *) ( Args... )>( functor );

	m_callableObject = std::make_pair( nullptr, methodPointer );
	return *this;
	}

	ReturnType call( Args... params ) const
	{
	CALLBACK_ASSERT( isCallable() );

	if ( m_pointerType == PointerType::ConstMethod )
	{
	return ( m_callableObject.first->*m_callableObject.second.constMethod ) ( params... );
	}

	else if ( m_pointerType == PointerType::NonConstMethod )
	{
	return ( m_callableObject.first->*m_callableObject.second.nonConstMethod ) ( params... );
	}

	return ( *m_callableObject.second.function ) ( params... );
	}

	private:

	union MethodPointer
	{
	ReturnType( BaseClass::*nonConstMethod ) ( Args... );
	ReturnType( BaseClass::*constMethod ) ( Args... ) const;
	ReturnType( *function ) ( Args... );
	};

	enum class PointerType : unsigned char
	{
	NonConstMethod,
	ConstMethod,
	Function
	};

	typedef std::pair<BaseClass*, MethodPointer> ObjectMethodPair;
	ObjectMethodPair m_callableObject;
	PointerType m_pointerType;
	};


	template<typename ReturnType, typename ObjectType, typename MethodType, typename... Args>
	Callback<ReturnType( Args... )> makeCallback( ObjectType* pObject, ReturnType( MethodType::*method ) ( Args... ) )
	{
	return Callback<ReturnType( Args... )>( pObject, method );
	}

	template<typename ReturnType, typename ObjectType, typename MethodType, typename... Args>
	Callback<ReturnType( Args... )> makeCallback( ObjectType* pObject, ReturnType( MethodType::*method ) ( Args... ) const )
	{
	return Callback<ReturnType( Args... )>( pObject, method );
	}

	template<typename ReturnType, typename... Args>
	Callback<ReturnType( Args... )> makeCallback( ReturnType( *function ) ( Args... ) )
	{
	return Callback<ReturnType( Args... )>( function );
	}


	} // namespace Utils


	#endif /* CALLBACK_H_ */