/*
* Copyright (c) 2005-2007 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: Phonebook 2 for each utility functions.
*
*/
/**
* Template class for functor with one parameter.
*
* @param _ReturnType Return type of the member function
* @param _Class Class that has the member function to be called.
* @param _Argument Type of member function's argument.
*/
template <class _ReturnType, class _Class, class _Argument>
class MemberFunction1
{
public:
explicit MemberFunction1
(_ReturnType (_Class::* aMemberFunction)(_Argument)) :
iMemberFunction(aMemberFunction)
{
}
_ReturnType operator()
(_Class* aClassInstance, _Argument aArgument) const
{
return (aClassInstance->*iMemberFunction)(aArgument);
}
private:
_ReturnType (_Class::*iMemberFunction)(_Argument);
};
/**
* Function for creating functor with one parameter.
*/
template <class _ReturnType, class _Class, class _Argument>
inline MemberFunction1<_ReturnType, _Class, _Argument>
MemberFunction(_ReturnType (_Class::* aMemberFunction)(_Argument))
{
return MemberFunction1<_ReturnType, _Class, _Argument>(aMemberFunction);
}
/**
* Template class for functor with two parameters.
*/
template<class _ReturnType, class _Class, class _Argument, class _Argument2>
class MemberFunction2
{
public:
explicit MemberFunction2
(_ReturnType (_Class::* aMemberFunction)(_Argument, _Argument2)) :
iMemberFunction(aMemberFunction)
{
}
_ReturnType operator()
(_Class* aClassInstance, _Argument aArgument1,
_Argument2 aArgument2) const
{
return ((aClassInstance->*iMemberFunction)
(aArgument1, aArgument2));
}
private:
_ReturnType (_Class::* iMemberFunction)(_Argument, _Argument2);
};
/**
* Function for creating functor with two parameters.
*/
template <class _ReturnType, class _Class, class _Argument, class _Argument2>
inline MemberFunction2<_ReturnType, _Class, _Argument, _Argument2>
MemberFunction(_ReturnType (_Class::* aMemberFunction)(_Argument, _Argument2))
{
return MemberFunction2<_ReturnType, _Class, _Argument, _Argument2>
(aMemberFunction);
}
/**
* Template class for functor with three parameters.
*/
template<class _ReturnType, class _Class, class _Argument, class _Argument2, class _Argument3>
class MemberFunction3
{
public:
explicit MemberFunction3
(_ReturnType (_Class::* aMemberFunction)(_Argument, _Argument2, _Argument3)) :
iMemberFunction(aMemberFunction)
{
}
_ReturnType operator()
(_Class* aClassInstance, _Argument aArgument1,
_Argument2 aArgument2, _Argument3 aArgument3) const
{
return ((aClassInstance->*iMemberFunction)
(aArgument1, aArgument2, aArgument3));
}
private:
_ReturnType (_Class::* iMemberFunction)(_Argument, _Argument2, _Argument3);
};
/**
* Function for creating functor with three parameters.
*/
template <class _ReturnType, class _Class, class _Argument, class _Argument2, class _Argument3>
inline MemberFunction3<_ReturnType, _Class, _Argument, _Argument2, _Argument3>
MemberFunction(_ReturnType (_Class::* aMemberFunction)(_Argument, _Argument2, _Argument3))
{
return MemberFunction3<_ReturnType, _Class, _Argument, _Argument2, _Argument3>
(aMemberFunction);
}
/**
* Template class for functor with four parameters.
*/
template<class _ReturnType, class _Class, class _Argument,
class _Argument2, class _Argument3, class _Argument4>
class MemberFunction4
{
public:
explicit MemberFunction4
(_ReturnType (_Class::* aMemberFunction)
(_Argument, _Argument2, _Argument3, _Argument4)) :
iMemberFunction(aMemberFunction)
{
}
_ReturnType operator()
(_Class* aClassInstance, _Argument aArgument1,
_Argument2 aArgument2, _Argument3 aArgument3, _Argument4 aArgument4) const
{
return ((aClassInstance->*iMemberFunction)
(aArgument1, aArgument2, aArgument3, aArgument4));
}
private:
_ReturnType (_Class::* iMemberFunction)(_Argument, _Argument2, _Argument3, _Argument4);
};
/**
* Function for creating functor with four parameters.
*/
template <class _ReturnType, class _Class, class _Argument,
class _Argument2, class _Argument3, class _Argument4>
inline MemberFunction4<_ReturnType, _Class, _Argument, _Argument2, _Argument3, _Argument4>
MemberFunction(_ReturnType (_Class::* aMemberFunction)
(_Argument, _Argument2, _Argument3, _Argument4))
{
return MemberFunction4<_ReturnType, _Class, _Argument, _Argument2, _Argument3, _Argument4>
(aMemberFunction);
}
/**
* Template class for functor with one parameter and
* void return type.
*
* NOTE: The void versions have to be done this way because
* VC 6.0 does not support partial specialization of templates.
*/
template<class _Class, class _Argument>
class VoidMemberFunction1
{
public:
explicit VoidMemberFunction1
(void (_Class::* aMemberFunction)(_Argument)) :
iMemberFunction(aMemberFunction)
{
}
void operator()(_Class* aClassInstance, _Argument aArgument) const
{
(aClassInstance->*iMemberFunction)(aArgument);
}
private:
void (_Class::* iMemberFunction)(_Argument);
};
/**
* Functon for creating functor with one parameter and void
* return type.
*/
template<class _Class, class _Argument>
inline VoidMemberFunction1<_Class, _Argument>
VoidMemberFunction(void (_Class::* aMemberFunction)(_Argument))
{
return VoidMemberFunction1<_Class, _Argument>(aMemberFunction);
}
/**
* Template class for functor with two parameters and
* void return type.
*/
template<class _Class, class _Argument, class _Argument2>
class VoidMemberFunction2
{
public:
explicit VoidMemberFunction2
(void (_Class::* aMemberFunction)(_Argument, _Argument2)) :
iMemberFunction(aMemberFunction)
{}
void operator()(_Class* aClassInstance, _Argument aArgument,
_Argument2 aArgument2) const
{
((aClassInstance->*iMemberFunction)(aArgument,aArgument2));
}
private:
void (_Class::* iMemberFunction)(_Argument, _Argument2);
};
/**
* Functon for creating functor with two parameters and void
* return type.
*/
template<class _Class, class _Argument, class _Argument2>
inline VoidMemberFunction2<_Class, _Argument, _Argument2>
VoidMemberFunction(void (_Class::* aMemberFunction)(_Argument, _Argument2))
{
return VoidMemberFunction2<_Class, _Argument, _Argument2>(aMemberFunction);
}
/**
* Template class for functor with three parameters and
* void return type.
*/
template<class _Class, class _Argument, class _Argument2, class _Argument3>
class VoidMemberFunction3
{
public:
explicit VoidMemberFunction3
(void (_Class::* aMemberFunction)(_Argument,
_Argument2, _Argument3)) :
iMemberFunction(aMemberFunction)
{}
void operator()(_Class* aClassInstance, _Argument aArgument,
_Argument2 aArgument2, _Argument3 aArgument3) const
{
((aClassInstance->*iMemberFunction)
(aArgument, aArgument2, aArgument3));
}
private:
void (_Class::* iMemberFunction)(_Argument, _Argument2, _Argument3);
};
/**
* Functon for creating functor with three parameters and void
* return type.
*/
template<class _Class, class _Argument, class _Argument2,
class _Argument3>
inline VoidMemberFunction3<_Class, _Argument, _Argument2,
_Argument3>
VoidMemberFunction(void (_Class::* aMemberFunction)
(_Argument, _Argument2, _Argument3))
{
return VoidMemberFunction3<_Class, _Argument, _Argument2,
_Argument3>(aMemberFunction);
}
/**
* Template class for functor with four parameters and
* void return type.
*/
template<class _Class, class _Argument, class _Argument2,
class _Argument3, class _Argument4>
class VoidMemberFunction4
{
public:
explicit VoidMemberFunction4
(void (_Class::* aMemberFunction)(_Argument, _Argument2,
_Argument3, _Argument4)) :
iMemberFunction(aMemberFunction)
{}
void operator()(_Class* aClassInstance, _Argument aArgument,
_Argument2 aArgument2, _Argument3 aArgument3,
_Argument4 aArgument4) const
{
((aClassInstance->*iMemberFunction)(aArgument, aArgument2,
aArgument3, aArgument4));
}
private:
void (_Class::* iMemberFunction)(_Argument, _Argument2,
_Argument3, _Argument4);
};
/**
* Functon for creating functor with four parameters and void
* return type.
*/
template<class _Class, class _Argument, class _Argument2,
class _Argument3, class _Argument4>
inline VoidMemberFunction4<_Class, _Argument, _Argument2,
_Argument3, _Argument4>
VoidMemberFunction(void (_Class::* aMemberFunction)
(_Argument, _Argument2, _Argument3, _Argument4))
{
return VoidMemberFunction4<_Class, _Argument, _Argument2,
_Argument3, _Argument4>(aMemberFunction);
}
/**
* Template class for functor with five parameters and
* void return type.
*/
template<class _Class, class _Argument, class _Argument2,
class _Argument3, class _Argument4, class _Argument5>
class VoidMemberFunction5
{
public:
explicit VoidMemberFunction5
(void (_Class::* aMemberFunction)(_Argument, _Argument2,
_Argument3, _Argument4, _Argument5)) :
iMemberFunction(aMemberFunction)
{}
void operator()(_Class* aClassInstance, _Argument aArgument,
_Argument2 aArgument2, _Argument3 aArgument3,
_Argument4 aArgument4, _Argument5 aArgument5) const
{
((aClassInstance->*iMemberFunction)(aArgument, aArgument2,
aArgument3, aArgument4, aArgument5));
}
private:
void (_Class::* iMemberFunction)(_Argument, _Argument2,
_Argument3, _Argument4, _Argument5);
};
/**
* Functon for creating functor with five parameters and void
* return type.
*/
template<class _Class, class _Argument, class _Argument2,
class _Argument3, class _Argument4, class _Argument5>
inline VoidMemberFunction5<_Class, _Argument, _Argument2,
_Argument3, _Argument4, _Argument5>
VoidMemberFunction(void (_Class::* aMemberFunction)
(_Argument, _Argument2, _Argument3, _Argument4, _Argument5))
{
return VoidMemberFunction5<_Class, _Argument, _Argument2,
_Argument3, _Argument4, _Argument5>(aMemberFunction);
}
/**
* Executes given member function on all array elements.
* Version with no arguments.
*/
template<class Array, class Functor>
void ForEachL(Array& aArray, Functor aFuncL)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFuncL(aArray[i]);
}
}
/**
* Executes given member function on all array elements.
* Version with one argument.
*/
template<class Array, class Functor, class Arg>
void ForEachL(Array& aArray, Functor aFuncL, Arg& aArgument)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFuncL(aArray[i], aArgument);
}
}
/**
* Executes given member function on all array elements.
* Version with two arguments.
*/
template<class Array, class Functor, class Arg, class Arg2>
void ForEachL(Array& aArray, Functor aFuncL, Arg& aArgument, Arg2& aArgument2)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFuncL(aArray[i], aArgument, aArgument2);
}
}
/**
* Executes given member function on all array elements.
* Version with three arguments.
*/
template<class Array, class Functor, class Arg, class Arg2, class Arg3>
void ForEachL(Array& aArray, Functor aFuncL, Arg& aArgument, Arg2& aArgument2,
Arg3& aArgument3)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFuncL(aArray[i], aArgument, aArgument2, aArgument3);
}
}
/**
* Executes given member function on all array elements.
* Version with three arguments.
*/
template<class Array, class Functor, class Arg, class Arg2, class Arg3, class Arg4>
void ForEachL(Array& aArray, Functor aFuncL, Arg& aArgument, Arg2& aArgument2,
Arg3& aArgument3, Arg4& aArgument4)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFuncL(aArray[i], aArgument, aArgument2, aArgument3, aArgument4);
}
}
/**
* Executes given member function on all array elements.
* Version with no arguments.
*/
template<class Array, class Functor>
void ForEach(Array& aArray, Functor aFunc)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFunc(aArray[i]);
}
}
/**
* Executes given member function on all array elements.
* Version with one argument.
*/
template<class Array, class Functor, class Arg>
void ForEach(Array& aArray, Functor aFunc, Arg& aArgument)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFunc(aArray[i], aArgument);
}
}
/**
* Executes given member function on all array elements.
* Version with two arguments.
*/
template<class Array, class Functor, class Arg, class Arg2>
void ForEach(Array& aArray, Functor aFunc, Arg& aArgument, Arg2& aArgument2)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFunc(aArray[i], aArgument, aArgument2);
}
}
/**
* Executes given member function on all array elements.
* Version with three arguments.
*/
template<class Array, class Functor, class Arg, class Arg2, class Arg3>
void ForEach( Array& aArray,
Functor aFunc,
Arg& aArgument,
Arg2& aArgument2,
Arg3& aArgument3 )
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFunc(aArray[i], aArgument, aArgument2, aArgument3);
}
}
/**
* Executes given member function on all array elements.
* Version with four arguments.
*/
template<class Array, class Functor, class Arg, class Arg2, class Arg3, class Arg4>
void ForEach( Array& aArray,
Functor aFunc,
Arg& aArgument,
Arg2& aArgument2,
Arg3& aArgument3,
Arg4& aArgument4 )
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFunc(aArray[i], aArgument, aArgument2, aArgument3, aArgument4);
}
}
/**
* Executes given member function on all array elements.
* Version with five arguments.
*/
template<class Array, class Functor, class Arg, class Arg2, class Arg3, class Arg4, class Arg5>
void ForEach( Array& aArray,
Functor aFunc,
Arg& aArgument,
Arg2& aArgument2,
Arg3& aArgument3,
Arg4& aArgument4,
Arg5& aArgument5)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
aFunc(aArray[i], aArgument, aArgument2, aArgument3, aArgument4, aArgument5);
}
}
/**
* Executes given member function on all array elements
* until first returns ETrue. When first returns ETrue
* loop is terminated and ETrue is returned. If
* no function returns ETrue, EFalse is returned.
*
* If aInverted template parameter is set to ETrue,
* logic is reversed, ie. if function returns EFalse, loop
* is terminated and EFalse is returned. If
* no funtion returns EFalse, ETrue is returned.
*
*/
template<class Array, class Functor, class Arg>
TBool TryEachL(Array& aArray, Functor aFuncL,
Arg& aArgument, TBool aInverted = EFalse)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
TBool exitCode = aFuncL(aArray[i], aArgument);
if( !aInverted )
{
if(exitCode)
{
return exitCode;
}
}
else
{
if(!exitCode)
{
return exitCode;
}
}
}
return aInverted;
}
/**
* Two-argument version of the previous.
*/
template<class Array, class Functor, class Arg, class Arg2>
TBool TryEachL(Array& aArray, Functor aFuncL,
Arg& aArgument, Arg2& aArgument2,
TBool aInverted = EFalse)
{
const TInt count = aArray.Count();
for (TInt i=0; i<count; ++i)
{
TBool exitCode = aFuncL(aArray[i], aArgument, aArgument2);
if( !aInverted )
{
if(exitCode)
{
return exitCode;
}
}
else
{
if(!exitCode)
{
return exitCode;
}
}
}
return aInverted;
}
// End of File