Add verbatim functionality to filtering so it can perform chassis builds. Add ProductsDefinition file for defining exports.
/*
* Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "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:
* e32tools\petran\Szip\farray.h
*
*/
#ifndef __FARRAY_H__
#define __FARRAY_H__
#include <assert.h>
template <class T,TInt S>
class TFixedArray
// Range checking wrapper+ class for C++ arrays
// Can be embedded in C-objects, or used on the stack: use Reset() to zero it
{
typedef TFixedArray<T,S> ThisClass;
public:
inline TFixedArray();
inline TFixedArray(const T* aList, TInt aLength);
//
inline void Copy(const T* aList, TInt aLength);
inline void Reset(); // zero fill
inline void DeleteAll();
//
inline TInt Count() const;
inline TInt Length() const;
// Accessors - debug range checking
inline T& operator[](TInt aIndex);
inline const T& operator[] (TInt aIndex) const;
// Accessors - always range checking
inline T& At(TInt aIndex);
inline const T& At(TInt aIndex) const;
// Provides pointers to the beginning and end of the array
inline T* Begin();
inline T* End();
inline const T* Begin() const;
inline const T* End() const;
//
protected:
inline static TBool InRange(TInt aIndex);
protected:
T iRep[S];
};
// Template class TFixedArray
IMPORT_C void PanicTFixedArray();
template <class T,TInt S>
inline TFixedArray<T,S>::TFixedArray()
{}
template <class T,TInt S>
inline void TFixedArray<T,S>::Copy(const T* aList,TInt aLength)
{assert(TUint(aLength)<=TUint(S));HMem::Copy(iRep,aList,aLength*sizeof(T));}
template <class T,TInt S>
inline TFixedArray<T,S>::TFixedArray(const T* aList,TInt aLength)
{Copy(aList,aLength);}
template <class T,TInt S>
inline void TFixedArray<T,S>::Reset()
{HMem::FillZ(iRep,sizeof(iRep));}
template <class T,TInt S>
inline TInt TFixedArray<T,S>::Count() const
{return S;}
template <class T,TInt S>
inline TInt TFixedArray<T,S>::Length() const
{return sizeof(T);}
template <class T,TInt S>
inline TBool TFixedArray<T,S>::InRange(TInt aIndex)
{return TUint(aIndex)<S;}
template <class T,TInt S>
inline T& TFixedArray<T,S>::operator[](TInt aIndex)
{assert(InRange(aIndex));return iRep[aIndex];}
template <class T,TInt S>
inline const T& TFixedArray<T,S>::operator[](TInt aIndex) const
{return const_cast<ThisClass&>(*this)[aIndex];}
template <class T,TInt S>
inline T& TFixedArray<T,S>::At(TInt aIndex)
{verify(InRange(aIndex));return iRep[aIndex];}
template <class T,TInt S>
inline const T& TFixedArray<T,S>::At(TInt aIndex) const
{return const_cast<ThisClass&>(*this).At(aIndex);}
template <class T,TInt S>
inline T* TFixedArray<T,S>::Begin()
{return &iRep[0];}
template <class T,TInt S>
inline T* TFixedArray<T,S>::End()
{return &iRep[S];}
template <class T,TInt S>
inline const T* TFixedArray<T,S>::Begin() const
{return &iRep[0];}
template <class T,TInt S>
inline const T* TFixedArray<T,S>::End() const
{return &iRep[S];}
#endif