Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 1995-2009 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:
//
/**
@file
@internalTechnology
*/
#if !defined(__FILESYSTEM_UTILS_INL__)
#define __FILESYSTEM_UTILS_INL__
//-----------------------------------------------------------------------------
/** @return 2^aVal */
inline TUint32 Pow2(TUint32 aVal)
{
ASSERT(aVal<32);
return 1 << aVal;
}
//-----------------------------------------------------------------------------
/** @return TUint32 value equals 2^aVal */
inline TUint32 Pow2_32(TUint32 aVal)
{
ASSERT(aVal < 32);
return 1 << aVal;
}
//-----------------------------------------------------------------------------
/** @return TUint64 value equals 2^aVal */
inline TUint64 Pow2_64(TUint32 aVal)
{
ASSERT(aVal < 64);
return ((TUint64)1) << aVal;
}
//-----------------------------------------------------------------------------
/**
Indicates if a number passed in is a power of two
@return ETrue if aVal is a power of 2
*/
inline TBool IsPowerOf2(TUint32 aVal)
{
if (aVal==0)
return EFalse;
return !(aVal & (aVal-1));
}
//-----------------------------------------------------------------------------
/**
Indicates if a number passed in is a power of two
@return ETrue if aVal is a power of 2
*/
inline TBool IsPowerOf2_64(TUint64 aVal)
{
if (aVal==0)
return EFalse;
return !(aVal & (aVal-1));
}
//-----------------------------------------------------------------------------
/**
rounds down the given value to 2^aGranularityLog2
@param aVal input value to round down
@param aGranularityLog2 Log2(granularity)
@return rounded - down value
*/
inline TUint32 RoundDown(TUint32 aVal, TUint32 aGranularityLog2)
{
ASSERT(aGranularityLog2 < 32);
return (aVal >> aGranularityLog2) << aGranularityLog2;
}
//-----------------------------------------------------------------------------
/**
Rounds up aVal to the 2^aGranularityLog2
For example: RoundUp(0x08, 2) == 0x08; RoundUp(0x08, 3) == 0x08; RoundUp(0x08, 4) == 0x10; RoundUp(0x19, 4) == 0x20
@return rounded-up value
*/
inline TUint32 RoundUp(TUint32 aVal, TUint32 aGranularityLog2)
{
ASSERT(aGranularityLog2 < 32);
if( (aVal & ((1<<aGranularityLog2)-1)) == 0)
return aVal;
aVal >>= aGranularityLog2;
aVal++;
aVal <<= aGranularityLog2;
return aVal;
}
//-----------------------------------------------------------------------------
/**
@return Boolean exclusive OR between a1 and a2
This function should be used on C-style TBool, which is, actually TInt type; Its '0' value means "False" and _any_ non-zero means "True"
E.g: BoolXor(0x17, 0x4a) == EFalse;
*/
TBool BoolXOR(TBool a1, TBool a2)
{
if(!a1 && !a2)
return EFalse;
else if(a1 && a2)
return EFalse;
else
return ETrue;
}
//-----------------------------------------------------------------------------
/**
Calculates the log2 of a number
This is the explicitly inlined version. Extensive using it may result in a code bloat.
@param aNum Number to calulate the log two of
@return The log two of the number passed in
*/
inline TUint32 Log2_inline(TUint32 aVal)
{
__ASSERT_COMPILE(sizeof(TUint32) == 4);
ASSERT(aVal);
TUint32 bitPos=31;
if(!(aVal >> 16)) {bitPos-=16; aVal<<=16;}
if(!(aVal >> 24)) {bitPos-=8; aVal<<=8 ;}
if(!(aVal >> 28)) {bitPos-=4; aVal<<=4 ;}
if(!(aVal >> 30)) {bitPos-=2; aVal<<=2 ;}
if(!(aVal >> 31)) {bitPos-=1;}
return bitPos;
}
//-----------------------------------------------------------------------------
/**
Calculates number of '1' bits in the aVal
This is the explicitly inlined version. Extensive using it may result in a code bloat.
@param aVal some value
@return number of '1' bits in the aVal
*/
inline TUint32 Count1Bits_inline(TUint32 aVal)
{
if(!aVal)
return 0;
if(aVal == 0xFFFFFFFF)
return 32;
aVal = aVal - ((aVal >> 1) & 0x55555555);
aVal = (aVal & 0x33333333) + ((aVal >> 2) & 0x33333333);
aVal = (aVal + (aVal >> 4)) & 0x0f0f0f0f;
aVal = aVal + (aVal >> 8);
aVal = aVal + (aVal >> 16);
return aVal & 0x3f;
}
//-----------------------------------------------------------------------------
/** clear all bits */
void T32Bits::Clear()
{
iData = 0;
}
/** @return non-0 if at least one of 32 bits is set to '1' */
TBool T32Bits::HasBitsSet() const
{
return iData;
}
/** sets bit number "aIndex" to '1' */
void T32Bits::SetBit(TUint32 aIndex)
{
ASSERT(aIndex < 32);
iData |= (1<<aIndex);
}
/**
Get value of the bit number "aIndex".
@return 0 if the bit aIndex is '0' non-zero otherwise
*/
TBool T32Bits::operator[](TUint32 aIndex) const
{
ASSERT(aIndex < 32);
return (iData & (1<<aIndex));
}
#endif //__FILESYSTEM_UTILS_INL__