Re-merge fixes for bug 1362, bug 1666, bug 1863, KhronosRI and bld.inf.
// Copyright (c) 2007-2009 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:
//
const TUint32 KRBMask = 0x00ff00ff;
const TUint32 KAGMask = 0xff00ff00;
const TUint32 KGMask = 0x0000ff00;
//Algoriths for Premultiplied alpha screenmode/pixel format.
inline TUint32 PMAPixelBlend(TUint32 aDestPixel, TUint32 aSrcPixel, TUint8 aMask)
{
if(aMask)
{
if(aMask == 0xff) // opaque, so unchanged
{
return aSrcPixel;
}
else
{
return PMABlend_noChecks(aDestPixel, aSrcPixel, aMask);
}
}
else // completely transparent
{
return aDestPixel;
}
}
inline TUint32 PMAPixelBlend(TUint32 aDestPixel, TUint32 aSrcPixel)
{
TUint8 mask = (TUint8)(aSrcPixel >> 24);
return PMAPixelBlend(aDestPixel, aSrcPixel, mask);
}
inline TUint32 PMABlend_noChecks(TUint32 aDestPixel, TUint32 aSrcPixel, TUint8 aMaskingFactor)
{
TUint32 src_c = aSrcPixel & KRBMask;
TUint32 dst_c = aDestPixel & KRBMask;
const TUint32 mask = 0x0100 - aMaskingFactor;
dst_c = (src_c + ((mask * dst_c)>>8)) & KRBMask;
src_c = (aSrcPixel & KAGMask)>>8;
TUint32 dst_ag = (aDestPixel & KAGMask)>>8;
dst_c |= ((src_c + ((mask * dst_ag)>>8)) & KRBMask)<<8;
return dst_c;
}
inline void PMABlend_noChecksInplace(TUint32& aDest_io, const TUint32& aSrcPixel, TUint8 aMaskingFactor)
{
TUint32 src_c = aSrcPixel & KRBMask;
TUint32 dst_ag = (aDest_io & KAGMask) >> 8;
aDest_io = aDest_io & KRBMask;
const TUint32 mask = 0x0100 - aMaskingFactor;
aDest_io = (src_c + ((mask * aDest_io) >> 8)) & KRBMask;
src_c = (aSrcPixel & KAGMask) >> 8;
aDest_io |= ((src_c + ((mask * dst_ag) >> 8)) & KRBMask)<<8;
}
inline void PMAInplaceBlend(TUint32& aDest_io, TUint32& aSrc_in)
{
TUint8 mask = (TUint8)(aSrc_in >> 24);
if(mask)
{
if(mask == 0xff) // opaque, so dst = src.
{
aDest_io = aSrc_in;
}
else
{
PMABlend_noChecksInplace(aDest_io, aSrc_in, mask);
}
}
//else src completely transparent, so dst unchanged.
}
inline TUint32 NonPMA2PMAPixel(TUint32 aPixel)
{
TUint8 tA = (TUint8)(aPixel >> 24);
if (tA==0)
{
return 0;
}
if (tA==0xff)
{
return aPixel;
}
// Use a bias value of 128 rather than 255, but also add 1/256 of the numerator
// before dividing the sum by 256.
TUint32 tap1=tA+1;
TUint32 scaledRB = (aPixel & KRBMask) * tap1;
TUint32 scaledG = (aPixel & KGMask ) * tap1;
return (aPixel & 0xff000000) | ((scaledRB>>8) & KRBMask) | ((scaledG>>8)& KGMask);
}
inline TUint32 PMA2NonPMAPixel(TUint32 aPixel, const TUint16* aNormTable)
{
TUint8 alpha = (TUint8)(aPixel >> 24);
if (alpha==0)
{
return 0;
}
if (alpha==0xff)
{
return aPixel;
}
TUint16 norm = aNormTable[alpha];
TUint32 norm_rb = (((aPixel & KRBMask) * norm) >> 8) & KRBMask;
TUint32 norm_g = (((aPixel & KGMask ) * norm) >> 8) & KGMask;
return ((aPixel & 0xff000000) | norm_rb | norm_g);
}
inline void Convert2PMA(TUint32& aInOutValue)
{
aInOutValue = NonPMA2PMAPixel(aInOutValue);
}
inline void Convert2NonPMA(TUint32& aInOutValue, const TUint16* aNormTable)
{
aInOutValue = PMA2NonPMAPixel(aInOutValue, aNormTable);
}