Fix def files so that the implementation agnostic interface definition has no non-standards defined entry points, and change the eglrefimpl specific implementation to place its private entry points high up in the ordinal order space in the implementation region, not the standards based entrypoints region.
// Copyright (c) 1997-2009 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:
//
#include "SCDRAW.H"
#include "_WININC.H"
TInt CDrawEightBppScreenBitmapColor::InitScreen()
{
TRect drawRect;
GetDrawRect(drawRect);
RWindows* window = ::WindowHandler(iScreenNo);
window->iDisplayMode = DisplayMode();
window->iEpocBitmapSize = drawRect.Size();
window->iEpocBitmapLinePitch = (iScanLineWords*4);
window->iPalette = iPalette;
return KErrNone;
}
TInt CDrawEightBppScreenBitmapColor::SetCustomPalette(const CPalette* aPalette)
{
const TInt ret = CDrawEightBppBitmapColor::SetCustomPalette(aPalette);
if(::WindowHandler(iScreenNo)->iDisplayMode==DisplayMode())
::WindowHandler(iScreenNo)->iPalette = iPalette;
if (ret == KErrNone)
{
CFbsDrawDevice* thisPtr = this;
TRegionFix<1> rgnSize(iSize);
thisPtr->Update(rgnSize); // Can't access Update directly because the most-derived implementation is private.
}
return ret;
}
TBool CDrawEightBppScreenBitmapColor::SetOrientation(TOrientation aOrientation)
{
if (aOrientation == iEmulatorOrientation)
return ETrue;
SetScreenOrientation(aOrientation);
iEmulatorOrientation = aOrientation;
iOrientation = aOrientation ;
return ETrue;
}
void CDrawEightBppScreenBitmapColor::UpdateRect(const TRect& aRect) const
{
ASSERT(aRect.iTl.iX >= 0 && aRect.iTl.iY >= 0);
#if defined(_DEBUG)
if (iOrientation&1)
{
ASSERT(aRect.iBr.iX <= iSize.iHeight);
ASSERT(aRect.iBr.iY <= iSize.iWidth);
}
else
{
ASSERT(aRect.iBr.iX <= iSize.iWidth);
ASSERT(aRect.iBr.iY <= iSize.iHeight);
}
#endif
TInt scanLineLen=iLongWidth;
TInt srcPixelStep=1;
TPoint srcStart(aRect.iTl);
switch(iOrientation)
{
case CFbsDrawDevice::EOrientationRotated90:
srcPixelStep=scanLineLen;
scanLineLen=-1;
srcStart.iX=iSize.iWidth-1-aRect.iTl.iY;
srcStart.iY=aRect.iTl.iX;
break;
case CFbsDrawDevice::EOrientationRotated180:
srcPixelStep=-1;
scanLineLen=-scanLineLen;
srcStart.iX=iSize.iWidth-1-aRect.iTl.iX;
srcStart.iY=iSize.iHeight-1-aRect.iTl.iY;
break;
case CFbsDrawDevice::EOrientationRotated270:
srcPixelStep=-scanLineLen;
scanLineLen=1;
srcStart.iX=aRect.iTl.iY;
srcStart.iY=iSize.iHeight-1-aRect.iTl.iX;
break;
}
TUint8* srcePtr = PixelAddress(srcStart.iX,srcStart.iY);
TUint8* srcePtrLimit = srcePtr + aRect.Width()*srcPixelStep;
TInt rowMax = aRect.iTl.iY+aRect.Height();
for(TInt row = aRect.iTl.iY; row < rowMax; row++)
{
TUint8* tempSrcePtr = srcePtr;
TUint8* destPixel = WinPixelAddress(aRect.iTl.iX,row);
while (tempSrcePtr != srcePtrLimit)
{
TRgb pixelColor = IndexToColor(*tempSrcePtr);
destPixel[0] = TUint8(pixelColor.Blue());
destPixel[1] = TUint8(pixelColor.Green());
destPixel[2] = TUint8(pixelColor.Red());
tempSrcePtr+=srcPixelStep;
destPixel += 3;
}
srcePtr += scanLineLen;
srcePtrLimit += scanLineLen;
}
}