Merge 1. Pull in cpp files in the performance enhanced Khronos RI OVG files which are newly added. I've ignored platform-specific cpp files for linux, macosx, and null operating systems because this local solution has its own platform glue (i.e. facility to target Bitmaps but no full windowing support). I've ignored sfEGLInterface.cpp because this is used as a bridge to go from EGL to Nokia's Platsim which offers an EGL service. That's not relevant to this implementation because this is ARM side code, not Intel side. I just left a comment to sfEGLInterface.cpp in case we need to pick up this later on. The current code compiles on winscw. Prior to this fix, the code works on winscw, and can launch the SVG tiger (tiger.exe). That takes about 20 seconds to render. I hope to always be able to show this icon on each commit, and the plan is for the render time to reduce with this series of submissions. On this commit, the tiger renders ok in 20 seconds.
// 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:
//
#ifndef __TBITBLT_H__
#define __TBITBLT_H__
#include <bitdev.h>
#include "TGraphicsHarness.h"
/**
Creates a virtual bitmap device if a real screen device of the specified display mode is not supported by the hardware
*/
class CVirtualBitmapDevice : public CBase
{
public:
virtual ~CVirtualBitmapDevice();
static CVirtualBitmapDevice* NewL(TDisplayMode aDisplayMode, TSize aSize);
void Update();
CBitmapDevice& BitmapDevice();
private:
void ConstructL(TDisplayMode aDisplayMode, TSize aSize);
private:
CBitmapDevice* iBitmapDevice; // The vitural or real screen device
CFbsBitmap* iBitmap; // Virtual bitmap
TBool iIsScreenDevice; // ETrue if the hardware supports the screen device at the specified display mode
};
class CTBitBlt : public CTGraphicsBase
{
public:
CTBitBlt(CTestStep* aStep);
~CTBitBlt();
protected:
//from CTGraphicsStep
virtual void RunTestCaseL(TInt aCurTestCase);
void ConstructL();
void TestBitBltPositionsL(TBool aDoCompressed);
TUint8* CaptureDeviceDataLC(CBitmapDevice& aDevice, TInt& aScreenByteSize);
TInt CreateBitmapImageAndCompareL(CVirtualBitmapDevice& aDevice, CFbsBitGc& aGc, TSize aScreenSize, TSize aBitmapSize, TDisplayMode aScreenMode, TPoint aOffset, TRect& aRect);
void SimpleBitBltAndTestL(CVirtualBitmapDevice& aDevice, CFbsBitGc& aGc, CFbsBitmap& aBitmap, TDisplayMode aScreenMode, TPoint aStartPoint, TRect& aRect);
private:
CFbsBitmap *iBitmap;
CVirtualBitmapDevice* iVirtualBmpDevice;
};
class CTBitBltStep : public CTGraphicsStep
{
public:
CTBitBltStep();
protected:
//from CTGraphicsStep
virtual CTGraphicsBase* CreateTestL();
virtual void TestSetupL();
virtual void TestClose();
};
_LIT(KTBitBltStep,"TBitGDIBitBlt");
#endif