os/graphics/graphicsdeviceinterface/screendriver/tsrc/TScdvScaling.cpp
author sl
Tue, 10 Jun 2014 14:32:02 +0200
changeset 1 260cb5ec6c19
permissions -rw-r--r--
Update contrib.
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// Copyright (c) 2004-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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//
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#include <e32math.h>
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#include <hal.h>
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#include <bitdraw.h>
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#include <bitdrawscaling.h>
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#include <bitdraworigin.h>
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#include <bitdrawinterfaceid.h>
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#include <graphics/gdi/gdiconsts.h>
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#include "TScdvScaling.h"
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//Test line properties: 
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//[iX, iY] - the starting point of the line
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//iLength - line length
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struct TLineProps
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	{
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	TInt iX;
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	TInt iY;
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	TInt iLength;
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	};
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//
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//Constants
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//
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//This structure defines [TDrawMode <-> clear screen color value] relation
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//When the test uses KDrawMode[i].iDrawMode, then the screen will be cleared using
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//KDrawMode[i].iClearColorVal value
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struct TDrawModeProps
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	{
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	CGraphicsContext::TDrawMode iDrawMode;
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	// keep the color value 8-bit in both EColor256 and EColor64K, special care need
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	// to be done when filling the buffer, e.g color=0x55 
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	// in EColor256 clearing means filling 0x55 0x55 0x55 etc, but
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	// in EColor64K it has to be 0x0055 0x0055 0x0055 etc
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	TUint8 iClearColorVal;
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	};
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const TDrawModeProps KDrawMode[] = 
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	{
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		{CGraphicsContext::EDrawModePEN,		0xFF},
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		{CGraphicsContext::EDrawModeAND,		0x37},
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		{CGraphicsContext::EDrawModeXOR,		0x38},
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		{CGraphicsContext::EDrawModeOR,			0xB1},
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		{CGraphicsContext::EDrawModeNOTSCREEN,	0xC0},
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		{CGraphicsContext::EDrawModeNOTPEN,		0x1D}
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	};
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const TInt KDrawModesCnt = sizeof(KDrawMode) / sizeof(KDrawMode[0]);
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//Shadow/Fade modes
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const CFbsDrawDevice::TShadowMode KShadowMode[] = 
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	{
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	CFbsDrawDevice::EShadow,
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	CFbsDrawDevice::EFade,
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	CFbsDrawDevice::EShadowFade
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	};
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const TInt KShadowModesCnt = sizeof(KShadowMode) / sizeof(KShadowMode[0]);
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//Test pixel color value
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const TUint8 KTestColorVal = 0x55;
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//All possible orientations
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const CFbsDrawDevice::TOrientation KOrientation[] = 
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	{
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	CFbsDrawDevice::EOrientationNormal,
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	CFbsDrawDevice::EOrientationRotated90,
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	CFbsDrawDevice::EOrientationRotated180,
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	CFbsDrawDevice::EOrientationRotated270
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	};
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const TInt KOrientationsCnt = sizeof(KOrientation) / sizeof(KOrientation[0]);
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//Width and Height of legacy application screen
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const TInt KLegacyAppSizeWidth = 60;
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const TInt KLegacyAppSizeHeight = 40;
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//Scaling factors: X and Y
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const TInt KScalingFactorX = 3;
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const TInt KScalingFactorY = 2;
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const TInt KMaxScalingFactor = 3;		//Max of previous 2 values
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//
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//Declarations
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//
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GLDEF_C TInt ByteSize(TDisplayMode aDisplayMode,TInt aWidth)
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	{
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	TInt wordSize=aWidth;
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	switch(aDisplayMode)
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		{
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		case EGray2:
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			wordSize = (wordSize + 31) / 32;
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			break;
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		case EGray4:
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			wordSize = (wordSize + 15) / 16;
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			break;
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		case EGray16:
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		case EColor16:
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			wordSize = (wordSize + 7) / 8;
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			break;
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		case EGray256:
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		case EColor256:
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			wordSize = (wordSize + 3) / 4;
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			break;
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		case EColor4K:
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		case EColor64K:
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			wordSize = (wordSize + 1) / 2;
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			break;
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		case EColor16M:
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			wordSize = ((wordSize + 3) / 4) * 3;
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			break;
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		case EColor16MU:
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		case EColor16MA:
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			//Doesn't need changing
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			break;
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		default:
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			break;
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		};
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	return wordSize * 4;
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	}
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static inline TInt ByteSize(TDisplayMode aDisplayMode, TSize aSize)
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	{
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	return ByteSize(aDisplayMode,aSize.iWidth) * aSize.iHeight;
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	}
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template <class TPixelType> 
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inline void MemFill(TPixelType* aBuffer, TInt aSize, TPixelType aValue)
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	{
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	TPixelType* p = aBuffer;
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	TInt i = 0;
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	while (i++<aSize)
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		*p++ = aValue;
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	}
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//Generic test class for both Color256 and Color64K
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template <class TPixelType> class CTScaling: public CTGraphicsBase
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	{
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public:
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	CTScaling(CTestStep *aTest, TDisplayMode aDisplayMode);
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	~CTScaling();
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	void RunTestCaseL(TInt aCurTestCase);
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private:
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	void ConstructL();
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	void CreateScreenDeviceL();
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	void SetScalingSettings(const TPoint& aOrigin, TInt aFx, TInt aFy, TInt aDivX, TInt aDivY);
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	void CheckLine(const TLineProps& aLineProps, const TPoint& aOrg, const TDrawModeProps& aDrawModeProps, TPixelType aClearColorValue);
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	void CheckWriteRgbMulti(const TRect& aRcProps, const TPoint& aOrg, const TDrawModeProps& aDrawModeProps, TPixelType aClearColorValue);
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	void CheckRgbAlphaLine(const TLineProps& aLineProps, const TPoint& aOrg, TPixelType aClearColorValue);
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	void CheckRect(const TRect& aRc, const TPoint& aOrg, TPixelType aClearColorValue);
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	void WriteLine();
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	void ClearScreen(const TDrawModeProps& aDrawModeProps);
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	void SetTestData();
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	void CheckChangedPixels(TInt aChangedPixelsCnt, TPixelType aClearColorVal);
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	void CheckWriteBinary(const TPoint& aPt, const TPoint& aOrg, TPixelType aClearColorValue, TInt aLength, TInt aHeight);
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	void CheckVertLine(const TLineProps& aLineProps, const TPoint& aOrg, TPixelType aClearColorValue);
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	void WriteRgb();
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	void WriteRgbMulti();
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	void WriteRgbAlphaLine();
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	void WriteBinary();
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	void WriteBinaryLineVertical();
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	void WriteBinaryLine();
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	void WriteRgbAlphaMulti();
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	void ShadowArea();
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	void WriteRgbAlphaLine2();
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	void TestScalingSettingsInterface();
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	void PerformanceTest();
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private:
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	//Test data array
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	TPixelType iTestData[KLegacyAppSizeWidth];
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	//The device used in the tests
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	CFbsDrawDevice* iDrawDevice;
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	//Width and Height of the screen
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	TSize iPhysSize;
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	//The test allocates block of memory for a screen with PhysSize size 
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	//mode. iBits will point to the allocated memory block.
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	TPixelType* iBits;
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	TDisplayMode iDisplayMode;
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	//The scaling interface
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	MScalingSettings* iScalingSettings;
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	//The origin interface
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	MDrawDeviceOrigin* iOriginInterface;
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	TInt iCurOrientation;
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	TInt iScalingFactorX;
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	TInt iScalingFactorY;
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	};
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typedef CTScaling<TUint8> CTestNone;
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typedef CTScaling<TUint8> CTestColor256;
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typedef CTScaling<TUint16> CTestColor64K;
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//
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//Test code
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//
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/*template <class TPixelType>
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CTScaling<TPixelType>* CTScaling<TPixelType>::NewL(TDisplayMode aDisplayMode)	
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	{
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	CTScaling<TPixelType>* self = new (ELeave) CTScaling<TPixelType>;
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	CleanupStack::PushL(self);
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	self->ConstructL(aDisplayMode);
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	CleanupStack::Pop(self);
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	return self;
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	}
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*/	
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template <class TPixelType>
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CTScaling<TPixelType>::CTScaling(CTestStep *aTest, TDisplayMode aDisplayMode) :
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				CTGraphicsBase(aTest),
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				iDisplayMode(aDisplayMode)
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	{
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	INFO_PRINTF1(_L("Scaling tests"));
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	}
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template <class TPixelType>
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void CTScaling<TPixelType>::ConstructL()	
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	{
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	CreateScreenDeviceL();
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	}
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template <class TPixelType>
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CTScaling<TPixelType>::~CTScaling()
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	{
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	((CTScalingStep*)iStep)->CloseTMSGraphicsStep();
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	delete[] iBits;
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	delete iDrawDevice;	
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	}
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template <class TPixelType>
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void CTScaling<TPixelType>::SetScalingSettings(const TPoint& aOrigin, TInt aFx, TInt aFy, TInt aDivX, TInt aDivY)
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	{
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	TEST(iDrawDevice != NULL);	
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	if(!iScalingSettings)
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		{
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		TInt err = iDrawDevice->GetInterface(KScalingSettingsInterfaceID, 
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											  reinterpret_cast <TAny*&> (iScalingSettings));
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		TEST2(err, KErrNone);
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		}
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	TEST(iScalingSettings != NULL);
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	TInt err = iScalingSettings->Set(aFx, aFy, aDivX, aDivY);
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	TEST2(err, KErrNone);
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	if(!iOriginInterface)
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		{
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		TInt err = iDrawDevice->GetInterface(KDrawDeviceOriginInterfaceID, 
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											  reinterpret_cast <TAny*&> (iOriginInterface));
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		TEST2(err, KErrNone);
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		}
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	TEST(iOriginInterface != NULL);
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	err = iOriginInterface->Set(aOrigin);
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	TEST2(err, KErrNone);
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	}
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//Clears the screen initializing each screen pixel with aDrawModeProps.iClearColorVal value
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template <class TPixelType>
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void CTScaling<TPixelType>::ClearScreen(const TDrawModeProps& aDrawModeProps)
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	{
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	::MemFill(iBits, ::ByteSize(EColor256, iPhysSize), TPixelType(aDrawModeProps.iClearColorVal));
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	}
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//Initializes iTestData array with KTestColorVal value
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template <class TPixelType>
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void CTScaling<TPixelType>::SetTestData()
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	{
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	::MemFill(iTestData, KLegacyAppSizeWidth, TPixelType(KTestColorVal));
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	}
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template <class TPixelType>
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void CTScaling<TPixelType>::CheckChangedPixels(TInt aChangedPixelsCnt, TPixelType aClearColorVal)
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	{
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	const TInt KByteSize = ::ByteSize(EColor256, iPhysSize);
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	TInt changedPixelsCnt = 0;
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	for(TInt ii=0;ii<KByteSize;++ii)
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		{
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		if(iBits[ii]!=aClearColorVal)
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			{
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			++changedPixelsCnt;
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			}
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		}
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	TEST(changedPixelsCnt == aChangedPixelsCnt);
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	if (changedPixelsCnt!=aChangedPixelsCnt)
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		{
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		_LIT(KLog,"Wrong number of changed pixels, expected=%d, actual=%d, color=0x%x");
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		INFO_PRINTF4(KLog,aChangedPixelsCnt,changedPixelsCnt,aClearColorVal);
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		}
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	}
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//Checks a set of horisontal lines , which starting point is 
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//[aOrg.iX + aLineProps.iX * iScalingFactorX, aOrg.iY + aLineProps.iY * iScalingFactorY]
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//and length is aLineProps.iLength * iScalingFactorX. For each nexh line y-coordinate
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//is incremented by 1.
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//The screen lines pixel values are tested against aClearColorValue value.
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//Then the screen is testsed pixel by pixel that nothing is written outside the tested lines.
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template <class TPixelType>
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void CTScaling<TPixelType>::CheckLine(const TLineProps& aLineProps, 
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					  const TPoint& aOrg, 
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					  const TDrawModeProps& aDrawModeProps, 
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					  TPixelType aClearColorValue)
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	{
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	TPixelType data[KLegacyAppSizeWidth * KMaxScalingFactor];
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	TInt ii;
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	for(ii=0;ii<iScalingFactorY;++ii)
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		{
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		Mem::Fill(data, sizeof(data), 0x00);
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		iDrawDevice->ReadLine(aOrg.iX + aLineProps.iX * iScalingFactorX, 
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							   aOrg.iY + aLineProps.iY * iScalingFactorY + ii, 
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							   aLineProps.iLength * iScalingFactorX, 
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							   data, 
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							   iDisplayMode);
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		const TInt length=aLineProps.iLength*iScalingFactorX;
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		TInt firstErr=length;
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		TInt numErrs=0;
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		for(TInt jj=0;jj<length;++jj)
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			{
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			//TEST(data[jj]!=aClearColorValue);
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			if (data[jj]==aClearColorValue)
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				{
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				++numErrs;
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				if (jj<firstErr)
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					firstErr=jj;
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				}
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			}
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		TEST(numErrs==0);
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		if (numErrs>0)
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			{
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			_LIT(KLog,"Line %d (of %d) of length %d has %d errors first one at %d,  ClearCol=0x%x");
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			INFO_PRINTF7(KLog,ii,iScalingFactorY,length,numErrs,firstErr,aClearColorValue);
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			}
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		}
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	TInt changedPixelsCnt = iScalingFactorY * aLineProps.iLength * iScalingFactorX;
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	CheckChangedPixels(changedPixelsCnt, aDrawModeProps.iClearColorVal);
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	}
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//Checks the rectangle filled using CFbsScreenDevice::WriteRgbMulti. 
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//The screen lines pixel values are tested against aClearColorValue value.
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//Then the screen is testsed pixel by pixel that nothing is written outside the tested rectangle.
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template <class TPixelType>
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void CTScaling<TPixelType>::CheckWriteRgbMulti(const TRect& aRcProps, 
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							   const TPoint& aOrg, 
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							   const TDrawModeProps& aDrawModeProps, 
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							   TPixelType aClearColorValue)
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	{
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	TPixelType data[KLegacyAppSizeWidth * KMaxScalingFactor];
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	TInt ii;
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	TInt xx = aOrg.iX + aRcProps.iTl.iX * iScalingFactorX;
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	TInt yy = aOrg.iY + aRcProps.iTl.iY * iScalingFactorY;
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	for(ii=0;ii<(iScalingFactorY * aRcProps.Height());++ii)
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		{
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		Mem::Fill(data, sizeof(data), 0x00);
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		iDrawDevice->ReadLine(xx, yy+ii, aRcProps.Width()*iScalingFactorX, data, iDisplayMode);
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		const TInt width=aRcProps.Width()*iScalingFactorX;
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		TInt firstErr=width;
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		TInt numErrs=0;
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		for(TInt jj=0;jj<width;++jj)
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			{
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			//TEST(data[jj]!=aClearColorValue);
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			if (data[jj]==aClearColorValue)
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				{
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				++numErrs;
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				if (jj<firstErr)
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					firstErr=jj;
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				}
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			}
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		TEST(numErrs==0);
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		if (numErrs>0)
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			{
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			_LIT(KLog,"Line %d of width %d has %d errors first one at %d,  ClearCol=0x%x");
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			INFO_PRINTF6(KLog,ii,width,numErrs,firstErr,aClearColorValue);
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			}
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		}
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	TInt changedPixelsCnt = iScalingFactorY * aRcProps.Width() * aRcProps.Height() * iScalingFactorX;
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	CheckChangedPixels(changedPixelsCnt, aDrawModeProps.iClearColorVal);
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	}
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//Checks a set of horisontal lines , which starting point is 
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   381
//[aOrg.iX + aLineProps.iX * iScalingFactorX, aOrg.iY + aLineProps.iY * iScalingFactorY]
sl@0
   382
//and length is aLineProps.iLength * iScalingFactorX. For each nexh line y-coordinate
sl@0
   383
//is incremented by 1.
sl@0
   384
//The screen lines pixel values are tested against aClearColorValue value.
sl@0
   385
//Then the screen is testsed pixel by pixel that nothing is written outside the tested lines.
sl@0
   386
template <class TPixelType>
sl@0
   387
void CTScaling<TPixelType>::CheckRgbAlphaLine(const TLineProps& aLineProps, 
sl@0
   388
							  const TPoint& aOrg, 
sl@0
   389
							  TPixelType aClearColorValue)
sl@0
   390
	{
sl@0
   391
	TPixelType data[KLegacyAppSizeWidth * KMaxScalingFactor];
sl@0
   392
	for(TInt ii=0;ii<iScalingFactorY;++ii)
sl@0
   393
		{
sl@0
   394
		Mem::Fill(data, sizeof(data), 0x00);
sl@0
   395
		iDrawDevice->ReadLine(aOrg.iX + aLineProps.iX * iScalingFactorX, 
sl@0
   396
							   aOrg.iY + aLineProps.iY * iScalingFactorY + ii, 
sl@0
   397
							   aLineProps.iLength * iScalingFactorX, 
sl@0
   398
							   data, 
sl@0
   399
							   iDisplayMode);
sl@0
   400
		const TInt length=aLineProps.iLength*iScalingFactorX;
sl@0
   401
		TInt firstErr=length;
sl@0
   402
		TInt numErrs=0;
sl@0
   403
		for(TInt jj=0;jj<(aLineProps.iLength * iScalingFactorX);++jj)
sl@0
   404
			{
sl@0
   405
			//TEST(data[jj]!=aClearColorValue);
sl@0
   406
			if (data[jj]==aClearColorValue)
sl@0
   407
				{
sl@0
   408
				++numErrs;
sl@0
   409
				if (jj<firstErr)
sl@0
   410
					firstErr=jj;
sl@0
   411
				}
sl@0
   412
			}
sl@0
   413
		TEST(numErrs==0);
sl@0
   414
		if (numErrs>0)
sl@0
   415
			{
sl@0
   416
			_LIT(KLog,"Line %d of length %d has %d errors first one at %d,  ClearCol=0x%x");
sl@0
   417
			INFO_PRINTF6(KLog,ii,length,numErrs,firstErr,aClearColorValue);
sl@0
   418
			}
sl@0
   419
		}
sl@0
   420
	TInt changedPixelsCnt = iScalingFactorY * aLineProps.iLength * iScalingFactorX;
sl@0
   421
	CheckChangedPixels(changedPixelsCnt, aClearColorValue);
sl@0
   422
	}
sl@0
   423
sl@0
   424
//Checks the rectangle filled using CFbsScreenDevice::WriteBinary. 
sl@0
   425
//The screen lines pixel values are tested against aClearColorValue value.
sl@0
   426
//Then the screen is testsed pixel by pixel that nothing is written outside the tested rectangle.
sl@0
   427
template <class TPixelType>
sl@0
   428
void CTScaling<TPixelType>::CheckWriteBinary(const TPoint& aPt, 
sl@0
   429
							 const TPoint& aOrg, 
sl@0
   430
							 TPixelType aClearColorValue, 
sl@0
   431
							 TInt aLength, TInt aHeight)
sl@0
   432
	{
sl@0
   433
	TPixelType data[KLegacyAppSizeWidth * KMaxScalingFactor];
sl@0
   434
	TInt ii;
sl@0
   435
	TInt xx = aOrg.iX + aPt.iX * iScalingFactorX;
sl@0
   436
	TInt yy = aOrg.iY + aPt.iY * iScalingFactorY;
sl@0
   437
	for(ii=0;ii<(iScalingFactorY * aHeight);++ii)
sl@0
   438
		{
sl@0
   439
		Mem::Fill(data, sizeof(data), 0x00);
sl@0
   440
		iDrawDevice->ReadLine(xx, yy + ii, aLength * iScalingFactorX, data, iDisplayMode);
sl@0
   441
		const TInt length=aLength*iScalingFactorX;
sl@0
   442
		TInt firstErr=length;
sl@0
   443
		TInt numErrs=0;
sl@0
   444
		for(TInt jj=0;jj<length;++jj)
sl@0
   445
			{
sl@0
   446
			//TEST(data[jj] != aClearColorValue);
sl@0
   447
			if (data[jj]==aClearColorValue)
sl@0
   448
				{
sl@0
   449
				++numErrs;
sl@0
   450
				if (jj<firstErr)
sl@0
   451
					firstErr=jj;
sl@0
   452
				}
sl@0
   453
			}
sl@0
   454
		TEST(numErrs==0);
sl@0
   455
		if (numErrs>0)
sl@0
   456
			{
sl@0
   457
			_LIT(KLog,"Line %d of length %d has %d errors first one at %d,  ClearCol=0x%x");
sl@0
   458
			INFO_PRINTF6(KLog,ii,length,numErrs,firstErr,aClearColorValue);
sl@0
   459
			}
sl@0
   460
		}
sl@0
   461
	TInt changedPixelsCnt = iScalingFactorY * aLength * aHeight * iScalingFactorX;
sl@0
   462
	CheckChangedPixels(changedPixelsCnt, aClearColorValue);
sl@0
   463
	}
sl@0
   464
sl@0
   465
//Checks a set of vertical lines , which starting point is 
sl@0
   466
//[aOrg.iX + aLineProps.iX * iScalingFactorX, aOrg.iY + aLineProps.iY * iScalingFactorY]
sl@0
   467
//and length is aLineProps.iLength * iScalingFactorX. For each nexh line y-coordinate
sl@0
   468
//is incremented by 1.
sl@0
   469
//The screen lines pixel values are tested against aClearColorValue value.
sl@0
   470
//Then the screen is testsed pixel by pixel that nothing is written outside the tested lines.
sl@0
   471
template <class TPixelType>
sl@0
   472
void CTScaling<TPixelType>::CheckVertLine(const TLineProps& aLineProps, const TPoint& aOrg, TPixelType aClearColorValue)
sl@0
   473
	{
sl@0
   474
	TInt x = aOrg.iX + aLineProps.iX * iScalingFactorX;
sl@0
   475
	TInt y = aOrg.iY + aLineProps.iY * iScalingFactorY;
sl@0
   476
	for(TInt i=0;i<iScalingFactorX;++i)
sl@0
   477
		{
sl@0
   478
		for(TInt j=0;j<(aLineProps.iLength * iScalingFactorY);++j)
sl@0
   479
			{
sl@0
   480
			TRgb val = iDrawDevice->ReadPixel(x + i, y + j);				   
sl@0
   481
			switch (iDisplayMode)
sl@0
   482
				{
sl@0
   483
				case EColor64K:
sl@0
   484
				TEST(val.Color64K() != aClearColorValue);
sl@0
   485
				break;
sl@0
   486
				
sl@0
   487
				case EColor256:
sl@0
   488
				TEST(val.Color256() != aClearColorValue);
sl@0
   489
				break;
sl@0
   490
				
sl@0
   491
				default:
sl@0
   492
				TEST(EFalse);
sl@0
   493
				}
sl@0
   494
			}
sl@0
   495
		}
sl@0
   496
	TInt changedPixelsCnt = iScalingFactorX * aLineProps.iLength * iScalingFactorY;
sl@0
   497
	CheckChangedPixels(changedPixelsCnt, aClearColorValue);
sl@0
   498
	}
sl@0
   499
sl@0
   500
//Checks the rectangle filled using CFbsScreenDevice::ShadowArea
sl@0
   501
//The screen lines pixel values are tested against aClearColorValue value.
sl@0
   502
//Then the screen is testsed pixel by pixel that nothing is written outside the tested rectangle.
sl@0
   503
template <class TPixelType>
sl@0
   504
void CTScaling<TPixelType>::CheckRect(const TRect& aRc, const TPoint& aOrg, TPixelType aClearColorValue)
sl@0
   505
	{
sl@0
   506
	TPixelType data[KLegacyAppSizeWidth * KMaxScalingFactor];
sl@0
   507
	TInt i;
sl@0
   508
	TInt x = aOrg.iX + aRc.iTl.iX * iScalingFactorX;
sl@0
   509
	TInt y = aOrg.iY + aRc.iTl.iY * iScalingFactorY;
sl@0
   510
	for(i=0;i<(iScalingFactorY * aRc.Height());++i)
sl@0
   511
		{
sl@0
   512
		Mem::Fill(data, sizeof(data), 0x00);
sl@0
   513
		iDrawDevice->ReadLine(x, y + i, aRc.Width() * iScalingFactorX, data, iDisplayMode);
sl@0
   514
		for(TInt j=0;j<(aRc.Width() * iScalingFactorX);++j)
sl@0
   515
			{
sl@0
   516
			TEST(data[j] != aClearColorValue);
sl@0
   517
			}
sl@0
   518
		}
sl@0
   519
	TInt changedPixelsCnt = iScalingFactorY * aRc.Width() * aRc.Height() * iScalingFactorX;
sl@0
   520
	CheckChangedPixels(changedPixelsCnt, aClearColorValue);
sl@0
   521
	}
sl@0
   522
sl@0
   523
//CFbsScreenDevice::WriteLine() and CFbsScreenDevice::ReadLine() test.
sl@0
   524
//(Set of test lines) X (Set of origins) X (Set of drawing modes) number of test cases.
sl@0
   525
template <class TPixelType>
sl@0
   526
void CTScaling<TPixelType>::WriteLine()
sl@0
   527
	{
sl@0
   528
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteLine"));
sl@0
   529
sl@0
   530
	TLineProps lineProps[] = 
sl@0
   531
		{
sl@0
   532
		{0, 0, KLegacyAppSizeWidth - 1}, 
sl@0
   533
		{0, KLegacyAppSizeHeight - 1, KLegacyAppSizeWidth - 1},
sl@0
   534
		{10, 20, KLegacyAppSizeWidth / 2},
sl@0
   535
		{-2, -5, 20},
sl@0
   536
		{-3, 1, 21},
sl@0
   537
		{2, -2, 11},
sl@0
   538
		{0, -4, 31},
sl@0
   539
		{-1, 11, 11}
sl@0
   540
		};
sl@0
   541
	const TInt KLinesCnt = sizeof(lineProps) / sizeof(lineProps[0]);
sl@0
   542
	TPoint ptOrg[] = 
sl@0
   543
		{
sl@0
   544
		TPoint(13, 21),
sl@0
   545
		TPoint(10, 17)
sl@0
   546
		};
sl@0
   547
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   548
	for(TInt ll=0;ll<KOriginsCnt;++ll)
sl@0
   549
		{
sl@0
   550
		for(TInt line=0;line<KLinesCnt;++line)
sl@0
   551
			{
sl@0
   552
			for(TInt kk=0;kk<KDrawModesCnt;++kk)
sl@0
   553
				{
sl@0
   554
				ClearScreen(KDrawMode[kk]);
sl@0
   555
				SetTestData();
sl@0
   556
				SetScalingSettings(ptOrg[ll], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   557
				iDrawDevice->WriteLine(lineProps[line].iX, lineProps[line].iY,
sl@0
   558
									  lineProps[line].iLength, 
sl@0
   559
									  reinterpret_cast <TUint32*> (iTestData), 
sl@0
   560
									  KDrawMode[kk].iDrawMode);
sl@0
   561
				if(KDrawMode[kk].iDrawMode == CGraphicsContext::EDrawModePEN)
sl@0
   562
					{
sl@0
   563
					TPixelType writtenData[KLegacyAppSizeWidth];
sl@0
   564
					Mem::FillZ(writtenData, sizeof(writtenData));
sl@0
   565
					iDrawDevice->ReadLine(lineProps[line].iX, lineProps[line].iY,
sl@0
   566
										   lineProps[line].iLength, 
sl@0
   567
										   writtenData, iDisplayMode);
sl@0
   568
					for(TInt ii=0;ii<lineProps[line].iLength;++ii)
sl@0
   569
						{
sl@0
   570
						TEST(writtenData[ii] == iTestData[ii]);
sl@0
   571
						}
sl@0
   572
					}
sl@0
   573
				SetScalingSettings(TPoint(), 1, 1, 1, 1);
sl@0
   574
				CheckLine(lineProps[line], ptOrg[ll], KDrawMode[kk], KDrawMode[kk].iClearColorVal);
sl@0
   575
				}
sl@0
   576
			}
sl@0
   577
		}
sl@0
   578
	}
sl@0
   579
sl@0
   580
//CFbsScreenDevice::WriteRgb() and CFbsScreenDevice::ReadPixel() test.
sl@0
   581
//(Set of test points) X (Set of origins) X (Set of drawing modes) number of test cases.
sl@0
   582
template <class TPixelType>
sl@0
   583
void CTScaling<TPixelType>::WriteRgb()
sl@0
   584
	{
sl@0
   585
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteRgb"));
sl@0
   586
sl@0
   587
	TPoint pt[] = 
sl@0
   588
		{
sl@0
   589
		TPoint(0, 0), 
sl@0
   590
		TPoint(KLegacyAppSizeWidth - 1, 0), 
sl@0
   591
		TPoint(0, KLegacyAppSizeHeight - 1), 
sl@0
   592
		TPoint(KLegacyAppSizeWidth - 1, KLegacyAppSizeHeight - 1),
sl@0
   593
		TPoint(KLegacyAppSizeWidth / 2, KLegacyAppSizeHeight / 2),
sl@0
   594
		TPoint(-2, -3), 
sl@0
   595
		TPoint(0, -1),
sl@0
   596
		TPoint(-3, 0)
sl@0
   597
		};
sl@0
   598
	const TInt KPointsCnt = sizeof(pt) / sizeof(pt[0]);
sl@0
   599
	TPoint ptOrg[] = 
sl@0
   600
		{
sl@0
   601
		TPoint(9, 22),
sl@0
   602
		TPoint(17, 11)
sl@0
   603
		};
sl@0
   604
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   605
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   606
		{
sl@0
   607
		for(TInt i=0;i<KPointsCnt;++i)
sl@0
   608
			{
sl@0
   609
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   610
				{
sl@0
   611
				ClearScreen(KDrawMode[k]);
sl@0
   612
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   613
				TRgb val(KTestColorVal);
sl@0
   614
				iDrawDevice->WriteRgb(pt[i].iX, pt[i].iY, val, KDrawMode[k].iDrawMode);
sl@0
   615
				if(KDrawMode[k].iDrawMode == CGraphicsContext::EDrawModePEN)
sl@0
   616
					{
sl@0
   617
					TRgb writtenVal = iDrawDevice->ReadPixel(pt[i].iX, pt[i].iY);
sl@0
   618
					switch (iDisplayMode)
sl@0
   619
						{
sl@0
   620
						case EColor64K:
sl@0
   621
						TEST(writtenVal == TRgb::Color64K(val.Color64K()));
sl@0
   622
						break;
sl@0
   623
						
sl@0
   624
						case EColor256:
sl@0
   625
						TEST(writtenVal == val);
sl@0
   626
						break;
sl@0
   627
						
sl@0
   628
						default:
sl@0
   629
						TEST(EFalse);
sl@0
   630
						}
sl@0
   631
					}
sl@0
   632
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   633
				TLineProps props;
sl@0
   634
				props.iX = pt[i].iX;
sl@0
   635
				props.iY = pt[i].iY;
sl@0
   636
				props.iLength = 1;
sl@0
   637
				CheckLine(props, ptOrg[l], KDrawMode[k], KDrawMode[k].iClearColorVal);
sl@0
   638
				}
sl@0
   639
			}
sl@0
   640
		}
sl@0
   641
	}
sl@0
   642
sl@0
   643
//CFbsScreenDevice::WriteRgbMulti() test.
sl@0
   644
template <class TPixelType>
sl@0
   645
void CTScaling<TPixelType>::WriteRgbMulti()
sl@0
   646
	{
sl@0
   647
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteRgbMulti"));
sl@0
   648
sl@0
   649
	TRect rcProps[] =
sl@0
   650
		{
sl@0
   651
		TRect(TPoint(0, 0), TSize(KLegacyAppSizeWidth - 1, KLegacyAppSizeHeight - 1)), 
sl@0
   652
		TRect(TPoint(17, 11), TSize(KLegacyAppSizeWidth / 2, KLegacyAppSizeHeight / 2)),
sl@0
   653
		TRect(TPoint(-1, -4), TSize(31, 12)), 
sl@0
   654
		TRect(TPoint(-3, -1), TSize(11, 11)), 
sl@0
   655
		TRect(TPoint(0, -2), TSize(6, 17))
sl@0
   656
		};
sl@0
   657
	const TInt KRcCnt = sizeof(rcProps) / sizeof(rcProps[0]);
sl@0
   658
	TPoint ptOrg[] = 
sl@0
   659
		{
sl@0
   660
		TPoint(21, 29),
sl@0
   661
		TPoint(12, 14)
sl@0
   662
		};
sl@0
   663
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   664
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   665
		{
sl@0
   666
		for(TInt i=0;i<KRcCnt;++i)
sl@0
   667
			{
sl@0
   668
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   669
				{
sl@0
   670
				ClearScreen(KDrawMode[k]);
sl@0
   671
				SetTestData();
sl@0
   672
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   673
				TRgb val(KTestColorVal);
sl@0
   674
				iDrawDevice->WriteRgbMulti(rcProps[i].iTl.iX, rcProps[i].iTl.iY,
sl@0
   675
									  rcProps[i].Width(), rcProps[i].Height(),
sl@0
   676
									  val, 
sl@0
   677
									  KDrawMode[k].iDrawMode);
sl@0
   678
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   679
				CheckWriteRgbMulti(rcProps[i], ptOrg[l], KDrawMode[k], KDrawMode[k].iClearColorVal);
sl@0
   680
				}
sl@0
   681
			}
sl@0
   682
		}
sl@0
   683
	}
sl@0
   684
sl@0
   685
//CFbsScreenDevice::WriteRgbAlphaLine() test.
sl@0
   686
//(Set of test lines) X (Set of origins) X (Set of drawing modes) number of test cases.
sl@0
   687
template <class TPixelType>
sl@0
   688
void CTScaling<TPixelType>::WriteRgbAlphaLine()
sl@0
   689
	{
sl@0
   690
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteRgbAlphaLine"));
sl@0
   691
sl@0
   692
	TLineProps lineProps[] = 
sl@0
   693
		{
sl@0
   694
		{0, 0, KLegacyAppSizeWidth - 1}, 
sl@0
   695
		{0, KLegacyAppSizeHeight - 1, KLegacyAppSizeWidth - 1},
sl@0
   696
		{17, 3, KLegacyAppSizeWidth / 2},
sl@0
   697
		{-1, -2, 11},
sl@0
   698
		{-4, -5, 1},
sl@0
   699
		{0, -1, 3},
sl@0
   700
		{1, -3, 7}
sl@0
   701
		};
sl@0
   702
	const TInt KLinesCnt = sizeof(lineProps) / sizeof(lineProps[0]);
sl@0
   703
	TPoint ptOrg[] = 
sl@0
   704
		{
sl@0
   705
		TPoint(19, 17),
sl@0
   706
		TPoint(29, 25)
sl@0
   707
		};
sl@0
   708
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   709
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   710
		{
sl@0
   711
		for(TInt i=0;i<KLinesCnt;++i)
sl@0
   712
			{
sl@0
   713
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   714
				{
sl@0
   715
				ClearScreen(KDrawMode[k]);
sl@0
   716
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   717
				TUint8 rgbBuff[KLegacyAppSizeWidth * 3];
sl@0
   718
				Mem::Fill(rgbBuff, sizeof(rgbBuff), KTestColorVal);
sl@0
   719
				TUint8 maskBuff[KLegacyAppSizeWidth];
sl@0
   720
				TUint8 maskChar = 0xF1;
sl@0
   721
				Mem::Fill(maskBuff, sizeof(maskBuff), maskChar);
sl@0
   722
				iDrawDevice->WriteRgbAlphaLine(lineProps[i].iX, lineProps[i].iY,
sl@0
   723
									  lineProps[i].iLength, rgbBuff, maskBuff, CGraphicsContext::EDrawModePEN);
sl@0
   724
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   725
				CheckRgbAlphaLine(lineProps[i], ptOrg[l], KDrawMode[k].iClearColorVal);
sl@0
   726
				}
sl@0
   727
			}
sl@0
   728
		}
sl@0
   729
	}
sl@0
   730
sl@0
   731
//CFbsScreenDevice::WriteBinary() test.
sl@0
   732
template <class TPixelType>
sl@0
   733
void CTScaling<TPixelType>::WriteBinary()
sl@0
   734
	{
sl@0
   735
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteBinary"));
sl@0
   736
sl@0
   737
	TPoint pt[] =
sl@0
   738
		{
sl@0
   739
		TPoint(0, 0), 
sl@0
   740
		TPoint(27, 19),
sl@0
   741
		TPoint(-4, -4),
sl@0
   742
		TPoint(-1, -2),
sl@0
   743
		TPoint(-1, -2),
sl@0
   744
		TPoint(5, -5),
sl@0
   745
		TPoint(-5, 0)
sl@0
   746
		};
sl@0
   747
	const TInt KPtCnt = sizeof(pt) / sizeof(pt[0]);
sl@0
   748
	TPoint ptOrg[] = 
sl@0
   749
		{
sl@0
   750
		TPoint(19, 24),
sl@0
   751
		TPoint(29, 26)
sl@0
   752
		};
sl@0
   753
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   754
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   755
		{
sl@0
   756
		for(TInt i=0;i<KPtCnt;++i)
sl@0
   757
			{
sl@0
   758
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   759
				{
sl@0
   760
				ClearScreen(KDrawMode[k]);
sl@0
   761
				SetTestData();
sl@0
   762
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   763
				const TInt KHeight = 5;
sl@0
   764
				const TInt KLength = 11;
sl@0
   765
				TUint32 buff[KHeight];
sl@0
   766
				TUint32 buffChar = 0xFFFFFFFF;
sl@0
   767
				for(TInt ooo=0;ooo<KHeight;++ooo)
sl@0
   768
					{
sl@0
   769
					buff[ooo] = buffChar;
sl@0
   770
					}
sl@0
   771
				TRgb val(KTestColorVal);
sl@0
   772
				iDrawDevice->WriteBinary(pt[i].iX, pt[i].iY, buff, KLength, KHeight,
sl@0
   773
										  val, KDrawMode[k].iDrawMode);
sl@0
   774
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   775
				CheckWriteBinary(pt[i], ptOrg[l], KDrawMode[k].iClearColorVal, KLength, KHeight);
sl@0
   776
				}
sl@0
   777
			}
sl@0
   778
		}
sl@0
   779
	}
sl@0
   780
sl@0
   781
//CFbsScreenDevice::WriteBinaryLineVertical() test.
sl@0
   782
template <class TPixelType>
sl@0
   783
void CTScaling<TPixelType>::WriteBinaryLineVertical()
sl@0
   784
	{
sl@0
   785
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteBinaryLineVertical"));
sl@0
   786
sl@0
   787
	TLineProps lineProps[] = 
sl@0
   788
		{
sl@0
   789
		{0, 0, KLegacyAppSizeHeight - 1}, 
sl@0
   790
		{KLegacyAppSizeWidth - 1, 0, KLegacyAppSizeHeight - 1},
sl@0
   791
		{17, 3, 23},
sl@0
   792
		{-2, -5, 10},
sl@0
   793
		{-6, 24, 11},
sl@0
   794
		{18, -6, 12},
sl@0
   795
		{0, -3, 13},
sl@0
   796
		{-1, 0, 14}
sl@0
   797
		};
sl@0
   798
	const TInt KLinesCnt = sizeof(lineProps) / sizeof(lineProps[0]);
sl@0
   799
	TPoint ptOrg[] = 
sl@0
   800
		{
sl@0
   801
		TPoint(22, 22),
sl@0
   802
		TPoint(19, 20)
sl@0
   803
		};
sl@0
   804
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   805
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   806
		{
sl@0
   807
		for(TInt i=0;i<KLinesCnt;++i)
sl@0
   808
			{
sl@0
   809
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   810
				{
sl@0
   811
				ClearScreen(KDrawMode[k]);
sl@0
   812
				SetTestData();
sl@0
   813
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   814
				const TInt KLength = 30;
sl@0
   815
				TUint32 buff[KLength];
sl@0
   816
				TUint32 buffChar = 0xFFFFFFFF;
sl@0
   817
				for(TInt ooo=0;ooo<KLength;++ooo)
sl@0
   818
					{
sl@0
   819
					buff[ooo] = buffChar;
sl@0
   820
					}
sl@0
   821
				TRgb val(KTestColorVal);
sl@0
   822
				iDrawDevice->WriteBinaryLineVertical(lineProps[i].iX, lineProps[i].iY,
sl@0
   823
													  buff, lineProps[i].iLength, val, 
sl@0
   824
													  KDrawMode[k].iDrawMode, EFalse);
sl@0
   825
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   826
				CheckVertLine(lineProps[i], ptOrg[l], KDrawMode[k].iClearColorVal);
sl@0
   827
				}
sl@0
   828
			}
sl@0
   829
		}
sl@0
   830
	}
sl@0
   831
sl@0
   832
//CFbsScreenDevice::WriteBinaryLine() test.
sl@0
   833
template <class TPixelType>
sl@0
   834
void CTScaling<TPixelType>::WriteBinaryLine()
sl@0
   835
	{
sl@0
   836
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteBinaryLiine"));
sl@0
   837
sl@0
   838
	TPoint pt[] =
sl@0
   839
		{
sl@0
   840
		TPoint(0, 0), 
sl@0
   841
		TPoint(1, 7),
sl@0
   842
		TPoint(18, -8),
sl@0
   843
		TPoint(-7, 26),
sl@0
   844
		TPoint(-4, -7),
sl@0
   845
		TPoint(0, -2),
sl@0
   846
		TPoint(34, -1),
sl@0
   847
		TPoint(-1, 17)
sl@0
   848
		};
sl@0
   849
	const TInt KPtCnt = sizeof(pt) / sizeof(pt[0]);
sl@0
   850
	TPoint ptOrg[] = 
sl@0
   851
		{
sl@0
   852
		TPoint(21, 35),
sl@0
   853
		TPoint(40, 28)
sl@0
   854
		};
sl@0
   855
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   856
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   857
		{
sl@0
   858
		for(TInt i=0;i<KPtCnt;++i)
sl@0
   859
			{
sl@0
   860
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   861
				{
sl@0
   862
				ClearScreen(KDrawMode[k]);
sl@0
   863
				SetTestData();
sl@0
   864
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   865
				const TInt KHeight = 1;
sl@0
   866
				const TInt KLength = 11;
sl@0
   867
				TUint32 buff[KHeight];
sl@0
   868
				TUint32 buffChar = 0xFFFFFFFF;
sl@0
   869
				for(TInt ooo=0;ooo<KHeight;++ooo)
sl@0
   870
					{
sl@0
   871
					buff[ooo] = buffChar;
sl@0
   872
					}
sl@0
   873
				TRgb val(KTestColorVal);
sl@0
   874
				iDrawDevice->WriteBinaryLine(pt[i].iX, pt[i].iY, buff, KLength,
sl@0
   875
											  val, KDrawMode[k].iDrawMode);
sl@0
   876
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   877
				CheckWriteBinary(pt[i], ptOrg[l], KDrawMode[k].iClearColorVal, KLength, KHeight);
sl@0
   878
				}
sl@0
   879
			}
sl@0
   880
		}
sl@0
   881
	}
sl@0
   882
sl@0
   883
//CFbsScreenDevice::WriteRgbAlphaMulti() test.
sl@0
   884
template <class TPixelType>
sl@0
   885
void CTScaling<TPixelType>::WriteRgbAlphaMulti()
sl@0
   886
	{
sl@0
   887
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteRgbAlphaMulti"));
sl@0
   888
sl@0
   889
	TLineProps lineProps[] = 
sl@0
   890
		{
sl@0
   891
		{0, 0, KLegacyAppSizeWidth - 1}, 
sl@0
   892
		{0, KLegacyAppSizeHeight - 1, KLegacyAppSizeWidth - 1},
sl@0
   893
		{17, 3, KLegacyAppSizeWidth / 2},
sl@0
   894
		{-8, -8, 11},
sl@0
   895
		{-3, 15, 12},
sl@0
   896
		{29, -4, 13},
sl@0
   897
		{0, -3, 14},
sl@0
   898
		{-5, 0, 15}
sl@0
   899
		};
sl@0
   900
	const TInt KLinesCnt = sizeof(lineProps) / sizeof(lineProps[0]);
sl@0
   901
	TPoint ptOrg[] = 
sl@0
   902
		{
sl@0
   903
		TPoint(24, 17),
sl@0
   904
		TPoint(27, 20)
sl@0
   905
		};
sl@0
   906
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   907
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   908
		{
sl@0
   909
		for(TInt i=0;i<KLinesCnt;++i)
sl@0
   910
			{
sl@0
   911
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   912
				{
sl@0
   913
				ClearScreen(KDrawMode[k]);
sl@0
   914
				SetTestData();
sl@0
   915
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   916
				TUint8 maskBuff[KLegacyAppSizeWidth];
sl@0
   917
				TUint8 maskChar = 0xF1;
sl@0
   918
				Mem::Fill(maskBuff, sizeof(maskBuff), maskChar);
sl@0
   919
				TRgb val(KTestColorVal);
sl@0
   920
				iDrawDevice->WriteRgbAlphaMulti(lineProps[i].iX, lineProps[i].iY,
sl@0
   921
												 lineProps[i].iLength, val, maskBuff);
sl@0
   922
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   923
				CheckRgbAlphaLine(lineProps[i], ptOrg[l], KDrawMode[k].iClearColorVal);
sl@0
   924
				}
sl@0
   925
			}
sl@0
   926
		}
sl@0
   927
	}
sl@0
   928
sl@0
   929
//CFbsScreenDevice::ShadowArea() test.
sl@0
   930
template <class TPixelType>
sl@0
   931
void CTScaling<TPixelType>::ShadowArea()
sl@0
   932
	{
sl@0
   933
	INFO_PRINTF1(_L("CFbsDrawDevice::ShadowArea"));
sl@0
   934
sl@0
   935
	TRect rcProps[] =
sl@0
   936
		{
sl@0
   937
		TRect(TPoint(0, 0), TSize(KLegacyAppSizeWidth - 1, KLegacyAppSizeHeight - 1)), 
sl@0
   938
		TRect(TPoint(17, 11), TSize(KLegacyAppSizeWidth / 2, KLegacyAppSizeHeight / 2)),
sl@0
   939
		TRect(TPoint(-1, -1), TSize(1, 1)),
sl@0
   940
		TRect(TPoint(-4, -5), TSize(11, 8)),
sl@0
   941
		TRect(TPoint(0, -6), TSize(3, 23)),
sl@0
   942
		TRect(TPoint(-7, 0), TSize(24, 2)),
sl@0
   943
		TRect(TPoint(5, -2), TSize(8, 9)),
sl@0
   944
		TRect(TPoint(-4, 16), TSize(11, 8))
sl@0
   945
		};
sl@0
   946
	const TInt KRcCnt = sizeof(rcProps) / sizeof(rcProps[0]);
sl@0
   947
	TPoint ptOrg[] = 
sl@0
   948
		{
sl@0
   949
		TPoint(25, 24),
sl@0
   950
		TPoint(31, 29)
sl@0
   951
		};
sl@0
   952
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
   953
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
   954
		{
sl@0
   955
		for(TInt i=0;i<KRcCnt;++i)
sl@0
   956
			{
sl@0
   957
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
   958
				{
sl@0
   959
				TDrawModeProps drawModeProps(KDrawMode[k]);
sl@0
   960
				--drawModeProps.iClearColorVal;//I want to avoid "255" clear color value.
sl@0
   961
				for(TInt m=0;m<KShadowModesCnt;++m)
sl@0
   962
					{
sl@0
   963
					iDrawDevice->SetShadowMode(KShadowMode[m]);
sl@0
   964
					ClearScreen(drawModeProps);
sl@0
   965
					SetTestData();
sl@0
   966
					SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
   967
					iDrawDevice->ShadowArea(rcProps[i]);
sl@0
   968
					SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
   969
					CheckRect(rcProps[i], ptOrg[l], drawModeProps.iClearColorVal);
sl@0
   970
					}
sl@0
   971
				}
sl@0
   972
			}
sl@0
   973
		}
sl@0
   974
	iDrawDevice->SetShadowMode(CFbsDrawDevice::ENoShadow);
sl@0
   975
	}
sl@0
   976
sl@0
   977
//CFbsScreenDevice::WriteRgbAlphaLine() test.
sl@0
   978
template <class TPixelType>
sl@0
   979
void CTScaling<TPixelType>::WriteRgbAlphaLine2()
sl@0
   980
	{
sl@0
   981
	INFO_PRINTF1(_L("CFbsDrawDevice::WriteRgbAlphaLine-2"));
sl@0
   982
sl@0
   983
	TLineProps lineProps[] = 
sl@0
   984
		{
sl@0
   985
		{0, 0, KLegacyAppSizeWidth - 1}, 
sl@0
   986
		{0, KLegacyAppSizeHeight - 1, KLegacyAppSizeWidth - 1},
sl@0
   987
		{17, 3, KLegacyAppSizeWidth / 2},
sl@0
   988
		{-1, -7, 11},
sl@0
   989
		{0, -5, 12},
sl@0
   990
		{-3, 0, 13},
sl@0
   991
		{15, -7, 14},
sl@0
   992
		{-1, -7, 15},
sl@0
   993
		{-1, -7, 16}
sl@0
   994
		};
sl@0
   995
	const TInt KLinesCnt = sizeof(lineProps) / sizeof(lineProps[0]);
sl@0
   996
	TPoint ptOrg[] = 
sl@0
   997
		{
sl@0
   998
		TPoint(18, 28),
sl@0
   999
		TPoint(15, 15)
sl@0
  1000
		};
sl@0
  1001
	const TInt KOriginsCnt = sizeof(ptOrg) / sizeof(ptOrg[0]);
sl@0
  1002
	for(TInt l=0;l<KOriginsCnt;++l)
sl@0
  1003
		{
sl@0
  1004
		for(TInt i=0;i<KLinesCnt;++i)
sl@0
  1005
			{
sl@0
  1006
			for(TInt k=0;k<KDrawModesCnt;++k)
sl@0
  1007
				{
sl@0
  1008
				ClearScreen(KDrawMode[k]);
sl@0
  1009
				SetTestData();
sl@0
  1010
				SetScalingSettings(ptOrg[l], KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
  1011
				TUint8 rgbBuff1[KLegacyAppSizeWidth * 3];
sl@0
  1012
				TUint8 rgbBuff2[KLegacyAppSizeWidth * 3];
sl@0
  1013
				Mem::Fill(rgbBuff1, sizeof(rgbBuff1), KTestColorVal - 15);
sl@0
  1014
				Mem::Fill(rgbBuff2, sizeof(rgbBuff2), KTestColorVal + 22);
sl@0
  1015
				TUint8 maskBuff[KLegacyAppSizeWidth];
sl@0
  1016
				TUint8 maskChar = 0xF1;
sl@0
  1017
				Mem::Fill(maskBuff, sizeof(maskBuff), maskChar);
sl@0
  1018
				iDrawDevice->WriteRgbAlphaLine(lineProps[i].iX, lineProps[i].iY,
sl@0
  1019
									  lineProps[i].iLength, rgbBuff1, rgbBuff2, maskBuff,
sl@0
  1020
									  KDrawMode[k].iDrawMode);
sl@0
  1021
				SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
  1022
				CheckRgbAlphaLine(lineProps[i], ptOrg[l], KDrawMode[k].iClearColorVal);
sl@0
  1023
				}
sl@0
  1024
			}
sl@0
  1025
		}
sl@0
  1026
	}
sl@0
  1027
sl@0
  1028
template <class TPixelType>
sl@0
  1029
void CTScaling<TPixelType>::TestScalingSettingsInterface()
sl@0
  1030
	{
sl@0
  1031
	INFO_PRINTF1(_L("MScalingSettings functionality test"));
sl@0
  1032
	TEST(iDrawDevice != NULL);	
sl@0
  1033
sl@0
  1034
	MScalingSettings* scalingSettings = NULL;
sl@0
  1035
	TInt err = iDrawDevice->GetInterface(KScalingSettingsInterfaceID, 
sl@0
  1036
										  reinterpret_cast <TAny*&> (scalingSettings));
sl@0
  1037
	TEST2(err, KErrNone);
sl@0
  1038
	TEST(scalingSettings != NULL);
sl@0
  1039
sl@0
  1040
	TEST(scalingSettings->IsScalingOff());
sl@0
  1041
sl@0
  1042
	const TInt factorXIn = 10, factorYIn = 13, divisorXIn = 1, divisorYIn = 1;
sl@0
  1043
	TInt factorXOut = -1, factorYOut = -1, divisorXOut = -1, divisorYOut = -1;
sl@0
  1044
sl@0
  1045
	err = scalingSettings->Set(factorXIn, factorYIn, divisorXIn, divisorYIn);
sl@0
  1046
	TEST2(err, KErrNone);
sl@0
  1047
	TEST(!scalingSettings->IsScalingOff());
sl@0
  1048
	scalingSettings->Get(factorXOut, factorYOut, divisorXOut, divisorYOut);
sl@0
  1049
sl@0
  1050
	TEST(factorXOut == factorXOut);
sl@0
  1051
	TEST(factorYIn == factorYOut);
sl@0
  1052
	TEST(divisorXIn == divisorXOut);
sl@0
  1053
	TEST(divisorYIn == divisorYOut);
sl@0
  1054
sl@0
  1055
	MDrawDeviceOrigin* originInterface = NULL;
sl@0
  1056
	err = iDrawDevice->GetInterface(KDrawDeviceOriginInterfaceID, 
sl@0
  1057
									 reinterpret_cast <TAny*&> (originInterface));
sl@0
  1058
	TEST2(err, KErrNone);
sl@0
  1059
	TEST(originInterface != NULL);
sl@0
  1060
sl@0
  1061
	const TPoint ptOriginIn(20, 45);
sl@0
  1062
	TPoint ptOriginOut;
sl@0
  1063
	err = originInterface->Set(ptOriginIn);
sl@0
  1064
	TEST2(err, KErrNone);
sl@0
  1065
	originInterface->Get(ptOriginOut);
sl@0
  1066
	TEST(ptOriginIn == ptOriginOut);
sl@0
  1067
sl@0
  1068
	SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
  1069
	}
sl@0
  1070
sl@0
  1071
//Creates screen device and initializes ::DrawDevice global variable.
sl@0
  1072
template <class TPixelType>
sl@0
  1073
void CTScaling<TPixelType>::CreateScreenDeviceL()
sl@0
  1074
	{
sl@0
  1075
	if (iDisplayMode == ENone)
sl@0
  1076
		return;
sl@0
  1077
	
sl@0
  1078
	TInt address = NULL;
sl@0
  1079
	User::LeaveIfError(HAL::Get(KDefaultScreenNo, HALData::EDisplayMemoryAddress,address));
sl@0
  1080
	User::LeaveIfError(HAL::Get(KDefaultScreenNo, HALData::EDisplayXPixels, iPhysSize.iWidth));
sl@0
  1081
	User::LeaveIfError(HAL::Get(KDefaultScreenNo, HALData::EDisplayYPixels, iPhysSize.iHeight));
sl@0
  1082
	__ASSERT_DEBUG(iPhysSize.iWidth > 0 && iPhysSize.iHeight > 0 && address != NULL, User::Invariant());
sl@0
  1083
sl@0
  1084
	TPckgBuf<TScreenInfoV01> info;
sl@0
  1085
	info().iScreenAddressValid = ETrue;
sl@0
  1086
	info().iScreenAddress = reinterpret_cast <void*> (address);
sl@0
  1087
	info().iScreenSize = iPhysSize;
sl@0
  1088
sl@0
  1089
	iDrawDevice = CFbsDrawDevice::NewScreenDeviceL(info(), iDisplayMode);
sl@0
  1090
	TestScalingSettingsInterface();
sl@0
  1091
	iBits = new (ELeave) TPixelType[::ByteSize(EColor256, iPhysSize)];
sl@0
  1092
	iDrawDevice->SetUserDisplayMode(iDisplayMode);
sl@0
  1093
	iDrawDevice->SetAutoUpdate(EFalse);
sl@0
  1094
	iDrawDevice->SetBits(iBits);
sl@0
  1095
	
sl@0
  1096
sl@0
  1097
	}
sl@0
  1098
sl@0
  1099
template <class TPixelType>
sl@0
  1100
void CTScaling<TPixelType>::PerformanceTest()
sl@0
  1101
	{
sl@0
  1102
	INFO_PRINTF1(_L("CFbsDrawDevice, scaling - WriteRgb() performance test"));
sl@0
  1103
sl@0
  1104
	const TInt KDrawingsCnt = 1000000;
sl@0
  1105
	TInt i, x, y;
sl@0
  1106
sl@0
  1107
	TUint time1 = User::TickCount();
sl@0
  1108
	x = y = 0;
sl@0
  1109
	for(i=0;i<KDrawingsCnt;i++)
sl@0
  1110
		{
sl@0
  1111
		if(++x > 50)
sl@0
  1112
			{
sl@0
  1113
			x = 0;
sl@0
  1114
			if(++y > 50)
sl@0
  1115
				{
sl@0
  1116
				y = 0;
sl@0
  1117
				}
sl@0
  1118
			}
sl@0
  1119
		TRgb val(0x11, 0x12, i);
sl@0
  1120
		iDrawDevice->WriteRgb(x, y, val, CGraphicsContext::EDrawModePEN);
sl@0
  1121
		}
sl@0
  1122
	time1 = User::TickCount() - time1;
sl@0
  1123
sl@0
  1124
	TPoint ptOrigin(5, 3);
sl@0
  1125
	SetScalingSettings(ptOrigin, KScalingFactorX, KScalingFactorY, 1, 1);
sl@0
  1126
sl@0
  1127
	TUint time2 = User::TickCount();
sl@0
  1128
	x = y = 0;
sl@0
  1129
	for(i=0;i<KDrawingsCnt;i++)
sl@0
  1130
		{
sl@0
  1131
		if(++x > 50)
sl@0
  1132
			{
sl@0
  1133
			x = 0;
sl@0
  1134
			if(++y > 50)
sl@0
  1135
				{
sl@0
  1136
				y = 0;
sl@0
  1137
				}
sl@0
  1138
			}
sl@0
  1139
		TRgb val(0x11, 0x12, i);
sl@0
  1140
		iDrawDevice->WriteRgb(x, y, val, CGraphicsContext::EDrawModePEN);
sl@0
  1141
		}
sl@0
  1142
	time2 = User::TickCount() - time2;
sl@0
  1143
sl@0
  1144
	SetScalingSettings(TPoint(0, 0), 1, 1, 1, 1);
sl@0
  1145
sl@0
  1146
	RDebug::Print(_L("Non-scaled device, time=%d\r\n"), time1);
sl@0
  1147
	RDebug::Print(_L("Scaled device, time=%d\r\n"), time2);
sl@0
  1148
	}
sl@0
  1149
sl@0
  1150
template <class TPixelType>
sl@0
  1151
void CTScaling<TPixelType>::RunTestCaseL(TInt aCurTestCase)
sl@0
  1152
	{
sl@0
  1153
	// EColor64K and EColor256 is not supported, stop the test
sl@0
  1154
	if (iDisplayMode == ENone)
sl@0
  1155
		{
sl@0
  1156
		INFO_PRINTF1(_L("EColor64K and EColor256 are not supported, The test is not run"));
sl@0
  1157
		TestComplete();
sl@0
  1158
		}
sl@0
  1159
	
sl@0
  1160
	else
sl@0
  1161
		{
sl@0
  1162
	    ((CTScalingStep*)iStep)->SetTestStepID(KUnknownSYMTestCaseIDName);
sl@0
  1163
		switch(aCurTestCase)
sl@0
  1164
			{
sl@0
  1165
		case 1:
sl@0
  1166
			{
sl@0
  1167
			if(iCurOrientation >= KOrientationsCnt)
sl@0
  1168
				{
sl@0
  1169
				((CTScalingStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
sl@0
  1170
				TestComplete();
sl@0
  1171
				}
sl@0
  1172
			else
sl@0
  1173
				{
sl@0
  1174
				((CTScalingStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
sl@0
  1175
				if (iCurOrientation==CFbsDrawDevice::EOrientationRotated90 || iCurOrientation==CFbsDrawDevice::EOrientationRotated270)
sl@0
  1176
					{
sl@0
  1177
					iScalingFactorX=KScalingFactorY;
sl@0
  1178
					iScalingFactorY=KScalingFactorX;
sl@0
  1179
					}
sl@0
  1180
				else
sl@0
  1181
					{
sl@0
  1182
					iScalingFactorX=KScalingFactorX;
sl@0
  1183
					iScalingFactorY=KScalingFactorY;
sl@0
  1184
					}
sl@0
  1185
				INFO_PRINTF3(_L("Set scalling %d,%d"),iScalingFactorX,iScalingFactorY);
sl@0
  1186
				if(iDrawDevice->SetOrientation(KOrientation[iCurOrientation]))
sl@0
  1187
					{
sl@0
  1188
					INFO_PRINTF2(_L("Set orientation: ===EOrientation%S==="),&RotationName(iCurOrientation));
sl@0
  1189
					}
sl@0
  1190
				else
sl@0
  1191
					{
sl@0
  1192
					INFO_PRINTF2(_L("Failed to set orientation: ===EOrientation%S==="),&RotationName(iCurOrientation));
sl@0
  1193
					ResetCounter();
sl@0
  1194
					}
sl@0
  1195
				iCurOrientation++;
sl@0
  1196
				}	
sl@0
  1197
			}	
sl@0
  1198
			break;
sl@0
  1199
		case 2:
sl@0
  1200
/**
sl@0
  1201
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0022
sl@0
  1202
*/
sl@0
  1203
            ((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0022"));
sl@0
  1204
			WriteLine();
sl@0
  1205
			break;
sl@0
  1206
		case 3:
sl@0
  1207
/**
sl@0
  1208
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0023
sl@0
  1209
*/
sl@0
  1210
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0023"));
sl@0
  1211
			WriteRgb();
sl@0
  1212
			break;
sl@0
  1213
		case 4:
sl@0
  1214
/**
sl@0
  1215
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0024
sl@0
  1216
*/
sl@0
  1217
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0024"));
sl@0
  1218
			WriteRgbMulti();
sl@0
  1219
			break;
sl@0
  1220
		case 5:
sl@0
  1221
/**
sl@0
  1222
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0025
sl@0
  1223
*/
sl@0
  1224
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0025"));
sl@0
  1225
			WriteRgbAlphaLine();
sl@0
  1226
			break;
sl@0
  1227
		case 6:
sl@0
  1228
/**
sl@0
  1229
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0026
sl@0
  1230
*/
sl@0
  1231
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0026"));
sl@0
  1232
			WriteBinary();
sl@0
  1233
			break;
sl@0
  1234
		case 7:
sl@0
  1235
/**
sl@0
  1236
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0027
sl@0
  1237
*/
sl@0
  1238
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0027"));
sl@0
  1239
			WriteBinaryLineVertical();
sl@0
  1240
			break;
sl@0
  1241
		case 8:
sl@0
  1242
/**
sl@0
  1243
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0028
sl@0
  1244
*/
sl@0
  1245
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0028"));
sl@0
  1246
			WriteBinaryLine();
sl@0
  1247
			break;
sl@0
  1248
		case 9:
sl@0
  1249
/**
sl@0
  1250
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0029
sl@0
  1251
*/
sl@0
  1252
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0029"));
sl@0
  1253
			WriteRgbAlphaMulti();
sl@0
  1254
			break;
sl@0
  1255
		case 10:
sl@0
  1256
/**
sl@0
  1257
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0030
sl@0
  1258
*/
sl@0
  1259
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0030"));
sl@0
  1260
			ShadowArea();
sl@0
  1261
			break;
sl@0
  1262
		case 11:
sl@0
  1263
/**
sl@0
  1264
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0031
sl@0
  1265
*/
sl@0
  1266
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0031"));
sl@0
  1267
			WriteRgbAlphaLine2();
sl@0
  1268
			break;
sl@0
  1269
		case 12:
sl@0
  1270
/**
sl@0
  1271
	@SYMTestCaseID GRAPHICS-SCREENDRIVER-0032
sl@0
  1272
*/
sl@0
  1273
			((CTScalingStep*)iStep)->SetTestStepID(_L("GRAPHICS-SCREENDRIVER-0032"));
sl@0
  1274
			PerformanceTest();
sl@0
  1275
			break;
sl@0
  1276
		case 13:
sl@0
  1277
			((CTScalingStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
sl@0
  1278
			ResetCounter();
sl@0
  1279
			break;
sl@0
  1280
			}
sl@0
  1281
           ((CTScalingStep*)iStep)->RecordTestResultL();
sl@0
  1282
		}
sl@0
  1283
	}
sl@0
  1284
	
sl@0
  1285
static TDisplayMode GetDisplayModeL()
sl@0
  1286
	{
sl@0
  1287
	TDisplayMode mode = EColor64K;
sl@0
  1288
	CFbsDrawDevice* device = NULL;
sl@0
  1289
	TRAPD(err, device = CFbsDrawDevice::NewScreenDeviceL(KDefaultScreenNo, mode));
sl@0
  1290
	if (err!=KErrNone)
sl@0
  1291
		{
sl@0
  1292
		mode = EColor256;
sl@0
  1293
		TRAPD(err, device = CFbsDrawDevice::NewScreenDeviceL(KDefaultScreenNo, mode));
sl@0
  1294
		
sl@0
  1295
		if (err == KErrNotSupported)
sl@0
  1296
			{
sl@0
  1297
			return ENone;
sl@0
  1298
			}
sl@0
  1299
		}
sl@0
  1300
	delete device;
sl@0
  1301
	return mode;
sl@0
  1302
	}
sl@0
  1303
sl@0
  1304
//---------------
sl@0
  1305
CTScalingStep::CTScalingStep() 
sl@0
  1306
	{ 
sl@0
  1307
	SetTestStepName(KTScalingStep); 
sl@0
  1308
	} 
sl@0
  1309
	 
sl@0
  1310
CTGraphicsBase* CTScalingStep::CreateTestL()
sl@0
  1311
	{ 
sl@0
  1312
	CTGraphicsBase* theTest = NULL;
sl@0
  1313
	switch (GetDisplayModeL())
sl@0
  1314
		{
sl@0
  1315
		case EColor64K:
sl@0
  1316
			{
sl@0
  1317
			INFO_PRINTF1(_L("Scaling - EColor64K"));
sl@0
  1318
			theTest = new (ELeave) CTestColor64K(this, EColor64K);
sl@0
  1319
			}
sl@0
  1320
			break;
sl@0
  1321
	
sl@0
  1322
		case EColor256:
sl@0
  1323
			{
sl@0
  1324
			INFO_PRINTF1(_L("Scaling - EColor256"));
sl@0
  1325
			theTest = new (ELeave) CTestColor256(this, EColor256);
sl@0
  1326
			}
sl@0
  1327
			break;
sl@0
  1328
sl@0
  1329
		default:
sl@0
  1330
			INFO_PRINTF1(_L("EColor64K and EColor256 are not supported"));
sl@0
  1331
			theTest = new (ELeave) CTestNone(this, ENone);			
sl@0
  1332
		}
sl@0
  1333
	return 	theTest;		
sl@0
  1334
	} 
sl@0
  1335
sl@0
  1336
void CTScalingStep::TestSetupL()
sl@0
  1337
	{
sl@0
  1338
	TInt temp = 0;
sl@0
  1339
	HAL::Get(KDefaultScreenNo, HALData::EDisplayColors, temp);//force HAL memory allocation
sl@0
  1340
	
sl@0
  1341
	}