Mercurial Mercurial > oss > FCL > sf > os > graphics / file revision
summary | shortlog | changelog | graph | tags | bookmarks | branches | files | changeset | file | latest | revisions | annotate | diff | comparison | raw | help
Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
graphicsdeviceinterface/bitgdi/tbit/TBitgdiScaling.h
author Faisal Memon <faisal.memon@nokia.com>
Fri, 25 Jun 2010 17:49:58 +0100
branchEGL_MERGE
changeset 105 158b2308cc08
parent 0 5d03bc08d59c
permissions -rw-r--r--
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) 2004-2009 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:
// This test application is used to test how the scaling works with CFbsBitGc drawing methods.
// 
//

#ifndef __TBITGDISCALING_H__
#define __TBITGDISCALING_H__

#include <bitdev.h>
#include "TGraphicsHarness.h"

class CTBitgdiScaling : public CTGraphicsBase
	{
public:
	CTBitgdiScaling(CTestStep* aStep);
	~CTBitgdiScaling();
protected:
//from 	CTGraphicsStep
	virtual void RunTestCaseL(TInt aCurTestCase);
	void ConstructL();

	TInt CreateScreenDeviceAndContextL(TDisplayMode aDisplayMode,
									CFbsScreenDevice*& aScreenDevice,
									CFbsBitGc*& aGraphicsContext);
	void ChangeScreenDeviceL();
	void FontScalingL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void BitmapScalingL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void BitBltMaskedScalingL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawingScalingL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void MapColors(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void BitmapScalingL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext, 
						   CFbsScreenDevice* aScreenDevice2, CFbsBitGc* aGraphicsContext2,
						   TBool aCallGetch = EFalse);
	void RunTests2L();
	void DrawTestText(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext, CFont* aFont);
	void DrawArc(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawPie(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawRoundRect(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawPolyLineL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawPolyLineNoEndPointL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawPolygonL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawEllipse(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawLine(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void DrawRect(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void ShadowFade(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	
	void TestDrawBitmapL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestClear(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestBitbltL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestArcPie(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestPolyL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestEllipseLineRect(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestText(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext, CFont*);
	void TestTextVertical(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext, CFont*);
	void TestMapColors(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestShadowFade(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestMove(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestEllipseRect(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestDrawBitmapNegL(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
	void TestMapColorsZero(CFbsScreenDevice* aScreenDevice, CFbsBitGc* aGraphicsContext);
        					   
private:
	CFbsScreenDevice* iScreenDevice;
	CFbsBitGc* iGraphicsContext;
	CFbsScreenDevice* iScreenDevice2;
	CFbsBitGc* iGraphicsContext2;
	};

class CTBitgdiScalingStep : public CTGraphicsStep
	{
public:
	CTBitgdiScalingStep();
	inline TDisplayMode DisplayMode() const;
protected:	
	//from CTGraphicsStep
	virtual CTGraphicsBase* CreateTestL();
	virtual void TestSetupL();
private:
	TDisplayMode GetDisplayModeL();
private:
	TDisplayMode iDisplayMode;	
	};


inline TDisplayMode CTBitgdiScalingStep::DisplayMode() const
	{
	return iDisplayMode;
	}


_LIT(KTBitgdiScalingStep,"TBitgdiScaling");


#endif
FCL/sf/os/graphics