// Copyright (c) 2008-2009 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 "textendedbitmapgc.h"
#include <s32mem.h>
const TInt KNumBitmapDrawingTests = 10;
const TInt KNumBrushPatternTests = 8;
const TUid KUidExampleExtendedBitmap = {0x10285A78};
/** Constructor.
@param aCallBack Pointer to a valid implementation of MTestHarnessCallBack, to allow logging and
test status requests to be passed back to the creator of a CTExtendedBitmapGc object.
@param aGc A graphics context to use for all drawing operations.
@param aDrawMode The mode to draw extended bitmaps in, either EDrawFlag or EDrawWhite.
@param aDisplayMode The display mode to use when creating extended bitmaps, this
must be one of EGray256, EColor64K, EColor16MU or EColor16MAP.
@return a pointer to a newly constructed CTExtendedBitmapGc object.
@leave KErrNotSupported if an unsupported display mode is passed in aDisplayMode.
*/
EXPORT_C CTExtendedBitmapGc* CTExtendedBitmapGc::NewL(MTestHarnessCallBack* aCallBack,
CBitmapContext& aGc,
TDrawMode aDrawMode,
TDisplayMode aDisplayMode)
{
CTExtendedBitmapGc* ebgc = new(ELeave) CTExtendedBitmapGc(aCallBack, aGc, aDrawMode);
CleanupStack::PushL(ebgc);
ebgc->ConstructL(aDisplayMode);
CleanupStack::Pop(ebgc);
return ebgc;
}
CTExtendedBitmapGc::CTExtendedBitmapGc(MTestHarnessCallBack* aCallBack,
CBitmapContext& aGc,
TDrawMode aDrawMode) :
iCallBack(aCallBack), iDrawMode(aDrawMode), iGc(aGc), iIsFbs(aGc.IsFbsBitGc())
{
}
void CTExtendedBitmapGc::ConstructL(TDisplayMode aDisplayMode)
{
// Check that the display mode chosen is supported by the example rasterizer
if ((aDisplayMode != EGray256) && (aDisplayMode != EColor64K) && (aDisplayMode != EColor16MU) && (aDisplayMode != EColor16MAP))
{
INFO_PRINTF2(_L("Failed to construct CTExtendedBitmapGc with unsupported display mode %d"), aDisplayMode);
User::Leave(KErrNotSupported);
}
iDisplayMode = aDisplayMode;
// Get a font for use with the DrawText() and DrawTextVertical() tests
_LIT(KFontName, "DejaVu Sans Condensed");
TFontSpec fontSpec(KFontName, 75);
fontSpec.iFontStyle.SetBitmapType(EAntiAliasedGlyphBitmap);
iCallBack->TestTrue(KErrNone == static_cast<CBitmapDevice*>(iGc.Device())->GetNearestFontToDesignHeightInPixels(iFont, fontSpec));
iGc.UseFont(iFont);
}
EXPORT_C CTExtendedBitmapGc::~CTExtendedBitmapGc()
{
if(iFont)
{
iGc.DiscardFont();
static_cast<CBitmapDevice*>(iGc.Device())->ReleaseFont(iFont);
}
}
/** Test case calling function used to test drawing of Extended Bitmaps on graphics contexts.
Utilised by GRAPHICS-BITGDI-0103 to test with CFbsBitGc, and by GRAPHICS-WSERV-0493 with CWindowGc.
@param aCaseNumber Case number to run
*/
EXPORT_C void CTExtendedBitmapGc::RunTestCaseL(TInt aCurTestCase)
{
--aCurTestCase;
switch(aCurTestCase / KNumBitmapDrawingTests)
{
case 0:
TestBitmapDrawingL(EFalse, EVerticalStripe, aCurTestCase % KNumBitmapDrawingTests);
break;
case 1:
TestBitmapDrawingL(EFalse, EHorizontalStripe, aCurTestCase % KNumBitmapDrawingTests);
break;
case 2:
TestBitmapDrawingL(ETrue, EVerticalStripe, aCurTestCase % KNumBitmapDrawingTests);
break;
case 3:
TestBitmapDrawingL(ETrue, EHorizontalStripe, aCurTestCase % KNumBitmapDrawingTests);
break;
default:
{
TInt brushCase = aCurTestCase - (4 * KNumBitmapDrawingTests);
if(brushCase < KNumBrushPatternTests)
{
TestBrushPatternL(brushCase);
}
else
{
// Finished tests
iCallBack->TestComplete();
}
}
}
}
/** Test case function used to test drawing of Extended Bitmaps on graphics contexts.
Utilised by GRAPHICS-BITGDI-0103 to test with CFbsBitGc, and by GRAPHICS-WSERV-0493 with CWindowGc.
@param aTestRegionOfInterest ETrue if to set a region of interest before drawing, EFalse not to
@param aStripeStyle Direction to draw the flag stripes, when rasterizer is present
@param aCaseNumber Case number to run - between 0 and (KNumBitmapDrawingTests - 1)
*/
void CTExtendedBitmapGc::TestBitmapDrawingL(TBool aTestRegionOfInterest, TStripeStyle aStripeStyle, TInt aCaseNumber)
{
_LIT(KVertical, "vertical");
_LIT(KHorizontal, "horizontal");
_LIT(KRegionNotSet, "not set");
_LIT(KRegionSet, "set");
const TPtrC KStripeStyle[2] = {KVertical(), KHorizontal()};
const TPtrC KRegionStyle[2] = {KRegionNotSet(), KRegionSet()};
const TInt KNumColors = 3;
const TRgb KColors[KNumColors] = {TRgb(0,255,255), TRgb(255,0,255), TRgb(255,255,0)};
const TRgb KMaskColors[KNumColors] = {KRgbBlack, KRgbWhite, KRgbBlack};
const TRgb KAlphaColors[KNumColors] = {KRgbDarkGray, KRgbGray, KRgbDarkGray};
const TStripeStyle KMaskBitmapStripeStyle = EVerticalStripe;
const TStripeStyle KAlphaBitmapStripeStyle = EHorizontalStripe;
TInt dataSize = sizeof(KColors)+sizeof(TUint8); // estimate the data size
TUint8* data = new(ELeave) TUint8[dataSize];
CleanupStack::PushL(data);
const TSize scrSize = iGc.Device()->SizeInPixels();
// Decide what size the bitmaps should be
TRect extendedRect;
extendedRect.SetRect(10,10,(scrSize.iWidth>>1)-10,scrSize.iHeight-10);
TRect standardRect(extendedRect);
standardRect.Move(scrSize.iWidth>>1,0);
const TSize sizeInPixels(extendedRect.Width(),extendedRect.Height());
// Rects used for scaling tests
TRect scaledExtendedRect = extendedRect;
scaledExtendedRect.SetWidth(sizeInPixels.iWidth*3/4);
scaledExtendedRect.SetHeight(sizeInPixels.iHeight*3/5);
TRect scaledStandardRect = standardRect;
scaledStandardRect.SetWidth(sizeInPixels.iWidth*3/4);
scaledStandardRect.SetHeight(sizeInPixels.iHeight*3/5);
// Positions for drawing extended and normal bitmaps
TPoint bmpExPos(10,10);
TPoint bmpNmlPos(10+(scrSize.iWidth>>1),10);
// Use black and white vertical stripes as the data for the mask
WriteExtendedBitmapInfoL(data, dataSize, KMaskColors, KMaskBitmapStripeStyle);
// Create an extended bitmap to use as a mask
CFbsBitmap* bmpMaskEx = new(ELeave) CFbsBitmap;
CleanupStack::PushL(bmpMaskEx);
TInt err = bmpMaskEx->CreateExtendedBitmap(sizeInPixels, iDisplayMode, KUidExampleExtendedBitmap, data, dataSize);
iCallBack->TestTrue(err == KErrNone);
// Create a normal mask bitmap to use when testing the extended mask bitmap above
CFbsBitmap* bmpMaskNml;
CreateTestBitmapLC(bmpMaskNml, sizeInPixels, iDisplayMode, KRgbBlack, KRgbWhite, KRgbBlack, KMaskBitmapStripeStyle);
// Use dark grey and grey horizontal stripes as the data for the alpha bitmap
WriteExtendedBitmapInfoL(data, dataSize, KAlphaColors, KAlphaBitmapStripeStyle);
// Create an EGray256 extended bitmap to use when alpha blending
CFbsBitmap* bmpAlphaEx = new(ELeave) CFbsBitmap;
CleanupStack::PushL(bmpAlphaEx);
err = bmpAlphaEx->CreateExtendedBitmap(sizeInPixels, EGray256, KUidExampleExtendedBitmap, data, dataSize);
iCallBack->TestTrue(err == KErrNone);
// Create a normal EGray256 alpha bitmap to use when testing the extended alpha bitmap above
CFbsBitmap* bmpAlphaNml;
CreateTestBitmapLC(bmpAlphaNml, sizeInPixels, EGray256, KRgbDarkGray, KRgbGray, KRgbDarkGray, KAlphaBitmapStripeStyle);
// Create a clipping region and a clipping rect, making sure the shape of the region
// that is set is the same on both sides of the screen
const TInt KStripeSize = ((scrSize.iWidth>=300)&&(scrSize.iHeight>=100))?50:30;
TRegionFix<8> clippingRegion;
clippingRegion.AddRect(TRect(TPoint(0,0), TSize(scrSize.iWidth,KStripeSize)));
clippingRegion.AddRect(TRect(TPoint(0,scrSize.iHeight>>1), TSize(scrSize.iWidth,KStripeSize)));
clippingRegion.AddRect(TRect(TPoint(KStripeSize,0), TSize(KStripeSize<<1,scrSize.iHeight)));
clippingRegion.AddRect(TRect(TPoint((scrSize.iWidth>>1)+KStripeSize,0), TSize(KStripeSize<<1,scrSize.iHeight)));
iCallBack->TestTrue(clippingRegion.CheckError() == EFalse);
TRect clippingRect(TPoint(0,KStripeSize>>1), TSize(scrSize.iWidth,scrSize.iHeight-KStripeSize));
// Write the colours to be used in the extended bitmap to the extended bitmap data,
// we run the tests one with horizontal stripes and once with vertical stripes
WriteExtendedBitmapInfoL(data, dataSize, KColors, aStripeStyle);
// Create an extended bitmap
CFbsBitmap* bmpEx = new(ELeave) CFbsBitmap;
CleanupStack::PushL(bmpEx);
err = bmpEx->CreateExtendedBitmap(sizeInPixels, iDisplayMode, KUidExampleExtendedBitmap, data, dataSize);
iCallBack->TestTrue(err == KErrNone);
// Create a normal bitmap to use when testing the extended bitmap above
CFbsBitmap* bmpNml;
CreateTestBitmapLC(bmpNml, sizeInPixels, iDisplayMode, KColors[0], KColors[1], KColors[2], aStripeStyle);
// Clear to red
iGc.SetBrushColor(KRgbRed);
iGc.Clear();
if (aTestRegionOfInterest)
{
iGc.SetClippingRegion(clippingRegion);
iGc.SetClippingRect(clippingRect);
}
// Draw the extended bitmap(s) on the left side of the screen and the normal bitmap(s) on the
// right side of the screen in each case
switch (aCaseNumber)
{
case 0:
{
INFO_PRINTF3(_L("Stripe style %S. Region of interest %S"), &KStripeStyle[aStripeStyle], &KRegionStyle[aTestRegionOfInterest]);
INFO_PRINTF1(_L("... BitBlt()"));
iGc.BitBlt(bmpExPos, bmpEx);
iGc.BitBlt(bmpNmlPos, bmpNml);
break;
}
case 1:
{
INFO_PRINTF1(_L("... BitBltMasked()"));
iGc.BitBltMasked(bmpExPos, bmpEx, sizeInPixels, bmpMaskEx, EFalse);
iGc.BitBltMasked(bmpNmlPos, bmpNml, sizeInPixels, bmpMaskNml, EFalse);
break;
}
case 2:
{
INFO_PRINTF1(_L("... DrawBitmap()"));
iGc.DrawBitmap(extendedRect, bmpEx);
iGc.DrawBitmap(standardRect, bmpNml);
break;
}
case 3:
{
INFO_PRINTF1(_L("... DrawBitmap() with scaling"));
iGc.DrawBitmap(scaledExtendedRect, bmpEx);
iGc.DrawBitmap(scaledStandardRect, bmpNml);
break;
}
case 4:
{
INFO_PRINTF1(_L("... DrawBitmapMasked()"));
iGc.DrawBitmapMasked(extendedRect, bmpEx, sizeInPixels, bmpMaskEx, EFalse);
iGc.DrawBitmapMasked(standardRect, bmpNml, sizeInPixels, bmpMaskNml, EFalse);
break;
}
case 5:
{
INFO_PRINTF1(_L("... DrawBitmapMasked() with scaling"));
iGc.DrawBitmapMasked(scaledExtendedRect, bmpEx, sizeInPixels, bmpMaskEx, EFalse);
iGc.DrawBitmapMasked(scaledStandardRect, bmpNml, sizeInPixels, bmpMaskNml, EFalse);
break;
}
case 6:
{
if(iIsFbs)
{
CFbsBitGc& fbsGc = static_cast<CFbsBitGc&>(iGc);
INFO_PRINTF1(_L("... AlphaBlendBitmaps() - 1"));
iCallBack->TestTrue(fbsGc.AlphaBlendBitmaps(bmpExPos, bmpEx, bmpMaskEx, sizeInPixels, TPoint(0,0), bmpAlphaEx, TPoint(0,0)) == KErrNone);
iCallBack->TestTrue(fbsGc.AlphaBlendBitmaps(bmpNmlPos, bmpNml, bmpMaskNml, sizeInPixels, TPoint(0,0), bmpAlphaNml, TPoint(0,0)) == KErrNone);
}
break;
}
case 7:
{
if(iIsFbs)
{
CFbsBitGc& fbsGc = static_cast<CFbsBitGc&>(iGc);
INFO_PRINTF1(_L("... AlphaBlendBitmaps() - 1 with offset"));
iCallBack->TestTrue(fbsGc.AlphaBlendBitmaps(bmpExPos, bmpEx, bmpMaskEx, TSize(sizeInPixels.iWidth-5, sizeInPixels.iHeight-10), TPoint(5,10), bmpAlphaEx, TPoint(3,2)) == KErrNone);
iCallBack->TestTrue(fbsGc.AlphaBlendBitmaps(bmpNmlPos, bmpNml, bmpMaskNml, TSize(sizeInPixels.iWidth-5, sizeInPixels.iHeight-10), TPoint(5,10), bmpAlphaNml, TPoint(3,2)) == KErrNone);
}
break;
}
case 8:
{
INFO_PRINTF1(_L("... AlphaBlendBitmaps() - 2"));
iCallBack->TestTrue(iGc.AlphaBlendBitmaps(bmpExPos, bmpEx, sizeInPixels, bmpAlphaEx, TPoint(0,0)) == KErrNone);
iCallBack->TestTrue(iGc.AlphaBlendBitmaps(bmpNmlPos, bmpNml, sizeInPixels, bmpAlphaNml, TPoint(0,0)) == KErrNone);
break;
}
case 9:
{
INFO_PRINTF1(_L("... AlphaBlendBitmaps() - 2 with offset"));
iCallBack->TestTrue(iGc.AlphaBlendBitmaps(bmpExPos, bmpEx, TSize(sizeInPixels.iWidth-16, sizeInPixels.iHeight-7), bmpAlphaEx, TPoint(16,7)) == KErrNone);
iCallBack->TestTrue(iGc.AlphaBlendBitmaps(bmpNmlPos, bmpNml, TSize(sizeInPixels.iWidth-16, sizeInPixels.iHeight-7), bmpAlphaNml, TPoint(16,7)) == KErrNone);
break;
}
default:
{
// Should not be reached
iCallBack->TestTrue(EFalse);
}
break;
}
if (aTestRegionOfInterest)
{
// Cancel clipping rectangle and region if necessary
iGc.CancelClippingRegion();
iGc.CancelClippingRect();
}
CleanupStack::PopAndDestroy(7, data);
}
/** Test case function used to test the use of Extended Bitmaps as brush patterns within graphics contexts.
Utilised by GRAPHICS-BITGDI-0103 to test with CFbsBitGc, and by GRAPHICS-WSERV-0493 with CWindowGc.
@param aCaseNumber Case number to run - between 0 and (KNumBrushPatternTests - 1)
*/
void CTExtendedBitmapGc::TestBrushPatternL(TInt aCaseNumber)
{
const TInt KNumColors = 3;
const TRgb KColors[KNumColors] = {TRgb(0,255,255), TRgb(255,0,255), TRgb(255,255,0)};
const TSize KBrushSize(63,63);
TInt dataSize = sizeof(KColors)+sizeof(TUint8); // estimate the data size
TUint8* data = new(ELeave) TUint8[dataSize];
CleanupStack::PushL(data);
// Write the colours to be used in the extended bitmap to the data
WriteExtendedBitmapInfoL(data, dataSize, KColors, EHorizontalStripe);
// Create the extended bitmap to be used a a brush
CFbsBitmap* extendedBmp = new(ELeave) CFbsBitmap;
CleanupStack::PushL(extendedBmp);
TInt err = extendedBmp->CreateExtendedBitmap(KBrushSize, iDisplayMode, KUidExampleExtendedBitmap, data, dataSize);
iCallBack->TestTrue(err == KErrNone);
// Create the standard bitmap to also be used as a brush
CFbsBitmap* standardBmp = new(ELeave) CFbsBitmap;
CleanupStack::PushL(standardBmp);
err = standardBmp->Create(KBrushSize, iDisplayMode);
iCallBack->TestTrue(err == KErrNone);
// Create a bitmap device and a context so that the flag pattern can be drawn on
// the standard bitmap
CFbsBitmapDevice* bitDev = CFbsBitmapDevice::NewL(standardBmp);
CleanupStack::PushL(bitDev);
CFbsBitGc* bitGc;
err = bitDev->CreateContext(bitGc);
iCallBack->TestTrue(err == KErrNone);
CleanupStack::PushL(bitGc);
// Draw the flag pattern to the standard bitmap if the draw mode is EDrawFlag,
// leave as white otehrwise
if (iDrawMode == EDrawFlag)
{
bitGc->SetPenStyle(CGraphicsContext::ENullPen);
bitGc->SetBrushStyle(CGraphicsContext::ESolidBrush);
for (TInt i = 0; i < KNumColors; i++)
{
bitGc->SetBrushColor(KColors[i]);
bitGc->DrawRect(TRect(0,(KBrushSize.iHeight/3)*i,KBrushSize.iWidth,(KBrushSize.iHeight/3)*(i+1)));
}
}
CleanupStack::PopAndDestroy(2, bitDev);
// Create a screen device and a context to draw to
TSize scrSize = iGc.Device()->SizeInPixels();
TRect extendedShapeSize;
extendedShapeSize.SetRect(10,10,(scrSize.iWidth>>1)-10,scrSize.iHeight-10);
TRect standardShapeSize(extendedShapeSize);
standardShapeSize.Move(scrSize.iWidth>>1,0);
TInt baseline = extendedShapeSize.Height() / 2 + iFont->AscentInPixels() / 2;
iGc.SetBrushColor(KRgbBlue);
iGc.Clear();
iGc.SetBrushColor(KRgbWhite);
iGc.UseBrushPattern(extendedBmp);
iGc.SetBrushStyle(CGraphicsContext::EPatternedBrush);
switch (aCaseNumber)
{
case 0: //DrawPie()
{
INFO_PRINTF1(_L("Testing brush patterns with an extended bitmap"));
INFO_PRINTF1(_L("... DrawPie()"));
iGc.DrawPie(extendedShapeSize, TPoint(extendedShapeSize.iTl.iX,0), TPoint(extendedShapeSize.iBr.iX,0));
iGc.UseBrushPattern(standardBmp);
iGc.DrawPie(standardShapeSize, TPoint(standardShapeSize.iTl.iX,0), TPoint(standardShapeSize.iBr.iX,0));
break;
}
case 1: // DrawRoundRect()
{
INFO_PRINTF1(_L("... DrawRoundRect()"));
iGc.DrawRoundRect(extendedShapeSize, TSize(10,10));
iGc.UseBrushPattern(standardBmp);
iGc.DrawRoundRect(standardShapeSize, TSize(10,10));
break;
}
case 2: // DrawPolygon()
{
INFO_PRINTF1(_L("... DrawPolygon() 1"));
const TInt KNumPoints = 3;
CArrayFix<TPoint>* points = new(ELeave) CArrayFixFlat<TPoint>(KNumPoints);
CleanupStack::PushL(points);
points->AppendL(TPoint(extendedShapeSize.iTl.iX,extendedShapeSize.iTl.iY));
points->AppendL(TPoint(extendedShapeSize.iBr.iX,extendedShapeSize.iBr.iY));
points->AppendL(TPoint(extendedShapeSize.iTl.iX,extendedShapeSize.iBr.iY));
iGc.DrawPolygon(points, CGraphicsContext::EWinding);
iGc.UseBrushPattern(standardBmp);
iGc.SetOrigin(TPoint(standardShapeSize.iTl.iX-10,0));
iGc.DrawPolygon(points, CGraphicsContext::EWinding);
iGc.SetOrigin(TPoint(0,0));
CleanupStack::PopAndDestroy(points);
break;
}
case 3: // DrawPolygon()
{
INFO_PRINTF1(_L("... DrawPolygon() 2"));
const TInt KNumPoints = 3;
TPoint* points = static_cast<TPoint*>(User::AllocL(sizeof(TPoint)*KNumPoints));
CleanupStack::PushL(points);
points[0] = TPoint(extendedShapeSize.iBr.iX,extendedShapeSize.iTl.iY);
points[1] = TPoint(extendedShapeSize.iBr.iX,extendedShapeSize.iBr.iY);
points[2] = TPoint(extendedShapeSize.iTl.iX,extendedShapeSize.iBr.iY/2);
iGc.DrawPolygon(points, KNumPoints, CGraphicsContext::EWinding);
iGc.UseBrushPattern(standardBmp);
iGc.SetOrigin(TPoint(standardShapeSize.iTl.iX-10,0));
iGc.DrawPolygon(points, KNumPoints, CGraphicsContext::EWinding);
iGc.SetOrigin(TPoint(0,0));
CleanupStack::PopAndDestroy(points);
break;
}
case 4: // DrawEllipse()
{
INFO_PRINTF1(_L("... DrawEllipse()"));
iGc.DrawEllipse(extendedShapeSize);
iGc.UseBrushPattern(standardBmp);
iGc.DrawEllipse(standardShapeSize);
break;
}
case 5: // DrawRect()
{
INFO_PRINTF1(_L("... DrawRect()"));
iGc.DrawRect(extendedShapeSize);
iGc.UseBrushPattern(standardBmp);
iGc.DrawRect(standardShapeSize);
break;
}
case 6: // DrawText()
{
INFO_PRINTF1(_L("... DrawText()"));
iGc.DrawText(_L("HELLO"), extendedShapeSize, baseline);
iGc.UseBrushPattern(standardBmp);
iGc.DrawText(_L("HELLO"), standardShapeSize, baseline);
break;
}
case 7: // DrawTextVertical()
{
INFO_PRINTF1(_L("... DrawTextVertical()"));
iGc.DrawTextVertical(_L("HELLO"), extendedShapeSize, baseline, EFalse);
iGc.UseBrushPattern(standardBmp);
iGc.DrawTextVertical(_L("HELLO"), standardShapeSize, baseline, EFalse);
break;
}
default:
{
// Should not be reached
iCallBack->TestTrue(EFalse);
}
}
CleanupStack::PopAndDestroy(3, data);
}
/** Helper method for creating and filling striped bitmaps equivalent to the extended bitmaps used in the test
CTExtendedBitmap::TestBitmapDrawingL().
@param aBmpRet The newly created bitmap.
@param aSize The size of the bitmap to create.
@param aDisplayMode The display mode of the bitmap to create.
@param aColor1 The colour of the first stripe.
@param aColor2 The colour of the second stripe.
@param aColor3 The colour of the third stripe.
@param aStripeStyle Horizontal or vertical stripes, 0 for vertical stripe, 1 for horizontal stripes.
@return KErrNone if the bitmap was created successfully and returned in aBmpRet, one of the system
wide error codes otherwise.
@post Leaves aBmpRet on the clean up stack if it is created successfully
*/
void CTExtendedBitmapGc::CreateTestBitmapLC(CFbsBitmap*& aBmpRet,
const TSize& aSize,
TDisplayMode aDisplayMode,
const TRgb& aColor1,
const TRgb& aColor2,
const TRgb& aColor3,
TStripeStyle aStripeStyle)
{
const TInt KNumColors = 3;
TRgb colors[3] = {aColor1, aColor2, aColor3};
CFbsBitmap* bmp = new(ELeave) CFbsBitmap;
CleanupStack::PushL(bmp); // This gets left on the cleanup stack when the function returns
TInt err = bmp->Create(aSize, aDisplayMode);
User::LeaveIfError(err);
CFbsBitmapDevice* bmpDev = CFbsBitmapDevice::NewL(bmp);
CleanupStack::PushL(bmpDev);
CFbsBitGc* gc;
err = bmpDev->CreateContext(gc);
User::LeaveIfError(err);
CleanupStack::PushL(gc);
// Only draw stripes onto the test bitmap if the draw mode is EDrawFlag, otherwise
// it should be left as cleared to white
if (iDrawMode == EDrawFlag)
{
TInt outerStripeSize;
TInt middleStripeSize;
TRect stripeRect[3];
if (aStripeStyle == EHorizontalStripe)
{
outerStripeSize = aSize.iHeight/3;
middleStripeSize = aSize.iHeight-(outerStripeSize<<1);
stripeRect[0] = TRect(TPoint(0,0), TSize(aSize.iWidth,outerStripeSize));
stripeRect[1] = TRect(TPoint(0,outerStripeSize), TSize(aSize.iWidth,middleStripeSize));
stripeRect[2] = TRect(TPoint(0,outerStripeSize+middleStripeSize), TSize(aSize.iWidth,outerStripeSize));
}
else if (aStripeStyle == EVerticalStripe)
{
outerStripeSize = aSize.iWidth/3;
middleStripeSize = aSize.iWidth-(outerStripeSize<<1);
stripeRect[0] = TRect(TPoint(0,0), TSize(outerStripeSize,aSize.iHeight));
stripeRect[1] = TRect(TPoint(outerStripeSize,0), TSize(middleStripeSize,aSize.iHeight));
stripeRect[2] = TRect(TPoint(outerStripeSize+middleStripeSize,0), TSize(outerStripeSize,aSize.iHeight));
}
else
{
INFO_PRINTF2(_L("Unsupported stripe style passed to CTExtendedBitmap::CreateTestBitmapLC: %d"), aStripeStyle);
User::Leave(KErrArgument);
}
for (TInt i = 0; i < KNumColors; i++)
{
gc->SetBrushColor(colors[i]);
gc->SetPenStyle(CGraphicsContext::ENullPen);
gc->SetBrushStyle(CGraphicsContext::ESolidBrush);
gc->DrawRect(stripeRect[i]);
}
}
// Only pop the bitmap device and the gc, the created bitmap is left on the cleanup stack
CleanupStack::PopAndDestroy(2, bmpDev);
aBmpRet = bmp;
}
/** Helper function for writing colour and stripe information used when creating an extended bitmap to
a write stream.
@param aData A pointer to a buffer that is large enough to write three TRgb colours and one TUint8 to.
@param aDataSize The size of buffer pointed to by aData, the actual size written is returned here
@param aColourArray A pointer to an array of the three colours to be written to the buffer
@param aHorizontalStripe ETrue to use horizontal stripes, EFalse for vertcial stripes
*/
EXPORT_C void CTExtendedBitmapGc::WriteExtendedBitmapInfoL(TUint8* aData,
TInt& aDataSize,
const TRgb* aColorArray,
TStripeStyle aStripeStyle)
{
const TInt KNumColors = 3;
// We expect an array of three colours
if (sizeof(aColorArray) == (sizeof(TRgb)*KNumColors))
{
User::Leave(KErrArgument);
}
RMemWriteStream ws;
ws.Open(aData, aDataSize);
CleanupClosePushL(ws);
ws << aColorArray[0] << aColorArray[1] << aColorArray[2] << static_cast<TUint8>(aStripeStyle); // horizontal stripe
aDataSize = ws.Sink()->TellL(MStreamBuf::EWrite).Offset(); // get the actual size written
CleanupStack::PopAndDestroy(1, &ws);
}