/** If the display mode of iBitmapInfo is not expected, return EFalse * or render to the back buffer and returns ETrue */ TBool CCommonInterfaces::DrawColor(const TRect& aRect,const TRgb& aColour) { TRect local = TRect(aRect.iTl-iRect.iTl, aRect.Size()); TUint16* pBuffer16; TUint32* pBuffer32; if (iBitmapInfo.iDisplayMode != iDispMode) { return EFalse; } for (TInt y = local.iTl.iY; y < local.iBr.iY; y++) { for (TInt x = local.iTl.iX; x < local.iBr.iX; x++) { switch (iDispMode) { case EColor64K: pBuffer16 = (TUint16*)iBitmapInfo.iAddress; pBuffer16[y*iBitmapInfo.iLinePitch/2+x] = aColour._Color64K(); break; case EColor16M: pBuffer16 = (TUint16*)iBitmapInfo.iAddress; pBuffer16[y*iBitmapInfo.iLinePitch/2+x] = aColour._Color64K(); break; case EColor16MU: pBuffer32 = (TUint32*)iBitmapInfo.iAddress; pBuffer32[y*iBitmapInfo.iLinePitch/4+x] = aColour._Color16MU(); break; case EColor16MA: pBuffer32 = (TUint32*)iBitmapInfo.iAddress; pBuffer32[y*iBitmapInfo.iLinePitch/4+x] = aColour._Color16MA(); break; case EColor4K: pBuffer16 = (TUint16*)iBitmapInfo.iAddress; pBuffer16[y*iBitmapInfo.iLinePitch/2+x] = aColour._Color4K(); break; case EColor16MAP: pBuffer32 = (TUint32*)iBitmapInfo.iAddress; pBuffer32[y*iBitmapInfo.iLinePitch/4+x] = aColour._Color16MAP(); break; default: break; } } } return ETrue; }
/** Draws a VerticalGradient onto a CFbsBitmap from top/color aLo to bottom/aHi */ void CTe_graphicsperformanceSuiteStepBase::VerticalGradientAlphaL(CFbsBitmap* aBitmap, TRgb aLo, TRgb aHi) { const TSize size = aBitmap->SizeInPixels(); const TDisplayMode mode = aBitmap->DisplayMode(); const TInt scanLineLength = CFbsBitmap::ScanLineLength(size.iWidth, mode); HBufC8* buffer = HBufC8::NewL(scanLineLength); CleanupStack::PushL(buffer); TPtr8 des = buffer->Des(); des.SetLength(scanLineLength); for(TInt i=0; i<size.iHeight; i++) { TRgb color = InterpolateColour(aLo, aHi, i, size.iHeight); switch(mode) { case EGray256: { TUint8 g = color.Gray256(); TUint8* p = (TUint8*)des.Ptr(); for(TInt j=0; j<size.iWidth; j++) { p[j] = g; } } break; case EColor64K: { TUint16 g = color._Color64K(); TUint16* p = (TUint16*)des.Ptr(); for(TInt j=0; j<size.iWidth/2; j++) { p[j] = g; } } break; case EColor16MU: { TUint32 rgba = color._Color16MU(); TUint32* p = (TUint32*)des.Ptr(); for(TInt j=0; j<(size.iWidth/4); j++) { p[j] = rgba; } } break; case EColor16MA: { TUint32 rgba = color._Color16MA(); TUint32* p = (TUint32*)des.Ptr(); for(TInt j=0; j<(size.iWidth/4); j++) { p[j] = rgba; } } break; case EColor16MAP: { TUint32 rgba = color._Color16MAP(); TUint32* p = (TUint32*)des.Ptr(); for(TInt j=0; j<(size.iWidth/4); j++) { p[j] = rgba; } } break; default: ASSERT(EFalse); break; } aBitmap->SetScanLine(des, i); } CleanupStack::PopAndDestroy(buffer); }
void CCommonInterfaces::DrawColour64KPixel(TInt aX,TInt aY, const TRgb& aColour) { TUint16 *pBuffer = (TUint16*)iBitmapInfo.iAddress; pBuffer[aY*iBitmapInfo.iLinePitch/2+aX] = aColour._Color64K(); }