// ----------------------------------------------------------------------------- // Blit // // Blits given image to gc. // // ----------------------------------------------------------------------------- // inline static TBool Blit( MAknsSkinInstance* aSkin, CBitmapContext& aGc, const TRect& aTrgRect, CAknsImageItemData* aImgData, const TAknsItemID& aIID, const TAknsBackground* aLayout, const TPoint& aPADelta, const TInt aDrawParam ) { CAknsAppSkinInstance* appInstance = static_cast<CAknsAppSkinInstance*>(aSkin); if ( IsBackgroundItem( aIID,appInstance ) && appInstance && appInstance->AnimBackgroundState() ) { if( (aDrawParam&KAknsDrawParamPrepareOnly) ) { return ETrue; } TRgb color = KRgbWhite; color.SetAlpha(0x00); aGc.SetPenColor(color); aGc.SetBrushColor(color); aGc.SetPenStyle(CGraphicsContext::ESolidPen); aGc.SetBrushStyle(CGraphicsContext::ESolidBrush); aGc.SetDrawMode(CGraphicsContext::EDrawModeWriteAlpha); TRect layoutRect( aTrgRect ); if( aLayout ) { layoutRect = aLayout->iRect; } layoutRect.Move( -aPADelta ); TRect drawRect = aTrgRect; drawRect.Intersection( layoutRect ); aGc.Clear(drawRect); return ETrue; } TRect layoutRect( aTrgRect ); const TAknsImageAttributeData* attr = NULL; if( aLayout ) { layoutRect = aLayout->iRect; if( aLayout->iAttr.iAttributes != EAknsImageAttributeNone ) { attr = &(aLayout->iAttr); } } layoutRect.Move( -aPADelta ); TRect drawRect(aTrgRect); drawRect.Intersection( layoutRect ); return DrawPartialCachedImage( aSkin, aGc, layoutRect, drawRect, aImgData, aIID, attr, aDrawParam ); }
void CListBoxHighLightControl::Draw(CBitmapContext& gc) const { gc.SetBrushStyle( CGraphicsContext::ESolidBrush ); if (iPainter) gc.SetBrushColor( iPainter->GetHightLightClock() ); gc.Clear(Rect()); }
TBool CAknAnimationData::ExecutePendingAnimationStep(CBitmapContext& aGc, TAnimMultiStep* aStep) { TBool done = EFalse; switch (aStep->iDrawStep.Type()) { case EAnimDrawLine: { TAnimLineDrawStep* step = (aStep->iDrawStep.LineDrawStep()); if (aStep->iSubStep == step->iSteps -1) { done = ETrue; } { TInt diffX = step->iEndX - step->iStartX; TInt diffY = step->iEndY - step->iStartY; TInt startX = step->iStartX + (diffX * aStep->iSubStep / step->iSteps); TInt startY = step->iStartY + (diffY * aStep->iSubStep / step->iSteps); TInt endX = step->iStartX + (diffX * (aStep->iSubStep+1)/ step->iSteps); TInt endY = step->iStartY + (diffY * (aStep->iSubStep+1) / step->iSteps); aGc.SetBrushColor(iDrawColor); aGc.SetBrushStyle(CGraphicsContext::ESolidBrush); aGc.Clear(TRect(TPoint(startX,startY),TPoint(endX+1, endY+1))); } } break; case EAnimRevealPartNewViewFromLeft: { TAnimBlitStep* step = (aStep->iDrawStep.BlitStep()); TPoint offset((step->iWidth * aStep->iSubStep) / step->iSteps, 0); TSize size((step->iWidth / step->iSteps)+1, step->iHeight); aGc.BitBlt(TPoint(step->iDestX, step->iDestY) + offset, iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY) + offset, size)); if (aStep->iSubStep == step->iSteps-1) done = ETrue; } break; case EAnimRevealPartNewViewFromRight: { TAnimBlitStep* step = (aStep->iDrawStep.BlitStep()); TInt thisStep = (step->iSteps - aStep->iSubStep) - 1; TPoint offset((step->iWidth * thisStep) / step->iSteps, 0); TSize size((step->iWidth / step->iSteps)+1, step->iHeight); aGc.BitBlt(TPoint(step->iDestX, step->iDestY) + offset, iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY) + offset, size)); if (aStep->iSubStep == step->iSteps-1) done = ETrue; } break; case EAnimRevealPartNewViewFromTop: { TAnimBlitStep* step = (aStep->iDrawStep.BlitStep()); TPoint offset(0,(step->iHeight * aStep->iSubStep) / step->iSteps); TSize size(step->iWidth,(step->iHeight / step->iSteps)+1); aGc.BitBlt(TPoint(step->iDestX, step->iDestY) + offset, iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY) + offset, size)); if (aStep->iSubStep == step->iSteps-1) done = ETrue; } break; case EAnimRevealPartNewViewFromBottom: { TAnimBlitStep* step = (aStep->iDrawStep.BlitStep()); TInt thisStep = (step->iSteps - aStep->iSubStep) - 1; TPoint offset(0,(step->iHeight * thisStep) / step->iSteps); TSize size(step->iWidth,(step->iHeight / step->iSteps)+1); aGc.BitBlt(TPoint(step->iDestX, step->iDestY) + offset, iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY) + offset, size)); if (aStep->iSubStep == step->iSteps-1) done = ETrue; } break; case EAnimBlitSlideNewView: // Slide the bitmap between two screen positions { TAnimSlideStep* step = (aStep->iDrawStep.SlideStep()); TSize bitmapSize(step->iWidth, step->iHeight); TInt slideDifferenceX = step->iSlideToX - step->iSlideFromX; TInt slideDifferenceY = step->iSlideToY - step->iSlideFromY; TInt slidePosX = step->iSlideFromX + ((slideDifferenceX * aStep->iSubStep) / step->iSteps); TInt slidePosY = step->iSlideFromY + ((slideDifferenceY * aStep->iSubStep) / step->iSteps); aGc.BitBlt(TPoint(slidePosX, slidePosY), iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY), bitmapSize)); if (aStep->iSubStep == step->iSteps) done = ETrue; } break; case EAnimBlitSlideNewViewClearBehind: // Slide the bitmap between two screen positions, clearing the screen behind it { TAnimSlideStep* step = (aStep->iDrawStep.SlideStep()); TSize bitmapSize(step->iWidth, step->iHeight); TInt slideDifferenceX = step->iSlideToX - step->iSlideFromX; TInt slideDifferenceY = step->iSlideToY - step->iSlideFromY; if (aStep->iSubStep > 0) { // This is not the first step, so clear over the area of the previous step TInt slidePosX = step->iSlideFromX + ((slideDifferenceX * (aStep->iSubStep-1)) / step->iSteps); TInt slidePosY = step->iSlideFromY + ((slideDifferenceY * (aStep->iSubStep-1)) / step->iSteps); aGc.Clear(TRect(TPoint(slidePosX, slidePosY), bitmapSize)); } TInt slidePosX = step->iSlideFromX + ((slideDifferenceX * aStep->iSubStep) / step->iSteps); TInt slidePosY = step->iSlideFromY + ((slideDifferenceY * aStep->iSubStep) / step->iSteps); aGc.BitBlt(TPoint(slidePosX, slidePosY), iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY), bitmapSize)); if (aStep->iSubStep == step->iSteps) done = ETrue; } break; default: done = DrawUserAnimationStep(aGc, *aStep); break; } aStep->iSubStep++; return done; }
EXPORT_C TBool CAknAnimationData::DrawNextAnimationStep(CBitmapContext& aGc) { if (Count() == 0) { // Call the user animation step TAnimStep step; TAnimMultiStep nullStep(step); nullStep.iDrawStep.SetType(EAnimNullStep); nullStep.iSubStep = (TUint16)iCurrentDrawStep; TBool done = DrawUserAnimationStep(aGc, nullStep); iCurrentDrawStep++; return done; } if (iCurrentDrawStep < Count()) { TInt drawSteps = (*iDrawStepsPerAnimStep)[iCurrentAnimStep]; TInt startingDrawStep = iCurrentDrawStep; TBool repeatAnimStep = EFalse; for (TInt ii=0; ii<drawSteps; ii++) { TAnimStep* drawStep = &(At(iCurrentDrawStep)); switch (drawStep->Type()) { case EAnimBlitPreviousView: { TAnimBlitStep* step = drawStep->BlitStep(); aGc.BitBlt(TPoint(step->iDestX, step->iDestY), iOldBitmap); } break; case EAnimBlitNewView: { TAnimBlitStep* step = drawStep->BlitStep(); aGc.BitBlt(TPoint(step->iDestX, step->iDestY), iViewBitmap); } break; case EAnimBlitPartPreviousView: { TAnimBlitStep* step = drawStep->BlitStep(); aGc.BitBlt(TPoint(step->iDestX, step->iDestY), iOldBitmap, TRect(TPoint(step->iSrcX, step->iSrcY), TSize(step->iWidth, step->iHeight))); } break; case EAnimBlitPartNewView: { TAnimBlitStep* step = drawStep->BlitStep(); aGc.BitBlt(TPoint(step->iDestX, step->iDestY), iViewBitmap, TRect(TPoint(step->iSrcX, step->iSrcY), TSize(step->iWidth, step->iHeight))); } break; case EAnimDrawLine: case EAnimRevealPartNewViewFromLeft: case EAnimRevealPartNewViewFromRight: case EAnimRevealPartNewViewFromTop: case EAnimRevealPartNewViewFromBottom: case EAnimBlitSlideNewView: case EAnimBlitSlideNewViewClearBehind: { // Make this a pending step. Cancel the animation if the append fails TRAPD(err, iPendingSteps->AppendL(TAnimMultiStep(*drawStep))); if (err != KErrNone) return ETrue; } break; case EAnimSetColor: { TAnimSetColorStep* step = drawStep->SetColorStep(); iDrawColor = TRgb(step->iRed, step->iGreen, step->iBlue); } break; case EAnimDrawRect: { TAnimLineDrawStep* step = drawStep->LineDrawStep(); aGc.SetPenColor(iDrawColor); aGc.SetPenStyle(CGraphicsContext::ESolidPen); aGc.DrawRect(TRect(TPoint(step->iStartX, step->iStartY),TPoint(step->iEndX, step->iEndY))); } break; case EAnimDrawFilledRect: { TAnimLineDrawStep* step = drawStep->LineDrawStep(); aGc.SetBrushColor(iDrawColor); aGc.SetBrushStyle(CGraphicsContext::ESolidBrush); aGc.SetPenStyle(CGraphicsContext::ENullPen); aGc.DrawRect(TRect(TPoint(step->iStartX, step->iStartY),TPoint(step->iEndX, step->iEndY))); } break; case EAnimWait: { TAnimWaitStep* step = drawStep->WaitStep(); repeatAnimStep = ETrue; if (step->iSteps > 0) { step->iSteps--; if (step->iSteps == 0) repeatAnimStep = EFalse; } } break; case EAnimWaitUntilComplete: if (iPendingSteps->Count()) repeatAnimStep = ETrue; break; default: // Type is user-defined, so add to the pending steps TRAPD(err, iPendingSteps->AppendL(TAnimMultiStep(*drawStep))); if (err != KErrNone) return ETrue; break; } iCurrentDrawStep++; } // If this step needs to be repeated, reset the draw step counter // otherwise increment the current animation step if (repeatAnimStep) { iCurrentDrawStep = startingDrawStep; } else { iCurrentAnimStep++; } } TInt done = DrawPendingAnimationSteps(aGc); if (iCurrentDrawStep == Count() && done) return ETrue; return EFalse; }
// ----------------------------------------------------------------------------- // AknsDrawUtils::DrawBackground() // (commented in the header). // ----------------------------------------------------------------------------- EXPORT_C TBool AknsDrawUtils::DrawBackground( MAknsSkinInstance* aInstance, MAknsControlContext* aContext, const CCoeControl* aControl, CBitmapContext& aGc, const TPoint& aDstPos, const TRect& aControlRect, const TInt aDrawParam ) { TInt drawParam = aDrawParam; TInt originalParam = aDrawParam; TBool retVal = EFalse; TBool blitFailed = EFalse; TBool blit = EFalse; TBool blitAttempted = EFalse; if ( !&aGc ) { return retVal; } MAknsControlContext* parentContext = GetParentContext( aContext ); if( parentContext ) { retVal = DrawBackground( aInstance, parentContext, aControl, aGc, aDstPos, aControlRect, aDrawParam ); drawParam |= KAknsDrawParamNoClearUnderImage; } else if( drawParam & KAknsDrawParamBottomLevelRGBOnly ) { drawParam |= KAknsDrawParamRGBOnly; } originalParam = drawParam; if( aContext ) { aContext->UpdateContext(); } TAknsBackground* bgLayout = RetrieveBackgroundLayout( aContext ); TAknsItemID imgIID( KAknsIIDNone ); CAknsImageItemData* imgData = RetrieveBackgroundImage( aInstance, bgLayout, imgIID ); // chained background if (imgData && imgData->ParentIID() != KAknsIIDNone) { TAknsItemID parentiid = imgData->ParentIID(); TRect parentDrawRect = imgData->DrawRect(); imgData = RetrieveKnownBackgroundImage( aInstance, parentiid ); if (imgData) { imgData->SetDrawRect(parentDrawRect); drawParam |= KAknsDrawParamChained ; } } TPoint paDelta = GetParentAbsoluteDelta( bgLayout, aControl ); TRect drawRect = aControlRect; drawRect.Move( aDstPos-aControlRect.iTl ); paDelta += aControlRect.iTl-aDstPos; if (!(aDrawParam & KAknsDrawParamPrepareOnly)) { aGc.SetPenStyle(CGraphicsContext::ENullPen); aGc.SetBrushStyle(CGraphicsContext::ESolidBrush); } if ( !(aDrawParam & KAknsDrawParamIgnoreLayerMask)) { if( imgData ) { blitAttempted = ETrue; if( (drawParam&KAknsDrawParamNoClearUnderImage)==0 ) { blit = BlitAndClear( aInstance, aGc, drawRect, imgData, imgIID, bgLayout, paDelta, drawParam ); } else { blit = Blit( aInstance, aGc, drawRect, imgData, imgIID, bgLayout, paDelta, drawParam ); } if ( !blit ) { blitFailed = ETrue; } } else { if( !(drawParam&KAknsDrawParamNoClearUnderImage) && !(drawParam&KAknsDrawParamPrepareOnly) ) { // Clear only if permitted aGc.DrawRect( drawRect ); } } } if( bgLayout ) { if (!(aDrawParam & KAknsDrawParamIgnoreLayerMask) && aContext->IsCompatibleWithType(EAknsControlContextTypeMasked)) { CAknsMaskedLayerBackgroundControlContext* layeredCxt = static_cast<CAknsMaskedLayerBackgroundControlContext*>(aContext); if (layeredCxt->iOffScreenBmp) { CAknsMaskedBitmapItemData* maskedImgData = NULL; TRAPD( err, maskedImgData = CAknsMaskedBitmapItemData::NewL() ); if ( err != KErrNone ) { return EFalse; } maskedImgData->SetBitmap(layeredCxt->iOffScreenBmp); maskedImgData->SetMask(layeredCxt->iLayerMask); TAknsBackground* childLayout = bgLayout->iNext; blitAttempted = ETrue; blit = Blit( aInstance, aGc, drawRect, maskedImgData, KAknsIIDNone, childLayout, paDelta, drawParam ); if ( !blit ) { blitFailed = ETrue; } maskedImgData->SetBitmap(NULL); maskedImgData->SetMask(NULL); delete maskedImgData; if (!(aDrawParam & KAknsDrawParamPrepareOnly)) { aGc.SetPenStyle(CGraphicsContext::ESolidPen); aGc.SetBrushStyle(CGraphicsContext::ENullBrush); } retVal = !blitFailed; return retVal; } } if (!aContext->IsCompatibleWithType(EAknsControlContextTypeFrame)) { // special handling for frames drawParam|=KAknsDrawParamNoClearUnderImage; originalParam|=KAknsDrawParamNoClearUnderImage; } TAknsBackground* nextLayout = bgLayout->iNext; while( nextLayout && ((drawParam & KAknsDrawParamLimitToFirstLevel) == 0) ) { imgData = RetrieveKnownBackgroundImage( aInstance, nextLayout->iImageID ); if (imgData && imgData->ParentIID() != KAknsIIDNone) { TAknsItemID parentiid = imgData->ParentIID(); TRect parentDrawRect = imgData->DrawRect(); imgData = RetrieveKnownBackgroundImage( aInstance, parentiid ); if (imgData) { imgData->SetDrawRect(parentDrawRect); drawParam |= KAknsDrawParamChained ; } } else { drawParam=originalParam; } if( imgData ) { blitAttempted = ETrue; blit = BlitAndClear( aInstance, aGc, drawRect, imgData, nextLayout->iImageID, nextLayout, paDelta, drawParam ); if ( !blit ) { blitFailed = ETrue; } } nextLayout = nextLayout->iNext; } } if (!(aDrawParam & KAknsDrawParamPrepareOnly)) { aGc.SetPenStyle(CGraphicsContext::ESolidPen); aGc.SetBrushStyle(CGraphicsContext::ENullBrush); } // If Blit failed, or was not even attempted => return EFalse if ( blitFailed ) { retVal = EFalse; } else if ( !retVal ) { retVal = blitAttempted; } return retVal; }
// ----------------------------------------------------------------------------- // CheckAndDrawFrame // // ----------------------------------------------------------------------------- // static TBool CheckAndDrawFrame( MAknsSkinInstance* aInstance, CBitmapContext& aGc, const TRect& aOuterRect, const TRect& aInnerRect, const TAknsItemID& aFrameID, const TAknsItemID& aCenterID, const TInt aDrawParam ) { if( !aInstance ) { return EFalse; } if( !(aDrawParam & KAknsDrawParamPrepareOnly) ) { // Prepare before drawing CheckAndDrawFrame( aInstance, aGc, aOuterRect, aInnerRect, aFrameID, aCenterID, aDrawParam|KAknsDrawParamPrepareOnly ); } CAknsImageItemData* rawData = static_cast<CAknsImageItemData*>( aInstance->GetCachedItemData( aFrameID, EAknsITImage ) ); if( !rawData ) { return EFalse; } if (!(aDrawParam & KAknsDrawParamPrepareOnly)) { aGc.SetPenStyle(CGraphicsContext::ENullPen); aGc.SetBrushStyle(CGraphicsContext::ENullBrush); } TBool retVal = EFalse; if( AknsUtils::IsDerivedType( EAknsITImageTable, rawData->Type() ) ) { CAknsImageTableItemData* data = static_cast<CAknsImageTableItemData*>(rawData); if( data->NumberOfImages() != EAknsFrameElementsN ) { return EFalse; } // Corners retVal |= CheckAndDrawCachedImage( aInstance, aGc, TRect( aOuterRect.iTl, aInnerRect.iTl ), data->ImageIID( EAknsFrameIndexTl ), aDrawParam ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, TRect( aInnerRect.iBr.iX, aOuterRect.iTl.iY, aOuterRect.iBr.iX, aInnerRect.iTl.iY ), data->ImageIID( EAknsFrameIndexTr ), aDrawParam ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, TRect( aOuterRect.iTl.iX, aInnerRect.iBr.iY, aInnerRect.iTl.iX, aOuterRect.iBr.iY ), data->ImageIID( EAknsFrameIndexBl ), aDrawParam ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, TRect( aInnerRect.iBr, aOuterRect.iBr ), data->ImageIID( EAknsFrameIndexBr ), aDrawParam ); // Sides TRect sideRect( aInnerRect.iTl.iX, aOuterRect.iTl.iY, aInnerRect.iBr.iX, aInnerRect.iTl.iY ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, sideRect, data->ImageIID( EAknsFrameIndexT ), aDrawParam ); sideRect.SetRect( aInnerRect.iTl.iX, aInnerRect.iBr.iY, aInnerRect.iBr.iX, aOuterRect.iBr.iY ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, sideRect, data->ImageIID( EAknsFrameIndexB ), aDrawParam ); sideRect.SetRect( aOuterRect.iTl.iX, aInnerRect.iTl.iY, aInnerRect.iTl.iX, aInnerRect.iBr.iY ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, sideRect, data->ImageIID( EAknsFrameIndexL ), aDrawParam ); sideRect.SetRect( aInnerRect.iBr.iX, aInnerRect.iTl.iY, aOuterRect.iBr.iX, aInnerRect.iBr.iY ); retVal |= CheckAndDrawCachedImage( aInstance, aGc, sideRect, data->ImageIID( EAknsFrameIndexR ), aDrawParam ); // Center //lint --e{961} Valid logic if( aCenterID == KAknsIIDDefault ) { retVal |= CheckAndDrawCachedImage( aInstance, aGc, aInnerRect, data->ImageIID( EAknsFrameIndexCenter ), aDrawParam ); } else if( aCenterID != KAknsIIDNone ) { retVal |= CheckAndDrawCachedImage( aInstance, aGc, aInnerRect, aCenterID, aDrawParam ); } } else if( AknsUtils::IsDerivedType( EAknsITBitmap, rawData->Type() ) ) { // Center only retVal |= CheckAndDrawCachedImage( aInstance, aGc, aOuterRect, aFrameID, aDrawParam ); } if (!(aDrawParam & KAknsDrawParamPrepareOnly)) { aGc.SetPenStyle(CGraphicsContext::ESolidPen); //lint !e961 Intentional aGc.SetBrushStyle(CGraphicsContext::ENullBrush); } return retVal; }