/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include ImplAnimView::ImplAnimView( Animation* pParent, OutputDevice* pOut, const Point& rPt, const Size& rSz, sal_uLong nExtraData, OutputDevice* pFirstFrameOutDev ) : mpParent ( pParent ), mpRenderContext ( pFirstFrameOutDev ? pFirstFrameOutDev : pOut ), mnExtraData ( nExtraData ), maPt ( rPt ), maSz ( rSz ), maSzPix ( mpRenderContext->LogicToPixel( maSz ) ), maClip ( mpRenderContext->GetClipRegion() ), mpBackground ( VclPtr::Create() ), mpRestore ( VclPtr::Create() ), meLastDisposal ( Disposal::Back ), mbIsPaused ( false ), mbIsMarked ( false ), mbIsMirroredHorizontally ( maSz.Width() < 0 ), mbIsMirroredVertically ( maSz.Height() < 0 ) { Animation::ImplIncAnimCount(); // Mirrored horizontally? if( mbIsMirroredHorizontally ) { maDispPt.setX( maPt.X() + maSz.Width() + 1 ); maDispSz.setWidth( -maSz.Width() ); maSzPix.setWidth( -maSzPix.Width() ); } else { maDispPt.setX( maPt.X() ); maDispSz.setWidth( maSz.Width() ); } // Mirrored vertically? if( mbIsMirroredVertically ) { maDispPt.setY( maPt.Y() + maSz.Height() + 1 ); maDispSz.setHeight( -maSz.Height() ); maSzPix.setHeight( -maSzPix.Height() ); } else { maDispPt.setY( maPt.Y() ); maDispSz.setHeight( maSz.Height() ); } // save background mpBackground->SetOutputSizePixel( maSzPix ); mpRenderContext->SaveBackground(*mpBackground, maDispPt, maDispSz, maSzPix); // Initialize drawing to actual position drawToPos( mpParent->ImplGetCurPos() ); // If first frame OutputDevice is set, update variables now for real OutputDevice if( pFirstFrameOutDev ) { mpRenderContext = pOut; maClip = mpRenderContext->GetClipRegion(); } } ImplAnimView::~ImplAnimView() { mpBackground.disposeAndClear(); mpRestore.disposeAndClear(); Animation::ImplDecAnimCount(); } bool ImplAnimView::matches(const OutputDevice* pOut, long nExtraData) const { return (!pOut || pOut == mpRenderContext) && (nExtraData == 0 || nExtraData == mnExtraData); } void ImplAnimView::getPosSize( const AnimationBitmap& rAnimationBitmap, Point& rPosPix, Size& rSizePix ) { const Size& rAnmSize = mpParent->GetDisplaySizePixel(); Point aPt2( rAnimationBitmap.maPositionPixel.X() + rAnimationBitmap.maSizePixel.Width() - 1, rAnimationBitmap.maPositionPixel.Y() + rAnimationBitmap.maSizePixel.Height() - 1 ); double fFactX, fFactY; // calculate x scaling if( rAnmSize.Width() > 1 ) fFactX = static_cast( maSzPix.Width() - 1 ) / ( rAnmSize.Width() - 1 ); else fFactX = 1.0; // calculate y scaling if( rAnmSize.Height() > 1 ) fFactY = static_cast( maSzPix.Height() - 1 ) / ( rAnmSize.Height() - 1 ); else fFactY = 1.0; rPosPix.setX( FRound( rAnimationBitmap.maPositionPixel.X() * fFactX ) ); rPosPix.setY( FRound( rAnimationBitmap.maPositionPixel.Y() * fFactY ) ); aPt2.setX( FRound( aPt2.X() * fFactX ) ); aPt2.setY( FRound( aPt2.Y() * fFactY ) ); rSizePix.setWidth( aPt2.X() - rPosPix.X() + 1 ); rSizePix.setHeight( aPt2.Y() - rPosPix.Y() + 1 ); // Mirrored horizontally? if( mbIsMirroredHorizontally ) rPosPix.setX( maSzPix.Width() - 1 - aPt2.X() ); // Mirrored vertically? if( mbIsMirroredVertically ) rPosPix.setY( maSzPix.Height() - 1 - aPt2.Y() ); } void ImplAnimView::drawToPos( sal_uLong nPos ) { VclPtr pRenderContext = mpRenderContext; std::unique_ptr pGuard; if (mpRenderContext->GetOutDevType() == OUTDEV_WINDOW) { vcl::Window* pWindow = static_cast(mpRenderContext.get()); pGuard.reset(new vcl::PaintBufferGuard(pWindow->ImplGetWindowImpl()->mpFrameData, pWindow)); pRenderContext = pGuard->GetRenderContext(); } ScopedVclPtrInstance aVDev; std::unique_ptr xOldClip(!maClip.IsNull() ? new vcl::Region( pRenderContext->GetClipRegion() ) : nullptr); aVDev->SetOutputSizePixel( maSzPix, false ); nPos = std::min( nPos, static_cast(mpParent->Count()) - 1 ); for( sal_uLong i = 0; i <= nPos; i++ ) draw( i, aVDev.get() ); if (xOldClip) pRenderContext->SetClipRegion( maClip ); pRenderContext->DrawOutDev( maDispPt, maDispSz, Point(), maSzPix, *aVDev ); if (pGuard) pGuard->SetPaintRect(tools::Rectangle(maDispPt, maDispSz)); if (xOldClip) pRenderContext->SetClipRegion(*xOldClip); } void ImplAnimView::draw( sal_uLong nPos, VirtualDevice* pVDev ) { VclPtr pRenderContext = mpRenderContext; std::unique_ptr pGuard; if (!pVDev && mpRenderContext->GetOutDevType() == OUTDEV_WINDOW) { vcl::Window* pWindow = static_cast(mpRenderContext.get()); pGuard.reset(new vcl::PaintBufferGuard(pWindow->ImplGetWindowImpl()->mpFrameData, pWindow)); pRenderContext = pGuard->GetRenderContext(); } tools::Rectangle aOutRect( pRenderContext->PixelToLogic( Point() ), pRenderContext->GetOutputSize() ); // check, if output lies out of display if( aOutRect.Intersection( tools::Rectangle( maDispPt, maDispSz ) ).IsEmpty() ) setMarked( true ); else if( !mbIsPaused ) { VclPtr pDev; Point aPosPix; Point aBmpPosPix; Size aSizePix; Size aBmpSizePix; const sal_uLong nLastPos = mpParent->Count() - 1; mnActPos = std::min( nPos, nLastPos ); const AnimationBitmap& rAnimationBitmap = mpParent->Get( static_cast( mnActPos ) ); getPosSize( rAnimationBitmap, aPosPix, aSizePix ); // Mirrored horizontally? if( mbIsMirroredHorizontally ) { aBmpPosPix.setX( aPosPix.X() + aSizePix.Width() - 1 ); aBmpSizePix.setWidth( -aSizePix.Width() ); } else { aBmpPosPix.setX( aPosPix.X() ); aBmpSizePix.setWidth( aSizePix.Width() ); } // Mirrored vertically? if( mbIsMirroredVertically ) { aBmpPosPix.setY( aPosPix.Y() + aSizePix.Height() - 1 ); aBmpSizePix.setHeight( -aSizePix.Height() ); } else { aBmpPosPix.setY( aPosPix.Y() ); aBmpSizePix.setHeight( aSizePix.Height() ); } // get output device if( !pVDev ) { pDev = VclPtr::Create(); pDev->SetOutputSizePixel( maSzPix, false ); pDev->DrawOutDev( Point(), maSzPix, maDispPt, maDispSz, *pRenderContext ); } else pDev = pVDev; // restore background after each run if( !nPos ) { meLastDisposal = Disposal::Back; maRestPt = Point(); maRestSz = maSzPix; } // restore if( ( Disposal::Not != meLastDisposal ) && maRestSz.Width() && maRestSz.Height() ) { if( Disposal::Back == meLastDisposal ) pDev->DrawOutDev( maRestPt, maRestSz, maRestPt, maRestSz, *mpBackground ); else pDev->DrawOutDev( maRestPt, maRestSz, Point(), maRestSz, *mpRestore ); } meLastDisposal = rAnimationBitmap.meDisposal; maRestPt = aPosPix; maRestSz = aSizePix; // What do we need to restore the next time? // Put it into a bitmap if needed, else delete // SaveBitmap to conserve memory if( ( meLastDisposal == Disposal::Back ) || ( meLastDisposal == Disposal::Not ) ) mpRestore->SetOutputSizePixel( Size( 1, 1 ), false ); else { mpRestore->SetOutputSizePixel( maRestSz, false ); mpRestore->DrawOutDev( Point(), maRestSz, aPosPix, aSizePix, *pDev ); } pDev->DrawBitmapEx( aBmpPosPix, aBmpSizePix, rAnimationBitmap.maBitmapEx ); if( !pVDev ) { std::unique_ptr xOldClip(!maClip.IsNull() ? new vcl::Region( pRenderContext->GetClipRegion() ) : nullptr); if (xOldClip) pRenderContext->SetClipRegion( maClip ); pRenderContext->DrawOutDev( maDispPt, maDispSz, Point(), maSzPix, *pDev ); if (pGuard) pGuard->SetPaintRect(tools::Rectangle(maDispPt, maDispSz)); if( xOldClip) { pRenderContext->SetClipRegion(*xOldClip); xOldClip.reset(); } pDev.disposeAndClear(); if( pRenderContext->GetOutDevType() == OUTDEV_WINDOW ) static_cast( pRenderContext.get() )->Flush(); } } } void ImplAnimView::repaint() { const bool bOldPause = mbIsPaused; mpRenderContext->SaveBackground(*mpBackground, maDispPt, maDispSz, maSzPix); mbIsPaused = false; drawToPos( mnActPos ); mbIsPaused = bOldPause; } AInfo* ImplAnimView::createAInfo() const { AInfo* pAInfo = new AInfo; pAInfo->aStartOrg = maPt; pAInfo->aStartSize = maSz; pAInfo->pOutDev = mpRenderContext; pAInfo->pViewData = const_cast(this); pAInfo->nExtraData = mnExtraData; pAInfo->bPause = mbIsPaused; return pAInfo; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */