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@ -43,26 +43,41 @@ |
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QAtomicInt XPDFRenderer::sInstancesCount = 0; |
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QAtomicInt XPDFRenderer::sInstancesCount = 0; |
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namespace constants{ |
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namespace constants{ |
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const double mode1_zoomFactor = 3.0; |
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SplashColor paperColor = {0xFF, 0xFF, 0xFF}; // white
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const double mode2_zoomFactorStage1 = 2.5; |
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const double mode2_zoomFactorStage2 = 5.0; |
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const double mode2_zoomFactorStage3 = 10.0; |
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} |
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} |
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XPDFRenderer::XPDFRenderer(const QString &filename, bool importingFile) : |
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XPDFRenderer::XPDFRenderer(const QString &filename, bool importingFile) |
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mpSplashBitmapHistorical(nullptr), mSplashHistorical(nullptr), mDocument(nullptr) |
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: m_pdfZoomMode(UBSettings::settings()->pdfZoomBehavior->get().toUInt()) |
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, mpSplashBitmapHistorical(nullptr) |
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, mSplashHistorical(nullptr) |
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, mDocument(nullptr) |
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{ |
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{ |
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switch (UBSettings::settings()->pdfZoomBehavior->get().toUInt()) { |
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switch (m_pdfZoomMode) { |
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case 0: // Render each time (historical initial implementation).
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case 0: // Render each time (historical initial implementation).
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break; |
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break; |
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case 1: // Render a single image, degradated quality when zoomed big.
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case 1: // Render a single image, degradated quality when zoomed big.
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default: |
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default: |
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m_pdfZoomCache.push_back(constants::mode1_zoomFactor); |
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m_pdfZoomCache.push_back(XPDFRendererZoomFactor::mode1_zoomFactor); |
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break; |
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break; |
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case 2: // Render three images, optimal quality all the time.
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case 2: // Render three images, use downsampling, optimal quality all the time, slower.
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m_pdfZoomCache.push_back(constants::mode2_zoomFactorStage1); |
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m_pdfZoomCache.push_back(XPDFRendererZoomFactor::mode2_zoomFactorStage1); |
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m_pdfZoomCache.push_back(constants::mode2_zoomFactorStage2); |
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m_pdfZoomCache.push_back(XPDFRendererZoomFactor::mode2_zoomFactorStage2); |
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m_pdfZoomCache.push_back(constants::mode2_zoomFactorStage3); |
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m_pdfZoomCache.push_back(XPDFRendererZoomFactor::mode2_zoomFactorStage3); |
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break; |
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case 3: // Do not downsample, minimal loss, faster. Not necessarily the expected result,
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// because a 'zoom factor 1' here does not correspond to a user choice 'zoom factor 1'.
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// The zoom requested is dependent on many factors, including the input pdf, the output screen resolution
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// and the zoom user choice. Thus, the 'mode3_zoomFactorStage1' might be fine on one screen, but
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// fuzzy on another one.
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m_pdfZoomCache.push_back(XPDFRendererZoomFactor::mode3_zoomFactorStage1); |
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m_pdfZoomCache.push_back(XPDFRendererZoomFactor::mode3_zoomFactorStage2); |
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break; |
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case 4: // Multithreaded, several steps, downsampled.
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for (int i = 0; i < XPDFRendererZoomFactor::mode4_zoomFactorIterations; i++ ) |
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{ |
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double const zoomValue = XPDFRendererZoomFactor::mode4_zoomFactorStart+XPDFRendererZoomFactor::mode4_zoomFactorStepSquare*static_cast<double>(i*i); |
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m_pdfZoomCache.push_back(zoomValue); |
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} |
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break; |
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break; |
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} |
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} |
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@ -84,18 +99,19 @@ XPDFRenderer::XPDFRenderer(const QString &filename, bool importingFile) : |
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mDocument = new PDFDoc(new GooString(filename.toLocal8Bit()), 0, 0, 0); // the filename GString is deleted on PDFDoc desctruction
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mDocument = new PDFDoc(new GooString(filename.toLocal8Bit()), 0, 0, 0); // the filename GString is deleted on PDFDoc desctruction
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#endif |
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#endif |
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sInstancesCount.ref(); |
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sInstancesCount.ref(); |
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connect(&m_cacheThread, SIGNAL(finished()), this, SLOT(OnThreadFinished())); |
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} |
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} |
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XPDFRenderer::~XPDFRenderer() |
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XPDFRenderer::~XPDFRenderer() |
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{ |
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{ |
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disconnect(&m_cacheThread, SIGNAL(finished()), this, SLOT(OnThreadFinished())); |
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m_cacheThread.cancelPending(); |
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m_cacheThread.wait(); // Would crash if data deleted during processing.
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for(int i = 0; i < m_pdfZoomCache.size(); i++) |
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for(int i = 0; i < m_pdfZoomCache.size(); i++) |
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{ |
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{ |
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PdfZoomCacheData &cacheData = m_pdfZoomCache[i]; |
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PdfZoomCacheData &cacheData = m_pdfZoomCache[i]; |
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if(cacheData.splash != nullptr){ |
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cacheData.cleanup(); |
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cacheData.cachedImage = QImage(); // The 'cachedImage' uses a buffer from 'splash'.
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delete cacheData.splash; |
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cacheData.splash = nullptr; |
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} |
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} |
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} |
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if(mSplashHistorical) |
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if(mSplashHistorical) |
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@ -209,10 +225,10 @@ QImage* XPDFRenderer::createPDFImageHistorical(int pageNumber, qreal xscale, qre |
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{ |
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{ |
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if (isValid()) |
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if (isValid()) |
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{ |
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{ |
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SplashColor paperColor = {0xFF, 0xFF, 0xFF}; // white
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if(mSplashHistorical) |
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if(mSplashHistorical) |
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delete mSplashHistorical; |
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delete mSplashHistorical; |
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mSplashHistorical = new SplashOutputDev(splashModeRGB8, 1, false, paperColor); |
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mSplashHistorical = new SplashOutputDev(splashModeRGB8, 1, false, constants::paperColor); |
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#ifdef USE_XPDF |
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#ifdef USE_XPDF |
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mSplashHistorical->startDoc(mDocument->getXRef()); |
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mSplashHistorical->startDoc(mDocument->getXRef()); |
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#else |
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#else |
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@ -246,41 +262,120 @@ QImage* XPDFRenderer::createPDFImageHistorical(int pageNumber, qreal xscale, qre |
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return new QImage(mpSplashBitmapHistorical->getDataPtr(), mpSplashBitmapHistorical->getWidth(), mpSplashBitmapHistorical->getHeight(), mpSplashBitmapHistorical->getWidth() * 3, QImage::Format_RGB888); |
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return new QImage(mpSplashBitmapHistorical->getDataPtr(), mpSplashBitmapHistorical->getWidth(), mpSplashBitmapHistorical->getHeight(), mpSplashBitmapHistorical->getWidth() * 3, QImage::Format_RGB888); |
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} |
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} |
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void XPDFRenderer::render(QPainter *p, int pageNumber, const QRectF &bounds) |
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void XPDFRenderer::OnThreadFinished() |
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{ |
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emit signalUpdateParent(); |
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if (m_cacheThread.isJobPending()) |
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m_cacheThread.start(); |
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} |
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void XPDFRenderer::render(QPainter *p, int pageNumber, bool const cacheAllowed, const QRectF &bounds) |
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{ |
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{ |
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//qDebug() << "render enter";
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Q_UNUSED(bounds); |
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Q_UNUSED(bounds); |
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if (isValid()) |
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if (isValid()) |
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{ |
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{ |
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if (m_pdfZoomCache.size() > 0) |
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if (m_pdfZoomCache.size() > 0 && cacheAllowed) |
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{ |
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{ |
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qreal xscale = p->worldTransform().m11(); |
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qreal xscale = p->worldTransform().m11(); |
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qreal yscale = p->worldTransform().m22(); |
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qreal yscale = p->worldTransform().m22(); |
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Q_ASSERT(qFuzzyCompare(xscale, yscale)); // Zoom equal in all axes expected.
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Q_ASSERT(qFuzzyCompare(xscale, yscale)); // Zoom equal in all axes expected.
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Q_ASSERT(xscale > 0.0); // Potential Div0 later if this assert fail.
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Q_ASSERT(xscale > 0.0); // Potential Div0 later if this assert fail.
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qreal zoomRequested = xscale; |
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int zoomIndex = 0; |
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int zoomIndex = 0; |
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bool foundIndex = false; |
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if (m_pdfZoomMode == 3) |
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for (; zoomIndex < m_pdfZoomCache.size() && !foundIndex;) |
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{ |
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{ |
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if (xscale <= m_pdfZoomCache[zoomIndex].ratio) { |
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// Choose a zoom which is inferior or equivalent than the user choice (= minor loss, downscaling).
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foundIndex = true; |
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bool foundIndex = false; |
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} else { |
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for (zoomIndex = m_pdfZoomCache.size()-1; zoomIndex >= 0 && !foundIndex;) |
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zoomIndex++; |
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{ |
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if (zoomRequested >= m_pdfZoomCache[zoomIndex].ratio) { |
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foundIndex = true; |
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} else { |
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zoomIndex--; |
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} |
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} |
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} |
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if (!foundIndex) // Use the smallest one.
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zoomIndex = 0; |
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if (zoomIndex == 0 && m_pdfZoomCache[zoomIndex].ratio != zoomRequested) |
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{ |
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m_pdfZoomCache[zoomIndex].cleanup(); |
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m_pdfZoomCache[zoomIndex] = PdfZoomCacheData(zoomRequested); |
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} |
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} else { |
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// Choose a zoom which is superior or equivalent than the user choice (= no loss, upscaling).
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bool foundIndex = false; |
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for (; zoomIndex < m_pdfZoomCache.size() && !foundIndex;) |
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{ |
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if (zoomRequested <= (m_pdfZoomCache[zoomIndex].ratio+0.1)) { |
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foundIndex = true; |
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} else { |
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zoomIndex++; |
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} |
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} |
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if (!foundIndex) // Use the previous one.
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zoomIndex--; |
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} |
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} |
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if (!foundIndex) // Use the previous one.
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QImage pdfImage = createPDFImageCached(pageNumber, m_pdfZoomCache[zoomIndex]); |
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zoomIndex--; |
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qreal ratioExpected = m_pdfZoomCache[zoomIndex].ratio; |
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qreal ratioObtained = ratioExpected; |
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int const initialZoomIndex = zoomIndex; |
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if (pdfImage == QImage() && m_pdfZoomCache[zoomIndex].hasToBeProcessed) |
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{ |
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// Try to temporarily fallback on a valid image, for a fuzzy or downsampled preview.
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// The actual result will be updated after the processing.
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bool isCurrent = true; |
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while (zoomIndex < m_pdfZoomCache.size()-1 && (m_pdfZoomCache[zoomIndex].cachedImage == QImage() || (m_pdfZoomCache[zoomIndex].cachedPageNumber != pageNumber && !isCurrent))) |
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{ |
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zoomIndex = zoomIndex+1; |
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isCurrent = false; |
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} |
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while (zoomIndex > 0 && (m_pdfZoomCache[zoomIndex].cachedImage == QImage() || m_pdfZoomCache[zoomIndex].cachedPageNumber != pageNumber)) |
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zoomIndex = zoomIndex-1; |
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ratioObtained = m_pdfZoomCache[zoomIndex].ratio; |
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} |
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if (m_pdfZoomCache[zoomIndex].cachedImage == QImage() || m_pdfZoomCache[zoomIndex].cachedPageNumber != pageNumber) |
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{ |
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// No alternate image found. Build an alternate image in order to display some progress.
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// Also make sure we fallback to the initial ratio request.
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zoomIndex = initialZoomIndex; |
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qreal ratioDiff = m_pdfZoomCache[zoomIndex].ratio; |
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pdfImage = QImage(bounds.width()*ratioDiff, bounds.height()*ratioDiff, QImage::Format_RGB888); |
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pdfImage.fill("white"); |
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QPainter painter(&pdfImage); |
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QString const text = tr("Processing..."); |
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QFont font = painter.font(); |
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if (font.pixelSize() != -1) |
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font.setPixelSize(ratioDiff*font.pixelSize()); |
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else |
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font.setPointSizeF(ratioDiff*font.pointSizeF()); |
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painter.setFont(font); |
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QFontMetrics textMetric(font, &pdfImage); |
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QSize textSize = textMetric.size(0, text); |
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painter.drawText((bounds.width()*ratioDiff-textSize.width())/2, (bounds.height()*ratioDiff-textSize.height())/2, text); |
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} else { |
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pdfImage = m_pdfZoomCache[zoomIndex].cachedImage; |
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} |
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QImage const &pdfImage = createPDFImageCached(pageNumber, m_pdfZoomCache[zoomIndex]); |
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QTransform savedTransform = p->worldTransform(); |
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QTransform savedTransform = p->worldTransform(); |
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double const ratioDifferenceBetweenWorldAndImage = 1.0/m_pdfZoomCache[zoomIndex].ratio; |
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double const ratioDifferenceBetweenWorldAndImage = 1.0/m_pdfZoomCache[zoomIndex].ratio; |
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// The 'pdfImage' is rendered with a quality equal or superior. We adjust the 'transform' to zoom it
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// The 'pdfImage' is maybe rendered with a different quality than requested. We adjust the 'transform' to zoom it
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// out the required ratio.
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// in or out of the required ratio.
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QTransform newTransform = savedTransform.scale(ratioDifferenceBetweenWorldAndImage, ratioDifferenceBetweenWorldAndImage); |
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QTransform newTransform = savedTransform.scale(ratioDifferenceBetweenWorldAndImage, ratioDifferenceBetweenWorldAndImage); |
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p->setWorldTransform(newTransform); |
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p->setWorldTransform(newTransform); |
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/* qDebug() << "drawImage size=" << p->viewport() << "bounds" << bounds <<
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"pdfImage" << pdfImage.size() << "savedTransform" << savedTransform.m11() << |
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"ratioDiff" << ratioDifferenceBetweenWorldAndImage << "zoomRequested" << zoomRequested << |
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"zoomIndex" << zoomIndex; */ |
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p->drawImage(QPointF( mSliceX, mSliceY), pdfImage); |
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p->drawImage(QPointF( mSliceX, mSliceY), pdfImage); |
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p->setWorldTransform(savedTransform); |
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p->setWorldTransform(savedTransform); |
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@ -291,46 +386,89 @@ void XPDFRenderer::render(QPainter *p, int pageNumber, const QRectF &bounds) |
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QImage *pdfImage = createPDFImageHistorical(pageNumber, xscale, yscale, bounds); |
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QImage *pdfImage = createPDFImageHistorical(pageNumber, xscale, yscale, bounds); |
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QTransform savedTransform = p->worldTransform(); |
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QTransform savedTransform = p->worldTransform(); |
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p->resetTransform(); |
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p->resetTransform(); |
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//qDebug() << "drawImage size=" << p->viewport() << "bounds" << bounds << "pdfImage" << pdfImage->size() << "savedTransform" << savedTransform.m11();
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p->drawImage(QPointF(savedTransform.dx() + mSliceX, savedTransform.dy() + mSliceY), *pdfImage); |
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p->drawImage(QPointF(savedTransform.dx() + mSliceX, savedTransform.dy() + mSliceY), *pdfImage); |
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p->setWorldTransform(savedTransform); |
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p->setWorldTransform(savedTransform); |
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delete pdfImage; |
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delete pdfImage; |
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} |
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} |
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} |
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} |
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//qDebug() << "render leave";
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} |
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} |
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QImage& XPDFRenderer::createPDFImageCached(int pageNumber, PdfZoomCacheData &cacheData) |
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QImage& XPDFRenderer::createPDFImageCached(int pageNumber, PdfZoomCacheData &cacheData) |
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{ |
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{ |
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if (isValid()) |
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if (isValid()) |
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{
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{
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SplashColor paperColor = {0xFF, 0xFF, 0xFF}; // white
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if (cacheData.requireUpdateImage(pageNumber) && !cacheData.hasToBeProcessed) |
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if (cacheData.requireUpdateImage(pageNumber)) |
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{
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{ |
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cacheData.prepareNewSplash(pageNumber, paperColor); |
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#ifdef USE_XPDF |
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cacheData.splash->startDoc(mDocument->getXRef()); |
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#else |
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cacheData.splash->startDoc(mDocument); |
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#endif |
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int rotation = 0; // in degrees (get it from the worldTransform if we want to support rotation)
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bool useMediaBox = false; |
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bool crop = true; |
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bool printing = false; |
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mSliceX = 0.; |
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mSliceX = 0.; |
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mSliceY = 0.; |
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mSliceY = 0.; |
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mDocument->displayPage(cacheData.splash, pageNumber, this->dpiForRendering * cacheData.ratio, this->dpiForRendering * cacheData.ratio, |
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CacheThread::JobData jobData; |
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rotation, useMediaBox, crop, printing); |
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jobData.cacheData = &cacheData; |
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cacheData.splashBitmap = cacheData.splash->getBitmap(); |
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jobData.document = mDocument; |
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jobData.dpiForRendering = this->dpiForRendering; |
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jobData.pageNumber = pageNumber; |
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jobData.cacheData->hasToBeProcessed = true; |
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// Make sure we reset that image, because the data uses 'splash' buffer, which will be deallocated and
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// reallocated when the job is started.
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jobData.cacheData->cachedImage = QImage(); |
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m_cacheThread.pushJob(jobData); |
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if (m_pdfZoomMode == 4) |
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{ |
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// Start the job multithreaded. The item will be refreshed when the signal 'finished' is emitted.
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m_cacheThread.start(); |
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} else { |
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// Perform the job now. Note this will lock the GUI until the job is done.
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m_cacheThread.run(); |
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} |
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} |
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} |
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// Note this uses the 'cacheData.splash->getBitmap()->getDataPtr()' as data buffer.
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cacheData.cachedImage = QImage(cacheData.splashBitmap->getDataPtr(), cacheData.splashBitmap->getWidth(), cacheData.splashBitmap->getHeight(), |
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cacheData.splashBitmap->getWidth() * 3 /* bytesPerLine, 24 bits for RGB888, = 3 bytes */, |
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QImage::Format_RGB888); |
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} else { |
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} else { |
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cacheData.cachedImage = QImage(); |
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cacheData.cachedImage = QImage(); |
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} |
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} |
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return cacheData.cachedImage; |
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return cacheData.cachedImage; |
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} |
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} |
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void XPDFRenderer::CacheThread::run() |
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{ |
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m_jobMutex.lock(); |
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CacheThread::JobData jobData = m_nextJob.first(); |
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m_nextJob.pop_front(); |
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/* qDebug() << "XPDFRenderer::CacheThread starting page" << jobData.pageNumber
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<< "ratio" << jobData.cacheData->ratio; */ |
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jobData.cacheData->prepareNewSplash(jobData.pageNumber, constants::paperColor); |
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#ifdef USE_XPDF |
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jobData.cacheData->splash->startDoc(jobData.document->getXRef()); |
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#else |
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jobData.cacheData->splash->startDoc(jobData.document); |
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#endif |
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m_jobMutex.unlock(); |
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|
|
int rotation = 0; // in degrees (get it from the worldTransform if we want to support rotation)
|
|
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|
|
bool useMediaBox = false; |
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|
|
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|
|
bool crop = true; |
|
|
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|
|
bool printing = false; |
|
|
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|
|
jobData.document->displayPage(jobData.cacheData->splash, jobData.pageNumber, jobData.dpiForRendering * jobData.cacheData->ratio, |
|
|
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|
|
jobData.dpiForRendering * jobData.cacheData->ratio, |
|
|
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|
|
rotation, useMediaBox, crop, printing); |
|
|
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|
|
m_jobMutex.lock(); |
|
|
|
|
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|
|
jobData.cacheData->splashBitmap = jobData.cacheData->splash->getBitmap(); |
|
|
|
|
|
|
|
// Note this uses the 'cacheData.splash->getBitmap()->getDataPtr()' as data buffer.
|
|
|
|
|
|
|
|
jobData.cacheData->cachedImage = QImage(jobData.cacheData->splashBitmap->getDataPtr(), jobData.cacheData->splashBitmap->getWidth(), jobData.cacheData->splashBitmap->getHeight(), |
|
|
|
|
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|
|
jobData.cacheData->splashBitmap->getWidth() * 3 /* bytesPerLine, 24 bits for RGB888, = 3 bytes */, |
|
|
|
|
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|
|
QImage::Format_RGB888); |
|
|
|
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|
|
|
|
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|
|
|
|
/* qDebug() << "XPDFRenderer::CacheThread completed page" << jobData.pageNumber
|
|
|
|
|
|
|
|
<< "ratio" << jobData.cacheData->ratio << "final size is" << jobData.cacheData->cachedImage.size(); */ |
|
|
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|
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|
|
|
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|
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|
|
jobData.cacheData->hasToBeProcessed = false; |
|
|
|
|
|
|
|
m_jobMutex.unlock(); |
|
|
|
|
|
|
|
} |
|
|
|