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DocDiff application: calculating page graphic piece info
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@ -16,7 +16,13 @@
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// along with PDF4QT. If not, see <https://www.gnu.org/licenses/>.
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#include "pdfdiff.h"
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#include "pdfrenderer.h"
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#include "pdfdocumenttextflow.h"
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#include "pdfexecutionpolicy.h"
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#include "pdffont.h"
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#include "pdfcms.h"
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#include "pdfcompiler.h"
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#include "pdfconstants.h"
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#include <QtConcurrent/QtConcurrent>
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@ -29,6 +35,7 @@ PDFDiff::PDFDiff(QObject* parent) :
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m_leftDocument(nullptr),
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m_rightDocument(nullptr),
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m_options(Asynchronous),
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m_epsilon(0.0001),
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m_cancelled(false)
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{
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@ -141,30 +148,11 @@ PDFDiffResult PDFDiff::perform()
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{
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ProgressStartupInfo info;
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info.showDialog = false;
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info.text = tr("");
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info.text = tr("Comparing documents.");
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m_progress->start(StepLast, std::move(info));
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}
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// StepExtractContentLeftDocument
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stepProgress();
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// StepExtractContentRightDocument
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stepProgress();
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// StepExtractTextLeftDocument
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pdf::PDFDocumentTextFlowFactory factoryLeftDocumentTextFlow;
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factoryLeftDocumentTextFlow.setCalculateBoundingBoxes(true);
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PDFDocumentTextFlow leftTextFlow = factoryLeftDocumentTextFlow.create(m_leftDocument, leftPages, PDFDocumentTextFlowFactory::Algorithm::Auto);
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stepProgress();
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// StepExtractTextRightDocument
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pdf::PDFDocumentTextFlowFactory factoryRightDocumentTextFlow;
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factoryRightDocumentTextFlow.setCalculateBoundingBoxes(true);
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PDFDocumentTextFlow rightTextFlow = factoryRightDocumentTextFlow.create(m_rightDocument, rightPages, PDFDocumentTextFlowFactory::Algorithm::Auto);
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stepProgress();
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// StepCompare
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stepProgress();
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performSteps(leftPages, rightPages);
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if (m_progress)
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{
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@ -182,6 +170,102 @@ void PDFDiff::stepProgress()
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}
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}
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struct PDFDiffPageContext
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{
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PDFInteger pageIndex = 0;
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PDFPrecompiledPage::GraphicPieceInfos graphicPieces;
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};
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void PDFDiff::performSteps(const std::vector<PDFInteger>& leftPages, const std::vector<PDFInteger>& rightPages)
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{
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std::vector<PDFDiffPageContext> leftPreparedPages;
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std::vector<PDFDiffPageContext> rightPreparedPages;
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auto createDiffPageContext = [](auto pageIndex)
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{
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PDFDiffPageContext context;
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context.pageIndex = pageIndex;
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return context;
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};
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std::transform(leftPages.cbegin(), leftPages.cend(), std::back_inserter(leftPreparedPages), createDiffPageContext);
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std::transform(rightPages.cbegin(), rightPages.cend(), std::back_inserter(rightPreparedPages), createDiffPageContext);
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// StepExtractContentLeftDocument
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if (!m_cancelled)
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{
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PDFFontCache fontCache(DEFAULT_FONT_CACHE_LIMIT, DEFAULT_REALIZED_FONT_CACHE_LIMIT);
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PDFOptionalContentActivity optionalContentActivity(m_leftDocument, pdf::OCUsage::View, nullptr);
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fontCache.setDocument(pdf::PDFModifiedDocument(const_cast<pdf::PDFDocument*>(m_leftDocument), &optionalContentActivity));
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PDFCMSManager cmsManager(nullptr);
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cmsManager.setDocument(m_leftDocument);
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PDFCMSPointer cms = cmsManager.getCurrentCMS();
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auto fillPageContext = [&, this](PDFDiffPageContext& context)
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{
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PDFPrecompiledPage compiledPage;
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constexpr PDFRenderer::Features features = PDFRenderer::IgnoreOptionalContent;
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PDFRenderer renderer(m_leftDocument, &fontCache, cms.data(), &optionalContentActivity, features, pdf::PDFMeshQualitySettings());
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renderer.compile(&compiledPage, context.pageIndex);
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PDFReal epsilon = calculateEpsilonForPage(m_leftDocument->getCatalog()->getPage(context.pageIndex));
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context.graphicPieces = compiledPage.calculateGraphicPieceInfos(epsilon);
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};
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PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Page, leftPreparedPages.begin(), leftPreparedPages.end(), fillPageContext);
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stepProgress();
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}
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// StepExtractContentRightDocument
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if (!m_cancelled)
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{
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PDFFontCache fontCache(DEFAULT_FONT_CACHE_LIMIT, DEFAULT_REALIZED_FONT_CACHE_LIMIT);
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PDFOptionalContentActivity optionalContentActivity(m_rightDocument, pdf::OCUsage::View, nullptr);
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fontCache.setDocument(pdf::PDFModifiedDocument(const_cast<pdf::PDFDocument*>(m_rightDocument), &optionalContentActivity));
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PDFCMSManager cmsManager(nullptr);
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cmsManager.setDocument(m_rightDocument);
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PDFCMSPointer cms = cmsManager.getCurrentCMS();
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auto fillPageContext = [&, this](PDFDiffPageContext& context)
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{
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PDFPrecompiledPage compiledPage;
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constexpr PDFRenderer::Features features = PDFRenderer::IgnoreOptionalContent;
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PDFRenderer renderer(m_rightDocument, &fontCache, cms.data(), &optionalContentActivity, features, pdf::PDFMeshQualitySettings());
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renderer.compile(&compiledPage, context.pageIndex);
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PDFReal epsilon = calculateEpsilonForPage(m_leftDocument->getCatalog()->getPage(context.pageIndex));
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context.graphicPieces = compiledPage.calculateGraphicPieceInfos(epsilon);
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};
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PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Page, rightPreparedPages.begin(), rightPreparedPages.end(), fillPageContext);
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stepProgress();
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}
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// StepExtractTextLeftDocument
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if (!m_cancelled)
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{
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pdf::PDFDocumentTextFlowFactory factoryLeftDocumentTextFlow;
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factoryLeftDocumentTextFlow.setCalculateBoundingBoxes(true);
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PDFDocumentTextFlow leftTextFlow = factoryLeftDocumentTextFlow.create(m_leftDocument, leftPages, PDFDocumentTextFlowFactory::Algorithm::Auto);
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stepProgress();
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}
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// StepExtractTextRightDocument
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if (!m_cancelled)
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{
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pdf::PDFDocumentTextFlowFactory factoryRightDocumentTextFlow;
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factoryRightDocumentTextFlow.setCalculateBoundingBoxes(true);
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PDFDocumentTextFlow rightTextFlow = factoryRightDocumentTextFlow.create(m_rightDocument, rightPages, PDFDocumentTextFlowFactory::Algorithm::Auto);
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stepProgress();
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}
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// StepCompare
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if (!m_cancelled)
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{
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stepProgress();
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}
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}
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void PDFDiff::onComparationPerformed()
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{
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m_cancelled = false;
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@ -189,6 +273,19 @@ void PDFDiff::onComparationPerformed()
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emit comparationFinished();
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}
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PDFReal PDFDiff::calculateEpsilonForPage(const PDFPage* page) const
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{
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Q_ASSERT(page);
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QRectF mediaBox = page->getMediaBox();
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PDFReal width = mediaBox.width();
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PDFReal height = mediaBox.height();
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PDFReal factor = qMax(width, height);
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return factor * m_epsilon;
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}
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PDFDiffResult::PDFDiffResult() :
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m_result(true)
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{
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@ -117,15 +117,24 @@ private:
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PDFDiffResult perform();
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void stepProgress();
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void performSteps(const std::vector<PDFInteger>& leftPages,
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const std::vector<PDFInteger>& rightPages);
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void onComparationPerformed();
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/// Calculates real epsilon for a page. Epsilon is used in page
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/// comparation process, where points closer that epsilon
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/// are recognized as equal.
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/// \param page Page
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PDFReal calculateEpsilonForPage(const PDFPage* page) const;
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PDFProgress* m_progress;
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const PDFDocument* m_leftDocument;
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const PDFDocument* m_rightDocument;
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PDFClosedIntervalSet m_pagesForLeftDocument;
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PDFClosedIntervalSet m_pagesForRightDocument;
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Options m_options;
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PDFReal m_epsilon;
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std::atomic_bool m_cancelled;
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PDFDiffResult m_result;
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@ -103,7 +103,7 @@ public:
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void addInputInterface(IDrawWidgetInputInterface* inputInterface);
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signals:
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void pageRenderingErrorsChanged(PDFInteger pageIndex, int errorsCount);
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void pageRenderingErrorsChanged(pdf::PDFInteger pageIndex, int errorsCount);
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private:
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void updateRendererImpl();
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@ -20,6 +20,7 @@
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#include "pdfcms.h"
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#include <QPainter>
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#include <QCryptographicHash>
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namespace pdf
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{
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@ -831,4 +832,146 @@ void PDFPrecompiledPage::finalize(qint64 compilingTimeNS, QList<PDFRenderError>
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}
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}
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PDFPrecompiledPage::GraphicPieceInfos PDFPrecompiledPage::calculateGraphicPieceInfos(PDFReal epsilon) const
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{
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GraphicPieceInfos infos;
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struct State
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{
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QMatrix matrix;
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};
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std::stack<State> stateStack;
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stateStack.emplace();
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// Check, if epsilon is not too small
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if (qFuzzyIsNull(epsilon))
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{
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epsilon = 0.000001;
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}
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PDFReal factor = 1.0 / epsilon;
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// Process all instructions
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for (const Instruction& instruction : m_instructions)
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{
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switch (instruction.type)
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{
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case InstructionType::DrawPath:
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{
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const PathPaintData& data = m_paths[instruction.dataIndex];
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GraphicPieceInfo info;
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QByteArray serializedPath;
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// Serialize data
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if (true)
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{
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QDataStream stream(&serializedPath, QIODevice::WriteOnly);
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stream << data.isText;
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stream << data.pen;
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stream << data.brush;
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// Translate map to page coordinates
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QPainterPath pagePath = stateStack.top().matrix.map(data.path);
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info.type = data.isText ? GraphicPieceInfo::Type::Text : GraphicPieceInfo::Type::VectorGraphics;
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info.boundingRect = pagePath.controlPointRect();
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const int elementCount = pagePath.elementCount();
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for (int i = 0; i < elementCount; ++i)
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{
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QPainterPath::Element element = pagePath.elementAt(i);
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PDFReal roundedX = qRound(element.x * factor);
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PDFReal roundedY = qRound(element.y * factor);
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stream << roundedX;
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stream << roundedY;
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stream << element.type;
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}
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}
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QByteArray hash = QCryptographicHash::hash(serializedPath, QCryptographicHash::Sha512);
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Q_ASSERT(QCryptographicHash::hashLength(QCryptographicHash::Sha512) == 64);
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size_t size = qMin<size_t>(hash.length(), info.hash.size());
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std::copy(hash.data(), hash.data() + size, info.hash.data());
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infos.emplace_back(std::move(info));
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break;
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}
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case InstructionType::DrawImage:
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{
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/*const ImageData& data = m_images[instruction.dataIndex];
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const QImage& image = data.image;
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painter->save();
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QMatrix imageTransform(1.0 / image.width(), 0, 0, 1.0 / image.height(), 0, 0);
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QMatrix worldMatrix = imageTransform * painter->worldMatrix();
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// Jakub Melka: Because Qt uses opposite axis direction than PDF, then we must transform the y-axis
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// to the opposite (so the image is then unchanged)
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worldMatrix.translate(0, image.height());
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worldMatrix.scale(1, -1);
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painter->setWorldMatrix(worldMatrix);
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painter->drawImage(0, 0, image);
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painter->restore();*/
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break;
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}
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case InstructionType::DrawMesh:
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{
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/*const MeshPaintData& data = m_meshes[instruction.dataIndex];
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painter->save();
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painter->setWorldMatrix(pagePointToDevicePointMatrix);
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data.mesh.paint(painter, data.alpha);
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painter->restore();*/
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break;
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}
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case InstructionType::Clip:
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{
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// Do nothing, we are just collecting information
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break;
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}
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case InstructionType::SaveGraphicState:
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{
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stateStack.push(stateStack.top());
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break;
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}
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case InstructionType::RestoreGraphicState:
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{
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stateStack.pop();
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break;
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}
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case InstructionType::SetWorldMatrix:
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{
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stateStack.top().matrix = m_matrices[instruction.dataIndex];
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break;
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}
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case InstructionType::SetCompositionMode:
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{
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// Do nothing, we are just collecting information
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break;
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}
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default:
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{
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Q_ASSERT(false);
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break;
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}
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}
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}
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return infos;
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}
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} // namespace pdf
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@ -234,6 +234,30 @@ public:
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PDFSnapInfo* getSnapInfo() { return &m_snapInfo; }
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const PDFSnapInfo* getSnapInfo() const { return &m_snapInfo; }
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struct GraphicPieceInfo
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{
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enum class Type
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{
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Unknown,
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Text,
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VectorGraphics,
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Image
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};
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Type type = Type::Unknown;
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QRectF boundingRect;
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std::array<uint8_t, 64> hash = { };
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};
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using GraphicPieceInfos = std::vector<GraphicPieceInfo>;
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/// Creates information about piece of graphic in this page,
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/// for example, for comparation reasons. Parameter \p epsilon
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/// is for numerical precision - values under epsilon are considered
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/// as equal.
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/// \param epsilon Epsilon
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GraphicPieceInfos calculateGraphicPieceInfos(PDFReal epsilon) const;
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private:
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struct PathPaintData
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{
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