// Copyright (C) 2019-2020 Jakub Melka // // This file is part of Pdf4Qt. // // Pdf4Qt is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // Pdf4Qt is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with Pdf4Qt. If not, see . #include "pdfpainter.h" #include "pdfpattern.h" #include "pdfcms.h" #include namespace pdf { PDFPainterBase::PDFPainterBase(PDFRenderer::Features features, const PDFPage* page, const PDFDocument* document, const PDFFontCache* fontCache, const PDFCMS* cms, const PDFOptionalContentActivity* optionalContentActivity, QMatrix pagePointToDevicePointMatrix, const PDFMeshQualitySettings& meshQualitySettings) : BaseClass(page, document, fontCache, cms, optionalContentActivity, pagePointToDevicePointMatrix, meshQualitySettings), m_features(features) { } void PDFPainterBase::performUpdateGraphicsState(const PDFPageContentProcessorState& state) { const PDFPageContentProcessorState::StateFlags flags = state.getStateFlags(); // If current transformation matrix has changed, then update it if (flags.testFlag(PDFPageContentProcessorState::StateCurrentTransformationMatrix)) { setWorldMatrix(getCurrentWorldMatrix()); } if (flags.testFlag(PDFPageContentProcessorState::StateStrokeColor) || flags.testFlag(PDFPageContentProcessorState::StateLineWidth) || flags.testFlag(PDFPageContentProcessorState::StateLineCapStyle) || flags.testFlag(PDFPageContentProcessorState::StateLineJoinStyle) || flags.testFlag(PDFPageContentProcessorState::StateMitterLimit) || flags.testFlag(PDFPageContentProcessorState::StateLineDashPattern) || flags.testFlag(PDFPageContentProcessorState::StateAlphaStroking)) { m_currentPen.dirty(); } if (flags.testFlag(PDFPageContentProcessorState::StateFillColor) || flags.testFlag(PDFPageContentProcessorState::StateAlphaFilling)) { m_currentBrush.dirty(); } // If current blend mode has changed, then update it if (flags.testFlag(PDFPageContentProcessorState::StateBlendMode)) { // Try to simulate transparency groups. Use only first composition mode, // outside the transparency groups (so we are on pages main transparency // groups). const BlendMode blendMode = state.getBlendMode(); if (canSetBlendMode(blendMode)) { if (!PDFBlendModeInfo::isSupportedByQt(blendMode)) { reportRenderErrorOnce(RenderErrorType::NotSupported, PDFTranslationContext::tr("Blend mode '%1' not supported.").arg(PDFBlendModeInfo::getBlendModeName(blendMode))); } const QPainter::CompositionMode compositionMode = PDFBlendModeInfo::getCompositionModeFromBlendMode(blendMode); setCompositionMode(compositionMode); } else if (blendMode != BlendMode::Normal && blendMode != BlendMode::Compatible) { reportRenderErrorOnce(RenderErrorType::NotSupported, PDFTranslationContext::tr("Blend mode '%1' is in transparency group, which is not supported.").arg(PDFBlendModeInfo::getBlendModeName(blendMode))); } } if (flags.testFlag(PDFPageContentProcessorState::StateSoftMask) && state.getSoftMask()) { reportRenderErrorOnce(RenderErrorType::NotSupported, PDFTranslationContext::tr("Soft masks not supported.")); } BaseClass::performUpdateGraphicsState(state); } bool PDFPainterBase::isContentSuppressedByOC(PDFObjectReference ocgOrOcmd) { if (m_features.testFlag(PDFRenderer::IgnoreOptionalContent)) { return false; } return PDFPageContentProcessor::isContentSuppressedByOC(ocgOrOcmd); } QPen PDFPainterBase::getCurrentPenImpl() const { const PDFPageContentProcessorState* graphicState = getGraphicState(); QColor color = graphicState->getStrokeColor(); if (color.isValid()) { color.setAlphaF(getEffectiveStrokingAlpha()); const PDFReal lineWidth = graphicState->getLineWidth(); Qt::PenCapStyle penCapStyle = graphicState->getLineCapStyle(); Qt::PenJoinStyle penJoinStyle = graphicState->getLineJoinStyle(); const PDFLineDashPattern& lineDashPattern = graphicState->getLineDashPattern(); const PDFReal mitterLimit = graphicState->getMitterLimit(); QPen pen(color); pen.setWidthF(lineWidth); pen.setCapStyle(penCapStyle); pen.setJoinStyle(penJoinStyle); pen.setMiterLimit(mitterLimit); if (lineDashPattern.isSolid()) { pen.setStyle(Qt::SolidLine); } else { pen.setStyle(Qt::CustomDashLine); pen.setDashPattern(QVector::fromStdVector(lineDashPattern.getDashArray())); pen.setDashOffset(lineDashPattern.getDashOffset()); } return pen; } else { return QPen(Qt::NoPen); } } QBrush PDFPainterBase::getCurrentBrushImpl() const { const PDFPageContentProcessorState* graphicState = getGraphicState(); QColor color = graphicState->getFillColor(); if (color.isValid()) { color.setAlphaF(getEffectiveFillingAlpha()); return QBrush(color, Qt::SolidPattern); } else { return QBrush(Qt::NoBrush); } } PDFReal PDFPainterBase::getEffectiveStrokingAlpha() const { PDFReal alpha = getGraphicState()->getAlphaStroking(); auto it = m_transparencyGroupDataStack.crbegin(); auto itEnd = m_transparencyGroupDataStack.crend(); for (; it != itEnd; ++it) { const PDFTransparencyGroupPainterData& transparencyGroup = *it; alpha *= transparencyGroup.alphaStroke; if (transparencyGroup.group.isolated) { break; } } return alpha; } PDFReal PDFPainterBase::getEffectiveFillingAlpha() const { PDFReal alpha = getGraphicState()->getAlphaFilling(); auto it = m_transparencyGroupDataStack.crbegin(); auto itEnd = m_transparencyGroupDataStack.crend(); for (; it != itEnd; ++it) { const PDFTransparencyGroupPainterData& transparencyGroup = *it; alpha *= transparencyGroup.alphaFill; if (transparencyGroup.group.isolated) { break; } } return alpha; } bool PDFPainterBase::canSetBlendMode(BlendMode mode) const { // We will assume, that we can set blend mode, when // all other blend modes on transparency stack are normal, // or compatible. It should work. Q_UNUSED(mode); return std::all_of(m_transparencyGroupDataStack.cbegin(), m_transparencyGroupDataStack.cend(), [](const PDFTransparencyGroupPainterData& group) { return group.blendMode == BlendMode::Normal || group.blendMode == BlendMode::Compatible; }); } void PDFPainterBase::performBeginTransparencyGroup(ProcessOrder order, const PDFTransparencyGroup& transparencyGroup) { if (order == ProcessOrder::BeforeOperation) { PDFTransparencyGroupPainterData data; data.group = transparencyGroup; data.alphaFill = getGraphicState()->getAlphaFilling(); data.alphaStroke = getGraphicState()->getAlphaStroking(); data.blendMode = getGraphicState()->getBlendMode(); m_transparencyGroupDataStack.emplace_back(qMove(data)); } } void PDFPainterBase::performEndTransparencyGroup(ProcessOrder order, const PDFTransparencyGroup& transparencyGroup) { Q_UNUSED(transparencyGroup); if (order == ProcessOrder::AfterOperation) { m_transparencyGroupDataStack.pop_back(); } } PDFPainter::PDFPainter(QPainter* painter, PDFRenderer::Features features, QMatrix pagePointToDevicePointMatrix, const PDFPage* page, const PDFDocument* document, const PDFFontCache* fontCache, const PDFCMS* cms, const PDFOptionalContentActivity* optionalContentActivity, const PDFMeshQualitySettings& meshQualitySettings) : BaseClass(features, page, document, fontCache, cms, optionalContentActivity, pagePointToDevicePointMatrix, meshQualitySettings), m_painter(painter) { Q_ASSERT(painter); Q_ASSERT(pagePointToDevicePointMatrix.isInvertible()); m_painter->save(); if (features.testFlag(PDFRenderer::ClipToCropBox)) { QRectF cropBox = page->getCropBox(); if (cropBox.isValid()) { QPainterPath path; path.addPolygon(pagePointToDevicePointMatrix.map(cropBox)); m_painter->setClipPath(path, Qt::IntersectClip); } } m_painter->setRenderHint(QPainter::SmoothPixmapTransform, features.testFlag(PDFRenderer::SmoothImages)); } PDFPainter::~PDFPainter() { m_painter->restore(); } void PDFPainter::performPathPainting(const QPainterPath& path, bool stroke, bool fill, bool text, Qt::FillRule fillRule) { Q_ASSERT(stroke || fill); // Set antialiasing const bool antialiasing = (text && hasFeature(PDFRenderer::TextAntialiasing)) || (!text && hasFeature(PDFRenderer::Antialiasing)); m_painter->setRenderHint(QPainter::Antialiasing, antialiasing); if (stroke) { m_painter->setPen(getCurrentPen()); } else { m_painter->setPen(Qt::NoPen); } if (fill) { m_painter->setBrush(getCurrentBrush()); } else { m_painter->setBrush(Qt::NoBrush); } Q_ASSERT(path.fillRule() == fillRule); m_painter->drawPath(path); } void PDFPainter::performClipping(const QPainterPath& path, Qt::FillRule fillRule) { Q_ASSERT(path.fillRule() == fillRule); m_painter->setClipPath(path, Qt::IntersectClip); } void PDFPainter::performImagePainting(const QImage& image) { if (isContentSuppressed()) { // Content is suppressed, do not paint anything return; } m_painter->save(); QImage adjustedImage = image; if (hasFeature(PDFRenderer::SmoothImages)) { // Test, if we can use smooth images. We can use them under following conditions: // 1) Transformed rectangle is not skewed or deformed (so vectors (0, 1) and (1, 0) are orthogonal) // 2) Image enlargement is not too big (so we doesn't run out of memory) QMatrix matrix = m_painter->worldMatrix(); QLineF mappedWidthVector = matrix.map(QLineF(0, 0, 1, 0)); QLineF mappedHeightVector = matrix.map(QLineF(0, 0, 0, 1)); qreal angle = mappedWidthVector.angleTo(mappedHeightVector); if (qFuzzyCompare(angle, 90.0)) { // Image is not skewed, so we test enlargement factor const int newWidth = mappedWidthVector.length(); const int newHeight = mappedHeightVector.length(); const int newPixels = newWidth * newHeight; const int oldPixels = image.width() * image.height(); if (newPixels < oldPixels * 8) { QSize size = adjustedImage.size(); QSize adjustedImageSize = size.scaled(newWidth, newHeight, Qt::KeepAspectRatio); adjustedImage = adjustedImage.scaled(adjustedImageSize, Qt::KeepAspectRatio, Qt::SmoothTransformation); } } } QMatrix imageTransform(1.0 / adjustedImage.width(), 0, 0, 1.0 / adjustedImage.height(), 0, 0); QMatrix worldMatrix = imageTransform * m_painter->worldMatrix(); // Because Qt uses opposite axis direction than PDF, then we must transform the y-axis // to the opposite (so the image is then unchanged) worldMatrix.translate(0, adjustedImage.height()); worldMatrix.scale(1, -1); m_painter->setWorldMatrix(worldMatrix); m_painter->drawImage(0, 0, adjustedImage); m_painter->restore(); } void PDFPainter::performMeshPainting(const PDFMesh& mesh) { m_painter->save(); m_painter->setWorldMatrix(QMatrix()); mesh.paint(m_painter, getEffectiveFillingAlpha()); m_painter->restore(); } void PDFPainter::performSaveGraphicState(ProcessOrder order) { if (order == ProcessOrder::AfterOperation) { m_painter->save(); } } void PDFPainter::performRestoreGraphicState(ProcessOrder order) { if (order == ProcessOrder::BeforeOperation) { m_painter->restore(); } } void PDFPainter::setWorldMatrix(const QMatrix& matrix) { m_painter->setWorldMatrix(matrix, false); } void PDFPainter::setCompositionMode(QPainter::CompositionMode mode) { m_painter->setCompositionMode(mode); } PDFPrecompiledPageGenerator::PDFPrecompiledPageGenerator(PDFPrecompiledPage* precompiledPage, PDFRenderer::Features features, const PDFPage* page, const PDFDocument* document, const PDFFontCache* fontCache, const PDFCMS* cms, const PDFOptionalContentActivity* optionalContentActivity, const PDFMeshQualitySettings& meshQualitySettings) : BaseClass(features, page, document, fontCache, cms, optionalContentActivity, QMatrix(), meshQualitySettings), m_precompiledPage(precompiledPage) { m_precompiledPage->setPaperColor(cms->getPaperColor()); m_precompiledPage->getSnapInfo()->addPageMediaBox(page->getRotatedMediaBox()); } void PDFPrecompiledPageGenerator::performPathPainting(const QPainterPath& path, bool stroke, bool fill, bool text, Qt::FillRule fillRule) { Q_ASSERT(stroke || fill); Q_ASSERT(path.fillRule() == fillRule); QPen pen = stroke ? getCurrentPen() : QPen(Qt::NoPen); QBrush brush = fill ? getCurrentBrush() : QBrush(Qt::NoBrush); m_precompiledPage->addPath(qMove(pen), qMove(brush), path, text); } void PDFPrecompiledPageGenerator::performClipping(const QPainterPath& path, Qt::FillRule fillRule) { Q_ASSERT(path.fillRule() == fillRule); m_precompiledPage->addClip(path); } void PDFPrecompiledPageGenerator::performImagePainting(const QImage& image) { if (isContentSuppressed()) { // Content is suppressed, do not paint anything return; } // Add snap info for image to the snapper QMatrix matrix = getCurrentWorldMatrix(); PDFSnapInfo* snapInfo = m_precompiledPage->getSnapInfo(); snapInfo->addImage({ matrix.map(QPointF(0.0, 0.0)), matrix.map(QPointF(1.0, 0.0)), matrix.map(QPointF(1.0, 1.0)), matrix.map(QPointF(0.0, 1.0)), matrix.map(QPointF(0.5, 0.5)), }, image); if (isTransparencyGroupActive()) { PDFReal alpha = getEffectiveFillingAlpha(); if (alpha != 1.0) { // Try to approximate transparency group using alpha channel QImage imageWithAlpha = image; QImage alphaChannel = imageWithAlpha.convertToFormat(QImage::Format_Alpha8); uchar* bits = alphaChannel.bits(); for (qsizetype i = 0, sizeInBytes = alphaChannel.sizeInBytes(); i < sizeInBytes; ++i) { bits[i] *= alpha; } imageWithAlpha.setAlphaChannel(alphaChannel); m_precompiledPage->addImage(imageWithAlpha); return; } } m_precompiledPage->addImage(image); } void PDFPrecompiledPageGenerator::performMeshPainting(const PDFMesh& mesh) { m_precompiledPage->addMesh(mesh, getEffectiveFillingAlpha()); } void PDFPrecompiledPageGenerator::performSaveGraphicState(PDFPageContentProcessor::ProcessOrder order) { if (order == ProcessOrder::AfterOperation) { m_precompiledPage->addSaveGraphicState(); } } void PDFPrecompiledPageGenerator::performRestoreGraphicState(PDFPageContentProcessor::ProcessOrder order) { if (order == ProcessOrder::BeforeOperation) { m_precompiledPage->addRestoreGraphicState(); } } void PDFPrecompiledPageGenerator::setWorldMatrix(const QMatrix& matrix) { m_precompiledPage->addSetWorldMatrix(matrix); } void PDFPrecompiledPageGenerator::setCompositionMode(QPainter::CompositionMode mode) { m_precompiledPage->addSetCompositionMode(mode); } void PDFPrecompiledPage::draw(QPainter* painter, const QRectF& cropBox, const QMatrix& pagePointToDevicePointMatrix, PDFRenderer::Features features) const { Q_ASSERT(painter); Q_ASSERT(pagePointToDevicePointMatrix.isInvertible()); painter->save(); painter->setWorldMatrix(QMatrix()); if (features.testFlag(PDFRenderer::ClipToCropBox)) { if (cropBox.isValid()) { QPainterPath path; path.addPolygon(pagePointToDevicePointMatrix.map(cropBox)); painter->setClipPath(path, Qt::IntersectClip); } } painter->setRenderHint(QPainter::SmoothPixmapTransform, features.testFlag(PDFRenderer::SmoothImages)); // Process all instructions for (const Instruction& instruction : m_instructions) { switch (instruction.type) { case InstructionType::DrawPath: { const PathPaintData& data = m_paths[instruction.dataIndex]; // Set antialiasing const bool antialiasing = (data.isText && features.testFlag(PDFRenderer::TextAntialiasing)) || (!data.isText && features.testFlag(PDFRenderer::Antialiasing)); painter->setRenderHint(QPainter::Antialiasing, antialiasing); painter->setPen(data.pen); painter->setBrush(data.brush); painter->drawPath(data.path); break; } case InstructionType::DrawImage: { const ImageData& data = m_images[instruction.dataIndex]; const QImage& image = data.image; painter->save(); QMatrix imageTransform(1.0 / image.width(), 0, 0, 1.0 / image.height(), 0, 0); QMatrix worldMatrix = imageTransform * painter->worldMatrix(); // Jakub Melka: Because Qt uses opposite axis direction than PDF, then we must transform the y-axis // to the opposite (so the image is then unchanged) worldMatrix.translate(0, image.height()); worldMatrix.scale(1, -1); painter->setWorldMatrix(worldMatrix); painter->drawImage(0, 0, image); painter->restore(); break; } case InstructionType::DrawMesh: { const MeshPaintData& data = m_meshes[instruction.dataIndex]; painter->save(); painter->setWorldMatrix(pagePointToDevicePointMatrix); data.mesh.paint(painter, data.alpha); painter->restore(); break; } case InstructionType::Clip: { painter->setClipPath(m_clips[instruction.dataIndex].clipPath, Qt::IntersectClip); break; } case InstructionType::SaveGraphicState: { painter->save(); break; } case InstructionType::RestoreGraphicState: { painter->restore(); break; } case InstructionType::SetWorldMatrix: { painter->setWorldMatrix(m_matrices[instruction.dataIndex] * pagePointToDevicePointMatrix); break; } case InstructionType::SetCompositionMode: { painter->setCompositionMode(m_compositionModes[instruction.dataIndex]); break; } default: { Q_ASSERT(false); break; } } } painter->restore(); } void PDFPrecompiledPage::redact(QPainterPath redactPath, const QMatrix& matrix, QColor color) { if (redactPath.isEmpty()) { // Nothing to be redacted return; } std::stack worldMatrixStack; worldMatrixStack.push(matrix); if (color.isValid()) { m_instructions.insert(m_instructions.begin(), Instruction(InstructionType::SaveGraphicState, 0)); } // Process all instructions for (const Instruction& instruction : m_instructions) { switch (instruction.type) { case InstructionType::DrawPath: { QMatrix matrix = worldMatrixStack.top().inverted(); QPainterPath mappedRedactPath = matrix.map(redactPath); PathPaintData& path = m_paths[instruction.dataIndex]; path.path = path.path.subtracted(mappedRedactPath); break; } case InstructionType::DrawImage: { ImageData& data = m_images[instruction.dataIndex]; QImage& image = data.image; QMatrix imageTransform(1.0 / image.width(), 0, 0, 1.0 / image.height(), 0, 0); QMatrix worldMatrix = imageTransform * worldMatrixStack.top(); // Jakub Melka: Because Qt uses opposite axis direction than PDF, then we must transform the y-axis // to the opposite (so the image is then unchanged) worldMatrix.translate(0, image.height()); worldMatrix.scale(1, -1); QPainter painter(&image); painter.setWorldMatrix(worldMatrix.inverted()); painter.drawPath(redactPath); painter.end(); break; } case InstructionType::DrawMesh: // We do not redact mesh break; case InstructionType::Clip: { QMatrix matrix = worldMatrixStack.top().inverted(); QPainterPath mappedRedactPath = matrix.map(redactPath); m_clips[instruction.dataIndex].clipPath = m_clips[instruction.dataIndex].clipPath.subtracted(mappedRedactPath); break; } case InstructionType::SaveGraphicState: worldMatrixStack.push(worldMatrixStack.top()); break; case InstructionType::RestoreGraphicState: worldMatrixStack.pop(); break; case InstructionType::SetWorldMatrix: worldMatrixStack.top() = m_matrices[instruction.dataIndex]; break; case InstructionType::SetCompositionMode: break; default: { Q_ASSERT(false); break; } } } if (color.isValid()) { addRestoreGraphicState(); addPath(Qt::NoPen, QBrush(color), matrix.map(redactPath), false); } } void PDFPrecompiledPage::addPath(QPen pen, QBrush brush, QPainterPath path, bool isText) { m_instructions.emplace_back(InstructionType::DrawPath, m_paths.size()); m_paths.emplace_back(qMove(pen), qMove(brush), qMove(path), isText); } void PDFPrecompiledPage::addClip(QPainterPath path) { m_instructions.emplace_back(InstructionType::Clip, m_clips.size()); m_clips.emplace_back(qMove(path)); } void PDFPrecompiledPage::addImage(QImage image) { // Convert the image into format Format_ARGB32_Premultiplied for fast drawing. // If this format is used, then no image conversion is performed while drawing. if (image.format() != QImage::Format_ARGB32_Premultiplied) { image.convertTo(QImage::Format_ARGB32_Premultiplied); } m_instructions.emplace_back(InstructionType::DrawImage, m_images.size()); m_images.emplace_back(qMove(image)); } void PDFPrecompiledPage::addMesh(PDFMesh mesh, PDFReal alpha) { m_instructions.emplace_back(InstructionType::DrawMesh, m_meshes.size()); m_meshes.emplace_back(qMove(mesh), alpha); } void PDFPrecompiledPage::addSetWorldMatrix(const QMatrix& matrix) { m_instructions.emplace_back(InstructionType::SetWorldMatrix, m_matrices.size()); m_matrices.push_back(matrix); } void PDFPrecompiledPage::addSetCompositionMode(QPainter::CompositionMode compositionMode) { m_instructions.emplace_back(InstructionType::SetCompositionMode, m_compositionModes.size()); m_compositionModes.push_back(compositionMode); } void PDFPrecompiledPage::optimize() { m_instructions.shrink_to_fit(); m_paths.shrink_to_fit(); m_clips.shrink_to_fit(); m_images.shrink_to_fit(); m_meshes.shrink_to_fit(); m_matrices.shrink_to_fit(); m_compositionModes.shrink_to_fit(); } void PDFPrecompiledPage::invertColors() { // Jakub Melka: we must invert colors in following areas: // - painter paths // - images // - meshes for (PathPaintData& pathData : m_paths) { if (pathData.pen.style() != Qt::NoPen) { pathData.pen.setColor(invertColor(pathData.pen.color())); } if (pathData.brush.style() == Qt::SolidPattern) { pathData.brush.setColor(invertColor(pathData.brush.color())); } } for (ImageData& imageData : m_images) { imageData.image.invertPixels(QImage::InvertRgb); } for (MeshPaintData& meshPaintData : m_meshes) { meshPaintData.mesh.invertColors(); } m_paperColor = invertColor(m_paperColor); } void PDFPrecompiledPage::finalize(qint64 compilingTimeNS, QList errors) { m_compilingTimeNS = compilingTimeNS; m_errors = qMove(errors); // Determine memory consumption m_memoryConsumptionEstimate = sizeof(*this); m_memoryConsumptionEstimate += sizeof(Instruction) * m_instructions.capacity(); m_memoryConsumptionEstimate += sizeof(PathPaintData) * m_paths.capacity(); m_memoryConsumptionEstimate += sizeof(ClipData) * m_clips.capacity(); m_memoryConsumptionEstimate += sizeof(ImageData) * m_images.capacity(); m_memoryConsumptionEstimate += sizeof(MeshPaintData) * m_meshes.capacity(); m_memoryConsumptionEstimate += sizeof(QMatrix) * m_matrices.capacity(); m_memoryConsumptionEstimate += sizeof(QPainter::CompositionMode) * m_compositionModes.capacity(); m_memoryConsumptionEstimate += sizeof(PDFRenderError) * m_errors.size(); auto calculateQPathMemoryConsumption = [](const QPainterPath& path) { return sizeof(QPainterPath::Element) * path.capacity(); }; for (const PathPaintData& data : m_paths) { // Texts are shared from the font if (!data.isText) { m_memoryConsumptionEstimate += calculateQPathMemoryConsumption(data.path); } } for (const ClipData& data : m_clips) { m_memoryConsumptionEstimate += calculateQPathMemoryConsumption(data.clipPath); } for (const ImageData& data : m_images) { m_memoryConsumptionEstimate += data.image.sizeInBytes(); } for (const MeshPaintData& data : m_meshes) { m_memoryConsumptionEstimate += data.mesh.getMemoryConsumptionEstimate(); } } } // namespace pdf