PDF4QT/Pdf4QtLib/sources/pdfrenderer.cpp
2022-02-04 20:03:23 +01:00

929 lines
29 KiB
C++

// Copyright (C) 2019-2022 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
// with the written consent of the copyright owner, 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 <https://www.gnu.org/licenses/>.
#include "pdfrenderer.h"
#include "pdfpainter.h"
#include "pdfdocument.h"
#include "pdfexecutionpolicy.h"
#include "pdfprogress.h"
#include "pdfannotation.h"
#include "pdfdbgheap.h"
#include <QDir>
#include <QElapsedTimer>
#include <QOpenGLContext>
#include <QOffscreenSurface>
#include <QOpenGLPaintDevice>
#include <QOpenGLFramebufferObject>
namespace pdf
{
PDFRenderer::PDFRenderer(const PDFDocument* document,
const PDFFontCache* fontCache,
const PDFCMS* cms,
const PDFOptionalContentActivity* optionalContentActivity,
Features features,
const PDFMeshQualitySettings& meshQualitySettings) :
m_document(document),
m_fontCache(fontCache),
m_cms(cms),
m_optionalContentActivity(optionalContentActivity),
m_operationControl(nullptr),
m_features(features),
m_meshQualitySettings(meshQualitySettings)
{
Q_ASSERT(document);
}
QMatrix PDFRenderer::createPagePointToDevicePointMatrix(const PDFPage* page,
const QRectF& rectangle,
PageRotation extraRotation)
{
PageRotation pageRotation = getPageRotationCombined(page->getPageRotation(), extraRotation);
QRectF mediaBox = page->getRotatedBox(page->getMediaBox(), pageRotation);
return createMediaBoxToDevicePointMatrix(mediaBox, rectangle, pageRotation);
}
QMatrix PDFRenderer::createMediaBoxToDevicePointMatrix(const QRectF& mediaBox,
const QRectF& rectangle,
PageRotation rotation)
{
QMatrix matrix;
switch (rotation)
{
case PageRotation::None:
{
matrix.translate(rectangle.left(), rectangle.bottom());
matrix.scale(rectangle.width() / mediaBox.width(), -rectangle.height() / mediaBox.height());
break;
}
case PageRotation::Rotate90:
{
matrix.translate(rectangle.left(), rectangle.top());
matrix.rotate(90);
matrix.scale(rectangle.width() / mediaBox.width(), -rectangle.height() / mediaBox.height());
break;
}
case PageRotation::Rotate270:
{
matrix.translate(rectangle.right(), rectangle.top());
matrix.rotate(-90);
matrix.translate(-rectangle.height(), 0);
matrix.scale(rectangle.width() / mediaBox.width(), -rectangle.height() / mediaBox.height());
break;
}
case PageRotation::Rotate180:
{
matrix.translate(rectangle.left(), rectangle.top());
matrix.scale(rectangle.width() / mediaBox.width(), rectangle.height() / mediaBox.height());
break;
}
default:
{
Q_ASSERT(false);
break;
}
}
return matrix;
}
const PDFOperationControl* PDFRenderer::getOperationControl() const
{
return m_operationControl;
}
void PDFRenderer::setOperationControl(const PDFOperationControl* newOperationControl)
{
m_operationControl = newOperationControl;
}
QList<PDFRenderError> PDFRenderer::render(QPainter* painter, const QRectF& rectangle, size_t pageIndex) const
{
const PDFCatalog* catalog = m_document->getCatalog();
if (pageIndex >= catalog->getPageCount() || !catalog->getPage(pageIndex))
{
// Invalid page index
return { PDFRenderError(RenderErrorType::Error, PDFTranslationContext::tr("Page %1 doesn't exist.").arg(pageIndex + 1)) };
}
const PDFPage* page = catalog->getPage(pageIndex);
Q_ASSERT(page);
QMatrix matrix = createPagePointToDevicePointMatrix(page, rectangle);
PDFPainter processor(painter, m_features, matrix, page, m_document, m_fontCache, m_cms, m_optionalContentActivity, m_meshQualitySettings);
processor.setOperationControl(m_operationControl);
return processor.processContents();
}
QList<PDFRenderError> PDFRenderer::render(QPainter* painter, const QMatrix& matrix, size_t pageIndex) const
{
const PDFCatalog* catalog = m_document->getCatalog();
if (pageIndex >= catalog->getPageCount() || !catalog->getPage(pageIndex))
{
// Invalid page index
return { PDFRenderError(RenderErrorType::Error, PDFTranslationContext::tr("Page %1 doesn't exist.").arg(pageIndex + 1)) };
}
const PDFPage* page = catalog->getPage(pageIndex);
Q_ASSERT(page);
PDFPainter processor(painter, m_features, matrix, page, m_document, m_fontCache, m_cms, m_optionalContentActivity, m_meshQualitySettings);
processor.setOperationControl(m_operationControl);
return processor.processContents();
}
void PDFRenderer::compile(PDFPrecompiledPage* precompiledPage, size_t pageIndex) const
{
const PDFCatalog* catalog = m_document->getCatalog();
if (pageIndex >= catalog->getPageCount() || !catalog->getPage(pageIndex))
{
// Invalid page index
precompiledPage->finalize(0, { PDFRenderError(RenderErrorType::Error, PDFTranslationContext::tr("Page %1 doesn't exist.").arg(pageIndex + 1)) });
return;
}
const PDFPage* page = catalog->getPage(pageIndex);
Q_ASSERT(page);
QElapsedTimer timer;
timer.start();
PDFPrecompiledPageGenerator generator(precompiledPage, m_features, page, m_document, m_fontCache, m_cms, m_optionalContentActivity, m_meshQualitySettings);
generator.setOperationControl(m_operationControl);
QList<PDFRenderError> errors = generator.processContents();
if (m_features.testFlag(InvertColors))
{
precompiledPage->invertColors();
}
precompiledPage->optimize();
precompiledPage->finalize(timer.nsecsElapsed(), qMove(errors));
timer.invalidate();
}
PDFRasterizer::PDFRasterizer(QObject* parent) :
BaseClass(parent),
m_features(),
m_surfaceFormat(),
m_surface(nullptr),
m_context(nullptr),
m_fbo(nullptr)
{
}
PDFRasterizer::~PDFRasterizer()
{
releaseOpenGL();
}
void PDFRasterizer::reset(bool useOpenGL, const QSurfaceFormat& surfaceFormat)
{
if (useOpenGL != m_features.testFlag(UseOpenGL) || surfaceFormat != m_surfaceFormat)
{
// In either case, we must reset OpenGL
releaseOpenGL();
m_features.setFlag(UseOpenGL, useOpenGL);
m_surfaceFormat = surfaceFormat;
// We create new OpenGL renderer, but only if it hasn't failed (we do not try
// again to create new OpenGL renderer.
if (m_features.testFlag(UseOpenGL) && !m_features.testFlag(FailedOpenGL))
{
initializeOpenGL();
}
}
}
QImage PDFRasterizer::render(PDFInteger pageIndex,
const PDFPage* page,
const PDFPrecompiledPage* compiledPage,
QSize size,
PDFRenderer::Features features,
const PDFAnnotationManager* annotationManager,
PageRotation extraRotation)
{
QImage image;
QMatrix matrix = PDFRenderer::createPagePointToDevicePointMatrix(page, QRect(QPoint(0, 0), size), extraRotation);
if (m_features.testFlag(UseOpenGL) && m_features.testFlag(ValidOpenGL))
{
// We have valid OpenGL context, try to select it and possibly create framebuffer object
// for target image (to paint it using paint device).
Q_ASSERT(m_surface && m_context);
if (m_context->makeCurrent(m_surface))
{
if (!m_fbo || m_fbo->width() != size.width() || m_fbo->height() != size.height())
{
// Delete old framebuffer object
delete m_fbo;
// Create a new framebuffer object
QOpenGLFramebufferObjectFormat format;
format.setSamples(m_surfaceFormat.samples());
m_fbo = new QOpenGLFramebufferObject(size.width(), size.height(), format);
}
Q_ASSERT(m_fbo);
if (m_fbo->isValid() && m_fbo->bind())
{
// Now, we have bind the buffer. Due to bug in Qt's OpenGL drawing subsystem,
// we must render it two times, otherwise painter paths will be sometimes
// replaced by filled rectangles.
for (int i = 0; i < 2; ++i)
{
QOpenGLPaintDevice device(size);
QPainter painter(&device);
painter.fillRect(QRect(QPoint(0, 0), size), compiledPage->getPaperColor());
compiledPage->draw(&painter, page->getCropBox(), matrix, features, 1.0);
if (annotationManager)
{
QList<PDFRenderError> errors;
PDFTextLayoutGetter textLayoutGetter(nullptr, pageIndex);
annotationManager->drawPage(&painter, pageIndex, compiledPage, textLayoutGetter, matrix, errors);
}
}
m_fbo->release();
image = m_fbo->toImage();
}
else
{
m_features.setFlag(FailedOpenGL, true);
m_features.setFlag(ValidOpenGL, false);
}
m_context->doneCurrent();
}
}
if (image.isNull())
{
// If we can't use OpenGL, or user doesn't want to use OpenGL, then fallback
// to standard software rasterizer.
image = QImage(size, QImage::Format_ARGB32_Premultiplied);
image.fill(Qt::white);
QPainter painter(&image);
compiledPage->draw(&painter, page->getCropBox(), matrix, features, 1.0);
if (annotationManager)
{
QList<PDFRenderError> errors;
PDFTextLayoutGetter textLayoutGetter(nullptr, pageIndex);
annotationManager->drawPage(&painter, pageIndex, compiledPage, textLayoutGetter, matrix, errors);
}
}
// Jakub Melka: 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);
}
return image;
}
void PDFRasterizer::initializeOpenGL()
{
Q_ASSERT(!m_surface);
Q_ASSERT(!m_context);
Q_ASSERT(!m_fbo);
m_features.setFlag(ValidOpenGL, false);
m_features.setFlag(FailedOpenGL, false);
// Create context
m_context = new QOpenGLContext(this);
m_context->setFormat(m_surfaceFormat);
if (!m_context->create())
{
m_features.setFlag(FailedOpenGL, true);
delete m_context;
m_context = nullptr;
}
// Create surface
m_surface = new QOffscreenSurface(nullptr, this);
m_surface->setFormat(m_surfaceFormat);
m_surface->create();
if (!m_surface->isValid())
{
m_features.setFlag(FailedOpenGL, true);
delete m_context;
delete m_surface;
m_context = nullptr;
m_surface = nullptr;
}
// Check, if we can make it current
if (m_context->makeCurrent(m_surface))
{
m_features.setFlag(ValidOpenGL, true);
m_context->doneCurrent();
}
else
{
m_features.setFlag(FailedOpenGL, true);
releaseOpenGL();
}
}
void PDFRasterizer::releaseOpenGL()
{
if (m_surface)
{
Q_ASSERT(m_context);
// Delete framebuffer
if (m_fbo)
{
m_context->makeCurrent(m_surface);
delete m_fbo;
m_fbo = nullptr;
m_context->doneCurrent();
}
// Delete OpenGL context
delete m_context;
m_context = nullptr;
// Delete surface
m_surface->destroy();
delete m_surface;
m_surface = nullptr;
// Set flag, that we do not have valid OpenGL
m_features.setFlag(ValidOpenGL, false);
}
}
PDFRasterizer* PDFRasterizerPool::acquire()
{
m_semaphore.acquire();
QMutexLocker guard(&m_mutex);
Q_ASSERT(!m_rasterizers.empty());
PDFRasterizer* rasterizer = m_rasterizers.back();
m_rasterizers.pop_back();
return rasterizer;
}
void PDFRasterizerPool::release(pdf::PDFRasterizer* rasterizer)
{
QMutexLocker guard(&m_mutex);
Q_ASSERT(std::find(m_rasterizers.cbegin(), m_rasterizers.cend(), rasterizer) == m_rasterizers.cend());
m_rasterizers.push_back(rasterizer);
// Jakub Melka: we must release it at the end, to ensure rasterizer is in the array before
// semaphore is released, to avoid race condition.
m_semaphore.release();
}
void PDFRasterizerPool::render(const std::vector<PDFInteger>& pageIndices,
const PDFRasterizerPool::PageImageSizeGetter& imageSizeGetter,
const PDFRasterizerPool::ProcessImageMethod& processImage,
PDFProgress* progress)
{
if (pageIndices.empty())
{
return;
}
Q_ASSERT(imageSizeGetter);
Q_ASSERT(processImage);
QElapsedTimer timer;
timer.start();
emit renderError(PDFCatalog::INVALID_PAGE_INDEX, PDFRenderError(RenderErrorType::Information, PDFTranslationContext::tr("Start at %1...").arg(QTime::currentTime().toString(Qt::TextDate))));
if (progress)
{
ProgressStartupInfo info;
info.showDialog = true;
info.text = PDFTranslationContext::tr("Rendering document into images.");
progress->start(pageIndices.size(), qMove(info));
}
auto processPage = [this, progress, &imageSizeGetter, &processImage](const PDFInteger pageIndex)
{
const PDFPage* page = m_document->getCatalog()->getPage(pageIndex);
if (!page)
{
if (progress)
{
progress->step();
}
emit renderError(pageIndex, PDFRenderError(RenderErrorType::Error, PDFTranslationContext::tr("Page %1 not found.").arg(pageIndex)));
return;
}
QElapsedTimer totalPageTimer;
totalPageTimer.start();
QElapsedTimer pageTimer;
pageTimer.start();
// Precompile the page
PDFPrecompiledPage precompiledPage;
PDFCMSPointer cms = m_cmsManager->getCurrentCMS();
PDFRenderer renderer(m_document, m_fontCache, cms.data(), m_optionalContentActivity, m_features, m_meshQualitySettings);
renderer.compile(&precompiledPage, pageIndex);
qint64 pageCompileTime = pageTimer.restart();
for (const PDFRenderError& error : precompiledPage.getErrors())
{
emit renderError(pageIndex, error);
}
// We can const-cast here, because we do not modify the document in annotation manager.
// Annotations are just rendered to the target picture.
PDFModifiedDocument modifiedDocument(const_cast<PDFDocument*>(m_document), const_cast<PDFOptionalContentActivity*>(m_optionalContentActivity));
// Annotation manager
PDFAnnotationManager annotationManager(m_fontCache, m_cmsManager, m_optionalContentActivity, m_meshQualitySettings, m_features, PDFAnnotationManager::Target::Print, nullptr);
annotationManager.setDocument(modifiedDocument);
// Render page to image
pageTimer.restart();
PDFRasterizer* rasterizer = acquire();
qint64 pageWaitTime = pageTimer.restart();
QImage image = rasterizer->render(pageIndex, page, &precompiledPage, imageSizeGetter(page), m_features, &annotationManager, PageRotation::None);
qint64 pageRenderTime = pageTimer.elapsed();
release(rasterizer);
// Now, process the image
PDFRenderedPageImage renderedPageImage;
renderedPageImage.pageIndex = pageIndex;
renderedPageImage.pageImage = qMove(image);
renderedPageImage.pageCompileTime = pageCompileTime;
renderedPageImage.pageWaitTime = pageWaitTime;
renderedPageImage.pageRenderTime = pageRenderTime;
renderedPageImage.pageTotalTime = totalPageTimer.elapsed();
processImage(renderedPageImage);
if (progress)
{
progress->step();
}
};
PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Page, pageIndices.cbegin(), pageIndices.cend(), processPage);
if (progress)
{
progress->finish();
}
emit renderError(PDFCatalog::INVALID_PAGE_INDEX, PDFRenderError(RenderErrorType::Information, PDFTranslationContext::tr("Finished at %1...").arg(QTime::currentTime().toString(Qt::TextDate))));
emit renderError(PDFCatalog::INVALID_PAGE_INDEX, PDFRenderError(RenderErrorType::Information, PDFTranslationContext::tr("%1 miliseconds elapsed to render %2 pages...").arg(timer.nsecsElapsed() / 1000000).arg(pageIndices.size())));
}
int PDFRasterizerPool::getDefaultRasterizerCount()
{
int hint = QThread::idealThreadCount() / 2;
return getCorrectedRasterizerCount(hint);
}
int PDFRasterizerPool::getCorrectedRasterizerCount(int rasterizerCount)
{
return qBound(1, rasterizerCount, 256);
}
PDFImageWriterSettings::PDFImageWriterSettings()
{
m_formats = QImageWriter::supportedImageFormats();
constexpr const char* DEFAULT_FORMAT = "png";
if (m_formats.count(DEFAULT_FORMAT))
{
selectFormat(DEFAULT_FORMAT);
}
else
{
selectFormat(m_formats.front());
}
}
void PDFImageWriterSettings::selectFormat(const QByteArray& format)
{
if (m_currentFormat != format)
{
m_currentFormat = format;
QImageWriter writer;
writer.setFormat(format);
m_compression = 0;
m_quality = 0;
m_gamma = 0;
m_optimizedWrite = false;
m_progressiveScanWrite = false;
m_subtypes = writer.supportedSubTypes();
m_currentSubtype = !m_subtypes.isEmpty() ? m_subtypes.front() : QByteArray();
// Jakub Melka: init default values based on image handler. Unfortunately,
// image writer doesn't give us access to these values, so they are hardcoded.
if (format == "jpeg" || format == "jpg")
{
m_quality = 75;
m_optimizedWrite = false;
m_progressiveScanWrite = false;
}
else if (format == "png")
{
m_compression = 50;
m_quality = 50;
m_gamma = 0;
}
else if (format == "tif" || format == "tiff")
{
m_compression = 1;
}
else if (format == "webp")
{
m_quality = 75;
}
m_supportedOptions.clear();
for (QImageIOHandler::ImageOption imageOption : { QImageIOHandler::CompressionRatio, QImageIOHandler::Quality,
QImageIOHandler::Gamma, QImageIOHandler::OptimizedWrite,
QImageIOHandler::ProgressiveScanWrite, QImageIOHandler::SupportedSubTypes })
{
if (writer.supportsOption(imageOption))
{
m_supportedOptions.insert(imageOption);
}
}
}
}
int PDFImageWriterSettings::getCompression() const
{
return m_compression;
}
void PDFImageWriterSettings::setCompression(int compression)
{
m_compression = compression;
}
int PDFImageWriterSettings::getQuality() const
{
return m_quality;
}
void PDFImageWriterSettings::setQuality(int quality)
{
m_quality = quality;
}
float PDFImageWriterSettings::getGamma() const
{
return m_gamma;
}
void PDFImageWriterSettings::setGamma(float gamma)
{
m_gamma = gamma;
}
bool PDFImageWriterSettings::hasOptimizedWrite() const
{
return m_optimizedWrite;
}
void PDFImageWriterSettings::setOptimizedWrite(bool optimizedWrite)
{
m_optimizedWrite = optimizedWrite;
}
bool PDFImageWriterSettings::hasProgressiveScanWrite() const
{
return m_progressiveScanWrite;
}
void PDFImageWriterSettings::setProgressiveScanWrite(bool progressiveScanWrite)
{
m_progressiveScanWrite = progressiveScanWrite;
}
QByteArray PDFImageWriterSettings::getCurrentFormat() const
{
return m_currentFormat;
}
QByteArray PDFImageWriterSettings::getCurrentSubtype() const
{
return m_currentSubtype;
}
void PDFImageWriterSettings::setCurrentSubtype(const QByteArray& currentSubtype)
{
m_currentSubtype = currentSubtype;
}
PDFPageImageExportSettings::PDFPageImageExportSettings(const PDFDocument* document) :
m_document(document)
{
m_fileTemplate = PDFTranslationContext::tr("Image_%");
}
PDFPageImageExportSettings::ResolutionMode PDFPageImageExportSettings::getResolutionMode() const
{
return m_resolutionMode;
}
void PDFPageImageExportSettings::setResolutionMode(ResolutionMode resolution)
{
m_resolutionMode = resolution;
}
PDFPageImageExportSettings::PageSelectionMode PDFPageImageExportSettings::getPageSelectionMode() const
{
return m_pageSelectionMode;
}
void PDFPageImageExportSettings::setPageSelectionMode(PageSelectionMode pageSelectionMode)
{
m_pageSelectionMode = pageSelectionMode;
}
QString PDFPageImageExportSettings::getDirectory() const
{
return m_directory;
}
void PDFPageImageExportSettings::setDirectory(const QString& directory)
{
m_directory = directory;
}
QString PDFPageImageExportSettings::getFileTemplate() const
{
return m_fileTemplate;
}
void PDFPageImageExportSettings::setFileTemplate(const QString& fileTemplate)
{
m_fileTemplate = fileTemplate;
}
QString PDFPageImageExportSettings::getPageSelection() const
{
return m_pageSelection;
}
void PDFPageImageExportSettings::setPageSelection(const QString& pageSelection)
{
m_pageSelection = pageSelection;
}
int PDFPageImageExportSettings::getDpiResolution() const
{
return m_dpiResolution;
}
void PDFPageImageExportSettings::setDpiResolution(int dpiResolution)
{
m_dpiResolution = dpiResolution;
}
int PDFPageImageExportSettings::getPixelResolution() const
{
return m_pixelResolution;
}
void PDFPageImageExportSettings::setPixelResolution(int pixelResolution)
{
m_pixelResolution = pixelResolution;
}
bool PDFPageImageExportSettings::validate(QString* errorMessagePtr, bool validatePageSelection, bool validateFileSettings, bool validateResolution) const
{
QString dummy;
QString& errorMessage = errorMessagePtr ? *errorMessagePtr : dummy;
if (validateFileSettings)
{
if (m_directory.isEmpty())
{
errorMessage = PDFTranslationContext::tr("Target directory is empty.");
return false;
}
// Check, if target directory exists
QDir directory(m_directory);
if (!directory.exists())
{
errorMessage = PDFTranslationContext::tr("Target directory '%1' doesn't exist.").arg(m_directory);
return false;
}
if (m_fileTemplate.isEmpty())
{
errorMessage = PDFTranslationContext::tr("File template is empty.");
return false;
}
if (!m_fileTemplate.contains("%"))
{
errorMessage = PDFTranslationContext::tr("File template must contain character '%' for page number.");
return false;
}
}
// Check page selection
if (validatePageSelection)
{
if (m_pageSelectionMode == PageSelectionMode::Selection)
{
std::vector<PDFInteger> pages = getPages();
if (pages.empty())
{
errorMessage = PDFTranslationContext::tr("Page list is invalid. It should have form such as '1-12,17,24,27-29'.");
return false;
}
if (pages.back() >= PDFInteger(m_document->getCatalog()->getPageCount()))
{
errorMessage = PDFTranslationContext::tr("Page list contains page, which is not in the document (%1).").arg(pages.back());
return false;
}
}
}
if (validateResolution)
{
if (m_resolutionMode == ResolutionMode::DPI && (m_dpiResolution < getMinDPIResolution() || m_dpiResolution > getMaxDPIResolution()))
{
errorMessage = PDFTranslationContext::tr("DPI resolution should be in range %1 to %2.").arg(getMinDPIResolution()).arg(getMaxDPIResolution());
return false;
}
if (m_resolutionMode == ResolutionMode::Pixels && (m_pixelResolution < getMinPixelResolution() || m_pixelResolution > getMaxPixelResolution()))
{
errorMessage = PDFTranslationContext::tr("Pixel resolution should be in range %1 to %2.").arg(getMinPixelResolution()).arg(getMaxPixelResolution());
return false;
}
}
return true;
}
std::vector<PDFInteger> PDFPageImageExportSettings::getPages() const
{
std::vector<PDFInteger> result;
switch (m_pageSelectionMode)
{
case PageSelectionMode::All:
{
result.resize(m_document->getCatalog()->getPageCount(), 0);
std::iota(result.begin(), result.end(), 0);
break;
}
case PageSelectionMode::Selection:
{
bool ok = false;
QStringList parts = m_pageSelection.split(QChar(','), Qt::SkipEmptyParts, Qt::CaseSensitive);
for (const QString& part : parts)
{
QStringList numbers = part.split(QChar('-'), Qt::KeepEmptyParts, Qt::CaseSensitive);
switch (numbers.size())
{
case 1:
{
const QString& numberString = numbers.front();
result.push_back(numberString.toLongLong(&ok) - 1);
break;
}
case 2:
{
bool ok1 = false;
bool ok2 = false;
const QString& lowString = numbers.front();
const QString& highString = numbers.back();
const PDFInteger low = lowString.toLongLong(&ok1) - 1;
const PDFInteger high = highString.toLongLong(&ok2) - 1;
ok = ok1 && ok2 && low <= high && low >= 0;
if (ok)
{
const PDFInteger count = high - low + 1;
result.resize(result.size() + count, 0);
std::iota(std::prev(result.end(), count), result.end(), low);
}
break;
}
default:
{
ok = true;
break;
}
}
// If error is detected, do not continue in parsing
if (!ok)
{
break;
}
// We must remove duplicate pages
std::sort(result.begin(), result.end());
result.erase(std::unique(result.begin(), result.end()), result.end());
}
if (!ok)
{
result.clear();
}
break;
}
default:
break;
}
return result;
}
QString PDFPageImageExportSettings::getOutputFileName(PDFInteger pageIndex, const QByteArray& outputFormat) const
{
QString fileName = m_fileTemplate;
fileName.replace('%', QString::number(pageIndex + 1));
QFileInfo fileInfo(fileName);
if (fileInfo.suffix() != outputFormat)
{
fileName = QString("%1.%2").arg(fileName, QString::fromLatin1(outputFormat));
}
// Add directory
QString fileNameWithDirectory = QString("%1/%2").arg(m_directory, fileName);
return QDir::toNativeSeparators(fileNameWithDirectory);
}
PDFRasterizerPool::PDFRasterizerPool(const PDFDocument* document,
PDFFontCache* fontCache,
const PDFCMSManager* cmsManager,
const PDFOptionalContentActivity* optionalContentActivity,
PDFRenderer::Features features,
const PDFMeshQualitySettings& meshQualitySettings,
int rasterizerCount,
bool useOpenGL,
const QSurfaceFormat& surfaceFormat,
QObject* parent) :
BaseClass(parent),
m_document(document),
m_fontCache(fontCache),
m_cmsManager(cmsManager),
m_optionalContentActivity(optionalContentActivity),
m_features(features),
m_meshQualitySettings(meshQualitySettings),
m_semaphore(rasterizerCount)
{
m_rasterizers.reserve(rasterizerCount);
for (int i = 0; i < rasterizerCount; ++i)
{
m_rasterizers.push_back(new PDFRasterizer(this));
m_rasterizers.back()->reset(useOpenGL, surfaceFormat);
}
}
} // namespace pdf