// Copyright (C) 2021 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 .
#include "pdfdocumentmanipulator.h"
#include "pdfdocumentbuilder.h"
#include "pdfoptimizer.h"
namespace pdf
{
PDFOperationResult PDFDocumentManipulator::assemble(const AssembledPages& pages)
{
if (pages.empty())
{
return tr("Empty page list.");
}
m_flags = None;
m_mergedObjects = { };
m_assembledDocument = PDFDocument();
try
{
classify(pages);
pdf::PDFDocumentBuilder documentBuilder;
if (m_flags.testFlag(SingleDocument))
{
PDFInteger documentIndex = -1;
for (const AssembledPage& assembledPage : pages)
{
if (assembledPage.isDocumentPage())
{
documentIndex = assembledPage.documentIndex;
}
}
if (documentIndex == -1 || !m_documents.count(documentIndex))
{
throw PDFException(tr("Invalid document."));
}
documentBuilder.setDocument(m_documents.at(documentIndex));
}
else
{
documentBuilder.createDocument();
}
initializeMergedObjects(documentBuilder);
ProcessedPages processedPages = processPages(documentBuilder, pages);
std::vector adjustedPages;
std::transform(processedPages.cbegin(), processedPages.cend(), std::back_inserter(adjustedPages), [](const auto& page) { return page.targetPageReference; });
documentBuilder.setPages(adjustedPages);
// Correct page tree (invalid parents are present)
documentBuilder.flattenPageTree();
if (!m_flags.testFlag(SingleDocument) || m_flags.testFlag(RemovedPages))
{
documentBuilder.removeOutline();
documentBuilder.removeThreads();
documentBuilder.removeDocumentActions();
documentBuilder.removeStructureTree();
}
// Jakub Melka: we also create document parts for each document part (if we aren't
// manipulating a single document).
if (!m_flags.testFlag(SingleDocument))
{
addOutlineAndDocumentParts(documentBuilder, pages, adjustedPages);
}
pdf::PDFDocument mergedDocument = documentBuilder.build();
// Optimize document - remove unused objects and shrink object storage
finalizeDocument(&mergedDocument);
}
catch (PDFException exception)
{
return exception.getMessage();
}
return true;
}
PDFDocumentManipulator::AssembledPages PDFDocumentManipulator::createAllDocumentPages(int documentIndex, const PDFDocument* document)
{
AssembledPages assembledPages;
size_t pageCount = document->getCatalog()->getPageCount();
for (size_t i = 0; i < pageCount; ++i)
{
pdf::PDFDocumentManipulator::AssembledPage assembledPage;
assembledPage.documentIndex = documentIndex;
assembledPage.imageIndex = -1;
assembledPage.pageIndex = i;
const pdf::PDFPage* page = document->getCatalog()->getPage(i);
const pdf::PageRotation originalPageRotation = page->getPageRotation();
assembledPage.pageRotation = originalPageRotation;
assembledPage.pageSize = page->getMediaBox().size();
assembledPages.emplace_back(assembledPage);
}
return assembledPages;
}
PDFDocumentManipulator::ProcessedPages PDFDocumentManipulator::processPages(PDFDocumentBuilder& documentBuilder, const AssembledPages& pages)
{
ProcessedPages processedPages;
// First, decide, if we are manipulating a single document, or
// an array of documents. If the former is the case, then we do not
// want to copy objects, it is just unnecessary. If the latter is the case,
// then we must
if (m_flags.testFlag(SingleDocument))
{
documentBuilder.flattenPageTree();
std::vector pageReferences = documentBuilder.getPages();
std::set usedPages;
processedPages.reserve(pageReferences.size());
for (const AssembledPage& assembledPage : pages)
{
ProcessedPage processedPage;
processedPage.assembledPage = assembledPage;
if (assembledPage.isDocumentPage())
{
const PDFInteger pageIndex = assembledPage.pageIndex;
if (pageIndex < 0 || pageIndex >= PDFInteger(pageReferences.size()))
{
throw PDFException(tr("Missing page (%1) in a document.").arg(pageIndex));
}
PDFObjectReference pageReference = pageReferences[pageIndex];
if (!usedPages.count(pageReference))
{
processedPage.targetPageReference = pageReference;
usedPages.insert(pageReference);
}
else
{
// Page is being cloned. So we must clone it...
std::vector references = pdf::PDFDocumentBuilder::createReferencesFromObjects(documentBuilder.copyFrom(pdf::PDFDocumentBuilder::createObjectsFromReferences({ pageReference }), *documentBuilder.getStorage(), true));
Q_ASSERT(references.size() == 1);
processedPage.targetPageReference = references.front();
usedPages.insert(references.front());
}
}
processedPages.push_back(processedPage);
}
}
else
{
processedPages = collectObjectsAndCopyPages(documentBuilder, pages);
}
// Now, create "special" pages, such as image pages or blank pages, and rotate
// final pages (we must check, that page object exists).
for (ProcessedPage& processedPage : processedPages)
{
if (processedPage.assembledPage.isBlankPage() || processedPage.assembledPage.isImagePage())
{
QImage image;
if (processedPage.assembledPage.isImagePage())
{
const PDFInteger imageIndex = processedPage.assembledPage.imageIndex;
if (!m_images.count(imageIndex))
{
throw PDFException(tr("Missing image."));
}
image = m_images.at(imageIndex);
if (image.isNull())
{
throw PDFException(tr("Missing image."));
}
}
QRectF pageRect = QRectF(QPointF(0, 0), processedPage.assembledPage.pageSize * PDF_MM_TO_POINT);
processedPage.targetPageReference = documentBuilder.appendPage(pageRect);
PDFPageContentStreamBuilder contentStreamBuilder(&documentBuilder);
QPainter* painter = contentStreamBuilder.begin(processedPage.targetPageReference);
if (processedPage.assembledPage.isImagePage())
{
// Just paint the image
painter->drawImage(pageRect, image);
}
contentStreamBuilder.end(painter);
}
if (!processedPage.targetPageReference.isValid())
{
throw PDFException(tr("Error occured during page creation."));
}
documentBuilder.setPageRotation(processedPage.targetPageReference, processedPage.assembledPage.pageRotation);
}
return processedPages;
}
PDFDocumentManipulator::ProcessedPages PDFDocumentManipulator::collectObjectsAndCopyPages(PDFDocumentBuilder& documentBuilder, const AssembledPages& pages)
{
ProcessedPages processedPages;
processedPages.reserve(pages.size());
std::map, PDFObjectReference> documentPages;
for (const AssembledPage& assembledPage : pages)
{
ProcessedPage processedPage;
processedPage.assembledPage = assembledPage;
processedPages.push_back(processedPage);
if (assembledPage.isDocumentPage())
{
documentPages[std::make_pair(assembledPage.documentIndex, assembledPage.pageIndex)] = PDFObjectReference();
}
}
for (auto it = documentPages.begin(); it != documentPages.end();)
{
const int documentIndex = it->first.first;
// Jakub Melka: we will find end of a single document page range
auto itEnd = it;
while (itEnd != documentPages.end() && itEnd->first.first == documentIndex)
{
++itEnd;
}
if (documentIndex != -1)
{
// Check we have the document
if (!m_documents.count(documentIndex))
{
throw PDFException(tr("Invalid document."));
}
const PDFDocument* document = m_documents.at(documentIndex);
// Copy the pages into the target document builder
std::vector pageIndices;
for (auto currentIt = it; currentIt != itEnd; ++currentIt)
{
pageIndices.push_back(currentIt->first.second);
}
pdf::PDFDocumentBuilder temporaryBuilder(document);
temporaryBuilder.flattenPageTree();
std::vector currentPages = temporaryBuilder.getPages();
std::vector objectsToMerge;
objectsToMerge.reserve(std::distance(it, itEnd));
for (int pageIndex : pageIndices)
{
if (pageIndex < 0 || pageIndex >= currentPages.size())
{
throw PDFException(tr("Missing page (%1) in a document.").arg(pageIndex));
}
objectsToMerge.push_back(currentPages[pageIndex]);
}
pdf::PDFObjectReference acroFormReference;
pdf::PDFObjectReference namesReference;
pdf::PDFObjectReference ocPropertiesReference;
pdf::PDFObjectReference outlineReference;
pdf::PDFObject formObject = document->getCatalog()->getFormObject();
if (formObject.isReference())
{
acroFormReference = formObject.getReference();
}
else
{
acroFormReference = temporaryBuilder.addObject(formObject);
}
if (const pdf::PDFDictionary* catalogDictionary = temporaryBuilder.getDictionaryFromObject(temporaryBuilder.getObjectByReference(temporaryBuilder.getCatalogReference())))
{
pdf::PDFObject namesObject = catalogDictionary->get("Names");
if (namesObject.isReference())
{
namesReference = namesObject.getReference();
}
pdf::PDFObject ocPropertiesObject = catalogDictionary->get("OCProperties");
if (ocPropertiesObject.isReference())
{
ocPropertiesReference = ocPropertiesObject.getReference();
}
pdf::PDFObject outlineObject = catalogDictionary->get("Outlines");
if (outlineObject.isReference())
{
outlineReference = outlineObject.getReference();
}
}
if (!namesReference.isValid())
{
namesReference = temporaryBuilder.addObject(pdf::PDFObject());
}
if (!ocPropertiesReference.isValid())
{
ocPropertiesReference = temporaryBuilder.addObject(pdf::PDFObject());
}
if (!outlineReference.isValid())
{
outlineReference = temporaryBuilder.addObject(pdf::PDFObject());
}
objectsToMerge.insert(objectsToMerge.end(), { acroFormReference, namesReference, ocPropertiesReference, outlineReference });
// Now, we are ready to merge objects into target document builder
std::vector references = pdf::PDFDocumentBuilder::createReferencesFromObjects(documentBuilder.copyFrom(pdf::PDFDocumentBuilder::createObjectsFromReferences(objectsToMerge), *temporaryBuilder.getStorage(), true));
outlineReference = references.back();
references.pop_back();
ocPropertiesReference = references.back();
references.pop_back();
namesReference = references.back();
references.pop_back();
acroFormReference = references.back();
references.pop_back();
documentBuilder.appendTo(m_mergedObjects[MOT_OCProperties], documentBuilder.getObjectByReference(ocPropertiesReference));
documentBuilder.appendTo(m_mergedObjects[MOT_Form], documentBuilder.getObjectByReference(acroFormReference));
documentBuilder.mergeNames(m_mergedObjects[MOT_Names], namesReference);
m_outlines[documentIndex] = outlineReference;
Q_ASSERT(references.size() == std::distance(it, itEnd));
auto referenceIt = references.begin();
for (auto currentIt = it; currentIt != itEnd; ++currentIt, ++referenceIt)
{
currentIt->second = *referenceIt;
}
}
// Advance the index
it = itEnd;
}
std::set usedReferences;
for (ProcessedPage& processedPage : processedPages)
{
if (processedPage.assembledPage.isDocumentPage())
{
auto key = std::make_pair(processedPage.assembledPage.documentIndex, processedPage.assembledPage.pageIndex);
Q_ASSERT(documentPages.count(key));
PDFObjectReference pageReference = documentPages.at(key);
if (!usedReferences.count(pageReference))
{
processedPage.targetPageReference = pageReference;
usedReferences.insert(pageReference);
}
else
{
// Page is being cloned. So we must clone it...
std::vector references = pdf::PDFDocumentBuilder::createReferencesFromObjects(documentBuilder.copyFrom(pdf::PDFDocumentBuilder::createObjectsFromReferences({ pageReference }), *documentBuilder.getStorage(), true));
Q_ASSERT(references.size() == 1);
processedPage.targetPageReference = references.front();
usedReferences.insert(references.front());
}
}
}
return processedPages;
}
void PDFDocumentManipulator::classify(const AssembledPages& pages)
{
m_flags = None;
std::set documentIndices;
std::set pageIndices;
for (const AssembledPage& assembledPage : pages)
{
documentIndices.insert(assembledPage.documentIndex);
pageIndices.insert(assembledPage.pageIndex);
}
documentIndices.erase(-1);
pageIndices.erase(-1);
m_flags.setFlag(SingleDocument, documentIndices.size() == 1);
if (m_flags.testFlag(SingleDocument) && m_documents.count(*documentIndices.begin()))
{
const PDFDocument* document = m_documents.at(*documentIndices.begin());
const bool pagesRemoved = pageIndices.size() < document->getCatalog()->getPageCount();
m_flags.setFlag(RemovedPages, pagesRemoved);
}
}
void PDFDocumentManipulator::initializeMergedObjects(PDFDocumentBuilder& documentBuilder)
{
m_mergedObjects[MOT_OCProperties] = documentBuilder.addObject(PDFObject());
m_mergedObjects[MOT_Form] = documentBuilder.addObject(PDFObject());
m_mergedObjects[MOT_Names] = documentBuilder.addObject(PDFObject());
}
void PDFDocumentManipulator::finalizeMergedObjects(PDFDocumentBuilder& documentBuilder)
{
if (!m_flags.testFlag(SingleDocument))
{
if (!documentBuilder.getObjectByReference(m_mergedObjects[MOT_OCProperties]).isNull())
{
documentBuilder.setCatalogOptionalContentProperties(m_mergedObjects[MOT_OCProperties]);
}
if (!documentBuilder.getObjectByReference(m_mergedObjects[MOT_Names]).isNull())
{
documentBuilder.setCatalogNames(m_mergedObjects[MOT_Names]);
}
if (!documentBuilder.getObjectByReference(m_mergedObjects[MOT_Form]).isNull())
{
documentBuilder.setCatalogAcroForm(m_mergedObjects[MOT_Form]);
}
}
}
void PDFDocumentManipulator::finalizeDocument(PDFDocument* document)
{
auto optimizationFlags = pdf::PDFOptimizer::OptimizationFlags(PDFOptimizer::RemoveUnusedObjects |
PDFOptimizer::ShrinkObjectStorage |
PDFOptimizer::DereferenceSimpleObjects |
PDFOptimizer::MergeIdenticalObjects);
PDFOptimizer optimizer(optimizationFlags, nullptr);
optimizer.setDocument(document);
optimizer.optimize();
PDFDocument mergedDocument = optimizer.takeOptimizedDocument();
// We must adjust some objects - they can have merged objects
pdf::PDFDocumentBuilder finalBuilder(&mergedDocument);
if (const pdf::PDFDictionary* dictionary = finalBuilder.getDictionaryFromObject(finalBuilder.getObjectByReference(finalBuilder.getCatalogReference())))
{
pdf::PDFDocumentDataLoaderDecorator loader(finalBuilder.getStorage());
pdf::PDFObjectReference ocPropertiesReference = loader.readReferenceFromDictionary(dictionary, "OCProperties");
if (ocPropertiesReference.isValid())
{
finalBuilder.setObject(ocPropertiesReference, pdf::PDFObjectManipulator::removeDuplicitReferencesInArrays(finalBuilder.getObjectByReference(ocPropertiesReference)));
}
pdf::PDFObjectReference acroFormReference = loader.readReferenceFromDictionary(dictionary, "AcroForm");
if (acroFormReference.isValid())
{
finalBuilder.setObject(acroFormReference, pdf::PDFObjectManipulator::removeDuplicitReferencesInArrays(finalBuilder.getObjectByReference(acroFormReference)));
}
}
m_assembledDocument = finalBuilder.build();
}
void PDFDocumentManipulator::addOutlineAndDocumentParts(PDFDocumentBuilder& documentBuilder,
const AssembledPages& pages,
const std::vector& adjustedPages)
{
PDFInteger lastDocumentIndex = pages.front().documentIndex;
struct DocumentPartInfo
{
size_t pageCount = 0;
PDFInteger documentIndex = 0;
bool isWholeDocument = false;
QString caption;
PDFObjectReference firstPageReference;
};
std::vector documentParts = { DocumentPartInfo() };
PDFClosedIntervalSet pageNumbers;
PDFInteger imageCount = 0;
PDFInteger blankPageCount = 0;
PDFInteger totalPageCount = 0;
auto addDocumentPartCaption = [&](PDFInteger documentIndex)
{
DocumentPartInfo& info = documentParts.back();
QString documentTitle;
if (documentIndex != -1 && m_documents.count(documentIndex))
{
const PDFDocument* document = m_documents.at(documentIndex);
documentTitle = document->getInfo()->title;
if (documentTitle.isEmpty())
{
documentTitle = tr("Document %1").arg(documentIndex);
}
if (pageNumbers.getTotalLength() < PDFInteger(document->getCatalog()->getPageCount()))
{
documentTitle = tr("%1, p. %2").arg(documentTitle, pageNumbers.toText(true));
}
else
{
info.isWholeDocument = true;
}
}
else if (imageCount > 0 && blankPageCount == 0)
{
documentTitle = tr("%1 Images").arg(imageCount);
}
else
{
documentTitle = tr("%1 Pages").arg(imageCount + blankPageCount);
}
info.caption = documentTitle;
info.documentIndex = documentIndex;
info.firstPageReference = (totalPageCount < PDFInteger(adjustedPages.size())) ? adjustedPages[totalPageCount] : PDFObjectReference();
pageNumbers = PDFClosedIntervalSet();
imageCount = 0;
blankPageCount = 0;
totalPageCount += info.pageCount;
};
for (const AssembledPage& page : pages)
{
if (page.documentIndex == lastDocumentIndex)
{
++documentParts.back().pageCount;
}
else
{
addDocumentPartCaption(lastDocumentIndex);
documentParts.push_back(DocumentPartInfo());
++documentParts.back().pageCount;
lastDocumentIndex = page.documentIndex;
}
if (page.isDocumentPage())
{
pageNumbers.addValue(page.pageIndex + 1);
}
if (page.isImagePage())
{
++imageCount;
}
if (page.isBlankPage())
{
++blankPageCount;
}
}
addDocumentPartCaption(lastDocumentIndex);
std::vector documentPartPageCounts;
std::transform(documentParts.cbegin(), documentParts.cend(), std::back_inserter(documentPartPageCounts), [](const auto& part) { return part.pageCount; });
documentBuilder.createDocumentParts(documentPartPageCounts);
if (m_outlineMode != OutlineMode::NoOutline)
{
QSharedPointer rootItem(new PDFOutlineItem());
for (const DocumentPartInfo& info : documentParts)
{
QSharedPointer documentPartItem(new PDFOutlineItem);
documentPartItem->setAction(PDFActionPtr(new PDFActionGoTo(PDFDestination::createFit(info.firstPageReference), PDFDestination())));
documentPartItem->setTitle(info.caption);
documentPartItem->setFontBold(true);
if (m_outlineMode == OutlineMode::Join && info.isWholeDocument)
{
const PDFInteger documentIndex = info.documentIndex;
QSharedPointer outline = PDFOutlineItem::parse(documentBuilder.getStorage(), PDFObject::createReference(m_outlines.at(documentIndex)));
if (outline)
{
for (size_t i = 0; i < outline->getChildCount(); ++i)
{
documentPartItem->addChild(outline->getChildPtr(i));
}
}
}
rootItem->addChild(std::move(documentPartItem));
}
documentBuilder.setOutline(rootItem.data());
}
}
PDFDocumentManipulator::OutlineMode PDFDocumentManipulator::getOutlineMode() const
{
return m_outlineMode;
}
void PDFDocumentManipulator::setOutlineMode(OutlineMode outlineMode)
{
m_outlineMode = outlineMode;
}
} // namespace pdf