PDF4QT/Pdf4QtLibCore/sources/pdfoptimizer.cpp

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// Copyright (C) 2020-2022 Jakub Melka
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//
// 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 "pdfoptimizer.h"
#include "pdfvisitor.h"
#include "pdfexecutionpolicy.h"
#include "pdfobjectutils.h"
#include "pdfutils.h"
#include "pdfconstants.h"
#include "pdfdocumentbuilder.h"
#include "pdfstreamfilters.h"
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#include "pdfdbgheap.h"
#include "pdfdocumentwriter.h"
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namespace pdf
{
class PDFRemoveSimpleObjectsVisitor : public PDFUpdateObjectVisitor
{
public:
explicit inline PDFRemoveSimpleObjectsVisitor(const PDFObjectStorage* storage, std::atomic<PDFInteger>* counter) :
PDFUpdateObjectVisitor(storage),
m_counter(counter)
{
}
virtual void visitReference(const PDFObjectReference reference) override;
private:
std::atomic<PDFInteger>* m_counter;
};
void PDFRemoveSimpleObjectsVisitor::visitReference(const PDFObjectReference reference)
{
PDFObject object = m_storage->getObjectByReference(reference);
switch (object.getType())
{
case PDFObject::Type::Null:
case PDFObject::Type::Bool:
case PDFObject::Type::Int:
case PDFObject::Type::Real:
case PDFObject::Type::String:
case PDFObject::Type::Name:
++*m_counter;
m_objectStack.push_back(qMove(object));
break;
default:
m_objectStack.push_back(PDFObject::createReference(reference));
break;
}
}
class PDFRemoveNullDictionaryEntriesVisitor : public PDFUpdateObjectVisitor
{
public:
explicit PDFRemoveNullDictionaryEntriesVisitor(const PDFObjectStorage* storage, std::atomic<PDFInteger>* counter) :
PDFUpdateObjectVisitor(storage),
m_counter(counter)
{
}
virtual void visitDictionary(const PDFDictionary* dictionary) override;
private:
std::atomic<PDFInteger>* m_counter;
};
void PDFRemoveNullDictionaryEntriesVisitor::visitDictionary(const PDFDictionary* dictionary)
{
Q_ASSERT(dictionary);
std::vector<PDFDictionary::DictionaryEntry> entries;
entries.reserve(dictionary->getCount());
for (size_t i = 0, count = dictionary->getCount(); i < count; ++i)
{
dictionary->getValue(i).accept(this);
Q_ASSERT(!m_objectStack.empty());
if (!m_objectStack.back().isNull())
{
entries.emplace_back(dictionary->getKey(i), m_objectStack.back());
}
else
{
++*m_counter;
}
m_objectStack.pop_back();
}
m_objectStack.push_back(PDFObject::createDictionary(std::make_shared<PDFDictionary>(qMove(entries))));
}
PDFOptimizer::PDFOptimizer(OptimizationFlags flags, QObject* parent) :
QObject(parent),
m_flags(flags)
{
}
void PDFOptimizer::optimize()
{
// Jakub Melka: We divide optimization into stages, each
// stage can consist from multiple passes.
constexpr OptimizationFlags stages[] = { OptimizationFlags(DereferenceSimpleObjects),
OptimizationFlags(RemoveNullObjects),
OptimizationFlags(RemoveUnusedObjects | MergeIdenticalObjects),
OptimizationFlags(ShrinkObjectStorage),
OptimizationFlags(RecompressFlateStreams) };
int stage = 1;
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Q_EMIT optimizationStarted();
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for (OptimizationFlags flags : stages)
{
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Q_EMIT optimizationProgress(tr("Stage %1").arg(stage++));
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OptimizationFlags currentSteps = flags & m_flags;
int passIndex = 1;
bool pass = true;
while (pass)
{
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Q_EMIT optimizationProgress(tr("Pass %1").arg(passIndex++));
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pass = false;
if (currentSteps.testFlag(DereferenceSimpleObjects))
{
pass = performDereferenceSimpleObjects() || pass;
}
if (currentSteps.testFlag(RemoveNullObjects))
{
pass = performRemoveNullObjects() || pass;
}
if (currentSteps.testFlag(RemoveUnusedObjects))
{
pass = performRemoveUnusedObjects() || pass;
}
if (currentSteps.testFlag(MergeIdenticalObjects))
{
pass = performMergeIdenticalObjects() || pass;
}
if (currentSteps.testFlag(ShrinkObjectStorage))
{
pass = performShrinkObjectStorage() || pass;
}
if (currentSteps.testFlag(RecompressFlateStreams))
{
pass = performRecompressFlateStreams() || pass;
}
}
}
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Q_EMIT optimizationFinished();
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}
PDFOptimizer::OptimizationFlags PDFOptimizer::getFlags() const
{
return m_flags;
}
void PDFOptimizer::setFlags(OptimizationFlags flags)
{
m_flags = flags;
}
bool PDFOptimizer::performDereferenceSimpleObjects()
{
std::atomic<PDFInteger> counter = 0;
PDFObjectStorage::PDFObjects objects = m_storage.getObjects();
auto processEntry = [this, &counter](PDFObjectStorage::Entry& entry)
{
PDFRemoveSimpleObjectsVisitor visitor(&m_storage, &counter);
entry.object.accept(&visitor);
entry.object = visitor.getObject();
};
PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Unknown, objects.begin(), objects.end(), processEntry);
m_storage.setObjects(qMove(objects));
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Q_EMIT optimizationProgress(tr("Simple objects dereferenced and embedded: %1").arg(counter));
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return false;
}
bool PDFOptimizer::performRemoveNullObjects()
{
std::atomic<PDFInteger> counter = 0;
PDFObjectStorage::PDFObjects objects = m_storage.getObjects();
auto processEntry = [this, &counter](PDFObjectStorage::Entry& entry)
{
PDFRemoveNullDictionaryEntriesVisitor visitor(&m_storage, &counter);
entry.object.accept(&visitor);
entry.object = visitor.getObject();
};
PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Unknown, objects.begin(), objects.end(), processEntry);
m_storage.setObjects(qMove(objects));
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Q_EMIT optimizationProgress(tr("Null objects entries from dictionaries removed: %1").arg(counter));
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return false;
}
bool PDFOptimizer::performRemoveUnusedObjects()
{
std::atomic<PDFInteger> counter = 0;
PDFObjectStorage::PDFObjects objects = m_storage.getObjects();
std::set<PDFObjectReference> references = PDFObjectUtils::getReferences({ m_storage.getTrailerDictionary() }, m_storage);
PDFIntegerRange<size_t> range(0, objects.size());
auto processEntry = [&counter, &objects, &references](size_t index)
{
PDFObjectStorage::Entry& entry = objects[index];
PDFObjectReference reference(PDFInteger(index), entry.generation);
if (!references.count(reference) && !entry.object.isNull())
{
entry.object = PDFObject();
++counter;
}
};
PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Unknown, range.begin(), range.end(), processEntry);
m_storage.setObjects(qMove(objects));
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Q_EMIT optimizationProgress(tr("Unused objects removed: %1").arg(counter));
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return counter > 0;
}
bool PDFOptimizer::performMergeIdenticalObjects()
{
std::atomic<PDFInteger> counter = 0;
std::map<PDFObjectReference, PDFObjectReference> replacementMap;
std::map<QByteArray, PDFObjectReference> serializedObjectToReference;
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PDFObjectStorage::PDFObjects objects = m_storage.getObjects();
std::vector<QByteArray> serializedObjects(objects.size());
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PDFIntegerRange<size_t> range(0, objects.size());
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auto serializeEntry = [&objects, &serializedObjects](size_t index)
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{
const PDFObjectStorage::Entry& entry = objects[index];
if (!entry.object.isNull())
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{
serializedObjects[index] = PDFDocumentWriter::getSerializedObject(entry.object);
}
};
PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Unknown, range.begin(), range.end(), serializeEntry);
// Find same object
for (PDFInteger index : range)
{
const PDFObjectStorage::Entry& entry = objects[index];
if (!entry.object.isNull())
{
// We do not merge special objects, such as pages
if (const PDFDictionary* dictionary = m_storage.getDictionaryFromObject(entry.object))
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{
PDFObject nameObject = m_storage.getObject(dictionary->get("Type"));
if (nameObject.isName())
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{
if (nameObject.getString() == "Page")
{
continue;
}
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}
}
PDFObjectReference currentReference(PDFInteger(index), objects[index].generation);
const QByteArray& serializedObject = serializedObjects[index];
if (!serializedObjectToReference.count(serializedObject))
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{
serializedObjectToReference[serializedObject] = currentReference;
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}
else
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{
PDFObjectReference oldReference = currentReference;
PDFObjectReference newReference = serializedObjectToReference.at(serializedObject);
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replacementMap[oldReference] = newReference;
++counter;
}
}
}
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// Replace objects
if (!replacementMap.empty())
{
for (size_t i = 0; i < objects.size(); ++i)
{
objects[i].object = PDFObjectUtils::replaceReferences(objects[i].object, replacementMap);
}
PDFObject trailerDictionary = PDFObjectUtils::replaceReferences(m_storage.getTrailerDictionary(), replacementMap);
m_storage.setTrailerDictionary(trailerDictionary);
}
m_storage.setObjects(qMove(objects));
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Q_EMIT optimizationProgress(tr("Identical objects merged: %1").arg(counter));
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return counter > 0;
}
bool PDFOptimizer::performShrinkObjectStorage()
{
std::map<PDFObjectReference, PDFObjectReference> replacementMap;
PDFObjectStorage::PDFObjects objects = m_storage.getObjects();
auto isFree = [](const PDFObjectStorage::Entry& entry)
{
return entry.object.isNull() && entry.generation < PDF_MAX_OBJECT_GENERATION;
};
auto isOccupied = [](const PDFObjectStorage::Entry& entry)
{
return !entry.object.isNull();
};
// Make list of free usable indices
std::vector<size_t> freeIndices;
freeIndices.reserve(objects.size() / 8);
const size_t objectCount = objects.size();
for (size_t sourceIndex = 1; sourceIndex < objectCount; ++sourceIndex)
{
if (isFree(objects[sourceIndex]))
{
freeIndices.push_back(sourceIndex);
}
}
std::reverse(freeIndices.begin(), freeIndices.end());
// Move objects to free entries
for (size_t sourceIndex = objectCount - 1; sourceIndex > 0; --sourceIndex)
{
if (freeIndices.empty())
{
// Jakub Melka: We have run out of free indices
break;
}
PDFObjectStorage::Entry& sourceEntry = objects[sourceIndex];
if (isOccupied(sourceEntry))
{
size_t targetIndex = freeIndices.back();
freeIndices.pop_back();
if (targetIndex >= sourceIndex)
{
break;
}
PDFObjectStorage::Entry& targetEntry = objects[targetIndex];
Q_ASSERT(isFree(targetEntry));
++targetEntry.generation;
targetEntry.object = qMove(sourceEntry.object);
sourceEntry.object = PDFObject();
replacementMap[PDFObjectReference(PDFInteger(sourceIndex), sourceEntry.generation)] = PDFObjectReference(PDFInteger(targetIndex), targetEntry.generation);
}
}
// Shrink objects array
for (size_t sourceIndex = objectCount - 1; sourceIndex > 0; --sourceIndex)
{
if (isOccupied(objects[sourceIndex]))
{
objects.resize(sourceIndex + 1);
break;
}
}
// Update objects
if (!replacementMap.empty())
{
for (size_t i = 0; i < objects.size(); ++i)
{
objects[i].object = PDFObjectUtils::replaceReferences(objects[i].object, replacementMap);
}
PDFObject trailerDictionary = PDFObjectUtils::replaceReferences(m_storage.getTrailerDictionary(), replacementMap);
PDFObjectFactory factory;
factory.beginDictionary();
factory.beginDictionaryItem("Size");
factory << PDFInteger(objects.size());
factory.endDictionaryItem();
factory.endDictionary();
trailerDictionary = PDFObjectManipulator::merge(trailerDictionary, factory.takeObject(), PDFObjectManipulator::NoFlag);
m_storage.setTrailerDictionary(trailerDictionary);
}
const size_t newObjectCount = objects.size();
m_storage.setObjects(qMove(objects));
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Q_EMIT optimizationProgress(tr("Object list shrinked by: %1").arg(objectCount - newObjectCount));
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return false;
}
bool PDFOptimizer::performRecompressFlateStreams()
{
std::atomic<PDFInteger> bytesSaved = 0;
PDFObjectStorage::PDFObjects objects = m_storage.getObjects();
auto processEntry = [this, &bytesSaved](PDFObjectStorage::Entry& entry)
{
if (entry.object.isStream())
{
const PDFStream* stream = entry.object.getStream();
const PDFDictionary* dictionary = stream->getDictionary();
if (dictionary->hasKey("F"))
{
// External file stream, we do not recompress it
return;
}
PDFStreamFilterStorage::StreamFilters streamFilters = PDFStreamFilterStorage::getStreamFilters(stream, std::bind(QOverload<const PDFObject&>::of(&PDFObjectStorage::getObject), &m_storage, std::placeholders::_1));
if (streamFilters.filterObjects.empty())
{
// No filters
return;
}
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const PDFStreamFilter* streamFilter = streamFilters.filterObjects.back();
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if (dynamic_cast<const PDFFlateDecodeFilter*>(streamFilter))
{
// Try to recompress. If we end with less data, then we use recompressed stream
QByteArray recompressedData = PDFFlateDecodeFilter::recompress(*stream->getContent());
const PDFInteger currentBytesSaved = stream->getContent()->size() - recompressedData.size();
if (currentBytesSaved > 0)
{
bytesSaved += currentBytesSaved;
PDFDictionary updatedDictionary = *dictionary;
updatedDictionary.setEntry(PDFInplaceOrMemoryString("Length"), PDFObject::createInteger(recompressedData.size()));
entry.object = PDFObject::createStream(std::make_shared<PDFStream>(qMove(updatedDictionary), qMove(recompressedData)));
}
}
}
};
PDFExecutionPolicy::execute(PDFExecutionPolicy::Scope::Unknown, objects.begin(), objects.end(), processEntry);
m_storage.setObjects(qMove(objects));
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Q_EMIT optimizationProgress(tr("Bytes saved by recompressing stream: %1").arg(bytesSaved));
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return false;
}
} // namespace pdf