PDF4QT/PdfForQtLib/sources/pdfvisitor.cpp
2018-12-01 12:36:25 +01:00

182 lines
5.9 KiB
C++

// Copyright (C) 2018 Jakub Melka
//
// This file is part of PdfForQt.
//
// PdfForQt 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.
//
// PdfForQt 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 PDFForQt. If not, see <https://www.gnu.org/licenses/>.
#include "pdfvisitor.h"
namespace pdf
{
void PDFAbstractVisitor::acceptArray(const PDFArray* array)
{
Q_ASSERT(array);
for (size_t i = 0, count = array->getCount(); i < count; ++i)
{
array->getItem(i).accept(this);
}
}
void PDFAbstractVisitor::acceptDictionary(const PDFDictionary* dictionary)
{
Q_ASSERT(dictionary);
for (size_t i = 0, count = dictionary->getCount(); i < count; ++i)
{
dictionary->getValue(i).accept(this);
}
}
void PDFAbstractVisitor::acceptStream(const PDFStream* stream)
{
Q_ASSERT(stream);
acceptDictionary(stream->getDictionary());
}
PDFStatisticsCollector::PDFStatisticsCollector()
{
// We must avoid to allocate map item
for (PDFObject::Type type : PDFObject::getTypes())
{
m_statistics.emplace(std::make_pair(type, Statistics()));
}
}
void PDFStatisticsCollector::visitNull()
{
collectStatisticsOfSimpleObject(PDFObject::Type::Null);
}
void PDFStatisticsCollector::visitBool(bool value)
{
Q_UNUSED(value);
collectStatisticsOfSimpleObject(PDFObject::Type::Bool);
}
void PDFStatisticsCollector::visitInt(PDFInteger value)
{
Q_UNUSED(value);
collectStatisticsOfSimpleObject(PDFObject::Type::Int);
}
void PDFStatisticsCollector::visitReal(PDFReal value)
{
Q_UNUSED(value);
collectStatisticsOfSimpleObject(PDFObject::Type::Real);
}
void PDFStatisticsCollector::visitString(const PDFString* string)
{
Statistics& statistics = m_statistics[PDFObject::Type::String];
collectStatisticsOfString(string, statistics);
}
void PDFStatisticsCollector::visitName(const PDFString* name)
{
Statistics& statistics = m_statistics[PDFObject::Type::Name];
collectStatisticsOfString(name, statistics);
}
void PDFStatisticsCollector::visitArray(const PDFArray* array)
{
Statistics& statistics = m_statistics[PDFObject::Type::Array];
statistics.count += 1;
statistics.memoryConsumptionEstimate += sizeof(PDFObject) + sizeof(PDFArray);
// We process elements of the array, together with memory consumption,
// in the call of acceptArray function. No need to calculate memory consumption here.
// Just calculate the overhead.
statistics.memoryOverheadEstimate += (array->getCapacity() - array->getCount()) * sizeof(PDFObject);
acceptArray(array);
}
void PDFStatisticsCollector::visitDictionary(const PDFDictionary* dictionary)
{
Statistics& statistics = m_statistics[PDFObject::Type::Dictionary];
collectStatisticsOfDictionary(statistics, dictionary);
acceptDictionary(dictionary);
}
void PDFStatisticsCollector::visitStream(const PDFStream* stream)
{
Statistics& statistics = m_statistics[PDFObject::Type::Stream];
collectStatisticsOfDictionary(statistics, stream->getDictionary());
const QByteArray& byteArray = *stream->getContent();
const uint64_t memoryConsumption = byteArray.size() * sizeof(char);
const uint64_t memoryOverhead = (byteArray.capacity() - byteArray.size()) * sizeof(char);
statistics.memoryConsumptionEstimate += memoryConsumption;
statistics.memoryOverheadEstimate += memoryOverhead;
acceptStream(stream);
}
void PDFStatisticsCollector::visitReference(const PDFObjectReference reference)
{
Q_UNUSED(reference);
collectStatisticsOfSimpleObject(PDFObject::Type::Reference);
}
void PDFStatisticsCollector::collectStatisticsOfDictionary(Statistics& statistics, const PDFDictionary* dictionary)
{
statistics.count += 1;
statistics.memoryConsumptionEstimate += sizeof(PDFObject) + sizeof(PDFDictionary);
constexpr uint64_t sizeOfItem = sizeof(std::pair<QByteArray, PDFObject>);
constexpr uint64_t sizeOfItemWithoutObject = sizeOfItem - sizeof(PDFObject);
uint64_t consumptionEstimate = sizeOfItemWithoutObject * dictionary->getCount();
uint64_t overheadEstimate = sizeOfItem * (dictionary->getCapacity() - dictionary->getCount());
for (size_t i = 0, count = dictionary->getCount(); i < count; ++i)
{
const QByteArray& key = dictionary->getKey(i);
consumptionEstimate += key.size() * sizeof(char);
overheadEstimate += (key.capacity() - key.size()) * sizeof(char);
}
statistics.memoryConsumptionEstimate += consumptionEstimate;
statistics.memoryOverheadEstimate += overheadEstimate;
}
void PDFStatisticsCollector::collectStatisticsOfString(const PDFString* string, Statistics& statistics)
{
statistics.count += 1;
statistics.memoryConsumptionEstimate += sizeof(PDFObject) + sizeof(PDFString);
const QByteArray& byteArray = string->getString();
const uint64_t memoryConsumption = byteArray.size() * sizeof(char);
const uint64_t memoryOverhead = (byteArray.capacity() - byteArray.size()) * sizeof(char);
statistics.memoryConsumptionEstimate += memoryConsumption;
statistics.memoryOverheadEstimate += memoryOverhead;
}
void PDFStatisticsCollector::collectStatisticsOfSimpleObject(PDFObject::Type type)
{
Statistics& statistics = m_statistics[type];
statistics.count += 1;
statistics.memoryConsumptionEstimate += sizeof(PDFObject);
}
} // namespace pdf