PDF4QT/Pdf4QtLib/sources/pdfstreamfilters.h
2021-08-10 19:22:56 +02:00

252 lines
10 KiB
C++

// Copyright (C) 2018-2021 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 <https://www.gnu.org/licenses/>.
#ifndef PDFSTREAMFILTERS_H
#define PDFSTREAMFILTERS_H
#include "pdfobject.h"
#include <QByteArray>
#include <memory>
#include <functional>
namespace pdf
{
class PDFStreamFilter;
class PDFSecurityHandler;
using PDFObjectFetcher = std::function<const PDFObject&(const PDFObject&)>;
/// Storage for stream filters. Can retrieve stream filters by name. Using singleton
/// design pattern. Use static methods to retrieve filters.
class PDFStreamFilterStorage
{
public:
/// Retrieves filter by filter name. If filter with that name doesn't exist,
/// then nullptr is returned. This function is thread safe.
/// \param filterName Name of the filter to be retrieved.
static const PDFStreamFilter* getFilter(const QByteArray& filterName);
/// Returns decoded data from the stream
/// \param stream Stream containing the data
/// \param objectFetcher Function which retrieves objects (for example, reads objects from reference)
/// \param securityHandler Security handler for Crypt filters
static QByteArray getDecodedStream(const PDFStream* stream, const PDFObjectFetcher& objectFetcher, const PDFSecurityHandler* securityHandler);
/// Returns decoded data from the stream, without object fetching
/// \param stream Stream containing the data
/// \param objectFetcher Function which retrieves objects (for example, reads objects from reference)
/// \param securityHandler Security handler for Crypt filters
static QByteArray getDecodedStream(const PDFStream* stream, const PDFSecurityHandler* securityHandler);
/// Tries to find stream data length using given filter. Stream will
/// start at given \p offset in \p data. If stream length cannot be determined,
/// then -1 is returned.
/// \param data Buffer data
/// \param filterName Filter name
/// \param offset Offset to buffer, at which stream data starts
static PDFInteger getStreamDataLength(const QByteArray& data, const QByteArray& filterName, PDFInteger offset);
struct StreamFilters
{
bool valid = true;
std::vector<const PDFStreamFilter*> filterObjects;
std::vector<PDFObject> filterParameterObjects;
};
/// Returns stream filters along with it's parameters, for this stream
/// \param stream Stream containing data
/// \param objectFetcher Function which retrieves objects (for example, reads objects from reference)
static StreamFilters getStreamFilters(const PDFStream* stream, const PDFObjectFetcher& objectFetcher);
private:
explicit PDFStreamFilterStorage();
static const PDFStreamFilterStorage* getInstance();
/// Maps names to the instances of the stream filters
std::map<QByteArray, std::unique_ptr<PDFStreamFilter>> m_filters;
/// Filter stream names can be specified in simplified (shorter) form.
/// This map maps shorter form to the longer form.
std::map<QByteArray, QByteArray> m_abbreviations;
};
class PDFStreamPredictor
{
public:
/// Create predictor from stream parameters. If error occurs, exception is thrown.
/// \param objectFetcher Function which retrieves objects (for example, reads objects from reference)
/// \param parameters Parameters of the predictor (must be an dictionary)
static PDFStreamPredictor createPredictor(const PDFObjectFetcher& objectFetcher, const PDFObject& parameters);
/// Applies the predictor to the data.
/// \param data Data to be decoded using predictor
QByteArray apply(const QByteArray& data) const;
private:
enum Predictor
{
NoPredictor = 1,
TIFF = 2,
PNG_None = 10, ///< No prediction
PNG_Sub = 11, ///< Prediction based on previous byte
PNG_Up = 12, ///< Prediction based on byte above
PNG_Average = 13, ///< Prediction based on average of previous nad current byte
PNG_Paeth = 14, ///< Nonlinear function
};
inline explicit PDFStreamPredictor() = default;
inline explicit PDFStreamPredictor(Predictor predictor, int components, int bitsPerComponent, int columns) :
m_predictor(predictor),
m_components(components),
m_bitsPerComponent(bitsPerComponent),
m_columns(columns),
m_stride(0)
{
m_stride = (m_columns * m_components * m_bitsPerComponent + 7) / 8;
}
/// Applies PNG predictor
QByteArray applyPNGPredictor(const QByteArray& data) const;
/// Applies TIFF predictor
QByteArray applyTIFFPredictor(const QByteArray& data) const;
Predictor m_predictor = NoPredictor;
int m_components = 0;
int m_bitsPerComponent = 0;
int m_columns = 0;
int m_stride = 0;
};
class PDF4QTLIBSHARED_EXPORT PDFStreamFilter
{
public:
explicit PDFStreamFilter() = default;
virtual ~PDFStreamFilter() = default;
/// Apply with object fetcher
/// \param data Stream data to be decoded
/// \param objectFetcher Function which retrieves objects (for example, reads objects from reference)
/// \param parameters Stream parameters
virtual QByteArray apply(const QByteArray& data, const PDFObjectFetcher& objectFetcher, const PDFObject& parameters, const PDFSecurityHandler* securityHandler) const = 0;
/// Apply without object fetcher - it assumes no references exists in the streams dictionary
/// \param data Stream data to be decoded
/// \param parameters Stream parameters
inline QByteArray apply(const QByteArray& data, const PDFObject& parameters, const PDFSecurityHandler* securityHandler) const
{
return apply(data, [](const PDFObject& object) -> const PDFObject& { return object; }, parameters, securityHandler);
}
/// Tries to find stream data length. Stream will start at given \p offset in \p data.
/// If stream length cannot be determined, then -1 is returned.
/// \param data Buffer data
/// \param offset Offset to buffer, at which stream data starts
virtual PDFInteger getStreamDataLength(const QByteArray& data, PDFInteger offset) const;
};
class PDF4QTLIBSHARED_EXPORT PDFAsciiHexDecodeFilter : public PDFStreamFilter
{
public:
explicit PDFAsciiHexDecodeFilter() = default;
virtual ~PDFAsciiHexDecodeFilter() override = default;
virtual QByteArray apply(const QByteArray& data,
const PDFObjectFetcher& objectFetcher,
const PDFObject& parameters,
const PDFSecurityHandler* securityHandler) const override;
};
class PDF4QTLIBSHARED_EXPORT PDFAscii85DecodeFilter : public PDFStreamFilter
{
public:
explicit PDFAscii85DecodeFilter() = default;
virtual ~PDFAscii85DecodeFilter() override = default;
virtual QByteArray apply(const QByteArray& data,
const PDFObjectFetcher& objectFetcher,
const PDFObject& parameters,
const PDFSecurityHandler* securityHandler) const override;
};
class PDF4QTLIBSHARED_EXPORT PDFLzwDecodeFilter : public PDFStreamFilter
{
public:
explicit PDFLzwDecodeFilter() = default;
virtual ~PDFLzwDecodeFilter() override = default;
virtual QByteArray apply(const QByteArray& data,
const PDFObjectFetcher& objectFetcher,
const PDFObject& parameters,
const PDFSecurityHandler* securityHandler) const override;
};
class PDF4QTLIBSHARED_EXPORT PDFFlateDecodeFilter : public PDFStreamFilter
{
public:
explicit PDFFlateDecodeFilter() = default;
virtual ~PDFFlateDecodeFilter() override = default;
virtual QByteArray apply(const QByteArray& data,
const PDFObjectFetcher& objectFetcher,
const PDFObject& parameters,
const PDFSecurityHandler* securityHandler) const override;
virtual PDFInteger getStreamDataLength(const QByteArray& data, PDFInteger offset) const override;
/// Recompresses data. So, first, data are decompressed, and then
/// recompressed again with maximal compress ratio possible.
/// \param data Compressed data to be recompressed
static QByteArray recompress(const QByteArray& data);
private:
static QByteArray uncompress(const QByteArray& data);
};
class PDF4QTLIBSHARED_EXPORT PDFRunLengthDecodeFilter : public PDFStreamFilter
{
public:
explicit PDFRunLengthDecodeFilter() = default;
virtual ~PDFRunLengthDecodeFilter() override = default;
virtual QByteArray apply(const QByteArray& data,
const PDFObjectFetcher& objectFetcher,
const PDFObject& parameters,
const PDFSecurityHandler* securityHandler) const override;
};
class PDF4QTLIBSHARED_EXPORT PDFCryptFilter : public PDFStreamFilter
{
public:
explicit PDFCryptFilter() = default;
virtual ~PDFCryptFilter() override = default;
virtual QByteArray apply(const QByteArray& data,
const PDFObjectFetcher& objectFetcher,
const PDFObject& parameters,
const PDFSecurityHandler* securityHandler) const override;
};
} // namespace pdf
#endif // PDFSTREAMFILTERS_H