mirror of https://github.com/JakubMelka/PDF4QT.git
536 lines
20 KiB
C++
536 lines
20 KiB
C++
// Copyright (C) 2019-2021 Jakub Melka
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//
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// This file is part of PDF4QT.
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//
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// PDF4QT is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// with the written consent of the copyright owner, any later version.
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//
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// PDF4QT is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with PDF4QT. If not, see <https://www.gnu.org/licenses/>.
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#ifndef PDFJBIG2DECODER_H
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#define PDFJBIG2DECODER_H
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#include "pdfutils.h"
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#include "pdfcolorspaces.h"
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#include <optional>
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namespace pdf
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{
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class PDFJBIG2Bitmap;
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class PDFRenderErrorReporter;
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class PDFJBIG2HuffmanCodeTable;
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class PDFJBIG2SymbolDictionary;
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class PDFJBIG2PatternDictionary;
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struct PDFJBIG2HuffmanTableEntry;
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struct PDFJBIG2BitmapDecodingParameters;
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struct PDFJBIG2TextRegionDecodingParameters;
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struct PDFJBIG2BitmapRefinementDecodingParameters;
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enum class PDFJBIG2BitOperation
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{
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Invalid,
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Or,
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And,
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Xor,
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NotXor,
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Replace
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};
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struct PDFJBIG2HuffmanTableEntry
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{
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enum class Type : uint8_t
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{
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Standard,
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Negative,
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OutOfBand
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};
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/// Returns true, if current row represents interval (-∞, value),
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/// it means 32bit number must be read and
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bool isLowValue() const { return type == Type::Negative; }
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/// Returns true, if current row represents out-of-band value
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bool isOutOfBand() const { return type == Type::OutOfBand; }
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int32_t value = 0; ///< Base value
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uint16_t prefixBitLength = 0; ///< Bit length of prefix
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uint16_t rangeBitLength = 0; ///< Bit length of additional value
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uint16_t prefix = 0; ///< Bit prefix of the huffman code
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Type type = Type::Standard; ///< Type of the value
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};
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/// Arithmetic decoder state for JBIG2 data streams. It contains state for context,
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/// state is stored as 8-bit value, where only 7 bits are used. 6 bits are used
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/// to store Qe value index (current row in the table, number 0-46), and lowest 1 bit
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/// is used to store current MPS value (most probable symbol - 0/1).
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class PDF4QTLIBSHARED_EXPORT PDFJBIG2ArithmeticDecoderState
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{
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public:
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explicit inline PDFJBIG2ArithmeticDecoderState() = default;
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explicit inline PDFJBIG2ArithmeticDecoderState(size_t size) :
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m_state(size, 0)
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{
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}
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/// Resets the context
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inline void reset(const uint8_t bits)
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{
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size_t size = (1ULL << bits);
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std::fill(m_state.begin(), m_state.end(), 0);
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if (m_state.size() != size)
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{
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m_state.resize(size, 0);
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}
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}
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/// Resets the context using another context
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inline void reset(const uint8_t bits, const PDFJBIG2ArithmeticDecoderState& other)
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{
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reset(bits);
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const size_t size = qMin(m_state.size(), other.m_state.size());
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std::copy(other.m_state.begin(), other.m_state.begin() + size, m_state.begin());
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}
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/// Returns row index to Qe value table, according to document ISO/IEC 14492:2001,
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/// annex E, table E.1 (Qe values and probability estimation process).
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inline uint8_t getQeRowIndex(size_t context) const
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{
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Q_ASSERT(context < m_state.size());
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return m_state[context] >> 1;
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}
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/// Returns Qe value for row index, according to document ISO/IEC 14492:2001,
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/// annex E, table E.1 (Qe values and probability estimation process).
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inline uint32_t getQe(size_t context) const;
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/// Returns current bit value of MPS (most probable symbol)
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inline uint8_t getMPS(size_t context) const
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{
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Q_ASSERT(context < m_state.size());
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return m_state[context] & 0x1;
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}
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/// Sets current row index to Qe value table, at given context, and also MPS bit value
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/// (most probable symbol).
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inline void setQeRowIndexAndMPS(size_t context, uint8_t QeRowIndex, uint8_t MPS)
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{
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Q_ASSERT(context < m_state.size());
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Q_ASSERT(MPS < 2);
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m_state[context] = (QeRowIndex << 1) + MPS;
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}
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private:
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std::vector<uint8_t> m_state;
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};
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/// Arithmetic decoder for JBIG2 data streams. This arithmetic decoder is implementation
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/// of decoder described in document ISO/IEC 14492:2001, T.88, annex G (arithmetic decoding
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/// procedure). It uses 32-bit fixed point arithmetic instead of 16-bit fixed point
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/// arithmetic described in the specification (it is much faster).
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class PDF4QTLIBSHARED_EXPORT PDFJBIG2ArithmeticDecoder
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{
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public:
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explicit inline PDFJBIG2ArithmeticDecoder(PDFBitReader* reader) :
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m_c(0),
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m_a(0),
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m_ct(0),
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m_lastByte(0),
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m_reader(reader)
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{
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}
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void initialize() { perform_INITDEC(); }
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uint32_t readBit(size_t context, PDFJBIG2ArithmeticDecoderState* state) { return perform_DECODE(context, state); }
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uint32_t readByte(size_t context, PDFJBIG2ArithmeticDecoderState* state);
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uint32_t getRegisterC() const { return m_c; }
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uint32_t getRegisterA() const { return m_a; }
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uint32_t getRegisterCT() const { return m_ct; }
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int32_t getIAID(uint32_t size, PDFJBIG2ArithmeticDecoderState* state);
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std::optional<int32_t> getSignedInteger(PDFJBIG2ArithmeticDecoderState* state);
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/// This function is used to read last byte of byte sequence { 0xFF, 0xAC },
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/// when finishing data stream.
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void finalize();
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private:
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/// Performs INITDEC operation as described in the specification
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void perform_INITDEC();
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/// Performs BYTEIN operation as described in the specification
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void perform_BYTEIN();
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/// Performs DECODE operation as described in the specification
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/// \param context Context index
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/// \param state State of the arithmetic decoder
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/// \returns Single decoded bit (lowest bit, other bits are zero)
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uint32_t perform_DECODE(size_t context, PDFJBIG2ArithmeticDecoderState* state);
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/// This is 32 bit register consisting of two 16-bit subregisters - "c_high" and "c_low", as
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/// it is in specification. But we can work with it as 32 bit register (if we adjust some
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/// operations and fixed point arithmetic).
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uint32_t m_c;
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/// This is 32 bit register for interval range. In the specification, it is 16-bit register,
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/// but we use 32-bit fixed point arithmetic instead of 16-bit fixed point arithmetic.
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uint32_t m_a;
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/// Number of current unprocessed bits.
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uint32_t m_ct;
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/// Last processed byte
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uint8_t m_lastByte;
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/// Data source to read from
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PDFBitReader* m_reader;
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};
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enum class JBIG2SegmentType : uint32_t
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{
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Invalid,
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SymbolDictionary, ///< See chapter 7.4.2 in specification
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TextRegion, ///< See chapter 7.4.3 in specification
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PatternDictionary, ///< See chapter 7.4.4 in specification
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HalftoneRegion, ///< See chapter 7.4.5 in specification
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GenericRegion, ///< See chapter 7.4.6 in specification
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GenericRefinementRegion, ///< See chapter 7.4.7 in specification
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PageInformation, ///< See chapter 7.4.8 in specification
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EndOfPage, ///< See chapter 7.4.9 in specification
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EndOfStripe, ///< See chapter 7.4.10 in specification
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EndOfFile, ///< See chapter 7.4.11 in specification
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Profiles, ///< See chapter 7.4.12 in specification
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Tables, ///< See chapter 7.4.13 in specification
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Extension ///< See chapter 7.4.14 in specification
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};
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class PDFJBIG2SegmentHeader
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{
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public:
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explicit inline PDFJBIG2SegmentHeader() = default;
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/// Returns segment type
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inline JBIG2SegmentType getSegmentType() const { return m_segmentType; }
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/// Returns segment number
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inline uint32_t getSegmentNumber() const { return m_segmentNumber; }
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/// Returns segment data length (or 0xFFFFFFFF, if length is not defined)
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/// \sa isSegmentDataLengthDefined
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inline uint32_t getSegmentDataLength() const { return m_segmentDataLength; }
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/// Returns true, if segment is immediate (direct paint on page's bitmap)
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inline bool isImmediate() const { return m_immediate; }
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/// Returns true, if segment is lossless
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inline bool isLossless() const { return m_lossless; }
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/// Returns true, if segmend data length is defined
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inline bool isSegmentDataLengthDefined() const { return m_segmentDataLength != 0xFFFFFFFF; }
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/// Returns referred segments
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inline const std::vector<uint32_t>& getReferredSegments() const { return m_referredSegments; }
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/// Reads the segment header from the data stream. If error occurs, then
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/// exception is thrown.
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static PDFJBIG2SegmentHeader read(PDFBitReader* reader);
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private:
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uint32_t m_segmentNumber = 0;
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uint32_t m_pageAssociation = 0;
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uint32_t m_segmentDataLength = 0;
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JBIG2SegmentType m_segmentType = JBIG2SegmentType::Invalid;
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bool m_immediate = false;
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bool m_lossless = false;
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std::vector<uint32_t> m_referredSegments;
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};
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class PDFJBIG2Segment
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{
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public:
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explicit inline PDFJBIG2Segment() = default;
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virtual ~PDFJBIG2Segment();
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virtual const PDFJBIG2Bitmap* asBitmap() const { return nullptr; }
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virtual PDFJBIG2Bitmap* asBitmap() { return nullptr; }
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virtual const PDFJBIG2HuffmanCodeTable* asHuffmanCodeTable() const { return nullptr; }
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virtual PDFJBIG2HuffmanCodeTable* asHuffmanCodeTable() { return nullptr; }
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virtual const PDFJBIG2SymbolDictionary* asSymbolDictionary() const { return nullptr; }
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virtual PDFJBIG2SymbolDictionary* asSymbolDictionary() { return nullptr; }
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virtual const PDFJBIG2PatternDictionary* asPatternDictionary() const { return nullptr; }
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virtual PDFJBIG2PatternDictionary* asPatternDictionary() { return nullptr; }
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};
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/// Huffman decoder - can decode integers / out of band values from huffman table.
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class PDFJBIG2HuffmanDecoder
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{
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public:
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explicit inline PDFJBIG2HuffmanDecoder() = default;
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/// Constructs huffman decoder from static tables, so no memory are allocated (vector is empty)
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explicit inline PDFJBIG2HuffmanDecoder(PDFBitReader* reader, const PDFJBIG2HuffmanTableEntry* begin, const PDFJBIG2HuffmanTableEntry* end) :
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m_reader(reader),
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m_begin(begin),
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m_end(end)
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{
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}
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/// Constructs huffman decoder from huffman code table, in this case, memory is allocated
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explicit PDFJBIG2HuffmanDecoder(PDFBitReader* reader, const PDFJBIG2HuffmanCodeTable* table);
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/// Constructs huffman decoder from huffman code table, in this case, memory is allocated
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explicit PDFJBIG2HuffmanDecoder(PDFBitReader* reader, std::vector<PDFJBIG2HuffmanTableEntry>&& table);
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PDFJBIG2HuffmanDecoder(const PDFJBIG2HuffmanDecoder&) = delete;
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PDFJBIG2HuffmanDecoder(PDFJBIG2HuffmanDecoder&& other);
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PDFJBIG2HuffmanDecoder& operator=(const PDFJBIG2HuffmanDecoder&) = delete;
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PDFJBIG2HuffmanDecoder& operator=(PDFJBIG2HuffmanDecoder&& other);
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/// Returns true, if huffman table is valid (and usable)
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bool isValid() const { return m_begin != m_end; }
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/// Returns true, if huffman table has out-of-band value
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bool isOutOfBandSupported() const;
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/// Tries to read signed integer using the table and current reader.
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/// \returns Integer, or out-of-band value, using the std::optional semantics
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std::optional<int32_t> readSignedInteger();
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private:
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/// Data source to read from
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PDFBitReader* m_reader = nullptr;
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const PDFJBIG2HuffmanTableEntry* m_begin = nullptr;
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const PDFJBIG2HuffmanTableEntry* m_end = nullptr;
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std::vector<PDFJBIG2HuffmanTableEntry> m_entries;
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};
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class PDF4QTLIBSHARED_EXPORT PDFJBIG2Bitmap : public PDFJBIG2Segment
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{
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public:
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explicit PDFJBIG2Bitmap();
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explicit PDFJBIG2Bitmap(int width, int height);
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explicit PDFJBIG2Bitmap(int width, int height, uint8_t fill);
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virtual ~PDFJBIG2Bitmap() override;
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virtual const PDFJBIG2Bitmap* asBitmap() const override { return this; }
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virtual PDFJBIG2Bitmap* asBitmap() override { return this; }
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inline int getWidth() const { return m_width; }
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inline int getHeight() const { return m_height; }
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inline int getPixelCount() const { return m_width * m_height; }
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inline uint8_t getPixel(int x, int y) const { return m_data[y * m_width + x]; }
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inline void setPixel(int x, int y, uint8_t value) { m_data[y * m_width + x] = value; }
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inline uint8_t getPixelSafe(int x, int y) const
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{
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if (x < 0 || x >= m_width || y < 0 || y >= m_height)
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{
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return 0;
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}
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return getPixel(x, y);
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}
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inline void fill(uint8_t value) { std::fill(m_data.begin(), m_data.end(), value); }
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inline void fillZero() { fill(0); }
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inline void fillOne() { fill(0xFF); }
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inline bool isValid() const { return getPixelCount() > 0; }
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/// Returns subbitmap of this bitmap. If some pixels of subbitmap are outside
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/// of current bitmap, then they are reset to zero.
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/// \param offsetX Horizontal offset of subbitmap
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/// \param offsetY Vertical offset of subbitmap
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/// \param width Width of subbitmap
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/// \param height Height of subbitmap
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PDFJBIG2Bitmap getSubbitmap(int offsetX, int offsetY, int width, int height) const;
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/// Paints another bitmap onto this bitmap. If bitmap is invalid, nothing is done.
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/// If \p expandY is true, height of target bitmap is expanded to fit source draw area.
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/// \param bitmap Bitmap to be painted on this
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/// \param offsetX Horizontal offset of paint area
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/// \param offsetY Vertical offset of paint area
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/// \param operation Paint operation to be performed
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/// \param expandY Expand vertically, if painted bitmap exceeds current bitmap area
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/// \param expandPixel Initialize pixels by this value during expanding
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void paint(const PDFJBIG2Bitmap& bitmap, int offsetX, int offsetY, PDFJBIG2BitOperation operation, bool expandY, const uint8_t expandPixel);
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/// Copies data from source row to target row. If source or target row doesn't exists,
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/// then exception is thrown.
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/// \param target Target row
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/// \param source Source row
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void copyRow(int target, int source);
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private:
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int m_width;
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int m_height;
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std::vector<uint8_t> m_data;
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};
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struct PDFJBIG2ReferencedSegments
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{
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std::vector<const PDFJBIG2Bitmap*> bitmaps;
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std::vector<const PDFJBIG2HuffmanCodeTable*> codeTables;
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std::vector<const PDFJBIG2SymbolDictionary*> symbolDictionaries;
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std::vector<const PDFJBIG2PatternDictionary*> patternDictionaries;
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size_t currentUserCodeTableIndex = 0;
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/// Returns symbol bitmaps from all symbol dictionaries
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std::vector<const PDFJBIG2Bitmap*> getSymbolBitmaps() const;
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/// Returns pattern bitmaps from all pattern dictionaries
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std::vector<const PDFJBIG2Bitmap*> getPatternBitmaps() const;
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/// Returns current user huffman table according the index. If index
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/// is out of range, then exception is thrown.
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PDFJBIG2HuffmanDecoder getUserTable(PDFBitReader* reader);
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};
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/// Region segment information field, see chapter 7.4.1 in the specification
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struct PDFJBIG2RegionSegmentInformationField
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{
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uint32_t width = 0;
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uint32_t height = 0;
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int32_t offsetX = 0;
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int32_t offsetY = 0;
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PDFJBIG2BitOperation operation = PDFJBIG2BitOperation::Invalid;
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};
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/// Info structure for adaptative template
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struct PDFJBIG2ATPosition
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{
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int8_t x = 0;
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int8_t y = 0;
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};
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using PDFJBIG2ATPositions = std::array<PDFJBIG2ATPosition, 4>;
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/// Decoder of JBIG2 data streams. Decodes the black/white monochrome image.
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/// Handles also global segments. Decoder decodes data using the specification
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/// ISO/IEC 14492:2001, T.88.
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class PDF4QTLIBSHARED_EXPORT PDFJBIG2Decoder
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{
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public:
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explicit inline PDFJBIG2Decoder(QByteArray data, QByteArray globalData, PDFRenderErrorReporter* errorReporter) :
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m_data(qMove(data)),
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m_globalData(qMove(globalData)),
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m_errorReporter(errorReporter),
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m_reader(nullptr, 8),
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m_pageDefaultPixelValue(0),
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m_pageDefaultCompositionOperator(PDFJBIG2BitOperation::Invalid),
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m_pageDefaultCompositionOperatorOverriden(false),
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m_pageSizeUndefined(false)
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{
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}
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PDFJBIG2Decoder(const PDFJBIG2Decoder&) = delete;
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PDFJBIG2Decoder(PDFJBIG2Decoder&&) = default;
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PDFJBIG2Decoder& operator=(const PDFJBIG2Decoder&) = delete;
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PDFJBIG2Decoder& operator=(PDFJBIG2Decoder&&) = default;
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~PDFJBIG2Decoder();
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/// Decodes image interpreting the data as JBIG2 data stream. If image cannot
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/// be decoded, exception is thrown (or invalid PDFImageData is returned).
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/// \param maskingType Image masking type
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PDFImageData decode(PDFImageData::MaskingType maskingType);
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/// Decodes image interpreting the data as JBIG2 file stream (not data stream).
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/// Decoding procedure also handles file header/file flags and number of pages.
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/// If number of pages is invalid, then exception is thrown.
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PDFImageData decodeFileStream();
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private:
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static constexpr const uint32_t MAX_BITMAP_SIZE = 65536;
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/// Processes current data stream (reads all data from the stream, interprets
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/// them as segments and processes the segments).
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void processStream();
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void processSymbolDictionary(const PDFJBIG2SegmentHeader& header);
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void processTextRegion(const PDFJBIG2SegmentHeader& header);
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void processPatternDictionary(const PDFJBIG2SegmentHeader& header);
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void processHalftoneRegion(const PDFJBIG2SegmentHeader& header);
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void processGenericRegion(const PDFJBIG2SegmentHeader& header);
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void processGenericRefinementRegion(const PDFJBIG2SegmentHeader& header);
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void processPageInformation(const PDFJBIG2SegmentHeader& header);
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void processEndOfPage(const PDFJBIG2SegmentHeader& header);
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void processEndOfStripe(const PDFJBIG2SegmentHeader& header);
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void processEndOfFile(const PDFJBIG2SegmentHeader& header);
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void processProfiles(const PDFJBIG2SegmentHeader& header);
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void processCodeTables(const PDFJBIG2SegmentHeader& header);
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void processExtension(const PDFJBIG2SegmentHeader& header);
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/// Returns bitmap for given segment index. If bitmap is not found, or segment
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/// is of different type, then exception is thrown.
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/// \param segmentIndex Segment index with bitmap
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/// \param remove Remove the segment?
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PDFJBIG2Bitmap getBitmap(const uint32_t segmentIndex, bool remove);
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/// Reads bitmap using decoding parameters
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/// \param parameters Decoding parameters
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PDFJBIG2Bitmap readBitmap(PDFJBIG2BitmapDecodingParameters& parameters);
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/// Reads refined bitmap using decoding parameters
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/// \param parameters Decoding parameters
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PDFJBIG2Bitmap readRefinementBitmap(PDFJBIG2BitmapRefinementDecodingParameters& parameters);
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/// Reads text bitmap using decoding parameters
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/// \param parameters Decoding parameters
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PDFJBIG2Bitmap readTextBitmap(PDFJBIG2TextRegionDecodingParameters& parameters);
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/// Reads the region segment information field (see chapter 7.4.1)
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PDFJBIG2RegionSegmentInformationField readRegionSegmentInformationField();
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/// Read adaptative pixel template positions, positions, which are not read, are filled with 0
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PDFJBIG2ATPositions readATTemplatePixelPositions(int count);
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/// Skip segment data
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void skipSegment(const PDFJBIG2SegmentHeader& header);
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/// Returns structure containing referenced segments. If segment numbers
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/// are wrong, or invalid segments appears, then exception is thrown.
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/// \param header Header, from which referred segments are read
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PDFJBIG2ReferencedSegments getReferencedSegments(const PDFJBIG2SegmentHeader& header) const;
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static void checkBitmapSize(const uint32_t size);
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static void checkRegionSegmentInformationField(const PDFJBIG2RegionSegmentInformationField& field);
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static int32_t checkInteger(std::optional<int32_t> value);
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QByteArray m_data;
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QByteArray m_globalData;
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PDFRenderErrorReporter* m_errorReporter;
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PDFBitReader m_reader;
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std::map<uint32_t, std::unique_ptr<PDFJBIG2Segment>> m_segments;
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uint8_t m_pageDefaultPixelValue;
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PDFJBIG2BitOperation m_pageDefaultCompositionOperator;
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bool m_pageDefaultCompositionOperatorOverriden;
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bool m_pageSizeUndefined;
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PDFJBIG2Bitmap m_pageBitmap;
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};
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} // namespace pdf
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#endif // PDFJBIG2DECODER_H
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