#ifndef IOUTILITIES_BINERYREADER_H #define IOUTILITIES_BINERYREADER_H #include "../conversion/binaryconversion.h" #include #include #include namespace IoUtilities { class CPP_UTILITIES_EXPORT BinaryReader { public: BinaryReader(std::istream *stream); BinaryReader(const BinaryReader &other); BinaryReader &operator=(const BinaryReader &rhs) = delete; ~BinaryReader(); const std::istream *stream() const; std::istream *stream(); void setStream(std::istream *stream, bool giveOwnership = false); bool hasOwnership() const; void giveOwnership(); void detatchOwnership(); bool fail() const; bool eof() const; bool canRead() const; std::istream::pos_type readStreamsize(); void read(char *buffer, std::streamsize length); void read(byte *buffer, std::streamsize length); void read(std::vector &buffer, std::streamsize length); int16 readInt16BE(); uint16 readUInt16BE(); int32 readInt24BE(); uint32 readUInt24BE(); int32 readInt32BE(); uint32 readUInt32BE(); int64 readInt40BE(); uint64 readUInt40BE(); int64 readInt56BE(); uint64 readUInt56BE(); int64 readInt64BE(); uint64 readUInt64BE(); float32 readFloat32BE(); float64 readFloat64BE(); int16 readInt16LE(); uint16 readUInt16LE(); int32 readInt24LE(); uint32 readUInt24LE(); int32 readInt32LE(); uint32 readUInt32LE(); int64 readInt40LE(); uint64 readUInt40LE(); int64 readInt56LE(); uint64 readUInt56LE(); int64 readInt64LE(); uint64 readUInt64LE(); float32 readFloat32LE(); float64 readFloat64LE(); char readChar(); byte readByte(); bool readBool(); std::string readLengthPrefixedString(); std::string readString(std::size_t length); std::string readTerminatedString(byte termination = 0); std::string readTerminatedString(size_t maxBytesToRead, byte termination = 0); std::string readMultibyteTerminatedStringBE(uint16 termination = 0); std::string readMultibyteTerminatedStringLE(uint16 termination = 0); std::string readMultibyteTerminatedStringBE(std::size_t maxBytesToRead, uint16 termination = 0); std::string readMultibyteTerminatedStringLE(std::size_t maxBytesToRead, uint16 termination = 0); uint32 readSynchsafeUInt32BE(); float32 readFixed8BE(); float32 readFixed16BE(); uint32 readSynchsafeUInt32LE(); float32 readFixed8LE(); float32 readFixed16LE(); uint32 readCrc32(std::size_t length); static uint32 computeCrc32(const char *buffer, std::size_t length); static const uint32 crc32Table[]; private: std::istream *m_stream; bool m_ownership; char m_buffer[8]; }; /*! * \brief Returns a pointer to the stream the reader will read from when calling one of the read-methods. * * \sa setStream() */ inline std::istream *BinaryReader::stream() { return m_stream; } /*! * \brief Returns a pointer to the stream the reader will read from when calling one of the read-methods. * * \sa setStream() */ inline const std::istream *BinaryReader::stream() const { return m_stream; } /*! * \brief Returns whether the reader takes ownership over the assigned stream. * * \sa setStream() * \sa giveOwnership() * \sa detatchOwnership() */ inline bool BinaryReader::hasOwnership() const { return m_ownership; } /*! * \brief The reader will take ownership over the assigned stream. * * \sa setStream() * \sa detatchOwnership() * \sa hasOwnership() */ inline void BinaryReader::giveOwnership() { if (m_stream) { m_ownership = true; } } /*! * \brief The reader will not take ownership over the assigned stream. * * \sa setStream() * \sa giveOwnership() * \sa hasOwnership() */ inline void BinaryReader::detatchOwnership() { m_ownership = false; } /*! * \brief Returns an indication whether the fail bit of the assigned stream is set. */ inline bool BinaryReader::fail() const { return m_stream ? m_stream->fail() : false; } /*! * \brief Returns an indication whether the end-of-stream bit of the assigned stream is set. */ inline bool BinaryReader::eof() const { return m_stream && m_stream->eof(); } /*! * \brief Returns an indication whether a stream is assigned the reader can read from. */ inline bool BinaryReader::canRead() const { return m_stream && m_stream->good(); } /*! * \brief Reads the specified number of characters from the stream in the character array. */ inline void BinaryReader::read(char *buffer, std::streamsize length) { m_stream->read(buffer, length); } /*! * \brief Reads the specified number of bytes from the stream in the character array. */ inline void BinaryReader::read(byte *buffer, std::streamsize length) { m_stream->read(reinterpret_cast(buffer), length); } /*! * \brief Reads the specified number of bytes from the stream in the specified \a buffer. */ inline void BinaryReader::read(std::vector &buffer, std::streamsize length) { buffer.resize(length); m_stream->read(buffer.data(), length); } /*! * \brief Reads a 16-bit big endian signed integer from the current stream and advances the current position of the stream by two bytes. */ inline int16 BinaryReader::readInt16BE() { m_stream->read(m_buffer, sizeof(int16)); return ConversionUtilities::BE::toInt16(m_buffer); } /*! * \brief Reads a 16-bit big endian unsigned integer from the current stream and advances the current position of the stream by two bytes. */ inline uint16 BinaryReader::readUInt16BE() { m_stream->read(m_buffer, sizeof(uint16)); return ConversionUtilities::BE::toUInt16(m_buffer); } /*! * \brief Reads a 24-bit big endian signed integer from the current stream and advances the current position of the stream by three bytes. */ inline int32 BinaryReader::readInt24BE() { *m_buffer = 0; m_stream->read(m_buffer + 1, 3); auto val = ConversionUtilities::BE::toInt32(m_buffer); if (val >= 0x800000) { val = -(0x1000000 - val); } return val; } /*! * \brief Reads a 24-bit big endian unsigned integer from the current stream and advances the current position of the stream by three bytes. */ inline uint32 BinaryReader::readUInt24BE() { *m_buffer = 0; m_stream->read(m_buffer + 1, 3); return ConversionUtilities::BE::toUInt32(m_buffer); } /*! * \brief Reads a 32-bit big endian signed integer from the current stream and advances the current position of the stream by four bytes. */ inline int32 BinaryReader::readInt32BE() { m_stream->read(m_buffer, sizeof(int32)); return ConversionUtilities::BE::toInt32(m_buffer); } /*! * \brief Reads a 32-bit big endian unsigned integer from the current stream and advances the current position of the stream by four bytes. */ inline uint32 BinaryReader::readUInt32BE() { m_stream->read(m_buffer, sizeof(uint32)); return ConversionUtilities::BE::toUInt32(m_buffer); } /*! * \brief Reads a 40-bit big endian signed integer from the current stream and advances the current position of the stream by five bytes. */ inline int64 BinaryReader::readInt40BE() { *m_buffer = *(m_buffer + 1) = *(m_buffer + 2) = 0; m_stream->read(m_buffer + 3, 5); auto val = ConversionUtilities::BE::toInt64(m_buffer); if (val >= 0x8000000000) { val = -(0x10000000000 - val); } return val; } /*! * \brief Reads a 40-bit big endian unsigned integer from the current stream and advances the current position of the stream by five bytes. */ inline uint64 BinaryReader::readUInt40BE() { *m_buffer = *(m_buffer + 1) = *(m_buffer + 2) = 0; m_stream->read(m_buffer + 3, 5); return ConversionUtilities::BE::toUInt64(m_buffer); } /*! * \brief Reads a 56-bit big endian signed integer from the current stream and advances the current position of the stream by seven bytes. */ inline int64 BinaryReader::readInt56BE() { *m_buffer = 0; m_stream->read(m_buffer + 1, 7); auto val = ConversionUtilities::BE::toInt64(m_buffer); if (val >= 0x80000000000000) { val = -(0x100000000000000 - val); } return val; } /*! * \brief Reads a 56-bit big endian unsigned integer from the current stream and advances the current position of the stream by seven bytes. */ inline uint64 BinaryReader::readUInt56BE() { *m_buffer = 0; m_stream->read(m_buffer + 1, 7); return ConversionUtilities::BE::toUInt64(m_buffer); } /*! * \brief Reads a 64-bit big endian signed integer from the current stream and advances the current position of the stream by eight bytes. */ inline int64 BinaryReader::readInt64BE() { m_stream->read(m_buffer, sizeof(int64)); return ConversionUtilities::BE::toInt64(m_buffer); } /*! * \brief Reads a 64-bit big endian unsigned integer from the current stream and advances the current position of the stream by eight bytes. */ inline uint64 BinaryReader::readUInt64BE() { m_stream->read(m_buffer, sizeof(uint64)); return ConversionUtilities::BE::toUInt64(m_buffer); } /*! * \brief Reads a 32-bit big endian floating point value from the current stream and advances the current position of the stream by four bytes. */ inline float32 BinaryReader::readFloat32BE() { m_stream->read(m_buffer, sizeof(float32)); return ConversionUtilities::BE::toFloat32(m_buffer); } /*! * \brief Reads a 64-bit big endian floating point value from the current stream and advances the current position of the stream by eight bytes. */ inline float64 BinaryReader::readFloat64BE() { m_stream->read(m_buffer, sizeof(float64)); return ConversionUtilities::BE::toFloat64(m_buffer); } /*! * \brief Reads a 16-bit little endian signed integer from the current stream and advances the current position of the stream by two bytes. */ inline int16 BinaryReader::readInt16LE() { m_stream->read(m_buffer, sizeof(int16)); return ConversionUtilities::LE::toInt16(m_buffer); } /*! * \brief Reads a 16-bit little endian unsigned integer from the current stream and advances the current position of the stream by two bytes. */ inline uint16 BinaryReader::readUInt16LE() { m_stream->read(m_buffer, sizeof(uint16)); return ConversionUtilities::LE::toUInt16(m_buffer); } /*! * \brief Reads a 24-bit little endian signed integer from the current stream and advances the current position of the stream by three bytes. */ inline int32 BinaryReader::readInt24LE() { *(m_buffer + 3) = 0; m_stream->read(m_buffer, 3); auto val = ConversionUtilities::LE::toInt32(m_buffer); if (val >= 0x800000) { val = -(0x1000000 - val); } return val; } /*! * \brief Reads a 24-bit little endian unsigned integer from the current stream and advances the current position of the stream by three bytes. */ inline uint32 BinaryReader::readUInt24LE() { *(m_buffer + 3) = 0; m_stream->read(m_buffer, 3); return ConversionUtilities::LE::toUInt32(m_buffer); } /*! * \brief Reads a 32-bit little endian signed integer from the current stream and advances the current position of the stream by four bytes. */ inline int32 BinaryReader::readInt32LE() { m_stream->read(m_buffer, sizeof(int32)); return ConversionUtilities::LE::toInt32(m_buffer); } /*! * \brief Reads a 32-bit little endian unsigned integer from the current stream and advances the current position of the stream by four bytes. */ inline uint32 BinaryReader::readUInt32LE() { m_stream->read(m_buffer, sizeof(uint32)); return ConversionUtilities::LE::toUInt32(m_buffer); } /*! * \brief Reads a 40-bit little endian signed integer from the current stream and advances the current position of the stream by five bytes. */ inline int64 BinaryReader::readInt40LE() { *(m_buffer + 5) = *(m_buffer + 6) = *(m_buffer + 7) = 0; m_stream->read(m_buffer, 5); auto val = ConversionUtilities::LE::toInt64(m_buffer); if (val >= 0x8000000000) { val = -(0x10000000000 - val); } return val; } /*! * \brief Reads a 40-bit little endian unsigned integer from the current stream and advances the current position of the stream by five bytes. */ inline uint64 BinaryReader::readUInt40LE() { *(m_buffer + 5) = *(m_buffer + 6) = *(m_buffer + 7) = 0; m_stream->read(m_buffer, 5); return ConversionUtilities::LE::toUInt64(m_buffer); } /*! * \brief Reads a 56-bit little endian signed integer from the current stream and advances the current position of the stream by seven bytes. */ inline int64 BinaryReader::readInt56LE() { *(m_buffer + 7) = 0; m_stream->read(m_buffer, 7); auto val = ConversionUtilities::LE::toInt64(m_buffer); if (val >= 0x80000000000000) { val = -(0x100000000000000 - val); } return val; } /*! * \brief Reads a 56-bit little endian unsigned integer from the current stream and advances the current position of the stream by seven bytes. */ inline uint64 BinaryReader::readUInt56LE() { *(m_buffer + 7) = 0; m_stream->read(m_buffer, 7); return ConversionUtilities::LE::toUInt64(m_buffer); } /*! * \brief Reads a 64-bit little endian signed integer from the current stream and advances the current position of the stream by eight bytes. */ inline int64 BinaryReader::readInt64LE() { m_stream->read(m_buffer, sizeof(int64)); return ConversionUtilities::LE::toInt64(m_buffer); } /*! * \brief Reads a 64-bit little endian unsigned integer from the current stream and advances the current position of the stream by eight bytes. */ inline uint64 BinaryReader::readUInt64LE() { m_stream->read(m_buffer, sizeof(uint64)); return ConversionUtilities::LE::toUInt64(m_buffer); } /*! * \brief Reads a 32-bit little endian floating point value from the current stream and advances the current position of the stream by four bytes. */ inline float32 BinaryReader::readFloat32LE() { m_stream->read(m_buffer, sizeof(float32)); return ConversionUtilities::LE::toFloat32(m_buffer); } /*! * \brief Reads a 64-bit little endian floating point value from the current stream and advances the current position of the stream by eight bytes. */ inline float64 BinaryReader::readFloat64LE() { m_stream->read(m_buffer, sizeof(float64)); return ConversionUtilities::LE::toFloat64(m_buffer); } /*! * \brief Reads a single character from the current stream and advances the current position of the stream by one byte. */ inline char BinaryReader::readChar() { m_stream->read(m_buffer, sizeof(char)); return m_buffer[0]; } /*! * \brief Reads a single byte/unsigned character from the current stream and advances the current position of the stream by one byte. */ inline byte BinaryReader::readByte() { m_stream->read(m_buffer, sizeof(char)); return static_cast(m_buffer[0]); } /*! * \brief Reads a boolean value from the current stream and advances the current position of the stream by one byte. * \sa IoUtilities::BitReader */ inline bool BinaryReader::readBool() { return readByte() != 0; } /*! * \brief Reads a 32-bit big endian synchsafe integer from the current stream and advances the current position of the stream by four bytes. * \remarks Synchsafe integers appear in ID3 tags that are attached to an MP3 file. * \sa ID3 tag version 2.4.0 - Main Structure */ inline uint32 BinaryReader::readSynchsafeUInt32BE() { return ConversionUtilities::toNormalInt(readUInt32BE()); } /*! * \brief Reads a 8.8 fixed point big endian representation from the current stream and returns it as 32-bit floating point value. */ inline float32 BinaryReader::readFixed8BE() { return ConversionUtilities::toFloat32(readUInt16BE()); } /*! * \brief Reads a 16.16 fixed point big endian representation from the current stream and returns it as 32-bit floating point value. */ inline float32 BinaryReader::readFixed16BE() { return ConversionUtilities::toFloat32(readUInt32BE()); } /*! * \brief Reads a 32-bit little endian synchsafe integer from the current stream and advances the current position of the stream by four bytes. * \remarks Synchsafe integers appear in ID3 tags that are attached to an MP3 file. * \sa ID3 tag version 2.4.0 - Main Structure */ inline uint32 BinaryReader::readSynchsafeUInt32LE() { return ConversionUtilities::toNormalInt(readUInt32LE()); } /*! * \brief Reads a 8.8 fixed point little endian representation from the current stream and returns it as 32-bit floating point value. */ inline float32 BinaryReader::readFixed8LE() { return ConversionUtilities::toFloat32(readUInt16LE()); } /*! * \brief Reads a 16.16 fixed point little endian representation from the current stream and returns it as 32-bit floating point value. */ inline float32 BinaryReader::readFixed16LE() { return ConversionUtilities::toFloat32(readUInt32LE()); } } #endif // IOUTILITIES_BINERYREADER_H