class Poco::BinaryWriter
Overview
This class writes basic types (and std::vectors of these) in binary form into an output stream. Moreā¦
#include <BinaryWriter.h> class BinaryWriter { public: // enums enum StreamByteOrder; // construction BinaryWriter( std::ostream& ostr, StreamByteOrder byteOrder = NATIVE_BYTE_ORDER ); BinaryWriter( std::ostream& ostr, TextEncoding& encoding, StreamByteOrder byteOrder = NATIVE_BYTE_ORDER ); // methods BinaryWriter& operator<<(bool value); BinaryWriter& operator<<(char value); BinaryWriter& operator<<(unsigned char value); BinaryWriter& operator<<(signed char value); BinaryWriter& operator<<(short value); BinaryWriter& operator<<(unsigned short value); BinaryWriter& operator<<(int value); BinaryWriter& operator<<(unsigned int value); BinaryWriter& operator<<(long value); BinaryWriter& operator<<(unsigned long value); BinaryWriter& operator<<(float value); BinaryWriter& operator<<(double value); BinaryWriter& operator<<(const std::string& value); BinaryWriter& operator<<(const char* value); template <typename T> BinaryWriter& operator<<(const std::vector<T>& value); void write7BitEncoded(UInt32 value); void writeRaw(const std::string& rawData); void writeRaw( const char* buffer, std::streamsize length ); void writeBOM(); void flush(); bool good(); bool fail(); bool bad(); std::ostream& stream() const; StreamByteOrder byteOrder() const; }; // direct descendants template <typename T> class BasicMemoryBinaryWriter;
Detailed Documentation
This class writes basic types (and std::vectors of these) in binary form into an output stream.
It provides an inserter-based interface similar to ostream. The writer also supports automatic conversion from big-endian (network byte order) to little-endian and vice-versa. Use a BinaryReader to read from a stream created by a BinaryWriter. Be careful when exchanging data between systems with different data type sizes (e.g., 32-bit and 64-bit architectures), as the sizes of some of the basic types may be different. For example, writing a long integer on a 64-bit system and reading it on a 32-bit system may yield an incorrent result. Use fixed-size types (Int32, Int64, etc.) in such a case.
Construction
BinaryWriter( std::ostream& ostr, StreamByteOrder byteOrder = NATIVE_BYTE_ORDER )
Creates the BinaryWriter.
BinaryWriter( std::ostream& ostr, TextEncoding& encoding, StreamByteOrder byteOrder = NATIVE_BYTE_ORDER )
Creates the BinaryWriter using the given TextEncoding.
Strings will be converted from the currently set global encoding (see Poco::TextEncoding::global()) to the specified encoding.
Methods
void write7BitEncoded(UInt32 value)
Writes a 32-bit unsigned integer in a compressed format.
The value is written out seven bits at a time, starting with the seven least-significant bits. The high bit of a byte indicates whether there are more bytes to be written after this one. If value will fit in seven bits, it takes only one byte of space. If value will not fit in seven bits, the high bit is set on the first byte and written out. value is then shifted by seven bits and the next byte is written. This process is repeated until the entire integer has been written.
void writeRaw(const std::string& rawData)
Writes the string as-is to the stream.
void writeRaw( const char* buffer, std::streamsize length )
Writes length raw bytes from the given buffer to the stream.
void writeBOM()
Writes a byte-order mark to the stream.
A byte order mark is a 16-bit integer with a value of 0xFEFF, written in host byte-order. A BinaryReader uses the byte-order mark to determine the byte-order of the stream.
void flush()
Flushes the underlying stream.
bool good()
Returns _ostr.good();.
bool fail()
Returns _ostr.fail();.
bool bad()
Returns _ostr.bad();.
std::ostream& stream() const
Returns the underlying stream.
StreamByteOrder byteOrder() const
Returns the byte ordering used by the writer, which is either BIG_ENDIAN_BYTE_ORDER or LITTLE_ENDIAN_BYTE_ORDER.