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//
// BinaryReader.h
//
// Library: Foundation
// Package: Streams
// Module: BinaryReaderWriter
//
// Definition of the BinaryReader class.
//
// Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_BinaryReader_INCLUDED
#define Foundation_BinaryReader_INCLUDED
#include "Poco/Foundation.h"
#include "Poco/Buffer.h"
#include "Poco/MemoryStream.h"
#include <vector>
#include <istream>
namespace Poco {
class TextEncoding;
class TextConverter;
class Foundation_API BinaryReader
/// This class reads basic types (and std::vectors thereof)
/// in binary form into an input stream.
/// It provides an extractor-based interface similar to istream.
/// The reader also supports automatic conversion from big-endian
/// (network byte order) to little-endian and vice-versa.
/// Use a BinaryWriter to create a stream suitable for a BinaryReader.
{
public:
enum StreamByteOrder
{
NATIVE_BYTE_ORDER = 1, /// the host's native byte-order
BIG_ENDIAN_BYTE_ORDER = 2, /// big-endian (network) byte-order
NETWORK_BYTE_ORDER = 2, /// big-endian (network) byte-order
LITTLE_ENDIAN_BYTE_ORDER = 3, /// little-endian byte-order
UNSPECIFIED_BYTE_ORDER = 4 /// unknown, byte-order will be determined by reading the byte-order mark
};
BinaryReader(std::istream& istr, StreamByteOrder byteOrder = NATIVE_BYTE_ORDER);
/// Creates the BinaryReader.
BinaryReader(std::istream& istr, TextEncoding& encoding, StreamByteOrder byteOrder = NATIVE_BYTE_ORDER);
/// Creates the BinaryReader using the given TextEncoding.
///
/// Strings will be converted from the specified encoding
/// to the currently set global encoding (see Poco::TextEncoding::global()).
~BinaryReader();
/// Destroys the BinaryReader.
BinaryReader& operator >> (bool& value);
BinaryReader& operator >> (char& value);
BinaryReader& operator >> (unsigned char& value);
BinaryReader& operator >> (signed char& value);
BinaryReader& operator >> (short& value);
BinaryReader& operator >> (unsigned short& value);
BinaryReader& operator >> (int& value);
BinaryReader& operator >> (unsigned int& value);
BinaryReader& operator >> (long& value);
BinaryReader& operator >> (unsigned long& value);
BinaryReader& operator >> (float& value);
BinaryReader& operator >> (double& value);
#if defined(POCO_HAVE_INT64) && !defined(POCO_LONG_IS_64_BIT)
BinaryReader& operator >> (Int64& value);
BinaryReader& operator >> (UInt64& value);
#endif
BinaryReader& operator >> (std::string& value);
template <typename T>
BinaryReader& operator >> (std::vector<T>& value)
{
Poco::UInt32 size(0);
T elem;
*this >> size;
if (!good()) return *this;
value.reserve(size);
while (this->good() && size-- > 0)
{
*this >> elem;
value.push_back(elem);
}
return *this;
}
void read7BitEncoded(UInt32& value);
/// Reads a 32-bit unsigned integer in compressed format.
/// See BinaryWriter::write7BitEncoded() for a description
/// of the compression algorithm.
#if defined(POCO_HAVE_INT64)
void read7BitEncoded(UInt64& value);
/// Reads a 64-bit unsigned integer in compressed format.
/// See BinaryWriter::write7BitEncoded() for a description
/// of the compression algorithm.
#endif
void readRaw(std::streamsize length, std::string& value);
/// Reads length bytes of raw data into value.
void readRaw(char* buffer, std::streamsize length);
/// Reads length bytes of raw data into buffer.
void readBOM();
/// Reads a byte-order mark from the stream and configures
/// the reader for the encountered byte order.
/// A byte-order mark is a 16-bit integer with a value of 0xFEFF,
/// written in host byte order.
bool good();
/// Returns _istr.good();
bool fail();
/// Returns _istr.fail();
bool bad();
/// Returns _istr.bad();
bool eof();
/// Returns _istr.eof();
std::istream& stream() const;
/// Returns the underlying stream.
StreamByteOrder byteOrder() const;
/// Returns the byte-order used by the reader, which is
/// either BIG_ENDIAN_BYTE_ORDER or LITTLE_ENDIAN_BYTE_ORDER.
void setExceptions(std::ios_base::iostate st = (std::istream::failbit | std::istream::badbit));
/// Sets the stream to throw exception on specified state (default failbit and badbit);
std::streamsize available() const;
/// Returns the number of available bytes in the stream.
private:
std::istream& _istr;
bool _flipBytes;
TextConverter* _pTextConverter;
};
template <typename T>
class BasicMemoryBinaryReader : public BinaryReader
/// A convenient wrapper for using Buffer and MemoryStream with BinaryReader.
{
public:
BasicMemoryBinaryReader(const Buffer<T>& dataBuffer, StreamByteOrder order = NATIVE_BYTE_ORDER):
BinaryReader(_istr, order),
_data(dataBuffer),
_istr(dataBuffer.begin(), dataBuffer.capacity())
{
}
BasicMemoryBinaryReader(const Buffer<T>& dataBuffer, TextEncoding& encoding, StreamByteOrder order = NATIVE_BYTE_ORDER):
BinaryReader(_istr, encoding, order),
_data(dataBuffer),
_istr(dataBuffer.begin(), dataBuffer.capacity())
{
}
~BasicMemoryBinaryReader()
{
}
const Buffer<T>& data() const
{
return _data;
}
const MemoryInputStream& stream() const
{
return _istr;
}
MemoryInputStream& stream()
{
return _istr;
}
private:
const Buffer<T>& _data;
MemoryInputStream _istr;
};
typedef BasicMemoryBinaryReader<char> MemoryBinaryReader;
//
// inlines
//
inline bool BinaryReader::good()
{
return _istr.good();
}
inline bool BinaryReader::fail()
{
return _istr.fail();
}
inline bool BinaryReader::bad()
{
return _istr.bad();
}
inline bool BinaryReader::eof()
{
return _istr.eof();
}
inline std::istream& BinaryReader::stream() const
{
return _istr;
}
inline BinaryReader::StreamByteOrder BinaryReader::byteOrder() const
{
#if defined(POCO_ARCH_BIG_ENDIAN)
return _flipBytes ? LITTLE_ENDIAN_BYTE_ORDER : BIG_ENDIAN_BYTE_ORDER;
#else
return _flipBytes ? BIG_ENDIAN_BYTE_ORDER : LITTLE_ENDIAN_BYTE_ORDER;
#endif
}
inline void BinaryReader::setExceptions(std::ios_base::iostate st)
{
_istr.exceptions(st);
}
inline std::streamsize BinaryReader::available() const
{
return _istr.rdbuf()->in_avail();
}
} // namespace Poco
#endif // Foundation_BinaryReader_INCLUDED
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