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// **************************************************************************
// * This file is part of the FreeFileSync project. It is distributed under *
// * GNU General Public License: http://www.gnu.org/licenses/gpl.html *
// * Copyright (C) Zenju (zenju AT gmx DOT de) - All Rights Reserved *
// **************************************************************************
#ifndef SERIALIZE_H_INCLUDED
#define SERIALIZE_H_INCLUDED
#include <cstdint>
#include <zen/string_base.h>
#include <zen/file_io.h>
namespace zen
{
//high-performance unformatted serialization (avoiding wxMemoryOutputStream/wxMemoryInputStream inefficiencies)
/*
--------------------------
|Binary Container Concept|
--------------------------
binary container for data storage: must support "basic" std::vector interface (e.g. std::vector<char>, std::string, Zbase<char>)
*/
//binary container reference implementations
typedef Zbase<char> Utf8String; //ref-counted + COW text stream + guaranteed performance: exponential growth
class BinaryStream; //ref-counted byte stream + guaranteed performance: exponential growth -> no COW, but 12% faster than Utf8String (due to no null-termination?)
class BinaryStream //essentially a std::vector<char> with ref-counted semantics, but no COW! => *almost* value type semantics, but not quite
{
public:
BinaryStream() : buffer(std::make_shared<std::vector<char>>()) {}
typedef std::vector<char>::value_type value_type;
typedef std::vector<char>::iterator iterator;
typedef std::vector<char>::const_iterator const_iterator;
iterator begin() { return buffer->begin(); }
iterator end () { return buffer->end (); }
const_iterator begin() const { return buffer->begin(); }
const_iterator end () const { return buffer->end (); }
void resize(size_t len) { buffer->resize(len); }
size_t size() const { return buffer->size(); }
bool empty() const { return buffer->empty(); }
inline friend bool operator==(const BinaryStream& lhs, const BinaryStream& rhs) { return *lhs.buffer == *rhs.buffer; }
private:
std::shared_ptr<std::vector<char>> buffer; //always bound!
//perf: shared_ptr indirection irrelevant: less than 1% slower!
};
//----------------------------------------------------------------------
//functions based on binary container abstraction
template <class BinContainer> void saveBinStream(const Zstring& filename, const BinContainer& cont); //throw FileError
template <class BinContainer> BinContainer loadBinStream(const Zstring& filename); //throw FileError
/*
-----------------------------
|Binary Input Stream Concept|
-----------------------------
struct BinInputStream
{
const void* requestRead(size_t len); //expect external read of len bytes
};
------------------------------
|Binary Output Stream Concept|
------------------------------
struct BinOutputStream
{
void* requestWrite(size_t len); //expect external write of len bytes
};
*/
//binary input/output stream reference implementation
class UnexpectedEndOfStreamError {};
struct BinStreamIn //throw UnexpectedEndOfStreamError
{
BinStreamIn(const BinaryStream& cont) : buffer(cont), pos(0) {} //this better be cheap!
const void* requestRead(size_t len) //throw UnexpectedEndOfStreamError
{
if (len == 0) return nullptr; //don't allow for possibility to access empty buffer
if (pos + len > buffer.size())
throw UnexpectedEndOfStreamError();
size_t oldPos = pos;
pos += len;
return &*buffer.begin() + oldPos;
}
private:
const BinaryStream buffer;
size_t pos;
};
struct BinStreamOut
{
void* requestWrite(size_t len)
{
if (len == 0) return nullptr; //don't allow for possibility to access empty buffer
const size_t oldSize = buffer.size();
buffer.resize(oldSize + len);
return &*buffer.begin() + oldSize;
}
BinaryStream get() { return buffer; }
private:
BinaryStream buffer;
};
//----------------------------------------------------------------------
//functions based on binary stream abstraction
template <class N, class BinOutputStream> void writeNumber (BinOutputStream& stream, const N& num); //
template <class C, class BinOutputStream> void writeContainer(BinOutputStream& stream, const C& str); //throw ()
template < class BinOutputStream> void writeArray (BinOutputStream& stream, const void* data, size_t len); //
//----------------------------------------------------------------------
template <class N, class BinInputStream> N readNumber (BinInputStream& stream); //
template <class C, class BinInputStream> C readContainer(BinInputStream& stream); //throw UnexpectedEndOfStreamError (corrupted data)
template < class BinInputStream> void readArray (BinInputStream& stream, void* data, size_t len); //
//-----------------------implementation-------------------------------
template <class BinContainer> inline
void saveBinStream(const Zstring& filename, const BinContainer& cont) //throw FileError
{
assert_static(sizeof(typename BinContainer::value_type) == 1); //expect: bytes (until further)
FileOutput fileOut(filename, zen::FileOutput::ACC_OVERWRITE); //throw FileError
if (!cont.empty())
fileOut.write(&*cont.begin(), cont.size()); //throw FileError
}
template <class BinContainer> inline
BinContainer loadBinStream(const Zstring& filename) //throw FileError
{
assert_static(sizeof(typename BinContainer::value_type) == 1); //expect: bytes (until further)
FileInput fileIn(filename); //throw FileError
BinContainer contOut;
const size_t blockSize = 128 * 1024;
do
{
contOut.resize(contOut.size() + blockSize); //container better implement exponential growth!
const size_t bytesRead = fileIn.read(&*contOut.begin() + contOut.size() - blockSize, blockSize); //throw FileError
if (bytesRead < blockSize)
contOut.resize(contOut.size() - (blockSize - bytesRead)); //caveat: unsigned arithmetics
}
while (!fileIn.eof());
return contOut;
}
template <class BinOutputStream> inline
void writeArray(BinOutputStream& stream, const void* data, size_t len)
{
std::copy(static_cast<const char*>(data),
static_cast<const char*>(data) + len,
static_cast< char*>(stream.requestWrite(len)));
}
template <class N, class BinOutputStream> inline
void writeNumber(BinOutputStream& stream, const N& num)
{
assert_static((IsArithmetic<N>::value || IsSameType<N, bool>::value));
writeArray(stream, &num, sizeof(N));
}
template <class C, class BinOutputStream> inline
void writeContainer(BinOutputStream& stream, const C& cont) //don't even consider UTF8 conversions here, we're handling arbitrary binary data!
{
const auto len = cont.size();
writeNumber(stream, static_cast<std::uint32_t>(len));
if (len > 0)
writeArray(stream, &*cont.begin(), sizeof(typename C::value_type) * len); //don't use c_str(), but access uniformly via STL interface
}
template <class BinInputStream> inline
void readArray(BinInputStream& stream, void* data, size_t len)
{
const char* const src = static_cast<const char*>(stream.requestRead(len)); //expect external write of len bytes
std::copy(src, src + len, static_cast<char*>(data));
}
template <class N, class BinInputStream> inline
N readNumber(BinInputStream& stream)
{
assert_static((IsArithmetic<N>::value || IsSameType<N, bool>::value));
N num = 0;
readArray(stream, &num, sizeof(N));
return num;
}
template <class C, class BinInputStream> inline
C readContainer(BinInputStream& stream)
{
C cont;
auto strLength = readNumber<std::uint32_t>(stream);
if (strLength > 0)
try
{
cont.resize(strLength); //throw std::bad_alloc
readArray(stream, &*cont.begin(), sizeof(typename C::value_type) * strLength);
}
catch (std::bad_alloc&) //most likely this is due to data corruption!
{
throw UnexpectedEndOfStreamError();
}
return cont;
}
}
#endif //SERIALIZE_H_INCLUDED
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