serialization using a memory mapped file
I want to serialize my class objects on a memory mapped file but turns out boost serialization only works with file streams. Here is an example:
class gps_position
{
private:
friend class boost::serialization::access;
// When the class Archive corresponds to an output archive, the
// & operator is defined similar to <<. Likewise, when the class Archive
// is a type of input archive the & operator is defined similar to >>.
template<class Archive>
void serialize(Archive & ar, const unsigned int version)
{
ar & degrees;
ar & minutes;
ar & seconds;
}
int degrees;
int minutes;
float seconds;
public:
gps_position(){};
gps_position(int d, int m, float s) :
degrees(d), minutes(m), seconds(s)
{}
};
int main() {
// create and open a character archive for output
std::ofstream ofs("filename");
// create class instance
const gps_position g(35, 59, 24.567f);
// save data to archive
{
boost::archive::text_oarchive oa(ofs);
// write class instance to archive
oa << g;
// archive and stream closed when destructors are called
}
// ... some time later restore the class instance to its orginal state
gps_position newg;
{
// create and open an archive for input
std::ifstream ifs("filename");
boost::archive::text_iarchive ia(ifs);
// read class state from archive
ia >> newg;
// archive and stream closed when destructors are called
}
return 0;
}
Is there a away it can be done over memory mapped files. I am using windows API CreateFileMapping and MapViewOfFile for memory mapping.
edit:
This is what I tried to do using boost iostream library and memory mapped files.
namespace io = boost::iostreams;
typedef io::stream_buffer < io::mapped_file_source > in_streambuf;
typedef io::stream_buffer < io::mapped_file_sink > out_streambuf;
int main() {
// create and open a character archive for output
// std::ofstream ofs("filename"); /*commented this */
boost::iostreams::mapped_file_params params;
params.path = "filepath";
params.flags = io::mapped_file::mapmode::readwrite;
out_streambuf obuf(params);
std::ostream ofs(&obuf);
// create class instance
const gps_position g(35, 59, 24.567f);
// save data to archive
{
boost::archive::text_oarchive oa(ofs);
// write class instance to archive
oa << g;
// archive and stream closed when destructors are called
}
// ... some time later restore the class instance to its orginal state
gps_position newg;
{
// create and open an archive for input
in_streambuf ibuf(params);
std::istream ifs(&ibuf);
//std::ifstream ifs("filename"); /* commented this */
boost::archive::text_iarchive ia(ifs);
// read class state from archive
ia >> newg;
// archive and stream closed when destructors are called
}
return 0;
}
Now I am not too familiar开发者_StackOverflow社区 with boost but this code fails at run time. So, any help is really appreciated. The failure happens here itself "out_streambuf obuf(params);". Thanks guys!
You might want to look into boost.interprocess bufferstream :
The bufferstream classes offer iostream interface with direct formatting in a fixed size memory buffer with protection against buffer overflows.
The archive class simply works on an existing stream, so you need a stream that is capable of reading from / writing to the mapped memory area. I'm not aware of any ready-made solution for this, so you may just have to write your own streambuf
class that does this. Once you have this, it's simple to attach it to a standard istream
:
std::istream is(your_streambuf);
boost::archive::text_iarchive ia(is);
...
Five years later,
#include <boost/interprocess/shared_memory_object.hpp>
#include <boost/interprocess/mapped_region.hpp>
#include <boost/interprocess/streams/bufferstream.hpp>
#include <boost/archive/binary_oarchive.hpp>
#include <boost/archive/binary_iarchive.hpp>
using namespace boost::interprocess;
....
_shm = new shared_memory_object(open_or_create,shm_name,read_write);
_shm->truncate(shm_size);
_reg = new mapped_region( _shm,read_write);
...
// write the serializable structure
obufferstream bs(static_cast<char*>(region.get_address()),_reg->get_size());
boost::archive::binary_oarchive arch(dynamic_cast<ostream&>(bs));
arch << my_struct;
...
// read the serializable structure
ibufferstream bs(static_cast<char*>(_reg->get_address()),_reg->get_size());
boost::archive::binary_oarchive arch(dynamic_cast<istream&>(bs));
arch >> my_struct;
Et voilà !
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