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# Implementation Status
The serialization library is production-ready.
Currently, RPC implementation is in testing phase. Requires newer kernel, not running on RHEL5/CentOS5.
# Install
Same as QuickStart for C Language.
# Serialization QuickStart for C+\+
## First program
Include `msgpack.hpp` header and link `msgpack` library to use MessagePack on your program.
```cpp
#include <msgpack.hpp>
#include <vector>
#include <string>
#include <iostream>
int main(void) {
// serializes this object.
std::vector<std::string> vec;
vec.push_back("Hello");
vec.push_back("MessagePack");
// serialize it into simple buffer.
msgpack::sbuffer sbuf;
msgpack::pack(sbuf, vec);
// deserialize it.
msgpack::object_handle oh =
msgpack::unpack(sbuf.data(), sbuf.size());
// print the deserialized object.
msgpack::object obj = oh.get();
std::cout << obj << std::endl; //=> ["Hello", "MessagePack"]
// convert it into statically typed object.
std::vector<std::string> rvec;
obj.convert(rvec);
}
```
Compile it as follows:
```
$ g++ -Ipath_to_msgpack/include hello.cc -o hello
$ ./hello
["Hello", "MessagePack"]
```
## Streaming feature
```cpp
#include <msgpack.hpp>
#include <iostream>
#include <string>
int main(void) {
// serializes multiple objects using msgpack::packer.
msgpack::sbuffer buffer;
msgpack::packer<msgpack::sbuffer> pk(&buffer);
pk.pack(std::string("Log message ... 1"));
pk.pack(std::string("Log message ... 2"));
pk.pack(std::string("Log message ... 3"));
// deserializes these objects using msgpack::unpacker.
msgpack::unpacker pac;
// feeds the buffer.
pac.reserve_buffer(buffer.size());
memcpy(pac.buffer(), buffer.data(), buffer.size());
pac.buffer_consumed(buffer.size());
// now starts streaming deserialization.
msgpack::object_handle oh;
while(pac.next(oh)) {
std::cout << oh.get() << std::endl;
}
// results:
// $ g++ -Ipath_to_msgpack/include stream.cc -o stream
// $ ./stream
// "Log message ... 1"
// "Log message ... 2"
// "Log message ... 3"
}
```
### Streaming into an array or map
```cpp
#include <msgpack.hpp>
#include <iostream>
#include <string>
int main(void) {
// serializes multiple objects into one message containing an array using msgpack::packer.
msgpack::sbuffer buffer;
msgpack::packer<msgpack::sbuffer> pk(&buffer);
pk.pack_array(3);
pk.pack(std::string("Log message ... 1"));
pk.pack(std::string("Log message ... 2"));
pk.pack(std::string("Log message ... 3"));
// serializes multiple objects into one message containing a map using msgpack::packer.
msgpack::sbuffer buffer2;
msgpack::packer<msgpack::sbuffer> pk2(&buffer2);
pk2.pack_map(2);
pk2.pack(std::string("x"));
pk2.pack(3);
pk2.pack(std::string("y"));
pk2.pack(3.4321);
}
```
## User-defined classes
You can use serialize/deserializes user-defined classes using `MSGPACK_DEFINE` macro.
```cpp
#include <msgpack.hpp>
#include <vector>
#include <string>
class myclass {
private:
std::string m_str;
std::vector<int> m_vec;
public:
MSGPACK_DEFINE(m_str, m_vec);
};
int main(void) {
std::vector<myclass> vec;
// add some elements into vec...
// you can serialize myclass directly
msgpack::sbuffer sbuf;
msgpack::pack(sbuf, vec);
msgpack::object_handle oh =
msgpack::unpack(sbuf.data(), sbuf.size());
msgpack::object obj = oh.get();
// you can convert object to myclass directly
std::vector<myclass> rvec;
obj.convert(rvec);
}
```
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