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Is it possible to serialize and deserialize a class in C++?

I've been using Java for 3 years now, and serialization / deserialization is fairly trivial in that language. Does C++ have similar features? Are there native libraries that handle serialization?

An example would be helpful.

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not sure what you mean by "native", do you mean native C++ (like Boost.Serialization)? Do you mean using only the C++ Standard Library? Do you mean something else? –  jwfearn Oct 24 '08 at 18:54
i mean "not a external software-library". And sorry my english is not very well :S. I'm from Argentina –  Agusti-N Oct 24 '08 at 19:04
There is not native way to serialize an object (you can still dump the binary data from a POD, but you won't get what you want). Still, Boost, while not an "internal library", is the first external library you should consider to add to your compiler. Boost is of STL quality (i.e. Top Gun C++) –  paercebal Oct 24 '08 at 21:28

10 Answers 10

up vote 51 down vote accepted

The Boost::serialization library handles this rather elegantly. I've used it in several projects.

EDIT 1: There's an example program, showing how to use it, here.

EDIT 2: The only native way to do it is to use streams. That's essentially all the Boost::serialization library does, it extends the stream method by setting up a framework to write objects to a text-like format and read them from the same format. For built-in types, or your own types with operator<< and operator>> properly defined, that's fairly simple; see the C++ FAQ Lite for more information.

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It seems to me that boost::serialization requires the caller to keep track of the order in which objects are written and read. Is that correct? So if there is a change in the order in which two fields are written between versions of a program then we have an incompatibility. Is this right? –  Agnel Kurian Jul 2 '13 at 8:19
I believe that's the case, yes. –  Head Geek Jul 3 '13 at 13:55
Boost serialization failed me when I tried serializing using 32bit app and de-serializing using 64bit version. –  0xDEAD BEEF Sep 6 '13 at 12:22
That would probably be due to the serializing functions, not the Boost::serialization code itself. –  Head Geek Sep 7 '13 at 14:39
@0xDEADBEEF: That probably happend when using a binary_(i|o)archive, which introduces other "problems" like endian-ness. Try text_(i|o)archive, it's more platform agnostic. –  Ela782 Dec 26 '14 at 22:23

Boost is a good suggestion. But if you would like to roll your own, it's not so hard.

Basically you just need a way to build up a graph of objects and then output them to some structured storage format (JSON, XML, YAML, whatever). Building up the graph is as simple as utilizing a marking recursive decent object algorithm and then outputting all the marked objects.

I wrote an article describing a rudimentary (but still powerful) serialization system. You may find it interesting: Using SQLite as an On-disk File Format, Part 2.

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I recommend Google protocol buffers. I had the chance to test drive the library on a new project and it's remarkably easy to use. The library is heavily optimized for performance.

Protobuf is different than other serialization solutions mentioned here in the sense that it does not serialize your objects, but rather generates code for objects that are serialization according to your specification.

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Have you had experience serializing objects about 10-50MB in size using this? Documentation seems to say that protocol buffers are best suited for objects about an MB in size. –  Agnel Kurian Jul 2 '13 at 8:15

I realize this is an old post but it's one of the first that comes up when searching for c++ serialization.

I encourage anyone who has access to C++11 to take a look at cereal, a C++11 header only library for serialization that supports binary, JSON, and XML out of the box. cereal was designed to be easy to extend and use and has a similar syntax to Boost.

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The good thing about cereal is that unlike boost, it has minimal metadata (almost none). boost::serialization becomes really annoying when every time you open an archive, it writes its lib version to the stream, which makes appending to a file impossible. –  CyberSnoopy Aug 5 '14 at 5:52

As far as "built-in" libraries go, the << and >> have been reserved specifically for serialization.

You should override << to output your object to some serialization context (usually an iostream) and >> to read data back from that context. Each object is responsible for outputting its aggregated child objects.

This method works fine so long as your object graph contains no cycles.

If it does, then you will have to use a library to deal with those cycles.

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Surely, that can't be right... the implemented << operators are used to print human-readable text representations of objects, which is very often not what you want for serialization. –  einpoklum May 7 '14 at 6:54

I highly recommend using Boost::serialization as most people here suggest. I have, however, written a toy example for a friend who was curious about how you would do it without boost. I'll just paste the full program here.

It does not handle deep copying, or reconstituting references, or any of those other considerations you would have to puzzle out (which Boost::serialization has done already).

Because this is a toy project I just made everything public. You would want to have some encapsulation in your actual classes which may require friending operators and providing proper accessors to internal members.

Serialize/Deserialize Example

#include <iostream>
#include <sstream>
#include <vector>
#include <string>

struct Contents {
    int id;
    char chr;

    Contents(int id, char chr):id(id),chr(chr){}

std::ostream& operator<<(std::ostream &out, const Contents &me){
    out << "Id: " << me.id << " Chr: " << me.chr;
    return out;

typedef Contents Container_Value_Type;
const Container_Value_Type defaultBad = Contents(-1, '!');
const size_t Container_Vector_Size = 4;

struct Container{
    std::vector<Container_Value_Type> data;

    Container():data(Container_Vector_Size, defaultBad){}

    void serialize( std::ostream &stream ) const {
        for( size_t i = 0; i < Container_Vector_Size; ++i){
            stream.write( reinterpret_cast <const char*> ( &data[i] ), sizeof( Container_Value_Type ) ); 
    void deserialize( std::istream &stream ) {
        std::vector<char> buffer(sizeof(Container_Value_Type));
        for( size_t i = 0; i < Container_Vector_Size; ++i){
            stream.read(&buffer[0], sizeof(Container_Value_Type));

std::stringbuf& operator<<(std::stringbuf &stream, Container &me) {
    std::istream ibuffer(&stream);
    return stream;

std::stringbuf& operator>>(std::stringbuf &stream, const Container &me) {
    std::ostream obuffer(&stream);
    return stream;

std::ostream& operator<<(std::ostream &stream, const Container &me) {
    stream << "Container {" << std::endl;
    for( size_t i = 0; i < Container_Vector_Size; ++i){
        stream << i << ": " << me.data[i] << std::endl;
    stream << "}" << std::endl << std::endl;
    return stream;

int main(){
    Container start;
    start.data[0].id = 1;
    start.data[0].chr = 'a';

    start.data[1].id = 2;
    start.data[1].chr = 'b';

    start.data[2].id = 3;
    start.data[2].chr = 'c';

    start.data[3].id = 4;
    start.data[3].chr = 'd';

    Container reached;
    std::stringbuf buffer;
    buffer >> start;
    buffer << reached;

    std::cout << start;
    std::cout << reached;
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You can check the amef protocol, an example of C++ encoding in amef would be like,

    //Create a new AMEF object
    AMEFObject *object = new AMEFObject();

    //Add a child string object
    object->addPacket("This is the Automated Message Exchange Format Object property!!","adasd");   

    //Add a child integer object

    //Add a child boolean object

    AMEFObject *object2 = new AMEFObject();
    string j = "This is the property of a nested Automated Message Exchange Format Object";

    //Add a child character object

    //Add a child AMEF Object

    //Encode the AMEF obejct
    string str = new AMEFEncoder()->encode(object,false);

Decoding in java would be like,

    string arr = amef encoded byte array value;
    AMEFDecoder decoder = new AMEFDecoder()
    AMEFObject object1 = AMEFDecoder.decode(arr,true);

The Protocol implementation has codecs for both C++ and Java, the interesting part is it can retain object class representation in the form of name value pairs, I required a similar protocol in my last project, when i incidentally stumbled upon this protocol, i had actually modified the base library according to my requirements. Hope this helps you.

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I suggest looking into Abstract factories which is often used as a basis for serialization

I have answered in another SO question about C++ factories. Please see there if a flexible factory is of interest. I try to describe an old way from ET++ to use macros which has worked great for me.

ET++ was a project to port old MacApp to C++ and X11. In the effort of it Eric Gamma etc started to think about Design Patterns. ET++ contained automatic ways for serialization and introspection at runtime.

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I recommend using boost serialization as described by other posters. Here is a good detailed tutorial on how to use it which complements the boost tutorials nicely: http://www.ocoudert.com/blog/2011/07/09/a-practical-guide-to-c-serialization/

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Sweet Persist is another one.

It is possible to serialize to and from streams in XML, JSON, Lua, and binary formats.

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