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I try to understand how serializing/deserializing works in c++, so I want to do that without any libs. But I really stuck with that. I start with simple objects but when I try to deserilize a vector I understand that I can't get a vector without if I don't write it size before. Moreover, I don't know which format of file I should choose because if digits will be existed before size of vector I haven't chance to read it right. However it is only the vector but I also want to do that with classes and map container. My task is serialize/deserialize a objects as this:

    unsigned int    age_;
    string name_;
    enum { undef, man, woman } sex_;

Person : PersonInfo 
    vector<Person>      children_;
    map<string, PersonInfo>     addrBook_;

Currently I know how to serialize simple objects in way as this:

vector<PersonInfo> vecPersonInfo;

ofstream file("file", ios::out | ios::binary);
if (!file) {
    cout<<"can not open file";
} else {
    vector<PersonInfo>::const_iterator iterator = vecPersonInfo.begin();
    for (; iterator != vecPersonInfo.end(); iterator++) {

Could you please suggest how I can do this for this conplex object or a good tutorial that explain it clearly?

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Why exactly can't you use a library? –  KillianDS Jul 10 '12 at 14:51
@KillianDS maybe he wants to learn. As he said he is trying to understand how it is done. –  RedX Jul 10 '12 at 14:53
Exactly. It is only for the education purpose. –  Winte Winte Jul 10 '12 at 14:53
@redx or he wants to avoid libraries because they're hard to distribute, or this is homework, or..., that's why I asked –  KillianDS Jul 10 '12 at 14:56
The problem of serialization (without libraries) is exactly the same in all languages: you need to know what you are deserializing or else note it when you serialize. Then choose the most appropriate format for your needs and write a parser/generator for that... –  David Rodríguez - dribeas Jul 10 '12 at 15:15
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2 Answers 2

up vote 4 down vote accepted

One pattern is to implement an abstract class the defines functions for serialization and the class defines what goes into the serializer and what comes out. An example would be:

class Serializable
    virtual ~Serializable(){}

    virtual void serialize(std::ostream& stream) = 0;
    virtual void deserialize(std::istream& stream) = 0;

You then implement Serializable interface for the class/struct that you want to serialize:

struct PersonInfo : public Serializable // Yes! It's possible
    unsigned int age_;
    string name_;
    enum { undef, man, woman } sex_;

    virtual void serialize(std::ostream& stream)
        // Serialization code
        stream << age_ << name_ << sex_;

    virtual void deserialize(std::istream& stream)
        // Deserialization code
        stream >> age_ >> name_ >> sex_;

Rest I believe you know. Here's a few hurdles to pass though and can be done in your leisure:

  1. When you write a string to the stream with spaces in it and try to read it back, you will get only one portion of it and rest of the string 'corrupts' the values read after that.
  2. How can you program it such that it's cross-platform (little-endian vs big-endian)
  3. How can your program automatically detect, which class to create when deserializing.


  1. Use custom serializer that has functions to write bool, int, float, strings, etc.
  2. Use a string to represent the object type being serialized and use factory to create an instance of that object when deserializing.
  3. Use predefined macros to determine which platform your code is being compiled.
  4. Always write files in a fixed endian and make the platforms that use the other endianess adjust to that.
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This would fail, since you are not adding separators, the sex (enum value) will be read as part of the name. Additionally, if the name has multiple words, then only the first of them will be read... the problem is a bit more complex than the simplistic solution provided. –  David Rodríguez - dribeas Jul 10 '12 at 15:16
Good point! I will note that down. –  Vite Falcon Jul 10 '12 at 15:32
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The most basic form is to define a "Serialisable" interface (abstract class) that defines virtual read/write methods. You also define a "Stream" interface that provides a common API for basic primitive types (e.g. reading/writing of ints, floats, bytes, chars, seek/reset) and maybe for some compound types (arrays of values e.g. for strings, vectors, etc.) which operates on a stream. You can use the C++ IOStreams if it suits you.

You also will need to have some id system for a factory to create the corresponding class when loading/deserialising, and for referencing when serializing complex types so that each logical part is tagged/header-ed with proper structure/length information when necessary.

Then you can create concrete Stream classes for each medium (like Text File, Binary File, In Memory, Network, etc).

Each class you want to be serializable then has to inherit the Serializable interface and implement the details (recursively leveraging serializable interfaces defined for other types if a compound/complex class).

This is of course a naive and "intrusive" way of adding serialisation (where you must modify the participating classes). You can then use template or preprocessor tricks to make it less intrusive. See Boost or protocol buffers, or any other library for ideas on how this might look in code.

You really sure you want to roll your own? It can get really messy, especially when you have pointers, pointers between objects (including cycles), which you also need to fix up/translate at some point before a load/deserialisation is correct for the current run.

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