Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Splitting this off from my question regarding appending to CPP macros:

Has anyone here used the Boost.Preprocessor library’s data types to implement something like the X-macro?

share|improve this question

1 Answer 1

up vote 3 down vote accepted

I just looked up what an X-Macro is supposed to be and I think I did something like what you're asking for.

What I wanted to do is to easily and quickly support serialisation for a series of fairly similar classes. The problem I had is that I had to convert some runtime information (an int) into a compile time type (a class) to be able to do my serialisation. I could have written a couple of case statements to do the job but that would mean that I have to update several functions each time I wanted to add a class.

To get around this problem, I first defined a sequence of tuples containing the mapping:

    ((EM_REPLACESEL, em_replacesel))((WM_CHAR, wm_char)) //...

The upper case names are defines that hold an int and the lower case names are classes that I defined somewhere else.

I can then use this sequence in conjunction with some of the Boost preprocessors to generate all sorts of code for me. For example, to get a forward declaration of the classes I can just do this:

#define WIN_MESSAGE_TYPE_BUILD_MACRO(r, _data_, _elem_) \
    class BOOST_PP_TUPLE_ELEM(2,1,_elem_);



To do the runtime to compile time mapping, I generate a series of case statements like this:

#define WIN_MESSAGE_TYPE_BUILD_MACRO(r, _data_, _elem_) \
    case BOOST_PP_TUPLE_ELEM(2,0,_elem_): return win_message_serializer<BOOST_PP_TUPLE_ELEM(2,1,_elem_)>::serialize(msg, o_arch);

template <typename Archive>
void serialize_win_message (p_win_message_base msg, Archive& o_arch) {
    message_type_t message_type = msg->type();

    switch (message_type) {

    // This will generate a series of case statement for each message type that will invoke
    // the serializer for the correct types.

    default: //...


The whole code involves quite a bit more than this but this should still give you an idea on how to generate code using the Boost preprocessors. In my example I can quickly and easily add serialisation support for a class by simply updating my sequence.

Note that using the Boost preprocessor doesn't produce very readable code so I try to keep the macro used by the for each macro as simple as possible. Also I wouldn't be surprised if someone somewhere has a more elegant solution to this problem. This is just what I came up with for a personal project where I don't mind the extra complexity.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.