I am using BOOST_PP for to do precompile computations in the preprocessor. I am focusing on an application where code size is extremely important to me. (So please don't say the compiler should or usually does that, I need to control what is performed at compile time and what code is generated). However, I want to be able to use the same name of the macro/function for both integer constants and variables. As trivial example, I can have
#define TWICE(n) BOOST_PP_MUL(n,2) //..... // somewhere else in code int a = TWICE(5);
This does what I want it to, evaluating to
int a = 10;
during compile time.
However, I also want it to be used at
int b = 5; int a = TWICE(b);
This should be preprocessed to
int b = 5; int a = 5 * 2;
Of course, I can do so by using the traditional macros like
#define TWICE(n) n * 2
But then it doesnt do what I want it to do for integer constants (evaluating them during compile time).
So, my question is, is there a trick to check whether the argument is a literal or a variable, and then use different definitions. i.e., something like this:
#define TWICE(n) BOOST_PP_IF( _IS_CONSTANT(n), \ BOOST_PP_MUL(n,2), \ n * 2 )
edit: So what I am really after is some way to check if something is a constant available at compile time, and hence a good argument for the BOOST_PP_ functions. I realize that this is different from what most people expect from a preprocessor and general programming recommendations. But there is no wrong way of programming, so please don't hate on the question if you disagree with its philosophy. There is a reason the BOOST_PP library exists, and this question is in the same spirit. It might just not be possible though.