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FUNC(param);

When param is char *,dispatch to func_string.

when it's int,dispatch to func_int

I think there may be a solution to this,as variable types are known at compile time..

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Even if this were possible, it would be fugly. C wasn't designed for it. Use structs and unions, you can even get run-time dispatch that way. –  Nicholas Knight Aug 31 '11 at 11:25

6 Answers 6

Variable types are known to the compiler, but not to the preprocessor (which sees the code simply as unstructured text a stream of tokens, and performs only simple replacement operations on it). So I am afraid you can't achieve this with C macros.

In C++, they invented templates to solve such problems (and more).

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Is there any work around in C? –  lexer Aug 31 '11 at 11:39
    
This is a false conclusion. The preprocessor does not need to know argument types, if you can arrange a macro expansion so that the compiler can perform do the analysis. See arnaud576875's answer how to solve this for the gnu compiler. Also, the preprocessor does not see the code as unstructured text, but as a token stream, which is a important difference. –  Nordic Mainframe Aug 31 '11 at 12:37

This will be possible with C1X but not in the current standard.

It will look like this:

#define cbrt(X) _Generic((X), long double: cbrtl, \
                          default: cbrt, \
                          float: cbrtf)(X)
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You can test for the characteristics of the types.

For example, int can hold a negative value, while char* can't. So if ((typeof(param))-1) < 0, param is unsigned:

if (((typeof(param))-1) < 0) {
    do_something_with_int();
} else {
    do_something_with_char_p();
}

The compiler obviously optimizes this out.

Try it here: http://ideone.com/et0v1

This would be even easier if the types had different sizes. For example, if you want to write a generic macro than can handle different character sizes:

if (sizeof(param) == sizeof(char)) {
    /* ... */
} else if (sizeof(param) == sizeof(char16_t)) {
    /* ... */
} else if (sizeof(param) == sizeof(char32_t)) {
    /* ... */
} else {
   assert("incompatible type" && 0);
}

GCC has a __builtin_types_compatible_p() builtin function that can check for types compatibility:

if (__builtin_types_compatible_p(typeof(param), int)) {
    func_int(param);
} else if (__builtin_types_compatible_p(typeof(param), char*)) {
    func_string(param);
}

Try it here: http://ideone.com/lEmYE

You can put this in a macro to achieve what you are trying to do:

#define FUNC(param) ({                                                \
    if (__builtin_types_compatible_p(typeof(param), int)) {           \
        func_int(param);                                              \
    } else if (__builtin_types_compatible_p(typeof(param), char*)) {  \
        func_string(param);                                           \
    }                                                                 \
})

(The ({...}) is a GCC's statement expression, it allows a group of statements to be a rvalue.

The __builtin_choose_expr() builtin can choose the expression to compile. With __builtin_types_compatible_p this allows to trigger an error at compile-time if the type of param is not compatible with both int and char*: (by compiling somehting invalid in this case)

#define FUNC(param)                                                        \ 
    __builtin_choose_expr(__builtin_types_compatible_p(typeof(param), int) \ 
        , func_int(param)                                                  \ 
        , __builtin_choose_expr(__builtin_types_compatible_p(typeof(param), char*) \ 
            , func_string(param)                                           \ 
            , /* The void expression results in a compile-time error       \ 
                 when assigning the result to something.  */               \ 
            ((void)0)                                                      \ 
        )                                                                  \ 
    )

This is actually a slightly modified example from __builtin_choose_expr docs.

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func_int(x);, func_string(x); and put the whole thing inside a do { } while(0) –  Karoly Horvath Aug 31 '11 at 11:58
    
I originally didn't enclosed the code in do{}while() because that was not a macro ;-) –  arnaud576875 Aug 31 '11 at 12:24
1  
-1 typeof is not C but also a gcc extension. What makes you think that an address can't have the 'sign' bit set? –  Jens Gustedt Aug 31 '11 at 17:31
    
((char*) -1) < 0 is always false if the pointer type is unsigned. (assuming pointers are unsigned, aren't they ?) –  arnaud576875 Sep 1 '11 at 21:18

There is no possibility to run time check types in C89 / ANSI C, but there is an extension to gcc which allows it. typeof or something along those lines if I remember. I saw it in the Linux Kernel once.

In kernel.h:

#define min(x, y) ({                \
typeof(x) _min1 = (x);          \
typeof(y) _min2 = (y);          \
(void) (&_min1 == &_min2);      \
_min1 < _min2 ? _min1 : _min2; })

Take a look at this article: GCC hacks in the Linux kernel

When I first saw this I actually asked a question here on SO about:

min macro in kernel.h

I'm not quite sure exactly how you would use it to solve your problem, but it's something worth taking a look at.

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this is not a runtime type check - as C is not dynamically typed, type information is only available at compile-time –  Christoph Aug 31 '11 at 15:20

You can't do this with a macro. Macro's value are substituted at compile time and are not intepreted. They are just substitutions.

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Variable types are indeed known at compile time, however macro expansion takes place before compilation. I suggest you implement 2 overloaded functions instead of a macro.

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