Is it possible to pass variable type as part of a function parameter, e.g.:

void foo(varType type)
  // Cast to global static
  unsigned char bar;
  bar = ((type *)(&static_array))->member;

I remember it has something to do with GCC's typeof and using macros?

  • 7
    Not in standard C. Maybe in GCC, if you are (un)lucky. Commented Jul 12, 2011 at 1:31

4 Answers 4


You could make an enum for all different types possible, and use a switch to make the dereferencing:

typedef enum {

void foo(TYPE t, void* x){
        case CHAR:
        case INT:
  • Hi hugomg, I'm sorry but I don't understand the alternative. Could you elaborate a little? Thanks :-)
    – user1636522
    Commented Mar 19, 2016 at 10:30
  • I just realized that the alternative doesn't really work as written... so I deleted it. But the basic idea I originally had was to code things in "object oriented" style and use subtype polymorphism to do the branching instead of a switch statement.
    – hugomg
    Commented Mar 19, 2016 at 13:04
  • for me it's work only with typedef: "typedef enum { CHAR, INT, FLOAT, DOUBLE } TYPE;" Commented May 12, 2017 at 18:50

You can't do that for a function, because then it needs to know the types of the arguments (and any other symbols the function uses) to generate working machine code. You could try a macro like:

#define foo(type_t) ({ \
    unsigned char bar; \
    bar = ((type_t*)(&static_array))->member; \
    ... \

Eh, of course you can. Just use a macro like so:

#include <stdio.h>
#define swap(type, foo, bar) ({type tmp; tmp=foo; foo=bar; bar=tmp;})

int main() {
  int a=3, b=0;
  swap(int, a, b); // 👈 check it out!

  printf("a=%d, b=%d \n", a, b); // a=0, b=3
  return 0;
  • 3
    You don't actually pass a type to a function here, but create new code for every time you use it.
    – handras
    Commented Nov 27, 2020 at 16:14
  • 2
    To avoid doubt: ({...}) is a "statement expression", which is a GCC extension and not standard C.
    – Ed.
    Commented Feb 7, 2022 at 20:17

I don't see how you could do this in the general case, given that C is a statically typed language.

The compiler needs to know at compile time what the type of type * is in order to be able to generate the reference to ->member.


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