I came across a question where #define was used to replace 'int' in the program as follows

#define type int
int main()
 type *a,b;

Is this valid?Although it gave me error while i tried to print size of variable b saying b is undeclared. I want to know the specific reason behind this. Please let me know.

Some users told me that i have hidden some part of my code. I had not given the printf statement in my above code snippet. Below is the code with printf nd the one which gives error

#define type int;
int main()
 type* a, b;
  • 6
    The code snippet you show is perfectly valid. It declares a as a pointer to int and b as an int. The preprocessor simple replaces all instances of the symbol type with the expansion which is int. If you get errors, it with some other code that you don't show us. – Some programmer dude Aug 25 '15 at 10:27
  • 3
    Where are you printing sizeof(b)? – Gopi Aug 25 '15 at 10:29
  • 2
    Use %zu conversion specifier to print arguments of type size_t. – Lundin Aug 25 '15 at 10:48
  • 1
    Macros are text replacements. The semicolon after ´int` will be replaced, too, so that your declaration reads int;* a, b, which is a syntax error. Remove the semicolon from your macro definition: #define type int, like in yout first example. – M Oehm Aug 25 '15 at 10:48
  • 3
    Check the end of your macro definition. That semicolon shouldn't be there. – Some programmer dude Aug 25 '15 at 10:48

Yes, it can be used, but keep in mind, there is significant difference between macro and type defintion. The preprocessor replaces "mechanically" each occurence of token, while typedef defines true type synonym, thus the latter is considered as recommended way.

Here is an simple example to illustrate what it means in practice:

#define TYPE_INT_PTR int*
typedef int *int_ptr;

int main(void)
    TYPE_INT_PTR p1 = 0, p2 = 0;
    int_ptr p3, p4;

    p3 = p1;
    p4 = p2; // error: assignment makes pointer from integer without a cast 

    return 0;

You may expect that type of p2 is int*, but it is not. The preprocessed line is:

int* p1 = 0, p2 = 0;

On the other hand, typedef defines both p3 and p4 as pointers to int.


For simple types like your example it'll work. But in more complex cases it might not work as expected, as the texts in macros are only blindly replaced.

For example to declare a function pointer with typedef:

typedef int(*int_func)(int);
func some_function_pointer;

You can't use a macro without argument in this case as the syntax for function pointers are different, and you'll need different macros for declaring a variable or casting one.

#define int_func_declaration(f) int(*f)(int)
#define int_func_cast(f) ((int(*)(int))f)

int_func_declaration(some_function_pointer) = int_func_cast(some_pointer_value);

The Mistakes in your program are:

  1. There should not be any semi column in the #define preprocessor command.
  2. There is no meaning for the * after type in the line "type* a,b;".If you like of declaring a pointer then you should declare like this "type *a, b;"
  3. You forgot to include stdio.h header file in the begining of the code

Click here for the corrected code.

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