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I let gcc compile the following example using -Wall -pedantic:

#include <stdio.h>

int main(void)
  printf("main: %p\n", main); /* line 5 */
  printf("main: %p\n", (void*) main); /* line 6 */

  return 0;

I get:

main.c:5: warning: format ‘%p’ expects type ‘void *’, but argument 2 has type ‘int (*)()’
main.c:6: warning: ISO C forbids conversion of function pointer to object pointer type

Line 5 made my change the code like in line 6.

What am I missing to remove the warning when printing a function's address?

share|improve this question
Not sure if it's available to you, but you might investigate using register_printf_function to define your own special format character and converter. – Bob Jarvis Jun 7 '12 at 13:46
The issue is not that it's "dangerous". The issue is that the conversion is not defined by the C language, and thus can't be used in conforming C code. You could cast through an intermediate integer type (implementation-defined results) as long as you know one exists that can hold both function and object pointers). – R.. Jun 7 '12 at 14:06
@BobJarvis Do you have any idea how to get around gcc complaining about the newly introduced conversion type character (warning: unknown conversion type character ‘P’ in format) when compiling with option -Wall? But this also is another story ... – alk Jun 7 '12 at 15:55
@R..: This is C. We do dangerous. – Bob Jarvis Jun 7 '12 at 16:53
@alk: try adding the -Wno-format option after -Wall, which (if memory serves) will turn off printf/scanf format checking. – Bob Jarvis Jun 7 '12 at 16:59
up vote 8 down vote accepted

This is essentially the only portable way to print a function pointer.

size_t i;
int (*ptr_to_main)() = main;
for (i=0; i<sizeof ptr_to_main; i++)
    printf("%.2x", ((unsigned char *)&ptr_to_main)[i]);
share|improve this answer
I like this, although it's silently ignoring any endianess issues... ;-) – alk Jun 7 '12 at 14:26
Hadn't thought of this. +1. – Fred Foo Jun 7 '12 at 14:27
Trying to generalise this approach, I wonder if function pointers of different types are guaranteed to have the same size, although an answer (stackoverflow.com/a/189126/694576) to the question referenced by larsman makes me doubt this ... - anyway this is another story though. – alk Jun 7 '12 at 14:37
Conversion between any two functions pointers is defined and is round-trip-value-preserving, per the C standard; see the end of – R.. Jun 7 '12 at 15:03
@ouah: Indeed you missed something. ptr_to_main is an object, and &ptr_to_main is an object pointer. – Ben Voigt Dec 23 '14 at 22:52

While converting a function pointer to a void pointer is technically dangerous, converting function pointers to void pointers is used in the POSIX standard, so it is almost sure to work on most compilers.

Look up dlsym().

share|improve this answer
The majority of C code runs outside a POSIX-compliant environment. – Ben Voigt Jun 7 '12 at 13:39
Assigning dlsym()'s return value to a properly declared function pointer variable leads to a similar issue, but the other way round. – alk Jun 7 '12 at 13:42
So, basically, POSIX-2001 is incompatible with ABI definitions that use a different size for function pointers than for a void*. Nice to know. – cmaster Dec 23 '14 at 22:43

It's right there in the warning: ISO C forbids conversion of a function pointer to an object pointer type, which includes void*. See also this question.

You simply can't print the address of a function in a portable way, so you can't get rid of the warning.

You can print a function pointer using @R..'s suggestion.

share|improve this answer
Per POSIX, the representation of all pointers is the same, so on a POSIX system, you can memcpy from a function pointer variable to a data pointer variable and then print that. And of course you can always print the representation of any type byte-by-byte, with no POSIX dependency. – R.. Jun 7 '12 at 14:00

This whole idea is indeed non-portable, since some systems use different sized pointers to code and data.

What you really need is platform-specific knowledge of how big a function pointer is, and a cast to an integral type of that size. Unfortunately, I don't think anyone has standardized a intfuncptr_t analagous to intptr_t which can hold any data pointer.

As R. notes in his answer, you can always treat the pointer as an array of (possibly signed or unsigned) char, this way you don't need any integral type of the correct size.

share|improve this answer
Not any integral data type; only unsigned char (or probably char tho that's messy and iffy). Any other type is an aliasing violation and modern compilers are likely to emit bad code that doesn't do what you wanted it to. – R.. Jun 7 '12 at 16:54
@R..: A conversion can't be an aliasing violation. Only if you have two lvalues of different type referring to the same location, can there be an aliasing violation. Note that I'm talking about reinterpret_cast<integral_type>(fnptr), not *reinterpret_cast<integral_type*>(&fnptr). Your answer involves legal aliasing, mine involves no aliasing at all. Oh, now I see, you're talking about my explanation of your method. Yes, char is needed there, I'll update. – Ben Voigt Jun 7 '12 at 17:22
There is (uintmax_t)&main, perhaps with a static_assert( sizeof(uintmax_t) >= sizeof(&main) ); to hopefully ensure no undiagnosed UB due to out-of-range conversion – M.M Dec 23 '14 at 22:30

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