This code:

#include <stdio.h>

int main() {
    int num;
    int *pi;
    num = 0;
    pi = &num;
    printf("address: %p | %d\nvalue: %d\n", pi, pi, *pi);

produces this output:

address: 0x7fff5952f9cc | 1498610124
value: 0

I know that the left one is supposed to be the correct address, but what is printing out next to the address?


%p tells printf to treat the corresponding variable as a pointer, thus printf prints p as a pointer; that is, a hexadecimal representation (i.e. 0x7fff5952f9cc). %d on the other hand tells printf to treat the corresponding variable as numeric. Therefore, what is being printed is the actual, numeric value of p (i.e. 1498610124) which is just 0x5952f9cc in base 10.

Now, the reason why these two representations of the same variable seem to have different values is that %d only tells printf to expect a number---it doesn't specify that number's type. If you cast 0x7fff5952f9cc (a 64-bit integer) to int (a 32-bit type) you get 1498610124 (notice 0x7fff getting dropped).

  • REMEMBER: sizeof(int*) is not guaranteed to be the same as sizeof(int) (even on a 32-bit processor) – Cole Johnson Mar 19 '15 at 6:14

You are printing the address in decimal instead of in hex but it is truncated to an int.


I guess you are executing this program on a 64bit machine.

The number printed next to the address is still the address of the pointer printed in the integer format. You can also see that the value is truncated

decimal of 0x7fff5952f9cc = 140734691998156. but it is printed as 1498610124 which is due to truncation.


you are trying to print the address of num in hex and decimal value respectively. If I am not wrong you are running your program on a 64 bit architecture and hence the address will be of 8 bytes. So your address fits in long data type. By giving %d you are value is getting truncated here. Instead of %d please use %ld. So your printf of statement should be actually as below

printf("address: %p | %ld\nvalue: %d\n", pi, pi, *pi);

Now run the program you will get your value correctly in decimal format.


It could be anything, because it's Undefined Behaviour. (C standard, §, The fprintf function):

If any argument is not the correct type for the corresponding conversion specification, the behavior is undefined.

You print pi (a pointer to an int) with two format specifiers, %p and %d. According to the C standard (and probably reproduced word for word in man fprintf on your system):

  • d,i The int argument is converted to signed decimal in the style [−]dddd
  • p The argument shall be a pointer to void. The value of the pointer is converted to a sequence of printing characters, in an implementation-defined manner.

So neither of those uses is correct. It's not a pointer to void and it's also not an int. So what you should write is:

printf("address: %p | %d\nvalue: %d\n", (void*)pi, (int)pi, *pi);

On your system, that probably produces the same output (Undefined Behaviour includes unexpectedly producing the incorrectly expected behaviour) but it might not. In any case, writing the line correctly makes it relatively clear what the second number printed is: it's the value of the pointer converted to an integer.

However, there is no guarantee that this will work, either. Again, from the standard (§, Pointers, para. 6):

Any pointer type may be converted to an integer type. Except as previously specified, the result is implementation-defined. If the result cannot be represented in the integer type, the behavior is undefined.

(The "previously specified" case is that a NULL pointer may reliably be converted to any integer type; it will have the value 0.)

So the idea is that a pointer is a lot like an integer, but it might be the size of a long. Or a long long. Or something else. It might even be bigger than any integer type, but if there is some integer type which is the right size and you #include <stdint.h>, that integer type will be typedef'd to intptr_t and its unsigned version (probably more useful) will be uintptr_t. Unfortunately, there is no standard printf conversions for those sizes, so if you really want to, you would need to #include <intypes.h> and write:

printf("address: %p | %" PRIuPTR "\nvalue: %d\n",
       (void*)pi, (uintptr_t)pi, *pi);

Alternatively, because it is always allowed to convert any integer to any unsigned integer (with possible loss of information, but with a well-defined conversion), you could use two casts:

printf("address: %p | %u\nvalue: %d\n",
       (void*)pi, (unsigned)(uintptr_t)pi, *pi);

(Because that supplies an unsigned int argument, the format specifier must be u instead of d.)


When using printf, the "p" modifier is intended to print out a memory address in hex format. The "d" modifier tells it to cast the value to a signed integer value. So it's taking 0x7fff5952f9cc and turning it into a signed int.

See this for more details on printf.


In that code who have to print the address as the %d so during compile time it displayed warning and %p display the hexadecimal but %d display the integer.


Its lower part – 4 least significant bytes – of the pointer value in decimal:
0x5952F9CC == 1498610124.

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