Difference between %p and %x

Andrey Karpov
Articles: 565

Functions belonging to the printf function family have the type specifiers "%p" and "%x".

  • "x" and "X" serve to output a hexadecimal number. "x" stands for lower case letters (abcdef) while "X" for capital letters (ABCDEF).
  • "p" serves to output a pointer. It may differ depending upon the compiler and platform.

One specifier is often used instead of another on 32-bit systems, but it is a mistake. Here is an example:

int a = 10;
int *b = &a;

On a Win32 system, the following result will be printed:


As you may see, the output results for "%p" and "%X" are rather similar. This similarity leads to inaccuracy in the code and this, in turn, results in errors occurring when you port a program to a 64-bit platform. Most often it is "%X" that is used instead of "%p" to output the value of a pointer, and this results in printing of an incorrect value if the object is situated outside the four less significant Gbytes of the address space. Let us consider the corresponding 64-bit version of this program:

size_t Gb = 1024*1024*1024;
char *a = (char *)malloc(2 * Gb * sizeof(char));
char *b = (char *)malloc(2 * Gb * sizeof(char));
printf("use %%X: a=%X\n", a);
printf("use %%X: b=%X\n", b);
printf("use %%p: a=%p\n", a);
printf("use %%p: b=%p\n", b); 
use %X: a=80000040
use %X: b=40010040
use %p: a=0000000080000040
use %p: b=0000000140010040

The pointer value "b" is printed incorrectly when using "%X".

Here is one more example. Although it looks strange, the code given here in an abridged form was used in a real application in the UNDO/REDO subsystem:

// Here the pointers were saved in the form of a string
int *p1, *p2;
char str[128];
sprintf(str, "%X %X", p1, p2);
// In another function this string was processed
// in this way:
void foo(char *str)
  int *p1, *p2;
  sscanf(str, "%X %X", &p1, &p2);
  // The result is incorrect values of pointers p1 and p2.

Manipulation with the pointers using "%X" resulted in an incorrect program behavior on a 64-bit system. Note that such errors might occur very rarely. To diagnose these, and other similar flaws, it is a good idea to use the analyzer PVS-Studio.


Use PVS-Studio to search for bugs in C, C++, C# and Java

We offer you to check your project code with PVS-Studio. Just one bug found in the project will show you the benefits of the static code analysis methodology better than a dozen of the articles.

goto PVS-Studio;

Andrey Karpov
Articles: 565

Bugs Found

Checked Projects
Collected Errors
14 526
This website uses cookies and other technology to provide you a more personalized experience. By continuing the view of our web-pages you accept the terms of using these files. If you don't want your personal data to be processed, please, leave this site. Learn More →