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I'm trying to get the bytes from an int into a series of chars in a portable way across all little endian systems.

I have the following code:

#include <stdio.h>

  int i = 0xabcdef12;
  printf("i: %x\n", i);
  char a, b, c, d;
  a = (i >> 000) & 0xFF;
  b = (i >> 010) & 0xFF;
  c = (i >> 020) & 0xFF;
  d = (i >> 030) & 0xFF;
  printf("a b c d: %x %x %x %x\n", a , b, c, d);
  if(a == 0x12)
    printf("a is 0x12\n");
  if(b == 0xef)
    printf("b is 0xef\n");
  if(c == 0xcd)
    printf("c is 0xcd\n");
  if(d == 0xab)
    printf("d is 0xab\n");
  if(a == 0xffffff12)
    printf("a is 0x12\n");
  if(b == 0xffffffef)
    printf("b is 0xffffffef\n");
  if(c == 0xffffffcd)
    printf("c is 0xffffffcd\n");
  if(d == 0xffffffab)
    printf("d is 0xffffffab\n");
  return 0;

This piece of code compiles without any warning when using -Wall.

When run this gives:

i: abcdef12
a b c d: 12 ffffffef ffffffcd ffffffab
a is 0x12
b is 0xffffffef
c is 0xffffffcd
d is 0xffffffab

Here are some gcc prints:

Breakpoint 1, main () at test.c:14
14    if(a == 0x12)
(gdb) p/x a
$1 = 0x12
(gdb) p/x b
$2 = 0xef
(gdb) p/x c
$3 = 0xcd
(gdb) p/x d
$4 = 0xab

I'm pretty sure I'm doing something wrong. It would really help me understand what is going on if you could answer a few of the following questions:

  • How can a char have value greater than 0xff?
  • What aren't the & 0xff bitmasks working?
  • Why does gdb report the correct values?

And if anybody has a reliable (system independent, but endianess is not important) way of going from int to char[], that would be great.

share|improve this question
Are you intentionally using octal literals? –  Mysticial Jul 19 '12 at 0:32
"And if anybody has a reliable (system independent, but endianess is not important) way of going from int to char[], that would be great." What about unions? –  Dennis Meng Jul 19 '12 at 0:35
@DennisMeng -- unions are a great way to type-pun a pointer. They are rather system-dependent though... if you make a union between an array of four unsigned char values, and an integer, then you can read out the bytes of the integer very conveniently; but your code will at the very least be dependent on the endianness of the computer, and possibly on other implementation details (you may need to use a #pragma to control padding). I suggest shifting and masking for portable code, and a union plus test cases for code that should be as fast as possible. –  steveha Jul 19 '12 at 2:06
@Mystical -- it's clear the octals are on purpose. They represent the number of bits to shift 0, 1, 2, or 3 bytes; this cannot be an accident. IMHO the octal literals are odd enough that I would appreciate a comment noting "octal literals". I believe this is the first time I have ever seen octal literals outside of an old textbook, and I had to stare at them for at least ten or fifteen seconds before I figured them out. When I have written similar code I just used 0, 8, 16, and 24 for the shift numbers; I think most people understand that. –  steveha Jul 19 '12 at 2:10
Yeah, I knew that the endianness was going to be a problem (OP said it wasn't important, so I didn't worry). As for the padding issue, I wasn't actually aware of any architectures for which that would be an issue (though that's mostly out of ignorance; most everything I've learned assumes I'm using x86). I'll agree that such an architecture would mean that the union idea isn't portable. –  Dennis Meng Jul 19 '12 at 2:12

2 Answers 2

up vote 5 down vote accepted

Here's a quick fix.


char a, b, c, d;


unsigned char a, b, c, d;

The reason is that char is signed on your system. When you pass, a, b, c, d into printf(), they get promoted to int. They are sign-extended. That's why you get all those leading ffs.

GDB is reporting the correct values because it is reading the chars directly. (and thus no integer promotion)

share|improve this answer
There exist some people who would rather only perform bit-shift operations on unsigned types to avoid having to think about arithmetic- vs logical shifts. And thus avoiding exactly what Mystical has pointed out. –  Prashant Kumar Jul 19 '12 at 0:40
And therefore, i should be made unsigned. As right-shift on signed types is technically implementation-defined. –  Mysticial Jul 19 '12 at 0:47
Thanks, Prashant, I didn't realise there were two types of shifting. (Also it didn't occur to me that 0xffffffef was not a huge number, but a small negative number.) –  rhlee Jul 19 '12 at 11:30

During comparison, a, b, c and d are promoted as int. Since they are all char, the most significant bit is treated as sign bit. The promotion to int fills MSB to higher bits.

0x12's MSB is 0, and 0xef, 0xcd and 0xab's MSB is 1. That's why after promotion you get 0x00000012 but 0xffffffef, 0xffffffcd and 0xffffffab.

If you change

char a, b, c, d;


unsigned char a, b, c, d;

Then you can get what you expected.

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