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void test()

    unsigned char c;
    c = (~0)>>1 ;  
    printf("c is %u\n",c); 


It prints 255. I was expecting 127 as i was expecting the left most bit to be set to 0 after the right shift. Is this because my compiler is doing Right rotation?

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Casting it to unsigned char worked. Even for something like this. unsigned int x = ~ ((unsigned int)(~0)>>1); you need to cast it to unsigned to get the expected result. –  hackrock Jun 12 '12 at 5:44

2 Answers 2

up vote 4 down vote accepted

Your compiler is treating ~0 as an int, then shifting, then converting to unsigned char. This program outputs your expected value:

void test()
    unsigned char c;
    c = ((unsigned char)(~0)) >> 1 ;  
    printf("c is %u\n",c); 
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The literal 0 is of type int. Therefore the entire expression will be evaluated as type int.

The expression:

(~0) >> 1

evaluates as type int.

  • Therefore ~0 is evaluating to 0xffffffff (assuming 32-bit).
  • After the shift it becomes: 0x7fffffff.

When you store into c (which is unsigned char), it truncates to 0xff which is 255.

To get the 127 that you expected, you'll need to cast the ~0:

c = (unsigned char)(~0) >> 1;

Side Note: Even if we cast just the 0 to unsigned char, the result will still be 255. This is because of implicit integer promotion. All intermediates that are smaller than int are promoted to int.

More Info: https://www.securecoding.cert.org/confluence/display/seccode/INT02-C.+Understand+integer+conversion+rules

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I don't see any promotion; 0 just inherently has type int. –  R.. Jun 12 '12 at 2:30
Ha. Dunno how I overlooked that! I'll fix it when I get back in front of a computer. –  Mysticial Jun 12 '12 at 2:42
casting it to unsigned char worked. –  hackrock Jun 12 '12 at 5:36
@rocky Yes indeed. It might also be of interest to know that (unsigned char)(~0) will result in 0xff. Then it gets promoted back to int as 0x000000ff. Which ultimately returns 127. –  Mysticial Jun 12 '12 at 5:40
Worth mentioning that ~0 is negative in twos complement (and sign-and-magnitude), and right shifting of negative integers is implementation-defined. A common behaviour of right-shifting signed integers is sign-extension, so in that case (~0) >> 1 becomes 0xFFFFFFFF (32-bit ints). –  Daniel Fischer Jun 12 '12 at 12:37

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