Swap nibbles in a byte

Consider the code below which swaps nibbles in a byte:

``````#include <stdio.h>

unsigned char swapNibbles(unsigned char x)
{
return ( (x & 0x0F)<<4 | (x & 0xF0)>>4 );
}

int main()
{
unsigned char x = 100;
printf("%u", swapNibbles(x));
return 0;
}
``````

Why is anding with 0x0F and 0xF0 necessary? Instead I can just write

``````return ((x<<4) | (x>>4));
``````

I have googled about it and people seem to say that it won't work with negative numbers as it would pad the number with ones in right shift however anding with 0xF0 would not make the number positive? What am I missing?

• You miss nothing, `((x<<4) | (x>>4))` will work (as long as `x` is `unsigned char`). – HolyBlackCat Nov 4 '17 at 19:36
• @HolyBlackCat: .... and that CHAR_BIT == 8. It is an extremely rare thing but might not true for some DSP microcontrollers and is thus needed for standard complying code – Andreas H. Nov 4 '17 at 19:48
• AFAIK this is the case for Java, as Java bytes are always signed and sign-extended to ints. Maybe the code was ported, or written by someone who used Java. – Karsten Koop Nov 4 '17 at 19:50
• `((x<<4) | (x>>4))` will actually not give the correct result, since `x` is promoted to int before doing the shift. Only by converting to unsigned char in the `return` do we get the correct result. – Falk Hüffner Nov 5 '17 at 9:46
• @FalkHüffner it'll work because `unsigned char` is always zero-extended to int, not signed-extended, hence there's no 1 in the high bytes – phuclv Nov 5 '17 at 10:36

Your example is perfectly fine without anding.

If `swapNibbles` had `signed char` parameter, then one may think that anding is there to fix the expression. However, let's analyse the expression then:

• `(x&0x0f)<<4`: if x is negative, then `x&0x0f` expression becomes a non-negative value, and the result fits into `int`/`unsigned int` (the type which `x` gets promoted), so it is OK to perform the shift
• `(x&0xf0)>>4`: if x is negative, then `x&0xf0` is negative too, so shifting is implementation-defined. For example, on x86, this will replicate the sign bit -> not what we wanted. In this case, a better expression is `(x>>4)&0xf` (still implementation defined, but works on x86)

So this expression has implementation defined behavior for `signed char`, this behavior is not what we wanted on x86.

It is better to cast `signed char` to `unsigned char`, and perform shift on the unsigned value.

Note: I've presumed that `signed char` is stored in two-complement, and `char` is 8-bit (which is implied in the question, as we talk about 4-bit nibbles here).

• It doesn't matter whether the result of shifting fits into `unsigned char`, since `x` will be promoted to `int` before shifting. – Falk Hüffner Nov 5 '17 at 9:52
• Yes, you're right about the promotion, I'll modify my answer to reflect that. However, it does matter. If it fits into `unsigned char`, then it fits to `int`/`unsigned int`. – geza Nov 5 '17 at 10:28

The two variants are 100% equivalent. Both gcc and clang are able to transform each code snippet to a simple `rol` instruction and compile them to identical assembly code (with optimizations enabled ofcourse)

``````unsigned char swapNibbles(unsigned char x)
{
return (x & 0x0F)<<4 | (x & 0xF0)>>4;
}

unsigned char swapNibbles2(unsigned char x)
{
return  x << 4 | x >>4 ;
}
``````
``````swapNibbles(unsigned char):                       # @swapNibbles(unsigned char)
mov     eax, edi
rol     al, 4
ret
swapNibbles2(unsigned char):                      # @swapNibbles2(unsigned char)
mov     eax, edi
rol     al, 4
ret
``````