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How does the following code work and what do the variables mean:

y = (x << shift) | (x >> (sizeof(x)*CHAR_BIT - shift));

I found in a circular shift article but with no explanation on how this works.

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4 Answers 4

up vote 5 down vote accepted

CHAR_BIT is the number of bits per byte, should be 8 always.

shift is the number of bits you want to shift left in a circular fashion, so the bits that get shifted out left, come back on the right.

     1110 0000 << 2 results in:
     1000 0011

code for the example:

   y = (x << 2) | (x >> (8 - 2));
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and if i want to cirlular shift a number with a bitstream of 10 digits ex 1111101010 then CHAR_BIT is 10 or i am wrong? –  user1809300 Nov 8 '12 at 12:55
CHAR_BIT is always 8 –  thumbmunkeys Nov 8 '12 at 12:56
CHAR_BIT is always 8 for any sane architecture you'll use in the 21st century :-) –  xanatos Nov 8 '12 at 12:57
@xanatos: I'm guessing you don't work with very many DSPs... –  Dietrich Epp Nov 8 '12 at 13:02
You wrote: x >> 8 - 2. Without parentheses, this parses as (x >> 8) - 2. –  Pascal Cuoq Nov 8 '12 at 13:45

This is a method of doing a circular shift. Suppose that x is 8 bits.

| x1   x2   x3   x4   x5   x6   x7   x8 |

Then, shifting it left by 3 gives us:

| x4   x5   x6   x7   x8    0    0    0 |

Now, CHAR_BIT*sizeof(x) is the same as the width of x in bits, 8. So shifting x to the right by 8 - 3 gives us:

| 0    0    0    0    0    x1   x2   x3 |

And taking the OR you get:

| x4   x5   x6   x7   x8   x1   x2   x3 |

This is technically non-portable because it is non-portable to shift by an amount equal to the width of the type -- so if shift is 8, then the left shift is wrong, and if the shift is 0, then the right shift is wrong. However, this works in practice on all three common behaviors when shifting by the type width. (In practice, the shift amount is reduced by some modulo -- either the bit width of the type or some larger number.)

It is called a circular shift or "rotation" because the bits that get shifted out on the left get shifted back in on the right.

Sophisticated compilers will actually compile the code down to a hardware rotation instruction.

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+1, but 8 is not a good example of amount by which it is undefined to shift, because per usual arithmetic conversions, the shifted type is at least (signed or unsigned) int, and int is at least 16 bits. –  Pascal Cuoq Nov 8 '12 at 13:49
(x << shift) 

Shifts it 'shift' number of bits to the left, returns the shifted out bits

(x >> (sizeof(x)*CHAR_BIT - shift));

Makes space for accommodating those bits

CHAR_BIT is the number of bits in char, so is 8 mostly. In C, you don't handle one bit at a time, but at a minimum, char number of bits. So that is the granularity you get.

In general,

For a char, when you do a bit-rotate, you would do it on an 8-bit field (1 byte)

For an int, when you do a rotate, you would do it on a 32-bit field (4 bytes)

Example with 8 bits:

x = 11010101
shift = 2

x << (2) = 01010100 //shifted right by 2 bits

= x >> ((1 * CHAR_BIT) - 2)
= x >> (6) 
= 00000011 //shifted left by 6bits

OR these bit-wise to give


That is the circular shifted value by 2 bits

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i have a question : when i m using the << command for 10101 it gives 1010100 instead of 10100 why? –  user1809300 Nov 8 '12 at 13:23
@user1809300 That is because of 8 bit granularity. 10101 is 00010101. The example above doesn't apply directly to C. It just illustrates how it works. In C/C++, you would deal with 8 bit chars at a time. –  Anirudh Ramanathan Nov 8 '12 at 13:25
and how it can give 10100? –  user1809300 Nov 8 '12 at 13:26
@user1809300 I don't understand. What input did you give and what did you get as the result? –  Anirudh Ramanathan Nov 8 '12 at 13:28
the input was x << 2 –  user1809300 Nov 8 '12 at 13:30

This works with unsigned types only. In the case with a signed negative number most left bits will be substituted by the value of most significant bit (with 1-s) by the right-shift operator (">>")

I'd write it like this:

y = (x << shift) | ( (x >> (sizeof(x)*CHAR_BIT - shift)) & (0x7F >> (sizeof(x)*CHAR_BIT - shift) );

In here before "|" operator we do confirm that first n bits ( n = sizeof(x)*CHAR_BIT - shift) are zeroed. We also assume, that x is short (2-bytes long). So, it's also type-dependent.

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