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I know that the following is true

int i = 17; //binary 10001
int j = i << 1; //decimal 34, binary 100010

But, if you shift too far, the bits fall off the end. Where this happens is a matter of the size of integer you are working with.

Is there a way to perform a shift so that the bits rotate around to the other side? I'm looking for a single operation, not a for loop.

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Where would an operation of this type be used? What is the purpose behind doing a Bit Rotate? I don't need to know, but am just interested in ever expanding knowledge. Keith – Keith Sirmons Oct 7 '08 at 14:32
a very good question. I just checked the generated code and the C# compiler doesn't generate code that uses the rotate instructions of the CPU (not that the x86 architecture has them since the 8086...). This is a shame. C does this optimization. Also rotations are very important for crypto and dsp tasks. – Nils Pipenbrinck Jun 8 '09 at 1:45
up vote 37 down vote accepted

If you know the size of type, you could do something like:

uint i = 17;
uint j = i << 1 | i >> 31;

... which would perform a circular shift of a 32 bit value.

As a generalization to circular shift left n bits, on a b bit variable:

/*some unsigned numeric type*/ input = 17;
var result = input  << n | input  >> (b - n);

@The comment, it appears that C# does treat the high bit of signed values differently. I found some info on this here. I also changed the example to use a uint.

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Since I don't know C#, are the shift operators doing arithmetic or logic shifts? If arithmetic, then this algorithm can't be used for 64-bit signed integers. – tzot Oct 6 '08 at 15:20
So perhaps both the 'int' and 'var' types should be prefixed with an 'unsigned' modifier, of course if C# allows that. – tzot Oct 6 '08 at 15:21
Thanks for catching that. – Chris Marasti-Georg Oct 6 '08 at 17:26
Well, rotation of bits only makes sense with unsigned integers anyway. – Lasse V. Karlsen Aug 5 '09 at 12:37
@LasseV.Karlsen: I wouldn't necessarily agree with that. GetHashCode returns a (signed) int, and if you want to evenly distribute hash codes by using the full 32 bits of that (which can involve bit rotation), the sign doesn't really matter - and apparently gets in the way of bit rotation. – O. R. Mapper Oct 16 '13 at 12:17

One year ago I've to implement MD4 for my undergraduate thesis. Here it is my implementation of circular bit shift using a UInt32.

private UInt32 RotateLeft(UInt32 x, Byte n)
      return (UInt32)(((x) << (n)) | ((x) >> (32 - (n))));
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Just as reference on how to do it, this two functions work perfectly for rotating the bits of 1/2word:

static public uint ShiftRight(uint z_value, int z_shift)
    return ((z_value >> z_shift) | (z_value << (16 - z_shift))) & 0x0000FFFF;

static public uint ShiftLeft(uint z_value, int z_shift)
    return ((z_value << z_shift) | (z_value >> (16 - z_shift))) & 0x0000FFFF;

It would be easy to extend it for any given size.

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The most famous application is the solution to the Josephus problem (as discussed in Concrete Mathematics, see This is basically a puzzle with no obvious applications. In this video, I demonstrated connections between the second order Josephus problem and complete balanced trees. It's still not an application, but moving slightly in the right direction.

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While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. - From Review – Bartłomiej Semańczyk Dec 23 '15 at 6:30

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