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What is the C# equivalent (.NET 2.0) of _rotl and _rotr from C++?

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5 Answers 5

up vote 25 down vote accepted

Is this what you are trying to do?

Jon Skeet answered this in another site

Basically what you want is

(for left)

(original << bits) | (original >> (32 -bits))


(for right)

(original >> bits) | (original << (32 -bits))

Also, as Mehrdad has already suggested, this only works for uint, which is the example that Jon gives as well.

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i have tried this but it is not procducing the right result. FOR c++ if original =1192314641 outout of _roti(1192314641,3) = 948582538 For C# Using above formula output = 948582536 –  Prithis May 1 '09 at 16:17
@Prithis I just ran a test on it myself and I got 948582538 in C# –  Joseph May 1 '09 at 16:22
ignore me it is working. Thanks –  Prithis May 1 '09 at 16:22
This works correctly only if original is uint. Note that Jon Skeet does it with uint. –  Mehrdad Afshari May 1 '09 at 16:26
@Merhdad Thanks I updated answer to reflect. –  Joseph May 1 '09 at 16:29

There's no built-in language feature for bit rotation in C#, but these extension methods should do the job:

public static uint RotateLeft(this uint value, int count)
    return (value << count) | (value >> (32 - count))

public static uint RotateRight(this uint value, int count)
    return (value >> count) | (value << (32 - count))

Note: As Mehrdad points out, right-shift (>>) for signed integers is a peculiarity: it fills the MSBs with sign bit rather than 0 as it does for unsigned numbers. I've now changed the methods to take and return uint (unsigned 32-bit integer) instead - this is also in greater accordance with the C++ rotl and rotr functions. If you want to rotate integers, just case them before passing, and again cast the return value, of course.

Example usage:

int foo1 = 8.RotateRight(3); // foo1 = 1
int foo2 = int.MinValue.RotateLeft(3); // foo2 = 4

(Note that int.MinValue is 111111111111111111111111 - 32 1s in binary.)

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That's a shift, not rotate! –  Mehrdad Afshari May 1 '09 at 16:09
@Mehrdad: Yeah, just realised that as I posted. Fixed now. :) –  Noldorin May 1 '09 at 16:13
I think this will fail for negative numbers. You probably want to force the values to be unsigned. –  plinth May 1 '09 at 16:15
@plinth: It won't fail. The bitwise operations work exactly the same for signed and unsigned numbers, only that the number represented by signed ints can change sign during bit shifting/rotation because of the two's complement system. –  Noldorin May 1 '09 at 16:17
Noldorin: Wrong. won't work due to how right shift works. –  Mehrdad Afshari May 1 '09 at 16:19

The naive version of shifting won't work. The reason is, right shifting signed numbers will fill the left bits with sign bit, not 0:

You can verify this fact with:

Console.WriteLine(-1 >> 1);

The correct way is:

public static int RotateLeft(this int value, int count)
    uint val = (uint)value;
    return (int)((val << count) | (val >> (32 - count)));

public static int RotateRight(this int value, int count)
    uint val = (uint)value;
    return (int)((value >> count) | (value << (32 - count)));
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or you could change the extension method to bring in a uint and return a uint, which is what Jon did –  Joseph May 1 '09 at 16:24
@Joseph: In that case, you should do the cast manually when you call with an int. –  Mehrdad Afshari May 1 '09 at 16:27
Yeah, it would make more sense for the function just to take/return uint (that's what I've done in my updated post too). Otherwise, if you actually want to rotate a uint, you'd be casting 4 times when you don't in fact need to do any! –  Noldorin May 1 '09 at 16:28
@Mehrdad That's correct, but I wasn't assuming it was an int to begin with. –  Joseph May 1 '09 at 16:31
Noldorin: You could create a set of extension methods for uint to. Anyway, it doesn't really matter much. These casts won't matter at the level of native code. It's not like that JIT generates instructions to do the cast. CPU doesn't really care :) –  Mehrdad Afshari May 1 '09 at 16:32

Note that if you want to create overloads that operate on shorter integral values, you need to add an extra step, as shown in:

public static byte RotateLeft(
    this byte value,
    int count )
    // Unlike the RotateLeft( uint, int ) and RotateLeft( ulong, int ) 
    // overloads, we need to mask out the required bits of count 
    // manually, as the shift operaters will promote a byte to uint, 
    // and will not mask out the correct number of count bits.
    count &= 0x07;
    return (byte)((value << count) | (value >> (8 - count)));

The masking operation is not needed for the 32-bit and 64-bit overloads, as the shift operators themselves take care of it for those sizes of left-hand operands.

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// if you are using string

string str=Convert.ToString(number,2);


//Rotate right

str = str.PadLeft(33, str[str.Length - 1]);

str= str.Remove(str.Length - 1);


//Rotate left

str = str.PadRight(33, str[0]);

str= str.Remove(0,1);

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