I am wondering how to implement a circular right shift by k of the bitstring represented by the int bits.

public int rtCircShift(int bits, int k)
    return bits >> k;

All this code does is return 0, how can I make it a circular shift?

up vote 31 down vote accepted

This should work:

 return (bits >>> k) | (bits << (Integer.SIZE - k));

Also see the Wikipedia article on circular shifts.

  • turned the logical or into a bitwise. – Femaref Apr 30 '11 at 19:26
  • That's it, thanks. – john Apr 30 '11 at 19:30
  • 4
    Still not correct, you need to use logical right shift, >>>. Stick this in a method and you have Integer.rotateRight. – rlibby Apr 30 '11 at 19:33
  • 4
    @rlibby: Thanks, fixed. @john: You should use the rotateLeft/rotateRight code from finnw`s answer. I'll leave this answer as it's the general way to do this, but it's much better to use a built-in function if there is one. – schnaader Apr 30 '11 at 19:36
  • 9
    +1: You can do return (bits >>> k) | (bits << -k); This will work for int and long because the shift only takes the lowest 5-6 bits i.e. 64-k is the same as -k (which for int is the same as 32-k) – Peter Lawrey Apr 30 '11 at 20:33

You mean you want the bits rotated off the right-hand side to appear on the left?

return Integer.rotateRight(bits, k);


int n = 0x55005500; // Binary 01010101000000000101010100000000
int k = 13;
System.err.printf("%08x%n", Integer.rotateRight(n, k));


a802a802 // Binary 10101000000000101010100000000010

The answer by schnaader is correct:

return (bits >>> k) | (bits << (32-k));
  1. the first part (bits >>> k) right-shifts the value stored in bits by k bits and 'the third >' ensures that the leftmost bit is a zero instead of the sign of the bits
  2. the second part (bits << (32-k)) left-shifts the value in bits by k-complement number of bits

Now, you have two temporary variables where the first (32-k) bits are stored on the rightmost bits of var (1), and the last k bits are stored on the leftmost bits of var (2). The bitwise or operation simply ORs these two temp vars together (note the use of >>> instead of >>) and you have the circular shift.

int x=12345,n=5;
System.out.println((x%10)*Math.pow(10, n-1)+(x/10));

To shift by one bit .

This should do it:

 * Rotate v right with k steps
public static int rro(int v, int k) {
    return (v >>> (k%32)) | (v << ((k%32)-32)

 * Rotate v left with k steps
public static int lro(int v, int k) {
    return (v << (k%32)) | (v >>> ((k%32)-32)

I think the other answers are wrong, since if you shift more than 32 positions, their algorithms fail. If you want bigger datatypes, you need to adjust the datatypes and the '32' in all places.

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