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I am trying to do bit reversal in a byte. I use the code below

static int BitReversal(int n)
    int u0 = 0x55555555; // 01010101010101010101010101010101
    int u1 = 0x33333333; // 00110011001100110011001100110011
    int u2 = 0x0F0F0F0F; // 00001111000011110000111100001111
    int u3 = 0x00FF00FF; // 00000000111111110000000011111111
    int u4 = 0x0000FFFF;
    int x, y, z;
    x = n;
    y = (x >> 1) & u0;
    z = (x & u0) << 1;
    x = y | z;

    y = (x >> 2) & u1;
    z = (x & u1) << 2;
    x = y | z;

    y = (x >> 4) & u2;
    z = (x & u2) << 4;
    x = y | z;

    y = (x >> 8) & u3;
    z = (x & u3) << 8;
    x = y | z;

    y = (x >> 16) & u4;
    z = (x & u4) << 16;
    x = y | z;

    return x;

It can reverser the bit (on a 32-bit machine), but there is a problem, For example, the input is 10001111101, I want to get 10111110001, but this method would reverse the whole byte including the heading 0s. The output is 10111110001000000000000000000000. Is there any method to only reverse the actual number? I do not want to convert it to string and reverser, then convert again. Is there any pure math method or bit operation method?

Best Regards,

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Athough I understand your method: it cannot compile since you use u4 and have not defined it in your example. –  Ritsaert Hornstra Mar 25 '10 at 13:11
Add int u4 = 0x0000FFFF; –  user287792 Mar 25 '10 at 13:18
This is not the reason, I just miss that. –  Yongwei Xing Mar 25 '10 at 13:24
nice algorithm! –  Karussell Mar 27 '10 at 23:23
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5 Answers

up vote 1 down vote accepted

Cheesy way is to shift until you get a 1 on the right:

if (x != 0) {
    while ((x & 1) == 0) {
        x >>= 1;

Note: You should switch all the variables to unsigned int. As written you can have unwanted sign-extension any time you right shift.

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You should check if the value inserted is zero, bacause you might end up with an infinite loop. –  Ritsaert Hornstra Mar 25 '10 at 13:39
And watch out for what the sign bit does on a signed right shift, it's implementation-defined. Probably the right thing is for the questioner's code to switch to using unsigned int: there's no reason for it to be signed and it's not worth the hassle. –  Steve Jessop Mar 25 '10 at 14:26
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Get the highest bit number using a similar approach and shift the resulting bits to the right 33 - #bits and voila!

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One method could be to find the leading number of sign bits in the number n, left shift n by that number and then run it through your above algorithm.

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This is wrong: 1000 (high bit 3) becomes << 3 and thus 10000000 and in reverse this is 0x02000000, and not 1! –  Ritsaert Hornstra Mar 25 '10 at 13:54
@Ritsaert: 1000 has 24 leading sign bits, so you shift it 24, not 3 –  Chris Dodd Mar 28 '10 at 4:52
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It's assuming all 32 bits are significant and reversing the whole thing. You COULD try to make it guess the number of significant bits by finding the highest 1, but that isn't necessarily accurate so I'd suggest you modify the function so it takes a second parameter indicating the number of significant bits. Then after reversing the bits just shift them to the right.

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Try using Integer.reverse(int x);

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