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I have to flip all bits in a binary representation of an integer. Given:


The output should be


What is the bitwise operator to accomplish this when used with an integer? For example, if I were writing a method like int flipBits(int n);, what would go in the body? I need to flip only what's already present in the number, not all 32 bits in the integer.

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10 Answers 10

up vote 45 down vote accepted

The ~ unary operator is bitwise negation. If you need fewer bits than what fits in an int then you'll need to mask it with & after the fact.

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Simply use the bitwise not operator ~.

int flipBits(int n) {
    return ~n;

Edit: to use the k least significant bits, convert it to the right mask. (I assume you want at least 1 bit of course, that's why mask starts at 1)

int flipBits(int n, int k) {
    int mask = 1;
    for(int i = 1; i < k; ++i)
        mask |= mask << 1;

    return ~n & mask;

Edit2: Just saw this question is for Java.. thought its for C! Edited it.

Edit3: As suggested by Lưu Vĩnh Phúc, one can create the mask as (1 << k) - 1 instead of using a loop.

int flipBits2(int n, int k) {
    int mask = (1 << k) - 1;
    return ~n & mask;
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Unfortunately, that doesn't give me the expected value. The bitwise reversal of 26 should be 11, but I'm getting some crazy values when using ~. Is there a way to make it only use the number of bits actually used in an integer? – Naftuli Tzvi Kay Jun 14 '11 at 23:33
In java, ints are always 32 bits (2's compliment) regardless of the size of the number represented – Reese Moore Jun 14 '11 at 23:35
This was established as a given in the problem I need to solve. – Naftuli Tzvi Kay Jun 14 '11 at 23:35
Btw the bitwise reversal of 26 is not 11, but 5. 26: 11010, ~26: 00101 = 5. – George Jun 14 '11 at 23:45
to get a mask with k low bits set, use (1 << k) - 1 instead of looping and set each bit. – Lưu Vĩnh Phúc Sep 14 '14 at 17:36

There is a number of ways to flip all the bit using operations

x = ~x; // has been mentioned and the most obvious solution.
x = -x - 1; or x = -1 * (x + 1);
x ^= -1; or x = x ^ ~0;
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Well since so far there's only one solution that gives the "correct" result and that's.. really not a nice solution (using a string to count leading zeros? that'll haunt me in my dreams ;) )

So here we go with a nice clean solution that should work - haven't tested it thorough though, but you get the gist. Really, java not having an unsigned type is extremely annoying for this kind of problems, but it should be quite efficient nonetheless (and if I may say so MUCH more elegant than creating a string out of the number)

private static int invert(int x) {
    if (x == 0) return 0; // edge case; otherwise returns -1 here
    int nlz = nlz(x);
    return ~x & (0xFFFFFFFF >>> nlz);

private static int nlz(int x) {
    // Replace with whatever number leading zero algorithm you want - I can think
    // of a whole list and this one here isn't that great (large immediates)
    if (x < 0) return 0;
    if (x == 0) return 32;
    int n = 0;
    if ((x & 0xFFFF0000) == 0) {
        n += 16;
        x <<= 16;
    if ((x & 0xFF000000) == 0) {
        n += 8;
        x <<= 8;
    if ((x & 0xF0000000) == 0) {
        n += 4;
        x <<= 4;
    if ((x & 0xC0000000) == 0) {
        n += 2;
        x <<= 2;
    if ((x & 0x80000000) == 0) {
    return n;
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I have another way to solve this case,

public static int complementIt(int c){
 return c ^ (int)(Math.pow(2, Math.ceil(Math.log(c)/Math.log(2))) -1);

It is using XOR to get the complement bit, to complement it we need to XOR the data with 1, for example :

101 XOR 111 = 010

(111 is the 'key', it generated by searching the 'n' square root of the data)

if you are using ~ (complement) the result will depend on its variable type, if you are using int then it will be process as 32bit.

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your way is extremely inefficient. To get 2^c simply use 1 << c, which is hundreds of times faster than log, ceil and pow. Moreover it's completely exact while dealing with floating-point maths may get you into trouble – Lưu Vĩnh Phúc Sep 14 '14 at 17:40

I'd have to see some examples to be sure, but you may be getting unexpected values because of two's complement arithmetic. If the number has leading zeros (as it would in the case of 26), the ~ operator would flip these to make them leading ones - resulting in a negative number.

One possible workaround would be to use the Integer class:

int flipBits(int n){
    String bitString = Integer.toBinaryString(n);
    int i = 0;

    while (bitString.charAt(i) != '1'){

    bitString = bitString.substring(i, bitString.length());

    for(i = 0; i < bitString.length(); i++){
        if (bitString.charAt(i) == '0')
            bitString.charAt(i) = '1';
            bitString.charAt(i) = '0';

    int result = 0, factor = 1;

    for (int j = bitString.length()-1; j > -1; j--){
        result += factor * bitString.charAt(j);
        factor *= 2;

    return result;

I don't have a java environment set up right now to test it on, but that's the general idea. Basically just convert the number to a string, cut off the leading zeros, flip the bits, and convert it back to a number. The Integer class may even have some way to parse a string into a binary number. I don't know if that's how the problem needs to be done, and it probably isn't the most efficient way to do it, but it would produce the correct result.

Edit: polygenlubricants' answer to this question may also be helpful

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converting to a string to do bit operations just seems wrong... – naiad Jun 15 '11 at 0:14
Yeah, that's really.. uuuhh – Voo Jun 15 '11 at 0:46
@Vuntic Well like I said, it probably isn't the best way to do it, but it would get the job done. It's really just a question of how you want to represent the data. It would also work to left-shift the number until the leading zeros are gone, flip the bits, and then right-shift it back, but that wouldn't end up being much simpler. When you have to do something in a high-level language like Java that's better suited for a low-level language like C, the solution isn't always going to be as elegant. – Ben Sutton Jun 15 '11 at 0:46
@Ben Apart from the fact that Java doesn't have an unsigned type (not really problematic here but a bit annoying) the solution is the same in C or any other language you can think of if it allows bit twiddling - cheap excuse ;) But sure taking a few ns more to execute such a function won't matter and the solution is easy and simple to understand.. not bad in itself - it just misses this certain elegance of a good mathematical solution imho – Voo Jun 15 '11 at 1:25
@Voo, In Java using Strings like this would take tens of micro-seconds. ~ takes hundreds of pico-seconds. Strings make more of difference in Java than they do in C. – Peter Lawrey Jun 15 '11 at 5:40

As we are only required to flip the minimum bits required for the integer (say 50 is 110010 and when inverted, it becomes 001101 which is 13), we can invert individual bits one at a time from the LSB to MSB, and keep shifting the bits to the right and accordingly apply the power of 2. The code below does the required job:

int invertBits (int n) {
        int pow2=1, int bit=0;
            int newnum=0;
            while(n>0) {
              bit = (n & 1);
                  newnum+= pow2;
          return newnum;
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Simple code to implement the flipping bits:


main() {
    unsigned x = 5;
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This answer is invalid. The OP asked in Java. – Afonso Lage Nov 25 '15 at 20:15
import java.math.BigInteger;
import java.util.Scanner;

public class CodeRace1 {

    public static void main(String[] s) {
        long input;
        BigInteger num,bits = new BigInteger("4294967295");
        Scanner sc = new Scanner(;
        input = sc.nextInt();
        while (input-- > 0) {
            num = new BigInteger(sc.nextLine().trim());
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While code-only answers are valid for simple contexts, if they are correct; please have in mind that they are unrecommended. Always try to provide explanation of at least what the code is doing, and how or why it's doing it, in at least the most critical parts of the code. In this specific case, links to the official documentation for BigInteger(String) and Scanner.nextInt() are also recommended. – AlmightyR Feb 11 at 16:43

The implementation from openJDK, Integer.reverse():

public static int More ...reverse(int i) {
    i = (i & 0x55555555) << 1 | (i >>> 1) & 0x55555555;
    i = (i & 0x33333333) << 2 | (i >>> 2) & 0x33333333;
    i = (i & 0x0f0f0f0f) << 4 | (i >>> 4) & 0x0f0f0f0f;
    i = (i << 24) | ((i & 0xff00) << 8) |
        ((i >>> 8) & 0xff00) | (i >>> 24);
    return i;

Base on my experiments on my laptop, the implementation below was faster:

public static int reverse2(int i) {
    i = (i & 0x55555555) << 1 | (i >>> 1) & 0x55555555;
    i = (i & 0x33333333) << 2 | (i >>> 2) & 0x33333333;
    i = (i & 0x0f0f0f0f) << 4 | (i >>> 4) & 0x0f0f0f0f;
    i = (i & 0x00ff00ff) << 8 | (i >>> 8) & 0x00ff00ff;
    i = (i & 0x0000ffff) << 16 | (i >>> 16) & 0x0000ffff;

    return i;

Not sure what's the reason behind it - as it may depends on how the java code is interpreted into machine code...

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