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What method would you use to determine if the the bit that represents 2^x is a 1 or 0 ?

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12 Answers 12

up vote 116 down vote accepted

I'd use:

if ((value & (1L << x)) != 0)
   // The bit was set

(You may be able to get away with fewer brackets, but I never remember the precedence of bitwise operations.)

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That depends on the language. In java that isn't true. –  harmanjd Jul 7 '09 at 13:51
That should be 1L, or (1 << 32) ends up with the same value as (1 << 0) –  mkb Jul 7 '09 at 13:52
@Erich: I find it mentally easier to think of varying the mask rather than varying the value. The problem is more easily described as "is bit x set to 1" than "is the value shifted right by x bits 1 in the least bit". Personal taste I guess. @Matt: Fixed, thanks. –  Jon Skeet Jul 7 '09 at 13:58
@ThibThib nothing strange about it. Please don't post stupid anti Java flame bait. –  amischiefr Jul 7 '09 at 14:04
I wonder if ((value>>>x) & 1) != 0 is better because it doesn't matter whether value is long or not, or if its worse because it's less obvious. –  Tom Hawtin - tackline Jul 7 '09 at 14:16

Another alternative:

if (BigInteger.valueOf(value).testBit(x)) {
    // ...
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+1 for using code that is understandable by future maintainers –  cherouvim Aug 28 '09 at 5:58
Not a very good solution if this code is going to be called often. You're replacing a one-line alternative with a one line alternative, and the bit shifts really aren't that hard. –  wds Aug 28 '09 at 7:32
Length of line != readability of line, wds. You might be right that the previous solution is more efficient, but the difference is likely marginal, especially if testBit() gets inlined. –  WCWedin Aug 29 '09 at 16:05
It should be noted this solution allocates memory and is much less efficient than bitwise operators. Yes, it often doesn't matter, but sometimes it is important to avoid unnecessary GC and/or inefficient code (Android apps, in a game's main loop, etc). –  NateS Oct 28 '10 at 5:16
Resource waste. If you can't trust the "future maintainers" for understanding bit operations then you have a bigger problem than that with human resources on the project. Bit operations isn't magic. This is part of the basic set of a programmer skills. –  dolmen May 6 '13 at 15:32

You can also use

bool isSet = ((value>>x) & 1) != 0;

EDIT: the difference between "(value>>x) & 1" and "value & (1<<x)" relies on the behavior when x is greater than the size of the type of "value" (32 in your case).

In that particular case, with "(value>>x) & 1" you will have the sign of value, whereas you get a 0 with "value & (1<<x)" (it is sometimes useful to get the bit sign if x is too large).

If you prefer to have a 0 in that case, you can use the ">>>" operator, instead if ">>"

So, "((value>>>x) & 1) != 0" and "(value & (1<<x)) != 0" are completely equivalent

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I wonder if:

  if (((value >>> x) & 1) != 0) {


.. is better because it doesn't matter whether value is long or not, or if its worse because it's less obvious.

Tom Hawtin - tackline Jul 7 at 14:16

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I think it's better because there is less potential for errors - and if you think it isn't obvious, you can always extract the test into an appropriately named function (boolean isBitSet(long value, int x) or so) –  hjhill Aug 26 '09 at 8:30

For the nth LSB (least significant bit), the following should work:

boolean isSet = (value & (1 << n)) != 0;
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That should be 1L, or (1 << 32) ends up with the same value as (1 << 0) –  mkb Jul 7 '09 at 13:55
And boolean not bool. –  Tom Hawtin - tackline Aug 26 '09 at 1:23

Bit shifting right by x and checking the lowest bit.

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You might want to check out BitSet: http://java.sun.com/javase/6/docs/api/java/util/BitSet.html

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+1 Didn't know of that class. –  jmendeth Aug 30 '11 at 8:53

The value of the 2^x bit is "variable & (1 << x)"

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As Matt Kane said in identical solutions: That should be 1L, or (1 << 32) ends up with the same value as (1 << 0) –  drvdijk Jul 7 '09 at 13:59

declare a temp int and make it equal the original. then shift temp >> x times, so that the bit you want to check is at the last position. then do temp & 0xf to drop the preceding bits. Now left with last bit. Finally do if (y & 1 == 0), if last bit is a 1, that should equal 0, else will equal 1. Its either that or if (y+0x1 == 0)... not too sure. fool around and see

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Why did you post a convoluted, hard to read, iffy answer that has nothing on the existing answers with 50+ upvotes? –  Keith Pinson Dec 17 '12 at 19:05

My contribution - ignore previous one

public class TestBits { 

    public static void main(String[] args) { 

        byte bit1 = 0b00000001;     
        byte bit2 = 0b00000010;
        byte bit3 = 0b00000100;
        byte bit4 = 0b00001000;
        byte bit5 = 0b00010000;
        byte bit6 = 0b00100000;
        byte bit7 = 0b01000000;

        byte myValue = 9;                        // any value

        if (((myValue >>> 3) & bit1 ) != 0) {    //  shift 3 to test bit4
            System.out.println(" ON "); 
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You should edit your previous answer. –  Beau Grantham Sep 29 '12 at 0:21

If someone is not very comfortable with bitwise operators, then below code can be tried to programatically decide it. There are two ways.

1) Use java language functionality to get the binary format string and then check character at specific position

2) Keep dividing by 2 and decide the bit value at certain position.

public static void main(String[] args) {
    Integer n =1000;
    String binaryFormat =  Integer.toString(n, 2);
    int binaryFormatLength = binaryFormat.length();
    for(int i = 1;i<10;i++){
        System.out.println((binaryFormatLength>=i && binaryFormat.charAt(binaryFormatLength-i)=='1'));


public static boolean isBitSet(int number, int position){
    int currPos =1;
    int temp = number;
    while(number!=0 && currPos<= position){
        if(temp%2 == 1 && currPos == position)
            return true;
            temp = temp/2;
            currPos ++;
    return false;


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Eliminate the bitshifting and its intricacies and use a LUT for the right and operand.

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This is considerably slower than a bitwise operation. It would require address lookups over a 1 or 2 clock cycle bitwise operation. –  Kyle Falconer Mar 30 at 17:43

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