What is the fastest way to count the number of set bits (i.e. count the number of 1s) in an UInt32 without the use of a look up table? Is there a way to count in O(1)?


Is a duplicate of: how-to-implement-bitcount-using-only-bitwise-operators or best-algorithm-to-count-the-number-of-set-bits-in-a-32-bit-integer

And there are many solutions for that problem. The one I use is:

    int NumberOfSetBits(int i)
        i = i - ((i >> 1) & 0x55555555);
        i = (i & 0x33333333) + ((i >> 2) & 0x33333333);
        return (((i + (i >> 4)) & 0x0F0F0F0F) * 0x01010101) >> 24;
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    I tested the performance of this answer, and the one from Jon Skeet. While that approach has a better readibility, this one is the fastest. – raoul Jun 30 '19 at 10:45
  • @raoul: Though this has the same performance for every case (12 arithmetic operations including one multiplication), Jon's version (actually Brian Kerninghan's) can be much faster if only a few bits are set (which is a typical case for enums). – György Kőszeg Nov 21 '19 at 15:25

The bit-twiddling hacks page has a number of options.

Of course, you could argue that iterating over all 32 possible bits is O(N) in that it's the same cost every time :)

For simplicity, I'd consider the lookup-table-per-byte approach, or Brian Kernighan's neat idea which iterates as many times as there are bits set, which I'd write as:

public static int CountBits(uint value)
    int count = 0;
    while (value != 0)
        value &= value - 1;
    return count;

If you don't like the idea of populating a 256-entry lookup table, a lookup-per-nybble would still be pretty fast. Mind you, it's possible that 8 array lookups might be slower than 32 simple bit operations.

Of course, it's worth testing your app's real performance before going to particularly esoteric approaches... is this really a bottleneck for you?

  • This looks more readable, but I still wonder what is the usage of counting bits like this. If I had to guess, I'd say it's probably used in cryptography. – Alisson Jan 17 '18 at 13:41
  • I was intrigued by the LUT approach. It seems to definitely be slower for population counts, particularly if the intrinsic is available, but for getting the indices of the set bits the LUT appears faster if some care is taken. I've explored this on GitHub if you want to take a look. – Polynomial Feb 13 '20 at 17:59

In .NET Core 3.0 the x86 popcnt intrinsic has been exposed, allowing you to perform a single-instruction population count calculation on a uint or uint64.

int setBits = System.Runtime.Intrinsics.X86.Popcnt.PopCount(value);

There is also a 64-bit version System.Runtime.Intrinsics.X86.Popcnt.X64.PopCount() that can be used on a ulong when running on a 64-bit CPU.

  • thanks! Do you know if there is an intrinsic or defacto algorithm for returning the indices of the set bits, not just the counts? – Alex Norcliffe Feb 12 '20 at 7:31
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    @AlexNorcliffe That isn't possible with an intrinsic. The simplest approach is just to loop through all bits in the value and put the indices of the set bits into a list. You can speed this up further by computing the popcount ahead of time so you can use a preallocated array rather than a List object. The faster way is to do what John Skeet mentioned above and split the number into chunks so you can use a lookup table. I've investigated this here and shown that it is generally faster than computing the positions each time. – Polynomial Feb 13 '20 at 17:58
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    this is great - thanks! I must admit I'm mystified why HashSet is performing fastest for me, even when using a the very latest reference source for BitArray in .NET Core from Feb 2019 that has optimisations using Span and aggressive inlining. In my test I have 5 million values, and 2.5 million secondary values. My goal is to essentially end up with a list of which values in the first are not in the second. They are contiguous integers so I expected a BitArray to win - can't quite wrap my head around how calling HasSet<>.Remove could be faster! Tho it does use more allocations obvs – Alex Norcliffe Feb 14 '20 at 5:27
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    @AlexNorcliffe I looked at the reference source for BitArray and each new instance creates a heap allocation (array of Int32 values large enough to hold the bits), extending the array (i.e. setting the Length property to a larger value) causes a new allocation and copy, shrinking the array causes the unused array elements and final-element bits to be cleared. Foreach loops over a BitArray will also allocate a new enumerator object on the heap, but the Get function should be fast: one aligned memory access, one division, one modulo, one variable shift left, one AND, one integer comparison. – Polynomial Feb 14 '20 at 13:16
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    @AlexNorcliffe Another potential option is to use BitVector32, which is effectively an encapsulation of bit extraction maths with some convenience methods, and since it's a struct it gets put on the stack rather than the heap. But the fastest performance is almost certainly always going to be doing the calculation manually in your own code, all inline, because you can avoid doing calls and branches (most calls to framework classes have parameter validation!) and keep things in a very tight loop for better performance. – Polynomial Feb 14 '20 at 13:44

Here is the solution in java to get the set bits of a given number.

import java.util.*;

public class HelloWorld {

static int setBits(int n) {
    int count = 0;
    while(n != 0) {
        count+= ((n & 1) == 1) ? 1 : 0;
        n >>= 1;

    return count;

 public static void main(String []args){
     Scanner sc = new Scanner(System.in);
     int n = sc.nextInt();
     System.out.println("Results: " + HelloWorld.setBits(n)); 

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