I got some numbers and I need to get how much they should be shifted for their lower bit to be at position 0.

0x40000000 => 30 because 0x40000000 >> 30 = 1
768 = 512+256 => 8

This works

if (Math.log2(x) == 31)
  return 31;
if (Math.log2(x) > 31)
  x = x & 0x7FFFFFFF;
return Math.log2(x & -x)

Is there any more efficient or elegant way (builtin ?) to do this in javascript ?

  • 1
    Your title has a different question than your last sentence. You have answered the question in the title yourself. The answer to the final question is: No – trincot Apr 26 '20 at 14:13
  • First version just contained a raw code that did the job but only for positive numbers. Before scratching my head too much I was asking if I was on the wrong way. Now I have modified title and content accordingly (at least i hope so) – v1nce Apr 26 '20 at 17:05

You cannot get that result immediately with a builtin function, but you can avoid using Math.log2. There is a little known function Math.clz32, which counts the number of leading zeroes of a number in its 32-bit binary representation. Use it like this:

function countTrailingZeroes(n) {
    n |= 0; // Turn to 32 bit range
    return n ? 31 - Math.clz32(n & -n) : 0;

console.log(countTrailingZeroes(0b11100)); // 2

The ternary expression is there to catch the value n=0, which is like a degenerate case: it has no 1-bit.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.