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Is there any way to write log(base 2) function?

The C language has 2 built in function -->>

1.log which is base e.

2.log10 base 10;

But I need log function of base 2.How to calculate this.

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For eyeball computations, the base 2 logarithm is close to equal to the base 10 logarithm plus the natural logarithm. Obviously it's better to write a more accurate (and faster) version in a program. – David Thornley Jun 17 '10 at 21:33

13 Answers 13

up vote 134 down vote accepted

Simple math:

    log2 (x) = logy (x) / logy (2)

where y can be anything, which for standard log functions is either 10 or e.

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Thanx a lot.I got my answer. – russell Jun 17 '10 at 19:34

If you're looking for an integral result, you can just determine the highest bit set in the value and return its position.

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There is also a nice bit-twiddling method for this (taken from Java's Integer.highestOneBit(int) method): i |= (i >> 1); i |= (i >> 2); i |= (i >> 4); i |= (i >> 8); i |= (i >> 16); return i - (i >>> 1); – Joey Jun 17 '10 at 22:21
...or while (i >>= 1) { ++l; } – Lee Daniel Crocker Aug 5 '13 at 4:41
@LeeDanielCrocker Absolutely brilliant! – Patryk Jan 14 at 19:54
#define M_LOG2E 1.44269504088896340736 //log2(e)

inline long double log2(const long double x){
    return  log(x) * M_LOG2E;

(multiplication faster than division)

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Just wanted to clarify - using the log conversion rules + the fact that log_2(e) = 1/log_e(2) --> we get the result – Guy L Dec 24 '13 at 20:30

C99 (the latest version of C), has log2 (as well as log2f and log2l for float and long double).

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As stated on

logb(x) = logk(x) / logk(b)

Which means that:

log2(x) = log10(x) / log10(2)
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Note that you can precompute log10(2) to increase performance. – corsiKa Jun 17 '10 at 19:30
@Johannes: I doubt the compiler will pre-compute log10(2). The compiler doesn't know that log10 will return the same value every time. For all the compiler knows, log10(2) could return different values on successive calls. – abelenky Jun 17 '10 at 21:24
@abelenky: Ok, I take that back. Since the compiler never sees the source to the log() implementation it won't do it. My bad. – Joey Jun 17 '10 at 21:42
@abelenky: Since log10() is a function defined in the C standard, the compiler is free to treat it "specially", including precomputing the result, which I believe was @Johannes' suggestion? – caf Jun 18 '10 at 4:27
+1 @caf. I've never tried with log, but I've seen such optimizations with sqrt many times. – Carl Norum Aug 5 '13 at 4:17

If you want to make it fast, you could use a lookup table like in Bit Twiddling Hacks (integer log2 only).

uint32_t v; // find the log base 2 of 32-bit v
int r;      // result goes here

static const int MultiplyDeBruijnBitPosition[32] = 
  0, 9, 1, 10, 13, 21, 2, 29, 11, 14, 16, 18, 22, 25, 3, 30,
  8, 12, 20, 28, 15, 17, 24, 7, 19, 27, 23, 6, 26, 5, 4, 31

v |= v >> 1; // first round down to one less than a power of 2 
v |= v >> 2;
v |= v >> 4;
v |= v >> 8;
v |= v >> 16;

r = MultiplyDeBruijnBitPosition[(uint32_t)(v * 0x07C4ACDDU) >> 27];

In addition you should take a look at your compilers builtin methods like _BitScanReverse which could be faster because it may entirely computed in hardware.

Take also a look at possible duplicate How to do an integer log2() in C++?

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Why the multiplication and table lookup at the end? Couldn't you just do (v+1) which would round up to the next power of two? And then, you could shift right by one to round down to the next power of 2. – Safayet Ahmed May 11 '15 at 14:12
@SafayetAhmed Please describe how you want to find the log2 of a number with that method. I don't know an easier way to get that value. Beside using the arithmetic above with lookup table, one can use an iterative/recursive algorithm or using dedicated/builtin hardware to do the calculation. – bkausbk May 12 '15 at 13:10
Say the bits of a 32 bit variable v are numbered 0 (LSB) through N (MSB). Say the most significant set bit of v is n. Would it be correct to say that n represents floor( log2(v) )? Aren't you interested in just finding n given v? – Safayet Ahmed May 12 '15 at 13:21
I realized that what I described would just give you the nearest lowest power of 2 and not the actual logarithm. The multiplication and table lookup are for going from the power of two to the logarithm. You are shifting the number 0x07C4ACDD left by some amount. The amount you shift left will depend on the power of two. The number is such, that any consecutive sequence of 5 bits is unique. (0000 0111 1100 0100 0110 1100 1101 1101) gives you the sequences (00000) (00001) ... (11101). Depending on how far left you shift, you get one of these 5-bit patterns. Then table lookup. Very nice. – Safayet Ahmed May 12 '15 at 16:33
log2(int n) = 31 - __builtin_clz(n)
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log2(x) = log10(x) / log10(2)
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Upvote for simplicity, clarity, and providing code based on the OP's given information. – yoyo Jul 26 '14 at 21:54

You have to include math.h (C) or cmath (C++) Of course keep on mind that you have to follow the maths that we know...only numbers>0.


#include <iostream>
#include <cmath>
using namespace std;

int main(){
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Consult your basic mathematics course, log n / log 2. It doesn't matter whether you choose log or log10in this case, dividing by the log of the new base does the trick.

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uint16_t log2(uint32_t n) {//but truncated
     if (n==0) throw ...
     uint16_t logValue = -1;
     while (n) {//
         n >>= 1;
     return logValue;

Basically the same as tomlogic's.

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fixed it in the snippet now. Thanks – Ustaman Sangat Jan 9 '13 at 2:48

I needed to have more precision that just the position of the most significant bit, and the microcontroller I was using had no math library. I found that just using a linear approximation between 2^n values for positive integer value arguments worked well. Here is the code:

uint16_t approx_log_base_2_N_times_256(uint16_t n)
    uint16_t msb_only = 0x8000;
    uint16_t exp = 15;

    if (n == 0)
        return (-1);
    while ((n & msb_only) == 0) {
        msb_only >>= 1;

    return (((uint16_t)((((uint32_t) (n ^ msb_only)) << 8) / msb_only)) | (exp << 8));

In my main program, I needed to calculate N * log2(N) / 2 with an integer result:

temp = (((uint32_t) N) * approx_log_base_2_N_times_256) / 512;

and all 16 bit values were never off by more than 2%

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What you're looking to do is logarithmic change of base, which is well documented and easy to do.

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