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How can I compute a base 2 logarithm without using the built-in math functions in C#?

I use Math.Log and BigInteger.Log repeatedly in an application millions of times and it becomes painfully slow.

I am interested in alternatives that use binary manipulation to achieve the same. Please bear in mind that I can make do with Log approximations in case that helps speed up execution times.

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Given an integer, you could zero all bits but the most-significant one and you've got yourself a power of two, which has a trivial 2-logarithm. That's a very rough approximation. –  jforberg Aug 18 '12 at 23:29
    
Interesting, I wonder what the fastest way to find the most significant set bit. –  Najia Khan Aug 18 '12 at 23:30
    
Levesque has a good solution. –  jforberg Aug 18 '12 at 23:33
    
possible duplicate of Log of a very large number –  L.B Aug 19 '12 at 6:39

5 Answers 5

up vote 1 down vote accepted

For the BigInteger you could use the toByteArray() method and then manually find the most significant 1 and count the number of zeroes afterward. This would give you the base-2 logarithm with integer precision.

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Perfect. That reduces CPU cycles to practically 1 instead of byte[].Length. The BigInteger makes this easy. I wonder what the approach would be for native types like Int32, Int64, double, etc. –  Najia Khan Aug 18 '12 at 23:31
    
Well, technically you could do the same sort thing with any integer type. As for a double, it's really easy, provided it's a IEEE binary double just use a bitwise and operation to select the exponent bits and shift these over -- there's the base two logarithm. Actually, for IEEE decimal it's easy too. Just do the same thing and then divide by log2(10) = ~3.2. –  mimicocotopus Aug 18 '12 at 23:35

Assuming you're only interested in the integral part of the logarithm, you can do something like that:

static int LogBase2(uint value)
{
    int log = 31;
    while (log >= 0)
    {
        uint mask = (1 << log);
        if ((mask & value) != 0)
            return (uint)log;
        log--;
    }
    return -1;
}

(note that the return value for 0 is wrong; it should be negative infinity, but there is no such value for integral datatypes so I return -1 instead)

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The bit hacks page is useful for things like this.

The code there is in C, but the basic idea will work in C# too.

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http://graphics.stanford.edu/~seander/bithacks.html

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While this may theoretically answer the question, it would be preferable to include the essential parts of the answer here, and provide the link for reference. –  Bill the Lizard Aug 19 '12 at 2:41

If you can make due with approximations then use a trick that Intel chips use: precalculate the values into an array of suitable size and then reference that array. You can make the array start and end with any min/max values, and you can create as many in-between values as you need to achieve the desired accuracy.

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