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How should I compute log to the base two in python. Eg. I have this equation where I am using log base 2

import math
e = -(t/T)* math.log((t/T)[, 2])
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What you have should work if you take the square brackets out around the ", 2" in the math.log() call. Have you tried it? – martineau Sep 15 '10 at 18:44
nice entropy calculation – Muhammad Alkarouri Sep 16 '10 at 1:36
math.log(value, base) – Valentin Heinitz Jan 7 '15 at 22:10
up vote 92 down vote accepted

It's good to know that

alt text

but also know that math.log takes an optional second argument which allows you to specify the base:

In [22]: import math

In [23]: math.log?
Type:       builtin_function_or_method
Base Class: <type 'builtin_function_or_method'>
String Form:    <built-in function log>
Namespace:  Interactive
    log(x[, base]) -> the logarithm of x to the given base.
    If the base not specified, returns the natural logarithm (base e) of x.

In [25]: math.log(8,2)
Out[25]: 3.0
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+1. Change-of-base formula FTW – Matt Ball Sep 15 '10 at 17:01
base argument added in version 2.3, btw. – Joe Koberg Sep 15 '10 at 18:09
What is this '?' syntax ? I can't find reference for it. – wap26 Apr 30 '13 at 13:59
@wap26: Above, I'm using the IPython interactive interpreter. One of its features (accessed with the ?) is dynamic object introspection. – unutbu Apr 30 '13 at 17:51

If all you need is the integer part of log base 2, math.frexp() could be pretty efficient:

log2int_slow = int(floor(log(x, 2.0)))
log2int_fast = frexp(x)[1]-1

The C function it calls just grabs and tweaks the exponent.

Splainin: frexp() returns a tuple (mantissa, exponent). For integral powers of 2 the exponent is one more than you might expect. For example 32 is stored as 0.5x2⁶. This explains the -1 above. Also works for 1/32 which is stored as 0.5x2⁻⁴.

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Interesting. So you're subtracting 1 there because the mantissa is in the range [0.5, 1.0)? I would give this one a few more upvotes if I could. – LarsH Feb 23 '15 at 11:49
Exactly right @LarsH. 32 is stored as 0.5x2⁶ so if you want log₂32=5 you need to subtract 1. Also true for 1/32 which is stored as 0.5x2⁻⁴. – BobStein-VisiBone Feb 23 '15 at 14:10

Using numpy:

In [1]: import numpy as np

In [2]: np.log2?
Type:           function
Base Class:     <type 'function'>
String Form:    <function log2 at 0x03049030>
Namespace:      Interactive
File:           c:\python26\lib\site-packages\numpy\lib\ufunclike.py
Definition:     np.log2(x, y=None)
    Return the base 2 logarithm of the input array, element-wise.

x : array_like
  Input array.
y : array_like
  Optional output array with the same shape as `x`.

y : ndarray
  The logarithm to the base 2 of `x` element-wise.
  NaNs are returned where `x` is negative.

See Also
log, log1p, log10

>>> np.log2([-1, 2, 4])
array([ NaN,   1.,   2.])

In [3]: np.log2(8)
Out[3]: 3.0
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def lg(x, tol=1e-13):
  res = 0.0

  # Integer part
  while x<1:
    res -= 1
    x *= 2
  while x>=2:
    res += 1
    x /= 2

  # Fractional part
  fp = 1.0
  while fp>=tol:
    fp /= 2
    x *= x
    if x >= 2:
        x /= 2
        res += fp

  return res
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Extra points for an algorithm that can be adapted to always give the correct integer part, unlike int(math.log(x, 2)) – user12861 Jan 10 '12 at 13:43
>>> def log2( x ):
...     return math.log( x ) / math.log( 2 )
>>> log2( 2 )
>>> log2( 4 )
>>> log2( 8 )
>>> log2( 2.4 )
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This is built in to the math.log function. See unutbu's answer. – tgray Sep 15 '10 at 16:26
You're right, didn't know that - thanks ;) – puzz Sep 15 '10 at 16:34

If you are on python 3.4 or above then it already has a built-in function for computing log2(x)

import math
'finds log base2 of x'
answer = math.log2(x)

If you are on older version of python then you can do like this

import math
'finds log base2 of x'
answer = math.log(x)/math.log(2)
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logbase2(x) = log(x)/log(2)

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log_base_2(x) = log(x) / log(2)

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Don't forget that log[base A] x = log[base B] x / log[base B] A.

So if you only have log (for natural log) and log10 (for base-10 log), you can use

myLog2Answer = log10(myInput) / log10(2)
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