# Get the bit number that differs between two (binary) numbers

I have two numbers (binary or not, does not play any role) which differ in just one bit, e.g. (pseudocode)

``````a = 11111111
b = 11011111
``````

I want a simple python function that returns the bit position that differs ('5' in the given example, when seen from right to left). My solution would be (python)

``````math.log(abs(a-b))/math.log(2)
``````

but I wonder if there is a more elegant way to do this (without using floats etc.).

Thanks Alex

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Try with bitwise XOR instead of abs(a-b) –  LeeNeverGup Sep 19 '12 at 12:20

You could use the binary exclusive:

``````a = 0b11111111
b = 0b11011111

diff = a^b  # 0b100000
diff.bit_length()-1 # 5 (the first position (backwards) which differs, 0 if a==b )
``````
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Use `(a^b).bit_length() - 1` instead of the string length.(Should work in python2.7+). –  Bakuriu Sep 19 '12 at 12:28
@Bakuriu thanks :) –  Andy Hayden Sep 19 '12 at 12:30
A one line solution is the best. Thanks! –  Alex Sep 19 '12 at 12:31
@Alex `(a^b).bit_length()-1` :) –  Andy Hayden Sep 19 '12 at 12:32

unless i am missing something...

this should work:

``````>>> def find_bit(a,b):
a = a[::-1]
b = b[::-1]
for i in xrange(len(a)):
if a[i] != b[i]:
return i
return None

>>> a = "11111111"
>>> b = "11011111"
>>> find_bit(a,b)
5
``````

maybe not so elegant, but its easy to understand, and it gets the job done.

-

Without using bitwise operations you could do something like this:

``````In [1]: def difbit(a, b):
...:     if a == b: return None
...:     i = 0
...:     while a%2 == b%2:
...:         i += 1
...:         a //= 2
...:         b //= 2
...:     return i
...:

In [2]: difbit(0b11111111, 0b11011111)
Out[2]: 5
``````
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