# Find the position of difference between to strings

If I have two strings og equal length, ex 'HELPMEPLZ' and 'HELPNEPLX', and I need to give the position of the difference, this is 4 and 8, how do I do that?

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looks like homework to me. show what you tried and where you have problems, then try to ask specific questions – tback Dec 17 '11 at 14:50
It isn't homework, I need it for a much bigger functioncomplex. So it is a bit difficult to write everything in here.. – Linus Svendsson Dec 17 '11 at 14:53
But the functions split the strings up: ('HEL','PME','PLZ') and ('HEL','PNE','PLX') – Linus Svendsson Dec 17 '11 at 14:55
@TillBackhaus: don't use lmgtfy links. – katrielalex Dec 17 '11 at 15:00
@katrielalex, you're right. just deleted my previous comment. – tback Dec 17 '11 at 15:04

Try this:

``````s1 = 'HELPMEPLZ'
s2 = 'HELPNEPLX'
[i for i in xrange(len(s1)) if s1[i] != s2[i]]
``````

It will return:

``````> [4, 8]
``````

The above solution will return a list with the indexes in sorted order, won't create any unnecessary intermediate data structures and it will work on Python 2.3 - 2.7. For Python 3.x replace `xrange` for `range`.

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`zip` is an iterator in Python 3. Not sure what you mean by Python 2.3 comment. – katrielalex Dec 17 '11 at 15:08
It means that it doesn't use Python 3-specific features - like assuming that zip is an iterator, or that set comprehensions are available. My solution works efficiently even in older Python versions, as long as list comprehensions are available – Óscar López Dec 17 '11 at 15:22
Set comprehensions are in Python 2.7. – katrielalex Dec 17 '11 at 16:28
`xrange` doesn't exist in py3; it is renamed to `range`. – John Machin Dec 17 '11 at 21:04
Edited my answer, thanks for the comments! – Óscar López Dec 18 '11 at 0:06

Python really comes with batteries included. Have a look at difflib

``````>>> import difflib
>>> a='HELPMEPLZ'
>>> b='HELPNEPLX'
>>> s = difflib.SequenceMatcher(None, a, b)
>>> for block in s.get_matching_blocks():
...     print block
Match(a=0, b=0, size=4)
Match(a=5, b=5, size=3)
Match(a=9, b=9, size=0)
``````

`difflib` is very powerful and a some study of the documentation is really recommended.

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If you store the two strings in `a` and `b`, you can loop through all the items and check for inequality.

python interactive interpreter:

``````>>> for i in range(len(a)):
...   if a[i] != b[i]: print i, a[i], b[i]
...
4 M N
8 Z X
``````

Another way to do this is with list comprehensions. It's all in one line, and the output is a list.

``````>>> [i for i in range(len(a)) if a[i] != b[i]]
[4, 8]
``````

That makes it really easy to wrap into a function, which makes calling it on a variety of inputs easy.

``````>>> def dif(a, b):
...     return [i for i in range(len(a)) if a[i] != b[i]]
...
>>> dif('HELPMEPLZ', 'HELPNEPLX')
[4, 8]
>>> dif('stackoverflow', 'stacklavaflow')
[5, 6, 7, 8]
``````
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Don't use lambda when you don't have to: `def dif(a, b): return [i for i in range(len(a)) if a[i] != b[i]]` – Steven Rumbalski Dec 17 '11 at 15:30
@StevenRumbalski, why not? It does the exact same thing... as far as I know. Is it just less Pythonic? Or slower? – FakeRainBrigand Dec 17 '11 at 15:41
Lambdas are for anonymous functions and excellent for creating one liners. Here, you assign a name to the lambda, which suggests that it would be better as a regular function. Also, lambdas obscure your traceback when you have a bug.. – Steven Rumbalski Dec 17 '11 at 17:08
@StevenRumbalski, ok, fixed. – FakeRainBrigand Dec 17 '11 at 17:16
``````>>> from itertools import izip
>>> s1 = 'HELPMEPLZ'
>>> s2 = 'HELPNEPLX'
>>> [i for i,(a1,a2)  in enumerate(izip(s1,s2)) if a1!=a2]
[4, 8]
``````
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Pair up the strings character-by-character and iterate over this collection together with a counting index. Test whether the characters in each pair differ; if they do, output the index of where.

Using Python builtin functions you can do this neatly in one line:

``````>>> x = 'HELPMEPLZ'
>>> y = 'HELPNEPLX'
>>> {i for i, (left, right) in enumerate(zip(x,y)) if left != right}
{8, 4}
``````
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Although the OP didn't say so, I'd be willing to bet that a solution that produced the errant indices in ascending order would be preferable. – John Machin Dec 17 '11 at 20:55
@Linus: if you want this, change the `{}` brackets to `[]`. That will give you a list comprehension instead of a set comprehension, so preserves the order. – katrielalex Dec 17 '11 at 21:16

Easiest way is to split data into two char arrays and then loop through comparing the letters and return the index when the two chars do not equal each other.

This method will work fine as long as both strings are equal in length.

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