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>>> s = "'8255'"
>>> int(s)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
ValueError: invalid literal for int() with base 10: "'8255'"

Is there a handy function that will take regular string, or this kind of double string as in example, and produce integer.

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up vote 3 down vote accepted
>>> import ast
>>> s = "'8255'"
# note - this still works if it was '"8255"'
>>> ast.literal_eval(s)
>>> int(ast.literal_eval(s))

It also has the advantage that given something that's already an int...

>>> s = '8255'
>>> type(ast.literal_eval(s))
<type 'int'>

You automatically get back an int...

see: http://docs.python.org/2/library/ast.html#ast.literal_eval

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Some other options include:

>>> import re
>>> s = "'8255'"
>>> s = int(re.sub("\D", "", s))


>>> s = "'8255'"
>>> s = int(filter(lambda x: x.isdigit(), s))'

Edit: out of curiosity I decided to test the times of some of the suggested options.

def reMethod(s):
    import re
    return int(re.sub("\D", "", s))

def filterMethod(s):
    return int(filter(lambda x: x.isdigit(), s))

def evalMethod(s):
    return int(eval(s))

def literalMethod(s):
    import ast
    return int(ast.literal_eval(s))

def stripMethod(s):
    return int(s.strip("\'").strip("\""))

if __name__=='__main__':
    from timeit import Timer
    s = ...
    t1 = Timer(lambda: reMethod(s))
    t2 = Timer(lambda: filterMethod(s))
    t3 = Timer(lambda: evalMethod(s))
    t4 = Timer(lambda: literalMethod(s))
    t5 = Timer(lambda: stripMethod(s))
    print t1.timeit(number=10000)
    print t2.timeit(number=10000)
    print t3.timeit(number=10000)
    print t4.timeit(number=10000)
    print t5.timeit(number=10000)

Output when s is small (4 digits):

reMethod = 0.0482196671653
filterMethod = 0.0266420145487
evalMethod = 0.0923773329062
literalMethod = 0.108779595759
stripMethod = 0.0165356828523

Output when s is large (150 digits):

reMethod = 0.068626707014
filterMethod = 0.28342855188
evalMethod = 0.116445492177
literalMethod = 0.134001262669
stripMethod = 0.0227778106058

Output when s is really large (7500 digits):

reMethod = 4.40808699357
filterMethod = 16.7396360029
evalMethod = 4.72486805726
literalMethod = 4.52914962633
stripMethod = 3.65296183068

Overall it seems they don't differ that much in performance. filter is about the only one that gets slower as the digits get longer. Take from this what you will, I was just curious to see the results and thought others might be as well.

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+1 I really like that you took the time to time each solution! – Niclas Nilsson Nov 23 '12 at 17:34

Try use builtin function eval:

new_s = int(eval(s))
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I accepted literal_eval, as this code isn't just for me. It's additional import just to do conversion, but it's more strait-forward then re, which I initially thought to use before asking – theta Nov 23 '12 at 12:01
Thank you, I will read the doc about literal_eval. – iMom0 Nov 23 '12 at 12:07

eval is dangerous. This might not be the most optimized solution. But a safe and flexible.

import re

s = "'8255'"

def find_ints(s):
    m = re.search('\d+', s)
    if m:
        return int(m.group(0))
    return None

Out[4]: 8255
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+1 for eval is dangerous. – Michael Kjörling Nov 23 '12 at 11:53

You can use eval like this:

>>> s = "'8255'"
>>> int(eval(s))

This works also with regular string:

>>> s = '8225'
>>> int(eval(s))

If you vant to remove more " and ' use nested eval.

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try stripping undesired characters:

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What you are doing appears to be parsing a literal contained in another literal.

While eval(eval("'123'")) would do the trick, eval should generally be avoided because it will also execute any arbitrary code in the expression.

Fortunately, there is a standard module available that does precise evaluation: ast - Abstract Syntax Trees:

from ast import literal_eval
number = literal_eval(literal_eval(s))
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