# Double string to int

``````>>> 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.

-

``````>>> import ast
>>> s = "'8255'"
# note - this still works if it was '"8255"'
>>> ast.literal_eval(s)
'8255'
>>> int(ast.literal_eval(s))
8255
``````

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...

-

Some other options include:

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

and

``````>>> 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

find_ints(s)
Out[4]: 8255
``````
-
+1 for `eval is dangerous`. –  Michael Kjörling Nov 23 '12 at 11:53

You can use `eval` like this:

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

This works also with regular string:

``````>>> s = '8225'
>>> int(eval(s))
8255
``````

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

-

try stripping undesired characters:

``````int(s.strip("\'"))
``````
-

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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