Is there any way to tell whether a string represents an integer (e.g., '3', '-17' but not '3.14' or 'asfasfas') Without using a try/except mechanism?

is_int('3.14') = False
is_int('-7')   = True
  • 22
    Why both trying to do this "the hard way?" What's wrong with try/except? – S.Lott Aug 12 '09 at 12:09
  • 4
    Yes, what's wrong with try/except? Better to ask for forgiveness than for permission. – mk12 Sep 14 '09 at 2:27
  • 28
    I would ask why should this simple thing require try/except? Exception system is a complex beast, but this is a simple problem. – Aivar Sep 23 '11 at 20:18
  • 12
    @Aivar stop spreading FUD. A single try/except block does not even approach "complex". – Triptych Feb 3 '12 at 20:21
  • 27
    It's not really FUD, though. You'd be effectively writing 4 lines of code, expecting something to blow up, catching that exception and doing your default, instead of using a one liner. – andersonvom Nov 12 '13 at 19:32

14 Answers 14

up vote 297 down vote accepted

If you're really just annoyed at using try/excepts all over the place, please just write a helper function:

def RepresentsInt(s):
    try: 
        int(s)
        return True
    except ValueError:
        return False

>>> print RepresentsInt("+123")
True
>>> print RepresentsInt("10.0")
False

It's going to be WAY more code to exactly cover all the strings that Python considers integers. I say just be pythonic on this one.

  • 82
    So it's pythonic to solve simple problem with complex mechanism? There is an algorithm for detecting int's written inside function "int" -- I don't see why isn't this exposed as a boolean function. – Aivar Sep 23 '11 at 20:21
  • 63
    @Aivar: This 5 line function is not a complex mechanism. – Triptych Feb 3 '12 at 20:27
  • 19
    Except:>>> print RepresentsInt(10.0) True >>> print RepresentsInt(10.06) True – Dannid Dec 12 '13 at 19:24
  • 4
    I guess it's "pythonic" in the sense that if Python thinks the string is an int, so does your program. If Python changes, so does your program, and without changing a single line of code. There's some value in that. It might be the right thing to do depending on the circumstances. – Shavais Oct 8 '14 at 16:07
  • 14
    I don't know why this is the accepted answer or has so many upvotes, since this is exactly the opposite of what OP is asking for. – FearlessFuture Feb 15 '17 at 17:06

with positive integers you could use .isdigit:

>>> '16'.isdigit()
True

it doesn't work with negative integers though. suppose you could try the following:

>>> s = '-17'
>>> s.startswith('-') and s[1:].isdigit()
True

it won't work with '16.0' format, which is similar to int casting in this sense.

edit:

def check_int(s):
    if s[0] in ('-', '+'):
        return s[1:].isdigit()
    return s.isdigit()
  • 4
    this doesn't handle "+17" without an additional special case. – Bryan Oakley Aug 12 '09 at 13:35
  • 1
    You have to test for BOTH cases: lambda s: s.isdigit() or (s.startswith('-') and s[1:].isdigit()) – rob Aug 12 '09 at 13:39
  • 4
    @Roberto: of course you should! and I'm sure you're capable of doing so! – SilentGhost Aug 12 '09 at 13:49
  • 14
    note: u'²'.isdigit() is true but int(u'²') raises ValueError. Use u.isdecimal() instead. str.isdigit() is locale-dependent on Python 2. – jfs Oct 19 '14 at 6:02
  • 3
    This seems important and convoluted enough to warrant a built-in really.... – naught101 Apr 22 '16 at 3:57

You know, I've found (and I've tested this over and over) that try/except does not perform all that well, for whatever reason. I frequently try several ways of doing things, and I don't think I've ever found a method that uses try/except to perform the best of those tested, in fact it seems to me those methods have usually come out close to the worst, if not the worst. Not in every case, but in many cases. I know a lot of people say it's the "Pythonic" way, but that's one area where I part ways with them. To me, it's neither very performant nor very elegant, so, I tend to only use it for error trapping and reporting.

I was going to gripe that PHP, perl, ruby, C, and even the freaking shell have simple functions for testing a string for integer-hood, but due diligence in verifying those assumptions tripped me up! Apparently this lack is a common sickness.

Here's a quick and dirty edit of Bruno's post:

import sys, time, re

g_intRegex = re.compile(r"^([+-]?[1-9]\d*|0)$")

testvals = [
    # integers
    0, 1, -1, 1.0, -1.0,
    '0', '0.','0.0', '1', '-1', '+1', '1.0', '-1.0', '+1.0', '06',
    # non-integers
    'abc 123',
    1.1, -1.1, '1.1', '-1.1', '+1.1',
    '1.1.1', '1.1.0', '1.0.1', '1.0.0',
    '1.0.', '1..0', '1..',
    '0.0.', '0..0', '0..',
    'one', object(), (1,2,3), [1,2,3], {'one':'two'},
    # with spaces
    ' 0 ', ' 0.', ' .0','.01 '
]

def isInt_try(v):
    try:     i = int(v)
    except:  return False
    return True

def isInt_str(v):
    v = str(v).strip()
    return v=='0' or (v if v.find('..') > -1 else v.lstrip('-+').rstrip('0').rstrip('.')).isdigit()

def isInt_re(v):
    import re
    if not hasattr(isInt_re, 'intRegex'):
        isInt_re.intRegex = re.compile(r"^([+-]?[1-9]\d*|0)$")
    return isInt_re.intRegex.match(str(v).strip()) is not None

def isInt_re2(v):
    return g_intRegex.match(str(v).strip()) is not None

def check_int(s):
    s = str(s)
    if s[0] in ('-', '+'):
        return s[1:].isdigit()
    return s.isdigit()    


def timeFunc(func, times):
    t1 = time.time()
    for n in range(times):
        for v in testvals: 
            r = func(v)
    t2 = time.time()
    return t2 - t1

def testFuncs(funcs):
    for func in funcs:
        sys.stdout.write( "\t%s\t|" % func.__name__)
    print()
    for v in testvals:
        if type(v) == type(''):
            sys.stdout.write("'%s'" % v)
        else:
            sys.stdout.write("%s" % str(v))
        for func in funcs:
            sys.stdout.write( "\t\t%s\t|" % func(v))
        sys.stdout.write("\r\n") 

if __name__ == '__main__':
    print()
    print("tests..")
    testFuncs((isInt_try, isInt_str, isInt_re, isInt_re2, check_int))
    print()

    print("timings..")
    print("isInt_try:   %6.4f" % timeFunc(isInt_try, 10000))
    print("isInt_str:   %6.4f" % timeFunc(isInt_str, 10000)) 
    print("isInt_re:    %6.4f" % timeFunc(isInt_re, 10000))
    print("isInt_re2:   %6.4f" % timeFunc(isInt_re2, 10000))
    print("check_int:   %6.4f" % timeFunc(check_int, 10000))

Here are the performance comparison results:

timings..
isInt_try:   0.6426
isInt_str:   0.7382
isInt_re:    1.1156
isInt_re2:   0.5344
check_int:   0.3452

A C method could scan it Once Through, and be done. A C method that scans the string once through would be the Right Thing to do, I think.

EDIT:

I've updated the code above to work in Python 3.5, and to include the check_int function from the currently most voted up answer, and to use the current most popular regex that I can find for testing for integer-hood. This regex rejects strings like 'abc 123'. I've added 'abc 123' as a test value.

It is Very Interesting to me to note, at this point, that NONE of the functions tested, including the try method, the popular check_int function, and the most popular regex for testing for integer-hood, return the correct answers for all of the test values (well, depending on what you think the correct answers are; see the test results below).

The built-in int() function silently truncates the fractional part of a floating point number and returns the integer part before the decimal, unless the floating point number is first converted to a string.

The check_int() function returns false for values like 0.0 and 1.0 (which technically are integers) and returns true for values like '06'.

Here are the current (Python 3.5) test results:

                  isInt_try |       isInt_str       |       isInt_re        |       isInt_re2       |   check_int   |
    0               True    |               True    |               True    |               True    |       True    |
    1               True    |               True    |               True    |               True    |       True    |
    -1              True    |               True    |               True    |               True    |       True    |
    1.0             True    |               True    |               False   |               False   |       False   |
    -1.0            True    |               True    |               False   |               False   |       False   |
    '0'             True    |               True    |               True    |               True    |       True    |
    '0.'            False   |               True    |               False   |               False   |       False   |
    '0.0'           False   |               True    |               False   |               False   |       False   |
    '1'             True    |               True    |               True    |               True    |       True    |
    '-1'            True    |               True    |               True    |               True    |       True    |
    '+1'            True    |               True    |               True    |               True    |       True    |
    '1.0'           False   |               True    |               False   |               False   |       False   |
    '-1.0'          False   |               True    |               False   |               False   |       False   |
    '+1.0'          False   |               True    |               False   |               False   |       False   |
    '06'            True    |               True    |               False   |               False   |       True    |
    'abc 123'       False   |               False   |               False   |               False   |       False   |
    1.1             True    |               False   |               False   |               False   |       False   |
    -1.1            True    |               False   |               False   |               False   |       False   |
    '1.1'           False   |               False   |               False   |               False   |       False   |
    '-1.1'          False   |               False   |               False   |               False   |       False   |
    '+1.1'          False   |               False   |               False   |               False   |       False   |
    '1.1.1'         False   |               False   |               False   |               False   |       False   |
    '1.1.0'         False   |               False   |               False   |               False   |       False   |
    '1.0.1'         False   |               False   |               False   |               False   |       False   |
    '1.0.0'         False   |               False   |               False   |               False   |       False   |
    '1.0.'          False   |               False   |               False   |               False   |       False   |
    '1..0'          False   |               False   |               False   |               False   |       False   |
    '1..'           False   |               False   |               False   |               False   |       False   |
    '0.0.'          False   |               False   |               False   |               False   |       False   |
    '0..0'          False   |               False   |               False   |               False   |       False   |
    '0..'           False   |               False   |               False   |               False   |       False   |
    'one'           False   |               False   |               False   |               False   |       False   |
    <obj..>         False   |               False   |               False   |               False   |       False   |
    (1, 2, 3)       False   |               False   |               False   |               False   |       False   |
    [1, 2, 3]       False   |               False   |               False   |               False   |       False   |
    {'one': 'two'}  False   |               False   |               False   |               False   |       False   |
    ' 0 '           True    |               True    |               True    |               True    |       False   |
    ' 0.'           False   |               True    |               False   |               False   |       False   |
    ' .0'           False   |               False   |               False   |               False   |       False   |
    '.01 '          False   |               False   |               False   |               False   |       False   |

Just now I tried adding this function:

def isInt_float(s):
    try:
        return float(str(s)).is_integer()
    except:
        return False

It performs almost as well as check_int (0.3486) and it returns true for values like 1.0 and 0.0 and +1.0 and 0. and .0 and so on. But it also returns true for '06', so. Pick your poison, I guess.

  • Perhaps part of it comes from the fact that an integer is a bit arbitrary itself. A programming system cannot take the luxury of assuming that it's always going to be a decimal representation. 0x4df, is a valid integer in some places, and 0891 is not in others. I dread to think what might arise given unicode in these kinds of checks. – PlexQ Mar 25 '12 at 17:03
  • 2
    +1 for the timing. I agree that this whole exception business is not really elegant for such a simple question. You'd expect a build in helper method for such a common problem... – RickyA Sep 28 '12 at 9:32
  • 7
    I know this thread is basically dormant, but +1 for considering run-time. Line length isn't always indicative of underlying complexity; and sure, a try/except might look simple (and read easy, which is important too), but it is a costly operation. I'd argue the preference hierarchy should always look something like the following: 1. An easy to read explicit solution (SilentGhost's). 2. An easy to read implicit solution (Triptych's). 3. There is no three. – Eric Humphrey Aug 11 '13 at 0:24
  • 1
    Thanks for your tourough investigations concerning such a seemingly insignificant topic. I'll go with the isInt_str(), pythonic or not. What's nagging me is that I haven't found anything about the meaning of v.find('..'). Is that some kind of special find-syntax or an edge-case of a numeric-string? – user3469861 Aug 10 '15 at 15:01
  • 3
    Yes, a bit dated but still really nice and relevant analysis. In Python 3.5 try is more efficient: isInt_try: 0.6552 / isInt_str: 0.6396 / isInt_re: 1.0296 / isInt_re2: 0.5168. – Dave Feb 21 '16 at 23:57

Use a regular expression:

import re
def RepresentsInt(s):
    return re.match(r"[-+]?\d+$", s) is not None

If you must accept decimal fractions also:

def RepresentsInt(s):
    return re.match(r"[-+]?\d+(\.0*)?$", s) is not None

For improved performance if you're doing this often, compile the regular expression only once using re.compile().

  • 15
    +1: reveals that this is horrifyingly complex and expensive when compared with try/except. – S.Lott Aug 12 '09 at 12:10
  • 2
    I feel this is essentially a slower, custom version of the 'isnumeric' solution offered by @SilentGhost. – Greg Aug 12 '09 at 12:12
  • @Greg: Since the @SilentGhost doesn't cover signs correctly, this version actually works. – S.Lott Aug 12 '09 at 13:34
  • 1
    @S.Lott: surely, anyone capable of posting on SO, would be able to extend my example to cover signs. – SilentGhost Aug 12 '09 at 16:58
  • 2
    regular expressions are about the most complex and obscure thing in existence, I find that the simple check above is substantially more clear, even if I think it's still ugly, this is uglier. – PlexQ Mar 25 '12 at 16:59

The proper RegEx solution would combine the ideas of Greg Hewgill and Nowell, but not use a global variable. You can accomplish this by attaching an attribute to the method. Also, I know that it is frowned upon to put imports in a method, but what I'm going for is a "lazy module" effect like http://peak.telecommunity.com/DevCenter/Importing#lazy-imports

edit: My favorite technique so far is to use exclusively methods of the String object.

#!/usr/bin/env python

# Uses exclusively methods of the String object
def isInteger(i):
    i = str(i)
    return i=='0' or (i if i.find('..') > -1 else i.lstrip('-+').rstrip('0').rstrip('.')).isdigit()

# Uses re module for regex
def isIntegre(i):
    import re
    if not hasattr(isIntegre, '_re'):
        print("I compile only once. Remove this line when you are confident in that.")
        isIntegre._re = re.compile(r"[-+]?\d+(\.0*)?$")
    return isIntegre._re.match(str(i)) is not None

# When executed directly run Unit Tests
if __name__ == '__main__':
    for obj in [
                # integers
                0, 1, -1, 1.0, -1.0,
                '0', '0.','0.0', '1', '-1', '+1', '1.0', '-1.0', '+1.0',
                # non-integers
                1.1, -1.1, '1.1', '-1.1', '+1.1',
                '1.1.1', '1.1.0', '1.0.1', '1.0.0',
                '1.0.', '1..0', '1..',
                '0.0.', '0..0', '0..',
                'one', object(), (1,2,3), [1,2,3], {'one':'two'}
            ]:
        # Notice the integre uses 're' (intended to be humorous)
        integer = ('an integer' if isInteger(obj) else 'NOT an integer')
        integre = ('an integre' if isIntegre(obj) else 'NOT an integre')
        # Make strings look like strings in the output
        if isinstance(obj, str):
            obj = ("'%s'" % (obj,))
        print("%30s is %14s is %14s" % (obj, integer, integre))

And for the less adventurous members of the class, here is the output:

I compile only once. Remove this line when you are confident in that.
                             0 is     an integer is     an integre
                             1 is     an integer is     an integre
                            -1 is     an integer is     an integre
                           1.0 is     an integer is     an integre
                          -1.0 is     an integer is     an integre
                           '0' is     an integer is     an integre
                          '0.' is     an integer is     an integre
                         '0.0' is     an integer is     an integre
                           '1' is     an integer is     an integre
                          '-1' is     an integer is     an integre
                          '+1' is     an integer is     an integre
                         '1.0' is     an integer is     an integre
                        '-1.0' is     an integer is     an integre
                        '+1.0' is     an integer is     an integre
                           1.1 is NOT an integer is NOT an integre
                          -1.1 is NOT an integer is NOT an integre
                         '1.1' is NOT an integer is NOT an integre
                        '-1.1' is NOT an integer is NOT an integre
                        '+1.1' is NOT an integer is NOT an integre
                       '1.1.1' is NOT an integer is NOT an integre
                       '1.1.0' is NOT an integer is NOT an integre
                       '1.0.1' is NOT an integer is NOT an integre
                       '1.0.0' is NOT an integer is NOT an integre
                        '1.0.' is NOT an integer is NOT an integre
                        '1..0' is NOT an integer is NOT an integre
                         '1..' is NOT an integer is NOT an integre
                        '0.0.' is NOT an integer is NOT an integre
                        '0..0' is NOT an integer is NOT an integre
                         '0..' is NOT an integer is NOT an integre
                         'one' is NOT an integer is NOT an integre
<object object at 0x103b7d0a0> is NOT an integer is NOT an integre
                     (1, 2, 3) is NOT an integer is NOT an integre
                     [1, 2, 3] is NOT an integer is NOT an integre
                {'one': 'two'} is NOT an integer is NOT an integre
  • 3
    I'll agree that my test suite is overkill. I like to prove that my code works when I write it. But do you think my isInteger function is overkill? Surely not. – Bruno Bronosky Aug 25 '11 at 6:56
  • NOTE: The previous comment was in reply to an earlier comment that got deleted. I guy they changed their mind about "Overkill much?" (or something like that). – Bruno Bronosky Apr 16 at 15:15
  • 1
    I just got a down vote with no comments. What is with people? I understand that millennials are now using "Likes" as "read receipts". But are they now using down votes as "not the method I chose" markers? Maybe they don't realize it subtracts 2 points from YOUR OWN reputation to down vote an answer. SO/SE does that to encourage down voting only due to misinformation, in which case I'd hope you'd leave a comment. – Bruno Bronosky Apr 16 at 15:15

Greg Hewgill's approach was missing a few components: the leading "^" to only match the start of the string, and compiling the re beforehand. But this approach will allow you to avoid a try: exept:

import re
INT_RE = re.compile(r"^[-]?\d+$")
def RepresentsInt(s):
    return INT_RE.match(str(s)) is not None

I would be interested why you are trying to avoid try: except?

  • 1
    A matter of style. I think that "try/except" should be used only with actual errors, not with normal program flow. – Adam Matan Aug 12 '09 at 12:39
  • 1
    @Udi Pasmon: Python makes fairly heavy use of try/except for "normal" program flow. For example, every iterator stops with a raised exception. – S.Lott Aug 12 '09 at 13:35
  • 3
    -1 : Although your hint at compiling the regex is right, you're wrong in critizising Greg in the other respect: re.match matches against the start of the string, so the ^ in the pattern is actually redundant. (This is different when you use re.search). – ThomasH Aug 12 '09 at 13:40
  • S.Lott - Is this considered reasonable flow in python? How does this differs from other languages? Perhaps it's worth a separate question. – Adam Matan Aug 12 '09 at 14:02
  • Python's heavy use of try/except has been covered here on SO. Try a search for '[python] except' – S.Lott Aug 12 '09 at 15:01
>>> "+7".lstrip("-+").isdigit()
True
>>> "-7".lstrip("-+").isdigit()
True
>>> "7".lstrip("-+").isdigit()
True
>>> "13.4".lstrip("-+").isdigit()
False

So your function would be:

def is_int(val):
   return val[1].isdigit() and val.lstrip("-+").isdigit()
  • 1
    is_int("2") raises IndexError. – anttikoo Sep 12 '13 at 12:55

I think

s.startswith('-') and s[1:].isdigit()

would be better to rewrite to:

s.replace('-', '').isdigit()

because s[1:] also creates a new string

But much better solution is

s.lstrip('+-').isdigit()
  • 3
    Guess what replace does? Also, this will incorrectly accept 5-2, for example. – Ry- Nov 1 '15 at 4:43
  • Will throw an IndexError if s='-' – Anti Earth May 3 '17 at 12:55
  • s = '-'; s.replace('-', '').isdigit() -> False – Vladyslav Savchenko May 8 '17 at 18:57

This is probably the most straightforward and pythonic way to approach it in my opinion. I didn't see this solution and it's basically the same as the regex one, but without the regex.

def is_int(test):
    import string
    return not (set(test) - set(string.digits))
  • set(input_string) == set(string.digits) if we skip '-+ ' at the begining and .0, E-1 at the end. – jfs Oct 19 '14 at 6:59

Here is a function that parses without raising errors. It handles obvious cases returns None on failure (handles up to 2000 '-/+' signs by default on CPython!):

#!/usr/bin/env python

def get_int(number):
    splits = number.split('.')
    if len(splits) > 2:
        # too many splits
        return None
    if len(splits) == 2 and splits[1]:
        # handle decimal part recursively :-)
        if get_int(splits[1]) != 0:
            return None

    int_part = splits[0].lstrip("+")
    if int_part.startswith('-'):
        # handle minus sign recursively :-)
        return get_int(int_part[1:]) * -1
    # successful 'and' returns last truth-y value (cast is always valid)
    return int_part.isdigit() and int(int_part)

Some tests:

tests = ["0", "0.0", "0.1", "1", "1.1", "1.0", "-1", "-1.1", "-1.0", "-0", "--0", "---3", '.3', '--3.', "+13", "+-1.00", "--+123", "-0.000"]

for t in tests:
    print "get_int(%s) = %s" % (t, get_int(str(t)))

Results:

get_int(0) = 0
get_int(0.0) = 0
get_int(0.1) = None
get_int(1) = 1
get_int(1.1) = None
get_int(1.0) = 1
get_int(-1) = -1
get_int(-1.1) = None
get_int(-1.0) = -1
get_int(-0) = 0
get_int(--0) = 0
get_int(---3) = -3
get_int(.3) = None
get_int(--3.) = 3
get_int(+13) = 13
get_int(+-1.00) = -1
get_int(--+123) = 123
get_int(-0.000) = 0

For your needs you can use:

def int_predicate(number):
     return get_int(number) is not None

I really liked Shavais' post, but I added one more test case ( & the built in isdigit() function):

def isInt_loop(v):
    v = str(v).strip()
    # swapping '0123456789' for '9876543210' makes nominal difference (might have because '1' is toward the beginning of the string)
    numbers = '0123456789'
    for i in v:
        if i not in numbers:
            return False
    return True

def isInt_Digit(v):
    v = str(v).strip()
    return v.isdigit()

and it significantly consistently beats the times of the rest:

timings..
isInt_try:   0.4628
isInt_str:   0.3556
isInt_re:    0.4889
isInt_re2:   0.2726
isInt_loop:   0.1842
isInt_Digit:   0.1577

using normal 2.7 python:

$ python --version
Python 2.7.10

Both the two test cases I added (isInt_loop and isInt_digit) pass the exact same test cases (they both only accept unsigned integers), but I thought that people could be more clever with modifying the string implementation (isInt_loop) opposed to the built in isdigit() function, so I included it, even though there's a slight difference in execution time. (and both methods beat everything else by a lot, but don't handle the extra stuff: "./+/-" )

Also, I did find it interesting to note that the regex (isInt_re2 method) beat the string comparison in the same test that was performed by Shavais in 2012 (currently 2018). Maybe the regex libraries have been improved?

I have one possibility that doesn't use int at all, and should not raise an exception unless the string does not represent a number

float(number)==float(number)//1

It should work for any kind of string that float accepts, positive, negative, engineering notation...

I guess the question is related with speed since the try/except has a time penalty:

 test data

First, I created a list of 200 strings, 100 failing strings and 100 numeric strings.

from random import shuffle
numbers = [u'+1'] * 100
nonumbers = [u'1abc'] * 100
testlist = numbers + nonumbers
shuffle(testlist)
testlist = np.array(testlist)

 numpy solution (only works with arrays and unicode)

np.core.defchararray.isnumeric can also work with unicode strings np.core.defchararray.isnumeric(u'+12') but it returns and array. So, it's a good solution if you have to do thousands of conversions and have missing data or non numeric data.

import numpy as np
%timeit np.core.defchararray.isnumeric(testlist)
10000 loops, best of 3: 27.9 µs per loop # 200 numbers per loop

try/except

def check_num(s):
  try:
    int(s)
    return True
  except:
    return False

def check_list(l):
  return [check_num(e) for e in l]

%timeit check_list(testlist)
1000 loops, best of 3: 217 µs per loop # 200 numbers per loop

Seems that numpy solution is much faster.

Uh.. Try this:

def int_check(a):
    if int(a) == a:
        return True
    else:
        return False

This works if you don't put a string that's not a number.

And also (I forgot to put the number check part. ), there is a function checking if the string is a number or not. It is str.isdigit(). Here's an example:

a = 2
a.isdigit()

If you call a.isdigit(), it will return True.

  • I think you need quotes around the value 2 assigned to a. – Luke Woodward Mar 11 '12 at 12:23
  • 1
    Why isn't this top answer? It answers the question exactly. – grasshopper Oct 28 '13 at 15:50
  • 6
    -1 the question: "Check if a string represents an int, Without using Try/Except?" for @Caroline Alexiou – jfs Oct 19 '14 at 7:00

protected by Community Nov 1 '15 at 4:42

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