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In Python, how can I parse a numeric string like "545.2222" to its corresponding float value, 542.2222? Or parse the string "31" to an integer, 31?

I just want to know how to parse a float string to a float, and (separately) an int string to an int.

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Is it true that normally, you can only parse a float string into a float and an int string to an int ? – ntough Jul 20 at 19:14

16 Answers 16

up vote 993 down vote accepted
>>> a = "545.2222"
>>> float(a)
>>> int(float(a))
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What about rounding? 545.7 should be 546. float(a+0.5). See below. – Billy Quith Oct 21 '10 at 14:07
Why not eval("1.5") ? – ssal Nov 8 '10 at 16:00
Because it's very dangerous to eval() a variable. – Harley Holcombe Nov 8 '10 at 23:03
Because that .00000000000004 is exactly what I want. Anyone know how to make float() behave sanely? – sneak Jun 14 '11 at 0:52
Floats on computers are strange things, see for more information. If you want precision, use decimal instead: – Harley Holcombe Jun 14 '11 at 22:09
def num(s):
        return int(s)
    except ValueError:
        return float(s)
share|improve this answer
This is the most Pythonic answer. – Eddie Sullivan Mar 29 '11 at 18:29
More pythonic when write in one line – Louis Jun 20 '12 at 10:39
Not checking the exception type is about 5% faster with Python 3.2 on Windows 7. – Cees Timmerman Oct 4 '12 at 13:49
implicit mixing floats/ints might lead to subtle bugs due to possible loss of precision when working with floats or to different results for / operator on floats/ints. Depending on context it might be preferable to return either int or float, not both. – J.F. Sebastian Nov 16 '12 at 14:35
@J.F.Sebastian You are completely correct, but there are times when you want the input to dictate which one it will be. Letting the input dictate which one can work nicely with duck-typing. – TimothyAWiseman Mar 5 '13 at 21:29

Python method to check if a string is a float:

def isfloat(value):
    return True
    return False

What is, and is not a float in Python may surprise you:

Command to parse                      isFloat?   Note
------------------------------------  --------   --------------------------------
print(isfloat(""))                    False      Blank string
print(isfloat("127"))                 True       Passed string
print(isfloat(True))                  True       Pure sweet Truth
print(isfloat("True"))                False      Vile contemptible lie
print(isfloat(False))                 True       So false it becomes true
print(isfloat("123.456"))             True       Decimal
print(isfloat("      -127    "))      True       Spaces trimmed
print(isfloat("\t\n12\r\n"))          True       whitespace ignored
print(isfloat("NaN"))                 True       Not a number
print(isfloat("NaNanananaBATMAN"))    False      I am Batman
print(isfloat("-iNF"))                True       Negative infinity
print(isfloat("123.E4"))              True       Exponential notation
print(isfloat(".1"))                  True       mantissa only
print(isfloat("1,234"))               False      Commas gtfo
print(isfloat(u'\x30'))               True       Unicode is fine.
print(isfloat("NULL"))                False      Null is not special
print(isfloat(0x3fade))               True       Hexidecimal
print(isfloat("6e7777777777777"))     True       Shrunk to infinity
print(isfloat("1.797693e+308"))       True       This is max value
print(isfloat("infinity"))            True       Same as inf
print(isfloat("infinityandBEYOND"))   False      Extra characters wreck it
print(isfloat("12.34.56"))            False      Only one dot allowed
print(isfloat(u'?'))                  False      Japanese '4' is not a float.
print(isfloat("#56"))                 False      Pound sign
print(isfloat("56%"))                 False      Percent of what?
print(isfloat("0E0"))                 True       Exponential, move the dot 0 places
print(isfloat(0**0))                  True       0___0  Exponentiation
print(isfloat("-5e-5"))               True       Raise to a negative number
print(isfloat("+1e1"))                True       Plus is OK with exponent
print(isfloat("+1e1^5"))              False      Fancy exponent not interpreted
print(isfloat("+1e1.3"))              False      No decimals in exponent
print(isfloat("-+1"))                 False      Make up your mind
print(isfloat("(1)"))                 False      Parenthesis is bad

You think you know what numbers are? You are not so good as you think! Not big surprise.

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nothing surprising here. +1 for Batman. – sdotdi Jun 13 '14 at 5:19
"nan", "infinity" and "0e0" surprised me. – Steve Bennett Sep 8 '14 at 23:59
Great answer. I'm surprised by several of these. – Newb Nov 8 '14 at 19:26
I really like all the gotchas! 0**0??? – Adam Dec 12 '14 at 17:45
Is there a reason why the 四 got transformed into an invalid character? Would it be because of some SE update? – meneldal Jun 11 at 3:37
float(x) if '.' in x else int(x)
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Not really what I was asking, but thats a damn cool solution to the common misconception. – Tristan Havelick Dec 19 '08 at 3:11
Nitpick: doesn't work for extreme cases like float("2e-3") – Emile Dec 8 '10 at 14:22
Note : be careful when dealing with money amount passed as strings, as some countries use "," as decimal separators – Ben G Jul 8 '11 at 11:17
@Emile: I wouldn't call "2e-3" an "extreme case". This answer is just broken. – jchl Sep 7 '11 at 10:05
@BenG DON'T manipulate money as a float. That's asking for trouble. Use decimal for money! (But your comment about ',' is still valid and important) – ToolmakerSteve Dec 13 '13 at 6:10

This is another method which deserves to be mentioned here, ast.literal_eval:

This can be used for safely evaluating strings containing Python expressions from untrusted sources without the need to parse the values oneself.

That is, a safe 'eval'

>>> import ast
>>> ast.literal_eval("545.2222")
>>> ast.literal_eval("31")
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This approach actually just bit me unexpectedly. literal_eval('07') # 7 but literal_eval('08') # SyntaxError: invalid token – jdi Sep 13 '13 at 0:21
That is the result of literal_eval attempting to guess the radix of the number. Numbers that start with "0" are interpreted as base 8. See that literal_eval('010') results in 8. – Tim M Sep 16 '13 at 23:22
@Vincent That is not what the docs mean by "safe" in this context. It is safe to raise SyntaxError or ValuError (which the calling code can catch and handle appropriately if necessary), rather than going ahead and evaling "import os; do_evil_stuff.." or whatever other string was passed in... – wim May 20 '14 at 14:20
But that doesn't make it any "safer" than using int("31") or float("545.2222"). The only advantage that I can see is that you don't have to know beforehand what type of mathematical expression you've got (which can be useful under certain circumstances, but is not what the OP was asking). – ᴠɪɴᴄᴇɴᴛ May 20 '14 at 14:37
It was never claimed to be safer than using int or float, it is safer than using eval for the same task. And perhaps cleaner/simpler than trying to parse to integer or float although that's debatable. – wim May 20 '14 at 14:42

If you're dealing with a string representation of a number, you might want to also consider the possibility of commas (or other locale specific equivalents) in the number. You can use methods in locale to convert the strings to numbers and take care of the commas at the same time. For example, the locale.atof method converts to a float in one step:

>>> a = u'545,545.2222'
>>> import locale
>>> locale.setlocale(locale.LC_ALL, 'en_US.UTF-8')
>>> locale.atof(a)
>>> int(locale.atof(a))

The method locale.atoi is also available, but the argument should be an integer.

Note: This particular example uses the United States' number convention.

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Users codelogic and harley are correct, but keep in mind if you know the string is an integer (for example, 545) you can call int("545") without first casting to float.

If your strings are in a list, you could use the map function as well.

>>> x = ["545.0", "545.6", "999.2"]
>>> map(float, x)
[545.0, 545.60000000000002, 999.20000000000005]

It is only good if they're all the same type.

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The question seems a little bit old. But let me suggest a function, parseStr, which makes something similar, that is, returns integer or float and if a given ASCII string cannot be converted to none of them it returns it untouched. The code of course might be adjusted to do only what you want:

   >>> import string
   >>> parseStr = lambda x: x.isalpha() and x or x.isdigit() and \
   ...                      int(x) or x.isalnum() and x or \
   ...                      len(set(string.punctuation).intersection(x)) == 1 and \
   ...                      x.count('.') == 1 and float(x) or x
   >>> parseStr('123')
   >>> parseStr('123.3')
   >>> parseStr('3HC1')
   >>> parseStr('12.e5')
   >>> parseStr('12$5')
   >>> parseStr('12.2.2')
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1e3 is a number in python, but a string according to your code. – Cees Timmerman Oct 4 '12 at 13:24
Aside from that, it's almost 5 times as fast as a nested try, except! Using lambda instead of def also saves 5% execution time. Tested with 32-bit Python 3.2 on 64-bit Windows 7. – Cees Timmerman Oct 4 '12 at 13:55
Good point, Cees. Thanks. I appreciate benchmarking too :) How about a modified version of parseStr using regular expressions? It will probably hurt performance but someone might find it useful. The new parseStr function: parseStr = lambda x: x.isalpha() and x or x.isdigit() and int(x) or re.match('(?i)^-?(\d+\.?e\d+|\d+\.\d*|\.\d+)$',x) and float(x) or x – krzym Oct 9 '12 at 11:20
Using re is almost twice as slow as the try, except method, even with the 3% faster version that uses only match. Tested using time.time() and range(1000000) on a quadcore Intel Xeon 2.93 GHz. – Cees Timmerman Oct 9 '12 at 12:17
I ran a few tests using: parseStrRE = lambda x: x.isalpha() and x or x.isdigit() and int(x) or re.match('(?i)^-?(\d+\.?e\d+|\d+\.\d*|\.\d+)$', x) and float(x) or x and the try/except method modified to return strings if both int and float raise ValueError for the following test cases: ['1e3', '1.e3', '123', '-1234.12', 'e', 'ee', '1e', 'e2', '3hc1']. The execution time is as 2.7 (try/except) : 1.25 (parseStrRE) : 0.85 (original parseStr). Short-circuit expressions I employed speed things up since the result might actually be returned by evaluating only a part of the expression. – krzym Oct 9 '12 at 16:05

float("545.2222") and int(float("545.2222"))

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This will give you a float object if your string happens to be "0" or "0.0", rather than the int it gives for other valid numbers. – Brian Dec 19 '08 at 8:42

If you aren't averse to third-party modules, you could check out the fastnumbers module. It provides a function called fast_real that does exactly what this question is asking for and does it faster than a pure-Python implementation:

>>> from fastnumbers import fast_real
>>> fast_real("545.2222")
>>> type(fast_real("545.2222"))
>>> fast_real("31")
>>> type(fast_real("31"))
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that's cool, I never thought I'd learn something new after all these years from this old, silly question. – Tristan Havelick Aug 15 '14 at 16:56

The YAML parser can help you figure out what datatype your string is. Use yaml.load(), and then you can use type(result) to test for type:

>>> import yaml

>>> a = "545.2222"
>>> result = yaml.load(a)
>>> result
>>> type(result)
<type 'float'>

>>> b = "31"
>>> result = yaml.load(b)
>>> result
>>> type(result)
<type 'int'>

>>> c = "HI"
>>> result = yaml.load(c)
>>> result
>>> type(result)
<type 'str'>
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You need to take into account rounding to do this properly.

I.e. int(5.1) => 5 int(5.6) => 5 -- wrong, should be 6 so we do int(5.6 + 0.5) => 6

def convert(n):
        return int(n)
    except ValueError:
        return float(n + 0.5)
share|improve this answer
Good point. That causes inflation, though, so Python 3 and other modern languages use banker's rounding. – Cees Timmerman Oct 4 '12 at 12:58
This answer is wrong (as originally written). It muddles the two cases of int and float. And it will give an exception, when n is a string, as OP desired. Maybe you meant: When an int result is desired, round should be done AFTER conversion to float. If the function should ALWAYS return an int, then you don't need the except part -- the entire function body can be int(round(float(input))). If the function should return an int if possible, otherwise a float, then javier's original solution is correct! – ToolmakerSteve Dec 13 '13 at 6:02

In Python, how can I parse a numeric string like "545.2222" to its corresponding float value, 542.2222? Or parse the string "31" to an integer, 31? I just want to know how to parse a float string to a float, and (separately) an int string to an int.

It's good that you ask to do these separately. If you're mixing them, you may be setting yourself up for problems later. The simple answer is:

"545.2222" to float:

>>> float("545.2222")

"31" to an integer:

>>> int("31")

Other conversions, ints to and from strings and literals:

Conversions from various bases, and you must know the base in advance (10 is the default). Note you can prefix them with what Python expects for its literals (see below) or remove the prefix:

>>> int("0b11111", 2)
>>> int("11111", 2)
>>> int('0o37', 8)
>>> int('37', 8)
>>> int('0x1f', 16)
>>> int('1f', 16)


You can use the apropos prefix to get automatic conversion to integers with the follow literals

>>> 0b11111
>>> 0o37
>>> 0x1f

This can be useful when describing binary flags, file permissions in code, or hex values for colors - for example, note no quotes:

>>> 0b10101
>>> 0o755
>>> 0xfff

Python takes these literals and represents them as ints!

I'll add more about floats and ints as I can.

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def get_int_or_float(v):
        number_float = float(v)
        number_int = int(v)
        return number_int if number_float == number_int else number_float
    except ValueError:
share|improve this answer
def num(s):
num('3')-->3, num('3.7')-->3.7
num('3e4') --> 30000.0
    return int(s)
except ValueError:
        return float(s)
    except ValueError:
        raise ValueError('argument is not a string of number')
share|improve this answer

Here's another interpretation of your question (hint: it's vague). It's possible you're looking for something like this:

def parseIntOrFloat( aString ):
    return eval( aString )

It works like this...

>>> parseIntOrFloat("545.2222")
>>> parseIntOrFloat("545")

Theoretically, there's an injection vulnerability. The string could, for example be "import os; os.abort()". Without any background on where the string comes from, however, the possibility is theoretical speculation. Since the question is vague, it's not at all clear if this vulnerability actually exists or not.

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Even if his input is 100% safe, eval() is over 3 times as slow as try: int(s) except: float(s). – Cees Timmerman Oct 4 '12 at 13:12

protected by jamylak Apr 10 '13 at 11:28

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