# Convert fraction to float?

Kind of like this question, but in reverse.

Given a string like `1`, `1/2`, or `1 2/3`, what's the best way to convert it into a float? I'm thinking about using regexes on a case-by-case basis, but perhaps someone knows of a better way, or a pre-existing solution. I was hoping I could just use `eval`, but I think the 3rd case prevents that.

-

maybe something like this (2.6+)

``````from fractions import Fraction
float(sum(Fraction(s) for s in '1 2/3'.split()))
``````
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Some of these other solutions work too, but this one looks the most elegant. Works great! Thanks a ton. –  Mark Nov 27 '09 at 1:14
Not only more elegant, but the most accurate too –  Nadia Alramli Nov 27 '09 at 1:20
As Shnaader's answer pointed out, beware of negative signs. –  jprete Nov 27 '09 at 1:38

Though you should stear clear of eval completely. Perhaps some more refined version of:

``````num,den = s.split( '/' )
wh, num = num.split()
result = wh + (float(num)/float(den))
``````

Sorry, meant to be num.split not s.split, and casts. Edited.

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That might be a dirty workaround, but you could convert spaces to a `+` sign to solve the 3rd case (or to a `-` if your fraction is negative).

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Depending on what syntax you want to support for your fractions, `eval('+'.join(s.split()))` (with true division in place -- i.e., Python 3 or `from __future__ import division` in Python 2 -- might work. It would cover all the cases you mention, in particular.

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This implementation avoids using eval and works on pre-2.6 versions of Python.

``````# matches a string consting of an integer followed by either a divisor
# ("/" and an integer) or some spaces and a simple fraction (two integers
# separated by "/")
FRACTION_REGEX = re.compile(r'^(\d+)(?:(?:\s+(\d+))?/(\d+))?\$')

def parse(x):
i, n, d = FRACTION_REGEX.match(x).groups()
if d is None: return i  # if d is None, then n is also None
if n is None: i, n = 0, i
return float(i) + float(n) / float(d)
``````

To test:

``````>>> for x in ['1', '1/2', '1 2/3']: print parse(x)
...
1
0.5
1.66666666667
``````
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I see there are already several good answers here, but I've had good luck with this. It also has the benefit that it will tolerate non-fraction strings if you're parsing mixed sets of data, so there's no need to check if it's a fraction string or not upfront.

``````def convert_to_float(frac_str):
try:
return float(frac_str)
except ValueError:
try:
num, denom = frac_str.split('/')
except ValueError:
return None
try:
except ValueError:
return float(num) / float(denom)
return float(leading) + float(num) / float(denom)
``````

``````>>> convert_to_float('3')
3.0
>>> convert_to_float('1/4')
0.25
>>> convert_to_float('1 2/3')
1.6666666666666665
>>> convert_to_float('-2/3')
-0.6666666666666666
>>> convert_to_float('-3 1/2')
-3.5
``````
-
``````>>> s="1/2"