So if I run:
a = b / c
and get the result 1.2234
How do i separate it so that I have:
a = 1
b = 0.2234
>>> from math import modf
>>> b,a = modf(1.2234)
>>> print ('a = %f and b = %f'%(a,b))
a = 1.000000 and b = 0.223400
>>> b,a = modf(-1.2234)
>>> print ('a = %f and b = %f'%(a,b))
a = -1.000000 and b = -0.223400
a,b = divmod(a, 1)
a = -1.7
the result is -2
and 0.3
, which is probably not what the author wanted to get.
1.0
will be slightly more efficient, as otherwise divmod()
will have to do an integer-to-float conversion with every single call.
Jan 11, 2014 at 16:28
Try:
a, b = int(a), a - int(a)
Bonus: works for negative numbers as well. -1.7
is split into -1
and -0.7
instead of -2
and 0.3
.
EDIT If a
is guaranteed to be non-negative, then gnibbler's solution is the way to go.
EDIT 2 IMHO, Odomontois' solution beats both mine and gnibbler's.
b = a % 1
a = int(a)
or something
a = -1.7
the result is -2
and 0.3
, which is probably not what the author wanted to get.
You can do it in different ways: 1.With inbuilt function:
def fractional_part(numerator, denominator):
if denominator != 0:
return math.modf(numerator/denominator)
return 0
2.Without inbuilt function:
def fractional_part(numerator, denominator):
if denominator != 0:
a = str(numerator/denominator).split(".")[0]
b = "0." + str(numerator/denominator).split(".")[1]
return (float(a),float(b))
return 0
x = 1.2234
y = str(x/100).split('.')
a = y[0]
b = y[1]
then the result is...
a = 1
b = 2234
You can use also numpy function np.modf:
fractional_part, int_part = np.modf([0,1.2234,3.5])
Of course, this is efficient if you can deal with vectors instead of single numbers one by one.
This is the easiest method but it has a flaw that the numbers you'd get after execution will not be reduced but rather in their complete form
x = 1.2234
#x = a/b
a, b = x.as_integer_ratio()
print(a)
print(b)
like, the a, b in this case are 5509703784125065 and 4503599627370496 respectively