# Greedy algorithm odd behavior

I've implemented the Greedy algorithm to solve Egyptian fractions, however I'm getting some unexpected results. Here's my code

``````from math import ceil
from fractions import Fraction

def go(frac):
ret = []
while frac > 0:
if frac.numerator == 1:
ret.append(frac)
break
x = Fraction(1, ceil(frac.denominator / frac.numerator))
frac -= x
ret.append(x)
return ret

input1 = int(raw_input('numerator: '))
input2 = int(raw_input('denominator: '))

print go(Fraction(input1, input2))
``````

I constantly am getting the error "TypeError: both arguments should be Rational instances"

I've been logging and it crashes upon the first iteration of the while loop.

EDIT: the error in detail is:

``````File "egypt.py", line 19, in <module>
print go(Fraction(input1, input2))
File "egypt.py", line 10, in go
x = Fraction(1,ceil(frac.denominator / frac.numerator))
File "/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/fractions.py", line 158, in __new__
raise TypeError("both arguments should be "
TypeError: both arguments should be Rational instances
``````

Why is this? Thank you.

-

Try changing this:

``````x = Fraction(1, ceil(frac.denominator / frac.numerator))
``````

to this:

``````x = Fraction(1,int(ceil(frac.denominator / float(frac.numerator))))
``````
-
Ok. This works; thank you. What is the logic here? – eulr Oct 1 '13 at 13:45
First, `frac.denominator` and `frac.numerator` are ints, so the division is integer division, which rounds down and can result in 0 values, so you need to cast to a float to get the division right. Second, `ceil` returns a float, so you need to convert to an int because `Fraction` requires two ints. – mrip Oct 1 '13 at 13:47

You have 2 problems in your code.

1. you're dividing `int` with `int` which always returns an `int`; in your case, you're dividing `a / b` where `a < b` so it'll always be rounded down to 0.
2. Then, you `ceil()` that, which returns a `float` (0.0) which is something `Fraction` doesn't like;it wants `int`s.

``````Fraction(1, int(ceil(float(frac.denominator) / frac.numerator)))