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def wallis(n):
    pi = 0.0

    for i in range(n):
        left = (2 * i)/(2 * i - 1)
        right = (2 * i)/(2 * i + 1)
        total = left * right
        pi = pi + total

    return pi

print wallis(1000)
print wallis(10000)
print wallis(100000)

I copied the formula exactly but I keep getting 0 as the output. Can someone please tell me what I am doing wrong. Python 2.7.

The link to the formula is here

share|improve this question
In Python 2.7, 2/3 is integer quotient, thus 0. You have to do float(2)/3, or 2/float(3), so that at least one operand is a float, to get a float quotient. Beware: in Python 3, 2/3 is the float result, you need to write 2//3 to get the integer quotient. –  jca Sep 23 '13 at 22:25
No need to calculate. According to Indiana Pi bill it's 3.2. And it's O(1) to compute! –  Jakub M. Sep 23 '13 at 22:30

4 Answers 4

up vote 7 down vote accepted

Python is doing integer division, and truncates the decimals. This is because both values to division are integers. Convert one of the numbers to a float to get a floating point value in return.

left = float(2 * i)/(2 * i - 1)
right = float(2 * i)/(2 * i + 1)

OR, as @kindall points out, you can change the constants to floats directly and avoid the call to the float function:

left = (2.0 * i)/(2 * i - 1) # just 2. works, too
right = (2.0 * i)/(2 * i + 1)

If/when you switch to python 3.x, you won't need to do this. In fact, you need to explicitly request integer division with //.

As per a comment by @Serdalis, you could also add from __future__ import division at the top of your file to get the same behavior as python 3.x (i.e. you won't need to add the float in your equation.)

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So I have to typecast the problem so to speak... I'm used to C and just learning Python. I am doing something mathematically wrong with my program. I can figure that part out. Thanks a lot. –  juice Sep 23 '13 at 22:32
IIRC the // integer division operator is available in Python 2.7 (even without the from __future__), and should probably be used when you really want integer. Reasons - to be more explicit, and better prepared for Python 3.x. It pains me to say that, though - I still think it was crazy to change the semantics of an arithmetic operator. –  Steve314 Sep 23 '13 at 22:34
@juice No prob. In C terms, I suppose this is like typecasting. This is only necessary in python when doing division with two integers, and only in python 2.x. –  SethMMorton Sep 23 '13 at 22:34
You've got plenty of constants in those expressions, just change one of the 2s to 2.0 in each and you won't need the float() –  kindall Sep 24 '13 at 0:32

Apart from problem highlighted by @SethMMorton your formula is wrong. First it is a product not sum, second it gives pi/2 not pi. At last there is no reason to loop from 0.

def wallis(n):
    pi = 2.
    for i in xrange(1, n):
        left = (2. * i)/(2. * i - 1.)
        right = (2. * i)/(2. * i + 1.)
        pi = pi * left * right
    return pi
share|improve this answer

Just to add that you can do this in a pythonic way that also looks a lot closer to the mathematical expression. (Here the .25 takes care of the floating point conversion)

def product(iterator):
    return reduce(lambda x, y: x * y, iterator)

print 2 * product(i * i / (i * i - .25) for i in xrange(1, 1000))
share|improve this answer

According to the Wallis formula:

enter image description here

...and with implementation in Python 3.4.2 with total execution time of ~0.095s for n = 100000:

def wallis(n):
    pi = 0.0   
    for i in range(1, n):
        x = 4 * (i ** 2)
        y = x - 1
        z = float(x) / float(y)
        if (i == 1):
            pi = z
            pi *= z
    pi *= 2
    return pi

share|improve this answer
Code-only answers are discouraged. It would be better if you included a brief explanation for why/how this works. –  iCodez Nov 25 '14 at 16:51

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