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I wrote two functions to calculate the nth root of a number. One uses a linear search and the other uses a bisection search. However, when I tried calling them there was a problem with both of them. It just said that the number I specified cannot be taken to that root. I am very confused and cannot tell what I have done wrong. Does anybody have an idea?

def rootBisect(root, num):
    low = 0.0
    high = num
    ans = (high + low)/2.0
    while ans ** root < abs(float(num)):
        if ans ** root < num:
            low = ans
            high = ans
        ans = (high + low)/2.0
    if ans ** root != abs(num):
        print '%d cannot be taken to %d root.' % (num, root)
        if num < 0:
            ans = -ans
        print '%d root of %d is %d.' % (root, num, ans)
    return ans

def rootLinear(root, num):
    ans = 0
    while ans ** root < abs(float(num)):
        ans += 0.1
    if ans ** root != abs(num):
        print '%d cannot be taken to %d root.' % (num, root)
        if num < 0:
            ans = -ans
        print '%d root of %d is %d.' % (root, num, ans)
    return ans

rootBisect(2, 16)

rootLinear(2, 16)
share|improve this question
Do you expect the possibility that num might be negative? Then include test cases like root(3,-8), root(3,-0.125) and root(4,-16). The first two should give a result, the last only has complex roots, so should be caught before starting the loop. – LutzL Mar 12 '14 at 9:33
up vote 0 down vote accepted

The problem is that you expect ans ** root == abs(num) to be true. That is not likely, as floating point arithmetics work with a limited precision. Take a look at that:

>>> import math
>>> math.sqrt(7)
>>> math.sqrt(7)**2
>>> math.sqrt(7)**2 == 7

You should change your success condition. For example:

acceptable_error = 0.000001
if abs(ans ** root - abs(num)) <= acceptable_error):
    # success

Not that the if your linear search takes big steps, acceptable_error must be big too.

As to the binary search, you should have something like:

while abs(ans ** root - abs(num)) > acceptable_error):
share|improve this answer
ok... but if change float(num) to int(num) it still gives the same answer – user3327457 Mar 8 '14 at 8:12
only because, by accident, in this case casting float to integer gets rid of the error.math.sqrt(3)**2 gives 2.9999999999999996, so it does not always work. – Bartosz Marcinkowski Mar 8 '14 at 8:13
if i change change ans += 0.1 to ans += 1 it works, but its not very accurate and im not sure how to fix bisecting one. also, adding ans = int(ans) after the while loop doesn't help – user3327457 Mar 8 '14 at 8:22
I did not say you should do ans = int(ans). You just should accept answers which are not exact. – Bartosz Marcinkowski Mar 8 '14 at 8:24
Good idea. Thanks for the help! – user3327457 Mar 8 '14 at 8:26

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