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I have solved a previous problem and now I am stuck with this one. It is asking for an improvement of the previous solution which I posted below, but can't quite understand what the problem is asking. (Also, can't really figure out how to solve it.) Please help thanks.

Problem: Elena complains that the recursive newton function in Project 2 includes an extra argument for the estimate. The function’s users should not have to provide this value, which is always the same, when they call this function. Modify the definition of the function so that it uses a keyword parameter with the appropriate default value for this argument, and call the function without a second argument to demonstrate that it solves this problem.

Here is my code:

def newtonSquare(x, estimate):
    if abs(x-estimate ** 2) <= 0.000001:
        return estimate
    else:
        return newtonSquare(x, (estimate + x / estimate) / 2)

def main():
    num = int(raw_input('Enter a positive number >> '))
    print newtonSquare(num, 1.0)

main()
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1  
Too bad there's no option to vote to close for insufficient reading of the widely-available documentation... –  Ignacio Vazquez-Abrams Nov 15 '11 at 8:18
    
Is this homework? –  Stedy Nov 15 '11 at 8:18
    
Stedy >> Nope it is not. I am doing it for fun. –  user1047092 Nov 15 '11 at 8:22
5  
who the f*** is Elena? :-| –  fortran Nov 15 '11 at 10:08

2 Answers 2

The problem is a complaint that when somebody calls newtonSquare, they always do so with an initial estimate of 1.0. To set it as the default value, unless you explicitly provide it, you only have to modify the definition of the function to:

def newtonSquare(x, estimate = 1.0):
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>> Michael Foukarakis thank you for your help. I guess I was thinking too much into it. –  user1047092 Nov 15 '11 at 8:24

An alternative to the default value solution of Michael's is defining the recursive function local to the newtonSquare function:

def newtonSquare(x):

    def f(x, estimate):
        if abs(x-estimate ** 2) <= 0.000001:
            return estimate
        else:
            return f(x, (estimate + x / estimate) / 2)

    return f(x, 1.0)

def main():
    num = int(raw_input('Enter a positive number >> '))
    print newtonSquare(num)

main()

In this case having the default value is nicer and more flexible though, but this can still be a useful pattern.

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