# Secant method function in python

I understand that this has been solved in C/C++, but I am not comfortable enough with those languages to be able to convert it to python. I am trying to create this in python. The closest I was able to come was this:

``````#This is meant to work for functions of the form x^a + b = 0

def secant(base, exp=2, it=20):
def f(x):
return x**exp - base
x1 = base / float(exp**2)
xnm1 = x1 - 5
xnm2 = x1 + 5
xn = 0
for n in range(it):
q = (xnm1-xnm2)/float(f(xnm1)-f(xnm2))
xn = xnm1 - (f(xnm1)*q)
xnm1, xnm2 = xn, xnm1
return xn

print secant(2, 2)
``````

This returns the error:

``````Traceback (most recent call last):
File "/Users/Joe/Desktop/secant.py", line 16, in <module>
print secant(2, 2)
File "/Users/Joe/Desktop/secant.py", line 11, in secant
q = (xnm1-xnm2)/float(f(xnm1)-f(xnm2))
ZeroDivisionError: float division by zero
``````

I was able, however, to program the Newton method, which I based this code off of. If it helps, here it is:

``````def newton(base, exp=2, it=20):
def f(x):
return x**exp - base
def df(x):
return exp*(x**(exp-1))
x1 = base / float(exp**2)
xnp = x1
xn = 0
for n in range(it):
xn = xnp - ((f(xnp)/df(xnp)))
xnp = xn
return xn
``````

The following method gives an answer with 12 digits of accuracy after 20 iterations. Any help would be appreciated.

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What doesn't work about it? –  Brendan Long Oct 11 '12 at 2:07
Excuse me. I get a division by zero error. –  JShoe Oct 11 '12 at 2:08

You are getting a division by zero error because the algorithm converged to the answer within the precision of Python floats. In addition to iterating a maximum number of times (to avoid an infinite loop), you should also check if the last two guesses are "close enough".

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Thanks, I fixed it by making it a while loop until xnm1 = xnm2. –  JShoe Oct 11 '12 at 3:07
That won't always work. Sometimes you'll encounter a solution that bounces between two values. –  casevh Oct 11 '12 at 3:09
It is the round of float number that matters. In the former case, after some iterations, the difference between `f(xnm1)` and `f(xnm2)` are so small that the float will fail to represent it, so it will be rounded to zero, then the error is thrown.