My question is: What is the best approach to iterative polynomial multiplication in Python?
I thought an interesting project would be to write a function in Python to generate the coefficients and exponents of each term for a Chebyshev polynomial of a given degree. The recursive function to generate such a polynomial (represented by Tn(x)) is:
T0(x) = 1
T1(x) = x:
Tn(x) = 2xTn-1(x) - Tn-2(x)
What I have so far isn't very useful, but I am having trouble kind of wrapping my brain around how to get this going. What I want to happen is the following:
>> chebyshev(4) [[8,4], [8,2], [1,0]]
This list represents the Chebyshev polynomial of the 4th degree: T4(x) = 8x4 - 8x2 + 1
import sys def chebyshev(n, a=[1,0], b=[1,1]): z = [2,1] result =  if n == 0: return a if n == 1: return b print >> sys.stderr, ([z*b, z+b], a) # This displays the proper result for n = 2 return result
The one solution I found on the web didn't work, so I am hoping someone can shed some light.
p.s. More information on Chebyshev polynomials: CSU Fullteron, Wikipedia - Chebyshev polynomials. They are very cool/useful, and tie together some really interesting trig functions/properties; worth a read.