Python polynomial pow

I have my own defined Polynomial class, which is in form of list of coefficients.
Something like

axˆ2 + bx + c is equals to [c, b, a]
(for ax + b == [b, a]
similarly, for axˆ3 + bxˆ2 + cx + d == [d, c, b, a])

and the len() of list depends of the index of function.

I want to define a custom __pow__ function but I really have no idea how to implement it.

• Maybe you should define a multiplication function?
– matt
Apr 6, 2017 at 8:10
• Why not simply use `**` or even a custom multiply function. Apr 6, 2017 at 8:13
• I can't use standard ** because I have to do something like (x + 1)(x + 1) = (xˆ2 + 2x + 1), so [1, 1] ** 2 would be [1, 2, 1] Apr 6, 2017 at 8:15

Here is a function to get the coefficients of two polynomials when you multiply them together.

``````def multiply(a, b):
"""
polynomials where.
[a1, a2, a3] -> a1 + a2*x + a3*x^2
[b1, b2, b3] -> b1 + b2*x + b3*x^2
"""
c = [0.0]*(len(a) + len(b)-1)

for i in range(len(a)):
ai = a[i]
for j in range(len(b)):
c[i + j] += ai * b[j]

return c

x = [1, 1]
y = [2, 1, 0]
print(multiply(x, y))
``````

Which shows `[2.0, 3.0, 1.0, 0]`.

Then make a pow function to call multiply in a loop.

``````def pow(a, n):
"""
a^n
"""
c = [1]
for i in range(n):
c = multiply(c, a)
return c

x = [1, 1]
print(pow(x, 4))
``````

Which outputs `[1.0, 4.0, 6.0, 4.0, 1.0]` as expected.

• In your first snippet, why do you use an example of `y` with a leading coefficient of zero? That is not completely invalid but it is unusual and makes the example more complicated than needed. Apr 6, 2017 at 10:02
• No reason, I just typed out three random numbers. It should probably be done more systematically. And yes in retrospect, it is a pretty bad example to use.
– matt
Apr 6, 2017 at 10:13
• This approach is fundamentally sound, but for powers higher than two or three you will do much better to use exponentiation by squaring than to multiply n times. Apr 6, 2017 at 21:47

Okay, there are multiple answers here, depending on what you mean by defining the "pow" function.

So, first of all, as @matt has already correctly stated, a power is just repeated multiplication. Python actually has a pow function inbuilt, but there's also the quick notation using `a**2 = a squared = a*a` or `a**3 = a * a * a` or `a**4=a * a * a * a` etc.

Now, if you just want the pow of each x argument, your function would look something like this

``````a*(x**2)+b*x+c
``````

or

``````a*(x**4)+b*(x**3)+c*(x**2)+d*x+e
``````

Finally, you'd probably want your coefficients to be listed, so you could do something like this

``````coefficients = [1,2,3,...] #(inputting real values here)
def poly(x):
sum=0.0
for i in range(len(coefficients)):
sum+=coefficients[i]*(x**i)
return sum
``````

That could then return you the polynomial defined by the coefficient list "coefficients" and return to you the value at any point "x".

I hope it helped :)

Was a bit too fast typing my second edit, just use the alogrithm provided by the other answer :)

edit2::

As matt pointed out ::

`````` def __mult__(coeff1,coeff2):
coeff_result = [0.0]*(len(coeff1)+len(coeff2)-1)
for k in range(len(coeff1)):
for n in range(len(coeff2)):
coeff_result[k+n]+=coeff1[k]*coeff2[n]
return coeff_result
def __pow__(coeff1,n):
res = coeff1[:]
for i in range(n-1):
res=__mult__(res,coeff1)
return res
``````

does the trick for integer exponents (non-integer exponents wouldn't return valid polynomials).

• Did you try your code? What is n? Isn't max going to be bigger than either length array so k is going to be larger than either length array?
– matt
Apr 6, 2017 at 8:31