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I can't figure out how to factor an polynomial expression to its complex roots.

>>> from sympy import *
>>> s = symbol('s')
>>> factor(s**2+1)
s  + 1
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Does factor(s2-1) or factor(s2-3) work? Does sympy have support for Gauß numbers? –  LutzL Mar 1 '14 at 14:16

1 Answer 1

up vote 0 down vote accepted

You need to add I as an algebraic extension:

In [2]: factor(x**2 + 1, extension=[I])
Out[2]: (x - ⅈ)⋅(x + ⅈ)
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You can also set gaussian=True to factor over the Gaussian rationals. –  asmeurer Mar 1 '14 at 22:21
Thanks, an example where those don't work is: factor(s**3 + s**2 + 1, gaussian=True), which is peculiar because roots(s3 + s2 + 1) finds all the roots. –  jameh Mar 2 '14 at 15:35
The roots of that polynomial are not gaussian rationals. –  asmeurer Mar 3 '14 at 16:08
If you always want a full factorization over C, you can just use something like LC(polynomial, s)*Mul(*[(s - a)**r[a] for a in r]), where r = roots(polynomial, s). –  asmeurer Mar 3 '14 at 16:11
Thank you for pointing out my mistake, and proposing a workaround to writing out the irrational factorization! I suppose it's worth mentioning that the extension=I kwarg seems to act identically to the gaussian=True kwarg, i.e. factors over Gaussian rationals. –  jameh Mar 3 '14 at 20:25

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