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I'm looking for a way to accurately compute roots of negative numbers in Python. I believe that the inaccuracies I see are related to floating point, but it seems like there should be a way to get the right answer for something as simple as this:

>>(-1+0j)**0.1
(0.9510565162951535+0.3090169943749474j)

The answer I expect in this case is (0+1j). Though raising Python's response to the tenth does come close to -1, I am looking for an answer obtained from a more precise method, i.e., one that when raised to the tenth equals exactly -1, not a number really close to -1.

Is there a way to do this correctly with either a native Python library, or sympy/numpy/scipy etc?

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    There is no such thing as the tenth root of a complex number. Python has given you a tenth root, up to the limits of floating-point representation. How do you want to specify which root you want to get? – user2357112 supports Monica Feb 24 '15 at 20:40
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    It's worth noting that 0.1 is impossible to represent exactly in floating point. Try sum(0.1 for _ in range(8)) for an example of the rounding errors it can lead to. – Blckknght Feb 24 '15 at 21:33
  • @user2357112 It would be good to get all of them, and it would be ideal to avoid dealing with floating-point if I can. This is why I mention sympy - I'd rather get symbolic answers in terms of integers and i than floating point. – Marty Feb 24 '15 at 21:56
  • @Blckknght Yes, I'm aware of this limitation. I feel it should be avoidable entirely; perhaps it was confusing that I mentioned looking into the Decimal library, as it doesn't seem to address the problem of accuracy much at all. – Marty Feb 27 '15 at 15:40
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-1 has not one but 10 complex tenth roots. You got only one of them. If a is your returned root, a ** 5 is also a root:

(a ** 5) ** 10 = (a ** 10) ** 5 = (-1) ** 5 = -1

But if you run:

a = (-1 + 0j) ** 0.1
print(a)
print(a ** 5)

you'll get:

(0.951056516295+0.309016994375j)
(1.11022302463e-16+1j)

You see a ** 5 is very close to 1j.

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