2

To get the sqaure root of a negative number we could use cmath.sqrt. But either the real part or the imag part of the result is still a float:

type (cmath.sqrt (Decimal (-8)).imag)

result: float

How do I get a Decimal square root of a negative Decimal number?

For a positive number we could use: Decimal (8).sqrt ()

The result is still a Decimal. But it doesn't work on negative numbers: Decimal (-8).sqrt ()

{InvalidOperation}[]

3
  • 1
    Does this answer your question? Decimal module and complex numbers in Python
    – norok2
    Apr 3, 2020 at 9:10
  • @ThierryLathuille For cmath() yes, but in general, like complex is essentially a 2-tuple of float (float, float) you could extend the decimal module to handle complex numbers as a 2-tuple of Decimal. It is just not implemented.
    – norok2
    Apr 3, 2020 at 9:16
  • How much complex number functionality do you actually need? Apr 3, 2020 at 10:09

2 Answers 2

3

You could implement a ComplexDecimal() class with that functionality.

Here is some code to get you going:

from decimal import Decimal


class ComplexDecimal(object):
    def __init__(self, value):
        self.real = Decimal(value.real)
        self.imag = Decimal(value.imag)

    def __add__(self, other):
        result = ComplexDecimal(self)
        result.real += Decimal(other.real)
        result.imag += Decimal(other.imag)
        return result

    __radd__ = __add__

    def __str__(self):
        return f'({str(self.real)}+{str(self.imag)}j)'

    def sqrt(self):
        result = ComplexDecimal(self)
        if self.imag:
            raise NotImplementedError
        elif self.real > 0:
            result.real = self.real.sqrt()
            return result
        else:
            result.imag = (-self.real).sqrt()
            result.real = Decimal(0)
            return result
x = ComplexDecimal(2 + 3j)
print(x)
# (2+3j)
print(x + 3)
# (5+3j)
print(3 + x)
# (5+3j)

print((-8) ** (0.5))
# (1.7319121124709868e-16+2.8284271247461903j)
print(ComplexDecimal(-8).sqrt())
# (0+2.828427124746190097603377448j)
print(type(ComplexDecimal(8).sqrt().imag))
# <class 'decimal.Decimal'>

and then you need to implement multiplication, division, etc. yourself, but that should be pretty straightforward.

2
  • Thanks so much for the kind help! It indeed works, but I do have to ask a dumb question: how do I implement multiplication and stuff?
    – y7ig
    Apr 3, 2020 at 17:58
  • @Mason You need to implement the respective methods, e.g. __mul__ and __rmul__ for multiplication. See the operator for a list of the methods that you may want to implement. Of course, you have to work out the math yourself.
    – norok2
    Apr 3, 2020 at 18:27
0

you can do x ** 0.5 where x is a negative number, for example:

>>> x = -10
>>> x ** 0.5
(1.9363366072701937e-16+3.1622776601683795j)
1
  • 2
    This will not return a Decimal-based value and Decimal(-10) ** 0.5 will just throw a TypeError, while Decimal(-10) ** Decimal(0.5) will throw a InvalidOperation.
    – norok2
    Apr 3, 2020 at 9:57

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