15

I have run across some confusing behaviour with square roots of complex numbers in python. Running this code:

from cmath import sqrt
a = 0.2
b = 0.2 + 0j
print(sqrt(a / (a - 1)))
print(sqrt(b / (b - 1)))

gives the output

0.5j
-0.5j

A similar thing happens with

print(sqrt(-1 * b))
print(sqrt(-b))

It appears these pairs of statements should give the same answer?

5
  • According to Wolfram you are correct. The first pair (link and link) both should be 0.5i, and the second pair (link and link) should both be 0.447214... i. The source for cmath.sqrt() is here... – Jens Apr 12 '16 at 21:42
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    Both answers are correct, the question is why it returns different conjugates. – tzaman Apr 12 '16 at 21:45
  • FWIW the behavior appears the same in 2.7 and 3.5. – tzaman Apr 12 '16 at 21:49
  • 2
    There are simply multiple solutions to a complex root. – roadrunner66 Apr 12 '16 at 21:49
  • 2
    @tzaman ...And if it's defined somewhere which one Python should return. If it's not defined, Python has right to choose any. – George Sovetov Apr 12 '16 at 21:51
10

Both answers (+0.5j and -0.5j) are correct, since they are complex conjugates -- i.e. the real part is identical, and the imaginary part is sign-flipped.

Looking at the code makes the behavior clear - the imaginary part of the result always has the same sign as the imaginary part of the input, as seen in lines 790 and 793:

r.imag = copysign(d, z.imag);

Since a/(a-1) is 0.25 which is implicitly 0.25+0j you get a positive result; b/(b-1) produces 0.25-0j (for some reason; not sure why it doesn't result in 0.25+0j tbh) so your result is similarly negative.

EDIT: This question has some useful discussion on the same issue.

5
  • a / (a - 1) is -0.25. Converting it to complex gives you -0.25+0j. With b, you get -0.25-0j. – Seth Apr 12 '16 at 22:08
  • The documentation also specifies that the branch cut is chosen to be along a ray from 0 to -∞, which would give the observed behavior. It's interesting that b/(b-1) gives a negative zero for the imaginary component, though. – user2357112 supports Monica Apr 12 '16 at 22:19
  • @user2357112 yeah, that's pretty weird, I'm not sure why it does that. Simply typing 1-0j in as a literal into IDLE produces 1+0j as a value. Interestingly, -0j by itself produces -0-0j though. – tzaman Apr 12 '16 at 22:23
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    @tzaman: That's a nasty edge case in the syntax. A complex number with a negative zero imaginary component gets represented as 0.2-0j, but the expression 0.2-0j is actually a subtraction of 0.2 and 0j. The subtraction produces a positive zero imaginary component, because 0j - 0j is positive 0j. It's come up a few times on the bug tracker. There's a related problem where negative zero real components aren't visible in the repr output at all. – user2357112 supports Monica Apr 12 '16 at 22:32
  • @user2357112 that's fascinating, thanks for the link! – tzaman Apr 12 '16 at 22:35
2

I can answer why this is happening, but not why the behavior was chosen.

a/(a - 1)

evaluates to 0.2/-0.8 which is -0.25, which is converted to a complex number by cmath.sqrt, while

b/(b - 1)

evaluates to (0.2+0j)/(-0.8+0j) which is (-0.25-0j), which is converted to a complex number with a negative complex component.

For a simpler example,

cmath.sqrt(0j) == 0j
cmath.sqrt(-0j) == -0j

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