At some point in my python script, I require to make the calculation: `1*(-inf + 6.28318530718j).`

I understand why this will return `-inf + nan*j`

since the imaginary component of `1`

is obviously `0`

, but I would like the multiplication to have the return value of `-inf + 6.28318530718j`

as would be expected. I also want whatever solution to be robust to any of these kinds of multiplications. Any ideas?

Edit:

A Complex multiplication like `x*y`

where `x = (a+ib)`

and `y = (c+id)`

I assume is handled like `(x.real*y.real-x.imag*y.imag)+1j*(x.real*y.imag+x.imag*y.real)`

in python as this is what the multiplication comes down to mathematically. Now if say `x=1.0`

and `y=-inf+1.0j`

then the result will contain `nan`

's as `inf*0`

will be undefined. I want a way for python to interpret `*`

so that the return value to this example will be `-inf+1.0j`

. It seems unnecessary to have to define my own multiplication operator (via say a function `cmultiply(x,y)`

) such that I get the desired result.

`1*(-inf + 6.28318530718j)`

doesn't return anything for me. I get a`NameError`

– Tom Fenech Mar 20 '14 at 14:57`np.log(0)`

what does that return? – Jack Mar 20 '14 at 15:02`inf`

and having the possibility of overflow errors through an exception instead. But I'm not sure how to do this... Python will return`inf`

if I use`np.log(0)`

. – Jack Mar 20 '14 at 15:09`1*(float("-inf") + 6.2j)`

– Kevin Mar 20 '14 at 15:24