# Scale the real part of complex numpy array

I have a vector of complex numbers (the result of a FFT) and I would like to scale only the real part of the complex numbers by factors in another vector.

### Example

``````cplxarr= np.array([1+2j, 3+1j, 7-2j])
factarr= np.array([.5, .6, .2])
# desired result of cplxarr * factarr :
# np.array([.5+2j 1.8+1j 1.4-2j])
``````

(Yes, it's about human-hearing frequency response in a very specific setting.)
Obviously the multiplication with the vectors as above scales the imaginary parts too.

How do I set up `factarr` and what operation do I have to do in order to achieve the desired result? If it's possible at all, that is, without separating the real and imaginary parts, scaling the real parts and reassembling as a new complex vector.

-

This'll do it:

``````>>> factarr*cplxarr.real + (1j)*cplxarr.imag
array([ 0.5+2.j,  1.8+1.j,  1.4-2.j])
``````

Not sure if it's the best way though.

It turns out that for me at least (OS-X 10.5.8, python 2.7.3, numpy 1.6.2) This version is about twice as fast as the other version which uses `np.vectorize`:

``````>>> from timeit import timeit
>>> timeit('factarr*cplxarr.real+(1j)*cplxarr.imag',setup='from __main__ import factarr,cplxarr')
21.008132934570312
>>> timeit('f(cplxarr.real * factarr, cplxarr.imag)',setup='from __main__ import factarr,cplxarr; import numpy as np; f=np.vectorize(np.complex)')
46.52931499481201
``````

It doesn't seem to make much of a difference between using `np.complex` and `complex` provided by python:

``````>>> timeit('f(cplxarr.real * factarr, cplxarr.imag)',setup='from __main__ import  factarr,cplxarr; import numpy as np; f=np.vectorize(complex)')
44.87726283073425
``````

THE CURRENT LEADER IN THE TIMINGS STANDINGS (proposed by eryksun in the comments below)

``````>>> timeit.timeit('a = cplxarr.copy(); a.real *= factarr ',setup='from __main__ import factarr,cplxarr')
8.336654901504517
``````

And proof that it works:

``````>>> a = cplxarr.copy()
>>> a.real *= factarr
>>> a
array([ 0.5+2.j,  1.8+1.j,  1.4-2.j])
``````

This obviously would be even faster if you wanted to do the operation in place (and could therefore leave the copy off).

-
(+1) I prefer your version to mine. –  NPE Nov 26 '12 at 14:44
@NPE -- I'd have to `timeit` before I come up with a preferred solution ;-) –  mgilson Nov 26 '12 at 14:46
Thank you; that is the disassembling/reassembling method, of course. I will not pick your answer for a little while, giving someone the chance to offer a different answer, if there is such a beast. –  tzot Nov 26 '12 at 14:47
@tzot: Did you want this done in place? That's just `cplxarr.real *= factarr`. Otherwise, you could try a `[:]` copy followed by an in-place scale of the `real` component. –  eryksun Nov 26 '12 at 14:57
@eryksun -- I think that `ndarray.copy` is probably better for copying. `[:]` should return a view, not a copy when dealing with np.ndarrays. But just updating the real component in place is a good idea. –  mgilson Nov 26 '12 at 14:59
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