14

This gives the expected result

x = random.rand(1) + random.rand(1)*1j
print x.dtype
print x, x.real, x.imag

and this works

C = zeros((2,2),dtype=complex)
C[0,0] = 1+1j
print C

but if we change it to

C[0,0] = 1+1j + x

I get "TypeError: can't convert complex to float".

If we now omit the explicit dtype = complex, I get "ValueError: setting an array element with a sequence".

Can someone explain what's going on, and how to do this without errors? I'm lost.

4

To insert complex x or x + something into C, you apparently need to treat it as if it were an array, so either index into x or assign it to a slice of C:

>>> C
array([[ 0.+0.j,  0.+0.j],
       [ 0.+0.j,  0.+0.j]])
>>> C[0, 0:1] = x
>>> C
array([[ 0.47229555+0.7957525j,  0.00000000+0.j       ],
       [ 0.00000000+0.j       ,  0.00000000+0.j       ]])
>>> C[1, 1] = x[0] + 1+1j
>>> C
array([[ 0.47229555+0.7957525j,  0.00000000+0.j       ],
       [ 0.00000000+0.j       ,  1.47229555+1.7957525j]])

It looks like NumPy isn't handling this case correctly. Consider submitting a bug report.

| improve this answer | |
  • but why a=np.arange(4).reshape((2,2)); b=np.array([100]); a[0,0]=b does not give such an error? – zhangxaochen Feb 25 '14 at 14:47
  • @zhangxaochen Good Q, maybe the behavior of complex arrays is even buggier than I though. I never use those :) – Fred Foo Feb 25 '14 at 15:09
  • Interesting. C[0,0] = random.rand(1) is fine, but C[0,0] = random.rand(1)+random.rand(1)*1j is not. Why does x become an array when we add the imaginary part to it? I thought complex numbers were a native data type in python, not just implemented through arrays? – gibson Feb 25 '14 at 18:47
  • @gibson random.rand(1) is an array. – Fred Foo Feb 25 '14 at 21:16
  • @larsmans If that's the case, C[0,0] = random.rand(1) shouldn't work, but it does. I'm still confused. – gibson Feb 26 '14 at 14:53
33

Actually, none of the proposed solutions worked in my case (Python 2.7.6, NumPy 1.8.2). But I've found out, that change of dtype from complex (standard Python library) to numpy.complex_ may help:

>>> import numpy as np
>>> x = 1 + 2 * 1j
>>> C = np.zeros((2,2),dtype=np.complex_)
>>> C
array([[ 0.+0.j,  0.+0.j],
       [ 0.+0.j,  0.+0.j]])
>>> C[0,0] = 1+1j + x
>>> C
array([[ 2.+3.j,  0.+0.j],
       [ 0.+0.j,  0.+0.j]])
| improve this answer | |

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