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If I run the following code:

import numpy as np

b = np.zeros(1)
c = np.zeros(1)
c = c/2**63

print b, c
b += c

I get this error message:

TypeError: ufunc 'add' output (typecode 'O') could not be coerced to provided
output parameter (typecode 'd') according to the casting rule ''same_kind''

If I change b += c to b = b + c, the code runs fine. Why is it so? I am running Python 2.7.2 on RHEL.

NumPy version: 2.0.0.dev-a2a9dfb

GCC version: 4.1.2 20080704 (Red Hat 4.1.2-52)

Thank you in advance.

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1  
Please post your numpy version (print np.version.version) and your gcc --version (from the shell), as we need the info for the bug report. –  Pierre GM Sep 25 '12 at 18:54
    
This question can't be answered conclusively until we know your numpy version. –  senderle Sep 25 '12 at 20:05
    
I've added what you requested. Thank you. –  Aae Sep 25 '12 at 20:20

1 Answer 1

When you do c=c/2**63, c gets casted to dtype=object (that's the problem), while b stays with dtype=float.

When you add a dtype=object array to a dtype=float, the result is a dtype=object array. Think of it as dtype precedence, like when adding a numpy float to a numpy int gives a numpy float.

If you try to add the object to the float in place, it fails, as the result can't be cast from object to float. When you use a basic addition like b=b+c, though, the result b is cast to a dtype=object, as you may have noticed.

Note that using c=c/2.**63 keeps c as a float and b+=c works as expected. Note that if c was np.ones(1) you would wouldn't have a problem either.

Anyhow: the (np.array([0], dtype=float)/2**63)).dtype == np.dtype(object) is likely a bug.

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I'm not sure it's a bug. Maybe -- but 2 ** 63 is larger than the maximum value of an int64, so I'm not sure it makes sense for numpy to do anything other than store it in an array of Python objects. –  senderle Sep 25 '12 at 19:32
    
Except that a long has lower precedence than a float. –  Pierre GM Sep 25 '12 at 19:39
    
Yeah, and I can't even reproduce the OPs problem anyway. –  senderle Sep 25 '12 at 19:41
    
@senderle Interesting: what version of numpy are you using? –  Pierre GM Sep 25 '12 at 19:51
    
numpy 1.5.1. But also, this still happens for me: >>> (np.array([1], dtype=np.float) / np.array([2 ** 63])) => array([1.08420217249e-19], dtype=object). So I'm pretty unsure about what's going on now. –  senderle Sep 25 '12 at 19:52

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