# Numpy array of object attributes [duplicate]

I have a multi-dimensional array of objects, something like:

`````` a = np.array([obj1,obj2,obj3])
``````

The objects are instances of a class which has several attributes. Let's say one of them is heights and one of them is lengths. To get the corresponding multi-dimensional array of lengths and heights I do:

`````` lengths = np.array([obj1.length,obj2.length,obj3.length])

heights = np.array([obj1.height,obj2.height,obj3.height])
``````

This is starting to clutter up my code quite a lot. Is there a more efficient way of doing this? For instance, I had something like

`````` heights = a.height
``````

in mind but obviously it doesn't work because a is an array of my objects and not my object. But is there something similar I can do that is efficient and pythonic? I tried something like

`````` for x in np.nditer(a,flags=['refs_ok']):
print x.length
``````

to see what would happen but it doesn't work because nditer returns a tuple somehow.

Any ideas?

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## marked as duplicate by Dougal, Ophion, joaquin, tiago, isedevMar 1 at 10:50

Can you provide a bit more code is exactly what you are doing? Include a minimal class to reproduce this and the back-trace from the error you get. –  tcaswell Sep 2 '13 at 23:25
and have you read this: docs.scipy.org/doc/numpy/reference/… –  tcaswell Sep 2 '13 at 23:29

You could vectorize the function:

``````>>> import numpy
>>>
>>> class Obj(object):
...     def __init__(self, x, y):
...         self.x = x
...         self.y = y
...
>>> arr = numpy.array([Obj(1, 2), Obj(3, 4), Obj(5, 6)])
>>>
>>> vectorized_x = numpy.vectorize(lambda obj: obj.x)
>>>
>>> vectorized_x(arr)
array([1, 3, 5])
``````

Although I'm not sure if you should really store a NumPy array of Python objects in the first place. Vectorize is no more efficient than a Python loop. It would be more efficient to store an (n+1)-D array, as we could easily extract the contents simply by slicing which is a native operation, e.g.

``````>>> a = numpy.array([[(1, 2), (3, 4), (5, 6)], [(7, 8), (9, 10), (11, 12)], [(-13, -14), (-15, -16), (-17, -18)]])
>>> a[:,:,0]
array([[  1,   3,   5],
[  7,   9,  11],
[-13, -15, -17]])
>>> a[:,:,1]
array([[  2,   4,   6],
[  8,  10,  12],
[-14, -16, -18]])
``````
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