I would like to create a two dimensional numpy array of arrays that has a different number of elements on each row.
Trying
cells = numpy.array([[0,1,2,3], [2,3,4]])
gives an error
ValueError: setting an array element with a sequence.
I would like to create a two dimensional numpy array of arrays that has a different number of elements on each row.
Trying
cells = numpy.array([[0,1,2,3], [2,3,4]])
gives an error
ValueError: setting an array element with a sequence.
While Numpy knows about arrays of arbitrary objects, it's optimized for homogeneous arrays of numbers with fixed dimensions. If you really need arrays of arrays, better use a nested list. But depending on the intended use of your data, different data structures might be even better, e.g. a masked array if you have some invalid data points.
If you really want flexible Numpy arrays, use something like this:
numpy.array([[0,1,2,3], [2,3,4]], dtype=object)
However this will create a one-dimensional array that stores references to lists, which means that you will lose most of the benefits of Numpy (vector processing, locality, slicing, etc.).
We are now almost 7 years after the question was asked, and your code
cells = numpy.array([[0,1,2,3], [2,3,4]])
executed in numpy 1.12.0, python 3.5, doesn't produce any error and
cells
contains:
array([[0, 1, 2, 3], [2, 3, 4]], dtype=object)
You access your cells
elements as cells[0][2] # (=2)
.
An alternative to tom10's solution if you want to build your list of numpy arrays on the fly as new elements (i.e. arrays) become available is to use append
:
d = [] # initialize an empty list
a = np.arange(3) # array([0, 1, 2])
d.append(a) # [array([0, 1, 2])]
b = np.arange(3,-1,-1) #array([3, 2, 1, 0])
d.append(b) #[array([0, 1, 2]), array([3, 2, 1, 0])]
This isn't well supported in Numpy (by definition, almost everywhere, a "two dimensional array" has all rows of equal length). A Python list of Numpy arrays may be a good solution for you, as this way you'll get the advantages of Numpy where you can use them:
cells = [numpy.array(a) for a in [[0,1,2,3], [2,3,4]]]
Another option would be to store your arrays as one contiguous array and also store their sizes or offsets. This takes a little more conceptual thought around how to operate on your arrays, but a surprisingly large number of operations can be made to work as if you had a two dimensional array with different sizes. In the cases where they can't, then np.split
can be used to create the list that calocedrus recommends. The easiest operations are ufuncs, because they require almost no modification. Here are some examples:
cells_flat = numpy.array([0, 1, 2, 3, 2, 3, 4])
# One of these is required, it's pretty easy to convert between them,
# but having both makes the examples easy
cell_lengths = numpy.array([4, 3])
cell_starts = numpy.insert(cell_lengths[:-1].cumsum(), 0, 0)
cell_lengths2 = numpy.diff(numpy.append(cell_starts, cells_flat.size))
assert np.all(cell_lengths == cell_lengths2)
# Copy prevents shared memory
cells = numpy.split(cells_flat.copy(), cell_starts[1:])
# [array([0, 1, 2, 3]), array([2, 3, 4])]
numpy.array([x.sum() for x in cells])
# array([6, 9])
numpy.add.reduceat(cells_flat, cell_starts)
# array([6, 9])
[a + v for a, v in zip(cells, [1, 3])]
# [array([1, 2, 3, 4]), array([5, 6, 7])]
cells_flat + numpy.repeat([1, 3], cell_lengths)
# array([1, 2, 3, 4, 5, 6, 7])
[a.astype(float) / a.sum() for a in cells]
# [array([ 0. , 0.16666667, 0.33333333, 0.5 ]),
# array([ 0.22222222, 0.33333333, 0.44444444])]
cells_flat.astype(float) / np.add.reduceat(cells_flat, cell_starts).repeat(cell_lengths)
# array([ 0. , 0.16666667, 0.33333333, 0.5 , 0.22222222,
# 0.33333333, 0.44444444])
def complex_modify(array):
"""Some complicated function that modifies array
pretend this is more complex than it is"""
array *= 3
for arr in cells:
complex_modify(arr)
cells
# [array([0, 3, 6, 9]), array([ 6, 9, 12])]
for arr in numpy.split(cells_flat, cell_starts[1:]):
complex_modify(arr)
cells_flat
# array([ 0, 3, 6, 9, 6, 9, 12])
In numpy 1.14.3, using append:
d = [] # initialize an empty list
a = np.arange(3) # array([0, 1, 2])
d.append(a) # [array([0, 1, 2])]
b = np.arange(3,-1,-1) #array([3, 2, 1, 0])
d.append(b) #[array([0, 1, 2]), array([3, 2, 1, 0])]
what you get an list of arrays (that can be of different lengths) and you can do operations like d[0].mean()
. On the other hand,
cells = numpy.array([[0,1,2,3], [2,3,4]])
results in an array of lists.
You may want to do this:
a1 = np.array([1,2,3])
a2 = np.array([3,4])
a3 = np.array([a1,a2])
a3 # array([array([1, 2, 3]), array([3, 4])], dtype=object)
type(a3) # numpy.ndarray
type(a2) # numpy.ndarray