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I can't figure out how to use an array or matrix in the way that I would normally use a list. I want to create an empty array (or matrix) and then add one column (or row) to it at a time.

At the moment the only way I can find to do this is like:

mat = None
for col in columns:
    if mat is None:
        mat = col
        mat = hstack((mat, col))

Whereas if it were a list, I'd do something like this:

list = []
for item in data:

Is there a way to use that kind of notation for NumPy arrays or matrices?

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7 Answers 7

up vote 96 down vote accepted

You have the wrong mental model for using NumPy efficiently. NumPy arrays are stored in contiguous blocks of memory. If you want to add rows or columns to an existing array, the entire array needs to be copied to a new block of memory, creating gaps for the new elements to be stored. This is very inefficient if done repeatedly to build an array.

In the case of adding rows, your best bet is to create an array that is as big as your data set will eventually be, and then add data to it row-by-row:

>>> import numpy
>>> a = numpy.zeros(shape=(5,2))
>>> a
array([[ 0.,  0.],
   [ 0.,  0.],
   [ 0.,  0.],
   [ 0.,  0.],
   [ 0.,  0.]])
>>> a[0] = [1,2]
>>> a[1] = [2,3]
>>> a
array([[ 1.,  2.],
   [ 2.,  3.],
   [ 0.,  0.],
   [ 0.,  0.],
   [ 0.,  0.]])
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There is also numpy.empty() if you don't need to zero the array. –  janneb Apr 19 '09 at 21:19
What's the benefit of using empty() over zeros()? –  Zach Sep 1 '12 at 16:11
that if you're going to initialize it with your data straight away, you save the cost of zeroing it. –  marcorossi Nov 13 '12 at 9:23

A NumPy array is a very different data structure from a list and is designed to be used in different ways. Your use of hstack is potentially very inefficient... every time you call it, all the data in the existing array is copied into a new one. (The append function will have the same issue.) If you want to build up your matrix one column at a time, you might be best off to keep it in a list until it is finished, and only then convert it into an array.


mylist = []
for item in data:
mat = numpy.array(mylist)

item can be a list, an array or any iterable, as long as each item has the same number of elements.
In this particular case (data is some iterable holding the matrix columns) you can simply use

mat = numpy.array(data)

(Also note that using list as a variable name is probably not good practice since it masks the built-in type by that name, which can lead to bugs.)


If for some reason you really do want to create an empty array, you can just use numpy.array([]), but this is rarely useful!

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Are numpy arrays/matrices fundamentally different from Matlab ones? –  levesque Nov 11 '10 at 3:20
@levesque Look HERE –  pmav99 Mar 21 '11 at 16:30

To create an empty multidimensional array in NumPy (e.g. a 2D array m*n to store your matrix), in case you don't know m how many rows you will append and don't care about the computational cost Stephen Simmons mentioned (namely re-buildinging the array at each append), you can squeeze to 0 the dimension to which you want to append to: X = np.empty(shape=[0, n]).

This way you can use for example (here m = 5 which we assume we didn't know when creating the empty matrix, and n = 2):

n = 2
X = np.empty(shape=[0, n])

for i in range(5):
    for j  in range(2):
        X = np.append(X, [[i, j]], axis=0)

print X

which will give you:

[[ 0.  0.]
 [ 0.  1.]
 [ 1.  0.]
 [ 1.  1.]
 [ 2.  0.]
 [ 2.  1.]
 [ 3.  0.]
 [ 3.  1.]
 [ 4.  0.]
 [ 4.  1.]]
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I looked into this a lot because I needed to use a numpy.array as a set in one of my school projects and I needed to be initialized empty... I didn't found any relevant answer here on Stack Overflow, so I started doodling something.

# Initialize your variable as a empty list first
In [32]: x=[]
# and now cast it as a numpy ndarray
In [33]: x=np.array(x)

The result will be:

In [34]: x
Out[34]: array([], dtype=float64)

Therefore you can directly initialize an np array as follows:

In [36]: x= np.array([], dtype=np.float64)

I hope this helps.

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You can use the append function. For rows:

>>> from numpy import *
>>> a = array([10,20,30])
>>> append(a, [[1,2,3]], axis=0)
array([[10, 20, 30],      
       [1, 2, 3]])

For columns:

>>> append(a, [[15],[15]], axis=1)
array([[10, 20, 30, 15],      
       [1, 2, 3, 15]])

Of course, as mentioned in other answers, unless you're doing some processing (ex. inversion) on the matrix/array EVERY time you append something to it, I would just create a list, append to it then convert it to an array.

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If you absolutely don't know the final size of the array, you can increment the size of the array like this:

my_arr = numpy.zeros((0,5))
for i in range(3):
    my_arr=numpy.concatenate( ( my_arr, numpy.ones((1,5)) ) )

[[ 1.  1.  1.  1.  1.]  [ 1.  1.  1.  1.  1.]  [ 1.  1.  1.  1.  1.]]
  • Notice the 0 in the first line.
  • numpy.append is another option. It calls numpy.concatenate.
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Array objects consist of one- or multidimensional homogeneous, fixed-size structures, i.e., they have a fixed number of elements all of the same datatype (which allows much faster methods than Python's list object). An array element is retrieved as A[i,j,k,..] (list elements are retrieved as L[i][j][k]..). A matrix is a two-dimensional array.

Arrays a have attributes a.attr, which can be distinguished in properties and methods a.meth(). The former return values (such as the shape and type) that belong to the array; the latter specify actions that are to be performed on the array. Often there is a function that performs the same action as a method; function and method then have the same name. However,the default settings of the parameters may differ for methods and their corresponding functions. Array construction

Arrays can be created in various ways: with the function array(obj), where 'obj' is a (nested) sequence, e.g. a list [ ] or a tuple ( ). When 'obj' is an array, a copy of this array is returned. The function matrix does the same for matrices. with the function copy(obj), where 'obj' is another array or matrix or a (nested) sequence, with the function asarray(obj), which is like 'copy', except that no copy is made if 'obj' is already an array. with the function empty(shape, dtype) which produces an uninitialized array with specified shape and typecode, or with the function empty_like(a) which produces an uninitialized array with the same shape and typecode as its argument a, with the function ones(shape, dtype) producing an array initialized with ones, or ones_like(a). with the function zeros(shape, dtype) producing an array initialized with zeros, or zeros_like(a), with the function identity(n,dtype) producing a 2-d n*n identity matrix, with the function arange(..) which does the same as array(range(..)), with the function concatenate(..) which concatenates sequences to an array.

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When you copy-paste documentation in place of an answer you should cite a source. –  jbat100 Dec 19 '12 at 10:46

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