# Confusion in array operation in numpy

I generally use `MATLAB` and `Octave`, and i recently switching to `python` `numpy`. In numpy when I define an array like this

``````>>> a = np.array([[2,3],[4,5]])
``````

it works great and size of the array is

``````>>> a.shape
(2, 2)
``````

which is also same as MATLAB But when i extract the first entire column and see the size

``````>>> b = a[:,0]
>>> b.shape
(2,)
``````

I get size `(2,)`, what is this? I expect the size to be `(2,1)`. Perhaps i misunderstood the basic concept. Can anyone make me clear about this??

-
`np.matrix` will give you behavior that you expect. –  Akavall Jun 17 '13 at 2:25

In Numpy, a 1D array is literally 1D - it has no size in any second dimension, whereas in MATLAB, a '1D' array actually has a size of 1 in its second dimension. If you want your array to have size 1 in its second dimension you can use its `.reshape()` method:

``````a = np.zeros(5,)
a.shape
>>> (5,)

# explicitly reshape to (5,1)
a.reshape(5,1).shape
>>> (5,1)

# or use -1 in the first dimension, so that its size in that dimension is
# inferred from its total length
a.reshape(-1,1).shape
>>> (5,1)
``````

## Edit

As Akavall pointed out, I really ought to have mentioned `np.newaxis` as another method for adding a new axis to an array. Although I personally find it a bit less intuitive, one advantage of `np.newaxis` over `.reshape()` is that it allows you to add multiple new axes in an arbitrary order without explicitly specifying the shape of the output array, which is not possible with the `.reshape(-1,...)` trick:

``````a = np.zeros((3,4,5))
a[np.newaxis,:,np.newaxis,...,np.newaxis].shape
>>> (1, 3, 1, 4, 5, 1)
``````
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`a[:, np.newaxis]` is another way to add axis, I don't know if it is better than `reshape`, but just wanted to point it out. –  Akavall Jun 17 '13 at 2:31

Typing `help(np.shape)` gives some insight in to what is going on here. For starters, you can get the output you expect by typing:

``````b = np.array([a[:,0]])
``````

Basically numpy defines things a little differently than MATLAB. In the numpy environment, a vector only has one dimension, and an array is a vector of vectors, so it can have more. In your first example, your array is a vector of two vectors, i.e.:

``````a = np.array([[vec1], [vec2]])
``````

So `a` has two dimensions, and in your example the number of elements in both dimensions is the same, 2. Your array is therefore 2 by 2. When you take a slice out of this, you are reducing the number of dimensions that you have by one. In other words, you are taking a vector out of your array, and that vector only has one dimension, which also has 2 elements, but that's it. Your vector is now 2 by _. There is nothing in the second spot because the vector is not defined there.

You could think of it in terms of spaces too. Your first array is in the space `R^(2x2)` and your second vector is in the space `R^(2)`. This means that the array is defined on a different (and bigger) space than the vector.

That was a lot to basically say that you took a slice out of your array, and unlike MATLAB, numpy does not represent vectors (1 dimensional) in the same way as it does arrays (2 or more dimensions).

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thanks for such a clear explanation –  Bibek Subedi Jun 17 '13 at 2:16