Numpy array dimensions

How do I get the dimensions of an array? For instance, this is 2x2:

``````a = np.array([[1, 2], [3, 4]])
``````
• A piece of advice: your "dimensions" are called the `shape`, in NumPy. What NumPy calls the dimension is 2, in your case (`ndim`). It's useful to know the usual NumPy terminology: this makes reading the docs easier! Jun 17, 2010 at 14:40

Use `.shape` to obtain a tuple of array dimensions:

``````>>> a.shape
(2, 2)
``````
• Note: `shape` might be more accurately described as an attribute than as a function, since it is not invoked using function-call syntax. Apr 26, 2012 at 2:00
• @nobar actually it is a property (which is both an attribute and a function, really)
– wim
Jul 29, 2014 at 12:53
• @wim more specifically property is a class. In the case of class properties (a property you put in your class), they are objects of type property exposed as an attribute of the class. An attribute, in python, is the name following the dot. Nov 21, 2019 at 21:28
• If you really want to nitpick, it's a descriptor. Although `property` itself is a class, `ndarray.shape` is not a class, it's an instance of the property type.
– wim
Nov 21, 2019 at 21:40

First:

By convention, in Python world, the shortcut for `numpy` is `np`, so:

``````In [1]: import numpy as np

In [2]: a = np.array([[1,2],[3,4]])
``````

Second：

In Numpy, dimension, axis/axes, shape are related and sometimes similar concepts:

dimension

In Mathematics/Physics, dimension or dimensionality is informally defined as the minimum number of coordinates needed to specify any point within a space. But in Numpy, according to the numpy doc, it's the same as axis/axes:

In Numpy dimensions are called axes. The number of axes is rank.

``````In [3]: a.ndim  # num of dimensions/axes, *Mathematics definition of dimension*
Out[3]: 2
``````

axis/axes

the nth coordinate to index an `array` in Numpy. And multidimensional arrays can have one index per axis.

``````In [4]: a[1,0]  # to index `a`, we specific 1 at the first axis and 0 at the second axis.
Out[4]: 3  # which results in 3 (locate at the row 1 and column 0, 0-based index)
``````

shape

describes how many data (or the range) along each available axis.

``````In [5]: a.shape
Out[5]: (2, 2)  # both the first and second axis have 2 (columns/rows/pages/blocks/...) data
``````
``````import numpy as np
>>> np.shape(a)
(2,2)
``````

Also works if the input is not a numpy array but a list of lists

``````>>> a = [[1,2],[1,2]]
>>> np.shape(a)
(2,2)
``````

Or a tuple of tuples

``````>>> a = ((1,2),(1,2))
>>> np.shape(a)
(2,2)
``````
• `np.shape` first turns its argument into an array if it doesn't have the shape attribute, That's why it works on the list and tuple examples. Sep 20, 2018 at 14:32

Use `.shape`:

``````In: a = np.array([[1,2,3],[4,5,6]])
In: a.shape
Out: (2, 3)
In: a.shape[0] # x axis
Out: 2
In: a.shape[1] # y axis
Out: 3
``````

You can use `.ndim` for dimension and `.shape` to know the exact dimension:

``````>>> var = np.array([[1,2,3,4,5,6], [1,2,3,4,5,6]])

>>> var.ndim
2

>>> var.shape
(2, 6)
``````

You can change the dimension using `.reshape` function:

``````>>> var_ = var.reshape(3, 4)

>>> var_.ndim
2

>>> var_.shape
(3, 4)
``````

The `shape` method requires that `a` be a Numpy ndarray. But Numpy can also calculate the shape of iterables of pure python objects:

``````np.shape([[1,2],[1,2]])
``````

`a.shape` is just a limited version of `np.info()`. Check this out:

``````import numpy as np
a = np.array([[1,2],[1,2]])
np.info(a)
``````

Out

``````class:  ndarray
shape:  (2, 2)
strides:  (8, 4)
itemsize:  4
aligned:  True
contiguous:  True
fortran:  False
data pointer: 0x27509cf0560
byteorder:  little
byteswap:  False
type: int32
``````
``````rows = a.shape[0] # 2
cols = a.shape[1] # 2
a.shape #(2,2)
a.size # rows * cols = 4
``````

Execute below code block in python notebook.

``````import numpy as np
a = np.array([[1,2],[1,2]])
print(a.shape)
print(type(a.shape))
print(a.shape[0])
``````

output

(2, 2)

<class 'tuple'>

2

then you realized that `a.shape` is a tuple. so you can get any dimension's size by `a.shape[index of dimention]`

Since the dimensions of a numpy array is stored as the `shape` attribute, `getattr()` can also be used.

``````arr = np.arange(8).reshape(2,2,2)
getattr(arr, 'shape')   # (2, 2, 2)
``````

It's useful if you need to get it along with a dynamic list of other properties. An example could be

``````properties = ['shape', 'ndim', 'size']
d = {prop: getattr(arr, prop) for prop in properties}
# {'shape': (2, 2, 2), 'ndim': 3, 'size': 8}
``````