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Signed-off-by: David Rotermund <54365609+davrot@users.noreply.github.com>
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# Dimensions and shape
{:.no_toc}
<nav markdown="1" class="toc-class">
* TOC
{:toc}
</nav>
## The goal
Questions to [David Rotermund](mailto:davrot@uni-bremen.de)
## [numpy.ndarray.shape](https://numpy.org/doc/stable/reference/generated/numpy.ndarray.shape.html)
```python
ndarray.shape
```
> Tuple of array dimensions.
>
> The shape property is usually used to get the current shape of an array, but may also be used to reshape the array in-place by assigning a tuple of array dimensions to it. As with numpy.reshape, one of the new shape dimensions can be -1, in which case its value is inferred from the size of the array and the remaining dimensions. Reshaping an array in-place will fail if a copy is required.
```python
import numpy as np
data = np.zeros((2, 4, 2, 7, 2))
print(data.shape) # -> (2, 4, 2, 7, 2)
```
## Vanishing dimensions
```python
import numpy as np
data = np.zeros((5, 3, 2))
# All the same dimensionwise
print(data.shape) # -> (5, 3, 2)
print(data[:].shape) # -> (5, 3, 2)
print(data[:, :, :].shape) # -> (5, 3, 2)
print(data[...].shape) # -> (5, 3, 2)
print(data[0, :, :].shape) # -> (3, 2)
print(data[:, 0, :].shape) # -> (5, 2)
print(data[:, :, 0].shape) # -> (5, 3)
print(data[:, 0, 0].shape) # -> (5,)
print(data[0, :, 0].shape) # -> (3,)
print(data[0, 0, :].shape) # -> (2,)
print(data[0, 0, 0].shape) # -> ()
print(type(data[0, 0, 0])) # -> <class 'numpy.float64'>
```
```python
import numpy as np
data = np.zeros((5, 3, 2))
# All the same dimensionwise
print(data.shape) # -> (5, 3, 2)
print(data.sum().shape) # -> ()
print(data.sum(axis=0).shape) # -> (3, 2)
print(data.sum(axis=1).shape) # -> (5, 2)
print(data.sum(axis=2).shape) # -> (5, 3)
# You can use keepdims:
print(data.sum(axis=0, keepdims=True).shape) # -> (1, 3, 2)
print(data.sum(axis=1, keepdims=True).shape) # -> (5, 1, 2)
print(data.sum(axis=2, keepdims=True).shape) # -> (5, 3, 1)
```