The `import as`

syntax was introduced in PEP 221 and is well documented there.

When you import a module via

```
import numpy
```

the numpy package is bound to the local variable `numpy`

. The `import as`

syntax simply allows you to bind the import to the local variable name of your choice (usually to avoid name collisions, shorten verbose module names, or standardize access to modules with compatible APIs).

Thus,

```
import numpy as np
```

is equivalent to,

```
import numpy
np = numpy
del numpy
```

When trying to understand this mechanism, it's worth remembering that `import numpy`

actually means `import numpy as numpy`

.

When importing a *submodule*, you must refer to the full parent module name, since the importing mechanics happen at a higher level than the local variable scope. i.e.

```
import numpy as np
import numpy.f2py # OK
import np.f2py # ImportError
```

I also take issue with your assertion that "where possible one should [import numpy as np]". This is done for historical reasons, mostly because people get tired very quickly of prefixing every operation with `numpy`

. It has never prevented a name collision for me (laziness of programmers actually suggests there's a higher probability of causing a collision with `np`

)

Finally, to round out my exposé, here are 2 interesting uses of the `import as`

mechanism that you should be aware of:

### 1. long subimports

```
import scipy.ndimage.interpolation as warp
warp.affine_transform(I, ...)
```

### 2. compatible APIs

```
try:
import pyfftw.interfaces.numpy_fft as fft
except:
import numpy.fft as fft
# call fft.ifft(If) with fftw or the numpy fallback under a common name
```

`import numpy`

then`numpy.f2py`

? It throws an error in my case too`numpy.f2py`

module regardless of whether or not/how`numpy`

itself has been imported.