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Use CH.Code component for notebook in-out pairs #752

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8 changes: 8 additions & 0 deletions apps/labs/pages/styles.css
View file
Open in desktop
Original file line number Diff line number Diff line change
Expand Up @@ -11,3 +11,11 @@
.navbar-open {
@apply h-screen overflow-y-hidden;
}

/*
Hide the top-left buttons in the Code Hike block.
See: https://codehike.org/docs/ch-code#panels
*/
.labs-blog-cell-in-out .ch-frame-buttons {
display: none;
}
201 changes: 137 additions & 64 deletions apps/labs/posts/uarray-intro.md → apps/labs/posts/uarray-intro.mdx
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@@ -1,14 +1,14 @@
---
title: "`uarray`: A Generic Override Framework for Methods"
title: '`uarray`: A Generic Override Framework for Methods'
author: hameer-abbasi
published: April 30, 2019
description: 'The problem is, stated simply: How do we use all of the PyData libraries in tandem, moving seamlessly from one to the other, without actually changing the API, or even the imports?'
category: [PyData ecosystem]
featuredImage:
src: /posts/hello-world-post/blog_hero_var1.svg
src: /posts/uarray-intro/blog_feature_var1.svg
alt: 'An illustration of a brown and a dark brown hand coming towards each other to pass a business card with the logo of Quansight Labs.'
hero:
imageSrc: /posts/hello-world-post/blog_hero_var1.svg
imageSrc: /posts/uarray-intro/blog_hero_var1.svg
imageAlt: 'An illustration of a brown hand holding up a microphone, with some graphical elements highlighting the top of the microphone.'
---

Expand All @@ -31,12 +31,12 @@ GPUs and distributed computing emerged. Also, there were old ideas that
couldn't really be used with NumPy's API, such as sparse arrays. To
solve these problems, various libraries emerged:

- Dask, for distributed NumPy
- CuPy, for NumPy on Nvidia-branded GPUs.
- PyData/Sparse, a project started to make sparse arrays conform to
the NumPy API
- Xnd, which extends the type system and the universal function
concept found in NumPy
- Dask, for distributed NumPy
- CuPy, for NumPy on Nvidia-branded GPUs.
- PyData/Sparse, a project started to make sparse arrays conform to
the NumPy API
- Xnd, which extends the type system and the universal function
concept found in NumPy

There were yet other libraries that emerged: PyTorch, which mimics NumPy
to a certain degree; TensorFlow, which defines its own API; and MXNet,
Expand All @@ -53,27 +53,21 @@ Oliphant so eloquently puts it, \"re-writing the world\"?
In my mind, the goals are (stated abstractly):

1. Methods that are not tied to a specific implementation.

- For example `np.arange`

- For example `np.arange`
1. Backends that implement these methods.

- NumPy, Dask, PyTorch are all examples of this.

- NumPy, Dask, PyTorch are all examples of this.
1. Coercion of objects to other forms to move between backends.

- This means converting a NumPy array to a Dask array, and vice versa.
- This means converting a NumPy array to a Dask array, and vice versa.

In addition, we wanted to be able to do this for arbitrary objects. So
`dtype`s, `ufunc`s etc. should also be dispatchable and coercible.

## The Solution?

With that said, let's dive into `uarray`. If you're not interested in
the gory details, you can jump down to
`<a href="#how-to-use-it">`{=html}this section`</a>`{=html}.
the gory details, you can jump down to <a href="#how-to-use-it">this section</a>

``` python
```python
import uarray as ua

# Let's ignore this for now
Expand All @@ -99,43 +93,67 @@ def myfunc_be2(): # Note that it has exactly the same signature
return "Strawberry"
```

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
with ua.set_backend(be1):
print(myfunc())
```

Potato
---

```txt out
Potato
```

</CH.Code>

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
with ua.set_backend(be2):
print(myfunc())
```

Strawberry
---

```text out
Strawberry
```

</CH.Code>

As we can clearly see: We have already provided a way to do (1) and (2)
above. But then we run across the problem: How do we decide between
these backends? How do we move between them? Let's go ahead and
register both of these backends for permanent use. And see what happens
when we want to implement both of their methods!

``` python
```python
ua.register_backend(be1)
ua.register_backend(be2)
```

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
print(myfunc())
```

Potato
---

```text out
Potato
```

</CH.Code>

As we see, we get only the first backend's answer. In general, it's
indeterminate what backend will be selected. But, this is a special
case: We're not passing arguments in! What if we change one of these to
return `NotImplemented`?

``` python
```python
# We redefine the multimethod so it's new again
@ua.create_multimethod(myfunc_rd)
def myfunc():
Expand All @@ -158,38 +176,54 @@ ua.register_backend(be1)
ua.register_backend(be2)
```

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
with ua.set_backend(be1):
print(myfunc())
```

Strawberry
---

```txt out
Strawberry
```

</CH.Code>

Wait\... What? Didn't we just set the first `Backend`? Ahh, but, you
see\... It's signalling that it has *no* implementation for `myfunc`.
see\... It's signalling that it has _no_ implementation for `myfunc`.
The same would happen if you simply didn't register one. To force a
`Backend`, we must use `only=True` or `coerce=True`, the difference will
be explained in just a moment.

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
with ua.set_backend(be1, only=True):
print(myfunc())
```

---------------------------------------------------------------------------
BackendNotImplementedError Traceback (most recent call last)
<ipython-input-8-ec856cf7c88b> in <module>
1 with ua.set_backend(be1, only=True):
----> 2 print(myfunc())
---

~/Quansight/uarray/uarray/backend.py in __call__(self, *args, **kwargs)
108
109 if result is NotImplemented:
--> 110 raise BackendNotImplementedError('No selected backends had an implementation for this method.')
111
112 return result
```txt out
---------------------------------------------------------------------------
BackendNotImplementedError Traceback (most recent call last)
<ipython-input-8-ec856cf7c88b> in <module>
1 with ua.set_backend(be1, only=True):
----> 2 print(myfunc())

~/Quansight/uarray/uarray/backend.py in __call__(self, *args, **kwargs)
108
109 if result is NotImplemented:
--> 110 raise BackendNotImplementedError('No selected backends had an implementation for this method.')
111
112 return result

BackendNotImplementedError: No selected backends had an implementation for this method.
```

BackendNotImplementedError: No selected backends had an implementation for this method.
</CH.Code>

Now we are told that no backends had an implementation for this function
(which is nice, good error messages are nice!)
Expand All @@ -199,7 +233,7 @@ Now we are told that no backends had an implementation for this function
Let's say we had two `Backend`s. Let's choose the completely useless
example of one storing a number as an `int` and one as a `float`.

``` python
```python
class Number(ua.DispatchableInstance):
pass

Expand All @@ -222,56 +256,82 @@ Number.register_convertor(be2, lambda x: str(x))
Let's also define a \"catch-all\" method. This catches all
implementations of methods not already registered.

``` python
```python
# This can be arbitrarily complex
def gen_impl1(method, args, kwargs, dispatchable_args):
if not all(isinstance(a, Number) and isinstance(a.value, int) for a in dispatchable_args):
return NotImplemented

return args[0]

# This can be arbitrarily complex
def gen_impl2(method, args, kwargs, dispatchable_args):
if not all(isinstance(a, Number) and isinstance(a.value, str) for a in dispatchable_args):
return NotImplemented

return args[0]

be1.register_implementation(None, gen_impl1)
be2.register_implementation(None, gen_impl2)
```

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
myfunc('1') # This calls the second implementation
```

'1'
---

```txt out
'1'
```

</CH.Code>

<CH.Code className="labs-blog-cell-in-out">

``` python
```python in
myfunc(1) # This calls the first implementation
```

1
---

```txt out
1
```

</CH.Code>

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
myfunc(1.0) # This fails
```

---

```txt out
---------------------------------------------------------------------------
BackendNotImplementedError Traceback (most recent call last)
<ipython-input-13-8431c1275db5> in <module>
----> 1 myfunc(1.0) # This fails

~/Quansight/uarray/uarray/backend.py in __call__(self, *args, **kwargs)
108
108
109 if result is NotImplemented:
--> 110 raise BackendNotImplementedError('No selected backends had an implementation for this method.')
111
111
112 return result

BackendNotImplementedError: No selected backends had an implementation for this method.
```

``` python
</CH.Code>

<CH.Code className="labs-blog-cell-in-out">

```python in
# But works if we do this:

with ua.set_backend(be1, coerce=True):
Expand All @@ -281,8 +341,14 @@ with ua.set_backend(be2, coerce=True):
print(type(myfunc(1.0)))
```

<class 'int'>
<class 'str'>
---

```txt out
<class 'int'>
<class 'str'>
```

</CH.Code>

This may seem like too much work, but remember that it's broken down
into a lot of small steps:
Expand All @@ -305,15 +371,23 @@ right values from it.
`unumpy` is a set of NumPy-related multimethods built on top of
`uarray`. You can use them as follows:

``` python
<CH.Code className="labs-blog-cell-in-out">

```python in
import unumpy as np # Note the changed import statement
from unumpy.xnd_backend import XndBackend

with ua.set_backend(XndBackend):
print(type(np.arange(0, 100, 1)))
```

<class 'xnd.array'>
---

```txt out
<class 'xnd.array'>
```

</CH.Code>

And, as you can see, we get back an Xnd array when using a NumPy-like
API. Currently, there are three back-ends: NumPy, Xnd and PyTorch. The
Expand All @@ -324,8 +398,7 @@ We are also working on supporting more of the NumPy API, and dispatching
over dtypes.

Feel free to browse the source and open issues at:
<https://github.com/Quansight-Labs/uarray> or shoot me an email at
`<a href="mailto:habbasi@quansight.com">`{=html}habbasi@quansight.com`</a>`{=html}
if you want to contact me directly. You can also find the full
documentation at <https://uarray.readthedocs.io/en/latest/>.
https://github.com/Quansight-Labs/uarray or shoot me an email at

<a href="mailto:habbasi@quansight.com">habbasi@quansight.com</a>
if you want to contact me directly. You can also find the full documentation at https://uarray.readthedocs.io/en/latest/.