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Brings LiveView from Phoenix framework into Django

Project description

Reactor, a LiveView library for Django

Reactor enables you to do something similar to Phoenix framework LiveView using Django Channels.

What's in the box?

This is no replacement for VueJS or ReactJS, or any JavaScript but it will allow you use all the potential of Django to create interactive front-ends. This method has its drawbacks because if connection is lost to the server the components in the front-end go busted until connection is re-established. But also has some advantages, as everything is server side rendered the interface comes already with meaningful information in the first request response, you can use all the power of Django template without limitations, if connection is lost or a component crashes, the front-end will have enough information to rebuild their state in the last good known state.

Installation and setup

Reactor requires Python >=3.6.

Install reactor:

pip install django-reactor

Reacto makes use of django-channels, by default this one uses an InMemory channel layer which is not capable of a real broadcasting, so you might wanna use the Redis one, take a look here: Channel Layers

Add reactor and channels to your INSTALLED_APPS before the Django applications so channels can override the runserver command.

Register the reactor consumer at the url /__reactor__ in your project/urls.py as in:

from django.contrib import admin
from django.urls import path, include
from reactor.channels import ReactorConsumer

urlpatterns = [
    path('admin/', admin.site.urls),
]

websocket_urlpatterns = [
    path('__reactor__', ReactorConsumer),
]

and modify your project/asgi.py file like:

import os

os.environ.setdefault('DJANGO_SETTINGS_MODULE', 'tutorial.settings')

from reactor.asgi import ASGIHandler  # noqa

application = ASGIHandler()

Note 1: The reactor ASGIHandler will be load the URLs from your project/urls.py and the HTTP ones and the WebSocket ones, so if you need to add more WebSocket handlers feel free to add them to websocket_urlpatterns.

Note 1: Reactor since version 2, autoloads any live.py file in your applications with the hope to find there Reactor Components so they get registered and can be instantiated.

In the templates where you want to use reactive components you have to load the reactor static files. So do something like this so the right JavaScript gets loaded:

{% load reactor %}
<!doctype html>
<html>
  <head>
     ....
     {% reactor_header %}
  </head>
  ...
</html>

Don't worry if you put this as early as possible, the scripts are loaded using <script defer> so they will be downloaded in parallel with the html, and then all is loaded they are executed.

Settings:

  • REACTOR_AUTO_BROADCAST (default: False), when enabled will activate listeners for every time a model is created, modified or deleted, and will broadcast a message related to that modification that you can subscribe to and use to refresh your components in real-time, you can fine tune what kind of notification you want to get by turning this in a dictionary, for example:
AUTO_BROADCAST = {
    # model_a
    # model_a.del
    # model_a.new
    'MODEL': True,

    # model_a.1234
    'MODEL_PK': True,

    # model_b.1234.model_a_set
    # model_b.1234.model_a_set.new
    # model_b.1234.model_a_set.del
    'RELATED': True,

    # model_b.1234.model_a_set
    # model_a.1234.model_b_set
    'M2M': True,
}
  • REACTOR_INCLUDE_TURBOLINKS (default: False), when enabled will load Turbolinks as part of the reactor headers and the reactor redirects (Component.send_redirect) will use Turbolinks.visit. This also affects all the links in your application, check out the documentation of Turbolinks.
  • REACTOR_USE_HTML_DIFF (default: True), when enabled uses difflib to create diffs to patch the front-end, reducing bandwidth.

Back-end APIs

Template tags and filters of react library

  • {% reactor_headers %}: that includes the necessary JavaScript to make this library work. ~5Kb of minified JS, compressed with gz or brotli.
  • {% component 'x-component-name' param1=1 param2=2 %}: Renders a component by its name and passing whatever parameters you put there to the Component.mount method.
  • tojson: Takes something and renders it in JSON, the ReactorJSONEncoder extends the DjangoJSONEncoder it serializes a Model instance to its id and a QuerySet as a list of ids.
  • tojson_safe: Same as tojson but does not "HTML escapes" the output.
  • then: Use as a shorthand for if, {% if expression %}print-this{% endif %} is equivalent to {{ expresssion|then:'print-this' }}.
  • ifnot: Use a shorthand for if not, {% if not expression %}print-this{% endif %} is equivalent to {{ expresssion|ifnot:'print-this' }}, and can be concatenated with then, like in: {{ expression|then:'positive'|ifnot:'negative' }}`
  • eq: Compares its arguments and returns "yes" or empty string, {{ this_thing|qe:other_other|then:'print-this' }}.

reactor.component module

  • Component: This is the base component you should extend.
  • AuthComponent: Extends Component and ensures the user is logged in.
  • broadcast(*names): Broadcasts the given names too all the system.
  • on_commit(function)(*args, **kwargs): Calls function with the given arguments after database commit.

Component API

  • template_name: Set the name of the template of the component.
  • extends: Tag name HTML element the component extends.
  • serialize: Should returns a dictionary with the persistent state of the component (stored in the front-end) so when the components is connects to the back-end (or reconnects) that state can be recreated, By default serializes just the id of the component, and the id should always be serialized.
  • mount(**kwargs): Loads the initial state of the component when is rendered from the back-end or it reconnects from the front-end (using the information created by serialize), it is also called in case a subscription of the component is triggered.
  • subscribe(*names): Subscribes the current component to the given signal names, when one of those signals is broadcasted the component is refreshed, meaning that mount is called passing the result serialize and the component is re-rendered.
  • send_redirect(url, *args, **kwargs ): Resolves the url, and instructs the front-end to redirect to that url, if push_state=False, the redirect is done in hard HTML5 pushState is not used.
  • send_destroy(): Removes the component from the interface.
  • send(_name, id=None, **kwargs): Sends a message with the name _name to the component with id, if id is None the message is sent to the current component.
  • send_parent(_name, kwargs): Sends a message with the name _name to the parent component.

AuthComponent API

This component ensures the user is logged in or redirects the user to the login screen; when using this component and overriding mount make sure to call the support mount first.

  • mount(**kwargs): Same as before, but returns True if the user is logged in.
  • user: the current logged-in user.

Front-end APIs

  • reactor.push_state(url): pulls the next page from the backend with a get request, and applies it to the current page.
  • reactor.send(element, event_name, args): send the event event_name with the args parameters to the HTML element. It what is used to forward user event to the back-end.

Special HTMLElement attributes

  • :keep: Prevents the value of an input, select or textarea to be override from the server, preserving the values the user saw from the first render or typed.
  • :once: Reactor will render this element and children once, and never update it again.
  • :focus: Sets the focus on this element after an HTML update.

Event binding in the front-end

Look at this:

  <button @click.prevent="submit">Submit</button?>

The format is @<event>[.modifier][.modifier]="event_name[ {arg1: 1, arg2: '2'}]":

  • event: is the name of the HTMLElement event: click, blur, change, keypress, keyup, keydown...
  • modifier: can be concatenated after the event name and represent actions or conditions to be met before the event execution. This is very similar as how VueJS does event binding:
    • prevent: calls event.preventDefault();
    • stop: calls (event.stopPropagation();),
    • enter, ctrl, alt, space, expects any of those keys to be press.
    • inlinejs: allows you to write your custom JavaScript in the event handler.
    • debounce: the bounces the event, it needs a name and the delay in milliseconds. Example: @keypress.100.search.debounce='message'.
  • event_name: is the name of the message to be send to this component
  • The arguments can be completely omitted, or specified as a dictionary.

When the arguments are omitted reactor serializes the form where the current element is or the current component if no form is found, and sends that as the arguments. The arguments will be always sent with the id of the current component as a parameter.

JS Hooks

This are custom events triggered by reactor in different instants of the life cycle of the component.

  • @reactor-init: Triggered on any HTML element when the component is initialized.
  • @reactor-added: Triggered on any HTML element that is added to the DOM of the component.
  • @reactor-updated: Triggered on any HTML element that is updated, after the update happens.
  • @reactor-leave: Triggered on the root element when the element had been removed from the DOM.

Serialization

Serialization of means to look at a chunk of HTML and extract the value of all elements with a name attribute in it. Reactor serialization supports nesting:

Note on contenteditable elements, if they hava a name attribute they are serialized taking their inner HTML, if they have the special attribute :as-text, just their text is serialized.

Example 1

<input name="a" value="q">
<input name="b" value="x">

Result: {a: "q", b: "x"}

Example 2

<input name="query" value="q">
<input name="person.name" value="John">
<input name="person.age" value="99">

Result: {query: "q", person: {name: "John", value: "99"}}

Example 3

<input name="query" value="q">
<input name="persons[].name" value="a">
<input name="persons[].name" value="b">

Result: {query: "q", persons: [{name: "a"}, {name: "b"}]}

Event handlers in the back-end

Given:

<button @click="inc {amount: 2}">Increment</button?>

You will need an event handler in that component in the back-end:

 def receive_inc(self, amount, **kwargs):
    pass

Always prefix the method name with receice_ and add **kwargs at the end because more data is always sent to the component, like the component's own id.

Simple example of a counter

In your app create a template x-counter.html:

{% load reactor %}
<div {{ this }}>
  {{ this.amount }}
  <button @click="inc">+</button>
  <button @click="dec">-</button>
  <button @click="set_to {amount: 0}">reset</button>
</div>

Anatomy of a template: each component should be a custom web component that inherits from HTMLElement. They should have an id so the backend knows which instance is this one and a state attribute with the necessary information to recreate the full state of the component on first render and in case of reconnection to the back-end.

Render things as usually, so you can use full Django template language, trans, if, for and so on. Just keep in mind that the instance of the component is referred as this.

Forwarding events to the back-end: Notice that for event binding in-line JavaScript is used on the event handler of the HTML elements. How this works? When the increment button receives a click event send(this, 'inc') is called, send is a reactor function that will look for the parent custom component and will dispatch to it the inc message, or the set_to message and its parameters {amount: 0}. The custom element then will send this message to the back-end, where the state of the component will change and then will be re-rendered back to the front-end. In the front-end morphdom (just like in Phoenix LiveView) is used to apply the new HTML.

Now let's write the behavior part of the component in live.py:

from reactor import Component

class XCounter(Component):

    amount = None

    # reference the template from above
    template_name = 'x-counter.html' 

    # A component is instantiated during normal rendering and when the component
    # connects from the front-end. Then  __init__ is called passing `context` of
    # creation (in case of HTML  rendering is the context of the template, in
    # case of a WebSocket connection is the scope of django channels) Also the
    # `id` is passed if any is provided, otherwise a `uuid4` is  generated on
    # the fly.

    # This method is called after __init__ passing the initial state of the 
    # Component, this method is responsible taking the state of the component
    # and construct or reconstruct the component. Sometimes loading things from
    # the database like tests of this project.
    def mount(self, amount=0, **kwargs):
        self.amount = amount

    # This method is used to capture the essence of the state of a component
    # state, so it can be reconstructed at any given time on the future.
    # By passing what ever is returned by this method to `mount`.
    def serialize(self):
        return dict(id=self.id, amount=self.amount)

    # This are the event handlers they always start with `receive_`

    def receive_inc(self, **kwargs):
        self.amount += 1

    def receive_dec(self, **kwargs):
        self.amount -= 1

    def receive_set_to(self, amount, **kwargs):
        self.amount = amount

Let's now render this counter, expose a normal view that renders HTML, like:

def index(request):
    return render(request, 'index.html')

And the index template being:

{% load reactor %}
<!doctype html>
<html>
  <head>
     ....
     {% reactor_header %}
  </head>
  <body>
    {% component 'x-counter' %}

    <!-- or passing an initial state -->
    {% component 'x-counter' amount=100 %}    

  </body>
</html>

Don't forget to update your urls.py to call the index view.

More complex components

I made a TODO list app using models that signals from the model to the respective channels to update the interface when something gets created, modified or deleted.

This example contains nested components and some more complex interactions than a simple counter, the app is in the /tests/ directory.

Development & Contribution

Clone the repo and create a virtualenv or any other contained environment, get inside the repo directory, build the development environment and the run tests.

git clone git@github.com:edelvalle/reactor.git
cd reactor
make install
make test

If you wanna run the inside Django project that is used for testing do:

make
cd tests
python manage.py runserver

Enjoy!

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