HTML over ther Wire, or HTML over the WebSockets, is a strategy for creating real-time SPAs by creating a WebSockets connection between a client and a server. It allows JavaScript to request actions, its only responsibility is to handle events, and the backend handles the business logic as well as rendering HTML. This means you can create pages without reloading the page, without AJAX or APIs. One technology provides a secure, stable and low-delay connection for real-time web applications.
Django LiveView is a framework for creating Realtime SPAs using HTML over the Wire technology. It is inspired by Phoenix LiveView and it is built on top of Django Channels.
It allows you to create interactive web applications using only HTML, CSS and Python. JavaScript ONLY is used to capture events, send and receive strings over a WebSockets channel.
Let’s illustrate with an example. I want to print article number 2.
1- A WebSockets connection, a channel, is established between the client and the server.
2- JavaScript sends a text, not a request, via WebSockets to the Server (in our case Django).
3- Django interprets the text and renders the HTML of the article through the template system and the database.
4- Django sends the HTML to JavaScript via the channel and tells it which selector to embed it in.
5- JavaScript draws the received HTML in the indicated selector.
The same process is repeated for each action, such as clicking a button, submitting a form, etc.
- All in real time. The data is sent and received instantly.
- Single connection. You don’t need to open and close connections like calls to an API.
- Create SPAs without using APIs o JavaScript frameworks.
- Uses Django’s template system to render the frontend (The use of JavaScript is anecdotal).
- The logic is not split between the backend and the frontend, it all stays in Python.
- You can still use all of Django’s native tools, such as its ORM, forms, plugins, etc.
- Everything is asynchronous by default.
- Don’t learn anything new. If you know Python, you know how to use Django LiveView.
Are you ready to create your first Realtime SPA? Let’s go to the Quickstart.
You can install Django LiveView with pip
.
pip install django-liveview
Then add liveview
to your installed INSTALLED_APPS
in your settings.py
.
INSTALLED_APPS = [
"daphne",
"channels",
"liveview",
]
You need to previously have installed channels
and daphne
.
Now, in settings.py
, indicate in which previously created App you want to integrate LiveView.
LIVEVIEW_APPS = ["website"]
Finally, execute the migrations so that the LiveView tables are generated.
python manage.py migrate
We strongly recommend that you follow the Quickstart to see the installation in action.
Actions are where business logic is stored. The place where you write the functions in Python instead of JavaScript. They are the ones that will be executed when the page is loaded, when a button is clicked, when a form is submitted, etc. The can be launched by the backend or by the frontend. For example, when a button is clicked, the frontend sends a request to the backend to execute an action. But the backend can send a request to the frontend at any time, for example when a new commentary is added to an article then all clients will receive the new commentary. In other words, the actions can be executed by the backend or by the frontend. The more common actions will be render HTML and send it to the client, but you can do anything you want. They are the heart of Django LiveView.
In every app you can create a folder called actions
and inside it a file for each page. For example, home.py
for the home page. The file will have the following structure:
# my_app/actions/home.py
from liveview.context_processors import get_global_context
from core import settings
from liveview.utils import (
get_html,
update_active_nav,
enable_lang,
loading,
)
from django.utils.translation import gettext as _
from django.templatetags.static import static
from django.urls import reverse
template = "pages/home.html"
# Database
# Functions
async def get_context(consumer=None):
context = get_global_context(consumer=consumer)
# Update context
context.update(
{
"url": settings.DOMAIN_URL + reverse("home"),
"title": _("Home") + " | Home",
"meta": {
"description": _("Home page of the website"),
"image": f"{settings.DOMAIN_URL}{static('img/seo/og-image.jpg')}",
},
"active_nav": "home",
"page": template,
}
)
return context
@enable_lang
@loading
async def send_page(consumer, client_data, lang=None):
# Nav
await update_active_nav(consumer, "home")
# Main
my_context = await get_context(consumer=consumer)
html = await get_html(template, my_context)
data = {
"action": client_data["action"],
"selector": "#main",
"html": html,
}
data.update(my_context)
await consumer.send_html(data)
Let’s explain each part.
template
is the name of the template that will be rendered.get_context()
is a function that returns a dictionary with the context of the page.url
: The URL of the page. It will be used to change the direction of the browser and the user perceives a page change, even if it is not real.title
: The title of the page.meta
: They are the SEO and Open Graph meta tags.
active_nav
: It is used to highlight the active page in the navigation menu.page
: Name of the template that will be rendered. it is the same astemplate
.
The function send_page()
is responsible for rendering the page and sending it.
from liveview.utils import (
get_html,
update_active_nav,
enable_lang,
loading,
)
@enable_lang
@loading
async def send_page(consumer, client_data, lang=None):
# Nav
await update_active_nav(consumer, "home")
# Main
my_context = await get_context(consumer=consumer)
html = await get_html(template, my_context)
data = {
"action": client_data["action"],
"selector": "#main",
"html": html,
}
data.update(my_context)
await consumer.send_html(data)
update_active_nav()
updates the class that marks the page where we are in the menu. You need update the context with the data that you want to send to the client. get_html()
is a function that renders the template with the context. send_html()
is a function that sends the HTML to the client.
Whenever you want to send a new HTML to the frontend, you will use the send_html()
function with the following structure.
data = {
"action": "home->send_page",
"selector": "#main",
"html": "<h1>My home</h1><p>Welcome to my home</p>",
}
await consumer.send_html(data)
action
: The name of the action that will be executed on the client side. It is used for cache management and to know which action to execute. It will almost always be the same action that the client sent us.selector
: The selector where the HTML will be placed.html
: The HTML that will be placed in the selector.
Optionally we can include others.
append
: Default: false. If true, the HTML will be added, not replaced.delete
: Default: false. If true, the HTML will be deleted.html
andappend
will be ignored. Onlyselector
will be used.scroll
: Default: false. If true, the page will be scrolled to the selectorscrollTop
: Default: false. If true, the page will be scrolled to the top.
When you update via context, you add the following. They are all optional.
title
: The title of the page.meta
: They are the SEO and Open Graph meta tags.active_nav
: It is used to highlight the active page in the navigation menu.page
: Name of the template that will be rendered.
You can use the following decorators to make your actions more readable and maintainable.
@enable_lang
: It is used to enable the language. It is necessary to use thegettext
function. If you site only has one language, you can remove it.@loading
: It is used to show a loading animation while the page is being rendered. If there is no loading delay, for example the database access is very fast or you don’t access anything external like an API, you can remove it.
If you want to access the database, you can use the Django ORM as you would in a normal view. The only difference is that the views are asynchronous by default. You can use the database_sync_to_async
function from channels.db
.
from channels.db import database_sync_to_async
from .models import Article
template = "pages/articles.html"
# Database
@database_sync_to_async
def get_articles(): # New
return Article.objects.all()
# Functions
async def get_context(consumer=None):
articles = await get_articles()
context = get_global_context(consumer=consumer)
# Update context
context.update(
{
...
"articles": await get_articles(), # New
}
)
return context
Now you can use the articles
variable in the template.
{% for article in articles %}
<h2>{{ article.title }}</h2>
<p>{{ article.content }}</p>
{% endfor %}
If you want the SSR (Server Side Rendering) to continue working, you need to modify the view function so that it is asynchronous.
From:
async def articles(request):
return render(request, settings.TEMPLATE_BASE, await get_context())
To:
from asgiref.sync import sync_to_async
async def articles(request):
return await sync_to_async(render)(request, settings.TEMPLATE_BASE, await get_context())
The frontend is responsible for capturing events and sending and receiving strings. No logic, rendering or state is in the frontend. It is the backend that does all the work.
Since DOM trees are constantly being created, updated and deleted, a small framework is used to manage events and avoid collisions: Stimulus. It is very simple and easy to use. In addition, some custom functions have been created to simplify more processes such as WebSockets connection, data sending, painting, history, etc. When you cloned the frontend repository you included all of that. You do not have to do anything.
In the following example, we will create a button that when clicked will call the sent_articles_next_page
function of the blog_list
action (actions/blog_list.py
).
<button type="button"
data-action="click->page#run"
data-liveview-action="blog_list"
data-liveview-function="send_articles_next_page"
data-next-page="2"
>Cargar mas</button>
data-action
: Required. Indicate the event (click
), the controller (page
is the default controller in Django LiveView) and function in Stimulus (run
). You will never change it.data-liveview-action
: Required. The name of the action file (blog_list.py
).data-liveview-function
: Required. The name of the function in the action file (send_articles_next_page
).data-next-page
: Optional. You can send data to the backend. In this case, the page number.
All actions have a mandatory function send_page
. It is used to move from one page to another. There is a quick function called changePage
to do this.
For example, if you want to go to the About Me page, you can use the following code.
<button
data-action="click->page#changePage"
data-page="about_me"
>Go to about me page</button>
It would be equivalent to doing:
<button
data-action="click->page#run"
data-liveview-action="about_me"
data-liveview-function="send_page"
>Go to about me page</button>
Django LiveView uses the same views as Django, but the main difference is that the views are asynchronous by default.
To make a view renderable by SSR (Server Side Rendering) and by SPA (Single Page Application), you need to create a function with the following structure:
from .actions.home import get_context as get_home_context
async def home(request):
return render(request, settings.TEMPLATE_BASE, await get_home_context())
The get_home_context()
function returns a dictionary with the context of the page present in the action. The settings.TEMPLATE_BASE
is the base template that will be rendered, por example layouts/base.html
.
If you want to render data from a database on the template, for example:
{% for article in articles %}
{{ article.title }}
{{ article.content }}
{% endfor %}
You will see an error: You cannot call this from an async context - use a thread or sync_to_async.
.
You can use the sync_to_async
function from asgiref
.
from asgiref.sync import sync_to_async
from .actions.blog_list import get_context as get_list_context
async def blog_list(request):
return await sync_to_async(render)(request, settings.TEMPLATE_BASE, await get_list_context())
Or transform articles
to a list. But you lose the benefits of ORM.
If you want to move from one page to another, you can use the page
controller and the changePage
action.
For example, you can create a link to the about me
page.
<a
data-action="click->page#changePage"
data-page="about_me"
href="{% url "about me" %}" <!-- Optional -->
role="button" <!-- Optional -->
>Go to about me page</a>
data-action
: Indicates that the element is an action.click
to capture the click event.page#changePage
to call thechangePage
function of thepage
controller.data-page
: Indicates the name of the page to which you want to move. The name is the same as the name of the action file. For example,actions/about_me.py
.href
: Optional. It is recommended to use thehref
attribute to improve SEO or if JavaScript is disabled.role
: Optional. It is recommended to use therole
attribute to improve accessibility or if JavaScript is disabled.
Or use a button for it.
<button
data-action="click->page#changePage"
data-page="about_me"
>Go to about me page</button>
If you want to send data to the next page, you can use the data-
attribute. All datasets will be sent.
For example, you can create a link to the blog single
page with the slug
of the article.
<a
data-action="click->page#changePage"
data-page="blog_single"
data-slug="{{ article.slug }}"
href="{% url "blog single" slug=article.slug %}" <!-- Optional -->
role="button" <!-- Optional -->
>See article</a>
To receive the data in action blog_single.py
you can use the client_data
parameter with the data
key.
@enable_lang
@loading
async def send_page(consumer, client_data, lang=None):
slug = client_data["data"]["slug"]
# ...
Here you can see a typical example of a single page of a blog.
@enable_lang
@loading
async def send_page(consumer, client_data, lang=None):
# Nav
await update_active_nav(consumer, "blog")
# Main
my_context = await get_context(consumer=consumer, slug=client_data["data"]["slug"])
html = await get_html(template, my_context)
data = {
"action": client_data["action"],
"selector": "#main",
"html": html,
}
data.update(my_context)
await consumer.send_html(data)
Los formularios en Django LiveView son nativos de Django. Puedes usar los formularios de modelo, los formularios de clase, los formularios de funciones, etc. O crearlos directamente en HTML. La única diferencia es que los datos se envían a través de WebSockets en lugar de HTTP.
A continución puedes ver un ejemplo de un formulario de búsqueda donde se crea un campo de texto.
from django import forms
class SearchForm(forms.Form):
search = forms.CharField(
label="Search",
max_length=255,
widget=forms.TextInput(
attrs={
"data-action": "keyup.enter->page#run",
"data-liveview-action": "blog_list",
"data-liveview-function": "send_search_results",
},
),
)
Cuando se pulse la tecla Enter
se ejecutará la función send_search_results
del archivo de acción blog_list.py
.
Incluyelo en el contexto.
async def get_context(consumer=None):
context = get_global_context(consumer=consumer)
# Update context
context.update(
{
...
"search_form": SearchForm(),
...
}
)
return context
E imprimirlo en el template puedes hacerlo mediante el objeto.
<form id="search" class="search">
{{ search_form.as_p }}
</form>
Para recoger los datos en la función send_search_results
puedes hacerlo mediante el objeto client_data
.
@enable_lang
@loading
async def send_search_results(consumer, client_data, lang=None):
search = client_data["form"]["search"]
# ...
Recibir un campo o todo un formulario es similar. La diferencia es que action
, data-liveview-action
y data-liveview-function
se encuentran en el formulario, o botón de envío, y no en un campo concreto.
Veamos un ejemplo de un formulario de contacto.
class ContactForm(forms.Form):
name = forms.CharField(
label="Name",
max_length=255,
)
email = forms.EmailField(
label="Email",
max_length=255,
)
message = forms.CharField(
label="Message",
)
Lo incluimos en el contexto.
async def get_context(consumer=None):
context = get_global_context(consumer=consumer)
# Update context
context.update(
{
...
"contact_form": ContactForm(),
...
}
)
return context
Y lo imprimimos en el template con el botón de envío personalizado.
<form id="contact" class="contact">
{{ contact_form.as_p }}
<button
type="button"
data-action="click->page#run"
data-liveview-action="contact"
data-liveview-function="send_contact"
>Send</button>
</form>
Los datos se recogen de la misma forma que en el caso anterior.
@enable_lang
@loading
async def send_contact(consumer, client_data, lang=None):
name = client_data["form"]["name"]
email = client_data["form"]["email"]
message = client_data["form"]["message"]
# ...
Para validar un formulario puedes hacerlo de la misma forma que en Django. Pero si quieres mostrar los errores en tiempo real, debes redibujar el formulario en cada ocasión.
If you make a SPA you will have a problem with the history management system. When you go back in history, you will lose the data and the HTML of the previous page. This is because the data is removed from the DOM. It is not a problem with Django LiveView.
Django LiveView has a history management system that allows you go back in history without receive any data from the server. Every time you change the page, the data and HTML are stored in the Session Storage. You don’t need to do anything, it is automatic! 😸
The only limitation is forward navigation. If you want to go forward, you need to receive the data from the server because the data is remove from the Session Storage when you go back.
You can customize the history management system by editing the history
controller in assets/js/mixins/history.js
.
If you want to disable it, remove `startHistory();` from assets/js/main.js
.
Django LiveView uses the same internationalization system as Django. You can read more about it in the Django documentation. However, let’s go deeper.
Every time that the client sends a request for action, it sends the language that the user has set in the browser.
{
"action": "blog_list->send_page",
"data": {
"lang": "es"
}
}
The lang
attribute is extracted directly from the <html>
tag.
{% load static i18n %}
<!doctype html>{% get_current_language as CURRENT_LANGUAGE %}
<html lang="{{ CURRENT_LANGUAGE }}">
You can access the language with the lang
parameter of the action using the @enable_lang
decorator.
@enable_lang
@loading
async def send_page(consumer, client_data, lang=None):
print(lang)
Or you could read it with the lang
key of the client_data
parameter.
@loading
async def send_page(consumer, client_data):
print(client_data["data"]["lang"])
You can read the tutorial Internationalize with subdomains to see how to create a multilingual website with subdomains.
It is very useful when the database access is slow or you access external services like APIs. You can make a loading animation while the page is being rendered.
For example, first create a template called loading.html
.
<div
style="
position: fixed;
inset: 0;
z-index: 9999;
backdrop-filter: blur(3px);
"
></div>
This code will blur the entire page. You can customize it as you like.
Add a tag with #loading
to your main layout, or HTML fragment that all templates share.
<section id="loading"></section>
Now you can make tools_template.py
in the app or root folder with the following content.
from django.template.loader import render_to_string
from liveview.context_processors import get_global_context
async def toggle_loading(consumer, show=False):
"""Toogle Loading template."""
data = {
"action": ("Show" if show else "Hide") + " loading",
"selector": "#loading",
"html": render_to_string(
"loading.html", get_global_context(consumer=consumer)
)
if show
else "",
}
await consumer.send_html(data)
def loading(func):
"""Decorator: Show loading."""
async def wrapper(*args, **kwargs):
await toggle_loading(args[0], True)
result = await func(*args, **kwargs)
await toggle_loading(args[0], False)
return result
return wrapper
And in the action file, you can use the @loading
decorator.
from app.tools_template import loading
@loading
async def send_page(consumer, client_data, lang=None):
my_context = await get_context(consumer=consumer)
html = await get_html(template, my_context)
data = {
"action": client_data["action"],
"selector": "#main",
"html": html,
}
data.update(my_context)
await consumer.send_html(data)
This will render the loading HTML in #loading
before running the action and clear all the HTML when finished.
It may be the case that the connection is lost, when user has lost the internet connection or the server has been restarted, and it’s a problem because Django LiveView depends on a constant connection. In these cases, the client automatically will try to reconnect to the server. But while this happens, the user will have to be informed and any type of interaction blocked. If you do not block user interactions, actions will accumulate in the browser until communication is reestablished. Where they will all be sent at once. If, for example, the user impatiently presses the next page button 10 times, the user will skip 10 pages. It is a problem for him and for the server that will process many instructions at once.
To solve this problem, you can create a tag with the #no-connection
id in your main layout, or HTML fragment that all templates share.
<section id="no-connection" class="no-connection no-connection--hide">
<h2>Lost connection</h2>
<p>Trying to reconnect...</p>
</section>
Add add the followind styles.
.no-connection {
position: fixed;
inset: 0;
z-index: 9999;
background-color: black;
color: white;
display: flex;
justify-content: center;
align-items: center;
flex-direction: column;
}
.no-connection--hide {
display: flex;
}
If there is no connection, the #no-connection
will be displayed with .no-connection--show
class. Otherwise, it will be hidden with the .no-connection--hide
class.
You can deploy Django LiveView using any web server like reverse proxy.
I recommend using Nginx. Here is an example of how to configure. Replace example.com
with your domain and my-project
with your folder name.
server {
listen 80;
server_name example.com;
location / {
proxy_pass http://127.0.0.1:8000;
proxy_set_header Host $host;
proxy_http_version 1.1;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection "upgrade";
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
proxy_set_header X-Forwarded-Host $server_name;
proxy_set_header X-Real-IP $remote_addr;
proxy_redirect off;
}
location /static {
include /etc/nginx/mime.types;
root /var/www/my-project;
}
location /media {
include /etc/nginx/mime.types;
root /var/www/my-project;
}
location = /favicon.ico { access_log off; log_not_found off; }
}
It is important to note that the proxy_set_header
lines are necessary for the WebSocket to work. You can see more about it in Channels.
No, you don’t need. You can create SPAs without using APIs, without JavaScript, and without learning anything new. If you know Python, you know how to use Django LiveView.
Yes, you can. You can use JavaScript to capture events, send and receive strings over a WebSockets channel.
Of course. You can still use all of Django’s native tools, such as its ORM, forms, plugins, etc.
No. All logic, rendering and state is in the backend.
Yes, you can.
Only me and my free time. If you want to support the project, you can be my patron.
Learn how to create a Django LiveView application step by step.
Welcome to the Quickstart guide. Here you will learn how to create your first Realtime SPA using Django LiveView. I assume you have a basic understanding of Django and Python.
All the steps are applied in a minimalist template.
Install Django, create a project and an app.
Install django-liveview with pip
.
pip install django-liveview
Add liveview
to your installed INSTALLED_APPS
.
INSTALLED_APPS = [
"daphne",
"channels",
"liveview",
]
Then indicate in which previously created App you want to implement LiveView.
LIVEVIEW_APPS = ["website"]
Execute the migrations so that the LiveView tables are generated.
python manage.py migrate
Modify the ASGI file, asgi.py
to add the LiveView routing. In this example it is assumed that settings.py is inside core, in your case it may be different.
import os
import django
os.environ.setdefault("DJANGO_SETTINGS_MODULE", "core.settings")
django.setup()
from channels.auth import AuthMiddlewareStack
from django.core.asgi import get_asgi_application
from channels.security.websocket import AllowedHostsOriginValidator
from channels.routing import ProtocolTypeRouter, URLRouter
from django.urls import re_path
from liveview.consumers import LiveViewConsumer
application = ProtocolTypeRouter(
{
# Django's ASGI application to handle traditional HTTP requests
"http": get_asgi_application(),
# WebSocket handler
"websocket": AuthMiddlewareStack(
AllowedHostsOriginValidator(
URLRouter([re_path(r"^ws/liveview/$", LiveViewConsumer.as_asgi())])
)
),
}
)
Place where the functions and logic of the business logic are stored. We will start by creating an action to generate a random number and print it.
Create inside your App a folder called actions
, here will go all the actions for each page. Now we will create inside the folder a file named home.py
.
# my-app/actions/home.py
from liveview.context_processors import get_global_context
from core import settings
from liveview.utils import (
get_html,
update_active_nav,
enable_lang,
loading,
)
from channels.db import database_sync_to_async
from django.templatetags.static import static
from django.urls import reverse
from django.utils.translation import gettext as _
from random import randint
template = "pages/home.html"
# Database
# Functions
async def get_context(consumer=None):
context = get_global_context(consumer=consumer)
# Update context
context.update(
{
"url": settings.DOMAIN_URL + reverse("home"),
"title": _("Home") + " | Home",
"meta": {
"description": _("Home page of the website"),
"image": f"{settings.DOMAIN_URL}{static('img/seo/og-image.jpg')}",
},
"active_nav": "home",
"page": template,
}
)
return context
@enable_lang
@loading
async def send_page(consumer, client_data, lang=None):
# Nav
await update_active_nav(consumer, "home")
# Main
my_context = await get_context(consumer=consumer)
html = await get_html(template, my_context)
data = {
"action": client_data["action"],
"selector": "#main",
"html": html,
}
data.update(my_context)
await consumer.send_html(data)
async def random_number(consumer, client_data, lang=None):
my_context = await get_context(consumer=consumer)
data = {
"action": client_data["action"],
"selector": "#output-random-number",
"html": randint(0, 10),
}
data.update(my_context)
await consumer.send_html(data)
There are several points in the above code to keep in mind.
template
is the name of the template that will be rendered.get_context()
is a function that returns a dictionary with the context of the page.send_page()
is the function that will be executed when the page is loaded.random_number()
is the function that will be executed when the button is clicked.
Now we will create the base template, which will be the one that will be rendered when the page is loaded.
Create a folder called templates
, or use your template folder, inside your App and inside it create another folder called layouts
. Now create a file called base.html
.
{# my-app/templates/layouts/base.html #}
{% load static i18n %}
<!doctype html>{% get_current_language as CURRENT_LANGUAGE %}
<html lang="{{ CURRENT_LANGUAGE }}">
<head>
<meta charset="utf-8">
<title>{{ title }}</title>
<meta
name="viewport"
content="width=device-width, initial-scale=1.0, shrink-to-fit=no"
>
<meta
name="description"
content="{{ meta.description }}"
>
<meta
property="og:image"
content="{{ meta.image }}"
>
<script type="module" src="{% static 'js/main.js' %}" defer></script>
</head>
<body
data-host="{{ request.get_host }}"
data-debug="{{ DEBUG }}"
data-controller="page"
>
<main id="main" class="main-container">{% include page %}</main>
</body>
</html>
In the future we will define main.js
, a minimal JavaScript to connect the events and the WebSockets client.
We will create the home page template, which will be the one that will be rendered when the page is loaded.
Create a folder called pages
in your template folder and inside it create a file called home.html
.
{# my-app/templates/pages/home.html #}
{% load static %}
<main>
<p>
<button
data-action="click->page#run"
data-liveview-action="home"
data-liveview-function="random_number"
>Random number</button>
</p>
<h2 id="output-random-number"></h2>
</main>
As you can see, we have defined a button to launch the action of generating the random number (button
) and the place where we will print the result (output-random-number
).
Now we are going to create the frontend, the part where we will manage the JavaScript events and invoke the actions.
Download frontend and unzip it in your static folder. You will be left with the following route: /static/js/
.
We will create the view that will render the page for the first time (like Server Side Rendering). The rest of the times will be rendered dynamically (like Single Page Application).
In a normal Django application we would create a view, views.py
, similar to the following:
# my-app/views.py
from django.shortcuts import render
# Create your views here.
def home(request):
return render(request, "pages/home.html")
With LiveView, on the other hand, you will have the following structure.
# my-app/views.py
from django.shortcuts import render
from .actions.home import get_context as get_home_context
from liveview.utils import get_html
async def home(request):
return render(request, "layouts/base.html", await get_home_context())
Finally, we will create the URL that will render the page.
# my-app/urls.py
from django.urls import path
from .views import home
urlpatterns = [
path("", home, name="home"),
]
Run the server.
python3 manage.py runserver
And open the browser at http://localhost:8000/
. You should see the home page with a button that generates a random number when clicked.
You can also interact with the online demo.
Congratulations! You have created your first Realtime SPA using Django LiveView.
The next step is to create a more complex application. You can read other tutorials or go to the documentation.
Here you will learn how to create a multilingual website using Django LiveView.
We using subdomains to define the language (en.example.com
, es.example.com
…), instead of using prefixes in addresses (example.com/en/blog/
, example.com/es/blog/
). They simplify SEO, maintain consistency in the Sitemap and are easy to test.
We will use the following structure:
example.com
anden.example.com
for English.es.example.com
for Spanish.
In your settings.py
file, add all domains that will be used.
ALLOWED_HOSTS = ["example.com", "en.example.com", "es.example.com"]
And add or modify the following settings in the same file (settings.py
).
# Languages
# Enable internationalization
USE_I18N = True
# Default language
LANGUAGE_CODE = "en"
# Available languages
LANGUAGES = [
("en", _("English")),
("es", _("Spanish")),
]
# Locale paths
LOCALE_PATHS = (BASE_DIR / "locale/",)
Create a middleware that redirects the user to the correct subdomain and sets the language. If the user enters en.example.com
or example.com
, English language will be activated. If the user enters es.example.com
, Spanish language will be activated. And if the user enters en.example.com
, it will be redirected to example.com
.
Create a file called middlewares.py
in your project folder and add the following code.
from django.utils import translation
from django.conf import settings
from django.utils.translation import get_language
from django.http import HttpResponseRedirect
def language_middleware(get_response):
# One-time configuration and initialization.
def middleware(request):
# Code to be executed for each request before
# the view (and later middleware) are called.
# Set the language based on the domain
# Example:
# "example.com" and "en.example.com" -> en
# "es.example.com" -> es
# Get the domain from the request
domain = request.META["HTTP_HOST"]
# Get the subdomain
domain_list = domain.split(".")
subdomain = domain_list[0] if len(domain_list) == 3 else None
# Set the language
if get_language() != subdomain:
translation.activate(subdomain)
# Redirect default language to main domain
# Example: "en.example.com" -> "example.com"
if subdomain == settings.LANGUAGE_CODE:
return HttpResponseRedirect("http://example.com")
response = get_response(request)
# Code to be executed for each request/response after
# the view is called.
return response
return middleware
Now, add the middleware to the MIDDLEWARE
list in settings.py
.
MIDDLEWARE = [
...
"middlewares.language_middleware",
]
In any of your HTML templates, you can use translation tags to display multilingual texts.
{% load i18n %} <h1>{% trans "Hello" %}</h1> <p>{% blocktrans %}This is a multilingual website.{% endblocktrans %}</p>
For titles and descriptions, you can use the meta
dictionary in the action with _("text")
to translate the texts.
from liveview.context_processors import get_global_context
from django.conf import settings
from liveview.utils import (
get_html,
update_active_nav,
enable_lang,
loading,
)
from django.utils.translation import gettext as _
from django.templatetags.static import static
from django.urls import reverse
...
context.update(
{
"url": settings.DOMAIN_URL + reverse("home"),
"title": _("Home") + " | Home",
"meta": {
"description": _("Home page of the website"),
},
}
)
...
For the url of the page, you can edit the urls.py
file to include the language.
from django.urls import path
from django.utils.translation import gettext as _
from .views import home
urlpatterns = [
path(_("home") + "/", home, name="home"),
path(_("about") + "/", about, name="about"),
]
Create the locale
folder in the root of your project and run the following commands.
./manage.py makemessages -l en
./manage.py makemessages -l es
The files locale/en/LC_MESSAGES/django.po
and locale/es/LC_MESSAGES/django.po
will be created. You can edit them with a text editor or use a translation tool like Poedit.
After translating the texts, compile the messages.
./manage.py compilemessages
Your multilingual website is ready. You can test it by entering example.com
, en.example.com
and es.example.com
.
You can create a selector of languages in the header of your website.
{% load i18n %}
{% get_current_language as CURRENT_LANGUAGE %}
{% get_available_languages as AVAILABLE_LANGUAGES %}
<ul>
{# Display the current language #}
<li>
<a href="#" disabled>{{ CURRENT_LANGUAGE }}</a>
</li>
{# Display the other languages #}
{% for language in AVAILABLE_LANGUAGES %}
{% if language.0 != CURRENT_LANGUAGE %}
<li>
<a href="http{% if request.is_secure %}s{% endif %}://{{ language.0 }}.{{ DOMAIN }}">
{{ language.0 }}
</a>
</li>
{% endif %}
{% endfor %}
</ul>
The above code will create a list of languages with the current language disabled.
Or also simple links with the subdomain.
<a href="http://en.example.com">
English
</a>
<a href="http://es.example.com">
Español
</a>
{% endfor %}
You can find all the source code in the following repositories:
- LiveView: Source code of the Django framework and app published in pip.
- Website and Docs: All documentation, including this same page.
- Templates
- Demos
- Snake: The classic game of Snake.
There are no books about Django LiveView yet. But you can find book about Django working with HTML over the Wire technology.
Building SPAs with Django and HTML Over the Wire: Learn to build real-time single page applications with Python (English Edition)
Building SPAs with Django and HTML Over the Wire
Buy: