[This tutorial explains how to build an application with Flask and HTMx. If you want to host an HTMx and Flask application on our PaaS, you can find a short deployment guide here that uses the same project.]
Recent trends in the modern web saw single page frameworks like React.js and Angular take over traditional multipage websites, mainly due to the lack of interactivity offered by HTML. It is worth noting however, that single page applications (SPAs) brought this interactivity at the cost of added complexity.
This is where a new HTML extension called HTMx enters and shines. HTMx gives traditional HTML sites more interactivity while keeping things simple, as it allows you to make requests from any HTML element and not just <a>
and <form>
tags. But this is not HTMx’s only benefit. Other benefits include:
- Making it possible to perform partial page reloads in HTML
- Support for PUT and DELETE methods in addition to GET and POST
- Not being limited to click and submit event triggers only
- Lightweight set up – no additional dependencies need to be installed to get it working
In this tutorial, we’ll explore the benefits of HTMx by building a full stack application using Flask and HTMx. Our application will be a book recommendation app that supports CRUD functionality. The final app will look a bit like this:
Overview and Requirements
After building our application, you’ll want to deploy it to production so you can show it to friends and family. You will therefore need the following to complete the tutorial:
- Git set up and installed, and a registered GitHub account
- Python 3 installed
- An IDE or text editor of your choice
Setting up the Project
With all the requirements in place, we can go ahead and set up our project. Let’s start by creating the project folder and then we can set up a virtual environment within the project folder.
Create Project Folder
Let’s create a folder to house our application’s source code. Run the commands below in the terminal to create the folder and navigate into it.
mkdir flask-htmx
cd flask-htmx
From here onwards, the flask-htmx
directory will be referred to as the project’s root folder.
Creating a Virtual Environment
A virtual environment allows you to isolate the packages required to develop Python applications from your computer system. We recommend you use a new virtual environment for every application you develop so as to not corrupt dependencies for other applications.
In the terminal run the following command to create a virtual environment within the project's root folder:
python3 -m venv env
To activate the virtual environment, enter either of the following:
MacOS
source env/bin/activate
Windows
.\env\Scripts\activate
After activating the virtual environment, the name env
should appear in brackets on the leftmost part of your terminal in your current line. This signals that the activation was successful.
Installing Dependencies
We can now install our required packages to the virtual environment we activated in the previous step. Run the command below:
pip3 install flask flask-sqlalchemy gunicorn
You might notice there’s no dependency for HTMx in our dependency list. This is because it will be added as a script tag inside the head of our HTML templates.
Initialize an Empty Git Repository
While in the project’s root folder, enter the command git init
to initialize a git
repository. This will allow you to track changes to your app as you build it.
Create a .gitignore
file and add the line below to it:
env/
This excludes the env
folder from being tracked by Git, as we only want to track changes in our project files.
Linking to GitHub
Head over to GitHub and create a new repository. Then, in your project's root folder, run the command below from the terminal, replacing username
and repository_name
with your own values from GitHub.
git remote add origin git@github.com:username/repository_name.git
This will link your local repository to the one on GitHub.
Building the HTMx Frontend
With the set up complete, we can now begin building our app. We will start with the HTMx frontend, and for this you need to create an app/templates
folder inside the project’s root folder.
Next, create an index.html
file inside the templates
folder, and populate it with the code below:
<!DOCTYPE html>
<html lang="en">
<head>
<title>Flask HTMX ALPINE App</title>
<link href="https://cdn.jsdelivr.net/npm/bootstrap@5.0.0-beta1/dist/css/bootstrap.min.css" rel="stylesheet"
integrity="sha384-giJF6kkoqNQ00vy+HMDP7azOuL0xtbfIcaT9wjKHr8RbDVddVHyTfAAsrekwKmP1" crossorigin="anonymous">
<!-- HTMX -->
<script src="https://unpkg.com/htmx.org@1.5.0"></script>
<style>
body{
padding: 20px;
}
table {
font-family: arial, sans-serif;
border-collapse: collapse;
width: 100%;
}
tr.htmx-swapping td {
opacity: 0;
transition: opacity 0.5s ease-out;
}
td, th {
border: 1px solid #383737;
text-align: left;
padding: 8px;
}
tr:nth-child(even) {
background-color: #dddddd;
}
</style>
</head>
<!-- Place <body> </body> code here -->
</html>
There’s not much going on in the code snippet above, except for line 5 and 8, which are responsible for loading Bootstrap and HTMx into our index.html
page. This gives you the power to build an interactive page just by including the <script>
tag that links to HTMx, without needing to install any npm
packages like with most SPAs. This is how HTMx allows you to build sites that are more lightweight compared to SPA frameworks.
The code in between the <style>
tag adds CSS to style our frontend to make it more visually appealing. Now let’s add code that will be rendered in the body tag of our page. Copy and paste the code below underneath the </head>
tag:
<body>
<h1>Book Recommendations</h1>
<form hx-post="/submit" hx-swap="beforeend" hx-target="#new-book" class="mb-3">
<input type="text" placeholder="Book Title" name="title" class="form-control mb-3" />
<input type="text" placeholder="Book Author" name="author" class="form-control mb-3" />
<button type="submit" class="btn btn-primary">Submit</button>
</form>
<table class="table">
<thead>
<tr>
<th scope="col">Book Title</th>
<th scope="col">Book Author</th>
</tr>
</thead>
<tbody id="new-book" hx-target="closest tr" hx-swap="outerHTML swap:0.5s">
{%for book in books%}
<tr>
<td>{{book.Book.title}}</td>
<td>{{book.Author.name}}</td>
<td>
<button class="btn btn-primary"
hx-get="/get-edit-form/{{book.Book.book_id}}">
Edit Title
</button>
</td>
<td>
<button hx-delete="/delete/{{book.Book.book_id}}" class="btn btn-primary">Delete</button>
</td>
</tr>
{%endfor%}
</tbody>
</table>
</body>
There are a couple of attributes here that aren’t used in traditional HTML. Let’s go over them one by one:
hx-[http method] – Examples of this attribute include
hx-post
,hx-get
,hx-put
andhx-delete
. This is the HTMx way of denoting what type of request should be sent on form submission or when a request firing event is triggered. These attributes accept the request route as an argument. In the case of our form, we use the/submit
route, while the table buttons send requests to the/delete
and/get-edit-form
routes.-
hx-target – This attribute accepts the
id
of the element you want to update after a successful request or when an event is triggered. Take note of the preceding#
that’s written before theid
value.- You might have noticed that we didn’t use an
id
value in the table, but used a value ofclosest tr
instead. This swaps the closest table row with the HTML that will be returned by the request when an action is triggered. The closest row will always be the same row in which an event or request was triggered, either by the “Edit Title” button or the “Delete” button.
- You might have noticed that we didn’t use an
-
hx-swap – The hx-swap attribute allows you to specify how you want to partially reload the page or swap elements with new ones. It updates the UI in the section specified in the
hx-target
attribute.- In our form, we used the
beforeend
value to tell HTMx that we want to append the result of the request after the last child in the target element, which is the table withid=new-book
. - In the table however, we used the
outerHTML
value to denote that we want to swap the entire<tr>
element with the returned content. - A full list of acceptable
hx-swap
values can be viewed here.
- In our form, we used the
Building the Flask Backend
We can now dive into building the backend of our app. Start by creating a run.py
file in the project’s root folder and populate it with the code below:
from app import app
if __name__ == "__main__":
app.run()
This is the point of entry for any server wishing to run our app.
Declare and Initialize app
Module
Create an __init__.py
file in the app
folder and populate it with the code below:
from flask import Flask
from flask_sqlalchemy import SQLAlchemy
app = Flask(__name__)
app.config["SQLALCHEMY_DATABASE_URI"] = 'sqlite:///sqlite.db'
app.config["SQLALCHEMY_ECHO"] = False
app.config["SQLALCHEMY_TRACK_MODIFICATIONS"] = False
db = SQLAlchemy(app)
from app import views
from app import models
db.init_app(app)
db.create_all()
Here we declare our app object using the Flask package we installed earlier. We’ll be using a SQLite database, which we configure using the app.config
lines.
We use SQLAlchemy to declare the database object we’ll interact with, as it allows us to read and write to the database using object notation, which is more familiar than raw SQL statements. It is important to import the models only after declaring the database object so that their respective tables are included in the database when it’s created. The last two lines handle the initialization of the database and the creation of all relevant tables in the database based on the models that are imported.
Register App Models
The next step is to create the models.py
module we imported earlier in the __init__.py
file. Create a file named models.py
inside the app folder and populate it with the code below:
from app import db
class Author(db.Model):
author_id = db.Column(db.Integer, primary_key=True)
name = db.Column(db.String)
books = db.relationship("Book", backref="author")
def __repr__(self):
return '<Author: {}>'.format(self.books)
class Book(db.Model):
book_id = db.Column(db.Integer, primary_key=True)
author_id = db.Column(db.Integer, db.ForeignKey("author.author_id"))
title = db.Column(db.String)
Here we declare the two models we’re going to be saving in our database, which are Author
and Book
. It is worth noting the one-to-many relationship between "author" and "books", as an author can have many Books but each book can only have a single author in the context of this application. We denote this relationship by using a foreign key in the author_id
field of the book and a backref
in the books field of an author.
Create Views
The last part in building the backend of our app is to create the views or routes that the frontend will be interacting with. Create a views.py
file inside the app folder and add the code below to it:
from app import app, db
from flask import render_template, request, jsonify
from app.models import Author, Book
@app.route("/", methods=["GET"])
def home():
books = db.session.query(Book, Author).filter(Book.author_id == Author.author_id).all()
return render_template("index.html", books=books)
In the code snippet above, we’ve added the index route and bound the home function to it. The home function first queries the database to get a list of all books before returning the index.html
template that’s populated with the list of books.
Add the code below to add the /submit
route to our app’s views.py
file:
@app.route("/submit", methods=["POST"])
def submit():
global_book_object = Book()
title = request.form["title"]
author_name = request.form["author"]
author_exists = db.session.query(Author).filter(Author.name == author_name).first()
print(author_exists)
# check if author already exists in db
if author_exists:
author_id = author_exists.author_id
book = Book(author_id=author_id, title=title)
db.session.add(book)
db.session.commit()
global_book_object = book
else:
author = Author(name=author_name)
db.session.add(author)
db.session.commit()
book = Book(author_id=author.author_id, title=title)
db.session.add(book)
db.session.commit()
global_book_object = book
response = f"""
<tr>
<td>{title}</td>
<td>{author_name}</td>
<td>
<button class="btn btn-primary"
hx-get="/get-edit-form/{global_book_object.book_id}">
Edit Title
</button>
</td>
<td>
<button hx-delete="/delete/{global_book_object.book_id}"
class="btn btn-primary">
Delete
</button>
</td>
</tr>
"""
return response
When a person submits a new book, this is the route that’s called. The logic first checks if the author already exists in the database and if so, saves the book with the author’s author_id
. Otherwise, it creates a new author and then saves the book. As HTMx expects an HTML response, the submit
method responds with an HTML table row that updates the list of books on the frontend. The new entry will be for the recently added book.
Next, let’s add the code for the /delete
route. Copy and paste the code below:
@app.route("/delete/<int:id>", methods=["DELETE"])
def delete_book(id):
book = Book.query.get(id)
db.session.delete(book)
db.session.commit()
return ""
The first thing you may have noticed about this route is the id
query parameter it accepts. This allows us to know which object to delete. After deleting the book, we return an empty string, which causes the row we deleted in the frontend to disappear, as it is swapped for “nothing”.
We now have routes for creating, reading, and deleting books. It’s time to add views associated with updating book entries in order to complete our app’s CRUD functionality. Add the code below to views.py
to add logic for updating book entries to your app:
@app.route("/get-edit-form/<int:id>", methods=["GET"])
def get_edit_form(id):
book = Book.query.get(id)
author = Author.query.get(book.author_id)
response = f"""
<tr hx-trigger='cancel' class='editing' hx-get="/get-book-row/{id}">
<td><input name="title" value="{book.title}"/></td>
<td>{author.name}</td>
<td>
<button class="btn btn-primary" hx-get="/get-book-row/{id}">
Cancel
</button>
<button class="btn btn-primary" hx-put="/update/{id}" hx-include="closest tr">
Save
</button>
</td>
</tr>
"""
return response
@app.route("/get-book-row/<int:id>", methods=["GET"])
def get_book_row(id):
book = Book.query.get(id)
author = Author.query.get(book.author_id)
response = f"""
<tr>
<td>{book.title}</td>
<td>{author.name}</td>
<td>
<button class="btn btn-primary"
hx-get="/get-edit-form/{id}">
Edit Title
</button>
</td>
<td>
<button hx-delete="/delete/{id}"
class="btn btn-primary">
Delete
</button>
</td>
</tr>
"""
return response
@app.route("/update/<int:id>", methods=["PUT"])
def update_book(id):
db.session.query(Book).filter(Book.book_id == id).update({"title": request.form["title"]})
db.session.commit()
title = request.form["title"]
book = Book.query.get(id)
author = Author.query.get(book.author_id)
response = f"""
<tr>
<td>{title}</td>
<td>{author.name}</td>
<td>
<button class="btn btn-primary"
hx-get="/get-edit-form/{id}">
Edit Title
</button>
</td>
<td>
<button hx-delete="/delete/{id}"
class="btn btn-primary">
Delete
</button>
</td>
</tr>
"""
return response
There’s more than one view for the update logic, and we’ll see why shortly. The /get-edit-form
route is called when a user clicks on the “Edit Title” button on the frontend, and it returns a form for updating the selected book. If the user decides to cancel this action, the /get-book-row
route is called and it returns a table row with the unedited book entry.
If the user goes through with updating the book title, then the /update
route is called. The update_book
function that’s bound to the /update
route will update the book title based on the id
supplied to it as a query parameter. When the update is complete, the method returns an HTML table row with the updated book title.
Running our App
Our app is ready to be tested. Navigate to the project’s root folder in a terminal and run the following command: python3 run.py
. This should start up a development server on port 5000. Open your browser at http://127.0.0.1:5000/
and you should see your app running:
Once you are satisfied with the app, you can commit and push your changes to GitHub with the following commands.
git add .
git commit -m 'commit message'
git push origin
We’ve shown you how to build a full stack Flask HTMx application from scratch and you should be able to deploy this basic version, but you may like to consider adding more functionality to enhance our app’s features. We recommend you check out Alpine.js, a lightweight JavaScript framework that works well with HTMx
to make sites that are more powerful yet still lightweight.
You can find the complete code shown above in this GitHub repository.
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