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Spring Boot & htmx Demo

It's possible to be a full stack Java developer and provide dynamic, rich application functionality without complex tools or JavaScript frameworks.

Please note that you should check out my other GitHub template, spring-boot-supabase if you are interested in modern full stack Java. It has a Spring Security implementation based on Supabase.io

YouTube video walking through this repo!

Very simple demonstration of the use of htmx with Spring Boot and Thymeleaf. In addition to Thymeleaf, a few examples also use Handlebars/Mustache and j2html.

Build a Single Page Application (SPA) or just progressively add dynamic JavaScript functionality to your app without a complicated JavaScript framework.

HTMX + Spring Boot is also a great way to add dynamic HTML functionality to an existing website, perhaps on a completely different stack (such as WordPress or SquareSpace).

Using This Project

Requirements: JDK 17 and Apache Maven.

That's it. No npm, no JavaScript frameworks, no REST services generating JSON that is then converted back to HTML in the browser.

Once Java & Maven are installed, you can clone off this project, run mvn spring-boot:run and go to http://localhost:8080. You'll see an index page with links to the various demos.

You don't need to install Node.js, npm, or any other tooling to get rich, dynamic UIs - just html, css, htmx, bootstrap and a bit of hyperscript.

If you want to be fancy, tell folks that you are migrating back to server-side rendering for your SPA applications for performance and security reasons.

Dependencies

WebJars are used to install and manage Bootstrap, htmx and hyperscript. More information on using WebJars with Spring Boot.

You can add the WebJars for htmx and hyperscript to your pom.xml like this:


<dependencies>
    <dependency>
        <groupId>org.webjars.npm</groupId>
        <artifactId>htmx.org</artifactId>
        <version>(get the current version from [htmx.org](https://htmx.org))</version>
    </dependency>
    <dependency>
        <groupId>org.webjars.npm</groupId>
        <artifactId>hyperscript.org</artifactId>
        <version>(get the current version from [hyperscript.org](https://hyperscript.org))</version>
    </dependency>
</dependencies>

Add the following to your application Thymeleaf/HTML to use htmx & hyperscript:


<head>
    <script type="text/javascript" th:src="@{/webjars/htmx.org/dist/htmx.min.js}"></script>
    <script type="text/javascript" th:src="@{/webjars/hyperscript.org/dist/_hyperscript.js}"></script>
</head>

You don't specify the version number for htmx or hyperscript in the HTML declaration - the versions are are being managed automatically by the embedded library org.webjars:webjars-locator-core.

Layout

I don't like to repeat myself, so I use Thymeleaf layouts to keep the copy & pasting down to a minimum. Each page uses a layout:fragment="content" declaration to pull in a layout which includes the standard <head>

To see an example of this, index.html includes the line <section layout:fragment="content"> which instructs the Thymeleaf Layout Dialect to wrap the section with layout.html.

Visual Design

This project has been tweaked slightly to make it work better with visual design tools like Pinegrow. Pinegrow (and other similar tools) expect to find the html templates and all related assets in a single directory. By default, Spring Boot splits Thymeleaf html templates into one directory (templates) and static public assets in another (static/public). This completely breaks all visual design tools.

In this project, the Thymeleaf html templates AND the static assets all live in the same folder (static/public). Spring Security is configured to block paths with the .html extension, so the raw templates aren't visible to users.

Considering that one of the main features of Thymeleaf is the use of valid, complete html, this is a big productivity advantage for swapping this configuration around. There shouldn't be anything in your html files but basic markup anyways - we are long, long past the days when JDBC/RDBMS passwords would be stored in JSP files.

Logging

The application.yaml and logback.xml files are set up to dramatically reduce the log noise for a typical Spring Boot project.

Spring Security

This project includes a demo illustrating the use of Spring Security with htmx. When you access a path with /private/ Spring Security will send you to a login page. To create an account, use the sign up page and check the console for a link you can copy and paste into your browser.

This implementation of Spring Security includes a pretty complete workflow for an email/password based user registration system. If you pop in a valid SMTP server into the configuration you will have a working:

You will find Spring Security implementation details in /htmx-demo/src/main/java/com/devhow/identity path.

The main fancy feature involving htmx is that if a user is logged in to the app with two pages open - let's say page A and page B. If the user logs out on page A, the session is now invalid for page B. In this demo, page B will now correctly bounce to the login page if htmx requests any new data.

Screenshots

The mandatory basic web-front end to do list sample app. Here are the Java controller and the Thymeleaf template. You may notice that there is a very small amount of hyperscript added to the page to address event edge cases not handled by htmx alone.

To Do

This infinite scroll demo uses the java-faker library to generate an endless stream of fake data. The more you scroll, the more data you'll see. In this case, the Java controller is just using Java text blocks to return the data. While very, very simple (and fast!) this isn't really a great idea, in particular due to potential issues around HTML escaping. For most situations you are much better off using either Thymeleaf templates, Handlebars/Mustache or j2html for these fragments.

Infinite Scroll

The next two screenshots are for a single Java controller and Thymeleaf template .

Every single input immediately posts back data to the controller. In this case, the response is sent back as an element to append to the messages block, but it's easy to imagine the response updating other elements - or perhaps just instantly preserving the user's data with no explicit form submit required.

All the widgets shown are just standard HTML elements. A few of them - like file input - can be a bit tricky to handle correctly - you want to make sure the submission encoding is set right and that you have right configuration on the server.

Fun fact: the checkbox can only be set to an indeterminate state via JavaScript (in this case, I'm just using hyperscript).

Standard HTML Input Widgets

These are mostly various text input widgets. In addition to things like automatically showing special keyboards on various mobile devices, certain fields such as Search are often used for live updates in response to user typing. There that functionality can be added trivially, without any JavaScript.

Standard HTML Input Widgets