Documentation

Documentation versions (currently viewingVaadin 24)

Production Build

Create an optimized build of applications for production deployment.

To create a production build, run the following from the command-line:

mvn clean package -Pproduction

Executing this line builds a JAR or WAR file, with all of the dependencies and bundled frontend resources, ready to be deployed. You can find the file in the target folder after the build is finished.

If no add-ons or frontend files are used in the application, the previous command uses a pre-compiled production bundle to eliminate the need to run frontend tools like npm and Vite. However, frontend tools are still used to generate an application-specific bundle in the following situations:

  • An npm package is added with @NpmPackage, or provided directly through package.json;

  • CSS or JavaScript is added with @CssImport, @JsModule, or @JavaScript;

  • Vaadin add-on with frontend customizations is added;

  • Custom theme packaged as a JAR dependency is included, if it defines any assets to be added to the project;

  • Exported web component is added; or

  • @LoadDependenciesOnStartup is defined for AppShellConfigurator.

Production builds that use npm and Vite are slower to generate than builds that use a pre-compiled bundle. However, builds that use npm and Vite are more optimized in the sense that they only include the frontend resources that are used in the application.

When building a new optimized production bundle, the output is always compressed to the src/main/bundles/prod.bundle file inside the project’s root. It’s used as a pre-compiled bundle for later production builds. The file can be added to the Version Control System. This allows other developers to fetch the production bundle and thereby run it.

The actual bundle files go to the build directory (i.e., target for Maven, build for Gradle) and are used from there so that minor changes don’t cause multiple files to change and be committed to the Version Control System.

If needed, you can force the creation of an optimized production bundle by executing the following from the command-line:

mvn clean package -Pproduction -Dvaadin.force.production.build=true
Note

The pre-compiled production bundle is not the same as a pre-compiled frontend bundle for development mode. The development mode pre-compiled bundle has debugging features enabled.

Before Vaadin 24.3, output from an optimized production bundle is not used as a pre-compiled bundle for later production builds. Only the pre-compiled production bundle from platform is used, if possible.

By default, Vaadin uses npm install to install frontend packages. This can be changed to npm ci by setting the following configuration parameter:

-Dvaadin.ci.build=true

When set, Vaadin interrupts package installation if it spots any mismatch between package versions in the package.json and the lock file. It’ll then recommend re-running npm install. This makes production builds in the CI pipelines reproducible, enabling you to identify problems in advance.

Enabling Production Builds

The production build command works out-of-the-box for Vaadin starter projects. It’ll work with projects that are generated with https://start.vaadin.com. The starter projects come with the necessary Maven configuration. If you’ve manually created your project’s pom.xml file, add the following Maven profile to enable production builds:

<profiles>
    <profile>
        <id>production</id>

        <!--
		.. configuration depending on environment ..
		 -->

		<build>
			<plugins>
                <plugin>
                    <groupId>com.vaadin</groupId>
                    <artifactId>vaadin-maven-plugin</artifactId>
                    <version>${project.version}</version>
                    <executions>
                        <execution>
                            <goals>
                                <goal>build-frontend</goal>
                            </goals>
                            <phase>compile</phase>
                        </execution>
                    </executions>
                    <configuration>
                        <!-- To always force an optimized production bundle build set this configuration to 'true' -->
                        <!-- To possibly use the pre-compiled production bundle remove or set to 'false' -->
                        <forceProductionBuild>true</forceProductionBuild>
                        <!-- To have reproducible build by running 'npm ci' -->
                        <ciBuild>true</ciBuild>
                    </configuration>
                </plugin>
                <!--
                .. more plugins ..
                -->
            </plugins>
        </build>
		 <!--
		 .. more configuration ..
		 -->
    </profile>
</profiles>

The content of the profile depends on the environment in which your application is running, but all variations call the Maven goal vaadin:build-frontend. The Maven goal vaadin:prepare-frontend is also required, but that’s often declared already in the development build. Once the Maven profile is added, you can call the production build command.

If you don’t have the production Maven profile in your pom.xml file, get a project base: for Spring Boot projects, get it from https://start.vaadin.com; for other stacks (e.g., Jakarta EE or plain Java) from https://vaadin.com/hello-world-starters. Then copy the production profile from the downloaded pom.xml file.

Having the production build as a separate Maven profile is recommended to avoid unexpected problems due to production settings during development.

Note
Building for 64-bit
If you’re using a 64-bit operating system, be sure to use a 64-bit JDK installation, as well.

Excluding Development Server Module

The Vite server integration and live reload features — which are available only in development builds — are contained in the com.vaadin:vaadin-dev-server module. You should exclude this module when building a production application. You can do this by adding the following dependency exclusion to the <dependencies> section in the production profile:

<profiles>
    <profile>
        <id>production</id>

        <!-- above production build configuration -->

        <dependencies>
            <dependency>
                <groupId>com.vaadin</groupId>
                <artifactId>vaadin</artifactId>
                <exclusions>
                    <exclusion>
                        <groupId>com.vaadin</groupId>
                        <artifactId>vaadin-dev</artifactId>
                    </exclusion>
                </exclusions>
            </dependency>
        </dependencies>
    </profile>
</profiles>

This results in less code and fewer dependency libraries being bundled in the production application.

Transpilation & Bundling

Transpilation in Vaadin means converting all TypeScript files to JavaScript (ES2021), which is supported by modern browsers.

During the build, minimization is done to make the files smaller. When minifying code, it’s often obfuscated, which makes it more difficult to read. Hence, this isn’t done for development builds.

Bundling is an optimization in which multiple files are merged into a single collection. It’s done to reduce the number of files the browser has to request from the server. The result is that the application loads faster.

Plugin Goals & Goal Parameters

This section contains a list of plugin goals and their parameters.

prepare-frontend

This goal validates whether the node and npm tools are installed and aren’t too old (i.e., not earlier than node version 16.14, and not older than npm version 8.3). It installs them in the .vaadin folder in the user’s home directory if they’re missing. If they’re already installed globally, but too old, an error message is generated suggesting that you install newer versions.

Node.js is needed to run npm to install frontend dependencies and Vite, which bundles the frontend files served to the client.

Additionally, this goal reviews all resources used by the application. It copies them into the node_modules folder, so they’re available when vite builds the frontend. It also creates or updates the package.json, vite.config.ts, and vite.generated.ts files.

This plugin has several goal parameters:

includes (default: **/*.js,**/*.css)

Comma-separated wildcards for files and directories that should be copied. The default is only .js and .css files.

npmFolder (default: ${project.basedir})

The folder where the package.json file is located. The default is the project root folder.

generatedFolder (default: ${project.build.directory}/frontend/)

The folder where Flow puts generated files that are used by Vite.

require.home.node (default: false)

If set to true, always prefer Node.js is automatically downloaded and installed into the .vaadin sub-directory, in the user’s home directory.

build-frontend

This goal builds the frontend bundle. This is a complex process involving several steps:

  • Update package.json with all the @NpmPackage annotation values found in the classpath and install these dependencies.

  • Update the JavaScript files containing code for importing everything used in the application. These files are generated in the target/frontend folder, and are used as the entry point of the application.

  • Create vite.config.ts if not found, or update it if some project parameters have changed.

  • Generate JavaScript bundles and chunks and compile TypeScript to JavaScript using vite server. The target folder for WAR packaging is target/${artifactId}-${version}/build. For JAR packaging, it’s target/classes/META-INF/resources/build.

This plugin has several goal parameters:

npmFolder (default: ${project.basedir})

The folder where the package.json file is located. The default is the project root folder.

generatedFolder (default: ${project.build.directory}/frontend/)

The folder where Flow puts generated files used by Vite.

frontendDirectory (default: ${project.basedir}/frontend)

The directory with the project’s frontend source files.

generateBundle (default: true)

Whether to generate a bundle from the project frontend sources.

runNpmInstall (default: true)

Whether to run pnpm install — or npm install, depending on pnpmEnable parameter value — after updating dependencies.

generateEmbeddableWebComponents (default: true)

Whether to generate embedded web components from WebComponentExporter inheritors.

optimizeBundle (default: true)

Whether to include only frontend resources used from application entry points (the default) or to include all resources found on the classpath. This should normally be left to the default, but a value of false can be useful for faster production builds or debugging discrepancies between development and production builds.

pnpmEnable (default: false)

Whether to use the pnpm or npm tool to handle frontend resources. The default is npm.

useGlobalPnpm (default: false)

Whether to use a globally installed pnpm tool instead of the default supported version of pnpm.

forceProductionBuild (default: false)

Whether to generate a production bundle even if an existing pre-generated bundle could be used.

clean-frontend

This goal removes files that may cause inconsistencies when changing versions. It’s suggested not to add the goal as a default to pom.xml. Instead, use it with mvn vaadin:clean-frontend when necessary.

Executing the clean-frontend goal removes the package lock file, and the generated frontend folder — by default frontend/generated. It also removes the node_modules folder, which might need to be deleted manually.

This goal also cleans all dependencies that are framework-managed, and any dependencies that target the build folder from the package.json file.

The clean-frontend goal supports the same parameters as prepare-frontend.

dance

This goal is synonymous with the clean-frontend goal. See its description above.

Bundle Component Loading Optimizations

You can do a few things to optimize the loading of a bundle component. They’re described in this section.

Lazy Loading (On Demand)

A production build scans for Routes and lazy loads the components used in the routes when navigated. By default, only the routes "" and "login" are eager loaded and other route components become lazy loaded.

With the pre-compiled production bundle, all components are eager loaded apart from the heavy components Map, Charts, Spreadsheet and RichTextEditor.

Note
Loading Components
Any components that are loaded using reflection should be named on the Route class using @Uses so that they’re collected.
@Route("my-view")
@Uses(Button.class)
public class MyView extends Div {
    public MyView() {
        try {
            Class<? extends Button> buttonClass = Class.forName(
                    "com.vaadin.flow.component.button.Button");
            Button button = buttonClass.getDeclaredConstructor().newInstance();
            add(button);
        } catch (ClassNotFoundException e) {
            // handle exception
        }
    }
}

Eager Loading

To configure which views should be eager loaded, use the annotation @LoadDependenciesOnStartup on the AppShellConfiguration class. Only defining LoadDependenciesOnStartup makes all routes eager loaded.

@LoadDependenciesOnStartup
public class Configuration implements AppShellConfigurator {
}

To configure specific routes to be eager loaded, add the route class to the value array like this:

@LoadDependenciesOnStartup({GeneralInfo.class, DataSearch.class})
public class Configuration implements AppShellConfigurator {
}

This makes components, scripts, and CSS used in GeneralInfo and DataSearch load immediately on bootstrap, and any other components used in other views as they’re needed.

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