Gradle application plugin: Build applications for Windows, Mac, iOS, Android, and web

Gradle plugin that builds native or hybrid applications for different platforms. It supports multiple application types for different source technologies and target platforms:

Application type	Source technology	Target platforms
Native Mac application bundle	Java	Mac
Native Windows MSI	Java	Windows
Native Windows EXE	Java	Windows
Hybrid iOS app Xcode project	Swift, web app	iOS
PWA	Web app	iOS, Android, Windows
Static site	Web app, Markdown	Web

This allows you to distribute the same application to multiple platforms, without having to maintain platform-specific code.

System requirements

This plugin is basically a Gradle plugin interface on top of the native toolchain for these platforms. That unfortunately means the plugin requires the native toolchain for each platform to be available in the build environment:

Target platform	Build platform(s)	Requires
Windows MSI	Windows	WIX Toolset
Windows EXE	Windows, Mac, Linux	Launch4j
Mac	Mac	Xcode
iOS	Mac	Xcode
		XcodeGen
Android	Mac	Android SDK

Usage

The plugin is available from the Gradle plugin registry. You can use the plugin in your Gradle project by adding the following to build.gradle:

plugins {
    id "nl.colorize.gradle.application" version "2024.4"
}

Building native Mac application bundles

The plugin can create Mac OS application bundles. This uses the Ant plugin by TheInfiniteKind, but makes it available via Gradle. It also adds the ability to sign the application bundle and package it within an installer.

The Java runtime will be packaged with the application. By default, this will use the system JDK as indicated by the JAVA_HOME environment variable. This can be changed to a list of custom JDK paths by setting the jdkPaths configuration property. If an x86 JDK is used, generated application bundles will support both Intel and Apple Silicon Macs. If an ARM JDK is used, only Apple Silicon Macs will be supported.

The application bundle can be configured using the macApplicationBundle block. The configuration options correspong to the ones from the Ant plugin. The following shows an example on how to define this configuration in Gradle:

macApplicationBundle {
    name = "Example"
    identifier = "com.example"
    description = "A description for your application"
    copyright = "Copyright 2024"
    bundleVersion = "1.0"
    icon = "resources/icon.icns"
    applicationCategory = "public.app-category.developer-tools"
    mainClassName = "com.example.app.Main"
    outputDir = "${buildDir}"
    options = ["-Xmx2g"]
    startOnFirstThread = false
}

The following configuration options are available:

Name	Required	Description
name	yes	Mac application name.
displayName	no	Optional display name, defaults to the value of name.
identifier	yes	Apple application identfiier, in the format "com.example.name".
bundleVersion	yes	Application bundle version number.
description	yes	Short description text.
copyright	yes	Copyright statement text.
applicationCategory	yes	Apple application category ID.
minimumSystemVersion	no	Minimum required Mac OS version number. Defaults to 10.13.
architectures	no	Supported CPU architectures. Default is [arm64, x86_64].
mainJarName	yes	File name for the JAR file containing the main class.
mainClassName	yes	Fully qualified main class name.
jdkPath	no	Location of JDK. Defaults to JAVA_HOME.
modules	no	Overrides list of embedded JDK modules.
additionalModules	no	Extends default list of embedded JDK modules.
options	no	List of JVM command line options.
args	no	List of command line arguments provided to the main class.
startOnFirstThread	no	When true, starts the application with -XstartOnFirstThread.
icon	yes	Location of the .icns file.
launcher	no	Generated launcher type. Either "native" (default) or "shell".
signNativeLibraries	no	Signs native libraries embedded in the application's JAR files.
outputDir	no	Output directory path, defaults to build/mac.

The application bundle includes a Java runtime. This does not include the full JDK, to reduce the bundle size. The list of JDK modules can be extended using the additionalModules property, or replaced entirely using the modules property. By default, the following JDK modules are included in the runtime:

• java.base
• java.desktop
• java.logging
• java.net.http
• java.sql
• jdk.crypto.ec

Mac applications use two different version numbers: The application version and the build version. By default, both are based on the bundleVersion property. It is possible to specify the build version on the command line (it's not a property since the build version is supposed to be unique for every build). The build version can be set using the buildversion system property, e.g. gradle -Dbuildversion=1.0.1 createApplicationBundle.

Signing the application bundle requires an Apple Developer account and corresponding signing identity. The name of this identity can be set using the MAC_SIGN_APP_IDENTITY and MAC_SIGN_INSTALLER_IDENTITY environment variables, for signing applications and installers respectively.

By default, the contents of the application will be based on all JAR files produces by the project, as described by the libsDir property. This behavior can be replaced by setting the contentDir property in the plugin's configuration. The easiest way to bundle all content, including application binaries, resources, and libraries, is to create a single "fat JAR" file:

    jar {
        duplicatesStrategy = DuplicatesStrategy.EXCLUDE
        exclude "**/module-info.class"
        exclude "**/META-INF/INDEX.LIST"
        exclude "**/META-INF/*.SF"
        exclude "**/META-INF/*.DSA"
        exclude "**/META-INF/*.RSA"
        
        manifest {
            attributes "Main-Class": "com.example.ExampleApp"
        }
    
        from {
            configurations.runtimeClasspath.collect { it.isDirectory() ? it : zipTree(it) }
        }
     }

The plugin adds a number of tasks to the project that use this configuration:

• createApplicationBundle: Creates the application bundle in the specified directory.
• signApplicationBundle: Signs the created application bundle and packages it into an installer so that it can be distributed.
• packageApplicationBundle: An experimental task that creates the application bundle using the jpackage tool that is included with the JDK. Creates both a DMG file and a PKG installer. This task is experimental, it does not yet support all options from the createApplicationBundle and signApplicationBundle tasks.

Note that the tasks are not added to any standard tasks such as assemble, as Mac application bundles can only be created when running the build on a Mac, making the tasks incompatible with some workflows (i.e. continuous integration pipelines that tend to use Linux servers).

Signing the application bundle is mandatory for distributing the application. This in turn needs a valid Apple developer account, and corresponding certificates. You will need two certificates: one for the application, and one for the installer. Please do not hard-code the signing identity into the build file. It is better to define them in the Gradle properties file at ~/.gradle/gradle.properties and then access them from there.

Building native Windows MSI installers

Uses jpackage to generate MSI installers, so that applications can be distributed via the Microsoft Store. The downside is that using jpackage requires the WIX Toolset, which only supports Windows.

First, make sure the build produces a "fat JAR", using the same instructions as described for the native Mac app. The packageMSI task can then be used to create a MSI installer that includes both the fat JAR and the Java runtime.

The plugin can be configured using the msi section. The following configuration options are available:

Name	Required	Description
inherit	no	Inherits some configuration options from Mac app configuration.
mainJarName	depends	File name of the main JAR file. Defaults to application JAR.
mainClassName	depends	Fully qualified main class name.
options	no	List of JVM command line options.
args	no	List of command line arguments provided to the main class.
name	depends	Windows application name.
version	depends	Windows application version number.
vendor	yes	Vendor display name.
description	depends	Short description text.
copyright	depends	Copyright statement text.
icon	yes	Location of .ico file.
uuid	yes	Windows update UUID, must remain the same across versions.
outputDir	no	Output directory path, defaults to build/windows-msi.

The inherit option can help to avoid duplicated configuration. When enabled, the msi configuration will use matching configuration options defined in the macApplicationBundle configuration.

Building a native Windows EXE

Creates a native Windows .exe file, then packages that file with both the application and an embedded Java runtime to create a Windows application. This is an alternative for creating Windows MSI installers, which is less portable but has the benefit that it supports non-Windows build platforms. The .exe file is created using Launch4j.

The packageEXE task will create both the .exe file and the Windows application. It can be configured using the exe section:

Name	Required	Description
inherit	no	Inherits some configuration options from Mac app configuration.
mainJarName	depends	File name of the main JAR file. Defaults to application JAR.
args	no	List of command line arguments provided to the main class.
name	depends	Windows application name.
version	depends	Windows application version number.
icon	yes	Location of .ico file.
supportURL	yes	Shown in case of application launch errors.
memory	no	Maximum application memory in megabytes. Defaults to 2048 MB.
exeFileName	no	File name for .exe file. Based on JAR file name if omitted.

The inherit option can help to avoid duplicated configuration. When enabled, the exe configuration will use matching configuration options defined in the macApplicationBundle configuration.

The Windows application contain an embedded Java runtime, which is located using the EMBEDDED_WINDOWS_JAVA environment variable. This directory needs to contain a subdirectory named java, which will be embedded in the Windows application. The configuration intentionally does not use JAVA_HOME, so that the Windows application can also be created on non-Windows build platforms.

The location of Launch4j can be specified using the LAUNCH4J_HOME environment variable.

Generating Xcode projects

The plugin can generate Xcode projects for hybrid iOS apps, that consist of a Swift app with a web view, that in turn displays the original web application. The web application files are packaged within the app, they are not loaded from an external server. This approach is similar to Cordova, but is more lightweight and assumes all required native functionality is implemented in Swift.

Generating the Xcode project can be done using the xcodeGen task. This will start XcodeGen, which means that XcodeGen needs to be available when using this task.

The following configuration options are available via the xcode section:

Name	Required	Description
appId	yes	App ID in the form MyApp.
bundleId	yes	Apple bundleID in the form com.example.
appName	yes	App display name in the form My App.
appVersion	yes	App version number in the form 1.2.3.
icon	yes	PNG file that will be used to generate the app icons.
iconBackgroundColor	no	Color used to replace the icon alpha channel, e.g. #000000.
resourcesDir	yes	Directory to copy into the app's resources.
launchScreenColor	no	Background color for the app's launch screen.
outputDir	no	Directory for the Xcode project, defaults to build/xcode.
xcodeGenPath	no	XcodeGen install location, defaults to /usr/local/bin/xcodegen.

Like the Mac application bundle, the buildversion system property can be used to set the build version during the build. If this system property is not present, the build version is the same as the app version.

Building PWAs

The plugin can also repackage web applications into Progressive Web Applications. The PWA can then in turn be repackaged into native applications using services like PWA Builder.

The generatePWA task creates a PWA from an existing web application. It will insert the web app manifest into the HTML, and also insert HTML that registers a service worker.

These tasks share the same configuration via the pwa configuration section. The following configuration options are available:

Name	Required	Description
webAppDir	yes	Input directory where the original web app is located.
outputDir	no	Output directory for the generated PWA, defaults to build/pwa.
manifest	yes	Location of the web app manifest JSON file.
serviceWorker	no	Location of service worker file, will use default if omitted.
cacheName	yes	Name of the cache the service worker will use.

Building a static site

The plugin can take content written in Markdown or plain HTML, and then render this content using templates to create a static site. This is done using the generateStaticSite task, which uses the following logic:

• The output directory structure will match the content directory structure.
• Each directory can include a file called template.html.
• The template contains a tag <clrz-content>, the contents of this tag will be replaced with the article content.
• For HTML files, the file content is used as the article.
• For Markdown files, the file is first rendered to HTML, which is then used as the article.
• Subdirectories can contain their own template.html file. If so, the process described above is repeated recursively.
• All files except HTML and Markdown are retained in the static site.

The static site is configured using the staticSite configuration section. The following options are available:

Name	Required	Default	Description
contentDir	no	content	Content directory, relative to project directory.
outputDir	no	staticsite	Output directory, relative to build directory.
templateFileName	no	template.html	File name used as template instead of content.

The serveStaticSite task can be used to test the generated static site using a local HTTP server, at http://localhost:7777.

Instructions for building the plugin itself

Building the plugin itself can only be done on Mac OS. It also requires the following:

• Java JDK 21+
• Gradle
• Ant

The following Gradle build tasks are available:

• gradle clean cleans the build directory
• gradle assemble creates the JAR file for distribution
• gradle test runs all unit tests
• gradle coverage runs all unit tests and reports on test coverage
• gradle publishPlugins publishes the plugin to the Gradle plugin portal (requires account)

Some tests can only run on Windows or Mac. Add -Pheadless=true when running in a headless environment to exclude those tests.

Note: Running the tests currently requires some additional JVM properties on Java 17+, due to a Gradle issue. These properties are automatically used when running from Gradle, but need to be added manually when running tests from an IDE.

Testing the plugin with the example application

The plugin comes with an example application, that can be used to test the plugin on itself:

• First run gradle assemble to build the plugin itself.
• Navigate to the example directory to build the example app.
  • Run gradle createApplicationBundle to create a Mac application bundle.
  • Run gradle signApplicationBundle to sign a Mac application bundle.
  • Run gradle packageApplicationBundle to create a Mac application bundle using jpackage.
  • Run gradle packageMSI to create a Windows MSI installer.
  • Run gradle packageEXE to create a standalone Windows application.
  • Run gradle xcodeGen to generate a Xcode project for a hybrid iOS app.
  • Run gradle generateStaticSite to generate a website from Markdown templates.
  • Run gradle generatePWA to create a PWA version of the aforementioned website.
  • The shorthand tasks gradle allMac, gradle allWindows, and gradle allLinux can be used to build all application types that are supported on that platform.

Building the example application uses the same system requirements and environment variables as the plugin itself. Refer to the documentation for each application type for details.

License

Copyright 2010-2024 Colorize

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.