Quick Start • Features • Contributing • License
ProGuard is a free shrinker, optimizer, obfuscator, and preverifier for Java bytecode:
-
It detects and removes unused classes, fields, methods, and attributes.
-
It optimizes bytecode and removes unused instructions.
-
It renames the remaining classes, fields, and methods using short meaningless names.
The resulting applications and libraries are smaller and faster.
If you have usage or general questions please ask them in the Guardsquare Community.
Please use the issue tracker to report actual bugs 🐛, crashes, etc.
First, download the latest release from GitHub releases.
To run ProGuard, on Linux/MacOS, just type:
bin/proguard.sh <options...>or on Windows:
bin\proguard.bat <options...>
Typically, you'll put most options in a configuration file (say,
myconfig.pro), and just call
bin/proguard.sh @myconfig.proor on Windows:
bin\proguard.bat @myconfig.pro
All available options are described in the configuration section of the manual.
ProGuard can be run as a task in Gradle. Before you can use the proguard task, you have to make sure Gradle can
find it in its class path at build time. One way is to add the following
line to your build.gradle file which will download ProGuard from Maven Central:
buildscript {
repositories {
mavenCentral()
}
dependencies {
classpath 'com.guardsquare:proguard-gradle:7.4.2'
}
}You can then define a task with configuration:
tasks.register('proguard', ProGuardTask) {
configuration file('proguard.pro')
injars(tasks.named('jar', Jar).flatMap { it.archiveFile })
// Automatically handle the Java version of this build.
if (System.getProperty('java.version').startsWith('1.')) {
// Before Java 9, the runtime classes were packaged in a single jar file.
libraryjars "${System.getProperty('java.home')}/lib/rt.jar"
} else {
// As of Java 9, the runtime classes are packaged in modular jmod files.
libraryjars "${System.getProperty('java.home')}/jmods/java.base.jmod", jarfilter: '!**.jar', filter: '!module-info.class'
//libraryjars "${System.getProperty('java.home')}/jmods/....."
}
verbose
outjars(layout.buildDirectory.file("libs/${baseCoordinates}-minified.jar"))
}The embedded configuration is much like a standard ProGuard configuration. You can find more details on the Gradle setup page.
ProGuard works like an advanced optimizing compiler, removing unused classes, fields, methods, and attributes, shortening identifiers, merging classes, inlining methods, propagating constants, removing unused parameters, etc.
-
The optimizations typically reduce the size of an application by anything between 20% and 90%. The reduction mostly depends on the size of external libraries that ProGuard can remove in whole or in part.
-
The optimizations may also improve the performance of the application, by up to 20%. For Java virtual machines on servers and desktops, the difference generally isn't noticeable.
-
ProGuard can also remove logging code, from applications and their libraries, without needing to change the source code — in fact, without needing the source code at all!
The manual pages (markdown, html) cover the features and usage of ProGuard in detail.
Building ProGuard is easy - you'll just need a Java 8 JDK installed. To build from source, clone a copy of the ProGuard repository and run the following command:
./gradlew assembleThe artifacts will be generated in the lib directory. You can then execute ProGuard using the
scripts in bin, for example:
bin/proguard.shYou can publish the artifacts to your local Maven repository using:
./gradlew publishToMavenLocalContributions, issues and feature requests are welcome in both projects. Feel free to check the issues page and the contributing guide if you would like to contribute.
Copyright (c) 2002-2023 Guardsquare NV. ProGuard is released under the GNU General Public License, version 2, with exceptions granted to a number of projects.