d8

d8 is a command-line tool that Android Studio and the Android Gradle plugin use to compile your project's Java bytecode into DEX bytecode that runs on Android devices. d8 lets you use Java 8 language features in your app's code.

d8 is also included as a standalone tool in Android Build Tools 28.0.1 and higher: android_sdk/build-tools/version/.

General usage

d8 requires only a path to the compiled Java bytecode that you want to convert into DEX bytecode. For example:

d8 MyProject/app/build/intermediates/classes/debug/*/*.class

The input bytecode can be in any combination of *.class files or containers, such as JAR, APK, or ZIP files. You can also include DEX files for d8 to merge into the DEX output, which is useful when including output from an incremental build.

By default, d8 compiles the Java bytecode into optimized DEX files and includes debug information that you can use to debug your code during runtime. However, you can include optional flags to perform an incremental build, specify classes that should be compiled into the main DEX file, and specify paths to additional resources required to use Java 8 language features.

d8 path-to-input-files [options]

The following table describes the optional flags you can use with d8:

Option Description
--debug

Compile DEX bytecode to include debug information, such as debug symbol tables.

This option is enabled by default. To include debug information in your DEX bytecode, d8 expects that the input Java bytecode includes that information. For example, if you're using javac to compile your code, you need to pass the -g flag to include debug information in the output Java bytecode.

When compiling DEX files for the release version of your app or library, instead use the --release flag.

--release

Compile DEX bytecode without debug information. However, d8 includes some information that's used when generating stacktraces and logging exceptions.

Pass this flag when compiling bytecode for a public release.

--output path

Specify the desired path for the DEX output. By default, d8 outputs the DEX file(s) in the current working directory.

If you specify a path and name of a ZIP or JAR file, d8 creates the specified file and includes the output DEX files. If you specify the path to an existing directory, d8 outputs the DEX files in that directory.

--lib android_sdk/platforms/api-level/android.jar Specify the path to the android.jar of your Android SDK. This flag is required when compiling bytecode that uses Java 8 language features.
--classpath path Specify classpath resources that d8 may require to compile your project's DEX files. In particular, d8 requires that you specify certain resources when compiling bytecode that uses Java 8 language features.
--min-api number Specify the minimum API level you want the output DEX files to support.
--intermediate Pass this flag to let d8 know that you are not compiling the complete set of your project's Java bytecode. This flag is useful when performing incremental builds. Rather than compiling optimized DEX files that you expect to run on a device, d8 creates intermediate DEX files and stores them in the specified output or default path.

When you want to compile DEX files that you intend to run on a device, exclude this flag and specify the path to the intermediate DEX classes as an input.

--file-per-class

Compile each class into separate DEX files.

Enabling this flag lets you perform more incremental builds by re-compiling only the classes that have changed. When performing incremental builds using the Android Gradle plugin, this optimization is enabled by default.

You can't use this flag while also specifying --main-dex-list.

--no-desugaring Disable Java 8 language features. Use this flag only if you don't intend to compile Java bytecode that uses Java 8 language features.
--main-dex-list path

Specify a text file that lists classes d8 should include in the main DEX file, which is typically named classes.dex. When you don't specify a list of classes using this flag, d8 does not guarantee which classes are included in the main DEX file.

Because the Android system loads the main DEX file first when starting your app, you can use this flag to prioritize certain classes at startup by compiling them into the main DEX file. This is particularly useful when supporting legacy multidex, because only classes in the main DEX file are available at runtime until the legacy multidex library is loaded.

Keep in mind, the each DEX file must still satisfy the the 64K reference limit. So, don't specify too many classes for the main DEX file, or you get a compile error. By default, when specifying classes using --main-dex-list, d8 includes only those classes in the main DEX file. This is to make issues related to classes missing from main DEX file easier to debug. If you specify --release mode, d8 tries to reduce the number of DEX files that are packaged into the release version of your app by including as many other classes in the main DEX file as possible until the 64K limit is met.

You can't use this flag while also specifying --file-per-class.

--pg-map file Use file as a mapping file for distribution.
--file-per-class-file

Produce a separate DEX file per input .class file.

Keep synthetic classes with their originating class.

--desugared-lib file

Specify a desugared library configuration.

file is a desugared library configuration file in JSON format.

--main-dex-rules file Proguard keep rules for classes to place in the primary DEX file.
--main-dex-list-output file Output resulting main DEX list in file.

--force-enable-assertions [:class_or_package_name...]

--force-ea [:class_or_package_name...]

Forcefully enable javac-generated assertion code.

--force-disable-assertions [:class_or_package_name...]

--force-da [:class_or_package_name...]

Forcefully disable javac-generated assertion code. This is the default handling of javac assertion code when generating DEX files.

--force-passthrough-assertions [:class_or_package_name...]

--force-pa [:class_or_package_name...]

Don't change the javac-generated assertion code. This is the default handling of javac assertion code when generating class files.

--force-assertions-handler:handler method [:class_or_package_name...]

--force-ah:handler method [:class_or_package_name...]

Change javac- and kotlinc-generated assertion code to invoke the method handler method with each assertion error instead of throwing it. The handler method is specified as a class name followed by a dot and the method name. The handler method must take a single argument of type java.lang.Throwable and have return type void.
--thread-count number of threads Specify the number of threads to use for compilation. If not specified, the number is based on heuristics, taking the number of cores into account.
--map-diagnostics[ :type] from-level to-level Map diagnostics of type (default any) reported as from-level to to-level, where from-level and to-level are one of 'info', 'warning', or 'error' and the optional type is either the simple or fully qualified Java type name of a diagnostic. If type is unspecified, all diagnostics at from-level are mapped. Note that fatal compiler errors can't be mapped.
--version Print the version of d8 that you're currently using.
--help Print help text for using d8.

Perform incremental builds

To improve build speeds during development, such as for continuous integration builds, instruct d8 to compile only a subset of your project's Java bytecode. For example, if you enable per-class dexing, you can re-compile only the classes that you have modified since the previous build.

The following command performs an incremental build of a few classes and enables per-class dexing. The command also specifies an output directory for the incremental build.

d8 MainActivity.class R.class --intermediate --file-per-class --output ~/build/intermediate/dex

When d8 performs an incremental build, it stores additional information in the DEX output. d8 later uses that information to correctly process the --main-dex-list option and merge DEX files during a full build of your app.

For example, when processing Java 8 lambda classes, d8 keeps track of which lambda classes are created for each input class. During a full build, when d8 includes a class in the main DEX file, it consults the metadata to ensure all of the lambda classes created for that class are also included in the main DEX file.

If you have already compiled all of your project's bytecode into DEX files across multiple incremental builds, perform a full build by passing the directory of intermediate DEX files to d8, as shown in the following command. Additionally, you can specify the classes you want d8 to compile into the main DEX file using --main-dex-list. Because the input is a set of files that are already compiled into DEX bytecode, this build should complete faster than a clean build.

d8 ~/build/intermediate/dex --release --main-dex-list ~/build/classes.txt --output ~/build/release/dex

Compile bytecode that uses Java 8 language features

d8 enables you to use Java 8 language features in your code through a compile process called desugaring. Desugaring converts these useful language features into bytecode that can run on the Android platform.

Android Studio and the Android Gradle plugin include classpath resources that d8 requires to enable desugaring for you. However, when using d8 from the command line, you need to include them yourself.

One such resource is the android.jar from your target Android SDK. This resource includes a set of Android platform APIs. Specify its path using the --lib flag.

Another resource is the set of Java bytecode compiled into your project that you are currently not compiling into DEX bytecode but require to compile other classes into DEX bytecode.

For example, if your code uses default and static interface methods, which are a Java 8 language feature, you need to use this flag to specify the path to all of your project's Java bytecode, even if you don't intend to compile all of the bytecode into DEX bytecode. That's because d8 requires this information to understand your project's code and resolve calls to the interface methods.

The following code sample performs an incremental build of a class that accesses a default interface method:

d8 MainActivity.class --intermediate --file-per-class --output ~/build/intermediate/dex
--lib android_sdk/platforms/api-level/android.jar
--classpath ~/build/javac/debug