Project: /_project.yaml Book: /_book.yaml
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This tutorial covers the basics of building Java applications with Bazel. You will set up your workspace and build a simple Java project that illustrates key Bazel concepts, such as targets and BUILD
files.
Estimated completion time: 30 minutes.
In this tutorial you learn how to:
To prepare for the tutorial, first Install Bazel if you don't have it installed already.
Install Java JDK (preferred version is 11, however versions between 8 and 15 are supported).
Set the JAVA_HOME environment variable to point to the JDK.
On Linux/macOS:
export JAVA_HOME="$(dirname $(dirname $(realpath $(which javac))))"
On Windows:
JAVA_HOME
.C:\Program Files\Java\jdk1.8.0_152
).Retrieve the sample project from Bazel's GitHub repository:
git clone https://github.com/bazelbuild/examples
The sample project for this tutorial is in the examples/java-tutorial
directory and is structured as follows:
java-tutorial ├── BUILD ├── src │ └── main │ └── java │ └── com │ └── example │ ├── cmdline │ │ ├── BUILD │ │ └── Runner.java │ ├── Greeting.java │ └── ProjectRunner.java └── WORKSPACE
Before you can build a project, you need to set up its workspace. A workspace is a directory that holds your project‘s source files and Bazel’s build outputs. It also contains files that Bazel recognizes as special:
The WORKSPACE
file, which identifies the directory and its contents as a Bazel workspace and lives at the root of the project's directory structure,
One or more BUILD
files, which tell Bazel how to build different parts of the project. (A directory within the workspace that contains a BUILD
file is a package. You will learn about packages later in this tutorial.)
To designate a directory as a Bazel workspace, create an empty file named WORKSPACE
in that directory.
When Bazel builds the project, all inputs and dependencies must be in the same workspace. Files residing in different workspaces are independent of one another unless linked, which is beyond the scope of this tutorial.
A BUILD
file contains several different types of instructions for Bazel. The most important type is the build rule, which tells Bazel how to build the desired outputs, such as executable binaries or libraries. Each instance of a build rule in the BUILD
file is called a target and points to a specific set of source files and dependencies. A target can also point to other targets.
Take a look at the java-tutorial/BUILD
file:
java_binary( name = "ProjectRunner", srcs = glob(["src/main/java/com/example/*.java"]), )
In our example, the ProjectRunner
target instantiates Bazel's built-in java_binary
rule. The rule tells Bazel to build a .jar
file and a wrapper shell script (both named after the target).
The attributes in the target explicitly state its dependencies and options. While the name
attribute is mandatory, many are optional. For example, in the ProjectRunner
rule target, name
is the name of the target, srcs
specifies the source files that Bazel uses to build the target, and main_class
specifies the class that contains the main method. (You may have noticed that our example uses glob to pass a set of source files to Bazel instead of listing them one by one.)
To build your sample project, navigate to the java-tutorial
directory and run:
bazel build //:ProjectRunner
In the target label, the //
part is the location of the BUILD
file relative to the root of the workspace (in this case, the root itself), and ProjectRunner
is the target name in the BUILD
file. (You will learn about target labels in more detail at the end of this tutorial.)
Bazel produces output similar to the following:
INFO: Found 1 target... Target //:ProjectRunner up-to-date: bazel-bin/ProjectRunner.jar bazel-bin/ProjectRunner INFO: Elapsed time: 1.021s, Critical Path: 0.83s
Congratulations, you just built your first Bazel target! Bazel places build outputs in the bazel-bin
directory at the root of the workspace. Browse through its contents to get an idea for Bazel's output structure.
Now test your freshly built binary:
bazel-bin/ProjectRunner
Bazel requires build dependencies to be explicitly declared in BUILD files. Bazel uses those statements to create the project's dependency graph, which enables accurate incremental builds.
To visualize the sample project's dependencies, you can generate a text representation of the dependency graph by running this command at the workspace root:
bazel query --notool_deps --noimplicit_deps "deps(//:ProjectRunner)" --output graph
The above command tells Bazel to look for all dependencies for the target //:ProjectRunner
(excluding host and implicit dependencies) and format the output as a graph.
Then, paste the text into GraphViz.
As you can see, the project has a single target that build two source files with no additional dependencies:
After you set up your workspace, build your project, and examine its dependencies, then you can add some complexity.
While a single target is sufficient for small projects, you may want to split larger projects into multiple targets and packages to allow for fast incremental builds (that is, only rebuild what's changed) and to speed up your builds by building multiple parts of a project at once.
You can split the sample project build into two targets. Replace the contents of the java-tutorial/BUILD
file with the following:
java_binary( name = "ProjectRunner", srcs = ["src/main/java/com/example/ProjectRunner.java"], main_class = "com.example.ProjectRunner", deps = [":greeter"], ) java_library( name = "greeter", srcs = ["src/main/java/com/example/Greeting.java"], )
With this configuration, Bazel first builds the greeter
library, then the ProjectRunner
binary. The deps
attribute in java_binary
tells Bazel that the greeter
library is required to build the ProjectRunner
binary.
To build this new version of the project, run the following command:
bazel build //:ProjectRunner
Bazel produces output similar to the following:
INFO: Found 1 target... Target //:ProjectRunner up-to-date: bazel-bin/ProjectRunner.jar bazel-bin/ProjectRunner INFO: Elapsed time: 2.454s, Critical Path: 1.58s
Now test your freshly built binary:
bazel-bin/ProjectRunner
If you now modify ProjectRunner.java
and rebuild the project, Bazel only recompiles that file.
Looking at the dependency graph, you can see that ProjectRunner
depends on the same inputs as it did before, but the structure of the build is different:
You've now built the project with two targets. The ProjectRunner
target builds two source files and depends on one other target (:greeter
), which builds one additional source file.
Let’s now split the project into multiple packages. If you take a look at the src/main/java/com/example/cmdline
directory, you can see that it also contains a BUILD
file, plus some source files. Therefore, to Bazel, the workspace now contains two packages, //src/main/java/com/example/cmdline
and //
(since there is a BUILD
file at the root of the workspace).
Take a look at the src/main/java/com/example/cmdline/BUILD
file:
java_binary( name = "runner", srcs = ["Runner.java"], main_class = "com.example.cmdline.Runner", deps = ["//:greeter"], )
The runner
target depends on the greeter
target in the //
package (hence the target label //:greeter
) - Bazel knows this through the deps
attribute. Take a look at the dependency graph:
However, for the build to succeed, you must explicitly give the runner
target in //src/main/java/com/example/cmdline/BUILD
visibility to targets in //BUILD
using the visibility
attribute. This is because by default targets are only visible to other targets in the same BUILD
file. (Bazel uses target visibility to prevent issues such as libraries containing implementation details leaking into public APIs.)
To do this, add the visibility
attribute to the greeter
target in java-tutorial/BUILD
as shown below:
java_library( name = "greeter", srcs = ["src/main/java/com/example/Greeting.java"], visibility = ["//src/main/java/com/example/cmdline:__pkg__"], )
Now you can build the new package by running the following command at the root of the workspace:
bazel build //src/main/java/com/example/cmdline:runner
Bazel produces output similar to the following:
INFO: Found 1 target... Target //src/main/java/com/example/cmdline:runner up-to-date: bazel-bin/src/main/java/com/example/cmdline/runner.jar bazel-bin/src/main/java/com/example/cmdline/runner INFO: Elapsed time: 1.576s, Critical Path: 0.81s
Now test your freshly built binary:
./bazel-bin/src/main/java/com/example/cmdline/runner
You've now modified the project to build as two packages, each containing one target, and understand the dependencies between them.
In BUILD
files and at the command line, Bazel uses target labels to reference targets - for example, //:ProjectRunner
or //src/main/java/com/example/cmdline:runner
. Their syntax is as follows:
//path/to/package:target-name
If the target is a rule target, then path/to/package
is the path to the directory containing the BUILD
file, and target-name
is what you named the target in the BUILD
file (the name
attribute). If the target is a file target, then path/to/package
is the path to the root of the package, and target-name
is the name of the target file, including its full path.
When referencing targets at the repository root, the package path is empty, just use //:target-name
. When referencing targets within the same BUILD
file, you can even skip the //
workspace root identifier and just use :target-name
.
For example, for targets in the java-tutorial/BUILD
file, you did not have to specify a package path, since the workspace root is itself a package (//
), and your two target labels were simply //:ProjectRunner
and //:greeter
.
However, for targets in the //src/main/java/com/example/cmdline/BUILD
file you had to specify the full package path of //src/main/java/com/example/cmdline
and your target label was //src/main/java/com/example/cmdline:runner
.
Let’s now package a Java target for deployment by building the binary with all of its runtime dependencies. This lets you run the binary outside of your development environment.
As you remember, the java_binary build rule produces a .jar
and a wrapper shell script. Take a look at the contents of runner.jar
using this command:
jar tf bazel-bin/src/main/java/com/example/cmdline/runner.jar
The contents are:
META-INF/ META-INF/MANIFEST.MF com/ com/example/ com/example/cmdline/ com/example/cmdline/Runner.class
As you can see, runner.jar
contains Runner.class
, but not its dependency, Greeting.class
. The runner
script that Bazel generates adds greeter.jar
to the classpath, so if you leave it like this, it will run locally, but it won't run standalone on another machine. Fortunately, the java_binary
rule allows you to build a self-contained, deployable binary. To build it, append _deploy.jar
to the target name:
bazel build //src/main/java/com/example/cmdline:runner_deploy.jar
Bazel produces output similar to the following:
INFO: Found 1 target... Target //src/main/java/com/example/cmdline:runner_deploy.jar up-to-date: bazel-bin/src/main/java/com/example/cmdline/runner_deploy.jar INFO: Elapsed time: 1.700s, Critical Path: 0.23s
You have just built runner_deploy.jar
, which you can run standalone away from your development environment since it contains the required runtime dependencies. Take a look at the contents of this standalone JAR using the same command as before:
jar tf bazel-bin/src/main/java/com/example/cmdline/runner_deploy.jar
The contents include all of the necessary classes to run:
META-INF/ META-INF/MANIFEST.MF build-data.properties com/ com/example/ com/example/cmdline/ com/example/cmdline/Runner.class com/example/Greeting.class
For more details, see:
rules_jvm_external for rules to manage transitive Maven dependencies.
External Dependencies to learn more about working with local and remote repositories.
The other rules to learn more about Bazel.
The C++ build tutorial to get started with building C++ projects with Bazel.
The Android application tutorial and iOS application tutorial) to get started with building mobile applications for Android and iOS with Bazel.
Happy building!