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- Getting Started
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- GraalVM Tools for Java
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GraalVM Tools for Java
- Extension Installation
- GraalVM Installation Wizard
- Set Default Java Runtime
- Java Development and Debugging
- Integration with VisualVM
- Native Image Support
- Extension Settings
GraalVM Tools for Java extension provides capabilities to manage GraalVM installations and its components in Visual Studio (VS) Code and/or locally. The extension ships a GraalVM installation and configuration wizard. You can conveniently set up the default Java runtime to GraalVM JDK which comes with both just-in-time (Graal) and ahead-of-time (Native Image) compilers, making VS Code a comfortable and convenient integrated environment.
The GraalVM Tools for Java in combination with the GraalVM Tools for Micronaut brings native support for the Micronaut framework in VS Code and opens many more possibilities for Java developers.
Extension Installation #
To install the GraalVM Tools for Java extension in VS Code, do the following:
- Navigate to Extensions in the Activity Bar.
- Search for “GraalVM” in the search field.
- Once found, click Install. That action installs the GraalVM Tools for Java extension from the VS Code Marketplace.
- Reload when required.
The extension depends on the Apache NetBeans Language Server. (VS Code installs it for you.) When the extension (and its dependent) is installed, VS Code displays the Gr icon in the Activity Bar on the left.
GraalVM Installation Wizard #
You can easily install GraalVM in VS Code by using the built-in installation wizard.
To start, click the Gr icon in the Activity Bar. You can either add an existing GraalVM installation (if you already have GraalVM), or download it immediately from within VS Code. A dialogue window suggests these options:
- Download & Install GraalVM
Add Existing GraalVM
The Download & Install GraalVM action is recommended as it eliminates the fuss around setting up environment variables for you.
Download & Install GraalVM #
Follow these steps to download and install GraalVM.
- Pick the GraalVM distribution: Oracle GraalVM or GraalVM Community Edition.
- Pick the version: one of the latest stable releases, or the latest development snapshot (if you selected GraalVM Community Edition).
- Pick one of the available Java versions.
- Select the destination folder.
The installation starts immediately. If you are installing Oracle GraalVM, the installation wizard downloads a package from Oracle’s storage point and displays progress. If you are installing GraalVM Community Edition, the wizard downloads the package from Github and displays progress.
Note: This installation option offers the latest verion of GraalVM. If you would like to install an older version, follow these steps.
Once you confirm, you are taken to the selection list.
Add Existing GraalVM #
Use the Add Existing GraalVM action to select an existing GraalVM installation. You are prompted to set the GraalVM installation as default, and to install additional components, if not already installed. Add Existing GraalVM can also be invoked by using an icon on the side of the GRAALVM: INSTALLATIONS panel.
Each registered GraalVM installation displays its location and all its available components. Components are either installed or available for download - the context actions to install (the plus icon) or remove (the bucket icon) are displayed when hovering over component’s name. All registered GraalVM installations will be listed in the configuration file under File > Preferences > Settings (Code > Preferences > Settings on macOS).
This installation model permits multiple GraalVMs at the same time and enables a quick removal of unnecessary GraalVM installations from VS Code global storage or even from your local disk.
Set Default Java Runtime #
When the installation is complete, the Set Default Java action is invoked.
To set a newly added GraalVM active, click the home icon by the side of the installation name.
Select both Set as JAVA for Terminal options (
PATH) in the Configure active GraalVM window:
Alternatively, you can invoke the same action from View, then Command Palette (use the
Ctrl+Shift+P hot keys combination for Linux, and
Command+Shift+P for macOS to open the commands palette), and search for “GraalVM”.
You see GraalVM: Set Active GraalVM Installation among other actions.
Java Development and Debugging #
The Apache NetBeans Language Server, installed on par with the extension, enables the Java language support.
There are several Java launch configurations available by default. In addition to regular features enabled, GraalVM Tools for Java provides support for ahead-of-time compilation with GraalVM Native Image, Java-like debugging of native executables, integration with VisualVM, and, lastly, polyglot programming (check here).
You can use the Extension Pack for Java from Microsoft if you prefer it instead of the default Apache NetBeans Language Server (see Java in VS Code to get started). If VS Code detects the Extension Pack for Java from Microsoft installed, it deactivates the Apache NetBeans Language Server.
Integration with VisualVM #
The GraalVM Tools for Java extension provides integration with VisualVM, the all-in-one Java (and polyglot) monitoring and troubleshooting tool. VisualVM brings easy-to-use visual Java tooling to VS Code.
When you run a Java application, the process ID is detected automatically and displayed in the VISUALVM pane. Open VisualVM by just clicking the play button:
For more information, see the dedicated guide how to start using VisualVM from within VS Code.
Native Image Support #
GraalVM Tools for Java extension provides the NATIVE IMAGE with Agent pane to automate the process of tracking and registering dynamic feature calls, making it easier to configure and build a native executable in VS Code. The tracing agent tracks dynamic feature calls whilst your application is running on a JVM, and records those calls into JSON configuration files.
Note: The NATIVE IMAGE pane shows up when you open your Java project in VS Code.
Note: The support for the Native Image agent is experimental.
In the next section you learn how to build a native executable of a Java application and apply the agent in VS code.
To build a native executable of your Java application in VS Code, do the following:
- Create the launch.json file. If not already created, create a new file from the Run and Debug activity panel using the create a launch.json file link. Select the Java 8+ environment when asked. Save the launch.json file after editing it.
Enable the agent. Click Gr in the left sidebar and expand the NATIVE IMAGE pane. Expand Agent and click the edit button to configure its state.
Select enabled so the Native Image agent starts with the Java process:
Note: The state is not remembered: if you close the VS Code window, it will change back to disabled.
- Run your Java application on the GraalVM runtime. Open Run and Debug activity panel (click the bug icon in the left sidebar), choose the Launch Java 8+ App configuration and click Run Without Debugging to start the current project.
Note: Do not click the Start Debugging action to start a project. The tracing agent is not compatible with the debugger agent and running such a configuration will fail.
Specify the output folder for configuration files to be generated. During the execution, the agent interfaces with a JVM to intercept all calls that look up classes, methods, fields, resources, or request proxy accesses. The agent generates configuration files containing all intercepted dynamic accesses and and stores them in the output folder you specify. When you start the project, VS Code asks you to select the desired location. The following choices are available:
META-INF/native-image- the default location in project sources to store the configuration files
/tmp- the configuration files will be stored to the
- Custom folder - the configuration files will be stored in the custom folder you specify
- Generate load to the running process to invoke more code and generate the best configuration.
- Once all possible execution paths have been executed, terminate the process. At this point the tracing agent dumps the collected configuration to the selected output folder.
Go to Terminal, and click New Terminal. To build a native executable from a Java class file in the current working folder, use the following command:
native-image [options] class [imagename]
If you project is Maven or Gradle based, there are dedicated Maven or Gradle plugins to add support for building and testing native executables written in Java. For more documentation, go to:
If you use the Micronaut framework to create your Java project, you can build a native executable of a Micronaut application using VS Code quick actions. Go here to learn how.
Building Native Images on Windows #
To use Native Image on Windows, you need Visual Studio Build Tools with Windows SDK installed. Check out our blog post on GraalVM for Windows for more details.
For Windows users, the extension provides a pre-configured x64 command prompt using Microsoft Developer Tools. Assuming you already have Visual Studio Build Tools with Windows SDK and opened your Java project in VS Code.
In the NATIVE IMAGE pane, click on right arrow, >:
It opens a dialog window asking you to select an existing Windows SDK build tools configuration script (
vcvars64.bat) from the default installation location, or to select a custom configuration script. VS Code detects the script and pre-populate the path.
Click enter. A new Terminal window opens running inside the x64 native tools command prompt.
Note that the path to Windows SDK build tools is saved globally, so next time you open a New Terminal from the NATIVE IMAGE pane, it will run inside the x64 native tools command prompt.
native-imagebuilder, for example, check the version:
Learn more about GraalVM Native Image here.
Extension Settings #
The GraalVM Tools for Java extension contributes the following settings in VS Code:
- graalvm.home - the path to the GraalVM installation
- graalvm.installations - all registered GraalVM installations
- graalvm.systemDetect - detect GraalVM’s installation from the system environment variables
- graalvm.languageServer.currentWorkDir - an absolute path to the working folder of GraalVM’s Language Server Protocol
- graalvm.languageServer.start - start GraalVM’s Language Server Protocol within processes being run or debugged
- graalvm.languageServer.delegateServers - a comma-separated list of
language@[host:]portwhere other language servers run
- graalvm.languageServer.startRLanguageServer - start the R Language Server
- graalvm.languageServer.startRubyLanguageServer - start the Ruby Language Server
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