Awesome
Language Server for Java using the Java compiler API
A Java language server based on v3.0 of the protocol and implemented using the Java compiler API.
Installation (VS Code)
Install from the VS Code marketplace
Installation (other editors)
Vim (with vim-lsc)
- Checkout this repository
- Run
./scripts/link_{linux|mac|windows}.sh
- Run
mvn package -DskipTests
- Add the vim plugin natebosch/vim-lsc to your vimrc
- Add vim-lsc configuration:
let g:lsc_server_commands = {'java': '<path-to-java-language-server>/java-language-server/dist/lang_server_{linux|mac|windows}.sh'}
- See the vim-lsc README for other configuration options.
Note: This tool is not compatible with vim-lsp as it only supports LSPv2.0.
KDE Kate
- Checkout this repository
- Run
./scripts/link_{linux|mac|windows}.sh
- Run
mvn package -DskipTests
- Open your Kate editor
- Go to Settings > Configure Kate... > LSP Client > User Server Settings
- Add this lines to your User Server Settings:
{
"servers":
{
"java":
{
"command": ["bash","<path-to-java-language-server>/java-language-server/dist/lang_server_{linux|mac|windows}.sh"],
"url": "https://github.com/georgewfraser/java-language-server",
"highlightingModeRegex": "^Java$"
}
}
}
Sublime 3 (with LSP)
- Checkout this repository
- Run
./scripts/link_{linux|mac|windows}.sh
- Run
mvn package -DskipTests
- Open your Sublime 3
- Install Package Control (if missing)
- Install the LSP Package (if missing)
- In Sublime, go to Preferences > Package Settings > LSP > Settings
- Add this lines to your LSP Settings:
{
"clients":
{
"jls":
{
"enabled": true,
"command": ["bash", "<path-to-java-language-server>/java-language-server/dist/lang_server_{linux|mac|windows}.sh"],
"scopes": ["source.java"],
"syntaxes": ["Packages/Java/Java.sublime-syntax"],
"languageId": "java"
}
}
}
Issues
Features
Javadoc
Signature help
Autocomplete symbols (with auto-import)
Autocomplete members
Go-to-definition
Find symbols
Lint
Type information on hover
Find references
Debug
Usage
The language server will provide autocomplete and other features using:
- .java files anywhere in your workspace
- Java platform classes
- External dependencies specified using
pom.xml
, Bazel, or settings
Settings
If the language server doesn't detect your external dependencies automatically, you can specify them using .vscode/settings.json
{
"java.externalDependencies": [
"junit:junit:jar:4.12:test", // Maven format
"junit:junit:4.12" // Gradle-style format is also allowed
]
}
If all else fails, you can specify the Java class path and the locations of source jars manually:
{
"java.classPath": [
"lib/some-dependency.jar"
],
"java.docPath": [
"lib/some-dependency-sources.jar"
]
}
You can generate a list of external dependencies using your build tool:
- Maven:
mvn dependency:list
- Gradle:
gradle dependencies
The Java language server will look for the dependencies you specify in java.externalDependencies
in your Maven and Gradle caches ~/.m2
and ~/.gradle
. You should use your build tool to download the library and source jars of all your dependencies so that the Java language server can find them:
- Maven
mvn dependency:resolve
for compilation and autocompletemvn dependency:resolve -Dclassifier=sources
for inline Javadoc help
- Gradle
gradle dependencies
for compilation and autocomplete- Include
classifier: sources
in your build.gradle for inline Javadoc help, for example:dependencies { testCompile group: 'junit', name: 'junit', version: '4.+' testCompile group: 'junit', name: 'junit', version: '4.+', classifier: 'sources' }
Design
The Java language server uses the Java compiler API to implement language features like linting, autocomplete, and smart navigation, and the language server protocol to communicate with text editors like VSCode.
Incremental updates
The Java compiler API provides incremental compilation at the level of files: you can create a long-lived instance of the Java compiler, and as the user edits, you only need to recompile files that have changed. The Java language server optimizes this further by focusing compilation on the region of interest by erasing irrelevant code. For example, suppose we want to provide autocomplete after print
in the below code:
class Printer {
void printFoo() {
System.out.println("foo");
}
void printBar() {
System.out.println("bar");
}
void main() {
print // Autocomplete here
}
}
None of the code inside printFoo()
and printBar()
is relevant to autocompleting print
. Before servicing the autocomplete request, the Java language server erases the contents of these methods:
class Printer {
void printFoo() {
}
void printBar() {
}
void main() {
print // Autocomplete here
}
}
For most requests, the vast majority of code can be erased, dramatically speeding up compilation.
Logs
The java service process will output a log file to stderr, which is visible in VSCode using View / Output, under "Java".
Contributing
Installing
Before installing locally, you need to install prerequisites: npm, maven, protobuf. For example on Mac OS, you can install these using Brew:
brew install npm maven protobuf
You also need to have Java 13 installed. Point the JAVA_HOME
environment variable to it. For example, on Mac OS:
export JAVA_HOME=/Library/Java/JavaVirtualMachines/jdk-13.0.1.jdk/Contents/Home/
Assuming you have these prerequisites, you should be able to install locally using:
npm install -g vsce
npm install
./scripts/build.sh
Editing
Please run ./configure before your first commit to install a pre-commit hook that formats the code.