A bridge between Node.js programs and Java APIs written in Rust using napi-rs
to provide a fast and memory-safe interface between the two languages.
The pre-compiled binaries will be provided with the package, the only thing
you need to do on your machine is install a Java Runtime Environment (JRE)
for this package to use. In contrast to other node.js <-> java
interfaces,
the binary is not hard linked to the JDK it has been compiled with but rather
loads the jvm native library dynamically when the program first starts up.
The full documentation of this package is available here.
NOTE: As of version 2.1.0
, this package has been renamed from @markusjx/java
to java-bridge
.
Installation
npm i java-bridge
Usage
Create the JVM
Create a new Java VM using the ensureJvm
method.
Calling this after the jvm has already been created will do nothing.
Destroying the jvm manually is not (yet) supported.
This will first search for a suitable jvm
native library on the system and then
start the jvm with no extra options. This is also called when any call to the jvm is made
but the jvm is not yet started.
import { ensureJvm } from 'java-bridge';
ensureJvm();
You can pass extra options to the jvm when creating it, for example requesting a specific jvm version,
specifying the location of the jvm native library or passing additional arguments to the jvm.
import { ensureJvm, JavaVersion } from 'java-bridge';
ensureJvm({
libPath: 'path/to/jvm.dll',
version: JavaVersion.VER_9,
opts: '-Xms512m -Xmx512m',
});
Use daemon threads
By default, new threads will not be attached as daemon threads, meaning any thread attached to the
jvm will be automatically detached once it is not required anymore. This slows down asynchronous calls
but will prevent the jvm from being terminated if any thread is still running.
If you want to change this behaviour, you can pass the useDaemonThreads
option to the ensureJvm
function.
This will make the jvm attach threads as daemon threads causing those threads to not be detached
once not required anymore.
ensureJvm({
useDaemonThreads: true,
});
Inject a JAR into the class path
In order to import your own classes into the node environment, you need
to add the JAR file to the class path. You can do that with the
appendClasspath
or classpath.append
methods. After loading a JAR, you can import classes from it like any other class
from the JVM using importClass
or importClassAsync
.
import { appendClasspath } from 'java-bridge';
appendClasspath('/path/to/jar.jar');
appendClasspath(['/path/to/jar1.jar', '/path/to/jar2.jar']);
or
import { classpath } from 'java-bridge';
classpath.append('/path/to/jar.jar');
Synchronous calls
If you want to use Java APIs in a synchronous way, you can use the synchronous API of this module.
Any call to the Java API will be executed in the same thread as your node process so this
may cause your program to hang until the execution is finished. But - in contrast to the asynchronous API -
these calls are a lot faster as no extra threads need to be created/attached to the JVM.
All synchronous java methods are proceeded with the postfix Sync
.
This means, all methods of a class (static and non-static) are generated twice,
once as a synchronous call and once as an asynchronous call.
If you are looking for asynchronous calls, take a look at the next section.
In order to import a class synchronously, you can use the importClass
function.
Using this method does not affect your ability to call any method of the class asynchronously.
import { importClass } from 'java-bridge';
const JString = importClass('java.lang.String');
const str = new JString('Hello World');
str.lengthSync();
str.toStringSync();
Asynchronous calls
If you want to use Java APIs in an asynchronous way, you can use the asynchronous API of this module.
Any call to the Java API will be executed in a separate thread and the execution will not block your program.
This is in general a lot slower as the synchronous API but allows the program to run more smoothly.
If you want to improve the performance of the asynchronous API, you can force the module to attach
any thread as a daemon thread to the JVM. This allows the program to not constantly attach new threads
to the JVM as the old ones can be reused and thus improves the performance.
In order to import a class asynchronously, you can use the
importClassAsync
function.
import { importClassAsync } from 'java-bridge';
const JString = await importClassAsync('java.lang.String');
const str = await JString.newInstanceAsync('Hello World');
await str.length();
await str.toString();
Implement a Java interface
You can also implement a Java interface in node.js using the
newProxy
method.
Please note that when calling a java method that uses an interface defined by this method,
you must call that method using the interface asynchronously as Node.js is single threaded
and can't wait for the java method to return while calling the proxy method at the same time.
import { newProxy } from 'java-bridge';
const proxy = newProxy('path.to.MyInterface', {
});
instance.someMethod(proxy);
proxy.reset();
Redirect the stdout and stderr from the java process
If you want to redirect the stdout and/or stderr from the java
process to the node.js process, you can use the
enableRedirect
method.
import { stdout } from 'java-bridge';
const guard = stdout.enableRedirect(
(_, data) => {
console.log('Stdout:', data);
},
(_, data) => {
console.error('Stderr:', data);
}
);
Value conversion rules
- Any basic value such as
string
, number
, boolean
or BigInt
may be passed to methods accepting matching
types string
values will always be converted to java.lang.String
string
values with just one character may be converted to char
or java.lang.Char
if required- Thus, in order to pass a
char
to a java method, use a string
containing just one character number
values will be converted to int
, long
, double
, float
, java.lang.Integer
,
java.lang.Long
, java.lang.Double
or java.lang.Float
depending on the type the java function to call requiresboolean
values will be converted to either boolean
or java.lang.Boolean
BigInt
values will be converted to either long
or java.lang.Long
- Arrays will be converted to java arrays. Java arrays may only contain a single value type, therefore the type of
the first element in the array will be chosen as the array type, empty arrays need no conversions.
java.lang.String
values will be converted to string
int
, double
, float
, java.lang.Integer
, java.lang.Double
or java.lang.Float
values will be converted to number
long
or java.lang.Long
values will always be converted to BigInt
boolean
or java.lang.Boolean
values will be converted to boolean
char
or java.lang.Character
values will be converted to string
- Java arrays will be converted to javascript arrays, applying the rules mentioned above except
- Byte arrays will be converted to
Buffer
and vice-versa
Command line interface
This module also ships with a command line interface called java-ts-gen
for creating typescript definitions for Java classes.
The command line interface will create typescript definitions for all specified classes and their dependencies.
Installation
npm install -g java-bridge
Usage
java-ts-gen <output> <classnames..>
Positionals:
classnames The fully qualified class name(s) to convert [string]
output The output file [string]
Options:
--help Show help [boolean]
--version Show version number [boolean]
--classpath, --cp The classpath to use [string]
Notes
- The classpath argument can be supplied multiple times to add multiple jars to the classpath
- Multiple class names can be supplied to generate definitions for multiple classes
- The generated typescript files will automatically import all classes once the module is loaded.
Examples
Generate definitions for a single class
Generate definitions for the java.lang.String
class and all its referenced classes and save them to ./project
:
java-ts-gen ./project java.lang.String
This will create a directory called java
containing the definitions for the java.lang.String
class and all its
dependencies all inside subdirectories. The java.lang.String
class will be saved to ./project/java/lang/String.ts
.
Thus, the folder structure of project
will look something like this:
.
├── ...
├── java
│ ├── lang
│ │ ├── String.ts
│ │ ├── Object.ts
│ │ └── ...
│ ├── util
│ │ └── ...
│ └── ...
└── ...
Generate definitions for multiple classes
Generate definitions for the java.lang.String
and java.util.ArrayList
classes and all of their dependencies
and save them to ./project
:
java-ts-gen ./project java.lang.String java.util.ArrayList