◀Table of Contents
JavaScript Compatibility
GraalVM provides an ECMAScript-compliant JavaScript language runtime. This document explains the public API it presents for user applications written in JavaScript.
ECMAScript Language Compliance
GraalVM JavaScript implements JavaScript as prescribed in the ECMAScript (ECMA-262) specification.
It is fully compatible with the ECMAScript 2020 specification (sometimes referred to as “version 11” or “ES11”).
Starting with GraalVM 21.0.0, all available features of the ECMAScript 2021 draft specification are enabled by default.
New features are frequently added to GraalVM when they are confirmed to be part of ECMAScript 2021, see the CHANGELOG.md for details.
Older versions starting from ECMAScript 5 can be enabled with a config flag (by number: --js.ecmascript-version=5
or by year: --js.ecmascript-version=2019
).
In a production setup you might consider specifying a fixed ECMAScript version to be used, as future versions of GraalVM JavaScript will use newer versions of the specification once available.
GraalVM JavaScript provides the following function objects in the global scope as specified by ECMAScript, representing the JavaScript core library: Array, ArrayBuffer, Boolean, DataView, Date, Error, Function, JSON, Map, Math, Number, Object, Promise, Proxy, Reflect, RegExp, Set, SharedArrayBuffer, String, Symbol, TypedArray, WeakMap, and WeakSet.
Additional objects are available under flags, for instance Intl
(flag: --js.intl-402
).
Run js --help
or js --help:languages
for the list of available flags.
Several of these function objects and some of their members are only available when a certain version of the specification is selected for execution. For a list of methods provided, inspect the ECMAScript specification. Extensions to the specification are specified below.
Internationalization API (ECMA-402)
Internationalization API implementation (see https://tc39.github.io/ecma402) can be activated using the following flag: --js.intl-402=true
.
If you run in native mode (default option), you also need to specify the path to your ICU data directory using the following option: --vm.Dcom.ibm.icu.impl.ICUBinary.dataPath=$GRAAL_VM_DIR/jre/languages/js/icu4j/icudt
,
where $GRAAL_VM_DIR
refers to your GraalVM installation directory.
If you run in the JVM mode (the --jvm
flag is used), you do not need to specify where your ICU data are located, although you can do it with the above option.
Once you activate the Internationalization API, you can use the following built-ins:
Intl.NumberFormat
Intl.DateTimeFormat
Intl.Collator
Intl.PluralRules
The functionality of a few other built-ins is then also updated according to the specification linked above.
JavaScript Modules
GraalVM JavaScript supports modules as defined by ECMAScript 6 and later. Be aware that the support for this feature grew and still grows over time. Be sure to use the latest ECMAScript version for the all the latest features.
When loading modules via a polyglot Source
, you can use the inofficial application/javascript+module
mime type to specify you are loading a module.
When loading with JavaScript code from a file, make sure the module is loaded from a file with the .mjs
extension.
Loading with the import
keyword is not limited by that, and can import
from a file of any extension.
Compatibility Extensions
The following objects and methods are available in GraalVM JavaScript for compatibility with other JavaScript execution engines. Note that the behavior of such methods might not strictly match the semantics of those methods in all existing engines.
Language Features
Conditional Catch Clauses
GraalVM JavaScript supports conditional catch clauses if the js.syntax-extensions
option is enabled:
try {
myMethod(); // can throw
} catch (e if e instanceof TypeError) {
print("TypeError caught");
} catch (e) {
print("another Error caught");
}
Global Properties
load(source)
- loads (parses and executes) the specified JavaScript source code
Source can be of type:
- a String: the path of the source file or a URL to execute.
java.lang.URL
: the URL is queried for the source code to execute if thejs.load-from-url
option is set totrue
.java.io.File
: the file is read for the source code to execute.- a JavaScript object: the object is queried for a
name
and ascript
property, which represent the source name and code, respectively. - all other types: the source is converted to a String.
load
is available by default and can be deactivated by setting the js.load
option to false
.
print(...arg)
and printErr(...arg)
- prints the arguments on the console (stdout and stderr, respectively)
- provides a best-effort human readable output
print
and printErr
are available by default and can be deactivated by setting the js.print
option to false
.
Methods of the console
Global Object
A global console
object is provided that offers several methods for debugging purposes.
These methods strive to provide similar functionality as provided in other engines, but do not guarantee identical results.
Note that those methods behave differently when GraalVM JavaScript is executed in Node.js mode (i.e., the node
executable is started instead of js
).
Node.js provides its own implementation that is used instead.
console.log
,console.info
, andconsole.debug
: an alias forprint(...arg)
console.error
, andconsole.warn
: similar toprint
, but using the error IO streamconsole.assert(check, message)
: printsmessage
whencheck
is falsyconsole.clear
: clears the console window if possibleconsole.count()
, andconsole.countReset()
: counts and print how many times it has been called, or resets this counterconsole.group
, andconsole.groupEnd
: increases or decreases the indentation for succeeding outputs to the consoleconsole.time()
,console.timeLog()
, andconsole.timeEnd()
: starts a timer, prints the duration the timer has been active, or prints the duration and stops the timer, respectively
The console
object is available by default and can be deactivated by setting the option js.console
to false
.
Additional Global Functions in the js
Shell
quit(status)
- exits the engine and returns the specified status code
read(file)
- reads the content of
file
The result is returned as a String.
The argument file
can be of type:
java.io.File
: the file is used directly.- all other types:
file
is converted to a String and interpreted as a file name.
readbuffer(file)
- reads the content of
file
similar to theread
function
The result is returned as a JavaScript ArrayBuffer
object.
readline()
- reads one line of input from the input stream
The result is returned as a String.
Object
Object.prototype.__defineGetter__(prop, func)
- defines the
prop
property ofthis
to be the getter functionfunc
This functionality is deprecated in most JavaScript engines. In recent ECMAScript versions, getters and setters are natively supported by the language.
Object.prototype.__defineSetter__(prop, func)
- defines the
prop
property ofthis
to be the setter functionfunc
This functionality is deprecated in most JavaScript engines. In recent ECMAScript versions, getters and setters are natively supported by the language.
Object.prototype.__lookupGetter__(prop)
- returns the getter function for property
prop
of the object as set by__defineGetter__
This functionality is deprecated in most JavaScript engines. In recent ECMAScript versions, getters and setters are natively supported by the language.
Object.prototype.__lookupSetter__(prop)
- returns the setter function for property
prop
of the object as set by__defineSetter__
This functionality is deprecated in most JavaScript engines. In recent ECMAScript versions, getters and setters are natively supported by the language.
Nashorn Scripting Mode
GraalVM JavaScript provides a scripting mode compatible with the one provided by the Nashorn engine.
It is enabled with the js.scripting
option. Make sure to have --experimental-options
set:
js --experimental-options --js.scripting=true
In scripting mode, several properties and functions are added to the global object, including readFully, readLine, $ARG
, $ENV
, and $EXEC
.
There are migration guides available for code previously targeted to the Nashorn or Rhino engines.
GraalVM JavaScript Extensions
Graal Object
The Graal
object is provided as a property of the global object.
It provides Graal-specific information.
The existence of the property can be used to identify whether the GraalVM JavaScript engine is the current language engine:
if (typeof Graal != 'undefined') {
print(Graal.versionJS);
print(Graal.versionGraalVM);
print(Graal.isGraalRuntime);
}
The Graal object is available in GraalVM JavaScript by default, unless deactivated by an option (js.graal-builtin=false
).
Graal.versionJS
- provides the version number of GraalVM JavaScript
Graal.versionGraalVM
- provides the version of GraalVM, if the current engine is executed on GraalVM
Graal.isGraalRuntime
- provides whether GraalVM JavaScript is executed on a GraalVM-enabled runtime
If true
, hot code is compiled by the GraalVM compiler, resulting in high peak performance.
If false
, GraalVM JavaScript will not be optimized by the GraalVM Compiler, typically resulting in lower performance.
Java
The Java
object is only available when the engine is started in JVM mode (--jvm
flag).
Note that some functions require a Nashorn compatibility mode flag to be set. On GraalVM, this flag can be set with:
js --jvm --experimental-options --js.nashorn-compat=true
Java.type(className)
- loads the specified Java class and provides it as an object
- fields of this object can be read directly from it, and new instances can be created with the JavaScript
new
keyword:var BigDec = Java.type('java.math.BigDecimal'); var bd = new BigDec("0.1"); console.log(bd.add(bd).toString());
Java.from(javaData)
- creates a shallow copy of the Java datastructure (Array, List) as a JavaScript array
In many cases, this is not necessary; you can typically use the Java datastructure directly from JavaScript.
Java.to(jsData, toType)
- converts the argument to a Java dataype
The source object jsData
is expected to be a JavaScript array, or an object with a length
property.
The target toType
can either be a String (e.g. "int[]"
) or a type object (e.g., Java.type("int[]")
).
Valid target types are Java arrays.
When no target type is provided, Object[]
is assumed:
var jsArr = ["a", "b", "c"];
var strArrType = Java.type("java.lang.String[]");
var javaArr = Java.to(jsArr, strArrType);
assertEquals('class [Ljava.lang.String;', String(javaArr.getClass()));
The conversion methods as defined by ECMAScript (e.g., ToString
and ToDouble
) are executed when a JavaScript value has to be converted to a Java type.
Lossy conversion is disallowed and results in a TypeError.
Java.isJavaObject(obj)
- returns whether
obj
is an object of the Java language - returns
false
for native JavaScript objects, as well as for objects of other polyglot languages
Java.isType(obj)
- returns whether
obj
is an object of the Java language, representing a JavaClass
instance - returns
false
for all other arguments
Java.typeName(obj)
- returns the Java
Class
name ofobj
obj
is expected to represent a Java Class
instance, i.e., isType(obj)
should return true; otherwise, undefined
is returned.
Java.isJavaFunction(fn)
- returns whether
fn
is an object of the Java language that represents a Java function - returns
false
for all other types, including native JavaScript function, and functions of other polyglot languages
This function requires the Nashorn compatibility mode flag.
Java.isScriptObject(obj)
- returns whether
obj
is an object of the JavaScript language - returns
false
for all other types, including objects of Java and other polyglot languages
This function requires the Nashorn compatibility mode flag.
Java.isScriptFunction(fn)
- returns whether
fn
is a JavaScript function - returns
false
for all other types, including Java function, and functions of other polyglot languages
This function requires the Nashorn compatibility mode flag.
Java.addToClasspath(location)
- adds the specified location (file name or path name, as String) to Java’s classpath
Polyglot
The functions of the Polyglot
object allow to interact with values from other polyglot languages.
The Polyglot
object is available by default, unless deactivated by setting the js.polyglot-builtin
option to false
.
Polyglot.export(key, value)
- exports the JavaScript
value
under the namekey
(a string) to the polyglot bindings:function helloWorld() { print("Hello, JavaScript world"); } Polyglot.export("helloJSWorld", helloWorld);
If the polyglot bindings already had a value identified by key
, it is overwritten with the new value. The value
may be any valid Polyglot value.
- throws a
TypeError
ifkey
is not a String or is missing
Polyglot.import(key)
- imports the value identified by
key
(a string) from the polyglot bindings and returns it:var rubyHelloWorld = Polyglot.import("helloRubyWorld"); rubyHelloWorld();
If no language has exported a value identified by key
, undefined
is returned.
- throws a
TypeError
ifkey
is not a string or missing
Polyglot.eval(languageId, sourceCode)
- parses and evaluates the
sourceCode
with the interpreter identified bylanguageId
The value of sourceCode
is expected to be a String (or convertable to one).
- returns the evaluation result, depending on the
sourceCode
and/or the semantics of the language evaluated:var rArray = Polyglot.eval('R', 'runif(1000)');
Exceptions can occur when an invalid languageId
is passed, when the sourceCode
cannot be evaluated by the language, or when the executed program throws one.
Polyglot.evalFile(languageId, sourceFileName)
- parses the file
sourceFileName
with the interpreter identified bylanguageId
The value of sourceFileName
is expected to be a String (or convertable to one), representing a file reachable by the current path.
- returns an executable object, typically a function:
var rFunc = Polyglot.evalFile('R', 'myExample.r'); var result = rFunc();
Exceptions can occur when an invalid languageId
is passed, when the file identified by sourceFileName
cannot be found, or when the language throws an exception during parsing (parse time errors, e.g. syntax errors).
Exceptions thrown by the evaluated program are only thrown once the resulting function is evaluated.
The Polyglot.evalFile
function is available by default when the Polyglot
builtin is available, unless deactivated by setting the js.polyglot-evalfile
option to false
.
It is also available when js.debug-builtin
is activated.
Debug
- requires starting the engine with the
js.debug-builtin
flag
Debug
is a GraalVM JavaScript specific function object that provides functionality for debugging JavaScript code and the GraalVM JavaScript compiler.
This API might change without notice. Do not use for production purposes.
Global Functions
printErr(...arg)
- behaves identical to
print
The only difference is that the error stream is used to print to, instead of the default output stream.
loadWithNewGlobal(source, arguments)
- behaves similarly to
load
function
The relevant difference is that the code is evaluated in a new global scope (Realm, as defined by ECMAScript).
Source can be of type:
java.lang.URL
: the URL is queried for the source code to execute.- a JavaScript object: the object is queried for a
name
and ascript
property. - all other types: the source is converted to a String.
The value of arguments
is provided to the loaded code upon execution.