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Go bindings to QuickJS: a fast, small, and embeddable ES2020 JavaScript interpreter.

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Note: Forked from https://github.com/lithdew/quickjs

  • changed Go module name to github.com/cleiner/quickjs
  • updated QuickJS to version 2020-11-08
  • disabled the interpreter's stack overflow check, so calling runtime.LockOSThread() (guideline 5 below) isn't necessary anymore
  • disabled dependency on pthread

quickjs

MIT License go.dev reference Discord Chat

Go bindings to QuickJS: a fast, small, and embeddable ES2020 JavaScript interpreter.

These bindings are a WIP and do not match full parity with QuickJS' API, though expose just enough features to be usable. The version of QuickJS that these bindings bind to may be located here.

These bindings have been tested to cross-compile and run successfully on Linux, Windows, and Mac using gcc-7 and mingw32 without any addtional compiler or linker flags.

Usage

$ go get github.com/lithdew/quickjs

Guidelines

  1. Free quickjs.Runtime and quickjs.Context once you are done using them.
  2. Free quickjs.Value's returned by Eval() and EvalFile(). All other values do not need to be freed, as they get garbage-collected.
  3. You may access the stacktrace of an error returned by Eval() or EvalFile() by casting it to a *quickjs.Error.
  4. Make new copies of arguments should you want to return them in functions you created.
  5. Make sure to call runtime.LockOSThread() to ensure that QuickJS always operates in the exact same thread.

Example

The full example code below may be found by clicking here. Find more API examples here.

package main

import (
	"errors"
	"flag"
	"fmt"
	"github.com/lithdew/quickjs"
	"strings"
)

func check(err error) {
	if err != nil {
		var evalErr *quickjs.Error
		if errors.As(err, &evalErr) {
			fmt.Println(evalErr.Cause)
			fmt.Println(evalErr.Stack)
		}
		panic(err)
	}
}

func main() {
	runtime := quickjs.NewRuntime()
	defer runtime.Free()

	context := runtime.NewContext()
	defer context.Free()

	globals := context.Globals()

	// Test evaluating template strings.

	result, err := context.Eval("`Hello world! 2 ** 8 = ${2 ** 8}.`")
	check(err)
	defer result.Free()

	fmt.Println(result.String())
	fmt.Println()

	// Test evaluating numeric expressions.

	result, err = context.Eval(`1 + 2 * 100 - 3 + Math.sin(10)`)
	check(err)
	defer result.Free()

	fmt.Println(result.Int64())
	fmt.Println()

	// Test evaluating big integer expressions.

	result, err = context.Eval(`128n ** 16n`)
	check(err)
	defer result.Free()

	fmt.Println(result.BigInt())
	fmt.Println()

	// Test evaluating big decimal expressions.

	result, err = context.Eval(`128l ** 12l`)
	check(err)
	defer result.Free()

	fmt.Println(result.BigFloat())
	fmt.Println()

	// Test evaluating boolean expressions.

	result, err = context.Eval(`false && true`)
	check(err)
	defer result.Free()

	fmt.Println(result.Bool())
	fmt.Println()

	// Test setting and calling functions.

	A := func(ctx *quickjs.Context, this quickjs.Value, args []quickjs.Value) quickjs.Value {
		fmt.Println("A got called!")
		return ctx.Null()
	}

	B := func(ctx *quickjs.Context, this quickjs.Value, args []quickjs.Value) quickjs.Value {
		fmt.Println("B got called!")
		return ctx.Null()
	}

	globals.Set("A", context.Function(A))
	globals.Set("B", context.Function(B))

	_, err = context.Eval(`for (let i = 0; i < 10; i++) { if (i % 2 === 0) A(); else B(); }`)
	check(err)

	fmt.Println()

	// Test setting global variables.

	_, err = context.Eval(`HELLO = "world"; TEST = false;`)
	check(err)

	names, err := globals.PropertyNames()
	check(err)

	fmt.Println("Globals:")
	for _, name := range names {
		val := globals.GetByAtom(name.Atom)
		defer val.Free()

		fmt.Printf("'%s': %s\n", name, val)
	}
	fmt.Println()

	// Test evaluating arbitrary expressions from flag arguments.

	flag.Parse()
	if flag.NArg() == 0 {
		return
	}

	result, err = context.Eval(strings.Join(flag.Args(), " "))
	check(err)
	defer result.Free()

	if result.IsObject() {
		names, err := result.PropertyNames()
		check(err)

		fmt.Println("Object:")
		for _, name := range names {
			val := result.GetByAtom(name.Atom)
			defer val.Free()

			fmt.Printf("'%s': %s\n", name, val)
		}
	} else {
		fmt.Println(result.String())
	}
}
$ go run examples/main.go '(() => ({hello: "world", test: 2 ** 3}))()'
Hello world! 2 ** 8 = 256.

197

5192296858534827628530496329220096

1.9342813113834066795e+25

false

A got called!
B got called!
A got called!
B got called!
A got called!
B got called!
A got called!
B got called!
A got called!
B got called!

Globals:
'Object': function Object() {
    [native code]
}
'Function': function Function() {
    [native code]
}
'Error': function Error() {
    [native code]
}
'EvalError': function EvalError() {
    [native code]
}
'RangeError': function RangeError() {
    [native code]
}
'ReferenceError': function ReferenceError() {
    [native code]
}
'SyntaxError': function SyntaxError() {
    [native code]
}
'TypeError': function TypeError() {
    [native code]
}
'URIError': function URIError() {
    [native code]
}
'InternalError': function InternalError() {
    [native code]
}
'AggregateError': function AggregateError() {
    [native code]
}
'Array': function Array() {
    [native code]
}
'parseInt': function parseInt() {
    [native code]
}
'parseFloat': function parseFloat() {
    [native code]
}
'isNaN': function isNaN() {
    [native code]
}
'isFinite': function isFinite() {
    [native code]
}
'decodeURI': function decodeURI() {
    [native code]
}
'decodeURIComponent': function decodeURIComponent() {
    [native code]
}
'encodeURI': function encodeURI() {
    [native code]
}
'encodeURIComponent': function encodeURIComponent() {
    [native code]
}
'escape': function escape() {
    [native code]
}
'unescape': function unescape() {
    [native code]
}
'Infinity': Infinity
'NaN': NaN
'undefined': undefined
'__date_clock': function __date_clock() {
    [native code]
}
'Number': function Number() {
    [native code]
}
'Boolean': function Boolean() {
    [native code]
}
'String': function String() {
    [native code]
}
'Math': [object Math]
'Reflect': [object Object]
'Symbol': function Symbol() {
    [native code]
}
'eval': function eval() {
    [native code]
}
'globalThis': [object Object]
'Date': function Date() {
    [native code]
}
'RegExp': function RegExp() {
    [native code]
}
'JSON': [object JSON]
'Proxy': function Proxy() {
    [native code]
}
'Map': function Map() {
    [native code]
}
'Set': function Set() {
    [native code]
}
'WeakMap': function WeakMap() {
    [native code]
}
'WeakSet': function WeakSet() {
    [native code]
}
'ArrayBuffer': function ArrayBuffer() {
    [native code]
}
'SharedArrayBuffer': function SharedArrayBuffer() {
    [native code]
}
'Uint8ClampedArray': function Uint8ClampedArray() {
    [native code]
}
'Int8Array': function Int8Array() {
    [native code]
}
'Uint8Array': function Uint8Array() {
    [native code]
}
'Int16Array': function Int16Array() {
    [native code]
}
'Uint16Array': function Uint16Array() {
    [native code]
}
'Int32Array': function Int32Array() {
    [native code]
}
'Uint32Array': function Uint32Array() {
    [native code]
}
'BigInt64Array': function BigInt64Array() {
    [native code]
}
'BigUint64Array': function BigUint64Array() {
    [native code]
}
'Float32Array': function Float32Array() {
    [native code]
}
'Float64Array': function Float64Array() {
    [native code]
}
'DataView': function DataView() {
    [native code]
}
'Atomics': [object Atomics]
'Promise': function Promise() {
    [native code]
}
'BigInt': function BigInt() {
    [native code]
}
'BigFloat': function BigFloat() {
    [native code]
}
'BigFloatEnv': function BigFloatEnv() {
    [native code]
}
'BigDecimal': function BigDecimal() {
    [native code]
}
'Operators': function Operators() {
    [native code]
}
'A': function() { return proxy.call(this, id, ...arguments); }
'B': function() { return proxy.call(this, id, ...arguments); }
'HELLO': world
'TEST': false

Object:
'hello': world
'test': 8

License

QuickJS is released under the MIT license.

QuickJS bindings are copyright Kenta Iwasaki, with code copyright Fabrice Bellard and Charlie Gordon.

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Go bindings to QuickJS: a fast, small, and embeddable ES2020 JavaScript interpreter.

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