Heavily based on expression-eval and jsep, with thanks to their awesome work.
Forked from expression-eval v5.0.0. Many thanks to @donmccurdy for the initial package
JavaScript expression parsing and evaluation.
IMPORTANT: As mentioned under Security below, this library does not attempt to provide a secure sandbox for evaluation. Evaluation involving user inputs (expressions or values) may lead to unsafe behavior. If your project requires a secure sandbox, consider alternatives such as vm2.
Evaluates an estree expression from jsep
(as well as @babel/parser, esprima,
acorn, or any other library that parses and returns a valid estree
expression).
Install:
npm install --save jse-eval
Import:
// ES6
import { parse, evaluate, compile, jsep } from 'jse-eval';
// CommonJS
const { parse, evaluate, compile, jsep } = require('jse-eval');
// UMD / standalone script
const { parse, evaluate, compile, jsep } = window.jseEval;
import { parse } from 'jse-eval';
const ast = parse('1 + foo');
The result of the parse is an AST (abstract syntax tree), like:
{
"type": "BinaryExpression",
"operator": "+",
"left": {
"type": "Literal",
"value": 1,
"raw": "1"
},
"right": {
"type": "Identifier",
"name": "foo"
}
}
Evaluation executes the AST using the given context (eval(ast, context)
. By default, the context is empty.
import { parse, evaluate } from 'jse-eval';
const ast = parse('a + b / c'); // abstract syntax tree (AST)
const value = eval(ast, {a: 2, b: 2, c: 5}); // 2.4
// alternatively:
const value = await evalAsync(ast, {a: 2, b: 2, c: 5}); // 2.4
Since the default context is empty, it prevents using built-in JS functions.
To allow those functions, they can be added to the context
argument passed into the eval
method:
const context = {
Date,
Array,
Object,
encodeURI,
decodeURI,
isFinite,
isNaN,
JSON,
Math,
parseFloat,
parseInt,
RegExp,
// ...myCustomPropertiesAndFunctions,
};
import { compile } from 'jse-eval';
const fn = compile('foo.bar + 10');
fn({foo: {bar: 'baz'}}); // 'baz10'
// alternatively:
import { compileAsync } from 'jse-eval';
const fn = compileAsync('foo.bar + 10');
fn({foo: {bar: 'baz'}}); // 'baz10'
import { evalExpr } from 'jse-eval';
evalExpr('foo.bar + 10', {foo: {bar: 'baz'}}); // baz10
// alternatively:
import { evalExprAsync } from 'jse-eval';
evalExprAsync('foo.bar + 10', {foo: {bar: 'baz'}}); // baz10
import { registerPlugin } from 'jse-eval';
registerPlugin(
require('@jsep-plugin/arrow'),
require('@jsep-plugin/assignment'),
require('@jsep-plugin/async-await'),
require('@jsep-plugin/new'),
require('@jsep-plugin/object'),
require('@jsep-plugin/regex'),
require('@jsep-plugin/spread'),
require('@jsep-plugin/template'),
require('@jsep-plugin/ternary')
);
// or alternatively:
const { jsep } = require('jse-eval');
jsep.plugins.register(
require('@jsep-plugin/arrow'),
require('@jsep-plugin/assignment'),
// ...
);
To modify the evaluation, use any of the modification methods:
addUnaryOp(operator, evaluator)
. Will add the operator to jsep, and the function to evaluate the operatoraddBinaryOp(operator, precedence | evaluator, evaluator)
. Will add the operator to jsep at the given precedence (if provided), and the function to evaluate the operatoraddEvaluator(nodeType, evaluator)
. Will add the evaluator function to the map of functions for each node type. This evaluator will be called with the ExpressionEval instance bound to it. The evaluator is responsible for handling both sync and async, as needed, but can use thethis.isAsync
orthis.evalSyncAsync()
to help.- to prevent unsafe code execution, redefine
CallExpression
andArrowFunctionExpression
to throw an error - If the node type is unknown, jse-eval will check for a
default
node type handler before throwing an error for an unknown node type. If any other behavior is desired, this can be overridden by providing a newdefault
evaluator.
- to prevent unsafe code execution, redefine
Extensions may also be added as plugins using the registerPlugin(myPlugin1, myPlugin2...)
method.
The plugins are extensions of the JSEP format. If the init
method is defined in the plugin,
then the plugin will be added to JSEP, and/or if the initEval
method is defined in the plugin,
then the initEval
method will be called with the JseEval class as both this
and as an argument
so the plugin code may extend as necessary.
import * as expr from 'jse-eval';
expr.addBinaryOp('**', 11, true, (a, b) => a ** b);
console.log(expr.evalExpr('2 ** 3 ** 2')); // 512
expr.addBinaryOp('^', 11, (a, b) => Math.pow(a, b)); // Replace XOR with Exponent
console.log(expr.evalExpr('3^2')); // 9
expr.addEvaluator('TestNodeType', function(node) {
return node.test + this.context.string
});
console.log(expr.eval({ type: 'TestNodeType', test: 'testing ' }, { string: 'jse-eval' })); // 'testing jse-eval'
// override default implementation:
expr.addEvaluator('Identifier', function myIdentifier(node: Identifier) {
return context?.[node.name];
});
console.log(expr.eval({ type: 'Identifier', name: 'x' }, { x: 'jse-eval' })); // 'jse-eval'
const myPlugin = {
name: 'Exponentiation',
init(jsep) {
// if only adding to jsep. Otherwise it's redundant with initEval
jsep.addBinaryOp('**', 11, true);
},
initEval(JseEval) {
JseEval.addBinaryOp('**', (a, b) => a ** b);
},
};
expr.registerPlugin(myPlugin);
console.log(expr.evalExpr('2 ** 3 ** 2')); // 512
This project will try to stay current with all JSEP's node types::
ArrayExpression
LogicalExpression
/BinaryExpression
CallExpression
potentially unsafeConditionalExpression
Compound
Compound support will evaluate each expression and return the result of the final oneIdentifier
Literal
MemberExpression
ThisExpression
UnaryExpression
As well as the optional plugin node types:
ArrowFunctionExpression
potentially unsafeAssignmentExpression
/UpdateExpression
AwaitExpression
NewExpression
ObjectExpression
SpreadElement
TaggedTemplateExpression
/TemplateLiteral
Depending on your specific use-case, there are other related packages available, including:
Although this package does avoid the use of eval()
, it cannot guarantee that user-provided expressions, or user-provided inputs to evaluation, will not modify the state or behavior of your application. This library does not attempt to provide a secure sandbox for evaluation. Evaluation of arbitrary user inputs (expressions or values) may lead to unsafe behavior. If your project requires a secure sandbox, consider alternatives such as vm2.
Want to file a bug, contribute some code, or improve documentation? Excellent! Read up on the guidelines for contributing and then feel free to submit a PR with your contribution.
Help us keep this project open and inclusive. Please read and follow the Code of Conduct.
MIT License.