@gresb/cel-javascript

0.0.20 • Public • Published

cel-javascript

This project is not ready for production yet.

Parser and evaluator for CEL in JavaScript using ANTLR4 This library provides parser and evaluator for Common Expression Language (CEL) expressions in Javascript and Typescript projects. CEL is a language developed by Google that allows for safe and fast evaluation of expressions in a wide variety of applications, such as policy engines, rule engines, and more.

Features

  • Parse and evaluate CEL expressions directly within TypeScript projects.
  • Support for common arithmetic operations, logical operations, and comparisons.
  • Extensible design for adding custom functions and variables.
  • Error handling during parsing with custom error listeners.
  • Context-based evaluation to support dynamic expression evaluation.
  • DataType checker based on the values and existing context

Installation

Install the library via npm:

npm install @gresb/cel-javascript

Usage

Basic Example

Here is a simple example of how to use the CEL Interpreter:

import { Runtime } from '@gresb/cel-javascript';

// Define a CEL expression to evaluate
const celExpression = '1 + 2 * 3';

// Create an instance of Runtime with the CEL expression
const runtime = new Runtime(celExpression);

// Evaluate the expression within a given context
const context = {}; // Replace with your actual context if needed
const result = runtime.evaluate(context);

console.log(`Result of '${celExpression}':`, result); // Output: Result of '1 + 2 * 3': 7

Parsing Validation

You can validate if a CEL expression can be parsed without evaluating it:

import { Runtime } from '@gresb/cel-javascript';

const celExpression = '1 + 2 * 3';
const canParse = Runtime.canParse(celExpression);

console.log(`Can parse '${celExpression}':`, canParse);

Error Handling During Parsing

When parsing a CEL expression, you can catch errors and handle them accordingly:

import { Runtime } from '@gresb/cel-javascript';

const celExpression = 'a + b';
const typesContext = { a: 'int', b: 'string' }; // Define the expected types of variables

const typeCheckResult = Runtime.typeCheck(celExpression, typesContext);

if (typeCheckResult.success) {
    console.log('Type checking passed.');
} else {
    console.error('Type checking failed:', typeCheckResult.error);
}
// Output: Type checking failed: Operator '+' requires numeric or string operands, but got 'int' and 'string'

Typechecking Validation

You can perform type checking to ensure that the expression is type-safe within a given context:

import { Runtime } from '@gresb/cel-javascript';

const celExpression = 'a + b';
const typesContext = { a: 'int', b: 'string' }; // Define the expected types of variables

const typeCheckResult = Runtime.typeCheck(celExpression, typesContext);

if (typeCheckResult.success) {
    console.log('Type checking passed.');
} else {
    console.error('Type checking failed:', typeCheckResult.error);
}
// Output: Type checking failed: Operator '+' requires numeric or string operands, but got 'int' and 'string'

Note: The typeCheck method checks if the expression is valid with the provided variable types without actually evaluating it.

Evaluating Expressions

Evaluating an expression will automatically perform parsing and type checking before execution. If the expression fails to parse or does not pass type checking, an error will be thrown.

import { Runtime } from '@gresb/cel-javascript';

const celExpression = 'a * (b + c)';
const context = { a: 2, b: 3, c: 4 }; // Provide the variables and their values

const runtime = new Runtime(celExpression);

try {
    const result = runtime.evaluate(context);
    console.log(`Result of '${celExpression}':`, result); // Output: Result of 'a * (b + c)': 14
} catch (error) {
    console.error('Evaluation failed:', error.message);
}

Contextual Evaluation with Variables

You can pass variables to the expression through the context:

import { Runtime } from '@gresb/cel-javascript';

const celExpression = 'user.age >= 18';
const context = {
    user: {
        name: 'Alice',
        age: 20,
    },
};

const runtime = new Runtime(celExpression);

const result = runtime.evaluate(context);

console.log(`Is user adult?`, result); // Output: Is user adult? true

Built-in Functions

The interpreter supports several built-in functions. Here's an example using the contains function:

import { Runtime } from '@gresb/cel-javascript';

const celExpression = 'contains(message, "world")';
const context = {
    message: 'Hello, world!',
};

const runtime = new Runtime(celExpression);

const result = runtime.evaluate(context);

console.log(`Does message contain 'world'?`, result); // Output: Does message contain 'world'? true

Here is a list of supported functions:

Arithmetic Functions

  • min(a, b, ...): Returns the minimum of the arguments.
  • max(a, b, ...): Returns the maximum of the arguments.
  • abs(x): Returns the absolute value of a number.
  • ceil(x): Rounds a number up to the nearest integer.
  • floor(x): Rounds a number down to the nearest integer.
  • round(x): Rounds a number to the nearest integer.

String Functions

  • contains(string, substring): Checks if a string contains a specified substring.
  • endsWith(string, suffix): Checks if a string ends with a specified suffix.
  • indexOf(string, substring): Returns the index of a substring in a string.
  • length(string): Returns the length of a string.
  • lower(string): Converts a string to lowercase.
  • replace(string, search, replacement): Replaces occurrences of a substring within a string.
  • split(string, delimiter): Splits a string by a specified delimiter.
  • startsWith(string, prefix): Checks if a string starts with a specified prefix.
  • upper(string): Converts a string to uppercase.

List and Map Functions

  • size(list|map): Returns the number of elements in a list or entries in a map.
  • has(list|map, key): Checks if a list or map contains a specified key.

Type Conversion Functions

  • int(value): Converts a value to an integer.
  • uint(value): Converts a value to an unsigned integer.
  • double(value): Converts a value to a floating-point number.
  • string(value): Converts a value to a string.
  • bool(value): Converts a value to a boolean.

Null Handling Functions

  • exists(value): Checks if a value is not null.
  • existsOne(list): Checks if at least one element in a list is not null.

Date and Time Functions

  • timestamp(string): Converts a string to a timestamp.
  • duration(int): Returns a duration from an integer.
  • time(year, month, day, hour, minute, second, millisecond): Creates a timestamp.
  • date(year, month, day): Creates a date.
  • getFullYear(timestamp): Extracts the year from a timestamp.
  • getMonth(timestamp): Extracts the month from a timestamp.
  • getDate(timestamp): Extracts the day from a timestamp.
  • getHours(timestamp): Extracts the hour from a timestamp.
  • getMinutes(timestamp): Extracts the minutes from a timestamp.
  • getSeconds(timestamp): Extracts the seconds from a timestamp.

Deployment

To deploy the package to npm, follow these steps:

Update the Version: Increment the version number in your package.json file according to semantic versioning.

{
  "name": "@gresb/cel-javascript",
  "version": "1.0.1", // Update this version
  ...
}

Authenticate with npm: Log in to your npm account using your email address.

npm login -e EMAIL_ADDRESS

Build the Package: Ensure your package is built and ready for publishing.

npm run build

Publish the Package: Publish the package to npm registry with public access.

npm publish --access public

Note: Ensure that you have the necessary permissions to publish the package and that all changes are committed before publishing.

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npm i @gresb/cel-javascript

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Version

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