README.md

February 19, 2026 · View on GitHub

math live

Cortex Compute Engine

Symbolic manipulation and numeric evaluation of MathJSON expressions

MathJSON is a lightweight mathematical notation interchange format based on JSON.

The Cortex Compute Engine can parse LaTeX to MathJSON, serialize MathJSON to LaTeX or MathASCII, format, simplify and evaluate MathJSON expressions.

Reference documentation and guides at cortexjs.io/compute-engine.

Installation

$ npm install --save @cortex-js/compute-engine

Quick Start

Basic Parsing and Evaluation

No setup required:

import { simplify, evaluate, N, assign } from "@cortex-js/compute-engine";

simplify("x + x + 1").print();
// ➔ 2x + 1

evaluate("2^{11} - 1").print();
// ➔ 2047

N("\\sqrt{2}").print();
// ➔ 1.414213562...

assign("x", 3);
evaluate("x + 2").print();
// ➔ 5

These functions use a shared ComputeEngine instance created on first use. Use getDefaultEngine() to configure it, or create your own instance for isolated configurations.

Working with Numbers (Type-Safe)

Use type guards to safely access specialized properties:

import { evaluate, isNumber } from "@cortex-js/compute-engine";

const expr = evaluate("\\frac{5}{2}");

if (isNumber(expr)) {
  console.log(expr.numericValue);  // 2.5 (type-safe access)
  console.log(expr.isInteger);     // false
}

Working with Symbols

import { parse, isSymbol, sym } from "@cortex-js/compute-engine";

const expr = parse("x + 1");

// Check if expression is a specific symbol
if (sym(expr) === "x") {
  console.log("This is the variable x");
}

// Or use full type guard for more access
const variable = parse("y");
if (isSymbol(variable)) {
  console.log(variable.symbol);  // "y"
}

Working with Functions

import { parse, isFunction } from "@cortex-js/compute-engine";

const expr = parse("2x + 3y");

// Access function structure safely
if (isFunction(expr)) {
  console.log(expr.operator);    // "Add"
  console.log(expr.ops.length);  // 2

  // Iterate over operands
  for (const op of expr.ops) {
    console.log(op.toString());
  }
}

Simplification and Manipulation

import { parse, simplify, expand } from "@cortex-js/compute-engine";

// Simplify expressions
simplify("x + x").print();
// ➔ 2x

// Expand from LaTeX or Expression
expand("(x + 1)^2").print();
// ➔ x^2 + 2x + 1

// Substitute values
const expr = parse("x^2 + 2x + 1");
expr.subs({ x: 3 }).evaluate().print();
// ➔ 16

Solving Equations

import { solve, parse } from "@cortex-js/compute-engine";

// Solve from LaTeX
solve("x^2 - 5x + 6 = 0", "x");
// ➔ [2, 3]

// Solve a linear system
const system = parse("\\begin{cases}x+y=5\\\\x-y=1\\end{cases}");
const solution = system.solve(["x", "y"]);

console.log(solution.x.json);  // 3
console.log(solution.y.json);  // 2

💡 Best Practices:

  • Always use type guards (isNumber, isSymbol, isFunction) before accessing specialized properties
  • Use the sym() helper for quick symbol name checks

📚 Learn More: Full documentation and guides

FAQ

Q How do I build the project?

Build instructions

MathJSON
A lightweight mathematical notation interchange format
MathLive (on GitHub)
A Web Component for math input.

Support the Project

License

This project is licensed under the MIT License.