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exval

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exval allows uneval JavaScript objects back to source code (including functions and classes!). This allows making shallow copy of an object and recreate it on other machine.

This library is under development. If you find a bug, please open an issue or consider contributing to this project.

If you're interested on running JavaScript on a remote machine you should checkout remote-lib as well.

Examples

Object Cloning

const Exval = require('exval'); // require exval
const exval = new Exval(); // create a new exval instance

const obj = {
  foo: 'bar',
  deep: {
    hello: 'world',
  },
  pow: Math.pow,
};

const output = exval.stringify(obj);
console.log(output); // {foo:'bar',deep:{hello:'world'},pow:Math.pow}

const obj2 = eval(`(${output})`);
assert(obj2 !== obj);
assert(obj2.deep !== obj.deep);
assert.deepEqual(obj2, obj);

Class Instance

const Exval = require('exval'); // require exval
const exval = new Exval(); // create a new exval instance

// create a counter instance
const c1 = (() => {
  class Counter {
    constructor(init) {
      this.counter = init;
    }

    inc(a) {
      this.counter += a;
    }
  }
  
  return new Counter(100);
}());

// notice that we didn't define `Counter` class here
assert.equal(typeof Counter, 'undefined');
  
// update the counter and add some custom properties
c1.inc(2);
c1.foo = 'bar';

// generate the counter instance code and run it
const output = exval.stringify(c1);
const c2 = eval(`(${output})`);

// Counter class is still undefined but our counter cloned successfully
assert.equal(typeof Counter, 'undefined');
assert.equal(c2.counter, c1.counter);
assert.equal(c2.foo, c1.foo);

// we can even continue to use it as normal!
c2.inc(1);
assert.equal(c2.counter, 103);

// the original counter stay the same
assert.equal(c1.counter, 102);

Multiple References

const Exval = require('exval'); // require exval
const exval = new Exval(); // create a new exval instance

const a = { name: 'a' };

const obj = {
  a1: a,
  a2: a,
};

const output = exval.stringify(obj);
console.log(output); // function(){var a={name:'a'};return {a1:a,a2:a}}()

const obj2 = eval(`(${output})`);
assert.deepEqual(obj2, obj);
assert(obj2.a1 === obj2.a2);

Close Loop References

const Exval = require('exval'); // require exval
const exval = new Exval(); // create a new exval instance

const obj = { foo: 'bar' };
obj.obj = obj;

const output = exval.stringify(obj);
const obj2 = eval(`(${output})`);
                  
assert(obj2 !== obj); 
assert(obj2.foo === obj.foo);
assert(obj2.obj === obj2);

Limitations

Global Vars

exvar will not copy outer scope variables that has been used in your code (including globals and environment variables). It's your responsibility to make sure that all the globals variables are correctly copied and transferred between your machines.

let glob = 1;
 
function counter() {
  return glob++;
}
 
const output = exval.stringify(counter);

console.log(output); // prints 'function counter() {\nreturn glob++;\n}'
                     // notice that the variable `glob` has been ommited

Closures

exvar can't access variables in your inner closure. Therefore it's your responsibility to regenerate them before you can use the generated code.

const inc = (() => {
  let counter = 0;
  
  return () => counter++;
})();

console.log(inc()) // "0"
console.log(inc()) // "1"
console.log(typeof counter) // "undefined"
 
const output = exval.stringify(inc);
const inc2 = eval(`{$output}`);

inc2(); // Throws "ReferenceError: counter is not defined"

The supper Keyword

It's impossible to know a method parent class outside the class context. Therefore, calling methods that using the super keyword will fail to run, although exvaling the hole class will works!

class Foo {
  getName() {
    return 'Foo';
  }
}
 
class FooBar extends Foo {
  getName() {
    return `${super.getName()}Bar`;
  }
}

// create shallow copy of the hole class will work
exval.stringify(FooBar);

// create shallow copy of the method `getName`
// throws "SyntaxError: 'super' keyword unexpected here"
exval.stringify(FooBar.prototype.getName);

Function .bind

Binding a function will hide it sourcecode so exvar couldn't access the original function sourcecode. Please prefer to use arrow functions instead of .bind.

function foo(a) { return a + 1; }
const foo2 = () => foo(2);
const foo5 = foo.bind(null, 5);

// exval'ing arrow function will work
exval.stringify(foo2); // returns "() => foo(2)"

// exval'ing bind function will not work
// throws ReferenceError: Couldn't encode native code "function () { [native code] }"
exval.stringify(foo5);

Symbols

Exval currently ignoring object's symbols:

const kFoo = Symbol('foo');
const obj = {
  [kFoo]: 'Foo!'
};

exval.stringify(obj); // returns "{}"

License

MIT License. Copyright © 2016 Moshe Simantov

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