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I have many question about ES6 classes.

What's the benefit of using class syntax? I read that public/private/static will be part of ES7, is that a reason?

Moreover, is class a different kind of OOP or it still JavaScript's prototypical inheritance? Can I modify it using .prototype ? Or is it just the same object but two different ways to declare it.

Are there speed benefits? Maybe it's easier to maintain/understand if you have a big application like big app?

closed as primarily opinion-based by Matteo Tassinari, rink.attendant.6, Andrea Ligios, Peter Pei Guo, Francesco Casula Jun 11 '15 at 17:00

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

  • Just my own opinion: the newer syntax is much easier to understand and would not require much prior experience (especially since most people will have come from an OOP language). But the prototype object model is worth knowing and you will never learn that using the new syntax, also, it will be more challenging to work on prototype code unless you already know it. So I would choose to write all my own code with the old syntax when I have that choice – Zach Smith Jul 21 '17 at 9:49
113

It's (almost) entirely up to you whether you use the new class syntax. It's mostly just syntactic sugar. (But, you know, the good kind of sugar.) There's nothing in ES2015-ES2018 that class can do that you can't do with constructor functions and Reflect.construct (including subclassing Error and Array¹). (There is likely to be something in ES2019 or ES2020 that you can do with class that you can't do otherwise: private fields and private methods.)

Moreover, is class a different kind of OOP or it still JavaScript's prototypical inheritance?

It's the same prototypical inheritance we've always had, just with cleaner and more convenient syntax if you like using constructor functions (new Foo, etc.). (Particularly in the case of deriving from Array or Error, which you couldn't do in ES5 and earlier. You can now with Reflect.construct [spec, MDN], but not with the old ES5-style.)

Can I modify it using .prototype?

Yes, you can still modify the prototype object on the class's constructor once you've created the class. E.g., this is perfectly legal:

class Foo {
    constructor(name) {
        this.name = name;
    }

    test1() {
        console.log("test1: name = " + this.name);
    }
}
Foo.prototype.test2 = function() {
    console.log("test2: name = " + this.name);
};

Are there speed benefits?

By providing a specific idiom for this, I suppose it's possible that the engine may be able to do a better job optimizing. But they're awfully good at optimizing already, I wouldn't expect a significant difference.

What benefits does ES2015 (ES6) class syntax provide?

Briefly: If you don't use constructor functions in the first place, preferring Object.create or similar, class isn't useful to you.

If you do use constructor functions, there are some benefits to class:

  • The syntax is simpler and less error-prone.

  • It's much easier (and again, less error-prone) to set up inheritance hierarchies using the new syntax than with the old.

  • class defends you from the common error of failing to use new with the constructor function (by having the constructor throw an exception if this isn't a valid object for the constructor).

  • Calling the parent prototype's version of a method is much simpler with the new syntax than the old (super.method() instead of ParentConstructor.prototype.method.call(this) or Object.getPrototypeOf(Object.getPrototypeOf(this)).method.call(this)).

Here's a syntax comparison for a hierarchy:

// ***ES2015+**
class Person {
    constructor(first, last) {
        this.first = first;
        this.last = last;
    }

    personMethod() {
        // ...
    }
}

class Employee extends Person {
    constructor(first, last, position) {
        super(first, last);
        this.position = position;
    }

    employeeMethod() {
        // ...
    }
}

class Manager extends Employee {
    constructor(first, last, position, department) {
        super(first, last, position);
        this.department = department;
    }

    personMethod() {
        const result = super.personMethod();
        // ...use `result` for something...
        return result;
    }

    managerMethod() {
        // ...
    }
}

Example:

// ***ES2015+**
class Person {
    constructor(first, last) {
        this.first = first;
        this.last = last;
    }

    personMethod() {
        return `Result from personMethod: this.first = ${this.first}, this.last = ${this.last}`;
    }
}

class Employee extends Person {
    constructor(first, last, position) {
        super(first, last);
        this.position = position;
    }

    personMethod() {
        const result = super.personMethod();
        return result + `, this.position = ${this.position}`;
    }

    employeeMethod() {
        // ...
    }
}

class Manager extends Employee {
    constructor(first, last, position, department) {
        super(first, last, position);
        this.department = department;
    }

    personMethod() {
        const result = super.personMethod();
        return result + `, this.department = ${this.department}`;
    }

    managerMethod() {
        // ...
    }
}

const m = new Manager("Joe", "Bloggs", "Special Projects Manager", "Covert Ops");
console.log(m.personMethod());

vs.

// **ES5**
var Person = function(first, last) {
    if (!(this instanceof Person)) {
        throw new Error("Person is a constructor function, use new with it");
    }
    this.first = first;
    this.last = last;
};

Person.prototype.personMethod = function() {
    // ...
};

var Employee = function(first, last, position) {
    if (!(this instanceof Employee)) {
        throw new Error("Employee is a constructor function, use new with it");
    }
    Person.call(this, first, last);
    this.position = position;
};
Employee.prototype = Object.create(Person.prototype);
Employee.prototype.constructor = Employee;
Employee.prototype.employeeMethod = function() {
    // ...
};

var Manager = function(first, last, position, department) {
    if (!(this instanceof Manager)) {
        throw new Error("Manager is a constructor function, use new with it");
    }
    Employee.call(this, first, last, position);
    this.department = department;
};
Manager.prototype = Object.create(Employee.prototype);
Manager.prototype.constructor = Manager;
Manager.prototype.personMethod = function() {
    var result = Employee.prototype.personMethod.call(this);
    // ...use `result` for something...
    return result;
};
Manager.prototype.managerMethod = function() {
    // ...
};

Live Example:

// **ES5**
var Person = function(first, last) {
    if (!(this instanceof Person)) {
        throw new Error("Person is a constructor function, use new with it");
    }
    this.first = first;
    this.last = last;
};

Person.prototype.personMethod = function() {
    return "Result from personMethod: this.first = " + this.first + ", this.last = " + this.last;
};

var Employee = function(first, last, position) {
    if (!(this instanceof Employee)) {
        throw new Error("Employee is a constructor function, use new with it");
    }
    Person.call(this, first, last);
    this.position = position;
};
Employee.prototype = Object.create(Person.prototype);
Employee.prototype.constructor = Employee;
Employee.prototype.personMethod = function() {
    var result = Person.prototype.personMethod.call(this);
    return result + ", this.position = " + this.position;
};
Employee.prototype.employeeMethod = function() {
    // ...
};

var Manager = function(first, last, position, department) {
    if (!(this instanceof Manager)) {
        throw new Error("Manager is a constructor function, use new with it");
    }
    Employee.call(this, first, last, position);
    this.department = department;
};
Manager.prototype = Object.create(Employee.prototype);
Manager.prototype.constructor = Manager;
Manager.prototype.personMethod = function() {
    var result = Employee.prototype.personMethod.call(this);
    return result + ", this.department = " + this.department;
};
Manager.prototype.managerMethod = function() {
    // ...
};        

var m = new Manager("Joe", "Bloggs", "Special Projects Manager", "Covert Ops");
console.log(m.personMethod());

As you can see, lots of repeated and verbose stuff there which is easy to get wrong and boring to retype (which is why I wrote a script to do it, back in the day).


¹ "There's nothing in ES2015-ES2018 that class can do that you can't do with constructor functions and Reflect.construct (including subclassing Error and Array)"

Example:

// Creating an Error subclass:
function MyError(...args) {
  return Reflect.construct(Error, args, this.constructor);
}
MyError.prototype = Object.create(Error.prototype);
MyError.prototype.constructor = MyError;
MyError.prototype.myMethod = function() {
  console.log(this.message);
};

// Example use:
function outer() {
  function inner() {
    const e = new MyError("foo");
    console.log("Callng e.myMethod():");
    e.myMethod();
    console.log(`e instanceof MyError? ${e instanceof MyError}`);
    console.log(`e instanceof Error? ${e instanceof Error}`);
    throw e;
  }
  inner();
}
outer();
.as-console-wrapper {
  max-height: 100% !important;
}

  • 9
    I don't know if this is a fair comparison. You can achieve a similar object without all of the cruft. It uses the JS way of object linking through prototype chains rather than approximating classical inheritance. I made a gist showing a simple example based off yours to show to do this. – Jason Cust Jul 11 '15 at 1:12
  • 7
    @JasonCust: Yes, it's a fair comparison, because I'm showing the ES5 way to do what ES6 does with class. JavaScript is flexible enough that you don't have to use constructor functions if you don't want to, which is what you're doing, but that's different from class -- the whole point of class is simplify pseudo-classical inheritance in JavaScript. – T.J. Crowder Jul 11 '15 at 7:29
  • 1
    I guess I could have worded it better but I wasn't implying this was a way of representing classes but showing how an object can be created from object linking that achieves a similar result while also being the more native way in JS. @kyle-simpson sums it up much better than I can in his book You Don't Know JS: this & Object Protoypes, specifically chapter 6. – Jason Cust Jul 11 '15 at 15:04
  • 3
    meh. I don't buy the need for this. I stepped away from c# to get away from oop and now oop is creeping on javascript. I don't like types. everything should be a var/object/function. that's it. no more extraneous keywords. and inheritance is a scam. if you want to see a good fight between types and nontypes. take a look at soap vs rest. and we all know who won that. – foreyez Jan 11 '17 at 21:16
  • 2
    @foreyez: class syntax doesn't make JavaScript any more typed than it was before. As I said in the answer, it's mostly just (much) simpler syntax for what was already there. There was absolutely a need for that, people were constantly getting the old syntax wrong. It also doesn't mean you have to use inheritance anymore than you did before. (And of course, if you never set up "classes" with the old syntax, there's no need to do so with the new syntax, either.) – T.J. Crowder Jan 6 '18 at 9:13
20

ES6 classes are syntactic sugar for the prototypical class system we use today. They make your code more concise and self-documenting, which is reason enough to use them (in my opinion).

Using Babel to transpile this ES6 class:

class Foo {
  constructor(bar) {
    this._bar = bar;
  }

  getBar() {
    return this._bar;
  }
}

will give you something like:

var Foo = (function () {
  function Foo(bar) {    
    this._bar = bar;
  }

  Foo.prototype.getBar = function () {
    return this._bar;
  }

  return Foo;
})();

The second version isn't much more complicated, it is more code to maintain. When you get inheritance involved, those patterns become even more complicated.

Because the classes compile down to the same prototypical patterns we've been using, you can do the same prototype manipulation on them. That includes adding methods and the like at runtime, accessing methods on Foo.prototype.getBar, etc.

There is some basic support for privacy in ES6 today, although it's based on not exporting the objects you don't want accessible. For example, you can:

const BAR_NAME = 'bar';

export default class Foo {
  static get name() {
    return BAR_NAME;
  }
}

and BAR_NAME will not be available for other modules to reference directly.

A lot of libraries have tried to support or solve this, like Backbone with their extends helper that takes an unvalidated hash of method-like functions and properties, but there's no consist system for exposing prototypical inheritance that doesn't involve mucking around with the prototype.

As JS code becomes more complicated and codebases larger, we've started to evolve a lot of patterns to handle things like inheritance and modules. The IIFE used to create a private scope for modules has a lot of braces and parens; missing one of those can result in a valid script that does something entirely different (skipping the semicolon after a module can pass the next module to it as a parameter, which is rarely good).

tl;dr: it's sugar for what we already do and makes your intent clear in code.

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