JavaScript constructors, prototypes, and the `new` keyword
Are you baffled(阻碍;使迷惑) by the new
operator in JavaScript? Wonder what the difference between a function and a constructor is? Or what the heck a prototype is used for?
I’m going to lay it out straight.
Now, there’s been a lot of talk for a long time about so-called “pseudo-classical” JavaScript. Mostly, the new guard of JavaScript folk don’t like to use the new
keyword. It was written into the language to act more like Java, and its use is a little confusing. I’m not going to take sides here. I’m just going to explain how it works. It’s a tool; use it if it’s practical.
WHAT IS A CONSTRUCTOR?
A constructor is any function which is used as a constructor. The language doesn’t make a distinction. A function can be written to be used as a constructor or to be called as a normal function, or to be used either way.
A constructor is used with the new
keyword:
var Vehicle = function Vehicle() { // ... } var vehicle = new Vehicle();
WHAT HAPPENS WHEN A CONSTRUCTOR IS CALLED?
When new Vehicle()
is called, JavaScript does four things:
- It creates a new object.
- It sets the
constructor
property of the object toVehicle
. - It sets up the object to delegate to
Vehicle.prototype
. - It calls
Vehicle()
in the context of the new object.
The result of new Vehicle()
is this new object.
1. IT CREATES THE NEW OBJECT.
This is nothing special, just a fresh, new object: {}
.
2. IT SETS THE CONSTRUCTOR
PROPERTY OF THE OBJECT TO VEHICLE
.
This means two things:
vehicle.constructor == Vehicle // true vehicle instanceof Vehicle // true
This isn’t an ordinary property. It won’t show up if you enumerate the properties of the object. Also, you can try to set constructor
, but you’ll just set a normal property on top of this special one. To wit:
vehicle; // {} var FuzzyBear = function FuzzyBear() { }; vehicle.constructor = FuzzyBear; vehicle; // { constructor: function FuzzyBear() } vehicle.constructor == FuzzyBear; // true vehicle instanceof FuzzyBear // false vehicle instanceof Vehicle // true
The underlying, built in constructor
property is something you can’t set manually. It can only be set for you, as part of construction with the new
keyword.
为了避免很多新手忘记使用new关键字,所以会提供工厂方法,但是这个时候就必须担心类型比较的问题:
<script type="text/javascript"> function Foo() { } var foo = new Foo(); console.log(foo instanceof Foo);//true function Foo2(){ function InnerFoo2(){ } return new InnerFoo2(); } var foo2 = new Foo2(); console.log(foo2 instanceof Foo2);//false function Foo4(){} function Foo3(){ function InnerFoo3(){ } // InnerFoo3.prototype.constructor = Foo3; return new InnerFoo3(); } var foo3 = new Foo3(); console.log(foo3 instanceof Foo3);//false console.log(foo3.constructor);//true function Foo4(){} function Foo5(){ function InnerFoo5(){ } InnerFoo5.prototype = new Foo4(); return new InnerFoo5(); } var foo5 = new Foo5(); console.log(foo5 instanceof Foo4);//true </script>
3. IT SETS UP THE OBJECT TO DELEGATE TO VEHICLE.PROTOTYPE
.
Now it gets interesting.
A function is just a special kind of object, and like any object a function can have properties. Functions automatically get a property called prototype
, which is just an empty object. This object gets some special treatment.
When an object is constructed, it inherits all of the properties of its constructor’s prototype. I know, it’s a brainful. Here.
Vehicle.prototype.wheelCount = 4; var vehicle = new Vehicle; vehicle.wheelCount; // 4
The Vehicle instance picked up the wheelCount
from Vehicle
‘s prototype
Now this “inheritance” is more than simply copying properties to the new objects. The object is set up to delegate any properties which haven’t been explicitly set up to its constructor’s prototype. That means that we can change the prototype later, and still see the changes in the instance.
Vehicle.prototype.wheelCount = 6; vehicle.wheelCount; // 6
But if we like, we can always override it.
vehicle.wheelCount = 8; vehicle.wheelCount // 8 (new Vehicle()).wheelCount // 6;
We can do the same thing with methods. After all, a method is just a function assigned to a property. Check it.
Vehicle.prototype.go = function go() { return "Vroom!" }; vehicle.go(); // "Vroom!"
4. IT CALLS VEHICLE()
IN THE CONTEXT OF THE NEW OBJECT.
Finally, the constructor function itself is called. Inside the function, this
is set to the object we’re constructing. (Why? Because that’s what Java does.) So,
var Vehicle = function Vehicle(color) { this.constructor; // function Vehicle() this.color = color; } (new Vehicle("tan")).color; // "tan"
Side note: Above, I said the use of the
new
keyword returned the constructed object. This is correct unless the constructor returns something explicitly. Then that object is returned, and the constructed object is just dropped. But really. JavaScript slaves over a hot CPU to create this object for you and then you just throw it away? Rude. And confusing to people who use your constructor. So unless you have a really good reason, don’t return anything from constructor functions.
PUTTING IT ALL TOGETHER
Given this tool, here’s one way (the intended way, but not the only way) to implement something like classes in JavaScript.
// Class definition / constructor var Vehicle = function Vehicle(color) { // Initialization this.color = color; } // Instance methods Vehicle.prototype = { go: function go() { return "Vroom!"; } }
“SUBCLASSING”
This “pseudoclassical” style doesn’t have an exact way to make subclasses, but it comes close. We can set the prototype of our “subclass” to an instance of the “superclass”.
var Car = function Car() {}; Car.prototype = new Vehicle("tan"); Car.prototype.honk = function honk() { return "BEEP!" }; var car = new Car(); car.honk(); // "BEEP!" car.go(); // "Vroom!" car.color; // "tan" car instanceof Car; // true car instanceof Vehicle; // true
Now, there’s a problem here. The Vehicle
constructor only gets called once, to set up Car
‘s prototype. We need to give it a color there. We can’t make different cars have different colors, which is not ideal. Some JavaScript frameworks have gotten around this by defining their own implementations of classes.
AND FOR MY LAST TRICK…
Sometimes you don’t want a notion of classes. Sometimes you just want one object to inherit the properties of another (but be able to override them). This is how most prototype-based languages work, but not JavaScript. At least, not without a little massaging.
This function lets us accomplish it. It’s been tossed around for a long time and is sometimes called “create
” and sometimes “clone
” and sometimes other things.
function create(parent) { var F = function() {}; F.prototype = parent; return new F(); } var masterObject = {a: "masterObject value"} var object1 = create(masterObject); var object2 = create(masterObject); var object3 = create(masterObject); var object3.a = "overridden value"; object1.a; // "masterObject value" object2.a; // "masterObject value" object3.a; // "overridden value" masterObject.a = "new masterObject value" object1.a; // "new masterObject value" object2.a; // "new masterObject value" object3.a; // "overridden value"
YOU SAID A MOUTHFUL.
The JavaScript prototype chain is a little different than how most languages work, so it can be tricky understand. It doesn’t make it any easier when JavaScript gets syntax that makes it looks more like other languages, like inheriting Java’s new
operator. But if you know what you’re doing, you can do some crazy-cool things with it.
<script type="text/javascript"> function Father(){ this.name = 'father name'; } Father.prototype.get_name = function(){ return this.name; } function Son(){ } Son.prototype = new Father(); var son = new Son(); son.name = 'son name'; console.log(son.get_name());//测试一下覆盖了父类的属性之后的表现 delete son.name console.log(son.get_name()); </script>