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The new keyword in JavaScript can be quite confusing when it is first encountered, as people tend to think that JavaScript is not an object-oriented programming language.
What is it?
What problems does it solve?
When is it appropriate and when not?
It does 5 things:
It creates a new object. The type of this object is simply object.
It sets this new object's internal, inaccessible, [[prototype]] (i.e. __proto__) property to be the constructor function's external, accessible, prototype object (every function object automatically has a prototype property).
It makes the this variable point to the newly created object.
It executes the constructor function, using the newly created object whenever this is mentioned.
It returns the newly created object, unless the constructor function returns a non-null object reference. In this case, that object reference is returned instead.
Note: constructor function refers to the function after the new keyword, as in
new ConstructorFunction(arg1, arg2)
Once this is done, if an undefined property of the new object is requested, the script will check the object's [[prototype]] object for the property instead. This is how you can get something similar to traditional class inheritance in JavaScript.
The most difficult part about this is point number 2. Every object (including functions) has this internal property called [[prototype]]. It can only be set at object creation time, either with new, with Object.create, or based on the literal (functions default to Function.prototype, numbers to Number.prototype, etc.). It can only be read with Object.getPrototypeOf(someObject). There is no other way to get or set this value.
Functions, in addition to the hidden [[prototype]] property, also have a property called prototype, and it is this that you can access, and modify, to provide inherited properties and methods for the objects you make.
Here is an example:
ObjMaker = function() { this.a = 'first'; };
// `ObjMaker` is just a function, there's nothing special about it
// that makes it a constructor.
ObjMaker.prototype.b = 'second';
// like all functions, ObjMaker has an accessible `prototype` property that
// we can alter. I just added a property called 'b' to it. Like
// all objects, ObjMaker also has an inaccessible `[[prototype]]` property
// that we can't do anything with
obj1 = new ObjMaker();
// 3 things just happened.
// A new, empty object was created called `obj1`. At first `obj1`
// was just `{}`. The `[[prototype]]` property of `obj1` was then set to the current
// object value of the `ObjMaker.prototype` (if `ObjMaker.prototype` is later
// assigned a new object value, `obj1`'s `[[prototype]]` will not change, but you
// can alter the properties of `ObjMaker.prototype` to add to both the
// `prototype` and `[[prototype]]`). The `ObjMaker` function was executed, with
// `obj1` in place of `this`... so `obj1.a` was set to 'first'.
obj1.a;
// returns 'first'
obj1.b;
// `obj1` doesn't have a property called 'b', so JavaScript checks
// its `[[prototype]]`. Its `[[prototype]]` is the same as `ObjMaker.prototype`
// `ObjMaker.prototype` has a property called 'b' with value 'second'
// returns 'second'
It's like class inheritance because now, any objects you make using new ObjMaker() will also appear to have inherited the 'b' property.
If you want something like a subclass, then you do this:
SubObjMaker = function () {};
SubObjMaker.prototype = new ObjMaker(); // note: this pattern is deprecated!
// Because we used 'new', the [[prototype]] property of SubObjMaker.prototype
// is now set to the object value of ObjMaker.prototype.
// The modern way to do this is with Object.create(), which was added in ECMAScript 5:
// SubObjMaker.prototype = Object.create(ObjMaker.prototype);
SubObjMaker.prototype.c = 'third';
obj2 = new SubObjMaker();
// [[prototype]] property of obj2 is now set to SubObjMaker.prototype
// Remember that the [[prototype]] property of SubObjMaker.prototype
// is ObjMaker.prototype. So now obj2 has a prototype chain!
// obj2 ---> SubObjMaker.prototype ---> ObjMaker.prototype
obj2.c;
// returns 'third', from SubObjMaker.prototype
obj2.b;
// returns 'second', from ObjMaker.prototype
obj2.a;
// returns 'first', from SubObjMaker.prototype, because SubObjMaker.prototype
// was created with the ObjMaker function, which assigned a for us
I read a ton of rubbish on this subject before finally finding this page, where this is explained very well with nice diagrams.
Suppose you have this function:
var Foo = function(){
this.A = 1;
this.B = 2;
};
If you call this as a stand-alone function like so:
Foo();
Executing this function will add two properties to the window object (A and B). It adds it to the window because window is the object that called the function when you execute it like that, and this in a function is the object that called the function. In JavaScript at least.
Now, call it like this with new:
var bar = new Foo();
When you add new to a function call, a new object is created (just var bar = new Object()) and the this within the function points to the new Object you just created, instead of to the object that called the function. So bar is now an object with the properties A and B. Any function can be a constructor; it just doesn't always make sense.
In addition to Daniel Howard's answer, here is what new does (or at least seems to do):
function New(func) {
var res = {};
if (func.prototype !== null) {
res.__proto__ = func.prototype;
}
var ret = func.apply(res, Array.prototype.slice.call(arguments, 1));
if ((typeof ret === "object" || typeof ret === "function") && ret !== null) {
return ret;
}
return res;
}
While
var obj = New(A, 1, 2);
is equivalent to
var obj = new A(1, 2);
For beginners to understand it better
Try out the following code in the browser console.
function Foo() {
return this;
}
var a = Foo(); // Returns the 'window' object
var b = new Foo(); // Returns an empty object of foo
a instanceof Window; // True
a instanceof Foo; // False
b instanceof Window; // False
b instanceof Foo; // True
Now you can read the community wiki answer :)
so it's probably not for creating
instances of object
It's used exactly for that. You define a function constructor like so:
function Person(name) {
this.name = name;
}
var john = new Person('John');
However the extra benefit that ECMAScript has is you can extend with the .prototype property, so we can do something like...
Person.prototype.getName = function() { return this.name; }
All objects created from this constructor will now have a getName because of the prototype chain that they have access to.
JavaScript is an object-oriented programming language and it's used exactly for creating instances. It's prototype-based, rather than class-based, but that does not mean that it is not object-oriented.
Summary:
The new keyword is used in JavaScript to create a object from a constructor function. The new keyword has to be placed before the constructor function call and will do the following things:
Creates a new object
Sets the prototype of this object to the constructor function's prototype property
Binds the this keyword to the newly created object and executes the constructor function
Returns the newly created object
Example:
function Dog (age) {
this.age = age;
}
const doggie = new Dog(12);
console.log(doggie);
console.log(Object.getPrototypeOf(doggie) === Dog.prototype) // true
What exactly happens:
const doggie says: We need memory for declaring a variable.
The assignment operator = says: We are going to initialize this variable with the expression after the =
The expression is new Dog(12). The JavaScript engine sees the new keyword, creates a new object and sets the prototype to Dog.prototype
The constructor function is executed with the this value set to the new object. In this step is where the age is assigned to the new created doggie object.
The newly created object is returned and assigned to the variable doggie.
Please take a look at my observation on case III below. It is about what happens when you have an explicit return statement in a function which you are newing up. Have a look at the below cases:
Case I:
var Foo = function(){
this.A = 1;
this.B = 2;
};
console.log(Foo()); //prints undefined
console.log(window.A); //prints 1
Above is a plain case of calling the anonymous function pointed by variable Foo. When you call this function it returns undefined. Since there isn’t any explicit return statement, the JavaScript interpreter forcefully inserts a return undefined; statement at the end of the function. So the above code sample is equivalent to:
var Foo = function(){
this.A = 1;
this.B = 2;
return undefined;
};
console.log(Foo()); //prints undefined
console.log(window.A); //prints 1
When Foo function is invoked window is the default invocation object (contextual this) which gets new A and B properties.
Case II:
var Foo = function(){
this.A = 1;
this.B = 2;
};
var bar = new Foo();
console.log(bar()); //illegal isn't pointing to a function but an object
console.log(bar.A); //prints 1
Here the JavaScript interpreter, seeing the new keyword, creates a new object which acts as the invocation object (contextual this) of anonymous function pointed by Foo. In this case A and B become properties on the newly created object (in place of window object). Since you don't have any explicit return statement, JavaScript interpreter forcefully inserts a return statement to return the new object created due to usage of new keyword.
Case III:
var Foo = function(){
this.A = 1;
this.B = 2;
return {C:20,D:30};
};
var bar = new Foo();
console.log(bar.C);//prints 20
console.log(bar.A); //prints undefined. bar is not pointing to the object which got created due to new keyword.
Here again, the JavaScript interpreter, seeing the new keyword, creates a new object which acts as the invocation object (contextual this) of anonymous function pointed by Foo. Again, A and B become properties on the newly created object. But this time you have an explicit return statement so JavaScript interpreter will not do anything of its own.
The thing to note in case III is that the object being created due to new keyword got lost from your radar. bar is actually pointing to a completely different object which is not the one which JavaScript interpreter created due to the new keyword.
Quoting David Flanagan from JavaScript: The Definitive Guide (6th Edition), Chapter 4, Page # 62:
When an object creation expression is evaluated, JavaScript first
creates a new empty object, just like the one created by the object
initializer {}. Next, it invokes the specified function with the
specified arguments, passing the new object as the value of the this
keyword. The function can then use this to initialize the properties
of the newly created object. Functions written for use as constructors
do not return a value, and the value of the object creation expression
is the newly created and initialized object. If a constructor does
return an object value, that value becomes the value of the object
creation expression and the newly created object is discarded.
Additional information:
The functions used in the code snippet of the above cases have special names in the JavaScript world as below:
Case #
Name
Case I
Constructor function
Case II
Constructor function
Case III
Factory function
You can read about the difference between constructor functions and factory functions in this thread.
Code smell in case III - Factory functions should not be used with the new keyword which I've shown in the code snippet above. I've done so deliberately only to explain the concept.
JavaScript is a dynamic programming language which supports the object-oriented programming paradigm, and it is used for creating new instances of objects.
Classes are not necessary for objects. JavaScript is a prototype-based language.
The new keyword changes the context under which the function is being run and returns a pointer to that context.
When you don't use the new keyword, the context under which function Vehicle() runs is the same context from which you are calling the Vehicle function. The this keyword will refer to the same context. When you use new Vehicle(), a new context is created so the keyword this inside the function refers to the new context. What you get in return is the newly created context.
Sometimes code is easier than words:
var func1 = function (x) { this.x = x; } // Used with 'new' only
var func2 = function (x) { var z={}; z.x = x; return z; } // Used both ways
func1.prototype.y = 11;
func2.prototype.y = 12;
A1 = new func1(1); // Has A1.x AND A1.y
A2 = func1(1); // Undefined ('this' refers to 'window')
B1 = new func2(2); // Has B1.x ONLY
B2 = func2(2); // Has B2.x ONLY
For me, as long as I do not prototype, I use the style of func2 as it gives me a bit more flexibility inside and outside the function.
Every function has a prototype object that’s automatically set as the prototype of the objects created with that function.
You guys can check easily:
const a = { name: "something" };
console.log(a.prototype); // 'undefined' because it is not directly accessible
const b = function () {
console.log("somethign");
};
console.log(b.prototype); // Returns b {}
But every function and objects has the __proto__ property which points to the prototype of that object or function. __proto__ and prototype are two different terms. I think we can make this comment: "Every object is linked to a prototype via the proto" But __proto__ does not exist in JavaScript. This property is added by browser just to help for debugging.
console.log(a.__proto__); // Returns {}
console.log(b.__proto__); // Returns [Function]
You guys can check this on the terminal easily. So what is a constructor function?
function CreateObject(name, age) {
this.name = name;
this.age = age
}
Five things that pay attention first:
When the constructor function is invoked with new, the function’s internal [[Construct]] method is called to create a new instance object and allocate memory.
We are not using return keyword. new will handle it.
The name of the function is capitalized, so when developers see your code they can understand that they have to use the new keyword.
We do not use the arrow function. Because the value of the this parameter is picked up at the moment that the arrow function is created which is "window". Arrow functions are lexically scoped, not dynamically. Lexically here means locally. The arrow function carries its local "this" value.
Unlike regular functions, arrow functions can never be called with the new keyword, because they do not have the [[Construct]] method. The prototype property also does not exist for arrow functions.
const me = new CreateObject("yilmaz", "21")
new invokes the function and then creates an empty object {} and then adds "name" key with the value of "name", and "age" key with the value of argument "age".
When we invoke a function, a new execution context is created with "this" and "arguments", and that is why "new" has access to these arguments.
By default, this inside the constructor function will point to the "window" object, but new changes it. "this" points to the empty object {} that is created and then properties are added to newly created object. If you had any variable that defined without "this" property will no be added to the object.
function CreateObject(name, age) {
this.name = name;
this.age = age;
const myJob = "developer"
}
myJob property will not added to the object because there is nothing referencing to the newly created object.
const me = {name: "yilmaz", age: 21} // There isn't any 'myJob' key
In the beginning I said every function has a "prototype" property, including constructor functions. We can add methods to the prototype of the constructor, so every object that created from that function will have access to it.
CreateObject.prototype.myActions = function() { /* Define something */ }
Now "me" object can use the "myActions" method.
JavaScript has built-in constructor functions: Function, Boolean, Number, String, etc.
If I create
const a = new Number(5);
console.log(a); // [Number: 5]
console.log(typeof a); // object
Anything that is created by using new has the type of object. Now "a" has access all of the methods that are stored inside Number.prototype. If I defined
const b = 5;
console.log(a === b); // 'false'
a and b are 5 but a is object and b is primitive. Even though b is primitive type, when it is created, JavaScript automatically wraps it with Number(), so b has access to all of the methods that inside Number.prototype.
A constructor function is useful when you want to create multiple similar objects with the same properties and methods. That way you will not be allocating extra memory so your code will run more efficiently.
The new keyword is for creating new object instances. And yes, JavaScript is a dynamic programming language, which supports the object-oriented programming paradigm. The convention about the object naming is: always use a capital letter for objects that are supposed to be instantiated by the new keyword.
obj = new Element();
JavaScript is not an object-oriented programming (OOP) language. Therefore the look up process in JavaScript works using a delegation process, also known as prototype delegation or prototypical inheritance.
If you try to get the value of a property from an object that it doesn't have, the JavaScript engine looks to the object's prototype (and its prototype, one step above at a time).
It's prototype chain until the chain ends up to null which is Object.prototype == null (Standard Object Prototype).
At this point, if the property or method is not defined then undefined is returned.
Important! Functions are are first-class objects.
Functions = Function + Objects Combo
FunctionName.prototype = { shared SubObject }
{
// other properties
prototype: {
// shared space which automatically gets [[prototype]] linkage
when "new" keyword is used on creating instance of "Constructor
Function"
}
}
Thus with the new keyword, some of the task that were manually done, e.g.,
Manual object creation, e.g., newObj.
Hidden bond creation using proto (AKA: dunder proto) in the JavaScript specification [[prototype]] (i.e., proto)
referencing and assign properties to newObj
return of the newObj object.
All is done manually.
function CreateObj(value1, value2) {
const newObj = {};
newObj.property1 = value1;
newObj.property2 = value2;
return newObj;
}
var obj = CreateObj(10,20);
obj.__proto__ === Object.prototype; // true
Object.getPrototypeOf(obj) === Object.prototype // true
JavaScript keyword new helps to automate this process:
A new object literal is created identified by this:{}
referencing and assign properties to this
Hidden bond creation [[prototype]] (i.e. proto) to Function.prototype shared space.
implicit return of this object {}
function CreateObj(value1, value2) {
this.property1 = value1;
this.property2 = value2;
}
var obj = new CreateObj(10,20);
obj.__proto__ === CreateObj.prototype // true
Object.getPrototypeOf(obj) == CreateObj.prototype // true
Calling a constructor function without the new keyword:
=> this: Window
function CreateObj(value1, value2) {
var isWindowObj = this === window;
console.log("Is Pointing to Window Object", isWindowObj);
this.property1 = value1;
this.property2 = value2;
}
var obj = new CreateObj(10,20); // Is Pointing to Window Object false
var obj = CreateObj(10,20); // Is Pointing to Window Object true
window.property1; // 10
window.property2; // 20
The new keyword creates instances of objects using functions as a constructor. For instance:
var Foo = function() {};
Foo.prototype.bar = 'bar';
var foo = new Foo();
foo instanceof Foo; // true
Instances inherit from the prototype of the constructor function. So given the example above...
foo.bar; // 'bar'
Well, JavaScript per se can differ greatly from platform to platform as it is always an implementation of the original specification ECMAScript (ES).
In any case, independently of the implementation, all JavaScript implementations that follow the ECMAScript specification right, will give you an object-oriented language. According to the ES standard:
ECMAScript is an object-oriented programming language for
performing computations and manipulating computational objects
within a host environment.
So now that we have agreed that JavaScript is an implementation of ECMAScript and therefore it is an object-oriented language. The definition of the new operation in any object-oriented language, says that such a keyword is used to create an object instance from a class of a certain type (including anonymous types, in cases like C#).
In ECMAScript we don't use classes, as you can read from the specifications:
ECMAScript does not use classes such as those in C++, Smalltalk, or Java. Instead objects may be created in various ways including via
a literal notation or via constructors which create objects and then execute code that initializes all or part of them by assigning initial
values to their properties. Each constructor is a function that has a
property named ―
prototype ‖ that is used to implement prototype - based inheritance and shared properties. Objects are created by
using constructors in new expressions; for example, new
Date(2009,11) creates a new Date object. Invoking a constructor
without using new has consequences that depend on the constructor.
For example, Date() produces a string representation of the
current date and time rather than an object.
It has 3 stages:
1.Create: It creates a new object, and sets this object's [[prototype]] property to be the prototype property of the constructor function.
2.Execute: It makes this point to the newly created object and executes the constructor function.
3.Return: In normal case, it will return the newly created object. However, if you explicitly return a non-null object or a function , this value is returned instead. To be mentioned, if you return a non-null value, but it is not an object(such as Symbol value, undefined, NaN), this value is ignored and the newly created object is returned.
function myNew(constructor, ...args) {
const obj = {}
Object.setPrototypeOf(obj, constructor.prototype)
const returnedVal = constructor.apply(obj, args)
if (
typeof returnedVal === 'function'
|| (typeof returnedVal === 'object' && returnedVal !== null)) {
return returnedVal
}
return obj
}
For more info and the tests for myNew, you can read my blog: https://medium.com/#magenta2127/how-does-the-new-operator-work-f7eaac692026
The new keyword in JavaScript can be quite confusing when it is first encountered, as people tend to think that JavaScript is not an object-oriented programming language.
What is it?
What problems does it solve?
When is it appropriate and when not?
It does 5 things:
It creates a new object. The type of this object is simply object.
It sets this new object's internal, inaccessible, [[prototype]] (i.e. __proto__) property to be the constructor function's external, accessible, prototype object (every function object automatically has a prototype property).
It makes the this variable point to the newly created object.
It executes the constructor function, using the newly created object whenever this is mentioned.
It returns the newly created object, unless the constructor function returns a non-null object reference. In this case, that object reference is returned instead.
Note: constructor function refers to the function after the new keyword, as in
new ConstructorFunction(arg1, arg2)
Once this is done, if an undefined property of the new object is requested, the script will check the object's [[prototype]] object for the property instead. This is how you can get something similar to traditional class inheritance in JavaScript.
The most difficult part about this is point number 2. Every object (including functions) has this internal property called [[prototype]]. It can only be set at object creation time, either with new, with Object.create, or based on the literal (functions default to Function.prototype, numbers to Number.prototype, etc.). It can only be read with Object.getPrototypeOf(someObject). There is no other way to get or set this value.
Functions, in addition to the hidden [[prototype]] property, also have a property called prototype, and it is this that you can access, and modify, to provide inherited properties and methods for the objects you make.
Here is an example:
ObjMaker = function() { this.a = 'first'; };
// `ObjMaker` is just a function, there's nothing special about it
// that makes it a constructor.
ObjMaker.prototype.b = 'second';
// like all functions, ObjMaker has an accessible `prototype` property that
// we can alter. I just added a property called 'b' to it. Like
// all objects, ObjMaker also has an inaccessible `[[prototype]]` property
// that we can't do anything with
obj1 = new ObjMaker();
// 3 things just happened.
// A new, empty object was created called `obj1`. At first `obj1`
// was just `{}`. The `[[prototype]]` property of `obj1` was then set to the current
// object value of the `ObjMaker.prototype` (if `ObjMaker.prototype` is later
// assigned a new object value, `obj1`'s `[[prototype]]` will not change, but you
// can alter the properties of `ObjMaker.prototype` to add to both the
// `prototype` and `[[prototype]]`). The `ObjMaker` function was executed, with
// `obj1` in place of `this`... so `obj1.a` was set to 'first'.
obj1.a;
// returns 'first'
obj1.b;
// `obj1` doesn't have a property called 'b', so JavaScript checks
// its `[[prototype]]`. Its `[[prototype]]` is the same as `ObjMaker.prototype`
// `ObjMaker.prototype` has a property called 'b' with value 'second'
// returns 'second'
It's like class inheritance because now, any objects you make using new ObjMaker() will also appear to have inherited the 'b' property.
If you want something like a subclass, then you do this:
SubObjMaker = function () {};
SubObjMaker.prototype = new ObjMaker(); // note: this pattern is deprecated!
// Because we used 'new', the [[prototype]] property of SubObjMaker.prototype
// is now set to the object value of ObjMaker.prototype.
// The modern way to do this is with Object.create(), which was added in ECMAScript 5:
// SubObjMaker.prototype = Object.create(ObjMaker.prototype);
SubObjMaker.prototype.c = 'third';
obj2 = new SubObjMaker();
// [[prototype]] property of obj2 is now set to SubObjMaker.prototype
// Remember that the [[prototype]] property of SubObjMaker.prototype
// is ObjMaker.prototype. So now obj2 has a prototype chain!
// obj2 ---> SubObjMaker.prototype ---> ObjMaker.prototype
obj2.c;
// returns 'third', from SubObjMaker.prototype
obj2.b;
// returns 'second', from ObjMaker.prototype
obj2.a;
// returns 'first', from SubObjMaker.prototype, because SubObjMaker.prototype
// was created with the ObjMaker function, which assigned a for us
I read a ton of rubbish on this subject before finally finding this page, where this is explained very well with nice diagrams.
Suppose you have this function:
var Foo = function(){
this.A = 1;
this.B = 2;
};
If you call this as a stand-alone function like so:
Foo();
Executing this function will add two properties to the window object (A and B). It adds it to the window because window is the object that called the function when you execute it like that, and this in a function is the object that called the function. In JavaScript at least.
Now, call it like this with new:
var bar = new Foo();
When you add new to a function call, a new object is created (just var bar = new Object()) and the this within the function points to the new Object you just created, instead of to the object that called the function. So bar is now an object with the properties A and B. Any function can be a constructor; it just doesn't always make sense.
In addition to Daniel Howard's answer, here is what new does (or at least seems to do):
function New(func) {
var res = {};
if (func.prototype !== null) {
res.__proto__ = func.prototype;
}
var ret = func.apply(res, Array.prototype.slice.call(arguments, 1));
if ((typeof ret === "object" || typeof ret === "function") && ret !== null) {
return ret;
}
return res;
}
While
var obj = New(A, 1, 2);
is equivalent to
var obj = new A(1, 2);
For beginners to understand it better
Try out the following code in the browser console.
function Foo() {
return this;
}
var a = Foo(); // Returns the 'window' object
var b = new Foo(); // Returns an empty object of foo
a instanceof Window; // True
a instanceof Foo; // False
b instanceof Window; // False
b instanceof Foo; // True
Now you can read the community wiki answer :)
so it's probably not for creating
instances of object
It's used exactly for that. You define a function constructor like so:
function Person(name) {
this.name = name;
}
var john = new Person('John');
However the extra benefit that ECMAScript has is you can extend with the .prototype property, so we can do something like...
Person.prototype.getName = function() { return this.name; }
All objects created from this constructor will now have a getName because of the prototype chain that they have access to.
JavaScript is an object-oriented programming language and it's used exactly for creating instances. It's prototype-based, rather than class-based, but that does not mean that it is not object-oriented.
Summary:
The new keyword is used in JavaScript to create a object from a constructor function. The new keyword has to be placed before the constructor function call and will do the following things:
Creates a new object
Sets the prototype of this object to the constructor function's prototype property
Binds the this keyword to the newly created object and executes the constructor function
Returns the newly created object
Example:
function Dog (age) {
this.age = age;
}
const doggie = new Dog(12);
console.log(doggie);
console.log(Object.getPrototypeOf(doggie) === Dog.prototype) // true
What exactly happens:
const doggie says: We need memory for declaring a variable.
The assignment operator = says: We are going to initialize this variable with the expression after the =
The expression is new Dog(12). The JavaScript engine sees the new keyword, creates a new object and sets the prototype to Dog.prototype
The constructor function is executed with the this value set to the new object. In this step is where the age is assigned to the new created doggie object.
The newly created object is returned and assigned to the variable doggie.
Please take a look at my observation on case III below. It is about what happens when you have an explicit return statement in a function which you are newing up. Have a look at the below cases:
Case I:
var Foo = function(){
this.A = 1;
this.B = 2;
};
console.log(Foo()); //prints undefined
console.log(window.A); //prints 1
Above is a plain case of calling the anonymous function pointed by variable Foo. When you call this function it returns undefined. Since there isn’t any explicit return statement, the JavaScript interpreter forcefully inserts a return undefined; statement at the end of the function. So the above code sample is equivalent to:
var Foo = function(){
this.A = 1;
this.B = 2;
return undefined;
};
console.log(Foo()); //prints undefined
console.log(window.A); //prints 1
When Foo function is invoked window is the default invocation object (contextual this) which gets new A and B properties.
Case II:
var Foo = function(){
this.A = 1;
this.B = 2;
};
var bar = new Foo();
console.log(bar()); //illegal isn't pointing to a function but an object
console.log(bar.A); //prints 1
Here the JavaScript interpreter, seeing the new keyword, creates a new object which acts as the invocation object (contextual this) of anonymous function pointed by Foo. In this case A and B become properties on the newly created object (in place of window object). Since you don't have any explicit return statement, JavaScript interpreter forcefully inserts a return statement to return the new object created due to usage of new keyword.
Case III:
var Foo = function(){
this.A = 1;
this.B = 2;
return {C:20,D:30};
};
var bar = new Foo();
console.log(bar.C);//prints 20
console.log(bar.A); //prints undefined. bar is not pointing to the object which got created due to new keyword.
Here again, the JavaScript interpreter, seeing the new keyword, creates a new object which acts as the invocation object (contextual this) of anonymous function pointed by Foo. Again, A and B become properties on the newly created object. But this time you have an explicit return statement so JavaScript interpreter will not do anything of its own.
The thing to note in case III is that the object being created due to new keyword got lost from your radar. bar is actually pointing to a completely different object which is not the one which JavaScript interpreter created due to the new keyword.
Quoting David Flanagan from JavaScript: The Definitive Guide (6th Edition), Chapter 4, Page # 62:
When an object creation expression is evaluated, JavaScript first
creates a new empty object, just like the one created by the object
initializer {}. Next, it invokes the specified function with the
specified arguments, passing the new object as the value of the this
keyword. The function can then use this to initialize the properties
of the newly created object. Functions written for use as constructors
do not return a value, and the value of the object creation expression
is the newly created and initialized object. If a constructor does
return an object value, that value becomes the value of the object
creation expression and the newly created object is discarded.
Additional information:
The functions used in the code snippet of the above cases have special names in the JavaScript world as below:
Case #
Name
Case I
Constructor function
Case II
Constructor function
Case III
Factory function
You can read about the difference between constructor functions and factory functions in this thread.
Code smell in case III - Factory functions should not be used with the new keyword which I've shown in the code snippet above. I've done so deliberately only to explain the concept.
JavaScript is a dynamic programming language which supports the object-oriented programming paradigm, and it is used for creating new instances of objects.
Classes are not necessary for objects. JavaScript is a prototype-based language.
The new keyword changes the context under which the function is being run and returns a pointer to that context.
When you don't use the new keyword, the context under which function Vehicle() runs is the same context from which you are calling the Vehicle function. The this keyword will refer to the same context. When you use new Vehicle(), a new context is created so the keyword this inside the function refers to the new context. What you get in return is the newly created context.
Sometimes code is easier than words:
var func1 = function (x) { this.x = x; } // Used with 'new' only
var func2 = function (x) { var z={}; z.x = x; return z; } // Used both ways
func1.prototype.y = 11;
func2.prototype.y = 12;
A1 = new func1(1); // Has A1.x AND A1.y
A2 = func1(1); // Undefined ('this' refers to 'window')
B1 = new func2(2); // Has B1.x ONLY
B2 = func2(2); // Has B2.x ONLY
For me, as long as I do not prototype, I use the style of func2 as it gives me a bit more flexibility inside and outside the function.
Every function has a prototype object that’s automatically set as the prototype of the objects created with that function.
You guys can check easily:
const a = { name: "something" };
console.log(a.prototype); // 'undefined' because it is not directly accessible
const b = function () {
console.log("somethign");
};
console.log(b.prototype); // Returns b {}
But every function and objects has the __proto__ property which points to the prototype of that object or function. __proto__ and prototype are two different terms. I think we can make this comment: "Every object is linked to a prototype via the proto" But __proto__ does not exist in JavaScript. This property is added by browser just to help for debugging.
console.log(a.__proto__); // Returns {}
console.log(b.__proto__); // Returns [Function]
You guys can check this on the terminal easily. So what is a constructor function?
function CreateObject(name, age) {
this.name = name;
this.age = age
}
Five things that pay attention first:
When the constructor function is invoked with new, the function’s internal [[Construct]] method is called to create a new instance object and allocate memory.
We are not using return keyword. new will handle it.
The name of the function is capitalized, so when developers see your code they can understand that they have to use the new keyword.
We do not use the arrow function. Because the value of the this parameter is picked up at the moment that the arrow function is created which is "window". Arrow functions are lexically scoped, not dynamically. Lexically here means locally. The arrow function carries its local "this" value.
Unlike regular functions, arrow functions can never be called with the new keyword, because they do not have the [[Construct]] method. The prototype property also does not exist for arrow functions.
const me = new CreateObject("yilmaz", "21")
new invokes the function and then creates an empty object {} and then adds "name" key with the value of "name", and "age" key with the value of argument "age".
When we invoke a function, a new execution context is created with "this" and "arguments", and that is why "new" has access to these arguments.
By default, this inside the constructor function will point to the "window" object, but new changes it. "this" points to the empty object {} that is created and then properties are added to newly created object. If you had any variable that defined without "this" property will no be added to the object.
function CreateObject(name, age) {
this.name = name;
this.age = age;
const myJob = "developer"
}
myJob property will not added to the object because there is nothing referencing to the newly created object.
const me = {name: "yilmaz", age: 21} // There isn't any 'myJob' key
In the beginning I said every function has a "prototype" property, including constructor functions. We can add methods to the prototype of the constructor, so every object that created from that function will have access to it.
CreateObject.prototype.myActions = function() { /* Define something */ }
Now "me" object can use the "myActions" method.
JavaScript has built-in constructor functions: Function, Boolean, Number, String, etc.
If I create
const a = new Number(5);
console.log(a); // [Number: 5]
console.log(typeof a); // object
Anything that is created by using new has the type of object. Now "a" has access all of the methods that are stored inside Number.prototype. If I defined
const b = 5;
console.log(a === b); // 'false'
a and b are 5 but a is object and b is primitive. Even though b is primitive type, when it is created, JavaScript automatically wraps it with Number(), so b has access to all of the methods that inside Number.prototype.
A constructor function is useful when you want to create multiple similar objects with the same properties and methods. That way you will not be allocating extra memory so your code will run more efficiently.
The new keyword is for creating new object instances. And yes, JavaScript is a dynamic programming language, which supports the object-oriented programming paradigm. The convention about the object naming is: always use a capital letter for objects that are supposed to be instantiated by the new keyword.
obj = new Element();
JavaScript is not an object-oriented programming (OOP) language. Therefore the look up process in JavaScript works using a delegation process, also known as prototype delegation or prototypical inheritance.
If you try to get the value of a property from an object that it doesn't have, the JavaScript engine looks to the object's prototype (and its prototype, one step above at a time).
It's prototype chain until the chain ends up to null which is Object.prototype == null (Standard Object Prototype).
At this point, if the property or method is not defined then undefined is returned.
Important! Functions are are first-class objects.
Functions = Function + Objects Combo
FunctionName.prototype = { shared SubObject }
{
// other properties
prototype: {
// shared space which automatically gets [[prototype]] linkage
when "new" keyword is used on creating instance of "Constructor
Function"
}
}
Thus with the new keyword, some of the task that were manually done, e.g.,
Manual object creation, e.g., newObj.
Hidden bond creation using proto (AKA: dunder proto) in the JavaScript specification [[prototype]] (i.e., proto)
referencing and assign properties to newObj
return of the newObj object.
All is done manually.
function CreateObj(value1, value2) {
const newObj = {};
newObj.property1 = value1;
newObj.property2 = value2;
return newObj;
}
var obj = CreateObj(10,20);
obj.__proto__ === Object.prototype; // true
Object.getPrototypeOf(obj) === Object.prototype // true
JavaScript keyword new helps to automate this process:
A new object literal is created identified by this:{}
referencing and assign properties to this
Hidden bond creation [[prototype]] (i.e. proto) to Function.prototype shared space.
implicit return of this object {}
function CreateObj(value1, value2) {
this.property1 = value1;
this.property2 = value2;
}
var obj = new CreateObj(10,20);
obj.__proto__ === CreateObj.prototype // true
Object.getPrototypeOf(obj) == CreateObj.prototype // true
Calling a constructor function without the new keyword:
=> this: Window
function CreateObj(value1, value2) {
var isWindowObj = this === window;
console.log("Is Pointing to Window Object", isWindowObj);
this.property1 = value1;
this.property2 = value2;
}
var obj = new CreateObj(10,20); // Is Pointing to Window Object false
var obj = CreateObj(10,20); // Is Pointing to Window Object true
window.property1; // 10
window.property2; // 20
The new keyword creates instances of objects using functions as a constructor. For instance:
var Foo = function() {};
Foo.prototype.bar = 'bar';
var foo = new Foo();
foo instanceof Foo; // true
Instances inherit from the prototype of the constructor function. So given the example above...
foo.bar; // 'bar'
Well, JavaScript per se can differ greatly from platform to platform as it is always an implementation of the original specification ECMAScript (ES).
In any case, independently of the implementation, all JavaScript implementations that follow the ECMAScript specification right, will give you an object-oriented language. According to the ES standard:
ECMAScript is an object-oriented programming language for
performing computations and manipulating computational objects
within a host environment.
So now that we have agreed that JavaScript is an implementation of ECMAScript and therefore it is an object-oriented language. The definition of the new operation in any object-oriented language, says that such a keyword is used to create an object instance from a class of a certain type (including anonymous types, in cases like C#).
In ECMAScript we don't use classes, as you can read from the specifications:
ECMAScript does not use classes such as those in C++, Smalltalk, or Java. Instead objects may be created in various ways including via
a literal notation or via constructors which create objects and then execute code that initializes all or part of them by assigning initial
values to their properties. Each constructor is a function that has a
property named ―
prototype ‖ that is used to implement prototype - based inheritance and shared properties. Objects are created by
using constructors in new expressions; for example, new
Date(2009,11) creates a new Date object. Invoking a constructor
without using new has consequences that depend on the constructor.
For example, Date() produces a string representation of the
current date and time rather than an object.
It has 3 stages:
1.Create: It creates a new object, and sets this object's [[prototype]] property to be the prototype property of the constructor function.
2.Execute: It makes this point to the newly created object and executes the constructor function.
3.Return: In normal case, it will return the newly created object. However, if you explicitly return a non-null object or a function , this value is returned instead. To be mentioned, if you return a non-null value, but it is not an object(such as Symbol value, undefined, NaN), this value is ignored and the newly created object is returned.
function myNew(constructor, ...args) {
const obj = {}
Object.setPrototypeOf(obj, constructor.prototype)
const returnedVal = constructor.apply(obj, args)
if (
typeof returnedVal === 'function'
|| (typeof returnedVal === 'object' && returnedVal !== null)) {
return returnedVal
}
return obj
}
For more info and the tests for myNew, you can read my blog: https://medium.com/#magenta2127/how-does-the-new-operator-work-f7eaac692026
Trying to understand Prototypes in Javascript. For this example:
var obj = new Function();
obj.prototype.x = "a";
Why do I get different results from
console.log(obj.__proto__);
and
console.log(obj.prototype);
Thanks
In:
> var obj = new Function();
a new function object is created whose internal [[Prototype]] (or __proto__ in browsers that support it) references Function.prototype, i.e. the built–in Function constructor's public prototype and assigned to the variable obj.
Because obj is a Function object, it has a prototype property by default just in case it is to be used as a constructor.
In:
> obj.prototype.x = "a";
a new x property is added to obj.prototype that is assigned a value of the string 'a'. Note that obj only has a prototype property by default because it's a Function object.
So:
obj.prototype === obj.__proto__
is essentially:
obj.prototype === Function.prototype
which is clearly false.
So to answer the question "Best way to retrieve the prototype of a JS object" then you can access a constructor's public prototype through its prototype property.
You can access a instance's internal [[Prototype]] using ES5 Object.getPrototypeOf, however it may not be supported everywhere.
You can also access a instance's internal [[Prototype]] using the non–standard __proto__ where supported.
A more general solution is to keep a reference to the constructor's prototype at the time the instance is created (since changing the constructor's prototype at some later stage will not change the [[Prototype]] of instances that have already been created).
So in a general case you might do:
function Foo() {
this.internalProto = Foo.prototype;
}
var foo = new Foo();
// ES5, where supported
Object.getPrototypeof(foo) == Foo.prototype; // true
foo.internalProto == Foo.prototype; // true
// Non–standard, Where supported
foo.internalProto == foo.__proto__; // true
According to this source: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/prototype
Object.prototype.__proto__ points to the object which was used as
prototype when the object was instantiated.
It simply means that object used as prototype to create Function object was empty function, and that's why you have function Empty() {} in the output. You can observe it here:
console.log(Function.prototype);
var func = new Function();
console.log(func.__proto__);
console.log(func.prototype);
// OUTPUT:
// function Empty() {}
// function Empty() {}
// Object {}
__proto__ of an empty object (e.g. var a = {}) is Object {} because this is, what was used to create base of your object (in other words Object.prototype was used). And prototype is not even available as a property of a, because you've created a totally empty object, so there's nothing.
Also notice that __proto__ is now deprecated.
Why? I don't know, but I have never used it so I don't care :)
prototype is a different thing, e.g.
Changes to the Object prototype object are propagated to all objects
unless the properties and methods subject to those changes are
overridden further along the prototype chain.
This is why you need prototype and you don't care about __proto__ in real life. If I'm wrong please show me useful usage of __proto__.
Hope it's clearer now. And to answer your original question:
Prototype of a JS object can be retrieved only by using prototype property, as __proto__ contains sth different. If prototype property doesn't exist, there is no prototype of the JS object, even if sth was used in the process of instantiation.
Accordint to the MDN, obj.__proto__ has not been standardized.
So while obj.prototype has a clear standardized behav8our accross browsers, obj.__proto__ behaves differently in different browsers.
You're looking at this sideways...
.prototype and .__proto__ are the same object (or are at one specific point in time)...
BUUUUUT they're propertes of different objects.
var Human = function (name) {
this.num_eyes = 2;
this.num_heads = 1;
this.name = name;
};
Human.prototype.die = function () { this.isAlive = false; };
var herman = new Human("Herman");
herman.__proto__.die === Human.prototype.die; // true
.__proto__ is a link to the CONSTRUCTOR .prototype (and typically, is the SAME object)
It's almost like this:
var Human = function () {
this = {};
this.num_eyes = 2;
// ......
this.__proto__ = Human.prototype;
};
That isn't exactly how constructors work, but really, that's the idea.
And that's why .__proto__ and .prototype aren't the same thing.
Because you're looking in the wrong place.
So if:
var herman = new Human();
herman.__proto__ === Human.prototype;
var Human = new Function ();
...so logic then states that Human.__proto__ === Function.prototype;
...and if Human and Function aren't the same object, then their .prototype properties aren't going to be the same (unless you overwrite one with the other Human.prototype = Function.prototype; Human.__proto__ === Human.prototype; //true
I know this is not the recommended way of doing it, but if I declare the following functions, and then invoke them as constructors, what will be the difference (if any) between the resulting objects?
function Something() {
this.foo = "bar";
}
function something2() {
var that = {};
that.foo = "bar";
return that;
}
var x = new Something();
var y = new something2();
var z = something2();
I.e. what will differ between x, y and z here?
Wouldn't something2 be a much better way of writing the constructor, since whether you use new or not will not affect the result of the function?
BTW should something2 be capitalized here? (I assume not since Crockford is so adamant on the capitalization, for functions will clobber the global namespace...)
In short:
new something2() instanceof something2 === false
Relatedly, if you extend your example to use the prototype property
Something.prototype.method = function () { };
something2.prototype.method = function () { };
you will find that the prototype is not inherited in the latter case:
typeof (new Something()).method === "function"
type (new something2()).method === "undefined"
The real answer is that you are tapping into entirely different underlying machinery. Calling with new invokes the [[Construct]] mechanism, which involves setting the [[Prototype]] property according to the .prototype property of the constructor.
But a funny thing happens in steps 8--10 of the [[Construct]] algorithm: after setting up a new, empty object, and then attaching its [[Prototype]], it does a [[Call]] to the actual constructor, using this new empty-plus-prototype object as this. And then, in step 9, if it turns out that that constructor returned something---it throws away that prototypally-bound, passed-as-this object that it spent all that time setting up!
Note: you can access an object's [[Prototype]] (which is different from a constructor's .prototype) with Object.getPrototypeOf:
Object.getPrototypeOf(new Something()) === Something.prototype // steps 5 & 6
Object.getPrototypeOf(new something2()) === Object.prototype // default
To answer some meta-questions:
No, don't capitalize something2, since it is a factory function and not a constructor. If something is capitalized, it is expected to have constructor semantics, e.g. new A() instanceof A.
If you're worried about the danger of clobbering the global namespace, you should start using strict mode, by putting "use strict"; at the top of your files. One of the many nice cleanups of strict mode is that this defaults to undefined, not the global object, so e.g. calling a constructor without new will result in errors the moment the constructor tries to attach properties to undefined.
Factory functions (aka the "closure pattern") are in general a reasonable substitute for constructors and classes, as long as you are (a) not using inheritance; (b) not constructing too many instances of that object. The latter is because, in the closure pattern, you attach a new instance of every method to every newly-created object, which is not great for memory usage. The biggest payoff, IMO, of the closure pattern is the ability to use "private" variables (which are a good thing, and don't let anyone tell you otherwise :P).
In the second case, the returned object doesn't inherit anything from the constructor, so there's little point in using it as such.
> var x = new Something();
> var y = new something2();
> var z = something2();
I.e. what will differ between x, y and z here?
x inherits from Something, wheres neither y or z inherit from something2.
Wouldn't something2 be a much better way of writing the constructor,
since whether you use new or not will not affect the result of the
function?
There is no point in calling something2 as a constructor because the object it returns isn't the newly constructed object assigned to its this that inherits from something2.prototype, which is what others might expect to get when calling new something2().
BTW should something2 be capitalized here? (I assume not since
Crockford is so adamant on the capitalization, for functions will
clobber the global namespace...)
No, because calling it as a constructor is a bit pointless, so characterising it as one would be misleading.
I'd say the most important thing would be the prototype of the returned objects.
function Something() {
this.foo = "bar";
}
Something.prototype = {
// Something prototype code
hello: function(){
//...
}
}
function something2() {
var that = {};
that.foo = "bar";
return that;
}
something2.prototype = {
// something2 prototype code
greetings : function() {
//...
}
}
var x = new Something();
var y = new something2();
var z = something2();
typeof x.hello === function // should be true
typeof y.greetings === undefined // should be true
typeof z.greetings === undefined // should be true
In other words, I'd say you're not instantiating objects withe something2, you are creating purely new objects that inherit from Object.
Something() will give you new objects of "Something" type when you use the new keyword.
something2() will give you new objects of "Object" type, which will immediately return a new empty object.
new something2 is inefficient, because you are creating a blank scope, from which you create a new object
var that = {};
which is equivalent to
var that = new Object();
Invoking a function as a constructor (i.e. with the new keyword) runs the following steps:
create a new object
set the prototype of that object to the object in the prototype property of the function
execute the constructor function in the context of that object (i.e. this is the new object)
return that object (if the constructor has no return statement)
So, your second solution will just return a plain object with a property "foo". But neither y nor z are instanceof Something2 and don't inherit from that prototype. There are functions like that, yes, but they should not be called constructors (no uppercase naming, no invokation with new). They belong to the factory pattern.
If you want a constructor which can be executed without new, use that code:
function Something(params) {
if (! this instanceof Something)
return new Something(params);
// else use "this" as usual
this.foo = "bar";
...
}
I am unable to understand this loop behavior of the javascript.
Can someone tell me why was it designed in this way?
Is there any real use case of this behavior?
why this loop? {
Newly created instance inherits properties from the prototype property of the constructor function object.
prototype property of the constructor function is an object that keeps constructor property.
constructor property is equal to the constructor function object.
Again constructor function object keeps prototype property.
}
instance1---inhertis(keeps)-->Prototype property of func()-->keep constructor property-->function object func-->keep prototype property.
var func = function(){};
var construct = func.prototype.constructor;
console.log(construct === func); //true
var instance1 = new func();
Updated: Even if in between i assigned something else, instanceof always returns true.
var func1 = function(){};
func1.prototype.constructor = 1;
var instance1 = new func1();
console.log(instance1 instanceof func1); //true
var func2 = function(){};
func2.prototype.constructor = 0;
var instance2 = new func2();
console.log(instance2 instanceof func2); //true
Sorry to ask 2 question in 1 but both may be related.
Of course it retains the instance. Why wouldn't it? If you're making a duck, it's a duck - its DNA says that it's a duck, no matter if you paint it black or teach it to be a goose.
Also, in your case, setting the constructor has no effect. When you do new func (or new func(), which are identical), you go and grab an internal property of the function (the [[Construct]] property), and not func.prototype.constructor.
obj.constructor is defined on every single object, since it's defined on every "constructor": That is, Object Number Function Date Boolean String and so on. Each have a constructor property in their prototype:
Object.prototype.constructor === Object;
String.prototype.constructor === String;
//etc
Each one has its prototype.constructor pointing to itself.
Since functions can also behave like constructors, their .prototype.constructor property points to themselves as well. AFAIK, that's unused in the language itself.
The terse, technical answer? http://es5.github.com/#x11.8.6
//foo instanceof bar
Return the result of calling the [[HasInstance]] internal method of bar with argument foo.
(slightly paraphrased)
Basically, you're asking mother-duck: "Excuse me ma'am, is this your child?" The child has little say in the matter.
Edit: As mentioned in the comments, changing the prototype does indeed affect the instanceof results. Like above, there's the intuitive answer and the technical answer.
Intuitive answer is simple: The prototype defines the object. Therefore, changing the prototype changes the DNA - you make the duck a goose, not by teaching it to be a goose, but by going to its DNA and changing it to a goose DNA.
The technicality is seeing what [[HasInstance]] does. (the other [[HasIntsance]] calls this one) The spec is really dry and terse, so here's the algorithm written in pseudo-javascript:
//assume Func is the function we're talking about
function HasInstance ( value ) {
if ( IsntAnObject(value) ) {
return false;
}
var proto = Func.prototype;
if ( Type(proto) !== "Object" ) {
return false;
}
while ( value !== null ) {
value = value.prototype;
if ( value === proto ) {
return true;
}
}
return false;
}
As can be seen, by changing the prototype, we're changing the behavior - value will be different values.
Very nice question!
Since prototypes are Object instances (as everything in JavaScript is), they have to share Object's prototype. Which happens to have the constructor property.
Instances share all properties of their constructor prototypes, including the constructor property.
The constructor property of a function's prototype is specified to reflect the function itself. For example:
Object.prototype.constructor === Object
Function.prototype.constructor === Function
/* the same with every other function */
When you overwrite a constructor function's prototype, like this:
Func.prototype = 1
The prototype itself and all instances of Func have a different constructor property, in the case above – Number.
As for the instanceof, it has nothing to do with the constructor property per se. It has to do with the prototype.
function Func() {}
Func.prototype = { a: 1 } // assign a prototype
var fn = new Func() // create an instance
fn instanceof Func // true (reflects connexion to the original prototype)
Func.prototype = { b: 2 } // assign a completely different prototype
fn instanceof Func // false (the connexion is broken)
Below little code might clear up your confusion. As you can see the new instance actually does not have its own property called "constructor". So when you are asking for instance.constructor, you are actually getting instance.prototype.constructor value due to prototype chaining. To be consistent you want to see instance.constructor set to same value as the function that created it. This is why JS interpreter sets prototype.constructor to the value of the function itself.
function Rabbit() { }
var rabbit = new Rabbit()
alert( rabbit.hasOwnProperty('constructor') ) // false
alert( Rabbit.prototype.hasOwnProperty('constructor') ) // true
This works same for non-function objects. They don't have their own .constructor property and so the call ultimately ends up in Object.prototype.constructor and hence you get same answer for all non-function objects.
A question to ask at this point is why JS designer made this choice for function objects instead of explicitly setting constructor property of instance to function itself. I don't know the answer but I can guess that it adds more "dynamism" in the language. The instance.constructor can be used to create a new instance in generic way even if you don't have the original function that created the instance.
function makeUnicorn(animal) {
var unicorn = new animal.constructor();
unicorn.HornOnNose = true;
return unicorn;
}
var unicornRabbit = makeUnicorn(rabbit);
Notice that above runs without error for any object, even ones that are not an instance of function. You can conceivably use this JavaScript feature to customize behavior of above "generic" function which you otherwise couldn't if constructor was an own property of the instance.
Horse.prototype.constructor = function() {
var newHorse = new Horse();
newHorse.Color = "White";
return newHorse;
}