I’ve been programming in Java for a greater part of my professional career. As web development got more powerful and demanding (and complex), I ended up dealing with client-side JavaScript more often than I wanted. In most of these cases, I’ve come to hate it. To avoid it, I considered alternatives like Adobe’s Flex and GWT.
Until about five (5) years ago, when I sat down and really started learning JavaScript, I started to love it. It felt like one of those new year’s resolutions that I failed to complete. Good thing, I faced projects that relied heavily on jQuery and Google Maps JavaScript API. With that, I was forced encouraged to dive in and learn JavaScript. So far, I’m glad I did.
Variables and Primitive Data Types
How many primitive data types does JavaScript have? Three: string, numeric, and boolean. It only has three primitive data types compared to the eight of Java. Wow! How simpler could it get?!
As it turns out, there are two more primitive data types: null
and undefined
are also considered primitive data types. Undefined is the values of a variable with no value. Variables can be emptied by setting the value to null.
Note that primitive data types are automatically wrapped as objects (e.g. a string literal is automatically wrapped as a String object). This makes them possess properties and methods.
var text = 'hello'; // or text = new String('hello'); var len = text.length; // returns a number text.charAt(1); // returns 'e'
Native Objects
The JavaScript language provides some native objects: Array, Function, Date, Error, and Math. Objects can have properties and methods. Objects are key-value pairs. The code snippet below shows an object with five properties. Two of which are functions.
var myObject = { prop1: 'hello', prop2: false, prop3: new Date(), function1: function(param1, param2) {. . .}, function2: function() {. . .} }; // the above is equivalent to this: var myObject2 = { 'prop1': 'hello', 'prop2': false, 'prop3': new Date(), 'function1': function(param1, param2) {. . .}, 'function2': function() {. . .} }; // accessing the properties is like indexing a map alert(myObject['prop1'] == myObject.prop1); // true
No Classes, Just Objects
As I dug deeper, I found it confusing that there are no classes, just objects. Coming from a Java background, I wanted to learn how to apply OOP. With that, I looked for creating private member variables and functions. JavaScript is a class-free, prototypal language. Instead of defining classes, and creating objects based on classes, it simply creates objects that inherit from (parent) objects that act as classes.
JavaScript is a prototype-based language.
Prototype-based programming is a style of object-oriented programming in which classes are not present, and behavior reuse (known as inheritance in class-based languages) is accomplished through a process of decorating existing objects which serve as prototypes. This model is also known as class-less, prototype-oriented, or instance-based programming.
JavaScript MDN
This is the part I found confusing. But after a while, it’s becoming clear. Declaring a class in JavaScript is as easy as defining a function.
function Student(name) { // This is the constructor // We can add properties (instance variables) to "this" this.name = name; }
Since functions are objects in JavaScript, we can add properties and methods. In this case, we use the prototype property of a Function object to add methods.
Student.prototype.greet = function(greeting) { alert(greeting + ', my name is ' + this.name); }; Student.prototype.anotherMethod = function() { };
We can create Student objects by calling the constructor with the new keyword.
var student1 = new Student('John Smith'); student1.greet('Hi'); // will display 'Hi, my name is John Smith' alert(student1.name); // the name property is public
So, how can we provide private members to classes? In JavaScript, functions are used to provide scope and hide variables. For this, let’s change the public name property of the Student class to become private. We also add a public getter method to access the private name property.
function Student(name) { // This is the constructor // We can add public properties (instance variables) to "this" // this.name = name; var _name = name; this.getName = function() { return _name; }; }
This also changes the public member method in its reference to the private name property.
Student.prototype.greet = function(greeting) { alert(greeting + ', my name is ' + this.getName()); }; Student.prototype.anotherMethod = function() {. . .};
Now that the name property is made private, the usage of Student class will also change.
var student1 = new Student('John Smith'); student1.greet('Hi'); // will display 'Hi, my name is John Smith' alert(student1.name); // will return undefined alert(student1.getName()); // will return 'John Smith'
Closures
JavaScript uses closures to provide access to variables that continue to exist even after the variables are out of scope. Let's take the following example from one of Douglas Crockford's talks.
var names = ['zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine']; var digit_name = function(n) { return names[n]; };
In the above example, the names array is declared at the global scope. We can move names as a variable inside the function (and avoid name clashes with other functions). The result looks something like this:
// var names = []; var digit_name = function(n) { var names = ['zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine']; return names[n]; };
But the above is slower, since the names array would have to be (re-)initialized every time the function is called. Here's where we can use a closure to allow the function to continue to have access to the names array variable even after it is out of scope.
var digit_name = (function() { var names = ['zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine']; // return a function return function(n) { // var names = []; return names[n]; }; })();
Notice that the variable digit_name is assigned the result of a function call. To make it clearer, let’s try re-formatting the code. Hopefully, this makes it clearer.
var digit_name = (function() {...})();
The open-and-close parenthesis immediately calls the function. And that function returns a function.
var digit_name = (function() {... return function(n) {}; })();
Closures are also used to declare private members. In the Student class example, notice how the getName method still had access to the _name variable?
Understanding the Misunderstood
JavaScript is the world’s most misunderstood language largely because people aren’t taking the time to learn it. I hope that developers continue to take programming seriously.
It is the language that most people use without bothering to learn it first.
Programming is a complicated business. It should never be taken in ignorance.
Douglas Crockford - Senior JavaScript Architect, PayPal
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