[removed] Do I need to put this.var for every variable in an object?

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太阳男子
太阳男子 2020-11-21 05:06

In C++, the language I\'m most comfortable with, usually one declares an object like this:

class foo
{
public:
    int bar;
    int getBar() { return bar; }
         


        
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  • 2020-11-21 05:35

    To get closer to OOP in JavaScript, you might want to take a look into a Module design pattern (for instance, described here).

    Based on the closure effect, this pattern allows emulating private properties in your objects.

    With 'private' properties you can reference them directly by its identifier (i.e., no this keyword as in constructors).

    But anyway, closures and design patterns in JS - an advanced topic. So, get familiar with basics (also explained in the book mentioned before).

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  • 2020-11-21 05:35

    In javascript this always refers to the owner object of the function. For example, if you define your function foo() in a page, then owner is the javascript object windows; or if you define the foo() on html element <body>, then the owner is the html element body; and likewise if you define the function onclick of element <a>, then the owner is the anchor.

    In your case, you are assigning a property bar to the 'owner' object at the begining and trying to return the local variable bar.

    Since you never defined any local varialbe bar, it is giving you as bar is undefined.

    Ideally your code should have defined the variable as var bar; if you want to return the value zero.

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  • 2020-11-21 05:41

    JavaScript has no classes class-based object model. It uses the mightier prototypical inheritance, which can mimic classes, but is not suited well for it. Everything is an object, and objects [can] inherit from other objects.

    A constructor is just a function that assigns properties to newly created objects. The object (created by a call with the new keyword) can be referenced trough the this keyword (which is local to the function).

    A method also is just a function which is called on an object - again with this pointing to the object. At least when that function is invoked as a property of the object, using a member operator (dot, brackets). This causes lots of confusion to newbies, because if you pass around that function (e.g. to an event listener) it is "detached" from the object it was accessed on.

    Now where is the inheritance? Instances of a "class" inherit from the same prototype object. Methods are defined as function properties on that object (instead of one function for each instance), the instance on which you call them just inherits that property.

    Example:

    function Foo() {
        this.bar = "foo"; // creating a property on the instance
    }
    Foo.prototype.foo = 0; // of course you also can define other values to inherit
    Foo.prototype.getBar = function() {
        // quite useless
        return this.bar;
    }
    
    var foo = new Foo; // creates an object which inherits from Foo.prototype,
                       // applies the Foo constructor on it and assigns it to the var
    foo.getBar(); // "foo" - the inherited function is applied on the object and
                  // returns its "bar" property
    foo.bar; // "foo" - we could have done this easier.
    foo[foo.bar]; // 0 - access the "foo" property, which is inherited
    foo.foo = 1;  // and now overwrite it by creating an own property of foo
    foo[foo.getBar()]; // 1 - gets the overwritten property value. Notice that
    (new Foo).foo;     // is still 0
    

    So, we did only use properties of that object and are happy with it. But all of them are "public", and can be overwritten/changed/deleted! If that doesn't matter you, you're lucky. You can indicate "privateness" of properties by prefixing their names with underscores, but that's only a hint to other developers and may not be obeyed (especially in error).

    So, clever minds have found a solution that uses the constructor function as a closure, allowing the creating of private "attributes". Every execution of a javascript function creates a new variable environment for local variables, which may get garbage collected once the execution has finished. Every function that is declared inside that scope also has access to these variables, and as long as those functions could be called (e.g. by an event listener) the environment must persist. So, by exporting locally defined functions from your constructor you preserve that variable environment with local variables that can only be accessed by these functions.

    Let's see it in action:

    function Foo() {
        var bar = "foo"; // a local variable
        this.getBar = function getter() {
            return bar; // accesses the local variable
        }; // the assignment to a property makes it available to outside
    }
    
    var foo = new Foo; // an object with one method, inheriting from a [currently] empty prototype
    foo.getBar(); // "foo" - receives us the value of the "bar" variable in the constructor
    

    This getter function, which is defined inside the constructor, is now called a "privileged method" as it has access to the "private" (local) "attributes" (variables). The value of bar will never change. You also could declare a setter function for it, of course, and with that you might add some validation etc.

    Notice that the methods on the prototype object do not have access to the local variables of the constructor, yet they might use the privileged methods. Let's add one:

    Foo.prototype.getFooBar = function() {
        return this.getBar() + "bar"; // access the "getBar" function on "this" instance
    }
    // the inheritance is dynamic, so we can use it on our existing foo object
    foo.getFooBar(); // "foobar" - concatenated the "bar" value with a custom suffix
    

    So, you can combine both approaches. Notice that the privileged methods need more memory, as you create distinct function objects with different scope chains (yet the same code). If you are going to create incredibly huge amounts of instances, you should define methods only on the prototype.

    It gets even a little more complicated when you are setting up inheritance from one "class" to another - basically you have to make the child prototype object inherit from the parent one, and apply the parent constructor on child instances to create the "private attributes". Have a look at Correct javascript inheritance, Private variables in inherited prototypes, Define Private field Members and Inheritance in JAVASCRIPT module pattern and How to implement inheritance in JS Revealing prototype pattern?

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  • 2020-11-21 05:45

    Explicitly saying this.foo means (as you've understood well) that you're interested about the property foo of the current object referenced by this. So if you use: this.foo = 'bar'; you're going to set the property foo of the current object referenced by this equals to bar.

    The this keyword in JavaScript doesn't always mean the same thing like in C++. Here I can give you an example:

    function Person(name) {
       this.name = name;
       console.log(this); //Developer {language: "js", name: "foo"} if called by Developer
    }
    
    function Developer(name, language) {
       this.language = language;
       Person.call(this, name);
    }
    
    var dev = new Developer('foo', 'js');
    

    In the example above we're calling the function Person with the context of the function Developer so this is referencing to the object which will be created by Developer. As you might see from the console.log result this is comes from Developer. With the first argument of the method call we specify the context with which the function will be called.

    If you don't use this simply the property you've created will be a local variable. As you might know JavaScript have functional scope so that's why the variable will be local, visible only for the function where it's declared (and of course all it's child functions which are declared inside the parent). Here is an example:

    function foo() {
        var bar = 'foobar';
        this.getBar = function () {
            return bar;
        }
    }
    
    var f = new foo();
    console.log(f.getBar());  //'foobar'
    

    This is true when you use the var keyword. This means that you're defining bar as local variable if you forget var unfortunately bar will became global.

    function foo() {
        bar = 'foobar';
        this.getBar = function () {
            return bar;
        }
    }
    
    var f = new foo();
    console.log(window.bar);  //'foobar'
    

    Exactly the local scope can help you to achieve privacy and encapsulation which are one of the greatest benefits of OOP.

    Real world example:

    function ShoppingCart() {
        var items = [];
    
        this.getPrice = function () {
           var total = 0;
           for (var i = 0; i < items.length; i += 1) {
              total += items[i].price;
           }
           return total;
        }
    
        this.addItem = function (item) {
            items.push(item);
        }
    
        this.checkOut = function () {
            var serializedItems = JSON.strigify(items);
            //send request to the server...
        }
    }
    
    var cart = new ShoppingCart();
    cart.addItem({ price: 10, type: 'T-shirt' });
    cart.addItem({ price: 20, type: 'Pants' });
    console.log(cart.getPrice()); //30
    

    One more example of the benefits of the JavaScript scope is the Module Pattern. In Module Pattern you can simulate privacy using the local functional scope of JavaScript. With this approach you can have both private properties and methods. Here is an example:

    var module = (function {
    
        var privateProperty = 42;
    
        function privateMethod() {
            console.log('I\'m private');
        }
        return {
    
           publicMethod: function () {
               console.log('I\'m public!');
               console.log('I\'ll call a private method!');
               privateMethod();
           },
    
           publicProperty: 1.68,
    
           getPrivateProperty: function () {
               return privateProperty;
           },
    
           usePublicProperty: function () {
               console.log('I\'ll get a public property...' + this.publicProperty);
           }
    
        }
    }());
    
    module.privateMethod(); //TypeError
    module.publicProperty(); //1.68
    module.usePublicProperty(); //I'll get a public property...1.68
    module.getPrivateProperty(); //42
    module.publicMethod(); 
    /*
     * I'm public!
     * I'll call a private method!
     * I'm private
     */
    

    There's a little strange syntax with the parentless wrapping the anonymous functions but forget it for the moment (it's just executing the function after it's being initialized). The functionality can be saw from the example of usage but the benefits are connected mainly of providing a simple public interface which does not engages you with all implementation details. For more detailed explanation of the pattern you can see the link I've put above.


    I hope that with this :-) information I helped you to understand few basic topics of JavaScript.

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  • 2020-11-21 05:57
    function Foo() {
      this.bar = 0;
      this.getBar = function () { return this.bar };
    }
    

    When you call the function above with the new keyword - like this...

    var foo = new Foo();
    

    ... - a few things happen:

    1) an object is created
    2) the function is executed with the this keyword referencing that object.
    3) that object is returned.

    foo, then, becomes this object:

    {
        bar: 0,
        getBar: function () { return this.bar; }
    };
    

    Why not, then, just do this:

    var foo = {
        bar: 0,
        getBar: function () { return this.bar; }
    };
    

    You would, if it's just that one simple object.

    But creating an object with a constructor (that's how it's called) gives us a big advantage in creating multiple of the "same" objects.

    See, in javascript, all functions are created with a prototype property [an object], and all objects created with that function (by calling it with the new keyword) are linked to that prototype object. This is why it's so cool - you can store all common methods (and properties, if you wanted to) in the prototype object, and save a lot of memory. This is how it works:

    function Foo( bar, bob ) {
       this.bar = bar;
       this.bob = bob;
    }
    
    Foo.prototype.calculate = function () {
      // 'this' points not to the 'prototype' object 
      // as you could've expect, but to the objects
      // created by calling Foo with the new keyword.
      // This is what makes it work.
      return this.bar - this.bob;  
    };
    
    var foo1 = new Foo(9, 5);
    var foo2 = new Foo(13, 3);
    var result1 = foo1.calculate();
    var result2 = foo2.calculate();
    
    console.log(result1); //logs 4
    console.log(result2); //logs 10
    

    That's it!

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  • 2020-11-21 05:59

    this is like a public access modifier of objects(variables or functions), while var is the private access modifier

    Example

    var x = {}; 
    x.hello = function(){
        var k = 'Hello World'; 
       this.m = 'Hello JavaScript'; 
    }
    
    var t = new x.hello(); 
    console.log(t.k); //undefined
    console.log(t.m); //Hello JavaScript
    
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