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One of the secrets to being a super effective JavaScript developer is to truly understand the semantics of the language. This article will explain the basic elemental parts of JavaScript using easy to follow diagrams.
Notice that the two boolean variables point to the same value in memory. This is because primitives are immutable and so the VM can optimize and share a single instance for all references to that particular value.
In the code snippet we checked to see if the two references pointed to the same value using
The outer box represents the outermost closure scope. These variables are top-level local variables, not to be confused with properties of the global/window object.
Here we have one object with four properties referenced by the
Now when looking up
Notice that
Always remember to put those
If you must put something on the global object, do it explicitly with
In this example we will create a simple factory method that generates a closure and returns a function.
When we call
See the article why use closure for more in-depth reading on this topic and it's many uses.
Shared Functions and
Sometimes for performance reasons, or because you just plain prefer the style, JavaScript provides a
Here we'll create a few objects that all share a common function. This function will reference
(Note I drew the objects and literals inside the closure to make the diagram clearer. There is no special meaning to this. Only free variables and function bodies are affected by closure nesting)
In the diagram, we see that even though
One of the secrets to being a super effective JavaScript developer is to truly understand the semantics of the language. This article will explain the basic elemental parts of JavaScript using easy to follow diagrams.
References Everywhere
A variable in JavaScript is simply a label that references a value in memory somewhere. These values can be primitives like strings, numbers, and booleans. They can also be objects or functions.Local Variables
In the following example, we will create four local variables in the top-level scope and point them to some primitive values:variables.js
// Let's create some local variables in the top scope
var name = "Tim Caswell";
var age = 28;
var isProgrammer = true;
var likesJavaScript = true;
// Test to see if the two variables reference the same value
isProgrammer === likesJavaScript;- Output
- => true
Notice that the two boolean variables point to the same value in memory. This is because primitives are immutable and so the VM can optimize and share a single instance for all references to that particular value.
In the code snippet we checked to see if the two references pointed to the same value using
=== and the result was true.The outer box represents the outermost closure scope. These variables are top-level local variables, not to be confused with properties of the global/window object.
Objects and Prototype Chains
Objects are just collections of more references to new objects and prototypes. The only special thing they add is the prototype chain for when you try to access a property that's not in the local object, but is in a parent object.objects.js
// Create a parent object
var tim = {
name: "Tim Caswell",
age: 28,
isProgrammer: true,
likesJavaScript: true
}
// Create a child object
var jack = Object.create(tim);
// Override some properties locally
jack.name = "Jack Caswell";
jack.age = 4;
// Look up stuff through the prototype chain
jack.likesJavaScript;- Output
- => true
Here we have one object with four properties referenced by the
tim variable. Also we created a new object that inherits from the first object and referenced it from jack. Then we overrode two properties in the local object.Now when looking up
jack.likesJavaScript, we first find the object that jack references. Then we look for the likesJavaScript property. Since it's not there, we look at the parent object and find it there. Then we find the true value it references.The Global Object
Ever wondered why tools like jslint always tell you to not forget to putvar statements before your variables. Well, here is what happens if you forget.globals.js
var name = "Tim Caswell";
var age = 28;
var isProgrammer = true;
// Oops we forgot a var
likesJavaScript = true;Notice that
likesJavaScript is now a property of the global object instead of a free variable in the outer closure. This only really matters if you're going to be mixing several scripts. But in any real program that's exactly what you're going to be doing.Always remember to put those
var statements in there to keep your variable's scope to the current closure and it's children. You'll be much happier by following this simple rule.If you must put something on the global object, do it explicitly with
window.woo in the browser or global.goo in node.js.Functions and Closures
JavaScript isn't just a series of chained data structures. It contains executable, callable code known as functions. These functions create nested scopes and closures.Visualizing Closures
Functions can de drawn as nested scopes and as special objects that contain executable code as well as properties.In this example we will create a simple factory method that generates a closure and returns a function.
closure.js
function makeClosure(name) {
return function () {
return name;
};
}
var description1 = makeClosure("Cloe the Closure");
var description2 = makeClosure("Albert the Awesome");
console.log(description1());
console.log(description2());- Output
- Cloe the Closure Albert the Awesome
When we call
description1(), the VM looks up the function that it references and executes it. Since that function looks for a local variable named name, it finds it in the parent closure scope. This factory method is nice since each generated function has it's own space for local variables.See the article why use closure for more in-depth reading on this topic and it's many uses.
Shared Functions and this
Sometimes for performance reasons, or because you just plain prefer the style, JavaScript provides a this keyword that allows you to reuse a function object in different scopes depending on how it was called.Here we'll create a few objects that all share a common function. This function will reference
this internally to show how it changes from call to call.functions.js
var Lane = {
name: "Lane the Lambda",
description: function () {
return this.name;
}
};
var description = Lane.description;
var Fred = {
description: Lane.description,
name: "Fred the Functor"
};
// Call the function from four different scopes
console.log(Lane.description());
console.log(Fred.description());
console.log(description());
console.log(description.call({
name: "Zed the Zetabyte"
}));- Output
- Lane the Lambda Fred the Functor undefined Zed the Zetabyte
(Note I drew the objects and literals inside the closure to make the diagram clearer. There is no special meaning to this. Only free variables and function bodies are affected by closure nesting)
In the diagram, we see that even though
Fred.description was set to Lane.description, it's really only referencing the function. Thus all three references have equal ownership of the anonymous function. This is why I try to not call functions on constructor prototypes "methods", because that implies some sort of binding of the function to the constructor and it's "class". (see what is this for more details on the dynamic nature of this)
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