Recently, I looked at Facebook's React framework. It uses a concept called "the Virtual DOM," which I didn't really understand.
What is the Virtual DOM? What are the advantages?
React creates a tree of custom objects representing a part of the DOM. For example, instead of creating an actual DIV element containing a UL element, it creates a React.div object that contains a React.ul object. It can manipulate these objects very quickly without actually touching the real DOM or going through the DOM API. Then, when it renders a component, it uses this virtual DOM to figure out what it needs to do with the real DOM to get the two trees to match.
You can think of the virtual DOM like a blueprint. It contains all the details needed to construct the DOM, but because it doesn't require all the heavyweight parts that go into a real DOM, it can be created and changed much more easily.
Let's take an example — though a very naive one: If you have something messed up in a room in your home and you need to clean it, what will be your first step? Will you be cleaning your room which is messed up or the whole house? The answer is definitely that you will be cleaning only the room which requires the cleaning. That's what the virtual DOM does.
Ordinary JS traverses or renders the whole DOM instead of rendering only the part which requires changes.
So whenever you have any changes, as in you want to add another
<div> to your DOM then the virtual DOM will be created which actually does not do any changes in the actual DOM. Now with this virtual DOM, you will be checking the difference between this and your current DOM. And only the part which is different (in this case the new
<div>) will be added instead of re-rendering the whole DOM.
What is the virtual DOM?
The virtual DOM is an in-memory representation of the real DOM elements generated by React components before any changes are made to the page.
It’s a step that happens between the render function being called and the displaying of elements on the screen.
A component’s render method returns some markup, but it’s not the final HTML yet. It’s the in-memory representation of what will become real elements (this is step 1). Then that output will be transformed into real HTML, which is what gets displayed in the browser (This is step 2).
So why go through all this to generate a virtual DOM? Simple answer — This is what allows react to be fast. It does this by means of virtual DOM diffing. Comparing two virtual trees — old and new — and make only the necessary changes into the real DOM.
virtual DOM(VDOM) is not a new concept: https://github.com/Matt-Esch/virtual-dom.
VDOM is a strategically to update DOM without redrawing all the nodes in a single page application. Finding a node in tress structure is easy but DOM tree for an SPA app can be drastically huge. Finding and updating a node/nodes in case of an event is not time efficient.
VDOM solve this problem by creating a high label abstraction of actual dom. The VDOM is a high level lightweight in-memory tree representation of actual DOM.
For example, consider adding a node in DOM; react keep a copy of VDOM in memory
How does the Virtual DOM work?
Imagine you had an object that you modeled around a person. It had every relevant property a person could possibly have, and mirrored the persons current state. This is basically what React does with the DOM.
Now think about if you took that object and made some changes. Added a mustache, some sweet biceps and Steve Buscemi eyes. In React-land, when we apply these changes, two things take place. First, React runs a "diffing" algorithm, which identifies what has changed. The second step is reconciliation, where it updates the DOM with the results of diff.
The way React works, rather than taking the real person and rebuilding them from the ground up, it would only change the face and the arms. This means that if you had text in an input and a render took place, as long as the input's parent node wasn't scheduled for reconciliation, the text would stay undisturbed.
Because React is using a fake DOM and not a real one, it also opens up a fun new possibility. We can render that fake DOM on the server, and boom, server side React views.
This is a brief description and reiteration of the Virtual DOM often mentioned alongside ReactJS.
The DOM (Document Object Model) is an abstraction of structured text, which means it is made of HTML code and css. These HTML elements become nodes in the DOM. There are limitations to the previous methods of manipulating the DOM. Virtual DOM is an abstraction of the literal HTML DOM created well before React was created or used, but for our purposes we will use it in concert with ReactJS. The Virtual DOM is lightweight and detached from the DOM implementation in the browser. The Virtual DOM is essentially a screenshot (or copy) of the DOM at a given time. A way to look at it from a developers perspective is the DOM is the production environment and the Virtual DOM is the local (dev) environment. Each time the data changes in a React app a new Virtual DOM representation of the user interface is created.
The most basic method needed in order to create a static component in ReactJS are:
An important thing to understand when working with the Virtual DOM is the difference between ReactElement and ReactComponent.
ReactElements can be rendered into HTML DOM
var root = React.createElement('div');
JSX compiles HTML tags into ReactElements
var root = <div/>;
Whenever a ReactComponent has a state change, we want as little change to the HTML DOM as possible so ReactComponent is converted to the ReactElement which can then be inserted to the Virtual DOM, compared and updated fast and easily.
When React knows the diff - it's converted to the low-level (HTML DOM) code, which is executed in the DOM.