React para principiantes: un manual de React.js para desarrolladores front-end

React es uno de los frameworks JavaScript más populares jamás creado, y creo que es una de las mejores herramientas que existen.

El objetivo de este manual es proporcionar una guía de inicio para aprender a React.

Al final del libro, tendrá un conocimiento básico de:

  • Qué es React y por qué es tan popular
  • Cómo instalar React
  • Reaccionar componentes
  • Reaccionar estado
  • Reaccionar apoyos
  • Manejo de eventos de usuario en React
  • Eventos del ciclo de vida en un componente de React

Estos temas serán la base sobre la que se basará en otros tutoriales de React más avanzados.

Este libro está especialmente escrito para programadores de JavaScript que son nuevos en React. Entonces empecemos.

¿Qué es React?

React es una biblioteca de JavaScript que tiene como objetivo simplificar el desarrollo de interfaces visuales.

Desarrollado en Facebook y lanzado al mundo en 2013, impulsa algunas de las aplicaciones más utilizadas, impulsando Facebook e Instagram entre muchas otras aplicaciones.

Su objetivo principal es facilitar el razonamiento sobre una interfaz y su estado en cualquier momento. Para ello, divide la interfaz de usuario en una colección de componentes.

Es posible que experimente algunas dificultades iniciales al aprender React. Pero una vez que haga clic, te garantizo que será una de las mejores experiencias que hayas tenido. React facilita muchas cosas y su ecosistema está lleno de excelentes bibliotecas y herramientas.

React en sí mismo tiene una API muy pequeña, y básicamente necesitas comprender 4 conceptos para comenzar:

  • Componentes
  • JSX
  • Estado
  • Accesorios

Exploraremos todos estos en este libro y dejaremos los conceptos más avanzados para otros tutoriales. Le daré algunos consejos en la última sección sobre cómo avanzar.

Y puede descargar este manual en formato PDF / ePub / Mobi de forma gratuita.

Resumen del manual

  • Cuánto JavaScript necesitas saber para usar React
  • ¿Por qué debería aprender React?
  • Cómo instalar React
  • Reaccionar componentes
  • Introducción a JSX
  • Usar JSX para componer una interfaz de usuario
  • La diferencia entre JSX y HTML
  • Incrustar JavaScript en JSX
  • Administrar el estado en React
  • Accesorios de componentes en React
  • Flujo de datos en una aplicación React
  • Manejo de eventos de usuario en React
  • Eventos del ciclo de vida en un componente de React
  • A dónde ir desde aquí

Cuánto JavaScript necesitas saber para usar React

Antes de saltar directamente a React, debe tener una buena comprensión de algunos conceptos básicos de JavaScript.

No es necesario que sea un experto en JavaScript, pero creo que necesita una buena descripción general de:

  • Variables
  • Funciones de flecha
  • Trabajar con objetos y matrices usando Rest y Spread
  • Desestructuración de objetos y matrices
  • Literales de plantilla
  • Devoluciones de llamada
  • Módulos ES

Si esos conceptos no le resultan familiares, le proporcioné algunos enlaces para obtener más información sobre esos temas.

¿Por qué debería aprender React?

Recomiendo encarecidamente que cualquier desarrollador web tenga al menos un conocimiento básico de React.

Eso se debe a algunas razones.

  1. React es muy popular. Como desarrollador, es muy probable que trabajes en un proyecto de React en el futuro. Quizás un proyecto existente, o quizás tu equipo quiera que trabajes en una nueva aplicación basada en React.
  2. Hoy en día, muchas herramientas se crean utilizando React en el núcleo. Los marcos y herramientas populares como Next.js, Gatsby y muchos otros usan React bajo el capó.
  3. Como ingeniero de interfaz, React probablemente aparecerá en una entrevista de trabajo.

Todas esas son buenas razones, pero una de las principales razones por las que quiero que aprendas React es que es genial.

Promueve varias buenas prácticas de desarrollo, incluida la reutilización de código y el desarrollo impulsado por componentes. Es rápido, liviano y la forma en que lo hace pensar en el flujo de datos en su aplicación se adapta perfectamente a muchos escenarios comunes.

Cómo instalar React

Hay algunas formas diferentes de instalar React.

Para empezar, recomiendo encarecidamente un enfoque, y es usar la herramienta oficialmente recomendada llamada create-react-app.

create-react-app es una aplicación de línea de comandos, cuyo objetivo es ponerte al día con React en poco tiempo.

Empiece por usar npx, que es una forma fácil de descargar y ejecutar comandos de Node.js sin instalarlos.

Vea mi guía npx aquí: //flaviocopes.com/npx/

npx comes with npm (since version 5.2). If you don't have npm installed already, do it now from //nodejs.org (npm is installed with Node).

If you are unsure which version of npm you have, run npm -v to check if you need to update.

Tip: check out my OSX terminal tutorial at //flaviocopes.com/macos-terminal/ if you're unfamiliar with using the terminal. It applies to Mac and Linux.

When you run npx create-react-app , npx is going to download the most recent create-react-app release, run it, and then remove it from your system.

This is great because you will never have an outdated version on your system, and every time you run it, you're getting the latest and greatest code available.

Let's start then:

npx create-react-app todolist 

cra-start

This is when it finished running:

create-react-app-finished

create-react-app created a file structure in the folder you told it to (todolist in this case), and initialized a Git repository.

It also added a few commands in the package.json file:

cra-packagejson

So you can immediately start the app by going into the newly created application folder and running npm start.

cra-running

By default this command launches the app on your local port 3000, and it opens your browser showing you the welcome screen:

cra-browser

Now you're ready to work on this application!

React Components

In the last section you saw how to create your first React application.

This application comes with a series of files that do various things, mostly related to configuration, but there's one file that stands out: App.js.

App.js is the first React Component you meet.

Its code is this:

import React from 'react' import logo from './logo.svg' import './App.css' function App() { return ( 

Edit src/App.js and save to reload.

Learn React ) } export default App

An application built using React, or one of the other popular frontend frameworks like Vue and Svelte for example, is built using dozens of components.

But let's start by analyzing this first component. I'm going to simplify this component code like this:

import React from 'react' import logo from './logo.svg' import './App.css' function App() { return /* something */ } export default App 

You can see a few things here. We import some things, and we export a function called App.

The things we import in this case are a JavaScript library (the react npm package), an SVG image, and a CSS file.

create-react-app is set up in a way that allows us to import images and CSS to use in our JavaScript, but this is not something you need to care about now. What you need to care about is the concept of a component

App is a function that, in the original example, returns something that at first sight looks quite strange.

It looks like HTML but it has some JavaScript embedded into it.

That is JSX, a special language we use to build a component's output. We'll talk more about JSX in the next section.

In addition to defining some JSX to return, a component has several other characteristics.

A component can have its own state, which means it encapsulates some variables that other components can't access unless this component exposes this state to the rest of the application.

A component can also receive data from other components. In this case we're talking about props.

Don't worry, we're going to look in detail at all those terms (JSX, State and Props) soon.

Introduction to JSX

We can't talk about React without first explaining JSX.

In the last section you met your first React component, the App component defined in the default application built by create-react-app.

Its code was this:

import React from 'react' import logo from './logo.svg' import './App.css' function App() { return ( 

Edit src/App.js and save to reload.

Learn React ) } export default App

We previously ignored everything that was inside the return statement, but in this section we're going to talk about it.

We call JSX everything wrapped inside the parentheses returned by the component:

Edit src/App.js and save to reload.

Learn React

This looks like HTML, but it's not really HTML. It's a little different.

And it's a bit strange to have this code inside a JavaScript file. This does not look like JavaScript at all!

Under the hood, React will process the JSX and it will transform it into JavaScript that the browser will be able to interpret.

So we're writing JSX, but in the end there's a translation step that makes it digestible to a JavaScript interpreter.

React gives us this interface for one reason: it's easier to build UI interfaces using JSX.

Once you get more familiar with it, of course.

In the next section we'll talk about how JSX lets you easily compose a UI, then we'll look at the differences with "normal HTML" that you need to know.

Using JSX to compose a UI

As introduced in the last section, one of the main benefits of JSX is that it makes it very easy to build a UI.

In particular, in a React component you can import other React components, and you can embed them and display them.

A React component is usually created in its own file, because that's how we can easily reuse it (by importing it) in other components.

But a React component can also be created in the same file of another component, if you plan to only use it in that component. There's no "rule" here, you can do what feels best to you.

I generally use separate files when the number of lines in a file grows too much.

To keep things simple let's create a component in the same App.js file.

We're going to create a WelcomeMessage component:

function WelcomeMessage() { return 

Welcome!

}

See? It's a simple function that returns a line of JSX that represents a p HTML element.

We're going to add it to the App.js file.

Now inside the App component JSX we can add to show this component in the user interface:

import React from 'react' import logo from './logo.svg' import './App.css' function WelcomeMessage() { return 

Welcome!

} function App() { return (

Edit src/App.js and save to reload.

Learn React ) } export default App

And here's the result. Can you see the "Welcome!" message in the screen?

new-component

We say that WelcomeMessage is a child component of App, and App is its parent componnet.

We're adding the component as if it was part of the HTML language.

That's the beauty of React components and JSX: we can compose an application interface and use it like we're writing HTML.

With some differences, as we'll see in the next section.

The difference between JSX and HTML

JSX kind of looks like HTML, but it's not.

In this section I want to introduce you to some of the most important things you need to keep in mind when using JSX.

One of the differences might be quite obvious if you looked at the App component JSX: there's a strange attribute called className.

In HTML we use the class attribute. It's probably the most widely used attribute, for various reasons. One of those reasons is CSS. The class attribute allows us to style HTML elements easily, and CSS frameworks like Tailwind put this attribute to the center of the CSS user interface design process.

But there's a problem. We are writing this UI code in a JavaScript file, and class in the JavaScript programming language is a reserved word. This means we can't use this reserved word as we want. It serves a specific purpose (defining JavaScript classes) and the React creators had to choose a different name for it.

That's how we ended up with className instead of class.

You need to remember this especially when you're copy/pasting some existing HTML.

React will try its best to make sure things don't break, but it will raise a lot of warnings in the Developer Tools:

className

This is not the only HTML feature that suffers from this problem, but it's the most common one.

Another big difference between JSX and HTML is that HTML is very relaxed, we can say. Even if you have an error in the syntax, or you close the wrong tag, or you have a mismatch, the browser will try its best to interpret the HTML without breaking.

It's one of the core features of the Web. It is very forgiving.

JSX is not forgiving. If you forget to close a tag, you will have a clear error message:

jsx-error

React usually gives very good and informative error messages that point you in the right direction to fix the problem.

Another big difference between JSX and HTML is that in JSX we can embed JavaScript.

Let's talk about this in the next section.

Embedding JavaScript in JSX

One of the best features of React is that we can easily embed JavaScript into JSX.

Other frontend frameworks, for example Angular and Vue, have their own specific ways to print JavaScript values in the template, or perform things like loops.

React doesn't add new things. Instead, it lets us use JavaScript in the JSX, by using curly brackets.

The first example of this that I will show you comes directly from the App component we've studied so far.

We import the logo SVG file using

import logo from './logo.svg' 

and then in the JSX we assign this SVG file to the src attribute of an img tag:

Let's do another example. Suppose the App component has a variable called message:

function App() { const message = 'Hello!' //... } 

We can print this value in the JSX by adding {message} anywhere in the JSX.

Inside the curly brackets { } we can add any JavaScript statement, but just one statement for every curly bracket block.

And the statement must return something.

For example this is a common statement you will find in JSX. We have a ternary operator where we define a condition (message === 'Hello!'), and we print one value if the condition is true, or another value (the content of message in this case) if the condition is false:

{ message === 'Hello!' ? 'The message was "Hello!"' : message } 

Managing state in React

Every React component can have its own state.

What do we mean by state? The state is the set of data that is managed by the component.

Think about a form, for example. Each individual input element of the form is responsible for managing its state: what is written inside it.

A button is responsible for knowing if it's being clicked, or not. If it's on focus.

A link is responsible for knowing if the mouse is hovering over it.

In React, or in any other components-based framework/library, all our applications are based on and make heavy use of components' state.

We manage state using the useState utility provided by React. It's technically a hook (you don't need to know the details of hooks right now, but that's what it is).

You import useState from React in this way:

import React, { useState } from 'react' 

Calling useState(), you will get back a new state variable, and a function that we can call to alter its value.

useState() accepts the initial value of the state item and returns an array containing the state variable, and the function you call to alter the state.

Example:

const [count, setCount] = useState(0) 

This is important. We can't just alter the value of a state variable directly. We must call its modifier function. Otherwise the React component will not update its UI to reflect the changes of the data.

Calling the modifier is the way we can tell React that the component state has changed.

The syntax is a bit weird, right? Since useState() returns an array we use array destructuring to access each individual item, like this: const [count, setCount] = useState(0)

Here's a practical example:

import { useState } from 'react' const Counter = () => { const [count, setCount] = useState(0) return ( 

You clicked {count} times

setCount(count + 1)}>Click me ) } ReactDOM.render(, document.getElementById('app'))

You can add as many useState() calls as you want, to create as many state variables as you want:

const [count, setCount] = useState(0) const [anotherCounter, setAnotherCounter] = useState(0) 

Component Props in React

We call props the initial values passed to a component.

We previously created a WelcomeMessage component

function WelcomeMessage() { return 

Welcome!

}

and we used it like this:

This component does not have any initial value. It does not have props.

Props can be passed as attributes to the component in the JSX:

and inside the component we receive the props as arguments:

function WelcomeMessage(props) { return 

Welcome!

}

It's common to use object destructuring to get the props by name:

function WelcomeMessage({ myprop }) { return 

Welcome!

}

Now that we have the prop, we can use it inside the component. For example we can print its value in the JSX:

function WelcomeMessage({ myprop }) { return 

{myprop}

}

Curly brackets here have various meanings. In the case of the function argument, curly brackets are used as part of the object destructuring syntax.

Then we use them to define the function code block, and finally in the JSX to print the JavaScript value.

Passing props to components is a great way to pass values around in your application.

A component either holds data (has state) or receives data through its props.

We can also send functions as props, so a child component can call a function in the parent component.

A special prop is called children. That contains the value of anything that is passed between the opening and closing tags of the component, for example:

 Here is some message  

In this case, inside WelcomeMessage we could access the value Here is some message by using the children prop:

function WelcomeMessage({ children }) { return 

{children}

}

Data flow in a React application

In a React application, data typically flows from a parent component to a child component, using props as we saw in the previous section:

If you pass a function to the child component, you can however change the state of the parent component from a child component:

const [count, setCount] = useState(0)  

Inside the Counter component we can now grab the setCount prop and call it to update the count state in the parent component, when something happens:

function Counter({ setCount }) { //... setCount(1) //... } 

You need to know that there are more advanced ways to manage data, which include the Context API and libraries like Redux. But those introduce more complexity, and 90% of the times using those 2 ways I just explained are the perfect solution.

Handling user events in React

React provides an easy way to manage events fired from DOM events like clicks, form events, and more.

Let's talk about click events, which are pretty simple to digest.

You can use the onClick attribute on any JSX element:

 { /* handle the event */ }} > Click here  

When the element is clicked, the function passed to the onClick attribute is fired.

You can define this function outside of the JSX:

const handleClickEvent = (event) => { /* handle the event */ } function App() { return Click here } 

When the click event is fired on the button, React calls the event handler function.

React supports a vast amount of types of events, like onKeyUp, onFocus,onChange, onMouseDown, onSubmit and many more.

Lifecycle events in a React component

So far we've seen how to manage state with the useState hook.

There's another hook I want to introduce in this book: useEffect.

The useEffect hook allows components to have access to the lifecycle events of a component.

When you call the hook, you pass it a function. The function will be run by React when the component is first rendered, and on every subsequent re-render/update.

React first updates the DOM, then calls any function passed to useEffect().

All without blocking the UI rendering, even on blocking code.

Here is an example:

const { useEffect, useState } = React const CounterWithNameAndSideEffect = () => { const [count, setCount] = useState(0) useEffect(() => { console.log(`You clicked ${count} times`) }) return ( 

You clicked {count} times

setCount(count + 1)}>Click me ) }

Since the useEffect() function is run on every subsequent re-render/update of the component, we can tell React to skip it, for performance purposes. We do this by adding a second parameter which is an array that contains a list of state variables to watch for.

React will only re-run the side effect if one of the items in this array changes.

useEffect(() => { console.log(`Hi ${name} you clicked ${count} times`) }, [name, count]) 

Similarly, you can tell React to only execute the side effect once (at mount time), by passing an empty array:

useEffect(() => { console.log(`Component mounted`) }, []) 

You migth find yourself using this option a lot.

useEffect() is great for adding logs, accessing 3rd party APIs, and much more.

Where to go from here

Mastering the topics explained in this article is a great step towards your goal of learning React.

I want to give you some pointers now, because it's easy to get lost in the sea of tutorials and courses about React.

What should you learn next?

Learn more theory about the Virtual DOM, writing declarative code, unidirectional data flow, immutability, composition.

Start building some simple React applications. For example build a simple counter or a interact with a public API.

Learn how to perform conditional rendering, how to perform loops in JSX, how to use the React Developer Tools.

Learn how to apply CSS in a React application, with plain CSS or Styled Components.

Learn how to manage state using the Context API, useContext and Redux.

Learn how to interact with forms.

Learn how to use React Router.

Learn how to test React applications.

Learn an application framework built on top of React, like Gatsby or Next.js.

Most of all, make sure you practice by building sample applications to apply everything you've learned.

Conclusion

Thanks a lot for reading this handbook.

I hope it will inspire you to learn more about React and everything you can do with it!

Remember that you can download this handbook in PDF / ePub / Mobi format for free if you want.

I publish programming tutorials every day on my website flaviocopes.com if you want to check out more great content like this.

You can reach me on Twitter @flaviocopes.