NOTE: Some code and conclusions expressed here are not idiomatic React. See the follow-up post for more details!

The game

The last few days I've been toying with React.js, Facebook's excellent view abstraction library. In order to grokk it I built a simple memory game, which we'll dissect in this post.

First off, here's the game running in a iframe (here's a link if you want it in a separate tab). The repo can be found here.

As you can see the game is rather simple, yet included enough state and compositions to force me to actually use React.

The code

This is the full contents of the repo:

The lib folder contains the only 3 dependencies:

react.js is the react librabry itself. We don't need the add-on version, just plain vanilla React.

is the react librabry itself. We don't need the add-on version, just plain vanilla React. JSXTransformer.js translates the JSX syntax. In production this should of course be part of the build process.

translates the JSX syntax. In production this should of course be part of the build process. lodash.js is used merely to make for some cleaner code in the game logic.

The src folder then contains files for all of our React components. The hierarchy looks like thus:

Finally index.html is a super simple bootstrap kicking it all off:



< html >

< head >

< script type = "text/javascript" src = "lib/lodash.js" > </ script >

< script type = "text/javascript" src = "lib/react.js" > </ script >

< script type = "text/javascript" src = "lib/JSXTransformer.js" > </ script >

< script type = "text/jsx" src = "src/status.jsx" > </ script >

< script type = "text/jsx" src = "src/board.jsx" > </ script >

< script type = "text/jsx" src = "src/game.jsx" > </ script >

< script type = "text/jsx" src = "src/wordform.jsx" > </ script >

< script type = "text/jsx" src = "src/tile.jsx" > </ script >

< link rel = "stylesheet" href = "styles.css" type = "text/css" > </ link >

</ head >

< body >

< script type = "text/jsx" >





React.renderComponent(

< Game /> ,

document .querySelector( "body" )

);

</ script >

</ body >

</ html >

We'll now walk through each of the five React components, and how they map to the fundamental React principle; initial data that won't change should be passed to a component as a property, while changing data should be handle in a component's state . If we need to communicate from a child to a parent, we do this by calling a callback that was passed to the child as a property.

The Game component

First off is the Game component. It is responsible for switching between the form and the board, and passing data from the form to the board.





var Game = React.createClass({

getInitialState : function ( ) {

return { playing : false , tiles : [] };

},

startGame : function ( words ) {

this .setState({

tiles : _.shuffle(words.concat(words)),

playing : true ,

seed : Math .random()

});

},

endGame : function ( ) {

this .setState({ playing : false });

},

render : function ( ) {

return (

< div >

< div className = {this.state.playing ? " hidden " : " showing "}>

< Wordform startGame = {this.startGame} />

</ div >

< div className = {this.state.playing ? " showing " : " hidden "}>

< Board

endGame = {this.endGame}

tiles = {this.state.tiles}

key = {this.state.seed}

/>

</ div >

</ div >

);

}

});

Props State Sub components Instance variables playing

tiles Wordform

Board

The Game component has two state variables:

playing which controls which sub component to show or hide.

which controls which sub component to show or hide. tiles which contain the words passed to startGame , which will be triggered inside Wordform .

Game has two sub components:

Wordform , which it passes the startGame method.

, which it passes the method. Board , which is passed the endGame method and the tiles .

Note that Game always renders both the Board and the Wordform . This has to do with React component lifecycles. I first tried to do this:

return (

<div>{ this .state.playing ? <Board endGame={ this .endGame} tiles={ this .state.tiles}/> : <Wordform startGame={ this .startGame} />}</div>

);

...which actually worked, but generated a React error message about an unmounted component. The official docs also state that instead of generating different components, we should generate them all and show/hide them as needed.

Also related to the life cycle of a component is the key property of the Board . Changing key ensures we have a new Board instance whenever we enter new words in the form, otherwise React will just repopulate the existing Board with new words. That means that previously flipped tiles will still be flipped, even though they now contain new words. Remove the key property and try it!

The Wordform component

This component displays a form for entering words to be used as tiles.





var Wordform = React.createClass({

getInitialState : function ( ) {

return { error : "" };

},

setError : function ( msg ) {

this .setState({ error : msg });

setTimeout (

function ( ) {

this .setState({ error : "" });

}.bind( this ),

2000

);

},

submitWords : function ( e ) {

var node = this .refs[ "wordfield" ].getDOMNode(),

words = (node.value || "" )

.trim()

.replace( /\W+/g , " " )

.split( " " );

if (words.length <= 2 ) {

this .setError( "Enter at least 3 words!" );

} else if (words.length !== _.unique(words).length) {

this .setError( "Words should be unique!" );

} else if (

_.filter(words, function ( w ) {

return w.length > 8 ;

}).length

) {

this .setError( "Words should not be longer than 8 characters!" );

} else {

this .props.startGame(words);

node.value = "" ;

}

return false ;

},

render : function ( ) {

return (

< form onSubmit = {this.submitWords} >

< p > Enter words separated by spaces! </ p >

< input type = "text" ref = "wordfield" />

< button type = "submit" > Start! </ button >

< p className = "error" ref = "errormsg" >

{this.state.error}

</ p >

</ form >

);

}

});

Props State Sub components Instance variables startGame() error

The Wordform component validates the input and passes it back up to Game by calling the startGame method which it received as a property.

In order to collect the contents of the input field we use the refs instance property, with the same key ( wordfield ) as given to the ref property of the corresponding node in the render output.

Note how showing and hiding error messages are done through changing the error state variable, which triggers the rerender. It feels almost like we have a two-way data binding!

The Board component

Here's the code for the Board component, which displays the game board:





var Board = React.createClass({

getInitialState : function ( ) {

return { found : 0 , message : "choosetile" };

},

clickedTile : function ( tile ) {

if (! this .wait) {



if (! this .flippedtile) {

this .flippedtile = tile;

tile.reveal();

this .setState({ message : "findmate" });



} else {

this .wait = true ;

if ( this .flippedtile.props.word === tile.props.word) {

this .setState({ found : this .state.found + 1 , message : "foundmate" });

tile.succeed();

this .flippedtile.succeed();

} else {

this .setState({ message : "wrong" });

tile.fail();

this .flippedtile.fail();

}

setTimeout (

function ( ) {

this .wait = false ;

this .setState({ message : "choosetile" });

delete this .flippedtile;

}.bind( this ),

2000

);

}

}

},

render : function ( ) {

var tiles = this .props.tiles.map( function ( b, n ) {

return < Tile word = {b} key = {n} clickedTile = {this.clickedTile} /> ;

}, this );

return (

< div >

< button onClick = {this.props.endGame} > End game </ button >

< Status

found = {this.state.found}

max = {this.props.tiles.length / 2 }

message = {this.state.message}

/>

{tiles}

</ div >

);

}

});

Props State Sub components Instance variables tiles

endGame() found

message Status

Tile wait

flippedtile

The Board component was passed a tiles array and an endGame callback from its parent.

It has two state variables:

found which counts how many pairs the player has found

which counts how many pairs the player has found message which contains the id of the message to display to the player

When rendered it contains two different sub components:

Status , which is passed found , max and message . This component deals with the instruction to the player above the tiles.

, which is passed , and . This component deals with the instruction to the player above the tiles. Tile , which represents an individual tile. Each tile is passed a word and the clickedTile callback.

The clickedTile callback will be called from the individual tiles, with the tile instance as parameter. As you can see, this method contains the full logic for the actual game.

Note how this method uses the instance variables this.wait and this.flippedtile . These do NOT need to be state variables, as they don't affect the rendering! Only state which might affect what the component looks like need to be stored using this.setState .

The Status component





This component renders the info row above the game board.



var Status = React.createClass({

render : function ( ) {

var found = this .props.found,

max = this .props.max,

texts = {

choosetile : "Choose a tile!" ,

findmate : "Now try to find the matching tile!" ,

wrong : "Sorry, those didn't match!" ,

foundmate : "Yey, they matched!" ,

foundall : "You've found all " +max+ " pairs! Well done!"

};

return < p > ({found}/{max}) {texts[this.props.message === "choosetile" && found === max ? "foundall" : this.props.message]} </ p > ;

}

});

Props State Sub components Instance variables found

max

message

The Status component was passed found , max and message from its parent. It then bakes this together into a UI info row.

Note how even though the status row is constantly changing while playing, this is a totally static component. It contains no state variables, and all updates are controlled in the parent!

The Tile component

This component represents an individual tile.





var Tile = React.createClass({

getInitialState : function ( ) {

return { flipped : false };

},

catchClick : function ( ) {

if (! this .state.flipped) {

this .props.clickedTile( this );

}

},

reveal : function ( ) {

this .setState({ flipped : true });

},

fail : function ( ) {

this .setState({ flipped : true , wrong : true });

setTimeout (

function ( ) {

this .setState({ flipped : false , wrong : false });

}.bind( this ),

2000

);

},

succeed : function ( ) {

this .setState({ flipped : true , correct : true });

},

render : function ( ) {

var classes = _.reduce(

[ "flipped" , "correct" , "wrong" ],

function ( m, c ) {

return m + ( this .state[c] ? c + " " : "" );

},

"" ,

this

);

return (

< div className = { " brick " + ( classes || "")} onClick = {this.catchClick} >

< div className = "front" > ? </ div >

< div className = "back" > {this.props.word} </ div >

</ div >

);

}

});

Props State Sub components Instance variables word

clickedTile() flipped

wrong

correct

It was passed two properties from the parent; a word variable and a clickedTile callback.

The component has three state variables:

flipped is a flag to show if the tile has been flipped up or not. While flipped it will not receive clicks.

is a flag to show if the tile has been flipped up or not. While flipped it will not receive clicks. wrong is true if the tile was part of a failed match attempt.

is true if the tile was part of a failed match attempt. correct is true if the tile has been matched to a partner.

When clicked the component will call the clickedTile callback passing itself as a parameter. All game logic is in Board , as we saw previously.

Wrapping up

I'm totally in love with React! It took a while to grasp the thinking, like for example the differentiation between state and props , and how state can belong in props when passed to a child. But when that mentality was in place, putting it all together was a breeze. I really appreciate not having to write any update or cleanup code (I'm looking at you, Backbone), delegating all that headache to React!

Passing callbacks to allow for upstream communication can feel a bit clunky, and I look forward to trying out the Flux approach instead. I also want to integrate a Router, and see how that plays along with it all.

NOTE: If you haven't already, check out the follow-up post for a detailed refactoring of the code to be more idiomatic to React!