TutorialHow To Design A Mobile Game With HTML5

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Care to make a cross-platform mobile game with HTML5? No need to dabble in Java or Objective-C? Bypass the app stores? Sounds like an instant win!

A handful of game developers are pushing the envelope of mobile HTML5 games at the moment. Check out the likes of Nutmeg1 and Lunch Bug2 for some shining examples. The great thing about these titles is that they work equally well on both mobile and desktop using the same code. Could HTML5 finally fulfill the holy grail of “write once, run anywhere”?

Getting Started

Before you start sketching the next Temple Run or Angry Birds, you should be aware of a few things that could dampen your excitement:

  • Performance
    Mobile browsers are not traditionally known for their blazing JavaScript engines. With iOS 6 and Chrome beta for Android, though, things are improving fast.
  • Resolution
    A veritable cornucopia of Android devices sport a wide range of resolutions. Not to mention the increased resolution and pixel density of the iPhone 4 and iPad 3.
  • Audio
    Hope you enjoy the sound of silence. Audio support in mobile browsers is poor, to say the least. Lag is a major problem, as is the fact that most devices offer only a single channel. iOS won’t even load a sound until the user initiates the action. My advice is to hold tight and wait for browser vendors to sort this out.

Now, as a Web developer you’re used to dealing with the quirks of certain browsers and degrading gracefully and dealing with fragmented platforms. So, a few technical challenges won’t put you off, right? What’s more, all of these performance and audio problems are temporary. The mobile browser landscape is changing so quickly that these concerns will soon be a distant memory.

In this tutorial, we’ll make a relatively simple game that takes you through the basics and steers you away from pitfalls. The result will look like this:

Screenshot of finished demo3

It’s a fairly simple game, in which the user bursts floating bubbles before they reach the top of the screen. Imaginatively, I’ve titled our little endeavour Pop.

We’ll develop this in a number of distinct stages:

  1. Cater to the multitude of viewports and optimize for mobile;
  2. Look briefly at using the canvas API to draw to the screen;
  3. Capture touch events;
  4. Make a basic game loop;
  5. Introduce sprites, or game “entities”;
  6. Add collision detection and some simple maths to spice things up;
  7. Add a bit of polish and some basic particle effects.

1. Setting The Stage

Enough of the background story. Fire up your favorite text editor, pour a strong brew of coffee, and let’s get our hands dirty.

As mentioned, there is a plethora of resolution sizes and pixel densities across devices. This means we’ll have to scale our canvas to fit the viewport. This could come at the price of a loss in quality, but one clever trick is to make the canvas small and then scale up, which provides a performance boost.

Let’s kick off with a basic HTML shim:

<!DOCTYPE HTML>
<html lang="en">
<head>
<meta charset="UTF-8">

<meta name="viewport" content="width=device-width, 
    user-scalable=no, initial-scale=1, maximum-scale=1, user-scalable=0" />
<meta name="apple-mobile-web-app-capable" content="yes" />
<meta name="apple-mobile-web-app-status-bar-style" content="black-translucent" />

<style type="text/css">
body { margin: 0; padding: 0; background: #000;}
canvas { display: block; margin: 0 auto; background: #fff; }
</style>

</head>

<body>

<canvas> </canvas>
<script>
// all the code goes here
</script>

</body>
</html>

The meta viewport tag tells mobile browsers to disable user scaling and to render at full size rather than shrink the page down. The subsequent apple- prefixed meta tags allow the game to be bookmarked. On the iPhone, bookmarked apps do not display the toolbar at the bottom of the page, thus freeing up valuable real estate.

Take a look at the following:

// namespace our game
var POP = {

    // set up some initial values
    WIDTH: 320, 
    HEIGHT:  480, 
    // we'll set the rest of these
    // in the init function
    RATIO:  null,
    currentWidth:  null,
    currentHeight:  null,
    canvas: null,
    ctx:  null,

    init: function() {

        // the proportion of width to height
        POP.RATIO = POP.WIDTH / POP.HEIGHT;
        // these will change when the screen is resized
        POP.currentWidth = POP.WIDTH;
        POP.currentHeight = POP.HEIGHT;
        // this is our canvas element
        POP.canvas = document.getElementsByTagName('canvas')[0];
        // setting this is important
        // otherwise the browser will
        // default to 320 x 200
        POP.canvas.width = POP.WIDTH;
        POP.canvas.height = POP.HEIGHT;
        // the canvas context enables us to 
        // interact with the canvas api
        POP.ctx = POP.canvas.getContext('2d');

        // we're ready to resize
        POP.resize();

    },

    resize: function() {

        POP.currentHeight = window.innerHeight;
        // resize the width in proportion
        // to the new height
        POP.currentWidth = POP.currentHeight * POP.RATIO;

        // this will create some extra space on the
        // page, allowing us to scroll past
        // the address bar, thus hiding it.
        if (POP.android || POP.ios) {
            document.body.style.height = (window.innerHeight + 50) + 'px';
        }

        // set the new canvas style width and height
        // note: our canvas is still 320 x 480, but
        // we're essentially scaling it with CSS
        POP.canvas.style.width = POP.currentWidth + 'px';
        POP.canvas.style.height = POP.currentHeight + 'px';

        // we use a timeout here because some mobile
        // browsers don't fire if there is not
        // a short delay
        window.setTimeout(function() {
                window.scrollTo(0,1);
        }, 1);
    }

};

window.addEventListener('load', POP.init, false);
window.addEventListener('resize', POP.resize, false);

First, we create the POP namespace for our game. Being good developers, we don’t want to pollute the global namespace. In keeping good practice, we will declare all variables at the start of the program. Most of them are obvious: canvas refers to the canvas element in the HTML, and ctx enables us to access it via the JavaScript canvas API.

In POP.init, we grab a reference to our canvas element, get its context and adjust the canvas element’s dimensions to 480 × 320. The resize function, which is fired on resize and load events, adjusts the canvas’ style attribute for width and height accordingly while maintaining the ratio. Effectively, the canvas is still the same dimensions but has been scaled up using CSS. Try resizing your browser and you’ll see the canvas scale to fit.

If you tried that on your phone, you’ll notice that the address bar is still visible. Ugh! We can fix this by adding a few extra pixels to the document and then scrolling down to hide the address bar, like so:

// we need to sniff out Android and iOS
// so that we can hide the address bar in
// our resize function
POP.ua = navigator.userAgent.toLowerCase();
POP.android = POP.ua.indexOf('android') > -1 ? true : false;
POP.ios = ( POP.ua.indexOf('iphone') > -1 || POP.ua.indexOf('ipad') > -1  ) ? 
    true : false;

The code above sniffs out the user agent, flagging for Android and iOS if present. Add it at the end of POP.init, before the call to POP.resize().

Then, in the resize function, if android or ios is true, we add another 50 pixels to the document’s height — i.e. enough extra space to be able to scroll down past the address bar.

// this will create some extra space on the
// page, enabling us to scroll past
// the address bar, thus hiding it.
if (POP.android || POP.ios) {
    document.body.style.height = (window.innerHeight + 50) + 'px';
}

Notice that we do this only for Android and iOS devices; otherwise, nasty scroll bars will appear. Also, we need to delay the firing of scrollTo to make sure it doesn’t get ignored on mobile Safari.

2. A Blank Canvas

Now that we’ve scaled our canvas snuggly to the viewport, let’s add the ability to draw some shapes.

Note: In this tutorial, we’re going to stick with basic geometric shapes. iOS 5 and Chrome beta for Android can handle a lot of image sprites at a high frame rate. Try that on Android 3.2 or lower and the frame rate will drop exponentially. Luckily, there is not much overhead when drawing circles, so we can have a lot of bubbles in our game without hampering performance on older devices.

Below, we’ve added a basic Draw object that allows us to clear the screen, draw a rectangle and circle, and add some text. Nothing mind-blowing yet. Mozilla Developers Network has excellent resources as always, replete with examples for drawing to the canvas6.

// abstracts various canvas operations into
// standalone functions
POP.Draw = {

    clear: function() {
        POP.ctx.clearRect(0, 0, POP.WIDTH, POP.HEIGHT);
    },

    rect: function(x, y, w, h, col) {
        POP.ctx.fillStyle = col;
        POP.ctx.fillRect(x, y, w, h);
    },

    circle: function(x, y, r, col) {
        POP.ctx.fillStyle = col;
        POP.ctx.beginPath();
        POP.ctx.arc(x + 5, y + 5, r, 0,  Math.PI * 2, true);
        POP.ctx.closePath();
        POP.ctx.fill();
    },

    text: function(string, x, y, size, col) {
        POP.ctx.font = 'bold '+size+'px Monospace';
        POP.ctx.fillStyle = col;
        POP.ctx.fillText(string, x, y);
    }

};

Our Draw object has methods for clearing the screen and drawing rectangles, circles and text. The benefit of abstracting these operations is that we don’t have to remember the exact canvas API calls, and we can now draw a circle with one line of code, rather than five.

Let’s put it to the test:

// include this at the end of POP.init function
POP.Draw.clear();
POP.Draw.rect(120,120,150,150, 'green');
POP.Draw.circle(100, 100, 50, 'rgba(255,0,0,0.5)');
POP.Draw.text('Hello World', 100, 100, 10, '#000');

Include the code above at the end of the POP.init function, and you should see a couple of shapes drawn to the canvas.

3. The Magic Touch

Just as we have the click event, mobile browsers provide methods for catching touch events.

The interesting parts of the code below are the touchstart, touchmove and touchend events. With the standard click event, we can get the coordinates from e.pageX and e.pageY. Touch events are slightly different. They contain a touches array, each element of which contains touch coordinates and other data. We only want the first touch, and we access it like so: e.touches[0].

Note: Android provides JavaScript access to multi-touch actions only since version 4.

We also call e.preventDefault(); when each event is fired to disable scrolling, zooming and any other action that would interrupt the flow of the game.

Add the following code to the POP.init function.

// listen for clicks
window.addEventListener('click', function(e) {
    e.preventDefault();
    POP.Input.set(e);
}, false);

// listen for touches
window.addEventListener('touchstart', function(e) {
    e.preventDefault();
    // the event object has an array
    // named touches; we just want
    // the first touch
    POP.Input.set(e.touches[0]);
}, false);
window.addEventListener('touchmove', function(e) {
    // we're not interested in this,
    // but prevent default behaviour
    // so the screen doesn't scroll
    // or zoom
    e.preventDefault();
}, false);
window.addEventListener('touchend', function(e) {
    // as above
    e.preventDefault();
}, false);

You probably noticed that the code above passes the event data to an Input object, which we’ve yet to define. Let’s do that now:

// + add this at the bottom of your code,
// before the window.addEventListeners
POP.Input = {

    x: 0,
    y: 0,
    tapped :false,

    set: function(data) {
        this.x = data.pageX;
        this.y = data.pageY;
        this.tapped = true; 

        POP.Draw.circle(this.x, this.y, 10, 'red');
    }

};

Now, try it out. Hmm, the circles are not appearing. A quick scratch of the head and a lightbulb moment! Because we’ve scaled the canvas, we need to account for this when mapping the touch to the screen’s position.

First, we need to subtract the offset from the coordinates.

var offsetTop = POP.canvas.offsetTop,
    offsetLeft = POP.canvas.offsetLeft;

this.x = data.pageX - offsetLeft;
this.y = data.pageY - offsetTop;

Diagram showing canvas offset relative to the browser window

Then, we need to take into account the factor by which the canvas has been scaled so that we can plot to the actual canvas (which is still 320 × 480).

var offsetTop = POP.canvas.offsetTop,
    offsetLeft = POP.canvas.offsetLeft;
    scale = POP.currentWidth / POP.WIDTH;

this.x = ( data.pageX - offsetLeft ) / scale;
this.y = ( data.pageY - offsetTop ) / scale;

Difference between CSS scaled canvas and actual dimensions

If your head is starting to hurt, a practical example should provide some relief. Imagine the player taps the 500 × 750 canvas above at 400,400. We need to translate that to 480 × 320 because, as far as the JavaScript is concerned, those are the dimensions of the canvas. So, the actual x coordinate is 400 divided by the scale; in this case, 400 ÷ 1.56 = 320.5.

Rather than calculating this on each touch event, we can calculate them after resizing. Add the following code to the start of the program, along with the other variable declarations:

// let's keep track of scale
    // along with all initial declarations
    // at the start of the program
    scale:  1,
    // the position of the canvas
    // in relation to the screen
    offset = {top: 0, left: 0},

In our resize function, after adjusting the canvas’ width and height, we make note of the current scale and offset:

// add this to the resize function.
POP.scale = POP.currentWidth / POP.WIDTH;
POP.offset.top = POP.canvas.offsetTop;
POP.offset.left = POP.canvas.offsetLeft;

Now, we can use them in the set method of our POP.Input class:

this.x = (data.pageX - POP.offset.left) / POP.scale;
this.y = (data.pageY - POP.offset.top) / POP.scale;

4. In The Loop

A typical game loop goes something like this:

  1. Poll user input,
  2. Update characters and process collisions,
  3. Render characters on the screen,
  4. Repeat.

We could, of course, use setInterval, but there’s a shiny new toy in town named requestAnimationFrame. It promises smoother animation and is more battery-efficient. The bad news is that it’s not supported consistently across browsers. But Paul Irish has come to the rescue with a handy shim7.

Let’s go ahead and add the shim to the start of our current code base.

// http://paulirish.com/2011/requestanimationframe-for-smart-animating
// shim layer with setTimeout fallback
window.requestAnimFrame = (function(){
  return  window.requestAnimationFrame       || 
          window.webkitRequestAnimationFrame || 
          window.mozRequestAnimationFrame    || 
          window.oRequestAnimationFrame      || 
          window.msRequestAnimationFrame     || 
          function( callback ){
            window.setTimeout(callback, 1000 / 60);
          };
})();

And let’s create a rudimentary game loop:

// Add this at the end of POP.init;
// it will then repeat continuously
POP.loop();

// Add the following functions after POP.init:

// this is where all entities will be moved
// and checked for collisions, etc.
update: function() {

},

// this is where we draw all the entities
render: function() {

   POP.Draw.clear(); 
},

// the actual loop
// requests animation frame,
// then proceeds to update
// and render
loop: function() {

    requestAnimFrame( POP.loop );

    POP.update();
    POP.render();
}

We call the loop at the end of POP.init. The POP.loop function in turn calls our POP.update and POP.render methods. requestAnimFrame ensures that the loop is called again, preferably at 60 frames per second. Note that we don’t have to worry about checking for input in our loop because we’re already listening for touch and click events, which is accessible through our POP.Input class.

The problem now is that our touches from the last step are immediately wiped off the screen. We need a better approach to remember what was drawn to the screen and where.

5. Spritely Will Do It

First, we add an entity array to keep track of all entities. This array will hold a reference to all touches, bubbles, particles and any other dynamic thing we want to add to the game.

// put this at start of program
entities: [],

Let’s create a Touch class that draws a circle at the point of contact, fades it out and then removes it.

POP.Touch = function(x, y) {

    this.type = 'touch';    // we'll need this later
    this.x = x;             // the x coordinate
    this.y = y;             // the y coordinate
    this.r = 5;             // the radius
    this.opacity = 1;       // initial opacity; the dot will fade out
    this.fade = 0.05;       // amount by which to fade on each game tick
    this.remove = false;    // flag for removing this entity. POP.update
                            // will take care of this

    this.update = function() {
        // reduce the opacity accordingly
        this.opacity -= this.fade; 
        // if opacity if 0 or less, flag for removal
        this.remove = (this.opacity < 0) ? true : false;
    };

    this.render = function() {
        POP.Draw.circle(this.x, this.y, this.r, 'rgba(255,0,0,'+this.opacity+')');
    };

};

The Touch class sets a number of properties when initiated. The x and y coordinates are passed as arguments, and we set the radius this.r to 5 pixels. We also set an initial opacity to 1 and the rate by which the touch fades to 0.05. There is also a remove flag that tells the main game loop whether to remove this from the entities array.

Crucially, the class has two main methods: update and render. We will call these from the corresponding part of our game loop.

We can then spawn a new instance of Touch in the game loop, and then move them via the update method:

// POP.update function
update: function() {

    var i;

    // spawn a new instance of Touch
    // if the user has tapped the screen
    if (POP.Input.tapped) {
        POP.entities.push(new POP.Touch(POP.Input.x, POP.Input.y));
        // set tapped back to false
        // to avoid spawning a new touch
        // in the next cycle
        POP.Input.tapped = false;
    }

    // cycle through all entities and update as necessary
    for (i = 0; i < POP.entities.length; i += 1) {
        POP.entities[i].update();

        // delete from array if remove property
        // flag is set to true
        if (POP.entities[i].remove) {
            POP.entities.splice(i, 1);
        }
    }

},

Basically, if POP.Input.tapped is true, then we add a new instance of POP.Touch to our entities array. We then cycle through the entities array, calling the update method for each entity. Finally, if the entity is flagged for removal, we delete it from the array.

Next, we render them in the POP.render function.

// POP.render function
render: function() {

    var i;

   POP.Draw.rect(0, 0, POP.WIDTH, POP.HEIGHT, '#036');

    // cycle through all entities and render to canvas
    for (i = 0; i < POP.entities.length; i += 1) {
        POP.entities[i].render();
    }

},

Similar to our update function, we cycle through the entities and call their render method to draw them to the screen.

So far, so good. Now we’ll add a Bubble class that will create a bubble that floats up for the user to pop.

POP.Bubble = function() {

    this.type = 'bubble';
    this.x = 100;
    this.r = 5;                // the radius of the bubble
    this.y = POP.HEIGHT + 100; // make sure it starts off screen
    this.remove = false;

    this.update = function() {

        // move up the screen by 1 pixel
        this.y -= 1;

        // if off screen, flag for removal
        if (this.y < -10) {
            this.remove = true;
        }

    };

    this.render = function() {

        POP.Draw.circle(this.x, this.y, this.r, 'rgba(255,255,255,1)');
    };

};

The POP.Bubble class is very similar to the Touch class, the main differences being that it doesn’t fade but moves upwards. The motion is achieved by updating the y position, this.y, in the update function. Here, we also check whether the bubble is off screen; if so, we flag it for removal.

Note: We could have created a base Entity class that both Touch and Bubble inherit from. But, I’d rather not open another can of worms about JavaScript prototypical inheritance versus classic at this point.

// Add at the start of the program
// the amount of game ticks until
// we spawn a bubble
nextBubble: 100,

// at the start of POP.update
// decrease our nextBubble counter
POP.nextBubble -= 1;
// if the counter is less than zero
if (POP.nextBubble < 0) {
    // put a new instance of bubble into our entities array
    POP.entities.push(new POP.Bubble());
    // reset the counter with a random value
    POP.nextBubble = ( Math.random() * 100 ) + 100;
}

Above, we have added a random timer to our game loop that will spawn an instance of Bubble at a random position. At the start of the game, we set nextBubble with a value of 100. This is subtracted on each game tick and, when it reaches 0, we spawn a bubble and reset the nextBubble counter.

6. Putting It Together

First of all, there is not yet any notion of collision detection. We can add that with a simple function. The math behind this is basic geometry, which you can brush up on at Wolfram MathWorld8.

// this function checks if two circles overlap
POP.collides = function(a, b) {

        var distance_squared = ( ((a.x - b.x) * (a.x - b.x)) + 
                                ((a.y - b.y) * (a.y - b.y)));

        var radii_squared = (a.r + b.r) * (a.r + b.r);

        if (distance_squared < radii_squared) {
            return true;
        } else {
            return false;
        }
};

// at the start of POP.update, we set a flag for checking collisions
    var i,
        checkCollision = false; // we only need to check for a collision
                                // if the user tapped on this game tick

// and then incorporate into the main logic

if (POP.Input.tapped) {
    POP.entities.push(new POP.Touch(POP.Input.x, POP.Input.y));
    // set tapped back to false
    // to avoid spawning a new touch
    // in the next cycle
    POP.Input.tapped = false;
    checkCollision = true;

}

// cycle through all entities and update as necessary
for (i = 0; i < POP.entities.length; i += 1) {
    POP.entities[i].update();

    if (POP.entities[i].type === 'bubble' && checkCollision) {
        hit = POP.collides(POP.entities[i], 
                            {x: POP.Input.x, y: POP.Input.y, r: 7});
        POP.entities[i].remove = hit;
    }

    // delete from array if remove property
    // is set to true
    if (POP.entities[i].remove) {
        POP.entities.splice(i, 1);
    }
}

The bubbles are rather boring; they all travel at the same speed on a very predictable trajectory. Making the bubbles travel at random speeds is a simple task:

POP.Bubble = function() {

    this.type = 'bubble';
    this.r = (Math.random() * 20) + 10;
    this.speed = (Math.random() * 3) + 1;

    this.x = (Math.random() * (POP.WIDTH) - this.r);
    this.y = POP.HEIGHT + (Math.random() * 100) + 100;

    this.remove = false;

    this.update = function() {

        this.y -= this.speed;

    // the rest of the class is unchanged

And let’s make them oscillate from side to side, so that they are harder to hit:

// the amount by which the bubble
    // will move from side to side
    this.waveSize = 5 + this.r;
    // we need to remember the original
    // x position for our sine wave calculation
    this.xConstant = this.x;

    this.remove = false;

    this.update = function() {

        // a sine wave is commonly a function of time
        var time = new Date().getTime() * 0.002;

        this.y -= this.speed;
        // the x coordinate to follow a sine wave
        this.x = this.waveSize * Math.sin(time) + this.xConstant;

    // the rest of the class is unchanged

Again, we’re using some basic geometry to achieve this effect; in this case, a sine wave. While you don’t need to be a math whiz to make games, basic understanding goes a long way. The article “A Quick Look Into the Math of Animations With JavaScript9” should get you started.

Let’s also show some statistics on screen. To do this, we will need to track various actions throughout the game.

Put the following code, along with all of the other variable declarations, at the beginning of the program.

// this goes at the start of the program
// to track players's progress
POP.score = {
    taps: 0,
    hit: 0,
    escaped: 0,
    accuracy: 0
},

Now, in the Bubble class we can keep track of POP.score.escaped when a bubble goes off screen.

// in the bubble class, when a bubble makes it to
// the top of the screen
    if (this.y < -10) {
        POP.score.escaped += 1; // update score
        this.remove = true;
    }

In the main update loop, we increase POP.score.hit accordingly:

// in the update loop
if (POP.entities[i].type === 'bubble' && checkCollision) {
    hit = POP.collides(POP.entities[i], 
                        {x: POP.Input.x, y: POP.Input.y, r: 7});
    if (hit) {
        POP.score.hit += 1;
    }

    POP.entities[i].remove = hit;
}

In order for the statistics to be accurate, we need to record all of the taps the user makes:

// and record all taps
if (POP.Input.tapped) {
    // keep track of taps; needed to 
    // calculate accuracy
    POP.score.taps += 1;

Accuracy is obtained by dividing the number of hits by the number of taps, multiplied by 100, which gives us a nice percentage. Note that ~~(POP.score.accuracy) is a quick way (i.e. a hack) to round floats down to integers.

// Add at the end of the update loop
// to calculate accuracy
POP.score.accuracy = (POP.score.hit / POP.score.taps) * 100;
POP.score.accuracy = isNaN(POP.score.accuracy) ?
    0 :
    ~~(POP.score.accuracy); // a handy way to round floats

Lastly, we use our POP.Draw.text to display the scores in the main update function.

// and finally in the draw function
POP.Draw.text('Hit: ' + POP.score.hit, 20, 30, 14, '#fff');
POP.Draw.text('Escaped: ' + POP.score.escaped, 20, 50, 14, '#fff');
POP.Draw.text('Accuracy: ' + POP.score.accuracy + '%', 20, 70, 14, '#fff');

7. Spit And Polish

There’s a common understanding that a playable demo can be made in a couple of hours, but a polished game takes days, week, months or even years!

We can do a few things to improve the visual appeal of the game.

Particle Effects

Most games boast some form of particle effects, which are great for explosions. What if we made a bubble explode into many tiny bubbles when it is popped, rather than disappear instantly?

Take a look at our Particle class:

POP.Particle = function(x, y,r, col) {

    this.x = x;
    this.y = y;
    this.r = r;
    this.col = col;

    // determines whether particle will
    // travel to the right of left
    // 50% chance of either happening
    this.dir = (Math.random() * 2 > 1) ? 1 : -1;

    // random values so particles do not
    // travel at the same speeds
    this.vx = ~~(Math.random() * 4) * this.dir;
    this.vy = ~~(Math.random() * 7);

    this.remove = false;

    this.update = function() {

        // update coordinates
        this.x += this.vx;
        this.y += this.vy;

        // increase velocity so particle
        // accelerates off screen
        this.vx *= 0.99;
        this.vy *= 0.99;

        // adding this negative amount to the
        // y velocity exerts an upward pull on
        // the particle, as if drawn to the
        // surface
        this.vy -= 0.25;

        // off screen
        if (this.y < 0) {
            this.remove = true;
        }

    };

    this.render = function() {
        POP.Draw.circle(this.x, this.y, this.r, this.col);
    };

};

It’s fairly obvious what is going on here. Using some basic acceleration so that the particles speed up as the reach the surface is a nice touch. Again, this math and physics are beyond the scope of this article, but for those interested, Skookum Digital Works explains it in depth10.

To create the particle effect, we push several particles into our entities array whenever a bubble is hit:

// modify the main update function like so:
if (hit) {
    // spawn an explosion
    for (var n = 0; n < 5; n +=1 ) {
        POP.entities.push(new POP.Particle(
            POP.entities[i].x, 
            POP.entities[i].y, 
            2, 
            // random opacity to spice it up a bit
            'rgba(255,255,255,'+Math.random()*1+')'
        )); 
    }
    POP.score.hit += 1;
}

Waves

Given the underwater theme of the game, adding a wave effect to the top of the screen would be a nice touch. We can do this by drawing a number of overlapping circles to give the illusion of waves:

// set up our wave effect;
// basically, a series of overlapping circles
// across the top of screen
POP.wave = {
    x: -25, // x coordinate of first circle
    y: -40, // y coordinate of first circle
    r: 50, // circle radius
    time: 0, // we'll use this in calculating the sine wave
    offset: 0 // this will be the sine wave offset
}; 
// calculate how many circles we need to 
// cover the screen's width
POP.wave.total = Math.ceil(POP.WIDTH / POP.wave.r) + 1;

Add the code above to the POP.init function. POP.wave has a number of values that we’ll need to draw the waves.

Add the following to the main update function. It uses a sine wave to adjust the position of the waves and give the illusion of movement.

// update wave offset
// feel free to play with these values for
// either slower or faster waves
POP.wave.time = new Date().getTime() * 0.002;
POP.wave.offset = Math.sin(POP.wave.time * 0.8) * 5;

All that’s left to be done is to draw the waves, which goes into the render function.

// display snazzy wave effect
for (i = 0; i < POP.wave.total; i++) {

    POP.Draw.circle(
                POP.wave.x + POP.wave.offset +  (i * POP.wave.r), 
                POP.wave.y,
                POP.wave.r, 
                '#fff'); 
}

Here, we’ve reused our sine wave solution for the bubbles to make the waves move gently to and fro. Feeling seasick yet?

Final Thoughts

Phew! That was fun. Hope you enjoyed this short forage into tricks and techniques for making an HTML5 game. We’ve managed to create a very simple game that works on most smartphones as well as modern browsers. Here are some things you could consider doing:

  • Store high scores using local storage.
  • Add a splash screen and a “Game over” screen.
  • Enable power-ups.
  • Add audio. Contrary to what I said at the beginning of this article, this isn’t impossible, just a bit of a headache. One technique is to use audio sprites (kind of like CSS image sprites); Remy Sharp breaks it down11.
  • Let your imagination run wild!

If you are interested in further exploring the possibilities of mobile HTML5 games, I recommend test-driving a couple of frameworks to see what works for you. Juho Vepsäläinen offers a useful summary of most game engines12. If you’re willing to invest a little cash, then Impact13 is a great starting point, with thorough documentation and lively helpful forums. And the impressive X-Type14 demonstrates what is possible. Not bad, eh?

(al) (jc)

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Co Founder of Starfish Web Consulting — a Web design and development studio based in Belfast, Northern Ireland.

  1. 1

    I recently made a Simon says game. Absolutely needs some optimization for the mobile but it works! http://demo.celebi.me/simon

    6
  2. 2

    Browser detection missing ‘ipod’.

    POP.ios = ( POP.ua.indexOf(‘iphone’) > -1 || POP.ua.indexOf(‘ipad’) > -1 ) ? true : false;

    should be:

    POP.ios = ( POP.ua.indexOf(‘iphone’) > -1 || POP.ua.indexOf(‘ipad’) > -1 || POP.ua.indexOf(‘ipod’) > -1 ) ?
    true : false;

    I have one, so I know :-)

    3
  3. 3

    Great tutorial.

    0
  4. 4

    Unfortunetly, it’s not working properly on Windows Phone 7.5 (IE 9). I’m wondering what’s the reason.

    0
    • 5

      Sorry to hear that :(

      I tested in IE9 but don’t have a Windows Phone to debug on the actual device.

      I do remember reading that touch events are not supported, which means that input will not be registered (http://stackoverflow.com/questions/7143008/touch-events-in-windows-phone-7-mango-ie)

      0
      • 6

        You should pick one up on cl/ebay. But it has nothing to do with touch events. The escaped just counts up every second or two and there is nothing on the screen. And touch events regiester as click events on the desktop so minus any errors I would think it should work.

        When I touch on my WP7 i can see the event register fine. We just need something to shoot at.

        I love HTML5 and want to see more mobile games so THANKS

        0
  5. 7

    It’s such a simple game, but I love it! Definitely worth a try to make.

    0
  6. 8

    The “Starfish Web Consulting” link at the bottom is broken.

    0
  7. 10

    I can recommend the isogenic Engine. Js and html5. We used it for our crossplatform Game Pioneer Legends still in early beta but Give it a try: http://pioneerlegends.com

    0
  8. 11

    Great article and really well broken down! Thanks for taking the time to make this :)

    1
  9. 12

    Have you tried enchant.js? The evangelist for this code does a demo in which he builds a very similar game in 48 seconds.

    0
  10. 14

    How does the ~~() work?

    ~~(POP.score.accuracy); // a handy way to round floats

    0
  11. 17

    Interesting, thanks!
    I know nothing in js, but I wonder if there is not a small bug in update function: after removing an element i, the next one will not be updated. Variable i should not be incremented when using splice().

    0
    • 18

      Because we recalulate the array length at the beginning of the loop, there is no danger of objects not being updated after an array.splice.

      Take a look at this jsbin snippet, that shows how array length changes as elements are removed:
      http://jsbin.com/iwolab/2/edit

      0
      • 19

        Well, precisely, in the snippet, if you have 2 consecutive ‘green’ elements in the array at the beginning, you will only remove the first one.

        0
        • 20

          Aha! I see what you mean now. Yes, you are correct. Because the array is re-indexed after splice, the calculated length of the array is now incorrect.

          While, this won’t effect the game (at worst, it may take a few game ticks to remove an object flagged for removal), it can be easily fixed. Simply decrement i after a splice:

          POP.entities.splice(i, 1);
          i -= 1;

          Thanks for pointing this out, Bertand.

          0
  12. 21

    Great article Eoin, you’ve covered the basics in a thorough and though provoking way. Love it.

    0
  13. 22

    Thanks for the simplified tutorial. I’m actually thinking of designing my ow mobile game as well and this really helps :) It’s a good thing web dev and mobile game development are similar in a lot of ways :)
    eacsoft.com/

    0
  14. 23

    The Web Audio API is great for game audio. It’s limited to iOS6 on mobile right now, but fingers crossed Android will catch up soon.

    I tend to limit audio in my games to sfx only on mobile, as I think downloading a couple of music tracks over 3G might be a bit much. Check out http://nicolahibbert.com/demo/balloonz/ on your mobile phone for a basic example of the Web Audio API in action, or http://nicolahibbert.com/demo/brickout/desktop/ on your desktop for something much more involved.

    2
  15. 24

    A great inspiration, thank you!

    Is there a reason (apart from clarity, personal style) for doing eg.
    if (distance_squared < radii_squared) { return true; } else { return false; }
    instead of
    return distance_squared < radii_squared;

    This is a genuine question btw, been bitten by browser oddities too often!

    0
  16. 26

    Very useful article, I’ve been looking to build canvas / js games for a while now, and this is definitely how I was planning on doing it, but wasn’t sure it was the right way to go about it.

    The ‘requestAnimFrame’ stuff is really useful.

    Thanks!

    0
  17. 27

    We just recently launched a mobile canvas game for a great client. We definitely learned a lot in a very short amount of time! Thanks for the article, well written.

    http://pucksterschallenge.ca

    0
  18. 28

    Excellent article. This was a perfect bridge from what I knew about js to the canvas element.

    One bug though, where you initiate POP.offset, there’s an equals sign. I had to change that to a colon to make it work.

    Once again excellent, excellent work!

    0
  19. 30

    Can you recommend any good resources for updating this game with sprites?

    Thanks for the excellent tutorial!

    0
  20. 31

    A really awesome tutorial!!!! :)

    Is it possible to make this game to an android app? Now you only can run it from a browser, right?
    It would have been awesome with a tutorial on how to do that! For an example how to make the game to an android app using WebView or something.

    Programming Newbie

    4
  21. 32

    can you show me how to add splash game over screen in this game ? im so confuse to add it in where ?

    0
  22. 33

    thanks for this article.

    Is it possible to make this game to an android app in phonegap?

    0
  23. 34

    Loved the performance and the way it works on mobile. Fully tested and happy. Definitely is a must to read. Already building my first game based on this tutorial and works great. Guess all my games are to be based at the end on this. Nothing else to say. Thanks a Lot Eoin.

    0
  24. 35

    Hi

    thanks for tutorial

    Also i want to ask 1 thing that i want pause button in this canvas. is it possible to make it?
    can you please help for it

    Thanks,
    Prat

    0
  25. 36

    Hi. I just realized, if you make the browser scroll down and then ignore the scrolling, then wouldn’t you be stuck without the address bar if you needed to use the browser to do something else?

    0
  26. 37

    So after the resizing didn’t work for me i just copied your whole code and it still doesn’t work (no errors in the console though) … too bad, I would have really liked this tutorial…

    0
  27. 38

    Is there a way to have this demo detect the browser size and run full screen?

    0
  28. 39

    Hello,
    Hope you are fine, Kindly produce a further tutorial on this and enable the following:
    >>game pause, resume and stop.
    >>how to resize the bubble size.

    secondly is there a way we can replace the bubbles with images, so that instead of bursting the bubble we burst an image on click??

    Your response will be highly welcome. even on my email: chepkolejr @ gmail.c om

    Kind regards

    0
  29. 40

    Thanks for creating this easy to follow tutorial. I personally loath javascript, but have been looking into html 5 game dev, and this tutorial was just what I needed.

    0

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