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Andrew Trice is a Technical Evangelist with Adobe Systems. Andrew brings to the table over a decade of experience designing, implementing, and delivering rich applications for the web, desktop, and mobile devices. Andrew is an experienced architect, team leader, accomplished speaker, and published author, specializing in immersive experiences, mobile development, realtime data systems, and data visualization. Andrew is a DZone MVB and is not an employee of DZone and has posted 53 posts at DZone. You can read more from them at their website. View Full User Profile

Sketching with HTML5 Canvas and “Brush Images”

03.04.2012
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In a previous post on capturing user signatures in mobile applications, I explored how you capture user input from mouse or touch events and visualize that in a HTML5 Canvas.  Inspired by activities with my daughter, I decided to take this signature capture component and make it a bit more fun & exciting.   My daughter and I often draw and sketch together… whether its a magnetic sketching toy, doodling on the iPad, or using a crayon and a placemat at a local pizza joint, there is always something to draw. (Note: I never said I was actually good at drawing.)




You can take that exact same signature capture example, make the canvas bigger, and then combine it with a tablet and a stylus, and you’ve got a decent sketching application.  However, after doodling a bit you will quickly notice that your sketches leave something to be desired.   When you are drawing on a canvas using moveTo(x,y) and lineTo(x,y), you are somewhat limited in what you can do. You have lines which can have consisten thickness, color, and opacity. You can adjust these, however in the end, they are only lines.

If you switch your approach away from moveTo and lineTo, then things can get interesting with a minimal amount of changes. You can use images to create “brushes” for drawing strokes in a HTML5 canvas element and add a lot of style and depth to your sketched content.  This is an approach that I’ve adapted to JavaScript from some OpenGL drawing applications that I’ve worked on in the past.  Take a look at the video below to get an idea what I mean.





Examining the sketches side by side, it is easy to see the difference that this makes.   The variances in stroke thickness, opacity & angle add depth and style, and provide the appearance of drawing with a magic marker.



It’s hard to see the subtleties in this image, so feel free to try out the apps on your own using an iPad or in a HTML5 Canvas-capable browser:


Just click/touch and drag in the gray rectangle area to start drawing.

Now, let’s examine how it all works.   Both approaches use basic drawing techniques within the HTML5 Canvas element.   If you aren’t familiar with the HTML5 Canvas, you can quickly get up to speed from the tutorials from Mozilla.

moveTo, lineTo

The first technique uses the canvas’s drawing context moveTo(x,y) and lineTo(x,y) to draw line segments that correspond to the mouse/touch coordinates.   Think of this as playing “connect the dots” and drawing a solid line between two points.

The code for this approach will look something like the following:

var canvas = document.getElementById('canvas');
var context = canvas.getContext('2d');
 
context.beginPath();
context.moveTo(a.x, a.y);
context.lineTo(b.x, b.y);
context.lineTo(c.x, c.y);
context.closePath();
context.stroke();






Brush Images

The technique for using brush images is identical in concept to the previous example – you are drawing a line from point A to point B.  However, rather than using the built-in drawing APIs, you are programmatically repeating an image (the brush) from point A to point B.

First, take a look at the brush image shown below at 400% of the actual scale.  It is a simple image that is a diagonal shape that is thicker and more opaque on the left side.   By itself, this will just be a mark on the canvas.



When you repeat this image from point A to point B, you will get a “solid” line.  However the opacity and thickness will vary depending upon the angle of the stroke.   Take a look at the sample below (approximated, and zoomed).


The question is… how do you actually do this in JavaScript code?

First, create an Image instance to be used as the brush source.

brush = new Image();
brush.src="assets/brush2.png";


Once the image is loaded, the image can be drawn into the canvas’ context using the drawImage() function. The trick here is that you will need to use some trigonometry to determine how to repeat the image. In this case, you can calculate the angle and distance from the start point to the end point. Then, repeat the image based on that distance and angle.

var canvas = document.getElementById('canvas');
var context = canvas.getContext('2d');
 
var halfBrushW = brush.width/2;
var halfBrushH = brush.height/2;
 
var start = { x:0, y:0 };
var end = { x:200, y:200 };
 
var distance = parseInt( Trig.distanceBetween2Points( start, end ) );
var angle = Trig.angleBetween2Points( start, end );
 
var x,y;
 
for ( var z=0; (z<=distance || z==0); z++ ) {
    x = start.x + (Math.sin(angle) * z) - halfBrushW;
    y = start.y + (Math.cos(angle) * z) - halfBrushH;
    context.drawImage(this.brush, x, y);
}


For the trigonometry functions, I have a simple utility class to calculate the distance between two points, and the angle between two points. This is all based upon the good old Pythagorean theorem.

var Trig = {
    distanceBetween2Points: function ( point1, point2 ) {
 
        var dx = point2.x - point1.x;
        var dy = point2.y - point1.y;
        return Math.sqrt( Math.pow( dx, 2 ) + Math.pow( dy, 2 ) );
    },
 
    angleBetween2Points: function ( point1, point2 ) {
 
        var dx = point2.x - point1.x;
        var dy = point2.y - point1.y;
        return Math.atan2( dx, dy );
    }
}


The full source for both of these examples is available on github at:


This example uses the twitter bootstrap UI framework, jQuery, and Modernizr.  Both the lineTo.html and brush.html apps use the exact same code, which just uses a separate rendering function based upon the use case.    Feel free to try out the apps on your own using an iPad or in a HTML5 Canvas-capable browser:


Just click/touch and drag in the gray rectangle area to start drawing.


 

Published at DZone with permission of Andrew Trice, author and DZone MVB. (source)

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