- •Contents at a Glance
- •Contents
- •Foreword
- •About the Authors
- •About the Technical Reviewer
- •Acknowledgments
- •Introduction
- •Who This Book Is For
- •An Overview of This Book
- •Example Code and Companion Web Site
- •Contacting the Authors
- •Overview of HTML5
- •The Story So Far—The History of HTML5
- •The Myth of 2022 and Why It Doesn’t Matter
- •Who Is Developing HTML5?
- •A New Vision
- •Compatibility and Paving the Cow Paths
- •Utility and the Priority of Constituencies
- •Interoperability Simplification
- •Universal Access
- •A Plugin–Free Paradigm
- •What’s In and What’s Out?
- •What’s New in HTML5?
- •New DOCTYPE and Character Set
- •New and Deprecated Elements
- •Semantic Markup
- •Simplifying Selection Using the Selectors API
- •JavaScript Logging and Debugging
- •window.JSON
- •DOM Level 3
- •Monkeys, Squirrelfish, and Other Speedy Oddities
- •Summary
- •Using the Canvas API
- •Overview of HTML5 Canvas
- •History
- •What Is a Canvas?
- •Canvas Coordinates
- •When Not to Use Canvas
- •Fallback Content
- •CSS and Canvas
- •Browser Support for HTML5 Canvas
- •Using the HTML5 Canvas APIs
- •Checking for Browser Support
- •Adding a Canvas to a Page
- •Applying Transformations to Drawings
- •Working with Paths
- •Working with Stroke Styles
- •Working with Fill Styles
- •Filling Rectangular Content
- •Drawing Curves
- •Inserting Images into a Canvas
- •Using Gradients
- •Using Background Patterns
- •Scaling Canvas Objects
- •Using Canvas Transforms
- •Using Canvas Text
- •Applying Shadows
- •Working with Pixel Data
- •Implementing Canvas Security
- •Building an Application with HTML5 Canvas
- •Practical Extra: Full Page Glass Pane
- •Practical Extra: Timing Your Canvas Animation
- •Summary
- •Working with Scalable Vector Graphics
- •Overview of SVG
- •History
- •Understanding SVG
- •Scalable Graphics
- •Creating 2D Graphics with SVG
- •Adding SVG to a Page
- •Simple Shapes
- •Transforming SVG Elements
- •Reusing Content
- •Patterns and Gradients
- •SVG Paths
- •Using SVG Text
- •Putting the Scene Together
- •Building an Interactive Application with SVG
- •Adding Trees
- •Adding the updateTrees Function
- •Adding the removeTree Function
- •Adding the CSS Styles
- •The Final Code
- •Summary
- •Working with Audio and Video
- •Overview of Audio and Video
- •Video Containers
- •Audio and Video Codecs
- •Audio and Video Restrictions
- •Browser Support for Audio and Video
- •Using the Audio and Video API
- •Checking for Browser Support
- •Accessibility
- •Understanding Media Elements
- •Working with Audio
- •Working with Video
- •Practical Extras
- •Summary
- •Using the Geolocation API
- •About Location Information
- •Latitude and Longitude Coordinates
- •Where Does Location Information Come From?
- •IP Address Geolocation Data
- •GPS Geolocation Data
- •Wi-Fi Geolocation Data
- •Cell Phone Geolocation Data
- •User–Defined Geolocation Data
- •Browser Support for Geolocation
- •Privacy
- •Triggering the Privacy Protection Mechanism
- •Dealing with Location Information
- •Using the Geolocation API
- •Checking for Browser Support
- •Position Requests
- •Building an Application with Geolocation
- •Writing the HTML Display
- •Processing the Geolocation Data
- •The Final Code
- •Practical Extras
- •What’s My Status?
- •Show Me on a Google Map
- •Summary
- •Using the Communication APIs
- •Cross Document Messaging
- •Understanding Origin Security
- •Browser Support for Cross Document Messaging
- •Using the postMessage API
- •Building an Application Using the postMessage API
- •XMLHttpRequest Level 2
- •Cross-Origin XMLHttpRequest
- •Progress Events
- •Browser Support for HTML5 XMLHttpRequest Level 2
- •Using the XMLHttpRequest API
- •Building an Application Using XMLHttpRequest
- •Practical Extras
- •Structured Data
- •Framebusting
- •Summary
- •Using the WebSocket API
- •Overview of WebSocket
- •Real-Time and HTTP
- •Understanding WebSocket
- •Writing a Simple Echo WebSocket Server
- •Using the WebSocket API
- •Checking for Browser Support
- •Basic API Usage
- •Building a WebSocket Application
- •Coding the HTML File
- •Adding the WebSocket Code
- •Adding the Geolocation Code
- •Putting It All Together
- •The Final Code
- •Summary
- •Using the Forms API
- •Overview of HTML5 Forms
- •HTML Forms Versus XForms
- •Functional Forms
- •Browser Support for HTML5 Forms
- •An Input Catalog
- •Using the HTML5 Forms APIs
- •New Form Attributes and Functions
- •Checking Forms with Validation
- •Validation Feedback
- •Building an Application with HTML5 Forms
- •Practical Extras
- •Summary
- •Working with Drag-and-Drop
- •Web Drag-and-Drop: The Story So Far
- •Overview of HTML5 Drag-and-Drop
- •The Big Picture
- •Events to Remember
- •Drag Participation
- •Transfer and Control
- •Building an Application with Drag-and-Drop
- •Getting Into the dropzone
- •Handling Drag-and-Drop for Files
- •Practical Extras
- •Customizing the Drag Display
- •Summary
- •Using the Web Workers API
- •Browser Support for Web Workers
- •Using the Web Workers API
- •Checking for Browser Support
- •Creating Web Workers
- •Loading and Executing Additional JavaScript
- •Communicating with Web Workers
- •Coding the Main Page
- •Handling Errors
- •Stopping Web Workers
- •Using Web Workers within Web Workers
- •Using Timers
- •Example Code
- •Building an Application with Web Workers
- •Coding the blur.js Helper Script
- •Coding the blur.html Application Page
- •Coding the blurWorker.js Web Worker Script
- •Communicating with the Web Workers
- •The Application in Action
- •Example Code
- •Summary
- •Using the Storage APIs
- •Overview of Web Storage
- •Browser Support for Web Storage
- •Using the Web Storage API
- •Checking for Browser Support
- •Setting and Retrieving Values
- •Plugging Data Leaks
- •Local Versus Session Storage
- •Other Web Storage API Attributes and Functions
- •Communicating Web Storage Updates
- •Exploring Web Storage
- •Building an Application with Web Storage
- •The Future of Browser Database Storage
- •The Web SQL Database
- •The Indexed Database API
- •Practical Extras
- •JSON Object Storage
- •A Window into Sharing
- •Summary
- •Overview of HTML5 Offline Web Applications
- •Browser Support for HTML5 Offline Web Applications
- •Using the HTML5 Application Cache API
- •Checking for Browser Support
- •Creating a Simple Offline Application
- •Going Offline
- •Manifest Files
- •The ApplicationCache API
- •Application Cache in Action
- •Building an Application with HTML5 Offline Web Applications
- •Creating a Manifest File for the Application Resources
- •Creating the HTML Structure and CSS for the UI
- •Creating the Offline JavaScript
- •Check for ApplicationCache Support
- •Adding the Update Button Handler
- •Add Geolocation Tracking Code
- •Adding Storage Code
- •Adding Offline Event Handling
- •Summary
- •The Future of HTML5
- •Browser Support for HTML5
- •HTML Evolves
- •WebGL
- •Devices
- •Audio Data API
- •Touchscreen Device Events
- •Peer-to-Peer Networking
- •Ultimate Direction
- •Summary
- •Index
C H A P T E R 10
Using the Web Workers API
JavaScript is single-threaded. As a result, long-lasting computations (not necessarily due to poorly written code) will block the UI thread and make it impossible to add text to text boxes, click buttons, use CSS effects, and, in most browsers, open new tabs until control has returned. As an answer to that problem, HTML5 Web Workers provide background-processing capabilities to web applications and typically run on separate threads so that JavaScript applications using Web Workers can take advantage of multicore CPUs. Separating long-running tasks into Web Workers also avoids the dreaded slow-script warnings, shown in Figure 10-1, that display when JavaScript loops continue for several seconds.
Figure 10-1. Slow script warning in Firefox
As powerful as Web Workers are, there are also certain things they cannot do. For example, when a script is executing inside a Web Worker it cannot access the web page’s window object (window.document), which means that Web Workers don’t have direct access to the web page and the DOM API. Although Web Workers cannot block the browser UI, they can still consume CPU cycles and make the system less responsive.
Let’s say you want to create a web application that has to perform some background number crunching, but you do not want those tasks to interfere with the interactivity of the web page itself. Using Web Workers, you can spawn a Web Worker to perform the tasks and add an event listener to listen to messages from the Web Worker as they are sent.
Another use case for Web Workers could be an application that listens for broadcast news messages from a back-end server, posting messages to the main web page as they are received from the back-end server. This Web Worker might use Web Sockets or Server-Sent Events to talk to the back-end server.
In this chapter, we’ll explore what you can do with Web Workers. First, we’ll discuss how Web Workers work and the level of browser support available at the time of this writing. Then, we’ll discuss how you can use the APIs to create new workers and how to communicate between a worker and the context that spawned it. Finally, we’ll show you how you can build an application with Web Workers.
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