"This book--a renamed new edition of Android Wireless Application Development, Volume II--is the definitive guide to advanced commercial-grade Android development, updated for the latest Android SDK. The book serves as a reference for the Android API."--
With the second edition of this popular book, you’ll learn how to build HTML5 and CSS3-based apps that access geolocation, accelerometer, multi-touch screens, offline storage, and other features in today’s smartphones, tablets, and feature phones. The market for mobile apps continues to evolve at a breakneck pace, and this book is the most complete reference available for the mobile web. Author and mobile development expert Maximiliano Firtman shows you how to develop a standard app core that you can extend to work with specific devices. This updated edition covers many recent advances in mobile development, including responsive web design techniques, offline storage, mobile design patterns, and new mobile browsers, platforms, and hardware APIs. Learn the particulars and pitfalls of building mobile websites and apps with HTML5, CSS, JavaScript and responsive techniques Create effective user interfaces for touch devices and different resolution displays Understand variations among iOS, Android, Windows Phone, BlackBerry, Firefox OS, and other mobile platforms Bypass the browser to create native web apps, ebooks, and PhoneGap applications Build apps for browsers and online retailers such as the App Store, Google Play Store, Windows Store, and App World
Want to create sophisticated games and graphics-intensive apps? Learn OpenGL ES gets you started immediately with OpenGL ES. After mastering the basics of OpenGL ES itself, you will quickly find yourself writing and building game apps, without having to learn about object oriented programming techniques. This book demonstrates the use of a powerful open-source modeling tool, Blender. You will be guided, step by step, through the development of Tank Fence, a dynamic, interactive 3D game. Along the way you'll gain skills in building apps with Eclipse and the Android SDK or NDK, rendering graphics using hardware acceleration, and multithreading for performance and responsiveness. iOS developers will also find this book's information invaluable when writing their apps. You'll learn everything you need to know about: Creating simple, efficient game UIs Designing the basic building blocks of an exciting, interactive 3D game Pulling all the elements together with Blender, a powerful open-source tool for modeling, animation, rendering, compositing, video editing, and game creation Taking the next big step using custom and inbuilt functions, texturing, shading, light sources, and more Refining your mobile game app through collision detection, player-room-obstacle classes, and storage classes Doing all this efficiently on mobile devices with limited resources and processing What you’ll learn How to install and use OpenGL ES 2.0 on Android GLSL ES Fundamentals State Management Modeling 3D Objects Using Blender Using the Perl Mesh Parser Vertex Buffer Objects Using Color Masks sampler2D and samplerCube Uniforms Multi-Texturing Lambert Illumination Model Implementing the Lighting Equation Design, write, and build Tank Fence, an interactive 3D game Who this book is for Learn OpenGL ES is ideal for mobile game and interactive app developers who want to know more about the OpenGL ES engine and and use it to build more sophisticated, graphically-rich games and other apps. While the code is developed on Android, iOS developers will also find this book invaluable. Table of Contents1. Why OpenGL ES? 2. UI for games: Keep it simple 3. First Steps: Mobile Game App Development 4. 3D Modeling 5. Functions, Shading, Light Source and Objects 6. Carrying Further: Collision Detection
In the last few years, Android has progressed with the debut of better fonts, new User Interface and Experience (UI/UX) APIs, tablet considerations, multi-touch capabilities, multi-tasking, faster performance, improved battery management techniques, and now Google TV Android Apps for the Android game app developer repertoire. With actionable real-world source, Pro Android Games, Second Edition shows you how to build more sophisticated and addictive Android games, by leveraging the power of these recent advancements found in the new Android Jelly Beans development platform as well as those you've counted on in earlier releases. Multi-touch code gives these games and their players dynamic input and exchange ability, for a more realistic arcade game experience. Faster and better performance offers game players a more seamless, fun arcade experience like never before on Android. There is also improved native C/C++ integration with Android's NDK as well, which makes coding, compiling, and converting both productive and efficient with gains in app performance. *** NOTE: This book published previously as Advanced Android 4 Games. This edition covers game development for all Android SDK versions up to Jelly Bean / Android SDK 4.1. Pro Android Games, Second Edition features the following improvements: Updates to the latest version of the Android SDK, NKD, plus the latest Eclipse IDE. Greater focus on tablets the ever changing device resolutions, and hardware specs. Native game development and hardware accelerated graphics. Bigger and Better Real World Engines, such as Quake I and II Plus an oldie from the previous edition: Doom Coverage of the new smart TV APIs (Google TV), UI, UX, multi-touch and multi-tasking features available with Android Jelly Bean. A look into the future with augmented reality Advanced techniques for improving your game playing experience including better multi-tasking, improved performance optimization, battery management and more. A "Quake 3D"-like game app case study You’ll definitely have fun, and perhaps you’ll even make some money. Enjoy!
Want to create sophisticated games and graphics-intensive apps? Learn OpenGL ES gets you started immediately with OpenGL ES. After mastering the basics of OpenGL ES itself, you will quickly find yourself writing and building game apps, without having to learn about object oriented programming techniques. This book demonstrates the use of a powerful open-source modeling tool, Blender. You will be guided, step by step, through the development of Tank Fence, a dynamic, interactive 3D game. Along the way you'll gain skills in building apps with Eclipse and the Android SDK or NDK, rendering graphics using hardware acceleration, and multithreading for performance and responsiveness. iOS developers will also find this book's information invaluable when writing their apps. You'll learn everything you need to know about: Creating simple, efficient game UIs Designing the basic building blocks of an exciting, interactive 3D game Pulling all the elements together with Blender, a powerful open-source tool for modeling, animation, rendering, compositing, video editing, and game creation Taking the next big step using custom and inbuilt functions, texturing, shading, light sources, and more Refining your mobile game app through collision detection, player-room-obstacle classes, and storage classes Doing all this efficiently on mobile devices with limited resources and processing What you’ll learn How to install and use OpenGL ES 2.0 on Android GLSL ES Fundamentals State Management Modeling 3D Objects Using Blender Using the Perl Mesh Parser Vertex Buffer Objects Using Color Masks sampler2D and samplerCube Uniforms Multi-Texturing Lambert Illumination Model Implementing the Lighting Equation Design, write, and build Tank Fence, an interactive 3D game Who this book is for Learn OpenGL ES is ideal for mobile game and interactive app developers who want to know more about the OpenGL ES engine and and use it to build more sophisticated, graphically-rich games and other apps. While the code is developed on Android, iOS developers will also find this book invaluable. Table of Contents1. Why OpenGL ES? 2. UI for games: Keep it simple 3. First Steps: Mobile Game App Development 4. 3D Modeling 5. Functions, Shading, Light Source and Objects 6. Carrying Further: Collision Detection