Book Image

Game Programming Using Qt: Beginner's Guide

By : Lorenz Haas, Witold Wysota, Witold Wysota, Lorenz Haas
Book Image

Game Programming Using Qt: Beginner's Guide

By: Lorenz Haas, Witold Wysota, Witold Wysota, Lorenz Haas

Overview of this book

Qt is the leading cross-platform toolkit for all significant desktop, mobile, and embedded platforms and is becoming more popular by the day, especially on mobile and embedded devices. Despite its simplicity, it's a powerful tool that perfectly fits game developers’ needs. Using Qt and Qt Quick, it is easy to build fun games or shiny user interfaces. You only need to create your game once and deploy it on all major platforms like iOS, Android, and WinRT without changing a single source file. The book begins with a brief introduction to creating an application and preparing a working environment for both desktop and mobile platforms. It then dives deeper into the basics of creating graphical interfaces and Qt core concepts of data processing and display before you try creating a game. As you progress through the chapters, you’ll learn to enrich your games by implementing network connectivity and employing scripting. We then delve into Qt Quick, OpenGL, and various other tools to add game logic, design animation, add game physics, and build astonishing UI for the games. Towards the final chapters, you’ll learn to exploit mobile device features such as accelerators and sensors to build engaging user experiences. If you are planning to learn about Qt and its associated toolsets to build apps and games, this book is a must have.
Table of Contents (18 chapters)
Game Programming Using Qt
About the Authors
About the Reviewers

Time for action – sending a text via UDP

As an example, let's assume that we have two sockets of the QUpSocket type. We will call the first one socketA and the other socketB. Both are bound to the localhost, socketA to the 52000 port and socketB to the 52001 port. So, if we want to send the string "Hello!" from socketA to socketB, we have to write in the application that is holding socketA:

socketA->writeDatagram(QByteArray("Hello!"), QHostAddress(""), 52001);

Here, we have used the convenient function of writeDatagram(), which takes QByteArray instead of const char* and qint64. The class that holds socketB must have the socket's readyRead() signal connected to a slot. This slot will then be called because of our writeDatagram() call, assuming that the datagram is not lost! In the slots, we read the datagram and the sender's address and port number with:

while (socketB->hasPendingDatagrams()) {
  QByteArray datagram;