You're reading from Beginning C++ Game Programming. - Second Edition

Product type Book

Published in Oct 2019

Publisher Packt

ISBN-13 9781838648572

Pages 746 pages

Edition 2nd Edition

Languages

C++

Concepts

Game Scripting

Author (1):

John Horton

Table of Contents (25) Chapters

Preface

1. Chapter 1: C++, SFML, Visual Studio, and Starting the First Game

2. Chapter 2: Variables, Operators, and Decisions – Animating Sprites

3. Chapter 3: C++ Strings and SFML Time – Player Input and HUD

4. Chapter 4: Loops, Arrays, Switches, Enumerations, and Functions – Implementing Game Mechanics

5. Chapter 5: Collisions, Sound, and End Conditions – Making the Game Playable

6. Chapter 6: Object-Oriented Programming – Starting the Pong Game

7. Chapter 7: Dynamic Collision Detection and Physics – Finishing the Pong Game

8. Chapter 8: SFML Views – Starting the Zombie Shooter Game

9. Chapter 9: C++ References, Sprite Sheets, and Vertex Arrays

10. Chapter 10: Pointers, the Standard Template Library, and Texture Management

11. Chapter 11: Collision Detection, Pickups, and Bullets

12. Chapter 12: Layering Views and Implementing the HUD

13. Chapter 13: Sound Effects, File I/O, and Finishing the Game

14. Chapter 14: Abstraction and Code Management – Making Better Use of OOP

15. Chapter 15: Advanced OOP – Inheritance and Polymorphism

16. Chapter 16: Building Playable Levels and Collision Detection

17. Chapter 17: Sound Spatialization and the HUD

18. Chapter 18: Particle Systems and Shaders

19. Chapter 19: Game Programming Design Patterns – Starting the Space Invaders ++ Game

20. Chapter 20: Game Objects and Components

21. Chapter 21: File I/O and the Game Object Factory

22. Chapter 22: Using Game Objects and Building a Game

23. Chapter 23: Before You Go...

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C++ smart pointers

Smart pointers are classes that we can use to get the same functionality as a regular pointer but with an extra feature – the feature being that they take care of their own deletion. In the limited way we have used pointers so far, it has not been a problem for us to delete our own memory, but as your code becomes more complex, and when you are allocating the new memory in one class but using it in another class, it becomes much less clear which class is responsible for deleting the memory when we are done with it. And how can a class or function know whether a different class or function has finished with some allocated memory?

The solution is smart pointers. There are a few types of smart pointer; we will look at the two of the most commonly used ones here. The key to success with smart pointers is using the correct type.

The first type we will consider is shared pointers.