You're reading from Mathematics for Game Programming and Computer Graphics

Product type Book

Published in Nov 2022

Publisher Packt

ISBN-13 9781801077330

Pages 444 pages

Edition 1st Edition

Languages

Concepts

Game Optimization

Author (1):

Penny de Byl

Table of Contents (26) Chapters

Preface

1. Part 1 – Essential Tools

2. Chapter 1: Hello Graphics Window: You’re On Your Way

3. Chapter 2: Let’s Start Drawing

4. Chapter 3: Line Plotting Pixel by Pixel

5. Chapter 4: Graphics and Game Engine Components

6. Chapter 5: Let’s Light It Up!

7. Chapter 6: Updating and Drawing the Graphics Environment

8. Chapter 7: Interactions with the Keyboard and Mouse for Dynamic Graphics Programs

9. Part 2 – Essential Trigonometry

10. Chapter 8: Reviewing Our Knowledge of Triangles

11. Chapter 9: Practicing Vector Essentials

12. Chapter 10: Getting Acquainted with Lines, Rays, and Normals

13. Chapter 11: Manipulating the Light and Texture of Triangles

14. Part 3 – Essential Transformations

15. Chapter 12: Mastering Affine Transformations

16. Chapter 13: Understanding the Importance of Matrices

17. Chapter 14: Working with Coordinate Spaces

18. Chapter 15: Navigating the View Space

19. Chapter 16: Rotating with Quaternions

20. Part 4 – Essential Rendering Techniques

21. Chapter 17: Vertex and Fragment Shading

22. Chapter 18: Customizing the Render Pipeline

23. Chapter 19: Rendering Visual Realism Like a Pro

24. Index

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Rotating around an arbitrary axis

A vector lying on the x axis that is represented by (1, 0) and rotated by results in the vector that will be the cosine of the angle and the sine of the angle ( as illustrated in Figure 16.1. Likewise, a vector sitting on the y axis represented by (0, 1), when rotated by the same angle, will result in a vector that, too, contains a combination of cosine and sine as (-.

Figure 16.1: Two-dimensional rotations

Do these values look familiar? They should because they are the values we’ve used in the rotation matrix for a rotation around the z axis in Chapter 15, Navigating the View Space. Rotating in 2D is essentially the same operation as rotating around the z axis; as you can imagine, the z axis added to Figure 16.1 coming out of the screen toward you, and thus rotations in this 2D space are, in fact, rotating around an unseen z axis.

All the rotations we’ve looked at thus far have been to rotate a vector or...