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3D Graphics Rendering Cookbook

You're reading from   3D Graphics Rendering Cookbook A comprehensive guide to exploring rendering algorithms in modern OpenGL and Vulkan

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Product type Paperback
Published in Aug 2021
Publisher Packt
ISBN-13 9781838986193
Length 670 pages
Edition 1st Edition
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Authors (2):
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Viktor Latypov Viktor Latypov
Author Profile Icon Viktor Latypov
Viktor Latypov
Sergey Kosarevsky Sergey Kosarevsky
Author Profile Icon Sergey Kosarevsky
Sergey Kosarevsky
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Toc

Table of Contents (12) Chapters Close

Preface 1. Chapter 1: Establishing a Build Environment 2. Chapter 2: Using Essential Libraries FREE CHAPTER 3. Chapter 3: Getting Started with OpenGL and Vulkan 4. Chapter 4: Adding User Interaction and Productivity Tools 5. Chapter 5: Working with Geometry Data 6. Chapter 6: Physically Based Rendering Using the glTF2 Shading Model 7. Chapter 7: Graphics Rendering Pipeline 8. Chapter 8: Image-Based Techniques 9. Chapter 9: Working with Scene Graphs 10. Chapter 10: Advanced Rendering Techniques and Optimizations 11. Other Books You May Enjoy

Rendering onscreen charts

In the Implementing an immediate mode drawing canvas recipe, we learned how to create immediate mode drawing facilities in Vulkan with basic drawing functionality. In this recipe, we will continue adding useful utilities built on top of a 2D line drawing.

Getting ready

We recommend revisiting the Implementing an immediate mode drawing canvas recipe to get a better grasp of how a simple Vulkan drawing canvas can be implemented.

How to do it...

What we need at this point essentially boils down to decomposing a 2D chart or graph into a set of lines. Let's go through the code to see how to do it:

  1. We introduce the LinearGraph class to render a graph of floating-point values. It stores a collection of values and the maximum number of points that should be visible on the screen. A deque is used here for the sake of simplicity:
    class LinearGraph {
      std::deque<float> graph_;
      const size_t maxPoints_;
    public:
     ...
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