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OpenGL 4 Shading Language Cookbook

You're reading from   OpenGL 4 Shading Language Cookbook Build high-quality, real-time 3D graphics with OpenGL 4.6, GLSL 4.6 and C++17

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Product type Paperback
Published in Sep 2018
Publisher Packt
ISBN-13 9781789342253
Length 472 pages
Edition 3rd Edition
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Authors (2):
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David A Wolff David A Wolff
Author Profile Icon David A Wolff
David A Wolff
David Wolff David Wolff
Author Profile Icon David Wolff
David Wolff
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Table of Contents (13) Chapters Close

Preface 1. Getting Started with GLSL FREE CHAPTER 2. Working with GLSL Programs 3. The Basics of GLSL Shaders 4. Lighting and Shading 5. Using Textures 6. Image Processing and Screen Space Techniques 7. Using Geometry and Tessellation Shaders 8. Shadows 9. Using Noise in Shaders 10. Particle Systems and Animation 11. Using Compute Shaders 12. Other Books You May Enjoy

Animating a surface with vertex displacement


A straightforward way to leverage shaders for animation is to simply transform the vertices within the vertex shader based on some time-dependent function. The OpenGL application supplies static geometry, and the vertex shader modifies the geometry using the current time (supplied as a uniform variable). This moves the computation of the vertex position from the CPU to the GPU, and leverages whatever parallelism the graphics driver makes available.

In this example, we'll create a waving surface by transforming the vertices of a tessellated quad based on a sine wave. We'll send down the pipeline a set of triangles that make up a flat surface in the x-z plane. In the vertex shader, we'll transform the y coordinate of each vertex based on a time-dependent sine function, and compute the normal vector of the transformed vertex. The following image shows the desired result (you'll have to imagine that the waves are travelling across the surface from...

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