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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

Using deferred shading


Deferred shading is a technique that involves postponing (or deferring) the lighting/shading step to a second pass. We do this (among other reasons) in order to avoid shading a pixel more than once. The basic idea is as follows:

  1. In the first pass, we render the scene, but instead of evaluating the reflection model to determine a fragment color, we simply store all of the geometry information (position, normal, texture coordinate, reflectivity, and so on) in an intermediate set of buffers, collectively called the g-buffer (g for geometry).
  2. In the second pass, we simply read from the g-buffer, evaluate the reflection model, and produce a final color for each pixel.

When deferred shading is used, we avoid evaluating the reflection model for a fragment that will not end up being visible. For example, consider a pixel located in an area where two polygons overlap. The fragment shader may be executed once for each polygon that covers that pixel; however, the resulting color...

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