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OpenGL 4.0 Shading Language Cookbook

You're reading from   OpenGL 4.0 Shading Language Cookbook With over 60 recipes, this Cookbook will teach you both the elementary and finer points of the OpenGL Shading Language, and get you familiar with the specific features of GLSL 4.0. A totally practical, hands-on guide.

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Product type Paperback
Published in Jul 2011
Publisher Packt
ISBN-13 9781849514767
Length 340 pages
Edition 1st Edition
Tools
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Toc

Table of Contents (16) Chapters Close

OpenGL 4.0 Shading Language Cookbook
Credits
About the Author
About the Reviewers
www.PacktPub.com
Preface
1. Getting Started with GLSL 4.0 FREE CHAPTER 2. The Basics of GLSL Shaders 3. Lighting, Shading Effects, and Optimizations 4. Using Textures 5. Image Processing and Screen Space Techniques 6. Using Geometry and Tessellation Shaders 7. Shadows 8. Using Noise in Shaders 9. Animation and Particles Index

Tessellating a curve


In this recipe, we'll take a look at the basics of tessellation shaders by drawing a cubic Bezier curve . A Bezier curve is a parametric curve defined by four control points. The control points define the overall shape of the curve. The first and last of the four points define the start and end of the curve, and the middle points guide the shape of the curve, but do not necessarily lie directly on the curve itself. The curve is defined by interpolating the four control points using a set of blending functions . The blending functions define how much each control point contributes to the curve for a given position along the curve. For Bezier curves, the blending functions are known as the Bernstein polynomials .

In the preceding equation, the first term is the binomial coefficient function (shown in the following equation), n is the degree of the polynomial, i is the polynomial number, and t is the parametric parameter.

The general parametric form for the Bezier curve is...

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