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OpenGL Programming Guide: The Official Guide to Learning OpenGL, Release 1 PDF

362 Pages·1993·2.381 MB·English
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OpenGL Programming Guide (Addison-Wesley Publishing Company): Table of Contents OpenGL Programming Guide or 'The Red Book' l A bout This Guide l C hapter 1: Introduction to OpenGL l C hapter 2: Drawing Geometric Objects l C hapter 3: Viewing l C hapter 4: Display Lists l C hapter 5: Color l C hapter 6: Lighting l C hapter 7: Blending, Antialiasing, and Fog l C hapter 8: Drawing Pixels, Bitmaps, Fonts, and Images l C hapter 9: Texture Mapping l C hapter 10: The Framebuffer l C hapter 11: Evaluators and NURBS l C hapter 12: Selection and Feedback l C hapter 13: Now That You Know l A ppendix A: Order of Operations l A ppendix B: OpenGL State Variables l A ppendix C: The OpenGL Utility Library l A ppendix D: The OpenGL Extension to the X Window System l A ppendix E: The OpenGL Programming Guide Auxiliary Library l A ppendix F: Calculating Normal Vectors l A ppendix G: Homogeneous Coordinates and Transformation Matrices l A ppendix H: Programming Tips l A ppendix I: OpenGL Invariance l A ppendix J: Color Plates l G lossary (not included in this version) This easily downloadable version was compiled by UnreaL. See the about page for copyright, authoring and distribution information. http://fly.srk.fer.hr/~unreal/theredbook/ (1 of 2) [4/8/2000 3:10:05 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company): Table of Contents You can also download these pages in zipped format here. http://fly.srk.fer.hr/~unreal/theredbook/ (2 of 2) [4/8/2000 3:10:05 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) (HTML edition information) OpenGL Programming Guide The Official Guide to Learning OpenGL, Release 1 OpenGL Architecture Review Board Jackie Neider Tom Davis Mason Woo Addison-Wesley Publishing Company Reading, Massachusetts Menlo Park, CaliforniaNew York Don Mills, Ontario Wokingham, EnglandAmsterdam Bonn Sydney Singapore Tokyo MadridSan Juan Paris Seoul Milan Mexico City Taipei Silicon Graphics, the Silicon Graphics logo, and IRIS are registered trademarks and OpenGL and IRIS Graphics Library are trademarks of Silicon Graphics, Inc. X Window System is a trademark of Massachusetts Institute of Technology. Display PostScript is a registered trademark of Adobe Systems Incorporated. The authors and publishers have taken care in preparation of this book, but make no expressed or implied warranty of any kind and assume no responsibility for errors or omissions. No liability is assumed for incidental or consequential damages in connection with or arising out of the use of the information or programs contained herein. Copyright © 1994 by Silicon Graphics, Inc. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without the prior written permission of the publisher. Printed in the United States of America. Published simultaneously in Canada. Authors: Jackie Neider, Tom Davis, and Mason Woo Sponsoring Editor: David Rogelberg Project Editor: Joanne Clapp Fullagar Cover Image: Thad Beier Cover Design: Jean Seal http://fly.srk.fer.hr/~unreal/theredbook/about.html (1 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) Text Design: Electric Ink, Ltd., and Kay Maitz Set in 10-point Stone Serif ISBN 0-201-63274-8 First Printing, 1993 123456789-AL-9695949392 About This Guide The OpenGL graphics system is a software interface to graphics hardware. (The GL stands for Graphics Library.) It allows you to create interactive programs that produce color images of moving three-dimensional objects. With OpenGL, you can control computer-graphics technology to produce realistic pictures or ones that depart from reality in imaginative ways. This guide explains how to program with the OpenGL graphics system to deliver the visual effect you want. What This Guide Contains This guide has the ideal number of chapters: 13. The first six chapters present basic information that you need to understand to be able to draw a properly colored and lit three-dimensional object on the screen: Chapter 1, "Introduction to OpenGL," provides a glimpse into the kinds of things OpenGL can do. It also presents a simple OpenGL program and explains essential programming details you need to know for subsequent chapters. Chapter 2, "Drawing Geometric Objects," explains how to create a three-dimensional geometric description of an object that is eventually drawn on the screen. Chapter 3, "Viewing," describes how such three-dimensional models are transformed before being drawn onto a two-dimensional screen. You can control these transformations to show a particular view of a model. Chapter 4, "Display Lists," discusses how to store a series of OpenGL commands for execution at a later time. You'll want to use this feature to increase the performance of your OpenGL program. Chapter 5, "Color," describes how to specify the color and shading method used to draw an object. Chapter 6, "Lighting," explains how to control the lighting conditions surrounding an object and how that object responds to light (that is, how it reflects or absorbs light). Lighting is an important topic, since objects usually don't look three-dimensional until they're lit. http://fly.srk.fer.hr/~unreal/theredbook/about.html (2 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) The remaining chapters explain how to add sophisticated features to your three-dimensional scene. You might choose not to take advantage of many of these features until you're more comfortable with OpenGL. Particularly advanced topics are noted in the text where they occur. Chapter 7, "Blending, Antialiasing, and Fog," describes techniques essential to creating a realistic scene - alpha blending (which allows you to create transparent objects), antialiasing, and atmospheric effects (such as fog or smog). Chapter 8, "Drawing Pixels, Bitmaps, Fonts, and Images," discusses how to work with sets of two-dimensional data as bitmaps or images. One typical use for bitmaps is to describe characters in fonts. Chapter 9, "Texture Mapping," explains how to map one- and two-dimensional images called textures onto three-dimensional objects. Many marvelous effects can be achieved through texture mapping. Chapter 10, "The Framebuffer," describes all the possible buffers that can exist in an OpenGL implementation and how you can control them. You can use the buffers for such effects as hidden-surface elimination, stenciling, masking, motion blur, and depth-of-field focusing. Chapter 11, "Evaluators and NURBS," gives an introduction to advanced techniques for efficiently generating curves or surfaces. Chapter 12, "Selection and Feedback," explains how you can use OpenGL's selection mechanism to select an object on the screen. It also explains the feedback mechanism, which allows you to collect the drawing information OpenGL produces rather than having it be used to draw on the screen. Chapter 13, "Now That You Know," describes how to use OpenGL in several clever and unexpected ways to produce interesting results. These techniques are drawn from years of experience with the technological precursor to OpenGL, the Silicon Graphics IRIS Graphics Library. In addition, there are several appendices that you will likely find useful: Appendix A, "Order of Operations," gives a technical overview of the operations OpenGL performs, briefly describing them in the order in which they occur as an application executes. Appendix B, "OpenGL State Variables," lists the state variables that OpenGL maintains and describes how to obtain their values. Appendix C, "The OpenGL Utility Library," briefly describes the routines available in the OpenGL Utility Library. Appendix D, "The OpenGL Extension to the X Window System," briefly describes the routines http://fly.srk.fer.hr/~unreal/theredbook/about.html (3 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) available in the OpenGL extension to the X Window System. Appendix E, "The OpenGL Programming Guide Auxiliary Library," discusses a small C code library that was written for this book to make code examples shorter and more comprehensible. Appendix F, "Calculating Normal Vectors," tells you how to calculate normal vectors for different types of geometric objects. Appendix G, "Homogeneous Coordinates and Transformation Matrices," explains some of the mathematics behind matrix transformations. Appendix H, "Programming Tips," lists some programming tips based on the intentions of the designers of OpenGL that you might find useful. Appendix I, "OpenGL Invariance," describes the pixel-exact invariance rules that OpenGL implementations follow. Appendix J, "Color Plates," contains the color plates that appear in the printed version of this guide. Finally, an extensive Glossary defines the key terms used in this guide. How to Obtain the Sample Code This guide contains many sample programs to illustrate the use of particular OpenGL programming techniques. These programs make use of a small auxiliary library that was written for this guide. The section "OpenGL-related Libraries" gives more information about this auxiliary library. You can obtain the source code for both the sample programs and the auxiliary library for free via ftp (file-transfer protocol) if you have access to the Internet. First, use ftp to go to the host sgigate.sgi.com, and use anonymous as your user name and your_name@machine as the password. Then type the following: cd pub/opengl binary get opengl.tar.Z bye The file you receive is a compressed tar archive. To restore the files, type: uncompress opengl.tar tar xf opengl.tar The sample programs and auxiliary library are created as subdirectories from wherever you are in the file directory structure. Many implementations of OpenGL might also include the code samples and auxiliary library as part of the system. This source code is probably the best source for your implementation, because it might http://fly.srk.fer.hr/~unreal/theredbook/about.html (4 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) have been optimized for your system. Read your machine-specific OpenGL documentation to see where the code samples can be found. What You Should Know Before Reading This Guide This guide assumes only that you know how to program in the C language and that you have some background in mathematics (geometry, trigonometry, linear algebra, calculus, and differential geometry). Even if you have little or no experience with computer-graphics technology, you should be able to follow most of the discussions in this book. Of course, computer graphics is a huge subject, so you may want to enrich your learning experience with supplemental reading: Computer Graphics: Principles and Practice by James D. Foley, Andries van Dam, Steven K. Feiner, and John F. Hughes (Reading, Mass.: Addison-Wesley Publishing Co.) - This book is an encyclopedic treatment of the subject of computer graphics. It includes a wealth of information but is probably best read after you have some experience with the subject. 3D Computer Graphics: A User's Guide for Artists and Designers by Andrew S. Glassner (New York: Design Press) - This book is a nontechnical, gentle introduction to computer graphics. It focuses on the visual effects that can be achieved rather than on the techniques needed to achieve them. Once you begin programming with OpenGL, you might want to obtain the OpenGL Reference Manual by the OpenGL Architecture Review Board (Reading, Mass.: Addison-Wesley Publishing Co., 1993), which is designed as a companion volume to this guide. The Reference Manual provides a technical view of how OpenGL operates on data that describes a geometric object or an image to produce an image on the screen. It also contains full descriptions of each set of related OpenGL commands - the parameters used by the commands, the default values for those parameters, and what the commands accomplish. "OpenGL" is really a hardware-independent specification of a programming interface. You use a particular implementation of it on a particular kind of hardware. This guide explains how to program with any OpenGL implementation. However, since implementations may vary slightly - in performance and in providing additional, optional features, for example - you might want to investigate whether supplementary documentation is available for the particular implementation you're using. In addition, you might have OpenGL-related utilities, toolkits, programming and debugging support, widgets, sample programs, and demos available to you with your system. Style Conventions These style conventions are used in this guide: Bold - Command and routine names, and matrices Italics - Variables, arguments, parameter names, spatial dimensions, and matrix components http://fly.srk.fer.hr/~unreal/theredbook/about.html (5 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) Regular - Enumerated types and defined constants Code examples are set off from the text in a monospace font, and command summaries are shaded with gray boxes. Topics that are particularly complicated - and that you can skip if you're new to OpenGL or computer graphics - are marked with the Advanced icon. This icon can apply to a single paragraph or to an entire section or chapter. Advanced Exercises that are left for the reader are marked with the Try This icon. Try This Acknowledgments No book comes into being without the help of many people. Probably the largest debt the authors owe is to the creators of OpenGL itself. The OpenGL team at Silicon Graphics has been led by Kurt Akeley, Bill Glazier, Kipp Hickman, Phil Karlton, Mark Segal, Kevin P. Smith, and Wei Yen. The members of the OpenGL Architecture Review Board naturally need to be counted among the designers of OpenGL: Dick Coulter and John Dennis of Digital Equipment Corporation; Jim Bushnell and Linas Vepstas of International Business Machines, Corp.; Murali Sundaresan and Rick Hodgson of Intel; and On Lee and Chuck Whitmore of Microsoft. Other early contributors to the design of OpenGL include Raymond Drewry of Gain Technology, Inc., Fred Fisher of Digital Equipment Corporation, and Randi Rost of Kubota Pacific Computer, Inc. Many other Silicon Graphics employees helped refine the definition and functionality of OpenGL, including Momi Akeley, Allen Akin, Chris Frazier, Paul Ho, Simon Hui, Lesley Kalmin, Pierre Tardiff, and Jim Winget. Many brave souls volunteered to review this book: Kurt Akeley, Gavin Bell, Sam Chen, Andrew Cherenson, Dan Fink, Beth Fryer, Gretchen Helms, David Marsland, Jeanne Rich, Mark Segal, Kevin P. Smith, and Josie Wernecke from Silicon Graphics; David Niguidula, Coalition of Essential Schools, Brown University; John Dennis and Andy Vesper, Digital Equipment Corporation; Chandrasekhar Narayanaswami and Linas Vepstas, International Business Machines, Corp.; Randi Rost, Kubota Pacific; On Lee, Microsoft Corp.; Dan Sears; Henry McGilton, Trilithon Software; and Paula Womak. Assembling the set of colorplates was no mean feat. The sequence of plates based on the cover image (Figure J-1 through Figure J-9 ) was created by Thad Beier of Pacific Data Images, Seth Katz of Xaos Tools, Inc., and Mason Woo of Silicon Graphics. Figure J-10 through Figure J-32 are snapshots of programs created by Mason. Gavin Bell, Kevin Goldsmith, Linda Roy, and Mark Daly (all of Silicon Graphics) created the fly-through program used for Figure J-34 . The model for Figure J-35 was created by Barry Brouillette of Silicon Graphics; Doug Voorhies, also of Silicon Graphics, performed some image processing for the final image. Figure J-36 was created by John Rohlf and Michael Jones, both of Silicon Graphics. Figure J-37 was created by Carl Korobkin of Silicon Graphics. Figure J-38 is a snapshot from a program written by Gavin Bell with contributions from the Inventor team at Silicon Graphics - Alain Dumesny, Dave Immel, David Mott, Howard Look, Paul Isaacs, Paul Strauss, and Rikk Carey. Figure J-39 and Figure J-40 are snapshots from a visual simulation program created by the Silicon Graphics IRIS Performer team - Craig Phillips, John Rohlf, Sharon Fischler, Jim Helman, and Michael Jones - from a database produced for Silicon Graphics by Paradigm http://fly.srk.fer.hr/~unreal/theredbook/about.html (6 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) Simulation, Inc. Figure J-41 is a snapshot from skyfly, the precursor to Performer, which was created by John Rohlf, Sharon Fischler, and Ben Garlick, all of Silicon Graphics. Several other people played special roles in creating this book. If we were to list other names as authors on the front of this book, Kurt Akeley and Mark Segal would be there, as honorary yeoman. They helped define the structure and goals of the book, provided key sections of material for it, reviewed it when everybody else was too tired of it to do so, and supplied that all-important humor and support throughout the process. Kay Maitz provided invaluable production and design assistance. Kathy Gochenour very generously created many of the illustrations for this book. Tanya Kucak copyedited the manuscript, in her usual thorough and professional style. And now, each of the authors would like to take the 15 minutes that have been allotted to them by Andy Warhol to say thank you. I'd like to thank my managers at Silicon Graphics - Dave Larson and Way Ting - and the members of my group - Patricia Creek, Arthur Evans, Beth Fryer, Jed Hartman, Ken Jones, Robert Reimann, Eve Stratton (aka Margaret-Anne Halse), John Stearns, and Josie Wernecke - for their support during this lengthy process. Last but surely not least, I want to thank those whose contributions toward this project are too deep and mysterious to elucidate: Yvonne Leach, Kathleen Lancaster, Caroline Rose, Cindy Kleinfeld, and my parents, Florence and Ferdinand Neider. - JLN In addition to my parents, Edward and Irene Davis, I'd like to thank the people who taught me most of what I know about computers and computer graphics - Doug Engelbart and Jim Clark. - TRD I'd like to thank the many past and current members of Silicon Graphics whose accommodation and enlightenment were essential to my contribution to this book: Gerald Anderson, Wendy Chin, Bert Fornaciari, Bill Glazier, Jill Huchital, Howard Look, Bill Mannel, David Marsland, Dave Orton, Linda Roy, Keith Seto, and Dave Shreiner. Very special thanks to Karrin Nicol and Leilani Gayles of SGI for their guidance throughout my career. I also bestow much gratitude to my teammates on the Stanford B ice hockey team for periods of glorious distraction throughout the writing of this book. Finally, I'd like to thank my family, especially my mother, Bo, and my late father, Henry. - MW HTML Edition Information This book is freely accessible on the Internet at http://arctic.eng.iastate.edu:88/SGI_Developer/OpenGL_PG/. However, it is presented in a format unsuitable for download and off-line browsing, since it is accessed and cross-referenced using cgi scripts. I manually downloaded and edited all the text and figures, removed most of the links in the text and reformatted the chapters into single files. None of this was made for profit or for the purpose of violating copyright - the book was online, and I just made it easier to use and download. All the original copyright still remains. - UnreaL. http://fly.srk.fer.hr/~unreal/theredbook/about.html (7 of 8) [4/8/2000 3:11:18 PM] OpenGL Programming Guide (Addison-Wesley Publishing Company) http://fly.srk.fer.hr/~unreal/theredbook/about.html (8 of 8) [4/8/2000 3:11:18 PM]

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