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Computer Graphics for Java Programmers Leen Ammeraal

Computer Graphics for Java Programmers By Leen Ammeraal

Computer Graphics for Java Programmers by Leen Ammeraal

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Summary

The book covers elementary concepts - how to produce simple graphical objects using logical coordinates, producing filled regions etc. Reinforcing concepts with useful and simple examples, the book then progresses to applied geometry (vectors, polygons etc) and then onto how to perform rotations and other transformations of graphical objects.

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Computer Graphics for Java Programmers Summary

Computer Graphics for Java Programmers by Leen Ammeraal

A great many varied and interesting visual effects can be achieved with computer graphics, for which a fundamental understanding of the underlying mathematical concepts - and a knowledge of how they can be implemented in a particular programming language - is essential. Computer Graphics for Java Programmers, 2nd edition covers elementary concepts in creating and manipulating 2D and 3D graphical objects, covering topics from classic graphics algorithms to perspective drawings and hidden-line elimination. Completely revised and updated throughout, the second edition of this highly popular textbook contains a host of ready-to-run-programs and worked examples, illuminating general principles and geometric techniques. Ideal for classroom use or self-study, it provides a perfect foundation for programming computer graphics using Java.

About Leen Ammeraal

Leen Ammeraal is a retired lecturer of Hogeschool Utrecht, The Netherlands, where he was employed from 1977 to 1998. He has a degree (ir.) in mathematics at University of Technology Delft, The Netherlands. He worked as a programmer and mathematician at Akzo Research and Engineering, Arnhem, The Netherlands, from 1961 to 1972 and did research work on compilers from 1972 to 1977 at Mathematical Centre, Amsterdam. He wrote many books for Wiley (as well as for the Dutch publisher Academic Service). Some of his Wiley books have been translated into other languages (Japanese, Russian, Italian, French, German, Greek, Danish, Portuguese, Bulgarian). Kang Zhang is a Professor in Computer Science and Director of Visual Computing Lab at the University of Texas at Dallas. He received his B.Eng. in Computer Engineering from the University of Electronic Science and Technology, China, in 1982; and Ph.D. from the University of Brighton, UK, in 1990. He held academic positions in the UK and Australia, prior to joining UTD. Zhang's current research interests are in the areas of visual languages, graphical visualization, and Web engineering; and has published over 130 papers in these areas. He has taught computer graphics and related subjects at both graduate and undergraduate levels for many years. Zhang was also an editor of two books on software visualization.

Table of Contents

Preface. Chapter 1: Elementary Concepts. 1.1 Lines, Coordinates and Pixels. 1.2 The Boundaries of Filled Regions. 1.3 Logical Coordinates. 1.4 Anisotropic and Isotropic Mapping Modes. 1.5 Defining a Polygon by Using the Mouse. Exercises. Chapter 2: Applied Geometry. 2.1 Vectors. 2.2 Inner Product. 2.3 Determinants. 2.4 Vector Product. 2.5 The Orientation of Three Points. 2.6 Polygons. 2.7 The Area of a Polygon. 2.8 Point-in-Triangle Test. 2.9 Point-in-Polygon Test. 2.10 Point-on-Line Test. 2.11 Distance Between a Point and a Line. 2.12 Projection of a Point on a Line. 2.13 Triangulation of Polygons. Exercises. Chapter 3: Geometrical Transformations. 3.1 Matrix Multiplication. 3.2 Linear Transformations. 3.3 Translations. 3.4 Homogeneous Coordinates. 3.5 Inverse Transformations and Matrix Inversion. 3.6 Rotation About an Arbitrary Point. 3.7 Changing the Coordinate System. 3.8 Rotations About 3D Coordinate Axes. 3.9 Rotation About an Arbitrary Axis. Exercises. Chapter 4: Some Classic Algorithms. 4.1 Bresenham's Algorithm for Line Drawing. 4.2 Doubling the Line-Drawing Speed. 4.3 Circles. 4.4 Cohen-Sutherland Line Clipping. 4.5 Sutherland-Hodgman Polygon Clipping. 4.6 B-ezier Curves. 4.7 B-Spline Curve Fitting. Exercises. Chapter 5: Perspective. 5.1 Introduction. 5.2 The Viewing Transformation. 5.3 The Perspective Transformation. 5.4 A Cube in Perspective. 5.5 Some Useful Classes. 5.6 A General Program for Wire-Frame Models. Exercises. Chapter 6: Hidden-Line Elimination. 6.1 Line Segments and Triangles. 6.2 Tests for Visibility. 6.3 Specification and Representation of 3D Objects. 6.4 Holes and Invisible Line Segments. 6.5 Individual Faces and Line Segments. 6.6 Automatic Generation of Object Specification. 6.7 Hidden-Line Elimination with HP-GL Output. 6.8 Implementation. Exercises. Chapter 7: Hidden-Face Elimination. 7.1 Back-Face Culling. 7.2 Coloring Individual Faces. 7.3 Painter's Algorithm. 7.4 Z-Buffer Algorithm. Exercises. Chapter 8: Fractals. 8.1 Introduction. 8.2 Koch Curves. 8.3 String Grammars. 8.4 Mandelbrot and Julia Sets. Exercises. Appendix A - Linear Interpolation of 1/z. Appendix B - A Note on Event Handling. Appendix C - File Obj3D.java. Appendix D - Class CvHLines.java. Appendix E - Some Applications. Appendix F - Hints and Solutions to Exercises. Bibliography. Index.

Additional information

CIN0470031603VG
9780470031605
0470031603
Computer Graphics for Java Programmers by Leen Ammeraal
Leen Ammeraal
Used - Very Good
Paperback
John Wiley & Sons Inc
2007-01-12
396
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in very good condition, but if you are not entirely satisfied please get in touch with us

Customer Reviews - Computer Graphics for Java Programmers