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muse:
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his
column is dedicated to the use, creation, distribution, and dissussion of
computer graphics tools for Linux systems.
After much delay I've finally started learning about the Blue Moon Rendering Tools (BMRT). It seemed only natural that I take what I learned and pass it on to my readers. So, starting this month, I'm going to do a three part series on BMRT and RenderMan® shaders. I've gotten help, of course. My thanks go out to Paul Sargent for providing example code and a place to bounce ideas off and to Larry Gritz, author of BMRT, for general support and technical assistance. The first in this 3 part series is an introduction to the tools and some relatively simple examples on how to use them. Although the BMRT articles are a big project in themselves, I don't want to devote 3 entire issues of the Muse to just BMRT. In this months column I'll also be covering a few other topics.
I was going to do a bit on John Beale's wonderful tool, HF-Lab, this month but decided to wait until next month. I happened to run across a few other POV-Ray tips recently and thought that the set of tips along with the HF-Lab review would fit well together. Look for them next month. An update on my crashed system woes: my little network at home uses a 386 16Mhz Dell computer as a server for doing backups. I had set it up but had not implemented the backups when my main system bit the bucket. After getting my main system running again I ended up with some extra drives that I wanted to put in my server. I first tried to make backups of my main system, across the network, using a version of taper that I had installed on my main system and just copied over to the server. That sort of worked, but for some reason taper wouldn't see some of my target directories. I figured it was incompatible with the installation I had on the 386, so I upgraded to Linux Pro (which is what I installed on my main system). Mistake. The server stopped working. The problem is a secondary IDE that I added to make use of the extra hard disks. I mucked with it for a week, got fed up and now have a new Cyrix 166, motherboard, and mini tower on order. The motherboard and 166 are going in the main box, and the old 486 and motherboard are going in the mini tower. I'm retiring the 386. It will take its rightful place next to my retired Wyse286 PC with its 20M hard drive. I never wanted to be a system administrator. I just want to use my systems. sigh At least with Linux I have more control over what I use. So, one month after disaster hit I still don't have reliable backups running. There is money to be made in making backups easy for Linux users. I guarantee it.
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Disclaimer: Before I get too far into this I should note that any of the news items I post in this section are just that - news. Either I happened to run across them via some mailing list I was on, via some Usenet newsgroup, or via email from someone. I'm not necessarily endorsing these products (some of which may be commercial), I'm just letting you know I'd heard about them in the past month.
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GIFWizardIf you'd like to reduce the size of your GIF images but don't really know how to do it on your own, there is a free online service you can try. The GIF Wizard (http://www.raspberryhill.com/gifwizard.html) will work with images already on the Net (you provide a URL for the image) or on images on your hard drive. Note: Definitely don't ask me about this service - I haven't used it and only offer the info here because it looked like it might be of interest to some of my readers. |
Tnpic - GIF/JPEG indexerTnpic, from Russell Marks (who doesn't have email access anymore), is a GIF/JPEG indexer that used to be bundled with zgv up until version 2.3. The index is output as a JPEG. Tnpic is available from sunsite.unc.edu /pub/Linux/apps/graphics/tnpic-2.4.tar.gz
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Ra-vecRa-vec is a new free application for Linux, SGi and Sun's from Rob Aspin that converts X Bitmaps, such as 2D plan drawings (architect's drawings), into a vector format which can be read by the 3D modeling package AC3D (see the January 1997 issue). Using Ra-vec, complex 3D models and environments may be rapidly prototyped, reducing overall development time.To download a free copy of the software got to: http://www.comp.lancs.ac.uk/computing/users/aspinr/ra-vec.html. |
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VARKON for LinuxVARKON is a high level development tool for CAD and Product Modelling appliactions from Microform AB, SWEDEN. The system includes a very powerful modelling language called MBS and an interactive environment for traditional modelling and developing MBS-applications.
Keywords are:
You can also download a restricted but free demo-version of the system for Windows95. |
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QuickCam ResourcesInterested in doing some work with the Connectix QuickCam? Thats the little round camera that has become very popular with Windows and Mac users. Russ Nelson (of the old Packet Drivers fame, for those of you who remember that software) maintains a very good resource page for the QuickCam at www.crynwr.com/qcpc. It contains links to drivers and applications for many operating systems, including Linux and other PC based Unices.Connectix also maintains a page for developers. They offer lots of information and require only that you register for their developers program, which costs nothing. You can find them at www.connectix.com/connect/developer.html If you're looking for a Linux driver for the Color QuickCam, check The SANE Project, a project to develop a generic interface to various types of media devices, such as scanners and the QuickCam. This package also contains a frontend to the Color QuickCam driver. For those of you in the US wondering what these little gadgets cost, CompUSA sells the Color QuickCams for about $249. |
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Did You Know?There are many places to find information about OpenGL on the Internet. The following is only a small list:
Q and A Q: Is displacment mapping the same thing as reaction-diffusion? A: No. Reaction-diffusion simulates the mixing of chemicals, which is theorized to have something to do with certain organic texture patterns, like leopard skin. Bump mapping is perturbing the normal of an object to simulate bumps, but without actually moving points on the surface. Displacement mapping does what bump mapping merely simulates - it actually distorts the surface points of the object which is being mapped. This avoids artifacts you get from the bump mapping approximation (like actually making the silhouettes rough). You can think of it as a height field over an arbitrary surface. Q: What is a stochastic raytracer and are there any freely available? A: "Stochastic sampling" or "distribution ray tracing" (it's not called distributed these days) refers to placing samples at irregular intervals, rather than regularly spacing them. It doesn't have anything to do with the number of rays per pixel -- 1 sample per pixel can easily be jittered, and 100 samples per pixel can be regularly spaced. Also, it's not dependent on ray tracing -- PRMan uses stochastic sampling and it uses a scanline method. Technically, stochastic sampling transfers high frequency signal energy above the Nyquist limit into noise, rather than having that energy alias as lower frequencies. It's just trading one artifact for another, but by coincidence the human visual system appears to find noise less objectionable than aliasing. BMRT is a stochastic raytracers. POV-Ray is reported to be (but no official word if it is or not). Others include (not all are raytracers): PRMan, Mental Ray, and Alias. Thanks to Larry Gritz for these definitions. Q: What is tessellation? A: Mark Kilgard writes the following in his OpenGL Programming for the X Window System: In computer graphics, tessellation is the process of breaking a complex geometric surface into simple convex polygons.The use of convex polygons allow for better performance in OpenGL. |
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OpenGL Programming for the X Windows System
Mark Kilgard Addison-Wesley Developers Press
There are a growing number of Application Programming
Interfaces (API's) available for Linux that enable software
developers to create programs that render 3D graphics.
Some of these are designed to allow programs to output
data files that can be used by rendering engines to create
a 3D image either to a display or to a file. The libribout.a
static library in the BMRT package is an example of this
kind of interface. It allows the software developer to
write a program to output a RIB formatted file which can
then be used by a RenderMan® compliant renderer.
Other tools are designed for interactive 3D display.
One such developer tool is OpenGL.
OpenGL is, if not the grandfather, the God Father
of all interactive 3D development tools.
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.The interface is a window system independent interface to graphics hardware. In order to use OpenGL with a particular windowing system it must be used with a supplemental API. This supplemental API allows OpenGL to create its graphics contexts and windows in which OpenGL will do its rendering. Linux uses as its windowing system the X Windowing system, as do most, if not all, other Unices. To use OpenGL with X Windows the software developer must become familiar with GLX, the X Extension for OpenGL, along with one or more toolkits such as the X Toolkit (Xt) and a widget set like Motif (Xm). This is not a simple task. Just learning Xm can be a full time occupation (I know, its what I do now). Fortunately, Mark Kilgard has provided a very thorough text on integrating OpenGL with the X environment: OpenGL Programming for the X Windows System. This text contains 6 detailed chapters, 1 chapter devoted to an example application, and a number of very useful appendices. The first two chapters introduce the reader to OpenGL and the two libraries that generally accompany it: GLU, the GL Utility library that is used for certain operations that are hardware inspecific such as polygon tesselation, and GLX. The introduction is quite good except for explaining the use of GLU. All OpenGL functions are prefixed with "gl" except for the GLU functions which are prefixed with "glu". I can understand why they did this, but it is confusing to remember that OpenGL is actually two sets of functions with different prefixes (as if the X Windows system didn't provide enough of these already).
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Linux Graphics mini-Howto
Unix Graphics Utilities
Linux Multimedia Page
Some of the Mailing Lists and Newsgroups I keep an eye on and where I get much of the information in this column:
The Gimp User and Gimp Developer Mailing Lists.
The IRTC-L discussion list
comp.graphics.rendering.raytracing
comp.graphics.rendering.renderman
comp.os.linux.announce
Future Directions
Next month: