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I have a simple task: I have 10,000 3D boxes, each with a x,y,z, width, height, depth, rotation, and color. I want to throw them into a 3D space, visualize it, and let the user fly through it using the mouse. Is there an easy way to put this together?

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Do you have a language and graphics library you are using? Or is your question about what language and graphics library to use? –  jball Jun 30 '11 at 19:22
    
I have no restrictions! I can use ANYTHING. I'm looking for suggestions. –  vy32 Jul 1 '11 at 0:12
    
I found this good list comparing 3D Game engines: en.wikibooks.org/wiki/Python_Programming/… –  vy32 Jul 2 '11 at 1:09

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up vote 3 down vote accepted

One easy way of doing this using recent (v 3.2) OpenGL would be:

  • make an array with 8 vertices (the corners of a cube), give them coordinates on the unit cube, that is from (-1,-1, -1) to (1, 1, 1)
  • create a vertex buffer object
  • use glBufferData to get your array into the vertex buffer
  • bind the vertex buffer
  • create, set up, and bind any textures that you may want to use (skip this if you don't use textures)
  • create a vertex shader which applies a transform matrix that is read from "some source" (see below) according to the value of gl_InstanceID
  • compile the shader, link the program, bind the program
  • set up the instance transform data (see below) for all cube instances
  • depending on what method you use to communicate the transform data, you may draw everything in one batch, or use several batches
  • call glDrawElementsInstanced N number of times with count set to as many elements as will fit into one batch
  • if you use several batches, update the transform data in between
  • the vertex shader applies the transform in addition to the normal MVP stuff

To communicate the per-cube transform data, you have several alternatives, among them are:

  • uniform buffer objects, you have a guaranteed minimum of 4096 values, respectively 256 4x4 matrices, but you can query the actual value
  • texture buffer objects, again you have a guaranteed minimum of 65536 values, respectively 4096 4x4 matrices (but usually something much larger, my elderly card can do 128,000,000 values, you should query the actual value)
  • manually set uniforms for each batch, this does not need any "buffer" stuff, but is most probably somewhat slower

Alternatively: Use pseudo-instancing which will work even on hardware that does not support instancing directly. It is not as elegant and very slightly slower, but it does the job.

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Gosh, that does not seem easy. –  vy32 Jul 2 '11 at 1:09
    
Well, you can just transform and draw them all individually using glRotate. glTranslate, and glDrawElements. That's easy, but it does not scale well to 10,000+ instances. Pseudo-instancing (read the link) is still comparatively easy. –  Damon Jul 2 '11 at 14:13
    
Still seems like a lot more code than I was thinking of doing. I'm looking right now at Panda3D and have modified the Disco-Lights demo to display 10,000 moving spheres. I need to figure out how to create my own box, though, rather than using a sphere that gets loaded. So I guess I need to read the manual. That's tonight's project. I will post the code when I am done. –  vy32 Jul 2 '11 at 23:39
    
I coded up the 10,000 objects. You are correct. It was easy but it did not scale above 10,000 instances. But it was sufficient for what I needed to do. –  vy32 Apr 2 '12 at 10:05

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