I have a very large scene to render (approx > 10-20M polygons) , using three.js , with an acceptable framerate.
So I am implementing some basic occlusion culling using a WebGL2 renderer . and here's my problem :
I want to squeeze every performances I can from three.js. In this scene , there are hundreds of thousands of different individual meshes .
Every mesh has to compute it's own bounding box... that means hundreds of thousands of B-Boxes ...
And I don't think that issuing hundreds of thousands visibility queries would be very fast.
So is it possible to merge all these bounding boxes , send only one visibility query draw call , and somehow retrieve every bounding box and it's own visibility query result?

  • I'm a little confused. Are you computing the bounding boxes every time you want to calculate occlusion? Calculating a geometry's bounding box should be one-and-done. Do it once when you first create the geometry, and it won't change (unless you change the geometry). You could even create a second bounding box stored in the mesh which bakes-in the mesh's transformation. You only need to "re-bake" the mesh's bounding box when its transformation matrix changes. – TheJim01 Aug 10 '17 at 14:37
  • hello @TheJim01 , I am not re-computing the bboxes while rendering ... I do it only once ... The problem here is not computing the boxes ... it's rather a visibility query for every box. And to make a visibility query , you have to send a draw call for every box. And I am wondering if we could send all these boxes in a single draw call , instead of querying visibility for each box. – HamilcarR Aug 10 '17 at 14:51
  • Sounds expensive no matter what you do. Could some (admittedly hacky) ray-casting help? Fire a ray form each corner of your boxes toward the camera. If they all intersect another box, the mesh is occluded. I honestly don't know if that will be better or worse for you. Have you considered doing size culling instead? I've sent lists of bounding spheres and the camera position into a webworker, and it spits out which ones are too small to care about anymore. It's async, but better than nothing. – TheJim01 Aug 10 '17 at 14:59
  • I actually gave a thought to this raycasting method like 1 week ago, but it will not work. think about it , if your object's 4 corners are occluded by 4 different meshes , but not the center , it will be invisible even though it shouldn't. I am trying another way... I am going to give to each box a unique vertex RGB color ID I will then batch the whole bounding boxes scene together I will then render the scene in a texture and then apply either some mip mapping algorithm or just retrieve that texture's mipmap and then I will fetch which colors has been recorded on the texture – HamilcarR Aug 10 '17 at 15:24
  • That approach is similar to GPU picking. I was going to suggest something similar, but thought the extra render + processing might be as expensive as anything else. – TheJim01 Aug 10 '17 at 15:46

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