# OpenGL ES/real time/position of any vertex that is displayed?

I'm currently dealing with OpenGL ES (2, iOS 6)… and I have a question

i. Let be a mesh that has to be drawn. Moreover,

ii. I can ask for a rotation/translation so that the point of view changes.

So, how can I know (in real time) the position of any vertex that is displayed?

jgapc

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It's not entirely clear what it is you are after, but if you want to know where your object is after doing a bunch of rotations and translations, then one very easy option, if you perform these changes in your program code instead of in the shader, is to simply take the entire last row or column of your transformation matrix (depends if you are using row or column major matrices) which will be the final translation of your object's center as a coordinate vector.

This last row or column is the same thing as multiplying your final transformation matrix by your object's local coordinate center vector, which is (0,0,0,1).

If you want to know where an object's vertex is, rather than the object's center, then multiply that vertex in local coordinate space by the final transformation matrix, and you will get the new coordinate where that vertex is positioned.

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Upvote for suggesting the clever last row/col trick. However, as extensive discussion revealed, OP wanted the transformed vertices. –  Rahul Banerjee Apr 2 '13 at 5:59
As I noted, the transformed vertices can also be achieved the same way, the math is just slightly more complicated since the vertices are not at the origin. –  OpenLearner Apr 2 '13 at 6:01
Thanks Herr Bach for your detailed answer. That is smart. But this implies that I have to postmultiply all vertices (since I don't know what vertex is displayed (or abour to be)) and then deal with all data- even if 1% of the shape is currently displayed. Am I right? –  jgapc Apr 2 '13 at 6:05
Using this method you would indeed need to do some vertex multiplications in your code and look at them. Alternately, if you use a scenegraph and/or octree-type organization of objects, you could manage information about what is actually visible that way, but it might be more intense than you need right now. (Many graphics/games engines employ these techniques). –  OpenLearner Apr 2 '13 at 6:11
Thanks, I will follow your maths. To avoid slow computation, maybe could I split the mesh into subsets and order them (on screen, adjacent= about to be, off screen). I'll come to more intense code when I'm ready for it. –  jgapc Apr 2 '13 at 6:21

There are two things I'd like to point out:

1. Back-face culling discards triangles, not vertices.
2. Triangles are also clipped so that they're within the viewing frustum.

I'm curious as to why you care about what is not displayed?

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Thank you Rahul for having replied, and for your precision! I have edited my question so that what I'm aiming to is clear. –  jgapc Apr 2 '13 at 4:56
You're welcome @jgapc! I don't know about only the displayed vertices, but you could always multiply them by the ModelviewProjectionMatrix. Caveat: you should generate it yourself. See this. After transforming them, normalize the result (divide each of `x`, `y` and `z` by the fourth coordinate `w`). Once you've done this, you can do a simple "check 2D bounds" test to see if they're within your view frustum. –  Rahul Banerjee Apr 2 '13 at 5:12
Another thing... OpenGL ES 2.0 does not have transform feedback (where you can get the post-transform vertex data). See this. –  Rahul Banerjee Apr 2 '13 at 5:16
Thanks for the doc. It's always good to keep track of what is deprecated ;) I guess your suggestion is the most straightforward thing to do. It's just a kind of bit frustrating to think that the GPU «knows" what is on display and is off the screen… but not me, unless I implement a test to figure it out ( if p(x,y,z)=(y,z)< Bound then etc.). –  jgapc Apr 2 '13 at 5:24
Yeah, it seems that way. Unless it's top-secret, mind sharing what you're trying to achieve? There might be a simpler way to solve your original problem... –  Rahul Banerjee Apr 2 '13 at 5:26