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I am going to calculate the shortest distance from a point to a triangle(3d). I have projected the point to the plane of the triangle and than taken the barycentric coordinates of the projection of the point. But i could not find a way to clamp the coordinates to always be inside the triangle.

when searching I've only found the 0 <= [u,v,w] and u+v+w = 1. but how would this be solved?

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If the projection on the plane is not in the triangle, you can forget it and look at the distance to the segments. – Marc Glisse Jan 22 '13 at 20:26
oh, dident think of that. still if its possible to clamp, it would probably be faster. – lasvig Jan 22 '13 at 20:54
up vote 0 down vote accepted

You can't clamp a point to a triangle that way if you want to find the shortest distance from a point to a triangle. Distance is in Cartesian space, whereas barycentric coordinates are not.

In order to determine the distance of a point to a triangle that is outside the triangle, you need to determine which feature of the triangle the point is closest to (line segment, or corner), then the distance to that feature. Clamping barycentric coordinates in any way that does not take into account the transformation back to Cartesian space will simply not work.

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Are you sure? The method i described gave me a pretty good result for my purpose (voxelicing mesh). Ofcourse i dont calculate the distance in barycentric space, but convert the clamped point back to world space again. Might do some tests later to ceck accuracy. – lasvig Jan 24 '13 at 5:11
@lasvig, clamping in barycentric space gets you the distance to a point on the triangle. That point on the triangle is not necessarily the closest point on the triangle to the query point. – MSN Jan 24 '13 at 20:41
that make sense. Thanks. – lasvig Jan 25 '13 at 4:48

u, v and w need to be clamped between 0..1. That's it.

So for example

[u,v,w] = [-0.17, 0.64, 1.85]

on the triangle would be

[u,v,w] = [0, 0.64, 1]
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And what do you do with those "clamped" u, v and w? What do they mean? – Marc Glisse Jan 22 '13 at 20:55
would that actually clamp it to the closest point to the original coords? i tried this before, but it might be some error in my test code. will try some more. – lasvig Jan 22 '13 at 21:42
It's legal to have barycentric coords where u + v + w != 1? – chris varnz Aug 17 '15 at 16:19
Yes. Barycentric coordinates are homogeneous. This means that [u,v,w] and [2u,2v,2w] point to the same location. So you can always divide by a scalar to make u+v+w=1 but you don't have to. To extract the (x,y) coordinates in the end you would need to do the division, but mathematically speaking any value is valid. – ja72 Aug 17 '15 at 16:56

Try clamping u and v to 0..1 and then set w = 1 - u - v to keep the normalization constraint.

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tried it and it dident seem to work but my code might be wrong, trying to fix to test again. – lasvig Jan 22 '13 at 21:44

In case anyone want to know, I solved it by first clamping u and v and w = 1 - u - v than clamping u and w and v = 1 - u - w than clamping v and w and u = 1 - v - w

the other 2 suggested solutions gave me weird outputs and dident seem to clamp correctly.

there is probably better/faster ways of doing it but for now this work.

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