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I have some face normals and I need to calculate the angle between the faces they belong to. The problem I'm having is with finding angles between faces when the angle is greater than 180 - I can't figure out how to tell the difference between an angle of 45 and an angle of 315.

edit2: I have access to the obj file defining the model, what information would i need to differentiate between 45' and 315'? Also, I am building the (low-poly) models used, so I can guarantee no intersecting faces, etc.


ang = math.acos(dotproduct(v1, v2) / (length(v1) * length(v2)))

ang = math.degrees(ang)

ang = 360 - (ang + 180)
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maybe you should post your code, what you've tried so far. (Maybe even in pseudo code) – gideon Mar 18 '11 at 17:05
up vote 5 down vote accepted

Ensure that your normals are unit length (divide by their length if necessary). Then find the dot product.

dp = n1.x*n2.x + n1.y*n2.y + n1.z*n2.z

This will give a value in [-1 to 1].
If dp is negative, the angle is greater than 90 degrees.

To find the angle, use arc-cosine.

θ = acos(dp);

That will give you the value in radians. To convert to degrees, multiply by 180/pi.

Edit: Assume the faces are defined as polygons. If the faces are not co-planar, there must exist one point in each face's polygon definition that is not co-planar with the other polygon. Consider two triangles: if one edge is connected, they share two vertices but each have one un-shared vertex. I'll call these v1 and v2 associated respectively with normals n1 and n2. Find the vector from v1 to v2:

m = v2-v1

If the angle between m and n1 is greater than 90 [dotP(m,n1)<0] then the polygons face away from each other. If the angle is less than 90, the polygons are facing toward each other. If the angle is 90 degrees, then I think that the polygons are co-planar (or one of your chosen points is on the line of planar intersection or I've missed a case in my thinking).

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Wouldn't the angle between the faces be 180 - (angle between normals) (assuming angle-between-normals < 180)? – BlueRaja - Danny Pflughoeft Mar 18 '11 at 17:10
Also note that using a dot product there's no way to differentiate between 45' and 315' – Alnitak Mar 18 '11 at 17:31
There's also no difference between 45 and 315 degrees. Or rather, you can't really have an angle of 315 between two vectors. It doesn't make sense. If you want the counter-clockwise angle between two 2D vectors: n2 with respect to n1, then you should find: atan2(n2.y,n2.x) and atan2(n1.y,n1.x), then subtract the angle of n1 from n2 (and then ensure a positive value). – JCooper Mar 18 '11 at 17:40
@BlueRaja I guess I consider the normal of the face to define the direction it's 'facing'. To calculate the angle made at the joining point of two faces, you need more information: you need to have two reference points-- one on each of the faces. – JCooper Mar 18 '11 at 17:52
Actually, that's probably not true since the surfaces could be intersecting, in which case the question is hard to answer. I guess you need the point of intersection and then a vector that defines which way is 'out'. – JCooper Mar 18 '11 at 18:06

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