Normalize Zero Vector?
#1
So, I've noticed that for a while, normalizing a zero-distance vector returns a nil value. Should this be fixed to return a zero vector? According to people on Stack Overflow, the normalized form of a zero vector is also a zero vector This would be useful so I don't have to check for nil values and use hackish workarounds.

http://stackoverflow.com/questions/72207...ero-vector
Reply
Thanks given by:
#2
When calling the Normalize function you normalize the vector you're calling the function on.. if that makes sense Wink
Reply
Thanks given by:
#3
I know that, but as the documentation for the Vector3d class says: Changes this vector so that it keeps current direction but is exactly 1 unit long. FIXME: Fails for a zero vector. If you set the coordinates for a vector, let's say, Direction. If you set each of Direction's coordinates to 0 then call Direction:Normalize(), the distance and each component become NaN when they should stay at 0.
Reply
Thanks given by:
#4
Oh, it shouldn't be too hard to do that right?
x = (x == 0) ? 0 : (1 / x);
y = (y == 0) ? 0 : (1 / y);
z = (z == 0) ? 0 : (1 / z);

This code doesn't work.
Reply
Thanks given by:
#5
I just feel that it should be handled by the server since it's a core function of a 3D vector. The API also says it's a "FIXME:." I'll probably look into making a patch or something, it should be really easy.
Reply
Thanks given by:
#6
Simply changing this line to something like:
double Len = 1.0 / (Length() == 0) ? 0.0000000001 : Length();
should work right?
Reply
Thanks given by:
#7
I think you should guide the optimizer to remove the double call to Length(), by storing it in a temporary variable.
Reply
Thanks given by: NiLSPACE
#8
Maybe something like this?
I'm not sure how much of a performance impact an if statement and 3 divides will make.

	inline void Normalize(void)
	{
		double Len = Length();

		// If the length is zero, the vector cannot possibly have a direction.
		if (Len == 0.0d)
		{
			x = static_case<T>(0);
			y = static_case<T>(0);
			z = static_case<T>(0);
			return;
		}

		x = static_cast<T>(x / Len);
		y = static_cast<T>(y / Len);
		z = static_cast<T>(z / Len);
	}

I guess this also applies to Vector3::NormalizeCopy().
Reply
Thanks given by:
#9
(updated your post to use the correct code tag)

Basically, yes, but you don't want to compare to zero exactly, you want to compare to an epsilon (abs(Len) < EPS) to accommodate for numerical inaccuracy.
Reply
Thanks given by:




Users browsing this thread: 7 Guest(s)