# Angle, which way to rotate to

For a game i'm trying to calculate the angle between where i'm looking at and the position of another object in the scene. I got the angle by using the following code:

``````Vec3 out_sub;
Math.Subtract(pEnt->vOrigin, pLocalEnt->vOrigin, out_sub);
float angle = Math.DotProductAcos(out_sub, vec3LookAt);
``````

This code does give me the angle between where im looking at and an object in the scene. But there's a small problem.

When i don't directly look at the object but slightly to the left of it, then it says i have to rotate 10 degrees in order to directly look at the object. Which is perfectly correct.

But, when i look slightly to the right of the object, it also says i have to rotate 10 degrees in order to look directly to the object.

The problem here is, the i have no way to tell which way to rotate to. I only know its 10 degrees. But do i have to rotate to the left or right? That's what i need to find out.

How can i figure that out?

-

I feel the need to elaborate on Ignacio's answer...

In general, your question is not well-founded, since "turn left" and "turn right" only have meaning after you decide which way is "up".

The cross product of two vectors is a vector that tells you which way is "up". That is, `A x B` is the "up" that you have to use if you want to turn left to get from `A` to `B`. (And the magnitude of the cross product tells you how far you have to turn, more or less...)

For 3D vectors, the cross product has a z component of `x1 * y2 - y1 * x2`. If the vectors themselves are 2D (i.e., have zero z components), then this is the only thing you have to compute to get the cross product; the x and y components of the cross product are zero. So in 2D, if this number is positive, then "up" is the positive z direction and you have to turn left. If this number is negative, then "up" is the negative z direction and you have to turn left while upside-down; i.e., turn right.

-
+1. Note that in 2D, this reduces simply to testing whether `x1 * y2` is greater than `y1 * x2`. –  Nemo Jan 8 '12 at 17:29