I'm coding a flocking algorithm in Java but I'm stuck at a certain point (using the Ardor3D libraries, in a 2D plane).

Basically, I need to find the angle difference to add to the current rotation. If you can only get the way it should be pointing with polar coordinates with 0 degs at north and not the difference, not to worry -- I have a method which returns the angle difference taking into account the wraparound on the angle and negative angles.

At the moment, I have the following code, which clearly wouldn't work since the algorithm has no reference to the initial rotation:

```
long tpf = currUpdateTimeMS - lastUpdateTimeMS;
Vector2 pos = new Vector2();
rt.getPosition(pos);
double rot = pos.angleBetween(app.getAvgBoidPos(new Vector2()).normalizeLocal());
rt.setRotation(rot);
pos.addLocal(
Math.cos((rot - MathUtils.HALF_PI)) * (tpf / 10f),
Math.sin((rot - MathUtils.HALF_PI)) * (tpf / 10f)
);
rt.setPosition(pos);
super.updateLogic();
```

Updated code (not working, from first answer):

```
long tpf = currUpdateTimeMS - lastUpdateTimeMS;
//rt.setRotation(rt.getRotation() + ((tpf / (ROT_SPEED / 2f)) % 360));
Vector2 avgpos = app.getAvgBoidPos(new Vector2());
Vector2 pos = rt.getPosition(new Vector2());
avgpos.subtractLocal(pos);
double angleRads = rt.getRotation() * FastMath.DEG_TO_RAD;
double rot = MathUtils.acos((
(avgpos.getX() * MathUtils.sin(angleRads)
) +
(avgpos.getY() * MathUtils.cos(angleRads)
)) / ((Math.pow(avgpos.getX(), 2) + Math.pow(avgpos.getY(), 2)) * 0.5));
double adegdiff = rot * FastMath.RAD_TO_DEG;
rt.setRotation(rt.getRotation() - adegdiff);
double newrot = rt.getRotation();
pos.addLocal(
Math.cos((newrot - MathUtils.HALF_PI)) * (tpf / 10f),
Math.sin((newrot - MathUtils.HALF_PI)) * (tpf / 10f)
);
rt.setPosition(pos);
super.updateLogic();
```

Another modification based on the other answer:

```
long tpf = currUpdateTimeMS - lastUpdateTimeMS;
//rt.setRotation(rt.getRotation() + ((tpf / (ROT_SPEED / 2f)) % 360));
Vector2 avgpos = app.getAvgBoidPos(new Vector2());
Vector2 pos = rt.getPosition(new Vector2());
avgpos.subtractLocal(pos);
double rot = pos.angleBetween(
app.getAvgBoidPos(new Vector2()).normalizeLocal()
) - (rt.getRotation() * MathUtils.DEG_TO_RAD);
rt.setRotation(rt.getRotation() - (rot * MathUtils.RAD_TO_DEG));
double newrot = rt.getRotation();
pos.addLocal(
Math.cos((newrot - MathUtils.HALF_PI)) * (tpf / 10f),
Math.sin((newrot - MathUtils.HALF_PI)) * (tpf / 10f)
);
rt.setPosition(pos);
super.updateLogic();
```

I'm not really too good at Maths problems, so code would be helpful rather than formulas :)

Inputs

- Current position of entity
- Current rotation of entity (polar-oriented) in degrees

Output

- Degrees or radians to add or subtract to current rotation
- ... or degrees or radians expressed as polar-oriented angle

Thanks in advance if you can help :)

Chris

`rt.getPosition`

gives the position of the entity and`app.getAvgBOIDPos`

gives the target position, is that right? And what gives the orientation of the entity? – Beta Oct 29 '10 at 15:41