This is a maths question really. You're looking for arc length (which equals angle in radians multiplied by radius)

Your function as it stands can't calculate an arc length, because it doesn't know where the circle is (it takes 3 points to define a circle).

```
- (CGFloat)calculateShortestArcDistanceBetween:(CGPoint)point1 point2:(CGPoint)point2 center:(CGPoint)center
{
CGFloat dx1 = point1.x - center.x;
CGFloat dy1 = point1.y - center.y;
CGFloat dx2 = point2.x - center.x;
CGFloat dy2 = point2.y - center.y;
CGFloat angle1 = atan2f( dy1, dx1 );
CGFloat angle2 = atan2f( dy2, dx2 );
CGFloat angle = angle1 - angle2;
if( angle > M_PI ) angle -= M_PI * 2;
else if( angle < -M_PI ) angle += M_PI * 2;
return fabs( angle ) * sqrtf( dx1 * dx1 + dy1 * dy1 );
}
- (CGFloat)calculateDirectedArcDistanceBetween:(CGPoint)point1 point2:(CGPoint)point2 center:(CGPoint)center
{
CGFloat dx1 = point1.x - center.x;
CGFloat dy1 = point1.y - center.y;
CGFloat dx2 = point2.x - center.x;
CGFloat dy2 = point2.y - center.y;
CGFloat angle1 = atan2f( dy1, dx1 );
CGFloat angle2 = atan2f( dy2, dx2 );
CGFloat angle = angle1 - angle2;
if( angle < 0 ) angle += M_PI * 2;
return angle * sqrtf( dx1 * dx1 + dy1 * dy1 );
}
```

Most of the tricky bit is making sure the ranges are correct (`atan2`

gives values from -pi to +pi, so after getting the difference between two angles we must re-normalise them)