I am trying to find the 2D vector in a set that is closest to the provided angle from another vector.

So if I have `v(10, 10)`

and I would like to find the closest other vector along an angle of 90 degrees it should find `v(20, 10)`

, for example. I have written a method that I think returns the correct bearing between two vectors.

```
float getBearing(
const sf::Vector2f& a, const sf::Vector2f& b)
{
float degs = atan2f(b.y - a.y, b.x - a.x) * (180 / M_PI);
return (degs > 0.0f ? degs : (360.0f + degs)) + 90.0f;
}
```

This seems to work okay although if I place one above another it returns 180, which is fine, and 360, which is just odd. Shouldn't it return 0 if it is directly above it? The best way to do that would be to check for 360 and return 0 I guess.

My problem is that I can't work out the difference between the passed angle, 90 degrees for example, and the one returned from `getBearing`

. I'm not even sure if the returned bearing is correct in all situations.

Can anyone help correct any glaringly obvious mistakes in my bearing method and suggest a way to get the difference between two bearings? I have been hunting through the internet but there are so many ways to do it, most of which are shown in other languages.

Thanks.