I'm basing this on performance characteristics I've recently found out about `Dictionary`

, so I'm using `Dictionary<type, bool>`

where the `bool`

is ignored but supposedly I could use `HashSet`

instead.

For example:

```
Dictionary<bounds, bool> overlap;
class bounds
{
public float top_left_x, top_left_y, width, height;
public bool equal(bounds other)
{
return upper_left_x + width > other.upper_left_x &&
upper_left_x < other.upper_left_x + other.width &&
upper_left_y + height > other.upper_left_y &&
upper_left_y < other.upper_left_y + other.height;
}
public ... GetHashCode()
{
...;
}
}
```

Here I'm not using equal to check for equality but instead for overlapping, which is bound to be annoying elsewhere but there is a reason why I'm doing it.

I'm presuming that if a value can be looked up from a key in O(1) time then so can a key from itself.

So I could presumably put thousands of bounds into overlap and do this:

```
overlap.ContainsKey(new bounds(...));
```

To find out in O(1) time if a given bound overlaps any others from the collection.

I'd also like to know what happens if I change the (x, y) position of a bound, presumably it's like removing and then adding it into the set again performance wise, very expensive?

What do I put into the GetHashCode function?

**goal**

If this works then I'm after using this sort of mechanism to find out what other bounds a given bound overlaps.

Very few bounds move in this system and no new ones are added after the collection has been populated. Newly added bounds need to be able to overlap old ones.

**conclusion**

See the feedback below for more details.

In summary it's not possible to achieve the O(1) performance because, unlike the default equals, a check for overlapping is not transitive.

An interval tree however is a good solution.