`Eq`

is what's called a typeclass. It declares a few functions, in this case `==`

and friends, and we can make instances of that typeclass which provide definitions for `==`

and others.

This means that when we have something that's an instance of the `Eq`

typeclass, we know we can use `==`

on it.

The trick here is that in our function, we need to have types which make it possible to check that they're equal. If we just had `[a] -> [a] -> Bool`

then we'd be in trouble because we'd have just promised that our implementation works on things without an `==`

operator which it doesn't.

Because of this we use the `=>`

which adds context to our function definition. It says something like "This will work for any `a`

*as long as* `a`

is an instance of the `Eq`

typeclass". That way, we can use `==`

safely and know that all our argument types will implement it appropriately.

**Quick Illustration**

This is an error:

```
doIfEqual :: a -> a -> (a -> a -> [a])
doIfEqual a b f = if a==b then f a b else []
```

but this works because we specify `a`

is an instance of `Eq`

```
doIfEqual (Eq a) => a -> a -> (a -> a -> [a])
doIfEqual a b f = if a==b then f a b else []
```