`Event`: the *event type*. The type used to identify the event. Events with same type are the same event. The event type must be able to be used as the key in `std::map` or `std::unordered_map`, so it must be either comparable with `operator <` or has specialization of `std::hash`.
`Prototype`: the listener prototype. It's C++ function type such as `void(int, std::string, const MyClass *)`.
`Policies`: the policies to configure and extend the dispatcher. The default value is `DefaultPolicies`. See [document of policies](policies.md) for details.
`Handle`: the handle type returned by appendListener, prependListener and insertListener. A handle can be used to insert a listener or remove a listener. To check if a `Handle` is empty, convert it to boolean, *false* is empty. `Handle` is copyable.
Insert the *callback* to the dispatcher to listen to *event* before the listener handle *before*. If *before* is not found, *callback* is added at the end of the listener list.
Return a handle which represents the listener. The handle can be used to remove this listener or insert other listener before this listener.
Apply `func` to all listeners of `event`. `func` must return a boolean value, and if the return value is false, forEachIf stops the looping immediately.
Return `true` if all listeners are invoked, or `event` is not found, `false` if `func` returns `false`.
1. If a listener adds another listener of the same event to the dispatcher during a dispatching, the new listener is guaranteed not to be triggered within the same dispatching. This is guaranteed by an unsigned 64 bits integer counter. This rule will be broken is the counter is overflowed to zero in a dispatching, but this rule will continue working on the subsequence dispatching.
2. Any listeners that are removed during a dispatching are guaranteed not triggered.
3. All above points are not true in multiple threading. That's to say, if one thread is invoking a callback list, the other thread add or remove a callback, the added or removed callback may be triggered during the invoking.
The time complexities being discussed here is about when operating on the listener in the underlying list, and `n` is the number of listeners. It doesn't include the event searching in the underlying `std::map` which is always O(log n).