I can understand that private cannot work but protected as well?
I understand it is a "promise" to the outside world but if something implements an interface that method will stay protected therefore the same "promise" was still kept. It stated that there is function a, function b and also protected function c so from that we derive if I am not extending/implementing this then I can not have access to function c. Because it works the same when you read classes.
@AlphaMale Ok so what is the point of an interface then? It is used to create a "recipe" for a class right? So when you use it practically in code it will only be to implement and force methods. This becomes handy if methods are needed for your code to work and you don't want to force it to a specific class.
Lets say I have a to create Mailers, but I have to major processes where mails are needed but mailers will use different ways of constructing these mails. Now There needs to be a base send function that takes a message(any type) and a email address, but since the classes are in an open environment then it will be dangerous to leave this send function public and therefore we need it as a protected method. Now in the two Processes there are multiple mailers but each process shares the same way of constructing the method, so there is 2 abstract classes but now due to limited interfaces you now have to declare a third abstract class to contain this protected send function so that it can be extended as well otherwise you will have the same protected send function. If a new developer works on a completely new process and looks at the interface then the send function will never be forced. If we say it was possible to declare protected in an interface then outside if you check if something is an interface it will work the same as a class, you still can't access the the protected functions.
Private makes sense because then only the interface will know about these values and since an interface can't do anything this will be pointless.