Change the operator to return the underlying type?

Does this answer your question? How can I use an enum class in a boolean context?

Or you could use a non scoped enum for implicit conversions without changing the operator.

OT: I would recommend you use static_cast where possible: gcc.godbolt.org/z/qvhq9W

@Tare Plain enums can lead to name collisions and are error prone because of the implicit conversions.

@Tare: stackoverflow.com/questions/18335861/…

@SimonKraemer The name collisions are a non-problem because they are easy to resolve by defining the enum within a scope.

@eerorika That's often easier said than done. For new code this is not really a problem if you "make it right". Especially when you are working with legacy code, must retain ABI/API compatibility or need to use multiple older C or C++ libraries that did not bother about these things this was and is often a problem. Using enum classes will save you and your users in the future.

@SimonKraemer Using enum classes doesn't solve the problem with legacy code that uses unscoped enums either. If you have the option of defining a new enum class, then you also have the option of defining an enum within a scope.

@eerorika I did not and I don't disagree. I just said that there were cases in the past and defining a scope around an enum is easily forgotten if you don't have the use case right now. So using enum classes is safer for your future development.

@eerorika Using enum classes helps writing safer, better maintanable code. Similar to using static_cast over C-style-cast. If you know what you are doing it makes no difference but it might bite you in the a** if you are not careful. Also even if you put your enum in a scope: If that scope is not explicitly restricted to your enum and your enum only you may run into problems like this. Think about an enum in the project namespace or defined inside a class. If you need to define another enum in the same class in the future you need to either refactor (which might not be possible to keep...

@eerorika API compatibility) or to make up strange enum values. There is a reason that in legacy code enum value declaration are often prefixed with the enum type. And yes, name collisions is only one small part of the problems that are solved with enum classes, it is one with real live examples. Speaking of my own experience here.

@SimonKraemer There is a reason that in legacy code enum value declaration are often prefixed with the enum type. The reason is that C didn't and doesn't have namespaces nor classes. In that case the convention of prefixing names is the way to avoid name collisions. C++ solved the lack of namespaces by introducing namespaces.

@SimonKraemer Sure, enum classes also have a scope which is convenient, but that is only a small part of what it does as you said. Another important aspect is that it doesn't allow implicit conversions to / from the underlying type. Given that OP is asking a way to avoid explicit conversions, enum seems like a good fit.

@eerorika You should read my comments in full as you are clearly omitting half of what I said. I answered to OP's statement So far as I understood, plain enums should be avoided (although for lack of research I haven't yet read, why exactly). Never did I say that this use-case should avoid plain enums. Never did I say that plain enums must be avoided at all cost. Never did I say that name collision was the only problem with plain enums. I was giving a common explanation based on the two most prominent examples on why to avoid plain enums in general.

@SimonKraemer I answered to OP's statement And I expanded on your answer to that statement to explain why the given reason to avoid enums is not a reason to avoid enums in general. It is a reason to avoid enums in a global (or otherwise crowded) namespace