19

What does exposition only exactly mean in the C++ standard? Does it mean that the private/protected members marked exposition only are required to exist by standard, or are they just a "suggestion" of implementation, and are not required at all?

Examples include:

std::error_code::val_
std::wstring_convert::byte_err_string
std::array::elems
std::move_iterator::current
std::reverse_iterator::current
std::ostream_iterator::delim
// And a lot of others
1

4 Answers 4

18

It means that they're not required by the standard, but they are just illustrating what the class's internals might look like, to give an idea of what kind of implementation the standards committee had in mind.

It's basically a way of communicating intent.

15

Exposition-only members are used to simplify a behavioural specification. Once the exposition-only member has been introduced and given a name, the semantics of the class can be specified in terms of it, but it is understood that what's being specified are only the semantics of the class, and the member itself is not part of that. Any conforming implementation only has to behave the same way as described in the specification that refers to the member.

For example, suppose I want to specify a pointer wrapper class that exposes the wrappee. I could say, "Class Foo holds a reference to an object of type T which is given its constructor, and Foo::get exposes that object." That's very verbose and imprecise. Alternatively, I could specify this with an exposition-only member:

Class Foo holds a reference to an object of type T.

class Foo {
  const T* ptr;   // exposition-only

public:
  // Constructor                                 // ┐
  Foo(const T& t) : ptr(std::addressof(t)) {}    // │
                                                 // ├─ real specification
  // Accessor                                    // │
  const T& get() const { return *ptr; }          // ┘
};

The specification of the individual member functions becomes much easier when I'm allowed to refer to some particular implementation, but it is understood that you can implement this in any way you like (e.g. with base classes or private nested types), and that the member Foo::ptr is not part of the specification. But having it allows me to specify the sematnics of the member functions in code rather than in words.

1
  • 3
    I like to think of them as the library equivalent of the language's "C++ abstract machine".
    – T.C.
    Dec 28, 2015 at 13:18
6

n4296 17.5.2.3/2

Objects of certain classes are sometimes required by the external specifications of their classes to store data, apparently in member objects. For the sake of exposition, some subclauses provide representative declara- tions, and semantic requirements, for private member objects of classes that meet the external specifications of the classes. The declarations for such member objects and the definitions of related member types are followed by a comment that ends with exposition only, as in:

streambuf* sb; // exposition only
4

It indicates one of the many possible ways to implement the particular item, but not necessarily the best way.

See this answer.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.