10 Classes [class]

A defaulted comparison operator function ([expr.spaceship], [expr.rel], [expr.eq]) for some class C shall be a non-template function declared in the member-specification of C that is

• (1.1)
  a non-static member of C having one parameter of type const C&, or
• (1.2)
  a friend of C having two parameters of type const C&.

A three-way comparison operator for a class type C is a structural comparison operator if it is defined as defaulted in the definition of C, and all three-way comparison operators it invokes are structural comparison operators.

A type T has strong structural equality if, for a glvalue x of type const T, x <=> x is a valid expression of type std::strong_­ordering or std::strong_­equality and either does not invoke a three-way comparison operator or invokes a structural comparison operator.

The direct base class subobjects of C, in the order of their declaration in the base-specifier-list of C, followed by the non-static data members of C, in the order of their declaration in the member-specification of C, form a list of subobjects.

In that list, any subobject of array type is recursively expanded to the sequence of its elements, in the order of increasing subscript.

Let x${}_i$ be an lvalue denoting the $i^{\text{th}}$ element in the expanded list of subobjects for an object x (of length n), where x${}_i$ is formed by a sequence of derived-to-base conversions ([over.best.ics]), class member access expressions ([expr.ref]), and array subscript expressions ([expr.sub]) applied to x.

The type of the expression x${}_i$ <=> x${}_i$ is denoted by R${}_i$.

It is unspecified whether virtual base class subobjects are compared more than once.

If the declared return type of a defaulted three-way comparison operator function is auto, then the return type is deduced as the common comparison type (see below) of R${}_0$, R${}_1$, …, R${}_{n-1}$.

If the return type is deduced as void, the operator function is defined as deleted.

The return value V of type R of the defaulted three-way comparison operator function with parameters x and y of the same type is determined by comparing corresponding elements x${}_i$ and y${}_i$ in the expanded lists of subobjects for x and y until the first index i where x${}_i$ <=> y${}_i$ yields a result value v${}_i$ where v${}_i\text{!=}0$, contextually converted to bool, yields true; V is v${}_i$ converted to R.

If no such index exists, V is std::strong_­ordering::equal converted to R.

The common comparison type U of a possibly-empty list of n types T${}_0$, T${}_1$, …, T${}_{n-1}$ is defined as follows:

A defaulted relational ([expr.rel]) or equality ([expr.eq]) operator function for some operator @ shall have a declared return type bool.

The operator function with parameters x and y is defined as deleted if

Otherwise, the operator function yields x <=> y @ 0 if an operator<=> with the original order of parameters was selected, or 0 @ y <=> x otherwise.