11 Classes [class]

A defaulted comparison operator function ([over.binary]) shall be a non-template function that

• (1.1)
  is a non-static member or friend of some class C,
• (1.2)
  is defined as defaulted in C or in a context where C is complete, and
• (1.3)
  either has two parameters of type const C& or two parameters of type C, where the implicit object parameter (if any) is considered to be the first parameter.

Such a comparison operator function is termed a defaulted comparison operator function for class C.

Name lookups and access checks in the implicit definition ([dcl.fct.def.default]) of a comparison operator function are performed from a context equivalent to its function-body.

A definition of a comparison operator as defaulted that appears in a class shall be the first declaration of that function.

A defaulted <=> or == operator function for class C is defined as deleted if any non-static data member of C is of reference type or C has variant members ([class.union.anon]).

A binary operator expression a @ b is usable if either

• (3.1)
  a or b is of class or enumeration type and overload resolution ([over.match]) as applied to a @ b results in a usable candidate, or
• (3.2)
  neither a nor b is of class or enumeration type and a @ b is a valid expression.

If the member-specification does not explicitly declare any member or friend named operator==, an == operator function is declared implicitly for each three-way comparison operator function defined as defaulted in the member-specification, with the same access and function-definition and in the same class scope as the respective three-way comparison operator function, except that the return type is replaced with bool and the declarator-id is replaced with 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 $\text{x}{}_i$ be an lvalue denoting the $i^{\text{th}}$ element in the expanded list of subobjects for an object x (of length n), where $\text{x}{}_i$ 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.

A defaulted equality operator function ([over.binary]) shall have a declared return type bool.

A defaulted == operator function for a class C is defined as deleted unless, for each $\text{x}{}_i$ in the expanded list of subobjects for an object x of type C, $\text{x}{}_i\text{==}\text{x}{}_i$ is usable ([class.compare.default]).

The return value of a defaulted == operator function with parameters x and y is determined by comparing corresponding elements $\text{x}{}_i$ and $\text{y}{}_i$ in the expanded lists of subobjects for x and y (in increasing index order) until the first index i where $\text{x}{}_i\text{==}\text{y}{}_i$ yields a result value which, when contextually converted to bool, yields false.

The return value is false if such an index exists and true otherwise.

The synthesized three-way comparison of type R ([cmp.categories]) of glvalues a and b of the same type is defined as follows:

• (1.1)
  If a <=> b is usable ([class.compare.default]) and can be explicitly converted to R using static_cast, static_cast<R>(a <=> b).
• (1.2)
  Otherwise, if a <=> b is usable or overload resolution for a <=> b is performed and finds at least one viable candidate, the synthesized three-way comparison is not defined.
• (1.3)
  Otherwise, if R is not a comparison category type, or either the expression a == b or the expression a < b is not usable, the synthesized three-way comparison is not defined.
• (1.4)
  Otherwise, if R is strong_ordering, then a == b ? strong_ordering::equal : a < b ? strong_ordering::less : strong_ordering::greater
• (1.5)
  Otherwise, if R is weak_ordering, then a == b ? weak_ordering::equivalent : a < b ? weak_ordering::less : weak_ordering::greater
• (1.6)
  Otherwise (when R is partial_ordering), a == b ? partial_ordering::equivalent : a < b ? partial_ordering::less : b < a ? partial_ordering::greater : partial_ordering::unordered

Let R be the declared return type of a defaulted three-way comparison operator function, and let $\text{x}{}_i$ be the elements of the expanded list of subobjects for an object x of type C.

The return value 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 $\text{x}{}_i$ and $\text{y}{}_i$ in the expanded lists of subobjects for x and y (in increasing index order) until the first index i where the synthesized three-way comparison of type R between $\text{x}{}_i$ and $\text{y}{}_i$ yields a result value $\text{v}{}_i$ where $\text{v}{}_i\text{!=}0$, contextually converted to bool, yields true.

The return value is a copy of $\text{v}{}_i$ if such an index exists and static_cast<R>(std​::​strong_ordering​::​equal) otherwise.

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

• (4.1)
  If at least one $\text{T}{}_i$ is std​::​partial_ordering, U is std​::​partial_ordering ([cmp.partialord]).
• (4.2)
  Otherwise, if at least one $\text{T}{}_i$ is std​::​weak_ordering, U is std​::​weak_ordering ([cmp.weakord]).
• (4.3)
  Otherwise, U is std​::​strong_ordering ([cmp.strongord]).

  [Note 2: 

  In particular, this is the result when n is 0.

  — end note]

A secondary comparison operator is a relational operator ([expr.rel]) or the != operator.

A defaulted operator function ([over.binary]) for a secondary comparison operator @ shall have a declared return type bool.

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

• (2.1)
  a first overload resolution ([over.match]), as applied to x @ y,
  • (2.1.1)
    does not result in a usable candidate, or
  • (2.1.2)
    the selected candidate is not a rewritten candidate, or
• (2.2)
  a second overload resolution for the expression resulting from the interpretation of x @ y using the selected rewritten candidate ([over.match.oper]) does not result in a usable candidate (for example, that expression might be (x <=> y) @ 0), or
• (2.3)
  x @ y cannot be implicitly converted to bool.

In any of the two overload resolutions above, the defaulted operator function is not considered as a candidate for the @ operator.

Otherwise, the operator function yields x @ y.