While trying out the new Tie-Interceptor three-way comparison operator <=> I was wondering what would be an example such that

struct Foo {
    auto operator<=>(const Foo &rhs) const = default;

would lead to a compiler error with

Foo Bar1;
Foo Bar2;
std::strong_ordering(Bar1 <=> Bar2);

but not with

Foo Bar1;
Foo Bar2;
std::weak_ordering(Bar1 <=> Bar2);

What would be an example for Foo? In other words how would Foo not imply substitutability? I know that I could write my own implementation of the operator which returns std::weak_ordering ... less/greater/equivalent but how to force the compiler to do so?

I've read Practical meaning of strong_ordering and weak_ordering among others so far.

  • 1
    please always use the language tag – bolov Apr 24 '20 at 14:58
  • Do note: The three comparison category types ([cmp.categories]) (the types std​::​strong_­ordering, std​::​weak_­ordering, and std​::​partial_­ordering) are not predefined; if the header <compare> ([compare.syn]) is not imported or included prior to a use of such a class type – even an implicit use in which the type is not named (e.g., via the auto specifier in a defaulted three-way comparison or use of the built-in operator) – the program is ill-formed. – NathanOliver Apr 24 '20 at 15:10

... but how to force the compiler to do so?

When you use auto as the return type of defaulted operator<=>, the compiler will pick the common comparison category of all the members. So if you have something like:

// any type that is weakly ordered
struct Weak {
    bool operator==(Weak const&) const;
    std::weak_ordering operator<=>(Weak const&) const;

struct Foo {
    Weak w;
    int i;
    auto operator<=>(Foo const&) const = default;

Then using <=> on two instances of type Foo will give you a weak_ordering, since that's the common comparison category of Weak and int.

In the same way that given:

struct Bar {
    float f;
    auto operator<=>(Bar const&) const = default;

Bar::operator<=> gives you a std::partial_ordering.

There are no core language types that give you a std::weak_ordering, but there are some library types that might:

// some typical C++17 comparable type
struct Widget {
    bool operator==(Widget const&) const;
    bool operator<(Widget const&) const;

struct LotsOfWidgets {
    std::vector<Widget> widgets;
    auto operator<=>(LotsOfWidgets const&) const = default;

The <=> here returns std::weak_ordering (to avoid having to assume what it is you meant by < and ==).

Or you could simply provide that yourself. You don't have to use auto:

struct WeakInt {
    int i;
    friend std::weak_ordering operator<=>(WeakInt, WeakInt) = default;
  • Very detailed, thank you! Very good point with LotsOfWidgets ! – fiscblog Apr 24 '20 at 15:28

weak_ordering is a user's choice, an explicit expression of the meaning of comparison for the type. No fundamental types are weakly ordered (floats use partial_ordering), and most standard library types that are ordered in some way either mirror the ordering of some template parameter or pick a more specific ordering.

So weak_ordering happens by = default only if a subobject of Foo itself uses weak_ordering.


Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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