The definition of spaceship operator is meant to have a strong definition of ordering, but does this affect the way your client code or just how to define your class comparison operators?

Since in other post are missing real world example I'm not fully understanding this part.

Other SO post about spaceship operator:

closed as primarily opinion-based by Holt, StoryTeller, Barry, Nicol Bolas, Larry Shatzer Jan 23 at 15:55

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  • For ordered types it will produce as strcmp: a value that indicate whether the comparison result in greater smaller or equal. So you can look for example of strmcp. For unordered type it can also provide the case where two object are unordered (like 2 infinity, or comparison with nan) this may help coder in not forgetting this case. – Oliv Jan 23 at 11:53
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    What do you define as client code? And why is a class declaration excluded from it? – StoryTeller Jan 23 at 11:55
  • I might be opinionated, but I dislike the <=> operator. They could've made >, >=, <=, != implicit by having defined only == and <... The way <=> is specified is way too complicated (even its own header and library components). – DeiDei Jan 23 at 11:59
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    @DeiDei auto X::operator<=>(const Y&) =default; is very simple. – Caleth Jan 23 at 12:35
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    @DeiDei The question is: how do you define <=? If you're suggesting that a <= b is !(b < a), then that gives the wrong answer for partial orders (e.g. float). If you're suggesting that a <= b is (a < b) || (a == b), then that always gives the right answer but is potentially a large pessimization for total orders (e.g. string). <=> is a hugely superior choice to < to use as an ordering operator. – Barry Jan 23 at 13:31

<=> allows the lazy way to also be the performant way. You don't change your client code.

Clients may see performance benefits when there was a using std::rel_ops (or boost::ordered etc).

An example

// old and busted
struct Person : boost::totally_ordered<Person>
    std::string firstname;
    std::string lastname
    bool operator<(const Person & other) 
        return std::tie(firstname, lastname)
             < std::tie(other.firstname, other.lastname); 

// new hotness
struct Person
    std::string firstname;
    std::string lastname;
    auto operator<=>(const Person &) = default;

int main()
    Person person1 { "John", "Smith" };
    Person person2 { "John", "Smith" };
    std::cout << person2 <= person1 << std::endl;
  • Could you add a simple main showing the usage? Just for completeness. then I'm going to mark it as accepted – Moia Jan 23 at 13:31
  • with which logic are performed the comparison order in your Person with operator<=>? – Moia Jan 23 at 13:34
  • They both perform the same comparison – Caleth Jan 23 at 13:36

You just compare the way you've always done:

a < b

It's just that under the hood, one of the candidate functions for that expression will also find (a <=> b) < 0 and if that candidate exists and happens to be the best viable candidate, then it is invoked.

You typically don't use <=> directly in "client code", you just use the comparisons that you want directly.

For instance, given:

struct X {
    int i;

    // this can be = default, just writing it out for clarity
    strong_ordering operator<=>(X const& rhs) const { return i <=> rhs.i; }

The expression

X{42} < X{57};

will evaluate as X{42} <=> X{57} < 0 (there is no < candidate, so <=> non-reversed is trivially the best candidate). X{42} <=> X{57} evaluates as 42 <=> 57 which is strong_ordering::less. And that < 0 returns true. Hence, the initial expression is true... as expected.

The same operator also directly gives us that X{57} > X{42}, that X{3} >= X{2}, etc.

The advantage of <=> is that you only need to write one operator instead of four, that operator is typically much easier to write than <, you can properly express the differentiation between partial and total orders, and stacking it is typically more performant (e.g. in the cases like string).

Additionally, we don't have to live in this weird world where everyone pretends that operator< is the only relational operator that exists.

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    And if all comparison operator depends on the same call to a function and a comparison with a fundamental type, the optimizer will be able to use its knowledge of the mathematical structure of integer with comparison operator to optimize further the code:godbolt.org/z/2ip7JK – Oliv Jan 23 at 15:29

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