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std::compar...er_fallback(3)  C++ Standard Libary std::compar...er_fallback(3)

NAME
       std::compare_weak_order_fallback	- std::compare_weak_order_fallback

Synopsis
	  Defined in header <compare>
	  inline namespace /* unspecified */ {

	  inline	  constexpr	     /*		unspecified	    */
       (since C++20)
	  compare_weak_order_fallback =	/* unspecified */;

	  }
	  Call signature
	  template< class T, class U >

	  requires /* see below	*/
	  constexpr std::weak_ordering

	  compare_weak_order_fallback(T&& t, U&& u) noexcept(/*	see below */);

	  Performs three-way comparison	on t and u and produces	 a  result  of
       type
	  std::weak_ordering, even if the operator <=> is unavailable.

	  Let  t and u be expressions and T and	U denote decltype((t)) and de-
       cltype((u))
	  respectively,	std::compare_weak_order_fallback(t, u) is  expression-
       equivalent to:

	    * If std::is_same_v<std::decay_t<T>, std::decay_t<U>> is true:

		 * std::weak_order(t, u), if it	is a well-formed expression;
		 * otherwise,

	t == u ? std::weak_ordering::equivalent	:
	t < u  ? std::weak_ordering::less :
		 std::weak_ordering::greater

			       if  t  ==  u and	t < u are both well-formed and
       convertible to
			       bool, except that t and u  are  evaluated  only
       once.

	    *  In  all	other cases, std::compare_weak_order_fallback(t, u) is
       ill-formed, which
	      can result in substitution failure when it appears in the	 imme-
       diate context of	a
	      template instantiation.

	 Expression-equivalent

	  Expression e is expression-equivalent	to expression f, if

	    * e	and f have the same effects, and
	    *  either  both  are  constant subexpressions or else neither is a
       constant
	      subexpression, and
	    * either both are potentially-throwing or else neither  is	poten-
       tially-throwing
	      (i.e. noexcept(e)	== noexcept(f)).

	 Customization point objects

	  The  name  std::compare_weak_order_fallback  denotes a customization
       point object,
	  which	is a const function object  of	a  literal  semiregular	 class
       type. For exposition
	  purposes, the	cv-unqualified version of its type is denoted as
	  __compare_weak_order_fallback_fn.

	  All instances	of __compare_weak_order_fallback_fn are	equal. The ef-
       fects of	invoking
	  different  instances of type __compare_weak_order_fallback_fn	on the
       same arguments
	  are equivalent, regardless of	whether	the  expression	 denoting  the
       instance	is an
	  lvalue  or  rvalue,  and  is	const-qualified	 or  not  (however,  a
       volatile-qualified
	  instance  is	not  required  to  be  invocable).   Thus,   std::com-
       pare_weak_order_fallback
	  can be copied	freely and its copies can be used interchangeably.

	  Given	 a  set	 of types Args..., if std::declval<Args>()... meet the
       requirements for
	  arguments to std::compare_weak_order_fallback	above,
	  __compare_weak_order_fallback_fn models

	    * std::invocable<__compare_weak_order_fallback_fn, Args...>,
	    * std::invocable<const __compare_weak_order_fallback_fn, Args...>,
	    * std::invocable<__compare_weak_order_fallback_fn&,	Args...>, and
	    *	  std::invocable<const	    __compare_weak_order_fallback_fn&,
       Args...>.

	  Otherwise,  no  function call	operator of __compare_weak_order_fall-
       back_fn
	  participates in overload resolution.

Example
       // Run this code

	#include <iostream>
	#include <compare>

	// does	not support <=>
	struct Rational_1 {
	    int	num;
	    int	den; //	> 0
	};

	inline constexpr bool operator<(Rational_1 lhs,	Rational_1 rhs)
	{
	    return lhs.num * rhs.den < rhs.num * lhs.den;
	}

	inline constexpr bool operator==(Rational_1 lhs, Rational_1 rhs)
	{
	    return lhs.num * rhs.den ==	rhs.num	* lhs.den;
	}

	// supports <=>
	struct Rational_2 {
	    int	num;
	    int	den; //	> 0

	    bool operator==(Rational_2 const&) const = default;
	};

	inline constexpr std::weak_ordering operator<=>(Rational_2 lhs,	Ratio-
       nal_2 rhs)
	{
	    return lhs.num * rhs.den <=> rhs.num * lhs.den;
	}

	void print(std::weak_ordering value)
	{
	    if (value == 0)
		std::cout << "equal\n";
	    else if (value < 0)
		std::cout << "less\n";
	    else
		std::cout << "greater\n";
	}

	int main()
	{
	    Rational_1 a{1, 2};
	    Rational_1 b{3, 4};
	//  print(a <=>	b);		   // doesn't work
	    print(std::compare_weak_order_fallback(a, b)); // works,  defaults
       to < and	==

	    Rational_2 c{6, 5};
	    Rational_2 d{8, 7};
	    print(c <=>	d);		   // works
	    print(std::compare_weak_order_fallback(c, d)); // works
	}

Output:
	less
	greater
	greater

See also
	  weak_order performs 3-way comparison and produces a result of	type
	  (C++20)    std::weak_ordering
		     (customization point object)

http://cppreference.com		  2022.07.31	  std::compar...er_fallback(3)
NAME | Synopsis | Example | Output: | See also
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