Difference between revisions of "cpp/language/default comparisons"
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− | + | Comparison operator functions can be explicitly defaulted to request the compiler to generate the corresponding default comparison for a class. | |
− | === | + | ===Definition=== |
− | + | A ''defaulted comparison operator function'' is a non-template comparison operator function (i.e. {{tt|1=<=>}}, {{tt|1===}}, {{tt|1=!=}}, {{tt|<}}, {{tt|>}}, {{tt|1=<=}}, or {{tt|1=>=}}) satisfying all following conditions: | |
− | + | * It is a {{rlp|member functions|non-static member}} or {{rlp|friend}} of some class {{tt|C}}. | |
− | {{ | + | * It is {{rlp|function#Function definition|defined as defaulted}} in {{tt|C}} or in a context where {{tt|C}} is {{rlp|type#Incomplete type|complete}}. |
− | + | * It has two parameters of type {{c/core|const C&}} or two parameters of type {{tt|C}}, where the {{rlp|overload resolution#Additional rules for member function candidates|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 {{tt|C}}''. | |
− | |||
{{source|1= | {{source|1= | ||
− | + | struct X | |
− | struct | + | { |
− | + | bool operator==(const X&) const = default; // OK | |
− | + | bool operator==(const X&) = default; // Error: the implicit object | |
− | + | // parameter type is X& | |
+ | bool operator==(this X, X) = default; // OK | ||
}; | }; | ||
+ | |||
+ | struct Y | ||
+ | { | ||
+ | friend bool operator==(Y, Y) = default; // OK | ||
+ | friend bool operator==(Y, const Y&) = default; // Error: different parameter types | ||
+ | }; | ||
+ | |||
+ | bool operator==(const Y&, const Y&) = default; // Error: not a friend of Y | ||
}} | }} | ||
− | + | Name lookups and access checks in the implicit definition of a comparison operator function are performed from a context equivalent to its function body. A definition of a comparison operator function as defaulted that appears in a class must be the first declaration of that function. | |
− | + | ===Default comparison order=== | |
+ | Given a class {{tt|C}}, a subobject list is formed by the following subjects in order: | ||
+ | * The direct base class subobjects of {{tt|C}}, in declaration order. | ||
+ | * The non-static {{rlp|data members}} of {{tt|C}}, in declaration order. | ||
+ | :* If any member subobject is of array type, it is expanded to the sequence of its elements, in the order of increasing subscript. The expansion is recursive: array elements of array types will be expanded again until there is no subobject of array type. | ||
− | + | For any object {{c|x}} of type {{tt|C}}, in the following descriptions: | |
+ | * Let {{c|n}} be the number of subobjects in the (expanded) subobject list for {{c|x}}. | ||
+ | * Let {{c|x_i}} be the {{c|i}}th subobject in the (expanded) subobject list for {{c|x}}, where {{c|x_i}} is formed by a sequence of {{rlp|overload resolution#Ranking of implicit conversion sequences|derived-to-base conversions}}, {{rlp|operator member access#Built-in member access operators|class member access expressions}}, and {{rlp|operator member access#Built-in subscript operator|array subscript expressions}} applied to {{c|x}}. | ||
− | + | {{source| | |
+ | struct S {}; | ||
− | + | struct T : S | |
− | + | { | |
− | + | int arr[2][2]; | |
− | + | } t; | |
− | + | ||
− | + | ||
− | + | ||
− | }; | + | |
− | + | ||
− | + | // The subobject list for “t” consists of the following 5 subobjects in order: | |
− | + | // (S)t → t[0][0] → t[0][1] → t[1][0] → t[1][1] | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
}} | }} | ||
− | === | + | ===Three-way comparison=== |
− | + | An {{c/core|1=operator<=>}} for a class type can be defined as defaulted with any return type. | |
− | + | ====Comparison category types==== | |
+ | There are three comparison category types: | ||
+ | * {{ltt std|cpp/utility/compare/strong_ordering}} | ||
+ | * {{ltt std|cpp/utility/compare/weak_ordering}} | ||
+ | * {{ltt std|cpp/utility/compare/partial_ordering}} | ||
− | { | + | {|class="wikitable" style="font-size:85%; text-align:center;" |
− | + | |- | |
− | + | !Type | |
− | + | !{{nbsp}}Equivalent values are..{{nbsp}} | |
− | + | !{{nbsp}}Incomparable values are..{{nbsp}} | |
− | + | |- | |
− | } | + | |{{ltt std|cpp/utility/compare/strong_ordering}} |
− | // | + | |indistinguishable |
+ | |not allowed | ||
+ | |- | ||
+ | |{{ltt std|cpp/utility/compare/weak_ordering}} | ||
+ | |distinguishable | ||
+ | |not allowed | ||
+ | |- | ||
+ | |{{nbsp}}{{ltt std|cpp/utility/compare/partial_ordering}}{{nbsp}} | ||
+ | |distinguishable | ||
+ | |allowed | ||
+ | |} | ||
− | + | ====Synthesized three-way comparison==== | |
− | + | The ''synthesized three-way comparison'' of type {{tt|T}} between glvalues {{c|a}} and {{c|b}} of the same type is defined as follows: | |
− | + | * If the overload resolution for {{c|1=a <=> b}} results in a usable candidate, and can be explicitly converted to {{tt|T}} using {{rlpt|static_cast}}, the synthesized comparison is {{c|1=static_cast<T>(a <=> b)}}. | |
− | + | * Otherwise, if any of the following condition is satisfied, the synthesized comparison is not defined: | |
− | + | :* The overload resolution for {{c|1=a <=> b}} finds at least one viable candidate. | |
− | + | :* {{tt|T}} is not a comparison category type. | |
− | + | :* The overload resolution for {{c|1=a == b}} does not result in a usable candidate. | |
+ | :* The overload resolution for {{c|a < b}} does not result in a usable candidate. | ||
+ | * Otherwise, if {{tt|T}} is {{ltt std|cpp/utility/compare/strong_ordering}}, the synthesized comparison is | ||
+ | {{source|1= | ||
+ | a == b ? std::strong_ordering::equal : | ||
+ | a < b ? std::strong_ordering::less : | ||
+ | std::strong_ordering::greater | ||
+ | }} | ||
+ | * Otherwise, if {{tt|T}} is {{ltt std|cpp/utility/compare/weak_ordering}}, the synthesized comparison is | ||
+ | {{source|1= | ||
+ | a == b ? std::weak_ordering::equivalent : | ||
+ | a < b ? std::weak_ordering::less : | ||
+ | std::weak_ordering::greater | ||
+ | }} | ||
+ | * Otherwise ({{tt|T}} is {{ltt std|cpp/utility/compare/partial_ordering}}), the synthesized comparison is | ||
+ | {{source|1= | ||
+ | a == b ? std::partial_ordering::equivalent : | ||
+ | a < b ? std::partial_ordering::less : | ||
+ | b < a ? std::partial_ordering::greater : | ||
+ | std::partial_ordering::unordered | ||
}} | }} | ||
− | === | + | ====Placeholder return type==== |
− | + | If the declared return type of a defaulted three-way comparison operator function ({{c/core|1=operator<=>}}) for a class type {{tt|C}} is {{c/core|auto}}, the return type is deduced from the return types of the three-way comparisons between the corresponding subobjects of an object {{c|x}} of type {{tt|C}}. | |
− | + | For each subobject {{c|x_i}} in the [[#Default comparison order|(expanded) subobject list]] for {{c|x}}: | |
− | {{ | + | # Perform overload resolution for {{c|1=x_i <=> x_i}}, if the overload resolution does not result in a usable candidate, the defaulted {{c/core|1=operator<=>}} is defined as deleted. |
− | + | # Denote the cv-unqualified version of the type of {{c|1=x_i <=> x_i}} as {{tt|R_i}}, if {{tt|R_i}} is not a comparison category type, the defaulted {{c/core|1=operator<=>}} is defined as deleted. | |
− | + | If the defaulted {{c/core|1=operator<=>}} is not defined as deleted, its return type is deduced as {{c/core|std::common_comparison_category_t<R_1, R_2, ..., R_n>}}. | |
− | + | ||
− | + | ====Non-placeholder return type==== | |
+ | If the declared return type of the defaulted {{c/core|1=operator<=>}} is not {{c/core|auto}}, it cannot contain any {{rlp|auto|placeholder type}} (e.g. {{c/core|decltype(auto)}}). | ||
+ | |||
+ | If there is a subobject {{c|x_i}} in the (expanded) subobject list for {{c|x}} such that the [[#Synthesized three-way comparison|synthesized three-way comparison]] of the declared return type between {{c|x_i}} and {{c|x_i}} is not defined, the defaulted {{c/core|1=operator<=>}} is defined as deleted. | ||
+ | |||
+ | ====Comparison result==== | ||
+ | Let {{c|x}} and {{c|y}} be the parameters of a defaulted {{c/core|1=operator<=>}}, denote each subobject in the (expanded) subobject list for {{c|x}} and {{c|y}} as {{c|x_i}} and {{c|y_i}} respectively. The default three-way comparison between {{c|x}} and {{c|y}} is performed by comparing corresponding subobjects {{c|x_i}} and {{c|y_i}} with increasing {{c|i}} order. | ||
+ | |||
+ | Let {{tt|R}} be the (possibly-deduced) return type, the comparison result between {{c|x_i}} and {{c|y_i}} is the result of the synthesized three-way comparison of type {{tt|R}} between {{c|x_i}} and {{c|y_i}}. | ||
+ | * During the default three-way comparison between {{c|x}} and {{c|y}}, if a subobject-wise comparison between {{c|x_i}} and {{c|y_i}} generates a result {{c|v_i}} such that contextually converting {{c|1=v_i != 0}} to {{c/core|bool}} yields {{c|true}}, the return value is a copy of {{c|v_i}} (the remaining subobjects will not be compared). | ||
+ | * Otherwise, the return value is {{c|static_cast<R>(std::strong_ordering::equal)}}. | ||
+ | |||
+ | {{example | ||
+ | |code= | ||
+ | #include <compare> | ||
+ | #include <iostream> | ||
+ | #include <set> | ||
+ | |||
+ | struct Point | ||
+ | { | ||
+ | int x; | ||
+ | int y; | ||
+ | auto operator<=>(const Point&) const = default; | ||
+ | /* non-comparison functions */ | ||
}; | }; | ||
+ | |||
+ | int main() | ||
+ | { | ||
+ | Point pt1{1, 1}, pt2{1, 2}; | ||
+ | std::set<Point> s; // OK | ||
+ | s.insert(pt1); // OK | ||
+ | |||
+ | // two-way comparison operator functions are not required to be explicitly defined: | ||
+ | // operator== is implicitly declared (see below) | ||
+ | // the overload resolutions of other candidates will select rewritten candidates | ||
+ | std::cout << std::boolalpha | ||
+ | << (pt1 == pt2) << ' ' // false | ||
+ | << (pt1 != pt2) << ' ' // true | ||
+ | << (pt1 < pt2) << ' ' // true | ||
+ | << (pt1 <= pt2) << ' ' // true | ||
+ | << (pt1 > pt2) << ' ' // false | ||
+ | << (pt1 >= pt2) << ' '; // false | ||
+ | } | ||
}} | }} | ||
− | + | ===Equality comparison=== | |
+ | ====Explicit declaration==== | ||
+ | An {{c/core|1=operator==}} for a class type can be defined as defaulted with return type {{c/core|bool}}. | ||
− | + | Given a class {{tt|C}} and an object {{c|x}} of type {{tt|C}}, if there is a subobject {{c|x_i}} in the (expanded) subobject list for {{c|x}} such that the overload resolution for {{c|1=x_i == x_i}} does not result in a usable candidate, the defaulted {{c/core|1=operator==}} is defined as deleted. | |
− | + | ||
− | + | Let {{c|x}} and {{c|y}} be the parameters of a defaulted {{c/core|1=operator==}}, denote each subobject in the (expanded) subobject list for {{c|x}} and {{c|y}} as {{c|x_i}} and {{c|y_i}} respectively. The default equality comparison between {{c|x}} and {{c|y}} is performed by comparing corresponding subobjects {{c|x_i}} and {{c|y_i}} with increasing {{c|i}} order. | |
− | {| | + | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | | == | + | |
− | | | + | |
− | | | + | |
− | | | + | |
− | | {{ | + | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | | {{ | + | |
− | + | ||
− | + | ||
− | + | ||
− | |} | + | |
− | === | + | The comparison result between {{c|x_i}} and {{c|y_i}} is the result of {{c|1=x_i == y_i}}. |
− | + | * During the default equality comparison between {{c|x}} and {{c|y}}, if a subobject-wise comparison between {{c|x_i}} and {{c|y_i}} generates a result {{c|v_i}} such that contextually converting {{c|v_i}} to {{c/core|bool}} yields {{c|false}}, the return value is {{c|false}} (the remaining subobjects will not be compared). | |
+ | * Otherwise, the return value is {{c|true}}. | ||
− | {{ | + | {{example |
− | + | |code= | |
− | + | #include <iostream> | |
− | + | ||
− | + | struct Point | |
− | + | { | |
− | + | int x; | |
− | + | int y; | |
− | + | bool operator==(const Point&) const = default; | |
− | + | /* non-comparison functions */ | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
}; | }; | ||
− | + | ||
− | + | int main() | |
− | std:: | + | { |
− | + | Point pt1{3, 5}, pt2{2, 5}; | |
− | if ( | + | std::cout << std::boolalpha |
+ | << (pt1 != pt2) << '\n' // true | ||
+ | << (pt1 == pt1) << '\n'; // true | ||
+ | |||
+ | struct [[maybe_unused]] { int x{}, y{}; } p, q; | ||
+ | // if (p == q) {} // Error: operator== is not defined | ||
+ | } | ||
}} | }} | ||
− | + | ====Implicit declaration==== | |
− | + | If a class {{tt|C}} does not explicitly declare any member or friend named {{c/core|1=operator==}}, an {{tt|==}} operator function is declared implicitly for each {{c/core|1=operator<=>}} defined as defaulted. Each implicity-declared {{c/core|1=operator==}} have the same access and {{rlpsd|function#Function definition}} and in the same {{rlpsd|scope#Class scope}} as the respective defaulted {{c/core|1=operator<=>}}, with the following changes: | |
− | === | + | * The {{rlp|declarations#Declarators|declarator identifier}} is replaced with {{c/core|1=operator==}}. |
− | + | * The return type is replaced with {{c/core|bool}}. | |
{{source|1= | {{source|1= | ||
− | + | template<typename T> | |
− | + | struct X | |
− | + | { | |
− | + | friend constexpr std::partial_ordering operator<=>(X, X) | |
− | + | requires (sizeof(T) != 1) = default; | |
− | + | // implicitly declares: friend constexpr bool operator==(X, X) | |
− | + | // requires (sizeof(T) != 1) = default; | |
− | + | ||
− | + | [[nodiscard]] virtual std::strong_ordering operator<=>(const X&) const = default; | |
− | + | // implicitly declares: [[nodiscard]] virtual bool | |
+ | // operator==(const X&) const = default; | ||
}; | }; | ||
+ | }} | ||
− | + | ===Secondary comparison=== | |
− | + | A secondary comparison operator function ({{tt|1=!=}}, {{tt|<}}, {{tt|>}}, {{tt|1=<=}}, or {{tt|1=>=}}) for a class type can be defined as defaulted with return type {{c/core|bool}}. | |
− | + | ||
− | + | ||
− | + | ||
− | + | Let {{tt|@}} be one of the five secondary comparison operators, for each defaulted {{c/core|operator@}} with parameters {{c|x}} and {{c|y}}, up to two overloads resolutions are performed (not considering the defaulted {{c/core|operator@}} as a candidate) to determine whether it is defined as deleted. | |
− | + | * The first overload resolution is performed for {{c|x @ y}}. If the overload resolution does not result in a usable candidate, or the selected candidate is not a {{rlp|overload resolution#Call to an overloaded operator|rewritten candidate}}, the defaulted {{c/core|operator@}} is defined as deleted. There is no second overload resolution in these cases. | |
− | + | * The second overload resolution is performed for the selected rewritten candidate of {{c|x @ y}}. If the overload resolution does not result in a usable candidate, the defaulted {{c/core|operator@}} is defined as deleted. | |
− | }} | + | |
− | + | If is {{c|x @ y}} cannot be implicitly converted to {{c/core|bool}}, the defaulted {{c/core|operator@}} is defined as deleted. | |
+ | |||
+ | If the defaulted {{c/core|operator@}} is not defined as deleted, it yields {{c|x @ y}}. | ||
− | |||
− | |||
{{source|1= | {{source|1= | ||
− | + | struct HasNoRelational {}; | |
− | + | ||
− | + | struct C | |
− | + | { | |
− | + | friend HasNoRelational operator<=>(const C&, const C&); | |
− | + | bool operator<(const C&) const = default; // OK, function is defaulted | |
− | + | ||
− | + | ||
− | + | ||
}; | }; | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
}} | }} | ||
− | ==See also== | + | ===Keywords=== |
− | * {{rlp| | + | {{ltt|cpp/keyword/default}} |
− | * Built-in | + | |
− | * {{rlp|operators# | + | ===Defect reports=== |
+ | {{dr list begin}} | ||
+ | {{dr list item|wg=cwg|dr=2539|std=C++20|before=the synthesized three-way comparison would choose<br>{{c/core|static_cast}} even if the explicit conversion is not available|after=does not choose<br>{{c/core|static_cast}} in this case}} | ||
+ | {{dr list item|wg=cwg|dr=2546|std=C++20|before=the defaulted secondary {{c/core|operator@}} was not<br>defined as deleted if the overload resolution of<br>{{c|x @ y}} selects a non-usable rewritten candidate|after=defined as deleted<br>in this case}} | ||
+ | {{dr list item|wg=cwg|dr=2547|std=C++20|before=it was unclear whether comparison operator<br>functions for non-classes can be defaulted|after=they cannot be defaulted}} | ||
+ | {{dr list item|wg=cwg|dr=2568|std=C++20|before=the implicit definition of comparison operator<br>functions might violate member access rules|after=access checks are performed<br>from a context equivalent<br>to their function bodies}} | ||
+ | {{dr list end}} | ||
+ | |||
+ | ===See also=== | ||
+ | * {{rlp|overload resolution#Call to an overloaded operator|overload resolution}} in a call to an overloaded operator | ||
+ | * Built-in {{rlp|operator comparison#Three-way comparison|three-way comparison operator}} | ||
+ | * {{rlp|operators#Comparison operators|Operator overloading}} for comparison operators | ||
− | {{langlinks|ja|zh}} | + | {{langlinks|es|ja|ru|zh}} |
Latest revision as of 17:33, 18 August 2024
Comparison operator functions can be explicitly defaulted to request the compiler to generate the corresponding default comparison for a class.
Contents |
[edit] Definition
A defaulted comparison operator function is a non-template comparison operator function (i.e. <=>
, ==
, !=
, <
, >
, <=
, or >=
) satisfying all following conditions:
- It is a non-static member or friend of some class
C
. - It is defined as defaulted in
C
or in a context whereC
is complete. - It 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
.
struct X { bool operator==(const X&) const = default; // OK bool operator==(const X&) = default; // Error: the implicit object // parameter type is X& bool operator==(this X, X) = default; // OK }; struct Y { friend bool operator==(Y, Y) = default; // OK friend bool operator==(Y, const Y&) = default; // Error: different parameter types }; bool operator==(const Y&, const Y&) = default; // Error: not a friend of Y
Name lookups and access checks in the implicit definition of a comparison operator function are performed from a context equivalent to its function body. A definition of a comparison operator function as defaulted that appears in a class must be the first declaration of that function.
[edit] Default comparison order
Given a class C
, a subobject list is formed by the following subjects in order:
- The direct base class subobjects of
C
, in declaration order. - The non-static data members of
C
, in declaration order.
- If any member subobject is of array type, it is expanded to the sequence of its elements, in the order of increasing subscript. The expansion is recursive: array elements of array types will be expanded again until there is no subobject of array type.
For any object x of type C
, in the following descriptions:
- Let n be the number of subobjects in the (expanded) subobject list for x.
- Let x_i be the ith subobject in the (expanded) subobject list for x, where x_i is formed by a sequence of derived-to-base conversions, class member access expressions, and array subscript expressions applied to x.
struct S {}; struct T : S { int arr[2][2]; } t; // The subobject list for “t” consists of the following 5 subobjects in order: // (S)t → t[0][0] → t[0][1] → t[1][0] → t[1][1]
[edit] Three-way comparison
An operator<=> for a class type can be defined as defaulted with any return type.
[edit] Comparison category types
There are three comparison category types:
Type | Equivalent values are.. | Incomparable values are.. |
---|---|---|
std::strong_ordering | indistinguishable | not allowed |
std::weak_ordering | distinguishable | not allowed |
std::partial_ordering | distinguishable | allowed |
[edit] Synthesized three-way comparison
The synthesized three-way comparison of type T
between glvalues a and b of the same type is defined as follows:
- If the overload resolution for a <=> b results in a usable candidate, and can be explicitly converted to
T
usingstatic_cast
, the synthesized comparison is static_cast<T>(a <=> b). - Otherwise, if any of the following condition is satisfied, the synthesized comparison is not defined:
- The overload resolution for a <=> b finds at least one viable candidate.
-
T
is not a comparison category type. - The overload resolution for a == b does not result in a usable candidate.
- The overload resolution for a < b does not result in a usable candidate.
- Otherwise, if
T
is std::strong_ordering, the synthesized comparison is
a == b ? std::strong_ordering::equal : a < b ? std::strong_ordering::less : std::strong_ordering::greater
- Otherwise, if
T
is std::weak_ordering, the synthesized comparison is
a == b ? std::weak_ordering::equivalent : a < b ? std::weak_ordering::less : std::weak_ordering::greater
- Otherwise (
T
is std::partial_ordering), the synthesized comparison is
a == b ? std::partial_ordering::equivalent : a < b ? std::partial_ordering::less : b < a ? std::partial_ordering::greater : std::partial_ordering::unordered
[edit] Placeholder return type
If the declared return type of a defaulted three-way comparison operator function (operator<=>) for a class type C
is auto, the return type is deduced from the return types of the three-way comparisons between the corresponding subobjects of an object x of type C
.
For each subobject x_i in the (expanded) subobject list for x:
- Perform overload resolution for x_i <=> x_i, if the overload resolution does not result in a usable candidate, the defaulted operator<=> is defined as deleted.
- Denote the cv-unqualified version of the type of x_i <=> x_i as
R_i
, ifR_i
is not a comparison category type, the defaulted operator<=> is defined as deleted.
If the defaulted operator<=> is not defined as deleted, its return type is deduced as std::common_comparison_category_t<R_1, R_2, ..., R_n>.
[edit] Non-placeholder return type
If the declared return type of the defaulted operator<=> is not auto, it cannot contain any placeholder type (e.g. decltype(auto)).
If there is a subobject x_i in the (expanded) subobject list for x such that the synthesized three-way comparison of the declared return type between x_i and x_i is not defined, the defaulted operator<=> is defined as deleted.
[edit] Comparison result
Let x and y be the parameters of a defaulted operator<=>, denote each subobject in the (expanded) subobject list for x and y as x_i and y_i respectively. The default three-way comparison between x and y is performed by comparing corresponding subobjects x_i and y_i with increasing i order.
Let R
be the (possibly-deduced) return type, the comparison result between x_i and y_i is the result of the synthesized three-way comparison of type R
between x_i and y_i.
- During the default three-way comparison between x and y, if a subobject-wise comparison between x_i and y_i generates a result v_i such that contextually converting v_i != 0 to bool yields true, the return value is a copy of v_i (the remaining subobjects will not be compared).
- Otherwise, the return value is static_cast<R>(std::strong_ordering::equal).
#include <compare> #include <iostream> #include <set> struct Point { int x; int y; auto operator<=>(const Point&) const = default; /* non-comparison functions */ }; int main() { Point pt1{1, 1}, pt2{1, 2}; std::set<Point> s; // OK s.insert(pt1); // OK // two-way comparison operator functions are not required to be explicitly defined: // operator== is implicitly declared (see below) // the overload resolutions of other candidates will select rewritten candidates std::cout << std::boolalpha << (pt1 == pt2) << ' ' // false << (pt1 != pt2) << ' ' // true << (pt1 < pt2) << ' ' // true << (pt1 <= pt2) << ' ' // true << (pt1 > pt2) << ' ' // false << (pt1 >= pt2) << ' '; // false }
[edit] Equality comparison
[edit] Explicit declaration
An operator== for a class type can be defined as defaulted with return type bool.
Given a class C
and an object x of type C
, if there is a subobject x_i in the (expanded) subobject list for x such that the overload resolution for x_i == x_i does not result in a usable candidate, the defaulted operator== is defined as deleted.
Let x and y be the parameters of a defaulted operator==, denote each subobject in the (expanded) subobject list for x and y as x_i and y_i respectively. The default equality comparison between x and y is performed by comparing corresponding subobjects x_i and y_i with increasing i order.
The comparison result between x_i and y_i is the result of x_i == y_i.
- During the default equality comparison between x and y, if a subobject-wise comparison between x_i and y_i generates a result v_i such that contextually converting v_i to bool yields false, the return value is false (the remaining subobjects will not be compared).
- Otherwise, the return value is true.
#include <iostream> struct Point { int x; int y; bool operator==(const Point&) const = default; /* non-comparison functions */ }; int main() { Point pt1{3, 5}, pt2{2, 5}; std::cout << std::boolalpha << (pt1 != pt2) << '\n' // true << (pt1 == pt1) << '\n'; // true struct [[maybe_unused]] { int x{}, y{}; } p, q; // if (p == q) {} // Error: operator== is not defined }
[edit] Implicit declaration
If a class C
does not explicitly declare any member or friend named operator==, an operator function is declared implicitly for each operator<=> defined as defaulted. Each implicity-declared operator== have the same access and function definition and in the same class scope as the respective defaulted operator<=>, with the following changes:
- The declarator identifier is replaced with operator==.
- The return type is replaced with bool.
template<typename T> struct X { friend constexpr std::partial_ordering operator<=>(X, X) requires (sizeof(T) != 1) = default; // implicitly declares: friend constexpr bool operator==(X, X) // requires (sizeof(T) != 1) = default; [[nodiscard]] virtual std::strong_ordering operator<=>(const X&) const = default; // implicitly declares: [[nodiscard]] virtual bool // operator==(const X&) const = default; };
[edit] Secondary comparison
A secondary comparison operator function (!=
, <
, >
, <=
, or >=
) for a class type can be defined as defaulted with return type bool.
Let @
be one of the five secondary comparison operators, for each defaulted operator@ with parameters x and y, up to two overloads resolutions are performed (not considering the defaulted operator@ as a candidate) to determine whether it is defined as deleted.
- The first overload resolution is performed for x @ y. If the overload resolution does not result in a usable candidate, or the selected candidate is not a rewritten candidate, the defaulted operator@ is defined as deleted. There is no second overload resolution in these cases.
- The second overload resolution is performed for the selected rewritten candidate of x @ y. If the overload resolution does not result in a usable candidate, the defaulted operator@ is defined as deleted.
If is x @ y cannot be implicitly converted to bool, the defaulted operator@ is defined as deleted.
If the defaulted operator@ is not defined as deleted, it yields x @ y.
struct HasNoRelational {}; struct C { friend HasNoRelational operator<=>(const C&, const C&); bool operator<(const C&) const = default; // OK, function is defaulted };
[edit] Keywords
[edit] Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
DR | Applied to | Behavior as published | Correct behavior |
---|---|---|---|
CWG 2539 | C++20 | the synthesized three-way comparison would choose static_cast even if the explicit conversion is not available |
does not choose static_cast in this case |
CWG 2546 | C++20 | the defaulted secondary operator@ was not defined as deleted if the overload resolution of x @ y selects a non-usable rewritten candidate |
defined as deleted in this case |
CWG 2547 | C++20 | it was unclear whether comparison operator functions for non-classes can be defaulted |
they cannot be defaulted |
CWG 2568 | C++20 | the implicit definition of comparison operator functions might violate member access rules |
access checks are performed from a context equivalent to their function bodies |
[edit] See also
- overload resolution in a call to an overloaded operator
- Built-in three-way comparison operator
- Operator overloading for comparison operators