17 Library introduction [library]

17.6 Library-wide requirements [requirements]

17.6.3 Requirements on types and expressions [utility.requirements]

17.6.3.1 Template argument requirements [utility.arg.requirements]

The template definitions in the C++ standard library refer to various named requirements whose details are set out in tables [equalitycomparable][destructible]. In these tables, T is an object or reference type to be supplied by a C++ program instantiating a template; a, b, and c are values of type (possibly const) T; s and t are modifiable lvalues of type T; u denotes an identifier; rv is an rvalue of type T; and v is an lvalue of type (possibly const) T or an rvalue of type const T.

In general, a default constructor is not required. Certain container class member function signatures specify T() as a default argument. T() shall be a well-defined expression ([dcl.init]) if one of those signatures is called using the default argument ([dcl.fct.default]).

Table 17EqualityComparable requirements
Expression Return type Requirement
a == b convertible to bool == is an equivalence relation, that is, it has the following properties:
  • For all a, a == a.

  • If a == b, then b == a.

  • If a == b and b == c, then a == c.

Table 18LessThanComparable requirements
Expression Return type Requirement
a < b convertible to bool < is a strict weak ordering relation ([alg.sorting])

Table 19DefaultConstructible requirements
Expression Post-condition
T t; object t is default-initialized
T u{}; object u is value-initialized
T() a temporary object of type T is value-initialized
T{}

Table 20MoveConstructible requirements
Expression Post-condition
T u = rv; u is equivalent to the value of rv before the construction
T(rv) T(rv) is equivalent to the value of rv before the construction
rv's state is unspecified [ Note: rv must still meet the requirements of the library component that is using it. The operations listed in those requirements must work as specified whether rv has been moved from or not.  — end note ]

Table 21CopyConstructible requirements (in addition to MoveConstructible)
Expression Post-condition
T u = v; the value of v is unchanged and is equivalent to u
T(v) the value of v is unchanged and is equivalent to T(v)

Table 22MoveAssignable requirements
Expression Return type Return value Post-condition
t = rv T& t t is equivalent to the value of rv before the assignment
rv's state is unspecified. [ Note: rv must still meet the requirements of the library component that is using it. The operations listed in those requirements must work as specified whether rv has been moved from or not.  — end note ]

Table 23CopyAssignable requirements (in addition to MoveAssignable)
Expression Return type Return value Post-condition
t = v T& t t is equivalent to v, the value of v is unchanged

Table 24Destructible requirements
Expression Post-condition
u.~T() All resources owned by u are reclaimed, no exception is propagated.