27 Algorithms library [algorithms]

27.10 Generalized numeric operations [numeric.ops]

27.10.17 Saturation arithmetic [numeric.sat]

27.10.17.1 Arithmetic functions [numeric.sat.func]

In the following descriptions, an arithmetic operation is performed as a mathematical operation with infinite range and then it is determined whether the mathematical result fits into the result type.

🔗

template<class T>
  constexpr T add_sat(T x, T y) noexcept;

Constraints: T is a signed or unsigned integer type ([basic.fundamental]).

Returns: If

x + y

is representable as a value of type T,

x + y

; otherwise, either the largest or smallest representable value of type T, whichever is closer to the value of

x + y

🔗

template<class T>
  constexpr T sub_sat(T x, T y) noexcept;

Constraints: T is a signed or unsigned integer type ([basic.fundamental]).

Returns: If

x - y

is representable as a value of type T,

x - y

; otherwise, either the largest or smallest representable value of type T, whichever is closer to the value of

x - y

🔗

template<class T>
  constexpr T mul_sat(T x, T y) noexcept;

Constraints: T is a signed or unsigned integer type ([basic.fundamental]).

Returns: If x ×y is representable as a value of type T, x ×y; otherwise, either the largest or smallest representable value of type T, whichever is closer to the value of x ×y.

🔗

template<class T>
  constexpr T div_sat(T x, T y) noexcept;

Constraints: T is a signed or unsigned integer type ([basic.fundamental]).

Preconditions: y != 0 is true.

Returns: If T is a signed integer type and x == numeric_limits<T>::min() && y == -1 is true, numeric_limits<T>::max(), otherwise, x / y.

Remarks: A function call expression that violates the precondition in the Preconditions element is not a core constant expression ([expr.const]).