operator % { associativity left precedence } Declarations func %(_: Int, rhs: Int) Declaration func %(lhs: Int, rhs: Int) -> Int func %(_: Int8, rhs: Int8) Declaration func %(lhs: Int8, rhs: Int8) -> Int8 func %(_: Int16, rhs: Int16) Declaration func %(lhs: Int16, rhs: Int16) -> Int16 func %(_: Int32, rhs: Int32) Declaration func %(lhs: Int32, rhs: Int32) -> Int32 func %(_: Int64, rhs: Int64) Declaration func %(lhs: Int64, rhs: Int64) -> Int64 func %(_: UInt, rhs: UInt) Declaration func %(lhs: UInt, rhs: UInt) -> UInt func %(_: UInt8, rhs: UInt8) Declaration func %(lhs: UInt8, rhs: UInt8) -> UInt8 func %(_: UInt16, rhs: UInt16) Declaration func %(lhs: UInt16, rhs: UInt16) -> UInt16 func %(_: UInt32, rhs: UInt32) Declaration func %(lhs: UInt32, rhs: UInt32) -> UInt32 func %(_: UInt64, rhs: UInt64) Declaration func %(lhs: UInt64, rhs: UInt64) -> UInt64 func % <T where T : _IntegerArithmetic>(_: T, rhs: T) Divides lhs and rhs, returning the remainder and trapping in case of arithmetic overflow (except in -Ounchecked builds). Declaration func %<T where T : _IntegerArithmetic>(lhs: T, rhs: T) -> T func % <T where T : BinaryInteger>(_: T, rhs: T) Declaration func %<T where T : BinaryInteger>(lhs: T, rhs: T) -> T