Generic Type Method

sinh(_:)

Returns the hyperbolic sine of each element in a vector of single-precision values.

Declaration

Array-Oriented Hyperbolic Functions

`static func acosh<U>(U) -> [Double]`

Returns the inverse hyperbolic cosine of each element in a vector of double-precision values.

`static func acosh<U>(U) -> [Float]`

Returns the inverse hyperbolic cosine of each element in a vector of single-precision values.

`static func acosh<U, V>(U, result: inout V)`

Calculates the inverse hyperbolic cosine of each element in a vector of double-precision values.

`static func acosh<U, V>(U, result: inout V)`

Calculates the inverse hyperbolic cosine of each element in a vector of single-precision values.

`static func asinh<U>(U) -> [Double]`

Returns the inverse hyperbolic sine of each element in a vector of double-precision values.

`static func asinh<U>(U) -> [Float]`

Returns the inverse hyperbolic sine of each element in a vector of single-precision values.

`static func asinh<U, V>(U, result: inout V)`

Calculates the inverse hyperbolic sine of each element in a vector of double-precision values.

`static func asinh<U, V>(U, result: inout V)`

Calculates the inverse hyperbolic sine of each element in a vector of single-precision values.

`static func atanh<U>(U) -> [Double]`

Returns the inverse hyperbolic tangent of each element in a vector of double-precision values.

`static func atanh<U>(U) -> [Float]`

Returns the inverse hyperbolic tangent of each element in a vector of single-precision values.

`static func atanh<U, V>(U, result: inout V)`

Calculates the inverse hyperbolic tangent of each element in a vector of double-precision values.

`static func atanh<U, V>(U, result: inout V)`

Calculates the inverse hyperbolic tangent of each element in a vector of single-precision values.

`static func cosh<U>(U) -> [Double]`

Returns the hyperbolic cosine of each element in a vector of double-precision values.

`static func cosh<U>(U) -> [Float]`

Returns the hyperbolic cosine of each element in a vector of single-precision values.

`static func cosh<U, V>(U, result: inout V)`

Calculates the hyperbolic cosine of each element in a vector of double-precision values.

`static func cosh<U, V>(U, result: inout V)`

Calculates the hyperbolic cosine of each element in a vector of single-precision values.

`static func sinh<U>(U) -> [Double]`

Returns the hyperbolic sine of each element in a vector of double-precision values.

`static func sinh<U, V>(U, result: inout V)`

Calculates the hyperbolic sine of each element in a vector of double-precision values.

`static func sinh<U, V>(U, result: inout V)`

Calculates the hyperbolic sine of each element in a vector of single-precision values.

`static func tanh<U>(U) -> [Double]`

Returns the hyperbolic tangent of each element in a vector of double-precision values.

`static func tanh<U>(U) -> [Float]`

Returns the hyperbolic tangent of each element in a vector of single-precision values.

`static func tanh<U, V>(U, result: inout V)`

Calculates the hyperbolic tangent of each element in a vector of double-precision values.

`static func tanh<U, V>(U, result: inout V)`

Calculates the hyperbolic tangent of each element in a vector of single-precision values.

`func vvsinh(UnsafeMutablePointer<Double>, UnsafePointer<Double>, UnsafePointer<Int32>)`

Calculates the hyperbolic sine of each element in an array of double-precision values.

`func vvsinhf(UnsafeMutablePointer<Float>, UnsafePointer<Float>, UnsafePointer<Int32>)`

Calculates the hyperbolic sine of each element in an array of single-precision values.

`func vvcosh(UnsafeMutablePointer<Double>, UnsafePointer<Double>, UnsafePointer<Int32>)`

Calculates the hyperbolic cosine of each element in an array of double-precision values.

`func vvcoshf(UnsafeMutablePointer<Float>, UnsafePointer<Float>, UnsafePointer<Int32>)`

Calculates the hyperbolic cosine of each element in an array of single-precision values.

`func vvtanh(UnsafeMutablePointer<Double>, UnsafePointer<Double>, UnsafePointer<Int32>)`

Calculates the hyperbolic tangent of each element in an array of double-precision values.

`func vvtanhf(UnsafeMutablePointer<Float>, UnsafePointer<Float>, UnsafePointer<Int32>)`

Calculates the hyperbolic tangent of each element in an array of single-precision values.

`func vvasinh(UnsafeMutablePointer<Double>, UnsafePointer<Double>, UnsafePointer<Int32>)`

Calculates the inverse hyperbolic sine of each element in an array of double-precision values.

`func vvasinhf(UnsafeMutablePointer<Float>, UnsafePointer<Float>, UnsafePointer<Int32>)`

Calculates the inverse hyperbolic sine of each element in an array of single-precision values.

`func vvacosh(UnsafeMutablePointer<Double>, UnsafePointer<Double>, UnsafePointer<Int32>)`

Calculates the inverse hyperbolic cosine of each element in an array of double-precision values.

`func vvacoshf(UnsafeMutablePointer<Float>, UnsafePointer<Float>, UnsafePointer<Int32>)`

Calculates the inverse hyperbolic cosine of each element in an array of single-precision values.

`func vvatanh(UnsafeMutablePointer<Double>, UnsafePointer<Double>, UnsafePointer<Int32>)`

Calculates the inverse hyperbolic tangent of each element in an array of double-precision values.

`func vvatanhf(UnsafeMutablePointer<Float>, UnsafePointer<Float>, UnsafePointer<Int32>)`

Calculates the inverse hyperbolic tangent of each element in an array of single-precision values.

Beta Software

This documentation contains preliminary information about an API or technology in development. This information is subject to change, and software implemented according to this documentation should be tested with final operating system software.