Generic Type Method

absolute(_:result:)

Calculates the absolute value of each element in the supplied single-precision complex vector.

Declaration

static func absolute<V>(_ vector: DSPSplitComplex, result: inout V) where V : AccelerateMutableBuffer, V.Element == Float

See Also

Single-Vector Absolute Value

static func absolute<U>(U) -> [Double]

Returns the absolute value of each element in the supplied double-precision vector.

static func absolute<U>(U) -> [Float]

Returns the absolute value of each element in the supplied single-precision vector.

static func absolute<V>(DSPDoubleSplitComplex, result: inout V)

Calculates the absolute value of each element in the supplied double-precision complex vector.

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

Calculates the absolute value of each element in the supplied double-precision vector.

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

Calculates the absolute value of each element in the supplied single-precision vector.

func vDSP_vabs(UnsafePointer<Float>, vDSP_Stride, UnsafeMutablePointer<Float>, vDSP_Stride, vDSP_Length)

Calculates the absolute value of each element in the supplied single-precision vector using specified stride.

func vDSP_vabsD(UnsafePointer<Double>, vDSP_Stride, UnsafeMutablePointer<Double>, vDSP_Stride, vDSP_Length)

Calculates the absolute value of each element in the supplied double-precision vector using specified stride.

func vDSP_vabsi(UnsafePointer<Int32>, vDSP_Stride, UnsafeMutablePointer<Int32>, vDSP_Stride, vDSP_Length)

Calculates the absolute value of each element in the supplied integer vector using specified stride.

func vDSP_vnabs(UnsafePointer<Float>, vDSP_Stride, UnsafeMutablePointer<Float>, vDSP_Stride, vDSP_Length)

Calculates the negative absolute value of each element in the supplied single-precision vector using specified stride.

func vDSP_vnabsD(UnsafePointer<Double>, vDSP_Stride, UnsafeMutablePointer<Double>, vDSP_Stride, vDSP_Length)

Calculates the negative absolute value of each element in the supplied double-precision vector using specified stride.