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//===--- Float16+Real.swift -----------------------------------*- swift -*-===//
//
// This source file is part of the Swift Numerics open source project
//
// Copyright (c) 2020 Apple Inc. and the Swift Numerics project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
//
//===----------------------------------------------------------------------===//
import _NumericsShims
// When building with a Swift 5.4 or later toolchain, Float16 is available on
// non-x86 macOS from 11.0 onward.
#if swift(>=5.4) && !((os(macOS) || targetEnvironment(macCatalyst)) && arch(x86_64))
@available(macOS 11.0, iOS 14.0, tvOS 14.0, watchOS 7.0, *)
extension Float16: Real {
@_transparent
public static func cos(_ x: Float16) -> Float16 {
Float16(.cos(Float(x)))
}
@_transparent
public static func sin(_ x: Float16) -> Float16 {
Float16(.sin(Float(x)))
}
@_transparent
public static func tan(_ x: Float16) -> Float16 {
Float16(.tan(Float(x)))
}
@_transparent
public static func acos(_ x: Float16) -> Float16 {
Float16(.acos(Float(x)))
}
@_transparent
public static func asin(_ x: Float16) -> Float16 {
Float16(.asin(Float(x)))
}
@_transparent
public static func atan(_ x: Float16) -> Float16 {
Float16(.atan(Float(x)))
}
@_transparent
public static func cosh(_ x: Float16) -> Float16 {
Float16(.cosh(Float(x)))
}
@_transparent
public static func sinh(_ x: Float16) -> Float16 {
Float16(.sinh(Float(x)))
}
@_transparent
public static func tanh(_ x: Float16) -> Float16 {
Float16(.tanh(Float(x)))
}
@_transparent
public static func acosh(_ x: Float16) -> Float16 {
Float16(.acosh(Float(x)))
}
@_transparent
public static func asinh(_ x: Float16) -> Float16 {
Float16(.asinh(Float(x)))
}
@_transparent
public static func atanh(_ x: Float16) -> Float16 {
Float16(.atanh(Float(x)))
}
@_transparent
public static func exp(_ x: Float16) -> Float16 {
Float16(.exp(Float(x)))
}
@_transparent
public static func expMinusOne(_ x: Float16) -> Float16 {
Float16(.expMinusOne(Float(x)))
}
@_transparent
public static func log(_ x: Float16) -> Float16 {
Float16(.log(Float(x)))
}
@_transparent
public static func log(onePlus x: Float16) -> Float16 {
Float16(.log(onePlus: Float(x)))
}
@_transparent
public static func erf(_ x: Float16) -> Float16 {
Float16(.erf(Float(x)))
}
@_transparent
public static func erfc(_ x: Float16) -> Float16 {
Float16(.erfc(Float(x)))
}
@_transparent
public static func exp2(_ x: Float16) -> Float16 {
Float16(.exp2(Float(x)))
}
@_transparent
public static func exp10(_ x: Float16) -> Float16 {
Float16(.exp10(Float(x)))
}
@_transparent
public static func hypot(_ x: Float16, _ y: Float16) -> Float16 {
if x.isInfinite || y.isInfinite { return .infinity }
let xf = Float(x)
let yf = Float(y)
return Float16(.sqrt(xf*xf + yf*yf))
}
@_transparent
public static func gamma(_ x: Float16) -> Float16 {
Float16(.gamma(Float(x)))
}
@_transparent
public static func log2(_ x: Float16) -> Float16 {
Float16(.log2(Float(x)))
}
@_transparent
public static func log10(_ x: Float16) -> Float16 {
Float16(.log10(Float(x)))
}
@_transparent
public static func pow(_ x: Float16, _ y: Float16) -> Float16 {
Float16(.pow(Float(x), Float(y)))
}
@_transparent
public static func pow(_ x: Float16, _ n: Int) -> Float16 {
// Float16 is simpler than Float or Double, because the range of
// "interesting" exponents is pretty small; anything outside of
// -22707 ... 34061 simply overflows or underflows for every
// x that isn't zero or one. This whole range is representable
// as Float, so we can just use powf as long as we're a little
// bit (get it?) careful to preserve parity.
let clamped = min(max(n, -0x10000), 0x10000) | (n & 1)
return Float16(libm_powf(Float(x), Float(clamped)))
}
@_transparent
public static func root(_ x: Float16, _ n: Int) -> Float16 {
Float16(.root(Float(x), n))
}
@_transparent
public static func atan2(y: Float16, x: Float16) -> Float16 {
Float16(.atan2(y: Float(y), x: Float(x)))
}
#if !os(Windows)
@_transparent
public static func logGamma(_ x: Float16) -> Float16 {
Float16(.logGamma(Float(x)))
}
#endif
}
// When building with older Swift toolchains for macOS, Float16 is not
// available. We will drop support for these older toolchains at some
// future point and remove this duplication.
#elseif swift(>=5.3) && !(os(macOS) || targetEnvironment(macCatalyst))
@available(iOS 14.0, tvOS 14.0, watchOS 7.0, *)
extension Float16: Real {
@_transparent
public static func cos(_ x: Float16) -> Float16 {
Float16(.cos(Float(x)))
}
@_transparent
public static func sin(_ x: Float16) -> Float16 {
Float16(.sin(Float(x)))
}
@_transparent
public static func tan(_ x: Float16) -> Float16 {
Float16(.tan(Float(x)))
}
@_transparent
public static func acos(_ x: Float16) -> Float16 {
Float16(.acos(Float(x)))
}
@_transparent
public static func asin(_ x: Float16) -> Float16 {
Float16(.asin(Float(x)))
}
@_transparent
public static func atan(_ x: Float16) -> Float16 {
Float16(.atan(Float(x)))
}
@_transparent
public static func cosh(_ x: Float16) -> Float16 {
Float16(.cosh(Float(x)))
}
@_transparent
public static func sinh(_ x: Float16) -> Float16 {
Float16(.sinh(Float(x)))
}
@_transparent
public static func tanh(_ x: Float16) -> Float16 {
Float16(.tanh(Float(x)))
}
@_transparent
public static func acosh(_ x: Float16) -> Float16 {
Float16(.acosh(Float(x)))
}
@_transparent
public static func asinh(_ x: Float16) -> Float16 {
Float16(.asinh(Float(x)))
}
@_transparent
public static func atanh(_ x: Float16) -> Float16 {
Float16(.atanh(Float(x)))
}
@_transparent
public static func exp(_ x: Float16) -> Float16 {
Float16(.exp(Float(x)))
}
@_transparent
public static func expMinusOne(_ x: Float16) -> Float16 {
Float16(.expMinusOne(Float(x)))
}
@_transparent
public static func log(_ x: Float16) -> Float16 {
Float16(.log(Float(x)))
}
@_transparent
public static func log(onePlus x: Float16) -> Float16 {
Float16(.log(onePlus: Float(x)))
}
@_transparent
public static func erf(_ x: Float16) -> Float16 {
Float16(.erf(Float(x)))
}
@_transparent
public static func erfc(_ x: Float16) -> Float16 {
Float16(.erfc(Float(x)))
}
@_transparent
public static func exp2(_ x: Float16) -> Float16 {
Float16(.exp2(Float(x)))
}
@_transparent
public static func exp10(_ x: Float16) -> Float16 {
Float16(.exp10(Float(x)))
}
@_transparent
public static func hypot(_ x: Float16, _ y: Float16) -> Float16 {
if x.isInfinite || y.isInfinite { return .infinity }
let xf = Float(x)
let yf = Float(y)
return Float16(.sqrt(xf*xf + yf*yf))
}
@_transparent
public static func gamma(_ x: Float16) -> Float16 {
Float16(.gamma(Float(x)))
}
@_transparent
public static func log2(_ x: Float16) -> Float16 {
Float16(.log2(Float(x)))
}
@_transparent
public static func log10(_ x: Float16) -> Float16 {
Float16(.log10(Float(x)))
}
@_transparent
public static func pow(_ x: Float16, _ y: Float16) -> Float16 {
Float16(.pow(Float(x), Float(y)))
}
@_transparent
public static func pow(_ x: Float16, _ n: Int) -> Float16 {
// Float16 is simpler than Float or Double, because the range of
// "interesting" exponents is pretty small; anything outside of
// -22707 ... 34061 simply overflows or underflows for every
// x that isn't zero or one. This whole range is representable
// as Float, so we can just use powf as long as we're a little
// bit (get it?) careful to preserve parity.
let clamped = min(max(n, -0x10000), 0x10000) | (n & 1)
return Float16(libm_powf(Float(x), Float(clamped)))
}
@_transparent
public static func root(_ x: Float16, _ n: Int) -> Float16 {
Float16(.root(Float(x), n))
}
@_transparent
public static func atan2(y: Float16, x: Float16) -> Float16 {
Float16(.atan2(y: Float(y), x: Float(x)))
}
#if !os(Windows)
@_transparent
public static func logGamma(_ x: Float16) -> Float16 {
Float16(.logGamma(Float(x)))
}
#endif
}
#endif
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