JuliaFloat32SpecialFunctions¶
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Special functions computed using Julia's ecosystem. They are here essentially for “completeness” purpose with JuliaFloat32. You should use the DoubleFloat's special functions if available, calling Julia functions is costly.
- acosd: JuliaFloat32 -> JuliaFloat32
acosd(x)computes the inverse cosine ofx, where output is in degrees.
- acotd: JuliaFloat32 -> JuliaFloat32
acotd(x)computes the inverse cotangent ofx, where output is in degrees.
- acscd: JuliaFloat32 -> JuliaFloat32
acscd(x)computes the inverse cosecant ofx, where output is in degrees.
- asecd: JuliaFloat32 -> JuliaFloat32
asecd(x)computes the inverse secant ofx, where output is in degrees.
- asind: JuliaFloat32 -> JuliaFloat32
asind(x)computes the inverse sine ofx, where output is in degrees.
- atand: (JuliaFloat32, JuliaFloat32) -> JuliaFloat32
atand(x, y)computes the inverse tangent of x/y, where output is in degrees.
- atand: JuliaFloat32 -> JuliaFloat32
atand(x)computes the inverse tangent ofx, where output is in degrees.
- cosc: JuliaFloat32 -> JuliaFloat32
cosc(x)computes cos(pi*x)/x−sin(pi*x)/(pi*x^2) ifx~=0, and 0 ifx=0i.e. the derivative of sinc(x).
- cosd: JuliaFloat32 -> JuliaFloat32
cosd(x)computes cosine ofx, wherexis in degrees.
- cospi: JuliaFloat32 -> JuliaFloat32
cospi(x)computes cos(pi*x) more accurately.
- cotd: JuliaFloat32 -> JuliaFloat32
cotd(x)computes cotangent ofx, wherexis in degrees.
- cscd: JuliaFloat32 -> JuliaFloat32
cscd(x)computes cosecant ofx, wherexis in degrees.
- deg2rad: JuliaFloat32 -> JuliaFloat32
deg2rad(x)convertsxto radian, wherexis in degrees.
- exp10: JuliaFloat32 -> JuliaFloat32
exp10(x)computes the base 10 exponential ofx.
- exp2: JuliaFloat32 -> JuliaFloat32
exp2(x)computes the base 2 exponential ofx.
- hypot: (JuliaFloat32, JuliaFloat32) -> JuliaFloat32
hypot(x,y)computes the hypotenuse avoiding overflow and underflow.
- ldexp: (JuliaFloat32, JuliaInt64) -> JuliaFloat32
ldexp(x,n)computes x*2^n
- log1p: JuliaFloat32 -> JuliaFloat32
log1p(x)computes accurately natural logarithm of 1+x.
- rad2deg: JuliaFloat32 -> JuliaFloat32
rad2deg(x)convertsxto degrees, wherexis in radians.
- secd: JuliaFloat32 -> JuliaFloat32
secd(x)computes secant ofx, wherexis in degrees.
- sinc: JuliaFloat32 -> JuliaFloat32
sinc(x)computes sin(pi*x)/(pi*x) ifx~=0, and 1 ifx=0.
- sind: JuliaFloat32 -> JuliaFloat32
sind(x)computes sine ofx, wherexis in degrees.
- sinpi: JuliaFloat32 -> JuliaFloat32
sinpi(x)computes sin(pi*x) more accurately.
- tand: JuliaFloat32 -> JuliaFloat32
tand(x)computes tangent ofx, wherexis in degrees.
- tanpi: JuliaFloat32 -> JuliaFloat32
tanpi(x)computes tan(pi*x) more accurately.