FloatLiouvilianFunctions

special2.spad line 642 [edit on github]

This package implements numerical evaluation for selected liouvilian functions.

Chi: Complex Float -> Complex Float

Chi(f) denotes the hyperbolic cosine integral

Chi: Float -> Float

Chi(f) denotes the hyperbolic cosine integral

Ci: Complex Float -> Complex Float

Ci(f) denotes the cosine integral

Ci: Float -> Float

Ci(f) denotes the cosine integral

Ei: Complex Float -> Complex Float

Ei(f) denotes the exponential integral

Ei: Float -> Float

Ei(f) denotes the exponential integral

erf: Complex Float -> Complex Float

erf(f) denotes the error function

erf: Float -> Float

erf(f) denotes the error function

erfi: Complex Float -> Complex Float

erfi(f) denotes -\%i*erf(\%i*f)

erfi: Float -> Float

erfi(f) denotes -\%i*erf(\%i*f)

fresnelC: Complex Float -> Complex Float

fresnelC(f) denotes the Fresnel integral C

fresnelC: Float -> Float

fresnelC(f) denotes the Fresnel integral C

fresnelS: Complex Float -> Complex Float

fresnelS(f) denotes the Fresnel integral S

fresnelS: Float -> Float

fresnelS(f) denotes the Fresnel integral S

gamma: () -> Complex Float

gamma() is the Euler constant

li: Complex Float -> Complex Float

li(f) denotes the logarithmic integral

li: Float -> Float

li(f) denotes the logarithmic integral

Shi: Complex Float -> Complex Float

Shi(f) denotes the hyperbolic sine integral

Shi: Float -> Float

Shi(f) denotes the hyperbolic sine integral

Si: Complex Float -> Complex Float

Si(f) denotes the sine integral

Si: Float -> Float

Si(f) denotes the sine integral