{-# OPTIONS #-} ----------------------------------------------------------------------------- {- | Module : GSL.Special Copyright : (c) Alberto Ruiz 2006 License : GPL-style Maintainer : Alberto Ruiz (aruiz at um dot es) Stability : provisional Portability : uses ffi Wrappers for selected special functions. -} ----------------------------------------------------------------------------- module GSL.Special ( module GSL.Special.Airy, module GSL.Special.Bessel, module GSL.Special.Erf, module GSL.Special.Exp, module GSL.Special.Gamma ) where import Foreign import GSL.Special.Internal import GSL.Special.Gamma import GSL.Special.Erf import GSL.Special.Exp import GSL.Special.Airy import GSL.Special.Bessel -------------------- simple functions -------------------------- {- | The error function (/gsl_sf_erf/), defined as 2\/ \\sqrt \\pi * \int\_0\^t \\exp -t\^2 dt. @> erf 1.5 0.9661051464753108@ -} foreign import ccall "gsl-aux.h gsl_sf_erf" erf :: Double -> Double {- | The Gaussian probability density function (/gsl_sf_erf_Z/), defined as (1\/\\sqrt\{2\\pi\}) \\exp(-x\^2\/2). >> erf_Z 1.5 >0.12951759566589172 -} foreign import ccall "gsl-aux.h gsl_sf_erf_Z" erf_Z :: Double -> Double -------------------- functions returning sf_result ------------- {- | The regular cylindrical Bessel function of zeroth order, J_0(x). This is the example in the GSL manual, returning the value of the function and the error term: @\> bessel_J0_e 5.0 (-0.1775967713143383,1.9302109579684196e-16)@ -} bessel_J0_e :: Double -> (Double,Double) bessel_J0_e x = createSFR "bessel_J0_e" (gsl_sf_bessel_J0_e x) foreign import ccall "gsl-aux.h gsl_sf_bessel_J0_e" gsl_sf_bessel_J0_e :: Double -> Ptr Double -> IO Int -------------------- functions returning sf_result_e10 ------------- {- | (From the GSL manual) \"This function computes the exponential \exp(x) using the @gsl_sf_result_e10@ type to return a result with extended range. This function may be useful if the value of \exp(x) would overflow the numeric range of double\". For example: @\> exp_e10_e 30.0 (1.0686474581524432,1.4711818964275088e-14,13)@ @\> exp 30.0 1.0686474581524463e13@ -} exp_e10_e :: Double -> (Double,Int,Double) exp_e10_e x = createSFR_E10 "exp_e10_e" (gsl_sf_exp_e10_e x) foreign import ccall "gsl-aux.h gsl_sf_exp_e10_e" gsl_sf_exp_e10_e :: Double -> Ptr Double -> IO Int