\documentclass{article} \usepackage{open-axiom} \begin{document} \title{\$SPAD/src/algebra s.spad} \author{Godfrey Nolan, Mike Dewar} \maketitle \begin{abstract} \end{abstract} \eject \tableofcontents \eject \section{package NAGS NagSpecialFunctionsPackage} <>= )abbrev package NAGS NagSpecialFunctionsPackage ++ Author: Godfrey Nolan and Mike Dewar ++ Date Created: Jan 1994 ++ Date Last Updated: Thu May 12 17:45:44 1994 ++Description: ++This package uses the NAG Library to compute some commonly ++occurring physical and mathematical functions. ++See \downlink{Manual Page}{manpageXXs}. NagSpecialFunctionsPackage(): Exports == Implementation where S ==> Symbol FOP ==> FortranOutputStackPackage Exports ==> with s01eaf : (Complex DoubleFloat,Integer) -> Result ++ s01eaf(z,ifail) ++ S01EAF evaluates the exponential function exp(z) , for complex z. ++ See \downlink{Manual Page}{manpageXXs01eaf}. s13aaf : (DoubleFloat,Integer) -> Result ++ s13aaf(x,ifail) ++ returns the value of the exponential integral ++ E (x), via the routine name. ++ 1 ++ See \downlink{Manual Page}{manpageXXs13aaf}. s13acf : (DoubleFloat,Integer) -> Result ++ s13acf(x,ifail) ++ returns the value of the cosine integral ++ See \downlink{Manual Page}{manpageXXs13acf}. s13adf : (DoubleFloat,Integer) -> Result ++ s13adf(x,ifail) ++ returns the value of the sine integral ++ See \downlink{Manual Page}{manpageXXs13adf}. s14aaf : (DoubleFloat,Integer) -> Result ++ s14aaf(x,ifail) returns the value of the Gamma function (Gamma)(x), via ++ the routine name. ++ See \downlink{Manual Page}{manpageXXs14aaf}. s14abf : (DoubleFloat,Integer) -> Result ++ s14abf(x,ifail) returns a value for the log, ln(Gamma(x)), via ++ the routine name. ++ See \downlink{Manual Page}{manpageXXs14abf}. s14baf : (DoubleFloat,DoubleFloat,DoubleFloat,Integer) -> Result ++ s14baf(a,x,tol,ifail) ++ computes values for the incomplete gamma functions P(a,x) ++ and Q(a,x). ++ See \downlink{Manual Page}{manpageXXs14baf}. s15adf : (DoubleFloat,Integer) -> Result ++ s15adf(x,ifail) ++ returns the value of the complementary error function, ++ erfc(x), via the routine name. ++ See \downlink{Manual Page}{manpageXXs15adf}. s15aef : (DoubleFloat,Integer) -> Result ++ s15aef(x,ifail) ++ returns the value of the error function erf(x), via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs15aef}. s17acf : (DoubleFloat,Integer) -> Result ++ s17acf(x,ifail) ++ returns the value of the Bessel Function ++ Y (x), via the routine name. ++ 0 ++ See \downlink{Manual Page}{manpageXXs17acf}. s17adf : (DoubleFloat,Integer) -> Result ++ s17adf(x,ifail) ++ returns the value of the Bessel Function ++ Y (x), via the routine name. ++ 1 ++ See \downlink{Manual Page}{manpageXXs17adf}. s17aef : (DoubleFloat,Integer) -> Result ++ s17aef(x,ifail) ++ returns the value of the Bessel Function ++ J (x), via the routine name. ++ 0 ++ See \downlink{Manual Page}{manpageXXs17aef}. s17aff : (DoubleFloat,Integer) -> Result ++ s17aff(x,ifail) ++ returns the value of the Bessel Function ++ J (x), via the routine name. ++ 1 ++ See \downlink{Manual Page}{manpageXXs17aff}. s17agf : (DoubleFloat,Integer) -> Result ++ s17agf(x,ifail) ++ returns a value for the Airy function, Ai(x), via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs17agf}. s17ahf : (DoubleFloat,Integer) -> Result ++ s17ahf(x,ifail) ++ returns a value of the Airy function, Bi(x), via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs17ahf}. s17ajf : (DoubleFloat,Integer) -> Result ++ s17ajf(x,ifail) ++ returns a value of the derivative of the Airy function ++ Ai(x), via the routine name. ++ See \downlink{Manual Page}{manpageXXs17ajf}. s17akf : (DoubleFloat,Integer) -> Result ++ s17akf(x,ifail) ++ returns a value for the derivative of the Airy function ++ Bi(x), via the routine name. ++ See \downlink{Manual Page}{manpageXXs17akf}. s17dcf : (DoubleFloat,Complex DoubleFloat,Integer,String,_ Integer) -> Result ++ s17dcf(fnu,z,n,scale,ifail) ++ returns a sequence of values for the Bessel functions ++ Y (z) for complex z, non-negative (nu) and n=0,1,...,N-1, ++ (nu)+n ++ with an option for exponential scaling. ++ See \downlink{Manual Page}{manpageXXs17dcf}. s17def : (DoubleFloat,Complex DoubleFloat,Integer,String,_ Integer) -> Result ++ s17def(fnu,z,n,scale,ifail) ++ returns a sequence of values for the Bessel functions ++ J (z) for complex z, non-negative (nu) and n=0,1,...,N-1, ++ (nu)+n ++ with an option for exponential scaling. ++ See \downlink{Manual Page}{manpageXXs17def}. s17dgf : (String,Complex DoubleFloat,String,Integer) -> Result ++ s17dgf(deriv,z,scale,ifail) ++ returns the value of the Airy function Ai(z) or its ++ derivative Ai'(z) for complex z, with an option for exponential ++ scaling. ++ See \downlink{Manual Page}{manpageXXs17dgf}. s17dhf : (String,Complex DoubleFloat,String,Integer) -> Result ++ s17dhf(deriv,z,scale,ifail) ++ returns the value of the Airy function Bi(z) or its ++ derivative Bi'(z) for complex z, with an option for exponential ++ scaling. ++ See \downlink{Manual Page}{manpageXXs17dhf}. s17dlf : (Integer,DoubleFloat,Complex DoubleFloat,Integer,_ String,Integer) -> Result ++ s17dlf(m,fnu,z,n,scale,ifail) ++ returns a sequence of values for the Hankel functions ++ (1) (2) ++ H (z) or H (z) for complex z, non-negative (nu) and ++ (nu)+n (nu)+n ++ n=0,1,...,N-1, with an option for exponential scaling. ++ See \downlink{Manual Page}{manpageXXs17dlf}. s18acf : (DoubleFloat,Integer) -> Result ++ s18acf(x,ifail) ++ returns the value of the modified Bessel Function ++ K (x), via the routine name. ++ 0 ++ See \downlink{Manual Page}{manpageXXs18acf}. s18adf : (DoubleFloat,Integer) -> Result ++ s18adf(x,ifail) ++ returns the value of the modified Bessel Function ++ K (x), via the routine name. ++ 1 ++ See \downlink{Manual Page}{manpageXXs18adf}. s18aef : (DoubleFloat,Integer) -> Result ++ s18aef(x,ifail) ++ returns the value of the modified Bessel Function ++ I (x), via the routine name. ++ 0 ++ See \downlink{Manual Page}{manpageXXs18aef}. s18aff : (DoubleFloat,Integer) -> Result ++ s18aff(x,ifail) ++ returns a value for the modified Bessel Function ++ I (x), via the routine name. ++ 1 ++ See \downlink{Manual Page}{manpageXXs18aff}. s18dcf : (DoubleFloat,Complex DoubleFloat,Integer,String,_ Integer) -> Result ++ s18dcf(fnu,z,n,scale,ifail) ++ returns a sequence of values for the modified Bessel functions ++ K (z) for complex z, non-negative (nu) and ++ (nu)+n ++ n=0,1,...,N-1, with an option for exponential scaling. ++ See \downlink{Manual Page}{manpageXXs18dcf}. s18def : (DoubleFloat,Complex DoubleFloat,Integer,String,_ Integer) -> Result ++ s18def(fnu,z,n,scale,ifail) ++ returns a sequence of values for the modified Bessel functions ++ I (z) for complex z, non-negative (nu) and ++ (nu)+n ++ n=0,1,...,N-1, with an option for exponential scaling. ++ See \downlink{Manual Page}{manpageXXs18def}. s19aaf : (DoubleFloat,Integer) -> Result ++ s19aaf(x,ifail) ++ returns a value for the Kelvin function ber(x) via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs19aaf}. s19abf : (DoubleFloat,Integer) -> Result ++ s19abf(x,ifail) ++ returns a value for the Kelvin function bei(x) via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs19abf}. s19acf : (DoubleFloat,Integer) -> Result ++ s19acf(x,ifail) ++ returns a value for the Kelvin function ker(x), via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs19acf}. s19adf : (DoubleFloat,Integer) -> Result ++ s19adf(x,ifail) ++ returns a value for the Kelvin function kei(x) via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs19adf}. s20acf : (DoubleFloat,Integer) -> Result ++ s20acf(x,ifail) ++ returns a value for the Fresnel Integral S(x), via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs20acf}. s20adf : (DoubleFloat,Integer) -> Result ++ s20adf(x,ifail) ++ returns a value for the Fresnel Integral C(x), via the ++ routine name. ++ See \downlink{Manual Page}{manpageXXs20adf}. s21baf : (DoubleFloat,DoubleFloat,Integer) -> Result ++ s21baf(x,y,ifail) ++ returns a value of an elementary integral, which occurs as ++ a degenerate case of an elliptic integral of the first kind, via ++ the routine name. ++ See \downlink{Manual Page}{manpageXXs21baf}. s21bbf : (DoubleFloat,DoubleFloat,DoubleFloat,Integer) -> Result ++ s21bbf(x,y,z,ifail) ++ returns a value of the symmetrised elliptic integral of ++ the first kind, via the routine name. ++ See \downlink{Manual Page}{manpageXXs21bbf}. s21bcf : (DoubleFloat,DoubleFloat,DoubleFloat,Integer) -> Result ++ s21bcf(x,y,z,ifail) ++ returns a value of the symmetrised elliptic integral of ++ the second kind, via the routine name. ++ See \downlink{Manual Page}{manpageXXs21bcf}. s21bdf : (DoubleFloat,DoubleFloat,DoubleFloat,DoubleFloat,_ Integer) -> Result ++ s21bdf(x,y,z,r,ifail) ++ returns a value of the symmetrised elliptic integral of ++ the third kind, via the routine name. ++ See \downlink{Manual Page}{manpageXXs21bdf}. Implementation ==> add import Lisp import DoubleFloat import Any import Record import Integer import Matrix DoubleFloat import Boolean import NAGLinkSupportPackage import AnyFunctions1(Complex DoubleFloat) import AnyFunctions1(Integer) import AnyFunctions1(DoubleFloat) import AnyFunctions1(String) s01eaf(zArg:Complex DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s01eaf",_ ["z"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["integer"::S,"ifail"::S]$Lisp_ ,["double complex"::S,"s01eafResult"::S,"z"::S]$Lisp_ ]$Lisp,_ ["s01eafResult"::S,"ifail"::S]$Lisp,_ [([zArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s13aaf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s13aaf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s13aafResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s13aafResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s13acf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s13acf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s13acfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s13acfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s13adf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s13adf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s13adfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s13adfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s14aaf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s14aaf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s14aafResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s14aafResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s14abf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s14abf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s14abfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s14abfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s14baf(aArg:DoubleFloat,xArg:DoubleFloat,tolArg:DoubleFloat,_ ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s14baf",_ ["a"::S,"x"::S,"tol"::S,"p"::S,"q"::S_ ,"ifail"::S]$Lisp,_ ["p"::S,"q"::S]$Lisp,_ [["double"::S,"a"::S,"x"::S,"tol"::S,"p"::S_ ,"q"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["p"::S,"q"::S,"ifail"::S]$Lisp,_ [([aArg::Any,xArg::Any,tolArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s15adf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s15adf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s15adfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s15adfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s15aef(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s15aef",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s15aefResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s15aefResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17acf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17acf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17acfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17acfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17adf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17adf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17adfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17adfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17aef(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17aef",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17aefResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17aefResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17aff(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17aff",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17affResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17affResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17agf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17agf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17agfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17agfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17ahf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17ahf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17ahfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17ahfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17ajf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17ajf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17ajfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17ajfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17akf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17akf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s17akfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s17akfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17dcf(fnuArg:DoubleFloat,zArg:Complex DoubleFloat,nArg:Integer,_ scaleArg:String,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17dcf",_ ["fnu"::S,"z"::S,"n"::S,"scale"::S,"nz"::S_ ,"ifail"::S,"cy"::S,"cwrk"::S]$Lisp,_ ["cy"::S,"nz"::S,"cwrk"::S]$Lisp,_ [["double"::S,"fnu"::S]$Lisp_ ,["integer"::S,"n"::S,"nz"::S,"ifail"::S]$Lisp_ ,["character"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,["cy"::S,"n"::S]$Lisp,["cwrk"::S,"n"::S]$Lisp]$Lisp_ ]$Lisp,_ ["cy"::S,"nz"::S,"ifail"::S]$Lisp,_ [([fnuArg::Any,zArg::Any,nArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17def(fnuArg:DoubleFloat,zArg:Complex DoubleFloat,nArg:Integer,_ scaleArg:String,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17def",_ ["fnu"::S,"z"::S,"n"::S,"scale"::S,"nz"::S_ ,"ifail"::S,"cy"::S]$Lisp,_ ["cy"::S,"nz"::S]$Lisp,_ [["double"::S,"fnu"::S]$Lisp_ ,["integer"::S,"n"::S,"nz"::S,"ifail"::S]$Lisp_ ,["character"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,["cy"::S,"n"::S]$Lisp]$Lisp_ ]$Lisp,_ ["cy"::S,"nz"::S,"ifail"::S]$Lisp,_ [([fnuArg::Any,zArg::Any,nArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17dgf(derivArg:String,zArg:Complex DoubleFloat,scaleArg:String,_ ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17dgf",_ ["deriv"::S,"z"::S,"scale"::S,"ai"::S,"nz"::S_ ,"ifail"::S]$Lisp,_ ["ai"::S,"nz"::S]$Lisp,_ [["integer"::S,"nz"::S,"ifail"::S]$Lisp_ ,["character"::S,"deriv"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,"ai"::S]$Lisp_ ]$Lisp,_ ["ai"::S,"nz"::S,"ifail"::S]$Lisp,_ [([derivArg::Any,zArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17dhf(derivArg:String,zArg:Complex DoubleFloat,scaleArg:String,_ ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17dhf",_ ["deriv"::S,"z"::S,"scale"::S,"bi"::S,"ifail"::S_ ]$Lisp,_ ["bi"::S]$Lisp,_ [["integer"::S,"ifail"::S]$Lisp_ ,["character"::S,"deriv"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,"bi"::S]$Lisp_ ]$Lisp,_ ["bi"::S,"ifail"::S]$Lisp,_ [([derivArg::Any,zArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s17dlf(mArg:Integer,fnuArg:DoubleFloat,zArg:Complex DoubleFloat,_ nArg:Integer,scaleArg:String,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s17dlf",_ ["m"::S,"fnu"::S,"z"::S,"n"::S,"scale"::S_ ,"nz"::S,"ifail"::S,"cy"::S]$Lisp,_ ["cy"::S,"nz"::S]$Lisp,_ [["double"::S,"fnu"::S]$Lisp_ ,["integer"::S,"m"::S,"n"::S,"nz"::S,"ifail"::S_ ]$Lisp_ ,["character"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,["cy"::S,"n"::S]$Lisp]$Lisp_ ]$Lisp,_ ["cy"::S,"nz"::S,"ifail"::S]$Lisp,_ [([mArg::Any,fnuArg::Any,zArg::Any,nArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s18acf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s18acf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s18acfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s18acfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s18adf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s18adf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s18adfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s18adfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s18aef(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s18aef",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s18aefResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s18aefResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s18aff(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s18aff",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s18affResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s18affResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s18dcf(fnuArg:DoubleFloat,zArg:Complex DoubleFloat,nArg:Integer,_ scaleArg:String,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s18dcf",_ ["fnu"::S,"z"::S,"n"::S,"scale"::S,"nz"::S_ ,"ifail"::S,"cy"::S]$Lisp,_ ["cy"::S,"nz"::S]$Lisp,_ [["double"::S,"fnu"::S]$Lisp_ ,["integer"::S,"n"::S,"nz"::S,"ifail"::S]$Lisp_ ,["character"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,["cy"::S,"n"::S]$Lisp]$Lisp_ ]$Lisp,_ ["cy"::S,"nz"::S,"ifail"::S]$Lisp,_ [([fnuArg::Any,zArg::Any,nArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s18def(fnuArg:DoubleFloat,zArg:Complex DoubleFloat,nArg:Integer,_ scaleArg:String,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s18def",_ ["fnu"::S,"z"::S,"n"::S,"scale"::S,"nz"::S_ ,"ifail"::S,"cy"::S]$Lisp,_ ["cy"::S,"nz"::S]$Lisp,_ [["double"::S,"fnu"::S]$Lisp_ ,["integer"::S,"n"::S,"nz"::S,"ifail"::S]$Lisp_ ,["character"::S,"scale"::S]$Lisp_ ,["double complex"::S,"z"::S,["cy"::S,"n"::S]$Lisp]$Lisp_ ]$Lisp,_ ["cy"::S,"nz"::S,"ifail"::S]$Lisp,_ [([fnuArg::Any,zArg::Any,nArg::Any,scaleArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s19aaf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s19aaf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s19aafResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s19aafResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s19abf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s19abf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s19abfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s19abfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s19acf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s19acf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s19acfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s19acfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s19adf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s19adf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s19adfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s19adfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s20acf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s20acf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s20acfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s20acfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s20adf(xArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s20adf",_ ["x"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s20adfResult"::S,"x"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s20adfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s21baf(xArg:DoubleFloat,yArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s21baf",_ ["x"::S,"y"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s21bafResult"::S,"x"::S,"y"::S_ ]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s21bafResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,yArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s21bbf(xArg:DoubleFloat,yArg:DoubleFloat,zArg:DoubleFloat,_ ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s21bbf",_ ["x"::S,"y"::S,"z"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s21bbfResult"::S,"x"::S,"y"::S_ ,"z"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s21bbfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,yArg::Any,zArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s21bcf(xArg:DoubleFloat,yArg:DoubleFloat,zArg:DoubleFloat,_ ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s21bcf",_ ["x"::S,"y"::S,"z"::S,"ifail"::S]$Lisp,_ []$Lisp,_ [["double"::S,"s21bcfResult"::S,"x"::S,"y"::S_ ,"z"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s21bcfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,yArg::Any,zArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result s21bdf(xArg:DoubleFloat,yArg:DoubleFloat,zArg:DoubleFloat,_ rArg:DoubleFloat,ifailArg:Integer): Result == [(invokeNagman(NIL$Lisp,_ "s21bdf",_ ["x"::S,"y"::S,"z"::S,"r"::S,"ifail"::S_ ]$Lisp,_ []$Lisp,_ [["double"::S,"s21bdfResult"::S,"x"::S,"y"::S_ ,"z"::S,"r"::S]$Lisp_ ,["integer"::S,"ifail"::S]$Lisp_ ]$Lisp,_ ["s21bdfResult"::S,"ifail"::S]$Lisp,_ [([xArg::Any,yArg::Any,zArg::Any,rArg::Any,ifailArg::Any ])_ @List Any]$Lisp)$Lisp)_ pretend List (Record(key:Symbol,entry:Any))]$Result @ \section{License} <>= --Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd. --All rights reserved. -- --Redistribution and use in source and binary forms, with or without --modification, are permitted provided that the following conditions are --met: -- -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- -- - Neither the name of The Numerical ALgorithms Group Ltd. nor the -- names of its contributors may be used to endorse or promote products -- derived from this software without specific prior written permission. -- --THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS --IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED --TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A --PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER --OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, --EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, --PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. @ <<*>>= <> <> @ \eject \begin{thebibliography}{99} \bibitem{1} nothing \end{thebibliography} \end{document}