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authorbansodanurag2019-06-18 17:25:57 +0530
committerGitHub2019-06-18 17:25:57 +0530
commita27a1dae580cf0425e9c9e3aa61a6d0e5d7caa9b (patch)
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parent5bba767e6900bb75696cfd6c14d5b8bb2b472cff (diff)
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-package gsl
- package data_types
- model gsl_permutation
- extends ExternalObject;
-
- function constructor
- input Integer N;
- output gsl_permutation p;
-
- external "C" p = gsl_permutation_alloc(N) annotation(
- Include = "#include <gsl/gsl_permutation.h>",
- Library = "gsl",
- Library = "gslcblas");
- end constructor;
-
- function destructor "Release storage of p"
- input gsl_permutation p;
-
- external "C" gsl_permutation_free(p) annotation(
- Include = "#include <gsl/gsl_permutation.h>",
- Library = "gsl",
- Library = "gslcblas");
- end destructor;
- end gsl_permutation;
-
- record gsl_sf_result
- Real val;
- Real err;
- end gsl_sf_result;
-
- record gsl_sf_result_e10
- Real val;
- Real err;
- Integer e10;
- end gsl_sf_result_e10;
- end data_types;
-
- package mathematical
- function gsl_log1p
- //This function computes the value of log(1 + x) in a way that is accurate for small x
- input Real x;
- output Real y;
-
- external "C" y = log1p(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_log1p;
-
- function gsl_expm1
- //this function computes the value of exp(x)-1
- input Real x;
- output Real y;
-
- external "C" y = gsl_expm1(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_expm1;
-
- function gsl_hypot
- //this function computes the value of sqrt(x^2+y^2) in a way which avoids overflow
- input Real x;
- input Real y;
- output Real z;
-
- external "C" z = gsl_hypot(x, y) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_hypot;
-
- function gsl_hypot3
- //This function calculates the value of sqrt(x^2+y^2+z^2)
- input Real x;
- input Real y;
- input Real z;
- output Real o;
-
- external "C" o = gsl_hypot3(x, y, z) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_hypot3;
-
- function gsl_acosh
- // this function calculates the value of arccosh(x)
- input Real x;
- output Real y;
-
- external "C" y = acosh(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_acosh;
-
- function gsl_asinh
- // this function calculates the value of arcsinh(x)
- input Real x;
- output Real y;
-
- external "C" y = asinh(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_asinh;
-
- function gsl_atanh
- // this function calculates the value of arctanh(x)
- input Real x;
- output Real y;
-
- external "C" y = atanh(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_atanh;
-
- function gsl_ldexp
- //this function computes the value of x*2^e
- input Real x;
- // y should be given the value e
- output Real z;
- protected
- constant Real y = Modelica.Constants.e;
-
- external "C" z = gsl_ldexp(x, y) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end gsl_ldexp;
-
- function gsl_frexp
- //This function splits the number x into its normalized fraction f and exponent e, such that x = f ∗ 2^e
- // and 0.5 <= f < 1. The function returns f and stores the exponent in e.
- input Real x;
- output Integer e;
- // it stores the exponent in y
- output Real z;
-
- external "C" z = gsl_frexp(x, e) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_frexp;
-
- function gsl_pow_int
- //this function computes x^n
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_pow_int(x, n) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_int;
-
- function gsl_pow_2
- //This function calculates square fo the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_2(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_2;
-
- function gsl_pow_3
- //This function calculates cube of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_3(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_3;
-
- function gsl_pow_4
- //This function calculates number to the power of 4 of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_4(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_4;
-
- function gsl_pow_5
- //This function calculates number to the power of 5 of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_5(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_5;
-
- function gsl_pow_6
- //This function calculates number to the power of 6 of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_6(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_6;
-
- function gsl_pow_7
- //This function calculates number to the power of 6 of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_7(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_7;
-
- function gsl_pow_8
- //This function calculates number to the power of 6 of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_8(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_8;
-
- function gsl_pow_9
- //This function calculates number to the power of 6 of the given number
- input Real x;
- output Real y;
-
- external "C" y = gsl_pow_9(x) annotation(
- Library = "gsl",
- Library = "gslcblas");
- end gsl_pow_9;
-
- function GSL_SIGN
- //This function outputs -1 for negative number and +1 if the number is positive
- input Real x;
- output Integer y;
-
- external "C" y = GSL_SIGN(x) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_SIGN;
-
- function GSL_IS_ODD
- //This function outputs 1 if number is odd else if number is even it returns zero
- input Integer x;
- output Integer y;
-
- external "C" y = GSL_IS_ODD(x) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_IS_ODD;
-
- function GSL_IS_EVEN
- //This function outputs 0 if number is odd else if number is even it returns 1
- input Integer x;
- output Integer y;
-
- external "C" y = GSL_IS_EVEN(x) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_IS_EVEN;
-
- function GSL_MAX
- // This function calculates the maximum of two numbers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MAX(a, b) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MAX;
-
- function GSL_MAX_DBL
- // This function calculates the maximum of the given two floating point numbers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MAX_DBL(a, b) annotation(
- Inline = true,
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MAX_DBL;
-
- function GSL_MIN_DBL
- //This function calculates the minimum of two given floating point numbers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MIN_DBL(a, b) annotation(
- Inline = true,
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MIN_DBL;
-
- function GSL_MAX_INT
- // This function calculates the maximum of two given integers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MAX_INT(a, b) annotation(
- Inline = true,
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MAX_INT;
-
- function GSL_MIN_INT
- // This function calculates the minimum of the two numbers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MIN_INT(a, b) annotation(
- Inline = true,
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MIN_INT;
-
- function GSL_MAX_LDBL
- // This function calculates the maximum of two long double numbers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MAX_LDBL(a, b) annotation(
- Inline = true,
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MAX_LDBL;
-
- function GSL_MIN_LDBL
- // This function calculates the minimum of two long double numbers
- input Real a;
- input Real b;
- output Real c;
-
- external "C" c = GSL_MIN_LDBL(a, b) annotation(
- Inline = true,
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end GSL_MIN_LDBL;
-
- function gsl_fcmp
- //This function determines whether x and y are approximately equal if they are equal within the range of epsilon it returns zero,if a>b it returns -1 and if b<a it returns 1
- input Real a;
- input Real b;
- output Real c;
- protected
- constant Real z = Modelica.Constants.eps;
-
- external "C" c = gsl_fcmp(a, b, z) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_math.h>");
- end gsl_fcmp;
-
- /**/
- end mathematical;
-
- package COMPLEX
- function gsl_complex_rect
- input Real x;
- input Real y;
- output Real z[2];
-
- external "C" z = gsl_complex_rect(x, y) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_complex.h>",
- Include = "#include<gsl/gsl_complex_math.h>");
- end gsl_complex_rect;
- end COMPLEX;
-
- package Permutation
- function gsl_permutation_init
- input gsl.data_types.gsl_permutation p;
-
- external "C" gsl_permutation_init(p) annotation(
- Include = "#include <gsl/gsl_permutation.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_permutation_init;
-
- function gsl_permutation_get
- input gsl.data_types.gsl_permutation p;
- input Integer i;
- output Integer y;
-
- external "C" y = gsl_permutation_get(p, i) annotation(
- Include = "#include <gsl/gsl_permutation.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_permutation_get;
-
- function gsl_ran_shuffle
- input gsl.data_types.gsl_rng r;
- input gsl.data_types.gsl_permutation p;
- input Integer N;
-
- external "C" gsl_ran_shuffle(r, p, N, 8) annotation(
- Include = "#include <gsl/gsl_permutation.h>",
- Include = "#include <gsl/gsl_rng.h>",
- Include = "#include <gsl/gsl_randist.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_ran_shuffle;
-
- /*gsl_ran_shuffle(r, p.data, N, sizeof(size_t))*/
- end Permutation;
-
- package Special_functions
- package chap_7_5_1
- function gsl_sf_bessel_J0
- // The function takes a real number x as the input and calculates the zeroth order bessel function
- input Real x;
- //input to the bessel function
- output Real y;
-
- external "C" y = gsl_sf_bessel_J0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_J0;
-
- function gsl_sf_bessel_J0_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_J0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_J0_e;
-
- function gsl_sf_bessel_J1
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_J1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_J1;
-
- function gsl_sf_bessel_J1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_J1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_J1_e;
-
- function gsl_sf_bessel_Jn
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Jn(n, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Jn;
-
- function gsl_sf_bessel_Jn_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Jn_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Jn_e;
-
- function gsl_sf_bessel_Jn_array
- input Integer nmin;
- input Integer nmax;
- input Real x;
- output Real result_array[nmax - nmin];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Jn_array(nmin, nmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Jn_array;
- end chap_7_5_1;
-
- package chap_7_5_2
- function gsl_sf_bessel_Y0
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Y0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Y0;
-
- function gsl_sf_bessel_Y0_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Y0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Y0_e;
-
- function gsl_sf_bessel_Y1
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Y1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Y1;
-
- function gsl_sf_bessel_Y1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Y1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Y1_e;
-
- function gsl_sf_bessel_Yn
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Yn(n, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Yn;
-
- function gsl_sf_bessel_Yn_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Yn_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Yn_e;
-
- function gsl_sf_bessel_Yn_array
- input Integer nmin;
- input Integer nmax;
- input Real x;
- output Real result_array[nmax - nmin];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Yn_array(nmin, nmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Yn_array;
- end chap_7_5_2;
-
- package chap_7_5_3
- function gsl_sf_bessel_I0
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_I0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I0;
-
- function gsl_sf_bessel_I0_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_I0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I0_e;
-
- function gsl_sf_bessel_I1
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_I1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I1;
-
- function gsl_sf_bessel_I1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_I1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I1_e;
-
- function gsl_sf_bessel_In
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_sf_bessel_In(n, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_In;
-
- function gsl_sf_bessel_In_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_In_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_In_e;
-
- function gsl_sf_bessel_In_array
- input Integer nmin;
- input Integer nmax;
- input Real x;
- output Real result_array[nmax - nmin];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_In_array(nmin, nmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_In_array;
-
- function gsl_sf_bessel_I0_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_I0_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I0_scaled;
-
- function gsl_sf_bessel_I0_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_I0_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I0_scaled_e;
-
- function gsl_sf_bessel_I1_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_I1_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I1_scaled;
-
- function gsl_sf_bessel_I1_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_I1_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_I1_scaled_e;
-
- function gsl_sf_bessel_In_scaled
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_sf_bessel_In_scaled(n, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_In_scaled;
-
- function gsl_sf_bessel_In_scaled_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_In_scaled_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_In_scaled_e;
-
- function gsl_sf_bessel_In_scaled_array
- input Integer nmin;
- input Integer nmax;
- input Real x;
- output Real result_array[nmax - nmin];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_In_scaled_array(nmin, nmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_In_scaled_array;
- end chap_7_5_3;
-
- package chap_7_5_4
- function gsl_sf_bessel_K0
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_K0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K0;
-
- function gsl_sf_bessel_K0_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_K0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K0_e;
-
- function gsl_sf_bessel_K1
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_K1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K1;
-
- function gsl_sf_bessel_K1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_K1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K1_e;
-
- function gsl_sf_bessel_Kn
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Kn(n, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Kn;
-
- function gsl_sf_bessel_Kn_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Kn_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Kn_e;
-
- function gsl_sf_bessel_Kn_array
- input Integer nmin;
- input Integer nmax;
- input Real x;
- output Real result_array[nmax - nmin];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Kn_array(nmin, nmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Kn_array;
-
- function gsl_sf_bessel_K0_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_K0_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K0_scaled;
-
- function gsl_sf_bessel_K0_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_K0_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K0_scaled_e;
-
- function gsl_sf_bessel_K1_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_K1_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K1_scaled;
-
- function gsl_sf_bessel_K1_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_K1_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_K1_scaled_e;
-
- function gsl_sf_bessel_Kn_scaled
- input Real x;
- input Integer n;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Kn_scaled(n, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Kn_scaled;
-
- function gsl_sf_bessel_Kn_scaled_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Kn_scaled_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Kn_scaled_e;
-
- function gsl_sf_bessel_Kn_scaled_array
- input Integer nmin;
- input Integer nmax;
- input Real x;
- output Real result_array[nmax - nmin];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Kn_scaled_array(nmin, nmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Kn_scaled_array;
- end chap_7_5_4;
-
- package chap_7_5_5
- function gsl_sf_bessel_j0
- //this function computes the regular spherical bessels function j0(x)=sin(x)/x
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_j0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_j0;
-
- function gsl_sf_bessel_j0_e
- // This function computes spherical bessels zero order function j(x)=sin(x)/x
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_j0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_j0_e;
-
- function gsl_sf_bessel_j1
- //This function computes the 1st order spherical bessels function j1(x)=(sin(x)/x-cos(x))/x
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_j1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_j1;
-
- function gsl_sf_bessel_j1_e
- //This function computes the 1st order spherical bessels function j1(x)=(sin(x)/x-cos(x))/x
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_j1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_j1_e;
-
- function gsl_sf_bessel_j2
- //This function computes the 2nd order regular spherical bessels function j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x.
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_j2(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_j2;
-
- function gsl_sf_bessel_j2_e
- //This function computes the 2nd order regular spherical bessels function j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x.
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_j2_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_j2_e;
-
- function gsl_sf_bessel_jl
- input Integer l;
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_jl(l, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_jl;
-
- function gsl_sf_bessel_jl_e
- input Integer l;
- //order of the bessel function
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_jl_e(l, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_jl_e;
-
- function gsl_sf_bessel_jl_array
- // input Integer nmin;
- input Integer lmax;
- input Real x;
- output Real result_array[lmax];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_jl_array(lmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_jl_array;
-
- function gsl_sf_bessel_jl_steed_array
- // input Integer nmin;
- input Integer lmax;
- input Real x;
- output Real result_array[lmax];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_jl_steed_array(lmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_jl_steed_array;
- end chap_7_5_5;
-
- package chap_7_5_6
- function gsl_sf_bessel_y0
- //this function computes the regular spherical bessels function y0(x)=sin(x)/x
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_y0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_y0;
-
- function gsl_sf_bessel_y0_e
- // This function computes spherical bessels zero order function j(x)=sin(x)/x
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_y0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_y0_e;
-
- function gsl_sf_bessel_y1
- //This function computes the 1st order spherical bessels function y1(x)=(sin(x)/x-cos(x))/x
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_y1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_y1;
-
- function gsl_sf_bessel_y1_e
- //This function computes the 1st order spherical bessels function y1(x)=(sin(x)/x-cos(x))/x
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_y1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_y1_e;
-
- function gsl_sf_bessel_y2
- //This function computes the 2nd order regular spherical bessels function j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x.
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_y2(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_y2;
-
- function gsl_sf_bessel_y2_e
- //This function computes the 2nd order regular spherical bessels function j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x.
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_y2_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_y2_e;
-
- function gsl_sf_bessel_yl
- input Integer l;
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_yl(l, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_yl;
-
- function gsl_sf_bessel_yl_e
- input Integer l;
- //order of the bessel function
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_yl_e(l, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_yl_e;
-
- function gsl_sf_bessel_yl_array
- // input Integer nmin;
- input Integer lmax;
- input Real x;
- output Real result_array[lmax];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_yl_array(lmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_yl_array;
- end chap_7_5_6;
-
- package chap_7_5_7
- //regular modified spherical bessel functions
-
- function gsl_sf_bessel_i0_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_i0_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_i0_scaled;
-
- function gsl_sf_bessel_i0_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_i0_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_i0_scaled_e;
-
- function gsl_sf_bessel_i1_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_i1_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_i1_scaled;
-
- function gsl_sf_bessel_i1_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_i1_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_i1_scaled_e;
-
- function gsl_sf_bessel_i2_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_i2_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_i2_scaled;
-
- function gsl_sf_bessel_i2_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_i2_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_i2_scaled_e;
-
- function gsl_sf_bessel_il_scaled
- input Real x;
- input Integer l;
- output Real y;
-
- external "C" y = gsl_sf_bessel_il_scaled(l, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_il_scaled;
-
- function gsl_sf_bessel_il_scaled_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_il_scaled_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_il_scaled_e;
-
- function gsl_sf_bessel_il_scaled_array
- input Integer lmax;
- input Real x;
- output Real result_array[lmax];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_il_scaled_array(lmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_il_scaled_array;
- end chap_7_5_7;
-
- package chap_7_5_8
- function gsl_sf_bessel_k0_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_k0_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_k0_scaled;
-
- function gsl_sf_bessel_k0_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_k0_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_k0_scaled_e;
-
- function gsl_sf_bessel_k1_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_k1_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_k1_scaled;
-
- function gsl_sf_bessel_k1_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_k1_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_k1_scaled_e;
-
- function gsl_sf_bessel_k2_scaled
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_k2_scaled(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_k2_scaled;
-
- function gsl_sf_bessel_k2_scaled_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_k2_scaled_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_k2_scaled_e;
-
- function gsl_sf_bessel_kl_scaled
- input Real x;
- input Integer l;
- output Real y;
-
- external "C" y = gsl_sf_bessel_kl_scaled(l, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_kl_scaled;
-
- function gsl_sf_bessel_kl_scaled_e
- input Real x;
- input Integer n;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_kl_scaled_e(n, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_kl_scaled_e;
-
- function gsl_sf_bessel_kl_scaled_array
- input Integer lmax;
- input Real x;
- output Real result_array[lmax];
- output Integer y;
-
- external "C" y = gsl_sf_bessel_kl_scaled_array(lmax, x, result_array) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_kl_scaled_array;
- end chap_7_5_8;
-
- package chap_7_5_9
- function gsl_sf_bessel_Jnu
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Jnu(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Jnu;
-
- function gsl_sf_bessel_Jnu_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Jnu_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Jnu_e;
- end chap_7_5_9;
-
- package chap_7_5_10
- function gsl_sf_bessel_Ynu
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Ynu(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Ynu;
-
- function gsl_sf_bessel_Ynu_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Ynu_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Ynu_e;
- end chap_7_5_10;
-
- package chap_7_5_11
- function gsl_sf_bessel_Inu
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Inu(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Inu;
-
- function gsl_sf_bessel_Inu_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Inu_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Inu_e;
-
- function gsl_sf_bessel_Inu_scaled
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Inu_scaled(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Inu_scaled;
-
- function gsl_sf_bessel_Inu_scaled_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Inu_scaled_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Inu_scaled_e;
- end chap_7_5_11;
-
- package chap_7_5_12
- //Irregular modified bessels function
-
- function gsl_sf_bessel_Knu
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Knu(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Knu;
-
- function gsl_sf_bessel_Knu_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Knu_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Knu_e;
-
- //Irregular modified bessels function
-
- function gsl_sf_bessel_lnKnu
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_lnKnu(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_lnKnu;
-
- function gsl_sf_bessel_lnKnu_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_lnKnu_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_lnKnu_e;
-
- function gsl_sf_bessel_Knu_scaled
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_Knu_scaled(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Knu_scaled;
-
- function gsl_sf_bessel_Knu_scaled_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_Knu_scaled_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_Knu_scaled_e;
- end chap_7_5_12;
-
- package chap_7_5_13
- function gsl_sf_bessel_zero_J0
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_zero_J0(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_zero_J0;
-
- function gsl_sf_bessel_zero_J0_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_zero_J0_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_zero_J0_e;
-
- function gsl_sf_bessel_zero_J1
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_bessel_zero_J1(x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_zero_J1;
-
- function gsl_sf_bessel_zero_J1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_zero_J1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_zero_J1_e;
-
- function gsl_sf_bessel_zero_Jnu
- input Real x;
- input Real nu;
- output Real y;
-
- external "C" y = gsl_sf_bessel_zero_Jnu(nu, x) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_zero_Jnu;
-
- function gsl_sf_bessel_zero_Jnu_e
- input Real x;
- input Real nu;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_bessel_zero_Jnu_e(nu, x, result) annotation(
- Include = "#include <gsl/gsl_sf_bessel.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_bessel_zero_Jnu_e;
- end chap_7_5_13;
-
- package chap_7_6
- //clausen function
-
- function gsl_sf_clausen
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_clausen(x) annotation(
- Library = "gsl",
- Library = "gslcblas",
- Include = "#include<gsl/gsl_sf_clausen.h>");
- end gsl_sf_clausen;
-
- function gsl_sf_clausen_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_clausen_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_clausen.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_clausen_e;
- end chap_7_6;
-
- package chap_7_7_1
- function gsl_sf_hydrogenicR_1
- input Real Z;
- //atomic number of the atom
- input Real r;
- //radus of the atom
- output Real R;
- //lowest-order normalized hydrogenic bound state radial wavefunction
-
- external "C" R = gsl_sf_hydrogenicR_1(Z, r) annotation(
- Include = "#include <gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_hydrogenicR_1;
-
- function gsl_sf_hydrogenicR_1_e
- input Real Z;
- //atomic number of the atom
- input Real r;
- //radus of the atom
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- //lowest-order normalized hydrogenic bound state radial wavefunction
-
- external "C" y = gsl_sf_hydrogenicR_1_e(Z, r, result) annotation(
- Include = "#include <gsl/gsl_sf_coulomb.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_hydrogenicR_1_e;
-
- function gsl_sf_hydrogenicR
- input Integer n;
- //order of the wavefunction
- input Integer l;
- input Real Z;
- //atomic number of the atom
- input Real r;
- //radus of the atom
- output Real R;
- //lowest-order normalized hydrogenic bound state radial wavefunction
-
- external "C" R = gsl_sf_hydrogenicR(n, l, Z, r) annotation(
- Include = "#include <gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_hydrogenicR;
-
- function gsl_sf_hydrogenicR_e
- input Integer n;
- input Integer l;
- input Real Z;
- //atomic number of the atom
- input Real r;
- //radus of the atom
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- //lowest-order normalized hydrogenic bound state radial wavefunction
-
- external "C" y = gsl_sf_hydrogenicR_e(n, l, Z, r, result) annotation(
- Include = "#include <gsl/gsl_sf_coulomb.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_hydrogenicR_e;
- end chap_7_7_1;
-
- package chap_7_7_2
- function gsl_sf_coulomb_wave_FG_e
- input Real eta;
- // eta=Z/k,where Z is atomic number
- input Real x;
- input Real L_F;
- input Integer k;
- //L_F-k>-1/2
- output gsl.data_types.gsl_sf_result F;
- //coulomb wave function
- output gsl.data_types.gsl_sf_result Fp;
- //derivative of wave function
- output gsl.data_types.gsl_sf_result G;
- //coulomb wave function
- output gsl.data_types.gsl_sf_result Gp;
- //derivative of wave function
- output Real exp_F;
- //out of bound error exponenet stored here
- output Real exp_G;
- //out of bound error exponent stored here
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_wave_FG_e(eta, x, L_F, k, F, Fp, G, Gp, exp_F, exp_G) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_wave_FG_e;
-
- /*
- int gsl_sf_coulomb_wave_F_array(double L_min, int kmax, double eta, double x, double fc_array[],
- double * F_exponent)
- */
-
- function gsl_sf_coulomb_wave_F_array
- input Real L_min;
- input Integer kmax;
- input Real eta;
- input Real x;
- output Real fc_array[kmax];
- output Real F_exponent;
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_wave_F_array(L_min, kmax, eta, x, fc_array, F_exponent) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_wave_F_array;
-
- /*
-
- int gsl_sf_coulomb_wave_FG_array(double L_min, int kmax, double eta, double x, double fc_array[],
- double gc_array[], double * F_exponent, double * G_exponent)*/
-
- function gsl_sf_coulomb_wave_FG_array
- input Real L_min;
- input Integer kmax;
- input Real eta;
- input Real x;
- output Real fc_array[kmax];
- output Real gc_array[kmax];
- output Real F_exponent;
- output Real G_exponent;
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_wave_FG_array(L_min, kmax, eta, x, fc_array, gc_array, F_exponent, G_exponent) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_wave_FG_array;
-
- function gsl_sf_coulomb_wave_FGp_array
- input Real L_min;
- input Integer kmax;
- input Real eta;
- input Real x;
- output Real fc_array[kmax];
- output Real fcp_array[kmax];
- output Real gc_array[kmax];
- output Real gcp_array[kmax];
- output Real F_exponent;
- output Real G_exponent;
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_wave_FGp_array(L_min, kmax, eta, x, fc_array, fcp_array, gc_array, gcp_array, F_exponent, G_exponent) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_wave_FGp_array;
-
- function gsl_sf_coulomb_wave_sphF_array
- input Real L_min;
- input Integer kmax;
- input Real eta;
- input Real x;
- output Real fc_array[kmax];
- output Real F_exponent;
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_wave_sphF_array(L_min, kmax, eta, x, fc_array, F_exponent) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_wave_sphF_array;
- end chap_7_7_2;
-
- package chap_7_7_3
- function gsl_sf_coulomb_CL_e
- input Real L;
- input Real eta;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_CL_e(L, eta, result) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_CL_e;
-
- function gsl_sf_coulomb_CL_array
- input Real Lmin;
- input Integer kmax;
- input Real eta;
- output Real cl[kmax];
- output Integer y;
-
- external "C" y = gsl_sf_coulomb_CL_array(Lmin, kmax, eta, cl) annotation(
- Include = "#include<gsl/gsl_sf_coulomb.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coulomb_CL_array;
- end chap_7_7_3;
-
- package chap_7_8_1
- /*
-
- double
- int gsl_sf_coupling_3j_e(int two_ja, int two_jb, int two_jc, int two_ma, int two_mb, int two_mc,
- gsl_sf_result * result)
- These routines compute the Wigner 3-j coefficient,*/
-
- function gsl_sf_coupling_3j
- input Integer two_ja;
- input Integer two_jb;
- input Integer two_jc;
- input Integer two_ma;
- input Integer two_mb;
- input Integer two_mc;
- output Real y;
-
- external "C" y = gsl_sf_coupling_3j(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc) annotation(
- Include = "#include<gsl/gsl_sf_coupling.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coupling_3j;
-
- function gsl_sf_coupling_3j_e
- input Integer two_ja;
- input Integer two_jb;
- input Integer two_jc;
- input Integer two_ma;
- input Integer two_mb;
- input Integer two_mc;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_coupling_3j_e(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc, result) annotation(
- Include = "#include<gsl/gsl_sf_coupling.h>",
- Include = "#include<gsl/gsl_sf_result>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coupling_3j_e;
- end chap_7_8_1;
-
- package chap_7_8_2
- function gsl_sf_coupling_6j
- input Integer two_ja;
- input Integer two_jb;
- input Integer two_jc;
- input Integer two_ma;
- input Integer two_mb;
- input Integer two_mc;
- output Real y;
-
- external "C" y = gsl_sf_coupling_6j(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc) annotation(
- Include = "#include<gsl/gsl_sf_coupling.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coupling_6j;
-
- function gsl_sf_coupling_6j_e
- input Integer two_ja;
- input Integer two_jb;
- input Integer two_jc;
- input Integer two_ma;
- input Integer two_mb;
- input Integer two_mc;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_coupling_6j_e(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc, result) annotation(
- Include = "#include<gsl/gsl_sf_coupling.h>",
- Include = "#include<gsl/gsl_sf_result>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coupling_6j_e;
- end chap_7_8_2;
-
- /*
-
- double gsl_sf_coupling_9j(int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf,
- int two_jg, int two_jh, int two_ji)
- int gsl_sf_coupling_9j_e(int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, int two_jg,
- int two_jh, int two_ji, gsl_sf_result * result)
- These routines compute the Wigner 9-j coeffici
-
- */
-
- package chap_7_8_3
- function gsl_sf_coupling_9j
- input Integer two_ja;
- input Integer two_jb;
- input Integer two_jc;
- input Integer two_jd;
- input Integer two_je;
- input Integer two_jf;
- input Integer two_jg;
- input Integer two_jh;
- input Integer two_ji;
- output Real y;
-
- external "C" y = gsl_sf_coupling_9j(two_ja, two_jb, two_jc, two_jd, two_je, two_jf, two_jg, two_jh, two_ji) annotation(
- Include = "#include<gsl/gsl_sf_coupling.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coupling_9j;
-
- function gsl_sf_coupling_9j_e
- input Integer two_ja;
- input Integer two_jb;
- input Integer two_jc;
- input Integer two_jd;
- input Integer two_je;
- input Integer two_jf;
- input Integer two_jg;
- input Integer two_jh;
- input Integer two_ji;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_coupling_9j_e(two_ja, two_jb, two_jc, two_jd, two_je, two_jf, two_jg, two_jh, two_ji, result) annotation(
- Include = "#include<gsl/gsl_sf_coupling.h>",
- Include = "#include<gsl/gsl_sf_result>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_coupling_9j_e;
- end chap_7_8_3;
-
- package chap_7_9
- function gsl_sf_dawson
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_dawson(x) annotation(
- Include = "#include <gsl/gsl_sf_dawson.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_dawson;
-
- function gsl_sf_dawson_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_dawson_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_dawson.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_dawson_e;
- end chap_7_9;
-
- package chap_7_10
- // double gsl_sf_debye_1(double x)
-
- function gsl_sf_debye_1
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_debye_1(x) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_1;
-
- function gsl_sf_debye_1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_debye_1_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_1_e;
-
- function gsl_sf_debye_2
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_debye_2(x) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_2;
-
- function gsl_sf_debye_2_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_debye_2_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_2_e;
-
- function gsl_sf_debye_3
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_debye_3(x) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_3;
-
- function gsl_sf_debye_3_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_debye_3_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_3_e;
-
- function gsl_sf_debye_4
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_debye_4(x) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_4;
-
- function gsl_sf_debye_4_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_debye_4_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_4_e;
-
- function gsl_sf_debye_5
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_debye_5(x) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_5;
-
- function gsl_sf_debye_5_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_debye_5_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_5_e;
-
- function gsl_sf_debye_6
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_debye_6(x) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_6;
-
- function gsl_sf_debye_6_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_debye_6_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_debye.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_debye_6_e;
- end chap_7_10;
-
- package chap_7_11_1
- function gsl_sf_dilog
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_dilog(x) annotation(
- Include = "#include <gsl/gsl_sf_dilog.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_dilog;
-
- function gsl_sf_dilog_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_dilog_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_dilog.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_dilog_e;
- end chap_7_11_1;
-
- package chap_7_11_2
- function gsl_sf_complex_dilog_e
- input Real r;
- input Real theta;
- output gsl.data_types.gsl_sf_result result_re;
- output gsl.data_types.gsl_sf_result result_im;
- output Integer y;
-
- external "C" y = gsl_sf_complex_dilog_e(r, theta, result_re, result_im) annotation(
- Include = "#include<gsl/gsl_sf_dilog.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_complex_dilog_e;
-
- /* int gsl_sf_complex_dilog_e(double r, double theta, gsl_sf_result * result_re, gsl_sf_result * re-
- sult_im)*/
- end chap_7_11_2;
-
- package chap_7_12
- function gsl_sf_multiply
- input Real x;
- input Real y;
- output Real z;
-
- external "C" z = gsl_sf_multiply(x, y) annotation(
- Include = "#include<gsl/gsl_sf_elementary.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_multiply;
-
- function gsl_sf_multiply_e
- input Real x;
- input Real y;
- output gsl.data_types.gsl_sf_result result;
- output Integer z;
-
- external "C" z = gsl_sf_multiply_e(x, y, result) annotation(
- Include = "#include<gsl/gsl_sf_elementary.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_multiply_e;
-
- function gsl_sf_multiply_err_e
- input Real x;
- input Real dx;
- input Real y;
- input Real dy;
- output gsl.data_types.gsl_sf_result result;
- output Integer z;
-
- external "C" z = gsl_sf_multiply_err_e(x, dx, y, dy, result) annotation(
- Include = "#include<gsl/gsl_sf_elementary.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_multiply_err_e;
- end chap_7_12;
-
- package chap_7_15_1
- //double gsl_sf_erf(double x)
- //int gsl_sf_erf_e(double x, gsl_sf_result * result)
-
- function gsl_sf_erf
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_erf(x) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erf;
-
- function gsl_sf_erf_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_erf_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Include = "#include<gsl/gsl.sf.result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erf_e;
- end chap_7_15_1;
-
- package chap_7_15_2
- function gsl_sf_erfc
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_erfc(x) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erfc;
-
- function gsl_sf_erfc_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_erfc_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Include = "#include<gsl/gsl.sf.result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erfc_e;
- end chap_7_15_2;
-
- package chap_7_15_3
- function gsl_sf_log_erfc
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_log_erfc(x) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_log_erfc;
-
- function gsl_sf_log_erfc_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_log_erfc_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Include = "#include<gsl/gsl.sf.result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_log_erfc_e;
- end chap_7_15_3;
-
- package chap_7_15_4
- /*
- double gsl_sf_hazard(double x)
- int gsl_sf_erf_Z_e(double x, gsl_sf_result * result)
- double gsl_sf_erf_Q(double x)
- int gsl_sf_erf_Q_e(double x, gsl_sf_result * result)*/
-
- function gsl_sf_erf_Z
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_erf_Z(x) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erf_Z;
-
- function gsl_sf_erf_Z_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_erf_Z_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Include = "#include<gsl/gsl.sf.result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erf_Z_e;
-
- function gsl_sf_erf_Q
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_erf_Q(x) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erf_Q;
-
- function gsl_sf_erf_Q_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_erf_Q_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Include = "#include<gsl/gsl.sf.result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_erf_Q_e;
-
- /*double gsl_sf_hazard(double x)
- int gsl_sf_hazard_e(double x, gsl_sf_result * result)*/
-
- function gsl_sf_hazard
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_hazard(x) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_hazard;
-
- function gsl_sf_hazard_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_hazard_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_erf.h>",
- Include = "#include<gsl/gsl.sf.result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_hazard_e;
- end chap_7_15_4;
-
- package chap_7_16_1
- /*double gsl_sf_exp(double x)
- int gsl_sf_exp_e(double x, gsl_sf_result * result)
- These routines provide an exponential function exp(x) using GSL semantics and error checking.
- int gsl_sf_exp_e10_e(double x, gsl_sf_result_e10 * result)
- 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.
- double gsl_sf_exp_mult(double x, double y)
-
- These routines exponentiate x and multiply by the factor y to return the product y exp(x).
- int gsl_sf_exp_mult_e10_e(const double x, const double y, gsl_sf_result_e10 * result)*/
-
- function gsl_sf_exp
- input Real x;
- //input to the exp function
- output Real y;
-
- external "C" y = gsl_sf_exp(x) annotation(
- Include = "#include <gsl/gsl_sf_exp.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp;
-
- function gsl_sf_exp_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_exp_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_exp.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_e;
-
- function gsl_sf_exp_e10_e
- input Real x;
- output gsl.data_types.gsl_sf_result_e10 result;
- output Integer y;
-
- external "C" y = gsl_sf_exp_e10_e(x, result) annotation(
- Include = "#include <gsl/gsl_sf_exp.h>",
- Include = "#include <gsl/gsl_sf_result_e10.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_e10_e;
-
- function gsl_sf_exp_mult
- input Real x;
- input Real y;
- output Real z;
-
- external "C" z = gsl_sf_exp_mult(x, y) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Library = "gsl",
- Library = "gslcbla)");
- end gsl_sf_exp_mult;
-
- function gsl_sf_exp_mult_e
- input Real x;
- input Real y;
- output gsl.data_types.gsl_sf_result result;
- output Integer z;
-
- external "C" z = gsl_sf_exp_mult_e(x, y, result) annotation(
- Include = "#include <gsl/gsl_sf_exp.h>",
- Include = "#include <gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_mult_e;
-
- function gsl_sf_exp_mult_e10_e
- input Real x;
- input Real y;
- output gsl.data_types.gsl_sf_result_e10 result;
- output Integer z;
-
- external "C" z = gsl_sf_exp_mult_e10_e(x, y, result) annotation(
- Include = "#include <gsl/gsl_sf_exp.h>",
- Include = "#include <gsl/gsl_sf_result_e10.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_mult_e10_e;
- end chap_7_16_1;
-
- package chap_7_16_2
- function gsl_sf_expm1
- //This routines compute the quantity exp(x) − 1 using an algorithm that is accurate for small x.
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_expm1(x) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expm1;
-
- function gsl_sf_expm1_e
- //This routines compute the quantity exp(x) − 1 using an algorithm that is accurate for small x.
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_expm1_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expm1_e;
-
- function gsl_sf_exprel
- //These routines compute the quantity (exp(x) − 1)/x using an algorithm that is accurate for small x
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_exprel(x) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exprel;
-
- function gsl_sf_exprel_e
- //These routines compute the quantity (exp(x) − 1)/x using an algorithm that is accurate for small x
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_exprel_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exprel_e;
-
- function gsl_sf_exprel_2
- //This routines compute the quantity 2(exp(x) − 1 − x)/x^2 using an algorithm that is accurate for small x
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_exprel_2(x) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exprel_2;
-
- function gsl_sf_exprel_2_e
- //This routines compute the quantity 2(exp(x) − 1 − x)/x^2 using an algorithm that is accurate for small x
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_exprel_2_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exprel_2_e;
-
- function gsl_sf_exprel_n
- input Integer n;
- input Real x;
- output Real z;
-
- external "C" z = gsl_sf_exprel_n(n, x) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exprel_n;
-
- function gsl_sf_exprel_n_e
- input Integer n;
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_exprel_n_e(n, x, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exprel_n_e;
- end chap_7_16_2;
-
- package chap_7_16_3
- function gsl_sf_exp_err_e
- //This function exponentiates x with an associated absolute error dx
- input Real x;
- input Real dx;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_exp_err_e(x, dx, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_err_e;
-
- function gsl_sf_exp_err_e10_e
- //This function exponentiates a quantity x with an associated absolute error dx using the gsl_sf_result_e10
- input Real x;
- input Real dx;
- output gsl.data_types.gsl_sf_result_e10 result;
- output Integer y;
-
- external "C" y = gsl_sf_exp_err_e10_e(x, dx, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result_e10.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_err_e10_e;
-
- function gsl_sf_exp_mult_err_e
- //This routine computes the product y exp(x) for the quantities x, y with associated absolute errors dx, dy.
- input Real x;
- input Real dx;
- input Real y;
- input Real dy;
- output gsl.data_types.gsl_sf_result result;
- output Integer z;
-
- external "C" z = gsl_sf_exp_mult_err_e(x, dx, y, dy, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_mult_err_e;
-
- function gsl_sf_exp_mult_err_e10_e
- //This routine computes the product y exp(x) for the quantities x, y with associated absolute errors dx, dy usingthe gsl_sf_result_e10 type to return a result with extended range
- input Real x;
- input Real dx;
- input Real y;
- input Real dy;
- output gsl.data_types.gsl_sf_result_e10 result;
- output Integer z;
-
- external "C" z = gsl_sf_exp_mult_err_e10_e(x, dx, y, dy, result) annotation(
- Include = "#include<gsl/gsl_sf_exp.h>",
- Include = "#include<gsl/gsl_sf_result_e10.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_exp_mult_err_e10_e;
- end chap_7_16_3;
-
- package chap_7_17_1
- function gsl_sf_expint_E1
- //These routines compute the exponential integral E 1 (x),
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_expint_E1(x) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_E1;
-
- function gsl_sf_expint_E1_e
- //These routines compute the exponential integral E 1 (x),
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_expint_E1_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_E1_e;
-
- function gsl_sf_expint_E2
- //These routines compute the exponential integral E 2 (x),
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_expint_E2(x) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_E2;
-
- function gsl_sf_expint_E2_e
- //These routines compute the exponential integral E 2 (x),
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_expint_E2_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_E2_e;
-
- function gsl_sf_expint_En
- //These routines compute the exponential integral E n (x),
- input Integer n;
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_expint_En(n, x) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_En;
-
- function gsl_sf_expint_En_e
- //These routines compute the exponential integral E 2 (x),
- input Integer n;
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_expint_En_e(n, x, result) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_En_e;
- end chap_7_17_1;
-
- package chap_7_17_2
- function gsl_sf_expint_Ei
- //These routines compute the exponential integral Ei(x)
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_expint_Ei(x) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_Ei;
-
- function gsl_sf_expint_Ei_e
- //These routines compute the exponential integral Ei(x)
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_expint_Ei_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_expint_Ei_e;
- end chap_7_17_2;
-
- package chap_7_17_3
- function gsl_sf_Shi
- //hyperbolic integrals
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_Shi(x) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_Shi;
-
- function gsl_sf_Shi_e
- //hyperbolic integral
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_Shi_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_Shi_e;
-
-
-
- function gsl_sf_Chi
- //hyperbolic integrals
- input Real x;
- output Real y;
-
- external "C" y = gsl_sf_Chi(x) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_Chi;
-
- function gsl_sf_Chi_e
- //hyperbolic integral
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
-
- external "C" y = gsl_sf_Chi_e(x, result) annotation(
- Include = "#include<gsl/gsl_sf_expint.h>",
- Include = "#include<gsl/gsl_sf_result.h>",
- Library = "gsl",
- Library = "gslcblas");
- end gsl_sf_Chi_e;
- end chap_7_17_3;
-
- package chap_7_17_4
- function gsl_sf_expint_3
- input Real x;
- output Real y;
- external "C" y=gsl_sf_expint_3(x)annotation(Include="#include<gsl/gsl_sf_expint.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_expint_3;
-
- function gsl_sf_expint_3_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_expint_3_e(x,result)annotation(Include="#include<gsl/gsl_sf_expint.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_expint_3_e;
- end chap_7_17_4;
-
- package chap_7_17_5
- function gsl_sf_Si
- input Real x;
- output Real y;
- external "C" y=gsl_sf_Si(x)annotation(Include="#include<gsl/gsl_sf_expint.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_Si;
-
- function gsl_sf_Si_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_Si_e(x,result)annotation(Include="#include<gsl/gsl_sf_expint.h>",Include="#include<gsl/gsl_sf_result>",Library="gsl",Library="gslcbas");
- end gsl_sf_Si_e;
-
- function gsl_sf_Ci
- input Real x;
- output Real y;
- external "C" y=gsl_sf_Ci(x)annotation(Include="#include<gsl/gsl_sf_expint.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_Ci;
-
- function gsl_sf_Ci_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_Ci_e(x,result)annotation(Include="#include<gsl/gsl_sf_expint.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_Ci_e;
- end chap_7_17_5;
-
- package chap_7_18_1
-
-
- function gsl_sf_fermi_dirac_m1
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_m1(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_m1;
-
-
- //int gsl_sf_fermi_dirac_m1_e(double x, gsl_sf_result * result)
- function gsl_sf_fermi_dirac_m1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_m1_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas",Include="#include<gsl/gsl_sf_result.h>");
- end gsl_sf_fermi_dirac_m1_e;
-
- //double gsl_sf_fermi_dirac_0(double x)
- function gsl_sf_fermi_dirac_0
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_0(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_0;
-
- function gsl_sf_fermi_dirac_0_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_0_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_0_e;
-
-
- //double gsl_sf_fermi_dirac_1(double x)
- function gsl_sf_fermi_dirac_1
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_1(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_1;
-
- //int gsl_sf_fermi_dirac_1_e(double x, gsl_sf_result * result)
- function gsl_sf_fermi_dirac_1_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_1_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_1_e;
-
-
-
- //double gsl_sf_fermi_dirac_2(double x)
- function gsl_sf_fermi_dirac_2
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_2(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_2;
-
- //int gsl_sf_fermi_dirac_2_e(double x, gsl_sf_result * result)
- function gsl_sf_fermi_dirac_2_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_2_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_2_e;
-
-
-
-
-
-
- //double gsl_sf_fermi_dirac_int(int j, double x)
- function gsl_sf_fermi_dirac_int
- input Integer j;
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_int(j,x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_int;
-
- function gsl_sf_fermi_dirac_int_e
- input Integer j;
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_int_e(j,x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_int_e;
-
-
-
-
-
-
-
-
-
-
-
-
-
- function gsl_sf_fermi_dirac_mhalf
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_mhalf(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_mhalf;
-
-
-
- function gsl_sf_fermi_dirac_mhalf_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_mhalf_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas",Include="#include<gsl/gsl_sf_result.h>");
- end gsl_sf_fermi_dirac_mhalf_e;
-
-
- function gsl_sf_fermi_dirac_half
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_half(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_half;
-
- function gsl_sf_fermi_dirac_half_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_half_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_half_e;
-
-
-
- function gsl_sf_fermi_dirac_3half
- input Real x;
- output Real y;
- external "C" y=gsl_sf_fermi_dirac_3half(x)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_3half;
-
-
- function gsl_sf_fermi_dirac_3half_e
- input Real x;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- external "C" y=gsl_sf_fermi_dirac_3half_e(x,result)annotation(Include="#include<gsl/gsl_sf_fermi_dirac.h>",Include="#include<gsl/gsl_sf_result.h>",Library="gsl",Library="gslcblas");
- end gsl_sf_fermi_dirac_3half_e;
-
-
- end chap_7_18_1;
- end Special_functions;
-
- package Examples
- package Mathematical
- model gsl_log1p
- //This model computes the value of log(1 + x) in a way that is accurate for small x by calling the function gsl_log1p(x)
- parameter Real x = -2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_log1p(x);
- end gsl_log1p;
-
- model gsl_expm1
- //This model computes the value of exp(x)-1 in a way that is accurate for small x by calling the function gsl_expm1
- parameter Real x = 0.01;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_expm1(x);
- end gsl_expm1;
-
- model gsl_hypot
- //it calculates the value of sqrt(x^2+y^2)
- parameter Real x = 2;
- parameter Real y = 2.1;
- Real z;
- algorithm
- z := gsl.mathematical.gsl_hypot(x, y);
- end gsl_hypot;
-
- model gsl_hypot3
- //this example calculates the value of sqrt(x^2+y^2+z^2) by calling the function gsl_hypot3
- parameter Real x = 2.0;
- parameter Real y = 2.1;
- parameter Real z = 2.2;
- Real o;
- algorithm
- o := gsl.mathematical.gsl_hypot3(x, y, z);
- end gsl_hypot3;
-
- model gsl_acosh
- //this example calls gsl_acosh to calculate the inverse of cosh
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_acosh(x);
- end gsl_acosh;
-
- model gsl_asinh
- //this example calls gsl_asinh to calculate the inverse of sinh
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_asinh(x);
- end gsl_asinh;
-
- model gsl_atanh
- //this example calls gsl_atanh to calculate the inverse of tanh
- parameter Real x = 0.5;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_atanh(x);
- end gsl_atanh;
-
- model gsl_ldexp
- //this function computes the value of x*2^e by calling the function gsl_ldexp
- parameter Real x = 2.0;
- // constant Real y = Modelica.Constants.e;
- // y should be given the value e
- Real z;
- algorithm
- z := gsl.mathematical.gsl_ldexp(x);
- end gsl_ldexp;
-
- model gsl_frexp
- //This model calls the function gsl_frexp and splits the number x into its normalized fraction f and exponent e, such that x = f ∗ 2^e
- // and 0.5 <= f < 1. The function returns f and stores the exponent in e.
- parameter Real x = 2;
- Integer e;
- // it stores the exponent in y
- output Real z;
- algorithm
- (e, z) := gsl.mathematical.gsl_frexp(x);
- end gsl_frexp;
-
- model gsl_pow_int
- //this function computes x^n
- parameter Real x = 0;
- parameter Integer n = 0;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_int(x, n);
- end gsl_pow_int;
-
- model gsl_pow_2
- //This function calculates square fo the given number
- parameter Real x = 2.2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_2(x);
- end gsl_pow_2;
-
- model gsl_pow_3
- //This function calculates cube of the given number
- parameter Real x = 2.02;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_3(x);
- end gsl_pow_3;
-
- model gsl_pow_4
- //This function calculates number to the power of 4 of the given number
- parameter Real x = 0.02;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_4(x);
- end gsl_pow_4;
-
- model gsl_pow_5
- //This model calculates number to the power of 5 of the given number by calling the function gsl_pow_5(x)
- parameter Real x = 0.2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_5(x);
- end gsl_pow_5;
-
- model gsl_pow_6
- //This model calculates number to the power of 6 of the given number by calling the the function gsl_pow_6(x)
- parameter Real x = 2.0;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_6(x);
- end gsl_pow_6;
-
- model gsl_pow_7
- //This function calculates number to the power of 7 by calling the function gsl_pow_7(x)
- parameter Real x = 2.0;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_7(x);
- end gsl_pow_7;
-
- model gsl_pow_8
- //This model calculates number to the power of 8 by calling the function gsl_pow_8
- parameter Real x = 2.2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_8(x);
- end gsl_pow_8;
-
- model gsl_pow_9
- //This function calculates number to the power of 9 of the given number
- parameter Real x = 2.2;
- Real y;
- algorithm
- y := gsl.mathematical.gsl_pow_9(x);
- end gsl_pow_9;
-
- model GSL_SIGN
- //This model calculates the sign of the number by calling the function GSL_SIGN(x)
- parameter Real x = -4;
- Integer y;
- algorithm
- y := gsl.mathematical.GSL_SIGN(x);
- end GSL_SIGN;
-
- model GSL_IS_ODD
- //This model outputs 1 for odd number and 0 if the number is even by calling the function GSL_IS_ODD(x)
- parameter Integer x = 2;
- Real y(start = 0);
- algorithm
- y := gsl.mathematical.GSL_IS_ODD(x);
- end GSL_IS_ODD;
-
- model GSL_IS_EVEN
- //This model outputs 1 for odd number and 0 if the number is even by calling the function GSL_IS_EVEN(x)
- parameter Integer x = 2;
- Real y;
- algorithm
- y := gsl.mathematical.GSL_IS_EVEN(x);
- end GSL_IS_EVEN;
-
- model GSL_MAX
- //This model calls the function GSL_MAX(a,b) which return the maximum of a and b
- parameter Real a = 1.0;
- parameter Real b = 2.0;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MAX(a, b);
- end GSL_MAX;
-
- model GSL_MAX_DBL
- // This model gives the maximum of two double numbers by calling the function GSL_MAX_DBL
- parameter Real a = 2.0;
- parameter Real b = 3.0;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MAX_DBL(a, b);
- end GSL_MAX_DBL;
-
- model GSL_MIN_DBL
- // This model gives the minimum of two double numbers by calling the function GSL_MIN_DBL
- parameter Real a = 2.0;
- parameter Real b = 3.0;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MIN_DBL(a, b);
- end GSL_MIN_DBL;
-
- model GSL_MAX_INT
- // This model gives the maximum of two integers by calling the function GSL_MAX_INT
- parameter Real a = 2;
- parameter Real b = 3;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MAX_INT(a, b);
- end GSL_MAX_INT;
-
- model GSL_MIN_INT
- // This model gives the minimum of two integers by calling the function GSL_MIN_INT
- parameter Real a = 2.5;
- parameter Real b = 3;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MIN_INT(a, b);
- end GSL_MIN_INT;
-
- model GSL_MAX_LDBL
- // This model gives the maximum of two Real numbers by calling the function GSL_MAX_LDBL
- parameter Real a = 2.00001;
- parameter Real b = 3.00001;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MAX_LDBL(a, b);
- end GSL_MAX_LDBL;
-
- model GSL_MIN_LDBL
- // This model gives the minimum of two Real by calling the function GSL_MAX_DBL
- parameter Real a = 2.00001;
- parameter Real b = 3.00001;
- Real c;
- algorithm
- c := gsl.mathematical.GSL_MIN_LDBL(a, b);
- end GSL_MIN_LDBL;
-
- model gsl_fcmp
- //This model calls the function gsl_fcmp(a,b) and returns zero if they are equal in given range and -1 if a<b and +1 if a>b
- parameter Real a = 4.0;
- parameter Real b = 2.2;
- Real c;
- algorithm
- c := gsl.mathematical.gsl_fcmp(a, b);
- end gsl_fcmp;
-
- /**/
- end Mathematical;
-
- package Permutation
- /*this model initialise the permutation with 10 elements to {0,1,2,3,4,5,6,7,8,9}*/
- //this model calls the function gsl_permutation_init(p) to initialize the permutation to {0,1,2,3,4,5,6,7,8,9}
- //this model calls the function gsl_permutation_init(p) to initialize the permutation to {0,1,2,3,4,5,6,7,8,9}
- //this model calls the function gsl_permutation_init(p) to initialize the permutation to {0,1,2,3,4,,
-
- model gsl_per_init
- /*this model initializes the permutation p to{0,1,2,3,4,5,6,7,8,9}*/
- parameter Integer N = 10;
- gsl.data_types.gsl_permutation p = gsl.data_types.gsl_permutation(N);
- Integer y[10];
- algorithm
- gsl.Permutation.gsl_permutation_init(p);
- for i in 1:10 loop
- y[i] := gsl.Permutation.gsl_permutation_get(p, i - 1);
- end for;
- end gsl_per_init;
- end Permutation;
-
- package COMPLEX
- model gsl_complex_rect
- /*this model calls the function gsl_complex_rect*/
- parameter Real a = 10;
- parameter Real b = 4;
- Real z[2];
- algorithm
- z := gsl.COMPLEX.gsl_complex_rect(a, b);
- end gsl_complex_rect;
- end COMPLEX;
-
- package special_functions
- package chap_7_5_1
- model gsl_sf_bessel_J0
- //this model calls the function gsl_sf_bessel_J0 by taking value of x as input and returning y as output
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_J0(x);
- end gsl_sf_bessel_J0;
-
- model gsl_sf_bessel_J0_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_J0_e(x);
- end gsl_sf_bessel_J0_e;
-
- model gsl_sf_bessel_J1
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_J1(x);
- end gsl_sf_bessel_J1;
-
- model gsl_sf_bessel_J1_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_J1_e(x);
- end gsl_sf_bessel_J1_e;
-
- model gsl_sf_bessel_Jn
- parameter Real x = 10;
- parameter Integer n = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_Jn(x, n);
- end gsl_sf_bessel_Jn;
-
- model gsl_sf_bessel_Jn_e
- parameter Real x = 10;
- parameter Integer n = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_Jn_e(x, n);
- end gsl_sf_bessel_Jn_e;
-
- model gsl_sf_bessel_Jn_array
- parameter Integer nmin = 2;
- parameter Integer nmax = 10;
- parameter Real x = 4;
- Real result_array[nmax - nmin];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_1.gsl_sf_bessel_Jn_array(nmin, nmax, x);
- end gsl_sf_bessel_Jn_array;
- end chap_7_5_1;
-
- package chap_7_5_2
- model gsl_sf_bessel_Y0
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Y0(x);
- end gsl_sf_bessel_Y0;
-
- model gsl_sf_bessel_Y0_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Y0_e(x);
- end gsl_sf_bessel_Y0_e;
-
- model gsl_sf_bessel_Y1
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Y1(x);
- end gsl_sf_bessel_Y1;
-
- model gsl_sf_bessel_Y1_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Y1_e(x);
- end gsl_sf_bessel_Y1_e;
-
- model gsl_sf_bessel_Yn
- parameter Real x = 10;
- parameter Integer n = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Yn(x, n);
- end gsl_sf_bessel_Yn;
-
- model gsl_sf_bessel_Yn_e
- parameter Real x = 10;
- parameter Integer n = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Yn_e(x, n);
- end gsl_sf_bessel_Yn_e;
-
- model gsl_sf_bessel_Yn_array
- parameter Integer nmin = 2;
- parameter Integer nmax = 10;
- parameter Real x = 4;
- Real result_array[nmax - nmin];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_2.gsl_sf_bessel_Yn_array(nmin, nmax, x);
- end gsl_sf_bessel_Yn_array;
- end chap_7_5_2;
-
- package chap_7_5_3
- model gsl_sf_bessel_I0
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I0(x);
- end gsl_sf_bessel_I0;
-
- model gsl_sf_bessel_I0_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I0_e(x);
- end gsl_sf_bessel_I0_e;
-
- model gsl_sf_bessel_I1
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I1(x);
- end gsl_sf_bessel_I1;
-
- model gsl_sf_bessel_I1_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I1_e(x);
- end gsl_sf_bessel_I1_e;
-
- model gsl_sf_bessel_In
- parameter Real x = 10;
- parameter Integer n = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_In(x, n);
- end gsl_sf_bessel_In;
-
- model gsl_sf_bessel_In_e
- parameter Real x = 10;
- parameter Integer n = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_In_e(x, n);
- end gsl_sf_bessel_In_e;
-
- model gsl_sf_bessel_In_array
- parameter Integer nmin = 2;
- parameter Integer nmax = 10;
- parameter Real x = 4;
- Real result_array[nmax - nmin];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_In_array(nmin, nmax, x);
- end gsl_sf_bessel_In_array;
-
- model gsl_sf_bessel_I0_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I0_scaled(x);
- end gsl_sf_bessel_I0_scaled;
-
- model gsl_sf_bessel_I0_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I0_scaled_e(x);
- end gsl_sf_bessel_I0_scaled_e;
-
- model gsl_sf_bessel_I1_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I1_scaled(x);
- end gsl_sf_bessel_I1_scaled;
-
- model gsl_sf_bessel_I1_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_I1_scaled_e(x);
- end gsl_sf_bessel_I1_scaled_e;
-
- model gsl_sf_bessel_In_scaled
- parameter Real x = 10;
- parameter Integer n = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_In_scaled(x, n);
- end gsl_sf_bessel_In_scaled;
-
- model gsl_sf_bessel_In_scaled_e
- parameter Real x = 10;
- parameter Integer n = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_In_scaled_e(x, n);
- end gsl_sf_bessel_In_scaled_e;
-
- model gsl_sf_bessel_In_scaled_array
- parameter Integer nmin = 2;
- parameter Integer nmax = 10;
- parameter Real x = 4;
- Real result_array[nmax - nmin];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_3.gsl_sf_bessel_In_scaled_array(nmin, nmax, x);
- end gsl_sf_bessel_In_scaled_array;
- end chap_7_5_3;
-
- package chap_7_5_4
- model gsl_sf_bessel_K0
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K0(x);
- end gsl_sf_bessel_K0;
-
- model gsl_sf_bessel_K0_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K0_e(x);
- end gsl_sf_bessel_K0_e;
-
- model gsl_sf_bessel_K1
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K1(x);
- end gsl_sf_bessel_K1;
-
- model gsl_sf_bessel_K1_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K1_e(x);
- end gsl_sf_bessel_K1_e;
-
- model gsl_sf_bessel_Kn
- parameter Real x = 10;
- parameter Integer n = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_Kn(x, n);
- end gsl_sf_bessel_Kn;
-
- model gsl_sf_bessel_Kn_e
- parameter Real x = 10;
- parameter Integer n = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_Kn_e(x, n);
- end gsl_sf_bessel_Kn_e;
-
- model gsl_sf_bessel_Kn_array
- parameter Integer nmin = 2;
- parameter Integer nmax = 10;
- parameter Real x = 4;
- Real result_array[nmax - nmin];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_Kn_array(nmin, nmax, x);
- end gsl_sf_bessel_Kn_array;
-
- model gsl_sf_bessel_K0_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K0_scaled(x);
- end gsl_sf_bessel_K0_scaled;
-
- model gsl_sf_bessel_K0_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K0_scaled_e(x);
- end gsl_sf_bessel_K0_scaled_e;
-
- model gsl_sf_bessel_K1_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K1_scaled(x);
- end gsl_sf_bessel_K1_scaled;
-
- model gsl_sf_bessel_K1_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_K1_scaled_e(x);
- end gsl_sf_bessel_K1_scaled_e;
-
- model gsl_sf_bessel_Kn_scaled
- parameter Real x = 10;
- parameter Integer n = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_Kn_scaled(x, n);
- end gsl_sf_bessel_Kn_scaled;
-
- model gsl_sf_bessel_Kn_scaled_e
- parameter Real x = 10;
- parameter Integer n = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_Kn_scaled_e(x, n);
- end gsl_sf_bessel_Kn_scaled_e;
-
- model gsl_sf_bessel_Kn_scaled_array
- parameter Integer nmin = 2;
- parameter Integer nmax = 10;
- parameter Real x = 4;
- Real result_array[nmax - nmin];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_4.gsl_sf_bessel_Kn_scaled_array(nmin, nmax, x);
- end gsl_sf_bessel_Kn_scaled_array;
- end chap_7_5_4;
-
- package chap_7_5_5
- model gsl_sf_bessel_j0
- //This model calls the function gsl_sf_bessel_j0 to calculate the value of spherical bessel function j0(x)=sin(x)/x
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j0(x);
- end gsl_sf_bessel_j0;
-
- model gsl_sf_bessel_j0_e
- //This model calls the function gsl_sf_bessel_j0 to calculate the value of spherical bessel function j0(x)=sin(x)/x
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j0_e(x);
- end gsl_sf_bessel_j0_e;
-
- model gsl_sf_bessel_j1
- //This model calls the function gsl_sf_bessel_j1 to calculate the value of spherical bessel function j1(x)=(sin(x)/x - cos(x))/x
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j1(x);
- end gsl_sf_bessel_j1;
-
- model gsl_sf_bessel_j1_e
- //This model calls the function gsl_sf_bessel_j1 to calculate the value of spherical bessel function j1(x)=(sin(x)/x -cos(x))/x
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j1_e(x);
- end gsl_sf_bessel_j1_e;
-
- model gsl_sf_bessel_j2
- //These routines compute the regular spherical Bessel function of second order, j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j2(x);
- end gsl_sf_bessel_j2;
-
- model gsl_sf_bessel_j2_e
- //These routines compute the regular spherical Bessel function of second order, j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j2_e(x);
- end gsl_sf_bessel_j2_e;
-
- model gsl_sf_bessel_jl
- //These routines compute the regular spherical Bessel function of order l, j1(x), for l ≥ 0 and x ≥ 0.
- parameter Integer l = 10;
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl(l, x);
- end gsl_sf_bessel_jl;
-
- model gsl_sf_bessel_jl_e
- parameter Integer l = 10;
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl_e(l, x);
- end gsl_sf_bessel_jl_e;
-
- model gsl_sf_bessel_jl_array
- // parameter Integer nmin;
- parameter Integer lmax = 10;
- parameter Real x = 10;
- Real result_array[lmax];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl_array(lmax, x);
- end gsl_sf_bessel_jl_array;
-
- model gsl_sf_bessel_jl_steed_array
- // parameter Integer nmin;
- parameter Integer lmax = 10;
- parameter Real x = 10;
- Real result_array[lmax];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl_steed_array(lmax, x);
- end gsl_sf_bessel_jl_steed_array;
- end chap_7_5_5;
-
- package chap_7_5_6
- model gsl_sf_bessel_j0
- //This model calls the function gsl_sf_bessel_j0 to calculate the value of irregular spherical irregular spherical bessel function j0(x)=sin(x)/x
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j0(x);
- end gsl_sf_bessel_j0;
-
- model gsl_sf_bessel_j0_e
- //This model calls the function gsl_sf_bessel_j0 to calculate the value of irregular spherical bessel function j0(x)=sin(x)/x
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j0_e(x);
- end gsl_sf_bessel_j0_e;
-
- model gsl_sf_bessel_j1
- //This model calls the function gsl_sf_bessel_j1 to calculate the value of irregular spherical bessel function j1(x)=(sin(x)/x - cos(x))/x
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j1(x);
- end gsl_sf_bessel_j1;
-
- model gsl_sf_bessel_j1_e
- //This model calls the function gsl_sf_bessel_j1 to calculate the value of irregular spherical bessel function j1(x)=(sin(x)/x -cos(x))/x
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j1_e(x);
- end gsl_sf_bessel_j1_e;
-
- model gsl_sf_bessel_j2
- //These routines compute the regular irregular spherical Bessel function of second order, j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j2(x);
- end gsl_sf_bessel_j2;
-
- model gsl_sf_bessel_j2_e
- //These routines compute the irregular spherical Bessel function of second order, j 2 (x) = ((3/x 2 − 1) sin(x) −3 cos(x)/x)/x
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_j2_e(x);
- end gsl_sf_bessel_j2_e;
-
- model gsl_sf_bessel_jl
- //These routines compute the irregular spherical Bessel function of order l, j1(x), for l ≥ 0 and x ≥ 0.
- parameter Integer l = 10;
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl(l, x);
- end gsl_sf_bessel_jl;
-
- model gsl_sf_bessel_jl_e
- parameter Integer l = 10;
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl_e(l, x);
- end gsl_sf_bessel_jl_e;
-
- model gsl_sf_bessel_jl_array
- // parameter Integer nmin;
- parameter Integer lmax = 10;
- parameter Real x = 10;
- Real result_array[lmax];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_5.gsl_sf_bessel_jl_array(lmax, x);
- end gsl_sf_bessel_jl_array;
- end chap_7_5_6;
-
- package chap_7_5_7
- model gsl_sf_bessel_i0_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_i0_scaled(x);
- end gsl_sf_bessel_i0_scaled;
-
- model gsl_sf_bessel_i0_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_i0_scaled_e(x);
- end gsl_sf_bessel_i0_scaled_e;
-
- model gsl_sf_bessel_i1_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_i1_scaled(x);
- end gsl_sf_bessel_i1_scaled;
-
- model gsl_sf_bessel_i1_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_i1_scaled_e(x);
- end gsl_sf_bessel_i1_scaled_e;
-
- model gsl_sf_bessel_i2_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_i2_scaled(x);
- end gsl_sf_bessel_i2_scaled;
-
- model gsl_sf_bessel_i2_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_i2_scaled_e(x);
- end gsl_sf_bessel_i2_scaled_e;
-
- model gsl_sf_bessel_il_scaled
- parameter Real x = 10;
- parameter Integer l = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_il_scaled(x, l);
- end gsl_sf_bessel_il_scaled;
-
- model gsl_sf_bessel_il_scaled_e
- parameter Real x = 10;
- parameter Integer l = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_il_scaled_e(x, l);
- end gsl_sf_bessel_il_scaled_e;
-
- model gsl_sf_bessel_il_scaled_array
- parameter Integer lmax = 10;
- parameter Real x = 4;
- Real result_array[lmax];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_7.gsl_sf_bessel_il_scaled_array(lmax, x);
- end gsl_sf_bessel_il_scaled_array;
- end chap_7_5_7;
-
- package chap_7_5_8
- model gsl_sf_bessel_k0_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_k0_scaled(x);
- end gsl_sf_bessel_k0_scaled;
-
- model gsl_sf_bessel_k0_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_k0_scaled_e(x);
- end gsl_sf_bessel_k0_scaled_e;
-
- model gsl_sf_bessel_k1_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_k1_scaled(x);
- end gsl_sf_bessel_k1_scaled;
-
- model gsl_sf_bessel_k1_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_k1_scaled_e(x);
- end gsl_sf_bessel_k1_scaled_e;
-
- model gsl_sf_bessel_k2_scaled
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_k2_scaled(x);
- end gsl_sf_bessel_k2_scaled;
-
- model gsl_sf_bessel_k2_scaled_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_k2_scaled_e(x);
- end gsl_sf_bessel_k2_scaled_e;
-
- model gsl_sf_bessel_kl_scaled
- parameter Real x = 10;
- parameter Integer l = 1;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_kl_scaled(x, l);
- end gsl_sf_bessel_kl_scaled;
-
- model gsl_sf_bessel_kl_scaled_e
- parameter Real x = 10;
- parameter Integer l = 1;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_kl_scaled_e(x, l);
- end gsl_sf_bessel_kl_scaled_e;
-
- model gsl_sf_bessel_kl_scaled_array
- parameter Integer lmax = 10;
- parameter Real x = 4;
- Real result_array[lmax];
- Integer y;
- algorithm
- (result_array, y) := gsl.Special_functions.chap_7_5_8.gsl_sf_bessel_kl_scaled_array(lmax, x);
- end gsl_sf_bessel_kl_scaled_array;
- end chap_7_5_8;
-
- package chap_7_5_9
- model gsl_sf_bessel_Jnu
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_9.gsl_sf_bessel_Jnu(nu, x);
- end gsl_sf_bessel_Jnu;
-
- model gsl_sf_bessel_Jnu_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_9.gsl_sf_bessel_Jnu_e(x, nu);
- end gsl_sf_bessel_Jnu_e;
- end chap_7_5_9;
-
- package chap_7_5_10
- model gsl_sf_bessel_Ynu
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_10.gsl_sf_bessel_Ynu(nu, x);
- end gsl_sf_bessel_Ynu;
-
- model gsl_sf_bessel_Ynu_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_10.gsl_sf_bessel_Ynu_e(x, nu);
- end gsl_sf_bessel_Ynu_e;
- end chap_7_5_10;
-
- package chap_7_5_11
- model gsl_sf_bessel_Inu
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_11.gsl_sf_bessel_Inu(nu, x);
- end gsl_sf_bessel_Inu;
-
- model gsl_sf_bessel_Inu_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_11.gsl_sf_bessel_Inu_e(x, nu);
- end gsl_sf_bessel_Inu_e;
-
- model gsl_sf_bessel_Inu_scaled
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_11.gsl_sf_bessel_Inu_scaled(x, nu);
- end gsl_sf_bessel_Inu_scaled;
-
- model gsl_sf_bessel_Inu_scaled_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_11.gsl_sf_bessel_Inu_scaled_e(x, nu);
- end gsl_sf_bessel_Inu_scaled_e;
- end chap_7_5_11;
-
- package chap_7_5_12
- model gsl_sf_bessel_Knu
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_12.gsl_sf_bessel_Knu(nu, x);
- end gsl_sf_bessel_Knu;
-
- model gsl_sf_bessel_Knu_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_12.gsl_sf_bessel_Knu_e(x, nu);
- end gsl_sf_bessel_Knu_e;
-
- model gsl_sf_bessel_lnKnu
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_12.gsl_sf_bessel_lnKnu(nu, x);
- end gsl_sf_bessel_lnKnu;
-
- model gsl_sf_bessel_lnKnu_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_12.gsl_sf_bessel_lnKnu_e(x, nu);
- end gsl_sf_bessel_lnKnu_e;
-
- model gsl_sf_bessel_Knu_scaled
- parameter Real x = 10;
- parameter Real nu = 1.5;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_5_12.gsl_sf_bessel_Knu_scaled(x, nu);
- end gsl_sf_bessel_Knu_scaled;
-
- model gsl_sf_bessel_Knu_scaled_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_12.gsl_sf_bessel_Knu_scaled_e(x, nu);
- end gsl_sf_bessel_Knu_scaled_e;
- end chap_7_5_12;
-
- package chap_7_5_13
- model gsl_sf_bessel_zero_J0
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_13.gsl_sf_bessel_zero_J0(x);
- end gsl_sf_bessel_zero_J0;
-
- model gsl_sf_bessel_zero_J0_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_13.gsl_sf_bessel_zero_J0_e(x);
- end gsl_sf_bessel_zero_J0_e;
-
- model gsl_sf_bessel_zero_J1
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_13.gsl_sf_bessel_zero_J1(x);
- end gsl_sf_bessel_zero_J1;
-
- model gsl_sf_bessel_zero_J1_e
- parameter Real x = 10;
- output gsl.data_types.gsl_sf_result result;
- output Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_13.gsl_sf_bessel_zero_J1_e(x);
- end gsl_sf_bessel_zero_J1_e;
-
- model gsl_sf_bessel_zero_Jnu
- parameter Real x = 10;
- parameter Real nu = 1.5;
- output Real y;
- algorithm
- y := gsl.Special_functions.chap_7_5_13.gsl_sf_bessel_zero_Jnu(nu, x);
- end gsl_sf_bessel_zero_Jnu;
-
- model gsl_sf_bessel_zero_Jnu_e
- parameter Real x = 10;
- parameter Real nu = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_5_13.gsl_sf_bessel_zero_Jnu_e(nu, x);
- end gsl_sf_bessel_zero_Jnu_e;
- end chap_7_5_13;
-
- package chap_7_6
- model gsl_sf_clausen
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_6.gsl_sf_clausen(x);
- end gsl_sf_clausen;
-
- model gsl_sf_clausen_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_6.gsl_sf_clausen_e(x);
- end gsl_sf_clausen_e;
- end chap_7_6;
-
- package chap_7_7_1
- model gsl_sf_hydrogenicR_1
- parameter Real Z = 10;
- parameter Real r = 10;
- Real R;
- algorithm
- R := gsl.Special_functions.chap_7_7_1.gsl_sf_hydrogenicR_1(Z, r);
- end gsl_sf_hydrogenicR_1;
-
- model gsl_sf_hydrogenicR_1_e
- parameter Real Z = 10;
- parameter Real r = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_7_1.gsl_sf_hydrogenicR_1_e(Z, r);
- end gsl_sf_hydrogenicR_1_e;
-
- model gsl_sf_hydrogenicR
- parameter Integer n = 1;
- parameter Integer l = 0;
- parameter Real Z = 10;
- parameter Real r = 0.1;
- Real R;
- algorithm
- R := gsl.Special_functions.chap_7_7_1.gsl_sf_hydrogenicR(n, l, Z, r);
- end gsl_sf_hydrogenicR;
-
- model gsl_sf_hydrogenicR_e
- parameter Integer n = 1;
- parameter Integer l = 0;
- parameter Real Z = 10;
- parameter Real r = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_7_1.gsl_sf_hydrogenicR_e(n, l, Z, r);
- end gsl_sf_hydrogenicR_e;
- end chap_7_7_1;
-
- package chap_7_7_2
- model gsl_sf_coulomb_wave_FG_e
- parameter Real eta = 1;
- // eta=Z/k,where Z is atomic number
- parameter Real x = 0.1;
- parameter Real L_F = 1;
- parameter Integer k = 1;
- //L_F-k>-1/2
- gsl.data_types.gsl_sf_result F;
- //coulomb wave function
- gsl.data_types.gsl_sf_result Fp;
- //derivative of wave function
- gsl.data_types.gsl_sf_result G;
- //coulomb wave function
- gsl.data_types.gsl_sf_result Gp;
- //derivative of wave function
- Real exp_F;
- //out of bound error exponenet stored here
- Real exp_G;
- //out of bound error exponent stored here
- Integer y;
- algorithm
- (F, Fp, G, Gp, exp_F, exp_G, y) := gsl.Special_functions.chap_7_7_2.gsl_sf_coulomb_wave_FG_e(eta, x, L_F, k);
- end gsl_sf_coulomb_wave_FG_e;
-
- model gsl_sf_coulomb_wave_F_array
- parameter Real L_min = 1;
- parameter Integer kmax = 2;
- parameter Real eta = 1;
- parameter Real x = 1;
- Real fc_array[kmax];
- Real F_exponent;
- Integer y;
- algorithm
- (fc_array, F_exponent, y) := gsl.Special_functions.chap_7_7_2.gsl_sf_coulomb_wave_F_array(L_min, kmax, eta, x);
- end gsl_sf_coulomb_wave_F_array;
-
- model gsl_sf_coulomb_wave_FG_array
- parameter Real L_min = 1;
- parameter Integer kmax = 2;
- parameter Real eta = 1;
- parameter Real x = 1.5;
- Real fc_array[kmax];
- Real gc_array[kmax];
- Real F_exponent;
- Real G_exponent;
- Integer y;
- algorithm
- (fc_array, gc_array, F_exponent, G_exponent, y) := gsl.Special_functions.chap_7_7_2.gsl_sf_coulomb_wave_FG_array(L_min, kmax, eta, x);
- end gsl_sf_coulomb_wave_FG_array;
-
- model gsl_sf_coulomb_wave_FGp_array
- parameter Real L_min = 1;
- parameter Integer kmax = 2;
- parameter Real eta = 1;
- parameter Real x = 1.5;
- Real fc_array[kmax];
- Real fcp_array[kmax];
- Real gc_array[kmax];
- Real gcp_array[kmax];
- Real F_exponent;
- Real G_exponent;
- Integer y;
- algorithm
- (fc_array, fcp_array, gc_array, gcp_array, F_exponent, G_exponent, y) := gsl.Special_functions.chap_7_7_2.gsl_sf_coulomb_wave_FGp_array(L_min, kmax, eta, x);
- end gsl_sf_coulomb_wave_FGp_array;
-
- model gsl_sf_coulomb_wave_sphF_array
- parameter Real L_min = 1;
- parameter Integer kmax = 2;
- parameter Real eta = 1;
- parameter Real x = 1.5;
- Real fc_array[kmax];
- Real F_exponent;
- Integer y;
- algorithm
- (fc_array, F_exponent, y) := gsl.Special_functions.chap_7_7_2.gsl_sf_coulomb_wave_sphF_array(L_min, kmax, eta, x);
- end gsl_sf_coulomb_wave_sphF_array;
- end chap_7_7_2;
-
- package chap_7_7_3
- model gsl_sf_coulomb_CL_e
- parameter Real L = 1;
- parameter Real eta = 1.5;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_7_3.gsl_sf_coulomb_CL_e(L, eta);
- end gsl_sf_coulomb_CL_e;
-
- model gsl_sf_coulomb_CL_array
- parameter Real Lmin = 1;
- parameter Integer kmax = 2;
- parameter Real eta = 1.5;
- Real cl[kmax];
- Integer y;
- algorithm
- (cl, y) := gsl.Special_functions.chap_7_7_3.gsl_sf_coulomb_CL_array(Lmin, kmax, eta);
- end gsl_sf_coulomb_CL_array;
- end chap_7_7_3;
-
- package chap_7_8_1
- model gsl_sf_coupling_3j
- parameter Integer two_ja = 0;
- parameter Integer two_jb = 0;
- parameter Integer two_jc = 0;
- parameter Integer two_ma = 0;
- parameter Integer two_mb = 0;
- parameter Integer two_mc = 0;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_8_1.gsl_sf_coupling_3j(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc);
- end gsl_sf_coupling_3j;
-
- model gsl_sf_coupling_3j_e
- parameter Integer two_ja = 0;
- parameter Integer two_jb = 0;
- parameter Integer two_jc = 0;
- parameter Integer two_ma = 0;
- parameter Integer two_mb = 0;
- parameter Integer two_mc = 0;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_8_1.gsl_sf_coupling_3j_e(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc);
- end gsl_sf_coupling_3j_e;
- end chap_7_8_1;
-
- package chap_7_8_2
- model gsl_sf_coupling_6j
- parameter Integer two_ja = 0;
- parameter Integer two_jb = 0;
- parameter Integer two_jc = 0;
- parameter Integer two_ma = 0;
- parameter Integer two_mb = 0;
- parameter Integer two_mc = 0;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_8_2.gsl_sf_coupling_6j(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc);
- end gsl_sf_coupling_6j;
-
- model gsl_sf_coupling_6j_e
- parameter Integer two_ja = 0;
- parameter Integer two_jb = 0;
- parameter Integer two_jc = 0;
- parameter Integer two_ma = 0;
- parameter Integer two_mb = 0;
- parameter Integer two_mc = 0;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_8_2.gsl_sf_coupling_6j_e(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc);
- end gsl_sf_coupling_6j_e;
- end chap_7_8_2;
-
- package chap_7_8_3
- model gsl_sf_coupling_9j
- parameter Integer two_ja = 0;
- parameter Integer two_jb = 0;
- parameter Integer two_jc = 0;
- parameter Integer two_jd = 0;
- parameter Integer two_je = 0;
- parameter Integer two_jf = 0;
- parameter Integer two_jg = 0;
- parameter Integer two_jh = 0;
- parameter Integer two_ji = 0;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_8_3.gsl_sf_coupling_9j(two_ja, two_jb, two_jc, two_jd, two_je, two_jf, two_jg, two_jh, two_ji);
- end gsl_sf_coupling_9j;
-
- model gsl_sf_coupling_9j_e
- parameter Integer two_ja = 0;
- parameter Integer two_jb = 0;
- parameter Integer two_jc = 0;
- parameter Integer two_jd = 0;
- parameter Integer two_je = 0;
- parameter Integer two_jf = 0;
- parameter Integer two_jg = 0;
- parameter Integer two_jh = 0;
- parameter Integer two_ji = 0;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_8_3.gsl_sf_coupling_9j_e(two_ja, two_jb, two_jc, two_jd, two_je, two_jf, two_jg, two_jh, two_ji);
- end gsl_sf_coupling_9j_e;
- end chap_7_8_3;
-
- package chap_7_9
- model gsl_sf_dawson
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_9.gsl_sf_dawson(x);
- end gsl_sf_dawson;
-
- model gsl_sf_dawson_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_9.gsl_sf_dawson_e(x);
- end gsl_sf_dawson_e;
- end chap_7_9;
-
- package chap_7_10
- model gsl_sf_debye_1
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_10.gsl_sf_debye_1(x);
- end gsl_sf_debye_1;
-
- model gsl_sf_debye_1_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_10.gsl_sf_debye_1_e(x);
- end gsl_sf_debye_1_e;
-
- model gsl_sf_debye_2
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_10.gsl_sf_debye_2(x);
- end gsl_sf_debye_2;
-
- model gsl_sf_debye_2_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_10.gsl_sf_debye_2_e(x);
- end gsl_sf_debye_2_e;
-
- model gsl_sf_debye_3
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_10.gsl_sf_debye_3(x);
- end gsl_sf_debye_3;
-
- model gsl_sf_debye_3_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_10.gsl_sf_debye_3_e(x);
- end gsl_sf_debye_3_e;
-
- model gsl_sf_debye_4
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_10.gsl_sf_debye_4(x);
- end gsl_sf_debye_4;
-
- model gsl_sf_debye_4_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_10.gsl_sf_debye_4_e(x);
- end gsl_sf_debye_4_e;
-
- model gsl_sf_debye_5
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_10.gsl_sf_debye_5(x);
- end gsl_sf_debye_5;
-
- model gsl_sf_debye_5_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_10.gsl_sf_debye_5_e(x);
- end gsl_sf_debye_5_e;
-
- model gsl_sf_debye_6
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_10.gsl_sf_debye_6(x);
- end gsl_sf_debye_6;
-
- model gsl_sf_debye_6_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_10.gsl_sf_debye_6_e(x);
- end gsl_sf_debye_6_e;
- end chap_7_10;
-
- package chap_7_11_1
- model gsl_sf_dilog
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_11_1.gsl_sf_dilog(x);
- end gsl_sf_dilog;
-
- model gsl_sf_dilog_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_11_1.gsl_sf_dilog_e(x);
- end gsl_sf_dilog_e;
- end chap_7_11_1;
-
- package chap_7_11_2
- model gsl_sf_complex_dilog_e
- parameter Real r = 10;
- parameter Real theta = 1;
- gsl.data_types.gsl_sf_result result_re;
- gsl.data_types.gsl_sf_result result_im;
- Integer y;
- algorithm
- (result_re, result_im, y) := gsl.Special_functions.chap_7_11_2.gsl_sf_complex_dilog_e(r, theta);
- end gsl_sf_complex_dilog_e;
- end chap_7_11_2;
-
- package chap_7_12
- model gsl_sf_multiply
- parameter Real x = 2.5;
- parameter Real y = 2.5;
- Real z;
- algorithm
- z := gsl.Special_functions.chap_7_12.gsl_sf_multiply(x, y);
- end gsl_sf_multiply;
-
- model gsl_sf_multiply_e
- parameter Real x = 2.5;
- parameter Real y = 2.5;
- gsl.data_types.gsl_sf_result result;
- Integer z;
- algorithm
- (result, z) := gsl.Special_functions.chap_7_12.gsl_sf_multiply_e(x, y);
- end gsl_sf_multiply_e;
-
- model gsl_sf_multiply_err_e
- parameter Real x = 2;
- parameter Real dx = 0.5;
- parameter Real y = 2;
- parameter Real dy = 0.2;
- gsl.data_types.gsl_sf_result result;
- Integer z;
- algorithm
- (result, z) := gsl.Special_functions.chap_7_12.gsl_sf_multiply_err_e(x, dx, y, dy);
- end gsl_sf_multiply_err_e;
- end chap_7_12;
-
- package chap_7_15_1
- model gsl_sf_erf
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_15_1.gsl_sf_erf(x);
- end gsl_sf_erf;
-
- model gsl_sf_erf_e
- parameter Real x = 2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_15_1.gsl_sf_erf_e(x);
- end gsl_sf_erf_e;
- end chap_7_15_1;
-
- package chap_7_15_2
- model gsl_sf_erfc
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_15_2.gsl_sf_erfc(x);
- end gsl_sf_erfc;
-
- model gsl_sf_erfc_e
- parameter Real x = 2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_15_2.gsl_sf_erfc_e(x);
- end gsl_sf_erfc_e;
- end chap_7_15_2;
-
- package chap_7_15_3
- model gsl_sf_log_erfc
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_15_3.gsl_sf_log_erfc(x);
- end gsl_sf_log_erfc;
-
- model gsl_sf_log_erfc_e
- parameter Real x = 2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_15_3.gsl_sf_log_erfc_e(x);
- end gsl_sf_log_erfc_e;
- end chap_7_15_3;
-
- package chap_7_15_4
- model gsl_sf_erf_Z
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_15_4.gsl_sf_erf_Z(x);
- end gsl_sf_erf_Z;
-
- model gsl_sf_erf_Z_e
- parameter Real x = 2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_15_4.gsl_sf_erf_Z_e(x);
- end gsl_sf_erf_Z_e;
-
- model gsl_sf_erf_Q
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_15_4.gsl_sf_erf_Q(x);
- end gsl_sf_erf_Q;
-
- model gsl_sf_erf_Q_e
- parameter Real x = 2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_15_4.gsl_sf_erf_Q_e(x);
- end gsl_sf_erf_Q_e;
-
- model gsl_sf_hazard
- parameter Real x = 2;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_15_4.gsl_sf_hazard(x);
- end gsl_sf_hazard;
-
- model gsl_sf_hazard_e
- parameter Real x = 2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_15_4.gsl_sf_hazard_e(x);
- end gsl_sf_hazard_e;
- end chap_7_15_4;
-
- package chap_7_16_1
- model gsl_sf_exp
- //this model calls the function gsl_sf_exp by taking value of x as input and returning y as output
- parameter Real x = 10;
- Real y(start = 1);
- algorithm
- y := gsl.Special_functions.chap_7_16_1.gsl_sf_exp(x);
- end gsl_sf_exp;
-
- model gsl_sf_exp_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_1.gsl_sf_exp_e(x);
- end gsl_sf_exp_e;
-
- model gsl_sf_exp_e10_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result_e10 result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_1.gsl_sf_exp_e10_e(x);
- end gsl_sf_exp_e10_e;
-
- model gsl_sf_exp_mult
- //this model calls the function gsl_sf_exp by taking value of x as input and returning y as output
- parameter Real x = 10;
- parameter Real y = 10;
- Real z;
- algorithm
- z := gsl.Special_functions.chap_7_16_1.gsl_sf_exp_mult(x, y);
- end gsl_sf_exp_mult;
-
- model gsl_sf_exp_mult_e
- parameter Real x = 10;
- parameter Real y = 10;
- gsl.data_types.gsl_sf_result result;
- Integer z;
- algorithm
- (result, z) := gsl.Special_functions.chap_7_16_1.gsl_sf_exp_mult_e(x, y);
- end gsl_sf_exp_mult_e;
-
- model gsl_sf_exp_mult_e10_e
- parameter Real x = 10;
- parameter Real y = 10;
- gsl.data_types.gsl_sf_result_e10 result;
- Integer z;
- algorithm
- (result, z) := gsl.Special_functions.chap_7_16_1.gsl_sf_exp_mult_e10_e(x, y);
- end gsl_sf_exp_mult_e10_e;
- end chap_7_16_1;
-
- package chap_7_16_2
- model gsl_sf_expm1
- parameter Real x = 0.00034;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_16_2.gsl_sf_expm1(x);
- end gsl_sf_expm1;
-
- model gsl_sf_expm1_e
- parameter Real x = 0.000002;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_2.gsl_sf_expm1_e(x);
- end gsl_sf_expm1_e;
-
- model gsl_sf_exprel
- parameter Real x = 0.000002;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_16_2.gsl_sf_exprel(x);
- end gsl_sf_exprel;
-
- model gsl_sf_exprel_e
- parameter Real x = 0.002;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_2.gsl_sf_exprel_e(x);
- end gsl_sf_exprel_e;
-
- model gsl_sf_exprel_2
- parameter Real x = 0.002;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_16_2.gsl_sf_exprel_2(x);
- end gsl_sf_exprel_2;
-
- model gsl_sf_exprel_2_e
- parameter Real x = 0.002;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_2.gsl_sf_exprel_2_e(x);
- end gsl_sf_exprel_2_e;
-
- model gsl_sf_exprel_n
- parameter Integer n = 2;
- parameter Real x = 0.002;
- Real z;
- algorithm
- z := gsl.Special_functions.chap_7_16_2.gsl_sf_exprel_n(n, x);
- end gsl_sf_exprel_n;
-
- model gsl_sf_exprel_n_e
- parameter Integer n = 2;
- parameter Real x = 0.2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_2.gsl_sf_exprel_n_e(n, x);
- end gsl_sf_exprel_n_e;
- end chap_7_16_2;
-
- package chap_7_16_3
- model gsl_sf_exp_err_e
- //This model calls the function gsl_sf_exp_err_e which exponentiates x with an associated absolute error dx
- parameter Real x = 0.15;
- parameter Real dx = 0.00015;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_3.gsl_sf_exp_err_e(x, dx);
- end gsl_sf_exp_err_e;
-
- model gsl_sf_exp_err_e10_e
- //this model calls the function gsl_sf_exp_err_e10_e which exponentiates x with an associated absolute error dx
- parameter Real x = 0.15;
- parameter Real dx = 0.000015;
- gsl.data_types.gsl_sf_result_e10 result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_16_3.gsl_sf_exp_err_e10_e(x, dx);
- end gsl_sf_exp_err_e10_e;
-
- model gsl_sf_exp_mult_err_e
- parameter Real x = 0.15;
- parameter Real dx = 0.0000000015;
- parameter Real y = 1;
- parameter Real dy = 0.00000001;
- gsl.data_types.gsl_sf_result result;
- Integer z;
- algorithm
- (result, z) := gsl.Special_functions.chap_7_16_3.gsl_sf_exp_mult_err_e(x, dx, y, dy);
- end gsl_sf_exp_mult_err_e;
-
- model gsl_sf_exp_mult_err_e10_e
- parameter Real x = 0.15;
- parameter Real dx = 0.0000000015;
- parameter Real y = 1;
- parameter Real dy = 0.000000001;
- gsl.data_types.gsl_sf_result_e10 result;
- Integer z;
- algorithm
- (result, z) := gsl.Special_functions.chap_7_16_3.gsl_sf_exp_mult_err_e10_e(x, dx, y, dy);
- end gsl_sf_exp_mult_err_e10_e;
- end chap_7_16_3;
-
- package chap_7_17_1
- model gsl_sf_expint_E1
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_17_1.gsl_sf_expint_E1(x);
- end gsl_sf_expint_E1;
-
- model gsl_sf_expint_E1_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_17_1.gsl_sf_expint_E1_e(x);
- end gsl_sf_expint_E1_e;
-
- model gsl_sf_expint_E2
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_17_1.gsl_sf_expint_E2(x);
- end gsl_sf_expint_E2;
-
- model gsl_sf_expint_E2_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_17_1.gsl_sf_expint_E2_e(x);
- end gsl_sf_expint_E2_e;
-
- model gsl_sf_expint_En
- parameter Integer n = 2;
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_17_1.gsl_sf_expint_En(n, x);
- end gsl_sf_expint_En;
-
- model gsl_sf_expint_En_e
- parameter Integer n = 4;
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_17_1.gsl_sf_expint_En_e(n, x);
- end gsl_sf_expint_En_e;
- end chap_7_17_1;
-
- package chap_7_17_2
- model gsl_sf_expint_Ei
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_17_2.gsl_sf_expint_Ei(x);
- end gsl_sf_expint_Ei;
-
- model gsl_sf_expint_Ei_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_17_2.gsl_sf_expint_Ei_e(x);
- end gsl_sf_expint_Ei_e;
- end chap_7_17_2;
-
- package chap_7_17_3
- model gsl_sf_Shi
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_17_3.gsl_sf_Shi(x);
- end gsl_sf_Shi;
-
- model gsl_sf_Shi_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_17_3.gsl_sf_Shi_e(x);
- end gsl_sf_Shi_e;
-
-
- model gsl_sf_Chi
- parameter Real x = 10;
- Real y;
- algorithm
- y := gsl.Special_functions.chap_7_17_3.gsl_sf_Chi(x);
- end gsl_sf_Chi;
-
- model gsl_sf_Chi_e
- parameter Real x = 10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result, y) := gsl.Special_functions.chap_7_17_3.gsl_sf_Chi_e(x);
- end gsl_sf_Chi_e;
- end chap_7_17_3;
-
- package chap_7_17_4
- model gsl_sf_expint_3
- parameter Real x=10;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_17_4.gsl_sf_expint_3(x);
- end gsl_sf_expint_3;
-
- model gsl_sf_expint_3_e
- parameter Real x=10;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_17_4.gsl_sf_expint_3_e(x);
- end gsl_sf_expint_3_e;
- end chap_7_17_4;
-
- package chap_7_17_5
-
- model gsl_sf_Si
- parameter Real x=10;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_17_5.gsl_sf_Si(x);
- end gsl_sf_Si;
-
- model gsl_sf_Si_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_17_5.gsl_sf_Si_e(x);
- end gsl_sf_Si_e;
-
- model gsl_sf_Ci
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_17_5.gsl_sf_Ci(x);
- end gsl_sf_Ci;
-
- model gsl_sf_Ci_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_17_5.gsl_sf_Ci_e(x);
- end gsl_sf_Ci_e;
- end chap_7_17_5;
-
- package chap_7_18_1
-
-
- model gsl_sf_fermi_dirac_m1
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_m1(x);
- end gsl_sf_fermi_dirac_m1;
-
-
- model gsl_sf_fermi_dirac_m1_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_m1_e(x);
- end gsl_sf_fermi_dirac_m1_e;
-
- model gsl_sf_fermi_dirac_0
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_0(x);
- end gsl_sf_fermi_dirac_0;
-
- model gsl_sf_fermi_dirac_0_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_0_e(x);
- end gsl_sf_fermi_dirac_0_e;
-
- model gsl_sf_fermi_dirac_1
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_1(x);
- end gsl_sf_fermi_dirac_1;
-
- model gsl_sf_fermi_dirac_1_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_1_e(x);
- end gsl_sf_fermi_dirac_1_e;
-
-
-
- model gsl_sf_fermi_dirac_2
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_2(x);
- end gsl_sf_fermi_dirac_2;
-
- model gsl_sf_fermi_dirac_2_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_2_e(x);
- end gsl_sf_fermi_dirac_2_e;
-
-
- model gsl_sf_fermi_dirac_int
- parameter Integer j=2;
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_int(j,x);
- end gsl_sf_fermi_dirac_int;
-
- model gsl_sf_fermi_dirac_int_e
- parameter Integer j=2;
- parameter Real x=3;
- gsl.data_types.gsl_sf_result result;
- Real y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_int_e(j,x);
- end gsl_sf_fermi_dirac_int_e;
-
-
- model gsl_sf_fermi_dirac_mhalf
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_mhalf(x);
- end gsl_sf_fermi_dirac_mhalf;
-
-
- model gsl_sf_fermi_dirac_mhalf_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_mhalf_e(x);
- end gsl_sf_fermi_dirac_mhalf_e;
-
- model gsl_sf_fermi_dirac_half
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_half(x);
- end gsl_sf_fermi_dirac_half;
-
- model gsl_sf_fermi_dirac_half_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_half_e(x);
- end gsl_sf_fermi_dirac_half_e;
-
- model gsl_sf_fermi_dirac_3half
- parameter Real x=2;
- Real y;
- algorithm
- y:=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_3half(x);
- end gsl_sf_fermi_dirac_3half;
-
- model gsl_sf_fermi_dirac_3half_e
- parameter Real x=2;
- gsl.data_types.gsl_sf_result result;
- Integer y;
- algorithm
- (result,y):=gsl.Special_functions.chap_7_18_1.gsl_sf_fermi_dirac_3half_e(x);
- end gsl_sf_fermi_dirac_3half_e;
-
-
-
-
- end chap_7_18_1;
-
-
- end special_functions;
- end Examples;
-end gsl; \ No newline at end of file