/* specfunc/debye.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000 Gerard Jungman * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* Author: G. Jungman */ /* augmented to n=5 and 6 2005-11-08 by R. J. Mathar, http://www.strw.leidenuniv.nl/~mathar */ #include #include #include #include #include "error.h" #include "check.h" #include "chebyshev.h" #include "cheb_eval.c" static double adeb1_data[17] = { 2.4006597190381410194, 0.1937213042189360089, -0.62329124554895770e-02, 0.3511174770206480e-03, -0.228222466701231e-04, 0.15805467875030e-05, -0.1135378197072e-06, 0.83583361188e-08, -0.6264424787e-09, 0.476033489e-10, -0.36574154e-11, 0.2835431e-12, -0.221473e-13, 0.17409e-14, -0.1376e-15, 0.109e-16, -0.9e-18 }; static cheb_series adeb1_cs = { adeb1_data, 16, -1.0, 1.0, 9 }; static double adeb2_data[18] = { 2.5943810232570770282, 0.2863357204530719834, -0.102062656158046713e-01, 0.6049109775346844e-03, -0.405257658950210e-04, 0.28633826328811e-05, -0.2086394303065e-06, 0.155237875826e-07, -0.11731280087e-08, 0.897358589e-10, -0.69317614e-11, 0.5398057e-12, -0.423241e-13, 0.33378e-14, -0.2645e-15, 0.211e-16, -0.17e-17, 0.1e-18 }; static cheb_series adeb2_cs = { adeb2_data, 17, -1.0, 1.0, 10 }; static double adeb3_data[17] = { 2.707737068327440945, 0.340068135211091751, -0.12945150184440869e-01, 0.7963755380173816e-03, -0.546360009590824e-04, 0.39243019598805e-05, -0.2894032823539e-06, 0.217317613962e-07, -0.16542099950e-08, 0.1272796189e-09, -0.987963460e-11, 0.7725074e-12, -0.607797e-13, 0.48076e-14, -0.3820e-15, 0.305e-16, -0.24e-17 }; static cheb_series adeb3_cs = { adeb3_data, 16, -1.0, 1.0, 10 }; static double adeb4_data[17] = { 2.781869415020523460, 0.374976783526892863, -0.14940907399031583e-01, 0.945679811437042e-03, -0.66132916138933e-04, 0.4815632982144e-05, -0.3588083958759e-06, 0.271601187416e-07, -0.20807099122e-08, 0.1609383869e-09, -0.125470979e-10, 0.9847265e-12, -0.777237e-13, 0.61648e-14, -0.4911e-15, 0.393e-16, -0.32e-17 }; static cheb_series adeb4_cs = { adeb4_data, 16, -1.0, 1.0, 10 }; static double adeb5_data[17] = { 2.8340269546834530149, 0.3994098857106266445, -0.164566764773099646e-1, 0.10652138340664541e-2, -0.756730374875418e-4, 0.55745985240273e-5, -0.4190692330918e-6, 0.319456143678e-7, -0.24613318171e-8, 0.1912801633e-9, -0.149720049e-10, 0.11790312e-11, -0.933329e-13, 0.74218e-14, -0.5925e-15, 0.475e-16, -0.39e-17 }; static cheb_series adeb5_cs = { adeb5_data, 16, -1.0, 1.0, 10 }; static double adeb6_data[17] = { 2.8726727134130122113, 0.4174375352339027746, -0.176453849354067873e-1, 0.11629852733494556e-2, -0.837118027357117e-4, 0.62283611596189e-5, -0.4718644465636e-6, 0.361950397806e-7, -0.28030368010e-8, 0.2187681983e-9, -0.171857387e-10, 0.13575809e-11, -0.1077580e-12, 0.85893e-14, -0.6872e-15, 0.552e-16, -0.44e-17 }; static cheb_series adeb6_cs = { adeb6_data, 16, -1.0, 1.0, 10 }; /*-*-*-*-*-*-*-*-*-*-*-* Functions with Error Codes *-*-*-*-*-*-*-*-*-*-*-*/ int gsl_sf_debye_1_e(const double x, gsl_sf_result * result) { const double val_infinity = 1.64493406684822644; const double xcut = -GSL_LOG_DBL_MIN; /* CHECK_POINTER(result) */ if(x < 0.0) { DOMAIN_ERROR(result); } else if(x < 2.0*GSL_SQRT_DBL_EPSILON) { result->val = 1.0 - 0.25*x + x*x/36.0; result->err = GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x <= 4.0) { const double t = x*x/8.0 - 1.0; gsl_sf_result c; cheb_eval_e(&adeb1_cs, t, &c); result->val = c.val - 0.25 * x; result->err = c.err + 0.25 * x * GSL_DBL_EPSILON; return GSL_SUCCESS; } else if(x < -(M_LN2 + GSL_LOG_DBL_EPSILON)) { const int nexp = floor(xcut/x); const double ex = exp(-x); double sum = 0.0; double xk = nexp * x; double rk = nexp; int i; for(i=nexp; i>=1; i--) { sum *= ex; sum += (1.0 + 1.0/xk)/rk; rk -= 1.0; xk -= x; } result->val = val_infinity/x - sum*ex; result->err = GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x < xcut) { result->val = (val_infinity - exp(-x)*(x+1.0)) / x; result->err = GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else { result->val = val_infinity/x; result->err = GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } } int gsl_sf_debye_2_e(const double x, gsl_sf_result * result) { const double val_infinity = 4.80822761263837714; const double xcut = -GSL_LOG_DBL_MIN; /* CHECK_POINTER(result) */ if(x < 0.0) { DOMAIN_ERROR(result); } else if(x < 2.0*M_SQRT2*GSL_SQRT_DBL_EPSILON) { result->val = 1.0 - x/3.0 + x*x/24.0; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x <= 4.0) { const double t = x*x/8.0 - 1.0; gsl_sf_result c; cheb_eval_e(&adeb2_cs, t, &c); result->val = c.val - x/3.0; result->err = c.err + GSL_DBL_EPSILON * x/3.0; return GSL_SUCCESS; } else if(x < -(M_LN2 + GSL_LOG_DBL_EPSILON)) { const int nexp = floor(xcut/x); const double ex = exp(-x); double xk = nexp * x; double rk = nexp; double sum = 0.0; int i; for(i=nexp; i>=1; i--) { sum *= ex; sum += (1.0 + 2.0/xk + 2.0/(xk*xk)) / rk; rk -= 1.0; xk -= x; } result->val = val_infinity/(x*x) - 2.0 * sum * ex; result->err = GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x < xcut) { const double x2 = x*x; const double sum = 2.0 + 2.0*x + x2; result->val = (val_infinity - 2.0 * sum * exp(-x)) / x2; result->err = GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else { result->val = (val_infinity/x)/x; result->err = GSL_DBL_EPSILON * result->val; CHECK_UNDERFLOW(result); return GSL_SUCCESS; } } int gsl_sf_debye_3_e(const double x, gsl_sf_result * result) { const double val_infinity = 19.4818182068004875; const double xcut = -GSL_LOG_DBL_MIN; /* CHECK_POINTER(result) */ if(x < 0.0) { DOMAIN_ERROR(result); } else if(x < 2.0*M_SQRT2*GSL_SQRT_DBL_EPSILON) { result->val = 1.0 - 3.0*x/8.0 + x*x/20.0; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x <= 4.0) { const double t = x*x/8.0 - 1.0; gsl_sf_result c; cheb_eval_e(&adeb3_cs, t, &c); result->val = c.val - 0.375*x; result->err = c.err + GSL_DBL_EPSILON * 0.375*x; return GSL_SUCCESS; } else if(x < -(M_LN2 + GSL_LOG_DBL_EPSILON)) { const int nexp = floor(xcut/x); const double ex = exp(-x); double xk = nexp * x; double rk = nexp; double sum = 0.0; int i; for(i=nexp; i>=1; i--) { double xk_inv = 1.0/xk; sum *= ex; sum += (((6.0*xk_inv + 6.0)*xk_inv + 3.0)*xk_inv + 1.0) / rk; rk -= 1.0; xk -= x; } result->val = val_infinity/(x*x*x) - 3.0 * sum * ex; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x < xcut) { const double x3 = x*x*x; const double sum = 6.0 + 6.0*x + 3.0*x*x + x3; result->val = (val_infinity - 3.0 * sum * exp(-x)) / x3; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else { result->val = ((val_infinity/x)/x)/x; result->err = GSL_DBL_EPSILON * result->val; CHECK_UNDERFLOW(result); return GSL_SUCCESS; } } int gsl_sf_debye_4_e(const double x, gsl_sf_result * result) { const double val_infinity = 99.5450644937635129; const double xcut = -GSL_LOG_DBL_MIN; /* CHECK_POINTER(result) */ if(x < 0.0) { DOMAIN_ERROR(result); } else if(x < 2.0*M_SQRT2*GSL_SQRT_DBL_EPSILON) { result->val = 1.0 - 2.0*x/5.0 + x*x/18.0; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x <= 4.0) { const double t = x*x/8.0 - 1.0; gsl_sf_result c; cheb_eval_e(&adeb4_cs, t, &c); result->val = c.val - 2.0*x/5.0; result->err = c.err + GSL_DBL_EPSILON * 2.0*x/5.0; return GSL_SUCCESS; } else if(x < -(M_LN2 + GSL_LOG_DBL_EPSILON)) { const int nexp = floor(xcut/x); const double ex = exp(-x); double xk = nexp * x; double rk = nexp; double sum = 0.0; int i; for(i=nexp; i>=1; i--) { double xk_inv = 1.0/xk; sum *= ex; sum += ((((24.0*xk_inv + 24.0)*xk_inv + 12.0)*xk_inv + 4.0)*xk_inv + 1.0) / rk; rk -= 1.0; xk -= x; } result->val = val_infinity/(x*x*x*x) - 4.0 * sum * ex; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x < xcut) { const double x2 = x*x; const double x4 = x2*x2; const double sum = 24.0 + 24.0*x + 12.0*x2 + 4.0*x2*x + x4; result->val = (val_infinity - 4.0 * sum * exp(-x)) / x4; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else { result->val = (((val_infinity/x)/x)/x)/x; result->err = GSL_DBL_EPSILON * result->val; CHECK_UNDERFLOW(result); return GSL_SUCCESS; } } int gsl_sf_debye_5_e(const double x, gsl_sf_result * result) { const double val_infinity = 610.405837190669483828710757875 ; const double xcut = -GSL_LOG_DBL_MIN; /* CHECK_POINTER(result) */ if(x < 0.0) { DOMAIN_ERROR(result); } else if(x < 2.0*M_SQRT2*GSL_SQRT_DBL_EPSILON) { result->val = 1.0 - 5.0*x/12.0 + 5.0*x*x/84.0; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x <= 4.0) { const double t = x*x/8.0 - 1.0; gsl_sf_result c; cheb_eval_e(&adeb5_cs, t, &c); result->val = c.val - 5.0*x/12.0; result->err = c.err + GSL_DBL_EPSILON * 5.0*x/12.0; return GSL_SUCCESS; } else if(x < -(M_LN2 + GSL_LOG_DBL_EPSILON)) { const int nexp = floor(xcut/x); const double ex = exp(-x); double xk = nexp * x; double rk = nexp; double sum = 0.0; int i; for(i=nexp; i>=1; i--) { double xk_inv = 1.0/xk; sum *= ex; sum += (((((120.0*xk_inv + 120.0)*xk_inv + 60.0)*xk_inv + 20.0)*xk_inv + 5.0)*xk_inv+ 1.0) / rk; rk -= 1.0; xk -= x; } result->val = val_infinity/(x*x*x*x*x) - 5.0 * sum * ex; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x < xcut) { const double x2 = x*x; const double x4 = x2*x2; const double x5 = x4*x; const double sum = 120.0 + 120.0*x + 60.0*x2 + 20.0*x2*x + 5.0*x4 + x5; result->val = (val_infinity - 5.0 * sum * exp(-x)) / x5; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else { result->val = ((((val_infinity/x)/x)/x)/x)/x; result->err = GSL_DBL_EPSILON * result->val; CHECK_UNDERFLOW(result); return GSL_SUCCESS; } } int gsl_sf_debye_6_e(const double x, gsl_sf_result * result) { const double val_infinity = 4356.06887828990661194792541535 ; const double xcut = -GSL_LOG_DBL_MIN; /* CHECK_POINTER(result) */ if(x < 0.0) { DOMAIN_ERROR(result); } else if(x < 2.0*M_SQRT2*GSL_SQRT_DBL_EPSILON) { result->val = 1.0 - 3.0*x/7.0 + x*x/16.0; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x <= 4.0) { const double t = x*x/8.0 - 1.0; gsl_sf_result c; cheb_eval_e(&adeb6_cs, t, &c); result->val = c.val - 3.0*x/7.0; result->err = c.err + GSL_DBL_EPSILON * 3.0*x/7.0; return GSL_SUCCESS; } else if(x < -(M_LN2 + GSL_LOG_DBL_EPSILON)) { const int nexp = floor(xcut/x); const double ex = exp(-x); double xk = nexp * x; double rk = nexp; double sum = 0.0; int i; for(i=nexp; i>=1; i--) { double xk_inv = 1.0/xk; sum *= ex; sum += ((((((720.0*xk_inv + 720.0)*xk_inv + 360.0)*xk_inv + 120.0)*xk_inv + 30.0)*xk_inv+ 6.0)*xk_inv+ 1.0) / rk; rk -= 1.0; xk -= x; } result->val = val_infinity/(x*x*x*x*x*x) - 6.0 * sum * ex; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else if(x < xcut) { const double x2 = x*x; const double x4 = x2*x2; const double x6 = x4*x2; const double sum = 720.0 + 720.0*x + 360.0*x2 + 120.0*x2*x + 30.0*x4 + 6.0*x4*x +x6 ; result->val = (val_infinity - 6.0 * sum * exp(-x)) / x6; result->err = GSL_DBL_EPSILON * result->val; return GSL_SUCCESS; } else { result->val = (((((val_infinity/x)/x)/x)/x)/x)/x ; result->err = GSL_DBL_EPSILON * result->val; CHECK_UNDERFLOW(result); return GSL_SUCCESS; } } /*-*-*-*-*-*-*-*-*-* Functions w/ Natural Prototypes *-*-*-*-*-*-*-*-*-*-*/ #include "eval.h" double gsl_sf_debye_1(const double x) { EVAL_RESULT(gsl_sf_debye_1_e(x, &result)); } double gsl_sf_debye_2(const double x) { EVAL_RESULT(gsl_sf_debye_2_e(x, &result)); } double gsl_sf_debye_3(const double x) { EVAL_RESULT(gsl_sf_debye_3_e(x, &result)); } double gsl_sf_debye_4(const double x) { EVAL_RESULT(gsl_sf_debye_4_e(x, &result)); } double gsl_sf_debye_5(const double x) { EVAL_RESULT(gsl_sf_debye_5_e(x, &result)); } double gsl_sf_debye_6(const double x) { EVAL_RESULT(gsl_sf_debye_6_e(x, &result)); }