/* specfunc/airy_der.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 */ #include #include #include #include #include #include "error.h" #include "chebyshev.h" #include "cheb_eval_mode.c" /*-*-*-*-*-*-*-*-*-*-*-* Private Section *-*-*-*-*-*-*-*-*-*-*-*/ /* based on SLATEC aide.f, bide.f, aid.f, bid.f, r9admp.f */ /* series for aif on the interval -1.00000e+00 to 1.00000e+00 with weighted error 5.22e-18 log weighted error 17.28 significant figures required 16.01 decimal places required 17.73 */ static double aif_data[8] = { 0.10527461226531408809, 0.01183613628152997844, 0.00012328104173225664, 0.00000062261225638140, 0.00000000185298887844, 0.00000000000363328873, 0.00000000000000504622, 0.00000000000000000522 }; static cheb_series aif_cs = { aif_data, 7, -1, 1, 7 }; /* series for aig on the interval -1.00000e+00 to 1.00000e+00 with weighted error 3.14e-19 log weighted error 18.50 significant figures required 17.44 decimal places required 18.98 */ static double aig_data[9] = { 0.021233878150918666852, 0.086315930335214406752, 0.001797594720383231358, 0.000014265499875550693, 0.000000059437995283683, 0.000000000152403366479, 0.000000000000264587660, 0.000000000000000331562, 0.000000000000000000314 }; static cheb_series aig_cs = { aig_data, 8, -1, 1, 8 }; /* series for aip2 on the interval 0.00000e+00 to 1.25000e-01 with weighted error 2.15e-17 log weighted error 16.67 significant figures required 14.27 decimal places required 17.26 */ static double aip2_data[15] = { 0.0065457691989713757, 0.0023833724120774592, -0.0000430700770220586, 0.0000015629125858629, -0.0000000815417186163, 0.0000000054103738057, -0.0000000004284130883, 0.0000000000389497963, -0.0000000000039623161, 0.0000000000004428184, -0.0000000000000536297, 0.0000000000000069650, -0.0000000000000009620, 0.0000000000000001403, -0.0000000000000000215 }; static cheb_series aip2_cs = { aip2_data, 14, -1, 1, 9 }; /* series for aip1 on the interval 1.25000e-01 to 1.00000e+00 with weighted error 2.60e-17 log weighted error 16.58 significant figures required 14.91 decimal places required 17.28 */ static double aip1_data[25] = { 0.0358865097808301538, 0.0114668575627764899, -0.0007592073583861400, 0.0000869517610893841, -0.0000128237294298592, 0.0000022062695681038, -0.0000004222295185921, 0.0000000874686415726, -0.0000000192773588418, 0.0000000044668460054, -0.0000000010790108052, 0.0000000002700029447, -0.0000000000696480108, 0.0000000000184489907, -0.0000000000050027817, 0.0000000000013852243, -0.0000000000003908218, 0.0000000000001121536, -0.0000000000000326862, 0.0000000000000096619, -0.0000000000000028935, 0.0000000000000008770, -0.0000000000000002688, 0.0000000000000000832, -0.0000000000000000260 }; static cheb_series aip1_cs = { aip1_data, 24, -1, 1, 14 }; /* series for bif on the interval -1.00000e+00 to 1.00000e+00 with weighted error 9.05e-18 log weighted error 17.04 significant figures required 15.83 decimal places required 17.49 */ static double bif_data[8] = { 0.1153536790828570243, 0.0205007894049192875, 0.0002135290278902876, 0.0000010783960614677, 0.0000000032094708833, 0.0000000000062930407, 0.0000000000000087403, 0.0000000000000000090 }; static cheb_series bif_cs = { bif_data, 7, -1, 1, 7 }; /* series for big on the interval -1.00000e+00 to 1.00000e+00 with weighted error 5.44e-19 log weighted error 18.26 significant figures required 17.46 decimal places required 18.74 */ static double big_data[9] = { -0.097196440416443537390, 0.149503576843167066571, 0.003113525387121326042, 0.000024708570579821297, 0.000000102949627731379, 0.000000000263970373987, 0.000000000000458279271, 0.000000000000000574283, 0.000000000000000000544 }; static cheb_series big_cs = { big_data, 8, -1, 1, 8 }; /* series for bif2 on the interval 1.00000e+00 to 8.00000e+00 with weighted error 3.82e-19 log weighted error 18.42 significant figures required 17.68 decimal places required 18.92 */ static double bif2_data[10] = { 0.323493987603522033521, 0.086297871535563559139, 0.002994025552655397426, 0.000051430528364661637, 0.000000525840250036811, 0.000000003561751373958, 0.000000000017146864007, 0.000000000000061663520, 0.000000000000000171911, 0.000000000000000000382 }; static cheb_series bif2_cs = { bif2_data, 9, -1, 1, 9 }; /* series for big2 on the interval 1.00000e+00 to 8.00000e+00 with weighted error 3.35e-17 log weighted error 16.48 significant figures required 16.52 decimal places required 16.98 */ static double big2_data[10] = { 1.6062999463621294578, 0.7449088819876088652, 0.0470138738610277380, 0.0012284422062548239, 0.0000173222412256624, 0.0000001521901652368, 0.0000000009113560249, 0.0000000000039547918, 0.0000000000000130017, 0.0000000000000000335 }; static cheb_series big2_cs = { big2_data, 9, -1, 1, 9 }; /* series for bip2 on the interval 0.00000e+00 to 1.25000e-01 with weighted error 2.07e-18 log weighted error 17.69 significant figures required 16.51 decimal places required 18.42 */ static double bip2_data[29] = { -0.13269705443526630495, -0.00568443626045977481, -0.00015643601119611610, -0.00001136737203679562, -0.00000143464350991284, -0.00000018098531185164, 0.00000000926177343611, 0.00000001710005490721, 0.00000000476698163504, -0.00000000035195022023, -0.00000000058890614316, -0.00000000006678499608, 0.00000000006395565102, 0.00000000001554529427, -0.00000000000792397000, -0.00000000000258326243, 0.00000000000121655048, 0.00000000000038707207, -0.00000000000022487045, -0.00000000000004953477, 0.00000000000004563782, 0.00000000000000332998, -0.00000000000000921750, 0.00000000000000094157, 0.00000000000000167154, -0.00000000000000055134, -0.00000000000000022369, 0.00000000000000017487, 0.00000000000000000207 }; static cheb_series bip2_cs = { bip2_data, 28, -1, 1, 14 }; /* series for bip1 on the interval 1.25000e-01 to 3.53553e-01 with weighted error 1.86e-17 log weighted error 16.73 significant figures required 15.67 decimal places required 17.42 */ static double bip1_data[24] = { -0.1729187351079553719, -0.0149358492984694364, -0.0005471104951678566, 0.0001537966292958408, 0.0000154353476192179, -0.0000065434113851906, 0.0000003728082407879, 0.0000002072078388189, -0.0000000658173336470, 0.0000000074926746354, 0.0000000011101336884, -0.0000000007265140553, 0.0000000001782723560, -0.0000000000217346352, -0.0000000000020302035, 0.0000000000019311827, -0.0000000000006044953, 0.0000000000001209450, -0.0000000000000125109, -0.0000000000000019917, 0.0000000000000015154, -0.0000000000000004977, 0.0000000000000001155, -0.0000000000000000186 }; static cheb_series bip1_cs = { bip1_data, 23, -1, 1, 13 }; /* series for an22 on the interval -1.00000e+00 to -1.25000e-01 with weighted error 3.30e-17 log weighted error 16.48 significant figures required 14.95 decimal places required 17.24 */ static double an22_data[33] = { 0.0537418629629794329, -0.0126661435859883193, -0.0011924334106593007, -0.0002032327627275655, -0.0000446468963075164, -0.0000113359036053123, -0.0000031641352378546, -0.0000009446708886149, -0.0000002966562236472, -0.0000000969118892024, -0.0000000326822538653, -0.0000000113144618964, -0.0000000040042691002, -0.0000000014440333684, -0.0000000005292853746, -0.0000000001967763374, -0.0000000000740800096, -0.0000000000282016314, -0.0000000000108440066, -0.0000000000042074801, -0.0000000000016459150, -0.0000000000006486827, -0.0000000000002574095, -0.0000000000001027889, -0.0000000000000412846, -0.0000000000000166711, -0.0000000000000067657, -0.0000000000000027585, -0.0000000000000011296, -0.0000000000000004645, -0.0000000000000001917, -0.0000000000000000794, -0.0000000000000000330 }; static cheb_series an22_cs = { an22_data, 32, -1, 1, 18 }; /* series for an21 on the interval -1.25000e-01 to -1.56250e-02 with weighted error 3.43e-17 log weighted error 16.47 significant figures required 14.48 decimal places required 17.16 */ static double an21_data[24] = { 0.0198313155263169394, -0.0029376249067087533, -0.0001136260695958196, -0.0000100554451087156, -0.0000013048787116563, -0.0000002123881993151, -0.0000000402270833384, -0.0000000084996745953, -0.0000000019514839426, -0.0000000004783865344, -0.0000000001236733992, -0.0000000000334137486, -0.0000000000093702824, -0.0000000000027130128, -0.0000000000008075954, -0.0000000000002463214, -0.0000000000000767656, -0.0000000000000243883, -0.0000000000000078831, -0.0000000000000025882, -0.0000000000000008619, -0.0000000000000002908, -0.0000000000000000993, -0.0000000000000000343 }; static cheb_series an21_cs = { an21_data, 23, -1, 1, 12 }; /* series for an20 on the interval -1.56250e-02 to 0.00000e+00 with weighted error 4.41e-17 log weighted error 16.36 significant figures required 14.16 decimal places required 16.96 */ static double an20_data[16] = { 0.0126732217145738027, -0.0005212847072615621, -0.0000052672111140370, -0.0000001628202185026, -0.0000000090991442687, -0.0000000007438647126, -0.0000000000795494752, -0.0000000000104050944, -0.0000000000015932426, -0.0000000000002770648, -0.0000000000000535343, -0.0000000000000113062, -0.0000000000000025772, -0.0000000000000006278, -0.0000000000000001621, -0.0000000000000000441 }; static cheb_series an20_cs = { an20_data, 15, -1, 1, 8 }; /* series for aph2 on the interval -1.00000e+00 to -1.25000e-01 with weighted error 2.94e-17 log weighted error 16.53 significant figures required 15.58 decimal places required 17.28 */ static double aph2_data[32] = { -0.2057088719781465107, 0.0422196961357771922, 0.0020482560511207275, 0.0002607800735165006, 0.0000474824268004729, 0.0000105102756431612, 0.0000026353534014668, 0.0000007208824863499, 0.0000002103236664473, 0.0000000644975634555, 0.0000000205802377264, 0.0000000067836273921, 0.0000000022974015284, 0.0000000007961306765, 0.0000000002813860610, 0.0000000001011749057, 0.0000000000369306738, 0.0000000000136615066, 0.0000000000051142751, 0.0000000000019351689, 0.0000000000007393607, 0.0000000000002849792, 0.0000000000001107281, 0.0000000000000433412, 0.0000000000000170801, 0.0000000000000067733, 0.0000000000000027017, 0.0000000000000010835, 0.0000000000000004367, 0.0000000000000001769, 0.0000000000000000719, 0.0000000000000000294 }; static cheb_series aph2_cs = { aph2_data, 31, -1, 1, 16 }; /* series for aph1 on the interval -1.25000e-01 to -1.56250e-02 with weighted error 6.38e-17 log weighted error 16.20 significant figures required 14.91 decimal places required 16.87 */ static double aph1_data[22] = { -0.1024172908077571694, 0.0071697275146591248, 0.0001209959363122329, 0.0000073361512841220, 0.0000007535382954272, 0.0000001041478171741, 0.0000000174358728519, 0.0000000033399795033, 0.0000000007073075174, 0.0000000001619187515, 0.0000000000394539982, 0.0000000000101192282, 0.0000000000027092778, 0.0000000000007523806, 0.0000000000002156369, 0.0000000000000635283, 0.0000000000000191757, 0.0000000000000059143, 0.0000000000000018597, 0.0000000000000005950, 0.0000000000000001934, 0.0000000000000000638 }; static cheb_series aph1_cs = { aph1_data, 21, -1, 1, 10 }; /* series for aph0 on the interval -1.56250e-02 to 0.00000e+00 with weighted error 2.29e-17 log weighted error 16.64 significant figures required 15.27 decimal places required 17.23 */ static double aph0_data[15] = { -0.0855849241130933257, 0.0011214378867065261, 0.0000042721029353664, 0.0000000817607381483, 0.0000000033907645000, 0.0000000002253264423, 0.0000000000206284209, 0.0000000000023858763, 0.0000000000003301618, 0.0000000000000527010, 0.0000000000000094555, 0.0000000000000018709, 0.0000000000000004024, 0.0000000000000000930, 0.0000000000000000229 }; static cheb_series aph0_cs = { aph0_data, 14, -1, 1, 7 }; static int airy_deriv_mod_phase(const double x, gsl_mode_t mode, gsl_sf_result * ampl, gsl_sf_result * phi) { const double pi34 = 2.356194490192344928847; gsl_sf_result result_a; gsl_sf_result result_p; double a, p; double sqx; if(x <= -4.0) { double z = 128.0/(x*x*x) + 1.0; cheb_eval_mode_e(&an20_cs, z, mode, &result_a); cheb_eval_mode_e(&aph0_cs, z, mode, &result_p); } else if(x <= -2.0) { double z = (128.0/(x*x*x) + 9.0) / 7.0; cheb_eval_mode_e(&an21_cs, z, mode, &result_a); cheb_eval_mode_e(&aph1_cs, z, mode, &result_p); } else if(x <= -1.0) { double z = (16.0/(x*x*x) + 9.0) / 7.0; cheb_eval_mode_e(&an22_cs, z, mode, &result_a); cheb_eval_mode_e(&aph2_cs, z, mode, &result_p); } else { ampl->val = 0.0; ampl->err = 0.0; phi->val = 0.0; phi->err = 0.0; GSL_ERROR ("x is greater than 1.0", GSL_EDOM); } a = 0.3125 + result_a.val; p = -0.625 + result_p.val; sqx = sqrt(-x); ampl->val = sqrt(a * sqx); ampl->err = fabs(ampl->val) * (GSL_DBL_EPSILON + fabs(result_a.err/result_a.val)); phi->val = pi34 - x * sqx * p; phi->err = fabs(phi->val) * (GSL_DBL_EPSILON + fabs(result_p.err/result_p.val)); return GSL_SUCCESS; } /*-*-*-*-*-*-*-*-*-*-*-* Functions with Error Codes *-*-*-*-*-*-*-*-*-*-*-*/ int gsl_sf_airy_Ai_deriv_scaled_e(const double x, gsl_mode_t mode, gsl_sf_result * result) { /* CHECK_POINTER(result) */ if(x < -1.0) { gsl_sf_result a; gsl_sf_result p; int status_ap = airy_deriv_mod_phase(x, mode, &a, &p); double c = cos(p.val); result->val = a.val * c; result->err = fabs(result->val * p.err) + fabs(c * a.err); result->err += GSL_DBL_EPSILON * fabs(result->val); return status_ap; } else if(x <= 1.0) { const double x3 = x*x*x; const double x2 = x*x; gsl_sf_result result_c0; gsl_sf_result result_c1; cheb_eval_mode_e(&aif_cs, x3, mode, &result_c0); cheb_eval_mode_e(&aig_cs, x3, mode, &result_c1); result->val = (x2*(0.125 + result_c0.val) - result_c1.val) - 0.25; result->err = fabs(x2*result_c0.val) + result_c1.err; result->err += GSL_DBL_EPSILON * fabs(result->val); if(x > GSL_ROOT3_DBL_EPSILON*GSL_ROOT3_DBL_EPSILON) { /* scale only if x is positive */ double s = exp(2.0*x*sqrt(x)/3.0); result->val *= s; result->err *= s; } return GSL_SUCCESS; } else if(x <= 4.0) { const double sqrtx = sqrt(x); const double z = (16.0/(x*sqrtx) - 9.0)/7.0; const double s = sqrt(sqrtx); gsl_sf_result result_c0; cheb_eval_mode_e(&aip1_cs, z, mode, &result_c0); result->val = -(0.28125 + result_c0.val) * s; result->err = result_c0.err * s; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else { const double sqrtx = sqrt(x); const double z = 16.0/(x*sqrtx) - 1.0; const double s = sqrt(sqrtx); gsl_sf_result result_c0; cheb_eval_mode_e(&aip2_cs, z, mode, &result_c0); result->val = -(0.28125 + result_c0.val) * s; result->err = result_c0.err * s; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } } int gsl_sf_airy_Ai_deriv_e(const double x, gsl_mode_t mode, gsl_sf_result * result) { /* CHECK_POINTER(result) */ if(x < -1.0) { gsl_sf_result a; gsl_sf_result p; int status_ap = airy_deriv_mod_phase(x, mode, &a, &p); double c = cos(p.val); result->val = a.val * c; result->err = fabs(result->val * p.err) + fabs(c * a.err); result->err += GSL_DBL_EPSILON * fabs(result->val); return status_ap; } else if(x < 1.0) { const double x3 = x*x*x; gsl_sf_result result_c1; gsl_sf_result result_c2; cheb_eval_mode_e(&aif_cs, x3, mode, &result_c1); cheb_eval_mode_e(&aig_cs, x3, mode, &result_c2); result->val = (x*x*(0.125 + result_c1.val) - result_c2.val) - 0.25; result->err = fabs(x*x*result_c1.err) + result_c2.err; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x*x*x < 9.0/4.0 * GSL_LOG_DBL_MIN*GSL_LOG_DBL_MIN) { gsl_sf_result result_aps; const double arg = -2.0*x*sqrt(x)/3.0; const int stat_a = gsl_sf_airy_Ai_deriv_scaled_e(x, mode, &result_aps); const int stat_e = gsl_sf_exp_mult_err_e(arg, 1.5*fabs(arg*GSL_DBL_EPSILON), result_aps.val, result_aps.err, result); return GSL_ERROR_SELECT_2(stat_e, stat_a); } else { UNDERFLOW_ERROR(result); } } int gsl_sf_airy_Bi_deriv_scaled_e(const double x, gsl_mode_t mode, gsl_sf_result * result) { const double atr = 8.7506905708484345; /* 16./(sqrt(8)-1) */ const double btr = -2.0938363213560543; /* -(sqrt(8)+1)/(sqrt(8)-1) */ /* CHECK_POINTER(result) */ if(x < -1.0) { gsl_sf_result a; gsl_sf_result p; int status_ap = airy_deriv_mod_phase(x, mode, &a, &p); double s = sin(p.val); result->val = a.val * s; result->err = fabs(result->val * p.err) + fabs(s * a.err); result->err += GSL_DBL_EPSILON * fabs(result->val); return status_ap; } else if(x < 1.0) { const double x3 = x*x*x; const double x2 = x*x; gsl_sf_result result_c1; gsl_sf_result result_c2; cheb_eval_mode_e(&bif_cs, x3, mode, &result_c1); cheb_eval_mode_e(&big_cs, x3, mode, &result_c2); result->val = x2 * (result_c1.val + 0.25) + result_c2.val + 0.5; result->err = x2 * result_c1.err + result_c2.err; result->err += GSL_DBL_EPSILON * fabs(result->val); if(x > GSL_ROOT3_DBL_EPSILON*GSL_ROOT3_DBL_EPSILON) { /* scale only if x is positive */ const double s = exp(-2.0*x*sqrt(x)/3.0); result->val *= s; result->err *= s; } return GSL_SUCCESS; } else if(x < 2.0) { const double z = (2.0*x*x*x - 9.0) / 7.0; const double s = exp(-2.0*x*sqrt(x)/3.0); gsl_sf_result result_c0; gsl_sf_result result_c1; cheb_eval_mode_e(&bif2_cs, z, mode, &result_c0); cheb_eval_mode_e(&big2_cs, z, mode, &result_c1); result->val = s * (x*x * (0.25 + result_c0.val) + 0.5 + result_c1.val); result->err = s * (x*x * result_c0.err + result_c1.err); result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x < 4.0) { const double sqrtx = sqrt(x); const double z = atr/(x*sqrtx) + btr; const double s = sqrt(sqrtx); gsl_sf_result result_c0; cheb_eval_mode_e(&bip1_cs, z, mode, &result_c0); result->val = s * (0.625 + result_c0.val); result->err = s * result_c0.err; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else { const double sqrtx = sqrt(x); const double z = 16.0/(x*sqrtx) - 1.0; const double s = sqrt(sqrtx); gsl_sf_result result_c0; cheb_eval_mode_e(&bip2_cs, z, mode, &result_c0); result->val = s * (0.625 + result_c0.val); result->err = s * result_c0.err; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } } int gsl_sf_airy_Bi_deriv_e(const double x, gsl_mode_t mode, gsl_sf_result * result) { /* CHECK_POINTER(result) */ if(x < -1.0) { gsl_sf_result a; gsl_sf_result p; int status_ap = airy_deriv_mod_phase(x, mode, &a, &p); double s = sin(p.val); result->val = a.val * s; result->err = fabs(result->val * p.err) + fabs(s * a.err); result->err += GSL_DBL_EPSILON * fabs(result->val); return status_ap; } else if(x < 1.0) { const double x3 = x*x*x; const double x2 = x*x; gsl_sf_result result_c1; gsl_sf_result result_c2; cheb_eval_mode_e(&bif_cs, x3, mode, &result_c1); cheb_eval_mode_e(&big_cs, x3, mode, &result_c2); result->val = x2 * (result_c1.val + 0.25) + result_c2.val + 0.5; result->err = x2 * result_c1.err + result_c2.err; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x < 2.0) { const double z = (2.0*x*x*x - 9.0) / 7.0; gsl_sf_result result_c1; gsl_sf_result result_c2; cheb_eval_mode_e(&bif2_cs, z, mode, &result_c1); cheb_eval_mode_e(&big2_cs, z, mode, &result_c2); result->val = x*x * (result_c1.val + 0.25) + result_c2.val + 0.5; result->err = x*x * result_c1.err + result_c2.err; result->err += GSL_DBL_EPSILON * fabs(result->val); return GSL_SUCCESS; } else if(x < GSL_ROOT3_DBL_MAX*GSL_ROOT3_DBL_MAX) { gsl_sf_result result_bps; const double arg = 2.0*(x*sqrt(x)/3.0); int stat_b = gsl_sf_airy_Bi_deriv_scaled_e(x, mode, &result_bps); int stat_e = gsl_sf_exp_mult_err_e(arg, 1.5*fabs(arg*GSL_DBL_EPSILON), result_bps.val, result_bps.err, result); return GSL_ERROR_SELECT_2(stat_e, stat_b); } else { OVERFLOW_ERROR(result); } } /*-*-*-*-*-*-*-*-*-* Functions w/ Natural Prototypes *-*-*-*-*-*-*-*-*-*-*/ #include "eval.h" double gsl_sf_airy_Ai_deriv_scaled(const double x, gsl_mode_t mode) { EVAL_RESULT(gsl_sf_airy_Ai_deriv_scaled_e(x, mode, &result)); } double gsl_sf_airy_Ai_deriv(const double x, gsl_mode_t mode) { EVAL_RESULT(gsl_sf_airy_Ai_deriv_e(x, mode, &result)); } double gsl_sf_airy_Bi_deriv_scaled(const double x, gsl_mode_t mode) { EVAL_RESULT(gsl_sf_airy_Bi_deriv_scaled_e(x, mode, &result)); } double gsl_sf_airy_Bi_deriv(const double x, gsl_mode_t mode) { EVAL_RESULT(gsl_sf_airy_Bi_deriv_e(x, mode, &result)); }