/* specfunc/mathieu_radfunc.c * * Copyright (C) 2002 Lowell Johnson * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* Author: L. Johnson */ #include #include #include #include #include #include int gsl_sf_mathieu_Mc_e(int kind, int order, double qq, double zz, gsl_sf_result *result) { int even_odd, kk, status; double maxerr = 1e-14, amax, pi = M_PI, fn, factor; double coeff[GSL_SF_MATHIEU_COEFF], fc; double j1c, z2c, j1pc, z2pc; double u1, u2; gsl_sf_result aa; /* Check for out of bounds parameters. */ if (qq <= 0.0) { GSL_ERROR("q must be greater than zero", GSL_EINVAL); } if (kind < 1 || kind > 2) { GSL_ERROR("kind must be 1 or 2", GSL_EINVAL); } amax = 0.0; fn = 0.0; u1 = sqrt(qq)*exp(-1.0*zz); u2 = sqrt(qq)*exp(zz); even_odd = 0; if (order % 2 != 0) even_odd = 1; /* Compute the characteristic value. */ status = gsl_sf_mathieu_a_e(order, qq, &aa); if (status != GSL_SUCCESS) { return status; } /* Compute the series coefficients. */ status = gsl_sf_mathieu_a_coeff(order, qq, aa.val, coeff); if (status != GSL_SUCCESS) { return status; } if (even_odd == 0) { for (kk=0; kkval = fn; result->err = 2.0*GSL_DBL_EPSILON; factor = fabs(fn); if (factor > 1.0) result->err *= factor; return GSL_SUCCESS; } int gsl_sf_mathieu_Ms_e(int kind, int order, double qq, double zz, gsl_sf_result *result) { int even_odd, kk, status; double maxerr = 1e-14, amax, pi = M_PI, fn, factor; double coeff[GSL_SF_MATHIEU_COEFF], fc; double j1c, z2c, j1mc, z2mc, j1pc, z2pc; double u1, u2; gsl_sf_result aa; /* Check for out of bounds parameters. */ if (qq <= 0.0) { GSL_ERROR("q must be greater than zero", GSL_EINVAL); } if (kind < 1 || kind > 2) { GSL_ERROR("kind must be 1 or 2", GSL_EINVAL); } /* Handle the trivial cases where order = 0. */ if (order == 0) { result->val = 0.0; result->err = 0.0; return GSL_SUCCESS; } amax = 0.0; fn = 0.0; u1 = sqrt(qq)*exp(-1.0*zz); u2 = sqrt(qq)*exp(zz); even_odd = 0; if (order % 2 != 0) even_odd = 1; /* Compute the characteristic value. */ status = gsl_sf_mathieu_b_e(order, qq, &aa); if (status != GSL_SUCCESS) { return status; } /* Compute the series coefficients. */ status = gsl_sf_mathieu_b_coeff(order, qq, aa.val, coeff); if (status != GSL_SUCCESS) { return status; } if (even_odd == 0) { for (kk=0; kkval = fn; result->err = 2.0*GSL_DBL_EPSILON; factor = fabs(fn); if (factor > 1.0) result->err *= factor; return GSL_SUCCESS; } int gsl_sf_mathieu_Mc_array(int kind, int nmin, int nmax, double qq, double zz, gsl_sf_mathieu_workspace *work, double result_array[]) { int even_odd, order, ii, kk, status; double maxerr = 1e-14, amax, pi = M_PI, fn; double coeff[GSL_SF_MATHIEU_COEFF], fc; double j1c, z2c, j1pc, z2pc; double u1, u2; double *aa = work->aa; /* Initialize the result array to zeroes. */ for (ii=0; ii 2) { GSL_ERROR("kind must be 1 or 2", GSL_EINVAL); } amax = 0.0; u1 = sqrt(qq)*exp(-1.0*zz); u2 = sqrt(qq)*exp(zz); /* Compute all eigenvalues up to nmax. */ gsl_sf_mathieu_a_array(0, nmax, qq, work, aa); for (ii=0, order=nmin; order<=nmax; ii++, order++) { fn = 0.0; even_odd = 0; if (order % 2 != 0) even_odd = 1; /* Compute the series coefficients. */ status = gsl_sf_mathieu_a_coeff(order, qq, aa[order], coeff); if (status != GSL_SUCCESS) { return status; } if (even_odd == 0) { for (kk=0; kkbb; /* Initialize the result array to zeroes. */ for (ii=0; ii 2) { GSL_ERROR("kind must be 1 or 2", GSL_EINVAL); } amax = 0.0; u1 = sqrt(qq)*exp(-1.0*zz); u2 = sqrt(qq)*exp(zz); /* Compute all eigenvalues up to nmax. */ gsl_sf_mathieu_b_array(0, nmax, qq, work, bb); for (ii=0, order=nmin; order<=nmax; ii++, order++) { fn = 0.0; even_odd = 0; if (order % 2 != 0) even_odd = 1; /* Handle the trivial cases where order = 0. */ if (order == 0) { result_array[ii] = 0.0; continue; } /* Compute the series coefficients. */ status = gsl_sf_mathieu_b_coeff(order, qq, bb[order], coeff); if (status != GSL_SUCCESS) { return status; } if (even_odd == 0) { for (kk=0; kk