/* Copyright (C) 2017 Fredrik Johansson This file is part of Arb. Arb is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License (LGPL) as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. See . */ #include "acb_elliptic.h" #include "acb_modular.h" /* eta1 = (-1/6) theta1'''(0) / theta1'(0) */ static void eta1(acb_t res, acb_t theta1, const acb_t tau, slong prec) { acb_ptr theta; acb_t z; acb_init(z); theta = _acb_vec_init(16); acb_modular_theta_jet(theta, theta + 4, theta + 8, theta + 12, z, tau, 4, prec); if (theta1 != NULL) acb_set(theta1, theta + 1); acb_div(res, theta + 3, theta + 1, prec); acb_neg(res, res); _acb_vec_clear(theta, 16); acb_clear(z); } /* zeta(z) = 2 eta1 z + theta1'(z,q) / theta1(z,q) */ void acb_elliptic_zeta(acb_t res, const acb_t z, const acb_t tau, slong prec) { acb_ptr t; int real; real = acb_is_real(z) && arb_is_int_2exp_si(acb_realref(tau), -1) && arb_is_positive(acb_imagref(tau)); t = _acb_vec_init(8); acb_modular_theta_jet(t, t + 2, t + 4, t + 6, z, tau, 2, prec); eta1(t + 2, NULL, tau, prec); acb_mul_2exp_si(t + 2, t + 2, 1); acb_mul(t + 2, t + 2, z, prec); acb_div(t, t + 1, t, prec); acb_add(res, t, t + 2, prec); if (real) arb_zero(acb_imagref(res)); _acb_vec_clear(t, 8); } /* sigma(z) = exp(eta1 z^2) theta1(z) / theta1'(0) */ void acb_elliptic_sigma(acb_t res, const acb_t z, const acb_t tau, slong prec) { acb_ptr t; int real; real = acb_is_real(z) && arb_is_int_2exp_si(acb_realref(tau), -1) && arb_is_positive(acb_imagref(tau)); t = _acb_vec_init(8); acb_modular_theta_jet(t, t + 2, t + 4, t + 6, z, tau, 2, prec); eta1(t + 2, t + 3, tau, prec); acb_mul(t + 4, z, z, prec); acb_mul(t + 2, t + 2, t + 4, prec); acb_exp(t + 2, t + 2, prec); acb_div(t, t, t + 3, prec); acb_mul(res, t, t + 2, prec); if (real) arb_zero(acb_imagref(res)); _acb_vec_clear(t, 8); }