/* Copyright (C) 2015 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_hypgeom.h" /* which == 0 -- z which == 1 -- z/(z-1) which == 2 -- 1/z which == 3 -- 1/(1-z) which == 4 -- 1-z which == 5 -- 1-1/z */ void _acb_hypgeom_2f1_transform_limit(acb_t res, const acb_poly_t a, const acb_poly_t b, const acb_poly_t c, const acb_poly_t z, int which, slong prec) { acb_poly_t ba, ca, cb, cab, ac1, bc1, ab1, ba1, w, t, u, v, s; acb_t tt; acb_poly_init(ba); acb_poly_init(ca); acb_poly_init(cb); acb_poly_init(cab); acb_poly_init(ac1); acb_poly_init(bc1); acb_poly_init(ab1); acb_poly_init(ba1); acb_poly_init(w); acb_poly_init(t); acb_poly_init(u); acb_poly_init(v); acb_poly_init(s); acb_init(tt); acb_poly_add_si(s, z, -1, prec); /* s = 1 - z */ acb_poly_neg(s, s); acb_poly_sub(ba, b, a, prec); /* ba = b - a */ acb_poly_sub(ca, c, a, prec); /* ca = c - a */ acb_poly_sub(cb, c, b, prec); /* cb = c - b */ acb_poly_sub(cab, ca, b, prec); /* cab = c - a - b */ acb_poly_add_si(ac1, ca, -1, prec); acb_poly_neg(ac1, ac1); /* ac1 = a - c + 1 */ acb_poly_add_si(bc1, cb, -1, prec); acb_poly_neg(bc1, bc1); /* bc1 = b - c + 1 */ acb_poly_add_si(ab1, ba, -1, prec); acb_poly_neg(ab1, ab1); /* ab1 = a - b + 1 */ acb_poly_add_si(ba1, ba, 1, prec); /* ba1 = b - a + 1 */ /* t = left term, u = right term (DLMF 15.8.1 - 15.8.5) */ if (which == 2) { acb_poly_inv_series(w, z, 2, prec); /* w = 1/z */ acb_hypgeom_2f1_series_direct(t, a, ac1, ab1, w, 1, 2, prec); acb_hypgeom_2f1_series_direct(u, b, bc1, ba1, w, 1, 2, prec); } else if (which == 3) { acb_poly_inv_series(w, s, 2, prec); /* w = 1/(1-z) */ acb_hypgeom_2f1_series_direct(t, a, cb, ab1, w, 1, 2, prec); acb_hypgeom_2f1_series_direct(u, b, ca, ba1, w, 1, 2, prec); } else if (which == 4) { acb_poly_set(w, s); /* w = 1-z */ acb_poly_add(v, ac1, b, prec); /* v = a+b-c+1 */ acb_hypgeom_2f1_series_direct(t, a, b, v, w, 1, 2, prec); acb_poly_add_si(v, cab, 1, prec); /* v = c-a-b+1 */ acb_hypgeom_2f1_series_direct(u, ca, cb, v, w, 1, 2, prec); } else if (which == 5) { acb_poly_inv_series(w, z, 2, prec); /* w = 1-1/z */ acb_poly_neg(w, w); acb_poly_add_si(w, w, 1, prec); acb_poly_add(v, ac1, b, prec); /* v = a+b-c+1 */ acb_hypgeom_2f1_series_direct(t, a, ac1, v, w, 1, 2, prec); acb_poly_add_si(v, cab, 1, prec); /* v = c-a-b+1 */ acb_poly_add_si(u, a, -1, prec); /* u = 1-a */ acb_poly_neg(u, u); acb_hypgeom_2f1_series_direct(u, ca, u, v, w, 1, 2, prec); } else { flint_printf("invalid transformation!\n"); flint_abort(); } /* gamma factors */ acb_poly_rgamma_series(v, a, 2, prec); acb_poly_mullow(u, u, v, 2, prec); acb_poly_rgamma_series(v, ca, 2, prec); acb_poly_mullow(t, t, v, 2, prec); acb_poly_rgamma_series(v, b, 2, prec); if (which == 2 || which == 3) acb_poly_mullow(t, t, v, 2, prec); else acb_poly_mullow(u, u, v, 2, prec); acb_poly_rgamma_series(v, cb, 2, prec); if (which == 2 || which == 3) acb_poly_mullow(u, u, v, 2, prec); else acb_poly_mullow(t, t, v, 2, prec); if (which == 2 || which == 3) { if (which == 2) acb_poly_neg(s, z); /* -z, otherwise 1-z since before */ acb_poly_neg(v, a); acb_poly_pow_series(v, s, v, 2, prec); acb_poly_mullow(t, t, v, 2, prec); acb_poly_neg(v, b); acb_poly_pow_series(v, s, v, 2, prec); acb_poly_mullow(u, u, v, 2, prec); } else { acb_poly_pow_series(v, s, cab, 2, prec); acb_poly_mullow(u, u, v, 2, prec); if (which == 5) { acb_poly_neg(v, a); acb_poly_pow_series(v, z, v, 2, prec); acb_poly_mullow(t, t, v, 2, prec); acb_poly_neg(v, ca); acb_poly_pow_series(v, z, v, 2, prec); acb_poly_mullow(u, u, v, 2, prec); } } acb_poly_sub(t, t, u, prec); if (which == 2 || which == 3) acb_poly_sin_pi_series(v, ba, 2, prec); else acb_poly_sin_pi_series(v, cab, 2, prec); acb_poly_get_coeff_acb(tt, t, 1); acb_poly_get_coeff_acb(res, v, 1); acb_div(res, tt, res, prec); acb_const_pi(tt, prec); acb_mul(res, res, tt, prec); acb_poly_clear(ba); acb_poly_clear(ca); acb_poly_clear(cb); acb_poly_clear(cab); acb_poly_clear(ac1); acb_poly_clear(bc1); acb_poly_clear(ab1); acb_poly_clear(ba1); acb_poly_clear(w); acb_poly_clear(t); acb_poly_clear(u); acb_poly_clear(v); acb_poly_clear(s); acb_clear(tt); } void acb_hypgeom_2f1_transform_limit(acb_t res, const acb_t a, const acb_t b, const acb_t c, const acb_t z, int regularized, int which, slong prec) { acb_poly_t aa, bb, cc, zz; acb_t t; if (acb_contains_zero(z) || !acb_is_finite(z)) { acb_indeterminate(res); return; } if (arb_contains_si(acb_realref(z), 1) && arb_contains_zero(acb_imagref(z))) { acb_indeterminate(res); return; } if (!regularized) { acb_init(t); acb_gamma(t, c, prec); acb_hypgeom_2f1_transform_limit(res, a, b, c, z, 1, which, prec); acb_mul(res, res, t, prec); acb_clear(t); return; } acb_poly_init(aa); acb_poly_init(bb); acb_poly_init(cc); acb_poly_init(zz); acb_init(t); acb_poly_set_acb(aa, a); acb_poly_set_acb(bb, b); acb_poly_set_acb(cc, c); acb_poly_set_acb(zz, z); if (which == 2 || which == 3) { acb_sub(t, b, a, prec); acb_poly_set_coeff_si(aa, 1, 1); /* prefer b-a nonnegative (either is correct) to avoid expensive operations in the hypergeometric series */ if (arb_is_nonnegative(acb_realref(t))) _acb_hypgeom_2f1_transform_limit(res, aa, bb, cc, zz, which, prec); else _acb_hypgeom_2f1_transform_limit(res, bb, aa, cc, zz, which, prec); } else { acb_poly_set_coeff_si(aa, 1, 1); _acb_hypgeom_2f1_transform_limit(res, aa, bb, cc, zz, which, prec); } acb_poly_clear(aa); acb_poly_clear(bb); acb_poly_clear(cc); acb_poly_clear(zz); acb_clear(t); } void acb_hypgeom_2f1_transform_nolimit(acb_t res, const acb_t a, const acb_t b, const acb_t c, const acb_t z, int regularized, int which, slong prec) { acb_t ba, ca, cb, cab, ac1, bc1, ab1, ba1, w, t, u, v, s; if (acb_contains_zero(z) || !acb_is_finite(z)) { acb_indeterminate(res); return; } if (arb_contains_si(acb_realref(z), 1) && arb_contains_zero(acb_imagref(z))) { acb_indeterminate(res); return; } if (!regularized) { acb_init(t); acb_gamma(t, c, prec); acb_hypgeom_2f1_transform_nolimit(res, a, b, c, z, 1, which, prec); acb_mul(res, res, t, prec); acb_clear(t); return; } acb_init(ba); acb_init(ca); acb_init(cb); acb_init(cab); acb_init(ac1); acb_init(bc1); acb_init(ab1); acb_init(ba1); acb_init(w); acb_init(t); acb_init(u); acb_init(v); acb_init(s); acb_add_si(s, z, -1, prec); /* s = 1 - z */ acb_neg(s, s); acb_sub(ba, b, a, prec); /* ba = b - a */ acb_sub(ca, c, a, prec); /* ca = c - a */ acb_sub(cb, c, b, prec); /* cb = c - b */ acb_sub(cab, ca, b, prec); /* cab = c - a - b */ acb_add_si(ac1, ca, -1, prec); acb_neg(ac1, ac1); /* ac1 = a - c + 1 */ acb_add_si(bc1, cb, -1, prec); acb_neg(bc1, bc1); /* bc1 = b - c + 1 */ acb_add_si(ab1, ba, -1, prec); acb_neg(ab1, ab1); /* ab1 = a - b + 1 */ acb_add_si(ba1, ba, 1, prec); /* ba1 = b - a + 1 */ /* t = left term, u = right term (DLMF 15.8.1 - 15.8.5) */ if (which == 2) { acb_inv(w, z, prec); /* w = 1/z */ acb_hypgeom_2f1_direct(t, a, ac1, ab1, w, 1, prec); acb_hypgeom_2f1_direct(u, b, bc1, ba1, w, 1, prec); } else if (which == 3) { acb_inv(w, s, prec); /* w = 1/(1-z) */ acb_hypgeom_2f1_direct(t, a, cb, ab1, w, 1, prec); acb_hypgeom_2f1_direct(u, b, ca, ba1, w, 1, prec); } else if (which == 4) { acb_set(w, s); /* w = 1-z */ acb_add(v, ac1, b, prec); /* v = a+b-c+1 */ acb_hypgeom_2f1_direct(t, a, b, v, w, 1, prec); acb_add_si(v, cab, 1, prec); /* v = c-a-b+1 */ acb_hypgeom_2f1_direct(u, ca, cb, v, w, 1, prec); } else if (which == 5) { acb_inv(w, z, prec); /* w = 1-1/z */ acb_neg(w, w); acb_add_si(w, w, 1, prec); acb_add(v, ac1, b, prec); /* v = a+b-c+1 */ acb_hypgeom_2f1_direct(t, a, ac1, v, w, 1, prec); acb_add_si(v, cab, 1, prec); /* v = c-a-b+1 */ acb_add_si(u, a, -1, prec); /* u = 1-a */ acb_neg(u, u); acb_hypgeom_2f1_direct(u, ca, u, v, w, 1, prec); } else { flint_printf("invalid transformation!\n"); flint_abort(); } /* gamma factors */ acb_rgamma(v, a, prec); acb_mul(u, u, v, prec); acb_rgamma(v, ca, prec); acb_mul(t, t, v, prec); acb_rgamma(v, b, prec); if (which == 2 || which == 3) acb_mul(t, t, v, prec); else acb_mul(u, u, v, prec); acb_rgamma(v, cb, prec); if (which == 2 || which == 3) acb_mul(u, u, v, prec); else acb_mul(t, t, v, prec); if (which == 2 || which == 3) { if (which == 2) acb_neg(s, z); /* -z, otherwise 1-z since before */ acb_neg(v, a); acb_pow(v, s, v, prec); acb_mul(t, t, v, prec); acb_neg(v, b); acb_pow(v, s, v, prec); acb_mul(u, u, v, prec); } else { acb_pow(v, s, cab, prec); acb_mul(u, u, v, prec); if (which == 5) { acb_neg(v, a); acb_pow(v, z, v, prec); acb_mul(t, t, v, prec); acb_neg(v, ca); acb_pow(v, z, v, prec); acb_mul(u, u, v, prec); } } acb_sub(t, t, u, prec); if (which == 2 || which == 3) acb_sin_pi(v, ba, prec); else acb_sin_pi(v, cab, prec); acb_div(t, t, v, prec); acb_const_pi(v, prec); acb_mul(t, t, v, prec); acb_set(res, t); acb_clear(ba); acb_clear(ca); acb_clear(cb); acb_clear(cab); acb_clear(ac1); acb_clear(bc1); acb_clear(ab1); acb_clear(ba1); acb_clear(w); acb_clear(t); acb_clear(u); acb_clear(v); acb_clear(s); } void acb_hypgeom_2f1_transform(acb_t res, const acb_t a, const acb_t b, const acb_t c, const acb_t z, int flags, int which, slong prec) { int regularized; regularized = flags & ACB_HYPGEOM_2F1_REGULARIZED; if (which == 1) { acb_t t, u, v; acb_init(t); acb_init(u); acb_init(v); acb_sub_ui(t, z, 1, prec); /* t = z-1 */ acb_div(u, z, t, prec); /* u = z/(z-1) */ acb_neg(t, t); acb_neg(v, a); acb_pow(t, t, v, prec); /* t = (1-z)^-a */ acb_sub(v, c, b, prec); /* v = c-b */ /* We cannot use regularized=1 directly, since if c is a nonnegative integer, the transformation formula reads (lhs) * 0 = (rhs) * 0. */ acb_hypgeom_2f1_direct(u, a, v, c, u, 1, prec); if (!regularized) { acb_gamma(v, c, prec); acb_mul(u, u, v, prec); } acb_mul(res, u, t, prec); acb_clear(t); acb_clear(u); acb_clear(v); } else { acb_t d; int limit; acb_init(d); if (which == 2 || which == 3) { if (flags & ACB_HYPGEOM_2F1_AB) { limit = 1; } else { acb_sub(d, b, a, prec); limit = acb_is_int(d); } } else { if (flags & ACB_HYPGEOM_2F1_ABC) { limit = 1; } else { acb_sub(d, c, a, prec); acb_sub(d, d, b, prec); limit = acb_is_int(d); } } if (limit) acb_hypgeom_2f1_transform_limit(res, a, b, c, z, regularized, which, prec); else acb_hypgeom_2f1_transform_nolimit(res, a, b, c, z, regularized, which, prec); acb_clear(d); } if (!acb_is_finite(res)) acb_indeterminate(res); }