/* Copyright (C) 2013 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.h" /* old acb_log code for comparison */ static int close_to_one(const acb_t z) { mp_limb_t top; if (arf_abs_bound_lt_2exp_si(arb_midref(acb_imagref(z))) > -3) return 0; if (ARF_EXP(arb_midref(acb_realref(z))) == 0) { ARF_GET_TOP_LIMB(top, arb_midref(acb_realref(z))); return (top >> (FLINT_BITS - 4)) == 15; } else if (ARF_EXP(arb_midref(acb_realref(z))) == 1) { ARF_GET_TOP_LIMB(top, arb_midref(acb_realref(z))); return (top >> (FLINT_BITS - 4)) == 8; } return 0; } void acb_log_old(acb_t r, const acb_t z, slong prec) { #define a acb_realref(z) #define b acb_imagref(z) if (arb_is_zero(b)) { if (arb_is_positive(a)) { arb_log(acb_realref(r), a, prec); arb_zero(acb_imagref(r)); } else if (arb_is_negative(a)) { arb_neg(acb_realref(r), a); arb_log(acb_realref(r), acb_realref(r), prec); arb_const_pi(acb_imagref(r), prec); } else { acb_indeterminate(r); } } else if (arb_is_zero(a)) { if (arb_is_positive(b)) { arb_log(acb_realref(r), b, prec); arb_const_pi(acb_imagref(r), prec); arb_mul_2exp_si(acb_imagref(r), acb_imagref(r), -1); } else if (arb_is_negative(b)) { arb_neg(acb_realref(r), b); arb_log(acb_realref(r), acb_realref(r), prec); arb_const_pi(acb_imagref(r), prec); arb_mul_2exp_si(acb_imagref(r), acb_imagref(r), -1); arb_neg(acb_imagref(r), acb_imagref(r)); } else { acb_indeterminate(r); } } else { arb_t t, u; arb_init(t); arb_init(u); if (close_to_one(z)) { arb_sub_ui(u, a, 1, prec + 8); arb_mul(t, u, u, prec + 8); arb_addmul(t, b, b, prec + 8); arb_mul_2exp_si(u, u, 1); arb_add(t, t, u, prec + 8); arb_log1p(t, t, prec); arb_mul_2exp_si(t, t, -1); } else { arb_mul(t, a, a, prec + 8); arb_addmul(t, b, b, prec + 8); if (arb_contains_zero(t) || arf_sgn(arb_midref(t)) < 0) arb_zero_pm_inf(t); else arb_log(t, t, prec); arb_mul_2exp_si(t, t, -1); } acb_arg(u, z, prec); arb_swap(acb_realref(r), t); arb_swap(acb_imagref(r), u); arb_clear(t); arb_clear(u); } if (!acb_is_finite(r)) acb_indeterminate(r); #undef a #undef b } int main() { slong iter; flint_rand_t state; flint_printf("log...."); fflush(stdout); flint_randinit(state); for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++) { acb_t x, a, b, d; slong prec1, prec2, acc1, acc2; prec1 = 2 + n_randint(state, 1000); prec2 = prec1 + 30; acb_init(x); acb_init(a); acb_init(b); acb_init(d); acb_randtest_special(x, state, 1 + n_randint(state, 1000), 2 + n_randint(state, 100)); acb_randtest_special(a, state, 1 + n_randint(state, 1000), 2 + n_randint(state, 100)); acb_randtest_special(b, state, 1 + n_randint(state, 1000), 2 + n_randint(state, 100)); if (n_randint(state, 2)) { acb_log(a, x, prec1); } else { acb_set(a, x); /* test aliasing */ acb_log(a, a, prec1); } if (n_randint(state, 2)) { acb_log(b, x, prec2); } else { acb_set(b, x); /* test aliasing */ acb_log(b, b, prec2); } /* check consistency */ if (!acb_overlaps(a, b)) { flint_printf("FAIL: overlap\n\n"); flint_printf("x = "); acb_printd(x, 15); flint_printf("\n\n"); flint_printf("a = "); acb_printd(a, 15); flint_printf("\n\n"); flint_printf("b = "); acb_printd(b, 15); flint_printf("\n\n"); flint_abort(); } if (!acb_contains_zero(x) && acb_is_finite(x) && !acb_is_finite(a)) { flint_printf("FAIL: not finite\n\n"); flint_printf("prec1 = %wd\n\n", prec1); flint_printf("x = "); acb_printn(x, 50, 0); flint_printf("\n\n"); flint_printf("a = "); acb_printn(a, 50, 0); flint_printf("\n\n"); flint_printf("x = "); acb_print(x); flint_printf("\n\n"); flint_printf("a = "); acb_print(a); flint_printf("\n\n"); flint_abort(); } /* check exp(log(x)) = x */ acb_exp(b, b, prec1); if (!acb_contains(b, x)) { flint_printf("FAIL: functional equation\n\n"); flint_printf("x = "); acb_printd(x, 15); flint_printf("\n\n"); flint_printf("b = "); acb_printd(b, 15); flint_printf("\n\n"); flint_abort(); } acb_log_old(d, x, prec1); /* check consistency */ if (!acb_overlaps(a, d)) { flint_printf("FAIL: overlap 2\n\n"); flint_printf("x = "); acb_printd(x, 15); flint_printf("\n\n"); flint_printf("a = "); acb_printd(a, 15); flint_printf("\n\n"); flint_printf("d = "); acb_printd(d, 15); flint_printf("\n\n"); flint_abort(); } /* compare accuracy with log_old */ acc1 = arb_rel_accuracy_bits(acb_realref(a)); acc2 = arb_rel_accuracy_bits(acb_realref(d)); if (acc2 > 0 && acc1 < acc2 - 2) { flint_printf("FAIL: accuracy\n\n"); flint_printf("prec1 = %wd, acc1 = %wd, acc2 = %wd\n\n", prec1, acc1, acc2); flint_printf("x = "); acb_printd(x, 50); flint_printf("\n\n"); flint_printf("a = "); acb_printd(a, 50); flint_printf("\n\n"); flint_printf("d = "); acb_printd(d, 50); flint_printf("\n\n"); flint_abort(); } acc1 = arb_rel_accuracy_bits(acb_imagref(a)); acc2 = arb_rel_accuracy_bits(acb_imagref(d)); if (acc2 > 0 && acc1 < acc2 - 2) { flint_printf("FAIL: accuracy 2\n\n"); flint_printf("prec1 = %wd, acc1 = %wd, acc2 = %wd\n\n", prec1, acc1, acc2); flint_printf("x = "); acb_printd(x, 50); flint_printf("\n\n"); flint_printf("a = "); acb_printd(a, 50); flint_printf("\n\n"); flint_printf("d = "); acb_printd(d, 50); flint_printf("\n\n"); flint_abort(); } acb_clear(x); acb_clear(a); acb_clear(b); acb_clear(d); } flint_randclear(state); flint_cleanup(); flint_printf("PASS\n"); return EXIT_SUCCESS; }