/* 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 "mag.h" void mag_neg_log(mag_t z, const mag_t x) { if (mag_is_special(x)) { if (mag_is_zero(x)) mag_inf(z); else mag_zero(z); } else { double t; fmpz exp = MAG_EXP(x); if (!COEFF_IS_MPZ(exp)) { if (exp >= 1) { mag_zero(z); } else if (exp > -(1000 - MAG_BITS)) { t = ldexp(MAG_MAN(x), exp - MAG_BITS); t = -mag_d_log_lower_bound(t); mag_set_d(z, t); } else { /* -log(2^(exp-1) * (2*v)) = -exp*log(2) - log(2*v), 1 <= 2v < 2 */ t = MAG_MAN(x) * ldexp(1.0, 1 - MAG_BITS); t = -mag_d_log_lower_bound(t); t -= (exp - 1) * 0.69314718055994530942; t *= (1 + 1e-13); mag_set_d(z, t); } } else if (fmpz_sgn(MAG_EXPREF(x)) > 0) { mag_zero(z); } else { mag_inv(z, x); mag_log(z, z); } } } void mag_neg_log_lower(mag_t z, const mag_t x) { if (mag_is_special(x)) { if (mag_is_zero(x)) mag_inf(z); else mag_zero(z); } else { double t; fmpz exp = MAG_EXP(x); if (!COEFF_IS_MPZ(exp)) { if (exp >= 1) { mag_zero(z); } else if (exp > -(1000 - MAG_BITS)) { t = ldexp(MAG_MAN(x), exp - MAG_BITS); t = -mag_d_log_upper_bound(t); mag_set_d_lower(z, t); } else { /* -log(2^(exp-1) * (2*v)) = -exp*log(2) - log(2*v), 1 <= 2v < 2 */ t = MAG_MAN(x) * ldexp(1.0, 1 - MAG_BITS); t = -mag_d_log_upper_bound(t); t -= (exp - 1) * 0.69314718055994530942; t *= (1 - 1e-13); mag_set_d_lower(z, t); } } else if (fmpz_sgn(MAG_EXPREF(x)) > 0) { mag_zero(z); } else { mag_inv_lower(z, x); mag_log_lower(z, z); } } } void mag_log(mag_t z, const mag_t x) { if (mag_is_special(x)) { if (mag_is_zero(x)) mag_zero(z); else mag_inf(z); } else { double t; fmpz exp = MAG_EXP(x); if (!COEFF_IS_MPZ(exp)) { if (exp <= 0 || (exp == 1 && MAG_MAN(x) == MAG_ONE_HALF)) { mag_zero(z); } else if (exp < 1000) /* safely within the double range */ { t = ldexp(MAG_MAN(x), exp - MAG_BITS); t = mag_d_log_upper_bound(t); mag_set_d(z, t); } else { /* log(2^(exp-1)*(2v)) = (exp-1)*log(2) + log(2v), 1 <= 2v < 2 */ t = MAG_MAN(x) * ldexp(1.0, 1 - MAG_BITS); /* exact */ t = mag_d_log_upper_bound(t); t += (exp - 1.0) * 0.69314718055994530942; t *= (1 + 1e-13); /* last step could have rounded down */ mag_set_d(z, t); } } else if (fmpz_sgn(MAG_EXPREF(x)) < 0) { mag_zero(z); } else { /* log(2^exp) = exp*log(2), log(2) < 744261118/2^30 */ fmpz_t t; fmpz_init(t); fmpz_mul_ui(t, MAG_EXPREF(x), 744261118); mag_set_fmpz(z, t); mag_mul_2exp_si(z, z, -30); fmpz_clear(t); } } } void mag_log_lower(mag_t z, const mag_t x) { if (mag_is_special(x)) { if (mag_is_zero(x)) mag_zero(z); else mag_inf(z); } else { double t; fmpz exp = MAG_EXP(x); if (!COEFF_IS_MPZ(exp)) { if (exp <= 0 || (exp == 1 && MAG_MAN(x) == MAG_ONE_HALF)) { mag_zero(z); } else if (exp < 1000) { t = ldexp(MAG_MAN(x), exp - MAG_BITS); t = mag_d_log_lower_bound(t); mag_set_d_lower(z, t); } else { /* log(2^(exp-1) * (2*v)) = exp*log(2) + log(2*v), 1 <= 2v < 2 */ t = MAG_MAN(x) * ldexp(1.0, 1 - MAG_BITS); t = mag_d_log_lower_bound(t); t += (exp - 1) * 0.69314718055994530942; t *= (1 - 1e-13); mag_set_d_lower(z, t); } } else if (fmpz_sgn(MAG_EXPREF(x)) < 0) { mag_zero(z); } else { /* log(2^exp) = exp*log(2), log(2) > 744261117/2^30 */ fmpz_t t; fmpz_init(t); fmpz_sub_ui(t, MAG_EXPREF(x), 1); /* lower bound for x */ fmpz_mul_ui(t, t, 744261117); mag_set_fmpz_lower(z, t); mag_mul_2exp_si(z, z, -30); fmpz_clear(t); } } }