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arb/acb/lambertw_asymp.c

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complex Lambert W function (acb_lambertw)
2017-03-20 18:57:53 +01:00
/*
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 <http://www.gnu.org/licenses/>.
*/
#include "acb.h"
void
acb_lambertw_asymp(acb_t res, const acb_t z, const fmpz_t k, slong L, slong M, slong prec)
{
acb_t L1, L2, sigma, tau, s, c, u;
slong l, m;
fmpz_t t;
fmpz * sc;
/* For k = 0, the asymptotic expansion is not valid near 0. */
/* (It is sufficient to look at the midpoint as a test here.) */
if (fmpz_is_zero(k) && arf_cmpabs_2exp_si(arb_midref(acb_realref(z)), 0) < 0
&& arf_cmpabs_2exp_si(arb_midref(acb_imagref(z)), 0) < 0)
{
acb_indeterminate(res);
return;
}
acb_init(L1);
acb_init(L2);
acb_init(sigma);
acb_init(tau);
acb_init(s);
acb_init(c);
acb_init(u);
fmpz_init(t);
acb_const_pi(L2, prec);
acb_mul_2exp_si(L2, L2, 1);
acb_mul_fmpz(L2, L2, k, prec);
acb_mul_onei(L2, L2);
acb_log(L1, z, prec);
acb_add(L1, L1, L2, prec);
acb_log(L2, L1, prec);
acb_inv(sigma, L1, prec);
acb_mul(tau, L2, sigma, prec);
acb_zero(s);
/* Stirling numbers */
sc = _fmpz_vec_init(L);
acb_one(u);
for (m = 1; m < M; m++)
{
if (m == 1)
{
for (l = 0; l < L; l++)
fmpz_one(sc + l);
}
else
{
for (l = 0; l < L; l++)
{
fmpz_mul_ui(sc + l, sc + l, m + l - 1);
if (l > 0)
fmpz_add(sc + l, sc + l, sc + l - 1);
}
}
acb_zero(c);
/* todo: precompute powers instead of horner */
for (l = L - 1; l >= 0; l--)
{
acb_mul(c, c, sigma, prec);
if (l % 2)
acb_sub_fmpz(c, c, sc + l, prec);
else
acb_add_fmpz(c, c, sc + l, prec);
}
acb_mul(u, u, tau, prec);
acb_div_ui(u, u, m, prec);
acb_addmul(s, c, u, prec);
}
_fmpz_vec_clear(sc, L);
acb_sub(s, s, L2, prec);
acb_add(s, s, L1, prec);
{
mag_t m4s, m4t, one, q, r;
mag_init(m4s);
mag_init(m4t);
mag_init(one);
mag_init(q);
mag_init(r);
acb_get_mag(m4s, sigma);
mag_mul_2exp_si(m4s, m4s, 2);
acb_get_mag(m4t, tau);
mag_mul_2exp_si(m4t, m4t, 2);
mag_one(one);
mag_sub_lower(q, one, m4s);
mag_sub_lower(r, one, m4t);
mag_mul(q, q, r);
mag_pow_ui(r, m4s, L);
mag_mul(r, r, m4t);
mag_pow_ui(m4t, m4t, M);
mag_add(r, r, m4t);
mag_div(q, r, q);
acb_add_error_mag(s, q);
mag_clear(m4s);
mag_clear(m4t);
mag_clear(one);
mag_clear(q);
mag_clear(r);
}
acb_set(res, s);
acb_clear(sigma);
acb_clear(tau);
acb_clear(s);
acb_clear(c);
acb_clear(L1);
acb_clear(L2);
acb_clear(u);
fmpz_clear(t);
}
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