/usr/include/acb.h is in libflint-arb-dev 2.8.1-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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This file is part of ARB.
ARB is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
ARB is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with ARB; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
=============================================================================*/
/******************************************************************************
Copyright (C) 2012 Fredrik Johansson
******************************************************************************/
#ifndef ACB_H
#define ACB_H
#ifdef ACB_INLINES_C
#define ACB_INLINE
#else
#define ACB_INLINE static __inline__
#endif
#include "arf.h"
#include "arb.h"
#ifdef __cplusplus
extern "C" {
#endif
typedef struct
{
arb_struct real;
arb_struct imag;
}
acb_struct;
typedef acb_struct acb_t[1];
typedef acb_struct * acb_ptr;
typedef const acb_struct * acb_srcptr;
#define acb_realref(x) (&(x)->real)
#define acb_imagref(x) (&(x)->imag)
ACB_INLINE void
acb_init(acb_t x)
{
arb_init(acb_realref(x));
arb_init(acb_imagref(x));
}
ACB_INLINE void
acb_clear(acb_t x)
{
arb_clear(acb_realref(x));
arb_clear(acb_imagref(x));
}
ACB_INLINE acb_ptr
_acb_vec_init(slong n)
{
slong i;
acb_ptr v = (acb_ptr) flint_malloc(sizeof(acb_struct) * n);
for (i = 0; i < n; i++)
acb_init(v + i);
return v;
}
ACB_INLINE void
_acb_vec_clear(acb_ptr v, slong n)
{
slong i;
for (i = 0; i < n; i++)
acb_clear(v + i);
flint_free(v);
}
ACB_INLINE arb_ptr acb_real_ptr(acb_t z) { return acb_realref(z); }
ACB_INLINE arb_ptr acb_imag_ptr(acb_t z) { return acb_imagref(z); }
ACB_INLINE void
acb_get_real(arb_t re, const acb_t z)
{
arb_set(re, acb_realref(z));
}
ACB_INLINE void
acb_get_imag(arb_t im, const acb_t z)
{
arb_set(im, acb_imagref(z));
}
ACB_INLINE int
acb_is_zero(const acb_t z)
{
return arb_is_zero(acb_realref(z)) && arb_is_zero(acb_imagref(z));
}
ACB_INLINE int
acb_is_one(const acb_t z)
{
return arb_is_one(acb_realref(z)) && arb_is_zero(acb_imagref(z));
}
ACB_INLINE int
acb_is_exact(const acb_t z)
{
return arb_is_exact(acb_realref(z)) && arb_is_exact(acb_imagref(z));
}
ACB_INLINE int
acb_is_int(const acb_t z)
{
return arb_is_zero(acb_imagref(z)) && arb_is_int(acb_realref(z));
}
ACB_INLINE void
acb_zero(acb_t z)
{
arb_zero(acb_realref(z));
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_one(acb_t z)
{
arb_one(acb_realref(z));
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_onei(acb_t z)
{
arb_zero(acb_realref(z));
arb_one(acb_imagref(z));
}
ACB_INLINE void
acb_set(acb_t z, const acb_t x)
{
arb_set(acb_realref(z), acb_realref(x));
arb_set(acb_imagref(z), acb_imagref(x));
}
ACB_INLINE void
acb_set_round(acb_t z, const acb_t x, slong prec)
{
arb_set_round(acb_realref(z), acb_realref(x), prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_neg_round(acb_t z, const acb_t x, slong prec)
{
arb_neg_round(acb_realref(z), acb_realref(x), prec);
arb_neg_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_swap(acb_t z, acb_t x)
{
arb_swap(acb_realref(z), acb_realref(x));
arb_swap(acb_imagref(z), acb_imagref(x));
}
ACB_INLINE int
acb_equal(const acb_t x, const acb_t y)
{
return arb_equal(acb_realref(x), acb_realref(y)) &&
arb_equal(acb_imagref(x), acb_imagref(y));
}
ACB_INLINE int
acb_eq(const acb_t x, const acb_t y)
{
return arb_eq(acb_realref(x), acb_realref(y)) &&
arb_eq(acb_imagref(x), acb_imagref(y));
}
ACB_INLINE int
acb_ne(const acb_t x, const acb_t y)
{
return arb_ne(acb_realref(x), acb_realref(y)) ||
arb_ne(acb_imagref(x), acb_imagref(y));
}
ACB_INLINE int
acb_overlaps(const acb_t x, const acb_t y)
{
return arb_overlaps(acb_realref(x), acb_realref(y)) &&
arb_overlaps(acb_imagref(x), acb_imagref(y));
}
ACB_INLINE int
acb_contains_zero(const acb_t x)
{
return arb_contains_zero(acb_realref(x)) &&
arb_contains_zero(acb_imagref(x));
}
ACB_INLINE int
acb_contains_fmpq(const acb_t x, const fmpq_t y)
{
return arb_contains_fmpq(acb_realref(x), y) &&
arb_contains_zero(acb_imagref(x));
}
ACB_INLINE int
acb_contains_fmpz(const acb_t x, const fmpz_t y)
{
return arb_contains_fmpz(acb_realref(x), y) &&
arb_contains_zero(acb_imagref(x));
}
ACB_INLINE int
acb_contains(const acb_t x, const acb_t y)
{
return arb_contains(acb_realref(x), acb_realref(y)) &&
arb_contains(acb_imagref(x), acb_imagref(y));
}
ACB_INLINE void
acb_set_ui(acb_t z, ulong c)
{
arb_set_ui(acb_realref(z), c);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_set_d(acb_t z, double c)
{
arb_set_d(acb_realref(z), c);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_set_si(acb_t z, slong c)
{
arb_set_si(acb_realref(z), c);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_set_si_si(acb_t z, slong x, slong y)
{
arb_set_si(acb_realref(z), x);
arb_set_si(acb_imagref(z), y);
}
ACB_INLINE void
acb_set_d_d(acb_t z, double x, double y)
{
arb_set_d(acb_realref(z), x);
arb_set_d(acb_imagref(z), y);
}
ACB_INLINE void
acb_set_fmpz(acb_t z, const fmpz_t c)
{
arb_set_fmpz(acb_realref(z), c);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_set_fmpz_fmpz(acb_t z, const fmpz_t x, const fmpz_t y)
{
arb_set_fmpz(acb_realref(z), x);
arb_set_fmpz(acb_imagref(z), y);
}
ACB_INLINE void
acb_set_round_fmpz(acb_t z, const fmpz_t y, slong prec)
{
arb_set_round_fmpz(acb_realref(z), y, prec);
arb_zero(acb_imagref(z));
}
int acb_contains_int(const acb_t x);
int acb_get_unique_fmpz(fmpz_t z, const acb_t x);
ACB_INLINE void
acb_set_fmpq(acb_t z, const fmpq_t c, slong prec)
{
arb_set_fmpq(acb_realref(z), c, prec);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_set_arb(acb_t z, const arb_t c)
{
arb_set(acb_realref(z), c);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_set_arb_arb(acb_t z, const arb_t x, const arb_t y)
{
arb_set(acb_realref(z), x);
arb_set(acb_imagref(z), y);
}
ACB_INLINE void
acb_set_round_arb(acb_t z, const arb_t x, slong prec)
{
arb_set_round(acb_realref(z), x, prec);
arb_zero(acb_imagref(z));
}
ACB_INLINE void
acb_trim(acb_t z, const acb_t x)
{
arb_trim(acb_realref(z), acb_realref(x));
arb_trim(acb_imagref(z), acb_imagref(x));
}
ACB_INLINE void
acb_add_error_arf(acb_t x, const arf_t err)
{
arb_add_error_arf(acb_realref(x), err);
arb_add_error_arf(acb_imagref(x), err);
}
ACB_INLINE void
acb_add_error_mag(acb_t x, const mag_t err)
{
arb_add_error_mag(acb_realref(x), err);
arb_add_error_mag(acb_imagref(x), err);
}
void acb_get_mag(mag_t z, const acb_t x);
void acb_get_mag_lower(mag_t z, const acb_t x);
ACB_INLINE void
acb_get_abs_ubound_arf(arf_t u, const acb_t z, slong prec)
{
if (arb_is_zero(acb_imagref(z)))
{
arb_get_abs_ubound_arf(u, acb_realref(z), prec);
}
else if (arb_is_zero(acb_realref(z)))
{
arb_get_abs_ubound_arf(u, acb_imagref(z), prec);
}
else
{
arf_t v;
arf_init(v);
arb_get_abs_ubound_arf(u, acb_realref(z), prec);
arb_get_abs_ubound_arf(v, acb_imagref(z), prec);
arf_mul(u, u, u, prec, ARF_RND_UP);
arf_mul(v, v, v, prec, ARF_RND_UP);
arf_add(u, u, v, prec, ARF_RND_UP);
arf_sqrt(u, u, prec, ARF_RND_UP);
arf_clear(v);
}
}
ACB_INLINE void
acb_get_abs_lbound_arf(arf_t u, const acb_t z, slong prec)
{
if (arb_is_zero(acb_imagref(z)))
{
arb_get_abs_lbound_arf(u, acb_realref(z), prec);
}
else if (arb_is_zero(acb_realref(z)))
{
arb_get_abs_lbound_arf(u, acb_imagref(z), prec);
}
else
{
arf_t v;
arf_init(v);
arb_get_abs_lbound_arf(u, acb_realref(z), prec);
arb_get_abs_lbound_arf(v, acb_imagref(z), prec);
arf_mul(u, u, u, prec, ARF_RND_DOWN);
arf_mul(v, v, v, prec, ARF_RND_DOWN);
arf_add(u, u, v, prec, ARF_RND_DOWN);
arf_sqrt(u, u, prec, ARF_RND_DOWN);
arf_clear(v);
}
}
ACB_INLINE void
acb_get_rad_ubound_arf(arf_t u, const acb_t z, slong prec)
{
/* fixme: this bound is very sloppy */
if (mag_cmp(arb_radref(acb_realref(z)), arb_radref(acb_imagref(z))) >= 0)
arf_set_mag(u, arb_radref(acb_realref(z)));
else
arf_set_mag(u, arb_radref(acb_imagref(z)));
arf_mul_2exp_si(u, u, 1);
}
void acb_arg(arb_t r, const acb_t z, slong prec);
ACB_INLINE void
acb_add(acb_t z, const acb_t x, const acb_t y, slong prec)
{
arb_add(acb_realref(z), acb_realref(x), acb_realref(y), prec);
arb_add(acb_imagref(z), acb_imagref(x), acb_imagref(y), prec);
}
ACB_INLINE void
acb_sub(acb_t z, const acb_t x, const acb_t y, slong prec)
{
arb_sub(acb_realref(z), acb_realref(x), acb_realref(y), prec);
arb_sub(acb_imagref(z), acb_imagref(x), acb_imagref(y), prec);
}
ACB_INLINE void
acb_add_si(acb_t z, const acb_t x, ulong c, slong prec)
{
arb_add_si(acb_realref(z), acb_realref(x), c, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_add_ui(acb_t z, const acb_t x, ulong c, slong prec)
{
arb_add_ui(acb_realref(z), acb_realref(x), c, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_sub_si(acb_t z, const acb_t x, ulong c, slong prec)
{
arb_sub_si(acb_realref(z), acb_realref(x), c, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_sub_ui(acb_t z, const acb_t x, ulong c, slong prec)
{
arb_sub_ui(acb_realref(z), acb_realref(x), c, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_add_fmpz(acb_t z, const acb_t x, const fmpz_t y, slong prec)
{
arb_add_fmpz(acb_realref(z), acb_realref(x), y, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_add_arb(acb_t z, const acb_t x, const arb_t y, slong prec)
{
arb_add(acb_realref(z), acb_realref(x), y, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_sub_fmpz(acb_t z, const acb_t x, const fmpz_t y, slong prec)
{
arb_sub_fmpz(acb_realref(z), acb_realref(x), y, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_sub_arb(acb_t z, const acb_t x, const arb_t y, slong prec)
{
arb_sub(acb_realref(z), acb_realref(x), y, prec);
arb_set_round(acb_imagref(z), acb_imagref(x), prec);
}
ACB_INLINE void
acb_neg(acb_t z, const acb_t x)
{
arb_neg(acb_realref(z), acb_realref(x));
arb_neg(acb_imagref(z), acb_imagref(x));
}
ACB_INLINE void
acb_conj(acb_t z, const acb_t x)
{
arb_set(acb_realref(z), acb_realref(x));
arb_neg(acb_imagref(z), acb_imagref(x));
}
ACB_INLINE void
acb_abs(arb_t u, const acb_t z, slong prec)
{
arb_hypot(u, acb_realref(z), acb_imagref(z), prec);
}
ACB_INLINE void
acb_mul_ui(acb_t z, const acb_t x, ulong y, slong prec)
{
arb_mul_ui(acb_realref(z), acb_realref(x), y, prec);
arb_mul_ui(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_mul_si(acb_t z, const acb_t x, slong y, slong prec)
{
arb_mul_si(acb_realref(z), acb_realref(x), y, prec);
arb_mul_si(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_mul_fmpz(acb_t z, const acb_t x, const fmpz_t y, slong prec)
{
arb_mul_fmpz(acb_realref(z), acb_realref(x), y, prec);
arb_mul_fmpz(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_mul_arb(acb_t z, const acb_t x, const arb_t y, slong prec)
{
arb_mul(acb_realref(z), acb_realref(x), y, prec);
arb_mul(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_mul_onei(acb_t z, const acb_t x)
{
if (z == x)
{
arb_swap(acb_realref(z), acb_imagref(z));
arb_neg(acb_realref(z), acb_realref(z));
}
else
{
arb_neg(acb_realref(z), acb_imagref(x));
arb_set(acb_imagref(z), acb_realref(x));
}
}
ACB_INLINE void
acb_div_onei(acb_t z, const acb_t x)
{
if (z == x)
{
arb_swap(acb_realref(z), acb_imagref(z));
arb_neg(acb_imagref(z), acb_imagref(z));
}
else
{
arb_set(acb_realref(z), acb_imagref(x));
arb_neg(acb_imagref(z), acb_realref(x));
}
}
void acb_mul(acb_t z, const acb_t x, const acb_t y, slong prec);
void acb_mul_naive(acb_t z, const acb_t x, const acb_t y, slong prec);
ACB_INLINE void
acb_mul_2exp_si(acb_t z, const acb_t x, slong e)
{
arb_mul_2exp_si(acb_realref(z), acb_realref(x), e);
arb_mul_2exp_si(acb_imagref(z), acb_imagref(x), e);
}
ACB_INLINE void
acb_mul_2exp_fmpz(acb_t z, const acb_t x, const fmpz_t c)
{
arb_mul_2exp_fmpz(acb_realref(z), acb_realref(x), c);
arb_mul_2exp_fmpz(acb_imagref(z), acb_imagref(x), c);
}
void acb_addmul(acb_t z, const acb_t x, const acb_t y, slong prec);
void acb_submul(acb_t z, const acb_t x, const acb_t y, slong prec);
ACB_INLINE void
acb_addmul_ui(acb_t z, const acb_t x, ulong y, slong prec)
{
arb_addmul_ui(acb_realref(z), acb_realref(x), y, prec);
arb_addmul_ui(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_addmul_si(acb_t z, const acb_t x, slong y, slong prec)
{
arb_addmul_si(acb_realref(z), acb_realref(x), y, prec);
arb_addmul_si(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_submul_ui(acb_t z, const acb_t x, ulong y, slong prec)
{
arb_submul_ui(acb_realref(z), acb_realref(x), y, prec);
arb_submul_ui(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_submul_si(acb_t z, const acb_t x, slong y, slong prec)
{
arb_submul_si(acb_realref(z), acb_realref(x), y, prec);
arb_submul_si(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_addmul_fmpz(acb_t z, const acb_t x, const fmpz_t y, slong prec)
{
arb_addmul_fmpz(acb_realref(z), acb_realref(x), y, prec);
arb_addmul_fmpz(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_submul_fmpz(acb_t z, const acb_t x, const fmpz_t y, slong prec)
{
arb_submul_fmpz(acb_realref(z), acb_realref(x), y, prec);
arb_submul_fmpz(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_addmul_arb(acb_t z, const acb_t x, const arb_t y, slong prec)
{
arb_addmul(acb_realref(z), acb_realref(x), y, prec);
arb_addmul(acb_imagref(z), acb_imagref(x), y, prec);
}
ACB_INLINE void
acb_submul_arb(acb_t z, const acb_t x, const arb_t y, slong prec)
{
arb_submul(acb_realref(z), acb_realref(x), y, prec);
arb_submul(acb_imagref(z), acb_imagref(x), y, prec);
}
void acb_inv(acb_t z, const acb_t x, slong prec);
void acb_div(acb_t z, const acb_t x, const acb_t y, slong prec);
ACB_INLINE void
acb_div_ui(acb_t z, const acb_t x, ulong c, slong prec)
{
arb_div_ui(acb_realref(z), acb_realref(x), c, prec);
arb_div_ui(acb_imagref(z), acb_imagref(x), c, prec);
}
ACB_INLINE void
acb_div_si(acb_t z, const acb_t x, slong c, slong prec)
{
arb_div_si(acb_realref(z), acb_realref(x), c, prec);
arb_div_si(acb_imagref(z), acb_imagref(x), c, prec);
}
ACB_INLINE void
acb_div_arb(acb_t z, const acb_t x, const arb_t c, slong prec)
{
arb_div(acb_realref(z), acb_realref(x), c, prec);
arb_div(acb_imagref(z), acb_imagref(x), c, prec);
}
ACB_INLINE void
acb_div_fmpz(acb_t z, const acb_t x, const fmpz_t c, slong prec)
{
arb_div_fmpz(acb_realref(z), acb_realref(x), c, prec);
arb_div_fmpz(acb_imagref(z), acb_imagref(x), c, prec);
}
void acb_cube(acb_t y, const acb_t x, slong prec);
void acb_pow_fmpz(acb_t y, const acb_t b, const fmpz_t e, slong prec);
void acb_pow_ui(acb_t y, const acb_t b, ulong e, slong prec);
void acb_pow_si(acb_t y, const acb_t b, slong e, slong prec);
ACB_INLINE void
acb_const_pi(acb_t x, slong prec)
{
arb_const_pi(acb_realref(x), prec);
arb_zero(acb_imagref(x));
}
void acb_log(acb_t r, const acb_t z, slong prec);
void acb_log1p(acb_t r, const acb_t z, slong prec);
void acb_exp(acb_t r, const acb_t z, slong prec);
void acb_exp_pi_i(acb_t r, const acb_t z, slong prec);
void acb_exp_invexp(acb_t r, acb_t s, const acb_t z, slong prec);
void acb_sin(acb_t r, const acb_t z, slong prec);
void acb_cos(acb_t r, const acb_t z, slong prec);
void acb_sin_cos(acb_t s, acb_t c, const acb_t z, slong prec);
void acb_tan(acb_t r, const acb_t z, slong prec);
void acb_cot(acb_t r, const acb_t z, slong prec);
void acb_asin(acb_t r, const acb_t z, slong prec);
void acb_acos(acb_t r, const acb_t z, slong prec);
void acb_atan(acb_t r, const acb_t z, slong prec);
void acb_asinh(acb_t r, const acb_t z, slong prec);
void acb_acosh(acb_t r, const acb_t z, slong prec);
void acb_atanh(acb_t r, const acb_t z, slong prec);
ACB_INLINE void
acb_sinh(acb_t y, const acb_t x, slong prec)
{
acb_mul_onei(y, x);
acb_sin(y, y, prec);
acb_div_onei(y, y);
}
ACB_INLINE void
acb_cosh(acb_t y, const acb_t x, slong prec)
{
acb_mul_onei(y, x);
acb_cos(y, y, prec);
}
ACB_INLINE void
acb_sinh_cosh(acb_t y, acb_t z, const acb_t x, slong prec)
{
acb_mul_onei(y, x);
acb_sin_cos(y, z, y, prec);
acb_div_onei(y, y);
}
ACB_INLINE void
acb_tanh(acb_t y, const acb_t x, slong prec)
{
acb_mul_onei(y, x);
acb_tan(y, y, prec);
acb_div_onei(y, y);
}
ACB_INLINE void
acb_coth(acb_t y, const acb_t x, slong prec)
{
acb_mul_onei(y, x);
acb_cot(y, y, prec);
acb_mul_onei(y, y);
}
void acb_sin_pi(acb_t r, const acb_t z, slong prec);
void acb_cos_pi(acb_t r, const acb_t z, slong prec);
void acb_sin_cos_pi(acb_t s, acb_t c, const acb_t z, slong prec);
void acb_tan_pi(acb_t r, const acb_t z, slong prec);
void acb_cot_pi(acb_t r, const acb_t z, slong prec);
void acb_pow_arb(acb_t z, const acb_t x, const arb_t y, slong prec);
void acb_pow(acb_t r, const acb_t x, const acb_t y, slong prec);
void acb_sqrt(acb_t y, const acb_t x, slong prec);
void acb_rsqrt(acb_t y, const acb_t x, slong prec);
void acb_root_ui(acb_t y, const acb_t x, ulong k, slong prec);
void acb_quadratic_roots_fmpz(acb_t r1, acb_t r2,
const fmpz_t a, const fmpz_t b, const fmpz_t c, slong prec);
void acb_chebyshev_t_ui(acb_t a, ulong n, const acb_t x, slong prec);
void acb_chebyshev_t2_ui(acb_t a, acb_t b, ulong n, const acb_t x, slong prec);
void acb_chebyshev_u_ui(acb_t a, ulong n, const acb_t x, slong prec);
void acb_chebyshev_u2_ui(acb_t a, acb_t b, ulong n, const acb_t x, slong prec);
void acb_rising_ui_bs(acb_t y, const acb_t x, ulong n, slong prec);
void acb_rising_ui_rs(acb_t y, const acb_t x, ulong n, ulong m, slong prec);
void acb_rising_ui_rec(acb_t y, const acb_t x, ulong n, slong prec);
void acb_rising_ui(acb_t z, const acb_t x, ulong n, slong prec);
void acb_rising(acb_t z, const acb_t x, const acb_t n, slong prec);
void acb_rising2_ui_bs(acb_t u, acb_t v, const acb_t x, ulong n, slong prec);
void acb_rising2_ui_rs(acb_t u, acb_t v, const acb_t x, ulong n, ulong m, slong prec);
void acb_rising2_ui(acb_t u, acb_t v, const acb_t x, ulong n, slong prec);
void acb_rising_ui_get_mag(mag_t bound, const acb_t s, ulong n);
void acb_gamma(acb_t y, const acb_t x, slong prec);
void acb_rgamma(acb_t y, const acb_t x, slong prec);
void acb_lgamma(acb_t y, const acb_t x, slong prec);
void acb_log_sin_pi(acb_t res, const acb_t z, slong prec);
void acb_digamma(acb_t y, const acb_t x, slong prec);
void acb_zeta(acb_t z, const acb_t s, slong prec);
void acb_hurwitz_zeta(acb_t z, const acb_t s, const acb_t a, slong prec);
void acb_polygamma(acb_t res, const acb_t s, const acb_t z, slong prec);
void acb_log_barnes_g(acb_t res, const acb_t z, slong prec);
void acb_barnes_g(acb_t res, const acb_t z, slong prec);
void acb_polylog(acb_t w, const acb_t s, const acb_t z, slong prec);
void acb_polylog_si(acb_t w, slong s, const acb_t z, slong prec);
void acb_agm1(acb_t m, const acb_t z, slong prec);
void acb_agm1_cpx(acb_ptr m, const acb_t z, slong len, slong prec);
/*
TBD
void acb_invroot_newton(acb_t r, const acb_t a, ulong m, const acb_t r0, slong startprec, slong prec);
void acb_root_exp(acb_t r, const acb_t a, slong m, slong index, slong prec);
void acb_root_newton(acb_t r, const acb_t a, slong m, slong index, slong prec);
void acb_root(acb_t r, const acb_t a, slong m, slong index, slong prec);
*/
ACB_INLINE int
acb_is_finite(const acb_t x)
{
return arb_is_finite(acb_realref(x)) && arb_is_finite(acb_imagref(x));
}
ACB_INLINE void
acb_indeterminate(acb_t x)
{
arb_indeterminate(acb_realref(x));
arb_indeterminate(acb_imagref(x));
}
ACB_INLINE acb_ptr
_acb_vec_entry_ptr(acb_ptr vec, slong i)
{
return vec + i;
}
ACB_INLINE void
_acb_vec_zero(acb_ptr A, slong n)
{
slong i;
for (i = 0; i < n; i++)
acb_zero(A + i);
}
ACB_INLINE int
_acb_vec_is_zero(acb_srcptr vec, slong len)
{
slong i;
for (i = 0; i < len; i++)
if (!acb_is_zero(vec + i))
return 0;
return 1;
}
ACB_INLINE void
_acb_vec_set(acb_ptr res, acb_srcptr vec, slong len)
{
slong i;
for (i = 0; i < len; i++)
acb_set(res + i, vec + i);
}
ACB_INLINE void
_acb_vec_set_round(acb_ptr res, acb_srcptr vec, slong len, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_set_round(res + i, vec + i, prec);
}
ACB_INLINE void
_acb_vec_neg(acb_ptr res, acb_srcptr vec, slong len)
{
slong i;
for (i = 0; i < len; i++)
acb_neg(res + i, vec + i);
}
ACB_INLINE void
_acb_vec_add(acb_ptr res, acb_srcptr vec1, acb_srcptr vec2, slong len, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_add(res + i, vec1 + i, vec2 + i, prec);
}
ACB_INLINE void
_acb_vec_sub(acb_ptr res, acb_srcptr vec1, acb_srcptr vec2, slong len, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_sub(res + i, vec1 + i, vec2 + i, prec);
}
ACB_INLINE void
_acb_vec_scalar_submul(acb_ptr res, acb_srcptr vec, slong len, const acb_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_submul(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_addmul(acb_ptr res, acb_srcptr vec, slong len, const acb_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_addmul(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_mul(acb_ptr res, acb_srcptr vec, slong len, const acb_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_mul(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_mul_ui(acb_ptr res, acb_srcptr vec, slong len, ulong c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_mul_ui(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_mul_2exp_si(acb_ptr res, acb_srcptr vec, slong len, slong c)
{
slong i;
for (i = 0; i < len; i++)
acb_mul_2exp_si(res + i, vec + i, c);
}
ACB_INLINE void
_acb_vec_scalar_mul_onei(acb_ptr res, acb_srcptr vec, slong len)
{
slong i;
for (i = 0; i < len; i++)
acb_mul_onei(res + i, vec + i);
}
ACB_INLINE void
_acb_vec_scalar_div_ui(acb_ptr res, acb_srcptr vec, slong len, ulong c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_div_ui(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_div(acb_ptr res, acb_srcptr vec, slong len, const acb_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_div(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_mul_arb(acb_ptr res, acb_srcptr vec, slong len, const arb_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_mul_arb(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_div_arb(acb_ptr res, acb_srcptr vec, slong len, const arb_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
{
arb_div(acb_realref(res + i), acb_realref(vec + i), c, prec);
arb_div(acb_imagref(res + i), acb_imagref(vec + i), c, prec);
}
}
ACB_INLINE void
_acb_vec_scalar_mul_fmpz(acb_ptr res, acb_srcptr vec, slong len, const fmpz_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_mul_fmpz(res + i, vec + i, c, prec);
}
ACB_INLINE void
_acb_vec_scalar_div_fmpz(acb_ptr res, acb_srcptr vec, slong len, const fmpz_t c, slong prec)
{
slong i;
for (i = 0; i < len; i++)
acb_div_fmpz(res + i, vec + i, c, prec);
}
ACB_INLINE void
acb_print(const acb_t x)
{
flint_printf("(");
arb_print(acb_realref(x));
flint_printf(", ");
arb_print(acb_imagref(x));
flint_printf(")");
}
void acb_printd(const acb_t z, slong digits);
void acb_randtest(acb_t z, flint_rand_t state, slong prec, slong mag_bits);
void acb_randtest_special(acb_t z, flint_rand_t state, slong prec, slong mag_bits);
void acb_randtest_precise(acb_t z, flint_rand_t state, slong prec, slong mag_bits);
void acb_randtest_param(acb_t z, flint_rand_t state, slong prec, slong mag_bits);
slong acb_rel_error_bits(const acb_t x);
ACB_INLINE slong
acb_rel_accuracy_bits(const acb_t x)
{
return -acb_rel_error_bits(x);
}
ACB_INLINE slong
acb_bits(const acb_t x)
{
slong b1, b2;
b1 = arb_bits(acb_realref(x));
b2 = arb_bits(acb_imagref(x));
return FLINT_MAX(b1, b2);
}
ACB_INLINE int
acb_is_real(const acb_t x)
{
return arb_is_zero(acb_imagref(x));
}
ACB_INLINE int
_acb_vec_is_real(acb_srcptr v, slong len)
{
slong i;
for (i = 0; i < len; i++)
{
if (!acb_is_real(v + i))
return 0;
}
return 1;
}
ACB_INLINE slong
_acb_vec_bits(acb_srcptr vec, slong len)
{
return _arb_vec_bits((arb_srcptr) vec, 2 * len);
}
ACB_INLINE void
_acb_vec_set_powers(acb_ptr xs, const acb_t x, slong len, slong prec)
{
slong i;
for (i = 0; i < len; i++)
{
if (i == 0)
acb_one(xs + i);
else if (i == 1)
acb_set_round(xs + i, x, prec);
else if (i % 2 == 0)
acb_mul(xs + i, xs + i / 2, xs + i / 2, prec);
else
acb_mul(xs + i, xs + i - 1, x, prec);
}
}
ACB_INLINE void
_acb_vec_add_error_arf_vec(acb_ptr res, arf_srcptr err, slong len)
{
slong i;
for (i = 0; i < len; i++)
acb_add_error_arf(res + i, err + i);
}
ACB_INLINE void
_acb_vec_add_error_mag_vec(acb_ptr res, mag_srcptr err, slong len)
{
slong i;
for (i = 0; i < len; i++)
{
mag_add(arb_radref(acb_realref(res + i)),
arb_radref(acb_realref(res + i)), err + i);
mag_add(arb_radref(acb_imagref(res + i)),
arb_radref(acb_imagref(res + i)), err + i);
}
}
ACB_INLINE void
_acb_vec_indeterminate(acb_ptr vec, slong len)
{
_arb_vec_indeterminate((arb_ptr) vec, 2 * len);
}
ACB_INLINE void
_acb_vec_trim(acb_ptr res, acb_srcptr vec, slong len)
{
slong i;
for (i = 0; i < len; i++)
acb_trim(res + i, vec + i);
}
ACB_INLINE int
_acb_vec_get_unique_fmpz_vec(fmpz * res, acb_srcptr vec, slong len)
{
slong i;
for (i = 0; i < len; i++)
if (!acb_get_unique_fmpz(res + i, vec + i))
return 0;
return 1;
}
/* sort complex numbers in a nice-to-display order */
void _acb_vec_sort_pretty(acb_ptr vec, slong len);
#ifdef __cplusplus
}
#endif
#endif
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