/usr/include/arf.h is in libflint-arb-dev 2.8.1-3.
This file is owned by root:root, with mode 0o644.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 | /*=============================================================================
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) 2014 Fredrik Johansson
2x2 mul code taken from MPFR 2.3.0
(Copyright (C) 1991-2007 Free Software Foundation, Inc.)
******************************************************************************/
#ifndef ARF_H
#define ARF_H
#ifdef ARF_INLINES_C
#define ARF_INLINE
#else
#define ARF_INLINE static __inline__
#endif
#include <math.h>
#include "flint/flint.h"
#include "fmpr.h"
#include "mag.h"
#ifdef __cplusplus
extern "C" {
#endif
#define arf_rnd_t fmpr_rnd_t
#define ARF_RND_DOWN FMPR_RND_DOWN
#define ARF_RND_UP FMPR_RND_UP
#define ARF_RND_FLOOR FMPR_RND_FLOOR
#define ARF_RND_CEIL FMPR_RND_CEIL
#define ARF_RND_NEAR FMPR_RND_NEAR
ARF_INLINE int
arf_rounds_down(arf_rnd_t rnd, int sgnbit)
{
if (rnd == ARF_RND_DOWN) return 1;
if (rnd == ARF_RND_UP) return 0;
if (rnd == ARF_RND_FLOOR) return !sgnbit;
return sgnbit;
}
ARF_INLINE int
arf_rounds_up(arf_rnd_t rnd, int sgnbit)
{
if (rnd == ARF_RND_DOWN) return 0;
if (rnd == ARF_RND_UP) return 1;
if (rnd == ARF_RND_FLOOR) return sgnbit;
return !sgnbit;
}
ARF_INLINE mpfr_rnd_t
arf_rnd_to_mpfr(arf_rnd_t rnd)
{
if (rnd == ARF_RND_DOWN) return MPFR_RNDZ;
else if (rnd == ARF_RND_UP) return MPFR_RNDA;
else if (rnd == ARF_RND_FLOOR) return MPFR_RNDD;
else if (rnd == ARF_RND_CEIL) return MPFR_RNDU;
else return MPFR_RNDN;
}
/* Allow 'infinite' precision for operations where a result can be computed exactly. */
#define ARF_PREC_EXACT WORD_MAX
#define ARF_PREC_ADD(prec,extra) ((prec) == ARF_PREC_EXACT ? ARF_PREC_EXACT : (prec) + (extra))
#define ARF_RESULT_EXACT 0
#define ARF_RESULT_INEXACT 1
/* Range where we can skip fmpz overflow checks for exponent manipulation. */
#define ARF_MAX_LAGOM_EXP MAG_MAX_LAGOM_EXP
#define ARF_MIN_LAGOM_EXP MAG_MIN_LAGOM_EXP
/* Exponent values used to encode special values. */
#define ARF_EXP_ZERO 0
#define ARF_EXP_NAN COEFF_MIN
#define ARF_EXP_POS_INF (COEFF_MIN+1)
#define ARF_EXP_NEG_INF (COEFF_MIN+2)
/* Direct access to the exponent. */
#define ARF_EXP(x) ((x)->exp)
#define ARF_EXPREF(x) (&(x)->exp)
/* Finite and with lagom big exponents. */
#define ARF_IS_LAGOM(x) (ARF_EXP(x) >= ARF_MIN_LAGOM_EXP && \
ARF_EXP(x) <= ARF_MAX_LAGOM_EXP)
/* More than two limbs (needs pointer). */
#define ARF_HAS_PTR(x) ((x)->size > ((2 << 1) + 1))
/* Raw size field (encodes both limb size and sign). */
#define ARF_XSIZE(x) ((x)->size)
/* Construct size field value from size in limbs and sign bit. */
#define ARF_MAKE_XSIZE(size, sgnbit) ((((mp_size_t) size) << 1) | sgnbit)
/* The limb size, and the sign bit. */
#define ARF_SIZE(x) (ARF_XSIZE(x) >> 1)
#define ARF_SGNBIT(x) (ARF_XSIZE(x) & 1)
/* Assumes non-special value */
#define ARF_NEG(x) (ARF_XSIZE(x) ^= 1)
/* Note: may also be hardcoded in a few places. */
#define ARF_NOPTR_LIMBS 2
/* Direct access to the limb data. */
#define ARF_NOPTR_D(x) ((x)->d.noptr.d)
#define ARF_PTR_D(x) ((x)->d.ptr.d)
#define ARF_PTR_ALLOC(x) ((x)->d.ptr.alloc)
/* Encoding for special values. */
#define ARF_IS_SPECIAL(x) (ARF_XSIZE(x) == 0)
/* Value is +/- a power of two */
#define ARF_IS_POW2(x) (ARF_SIZE(x) == 1) && (ARF_NOPTR_D(x)[0] == LIMB_TOP)
/* To set a special value, first call this and then set the exponent. */
#define ARF_MAKE_SPECIAL(x) \
do { \
fmpz_clear(ARF_EXPREF(x)); \
ARF_DEMOTE(x); \
ARF_XSIZE(x) = 0; \
} while (0)
typedef struct
{
mp_limb_t d[ARF_NOPTR_LIMBS];
}
mantissa_noptr_struct;
typedef struct
{
mp_size_t alloc;
mp_ptr d;
}
mantissa_ptr_struct;
typedef union
{
mantissa_noptr_struct noptr;
mantissa_ptr_struct ptr;
}
mantissa_struct;
typedef struct
{
fmpz exp;
mp_size_t size;
mantissa_struct d;
}
arf_struct;
typedef arf_struct arf_t[1];
typedef arf_struct * arf_ptr;
typedef const arf_struct * arf_srcptr;
void _arf_promote(arf_t x, mp_size_t n);
void _arf_demote(arf_t x);
/* Warning: does not set size! -- also doesn't demote exponent. */
#define ARF_DEMOTE(x) \
do { \
if (ARF_HAS_PTR(x)) \
_arf_demote(x); \
} while (0)
/* Get mpn pointer and size (xptr, xn) for read-only use. */
#define ARF_GET_MPN_READONLY(xptr, xn, x) \
do { \
xn = ARF_SIZE(x); \
if (xn <= ARF_NOPTR_LIMBS) \
xptr = ARF_NOPTR_D(x); \
else \
xptr = ARF_PTR_D(x); \
} while (0)
/* Assumes non-special! */
#define ARF_GET_TOP_LIMB(lmb, x) \
do { \
mp_srcptr __xptr; \
mp_size_t __xn; \
ARF_GET_MPN_READONLY(__xptr, __xn, (x)); \
(lmb) = __xptr[__xn - 1]; \
} while (0)
/* Get mpn pointer xptr for writing *exactly* xn limbs to x. */
#define ARF_GET_MPN_WRITE(xptr, xn, x) \
do { \
mp_size_t __xn = (xn); \
if ((__xn) <= ARF_NOPTR_LIMBS) \
{ \
ARF_DEMOTE(x); \
xptr = ARF_NOPTR_D(x); \
} \
else \
{ \
if (!ARF_HAS_PTR(x)) \
{ \
_arf_promote(x, __xn); \
} \
else if (ARF_PTR_ALLOC(x) < (__xn)) \
{ \
ARF_PTR_D(x) = (mp_ptr) \
flint_realloc(ARF_PTR_D(x), \
(xn) * sizeof(mp_limb_t)); \
ARF_PTR_ALLOC(x) = (__xn); \
} \
xptr = ARF_PTR_D(x); \
} \
ARF_XSIZE(x) = ARF_MAKE_XSIZE(__xn, 0); \
} while (0)
ARF_INLINE void
arf_init(arf_t x)
{
fmpz_init(ARF_EXPREF(x));
ARF_XSIZE(x) = 0;
}
ARF_INLINE void
arf_clear(arf_t x)
{
fmpz_clear(ARF_EXPREF(x));
ARF_DEMOTE(x);
}
ARF_INLINE void
arf_zero(arf_t x)
{
ARF_MAKE_SPECIAL(x);
ARF_EXP(x) = ARF_EXP_ZERO;
}
ARF_INLINE void
arf_pos_inf(arf_t x)
{
ARF_MAKE_SPECIAL(x);
ARF_EXP(x) = ARF_EXP_POS_INF;
}
ARF_INLINE void
arf_neg_inf(arf_t x)
{
ARF_MAKE_SPECIAL(x);
ARF_EXP(x) = ARF_EXP_NEG_INF;
}
ARF_INLINE void
arf_nan(arf_t x)
{
ARF_MAKE_SPECIAL(x);
ARF_EXP(x) = ARF_EXP_NAN;
}
ARF_INLINE int
arf_is_special(const arf_t x)
{
return ARF_IS_SPECIAL(x);
}
ARF_INLINE int
arf_is_zero(const arf_t x)
{
return ARF_IS_SPECIAL(x) && (ARF_EXP(x) == ARF_EXP_ZERO);
}
ARF_INLINE int
arf_is_pos_inf(const arf_t x)
{
return ARF_IS_SPECIAL(x) && (ARF_EXP(x) == ARF_EXP_POS_INF);
}
ARF_INLINE int
arf_is_neg_inf(const arf_t x)
{
return ARF_IS_SPECIAL(x) && (ARF_EXP(x) == ARF_EXP_NEG_INF);
}
ARF_INLINE int
arf_is_nan(const arf_t x)
{
return ARF_IS_SPECIAL(x) && (ARF_EXP(x) == ARF_EXP_NAN);
}
ARF_INLINE int
arf_is_normal(const arf_t x)
{
return !ARF_IS_SPECIAL(x);
}
ARF_INLINE int
arf_is_finite(const arf_t x)
{
return !ARF_IS_SPECIAL(x) || (ARF_EXP(x) == ARF_EXP_ZERO);
}
ARF_INLINE int
arf_is_inf(const arf_t x)
{
return ARF_IS_SPECIAL(x) && (ARF_EXP(x) == ARF_EXP_POS_INF ||
ARF_EXP(x) == ARF_EXP_NEG_INF);
}
ARF_INLINE void
arf_one(arf_t x)
{
fmpz_clear(ARF_EXPREF(x));
ARF_DEMOTE(x);
ARF_EXP(x) = 1;
ARF_XSIZE(x) = ARF_MAKE_XSIZE(1, 0);
ARF_NOPTR_D(x)[0] = LIMB_TOP;
}
ARF_INLINE int
arf_is_one(const arf_t x)
{
return (ARF_EXP(x) == 1) && (ARF_XSIZE(x) == ARF_MAKE_XSIZE(1, 0))
&& ARF_NOPTR_D(x)[0] == LIMB_TOP;
}
ARF_INLINE int
arf_sgn(const arf_t x)
{
if (arf_is_special(x))
{
if (arf_is_zero(x) || arf_is_nan(x))
return 0;
return arf_is_pos_inf(x) ? 1 : -1;
}
else
{
return ARF_SGNBIT(x) ? -1 : 1;
}
}
int arf_cmp(const arf_t x, const arf_t y);
int arf_cmpabs(const arf_t x, const arf_t y);
ARF_INLINE void
arf_swap(arf_t y, arf_t x)
{
if (x != y)
{
arf_struct t = *x;
*x = *y;
*y = t;
}
}
ARF_INLINE void
arf_set(arf_t y, const arf_t x)
{
if (x != y)
{
/* Fast path */
if (!COEFF_IS_MPZ(ARF_EXP(x)) && !COEFF_IS_MPZ(ARF_EXP(y)))
ARF_EXP(y) = ARF_EXP(x);
else
fmpz_set(ARF_EXPREF(y), ARF_EXPREF(x));
/* Fast path */
if (!ARF_HAS_PTR(x))
{
ARF_DEMOTE(y);
(y)->d = (x)->d;
}
else
{
mp_ptr yptr;
mp_srcptr xptr;
mp_size_t n;
ARF_GET_MPN_READONLY(xptr, n, x);
ARF_GET_MPN_WRITE(yptr, n, y);
flint_mpn_copyi(yptr, xptr, n);
}
/* Important. */
ARF_XSIZE(y) = ARF_XSIZE(x);
}
}
ARF_INLINE void
arf_neg(arf_t y, const arf_t x)
{
arf_set(y, x);
if (arf_is_special(y))
{
if (arf_is_pos_inf(y))
arf_neg_inf(y);
else if (arf_is_neg_inf(y))
arf_pos_inf(y);
}
else
{
ARF_NEG(y);
}
}
ARF_INLINE void
arf_init_set_ui(arf_t x, ulong v)
{
if (v == 0)
{
ARF_EXP(x) = ARF_EXP_ZERO;
ARF_XSIZE(x) = 0;
}
else
{
unsigned int c;
count_leading_zeros(c, v);
ARF_EXP(x) = FLINT_BITS - c;
ARF_NOPTR_D(x)[0] = v << c;
ARF_XSIZE(x) = ARF_MAKE_XSIZE(1, 0);
}
}
ARF_INLINE void
arf_init_set_si(arf_t x, slong v)
{
arf_init_set_ui(x, FLINT_ABS(v));
if (v < 0)
ARF_NEG(x);
}
ARF_INLINE void
arf_set_ui(arf_t x, ulong v)
{
ARF_DEMOTE(x);
_fmpz_demote(ARF_EXPREF(x));
if (v == 0)
{
ARF_EXP(x) = ARF_EXP_ZERO;
ARF_XSIZE(x) = 0;
}
else
{
unsigned int c;
count_leading_zeros(c, v);
ARF_EXP(x) = FLINT_BITS - c;
ARF_NOPTR_D(x)[0] = v << c;
ARF_XSIZE(x) = ARF_MAKE_XSIZE(1, 0);
}
}
ARF_INLINE void
arf_set_si(arf_t x, slong v)
{
arf_set_ui(x, FLINT_ABS(v));
if (v < 0)
ARF_NEG(x);
}
ARF_INLINE int
arf_cmpabs_ui(const arf_t x, ulong y)
{
arf_t t;
arf_init_set_ui(t, y); /* no need to free */
return arf_cmpabs(x, t);
}
ARF_INLINE void
arf_init_set_shallow(arf_t z, const arf_t x)
{
*z = *x;
}
ARF_INLINE void
arf_init_neg_shallow(arf_t z, const arf_t x)
{
*z = *x;
arf_neg(z, z);
}
ARF_INLINE void
arf_init_set_mag_shallow(arf_t y, const mag_t x)
{
mp_limb_t t = MAG_MAN(x);
ARF_XSIZE(y) = ARF_MAKE_XSIZE(t != 0, 0);
ARF_EXP(y) = MAG_EXP(x);
ARF_NOPTR_D(y)[0] = t << (FLINT_BITS - MAG_BITS);
}
ARF_INLINE void
arf_init_neg_mag_shallow(arf_t z, const mag_t x)
{
arf_init_set_mag_shallow(z, x);
arf_neg(z, z);
}
ARF_INLINE int
arf_cmpabs_mag(const arf_t x, const mag_t y)
{
arf_t t;
arf_init_set_mag_shallow(t, y); /* no need to free */
return arf_cmpabs(x, t);
}
ARF_INLINE int
arf_mag_cmpabs(const mag_t x, const arf_t y)
{
arf_t t;
arf_init_set_mag_shallow(t, x); /* no need to free */
return arf_cmpabs(t, y);
}
/* Assumes xn > 0, x[xn-1] != 0. */
/* TBD: 1, 2 limb versions */
void arf_set_mpn(arf_t y, mp_srcptr x, mp_size_t xn, int sgnbit);
ARF_INLINE void
arf_set_mpz(arf_t y, const mpz_t x)
{
slong size = x->_mp_size;
if (size == 0)
arf_zero(y);
else
arf_set_mpn(y, x->_mp_d, FLINT_ABS(size), size < 0);
}
ARF_INLINE void
arf_set_fmpz(arf_t y, const fmpz_t x)
{
if (!COEFF_IS_MPZ(*x))
arf_set_si(y, *x);
else
arf_set_mpz(y, COEFF_TO_PTR(*x));
}
int _arf_set_round_ui(arf_t x, ulong v, int sgnbit, slong prec, arf_rnd_t rnd);
/* TODO: document */
int _arf_set_round_uiui(arf_t z, slong * fix, mp_limb_t hi, mp_limb_t lo, int sgnbit, slong prec, arf_rnd_t rnd);
/* Assumes xn > 0, x[xn-1] != 0. */
int
_arf_set_round_mpn(arf_t y, slong * exp_shift, mp_srcptr x, mp_size_t xn,
int sgnbit, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_set_round_ui(arf_t x, ulong v, slong prec, arf_rnd_t rnd)
{
return _arf_set_round_ui(x, v, 0, prec, rnd);
}
ARF_INLINE int
arf_set_round_si(arf_t x, slong v, slong prec, arf_rnd_t rnd)
{
return _arf_set_round_ui(x, FLINT_ABS(v), v < 0, prec, rnd);
}
ARF_INLINE int
arf_set_round_mpz(arf_t y, const mpz_t x, slong prec, arf_rnd_t rnd)
{
int inexact;
slong size = x->_mp_size;
slong fix;
if (size == 0)
{
arf_zero(y);
return 0;
}
inexact = _arf_set_round_mpn(y, &fix, x->_mp_d, FLINT_ABS(size),
(size < 0), prec, rnd);
_fmpz_demote(ARF_EXPREF(y));
ARF_EXP(y) = FLINT_ABS(size) * FLINT_BITS + fix;
return inexact;
}
ARF_INLINE int
arf_set_round_fmpz(arf_t y, const fmpz_t x, slong prec, arf_rnd_t rnd)
{
if (!COEFF_IS_MPZ(*x))
return arf_set_round_si(y, *x, prec, rnd);
else
return arf_set_round_mpz(y, COEFF_TO_PTR(*x), prec, rnd);
}
int arf_set_round(arf_t y, const arf_t x, slong prec, arf_rnd_t rnd);
int arf_neg_round(arf_t y, const arf_t x, slong prec, arf_rnd_t rnd);
void arf_get_fmpr(fmpr_t y, const arf_t x);
void arf_set_fmpr(arf_t y, const fmpr_t x);
int arf_get_mpfr(mpfr_t x, const arf_t y, mpfr_rnd_t rnd);
void arf_set_mpfr(arf_t x, const mpfr_t y);
int arf_equal(const arf_t x, const arf_t y);
int arf_equal_si(const arf_t x, slong y);
ARF_INLINE void
arf_min(arf_t z, const arf_t a, const arf_t b)
{
if (arf_cmp(a, b) <= 0)
arf_set(z, a);
else
arf_set(z, b);
}
ARF_INLINE void
arf_max(arf_t z, const arf_t a, const arf_t b)
{
if (arf_cmp(a, b) > 0)
arf_set(z, a);
else
arf_set(z, b);
}
ARF_INLINE void
arf_abs(arf_t y, const arf_t x)
{
if (arf_sgn(x) < 0)
arf_neg(y, x);
else
arf_set(y, x);
}
ARF_INLINE slong
arf_bits(const arf_t x)
{
if (arf_is_special(x))
return 0;
else
{
mp_srcptr xp;
mp_size_t xn;
slong c;
ARF_GET_MPN_READONLY(xp, xn, x);
count_trailing_zeros(c, xp[0]);
return xn * FLINT_BITS - c;
}
}
ARF_INLINE void
arf_bot(fmpz_t e, const arf_t x)
{
if (arf_is_special(x))
fmpz_zero(e);
else
fmpz_sub_si(e, ARF_EXPREF(x), arf_bits(x));
}
ARF_INLINE int
arf_is_int(const arf_t x)
{
if (arf_is_special(x))
return arf_is_zero(x);
else
{
fmpz_t t;
int r;
fmpz_init(t);
arf_bot(t, x);
r = fmpz_sgn(t) >= 0;
fmpz_clear(t);
return r;
}
}
ARF_INLINE int
arf_is_int_2exp_si(const arf_t x, slong e)
{
if (arf_is_special(x))
return arf_is_zero(x);
else
{
fmpz_t t;
int r;
fmpz_init(t);
arf_bot(t, x);
r = fmpz_cmp_si(t, e) >= 0;
fmpz_clear(t);
return r;
}
}
int arf_cmp_2exp_si(const arf_t x, slong e);
int arf_cmpabs_2exp_si(const arf_t x, slong e);
ARF_INLINE void
arf_set_si_2exp_si(arf_t x, slong man, slong exp)
{
arf_set_si(x, man);
if (man != 0)
fmpz_add_si_inline(ARF_EXPREF(x), ARF_EXPREF(x), exp);
}
ARF_INLINE void
arf_set_ui_2exp_si(arf_t x, ulong man, slong exp)
{
arf_set_ui(x, man);
if (man != 0)
fmpz_add_si_inline(ARF_EXPREF(x), ARF_EXPREF(x), exp);
}
ARF_INLINE void
arf_mul_2exp_si(arf_t y, const arf_t x, slong e)
{
arf_set(y, x);
if (!arf_is_special(y))
fmpz_add_si_inline(ARF_EXPREF(y), ARF_EXPREF(y), e);
}
ARF_INLINE void
arf_mul_2exp_fmpz(arf_t y, const arf_t x, const fmpz_t e)
{
arf_set(y, x);
if (!arf_is_special(y))
fmpz_add_inline(ARF_EXPREF(y), ARF_EXPREF(y), e);
}
ARF_INLINE int
arf_set_round_fmpz_2exp(arf_t y, const fmpz_t x, const fmpz_t exp, slong prec, arf_rnd_t rnd)
{
if (fmpz_is_zero(x))
{
arf_zero(y);
return 0;
}
else
{
int r = arf_set_round_fmpz(y, x, prec, rnd);
fmpz_add_inline(ARF_EXPREF(y), ARF_EXPREF(y), exp);
return r;
}
}
ARF_INLINE void
arf_abs_bound_lt_2exp_fmpz(fmpz_t b, const arf_t x)
{
if (arf_is_special(x))
fmpz_zero(b);
else
fmpz_set(b, ARF_EXPREF(x));
}
ARF_INLINE void
arf_abs_bound_le_2exp_fmpz(fmpz_t b, const arf_t x)
{
if (arf_is_special(x))
fmpz_zero(b);
else if (ARF_IS_POW2(x))
fmpz_sub_ui(b, ARF_EXPREF(x), 1);
else
fmpz_set(b, ARF_EXPREF(x));
}
slong arf_abs_bound_lt_2exp_si(const arf_t x);
void arf_get_fmpz_2exp(fmpz_t man, fmpz_t exp, const arf_t x);
void arf_get_fmpz(fmpz_t z, const arf_t x, arf_rnd_t rnd);
slong arf_get_si(const arf_t x, arf_rnd_t rnd);
ARF_INLINE int
arf_get_fmpz_fixed_fmpz(fmpz_t y, const arf_t x, const fmpz_t e)
{
int r;
fmpr_t t;
fmpr_init(t);
arf_get_fmpr(t, x);
r = fmpr_get_fmpz_fixed_fmpz(y, t, e);
fmpr_clear(t);
return r;
}
ARF_INLINE int
arf_get_fmpz_fixed_si(fmpz_t y, const arf_t x, slong e)
{
int r;
fmpr_t t;
fmpr_init(t);
arf_get_fmpr(t, x);
r = fmpr_get_fmpz_fixed_si(y, t, e);
fmpr_clear(t);
return r;
}
ARF_INLINE void
arf_set_fmpz_2exp(arf_t x, const fmpz_t man, const fmpz_t exp)
{
arf_set_fmpz(x, man);
if (!arf_is_zero(x))
fmpz_add_inline(ARF_EXPREF(x), ARF_EXPREF(x), exp);
}
void arf_floor(arf_t z, const arf_t x);
void arf_ceil(arf_t z, const arf_t x);
void arf_debug(const arf_t x);
void arf_print(const arf_t x);
void arf_printd(const arf_t y, slong d);
void arf_randtest(arf_t x, flint_rand_t state, slong bits, slong mag_bits);
void arf_randtest_not_zero(arf_t x, flint_rand_t state, slong bits, slong mag_bits);
void arf_randtest_special(arf_t x, flint_rand_t state, slong bits, slong mag_bits);
#define MUL_MPFR_MIN_LIMBS 25
#define MUL_MPFR_MAX_LIMBS 10000
#define nn_mul_2x1(r2, r1, r0, a1, a0, b0) \
do { \
mp_limb_t t1; \
umul_ppmm(r1, r0, a0, b0); \
umul_ppmm(r2, t1, a1, b0); \
add_ssaaaa(r2, r1, r2, r1, 0, t1); \
} while (0)
#define nn_mul_2x2(r3, r2, r1, r0, a1, a0, b1, b0) \
do { \
mp_limb_t t1, t2, t3; \
umul_ppmm(r1, r0, a0, b0); \
umul_ppmm(r2, t1, a1, b0); \
add_ssaaaa(r2, r1, r2, r1, 0, t1); \
umul_ppmm(t1, t2, a0, b1); \
umul_ppmm(r3, t3, a1, b1); \
add_ssaaaa(r3, t1, r3, t1, 0, t3); \
add_ssaaaa(r2, r1, r2, r1, t1, t2); \
r3 += r2 < t1; \
} while (0)
#define ARF_MPN_MUL(_z, _x, _xn, _y, _yn) \
if ((_xn) == (_yn)) \
{ \
if ((_xn) == 1) \
{ \
umul_ppmm((_z)[1], (_z)[0], (_x)[0], (_y)[0]); \
} \
else if ((_xn) == 2) \
{ \
mp_limb_t __arb_x1, __arb_x0, __arb_y1, __arb_y0; \
__arb_x0 = (_x)[0]; \
__arb_x1 = (_x)[1]; \
__arb_y0 = (_y)[0]; \
__arb_y1 = (_y)[1]; \
nn_mul_2x2((_z)[3], (_z)[2], (_z)[1], (_z)[0], __arb_x1, __arb_x0, __arb_y1, __arb_y0); \
} \
else if ((_x) == (_y)) \
{ \
mpn_sqr((_z), (_x), (_xn)); \
} \
else \
{ \
mpn_mul_n((_z), (_x), (_y), (_xn)); \
} \
} \
else if ((_xn) > (_yn)) \
{ \
if ((_yn) == 1) \
(_z)[(_xn) + (_yn) - 1] = mpn_mul_1((_z), (_x), (_xn), (_y)[0]); \
else \
mpn_mul((_z), (_x), (_xn), (_y), (_yn)); \
} \
else \
{ \
if ((_xn) == 1) \
(_z)[(_xn) + (_yn) - 1] = mpn_mul_1((_z), (_y), (_yn), (_x)[0]); \
else \
mpn_mul((_z), (_y), (_yn), (_x), (_xn)); \
}
#define ARF_MUL_STACK_ALLOC 40
#define ARF_MUL_TLS_ALLOC 1000
extern TLS_PREFIX mp_ptr __arf_mul_tmp;
extern TLS_PREFIX slong __arf_mul_alloc;
extern void _arf_mul_tmp_cleanup(void);
#define ARF_MUL_TMP_DECL \
mp_limb_t tmp_stack[ARF_MUL_STACK_ALLOC]; \
#define ARF_MUL_TMP_ALLOC(tmp, alloc) \
if (alloc <= ARF_MUL_STACK_ALLOC) \
{ \
tmp = tmp_stack; \
} \
else if (alloc <= ARF_MUL_TLS_ALLOC) \
{ \
if (__arf_mul_alloc < alloc) \
{ \
if (__arf_mul_alloc == 0) \
{ \
flint_register_cleanup_function(_arf_mul_tmp_cleanup); \
} \
__arf_mul_tmp = flint_realloc(__arf_mul_tmp, sizeof(mp_limb_t) * alloc); \
__arf_mul_alloc = alloc; \
} \
tmp = __arf_mul_tmp; \
} \
else \
{ \
tmp = flint_malloc(sizeof(mp_limb_t) * alloc); \
}
#define ARF_MUL_TMP_FREE(tmp, alloc) \
if (alloc > ARF_MUL_TLS_ALLOC) \
flint_free(tmp);
void arf_mul_special(arf_t z, const arf_t x, const arf_t y);
int arf_mul_via_mpfr(arf_t z, const arf_t x, const arf_t y, slong prec, arf_rnd_t rnd);
int arf_mul_rnd_any(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec, arf_rnd_t rnd);
int arf_mul_rnd_down(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec);
#define arf_mul(z, x, y, prec, rnd) \
((rnd == FMPR_RND_DOWN) \
? arf_mul_rnd_down(z, x, y, prec) \
: arf_mul_rnd_any(z, x, y, prec, rnd))
ARF_INLINE int
arf_neg_mul(arf_t z, const arf_t x, const arf_t y, slong prec, arf_rnd_t rnd)
{
if (arf_is_special(y))
{
arf_mul(z, x, y, prec, rnd);
arf_neg(z, z);
return 0;
}
else
{
arf_t t;
*t = *y;
ARF_NEG(t);
return arf_mul(z, x, t, prec, rnd);
}
}
ARF_INLINE int
arf_mul_ui(arf_ptr z, arf_srcptr x, ulong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_ui(t, y); /* no need to free */
return arf_mul(z, x, t, prec, rnd);
}
ARF_INLINE int
arf_mul_si(arf_ptr z, arf_srcptr x, slong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_si(t, y); /* no need to free */
return arf_mul(z, x, t, prec, rnd);
}
int arf_mul_mpz(arf_ptr z, arf_srcptr x, const mpz_t y, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_mul_fmpz(arf_ptr z, arf_srcptr x, const fmpz_t y, slong prec, arf_rnd_t rnd)
{
if (!COEFF_IS_MPZ(*y))
return arf_mul_si(z, x, *y, prec, rnd);
else
return arf_mul_mpz(z, x, COEFF_TO_PTR(*y), prec, rnd);
}
#define ARF_ADD_STACK_ALLOC 40
#define ARF_ADD_TLS_ALLOC 1000
extern TLS_PREFIX mp_ptr __arf_add_tmp;
extern TLS_PREFIX slong __arf_add_alloc;
extern void _arf_add_tmp_cleanup(void);
#define ARF_ADD_TMP_DECL \
mp_limb_t tmp_stack[ARF_ADD_STACK_ALLOC]; \
#define ARF_ADD_TMP_ALLOC(tmp, alloc) \
if (alloc <= ARF_ADD_STACK_ALLOC) \
{ \
tmp = tmp_stack; \
} \
else if (alloc <= ARF_ADD_TLS_ALLOC) \
{ \
if (__arf_add_alloc < alloc) \
{ \
if (__arf_add_alloc == 0) \
{ \
flint_register_cleanup_function(_arf_add_tmp_cleanup); \
} \
__arf_add_tmp = flint_realloc(__arf_add_tmp, sizeof(mp_limb_t) * alloc); \
__arf_add_alloc = alloc; \
} \
tmp = __arf_add_tmp; \
} \
else \
{ \
tmp = flint_malloc(sizeof(mp_limb_t) * alloc); \
}
#define ARF_ADD_TMP_FREE(tmp, alloc) \
if (alloc > ARF_ADD_TLS_ALLOC) \
flint_free(tmp);
int _arf_add_mpn(arf_t z, mp_srcptr xp, mp_size_t xn, int xsgnbit,
const fmpz_t xexp, mp_srcptr yp, mp_size_t yn, int ysgnbit,
mp_bitcnt_t shift, slong prec, arf_rnd_t rnd);
int arf_add(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec, arf_rnd_t rnd);
int arf_add_si(arf_ptr z, arf_srcptr x, slong y, slong prec, arf_rnd_t rnd);
int arf_add_ui(arf_ptr z, arf_srcptr x, ulong y, slong prec, arf_rnd_t rnd);
int arf_add_fmpz(arf_ptr z, arf_srcptr x, const fmpz_t y, slong prec, arf_rnd_t rnd);
int arf_add_fmpz_2exp(arf_ptr z, arf_srcptr x, const fmpz_t y, const fmpz_t exp, slong prec, arf_rnd_t rnd);
int arf_sub(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec, arf_rnd_t rnd);
int arf_sub_si(arf_ptr z, arf_srcptr x, slong y, slong prec, arf_rnd_t rnd);
int arf_sub_ui(arf_ptr z, arf_srcptr x, ulong y, slong prec, arf_rnd_t rnd);
int arf_sub_fmpz(arf_ptr z, arf_srcptr x, const fmpz_t y, slong prec, arf_rnd_t rnd);
int arf_addmul(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_addmul_ui(arf_ptr z, arf_srcptr x, ulong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_ui(t, y); /* no need to free */
return arf_addmul(z, x, t, prec, rnd);
}
ARF_INLINE int
arf_addmul_si(arf_ptr z, arf_srcptr x, slong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_si(t, y); /* no need to free */
return arf_addmul(z, x, t, prec, rnd);
}
int arf_addmul_mpz(arf_ptr z, arf_srcptr x, const mpz_t y, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_addmul_fmpz(arf_ptr z, arf_srcptr x, const fmpz_t y, slong prec, arf_rnd_t rnd)
{
if (!COEFF_IS_MPZ(*y))
return arf_addmul_si(z, x, *y, prec, rnd);
else
return arf_addmul_mpz(z, x, COEFF_TO_PTR(*y), prec, rnd);
}
int arf_submul(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_submul_ui(arf_ptr z, arf_srcptr x, ulong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_ui(t, y); /* no need to free */
return arf_submul(z, x, t, prec, rnd);
}
ARF_INLINE int
arf_submul_si(arf_ptr z, arf_srcptr x, slong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_si(t, y); /* no need to free */
return arf_submul(z, x, t, prec, rnd);
}
int arf_submul_mpz(arf_ptr z, arf_srcptr x, const mpz_t y, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_submul_fmpz(arf_ptr z, arf_srcptr x, const fmpz_t y, slong prec, arf_rnd_t rnd)
{
if (!COEFF_IS_MPZ(*y))
return arf_submul_si(z, x, *y, prec, rnd);
else
return arf_submul_mpz(z, x, COEFF_TO_PTR(*y), prec, rnd);
}
int arf_div(arf_ptr z, arf_srcptr x, arf_srcptr y, slong prec, arf_rnd_t rnd);
ARF_INLINE int
arf_div_ui(arf_ptr z, arf_srcptr x, ulong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_ui(t, y); /* no need to free */
return arf_div(z, x, t, prec, rnd);
}
ARF_INLINE int
arf_ui_div(arf_ptr z, ulong x, arf_srcptr y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_ui(t, x); /* no need to free */
return arf_div(z, t, y, prec, rnd);
}
ARF_INLINE int
arf_div_si(arf_ptr z, arf_srcptr x, slong y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_si(t, y); /* no need to free */
return arf_div(z, x, t, prec, rnd);
}
ARF_INLINE int
arf_si_div(arf_ptr z, slong x, arf_srcptr y, slong prec, arf_rnd_t rnd)
{
arf_t t;
arf_init_set_si(t, x); /* no need to free */
return arf_div(z, t, y, prec, rnd);
}
ARF_INLINE int
arf_div_fmpz(arf_ptr z, arf_srcptr x, const fmpz_t y, slong prec, arf_rnd_t rnd)
{
arf_t t;
int r;
arf_init(t);
arf_set_fmpz(t, y);
r = arf_div(z, x, t, prec, rnd);
arf_clear(t);
return r;
}
ARF_INLINE int
arf_fmpz_div(arf_ptr z, const fmpz_t x, arf_srcptr y, slong prec, arf_rnd_t rnd)
{
arf_t t;
int r;
arf_init(t);
arf_set_fmpz(t, x);
r = arf_div(z, t, y, prec, rnd);
arf_clear(t);
return r;
}
ARF_INLINE int
arf_fmpz_div_fmpz(arf_ptr z, const fmpz_t x, const fmpz_t y, slong prec, arf_rnd_t rnd)
{
arf_t t, u;
int r;
arf_init(t);
arf_init(u);
arf_set_fmpz(t, x);
arf_set_fmpz(u, y);
r = arf_div(z, t, u, prec, rnd);
arf_clear(t);
arf_clear(u);
return r;
}
int arf_sqrt(arf_ptr z, arf_srcptr x, slong prec, arf_rnd_t rnd);
int arf_sqrt_ui(arf_t z, ulong x, slong prec, arf_rnd_t rnd);
int arf_sqrt_fmpz(arf_t z, const fmpz_t x, slong prec, arf_rnd_t rnd);
int arf_rsqrt(arf_ptr z, arf_srcptr x, slong prec, arf_rnd_t rnd);
int arf_root(arf_t z, const arf_t x, ulong k, slong prec, arf_rnd_t rnd);
/* Magnitude bounds */
void arf_get_mag(mag_t y, const arf_t x);
void arf_get_mag_lower(mag_t y, const arf_t x);
ARF_INLINE void
arf_set_mag(arf_t y, const mag_t x)
{
if (mag_is_zero(x))
{
arf_zero(y);
}
else if (mag_is_inf(x))
{
arf_pos_inf(y);
}
else
{
_fmpz_set_fast(ARF_EXPREF(y), MAG_EXPREF(x));
ARF_DEMOTE(y);
ARF_XSIZE(y) = ARF_MAKE_XSIZE(1, 0);
ARF_NOPTR_D(y)[0] = MAG_MAN(x) << (FLINT_BITS - MAG_BITS);
}
}
ARF_INLINE void
mag_init_set_arf(mag_t y, const arf_t x)
{
mag_init(y);
arf_get_mag(y, x);
}
ARF_INLINE void
mag_fast_init_set_arf(mag_t y, const arf_t x)
{
if (ARF_IS_SPECIAL(x)) /* x == 0 */
{
mag_fast_zero(y);
}
else
{
mp_srcptr xp;
mp_size_t xn;
ARF_GET_MPN_READONLY(xp, xn, x);
MAG_MAN(y) = (xp[xn - 1] >> (FLINT_BITS - MAG_BITS)) + LIMB_ONE;
MAG_EXP(y) = ARF_EXP(x);
MAG_FAST_ADJUST_ONE_TOO_LARGE(y);
}
}
ARF_INLINE void
arf_mag_fast_add_ulp(mag_t z, const mag_t x, const arf_t y, slong prec)
{
mag_fast_add_2exp_si(z, x, ARF_EXP(y) - prec);
}
ARF_INLINE void
arf_mag_add_ulp(mag_t z, const mag_t x, const arf_t y, slong prec)
{
if (ARF_IS_SPECIAL(y))
{
flint_printf("error: ulp error not defined for special value!\n");
abort();
}
else if (MAG_IS_LAGOM(z) && MAG_IS_LAGOM(x) && ARF_IS_LAGOM(y))
{
arf_mag_fast_add_ulp(z, x, y, prec);
}
else
{
fmpz_t e;
fmpz_init(e);
fmpz_sub_ui(e, ARF_EXPREF(y), prec);
mag_add_2exp_fmpz(z, x, e);
fmpz_clear(e);
}
}
ARF_INLINE void
arf_mag_set_ulp(mag_t z, const arf_t y, slong prec)
{
if (ARF_IS_SPECIAL(y))
{
flint_printf("error: ulp error not defined for special value!\n");
abort();
}
else
{
_fmpz_add_fast(MAG_EXPREF(z), ARF_EXPREF(y), 1 - prec);
MAG_MAN(z) = MAG_ONE_HALF;
}
}
void arf_get_fmpq(fmpq_t y, const arf_t x);
ARF_INLINE int
arf_set_fmpq(arf_t y, const fmpq_t x, slong prec, arf_rnd_t rnd)
{
return arf_fmpz_div_fmpz(y, fmpq_numref(x), fmpq_denref(x), prec, rnd);
}
int arf_complex_mul(arf_t e, arf_t f, const arf_t a, const arf_t b,
const arf_t c, const arf_t d,
slong prec, arf_rnd_t rnd);
int arf_complex_mul_fallback(arf_t e, arf_t f,
const arf_t a, const arf_t b,
const arf_t c, const arf_t d,
slong prec, arf_rnd_t rnd);
int arf_complex_sqr(arf_t e, arf_t f, const arf_t a, const arf_t b,
slong prec, arf_rnd_t rnd);
int arf_sum(arf_t s, arf_srcptr terms, slong len, slong prec, arf_rnd_t rnd);
double arf_get_d(const arf_t x, arf_rnd_t rnd);
void arf_set_d(arf_t x, double v);
#ifdef __cplusplus
}
#endif
#endif
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