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arb/arf/set_round_uiui.c
fredrik caf9bb7825 mp_bitcnt_t -> flint_bitcnt_t
2020-06-22 23:48:09 +02:00

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/*
Copyright (C) 2014 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 "arf.h"
/* Top-aligns the single-limb integer value v and rounds it to prec bits.
Writes inexact, v, exp. Warning: macro without parentheses. */
#define ARF_NORMALISE_ROUND_LIMB(inexact, exp, v, sgnbit, prec, rnd) \
do { \
count_leading_zeros(exp, v); \
v <<= exp; \
exp = FLINT_BITS - exp; \
if (prec >= exp) \
{ \
inexact = 0; \
} \
else \
{ \
mp_limb_t hi_mask, lo_mask, rndn_mask, __t, __u; \
hi_mask = LIMB_ONES << (FLINT_BITS - prec); \
__t = v & hi_mask; \
inexact = (__t != v); \
if (inexact && rnd != ARF_RND_DOWN) \
{ \
if (rnd == ARF_RND_NEAR) \
{ \
lo_mask = LIMB_ONES >> prec; \
rndn_mask = LIMB_ONE << (FLINT_BITS - prec - 1); \
__u = v & lo_mask; \
if (__u > rndn_mask || (__u == rndn_mask && \
(__t << (prec - 1)))) \
__t += (LIMB_ONE << (FLINT_BITS - prec)); \
} \
else if (arf_rounds_up(rnd, sgnbit)) \
{ \
__t += (LIMB_ONE << (FLINT_BITS - prec)); \
} \
if (__t == 0) \
{ \
__t = LIMB_TOP; \
exp++; \
} \
} \
v = __t; \
} \
} while (0)
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)
{
int leading, trailing, bc, inexact, zn, up, exp;
if (hi == 0)
{
ARF_NORMALISE_ROUND_LIMB(inexact, exp, lo, sgnbit, prec, rnd);
leading = 2 * FLINT_BITS - exp;
zn = 1;
}
else if (lo == 0)
{
ARF_NORMALISE_ROUND_LIMB(inexact, exp, hi, sgnbit, prec, rnd);
leading = FLINT_BITS - exp;
lo = hi;
zn = 1;
}
else
{
count_leading_zeros(leading, hi);
count_trailing_zeros(trailing, lo);
bc = 2 * FLINT_BITS - leading - trailing;
if (bc <= prec)
{
inexact = 0;
zn = 2;
if (leading != 0)
{
if (bc <= FLINT_BITS)
{
lo = (hi << leading) | (lo >> (FLINT_BITS - leading));
zn = 1;
}
else
{
hi = (hi << leading) | (lo >> (FLINT_BITS - leading));
lo = (lo << leading);
}
}
}
else
{
inexact = 1;
if (rnd == ARF_RND_DOWN)
{
up = 0;
}
else if (rnd == ARF_RND_NEAR)
{
if (bc == prec + 1)
{
/* exactly one excess bit; check the parity bit which
must be either the lsb of hi or a bit in lo */
if (trailing == FLINT_BITS - 1)
up = hi & 1;
else
up = (lo >> (trailing + 1)) & 1;
}
else
{
/* two or more excess bits; test the first excess bit */
flint_bitcnt_t pos = 2 * FLINT_BITS - leading - prec - 1;
if (pos < FLINT_BITS)
up = (lo >> pos) & 1;
else
up = (hi >> (pos - FLINT_BITS)) & 1;
}
}
else
{
up = arf_rounds_up(rnd, sgnbit);
}
if (prec <= FLINT_BITS)
{
zn = 1;
if (leading == 0)
lo = hi;
else
lo = (hi << leading) | (lo >> (FLINT_BITS - leading));
lo = lo & (LIMB_ONES << (FLINT_BITS - prec));
if (up)
{
mp_limb_t t, ovf;
t = lo + (LIMB_ONE << (FLINT_BITS - prec));
ovf = (t == 0);
leading -= ovf;
lo = (t >> ovf) | (ovf << (FLINT_BITS - 1));
}
}
else
{
zn = 2;
if (leading != 0)
{
hi = (hi << leading) | (lo >> (FLINT_BITS - leading));
lo = (lo << leading);
}
lo = lo & (LIMB_ONES << (2 * FLINT_BITS - prec));
if (up)
{
add_ssaaaa(hi, lo, hi, lo, 0, (LIMB_ONE << (2 * FLINT_BITS - prec)));
}
if (lo == 0)
{
if (hi == 0)
{
leading -= 1;
lo = LIMB_TOP;
}
else
{
lo = hi;
}
zn = 1;
}
}
}
}
*fix = -leading;
ARF_DEMOTE(z);
ARF_XSIZE(z) = ARF_MAKE_XSIZE(zn, sgnbit);
ARF_NOPTR_D(z)[0] = lo;
ARF_NOPTR_D(z)[1] = hi;
return inexact;
}
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