glibc/stdlib/mod_1.c

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/* mpn_mod_1(dividend_ptr, dividend_size, divisor_limb) --
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Divide (DIVIDEND_PTR,,DIVIDEND_SIZE) by DIVISOR_LIMB.
Return the single-limb remainder.
There are no constraints on the value of the divisor.
Copyright (C) 1991, 1993, 1994, Free Software Foundation, Inc.
This file is part of the GNU MP Library.
The GNU MP Library is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or (at your
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option) any later version.
The GNU MP Library is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
along with the GNU MP Library; see the file COPYING.LIB. If not, see
<http://www.gnu.org/licenses/>. */
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#include <gmp.h>
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#include "gmp-impl.h"
#include "longlong.h"
#ifndef UMUL_TIME
#define UMUL_TIME 1
#endif
#ifndef UDIV_TIME
#define UDIV_TIME UMUL_TIME
#endif
/* FIXME: We should be using invert_limb (or invert_normalized_limb)
here (not udiv_qrnnd). */
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mp_limb_t
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#if __STDC__
mpn_mod_1 (mp_srcptr dividend_ptr, mp_size_t dividend_size,
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mp_limb_t divisor_limb)
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#else
mpn_mod_1 (dividend_ptr, dividend_size, divisor_limb)
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mp_srcptr dividend_ptr;
mp_size_t dividend_size;
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mp_limb_t divisor_limb;
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#endif
{
mp_size_t i;
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mp_limb_t n1, n0, r;
mp_limb_t dummy;
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/* Botch: Should this be handled at all? Rely on callers? */
if (dividend_size == 0)
return 0;
/* If multiplication is much faster than division, and the
dividend is large, pre-invert the divisor, and use
only multiplications in the inner loop. */
/* This test should be read:
Does it ever help to use udiv_qrnnd_preinv?
&& Does what we save compensate for the inversion overhead? */
if (UDIV_TIME > (2 * UMUL_TIME + 6)
&& (UDIV_TIME - (2 * UMUL_TIME + 6)) * dividend_size > UDIV_TIME)
{
int normalization_steps;
count_leading_zeros (normalization_steps, divisor_limb);
if (normalization_steps != 0)
{
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mp_limb_t divisor_limb_inverted;
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divisor_limb <<= normalization_steps;
/* Compute (2**2N - 2**N * DIVISOR_LIMB) / DIVISOR_LIMB. The
result is a (N+1)-bit approximation to 1/DIVISOR_LIMB, with the
most significant bit (with weight 2**N) implicit. */
/* Special case for DIVISOR_LIMB == 100...000. */
if (divisor_limb << 1 == 0)
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divisor_limb_inverted = ~(mp_limb_t) 0;
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else
udiv_qrnnd (divisor_limb_inverted, dummy,
-divisor_limb, 0, divisor_limb);
n1 = dividend_ptr[dividend_size - 1];
r = n1 >> (BITS_PER_MP_LIMB - normalization_steps);
/* Possible optimization:
if (r == 0
&& divisor_limb > ((n1 << normalization_steps)
| (dividend_ptr[dividend_size - 2] >> ...)))
...one division less... */
for (i = dividend_size - 2; i >= 0; i--)
{
n0 = dividend_ptr[i];
udiv_qrnnd_preinv (dummy, r, r,
((n1 << normalization_steps)
| (n0 >> (BITS_PER_MP_LIMB - normalization_steps))),
divisor_limb, divisor_limb_inverted);
n1 = n0;
}
udiv_qrnnd_preinv (dummy, r, r,
n1 << normalization_steps,
divisor_limb, divisor_limb_inverted);
return r >> normalization_steps;
}
else
{
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mp_limb_t divisor_limb_inverted;
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/* Compute (2**2N - 2**N * DIVISOR_LIMB) / DIVISOR_LIMB. The
result is a (N+1)-bit approximation to 1/DIVISOR_LIMB, with the
most significant bit (with weight 2**N) implicit. */
/* Special case for DIVISOR_LIMB == 100...000. */
if (divisor_limb << 1 == 0)
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divisor_limb_inverted = ~(mp_limb_t) 0;
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else
udiv_qrnnd (divisor_limb_inverted, dummy,
-divisor_limb, 0, divisor_limb);
i = dividend_size - 1;
r = dividend_ptr[i];
if (r >= divisor_limb)
r = 0;
else
i--;
for (; i >= 0; i--)
{
n0 = dividend_ptr[i];
udiv_qrnnd_preinv (dummy, r, r,
n0, divisor_limb, divisor_limb_inverted);
}
return r;
}
}
else
{
if (UDIV_NEEDS_NORMALIZATION)
{
int normalization_steps;
count_leading_zeros (normalization_steps, divisor_limb);
if (normalization_steps != 0)
{
divisor_limb <<= normalization_steps;
n1 = dividend_ptr[dividend_size - 1];
r = n1 >> (BITS_PER_MP_LIMB - normalization_steps);
/* Possible optimization:
if (r == 0
&& divisor_limb > ((n1 << normalization_steps)
| (dividend_ptr[dividend_size - 2] >> ...)))
...one division less... */
for (i = dividend_size - 2; i >= 0; i--)
{
n0 = dividend_ptr[i];
udiv_qrnnd (dummy, r, r,
((n1 << normalization_steps)
| (n0 >> (BITS_PER_MP_LIMB - normalization_steps))),
divisor_limb);
n1 = n0;
}
udiv_qrnnd (dummy, r, r,
n1 << normalization_steps,
divisor_limb);
return r >> normalization_steps;
}
}
/* No normalization needed, either because udiv_qrnnd doesn't require
it, or because DIVISOR_LIMB is already normalized. */
i = dividend_size - 1;
r = dividend_ptr[i];
if (r >= divisor_limb)
r = 0;
else
i--;
for (; i >= 0; i--)
{
n0 = dividend_ptr[i];
udiv_qrnnd (dummy, r, r, n0, divisor_limb);
}
return r;
}
}