/src/gmp/mpn/powlo.c

Source
/* mpn_powlo -- Compute R = U^E mod B^n, where B is the limb base.

Copyright 2007-2009, 2012, 2015, 2016, 2018, 2020 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
it under the terms of either:

  * the GNU Lesser General Public License as published by the Free
    Software Foundation; either version 3 of the License, or (at your
    option) any later version.

or

  * 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.

or both in parallel, as here.

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
or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
for more details.

You should have received copies of the GNU General Public License and the
GNU Lesser General Public License along with the GNU MP Library.  If not,
see https://www.gnu.org/licenses/.  */


#include "gmp-impl.h"
#include "longlong.h"


#define getbit(p,bi) \
  ((p[(bi - 1) / GMP_LIMB_BITS] >> (bi - 1) % GMP_LIMB_BITS) & 1)

static inline mp_limb_t
getbits (const mp_limb_t *p, mp_bitcnt_t bi, unsigned nbits)
{
  unsigned nbits_in_r;
  mp_limb_t r;
  mp_size_t i;

  if (bi <= nbits)
    {
      return p[0] & (((mp_limb_t) 1 << bi) - 1);
    }
  else
    {
      bi -= nbits;      /* bit index of low bit to extract */
      i = bi / GMP_NUMB_BITS;   /* word index of low bit to extract */
      bi %= GMP_NUMB_BITS;   /* bit index in low word */
      r = p[i] >> bi;     /* extract (low) bits */
      nbits_in_r = GMP_NUMB_BITS - bi;  /* number of bits now in r */
      if (nbits_in_r < nbits)    /* did we get enough bits? */
  r += p[i + 1] << nbits_in_r; /* prepend bits from higher word */
      return r & (((mp_limb_t) 1 << nbits) - 1);
    }
}

static inline unsigned
win_size (mp_bitcnt_t eb)
{
  unsigned k;
  static mp_bitcnt_t x[] = {7,25,81,241,673,1793,4609,11521,28161,~(mp_bitcnt_t)0};
  ASSERT (eb > 1);
  for (k = 0; eb > x[k++];)
    ;
  return k;
}

/* rp[n-1..0] = bp[n-1..0] ^ ep[en-1..0] mod B^n, B is the limb base.
   Requires that ep[en-1] is non-zero.
   Uses scratch space tp[3n-1..0], i.e., 3n words.  */
/* We only use n words in the scratch space, we should pass tp + n to
   mullo/sqrlo as a temporary area, it is needed. */
void
mpn_powlo (mp_ptr rp, mp_srcptr bp,
     mp_srcptr ep, mp_size_t en,
     mp_size_t n, mp_ptr tp)
{
  unsigned cnt;
  mp_bitcnt_t ebi;
  unsigned windowsize, this_windowsize;
  mp_limb_t expbits;
  mp_limb_t *pp;
  long i;
  int flipflop;
  TMP_DECL;

  ASSERT (en > 1 || (en == 1 && ep[0] > 1));

  TMP_MARK;

  MPN_SIZEINBASE_2EXP(ebi, ep, en, 1);

  windowsize = win_size (ebi);
  if (windowsize > 1)
    {
      mp_limb_t *this_pp, *last_pp;
      ASSERT (windowsize < ebi);

      pp = TMP_ALLOC_LIMBS ((n << (windowsize - 1)));

      this_pp = pp;

      MPN_COPY (this_pp, bp, n);

      /* Store b^2 in tp.  */
      mpn_sqrlo (tp, bp, n);

      /* Precompute odd powers of b and put them in the temporary area at pp.  */
      i = (1 << (windowsize - 1)) - 1;
      do
  {
    last_pp = this_pp;
    this_pp += n;
    mpn_mullo_n (this_pp, last_pp, tp, n);
  } while (--i != 0);

      expbits = getbits (ep, ebi, windowsize);
      ebi -= windowsize;

      /* THINK: Should we initialise the case expbits % 4 == 0 with a mullo? */
      count_trailing_zeros (cnt, expbits);
      ebi += cnt;
      expbits >>= cnt;

      MPN_COPY (rp, pp + n * (expbits >> 1), n);
    }
  else
    {
      pp = tp + n;
      MPN_COPY (pp, bp, n);
      MPN_COPY (rp, bp, n);
      --ebi;
    }

  flipflop = 0;

  do
    {
      while (getbit (ep, ebi) == 0)
  {
    mpn_sqrlo (tp, rp, n);
    MP_PTR_SWAP (rp, tp);
    flipflop = ! flipflop;
    if (--ebi == 0)
      goto done;
  }

      /* The next bit of the exponent is 1.  Now extract the largest block of
   bits <= windowsize, and such that the least significant bit is 1.  */

      expbits = getbits (ep, ebi, windowsize);
      this_windowsize = MIN (windowsize, ebi);

      count_trailing_zeros (cnt, expbits);
      this_windowsize -= cnt;
      ebi -= this_windowsize;
      expbits >>= cnt;

      while (this_windowsize > 1)
  {
    mpn_sqrlo (tp, rp, n);
    mpn_sqrlo (rp, tp, n);
    this_windowsize -= 2;
  }

      if (this_windowsize != 0)
  mpn_sqrlo (tp, rp, n);
      else
  {
    MP_PTR_SWAP (rp, tp);
    flipflop = ! flipflop;
  }

      mpn_mullo_n (rp, tp, pp + n * (expbits >> 1), n);
    } while (ebi != 0);

 done:
  if (flipflop)
    MPN_COPY (tp, rp, n);
  TMP_FREE;
}

Line	Count	Source
1		/* mpn_powlo -- Compute R = U^E mod B^n, where B is the limb base.
2
3		Copyright 2007-2009, 2012, 2015, 2016, 2018, 2020 Free Software
4		Foundation, Inc.
5
6		This file is part of the GNU MP Library.
7
8		The GNU MP Library is free software; you can redistribute it and/or modify
9		it under the terms of either:
10
11		* the GNU Lesser General Public License as published by the Free
12		Software Foundation; either version 3 of the License, or (at your
13		option) any later version.
14
15		or
16
17		* the GNU General Public License as published by the Free Software
18		Foundation; either version 2 of the License, or (at your option) any
19		later version.
20
21		or both in parallel, as here.
22
23		The GNU MP Library is distributed in the hope that it will be useful, but
24		WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
25		or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
26		for more details.
27
28		You should have received copies of the GNU General Public License and the
29		GNU Lesser General Public License along with the GNU MP Library. If not,
30		see https://www.gnu.org/licenses/. */
31
32
33		#include "gmp-impl.h"
34		#include "longlong.h"
35
36
37		#define getbit(p,bi) \
38	539k	((p[(bi - 1) / GMP_LIMB_BITS] >> (bi - 1) % GMP_LIMB_BITS) & 1)
39
40		static inline mp_limb_t
41		getbits (const mp_limb_t *p, mp_bitcnt_t bi, unsigned nbits)
42	176k	{
43	176k	unsigned nbits_in_r;
44	176k	mp_limb_t r;
45	176k	mp_size_t i;
46
47	176k	if (bi <= nbits)
48	1.53k	{
49	1.53k	return p[0] & (((mp_limb_t) 1 << bi) - 1);
50	1.53k	}
51	175k	else
52	175k	{
53	175k	bi -= nbits; /* bit index of low bit to extract */
54	175k	i = bi / GMP_NUMB_BITS; /* word index of low bit to extract */
55	175k	bi %= GMP_NUMB_BITS; /* bit index in low word */
56	175k	r = p[i] >> bi; /* extract (low) bits */
57	175k	nbits_in_r = GMP_NUMB_BITS - bi; /* number of bits now in r */
58	175k	if (nbits_in_r < nbits) /* did we get enough bits? */
59	9.49k	r += p[i + 1] << nbits_in_r; /* prepend bits from higher word */
60	175k	return r & (((mp_limb_t) 1 << nbits) - 1);
61	175k	}
62	176k	}
63
64		static inline unsigned
65		win_size (mp_bitcnt_t eb)
66	3.01k	{
67	3.01k	unsigned k;
68	3.01k	static mp_bitcnt_t x[] = {7,25,81,241,673,1793,4609,11521,28161,~(mp_bitcnt_t)0};
69	3.01k	ASSERT (eb > 1);
70	13.5k	for (k = 0; eb > x[k++];)
71	10.5k	;
72	3.01k	return k;
73	3.01k	}
74
75		/* rp[n-1..0] = bp[n-1..0] ^ ep[en-1..0] mod B^n, B is the limb base.
76		Requires that ep[en-1] is non-zero.
77		Uses scratch space tp[3n-1..0], i.e., 3n words. */
78		/* We only use n words in the scratch space, we should pass tp + n to
79		mullo/sqrlo as a temporary area, it is needed. */
80		void
81		mpn_powlo (mp_ptr rp, mp_srcptr bp,
82		mp_srcptr ep, mp_size_t en,
83		mp_size_t n, mp_ptr tp)
84	3.01k	{
85	3.01k	unsigned cnt;
86	3.01k	mp_bitcnt_t ebi;
87	3.01k	unsigned windowsize, this_windowsize;
88	3.01k	mp_limb_t expbits;
89	3.01k	mp_limb_t *pp;
90	3.01k	long i;
91	3.01k	int flipflop;
92	3.01k	TMP_DECL;
93
94	3.01k	ASSERT (en > 1 \|\| (en == 1 && ep[0] > 1));
95
96	3.01k	TMP_MARK;
97
98	3.01k	MPN_SIZEINBASE_2EXP(ebi, ep, en, 1);
99
100	3.01k	windowsize = win_size (ebi);
101	3.01k	if (windowsize > 1)
102	2.94k	{
103	2.94k	mp_limb_t this_pp, last_pp;
104	2.94k	ASSERT (windowsize < ebi);
105
106	2.94k	pp = TMP_ALLOC_LIMBS ((n << (windowsize - 1)));
107
108	2.94k	this_pp = pp;
109
110	2.94k	MPN_COPY (this_pp, bp, n);
111
112		/* Store b^2 in tp. */
113	2.94k	mpn_sqrlo (tp, bp, n);
114
115		/* Precompute odd powers of b and put them in the temporary area at pp. */
116	2.94k	i = (1 << (windowsize - 1)) - 1;
117	2.94k	do
118	41.4k	{
119	41.4k	last_pp = this_pp;
120	41.4k	this_pp += n;
121	41.4k	mpn_mullo_n (this_pp, last_pp, tp, n);
122	41.4k	} while (--i != 0);
123
124	2.94k	expbits = getbits (ep, ebi, windowsize);
125	2.94k	ebi -= windowsize;
126
127		/* THINK: Should we initialise the case expbits % 4 == 0 with a mullo? */
128	2.94k	count_trailing_zeros (cnt, expbits);
129	2.94k	ebi += cnt;
130	2.94k	expbits >>= cnt;
131
132	2.94k	MPN_COPY (rp, pp + n * (expbits >> 1), n);
133	2.94k	}
134	70	else
135	70	{
136	70	pp = tp + n;
137	70	MPN_COPY (pp, bp, n);
138	70	MPN_COPY (rp, bp, n);
139	70	--ebi;
140	70	}
141
142	3.01k	flipflop = 0;
143
144	3.01k	do
145	176k	{
146	539k	while (getbit (ep, ebi) == 0)
147	365k	{
148	365k	mpn_sqrlo (tp, rp, n);
149	365k	MP_PTR_SWAP (rp, tp);
150	365k	flipflop = ! flipflop;
151	365k	if (--ebi == 0)
152	2.52k	goto done;
153	365k	}
154
155		/* The next bit of the exponent is 1. Now extract the largest block of
156		bits <= windowsize, and such that the least significant bit is 1. */
157
158	173k	expbits = getbits (ep, ebi, windowsize);
159	173k	this_windowsize = MIN (windowsize, ebi);
160
161	173k	count_trailing_zeros (cnt, expbits);
162	173k	this_windowsize -= cnt;
163	173k	ebi -= this_windowsize;
164	173k	expbits >>= cnt;
165
166	491k	while (this_windowsize > 1)
167	318k	{
168	318k	mpn_sqrlo (tp, rp, n);
169	318k	mpn_sqrlo (rp, tp, n);
170	318k	this_windowsize -= 2;
171	318k	}
172
173	173k	if (this_windowsize != 0)
174	93.0k	mpn_sqrlo (tp, rp, n);
175	80.8k	else
176	80.8k	{
177	80.8k	MP_PTR_SWAP (rp, tp);
178	80.8k	flipflop = ! flipflop;
179	80.8k	}
180
181	173k	mpn_mullo_n (rp, tp, pp + n * (expbits >> 1), n);
182	173k	} while (ebi != 0);
183
184	3.01k	done:
185	3.01k	if (flipflop)
186	1.93k	MPN_COPY (tp, rp, n);
187	3.01k	TMP_FREE;
188	3.01k	}

Coverage Report

Created: 2025-11-16 06:46