/src/gmp/mpn/gcdext_1.c

Source (jump to first uncovered line)
/* mpn_gcdext -- Extended Greatest Common Divisor.

Copyright 1996, 1998, 2000-2005, 2008, 2009 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"

#ifndef GCDEXT_1_USE_BINARY
#define GCDEXT_1_USE_BINARY 0
#endif

#ifndef GCDEXT_1_BINARY_METHOD
#define GCDEXT_1_BINARY_METHOD 2
#endif

#if GCDEXT_1_USE_BINARY

mp_limb_t
mpn_gcdext_1 (mp_limb_signed_t *sp, mp_limb_signed_t *tp,
        mp_limb_t u, mp_limb_t v)
{
  /* Maintain

     U = t1 u + t0 v
     V = s1 u + s0 v

     where U, V are the inputs (without any shared power of two),
     and the matrix has determinant � 2^{shift}.
  */
  mp_limb_t s0 = 1;
  mp_limb_t t0 = 0;
  mp_limb_t s1 = 0;
  mp_limb_t t1 = 1;
  mp_limb_t ug;
  mp_limb_t vg;
  mp_limb_t ugh;
  mp_limb_t vgh;
  unsigned zero_bits;
  unsigned shift;
  unsigned i;
#if GCDEXT_1_BINARY_METHOD == 2
  mp_limb_t det_sign;
#endif

  ASSERT (u > 0);
  ASSERT (v > 0);

  count_trailing_zeros (zero_bits, u | v);
  u >>= zero_bits;
  v >>= zero_bits;

  if ((u & 1) == 0)
    {
      count_trailing_zeros (shift, u);
      u >>= shift;
      t1 <<= shift;
    }
  else if ((v & 1) == 0)
    {
      count_trailing_zeros (shift, v);
      v >>= shift;
      s0 <<= shift;
    }
  else
    shift = 0;

#if GCDEXT_1_BINARY_METHOD == 1
  while (u != v)
    {
      unsigned count;
      if (u > v)
  {
    u -= v;

    count_trailing_zeros (count, u);
    u >>= count;

    t0 += t1; t1 <<= count;
    s0 += s1; s1 <<= count;
  }
      else
  {
    v -= u;

    count_trailing_zeros (count, v);
    v >>= count;

    t1 += t0; t0 <<= count;
    s1 += s0; s0 <<= count;
  }
      shift += count;
    }
#else
# if GCDEXT_1_BINARY_METHOD == 2
  u >>= 1;
  v >>= 1;

  det_sign = 0;

  while (u != v)
    {
      unsigned count;
      mp_limb_t d =  u - v;
      mp_limb_t vgtu = LIMB_HIGHBIT_TO_MASK (d);
      mp_limb_t sx;
      mp_limb_t tx;

      /* When v <= u (vgtu == 0), the updates are:

     (u; v)   <-- ( (u - v) >> count; v)    (det = +(1<<count) for corr. M factor)
     (t1, t0) <-- (t1 << count, t0 + t1)

   and when v > 0, the updates are

     (u; v)   <-- ( (v - u) >> count; u)    (det = -(1<<count))
     (t1, t0) <-- (t0 << count, t0 + t1)

   and similarly for s1, s0
      */

      /* v <-- min (u, v) */
      v += (vgtu & d);

      /* u <-- |u - v| */
      u = (d ^ vgtu) - vgtu;

      /* Number of trailing zeros is the same no matter if we look at
       * d or u, but using d gives more parallelism. */
      count_trailing_zeros (count, d);

      det_sign ^= vgtu;

      tx = vgtu & (t0 - t1);
      sx = vgtu & (s0 - s1);
      t0 += t1;
      s0 += s1;
      t1 += tx;
      s1 += sx;

      count++;
      u >>= count;
      t1 <<= count;
      s1 <<= count;
      shift += count;
    }
  u = (u << 1) + 1;
# else /* GCDEXT_1_BINARY_METHOD == 2 */
#  error Unknown GCDEXT_1_BINARY_METHOD
# endif
#endif

  /* Now u = v = g = gcd (u,v). Compute U/g and V/g */
  ug = t0 + t1;
  vg = s0 + s1;

  ugh = ug/2 + (ug & 1);
  vgh = vg/2 + (vg & 1);

  /* Now 2^{shift} g = s0 U - t0 V. Get rid of the power of two, using
     s0 U - t0 V = (s0 + V/g) U - (t0 + U/g) V. */
  for (i = 0; i < shift; i++)
    {
      mp_limb_t mask = - ( (s0 | t0) & 1);

      s0 /= 2;
      t0 /= 2;
      s0 += mask & vgh;
      t0 += mask & ugh;
    }

  ASSERT_ALWAYS (s0 <= vg);
  ASSERT_ALWAYS (t0 <= ug);

  if (s0 > vg - s0)
    {
      s0 -= vg;
      t0 -= ug;
    }
#if GCDEXT_1_BINARY_METHOD == 2
  /* Conditional negation. */
  s0 = (s0 ^ det_sign) - det_sign;
  t0 = (t0 ^ det_sign) - det_sign;
#endif
  *sp = s0;
  *tp = -t0;

  return u << zero_bits;
}

#else /* !GCDEXT_1_USE_BINARY */


/* FIXME: Takes two single-word limbs. It could be extended to a
 * function that accepts a bignum for the first input, and only
 * returns the first co-factor. */

mp_limb_t
mpn_gcdext_1 (mp_limb_signed_t *up, mp_limb_signed_t *vp,
        mp_limb_t a, mp_limb_t b)
{
  /* Maintain

     a =  u0 A + v0 B
     b =  u1 A + v1 B

     where A, B are the original inputs.
  */
  mp_limb_signed_t u0 = 1;
  mp_limb_signed_t v0 = 0;
  mp_limb_signed_t u1 = 0;
  mp_limb_signed_t v1 = 1;

  ASSERT (a > 0);
  ASSERT (b > 0);

  if (a < b)
    goto divide_by_b;

  for (;;)
    {
      mp_limb_t q;

      q = a / b;
      a -= q * b;

      if (a == 0)
  {
    *up = u1;
    *vp = v1;
    return b;
  }
      u0 -= q * u1;
      v0 -= q * v1;

    divide_by_b:
      q = b / a;
      b -= q * a;

      if (b == 0)
  {
    *up = u0;
    *vp = v0;
    return a;
  }
      u1 -= q * u0;
      v1 -= q * v0;
    }
}
#endif /* !GCDEXT_1_USE_BINARY */

Coverage Report

Created: 2025-03-06 06:58

Line	Count	Source (jump to first uncovered line)
1		/* mpn_gcdext -- Extended Greatest Common Divisor.
2
3		Copyright 1996, 1998, 2000-2005, 2008, 2009 Free Software Foundation, Inc.
4
5		This file is part of the GNU MP Library.
6
7		The GNU MP Library is free software; you can redistribute it and/or modify
8		it under the terms of either:
9
10		* the GNU Lesser General Public License as published by the Free
11		Software Foundation; either version 3 of the License, or (at your
12		option) any later version.
13
14		or
15
16		* the GNU General Public License as published by the Free Software
17		Foundation; either version 2 of the License, or (at your option) any
18		later version.
19
20		or both in parallel, as here.
21
22		The GNU MP Library is distributed in the hope that it will be useful, but
23		WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
24		or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
25		for more details.
26
27		You should have received copies of the GNU General Public License and the
28		GNU Lesser General Public License along with the GNU MP Library. If not,
29		see https://www.gnu.org/licenses/. */
30
31		#include "gmp-impl.h"
32		#include "longlong.h"
33
34		#ifndef GCDEXT_1_USE_BINARY
35		#define GCDEXT_1_USE_BINARY 0
36		#endif
37
38		#ifndef GCDEXT_1_BINARY_METHOD
39		#define GCDEXT_1_BINARY_METHOD 2
40		#endif
41
42		#if GCDEXT_1_USE_BINARY
43
44		mp_limb_t
45		mpn_gcdext_1 (mp_limb_signed_t sp, mp_limb_signed_t tp,
46		mp_limb_t u, mp_limb_t v)
47		{
48		/* Maintain
49
50		U = t1 u + t0 v
51		V = s1 u + s0 v
52
53		where U, V are the inputs (without any shared power of two),
54		and the matrix has determinant � 2^{shift}.
55		*/
56		mp_limb_t s0 = 1;
57		mp_limb_t t0 = 0;
58		mp_limb_t s1 = 0;
59		mp_limb_t t1 = 1;
60		mp_limb_t ug;
61		mp_limb_t vg;
62		mp_limb_t ugh;
63		mp_limb_t vgh;
64		unsigned zero_bits;
65		unsigned shift;
66		unsigned i;
67		#if GCDEXT_1_BINARY_METHOD == 2
68		mp_limb_t det_sign;
69		#endif
70
71		ASSERT (u > 0);
72		ASSERT (v > 0);
73
74		count_trailing_zeros (zero_bits, u \| v);
75		u >>= zero_bits;
76		v >>= zero_bits;
77
78		if ((u & 1) == 0)
79		{
80		count_trailing_zeros (shift, u);
81		u >>= shift;
82		t1 <<= shift;
83		}
84		else if ((v & 1) == 0)
85		{
86		count_trailing_zeros (shift, v);
87		v >>= shift;
88		s0 <<= shift;
89		}
90		else
91		shift = 0;
92
93		#if GCDEXT_1_BINARY_METHOD == 1
94		while (u != v)
95		{
96		unsigned count;
97		if (u > v)
98		{
99		u -= v;
100
101		count_trailing_zeros (count, u);
102		u >>= count;
103
104		t0 += t1; t1 <<= count;
105		s0 += s1; s1 <<= count;
106		}
107		else
108		{
109		v -= u;
110
111		count_trailing_zeros (count, v);
112		v >>= count;
113
114		t1 += t0; t0 <<= count;
115		s1 += s0; s0 <<= count;
116		}
117		shift += count;
118		}
119		#else
120		# if GCDEXT_1_BINARY_METHOD == 2
121		u >>= 1;
122		v >>= 1;
123
124		det_sign = 0;
125
126		while (u != v)
127		{
128		unsigned count;
129		mp_limb_t d = u - v;
130		mp_limb_t vgtu = LIMB_HIGHBIT_TO_MASK (d);
131		mp_limb_t sx;
132		mp_limb_t tx;
133
134		/* When v <= u (vgtu == 0), the updates are:
135
136		(u; v) <-- ( (u - v) >> count; v) (det = +(1<<count) for corr. M factor)
137		(t1, t0) <-- (t1 << count, t0 + t1)
138
139		and when v > 0, the updates are
140
141		(u; v) <-- ( (v - u) >> count; u) (det = -(1<<count))
142		(t1, t0) <-- (t0 << count, t0 + t1)
143
144		and similarly for s1, s0
145		*/
146
147		/* v <-- min (u, v) */
148		v += (vgtu & d);
149
150		/* u <-- \|u - v\| */
151		u = (d ^ vgtu) - vgtu;
152
153		/* Number of trailing zeros is the same no matter if we look at
154		* d or u, but using d gives more parallelism. */
155		count_trailing_zeros (count, d);
156
157		det_sign ^= vgtu;
158
159		tx = vgtu & (t0 - t1);
160		sx = vgtu & (s0 - s1);
161		t0 += t1;
162		s0 += s1;
163		t1 += tx;
164		s1 += sx;
165
166		count++;
167		u >>= count;
168		t1 <<= count;
169		s1 <<= count;
170		shift += count;
171		}
172		u = (u << 1) + 1;
173		# else /* GCDEXT_1_BINARY_METHOD == 2 */
174		# error Unknown GCDEXT_1_BINARY_METHOD
175		# endif
176		#endif
177
178		/* Now u = v = g = gcd (u,v). Compute U/g and V/g */
179		ug = t0 + t1;
180		vg = s0 + s1;
181
182		ugh = ug/2 + (ug & 1);
183		vgh = vg/2 + (vg & 1);
184
185		/* Now 2^{shift} g = s0 U - t0 V. Get rid of the power of two, using
186		s0 U - t0 V = (s0 + V/g) U - (t0 + U/g) V. */
187		for (i = 0; i < shift; i++)
188		{
189		mp_limb_t mask = - ( (s0 \| t0) & 1);
190
191		s0 /= 2;
192		t0 /= 2;
193		s0 += mask & vgh;
194		t0 += mask & ugh;
195		}
196
197		ASSERT_ALWAYS (s0 <= vg);
198		ASSERT_ALWAYS (t0 <= ug);
199
200		if (s0 > vg - s0)
201		{
202		s0 -= vg;
203		t0 -= ug;
204		}
205		#if GCDEXT_1_BINARY_METHOD == 2
206		/* Conditional negation. */
207		s0 = (s0 ^ det_sign) - det_sign;
208		t0 = (t0 ^ det_sign) - det_sign;
209		#endif
210		*sp = s0;
211		*tp = -t0;
212
213		return u << zero_bits;
214		}
215
216		#else /* !GCDEXT_1_USE_BINARY */
217
218
219		/* FIXME: Takes two single-word limbs. It could be extended to a
220		* function that accepts a bignum for the first input, and only
221		* returns the first co-factor. */
222
223		mp_limb_t
224		mpn_gcdext_1 (mp_limb_signed_t up, mp_limb_signed_t vp,
225		mp_limb_t a, mp_limb_t b)
226	0	{
227		/* Maintain
228
229		a = u0 A + v0 B
230		b = u1 A + v1 B
231
232		where A, B are the original inputs.
233		*/
234	0	mp_limb_signed_t u0 = 1;
235	0	mp_limb_signed_t v0 = 0;
236	0	mp_limb_signed_t u1 = 0;
237	0	mp_limb_signed_t v1 = 1;
238
239	0	ASSERT (a > 0);
240	0	ASSERT (b > 0);
241
242	0	if (a < b)
243	0	goto divide_by_b;
244
245	0	for (;;)
246	0	{
247	0	mp_limb_t q;
248
249	0	q = a / b;
250	0	a -= q * b;
251
252	0	if (a == 0)
253	0	{
254	0	*up = u1;
255	0	*vp = v1;
256	0	return b;
257	0	}
258	0	u0 -= q * u1;
259	0	v0 -= q * v1;
260
261	0	divide_by_b:
262	0	q = b / a;
263	0	b -= q * a;
264
265	0	if (b == 0)
266	0	{
267	0	*up = u0;
268	0	*vp = v0;
269	0	return a;
270	0	}
271	0	u1 -= q * u0;
272	0	v1 -= q * v0;
273	0	}
274	0	}
275		#endif /* !GCDEXT_1_USE_BINARY */