/src/gmp-6.2.1/mpn/toom22_mul.c

Source (jump to first uncovered line)
/* mpn_toom22_mul -- Multiply {ap,an} and {bp,bn} where an >= bn.  Or more
   accurately, bn <= an < 2bn.

   Contributed to the GNU project by Torbjorn Granlund.

   THE FUNCTION IN THIS FILE IS INTERNAL WITH A MUTABLE INTERFACE.  IT IS ONLY
   SAFE TO REACH IT THROUGH DOCUMENTED INTERFACES.  IN FACT, IT IS ALMOST
   GUARANTEED THAT IT WILL CHANGE OR DISAPPEAR IN A FUTURE GNU MP RELEASE.

Copyright 2006-2010, 2012, 2014, 2018 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"

/* Evaluate in: -1, 0, +inf

  <-s--><--n-->
   ____ ______
  |_a1_|___a0_|
   |b1_|___b0_|
   <-t-><--n-->

  v0  =  a0     * b0       #   A(0)*B(0)
  vm1 = (a0- a1)*(b0- b1)  #  A(-1)*B(-1)
  vinf=      a1 *     b1   # A(inf)*B(inf)
*/

#if TUNE_PROGRAM_BUILD || WANT_FAT_BINARY
#define MAYBE_mul_toom22   1
#else
#define MAYBE_mul_toom22            \
  (MUL_TOOM33_THRESHOLD >= 2 * MUL_TOOM22_THRESHOLD)
#endif

#define TOOM22_MUL_N_REC(p, a, b, n, ws)        \
  do {                 \
    if (! MAYBE_mul_toom22            \
  || BELOW_THRESHOLD (n, MUL_TOOM22_THRESHOLD))     \
      mpn_mul_basecase (p, a, n, b, n);         \
    else                \
      mpn_toom22_mul (p, a, n, b, n, ws);       \
  } while (0)

/* Normally, this calls mul_basecase or toom22_mul.  But when when the fraction
   MUL_TOOM33_THRESHOLD / MUL_TOOM22_THRESHOLD is large, an initially small
   relative unbalance will become a larger and larger relative unbalance with
   each recursion (the difference s-t will be invariant over recursive calls).
   Therefore, we need to call toom32_mul.  FIXME: Suppress depending on
   MUL_TOOM33_THRESHOLD / MUL_TOOM22_THRESHOLD and on MUL_TOOM22_THRESHOLD.  */
#define TOOM22_MUL_REC(p, a, an, b, bn, ws)       \
  do {                 \
    if (! MAYBE_mul_toom22            \
  || BELOW_THRESHOLD (bn, MUL_TOOM22_THRESHOLD))      \
      mpn_mul_basecase (p, a, an, b, bn);       \
    else if (4 * an < 5 * bn)           \
      mpn_toom22_mul (p, a, an, b, bn, ws);       \
    else                \
      mpn_toom32_mul (p, a, an, b, bn, ws);       \
  } while (0)

void
mpn_toom22_mul (mp_ptr pp,
    mp_srcptr ap, mp_size_t an,
    mp_srcptr bp, mp_size_t bn,
    mp_ptr scratch)
{
  const int __gmpn_cpuvec_initialized = 1;
  mp_size_t n, s, t;
  int vm1_neg;
  mp_limb_t cy, cy2;
  mp_ptr asm1;
  mp_ptr bsm1;

#define a0  ap
#define a1  (ap + n)
#define b0  bp
#define b1  (bp + n)

  s = an >> 1;
  n = an - s;
  t = bn - n;

  ASSERT (an >= bn);

  ASSERT (0 < s && s <= n && s >= n - 1);
  ASSERT (0 < t && t <= s);

  asm1 = pp;
  bsm1 = pp + n;

  vm1_neg = 0;

  /* Compute asm1.  */
  if (s == n)
    {
      if (mpn_cmp (a0, a1, n) < 0)
  {
    mpn_sub_n (asm1, a1, a0, n);
    vm1_neg = 1;
  }
      else
  {
    mpn_sub_n (asm1, a0, a1, n);
  }
    }
  else /* n - s == 1 */
    {
      if (a0[s] == 0 && mpn_cmp (a0, a1, s) < 0)
  {
    mpn_sub_n (asm1, a1, a0, s);
    asm1[s] = 0;
    vm1_neg = 1;
  }
      else
  {
    asm1[s] = a0[s] - mpn_sub_n (asm1, a0, a1, s);
  }
    }

  /* Compute bsm1.  */
  if (t == n)
    {
      if (mpn_cmp (b0, b1, n) < 0)
  {
    mpn_sub_n (bsm1, b1, b0, n);
    vm1_neg ^= 1;
  }
      else
  {
    mpn_sub_n (bsm1, b0, b1, n);
  }
    }
  else
    {
      if (mpn_zero_p (b0 + t, n - t) && mpn_cmp (b0, b1, t) < 0)
  {
    mpn_sub_n (bsm1, b1, b0, t);
    MPN_ZERO (bsm1 + t, n - t);
    vm1_neg ^= 1;
  }
      else
  {
    mpn_sub (bsm1, b0, n, b1, t);
  }
    }

#define v0  pp        /* 2n */
#define vinf  (pp + 2 * n)      /* s+t */
#define vm1 scratch        /* 2n */
#define scratch_out scratch + 2 * n

  /* vm1, 2n limbs */
  TOOM22_MUL_N_REC (vm1, asm1, bsm1, n, scratch_out);

  if (s > t)  TOOM22_MUL_REC (vinf, a1, s, b1, t, scratch_out);
  else        TOOM22_MUL_N_REC (vinf, a1, b1, s, scratch_out);

  /* v0, 2n limbs */
  TOOM22_MUL_N_REC (v0, ap, bp, n, scratch_out);

  /* H(v0) + L(vinf) */
  cy = mpn_add_n (pp + 2 * n, v0 + n, vinf, n);

  /* L(v0) + H(v0) */
  cy2 = cy + mpn_add_n (pp + n, pp + 2 * n, v0, n);

  /* L(vinf) + H(vinf) */
  cy += mpn_add (pp + 2 * n, pp + 2 * n, n, vinf + n, s + t - n);

  if (vm1_neg)
    cy += mpn_add_n (pp + n, pp + n, vm1, 2 * n);
  else {
    cy -= mpn_sub_n (pp + n, pp + n, vm1, 2 * n);
    if (UNLIKELY (cy + 1 == 0)) { /* cy is negative */
      /* The total contribution of v0+vinf-vm1 can not be negative. */
#if WANT_ASSERT
      /* The borrow in cy stops the propagation of the carry cy2, */
      ASSERT (cy2 == 1);
      cy += mpn_add_1 (pp + 2 * n, pp + 2 * n, n, cy2);
      ASSERT (cy == 0);
#else
      /* we simply fill the area with zeros. */
      MPN_FILL (pp + 2 * n, n, 0);
#endif
      return;
    }
  }

  ASSERT (cy  <= 2);
  ASSERT (cy2 <= 2);

  MPN_INCR_U (pp + 2 * n, s + t, cy2);
  /* if s+t==n, cy is zero, but we should not access pp[3*n] at all. */
  MPN_INCR_U (pp + 3 * n, s + t - n, cy);
}

Coverage Report

Created: 2023-09-25 06:33

Line	Count	Source (jump to first uncovered line)
1		/* mpn_toom22_mul -- Multiply {ap,an} and {bp,bn} where an >= bn. Or more
2		accurately, bn <= an < 2bn.
3
4		Contributed to the GNU project by Torbjorn Granlund.
5
6		THE FUNCTION IN THIS FILE IS INTERNAL WITH A MUTABLE INTERFACE. IT IS ONLY
7		SAFE TO REACH IT THROUGH DOCUMENTED INTERFACES. IN FACT, IT IS ALMOST
8		GUARANTEED THAT IT WILL CHANGE OR DISAPPEAR IN A FUTURE GNU MP RELEASE.
9
10		Copyright 2006-2010, 2012, 2014, 2018 Free Software Foundation, Inc.
11
12		This file is part of the GNU MP Library.
13
14		The GNU MP Library is free software; you can redistribute it and/or modify
15		it under the terms of either:
16
17		* the GNU Lesser General Public License as published by the Free
18		Software Foundation; either version 3 of the License, or (at your
19		option) any later version.
20
21		or
22
23		* the GNU General Public License as published by the Free Software
24		Foundation; either version 2 of the License, or (at your option) any
25		later version.
26
27		or both in parallel, as here.
28
29		The GNU MP Library is distributed in the hope that it will be useful, but
30		WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
31		or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
32		for more details.
33
34		You should have received copies of the GNU General Public License and the
35		GNU Lesser General Public License along with the GNU MP Library. If not,
36		see https://www.gnu.org/licenses/. */
37
38
39		#include "gmp-impl.h"
40
41		/* Evaluate in: -1, 0, +inf
42
43		<-s--><--n-->
44		____ ______
45		\|_a1_\|___a0_\|
46		\|b1_\|___b0_\|
47		<-t-><--n-->
48
49		v0 = a0 * b0 # A(0)*B(0)
50		vm1 = (a0- a1)(b0- b1) # A(-1)B(-1)
51		vinf= a1 * b1 # A(inf)*B(inf)
52		*/
53
54		#if TUNE_PROGRAM_BUILD \|\| WANT_FAT_BINARY
55		#define MAYBE_mul_toom22 1
56		#else
57		#define MAYBE_mul_toom22 \
58	36.2k	(MUL_TOOM33_THRESHOLD >= 2 * MUL_TOOM22_THRESHOLD)
59		#endif
60
61		#define TOOM22_MUL_N_REC(p, a, b, n, ws) \
62	17.4k	do { \
63	17.4k	if (! MAYBE_mul_toom22 \
64	17.4k	\|\| BELOW_THRESHOLD (n, MUL_TOOM22_THRESHOLD)) \
65	17.4k	mpn_mul_basecase (p, a, n, b, n); \
66	17.4k	else \
67	17.4k	mpn_toom22_mul (p, a, n, b, n, ws); \
68	17.4k	} while (0)
69
70		/* Normally, this calls mul_basecase or toom22_mul. But when when the fraction
71		MUL_TOOM33_THRESHOLD / MUL_TOOM22_THRESHOLD is large, an initially small
72		relative unbalance will become a larger and larger relative unbalance with
73		each recursion (the difference s-t will be invariant over recursive calls).
74		Therefore, we need to call toom32_mul. FIXME: Suppress depending on
75		MUL_TOOM33_THRESHOLD / MUL_TOOM22_THRESHOLD and on MUL_TOOM22_THRESHOLD. */
76		#define TOOM22_MUL_REC(p, a, an, b, bn, ws) \
77	635	do { \
78	635	if (! MAYBE_mul_toom22 \
79	635	\|\| BELOW_THRESHOLD (bn, MUL_TOOM22_THRESHOLD)) \
80	635	mpn_mul_basecase (p, a, an, b, bn); \
81	635	else if (4 * an < 5 * bn) \
82	5	mpn_toom22_mul (p, a, an, b, bn, ws); \
83	5	else \
84	5	mpn_toom32_mul (p, a, an, b, bn, ws); \
85	635	} while (0)
86
87		void
88		mpn_toom22_mul (mp_ptr pp,
89		mp_srcptr ap, mp_size_t an,
90		mp_srcptr bp, mp_size_t bn,
91		mp_ptr scratch)
92	6.03k	{
93	6.03k	const int __gmpn_cpuvec_initialized = 1;
94	6.03k	mp_size_t n, s, t;
95	6.03k	int vm1_neg;
96	6.03k	mp_limb_t cy, cy2;
97	6.03k	mp_ptr asm1;
98	6.03k	mp_ptr bsm1;
99
100	15.0k	#define a0 ap
101	9.40k	#define a1 (ap + n)
102	12.1k	#define b0 bp
103	9.02k	#define b1 (bp + n)
104
105	6.03k	s = an >> 1;
106	6.03k	n = an - s;
107	6.03k	t = bn - n;
108
109	6.03k	ASSERT (an >= bn);
110
111	6.03k	ASSERT (0 < s && s <= n && s >= n - 1);
112	6.03k	ASSERT (0 < t && t <= s);
113
114	6.03k	asm1 = pp;
115	6.03k	bsm1 = pp + n;
116
117	6.03k	vm1_neg = 0;
118
119		/* Compute asm1. */
120	6.03k	if (s == n)
121	3.22k	{
122	3.22k	if (mpn_cmp (a0, a1, n) < 0)
123	898	{
124	898	mpn_sub_n (asm1, a1, a0, n);
125	898	vm1_neg = 1;
126	898	}
127	2.32k	else
128	2.32k	{
129	2.32k	mpn_sub_n (asm1, a0, a1, n);
130	2.32k	}
131	3.22k	}
132	2.81k	else /* n - s == 1 */
133	2.81k	{
134	2.81k	if (a0[s] == 0 && mpn_cmp (a0, a1, s) < 0)
135	25	{
136	25	mpn_sub_n (asm1, a1, a0, s);
137	25	asm1[s] = 0;
138	25	vm1_neg = 1;
139	25	}
140	2.78k	else
141	2.78k	{
142	2.78k	asm1[s] = a0[s] - mpn_sub_n (asm1, a0, a1, s);
143	2.78k	}
144	2.81k	}
145
146		/* Compute bsm1. */
147	6.03k	if (t == n)
148	2.96k	{
149	2.96k	if (mpn_cmp (b0, b1, n) < 0)
150	969	{
151	969	mpn_sub_n (bsm1, b1, b0, n);
152	969	vm1_neg ^= 1;
153	969	}
154	1.99k	else
155	1.99k	{
156	1.99k	mpn_sub_n (bsm1, b0, b1, n);
157	1.99k	}
158	2.96k	}
159	3.07k	else
160	3.07k	{
161	3.07k	if (mpn_zero_p (b0 + t, n - t) && mpn_cmp (b0, b1, t) < 0)
162	0	{
163	0	mpn_sub_n (bsm1, b1, b0, t);
164	0	MPN_ZERO (bsm1 + t, n - t);
165	0	vm1_neg ^= 1;
166	0	}
167	3.07k	else
168	3.07k	{
169	3.07k	mpn_sub (bsm1, b0, n, b1, t);
170	3.07k	}
171	3.07k	}
172
173	12.0k	#define v0 pp /* 2n */
174	12.0k	#define vinf (pp + 2 * n) /* s+t */
175	6.03k	#define vm1 scratch /* 2n */
176	6.03k	#define scratch_out scratch + 2 * n
177
178		/* vm1, 2n limbs */
179	6.03k	TOOM22_MUL_N_REC (vm1, asm1, bsm1, n, scratch_out);
180
181	6.03k	if (s > t) TOOM22_MUL_REC (vinf, a1, s, b1, t, scratch_out);
182	5.40k	else TOOM22_MUL_N_REC (vinf, a1, b1, s, scratch_out);
183
184		/* v0, 2n limbs */
185	6.03k	TOOM22_MUL_N_REC (v0, ap, bp, n, scratch_out);
186
187		/* H(v0) + L(vinf) */
188	6.03k	cy = mpn_add_n (pp + 2 * n, v0 + n, vinf, n);
189
190		/* L(v0) + H(v0) */
191	6.03k	cy2 = cy + mpn_add_n (pp + n, pp + 2 * n, v0, n);
192
193		/* L(vinf) + H(vinf) */
194	6.03k	cy += mpn_add (pp + 2 * n, pp + 2 * n, n, vinf + n, s + t - n);
195
196	6.03k	if (vm1_neg)
197	1.09k	cy += mpn_add_n (pp + n, pp + n, vm1, 2 * n);
198	4.94k	else {
199	4.94k	cy -= mpn_sub_n (pp + n, pp + n, vm1, 2 * n);
200	4.94k	if (UNLIKELY (cy + 1 == 0)) { /* cy is negative */
201		/* The total contribution of v0+vinf-vm1 can not be negative. */
202		#if WANT_ASSERT
203		/* The borrow in cy stops the propagation of the carry cy2, */
204		ASSERT (cy2 == 1);
205		cy += mpn_add_1 (pp + 2 * n, pp + 2 * n, n, cy2);
206		ASSERT (cy == 0);
207		#else
208		/* we simply fill the area with zeros. */
209	0	MPN_FILL (pp + 2 * n, n, 0);
210	0	#endif
211	0	return;
212	0	}
213	4.94k	}
214
215	6.03k	ASSERT (cy <= 2);
216	6.03k	ASSERT (cy2 <= 2);
217
218	6.03k	MPN_INCR_U (pp + 2 * n, s + t, cy2);
219		/* if s+t==n, cy is zero, but we should not access pp[3n] at all. /
220	6.03k	MPN_INCR_U (pp + 3 * n, s + t - n, cy);
221	6.03k	}