/src/gmp/mpn/toom44_mul.c

Source (jump to first uncovered line)
/* mpn_toom44_mul -- Multiply {ap,an} and {bp,bn} where an and bn are close in
   size.  Or more accurately, bn <= an < (4/3)bn.

   Contributed to the GNU project by Torbjorn Granlund and Marco Bodrato.

   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 2006-2008, 2013 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: 0, +1, -1, +2, -2, 1/2, +inf

  <-s--><--n--><--n--><--n-->
   ____ ______ ______ ______
  |_a3_|___a2_|___a1_|___a0_|
   |b3_|___b2_|___b1_|___b0_|
   <-t-><--n--><--n--><--n-->

  v0  =   a0             *  b0              #    A(0)*B(0)
  v1  = ( a0+ a1+ a2+ a3)*( b0+ b1+ b2+ b3) #    A(1)*B(1)      ah  <= 3   bh  <= 3
  vm1 = ( a0- a1+ a2- a3)*( b0- b1+ b2- b3) #   A(-1)*B(-1)    |ah| <= 1  |bh| <= 1
  v2  = ( a0+2a1+4a2+8a3)*( b0+2b1+4b2+8b3) #    A(2)*B(2)      ah  <= 14  bh  <= 14
  vm2 = ( a0-2a1+4a2-8a3)*( b0-2b1+4b2-8b3) #   A(-2)*B(-2)    |ah| <= 9  |bh| <= 9
  vh  = (8a0+4a1+2a2+ a3)*(8b0+4b1+2b2+ b3) #  A(1/2)*B(1/2)    ah  <= 14  bh  <= 14
  vinf=               a3 *          b2      #  A(inf)*B(inf)
*/

#if TUNE_PROGRAM_BUILD
#define MAYBE_mul_basecase 1
#define MAYBE_mul_toom22   1
#define MAYBE_mul_toom44   1
#else
#define MAYBE_mul_basecase            \
  (MUL_TOOM44_THRESHOLD < 4 * MUL_TOOM22_THRESHOLD)
#define MAYBE_mul_toom22            \
  (MUL_TOOM44_THRESHOLD < 4 * MUL_TOOM33_THRESHOLD)
#define MAYBE_mul_toom44            \
  (MUL_TOOM6H_THRESHOLD >= 4 * MUL_TOOM44_THRESHOLD)
#endif

#define TOOM44_MUL_N_REC(p, a, b, n, ws)        \
  do {                 \
    if (MAYBE_mul_basecase            \
  && BELOW_THRESHOLD (n, MUL_TOOM22_THRESHOLD))     \
      mpn_mul_basecase (p, a, n, b, n);         \
    else if (MAYBE_mul_toom22            \
       && BELOW_THRESHOLD (n, MUL_TOOM33_THRESHOLD))   \
      mpn_toom22_mul (p, a, n, b, n, ws);       \
    else if (! MAYBE_mul_toom44            \
       || BELOW_THRESHOLD (n, MUL_TOOM44_THRESHOLD))   \
      mpn_toom33_mul (p, a, n, b, n, ws);       \
    else                \
      mpn_toom44_mul (p, a, n, b, n, ws);       \
  } while (0)

/* Use of scratch space. In the product area, we store

      ___________________
     |vinf|____|_v1_|_v0_|
      s+t  2n-1 2n+1  2n

   The other recursive products, vm1, v2, vm2, vh are stored in the
   scratch area. When computing them, we use the product area for
   intermediate values.

   Next, we compute v1. We can store the intermediate factors at v0
   and at vh + 2n + 2.

   Finally, for v0 and vinf, factors are parts of the input operands,
   and we need scratch space only for the recursive multiplication.

   In all, if S(an) is the scratch need, the needed space is bounded by

     S(an) <= 4 (2*ceil(an/4) + 1) + 1 + S(ceil(an/4) + 1)

   which should give S(n) = 8 n/3 + c log(n) for some constant c.
*/

void
mpn_toom44_mul (mp_ptr pp,
    mp_srcptr ap, mp_size_t an,
    mp_srcptr bp, mp_size_t bn,
    mp_ptr scratch)
{
  mp_size_t n, s, t;
  mp_limb_t cy;
  enum toom7_flags flags;

#define a0  ap
#define a1  (ap + n)
#define a2  (ap + 2*n)
#define a3  (ap + 3*n)
#define b0  bp
#define b1  (bp + n)
#define b2  (bp + 2*n)
#define b3  (bp + 3*n)

  ASSERT (an >= bn);

  n = (an + 3) >> 2;

  s = an - 3 * n;
  t = bn - 3 * n;

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

  /* NOTE: The multiplications to v2, vm2, vh and vm1 overwrites the
   * following limb, so these must be computed in order, and we need a
   * one limb gap to tp. */
#define v0    pp        /* 2n */
#define v1    (pp + 2 * n)      /* 2n+1 */
#define vinf  (pp + 6 * n)      /* s+t */
#define v2    scratch        /* 2n+1 */
#define vm2   (scratch + 2 * n + 1)    /* 2n+1 */
#define vh    (scratch + 4 * n + 2)    /* 2n+1 */
#define vm1   (scratch + 6 * n + 3)    /* 2n+1 */
#define tp (scratch + 8*n + 5)

  /* apx and bpx must not overlap with v1 */
#define apx   pp        /* n+1 */
#define amx   (pp + n + 1)      /* n+1 */
#define bmx   (pp + 2*n + 2)      /* n+1 */
#define bpx   (pp + 4*n + 2)      /* n+1 */

  /* Total scratch need: 8*n + 5 + scratch for recursive calls. This
     gives roughly 32 n/3 + log term. */

  /* Compute apx = a0 + 2 a1 + 4 a2 + 8 a3 and amx = a0 - 2 a1 + 4 a2 - 8 a3.  */
  flags = (enum toom7_flags) (toom7_w1_neg & mpn_toom_eval_dgr3_pm2 (apx, amx, ap, n, s, tp));

  /* Compute bpx = b0 + 2 b1 + 4 b2 + 8 b3 and bmx = b0 - 2 b1 + 4 b2 - 8 b3.  */
  flags = (enum toom7_flags) (flags ^ (toom7_w1_neg & mpn_toom_eval_dgr3_pm2 (bpx, bmx, bp, n, t, tp)));

  TOOM44_MUL_N_REC (v2, apx, bpx, n + 1, tp); /* v2,  2n+1 limbs */
  TOOM44_MUL_N_REC (vm2, amx, bmx, n + 1, tp);  /* vm2,  2n+1 limbs */

  /* Compute apx = 8 a0 + 4 a1 + 2 a2 + a3 = (((2*a0 + a1) * 2 + a2) * 2 + a3 */
#if HAVE_NATIVE_mpn_addlsh1_n
  cy = mpn_addlsh1_n (apx, a1, a0, n);
  cy = 2*cy + mpn_addlsh1_n (apx, a2, apx, n);
  if (s < n)
    {
      mp_limb_t cy2;
      cy2 = mpn_addlsh1_n (apx, a3, apx, s);
      apx[n] = 2*cy + mpn_lshift (apx + s, apx + s, n - s, 1);
      MPN_INCR_U (apx + s, n+1-s, cy2);
    }
  else
    apx[n] = 2*cy + mpn_addlsh1_n (apx, a3, apx, n);
#else
  cy = mpn_lshift (apx, a0, n, 1);
  cy += mpn_add_n (apx, apx, a1, n);
  cy = 2*cy + mpn_lshift (apx, apx, n, 1);
  cy += mpn_add_n (apx, apx, a2, n);
  cy = 2*cy + mpn_lshift (apx, apx, n, 1);
  apx[n] = cy + mpn_add (apx, apx, n, a3, s);
#endif

  /* Compute bpx = 8 b0 + 4 b1 + 2 b2 + b3 = (((2*b0 + b1) * 2 + b2) * 2 + b3 */
#if HAVE_NATIVE_mpn_addlsh1_n
  cy = mpn_addlsh1_n (bpx, b1, b0, n);
  cy = 2*cy + mpn_addlsh1_n (bpx, b2, bpx, n);
  if (t < n)
    {
      mp_limb_t cy2;
      cy2 = mpn_addlsh1_n (bpx, b3, bpx, t);
      bpx[n] = 2*cy + mpn_lshift (bpx + t, bpx + t, n - t, 1);
      MPN_INCR_U (bpx + t, n+1-t, cy2);
    }
  else
    bpx[n] = 2*cy + mpn_addlsh1_n (bpx, b3, bpx, n);
#else
  cy = mpn_lshift (bpx, b0, n, 1);
  cy += mpn_add_n (bpx, bpx, b1, n);
  cy = 2*cy + mpn_lshift (bpx, bpx, n, 1);
  cy += mpn_add_n (bpx, bpx, b2, n);
  cy = 2*cy + mpn_lshift (bpx, bpx, n, 1);
  bpx[n] = cy + mpn_add (bpx, bpx, n, b3, t);
#endif

  ASSERT (apx[n] < 15);
  ASSERT (bpx[n] < 15);

  TOOM44_MUL_N_REC (vh, apx, bpx, n + 1, tp); /* vh,  2n+1 limbs */

  /* Compute apx = a0 + a1 + a2 + a3 and amx = a0 - a1 + a2 - a3.  */
  flags = (enum toom7_flags) (flags | (toom7_w3_neg & mpn_toom_eval_dgr3_pm1 (apx, amx, ap, n, s, tp)));

  /* Compute bpx = b0 + b1 + b2 + b3 and bmx = b0 - b1 + b2 - b3.  */
  flags = (enum toom7_flags) (flags ^ (toom7_w3_neg & mpn_toom_eval_dgr3_pm1 (bpx, bmx, bp, n, t, tp)));

  ASSERT (amx[n] <= 1);
  ASSERT (bmx[n] <= 1);

  vm1 [2 * n] = 0;
  TOOM44_MUL_N_REC (vm1, amx, bmx, n + (bmx[n] | amx[n]), tp);  /* vm1,  2n+1 limbs */
  /* Clobbers amx, bmx. */
  TOOM44_MUL_N_REC (v1, apx, bpx, n + 1, tp); /* v1,  2n+1 limbs */

  TOOM44_MUL_N_REC (v0, a0, b0, n, tp);
  if (s > t)
    mpn_mul (vinf, a3, s, b3, t);
  else
    TOOM44_MUL_N_REC (vinf, a3, b3, s, tp); /* vinf, s+t limbs */

  mpn_toom_interpolate_7pts (pp, n, flags, vm2, vm1, v2, vh, s + t, tp);
}

Coverage Report

Created: 2025-03-06 07:58

Line	Count	Source (jump to first uncovered line)
1		/* mpn_toom44_mul -- Multiply {ap,an} and {bp,bn} where an and bn are close in
2		size. Or more accurately, bn <= an < (4/3)bn.
3
4		Contributed to the GNU project by Torbjorn Granlund and Marco Bodrato.
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 2006-2008, 2013 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: 0, +1, -1, +2, -2, 1/2, +inf
42
43		<-s--><--n--><--n--><--n-->
44		____ ______ ______ ______
45		\|_a3_\|___a2_\|___a1_\|___a0_\|
46		\|b3_\|___b2_\|___b1_\|___b0_\|
47		<-t-><--n--><--n--><--n-->
48
49		v0 = a0 * b0 # A(0)*B(0)
50		v1 = ( a0+ a1+ a2+ a3)( b0+ b1+ b2+ b3) # A(1)B(1) ah <= 3 bh <= 3
51		vm1 = ( a0- a1+ a2- a3)( b0- b1+ b2- b3) # A(-1)B(-1) \|ah\| <= 1 \|bh\| <= 1
52		v2 = ( a0+2a1+4a2+8a3)( b0+2b1+4b2+8b3) # A(2)B(2) ah <= 14 bh <= 14
53		vm2 = ( a0-2a1+4a2-8a3)( b0-2b1+4b2-8b3) # A(-2)B(-2) \|ah\| <= 9 \|bh\| <= 9
54		vh = (8a0+4a1+2a2+ a3)(8b0+4b1+2b2+ b3) # A(1/2)B(1/2) ah <= 14 bh <= 14
55		vinf= a3 * b2 # A(inf)*B(inf)
56		*/
57
58		#if TUNE_PROGRAM_BUILD
59		#define MAYBE_mul_basecase 1
60		#define MAYBE_mul_toom22 1
61		#define MAYBE_mul_toom44 1
62		#else
63		#define MAYBE_mul_basecase \
64	0	(MUL_TOOM44_THRESHOLD < 4 * MUL_TOOM22_THRESHOLD)
65		#define MAYBE_mul_toom22 \
66	0	(MUL_TOOM44_THRESHOLD < 4 * MUL_TOOM33_THRESHOLD)
67		#define MAYBE_mul_toom44 \
68	0	(MUL_TOOM6H_THRESHOLD >= 4 * MUL_TOOM44_THRESHOLD)
69		#endif
70
71		#define TOOM44_MUL_N_REC(p, a, b, n, ws) \
72	0	do { \
73	0	if (MAYBE_mul_basecase \
74	0	&& BELOW_THRESHOLD (n, MUL_TOOM22_THRESHOLD)) \
75	0	mpn_mul_basecase (p, a, n, b, n); \
76	0	else if (MAYBE_mul_toom22 \
77	0	&& BELOW_THRESHOLD (n, MUL_TOOM33_THRESHOLD)) \
78	0	mpn_toom22_mul (p, a, n, b, n, ws); \
79	0	else if (! MAYBE_mul_toom44 \
80	0	\|\| BELOW_THRESHOLD (n, MUL_TOOM44_THRESHOLD)) \
81	0	mpn_toom33_mul (p, a, n, b, n, ws); \
82	0	else \
83	0	mpn_toom44_mul (p, a, n, b, n, ws); \
84	0	} while (0)
85
86		/* Use of scratch space. In the product area, we store
87
88		___________________
89		\|vinf\|____\|_v1_\|_v0_\|
90		s+t 2n-1 2n+1 2n
91
92		The other recursive products, vm1, v2, vm2, vh are stored in the
93		scratch area. When computing them, we use the product area for
94		intermediate values.
95
96		Next, we compute v1. We can store the intermediate factors at v0
97		and at vh + 2n + 2.
98
99		Finally, for v0 and vinf, factors are parts of the input operands,
100		and we need scratch space only for the recursive multiplication.
101
102		In all, if S(an) is the scratch need, the needed space is bounded by
103
104		S(an) <= 4 (2*ceil(an/4) + 1) + 1 + S(ceil(an/4) + 1)
105
106		which should give S(n) = 8 n/3 + c log(n) for some constant c.
107		*/
108
109		void
110		mpn_toom44_mul (mp_ptr pp,
111		mp_srcptr ap, mp_size_t an,
112		mp_srcptr bp, mp_size_t bn,
113		mp_ptr scratch)
114	0	{
115	0	mp_size_t n, s, t;
116	0	mp_limb_t cy;
117	0	enum toom7_flags flags;
118
119	0	#define a0 ap
120	0	#define a1 (ap + n)
121	0	#define a2 (ap + 2*n)
122	0	#define a3 (ap + 3*n)
123	0	#define b0 bp
124	0	#define b1 (bp + n)
125	0	#define b2 (bp + 2*n)
126	0	#define b3 (bp + 3*n)
127
128	0	ASSERT (an >= bn);
129
130	0	n = (an + 3) >> 2;
131
132	0	s = an - 3 * n;
133	0	t = bn - 3 * n;
134
135	0	ASSERT (0 < s && s <= n);
136	0	ASSERT (0 < t && t <= n);
137	0	ASSERT (s >= t);
138
139		/* NOTE: The multiplications to v2, vm2, vh and vm1 overwrites the
140		* following limb, so these must be computed in order, and we need a
141		* one limb gap to tp. */
142	0	#define v0 pp /* 2n */
143	0	#define v1 (pp + 2 * n) /* 2n+1 */
144	0	#define vinf (pp + 6 * n) /* s+t */
145	0	#define v2 scratch /* 2n+1 */
146	0	#define vm2 (scratch + 2 * n + 1) /* 2n+1 */
147	0	#define vh (scratch + 4 * n + 2) /* 2n+1 */
148	0	#define vm1 (scratch + 6 * n + 3) /* 2n+1 */
149	0	#define tp (scratch + 8*n + 5)
150
151		/* apx and bpx must not overlap with v1 */
152	0	#define apx pp /* n+1 */
153	0	#define amx (pp + n + 1) /* n+1 */
154	0	#define bmx (pp + 2n + 2) / n+1 */
155	0	#define bpx (pp + 4n + 2) / n+1 */
156
157		/* Total scratch need: 8*n + 5 + scratch for recursive calls. This
158		gives roughly 32 n/3 + log term. */
159
160		/* Compute apx = a0 + 2 a1 + 4 a2 + 8 a3 and amx = a0 - 2 a1 + 4 a2 - 8 a3. */
161	0	flags = (enum toom7_flags) (toom7_w1_neg & mpn_toom_eval_dgr3_pm2 (apx, amx, ap, n, s, tp));
162
163		/* Compute bpx = b0 + 2 b1 + 4 b2 + 8 b3 and bmx = b0 - 2 b1 + 4 b2 - 8 b3. */
164	0	flags = (enum toom7_flags) (flags ^ (toom7_w1_neg & mpn_toom_eval_dgr3_pm2 (bpx, bmx, bp, n, t, tp)));
165
166	0	TOOM44_MUL_N_REC (v2, apx, bpx, n + 1, tp); /* v2, 2n+1 limbs */
167	0	TOOM44_MUL_N_REC (vm2, amx, bmx, n + 1, tp); /* vm2, 2n+1 limbs */
168
169		/* Compute apx = 8 a0 + 4 a1 + 2 a2 + a3 = (((2a0 + a1) 2 + a2) * 2 + a3 */
170	0	#if HAVE_NATIVE_mpn_addlsh1_n
171	0	cy = mpn_addlsh1_n (apx, a1, a0, n);
172	0	cy = 2*cy + mpn_addlsh1_n (apx, a2, apx, n);
173	0	if (s < n)
174	0	{
175	0	mp_limb_t cy2;
176	0	cy2 = mpn_addlsh1_n (apx, a3, apx, s);
177	0	apx[n] = 2*cy + mpn_lshift (apx + s, apx + s, n - s, 1);
178	0	MPN_INCR_U (apx + s, n+1-s, cy2);
179	0	}
180	0	else
181	0	apx[n] = 2*cy + mpn_addlsh1_n (apx, a3, apx, n);
182		#else
183		cy = mpn_lshift (apx, a0, n, 1);
184		cy += mpn_add_n (apx, apx, a1, n);
185		cy = 2*cy + mpn_lshift (apx, apx, n, 1);
186		cy += mpn_add_n (apx, apx, a2, n);
187		cy = 2*cy + mpn_lshift (apx, apx, n, 1);
188		apx[n] = cy + mpn_add (apx, apx, n, a3, s);
189		#endif
190
191		/* Compute bpx = 8 b0 + 4 b1 + 2 b2 + b3 = (((2b0 + b1) 2 + b2) * 2 + b3 */
192	0	#if HAVE_NATIVE_mpn_addlsh1_n
193	0	cy = mpn_addlsh1_n (bpx, b1, b0, n);
194	0	cy = 2*cy + mpn_addlsh1_n (bpx, b2, bpx, n);
195	0	if (t < n)
196	0	{
197	0	mp_limb_t cy2;
198	0	cy2 = mpn_addlsh1_n (bpx, b3, bpx, t);
199	0	bpx[n] = 2*cy + mpn_lshift (bpx + t, bpx + t, n - t, 1);
200	0	MPN_INCR_U (bpx + t, n+1-t, cy2);
201	0	}
202	0	else
203	0	bpx[n] = 2*cy + mpn_addlsh1_n (bpx, b3, bpx, n);
204		#else
205		cy = mpn_lshift (bpx, b0, n, 1);
206		cy += mpn_add_n (bpx, bpx, b1, n);
207		cy = 2*cy + mpn_lshift (bpx, bpx, n, 1);
208		cy += mpn_add_n (bpx, bpx, b2, n);
209		cy = 2*cy + mpn_lshift (bpx, bpx, n, 1);
210		bpx[n] = cy + mpn_add (bpx, bpx, n, b3, t);
211		#endif
212
213	0	ASSERT (apx[n] < 15);
214	0	ASSERT (bpx[n] < 15);
215
216	0	TOOM44_MUL_N_REC (vh, apx, bpx, n + 1, tp); /* vh, 2n+1 limbs */
217
218		/* Compute apx = a0 + a1 + a2 + a3 and amx = a0 - a1 + a2 - a3. */
219	0	flags = (enum toom7_flags) (flags \| (toom7_w3_neg & mpn_toom_eval_dgr3_pm1 (apx, amx, ap, n, s, tp)));
220
221		/* Compute bpx = b0 + b1 + b2 + b3 and bmx = b0 - b1 + b2 - b3. */
222	0	flags = (enum toom7_flags) (flags ^ (toom7_w3_neg & mpn_toom_eval_dgr3_pm1 (bpx, bmx, bp, n, t, tp)));
223
224	0	ASSERT (amx[n] <= 1);
225	0	ASSERT (bmx[n] <= 1);
226
227	0	vm1 [2 * n] = 0;
228	0	TOOM44_MUL_N_REC (vm1, amx, bmx, n + (bmx[n] \| amx[n]), tp); /* vm1, 2n+1 limbs */
229		/* Clobbers amx, bmx. */
230	0	TOOM44_MUL_N_REC (v1, apx, bpx, n + 1, tp); /* v1, 2n+1 limbs */
231
232	0	TOOM44_MUL_N_REC (v0, a0, b0, n, tp);
233	0	if (s > t)
234	0	mpn_mul (vinf, a3, s, b3, t);
235	0	else
236	0	TOOM44_MUL_N_REC (vinf, a3, b3, s, tp); /* vinf, s+t limbs */
237
238	0	mpn_toom_interpolate_7pts (pp, n, flags, vm2, vm1, v2, vh, s + t, tp);
239	0	}