LAMMP 4.2.0
Lamina High-Precision Arithmetic Library
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mul_toom32.c
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1/**
2 * Copyright (C) 2026 HJimmyK(Jericho Knox)
3 *
4 * This file is part of LAMMP.
5 *
6 * LAMMP is free software: you can redistribute it and/or modify it under
7 * the terms of the GNU Lesser General Public License (LGPL) as published
8 * by the Free Software Foundation; either version 3 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed WITHOUT ANY WARRANTY.
12 *
13 * See <https://www.gnu.org/licenses/>.
14 */
15
16#include "../../../include/lammp/impl/mparam.h"
17#include "../../../include/lammp/impl/tmp_alloc.h"
18#include "../../../include/lammp/lmmpn.h"
19
20
21#if MUL_TOOM33_THRESHOLD < MUL_TOOM44_THRESHOLD
22#define lmmp_mul_n_(dst, numa, numb, n) \
23 if ((n) < MUL_TOOM22_THRESHOLD) \
24 lmmp_mul_basecase_((dst), (numa), (n), (numb), (n)); \
25 else if ((n) < MUL_TOOM33_THRESHOLD) \
26 lmmp_mul_toom22_((dst), (numa), (n), (numb), (n)); \
27 else \
28 lmmp_mul_toom33_((dst), (numa), (n), (numb), (n))
29#endif
30
31/*
32Evaluate in: -1, 0, +1, +inf
33
34<-s-><--n--><--n-->
35|a2-|---a1-|---a0-|
36 |-b1-|---b0-|
37 <-t--><--n-->
38
39v0 = a0 * b0 # A(0)*B(0)
40v1 = (a0+a1+a2)*(b0+b1) # A(1)*B(1) ah <= 2 bh <= 1
41vm1 = (a0-a1+a2)*(b0-b1) # A(-1)*B(-1) |ah| <= 1 bh = 0
42vinf= a2 * b1 # A(inf)*B(inf)
43*/
44
46 lmmp_param_assert(nb >= 12);
47 lmmp_param_assert(4 * na >= 5 * nb);
48 lmmp_param_assert(5 * na <= 9 * nb);
50 mp_size_t n = 1 + (2 * na >= 3 * nb ? (na - 1) / 3 : (nb - 1) >> 1), s = na - 2 * n, t = nb - n;
51 int vm1_neg;
54
55#define a0 numa
56#define a1 (numa + n)
57#define a2 (numa + 2 * n)
58#define b0 numb
59#define b1 (numb + n)
60 // nb>=12, so that s+t>=n+2
61#define bm1 (dst) //[dst,n]
62#define bp1 (dst + n) //[dst+n,n+1]
63#define ap1 (dst + 2 * n + 1) //[dst+2*n+1,n+1]
64#define am1 (dst + 3 * n + 2) //[dst+3*n+2,n]:hi
65#define v1 (tp) //[tp,2*n+1]
66#define vm1 (tp + 2 * n + 1) //[tp+2*n+1,2*n+1]
67#define r0 (dst)
68#define r1 (dst + n)
69#define r2 (dst + 2 * n)
70#define r3 (dst + 3 * n)
71
72 // ap1=a0+a1+a3, am1=a0-a1+a3
73 ap1[n] = lmmp_add_(ap1, a0, n, a2, s);
74 if (ap1[n] == 0 && lmmp_cmp_(ap1, a1, n) < 0) {
75 ap1[n] = lmmp_add_n_sub_n_(ap1, am1, a1, ap1, n) >> 1;
76 hi = 0;
77 vm1_neg = 1;
78 } else {
80 hi = ap1[n] - (cy & 1);
81 ap1[n] += (cy >> 1);
82 vm1_neg = 0;
83 }
84
85 // bp1=b0+b1, bm1=b0-b1
86 if (t == n) {
87 if (lmmp_cmp_(b0, b1, n) < 0) {
88 bp1[n] = lmmp_add_n_sub_n_(bp1, bm1, b1, b0, n) >> 1;
89 vm1_neg ^= 1;
90 } else {
91 bp1[n] = lmmp_add_n_sub_n_(bp1, bm1, b0, b1, n) >> 1;
92 }
93 } else {
94 if (lmmp_zero_q_(b0 + t, n - t) && lmmp_cmp_(b0, b1, t) < 0) {
96 lmmp_zero(bm1 + t, n - t);
97 vm1_neg ^= 1;
98 } else {
100 lmmp_sub_1_(bm1 + t, b0 + t, n - t, cy & 1);
101 }
102 bp1[n] = lmmp_add_1_(bp1 + t, b0 + t, n - t, cy >> 1);
103 }
104
105 // v1=ap1*bp1
106 lmmp_mul_n_(v1, ap1, bp1, n + 1);
107
108 // vm=am1*bm1
109 lmmp_mul_n_(vm1, am1, bm1, n);
110 if (hi)
111 hi = lmmp_add_n_(vm1 + n, vm1 + n, bm1, n);
112 vm1[2 * n] = hi;
113
114 // r0=a0*b0
115 // r3=a2*b1
116 lmmp_mul_n_(r0, a0, b0, n);
117 if (s > t)
118 lmmp_mul_(r3, a2, s, b1, t);
119 else
120 lmmp_mul_(r3, b1, t, a2, s);
121
122 // v1=(v1+vm1)/2, (=a0*b0+a2*b0+a1*b1)
123 // vm1=v1-vm1, (=a1*b0+a0*b1+a2*b1)
124 if (vm1_neg) {
125 lmmp_shr1sub_n_(v1, v1, vm1, 2 * n + 1);
126 lmmp_add_n_(vm1, v1, vm1, 2 * n + 1);
127 } else {
128 lmmp_shr1add_n_(v1, v1, vm1, 2 * n + 1);
129 lmmp_sub_n_(vm1, v1, vm1, 2 * n + 1);
130 }
131
132 // vm1-=r3, (=r1)
133 // v1-=r0, (=r2)
134 lmmp_sub_(vm1, vm1, 2 * n + 1, r3, s + t);
135 v1[2 * n] -= lmmp_sub_n_(v1, v1, r0, 2 * n);
136
137 // r=r0+vm1*B+v1*B^2+r3*B^4
138 cy = vm1[2 * n] + lmmp_add_(r1, vm1, 2 * n, r1, n);
139 lmmp_add_(r2, r2, n + s + t, v1, 2 * n + 1);
140 lmmp_inc_1(r3, cy);
142}
mp_limb_t * mp_ptr
Definition lmmp.h:80
#define lmmp_zero(dst, n)
Definition lmmp.h:369
uint64_t mp_size_t
Definition lmmp.h:77
const mp_limb_t * mp_srcptr
Definition lmmp.h:81
uint64_t mp_limb_t
Definition lmmp.h:76
#define lmmp_param_assert(x)
Definition lmmp.h:401
static mp_limb_t lmmp_add_(mp_ptr dst, mp_srcptr numa, mp_size_t na, mp_srcptr numb, mp_size_t nb)
大数加法静态内联函数 [dst,na]=[numa,na]+[numb,nb]
Definition lmmpn.h:1050
mp_limb_t lmmp_shr1add_n_(mp_ptr dst, mp_srcptr numa, mp_srcptr numb, mp_size_t n)
加法后右移1位 [dst,n] = ([numa,n] + [numb,n]) >> 1
Definition shr.c:62
static int lmmp_cmp_(mp_srcptr numa, mp_srcptr numb, mp_size_t n)
大数比较函数(内联)
Definition lmmpn.h:996
static mp_limb_t lmmp_add_1_(mp_ptr dst, mp_srcptr numa, mp_size_t na, mp_limb_t x)
大数加单精度数静态内联函数 [dst,na]=[numa,na]+x
Definition lmmpn.h:1103
void lmmp_mul_(mp_ptr dst, mp_srcptr numa, mp_size_t na, mp_srcptr numb, mp_size_t nb)
不等长大数乘法操作 [dst,na+nb] = [numa,na] * [numb,nb]
static mp_limb_t lmmp_sub_(mp_ptr dst, mp_srcptr numa, mp_size_t na, mp_srcptr numb, mp_size_t nb)
大数减法静态内联函数 [dst,na]=[numa,na]-[numb,nb]
Definition lmmpn.h:1064
mp_limb_t lmmp_add_n_sub_n_(mp_ptr dsta, mp_ptr dstb, mp_srcptr numa, mp_srcptr numb, mp_size_t n)
同时执行n位加法和减法 ([dsta,n],[dstb,n]) = ([numa,n]+[numb,n],[numa,n]-[numb,n])
Definition add_n_sub_n.c:20
static mp_limb_t lmmp_sub_1_(mp_ptr dst, mp_srcptr numa, mp_size_t na, mp_limb_t x)
大数减单精度数静态内联函数 [dst,na]=[numa,na]-x
Definition lmmpn.h:1114
mp_limb_t lmmp_sub_n_(mp_ptr dst, mp_srcptr numa, mp_srcptr numb, mp_size_t n)
无借位的n位减法 [dst,n] = [numa,n] - [numb,n]
Definition sub_n.c:80
mp_limb_t lmmp_shr1sub_n_(mp_ptr dst, mp_srcptr numa, mp_srcptr numb, mp_size_t n)
减法后右移1位 [dst,n] = ([numa,n] - [numb,n]) >> 1
Definition shr.c:116
#define lmmp_inc_1(p, inc)
大数加指定值宏(预期无进位)
Definition lmmpn.h:950
mp_limb_t lmmp_add_n_(mp_ptr dst, mp_srcptr numa, mp_srcptr numb, mp_size_t n)
无进位的n位加法 [dst,n] = [numa,n] + [numb,n]
Definition add_n.c:81
static int lmmp_zero_q_(mp_srcptr p, mp_size_t n)
大数判零函数(内联)
Definition lmmpn.h:1019
#define r2
#define b0
#define lmmp_mul_n_(dst, numa, numb, n)
Copyright (C) 2026 HJimmyK(Jericho Knox)
Definition mul_toom32.c:22
#define b1
#define am1
#define ap1
#define bp1
#define vm1
#define r1
#define bm1
#define a2
#define a0
#define a1
void lmmp_mul_toom32_(mp_ptr restrict dst, mp_srcptr restrict numa, mp_size_t na, mp_srcptr restrict numb, mp_size_t nb)
Definition mul_toom32.c:45
#define v1
#define r3
#define r0
#define t
#define numb
#define tp
#define s
#define n
#define SALLOC_TYPE(n, type)
Definition tmp_alloc.h:144
#define TEMP_S_DECL
Definition tmp_alloc.h:133
#define TEMP_S_FREE
Definition tmp_alloc.h:166