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1.1 noro 1: /* $OpenXM: OpenXM/src/asir99/engine-27/ddN-27.c,v 1.1.1.1 1999/11/10 08:12:27 noro Exp $ */
2: #include "ca-27.h"
3: #include "base.h"
4: #include "inline.h"
5:
6: void divn_27(n1,n2,nq,nr)
7: N n1,n2,*nq,*nr;
8: {
9: int tmp;
10: int br;
11: int j,d,d1,d2,dd;
12: int *m1,*m1e,*m2,*mr;
13: N q,r;
14:
15: if ( !n2 )
16: error("divn: division by 0");
17: else if ( !n1 ) {
18: *nq = 0; *nr = 0;
19: } else if ( UNIN(n2) ) {
20: *nq = n1; *nr = 0;
21: } else if ( (d1 = PL(n1)) < (d2 = PL(n2)) ) {
22: *nr = n1; *nq = 0;
23: } else if ( d2 == 1 ) {
24: if ( d1 == 1 ) {
25: DQR(BD(n1)[0],BD(n2)[0],br,tmp)
26: STON(br,*nq); STON(tmp,*nr);
27: } else {
28: tmp = divin_27(n1,BD(n2)[0],nq); STON(tmp,*nr);
29: }
30: return;
31: } else if ( (d1 == d2) && ((tmp = cmpn(n1,n2)) <= 0) )
32: if ( !tmp ) {
33: *nr = 0; *nq = ONEN;
34: } else {
35: *nr = n1; *nq = 0;
36: }
37: else {
38: d = BASE27/(BD(n2)[d2-1] + 1); dd = d1-d2;
39: m1 = W_ALLOC(d1+1); m2 = W_ALLOC(d2+1);
40: mulin_27(n1,d,m1); mulin_27(n2,d,m2);
41: *nq = q = NALLOC(dd+1);
42: divnmain_27(d1,d2,m1,m2,BD(q));
43: PL(q) = (BD(q)[dd]?dd+1:dd);
44: for ( j = d2-1; (j >= 0) && (m1[j] == 0); j--);
45: if ( j == -1 )
46: *nr = 0;
47: else {
48: *nr = r = NALLOC(j+1);
49: for ( br = 0, m1e = m1+j, mr = BD(r)+j;
50: m1e >= m1; m1e--, mr-- ) {
51: DSAB27(d,br,*m1e,*mr,br)
52: }
53: PL(r) = (BD(r)[j]?j+1:j);
54: }
55: }
56: }
57:
58: void divnmain_27(d1,d2,m1,m2,q)
59: int d1,d2;
60: int *m1,*m2,*q;
61: {
62: unsigned int tmp;
63: int *n1,*n2;
64: int i,j;
65: int l,r;
66: int u,qhat;
67: int v1,v2;
68:
69: v1 = m2[d2-1]; v2 = m2[d2-2];
70: for ( j = d1-d2, m1 += j, q += j; j >= 0; j--, q--, m1-- ) {
71: n1 = m1+d2; n2 = m1+d2-1;
72: if ( *n1 == v1 ) {
73: qhat = BASE27 - 1; r = *n1 + *n2;
74: } else {
75: DSAB27(v1,*n1,*n2,qhat,r)
76: }
77: DM27(v2,qhat,u,l)
78: while ( 1 ) {
79: if ((r > u) || ((r == u) && (*(n1-2) >= l)))
80: break;
81: if ( ( l -= v2 ) < 0 ) {
82: l += BASE27; u--;
83: }
84: r += v1; qhat--;
85: }
86: if ( qhat ) {
87: for ( i = d2, u = 0, n1 = m1, n2 = m2; i > 0; i--, n1++, n2++ ) {
88: DMA27(*n2,qhat,u,u,l)
89: if ( (l = *n1 - l) < 0 ) {
90: u++; *n1 = l + BASE27;
91: } else
92: *n1 = l;
93: }
94: if ( *n1 < u ) {
95: for ( i = d2, qhat--, r = 0, n1 = m1, n2 = m2;
96: i > 0; i--, n1++, n2++ ) {
97: l = *n1 + *n2 + r; *n1 = l % BASE27; r = l / BASE27;
98: }
99: }
100: *n1 = 0;
101: }
102: *q = qhat;
103: }
104: }
105:
106: void mulin_27(n,d,p)
107: N n;
108: int d;
109: int *p;
110: {
111: int carry;
112: int *m,*me;
113:
114: bzero((char *)p,(int)((PL(n)+1)*sizeof(int)));
115: for ( carry = 0, m = BD(n), me = m+PL(n); m < me; p++, m++ ) {
116: carry += *p;
117: DMA27(*m,d,carry,carry,*p)
118: }
119: *p = carry;
120: }
121:
122: int divin_27(n,dvr,q)
123: N n;
124: int dvr;
125: N *q;
126: {
127: int up,d;
128: int *m,*mq,*md;
129: N nq;
130:
131: d = PL(n); m = BD(n);
132: if ( ( d == 1 ) && ( dvr > *m ) ) {
133: *q = 0;
134: return( *m );
135: }
136: *q = nq = NALLOC(d);
137: for ( md = m+d-1, mq = BD(nq)+d-1, up = 0; md >= m; md--, mq-- ) {
138: DSAB27(dvr,up,*md,*mq,up)
139: }
140: PL(nq) = (BD(nq)[d-1]?d:d-1);
141: return ( up );
142: }