Annotation of OpenXM_contrib2/asir2000/builtin/gr.c, Revision 1.18
1.8 noro 1: /*
2: * Copyright (c) 1994-2000 FUJITSU LABORATORIES LIMITED
3: * All rights reserved.
4: *
5: * FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited,
6: * non-exclusive and royalty-free license to use, copy, modify and
7: * redistribute, solely for non-commercial and non-profit purposes, the
8: * computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and
9: * conditions of this Agreement. For the avoidance of doubt, you acquire
10: * only a limited right to use the SOFTWARE hereunder, and FLL or any
11: * third party developer retains all rights, including but not limited to
12: * copyrights, in and to the SOFTWARE.
13: *
14: * (1) FLL does not grant you a license in any way for commercial
15: * purposes. You may use the SOFTWARE only for non-commercial and
16: * non-profit purposes only, such as academic, research and internal
17: * business use.
18: * (2) The SOFTWARE is protected by the Copyright Law of Japan and
19: * international copyright treaties. If you make copies of the SOFTWARE,
20: * with or without modification, as permitted hereunder, you shall affix
21: * to all such copies of the SOFTWARE the above copyright notice.
22: * (3) An explicit reference to this SOFTWARE and its copyright owner
23: * shall be made on your publication or presentation in any form of the
24: * results obtained by use of the SOFTWARE.
25: * (4) In the event that you modify the SOFTWARE, you shall notify FLL by
1.9 noro 26: * e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
1.8 noro 27: * for such modification or the source code of the modified part of the
28: * SOFTWARE.
29: *
30: * THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL
31: * MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND
32: * EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS
33: * FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES'
34: * RIGHTS. NO FLL DEALER, AGENT, EMPLOYEES IS AUTHORIZED TO MAKE ANY
35: * MODIFICATIONS, EXTENSIONS, OR ADDITIONS TO THIS WARRANTY.
36: * UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, TORT, CONTRACT,
37: * OR OTHERWISE, SHALL FLL BE LIABLE TO YOU OR ANY OTHER PERSON FOR ANY
38: * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL
39: * DAMAGES OF ANY CHARACTER, INCLUDING, WITHOUT LIMITATION, DAMAGES
40: * ARISING OUT OF OR RELATING TO THE SOFTWARE OR THIS AGREEMENT, DAMAGES
41: * FOR LOSS OF GOODWILL, WORK STOPPAGE, OR LOSS OF DATA, OR FOR ANY
42: * DAMAGES, EVEN IF FLL SHALL HAVE BEEN INFORMED OF THE POSSIBILITY OF
43: * SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. EVEN IF A PART
44: * OF THE SOFTWARE HAS BEEN DEVELOPED BY A THIRD PARTY, THE THIRD PARTY
45: * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,
46: * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.
47: *
1.18 ! noro 48: * $OpenXM: OpenXM_contrib2/asir2000/builtin/gr.c,v 1.17 2000/12/11 02:00:40 noro Exp $
1.8 noro 49: */
1.1 noro 50: #include "ca.h"
51: #include "parse.h"
52: #include "base.h"
53: #include "ox.h"
54:
55: #define ITOS(p) (((unsigned int)(p))&0x7fffffff)
56: #define STOI(i) ((P)((unsigned int)(i)|0x80000000))
57:
58: #define NEXTVL(r,c) \
59: if(!(r)){NEWVL(r);(c)=(r);}else{NEWVL(NEXT(c));(c)=NEXT(c);}
60:
61: #define HMAG(p) (p_mag(BDY(p)->c))
62:
63: struct dp_pairs {
64: int dp1, dp2;
65: DL lcm;
66: int sugar;
67: struct dp_pairs *next;
68: };
69:
70: typedef struct dp_pairs *DP_pairs;
71:
72: #define NEWDPP(a) ((a)=(DP_pairs)MALLOC(sizeof(struct dp_pairs)))
73:
74: #define NEXTDPP(r,c) \
75: if(!(r)){NEWDPP(r);(c)=(r);}else{NEWDPP(NEXT(c));(c)=NEXT(c);}
76:
1.14 noro 77: struct oEGT eg_nf,eg_nfm;
78: struct oEGT eg_znfm,eg_pz,eg_np,eg_ra,eg_mc,eg_gc;
1.1 noro 79: int TP,NBP,NMP,NFP,NDP,ZR,NZR;
80:
81: #define NEWDP_pairs ((DP_pairs)MALLOC(sizeof(struct dp_pairs)))
82:
83: extern int (*cmpdl)();
1.5 noro 84: extern int do_weyl;
1.1 noro 85:
1.13 noro 86: extern DP_Print;
87:
1.14 noro 88: void dp_imul_d(DP,Q,DP *);
1.1 noro 89: void print_stat(void);
90: void init_stat(void);
91: int dp_load_t(int,DP *);
92: void dp_load(int,DP *);
1.7 noro 93: void dp_save(int,Obj,char *);
1.1 noro 94: void dp_make_flaglist(LIST *);
95: void dp_set_flag(Obj,Obj);
96: int membercheck(NODE,NODE);
97: int gbcheck(NODE);
98: int dl_redble(DL,DL);
99: NODE remove_reducibles(NODE,int);
100: NODE updbase(NODE,int);
101: DP_pairs criterion_F(DP_pairs);
102: int criterion_2(int,int);
103: static DP_pairs collect_pairs_of_hdlcm(DP_pairs,DP_pairs *);
104: DP_pairs criterion_M(DP_pairs);
105: DP_pairs criterion_B(DP_pairs,int);
106: DP_pairs newpairs(NODE,int);
107: DP_pairs updpairs(DP_pairs,NODE,int);
1.16 noro 108: void _dp_nf(NODE,DP,DP *,int,DP *);
109: void _dp_nf_ptozp(NODE,DP,DP *,int,int,DP *);
1.1 noro 110: NODE gb_mod(NODE,int);
111: NODE gbd(NODE,int,NODE,NODE);
112: NODE gb(NODE,int,NODE);
113: NODE gb_f4(NODE);
114: NODE gb_f4_mod(NODE,int);
115: DP_pairs minp(DP_pairs, DP_pairs *);
116: void minsugar(DP_pairs,DP_pairs *,DP_pairs *);
117: NODE append_one(NODE,int);
118: void reducebase_dehomo(NODE,NODE *);
119: int newps_mod(DP,int);
120: int newps_nosave(DP,int,NODE);
121: int newps(DP,int,NODE);
122: void reduceall_mod(NODE,int,NODE *);
123: void reduceall(NODE,NODE *);
124: NODE NODE_sortbi(NODE,int);
125: NODE NODE_sortbi_insert(int, NODE,int);
126: NODE NODE_sortb(NODE,int);
127: NODE NODE_sortb_insert(DP,NODE,int);
128: void prim_part(DP,int,DP *);
129: void setup_arrays(NODE,int,NODE *);
130: int validhc(P,int,NODE);
131: void vlminus(VL,VL,VL *);
132: void printsubst(NODE);
133: void makesubst(VL,NODE *);
134: void pltovl(LIST,VL *);
135: void printdl(DL);
136: int DPPlength(DP_pairs);
137: void dp_gr_mod_main(LIST,LIST,Num,int,struct order_spec *,LIST *);
138: void dp_gr_main(LIST,LIST,Num,int,struct order_spec *,LIST *);
139: void dp_f4_main(LIST,LIST,struct order_spec *,LIST *);
140: void dp_f4_mod_main(LIST,LIST,int,struct order_spec *,LIST *);
141: double get_rtime();
142: void _dpmod_to_vect(DP,DL *,int *);
143: void dp_to_vect(DP,DL *,Q *);
1.12 noro 144: NODE dp_dllist(DP f);
145: NODE symb_merge(NODE,NODE,int),_symb_merge(NODE,NODE,int);
1.1 noro 146: extern int dp_nelim;
147: extern int dp_fcoeffs;
148: static DP *ps,*psm;
149: static DL *psh;
150: static P *psc;
151:
152: static int *pss;
153: static int psn,pslen;
1.16 noro 154: static int NVars,CNVars;
1.1 noro 155: static VL VC;
1.14 noro 156:
1.16 noro 157: int PCoeffs;
1.14 noro 158: int DP_Print = 0;
159: int DP_Multiple = 0;
1.16 noro 160: int DP_NFStat = 0;
1.14 noro 161: LIST Dist = 0;
162: int NoGCD = 0;
163: int GenTrace = 0;
164: int OXCheck = -1;
165:
1.1 noro 166: static int NoSugar = 0;
167: static int NoCriB = 0;
168: static int NoGC = 0;
169: static int NoMC = 0;
170: static int NoRA = 0;
1.12 noro 171: static int DP_PrintShort = 0;
1.1 noro 172: static int ShowMag = 0;
173: static int Stat = 0;
174: static int Denominator = 1;
175: static int Top = 0;
176: static int Reverse = 0;
177: static int Max_mag = 0;
178: static char *Demand = 0;
179: static int PtozpRA = 0;
1.14 noro 180:
1.1 noro 181: int doing_f4;
1.7 noro 182: NODE TraceList;
1.1 noro 183:
184: int eqdl(nv,dl1,dl2)
185: int nv;
186: DL dl1,dl2;
187: {
188: int i;
189: int *b1,*b2;
190:
191: if ( dl1->td != dl2->td )
192: return 0;
193: for ( i = 0, b1 = dl1->d, b2 = dl2->d; i < nv; i++ )
194: if ( b1[i] != b2[i] )
195: break;
196: if ( i == nv )
197: return 1;
198: else
199: return 0;
200: }
201:
1.5 noro 202: /* b[] should be cleared */
203:
1.1 noro 204: void _dpmod_to_vect(f,at,b)
205: DP f;
206: DL *at;
207: int *b;
208: {
209: int i,nv;
210: MP m;
211:
212: nv = f->nv;
213: for ( m = BDY(f), i = 0; m; m = NEXT(m), i++ ) {
214: for ( ; !eqdl(nv,m->dl,at[i]); i++ );
215: b[i] = ITOS(m->c);
216: }
217: }
218:
219: void dp_to_vect(f,at,b)
220: DP f;
221: DL *at;
222: Q *b;
223: {
224: int i,nv;
225: MP m;
226:
227: nv = f->nv;
228: for ( m = BDY(f), i = 0; m; m = NEXT(m), i++ ) {
229: for ( ; !eqdl(nv,m->dl,at[i]); i++ );
230: b[i] =(Q)m->c;
231: }
232: }
233:
1.2 noro 234: NODE dp_dllist(f)
1.1 noro 235: DP f;
236: {
1.2 noro 237: MP m;
238: NODE mp,mp0;
1.1 noro 239:
1.2 noro 240: if ( !f )
241: return 0;
1.1 noro 242: mp0 = 0;
243: for ( m = BDY(f); m; m = NEXT(m) ) {
1.2 noro 244: NEXTNODE(mp0,mp); BDY(mp) = (pointer)m->dl;
1.1 noro 245: }
246: NEXT(mp) = 0;
1.2 noro 247: return mp0;
248: }
249:
250: void pdl(f)
251: NODE f;
252: {
253: while ( f ) {
254: printdl(BDY(f)); f = NEXT(f);
255: }
256: fflush(stdout);
257: printf("\n");
1.1 noro 258: }
259:
260: void dp_gr_main(f,v,homo,modular,ord,rp)
261: LIST f,v;
262: Num homo;
263: int modular;
264: struct order_spec *ord;
265: LIST *rp;
266: {
267: int i,mindex,m,nochk;
268: struct order_spec ord1;
269: VL fv,vv,vc;
270: NODE fd,fd0,fi,fi0,r,r0,t,subst,x,s,xx;
271:
272: mindex = 0; nochk = 0; dp_fcoeffs = 0;
273: get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&vc);
274: NVars = length((NODE)vv); PCoeffs = vc ? 1 : 0; VC = vc;
275: CNVars = homo ? NVars+1 : NVars;
276: if ( ord->id && NVars != ord->nv )
277: error("dp_gr_main : invalid order specification");
278: initd(ord);
279: if ( homo ) {
280: homogenize_order(ord,NVars,&ord1);
281: for ( fd0 = fi0 = 0, t = BDY(f); t; t = NEXT(t) ) {
282: NEXTNODE(fd0,fd); NEXTNODE(fi0,fi);
283: ptod(CO,vv,(P)BDY(t),(DP *)&BDY(fi)); dp_homo((DP)BDY(fi),(DP *)&BDY(fd));
284: }
285: if ( fd0 ) NEXT(fd) = 0;
286: if ( fi0 ) NEXT(fi) = 0;
287: initd(&ord1);
288: } else {
289: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
290: NEXTNODE(fd0,fd); ptod(CO,vv,(P)BDY(t),(DP *)&BDY(fd));
291: }
292: if ( fd0 ) NEXT(fd) = 0;
293: fi0 = fd0;
294: }
295: if ( modular < 0 ) {
296: modular = -modular; nochk = 1;
297: }
298: if ( modular )
299: m = modular > 1 ? modular : lprime[mindex];
300: else
301: m = 0;
302: makesubst(vc,&subst);
303: setup_arrays(fd0,0,&s);
304: init_stat();
305: while ( 1 ) {
306: if ( homo ) {
307: initd(&ord1); CNVars = NVars+1;
308: }
1.12 noro 309: if ( DP_Print && modular ) {
1.1 noro 310: fprintf(asir_out,"mod= %d, eval = ",m); printsubst(subst);
311: }
312: x = gb(s,m,subst);
313: if ( x ) {
314: if ( homo ) {
315: reducebase_dehomo(x,&xx); x = xx;
316: initd(ord); CNVars = NVars;
317: }
318: reduceall(x,&xx); x = xx;
319: if ( modular ) {
320: if ( nochk || (membercheck(fi0,x) && gbcheck(x)) )
321: break;
322: } else
323: break;
324: }
325: if ( modular )
326: if ( modular > 1 ) {
327: *rp = 0; return;
328: } else
329: m = lprime[++mindex];
330: makesubst(vc,&subst);
331: psn = length(s);
332: for ( i = psn; i < pslen; i++ ) {
333: pss[i] = 0; psh[i] = 0; psc[i] = 0; ps[i] = 0;
334: }
335: }
336: for ( r0 = 0; x; x = NEXT(x) ) {
337: NEXTNODE(r0,r); dp_load((int)BDY(x),&ps[(int)BDY(x)]);
338: dtop(CO,vv,ps[(int)BDY(x)],(P *)&BDY(r));
339: }
340: if ( r0 ) NEXT(r) = 0;
341: MKLIST(*rp,r0);
342: print_stat();
343: if ( ShowMag )
344: fprintf(asir_out,"\nMax_mag=%d\n",Max_mag);
345: }
346:
347: void dp_gr_mod_main(f,v,homo,m,ord,rp)
348: LIST f,v;
349: Num homo;
350: int m;
351: struct order_spec *ord;
352: LIST *rp;
353: {
354: struct order_spec ord1;
355: VL fv,vv,vc;
356: NODE fd,fd0,r,r0,t,x,s,xx;
357: DP a,b,c;
1.17 noro 358: extern struct oEGT eg_red_mod;
1.1 noro 359:
360: get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&vc);
361: NVars = length((NODE)vv); PCoeffs = vc ? 1 : 0; VC = vc;
362: CNVars = homo ? NVars+1 : NVars;
363: if ( ord->id && NVars != ord->nv )
364: error("dp_gr_mod_main : invalid order specification");
365: initd(ord);
366: if ( homo ) {
367: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
368: ptod(CO,vv,(P)BDY(t),&a); dp_homo(a,&b);
369: if ( PCoeffs )
370: dp_mod(b,m,0,&c);
371: else
372: _dp_mod(b,m,(NODE)0,&c);
373: if ( c ) {
374: NEXTNODE(fd0,fd); BDY(fd) = (pointer)c;
375: }
376: }
377: homogenize_order(ord,NVars,&ord1); initd(&ord1);
378: } else {
379: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
380: ptod(CO,vv,(P)BDY(t),&b);
381: if ( PCoeffs )
382: dp_mod(b,m,0,&c);
383: else
384: _dp_mod(b,m,0,&c);
385: if ( c ) {
386: NEXTNODE(fd0,fd); BDY(fd) = (pointer)c;
387: }
388: }
389: }
390: if ( fd0 ) NEXT(fd) = 0;
391: setup_arrays(fd0,m,&s);
392: init_stat();
393: if ( homo ) {
394: initd(&ord1); CNVars = NVars+1;
395: }
1.17 noro 396: /* init_eg(&eg_red_mod); */
1.1 noro 397: x = gb_mod(s,m);
1.17 noro 398: /* print_eg("Red_mod",&eg_red_mod); */
1.1 noro 399: if ( homo ) {
400: reducebase_dehomo(x,&xx); x = xx;
401: initd(ord); CNVars = NVars;
402: }
403: reduceall_mod(x,m,&xx); x = xx;
404: if ( PCoeffs )
405: for ( r0 = 0; x; x = NEXT(x) ) {
406: NEXTNODE(r0,r); mdtop(CO,m,vv,ps[(int)BDY(x)],(P *)&BDY(r));
407: }
408: else
409: for ( r0 = 0; x; x = NEXT(x) ) {
410: NEXTNODE(r0,r); _dtop_mod(CO,vv,ps[(int)BDY(x)],(P *)&BDY(r));
411: }
412: print_stat();
413: if ( r0 ) NEXT(r) = 0;
414: MKLIST(*rp,r0);
415: }
416:
417: void dp_f4_main(f,v,ord,rp)
418: LIST f,v;
419: struct order_spec *ord;
420: LIST *rp;
421: {
422: int i,mindex,m,nochk;
423: struct order_spec ord1;
424: VL fv,vv,vc;
425: NODE fd,fd0,fi,fi0,r,r0,t,subst,x,s,xx;
426:
427: dp_fcoeffs = 0;
428: get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&vc);
429: NVars = length((NODE)vv); PCoeffs = vc ? 1 : 0; VC = vc;
430: CNVars = NVars;
431: if ( ord->id && NVars != ord->nv )
432: error("dp_f4_main : invalid order specification");
433: initd(ord);
434: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
435: NEXTNODE(fd0,fd); ptod(CO,vv,(P)BDY(t),(DP *)&BDY(fd));
436: }
437: if ( fd0 ) NEXT(fd) = 0;
438: setup_arrays(fd0,0,&s);
439: x = gb_f4(s);
440: reduceall(x,&xx); x = xx;
441: for ( r0 = 0; x; x = NEXT(x) ) {
442: NEXTNODE(r0,r); dp_load((int)BDY(x),&ps[(int)BDY(x)]);
443: dtop(CO,vv,ps[(int)BDY(x)],(P *)&BDY(r));
444: }
445: if ( r0 ) NEXT(r) = 0;
446: MKLIST(*rp,r0);
447: }
448:
449: void dp_f4_mod_main(f,v,m,ord,rp)
450: LIST f,v;
451: int m;
452: struct order_spec *ord;
453: LIST *rp;
454: {
455: int i;
456: struct order_spec ord1;
457: VL fv,vv,vc;
1.5 noro 458: DP b,c,c1;
1.1 noro 459: NODE fd,fd0,fi,fi0,r,r0,t,subst,x,s,xx;
460:
461: dp_fcoeffs = 0;
462: get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&vc);
463: NVars = length((NODE)vv); PCoeffs = vc ? 1 : 0; VC = vc;
464: CNVars = NVars;
465: if ( ord->id && NVars != ord->nv )
466: error("dp_f4_mod_main : invalid order specification");
467: initd(ord);
468: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
469: ptod(CO,vv,(P)BDY(t),&b);
470: _dp_mod(b,m,0,&c);
1.5 noro 471: _dp_monic(c,m,&c1);
1.1 noro 472: if ( c ) {
1.5 noro 473: NEXTNODE(fd0,fd); BDY(fd) = (pointer)c1;
1.1 noro 474: }
475: }
476: if ( fd0 ) NEXT(fd) = 0;
477: setup_arrays(fd0,m,&s);
478: x = gb_f4_mod(s,m);
479: reduceall_mod(x,m,&xx); x = xx;
480: for ( r0 = 0; x; x = NEXT(x) ) {
481: NEXTNODE(r0,r); _dtop_mod(CO,vv,ps[(int)BDY(x)],(P *)&BDY(r));
482: }
483: if ( r0 ) NEXT(r) = 0;
484: MKLIST(*rp,r0);
485: }
486:
487: NODE gb_f4(f)
488: NODE f;
489: {
490: int i,j,k,nh,row,col,nv;
491: NODE r,g,gall;
1.2 noro 492: NODE s,s0;
1.1 noro 493: DP_pairs d,dm,dr,t;
1.2 noro 494: DP h,nf,nf1,f1,f2,f21,f21r,sp,sp1,sd,sdm,tdp;
1.1 noro 495: MP mp,mp0;
496: NODE blist,bt,nt;
497: DL *ht,*at;
498: MAT mat,nm;
499: int *colstat;
500: int *rind,*cind;
501: int rank,nred;
502: Q dn;
503: struct oEGT tmp0,tmp1,tmp2,eg_split_symb,eg_split_elim;
504: extern struct oEGT eg_mod,eg_elim,eg_chrem,eg_gschk,eg_intrat,eg_symb;
505:
506: init_eg(&eg_mod); init_eg(&eg_elim); init_eg(&eg_chrem);
507: init_eg(&eg_gschk); init_eg(&eg_intrat); init_eg(&eg_symb);
508:
509: doing_f4 = 1;
510: for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) {
511: i = (int)BDY(r);
512: d = updpairs(d,g,i);
513: g = updbase(g,i);
514: gall = append_one(gall,i);
515: }
516: if ( gall )
517: nv = ((DP)ps[(int)BDY(gall)])->nv;
518: while ( d ) {
519: get_eg(&tmp0);
520: minsugar(d,&dm,&dr); d = dr;
1.12 noro 521: if ( DP_Print )
1.1 noro 522: fprintf(asir_out,"sugar=%d\n",dm->sugar);
523: blist = 0; s0 = 0;
524: /* asph : sum of all head terms of spoly */
525: for ( t = dm; t; t = NEXT(t) ) {
526: dp_sp(ps[t->dp1],ps[t->dp2],&sp);
527: if ( sp ) {
528: MKNODE(bt,sp,blist); blist = bt;
1.2 noro 529: s0 = symb_merge(s0,dp_dllist(sp),nv);
1.1 noro 530: }
531: }
532: /* s0 : all the terms appeared in symbolic redunction */
1.2 noro 533: for ( s = s0, nred = 0; s; s = NEXT(s) ) {
1.1 noro 534: for ( r = gall; r; r = NEXT(r) )
1.2 noro 535: if ( _dl_redble(BDY(ps[(int)BDY(r)])->dl,BDY(s),nv) )
1.1 noro 536: break;
537: if ( r ) {
1.2 noro 538: dltod(BDY(s),nv,&tdp);
539: dp_subd(tdp,ps[(int)BDY(r)],&sd);
1.5 noro 540: muld(CO,sd,ps[(int)BDY(r)],&f2);
1.1 noro 541: MKNODE(bt,f2,blist); blist = bt;
1.2 noro 542: s = symb_merge(s,dp_dllist(f2),nv);
1.1 noro 543: nred++;
544: }
545: }
546:
547: /* the first nred polys in blist are reducers */
548: /* row = the number of all the polys */
549: for ( r = blist, row = 0; r; r = NEXT(r), row++ );
550: ht = (DL *)MALLOC(nred*sizeof(DL));
551: for ( r = blist, i = 0; i < nred; r = NEXT(r), i++ )
552: ht[i] = BDY((DP)BDY(r))->dl;
1.2 noro 553: for ( s = s0, col = 0; s; s = NEXT(s), col++ );
1.1 noro 554: at = (DL *)MALLOC(col*sizeof(DL));
1.2 noro 555: for ( s = s0, i = 0; i < col; s = NEXT(s), i++ )
556: at[i] = (DL)BDY(s);
1.1 noro 557: MKMAT(mat,row,col);
558: for ( i = 0, r = blist; i < row; r = NEXT(r), i++ )
559: dp_to_vect(BDY(r),at,(Q *)mat->body[i]);
560: get_eg(&tmp1); add_eg(&eg_symb,&tmp0,&tmp1);
561: init_eg(&eg_split_symb); add_eg(&eg_split_symb,&tmp0,&tmp1);
1.12 noro 562: if ( DP_Print ) {
1.1 noro 563: print_eg("Symb",&eg_split_symb);
564: fprintf(asir_out,"mat : %d x %d",row,col);
565: fflush(asir_out);
566: }
1.3 noro 567: #if 0
568: rank = generic_gauss_elim_hensel(mat,&nm,&dn,&rind,&cind);
569: #else
1.1 noro 570: rank = generic_gauss_elim(mat,&nm,&dn,&rind,&cind);
1.3 noro 571: #endif
1.12 noro 572: if ( DP_Print )
1.1 noro 573: fprintf(asir_out,"done rank = %d\n",rank,row,col);
574: for ( i = 0; i < rank; i++ ) {
575: for ( k = 0; k < nred; k++ )
576: if ( !cmpdl(nv,at[rind[i]],ht[k]) )
577: break;
578: if ( k == nred ) {
579: /* this is a new base */
580: mp0 = 0;
581: NEXTMP(mp0,mp); mp->dl = at[rind[i]]; mp->c = (P)dn;
582: for ( k = 0; k < col-rank; k++ )
583: if ( nm->body[i][k] ) {
584: NEXTMP(mp0,mp); mp->dl = at[cind[k]];
585: mp->c = (P)nm->body[i][k];
586: }
587: NEXT(mp) = 0;
588: MKDP(nv,mp0,nf); nf->sugar = dm->sugar;
589: dp_ptozp(nf,&nf1);
590: nh = newps(nf1,0,0);
591: d = updpairs(d,g,nh);
592: g = updbase(g,nh);
593: gall = append_one(gall,nh);
594: }
595: }
596: }
1.12 noro 597: if ( DP_Print ) {
1.1 noro 598: print_eg("Symb",&eg_symb);
599: print_eg("Mod",&eg_mod); print_eg("GaussElim",&eg_elim);
600: print_eg("ChRem",&eg_chrem); print_eg("IntToRat",&eg_intrat);
601: print_eg("Check",&eg_gschk);
602: }
603: return g;
604: }
605:
1.5 noro 606: /* initial bases are monic */
607:
1.1 noro 608: NODE gb_f4_mod(f,m)
609: NODE f;
610: int m;
611: {
612: int i,j,k,nh,row,col,nv;
613: NODE r,g,gall;
1.2 noro 614: NODE s,s0;
1.1 noro 615: DP_pairs d,dm,dr,t;
1.2 noro 616: DP h,nf,f1,f2,f21,f21r,sp,sp1,sd,sdm,tdp;
1.1 noro 617: MP mp,mp0;
618: NODE blist,bt,nt;
1.5 noro 619: DL *ht,*at,*st;
620: int **spmat,**redmat;
621: int *colstat,*w;
622: int rank,nred,nsp,nonzero,spcol;
623: int *indred,*isred,*ri;
624: struct oEGT tmp0,tmp1,tmp2,eg_split_symb,eg_split_elim1,eg_split_elim2;
625: extern struct oEGT eg_symb,eg_elim1,eg_elim2;
1.1 noro 626:
1.5 noro 627: init_eg(&eg_symb); init_eg(&eg_elim1); init_eg(&eg_elim2);
1.1 noro 628: for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) {
629: i = (int)BDY(r);
630: d = updpairs(d,g,i);
631: g = updbase(g,i);
632: gall = append_one(gall,i);
633: }
634: if ( gall )
635: nv = ((DP)ps[(int)BDY(gall)])->nv;
636: while ( d ) {
637: get_eg(&tmp0);
638: minsugar(d,&dm,&dr); d = dr;
1.12 noro 639: if ( DP_Print )
1.1 noro 640: fprintf(asir_out,"sugar=%d\n",dm->sugar);
641: blist = 0; s0 = 0;
642: /* asph : sum of all head terms of spoly */
643: for ( t = dm; t; t = NEXT(t) ) {
1.13 noro 644: _dp_sp_mod(ps[t->dp1],ps[t->dp2],m,&sp);
1.1 noro 645: if ( sp ) {
646: MKNODE(bt,sp,blist); blist = bt;
1.2 noro 647: s0 = symb_merge(s0,dp_dllist(sp),nv);
1.1 noro 648: }
649: }
650: /* s0 : all the terms appeared in symbolic redunction */
1.2 noro 651: for ( s = s0, nred = 0; s; s = NEXT(s) ) {
1.1 noro 652: for ( r = gall; r; r = NEXT(r) )
1.2 noro 653: if ( _dl_redble(BDY(ps[(int)BDY(r)])->dl,BDY(s),nv) )
1.1 noro 654: break;
655: if ( r ) {
1.2 noro 656: dltod(BDY(s),nv,&tdp);
657: dp_subd(tdp,ps[(int)BDY(r)],&sd);
1.1 noro 658: _dp_mod(sd,m,0,&sdm);
1.13 noro 659: mulmd_dup(m,sdm,ps[(int)BDY(r)],&f2);
1.1 noro 660: MKNODE(bt,f2,blist); blist = bt;
1.2 noro 661: s = symb_merge(s,dp_dllist(f2),nv);
1.1 noro 662: nred++;
663: }
664: }
1.5 noro 665:
666: get_eg(&tmp1); add_eg(&eg_symb,&tmp0,&tmp1);
667: init_eg(&eg_split_symb); add_eg(&eg_split_symb,&tmp0,&tmp1);
1.1 noro 668:
669: /* the first nred polys in blist are reducers */
670: /* row = the number of all the polys */
671: for ( r = blist, row = 0; r; r = NEXT(r), row++ );
1.5 noro 672:
673: /* head terms of reducers */
1.1 noro 674: ht = (DL *)MALLOC(nred*sizeof(DL));
675: for ( r = blist, i = 0; i < nred; r = NEXT(r), i++ )
676: ht[i] = BDY((DP)BDY(r))->dl;
1.5 noro 677:
678: /* col = number of all terms */
1.2 noro 679: for ( s = s0, col = 0; s; s = NEXT(s), col++ );
1.5 noro 680:
681: /* head terms of all terms */
1.1 noro 682: at = (DL *)MALLOC(col*sizeof(DL));
1.2 noro 683: for ( s = s0, i = 0; i < col; s = NEXT(s), i++ )
684: at[i] = (DL)BDY(s);
1.5 noro 685:
686: /* store coefficients separately in spmat and redmat */
687: nsp = row-nred;
688:
689: /* reducer matrix */
690: redmat = (int **)almat(nred,col);
691: for ( i = 0, r = blist; i < nred; r = NEXT(r), i++ )
692: _dpmod_to_vect(BDY(r),at,redmat[i]);
693: /* XXX */
694: /* reduce_reducers_mod(redmat,nred,col,m); */
695: /* register the position of the head term */
696: indred = (int *)MALLOC(nred*sizeof(int));
697: bzero(indred,nred*sizeof(int));
698: isred = (int *)MALLOC(col*sizeof(int));
699: bzero(isred,col*sizeof(int));
700: for ( i = 0; i < nred; i++ ) {
701: ri = redmat[i];
702: for ( j = 0; j < col && !ri[j]; j++ );
703: indred[i] = j;
704: isred[j] = 1;
705: }
706:
707: spcol = col-nred;
708: /* head terms not in ht */
709: st = (DL *)MALLOC(spcol*sizeof(DL));
710: for ( j = 0, k = 0; j < col; j++ )
711: if ( !isred[j] )
712: st[k++] = at[j];
713:
714: /* spoly matrix; stored in reduced form; terms in ht[] are omitted */
715: spmat = almat(nsp,spcol);
716: w = (int *)MALLOC(col*sizeof(int));
717: for ( ; i < row; r = NEXT(r), i++ ) {
718: bzero(w,col*sizeof(int));
719: _dpmod_to_vect(BDY(r),at,w);
720: reduce_sp_by_red_mod(w,redmat,indred,nred,col,m);
721: for ( j = 0, k = 0; j < col; j++ )
722: if ( !isred[j] )
723: spmat[i-nred][k++] = w[j];
724: }
725:
726: get_eg(&tmp0); add_eg(&eg_elim1,&tmp1,&tmp0);
727: init_eg(&eg_split_elim1); add_eg(&eg_split_elim1,&tmp1,&tmp0);
728:
729: colstat = (int *)MALLOC_ATOMIC(spcol*sizeof(int));
730: for ( i = 0, nonzero=0; i < nsp; i++ )
731: for ( j = 0; j < spcol; j++ )
732: if ( spmat[i][j] )
1.1 noro 733: nonzero++;
1.17 noro 734: if ( DP_Print && nsp )
1.5 noro 735: fprintf(asir_out,"spmat : %d x %d (nonzero=%f%%)...",
736: nsp,spcol,((double)nonzero*100)/(nsp*spcol));
1.17 noro 737: if ( nsp )
738: rank = generic_gauss_elim_mod(spmat,nsp,spcol,m,colstat);
739: else
740: rank = 0;
1.5 noro 741: get_eg(&tmp1); add_eg(&eg_elim2,&tmp0,&tmp1);
742: init_eg(&eg_split_elim2); add_eg(&eg_split_elim2,&tmp0,&tmp1);
743:
1.12 noro 744: if ( DP_Print ) {
1.1 noro 745: fprintf(asir_out,"done rank = %d\n",rank,row,col);
746: print_eg("Symb",&eg_split_symb);
1.5 noro 747: print_eg("Elim1",&eg_split_elim1);
748: print_eg("Elim2",&eg_split_elim2);
1.1 noro 749: fprintf(asir_out,"\n");
750: }
1.5 noro 751: for ( j = 0, i = 0; j < spcol; j++ )
1.1 noro 752: if ( colstat[j] ) {
1.5 noro 753: mp0 = 0;
1.13 noro 754: NEXTMP(mp0,mp); mp->dl = st[j]; mp->c = STOI(1);
1.5 noro 755: for ( k = j+1; k < spcol; k++ )
756: if ( !colstat[k] && spmat[i][k] ) {
1.13 noro 757: NEXTMP(mp0,mp); mp->dl = st[k];
1.5 noro 758: mp->c = STOI(spmat[i][k]);
1.1 noro 759: }
1.5 noro 760: NEXT(mp) = 0;
761: MKDP(nv,mp0,nf); nf->sugar = dm->sugar;
762: nh = newps_mod(nf,m);
763: d = updpairs(d,g,nh);
764: g = updbase(g,nh);
765: gall = append_one(gall,nh);
1.1 noro 766: i++;
767: }
768: }
1.12 noro 769: if ( DP_Print ) {
1.1 noro 770: print_eg("Symb",&eg_symb);
1.5 noro 771: print_eg("Elim1",&eg_elim1);
772: print_eg("Elim2",&eg_elim2);
1.1 noro 773: fflush(asir_out);
774: }
775: return g;
776: }
777:
778: int DPPlength(n)
779: DP_pairs n;
780: {
781: int i;
782:
783: for ( i = 0; n; n = NEXT(n), i++ );
784: return i;
785: }
786:
787: void printdl(dl)
788: DL dl;
789: {
790: int i;
791:
792: fprintf(asir_out,"<<");
793: for ( i = 0; i < CNVars-1; i++ )
794: fprintf(asir_out,"%d,",dl->d[i]);
795: fprintf(asir_out,"%d>>",dl->d[i]);
796: }
797:
798: void pltovl(l,vl)
799: LIST l;
800: VL *vl;
801: {
802: NODE n;
803: VL r,r0;
804:
805: n = BDY(l);
806: for ( r0 = 0; n; n = NEXT(n) ) {
807: NEXTVL(r0,r); r->v = VR((P)BDY(n));
808: }
809: if ( r0 ) NEXT(r) = 0;
810: *vl = r0;
811: }
812:
813: void makesubst(v,s)
814: VL v;
815: NODE *s;
816: {
817: NODE r,r0;
818: Q q;
819: unsigned int n;
820:
821: for ( r0 = 0; v; v = NEXT(v) ) {
822: NEXTNODE(r0,r); BDY(r) = (pointer)v->v;
823: #if defined(_PA_RISC1_1)
824: n = mrand48()&BMASK; UTOQ(n,q);
825: #else
826: n = random(); UTOQ(n,q);
827: #endif
828: NEXTNODE(r0,r); BDY(r) = (pointer)q;
829: }
830: if ( r0 ) NEXT(r) = 0;
831: *s = r0;
832: }
833:
834: void printsubst(s)
835: NODE s;
836: {
837: fputc('[',asir_out);
838: while ( s ) {
839: printv(CO,(V)BDY(s)); s = NEXT(s);
840: fprintf(asir_out,"->%d",QTOS((Q)BDY(s)));
841: if ( NEXT(s) ) {
842: fputc(',',asir_out); s = NEXT(s);
843: } else
844: break;
845: }
846: fprintf(asir_out,"]\n"); return;
847: }
848:
849: void vlminus(v,w,d)
850: VL v,w,*d;
851: {
852: int i,j,n,m;
853: V *va,*wa;
854: V a;
855: VL r,r0;
856: VL t;
857:
858: for ( n = 0, t = v; t; t = NEXT(t), n++ );
859: va = (V *)ALLOCA(n*sizeof(V));
860: for ( i = 0, t = v; t; t = NEXT(t), i++ )
861: va[i] = t->v;
862: for ( m = 0, t = w; t; t = NEXT(t), m++ );
863: wa = (V *)ALLOCA(m*sizeof(V));
864: for ( i = 0, t = w; t; t = NEXT(t), i++ )
865: wa[i] = t->v;
866: for ( i = 0; i < n; i++ ) {
867: a = va[i];
868: for ( j = 0; j < m; j++ )
869: if ( a == wa[j] )
870: break;
871: if ( j < m )
872: va[i] = 0;
873: }
874: for ( r0 = 0, i = 0; i < n; i++ )
875: if ( va[i] ) { NEXTVL(r0,r); r->v = va[i]; }
876: if ( r0 ) NEXT(r) = 0;
877: *d = r0;
878: }
879:
880: int validhc(a,m,s)
881: P a;
882: int m;
883: NODE s;
884: {
885: P c,c1;
886: V v;
887:
888: if ( !a )
889: return 0;
890: for ( c = a; s; s = NEXT(s) ) {
891: v = (V)BDY(s); s = NEXT(s);
892: substp(CO,c,v,(P)BDY(s),&c1); c = c1;
893: }
894: ptomp(m,c,&c1);
895: return c1 ? 1 : 0;
896: }
897:
898: void setup_arrays(f,m,r)
899: NODE f,*r;
900: int m;
901: {
902: int i;
1.7 noro 903: NODE s,s0,f0;
1.1 noro 904:
1.17 noro 905: #if 1
1.7 noro 906: f0 = f = NODE_sortb(f,1);
1.17 noro 907: #else
908: f0 = f;
909: #endif
1.1 noro 910: psn = length(f); pslen = 2*psn;
911: ps = (DP *)MALLOC(pslen*sizeof(DP));
912: psh = (DL *)MALLOC(pslen*sizeof(DL));
913: pss = (int *)MALLOC(pslen*sizeof(int));
914: psc = (P *)MALLOC(pslen*sizeof(P));
915: for ( i = 0; i < psn; i++, f = NEXT(f) ) {
916: prim_part((DP)BDY(f),m,&ps[i]);
917: if ( Demand )
1.7 noro 918: dp_save(i,(Obj)ps[i],0);
1.1 noro 919: psh[i] = BDY(ps[i])->dl;
920: pss[i] = ps[i]->sugar;
921: psc[i] = BDY(ps[i])->c;
922: }
1.7 noro 923: if ( GenTrace && (OXCheck >= 0) ) {
924: Q q;
925: STRING fname;
926: LIST input;
927: NODE arg;
928: Obj dmy;
929:
930: STOQ(OXCheck,q);
931: MKSTR(fname,"register_input");
932: MKLIST(input,f0);
933: arg = mknode(3,q,fname,input);
934: Pox_cmo_rpc(arg,&dmy);
935: }
1.1 noro 936: for ( s0 = 0, i = 0; i < psn; i++ ) {
937: NEXTNODE(s0,s); BDY(s) = (pointer)i;
938: }
939: if ( s0 ) NEXT(s) = 0;
940: *r = s0;
941: }
942:
943: void prim_part(f,m,r)
944: DP f,*r;
945: int m;
946: {
1.7 noro 947: P d,t;
948:
1.1 noro 949: if ( m > 0 ) {
950: if ( PCoeffs )
951: dp_prim_mod(f,m,r);
952: else
953: *r = f;
954: } else {
955: if ( dp_fcoeffs )
956: *r = f;
957: else if ( PCoeffs )
958: dp_prim(f,r);
959: else
960: dp_ptozp(f,r);
1.7 noro 961: if ( GenTrace && TraceList ) {
962: divsp(CO,BDY(f)->c,BDY(*r)->c,&d);
963: mulp(CO,(P)ARG3(BDY((LIST)BDY(TraceList))),d,&t);
964: ARG3(BDY((LIST)BDY(TraceList))) = t;
965: }
1.1 noro 966: }
967: }
968:
969: NODE /* of DP */ NODE_sortb_insert( newdp, nd, dec )
970: DP newdp;
971: NODE /* of DP */ nd;
972: int dec;
973: {
974: register NODE last, p;
975: register DL newdl = BDY(newdp)->dl;
976: register int (*cmpfun)() = cmpdl, nv = CNVars;
977: NODE newnd;
978: int sgn = dec ? 1 : -1;
979: MKNODE( newnd, newdp, 0 );
980: if ( !(last = nd) || sgn*(*cmpfun)( nv, newdl, BDY((DP) BDY(last))->dl ) > 0 ) {
981: NEXT(newnd) = last;
982: return newnd;
983: }
984: for ( ; p = NEXT(last); last = p )
985: if ( sgn*(*cmpfun)( nv, newdl, BDY((DP) BDY(p))->dl ) > 0 ) break;
986: if ( p ) NEXT(NEXT(last) = newnd) = p;
987: else NEXT(last) = newnd;
988: return nd;
989: }
990:
991: NODE NODE_sortb( node, dec )
992: NODE node;
993: int dec;
994: {
995: register NODE nd, ans;
996:
997: for ( ans = 0, nd = node; nd; nd = NEXT(nd) )
998: ans = NODE_sortb_insert( (DP) BDY(nd), ans, dec );
999: return ans;
1000: }
1001:
1002: NODE /* of index */ NODE_sortbi_insert( newdpi, nd, dec )
1003: int newdpi;
1004: NODE /* of index */ nd;
1005: int dec;
1006: {
1007: register NODE last, p;
1008: register DL newdl = psh[newdpi];
1009: register int (*cmpfun)() = cmpdl, nv = CNVars;
1010: NODE newnd;
1011: int sgn = dec ? 1 : -1;
1012: MKNODE( newnd, newdpi, 0 );
1013: if ( !(last = nd) || sgn*(*cmpfun)( nv, newdl, psh[(int)BDY(last)] ) > 0 ) {
1014: NEXT(newnd) = last;
1015: return newnd;
1016: }
1017: for ( ; p = NEXT(last); last = p )
1018: if ( sgn*(*cmpfun)( nv, newdl, psh[(int)BDY(p)] ) > 0 ) break;
1019: if ( p ) NEXT(NEXT(last) = newnd) = p;
1020: else NEXT(last) = newnd;
1021: return nd;
1022: }
1023:
1024: NODE NODE_sortbi( node, dec )
1025: NODE node;
1026: int dec;
1027: {
1028: register NODE nd, ans;
1029:
1030: for ( ans = 0, nd = node; nd; nd = NEXT(nd) )
1031: ans = NODE_sortbi_insert( (int) BDY(nd), ans, dec );
1032: return ans;
1033: }
1034:
1035: void reduceall(in,h)
1036: NODE in;
1037: NODE *h;
1038: {
1039: NODE r,t,top;
1040: int n,i,j;
1041: int *w;
1042: DP g,g1;
1043: struct oEGT tmp0,tmp1;
1044:
1045: if ( NoRA ) {
1046: *h = in; return;
1047: }
1.12 noro 1048: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1049: fprintf(asir_out,"reduceall\n"); fflush(asir_out);
1050: }
1051: r = NODE_sortbi(in,0);
1052: n = length(r);
1053: w = (int *)ALLOCA(n*sizeof(int));
1054: for ( i = 0, t = r; i < n; i++, t = NEXT(t) )
1055: w[i] = (int)BDY(t);
1056: for ( i = 0; i < n; i++ ) {
1057: for ( top = 0, j = n-1; j >= 0; j-- )
1058: if ( j != i ) {
1059: MKNODE(t,(pointer)w[j],top); top = t;
1060: }
1061: get_eg(&tmp0);
1062: dp_load(w[i],&ps[w[i]]);
1063:
1.7 noro 1064: if ( GenTrace ) {
1065: Q q;
1066: NODE node;
1067: LIST hist;
1068:
1069: STOQ(w[i],q);
1070: node = mknode(4,ONE,q,ONE,ONE);
1071: MKLIST(hist,node);
1072: MKNODE(TraceList,hist,0);
1073: }
1.16 noro 1074: _dp_nf(top,ps[w[i]],ps,1,&g);
1.1 noro 1075: prim_part(g,0,&g1);
1076: get_eg(&tmp1); add_eg(&eg_ra,&tmp0,&tmp1);
1.12 noro 1077: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1078: fprintf(asir_out,"."); fflush(asir_out);
1079: }
1080: w[i] = newps(g1,0,(NODE)0);
1081: }
1082: for ( top = 0, j = n-1; j >= 0; j-- ) {
1083: MKNODE(t,(pointer)w[j],top); top = t;
1084: }
1085: *h = top;
1.12 noro 1086: if ( DP_Print || DP_PrintShort )
1.1 noro 1087: fprintf(asir_out,"\n");
1088: }
1089:
1090: void reduceall_mod(in,m,h)
1091: NODE in;
1092: int m;
1093: NODE *h;
1094: {
1095: NODE r,t,top;
1096: int n,i,j;
1097: int *w;
1.12 noro 1098: DP g,p;
1.1 noro 1099: struct oEGT tmp0,tmp1;
1100:
1101: if ( NoRA ) {
1102: *h = in; return;
1103: }
1.12 noro 1104: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1105: fprintf(asir_out,"reduceall\n"); fflush(asir_out);
1106: }
1107: r = NODE_sortbi(in,0);
1108: n = length(r);
1109: w = (int *)ALLOCA(n*sizeof(int));
1110: for ( i = 0, t = r; i < n; i++, t = NEXT(t) )
1111: w[i] = (int)BDY(t);
1112: for ( i = 0; i < n; i++ ) {
1113: for ( top = 0, j = n-1; j >= 0; j-- )
1114: if ( j != i ) {
1115: MKNODE(t,(pointer)w[j],top); top = t;
1116: }
1117: get_eg(&tmp0);
1118: if ( PCoeffs )
1119: dp_nf_mod(top,ps[w[i]],ps,m,1,&g);
1.12 noro 1120: else {
1121: dpto_dp(ps[w[i]],&p);
1122: _dp_nf_mod_destructive(top,p,ps,m,1,&g);
1123: }
1.1 noro 1124: get_eg(&tmp1); add_eg(&eg_ra,&tmp0,&tmp1);
1.12 noro 1125: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1126: fprintf(asir_out,"."); fflush(asir_out);
1127: }
1128: w[i] = newps_mod(g,m);
1129: }
1130: for ( top = 0, j = n-1; j >= 0; j-- ) {
1131: MKNODE(t,(pointer)w[j],top); top = t;
1132: }
1133: *h = top;
1.12 noro 1134: if ( DP_Print || DP_PrintShort )
1.1 noro 1135: fprintf(asir_out,"\n");
1136: }
1137:
1138: int newps(a,m,subst)
1139: DP a;
1140: int m;
1141: NODE subst;
1142: {
1143: if ( m && !validhc(!a?0:BDY(a)->c,m,subst) )
1144: return -1;
1145: if ( psn == pslen ) {
1146: pslen *= 2;
1147: ps = (DP *)REALLOC((char *)ps,pslen*sizeof(DP));
1148: psh = (DL *)REALLOC((char *)psh,pslen*sizeof(DL));
1149: pss = (int *)REALLOC((char *)pss,pslen*sizeof(int));
1150: psc = (P *)REALLOC((char *)psc,pslen*sizeof(P));
1151: if ( m )
1152: psm = (DP *)REALLOC((char *)psm,pslen*sizeof(DP));
1153: }
1154: if ( Demand ) {
1155: if ( doing_f4 )
1156: ps[psn] = a;
1157: else
1158: ps[psn] = 0;
1.7 noro 1159: dp_save(psn,(Obj)a,0);
1.1 noro 1160: } else
1161: ps[psn] = a;
1162: psh[psn] = BDY(a)->dl;
1163: pss[psn] = a->sugar;
1164: psc[psn] = BDY(a)->c;
1165: if ( m )
1166: _dp_mod(a,m,subst,&psm[psn]);
1.7 noro 1167: if ( GenTrace ) {
1168: NODE tn,tr,tr1;
1169: LIST trace;
1170:
1171: /* reverse the TraceList */
1172: tn = TraceList;
1173: for ( tr = 0; tn; tn = NEXT(tn) ) {
1174: MKNODE(tr1,BDY(tn),tr); tr = tr1;
1175: }
1176: MKLIST(trace,tr);
1177: if ( OXCheck >= 0 ) {
1178: NODE arg;
1179: Q q1,q2;
1180: STRING fname;
1181: Obj dmy;
1182:
1183: STOQ(OXCheck,q1);
1184: MKSTR(fname,"check_trace");
1185: STOQ(psn,q2);
1186: arg = mknode(5,q1,fname,a,q2,trace);
1187: Pox_cmo_rpc(arg,&dmy);
1188: } else
1189: dp_save(psn,(Obj)trace,"t");
1190: TraceList = 0;
1191: }
1.1 noro 1192: return psn++;
1193: }
1194:
1195: int newps_nosave(a,m,subst)
1196: DP a;
1197: int m;
1198: NODE subst;
1199: {
1200: if ( m && !validhc(!a?0:BDY(a)->c,m,subst) )
1201: return -1;
1202: if ( psn == pslen ) {
1203: pslen *= 2;
1204: ps = (DP *)REALLOC((char *)ps,pslen*sizeof(DP));
1205: psh = (DL *)REALLOC((char *)psh,pslen*sizeof(DL));
1206: pss = (int *)REALLOC((char *)pss,pslen*sizeof(int));
1207: psc = (P *)REALLOC((char *)psc,pslen*sizeof(P));
1208: if ( m )
1209: psm = (DP *)REALLOC((char *)psm,pslen*sizeof(DP));
1210: }
1211: ps[psn] = 0;
1212: psh[psn] = BDY(a)->dl;
1213: pss[psn] = a->sugar;
1214: psc[psn] = BDY(a)->c;
1215: if ( m )
1216: _dp_mod(a,m,subst,&psm[psn]);
1217: return psn++;
1218: }
1219:
1220: int newps_mod(a,m)
1221: DP a;
1222: int m;
1223: {
1224: if ( psn == pslen ) {
1225: pslen *= 2;
1226: ps = (DP *)REALLOC((char *)ps,pslen*sizeof(DP));
1227: psh = (DL *)REALLOC((char *)psh,pslen*sizeof(DL));
1228: pss = (int *)REALLOC((char *)pss,pslen*sizeof(int));
1229: psc = (P *)REALLOC((char *)psc,pslen*sizeof(P)); /* XXX */
1230: }
1231: ps[psn] = a;
1232: psh[psn] = BDY(ps[psn])->dl;
1233: pss[psn] = ps[psn]->sugar;
1234: return psn++;
1235: }
1236:
1237: void reducebase_dehomo(f,g)
1238: NODE f,*g;
1239: {
1240: int n,i,j,k;
1241: int *r;
1242: DL *w,d;
1243: DP u;
1244: NODE t,top;
1245:
1246: n = length(f);
1247: w = (DL *)ALLOCA(n*sizeof(DL));
1248: r = (int *)ALLOCA(n*sizeof(int));
1249: for ( i = 0, t = f; i < n; i++, t = NEXT(t) ) {
1250: r[i] = (int)BDY(t); w[i] = psh[r[i]];
1251: }
1252: for ( i = 0; i < n; i++ ) {
1253: for ( j = 0, d = w[i]; j < n; j++ ) {
1254: if ( j != i ) {
1255: for ( k = 0; k < NVars; k++ )
1256: if ( d->d[k] < w[j]->d[k] )
1257: break;
1258: if ( k == NVars )
1259: break;
1260: }
1261: }
1262: if ( j != n )
1263: r[i] = -1;
1264: }
1265: for ( top = 0, i = n-1; i >= 0; i-- )
1266: if ( r[i] >= 0 ) {
1.7 noro 1267: dp_load(r[i],&ps[r[i]]); dp_dehomo(ps[r[i]],&u);
1268: if ( GenTrace ) {
1269: Q q;
1270: LIST hist;
1271: NODE node;
1272:
1273: STOQ(r[i],q);
1274: node = mknode(4,0,q,0,0);
1275: MKLIST(hist,node);
1276: MKNODE(TraceList,hist,0);
1277: }
1278: j = newps(u,0,0);
1.1 noro 1279: MKNODE(t,j,top); top = t;
1280: }
1281: *g = top;
1282: }
1283:
1284: NODE append_one(f,n)
1285: NODE f;
1286: int n;
1287: {
1288: NODE t;
1289:
1290: if ( Reverse || !f ) {
1291: MKNODE(t,(pointer)n,f); return t;
1292: } else {
1293: for ( t = f; NEXT(t); t = NEXT(t) );
1294: MKNODE(NEXT(t),(pointer)n,0);
1295: return f;
1296: }
1297: }
1298:
1299: DP_pairs minp( d, prest )
1300: DP_pairs d, *prest;
1301: {
1302: register DP_pairs m, ml, p, l;
1303: register DL lcm;
1304: register int s, nv = CNVars;
1305: register int (*cmpfun)() = cmpdl;
1306:
1307: if ( !(p = NEXT(m = d)) ) {
1308: *prest = p;
1309: NEXT(m) = 0;
1310: return m;
1311: }
1312: for ( lcm = m->lcm, s = m->sugar, ml = 0, l = m; p; p = NEXT(l = p) )
1313: if ( NoSugar ? (*cmpfun)( nv, lcm, p->lcm ) >= 0 :
1314: (s > p->sugar || s == p->sugar && (*cmpfun)( nv, lcm, p->lcm ) >= 0) )
1315: ml = l, lcm = (m = p)->lcm, s = p->sugar;
1316: if ( !ml ) *prest = NEXT(m);
1317: else {
1318: NEXT(ml) = NEXT(m);
1319: *prest = d;
1320: }
1321: NEXT(m) = 0;
1322: return m;
1323: }
1324:
1325: void minsugar(d,dm,dr)
1326: DP_pairs d;
1327: DP_pairs *dm,*dr;
1328: {
1329: int msugar;
1330: DP_pairs t,dm0,dr0,dmt,drt;
1331:
1332: for ( msugar = d->sugar, t = NEXT(d); t; t = NEXT(t) )
1333: if ( t->sugar < msugar )
1334: msugar = t->sugar;
1335: dm0 = 0; dr0 = 0;
1336: for ( t = d; t; t = NEXT(t) ) {
1337: if ( t->sugar == msugar ) {
1338: NEXTDPP(dm0,dmt);
1339: dmt->dp1 = t->dp1; dmt->dp2 = t->dp2;
1340: dmt->lcm = t->lcm; dmt->sugar = t->sugar;
1341: } else {
1342: NEXTDPP(dr0,drt);
1343: drt->dp1 = t->dp1; drt->dp2 = t->dp2;
1344: drt->lcm = t->lcm; drt->sugar = t->sugar;
1345: }
1346: }
1347: if ( dm0 ) NEXT(dmt) = 0;
1348: if ( dr0 ) NEXT(drt) = 0;
1349: *dm = dm0; *dr = dr0;
1350: }
1351:
1352: NODE gb(f,m,subst)
1353: NODE f;
1354: int m;
1355: NODE subst;
1356: {
1357: int i,nh,prev,mag;
1358: NODE r,g,gall;
1359: DP_pairs d,d1;
1360: DP_pairs l;
1361: DP h,nf,nfm,dp1,dp2;
1362: MP mp;
1363: struct oEGT tnf0,tnf1,tnfm0,tnfm1,tpz0,tpz1,tsp0,tsp1,tspm0,tspm1,tnp0,tnp1,tmp0,tmp1;
1364: int skip_nf_flag;
1365: double t_0;
1.7 noro 1366: Q q;
1.6 noro 1367: int new_sugar;
1.1 noro 1368: static prev_sugar = -1;
1369:
1370: Max_mag = 0;
1371: prev = 1;
1372: doing_f4 = 0;
1373: if ( m ) {
1374: psm = (DP *)MALLOC(pslen*sizeof(DP));
1375: for ( i = 0; i < psn; i++ )
1376: if ( psh[i] && !validhc(psc[i],m,subst) )
1377: return 0;
1378: else
1379: _dp_mod(ps[i],m,subst,&psm[i]);
1380: }
1381: for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) {
1382: i = (int)BDY(r);
1383: d = updpairs(d,g,i);
1384: g = updbase(g,i);
1385: gall = append_one(gall,i);
1386: }
1387: while ( d ) {
1.14 noro 1388: l = minp(d,&d);
1.1 noro 1389: if ( m ) {
1.6 noro 1390: _dp_sp_mod_dup(psm[l->dp1],psm[l->dp2],m,&h);
1.10 noro 1391: if ( h )
1392: new_sugar = h->sugar;
1.1 noro 1393: get_eg(&tnfm0);
1.6 noro 1394: _dp_nf_mod_destructive(gall,h,psm,m,0,&nfm);
1.1 noro 1395: get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1);
1396: } else
1397: nfm = (DP)1;
1398: if ( nfm ) {
1399: if ( Demand ) {
1400: if ( dp_load_t(psn,&nf) ) {
1401: skip_nf_flag = 1;
1.14 noro 1402: tnf1=tsp1;
1.1 noro 1403: goto skip_nf;
1404: } else {
1405: skip_nf_flag = 0;
1406: dp_load(l->dp1,&dp1); dp_load(l->dp2,&dp2);
1407: dp_sp(dp1,dp2,&h);
1408: }
1409: } else
1410: dp_sp(ps[l->dp1],ps[l->dp2],&h);
1.7 noro 1411: if ( GenTrace ) {
1412: STOQ(l->dp1,q); ARG1(BDY((LIST)BDY(NEXT(TraceList)))) = q;
1413: STOQ(l->dp2,q); ARG1(BDY((LIST)BDY(TraceList))) = q;
1414: }
1.10 noro 1415: if ( h )
1416: new_sugar = h->sugar;
1.1 noro 1417: get_eg(&tnf0);
1418: t_0 = get_rtime();
1.18 ! noro 1419: if ( PCoeffs || dp_fcoeffs )
1.16 noro 1420: _dp_nf(gall,h,ps,!Top,&nf);
1421: else
1422: _dp_nf_ptozp(gall,h,ps,!Top,DP_Multiple,&nf);
1.12 noro 1423: if ( DP_Print )
1.1 noro 1424: fprintf(asir_out,"(%.3g)",get_rtime()-t_0);
1425: get_eg(&tnf1); add_eg(&eg_nf,&tnf0,&tnf1);
1426: } else
1427: nf = 0;
1428: skip_nf:
1429: if ( nf ) {
1430: NZR++;
1431: get_eg(&tpz0);
1432: prim_part(nf,0,&h);
1433: get_eg(&tpz1); add_eg(&eg_pz,&tpz0,&tpz1);
1434: get_eg(&tnp0);
1435: if ( Demand && skip_nf_flag )
1436: nh = newps_nosave(h,m,subst);
1437: else
1438: nh = newps(h,m,subst);
1439: get_eg(&tnp1); add_eg(&eg_np,&tnp0,&tnp1);
1440: if ( nh < 0 )
1441: return 0;
1442: d = updpairs(d,g,nh);
1443: g = updbase(g,nh);
1444: gall = append_one(gall,nh);
1445: if ( !dp_fcoeffs && ShowMag ) {
1446: for ( mag = 0, mp = BDY(h); mp; mp = NEXT(mp) )
1447: mag += p_mag((P)mp->c);
1448: Max_mag = MAX(Max_mag,mag);
1449: }
1.12 noro 1450: if ( DP_Print ) {
1.1 noro 1451: if ( !prev )
1452: fprintf(asir_out,"\n");
1453: print_split_e(&tnf0,&tnf1); print_split_e(&tpz0,&tpz1);
1454: printdl(psh[nh]);
1455: fprintf(asir_out,"(%d,%d),nb=%d,nab=%d,rp=%d,sugar=%d",
1456: l->dp1,l->dp2,length(g),length(gall),DPPlength(d),
1457: pss[nh]);
1458: if ( ShowMag )
1459: fprintf(asir_out,",mag=%d",mag);
1460: fprintf(asir_out,"\n"); fflush(asir_out);
1.12 noro 1461: } else if ( DP_PrintShort ) {
1.1 noro 1462: fprintf(asir_out,"+"); fflush(asir_out);
1463: }
1464: prev = 1;
1465: } else {
1466: if ( m )
1467: add_eg(&eg_znfm,&tnfm0,&tnfm1);
1468: ZR++;
1.12 noro 1469: if ( DP_Print || DP_PrintShort ) {
1.6 noro 1470: if ( new_sugar != prev_sugar ) {
1471: fprintf(asir_out,"[%d]",new_sugar);
1472: prev_sugar = new_sugar;
1.1 noro 1473: }
1474: fprintf(asir_out,"."); fflush(asir_out); prev = 0;
1475: }
1476: }
1477: }
1.12 noro 1478: if ( DP_Print || DP_PrintShort )
1.1 noro 1479: fprintf(asir_out,"gb done\n");
1480: return g;
1481: }
1482:
1483: NODE gb_mod(f,m)
1484: NODE f;
1485: int m;
1486: {
1487: int i,nh,prev;
1488: NODE r,g,gall;
1489: DP_pairs d,d1;
1490: DP_pairs l;
1491: DP h,nf;
1492: struct oEGT tnfm0,tnfm1,tspm0,tspm1,tmp0,tmp1,tpz0,tpz1;
1493:
1494: prev = 1;
1495: for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) {
1496: i = (int)BDY(r);
1497: d = updpairs(d,g,i);
1498: g = updbase(g,i);
1499: gall = append_one(gall,i);
1500: }
1501: while ( d ) {
1.14 noro 1502: l = minp(d,&d);
1.1 noro 1503: if ( PCoeffs ) {
1504: dp_sp_mod(ps[l->dp1],ps[l->dp2],m,&h);
1.14 noro 1505: get_eg(&tnfm0);
1.1 noro 1506: dp_nf_mod(gall,h,ps,m,!Top,&nf);
1507: } else {
1.6 noro 1508: _dp_sp_mod_dup(ps[l->dp1],ps[l->dp2],m,&h);
1.14 noro 1509: get_eg(&tnfm0);
1.6 noro 1510: _dp_nf_mod_destructive(gall,h,ps,m,!Top,&nf);
1.1 noro 1511: }
1512: get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1);
1513: if ( nf ) {
1514: NZR++;
1515: get_eg(&tpz0);
1516: prim_part(nf,m,&h);
1517: get_eg(&tpz1); add_eg(&eg_pz,&tpz0,&tpz1);
1518: nh = newps_mod(h,m);
1519: if ( nh < 0 )
1520: return 0;
1521: d = updpairs(d,g,nh);
1522: g = updbase(g,nh);
1523: gall = append_one(gall,nh);
1.12 noro 1524: if ( DP_Print ) {
1.1 noro 1525: if ( !prev )
1526: fprintf(asir_out,"\n");
1527: print_split_eg(&tnfm0,&tnfm1); fflush(asir_out);
1528: fprintf(asir_out,"(%d,%d),nb=%d,nab=%d,rp=%d,sugar=%d",l->dp1,l->dp2,length(g),length(gall),DPPlength(d),pss[nh]);
1529: printdl(psh[nh]); fprintf(asir_out,"\n"); fflush(asir_out);
1.12 noro 1530: } else if ( DP_PrintShort ) {
1.6 noro 1531: fprintf(asir_out,"+"); fflush(asir_out);
1.1 noro 1532: }
1533: prev = 1;
1534: } else {
1535: add_eg(&eg_znfm,&tnfm0,&tnfm1);
1536: ZR++;
1.12 noro 1537: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1538: fprintf(asir_out,"."); fflush(asir_out); prev = 0;
1539: }
1540: }
1541: }
1.12 noro 1542: if ( DP_Print || DP_PrintShort )
1.1 noro 1543: fprintf(asir_out,"gb_mod done\n");
1544: return g;
1545: }
1546:
1.14 noro 1547: DP_pairs updpairs( d, g, t)
1548: DP_pairs d;
1549: NODE /* of index */ g;
1550: int t;
1.1 noro 1551: {
1.14 noro 1552: register DP_pairs d1, dd, nd;
1553: struct oEGT tup0,tup1;
1554: int dl,dl1;
1.1 noro 1555:
1.14 noro 1556: if ( !g ) return d;
1557: if ( !NoCriB && d ) {
1558: dl = DPPlength(d);
1559: d = criterion_B( d, t );
1560: dl -= DPPlength(d); NBP += dl;
1.1 noro 1561: }
1.14 noro 1562: d1 = newpairs( g, t );
1563: if ( NEXT(d1) ) {
1564: dl = DPPlength(d1); TP += dl;
1565: d1 = criterion_M( d1 );
1566: dl1 = DPPlength(d1); NMP += (dl-dl1); dl = dl1;
1567: d1 = criterion_F( d1 );
1568: dl1 = DPPlength(d1); NFP += (dl-dl1); dl = dl1;
1569: } else
1570: dl = 1;
1571: if ( !do_weyl )
1572: for ( dd = 0; d1; d1 = nd ) {
1573: nd = NEXT(d1);
1574: if ( !criterion_2( d1->dp1, d1->dp2 ) ) {
1575: NEXT(d1) = dd;
1576: dd = d1;
1.1 noro 1577: }
1578: }
1.14 noro 1579: else
1580: dd = d1;
1581: dl1 = DPPlength(dd); NDP += (dl-dl1);
1582: if ( !(nd = d) ) return dd;
1583: while ( nd = NEXT(d1 = nd) ) ;
1584: NEXT(d1) = dd;
1585: return d;
1.1 noro 1586: }
1587:
1.14 noro 1588: DP_pairs newpairs( g, t )
1589: NODE /* of index */ g;
1590: register int t;
1591: {
1592: register NODE r;
1593: register DL tdl = psh[t];
1594: register int ts;
1595: register DP_pairs p, last;
1596: int dp;
1597: register DL dl;
1598: register int s;
1.1 noro 1599:
1.14 noro 1600: ts = pss[t] - tdl->td;
1601: for ( last = 0, r = g; r; r = NEXT(r) ) {
1602: NEXT(p = NEWDP_pairs) = last;
1603: last = p;
1604: dp = p->dp1 = (int)BDY(r); p->dp2 = t;
1605: p->lcm = lcm_of_DL(CNVars, dl = psh[dp], tdl, (DL)0 );
1606: #if 0
1607: if ( do_weyl )
1608: p->sugar = dl_weight(p->lcm);
1609: else
1610: #endif
1611: p->sugar = (ts > (s = pss[dp] - dl->td) ? ts : s) + p->lcm->td;
1612: }
1613: return last;
1614: }
1.1 noro 1615:
1.14 noro 1616: DP_pairs criterion_B( d, s )
1617: register DP_pairs d;
1618: int s;
1.1 noro 1619: {
1.14 noro 1620: register DP_pairs dd, p;
1621: register DL tij, t = psh[s], dltmp;
1.1 noro 1622:
1.14 noro 1623: if ( !d ) return 0;
1624: NEWDL( dltmp, CNVars );
1625: for ( dd = 0; d; d = p ) {
1626: p = NEXT(d),
1627: tij = d->lcm;
1628: if ( tij->td != lcm_of_DL(CNVars, tij, t, dltmp )->td
1629: || !dl_equal(CNVars, tij, dltmp )
1630: || (tij->td == lcm_of_DL(CNVars, psh[d->dp1], t, dltmp )->td
1631: && dl_equal(CNVars, dltmp, tij ))
1632: || (tij->td == lcm_of_DL(CNVars, psh[d->dp2], t, dltmp )->td
1633: && dl_equal(CNVars, dltmp, tij )) ) {
1634: NEXT(d) = dd;
1635: dd = d;
1636: }
1.1 noro 1637: }
1.14 noro 1638: return dd;
1639: }
1.1 noro 1640:
1.14 noro 1641: DP_pairs criterion_M( d1 )
1642: DP_pairs d1;
1643: {
1644: register DP_pairs dd, e, d3, d2, p;
1645: register DL itdl, jtdl;
1646: register int itdltd, jtdltd;
1.1 noro 1647:
1.14 noro 1648: for ( dd = 0, e = d1; e; e = d3 ) {
1649: if ( !(d2 = NEXT(e)) ) {
1650: NEXT(e) = dd;
1651: return e;
1652: }
1653: itdltd = (itdl = e->lcm)->td;
1654: for ( d3 = 0; d2; d2 = p ) {
1655: p = NEXT(d2),
1656: jtdltd = (jtdl = d2->lcm)->td;
1657: if ( jtdltd == itdltd )
1658: if ( dl_equal(CNVars, itdl, jtdl ) ) ;
1659: else if ( dl_redble( jtdl, itdl ) ) continue;
1660: else if ( dl_redble( itdl, jtdl ) ) goto delit;
1661: else ;
1662: else if ( jtdltd > itdltd )
1663: if ( dl_redble( jtdl, itdl ) ) continue;
1.1 noro 1664: else ;
1665: else if ( dl_redble( itdl, jtdl ) ) goto delit;
1666: NEXT(d2) = d3;
1667: d3 = d2;
1668: }
1669: NEXT(e) = dd;
1670: dd = e;
1671: continue;
1672: /**/
1673: delit: NEXT(d2) = d3;
1674: d3 = d2;
1675: for ( ; p; p = d2 ) {
1676: d2 = NEXT(p);
1677: NEXT(p) = d3;
1678: d3 = p;
1679: }
1680: }
1681: return dd;
1682: }
1683:
1684: static DP_pairs collect_pairs_of_hdlcm( d1, prest )
1685: DP_pairs d1, *prest;
1686: {
1687: register DP_pairs w, p, r, s;
1688: register DL ti;
1689: register int td;
1690:
1691: td = (ti = (w = d1)->lcm)->td;
1692: s = NEXT(w);
1693: NEXT(w) = 0;
1694: for ( r = 0; s; s = p ) {
1695: p = NEXT(s);
1696: if ( td == s->lcm->td && dl_equal(CNVars, ti, s->lcm ) )
1697: {
1698: NEXT(s) = w;
1699: w = s;
1700: } else {
1701: NEXT(s) = r;
1702: r = s;
1703: }
1704: }
1705: *prest = r;
1706: return w;
1707: }
1708:
1709: int criterion_2( dp1, dp2 )
1710: int dp1, dp2;
1711: {
1712: register int i, *d1, *d2;
1713:
1714: d1 = psh[dp1]->d, d2 = psh[dp2]->d;
1715: for ( i = CNVars; --i >= 0; d1++, d2++ )
1716: if ( (*d1 <= *d2 ? *d1 : *d2) > 0 ) return 0;
1717: return 1;
1718: }
1719:
1720: DP_pairs criterion_F( d1 )
1721: DP_pairs d1;
1722: {
1723: DP_pairs rest, head;
1724: register DP_pairs last, p, r, w;
1725: register int s;
1726:
1727: for ( head = last = 0, p = d1; NEXT(p); ) {
1728: s = (r = w = collect_pairs_of_hdlcm( p, &rest ))->sugar;
1729: while ( w = NEXT(w) )
1730: if ( criterion_2( w->dp1, w->dp2 ) ) {
1731: r = w;
1732: break;
1733: } else if ( w->sugar < s ) s = (r = w)->sugar;
1734: if ( last ) NEXT(last) = r;
1735: else head = r;
1736: NEXT(last = r) = 0;
1737: if ( !(p = rest) ) return head;
1738: }
1739: if ( !last ) return p;
1740: NEXT(last) = p;
1741: return head;
1742: }
1743:
1744: NODE updbase(g,t)
1745: NODE g;
1746: int t;
1747: {
1748: g = remove_reducibles(g,t);
1749: g = append_one(g,t);
1750: return g;
1751: }
1752:
1753: NODE /* of index */ remove_reducibles( nd, newdp )
1754: NODE /* of index */ nd;
1755: int newdp;
1756: {
1757: register DL dl, dln;
1758: register NODE last, p, head;
1759: register int td;
1760:
1761: dl = psh[newdp];
1762: td = dl->td;
1763: for ( head = last = 0, p = nd; p; ) {
1764: dln = psh[(int)BDY(p)];
1765: if ( dln->td >= td && dl_redble( dln, dl ) ) {
1766: p = NEXT(p);
1767: if ( last ) NEXT(last) = p;
1768: } else {
1769: if ( !last ) head = p;
1770: p = NEXT(last = p);
1771: }
1772: }
1773: return head;
1774: }
1775:
1776: int dl_redble( dl1, dl2 )
1777: DL dl1, dl2;
1778: {
1779: register int n, *d1, *d2;
1780:
1781: for ( d1 = dl1->d, d2 = dl2->d, n = CNVars; --n >= 0; d1++, d2++ )
1782: if ( *d1 < *d2 ) return 0;
1783: return 1;
1.5 noro 1784: }
1785:
1786: int dl_weight(dl)
1787: DL dl;
1788: {
1789: int n,w,i;
1790:
1791: n = CNVars/2;
1792: for ( i = 0, w = 0; i < n; i++ )
1793: w += (-dl->d[i]+dl->d[n+i]);
1794: return w;
1.1 noro 1795: }
1796:
1797: int gbcheck(f)
1798: NODE f;
1799: {
1800: int i;
1801: NODE r,g,gall;
1802: DP_pairs d,l;
1803: DP h,nf,dp1,dp2;
1804: struct oEGT tmp0,tmp1;
1805:
1806: if ( NoGC )
1807: return 1;
1808: for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) {
1809: i = (int)BDY(r);
1810: d = updpairs(d,g,i);
1811: g = updbase(g,i);
1812: gall = append_one(gall,i);
1813: }
1.12 noro 1814: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1815: fprintf(asir_out,"gbcheck total %d pairs\n",DPPlength(d)); fflush(asir_out);
1816: }
1817: while ( d ) {
1818: l = d; d = NEXT(d);
1819: get_eg(&tmp0);
1.17 noro 1820: dp_load(l->dp1,&dp1); dp_load(l->dp2,&dp2);
1821: dp_sp(dp1,dp2,&h);
1822: /* fprintf(stderr,"{%d,%d}",l->dp1,l->dp2); */
1.16 noro 1823: _dp_nf(gall,h,ps,1,&nf);
1.1 noro 1824: get_eg(&tmp1); add_eg(&eg_gc,&tmp0,&tmp1);
1.12 noro 1825: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1826: fprintf(asir_out,"."); fflush(asir_out);
1827: }
1828: if ( nf )
1829: return 0;
1830: }
1.12 noro 1831: if ( DP_Print || DP_PrintShort )
1.1 noro 1832: fprintf(asir_out,"\n");
1833: return 1;
1834: }
1835:
1836: int membercheck(f,x)
1837: NODE f,x;
1838: {
1839: DP g;
1840: struct oEGT tmp0,tmp1;
1841:
1842: if ( NoMC )
1843: return 1;
1.12 noro 1844: if ( DP_Print || DP_PrintShort ) {
1.1 noro 1845: fprintf(asir_out,"membercheck\n"); fflush(asir_out);
1846: }
1847: for ( ; f; f = NEXT(f) ) {
1848: get_eg(&tmp0);
1.16 noro 1849: _dp_nf(x,(DP)BDY(f),ps,1,&g);
1.1 noro 1850: get_eg(&tmp1); add_eg(&eg_mc,&tmp0,&tmp1);
1.12 noro 1851: if ( DP_Print ) {
1.1 noro 1852: print_split_eg(&tmp0,&tmp1); fflush(asir_out);
1.12 noro 1853: } else if ( DP_PrintShort ) {
1.1 noro 1854: fprintf(asir_out,"."); fflush(asir_out);
1855: }
1856: if ( g )
1857: return 0;
1858: }
1.12 noro 1859: if ( DP_Print || DP_PrintShort )
1.1 noro 1860: fprintf(asir_out,"\n");
1861: return 1;
1862: }
1863:
1864: void dp_set_flag(name,value)
1865: Obj name,value;
1866: {
1867: char *n;
1868: int v;
1869:
1870: if ( OID(name) != O_STR )
1871: return;
1872: n = BDY((STRING)name);
1873: if ( !strcmp(n,"Demand") ) {
1874: Demand = value ? BDY((STRING)value) : 0; return;
1875: }
1876: if ( !strcmp(n,"Dist") ) {
1877: Dist = (LIST)value; return;
1878: }
1879: if ( value && OID(value) != O_N )
1880: return;
1881: v = QTOS((Q)value);
1882: if ( !strcmp(n,"NoSugar") )
1883: NoSugar = v;
1884: else if ( !strcmp(n,"NoCriB") )
1885: NoCriB = v;
1886: else if ( !strcmp(n,"NoGC") )
1887: NoGC = v;
1888: else if ( !strcmp(n,"NoMC") )
1889: NoMC = v;
1890: else if ( !strcmp(n,"NoRA") )
1891: NoRA = v;
1892: else if ( !strcmp(n,"NoGCD") )
1893: NoGCD = v;
1894: else if ( !strcmp(n,"Top") )
1895: Top = v;
1896: else if ( !strcmp(n,"ShowMag") )
1897: ShowMag = v;
1.14 noro 1898: else if ( !strcmp(n,"PrintShort") )
1.12 noro 1899: DP_PrintShort = v;
1.14 noro 1900: else if ( !strcmp(n,"Print") )
1.12 noro 1901: DP_Print = v;
1.14 noro 1902: else if ( !strcmp(n,"NFStat") )
1903: DP_NFStat = v;
1.1 noro 1904: else if ( !strcmp(n,"Stat") )
1905: Stat = v;
1906: else if ( !strcmp(n,"Reverse") )
1907: Reverse = v;
1908: else if ( !strcmp(n,"Multiple") )
1.14 noro 1909: DP_Multiple = v;
1.1 noro 1910: else if ( !strcmp(n,"Denominator") )
1911: Denominator = v;
1912: else if ( !strcmp(n,"PtozpRA") )
1913: PtozpRA = v;
1.7 noro 1914: else if ( !strcmp(n,"GenTrace") )
1915: GenTrace = v;
1916: else if ( !strcmp(n,"OXCheck") )
1917: OXCheck = v;
1.1 noro 1918: }
1919:
1920: void dp_make_flaglist(list)
1921: LIST *list;
1922: {
1923: Q v;
1924: STRING name,path;
1925: NODE n,n1;
1926:
1.14 noro 1927: STOQ(DP_Multiple,v); MKNODE(n,v,0); MKSTR(name,"DP_Multiple"); MKNODE(n1,name,n); n = n1;
1.1 noro 1928: STOQ(Denominator,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Denominator"); MKNODE(n1,name,n); n = n1;
1929: MKNODE(n1,Dist,n); n = n1; MKSTR(name,"Dist"); MKNODE(n1,name,n); n = n1;
1930: STOQ(Reverse,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Reverse"); MKNODE(n1,name,n); n = n1;
1931: STOQ(Stat,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Stat"); MKNODE(n1,name,n); n = n1;
1.14 noro 1932: STOQ(DP_Print,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Print"); MKNODE(n1,name,n); n = n1;
1933: STOQ(DP_NFStat,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NFStat"); MKNODE(n1,name,n); n = n1;
1.7 noro 1934: STOQ(OXCheck,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"OXCheck"); MKNODE(n1,name,n); n = n1;
1935: STOQ(GenTrace,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"GenTrace"); MKNODE(n1,name,n); n = n1;
1.1 noro 1936: STOQ(PtozpRA,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"PtozpRA"); MKNODE(n1,name,n); n = n1;
1937: STOQ(ShowMag,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"ShowMag"); MKNODE(n1,name,n); n = n1;
1938: STOQ(Top,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Top"); MKNODE(n1,name,n); n = n1;
1939: STOQ(NoGCD,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NoGCD"); MKNODE(n1,name,n); n = n1;
1940: STOQ(NoRA,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NoRA"); MKNODE(n1,name,n); n = n1;
1941: STOQ(NoMC,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NoMC"); MKNODE(n1,name,n); n = n1;
1942: STOQ(NoGC,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NoGC"); MKNODE(n1,name,n); n = n1;
1943: STOQ(NoCriB,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NoCriB"); MKNODE(n1,name,n); n = n1;
1944: STOQ(NoSugar,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"NoSugar"); MKNODE(n1,name,n); n = n1;
1945: if ( Demand )
1946: MKSTR(path,Demand);
1947: else
1948: path = 0;
1949: MKNODE(n1,path,n); n = n1; MKSTR(name,"Demand"); MKNODE(n1,name,n); n = n1;
1950: MKLIST(*list,n);
1951: }
1952:
1953: #define DELIM '/'
1954:
1.7 noro 1955: void dp_save(index,p,prefix)
1.1 noro 1956: int index;
1.7 noro 1957: Obj p;
1958: char *prefix;
1.1 noro 1959: {
1960: FILE *fp;
1961: char path[BUFSIZ];
1962:
1.7 noro 1963: if ( prefix )
1964: sprintf(path,"%s%c%s%d",Demand,DELIM,prefix,index);
1965: else
1966: sprintf(path,"%s%c%d",Demand,DELIM,index);
1.1 noro 1967: if ( !(fp = fopen(path,"wb") ) )
1968: error("dp_save : cannot open a file");
1.7 noro 1969: savevl(fp,VC); saveobj(fp,p); fclose(fp);
1.1 noro 1970: }
1971:
1972: void dp_load(index,p)
1973: int index;
1974: DP *p;
1975: {
1976: FILE *fp;
1977: char path[BUFSIZ];
1978:
1979: if ( !Demand || ps[index] )
1980: *p = ps[index];
1981: else {
1982: sprintf(path,"%s%c%d",Demand,DELIM,index);
1983: if ( !(fp = fopen(path,"rb") ) )
1984: error("dp_load : cannot open a file");
1985: skipvl(fp); loadobj(fp,(Obj *)p); fclose(fp);
1986: }
1987: }
1988:
1989: int dp_load_t(index,p)
1990: int index;
1991: DP *p;
1992: {
1993: FILE *fp;
1994: char path[BUFSIZ];
1995:
1996: sprintf(path,"%s%c%d",Demand,DELIM,index);
1997: if ( !(fp = fopen(path,"rb") ) )
1998: return 0;
1999: else {
2000: skipvl(fp); loadobj(fp,(Obj *)p); fclose(fp); return 1;
2001: }
2002: }
2003:
2004: void init_stat() {
2005: init_eg(&eg_nf); init_eg(&eg_nfm); init_eg(&eg_znfm);
1.14 noro 2006: init_eg(&eg_pz); init_eg(&eg_np);
1.1 noro 2007: init_eg(&eg_ra); init_eg(&eg_mc); init_eg(&eg_gc);
1.14 noro 2008: ZR = NZR = TP = NBP = NFP = NDP = 0;
1.1 noro 2009: }
2010:
2011: void print_stat() {
1.12 noro 2012: if ( !DP_Print && !Stat )
1.1 noro 2013: return;
2014: print_eg("NF",&eg_nf); print_eg("NFM",&eg_nfm); print_eg("ZNFM",&eg_znfm);
1.14 noro 2015: print_eg("PZ",&eg_pz); print_eg("NP",&eg_np);
1.1 noro 2016: print_eg("RA",&eg_ra); print_eg("MC",&eg_mc); print_eg("GC",&eg_gc);
2017: fprintf(asir_out,"T=%d,B=%d M=%d F=%d D=%d ZR=%d NZR=%d\n",TP,NBP,NMP,NFP,NDP,ZR,NZR);
2018: }
1.14 noro 2019:
2020: /*
2021: * dp_nf used in gb()
2022: *
2023: */
2024:
2025: double pz_t_e, pz_t_d, pz_t_d1, pz_t_c, im_t_s, im_t_r;
2026:
2027: extern int GenTrace;
2028: extern NODE TraceList;
1.15 noro 2029: extern int mpi_mag;
2030:
2031: void dp_mulc_d(p,c,r)
2032: DP p;
2033: P c;
2034: DP *r;
2035: {
2036: if ( Dist && BDY(Dist)
2037: && HMAG(p) > mpi_mag
2038: && p_mag((P)c) > mpi_mag ) {
2039: if ( DP_NFStat ) fprintf(asir_out,"~");
2040: dp_imul_d(p,(Q)c,r);
2041: } else {
2042: if ( DP_NFStat ) fprintf(asir_out,"_");
2043: muldc(CO,p,c,r);
2044: }
2045: }
1.14 noro 2046:
1.16 noro 2047: void _dp_nf(b,g,ps,full,rp)
2048: NODE b;
2049: DP g;
2050: DP *ps;
2051: int full;
2052: DP *rp;
2053: {
2054: DP u,p,d,s,t,mult;
2055: P coef;
2056: NODE l;
2057: MP m,mr;
2058: int sugar,psugar;
2059:
2060: if ( !g ) {
2061: *rp = 0; return;
2062: }
2063: sugar = g->sugar;
2064: for ( d = 0; g; ) {
2065: for ( u = 0, l = b; l; l = NEXT(l) ) {
2066: if ( dl_redble(BDY(g)->dl,psh[(int)BDY(l)]) ) {
2067: dp_load((int)BDY(l),&p);
2068: /* t+u = coef*(d+g) - mult*p (t = coef*d) */
2069: dp_red(d,g,p,&t,&u,&coef,&mult);
2070: psugar = (BDY(g)->dl->td - BDY(p)->dl->td) + p->sugar;
2071: sugar = MAX(sugar,psugar);
2072: if ( GenTrace ) {
2073: LIST hist;
2074: Q cq;
2075: NODE node,node0;
2076:
2077: STOQ((int)BDY(l),cq);
2078: node0 = mknode(4,coef,cq,mult,ONE);
2079: MKLIST(hist,node0);
2080: MKNODE(node,hist,TraceList); TraceList = node;
2081: }
2082: if ( !u ) {
2083: if ( d )
2084: d->sugar = sugar;
2085: *rp = d; return;
2086: }
2087: d = t;
2088: break;
2089: }
2090: }
2091: if ( u )
2092: g = u;
2093: else if ( !full ) {
2094: if ( g ) {
2095: MKDP(g->nv,BDY(g),t); t->sugar = sugar; g = t;
2096: }
2097: *rp = g; return;
2098: } else {
2099: m = BDY(g); NEWMP(mr); mr->dl = m->dl; mr->c = m->c;
2100: NEXT(mr) = 0; MKDP(g->nv,mr,t); t->sugar = mr->dl->td;
2101: addd(CO,d,t,&s); d = s;
2102: dp_rest(g,&t); g = t;
2103: }
2104: }
2105: if ( d )
2106: d->sugar = sugar;
2107: *rp = d;
2108: }
2109:
2110: void _dp_nf_ptozp(b,g,ps,full,multiple,r)
1.14 noro 2111: NODE b;
2112: DP g;
2113: DP *ps;
2114: int full,multiple;
2115: DP *r;
2116: {
2117: DP u,dp,rp,t,t1,t2,red,shift;
2118: Q dc,rc,dcq,rcq,cont,hr,hred,cr,cred,mcred,c,gcd,cq;
2119: N gn,tn,cn;
2120: NODE l;
2121: MP m,mr;
2122: int hmag,denom;
2123: int sugar,psugar;
2124: NODE dist;
2125: STRING imul;
2126: int kara_bit;
2127: double get_rtime();
1.15 noro 2128: double t_0,t_00,tt,ttt,t_p,t_m,t_g,t_a;
1.14 noro 2129: LIST hist;
2130: NODE node;
2131: Q rcred,mrcred;
2132:
2133: if ( !g ) {
2134: *r = 0; return;
2135: }
2136: pz_t_e = pz_t_d = pz_t_d1 = pz_t_c = 0;
1.15 noro 2137: t_p = t_m = t_g = t_a = 0;
1.14 noro 2138:
2139: denom = Denominator?Denominator:1;
2140: hmag = multiple*HMAG(g)/denom;
2141: sugar = g->sugar;
2142:
2143: dc = 0; dp = 0; rc = ONE; rp = g;
2144: MKSTR(imul,"dp_imul_index");
2145:
2146: /* g = dc*dp+rc*rp */
2147: for ( ; rp; ) {
2148: for ( u = 0, l = b; l; l = NEXT(l) ) {
2149: if ( dl_redble(BDY(rp)->dl,psh[(int)BDY(l)]) ) {
2150: t_0 = get_rtime();
2151: dp_load((int)BDY(l),&red);
2152: hr = (Q)BDY(rp)->c; hred = (Q)BDY(red)->c;
2153: igcd_cofactor((Q)BDY(rp)->c,(Q)BDY(red)->c,&gcd,&cred,&cr);
1.15 noro 2154: tt = get_rtime(); t_p += tt-t_0;
1.14 noro 2155:
2156: dp_subd(rp,red,&shift);
1.15 noro 2157: dp_mulc_d(rp,cr,&t);
1.14 noro 2158: chsgnp((P)cred,(P *)&mcred);
1.15 noro 2159: dp_mulc_d(red,mcred,&t1);
2160: muld(CO,shift,t1,&t1);
2161: addd(CO,t,t1,&u);
2162: t_m += get_rtime()-tt;
1.14 noro 2163:
2164: psugar = (BDY(rp)->dl->td - BDY(red)->dl->td) + red->sugar;
2165: sugar = MAX(sugar,psugar);
1.15 noro 2166:
1.14 noro 2167: if ( GenTrace ) {
2168: /* u = cr*rp + (-cred)*shift*red */
2169: STOQ((int)BDY(l),cq);
2170: node = mknode(4,cr,cq,0,0);
2171: mulq(cred,rc,&rcred);
2172: chsgnnum((Num)rcred,(Num *)&mrcred);
2173: muldc(CO,shift,(P)mrcred,(DP *)&ARG2(node));
2174: MKLIST(hist,node);
2175: }
1.15 noro 2176:
1.14 noro 2177: if ( !u ) {
2178: if ( dp )
2179: dp->sugar = sugar;
2180: *r = dp;
2181: if ( GenTrace ) {
2182: ARG3(BDY(hist)) = ONE;
2183: MKNODE(node,hist,TraceList); TraceList = node;
2184: }
2185: goto final;
2186: }
2187: break;
2188: }
2189: }
2190: if ( u ) {
2191: if ( multiple && HMAG(u) > hmag ) {
2192: t_0 = get_rtime();
1.16 noro 2193: dp_ptozp_d(u,&rp);
1.15 noro 2194: tt = get_rtime(); t_g += tt-t_0;
2195:
2196: divsq((Q)BDY(u)->c,(Q)BDY(rp)->c,&cont);
1.14 noro 2197: if ( !dp_fcoeffs && DP_NFStat ) {
1.15 noro 2198: fprintf(asir_out,
2199: "(%d)",p_mag((P)cont)*100/p_mag((P)BDY(u)->c));
1.14 noro 2200: fflush(asir_out);
2201: }
1.15 noro 2202: mulq(cr,dc,&dcq); mulq(cont,rc,&rcq);
1.14 noro 2203: igcd_cofactor(dcq,rcq,&gcd,&dc,&rc);
1.15 noro 2204: t_a = get_rtime()-tt;
2205:
1.14 noro 2206: hmag = multiple*HMAG(rp)/denom;
2207: if ( GenTrace ) {
2208: ARG3(BDY(hist)) = (pointer)gcd;
2209: MKNODE(node,hist,TraceList); TraceList = node;
2210: }
2211: } else {
1.15 noro 2212: rp = u;
1.14 noro 2213: t_0 = get_rtime();
1.15 noro 2214: mulq(cr,dc,&dc);
2215: t_a += get_rtime()-t_0;
1.14 noro 2216: if ( GenTrace ) {
2217: ARG3(BDY(hist)) = (pointer)ONE;
2218: MKNODE(node,hist,TraceList); TraceList = node;
2219: }
2220: }
2221: } else if ( !full ) {
2222: if ( rp ) {
2223: MKDP(rp->nv,BDY(rp),t); t->sugar = sugar; rp = t;
2224: }
2225: *r = rp;
2226: goto final;
2227: } else {
2228: t_0 = get_rtime();
2229: mulq((Q)BDY(rp)->c,rc,&c);
1.15 noro 2230: igcd_cofactor(dc,c,&dc,&dcq,&cq);
2231: muldc(CO,dp,(P)dcq,&t);
2232: dp_hm(rp,&t1); BDY(t1)->c = (P)cq; addd(CO,t,t1,&dp);
2233: dp_rest(rp,&rp);
2234: t_a += get_rtime()-t_0;
1.14 noro 2235: }
2236: }
2237: if ( GenTrace ) {
2238: mulq(ARG3(BDY((LIST)BDY(TraceList))),dc,&cq);
2239: ARG3(BDY((LIST)BDY(TraceList))) = (pointer)cq;
2240: }
2241: if ( dp )
2242: dp->sugar = sugar;
2243: *r = dp;
2244: final:
2245: if ( DP_NFStat )
1.15 noro 2246: fprintf(asir_out,
2247: "(%.3g %.3g %.3g %.3g %.3g %.3g %.3g %.3g)",
2248: t_p,t_m,t_g,t_a,
1.14 noro 2249: pz_t_e, pz_t_d, pz_t_d1, pz_t_c);
2250: }
2251:
2252: void imulv();
2253:
2254: void dp_imul_d(p,q,rp)
2255: DP p;
2256: Q q;
2257: DP *rp;
2258: {
2259: int nsep,ndist,i,j,k,l,n;
2260: double t0,t1,t2;
2261: Q *s;
2262: pointer *b;
2263: VECT c,cs,ri;
2264: VECT *r;
2265: MP m;
2266: NODE tn,dist,n0,n1,n2;
2267: Obj dmy;
2268: STRING imul;
2269: extern LIST Dist;
2270:
2271: if ( !p || !q ) {
2272: *rp = 0; return;
2273: }
2274: dist = BDY(Dist);
2275: for ( tn = dist, ndist = 0; tn; tn = NEXT(tn), ndist++ );
2276: nsep = ndist + 1;
2277: for ( m = BDY(p), n = 0; m; m = NEXT(m), n++ );
2278: if ( n <= nsep ) {
2279: muldc(CO,p,(P)q,rp); return;
2280: }
2281: MKSTR(imul,"imulv");
2282: t0 = get_rtime();
2283: dp_dtov(p,&c);
2284: sepvect(c,nsep,&cs);
2285: r = (VECT *)CALLOC(nsep,sizeof(VECT *));
2286: for ( i = 0, tn = dist, b = BDY(cs); i < ndist; i++, tn = NEXT(tn) ) {
2287: n0 = mknode(4,BDY(tn),imul,b[i],q);
2288: Pox_rpc(n0,&dmy);
2289: }
2290: t1 = get_rtime();
2291: im_t_s += t1 - t0;
2292: imulv(b[i],q,&r[i]);
2293: t1 = get_rtime();
2294: for ( i = 0, tn = dist; i < ndist; i++, tn = NEXT(tn) ) {
2295: MKNODE(n0,BDY(tn),0);
2296: Pox_pop_local(n0,&r[i]);
2297: if ( OID(r[i]) == O_ERR ) {
2298: printexpr(CO,(Obj)r[i]);
2299: error("dp_imul_d : aborted");
2300: }
2301: }
2302: t2 = get_rtime();
2303: im_t_r += t2 - t1;
2304: s = (Q *)CALLOC(n,sizeof(Q));
2305: for ( i = j = 0; i < nsep; i++ ) {
2306: for ( k = 0, ri = r[i], l = ri->len; k < l; k++, j++ ) {
2307: s[j] = (Q)BDY(ri)[k];
2308: }
2309: }
2310: dp_vtod(s,p,rp);
2311: }
2312:
2313: void imulv(w,c,rp)
2314: VECT w;
2315: Q c;
2316: VECT *rp;
2317: {
2318: int n,i;
2319: VECT r;
2320:
2321: n = w->len;
2322: MKVECT(r,n); *rp = r;
2323: for ( i = 0; i < n; i++ )
2324: mulq((Q)BDY(w)[i],(Q)c,(Q *)&BDY(r)[i]);
2325: }
2326:
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