Annotation of OpenXM_contrib2/asir2000/builtin/poly.c, Revision 1.6
1.4 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
1.5 noro 26: * e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
1.4 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: *
1.6 ! noro 48: * $OpenXM: OpenXM_contrib2/asir2000/builtin/poly.c,v 1.5 2000/08/22 05:03:59 noro Exp $
1.4 noro 49: */
1.1 noro 50: #include "ca.h"
51: #include "parse.h"
52: #include "base.h"
53:
54: void Pranp();
55:
56: void Pumul(),Pumul_ff(),Pusquare(),Pusquare_ff(),Putmul(),Putmul_ff();
57: void Pkmul(),Pksquare(),Pktmul();
58: void Pord(), Pcoef0(), Pcoef(), Pdeg(), Pmindeg(), Psetmod();
59: void Pcoef_gf2n();
60: void getcoef(), getdeglist(), mergedeglist(), change_mvar(), restore_mvar();
61:
1.2 noro 62: void Pp_mag(),Pmaxblen();
1.1 noro 63: void Pmergelist(), Pch_mv(), Pre_mv(), Pdeglist();
64: void Pptomp(),Pmptop();
65: void Pptolmp(),Plmptop();
1.6 ! noro 66: void Psfptop();
1.1 noro 67: void Pptogf2n(),Pgf2ntop(),Pgf2ntovect();
68: void Pptogfpn(),Pgfpntop();
69: void Pfind_root_gf2n();
1.2 noro 70: void Pumul_specialmod(),Pusquare_specialmod(),Putmul_specialmod();
1.1 noro 71:
72: void Pureverse(),Putrunc(),Pudecomp(),Purembymul(),Purembymul_precomp();
73: void Puinvmod(),Purevinvmod();
74: void Ppwrmod_ff(),Ppwrtab_ff(),Pgeneric_pwrmod_ff();
75: void Pkpwrmod_lm(),Pkpwrtab_lm(),Pkgeneric_pwrmod_lm();
76:
77: void Pkmulum();
78: void Pksquareum();
79:
80: void Pfmultest();
81: void Phfmul_lm();
82: void Plazy_lm();
83:
84: void Psetmod_ff();
85: void Psimp_ff();
86: void Pextdeg_ff();
87: void Pcharacteristic_ff();
88: void Pfield_type_ff();
89: void Pfield_order_ff();
90: void Prandom_ff();
91:
92: void Ptracemod_gf2n();
93: void Psparsemod_gf2n();
94: void Pmultest_gf2n();
95: void Psquaretest_gf2n();
96: void Pinvtest_gf2n();
97: void Pbininv_gf2n();
98: void Prinvtest_gf2n();
99: void Pis_irred_gf2();
100: void Pis_irred_ddd_gf2();
1.2 noro 101: void Pget_next_fft_prime();
1.3 noro 102: void Puadj_coef();
1.1 noro 103: void simp_ff(Obj,Obj *);
104: void ranp(int,UP *);
105: void field_order_ff(N *);
106:
107: extern int current_mod;
108: extern GEN_UP2 current_mod_gf2n;
109: extern int lm_lazy;
110:
111: int current_ff;
112:
113: struct ftab poly_tab[] = {
1.3 noro 114: {"uadj_coef",Puadj_coef,3},
1.1 noro 115: {"ranp",Pranp,2},
116: {"p_mag",Pp_mag,1},
1.2 noro 117: {"maxblen",Pmaxblen,1},
1.1 noro 118: {"ord",Pord,-1},
119: {"coef0",Pcoef0,-3},
120: {"coef",Pcoef,-3},
121: {"coef_gf2n",Pcoef_gf2n,2},
122: {"deg",Pdeg,2},
123: {"mindeg",Pmindeg,2},
124: {"setmod",Psetmod,-1},
125:
126: {"sparsemod_gf2n",Psparsemod_gf2n,-1},
127:
128: {"setmod_ff",Psetmod_ff,-2},
129: {"simp_ff",Psimp_ff,1},
130: {"extdeg_ff",Pextdeg_ff,0},
131: {"characteristic_ff",Pcharacteristic_ff,0},
132: {"field_type_ff",Pfield_type_ff,0},
133: {"field_order_ff",Pfield_order_ff,0},
134: {"random_ff",Prandom_ff,0},
135:
136: {"deglist",Pdeglist,2},
137: {"mergelist",Pmergelist,2},
138: {"ch_mv",Pch_mv,2},
139: {"re_mv",Pre_mv,2},
140:
141: {"ptomp",Pptomp,2},
142: {"mptop",Pmptop,1},
143:
144: {"ptolmp",Pptolmp,1},
145: {"lmptop",Plmptop,1},
146:
1.6 ! noro 147: {"sfptop",Psfptop,1},
! 148:
1.1 noro 149: {"ptogf2n",Pptogf2n,1},
150: {"gf2ntop",Pgf2ntop,-2},
151: {"gf2ntovect",Pgf2ntovect,1},
152:
153: {"ptogfpn",Pptogfpn,1},
154: {"gfpntop",Pgfpntop,-2},
155:
156: {"kmul",Pkmul,2},
157: {"ksquare",Pksquare,1},
158: {"ktmul",Pktmul,3},
159:
160: {"umul",Pumul,2},
161: {"usquare",Pusquare,1},
162: {"ureverse_inv_as_power_series",Purevinvmod,2},
163: {"uinv_as_power_series",Puinvmod,2},
164:
1.2 noro 165: {"umul_specialmod",Pumul_specialmod,3},
166: {"usquare_specialmod",Pusquare_specialmod,2},
167: {"utmul_specialmod",Putmul_specialmod,4},
168:
1.1 noro 169: {"utmul",Putmul,3},
170: {"umul_ff",Pumul_ff,2},
171: {"usquare_ff",Pusquare_ff,1},
172: {"utmul_ff",Putmul_ff,3},
173:
174: /* for historical reason */
175: {"trunc",Putrunc,2},
176: {"decomp",Pudecomp,2},
177:
178: {"utrunc",Putrunc,2},
179: {"udecomp",Pudecomp,2},
1.3 noro 180: {"ureverse",Pureverse,-2},
1.1 noro 181: {"urembymul",Purembymul,2},
182: {"urembymul_precomp",Purembymul_precomp,3},
183:
184: {"lazy_lm",Plazy_lm,1},
185: {"lazy_ff",Plazy_lm,1},
186:
187: {"pwrmod_ff",Ppwrmod_ff,1},
188: {"generic_pwrmod_ff",Pgeneric_pwrmod_ff,3},
189: {"pwrtab_ff",Ppwrtab_ff,2},
190:
191: {"tracemod_gf2n",Ptracemod_gf2n,3},
192: {"b_find_root_gf2n",Pfind_root_gf2n,1},
193:
194: {"is_irred_gf2",Pis_irred_gf2,1},
195: {"is_irred_ddd_gf2",Pis_irred_ddd_gf2,1},
196:
197: {"kpwrmod_lm",Pkpwrmod_lm,1},
198: {"kgeneric_pwrmod_lm",Pkgeneric_pwrmod_lm,3},
199: {"kpwrtab_lm",Pkpwrtab_lm,2},
200:
201: {"kmulum",Pkmulum,3},
202: {"ksquareum",Pksquareum,2},
203:
204: {"fmultest",Pfmultest,3},
205: {"hfmul_lm",Phfmul_lm,2},
206:
207: {"multest_gf2n",Pmultest_gf2n,2},
208: {"squaretest_gf2n",Psquaretest_gf2n,1},
209: {"bininv_gf2n",Pbininv_gf2n,2},
210: {"invtest_gf2n",Pinvtest_gf2n,1},
211: {"rinvtest_gf2n",Prinvtest_gf2n,0},
1.2 noro 212: {"get_next_fft_prime",Pget_next_fft_prime,2},
1.1 noro 213: {0,0,0},
214: };
215:
216: extern V up_var;
1.3 noro 217:
218: /*
219: uadj_coef(F,M,M2)
220: if ( F is a non-negative integer )
221: return F > M2 ? F-M : M2;
222: else
223: F = CN*V^N+...+C0
224: return uadj_coef(CN,M,M2)*V^N+...+uadj_coef(C0,M,M2);
225: */
226:
227: void Puadj_coef(arg,rp)
228: NODE arg;
229: P *rp;
230: {
231: UP f,r;
232: N m,m2;
233:
234: ptoup((P)ARG0(arg),&f);
235: m = NM((Q)ARG1(arg));
236: m2 = NM((Q)ARG2(arg));
237: adj_coefup(f,m,m2,&r);
238: uptop(r,rp);
239: }
240:
1.2 noro 241: /*
242: get_next_fft_prime(StartIndex,Bits)
243: tries to find smallest Index >= StartIndex s.t.
244: 2^(Bits-1)|FFTprime[Index]-1
245: return [Index,Mod] or 0 (not exist)
246: */
247:
248: void Pget_next_fft_prime(arg,rp)
249: NODE arg;
250: LIST *rp;
251: {
252: unsigned int mod,d;
253: int start,bits,i;
254: NODE n;
255: Q q,ind;
256:
257: start = QTOS((Q)ARG0(arg));
258: bits = QTOS((Q)ARG1(arg));
259: for ( i = start; ; i++ ) {
260: get_fft_prime(i,&mod,&d);
261: if ( !mod ) {
262: *rp = 0; return;
263: }
264: if ( bits <= d ) {
265: UTOQ(mod,q);
266: UTOQ(i,ind);
267: n = mknode(2,ind,q);
268: MKLIST(*rp,n);
269: return;
270: }
271: }
272: }
1.1 noro 273:
274: void Pranp(arg,rp)
275: NODE arg;
276: P *rp;
277: {
278: int n;
279: UP c;
280:
281: n = QTOS((Q)ARG0(arg));
282: ranp(n,&c);
283: if ( c ) {
284: up_var = VR((P)ARG1(arg));
285: uptop(c,rp);
286: } else
287: *rp = 0;
288: }
289:
290: void ranp(n,nr)
291: int n;
292: UP *nr;
293: {
294: int i;
295: unsigned int r;
296: Q q;
297: UP c;
298:
299: *nr = c = UPALLOC(n);
300: for ( i = 0; i <= n; i++ ) {
301: r = random();
302: UTOQ(r,q);
303: c->c[i] = (Num)q;
304: }
305: for ( i = n; i >= 0 && !c->c[i]; i-- );
306: if ( i >= 0 )
307: c->d = i;
308: else
309: *nr = 0;
310: }
311:
1.2 noro 312: void Pmaxblen(arg,rp)
313: NODE arg;
314: Q *rp;
315: {
316: int l;
317: l = maxblenp(ARG0(arg));
318: STOQ(l,*rp);
319: }
320:
1.1 noro 321: void Pp_mag(arg,rp)
322: NODE arg;
323: Q *rp;
324: {
325: int l;
326: l = p_mag(ARG0(arg));
327: STOQ(l,*rp);
328: }
329:
330: void Pord(arg,listp)
331: NODE arg;
332: LIST *listp;
333: {
334: NODE n,tn;
335: LIST l;
336: VL vl,tvl,svl;
337: P t;
338: int i,j;
339: V *va;
340: V v;
341:
342: if ( argc(arg) ) {
343: asir_assert(ARG0(arg),O_LIST,"ord");
344: for ( vl = 0, i = 0, n = BDY((LIST)ARG0(arg));
345: n; n = NEXT(n), i++ ) {
346: if ( !vl ) {
347: NEWVL(vl); tvl = vl;
348: } else {
349: NEWVL(NEXT(tvl)); tvl = NEXT(tvl);
350: }
351: if ( !(t = (P)BDY(n)) || (OID(t) != O_P) )
352: error("ord : invalid argument");
353: VR(tvl) = VR(t);
354: }
355: va = (V *)ALLOCA(i*sizeof(V));
356: for ( j = 0, svl = vl; j < i; j++, svl = NEXT(svl) )
357: va[j] = VR(svl);
358: for ( svl = CO; svl; svl = NEXT(svl) ) {
359: v = VR(svl);
360: for ( j = 0; j < i; j++ )
361: if ( v == va[j] )
362: break;
363: if ( j == i ) {
364: if ( !vl ) {
365: NEWVL(vl); tvl = vl;
366: } else {
367: NEWVL(NEXT(tvl)); tvl = NEXT(tvl);
368: }
369: VR(tvl) = v;
370: }
371: }
372: if ( vl )
373: NEXT(tvl) = 0;
374: CO = vl;
375: }
376: for ( n = 0, vl = CO; vl; vl = NEXT(vl) ) {
377: NEXTNODE(n,tn); MKV(VR(vl),t); BDY(tn) = (pointer)t;
378: }
379: NEXT(tn) = 0; MKLIST(l,n); *listp = l;
380: }
381:
382: void Pcoef0(arg,rp)
383: NODE arg;
384: Obj *rp;
385: {
386: Obj t,n;
387: P s;
388: DCP dc;
389: int id;
390: V v;
391: VL vl;
392:
393: if ( !(t = (Obj)ARG0(arg)) || ((id = OID(ARG0(arg))) > O_P) )
394: *rp = 0;
395: else if ( (n = (Obj)ARG1(arg)) && (OID(n) > O_N) )
396: *rp = 0;
397: else if ( id == O_N )
398: if ( !n )
399: *rp = t;
400: else
401: *rp = 0;
402: else {
403: if ( argc(arg) == 3 ) {
404: if ( (v = VR((P)ARG2(arg))) != VR((P)t) ) {
405: reordvar(CO,v,&vl); reorderp(vl,CO,(P)t,&s);
406: } else
407: s = (P)t;
408: if ( VR(s) != v ) {
409: if ( n )
410: *rp = 0;
411: else
412: *rp = t;
413: return;
414: }
415: } else
416: s = (P)t;
417: for ( dc = DC(s); dc && cmpq(DEG(dc),(Q)n); dc = NEXT(dc) );
418: if ( dc )
419: *rp = (Obj)COEF(dc);
420: else
421: *rp = 0;
422: }
423: }
424:
425: void Pcoef(arg,rp)
426: NODE arg;
427: Obj *rp;
428: {
429: Obj t,n;
430: P s;
431: DCP dc;
432: int id;
433: V v;
434:
435: if ( !(t = (Obj)ARG0(arg)) || ((id = OID(ARG0(arg))) > O_P) )
436: *rp = 0;
437: else if ( (n = (Obj)ARG1(arg)) && (OID(n) > O_N) )
438: *rp = 0;
439: else if ( id == O_N ) {
440: if ( !n )
441: *rp = t;
442: else
443: *rp = 0;
444: } else {
445: if ( argc(arg) == 3 ) {
446: if ( (v = VR((P)ARG2(arg))) != VR((P)t) ) {
447: getcoef(CO,(P)t,v,(Q)n,(P *)rp); return;
448: } else
449: s = (P)t;
450: if ( VR(s) != v ) {
451: if ( n )
452: *rp = 0;
453: else
454: *rp = t;
455: return;
456: }
457: } else
458: s = (P)t;
459: for ( dc = DC(s); dc && cmpq(DEG(dc),(Q)n); dc = NEXT(dc) );
460: if ( dc )
461: *rp = (Obj)COEF(dc);
462: else
463: *rp = 0;
464: }
465: }
466:
467: void Pcoef_gf2n(arg,rp)
468: NODE arg;
469: Obj *rp;
470: {
471: Obj t,n;
472: int id,d;
473: UP2 up2;
474:
475: if ( !(t = (Obj)ARG0(arg)) || ((id = OID(ARG0(arg))) > O_P) )
476: *rp = 0;
477: else if ( (n = (Obj)ARG1(arg)) && (OID(n) > O_N) )
478: *rp = 0;
479: else if ( id == O_N && NID((Num)t) == N_GF2N ) {
480: d = QTOS((Q)n);
481: up2 = ((GF2N)t)->body;
482: if ( d > degup2(up2) )
483: *rp = 0;
484: else
485: *rp = (Obj)(up2->b[d/BSH]&(((unsigned long)1)<<(d%BSH))?ONE:0);
486: } else
487: *rp = 0;
488: }
489:
490: void Pdeg(arg,rp)
491: NODE arg;
492: Q *rp;
493: {
494: Obj t,v;
495: int d;
496:
497: #if 0
498: if ( !(t = (Obj)ARG0(arg)) || (OID(t) != O_P) )
499: *rp = 0;
500: else if ( !(v = (Obj)ARG1(arg)) || (VR((P)v) != VR((P)t)) )
501: *rp = 0;
502: else
503: *rp = (Obj)DEG(DC((P)t));
504: #endif
505: if ( !(t = (Obj)ARG0(arg)) )
506: STOQ(-1,*rp);
507: else if ( OID(t) != O_P ) {
508: if ( OID(t) == O_N && NID(t) == N_GF2N
509: && (v=(Obj)ARG1(arg)) && OID(v)== O_N && NID(v) == N_GF2N ) {
510: d = degup2(((GF2N)t)->body);
511: STOQ(d,*rp);
512: } else
513: *rp = 0;
514: } else
515: degp(VR((P)ARG1(arg)),(P)ARG0(arg),rp);
516: }
517:
518: void Pmindeg(arg,rp)
519: NODE arg;
520: Q *rp;
521: {
522: Obj t;
523:
524: if ( !(t = (Obj)ARG0(arg)) || (OID(t) != O_P) )
525: *rp = 0;
526: else
527: getmindeg(VR((P)ARG1(arg)),(P)ARG0(arg),rp);
528: }
529:
530: void Psetmod(arg,rp)
531: NODE arg;
532: Q *rp;
533: {
534: if ( arg ) {
535: asir_assert(ARG0(arg),O_N,"setmod");
536: current_mod = QTOS((Q)ARG0(arg));
537: }
538: STOQ(current_mod,*rp);
539: }
540:
541: void Psparsemod_gf2n(arg,rp)
542: NODE arg;
543: Q *rp;
544: {
545: int id;
546:
547: if ( arg && current_mod_gf2n )
548: current_mod_gf2n->id = ARG0(arg)?1:0;
549: if ( !current_mod_gf2n )
550: id = -1;
551: else
552: id = current_mod_gf2n->id;
553: STOQ(id,*rp);
554: }
555:
556: void Pmultest_gf2n(arg,rp)
557: NODE arg;
558: GF2N *rp;
559: {
560: GF2N a,b,c;
561: int i;
562:
563: a = (GF2N)ARG0(arg); b = (GF2N)ARG0(arg);
564: for ( i = 0; i < 10000; i++ )
565: mulgf2n(a,b,&c);
566: *rp = c;
567: }
568:
569: void Psquaretest_gf2n(arg,rp)
570: NODE arg;
571: GF2N *rp;
572: {
573: GF2N a,c;
574: int i;
575:
576: a = (GF2N)ARG0(arg);
577: for ( i = 0; i < 10000; i++ )
578: squaregf2n(a,&c);
579: *rp = c;
580: }
581:
582: void Pinvtest_gf2n(arg,rp)
583: NODE arg;
584: GF2N *rp;
585: {
586: GF2N a,c;
587: int i;
588:
589: a = (GF2N)ARG0(arg);
590: for ( i = 0; i < 10000; i++ )
591: invgf2n(a,&c);
592: *rp = c;
593: }
594:
595: void Pbininv_gf2n(arg,rp)
596: NODE arg;
597: GF2N *rp;
598: {
599: UP2 a,inv;
600: int n;
601:
602: a = ((GF2N)ARG0(arg))->body;
603: n = QTOS((Q)ARG1(arg));
604: type1_bin_invup2(a,n,&inv);
605: MKGF2N(inv,*rp);
606: }
607:
608: void Prinvtest_gf2n(rp)
609: Real *rp;
610: {
611: GF2N *a;
612: GF2N c;
613: double t0,t1,r;
614: int i;
615: double get_clock();
616:
617: a = (GF2N *)ALLOCA(1000*sizeof(GF2N));
618: for ( i = 0; i < 1000; i++ ) {
619: randomgf2n(&a[i]);
620: }
621: t0 = get_clock();
622: for ( i = 0; i < 1000; i++ )
623: invgf2n(a[i],&c);
624: t1 = get_clock();
625: r = (t1-t0)/1000;
626: MKReal(r,*rp);
627: }
628:
629: void Pfind_root_gf2n(arg,rp)
630: NODE arg;
631: GF2N *rp;
632: {
633:
634: #if 0
635: UP p;
636:
637: ptoup((P)ARG0(arg),&p);
638: find_root_gf2n(p,rp);
639: #else
640: UP2 p;
641:
642: ptoup2((P)ARG0(arg),&p);
643: find_root_up2(p,rp);
644: #endif
645: }
646:
647: void Pis_irred_gf2(arg,rp)
648: NODE arg;
649: Q *rp;
650: {
651: UP2 t;
652:
653: ptoup2(ARG0(arg),&t);
654: *rp = irredcheckup2(t) ? ONE : 0;
655: }
656:
657: void Pis_irred_ddd_gf2(arg,rp)
658: NODE arg;
659: Q *rp;
660: {
661: UP2 t;
662: int ret;
663:
664: ptoup2(ARG0(arg),&t);
665: ret = irredcheck_dddup2(t);
666: STOQ(ret,*rp);
667: }
668:
1.6 ! noro 669: extern int current_gfs_ext;
! 670: extern int current_gfs_q;
! 671: extern int current_gfs_q1;
! 672: extern int *current_gfs_plus1;
! 673: extern int *current_gfs_ntoi;
! 674: extern int *current_gfs_iton;
! 675:
1.1 noro 676: void Psetmod_ff(arg,rp)
677: NODE arg;
678: Obj *rp;
679: {
680: int ac;
681: Obj mod,defpoly;
682: N n;
683: UP up;
684: UP2 up2;
1.6 ! noro 685: Q q,r;
1.1 noro 686: P p;
687: NODE n0,n1;
688: LIST list;
689:
690: ac = argc(arg);
691: if ( ac == 1 ) {
692: mod = (Obj)ARG0(arg);
693: if ( !mod )
694: error("setmod_ff : invalid argument");
695: switch ( OID(mod) ) {
696: case O_N:
1.6 ! noro 697: if ( SGN((Q)mod) < 0 ) {
! 698: /* small finite field; primitive root representation */
! 699: current_ff = FF_GFS;
! 700: setmod_sf(BD(NM((Q)mod))[0],1);
! 701: } else {
! 702: current_ff = FF_GFP;
! 703: setmod_lm(NM((Q)mod));
! 704: }
! 705: break;
1.1 noro 706: case O_P:
707: current_ff = FF_GF2N;
708: setmod_gf2n((P)mod); break;
709: default:
710: error("setmod_ff : invalid argument");
711: }
712: } else if ( ac == 2 ) {
713: mod = (Obj)ARG1(arg);
1.6 ! noro 714: if ( SGN((Q)mod) < 0 ) {
! 715: error("setmod_ff : not implemented yet");
! 716: } else {
! 717: current_ff = FF_GFPN;
! 718: defpoly = (Obj)ARG0(arg);
! 719: if ( !mod || !defpoly )
! 720: error("setmod_ff : invalid argument");
! 721: setmod_lm(NM((Q)mod));
! 722: setmod_gfpn((P)defpoly);
! 723: }
1.1 noro 724: }
725: switch ( current_ff ) {
726: case FF_GFP:
727: getmod_lm(&n); NTOQ(n,1,q); *rp = (Obj)q; break;
728: case FF_GF2N:
729: getmod_gf2n(&up2); up2top(up2,&p); *rp = (Obj)p; break;
730: case FF_GFPN:
731: getmod_lm(&n); NTOQ(n,1,q);
732: getmod_gfpn(&up); uptop(up,&p);
733: MKNODE(n1,q,0); MKNODE(n0,p,n1);
734: MKLIST(list,n0);
735: *rp = (Obj)list; break;
1.6 ! noro 736: case FF_GFS:
! 737: STOQ(current_gfs_q,q);
! 738: STOQ(current_gfs_iton[1],r);
! 739: n0 = mknode(3,ONE,q,r);
! 740: MKLIST(list,n0);
! 741: *rp = (Obj)list; break;
1.1 noro 742: default:
743: *rp = 0; break;
744: }
745: }
746:
747: void Pextdeg_ff(rp)
748: Q *rp;
749: {
750: int d;
751: UP2 up2;
752: UP up;
753:
754: switch ( current_ff ) {
755: case FF_GFP:
756: *rp = ONE; break;
757: case FF_GF2N:
758: getmod_gf2n(&up2); d = degup2(up2); STOQ(d,*rp); break;
759: case FF_GFPN:
760: getmod_gfpn(&up); STOQ(up->d,*rp); break;
761: default:
762: error("extdeg_ff : current_ff is not set");
763: }
764: }
765:
766: void Pcharacteristic_ff(rp)
767: Q *rp;
768: {
769: N lm;
770:
771: switch ( current_ff ) {
772: case FF_GFP:
773: case FF_GFPN:
774: getmod_lm(&lm); NTOQ(lm,1,*rp); break;
775: case FF_GF2N:
776: STOQ(2,*rp); break;
777: default:
778: error("characteristic_ff : current_ff is not set");
779: }
780: }
781:
782: void Pfield_type_ff(rp)
783: Q *rp;
784: {
785: STOQ(current_ff,*rp);
786: }
787:
788: void Pfield_order_ff(rp)
789: Q *rp;
790: {
791: N n;
792:
793: field_order_ff(&n);
794: NTOQ(n,1,*rp);
795: }
796:
797: void field_order_ff(order)
798: N *order;
799: {
800: UP2 up2;
801: UP up;
802: N m;
803: int d,w;
804:
805: switch ( current_ff ) {
806: case FF_GFP:
807: getmod_lm(order); break;
808: case FF_GF2N:
809: getmod_gf2n(&up2); d = degup2(up2);
810: w = (d>>5)+1;
811: *order = m = NALLOC(w);
812: PL(m)=w;
813: bzero((char *)BD(m),w*sizeof(unsigned int));
814: BD(m)[d>>5] |= 1<<(d&31);
815: break;
816: case FF_GFPN:
817: getmod_lm(&m);
818: getmod_gfpn(&up); pwrn(m,up->d,order); break;
819: default:
820: error("field_order_ff : current_ff is not set");
821: }
822: }
823:
824: void Prandom_ff(rp)
825: Obj *rp;
826: {
827: LM l;
828: GF2N g;
829: GFPN p;
830:
831: switch ( current_ff ) {
832: case FF_GFP:
833: random_lm(&l); *rp = (Obj)l; break;
834: case FF_GF2N:
835: randomgf2n(&g); *rp = (Obj)g; break;
836: case FF_GFPN:
837: randomgfpn(&p); *rp = (Obj)p; break;
838: default:
839: error("random_ff : current_ff is not set");
840: }
841: }
842:
843: void Psimp_ff(arg,rp)
844: NODE arg;
845: Obj *rp;
846: {
847: LM r;
848: GF2N rg;
849: extern lm_lazy;
850:
851: simp_ff((Obj)ARG0(arg),rp);
852: }
853:
854: void simp_ff(p,rp)
855: Obj p;
856: Obj *rp;
857: {
858: Num n;
859: LM r,s;
860: DCP dc,dcr0,dcr;
861: GF2N rg,sg;
862: GFPN rpn,spn;
1.6 ! noro 863: GFS rs;
1.1 noro 864: P t;
865: Obj obj;
866:
867: lm_lazy = 0;
868: if ( !p )
869: *rp = 0;
870: else if ( OID(p) == O_N ) {
871: switch ( current_ff ) {
872: case FF_GFP:
873: ptolmp((P)p,&t); simplm((LM)t,&s); *rp = (Obj)s;
874: break;
875: case FF_GF2N:
876: ptogf2n((Obj)p,&rg); simpgf2n((GF2N)rg,&sg); *rp = (Obj)sg;
877: break;
878: case FF_GFPN:
879: ntogfpn((Obj)p,&rpn); simpgfpn((GFPN)rpn,&spn); *rp = (Obj)spn;
880: break;
1.6 ! noro 881: case FF_GFS:
! 882: if ( current_gfs_ext > 1 ) {
! 883: error("simp_ff : not implemented yet");
! 884: } else {
! 885: ptomp(current_gfs_q,(P)p,&t); mqtogfs(t,&rs);
! 886: *rp = (Obj)rs;
! 887: }
! 888: break;
1.1 noro 889: default:
890: *rp = (Obj)p;
891: break;
892: }
893: } else if ( OID(p) == O_P ) {
894: for ( dc = DC((P)p), dcr0 = 0; dc; dc = NEXT(dc) ) {
895: simp_ff((Obj)COEF(dc),&obj);
896: if ( obj ) {
897: NEXTDC(dcr0,dcr); DEG(dcr) = DEG(dc); COEF(dcr) = (P)obj;
898: }
899: }
900: if ( !dcr0 )
901: *rp = 0;
902: else {
903: NEXT(dcr) = 0; MKP(VR((P)p),dcr0,t); *rp = (Obj)t;
904: }
905: } else
906: error("simp_ff : not implemented yet");
907: }
908:
909: void getcoef(vl,p,v,d,r)
910: VL vl;
911: P p;
912: V v;
913: Q d;
914: P *r;
915: {
916: P s,t,u,a,b,x;
917: DCP dc;
918: V w;
919:
920: if ( !p )
921: *r = 0;
922: else if ( NUM(p) )
923: *r = d ? 0 : p;
924: else if ( (w=VR(p)) == v ) {
925: for ( dc = DC(p); dc && cmpq(DEG(dc),d); dc = NEXT(dc) );
926: *r = dc ? COEF(dc) : 0;
927: } else {
928: MKV(w,x);
929: for ( dc = DC(p), s = 0; dc; dc = NEXT(dc) ) {
930: getcoef(vl,COEF(dc),v,d,&t);
931: if ( t ) {
932: pwrp(vl,x,DEG(dc),&u); mulp(vl,t,u,&a);
933: addp(vl,s,a,&b); s = b;
934: }
935: }
936: *r = s;
937: }
938: }
939:
940: void Pdeglist(arg,rp)
941: NODE arg;
942: LIST *rp;
943: {
944: NODE d;
945:
946: getdeglist((P)ARG0(arg),VR((P)ARG1(arg)),&d);
947: MKLIST(*rp,d);
948: }
949:
950: void Pch_mv(arg,rp)
951: NODE arg;
952: P *rp;
953: {
954: change_mvar(CO,(P)ARG0(arg),VR((P)ARG1(arg)),rp);
955: }
956:
957: void Pre_mv(arg,rp)
958: NODE arg;
959: P *rp;
960: {
961: restore_mvar(CO,(P)ARG0(arg),VR((P)ARG1(arg)),rp);
962: }
963:
964: void change_mvar(vl,p,v,r)
965: VL vl;
966: P p;
967: V v;
968: P *r;
969: {
970: Q d;
971: DCP dc,dc0;
972: NODE dl;
973:
974: if ( !p || NUM(p) || (VR(p) == v) )
975: *r = p;
976: else {
977: getdeglist(p,v,&dl);
978: for ( dc0 = 0; dl; dl = NEXT(dl) ) {
979: NEXTDC(dc0,dc); DEG(dc) = d = (Q)BDY(dl);
980: getcoef(vl,p,v,d,&COEF(dc));
981: }
982: NEXT(dc) = 0; MKP(v,dc0,*r);
983: }
984: }
985:
986: void restore_mvar(vl,p,v,r)
987: VL vl;
988: P p;
989: V v;
990: P *r;
991: {
992: P s,u,a,b,x;
993: DCP dc;
994:
995: if ( !p || NUM(p) || (VR(p) != v) )
996: *r = p;
997: else {
998: MKV(v,x);
999: for ( dc = DC(p), s = 0; dc; dc = NEXT(dc) ) {
1000: pwrp(vl,x,DEG(dc),&u); mulp(vl,COEF(dc),u,&a);
1001: addp(vl,s,a,&b); s = b;
1002: }
1003: *r = s;
1004: }
1005: }
1006:
1007: void getdeglist(p,v,d)
1008: P p;
1009: V v;
1010: NODE *d;
1011: {
1012: NODE n,n0,d0,d1,d2;
1013: DCP dc;
1014:
1015: if ( !p || NUM(p) ) {
1016: MKNODE(n,0,0); *d = n;
1017: } else if ( VR(p) == v ) {
1018: for ( n0 = 0, dc = DC(p); dc; dc = NEXT(dc) ) {
1019: NEXTNODE(n0,n); BDY(n) = (pointer)DEG(dc);
1020: }
1021: NEXT(n) = 0; *d = n0;
1022: } else {
1023: for ( dc = DC(p), d0 = 0; dc; dc = NEXT(dc) ) {
1024: getdeglist(COEF(dc),v,&d1); mergedeglist(d0,d1,&d2); d0 = d2;
1025: }
1026: *d = d0;
1027: }
1028: }
1029: void Pmergelist(arg,rp)
1030: NODE arg;
1031: LIST *rp;
1032: {
1033: NODE n;
1034:
1035: asir_assert(ARG0(arg),O_LIST,"mergelist");
1036: asir_assert(ARG1(arg),O_LIST,"mergelist");
1037: mergedeglist(BDY((LIST)ARG0(arg)),BDY((LIST)ARG1(arg)),&n);
1038: MKLIST(*rp,n);
1039: }
1040:
1041: void mergedeglist(d0,d1,dr)
1042: NODE d0,d1,*dr;
1043: {
1044: NODE t0,t,dt;
1045: Q d;
1046: int c;
1047:
1048: if ( !d0 )
1049: *dr = d1;
1050: else {
1051: while ( d1 ) {
1052: dt = d1; d1 = NEXT(d1); d = (Q)BDY(dt);
1053: for ( t0 = 0, t = d0; t; t0 = t, t = NEXT(t) ) {
1054: c = cmpq(d,(Q)BDY(t));
1055: if ( !c )
1056: break;
1057: else if ( c > 0 ) {
1058: if ( !t0 ) {
1059: NEXT(dt) = d0; d0 = dt;
1060: } else {
1061: NEXT(t0) = dt; NEXT(dt) = t;
1062: }
1063: break;
1064: }
1065: }
1066: if ( !t ) {
1067: NEXT(t0) = dt; *dr = d0; return;
1068: }
1069: }
1070: *dr = d0;
1071: }
1072: }
1073:
1074: void Pptomp(arg,rp)
1075: NODE arg;
1076: P *rp;
1077: {
1078: ptomp(QTOS((Q)ARG1(arg)),(P)ARG0(arg),rp);
1079: }
1080:
1081: void Pmptop(arg,rp)
1082: NODE arg;
1083: P *rp;
1084: {
1085: mptop((P)ARG0(arg),rp);
1086: }
1087:
1088: void Pptolmp(arg,rp)
1089: NODE arg;
1090: P *rp;
1091: {
1092: ptolmp((P)ARG0(arg),rp);
1093: }
1094:
1095: void Plmptop(arg,rp)
1096: NODE arg;
1097: P *rp;
1098: {
1099: lmptop((P)ARG0(arg),rp);
1.6 ! noro 1100: }
! 1101:
! 1102: void Psfptop(arg,rp)
! 1103: NODE arg;
! 1104: P *rp;
! 1105: {
! 1106: sfptop((P)ARG0(arg),rp);
1.1 noro 1107: }
1108:
1109: void Pptogf2n(arg,rp)
1110: NODE arg;
1111: GF2N *rp;
1112: {
1113: ptogf2n((Obj)ARG0(arg),rp);
1114: }
1115:
1116: void Pgf2ntop(arg,rp)
1117: NODE arg;
1118: P *rp;
1119: {
1120: extern V up2_var;
1121:
1122: if ( argc(arg) == 2 )
1123: up2_var = VR((P)ARG1(arg));
1124: gf2ntop((GF2N)ARG0(arg),rp);
1125: }
1126:
1127: void Pgf2ntovect(arg,rp)
1128: NODE arg;
1129: VECT *rp;
1130: {
1131: gf2ntovect((GF2N)ARG0(arg),rp);
1132: }
1133:
1134: void Pptogfpn(arg,rp)
1135: NODE arg;
1136: GF2N *rp;
1137: {
1138: ptogfpn((Obj)ARG0(arg),rp);
1139: }
1140:
1141: void Pgfpntop(arg,rp)
1142: NODE arg;
1143: P *rp;
1144: {
1145: extern V up_var;
1146:
1147: if ( argc(arg) == 2 )
1148: up_var = VR((P)ARG1(arg));
1149: gfpntop((GFPN)ARG0(arg),rp);
1150: }
1151:
1152: void Pureverse(arg,rp)
1153: NODE arg;
1154: P *rp;
1155: {
1156: UP p,r;
1157:
1158: ptoup((P)ARG0(arg),&p);
1.3 noro 1159: if ( argc(arg) == 1 )
1160: reverseup(p,p->d,&r);
1161: else
1162: reverseup(p,QTOS((Q)ARG1(arg)),&r);
1.1 noro 1163: uptop(r,rp);
1164: }
1165:
1166: void Putrunc(arg,rp)
1167: NODE arg;
1168: P *rp;
1169: {
1170: UP p,r;
1171:
1172: ptoup((P)ARG0(arg),&p);
1173: truncup(p,QTOS((Q)ARG1(arg))+1,&r);
1174: uptop(r,rp);
1175: }
1176:
1177: void Pudecomp(arg,rp)
1178: NODE arg;
1179: LIST *rp;
1180: {
1181: P u,l;
1182: UP p,up,low;
1183: NODE n0,n1;
1184:
1185: ptoup((P)ARG0(arg),&p);
1186: decompup(p,QTOS((Q)ARG1(arg))+1,&low,&up);
1187: uptop(low,&l);
1188: uptop(up,&u);
1189: MKNODE(n1,u,0); MKNODE(n0,l,n1);
1190: MKLIST(*rp,n0);
1191: }
1192:
1193: void Purembymul(arg,rp)
1194: NODE arg;
1195: P *rp;
1196: {
1197: UP p1,p2,r;
1198:
1199: if ( !ARG0(arg) || !ARG1(arg) )
1200: *rp = 0;
1201: else {
1202: ptoup((P)ARG0(arg),&p1);
1203: ptoup((P)ARG1(arg),&p2);
1204: rembymulup(p1,p2,&r);
1205: uptop(r,rp);
1206: }
1207: }
1208:
1209: /*
1210: * d1 = deg(p1), d2 = deg(p2)
1211: * d1 <= 2*d2-1
1212: * p2*inv = 1 mod x^d2
1213: */
1214:
1215: void Purembymul_precomp(arg,rp)
1216: NODE arg;
1217: P *rp;
1218: {
1219: UP p1,p2,inv,r;
1220:
1221: if ( !ARG0(arg) || !ARG1(arg) )
1222: *rp = 0;
1223: else {
1224: ptoup((P)ARG0(arg),&p1);
1225: ptoup((P)ARG1(arg),&p2);
1226: ptoup((P)ARG2(arg),&inv);
1227: if ( p1->d >= 2*p2->d ) {
1228: error("urembymul_precomp : degree of 1st arg is too large");
1229: /* fprintf(stderr,"urembymul_precomp : degree of 1st arg is too large"); */
1230: remup(p1,p2,&r);
1231: } else
1232: hybrid_rembymulup_special(current_ff,p1,p2,inv,&r);
1233: uptop(r,rp);
1234: }
1235: }
1236:
1237: void Puinvmod(arg,rp)
1238: NODE arg;
1239: P *rp;
1240: {
1241: UP p,r;
1242:
1243: ptoup((P)ARG0(arg),&p);
1244: invmodup(p,QTOS((Q)ARG1(arg)),&r);
1245: uptop(r,rp);
1246: }
1247:
1248: void Purevinvmod(arg,rp)
1249: NODE arg;
1250: P *rp;
1251: {
1252: UP p,pr,r;
1253:
1254: ptoup((P)ARG0(arg),&p);
1255: reverseup(p,p->d,&pr);
1256: invmodup(pr,QTOS((Q)ARG1(arg)),&r);
1257: uptop(r,rp);
1258: }
1259:
1260: void Ppwrmod_ff(arg,rp)
1261: NODE arg;
1262: P *rp;
1263: {
1264: UP p1,p2;
1265:
1266: ptoup((P)ARG0(arg),&p1);
1267: switch ( current_ff ) {
1268: case FF_GFP:
1269: hybrid_powermodup(p1,&p2); break;
1270: case FF_GF2N:
1271: powermodup_gf2n(p1,&p2); break;
1272: case FF_GFPN:
1273: powermodup(p1,&p2); break;
1274: default:
1275: error("pwrmod_ff : current_ff is not set");
1276: }
1277: uptop(p2,rp);
1278: }
1279:
1280: void Pgeneric_pwrmod_ff(arg,rp)
1281: NODE arg;
1282: P *rp;
1283: {
1284: UP g,f,r;
1285:
1286: ptoup((P)ARG0(arg),&g);
1287: ptoup((P)ARG1(arg),&f);
1288: switch ( current_ff ) {
1289: case FF_GFP:
1290: hybrid_generic_powermodup(g,f,(Q)ARG2(arg),&r); break;
1291: case FF_GF2N:
1292: generic_powermodup_gf2n(g,f,(Q)ARG2(arg),&r); break;
1293: case FF_GFPN:
1294: generic_powermodup(g,f,(Q)ARG2(arg),&r); break;
1295: default:
1296: error("generic_pwrmod_ff : current_ff is not set");
1297: }
1298: uptop(r,rp);
1299: }
1300:
1301: void Ppwrtab_ff(arg,rp)
1302: NODE arg;
1303: VECT *rp;
1304: {
1305: UP f,xp;
1306: UP *tab;
1307: VECT r;
1308: int i,d;
1309:
1310: ptoup((P)ARG0(arg),&f);
1311: ptoup((P)ARG1(arg),&xp);
1312: d = f->d;
1313:
1314: tab = (UP *)ALLOCA(d*sizeof(UP));
1315: switch ( current_ff ) {
1316: case FF_GFP:
1317: hybrid_powertabup(f,xp,tab); break;
1318: case FF_GF2N:
1319: powertabup_gf2n(f,xp,tab); break;
1320: case FF_GFPN:
1321: powertabup(f,xp,tab); break;
1322: default:
1323: error("pwrtab_ff : current_ff is not set");
1324: }
1325: MKVECT(r,d); *rp = r;
1326: for ( i = 0; i < d; i++ )
1327: uptop(tab[i],(P *)&BDY(r)[i]);
1328: }
1329:
1330: void Pkpwrmod_lm(arg,rp)
1331: NODE arg;
1332: P *rp;
1333: {
1334: UP p1,p2;
1335:
1336: ptoup((P)ARG0(arg),&p1);
1337: powermodup(p1,&p2);
1338: uptop(p2,rp);
1339: }
1340:
1341: void Pkgeneric_pwrmod_lm(arg,rp)
1342: NODE arg;
1343: P *rp;
1344: {
1345: UP g,f,r;
1346:
1347: ptoup((P)ARG0(arg),&g);
1348: ptoup((P)ARG1(arg),&f);
1349: generic_powermodup(g,f,(Q)ARG2(arg),&r);
1350: uptop(r,rp);
1351: }
1352:
1353: void Pkpwrtab_lm(arg,rp)
1354: NODE arg;
1355: VECT *rp;
1356: {
1357: UP f,xp;
1358: UP *tab;
1359: VECT r;
1360: int i,d;
1361:
1362: ptoup((P)ARG0(arg),&f);
1363: ptoup((P)ARG1(arg),&xp);
1364: d = f->d;
1365:
1366: tab = (UP *)ALLOCA(d*sizeof(UP));
1367: powertabup(f,xp,tab);
1368: MKVECT(r,d); *rp = r;
1369: for ( i = 0; i < d; i++ )
1370: uptop(tab[i],(P *)&BDY(r)[i]);
1371: }
1372:
1373: void Plazy_lm(arg,rp)
1374: NODE arg;
1375: Q *rp;
1376: {
1377: lm_lazy = QTOS((Q)ARG0(arg));
1378: *rp = 0;
1379: }
1380:
1381: void Pkmul(arg,rp)
1382: NODE arg;
1383: P *rp;
1384: {
1385: P n1,n2;
1386:
1387: n1 = (P)ARG0(arg); n2 = (P)ARG1(arg);
1388: asir_assert(n1,O_P,"kmul");
1389: asir_assert(n2,O_P,"kmul");
1390: kmulp(CO,n1,n2,rp);
1391: }
1392:
1393: void Pksquare(arg,rp)
1394: NODE arg;
1395: P *rp;
1396: {
1397: P n1;
1398:
1399: n1 = (P)ARG0(arg);
1400: asir_assert(n1,O_P,"ksquare");
1401: ksquarep(CO,n1,rp);
1402: }
1403:
1404: void Pktmul(arg,rp)
1405: NODE arg;
1406: P *rp;
1407: {
1408: UP p1,p2,r;
1409:
1410: ptoup((P)ARG0(arg),&p1);
1411: ptoup((P)ARG1(arg),&p2);
1412: tkmulup(p1,p2,QTOS((Q)ARG2(arg))+1,&r);
1413: uptop(r,rp);
1414: }
1415:
1416: void Pumul(arg,rp)
1417: NODE arg;
1418: P *rp;
1419: {
1420: P a1,a2;
1421: UP p1,p2,r;
1422:
1423: a1 = (P)ARG0(arg); a2 = (P)ARG1(arg);
1424: if ( !a1 || !a2 || NUM(a1) || NUM(a2) )
1425: mulp(CO,a1,a2,rp);
1426: else {
1427: if ( !uzpcheck(a1) || !uzpcheck(a2) || VR(a1) != VR(a2) )
1428: error("umul : invalid argument");
1429: ptoup(a1,&p1);
1430: ptoup(a2,&p2);
1431: hybrid_mulup(0,p1,p2,&r);
1432: uptop(r,rp);
1433: }
1434: }
1435:
1436: void Pusquare(arg,rp)
1437: NODE arg;
1438: P *rp;
1439: {
1440: UP p1,p2,r;
1441:
1442: ptoup((P)ARG0(arg),&p1);
1443: hybrid_squareup(0,p1,&r);
1444: uptop(r,rp);
1445: }
1446:
1447: void Putmul(arg,rp)
1448: NODE arg;
1449: P *rp;
1450: {
1451: UP p1,p2,r;
1452:
1453: ptoup((P)ARG0(arg),&p1);
1454: ptoup((P)ARG1(arg),&p2);
1455: hybrid_tmulup(0,p1,p2,QTOS((Q)ARG2(arg))+1,&r);
1456: uptop(r,rp);
1457: }
1458:
1459: void Pumul_ff(arg,rp)
1460: NODE arg;
1461: Obj *rp;
1462: {
1463: P a1,a2;
1464: UP p1,p2,r;
1465: P p;
1466:
1467: a1 = (P)ARG0(arg); a2 = (P)ARG1(arg);
1468: ptoup(a1,&p1);
1469: ptoup(a2,&p2);
1470: hybrid_mulup(current_ff,p1,p2,&r);
1471: uptop(r,&p);
1472: simp_ff((Obj)p,rp);
1473: }
1474:
1475: void Pusquare_ff(arg,rp)
1476: NODE arg;
1477: Obj *rp;
1478: {
1479: UP p1,p2,r;
1480: P p;
1481:
1482: ptoup((P)ARG0(arg),&p1);
1483: hybrid_squareup(current_ff,p1,&r);
1484: uptop(r,&p);
1485: simp_ff((Obj)p,rp);
1486: }
1487:
1488: void Putmul_ff(arg,rp)
1489: NODE arg;
1490: Obj *rp;
1491: {
1492: UP p1,p2,r;
1493: P p;
1494:
1495: ptoup((P)ARG0(arg),&p1);
1496: ptoup((P)ARG1(arg),&p2);
1497: hybrid_tmulup(current_ff,p1,p2,QTOS((Q)ARG2(arg))+1,&r);
1498: uptop(r,&p);
1499: simp_ff((Obj)p,rp);
1500: }
1501:
1502: void Phfmul_lm(arg,rp)
1503: NODE arg;
1504: P *rp;
1505: {
1506: UP p1,p2,r;
1507: UP hi,lo,mid,t,s,p10,p11,p20,p21;
1508: unsigned int m,d;
1509: int i;
1510:
1511: ptoup((P)ARG0(arg),&p1);
1512: ptoup((P)ARG1(arg),&p2);
1513: d = MAX(p1->d,p2->d);
1514: for ( m = 1; m < d; m <<= 1 );
1515: if ( m > d )
1516: m >>= 1;
1517: if ( d-m < 10000 ) {
1518: decompup(p1,m,&p10,&p11); /* p1 = p11*x^m+p10 */
1519: decompup(p2,m,&p20,&p21); /* p2 = p21*x^m+p20 */
1520: fft_mulup_lm(p10,p20,&lo);
1521: kmulup(p11,p21,&hi);
1522: kmulup(p11,p20,&t); kmulup(p10,p21,&s); addup(t,s,&mid);
1523: r = UPALLOC(2*d);
1524: bzero((char *)COEF(r),(2*d+1)*sizeof(Num));
1525: if ( lo )
1526: bcopy((char *)COEF(lo),(char *)COEF(r),(DEG(lo)+1)*sizeof(Num));
1527: if ( hi )
1528: bcopy((char *)COEF(hi),(char *)(COEF(r)+2*m),(DEG(hi)+1)*sizeof(Num));
1529: for ( i = 2*d; i >= 0 && !COEF(r)[i]; i-- );
1530: if ( i < 0 )
1531: r = 0;
1532: else {
1533: DEG(r) = i;
1534: t = UPALLOC(DEG(mid)+m); DEG(t) = DEG(mid)+m;
1535: bzero((char *)COEF(t),(DEG(mid)+m+1)*sizeof(Num));
1536: bcopy((char *)COEF(mid),(char *)(COEF(t)+m),(DEG(mid)+1)*sizeof(Num));
1537: addup(t,r,&s);
1538: r = s;
1539: }
1540: } else
1541: fft_mulup_lm(p1,p2,&r);
1542: uptop(r,rp);
1543: }
1544:
1545: void Pfmultest(arg,rp)
1546: NODE arg;
1547: LIST *rp;
1548: {
1549: P p1,p2,r;
1550: int d1,d2;
1551: UM w1,w2,wr;
1552: unsigned int *f1,*f2,*fr,*w;
1553: int index,mod,root,d,maxint,i;
1554: int cond;
1555: Q prime;
1556: NODE n0,n1;
1557:
1558: p1 = (P)ARG0(arg); p2 = (P)ARG1(arg); index = QTOS((Q)ARG2(arg));
1559: FFT_primes(index,&mod,&root,&d);
1560: maxint = 1<<d;
1561: d1 = UDEG(p1); d2 = UDEG(p2);
1562: if ( maxint < d1+d2+1 )
1563: *rp = 0;
1564: else {
1565: w1 = W_UMALLOC(d1); w2 = W_UMALLOC(d2);
1566: wr = W_UMALLOC(d1+d2);
1567: ptoum(mod,p1,w1); ptoum(mod,p2,w2);
1568: f1 = (unsigned int *)ALLOCA(maxint*sizeof(unsigned int));
1569: f2 = (unsigned int *)ALLOCA(maxint*sizeof(unsigned int));
1570: fr = (unsigned int *)ALLOCA(maxint*sizeof(unsigned int));
1571: w = (unsigned int *)ALLOCA(12*maxint*sizeof(unsigned int));
1572:
1573: for ( i = 0; i <= d1; i++ )
1574: f1[i] = (unsigned int)w1->c[i];
1575: for ( i = 0; i <= d2; i++ )
1576: f2[i] = (unsigned int)w2->c[i];
1577:
1578: cond = FFT_pol_product(d1,f1,d2,f2,fr,index,w);
1579: if ( cond )
1580: error("fmultest : ???");
1581: wr->d = d1+d2;
1582: for ( i = 0; i <= d1+d2; i++ )
1583: wr->c[i] = (unsigned int)fr[i];
1584: umtop(VR(p1),wr,&r);
1585: STOQ(mod,prime);
1586: MKNODE(n1,prime,0);
1587: MKNODE(n0,r,n1);
1588: MKLIST(*rp,n0);
1589: }
1590: }
1591:
1592: void Pkmulum(arg,rp)
1593: NODE arg;
1594: P *rp;
1595: {
1596: P p1,p2;
1597: int d1,d2,mod;
1598: UM w1,w2,wr;
1599:
1600: p1 = (P)ARG0(arg); p2 = (P)ARG1(arg); mod = QTOS((Q)ARG2(arg));
1601: d1 = UDEG(p1); d2 = UDEG(p2);
1602: w1 = W_UMALLOC(d1); w2 = W_UMALLOC(d2);
1603: wr = W_UMALLOC(d1+d2);
1604: ptoum(mod,p1,w1); ptoum(mod,p2,w2);
1605: kmulum(mod,w1,w2,wr);
1606: umtop(VR(p1),wr,rp);
1607: }
1608:
1609: void Pksquareum(arg,rp)
1610: NODE arg;
1611: P *rp;
1612: {
1613: P p1;
1614: int d1,mod;
1615: UM w1,wr;
1616:
1617: p1 = (P)ARG0(arg); mod = QTOS((Q)ARG1(arg));
1618: d1 = UDEG(p1);
1619: w1 = W_UMALLOC(d1);
1620: wr = W_UMALLOC(2*d1);
1621: ptoum(mod,p1,w1);
1622: kmulum(mod,w1,w1,wr);
1623: umtop(VR(p1),wr,rp);
1624: }
1625:
1626: void Ptracemod_gf2n(arg,rp)
1627: NODE arg;
1628: P *rp;
1629: {
1630: UP g,f,r;
1631:
1632: ptoup((P)ARG0(arg),&g);
1633: ptoup((P)ARG1(arg),&f);
1634: tracemodup_gf2n(g,f,(Q)ARG2(arg),&r);
1635: uptop(r,rp);
1.2 noro 1636: }
1637:
1638: void Pumul_specialmod(arg,rp)
1639: NODE arg;
1640: P *rp;
1641: {
1642: P a1,a2;
1643: UP p1,p2,r;
1644: int i,nmod;
1645: int *modind;
1646: NODE t,n;
1647:
1648: a1 = (P)ARG0(arg); a2 = (P)ARG1(arg);
1649: if ( !a1 || !a2 || NUM(a1) || NUM(a2) )
1650: mulp(CO,a1,a2,rp);
1651: else {
1652: if ( !uzpcheck(a1) || !uzpcheck(a2) || VR(a1) != VR(a2) )
1653: error("umul_specialmod : invalid argument");
1654: ptoup(a1,&p1);
1655: ptoup(a2,&p2);
1656: n = BDY((LIST)ARG2(arg));
1657: nmod = length(n);
1658: modind = (int *)MALLOC_ATOMIC(nmod*sizeof(int));
1659: for ( i = 0, t = n; i < nmod; i++, t = NEXT(t) )
1660: modind[i] = QTOS((Q)BDY(t));
1661: fft_mulup_specialmod_main(p1,p2,0,modind,nmod,&r);
1662: uptop(r,rp);
1663: }
1664: }
1665:
1666: void Pusquare_specialmod(arg,rp)
1667: NODE arg;
1668: P *rp;
1669: {
1670: P a1;
1671: UP p1,r;
1672: int i,nmod;
1673: int *modind;
1674: NODE t,n;
1675:
1676: a1 = (P)ARG0(arg);
1677: if ( !a1 || NUM(a1) )
1678: mulp(CO,a1,a1,rp);
1679: else {
1680: if ( !uzpcheck(a1) )
1681: error("usquare_specialmod : invalid argument");
1682: ptoup(a1,&p1);
1683: n = BDY((LIST)ARG1(arg));
1684: nmod = length(n);
1685: modind = (int *)MALLOC_ATOMIC(nmod*sizeof(int));
1686: for ( i = 0, t = n; i < nmod; i++, t = NEXT(t) )
1687: modind[i] = QTOS((Q)BDY(t));
1688: fft_mulup_specialmod_main(p1,p1,0,modind,nmod,&r);
1689: uptop(r,rp);
1690: }
1691: }
1692:
1693: void Putmul_specialmod(arg,rp)
1694: NODE arg;
1695: P *rp;
1696: {
1697: P a1,a2;
1698: UP p1,p2,r;
1699: int i,nmod;
1700: int *modind;
1701: NODE t,n;
1702:
1703: a1 = (P)ARG0(arg); a2 = (P)ARG1(arg);
1704: if ( !a1 || !a2 || NUM(a1) || NUM(a2) )
1705: mulp(CO,a1,a2,rp);
1706: else {
1707: if ( !uzpcheck(a1) || !uzpcheck(a2) || VR(a1) != VR(a2) )
1708: error("utmul_specialmod : invalid argument");
1709: ptoup(a1,&p1);
1710: ptoup(a2,&p2);
1711: n = BDY((LIST)ARG3(arg));
1712: nmod = length(n);
1713: modind = (int *)MALLOC_ATOMIC(nmod*sizeof(int));
1714: for ( i = 0, t = n; i < nmod; i++, t = NEXT(t) )
1715: modind[i] = QTOS((Q)BDY(t));
1716: fft_mulup_specialmod_main(p1,p2,QTOS((Q)ARG2(arg))+1,modind,nmod,&r);
1717: uptop(r,rp);
1718: }
1.1 noro 1719: }
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