Annotation of OpenXM_contrib2/asir2018/engine/H.c, Revision 1.1
1.1 ! 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
! 26: * e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
! 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: *
! 48: * $OpenXM$
! 49: */
! 50: #include "ca.h"
! 51: #include "inline.h"
! 52: #include "base.h"
! 53: #include <math.h>
! 54:
! 55: #if 1
! 56: #define Mulum mulum
! 57: #define Divum divum
! 58: #define Mulsum mulsum
! 59: #define Gcdum gcdum
! 60: #endif
! 61:
! 62: #define FCTR 0
! 63: #define SQFR 1
! 64: #define DDD 2
! 65: #define NEWDDD 3
! 66:
! 67: LUM LUMALLOC();
! 68:
! 69: void berle(int index,int count,P f,ML *listp)
! 70: {
! 71: UM wf,wf1,wf2,wfs,gcd;
! 72: ML flist;
! 73: int fn,fn1,fm,m,n,fhd;
! 74: register int i,j,inv,hd,*ptr,*ptr1;
! 75:
! 76: n = UDEG(f);
! 77: wf = W_UMALLOC(n); wf1 = W_UMALLOC(n); wf2 = W_UMALLOC(n);
! 78: wfs = W_UMALLOC(n); gcd = W_UMALLOC(n);
! 79: for ( j = 0, fn = n + 1; (j < count) && (fn > 1); ) {
! 80: m = sprime[index++];
! 81: if ( !remqi((Q)UCOEF(f),m) )
! 82: continue;
! 83: ptoum(m,f,wf); cpyum(wf,wf1);
! 84: diffum(m,wf1,wf2); gcdum(m,wf1,wf2,gcd);
! 85: if ( DEG(gcd) > 0 )
! 86: continue;
! 87: hd = COEF(wf)[n]; inv = invm(hd,m);
! 88: for ( i = n, ptr = COEF(wf); i >= 0; i-- )
! 89: ptr[i] = ( ptr[i] * inv ) % m;
! 90: fn1 = berlecnt(m,wf);
! 91: if ( fn1 < fn ) {
! 92: fn = fn1; fm = m; fhd = hd;
! 93: for ( i = n, ptr = COEF(wf), ptr1 = COEF(wfs); i >= 0; i-- )
! 94: ptr1[i] = ptr[i];
! 95: }
! 96: j++;
! 97: }
! 98: DEG(wfs) = n;
! 99: *listp = flist = MLALLOC(fn); flist->n = fn; flist->mod = fm;
! 100: /* berlemain(fm,wfs,(UM *)flist->c); */
! 101: if ( fm == 2 )
! 102: berlemain(fm,wfs,(UM *)flist->c);
! 103: else
! 104: newddd(fm,wfs,(UM *)flist->c);
! 105: for ( i = DEG((UM)(flist->c[0])),
! 106: ptr = COEF((UM)(flist->c[0])),
! 107: hd = fhd, m = fm; i >= 0; i-- )
! 108: ptr[i] = ( ptr[i] * hd ) % m;
! 109: }
! 110:
! 111: int berlecnt(int mod,UM f)
! 112: {
! 113: register int i,j,**c;
! 114: int d,dr,n;
! 115: UM w,q;
! 116: int **almat();
! 117:
! 118: n = DEG(f); c = almat(n,n);
! 119: w = W_UMALLOC(mod + n); q = W_UMALLOC(mod + n);
! 120: for ( i = 1; ( d = ( mod * i ) ) < n; i++ )
! 121: c[d][i - 1] = 1;
! 122: DEG(w) = d; COEF(w)[d] = 1;
! 123: for ( j = d - 1; j >= 0; j-- )
! 124: COEF(w)[j] = 0;
! 125: for ( ; ( i < n ) && ( ( dr = divum(mod,w,f,q) ) != -1 ); i++ ) {
! 126: for ( j = dr; j >= 0; j-- )
! 127: COEF(w)[j + mod] = c[j][i - 1] = COEF(w)[j];
! 128: for ( j = mod - 1; j >= 0; j-- )
! 129: COEF(w)[j] = 0;
! 130: DEG(w) = dr + mod;
! 131: }
! 132: for ( i = 1; i < n; i++ )
! 133: c[i][i - 1] = ( c[i][i - 1] + mod - 1 ) % mod;
! 134: return berlecntmain(mod,n,n-1,c);
! 135: }
! 136:
! 137: /* XXX berlecntmain should not be used for large mod */
! 138:
! 139: int berlecntmain(int mod,int n,int m,int **c)
! 140: {
! 141: register int *p1,*p2,i,j,k,l,a;
! 142: int *tmp,inv;
! 143: int cfs;
! 144:
! 145: for ( cfs = 1, j = k = 0; j < m; j++ ) {
! 146: for ( i = k; ( n > i ) && ( c[i][j] == 0 ); i++ );
! 147: if ( i == n ) {
! 148: cfs++; continue;
! 149: }
! 150: if ( i != k ) {
! 151: tmp = c[i]; c[i] = c[k]; c[k] = tmp;
! 152: }
! 153: p1 = c[k]; inv = invm((p1[j] + mod) % mod,mod);
! 154: for ( l = j; l < m; l++ )
! 155: p1[l] = ( p1[l] * inv ) % mod;
! 156: for ( i = k + 1; i < n; c[i][j] = 0, i++ )
! 157: if ( i != k && ( a = -c[i][j] ) )
! 158: for ( l = j + 1, p2 = c[i]; l < m; l++ )
! 159: p2[l] = (a*p1[l] + p2[l]) % mod;
! 160: k++;
! 161: }
! 162: return ( cfs );
! 163: }
! 164:
! 165: UM *berlemain(int mod,UM f,UM *fp)
! 166: {
! 167: UM wg,ws,wf,f0,gcd,q;
! 168: int n;
! 169: register int i;
! 170:
! 171: n = DEG(f); wg = W_UMALLOC(n); mini(mod,f,wg);
! 172: if ( DEG(wg) <= 0 ) {
! 173: f0 = UMALLOC(n); cpyum(f,f0); *fp++ = f0;
! 174: return ( fp );
! 175: }
! 176: f0 = W_UMALLOC(n); cpyum(f,f0);
! 177: ws = W_UMALLOC(n); wf = W_UMALLOC(n);
! 178: q = W_UMALLOC(n); gcd = W_UMALLOC(n);
! 179: for ( i = 0; i < mod; i++ ) {
! 180: cpyum(f0,wf); cpyum(wg,ws);
! 181: COEF(ws)[0] = ( COEF(ws)[0] + mod - i ) % mod;
! 182: gcdum(mod,wf,ws,gcd);
! 183: if ( DEG(gcd) > 0 ) {
! 184: if ( DEG(gcd) < n ) {
! 185: divum(mod,f0,gcd,q); f0 = q; fp = berlemain(mod,gcd,fp);
! 186: }
! 187: break;
! 188: }
! 189: }
! 190: fp = berlemain(mod,f0,fp);
! 191: return ( fp );
! 192: }
! 193:
! 194: void hensel(int index,int count,P f,ML *listp)
! 195: {
! 196: register int i,j;
! 197: int q,n,bound;
! 198: int *p;
! 199: int **pp;
! 200: ML blist,clist,bqlist,cqlist,rlist;
! 201: UM *b;
! 202: LUM fl,tl;
! 203: LUM *l;
! 204:
! 205: if ( UDEG(f) == 1 ) {
! 206: *listp = blist = MLALLOC(1); blist->n = 1; blist->c[0] = 0;
! 207: return;
! 208: }
! 209: berle(index,count,f,&blist);
! 210: if ( blist->n == 1 ) {
! 211: *listp = blist = MLALLOC(1); blist->n = 1; blist->c[0] = 0;
! 212: return;
! 213: }
! 214: gcdgen(f,blist,&clist); henprep(f,blist,clist,&bqlist,&cqlist);
! 215: n = bqlist->n; q = bqlist->mod;
! 216: bqlist->bound = cqlist->bound = bound = mignotte(q,f);
! 217: if ( bound == 1 ) {
! 218: *listp = rlist = MLALLOC(n);
! 219: rlist->n = n; rlist->mod = q; rlist->bound = bound;
! 220: for ( i = 0, b = (UM *)bqlist->c, l = (LUM *)rlist->c; i < n; i++ ) {
! 221: tl = LUMALLOC(DEG(b[i]),1); l[i] = tl; p = COEF(b[i]);
! 222: for ( j = 0, pp = COEF(tl); j <= DEG(tl); j++ )
! 223: pp[j][0] = p[j];
! 224: }
! 225: } else {
! 226: W_LUMALLOC((int)UDEG(f),bound,fl);
! 227: ptolum(q,bound,f,fl); henmain(fl,bqlist,cqlist,listp);
! 228: }
! 229: }
! 230:
! 231: void hensel2(int index,int count,P f,ML *listp)
! 232: {
! 233: register int i,j;
! 234: int mod,q,n,bound,dx;
! 235: ML blist,clist,bqlist,cqlist,rlist;
! 236: UM fm,qfm,gm,qgm,hm,qhm,qam,qbm,w;
! 237: UM *b;
! 238: LUM fl,tl;
! 239: int k;
! 240:
! 241: dx = UDEG(f);
! 242: if ( dx == 1 ) {
! 243: *listp = blist = MLALLOC(1); blist->n = 1; blist->c[0] = 0;
! 244: return;
! 245: }
! 246: berle(index,count,f,&blist);
! 247: n = blist->n;
! 248: mod = blist->mod;
! 249:
! 250: if ( n == 1 ) {
! 251: *listp = blist = MLALLOC(1); blist->n = 1; blist->c[0] = 0;
! 252: return;
! 253: }
! 254:
! 255: /* find k s.t. mod^k <= 2^27 < mod^(k+1); set q = mod^k */
! 256: for ( k = 1, q = mod; q <= ((1<<27)/mod); q *= mod, k++ );
! 257:
! 258: /* mignotte bound */
! 259: bound = mignotte(q,f);
! 260:
! 261: *listp = rlist = MLALLOC(n);
! 262: rlist->n = n;
! 263: rlist->mod = q;
! 264: rlist->bound = bound;
! 265:
! 266: if ( bound == 1 ) {
! 267: gcdgen(f,blist,&clist);
! 268: henprep(f,blist,clist,&bqlist,&cqlist);
! 269:
! 270: for ( i = 0, b = (UM *)bqlist->c; i < n; i++ ) {
! 271: COEF(rlist)[i] = tl = LUMALLOC(DEG(b[i]),1);
! 272: for ( j = 0; j <= DEG(tl); j++ )
! 273: COEF(tl)[j][0] = COEF(b[i])[j];
! 274: COEF(rlist)[i] = tl;
! 275: }
! 276: } else {
! 277: /* fl = f mod q */
! 278: fl = LUMALLOC(dx,bound);
! 279: ptolum(q,bound,f,fl);
! 280: /* fm = f mod mod */
! 281: fm = W_UMALLOC(dx);
! 282: ptoum(mod,f,fm);
! 283: /* fm = f mod q */
! 284: qfm = W_UMALLOC(dx);
! 285: ptoum(q,f,qfm);
! 286:
! 287: gm = W_UMALLOC(dx); qgm = W_UMALLOC(dx);
! 288: hm = W_UMALLOC(dx); qhm = W_UMALLOC(dx);
! 289: qam = W_UMALLOC(dx); qbm = W_UMALLOC(dx);
! 290: w = W_UMALLOC(dx);
! 291: for ( i = 0; i < n-1; i++ ) {
! 292: cpyum(COEF(blist)[i],gm);
! 293: cpyum(fm,w);
! 294: divum(mod,w,gm,hm);
! 295:
! 296: /* find am,bm s.t. qam*qgm+qbm*qhm=1 mod q, qgm=gm mod mod, qhm=hm mod mod */
! 297: henprep2(mod,q,k,qfm,gm,hm,qgm,qhm,qam,qbm);
! 298:
! 299: henmain2(fl,qgm,qhm,qam,qbm,q,bound,&tl);
! 300: rlist->c[i] = (pointer)tl;
! 301: cpyum(hm,fm);
! 302: cpyum(qhm,qfm);
! 303: }
! 304: rlist->c[i] = fl;
! 305: }
! 306: }
! 307:
! 308: /*
! 309: f = g0*h0 mod m -> f = gk*hk mod m^(bound), f is replaced by hk
! 310: */
! 311:
! 312: void henmain2(LUM f,UM g0,UM h0,UM a0,UM b0,int m,int bound,LUM *gp)
! 313: {
! 314: int n,dg,dh,i,k,j,dg1,dh1;
! 315: UM wu,wr,ws,wt,q,wh1,wg1,wc,wd,we,wz;
! 316: LUM wb0,wb1,wb2,fk,gk,hk;
! 317:
! 318: n = DEG(f); dg = DEG(g0); dh = DEG(h0);
! 319:
! 320: W_LUMALLOC(n,bound,wb0);
! 321: W_LUMALLOC(n,bound,wb1);
! 322: W_LUMALLOC(n,bound,wb2);
! 323:
! 324: wt = W_UMALLOC(2*n); ws = W_UMALLOC(2*n);
! 325: wr = W_UMALLOC(2*n); wu = W_UMALLOC(2*n);
! 326: q = W_UMALLOC(2*n);
! 327: wh1 = W_UMALLOC(2*n); wg1 = W_UMALLOC(2*n);
! 328:
! 329: /* gk = g0 */
! 330: gk = LUMALLOC(n,bound);
! 331: DEG(gk) = dg;
! 332: for ( i = 0; i <= dg; i++ )
! 333: COEF(gk)[i][0] = COEF(g0)[i];
! 334:
! 335: /* hk = h0 */
! 336: W_LUMALLOC(n,bound,hk);
! 337: DEG(hk) = dh;
! 338: for ( i = 0; i <= dh; i++ )
! 339: COEF(hk)[i][0] = COEF(h0)[i];
! 340:
! 341: /* fk = gk*hk */
! 342: W_LUMALLOC(n,bound,fk);
! 343: mullum(m,bound,gk,hk,fk);
! 344:
! 345: wc = W_UMALLOC(2*n); wd = W_UMALLOC(2*n);
! 346: we = W_UMALLOC(2*n); wz = W_UMALLOC(2*n);
! 347:
! 348: #if 0
! 349: mulum(m,a0,g0,wc);
! 350: mulum(m,b0,h0,wd);
! 351: addum(m,wc,wd,wz);
! 352: if ( DEG(wz) != 0 || COEF(wz)[0] != 1 )
! 353: error("henmain2 : cannot happen(extgcd)");
! 354: #endif
! 355:
! 356: #if 1
! 357: fprintf(stderr,"bound=%d\n",bound);
! 358: #endif
! 359: for ( k = 1; k < bound; k++ ) {
! 360: #if 1
! 361: fprintf(stderr,".");
! 362: #endif
! 363:
! 364: #if defined(VISUAL) || defined(__MINGW32__)
! 365: check_intr();
! 366: #endif
! 367: /* at this point, f = gk*hk mod y^k */
! 368:
! 369: #if 0
! 370: for ( j = 0; j < k; j++ )
! 371: for ( i = 0; i <= n; i++ )
! 372: if ( COEF(f)[i][j] != COEF(f)[i][j] )
! 373: error("henmain2 : cannot happen(f=fk)");
! 374: #endif
! 375:
! 376: /* wt = (f-gk*hk)/y^k */
! 377: for ( i = 0; i <= n; i++ )
! 378: COEF(ws)[i] = COEF(f)[i][k];
! 379: degum(ws,n);
! 380: for ( i = 0; i <= n; i++ )
! 381: COEF(wu)[i] = COEF(fk)[i][k];
! 382: degum(wu,n);
! 383: subum(m,ws,wu,wt);
! 384:
! 385: /* compute wf1,wg1 s.t. wh1*g0+wg1*h0 = wt */
! 386: mulum(m,a0,wt,wh1); DEG(wh1) = divum(m,wh1,h0,q);
! 387: mulum(m,wh1,g0,wc); subum(m,wt,wc,wd); DEG(wd) = divum(m,wd,h0,wg1);
! 388:
! 389: /* check */
! 390: #if 0
! 391: if ( DEG(wd) >= 0 || DEG(wg1) > dg )
! 392: error("henmain2 : cannot happen(adj)");
! 393:
! 394: mulum(m,wg1,h0,wc); mulum(m,wh1,g0,wd); addum(m,wc,wd,we);
! 395: subum(m,we,wt,wz);
! 396: if ( DEG(wz) >= 0 )
! 397: error("henmain2 : cannot happen(coef)");
! 398: #endif
! 399:
! 400: /* fk += ((wg1*hk+wh1*gk)*y^k+wg1*wh1*y^(2*k) mod m^bound */
! 401:
! 402: /* wb0 = wh1*y^k */
! 403: clearlum(n,bound,wb0);
! 404: DEG(wb0) = dh1 = DEG(wh1);
! 405: for ( i = 0; i <= dh1; i++ )
! 406: COEF(wb0)[i][k] = COEF(wh1)[i];
! 407:
! 408: /* wb2 = gk*wb0 mod y^bound */
! 409: clearlum(n,bound,wb2);
! 410: mullum(m,bound,gk,wb0,wb2);
! 411:
! 412: /* fk += wb2 */
! 413: addtolum(m,bound,wb2,fk);
! 414:
! 415: /* wb1 = wg1*y^k */
! 416: clearlum(n,bound,wb1);
! 417: DEG(wb1) = dg1 = DEG(wg1);
! 418: for ( i = 0; i <= n; i++ )
! 419: COEF(wb1)[i][k] = COEF(wg1)[i];
! 420:
! 421: /* wb2 = hk*wb1 mod y^bound */
! 422: clearlum(n,bound,wb2);
! 423: mullum(m,bound,hk,wb1,wb2);
! 424:
! 425: /* fk += wb2 */
! 426: addtolum(m,bound,wb2,fk);
! 427:
! 428: /* fk += wg1*wh1*y^(2*k) mod y^bound) */
! 429: if ( 2*k < bound ) {
! 430: clearlum(n,bound,wb2);
! 431: mullum(m,bound,wb0,wb1,wb2);
! 432: addtolum(m,bound,wb2,fk);
! 433: }
! 434:
! 435: /* gk += wg1*y^k, hk += wh1*y^k */
! 436: for ( i = 0; i <= DEG(wg1); i++ )
! 437: COEF(gk)[i][k] = COEF(wg1)[i];
! 438: for ( i = 0; i <= DEG(wh1); i++ )
! 439: COEF(hk)[i][k] = COEF(wh1)[i];
! 440: }
! 441: #if 1
! 442: fprintf(stderr,"\n");
! 443: #endif
! 444: *gp = gk;
! 445: clearlum(n,bound,f);
! 446: DEG(f) = dh;
! 447: for ( i = 0; i <= dh; i++ )
! 448: for ( j = 0; j < bound; j++ )
! 449: COEF(f)[i][j] = COEF(hk)[i][j];
! 450: }
! 451:
! 452: void clearlum(int n,int bound,LUM f)
! 453: {
! 454: int i;
! 455:
! 456: for ( i = 0; i <= n; i++ )
! 457: bzero(COEF(f)[i],bound*sizeof(int));
! 458: }
! 459:
! 460: /* g += f */
! 461:
! 462: void addtolum(int m,int bound,LUM f,LUM g)
! 463: {
! 464: int n,i;
! 465:
! 466: n = DEG(f);
! 467: for ( i = 0; i <= n; i++ )
! 468: addpadic(m,bound,(unsigned int *)COEF(f)[i],(unsigned int *)COEF(g)[i]);
! 469: }
! 470:
! 471: void hsq(int index,int count,P f,int *nindex,DCP *dcp)
! 472: {
! 473: register int i,j,k;
! 474: register int **pp,**fpp;
! 475: register int *px,*py;
! 476: int **wpp;
! 477: int n,dr,tmp,m,b,e,np,dt;
! 478: LUM fpa,wb0,wb1,lcpa,tpa,tlum;
! 479: struct oDUM *dct;
! 480: UM wt,wq0,wq,wr,wm,wm0,wa,ws,wb;
! 481: LUM *llist,*ll;
! 482: UM *dlist,*l,*c;
! 483: ML list,fp,cfp;
! 484: DCP dc;
! 485:
! 486: sqfrum(index,count,f,nindex,&dct,&fp);
! 487: np = fp->n; m = fp->mod;
! 488: if ( ( np == 1 ) && ( dct[0].n == 1 ) ) {
! 489: NEWDC(dc); DEG(dc) = ONE; COEF(dc) = f; NEXT(dc) = 0; *dcp = dc;
! 490: return;
! 491: }
! 492: for ( i = 0, dt = 0; i < np; i++ )
! 493: dt = MAX(DEG(dct[i].f),dt);
! 494: b = mig(m,dt,f); fp->bound = b;
! 495: if ( np == 1 ) {
! 496: nthrootchk(f,dct,fp,dcp);
! 497: return;
! 498: }
! 499: list = W_MLALLOC(np); list->n = np; list->mod = m; list->bound = 1;
! 500: for ( i = 0, ll = (LUM *)list->c; i < np; i++ ) {
! 501: W_LUMALLOC(DEG(dct[i].f),b,ll[i]);
! 502: for ( j = 0, px = COEF(dct[i].f), pp = COEF(ll[i]);
! 503: j <= DEG(ll[i]); j++ )
! 504: pp[j][0] = px[j];
! 505: }
! 506: dtestsql(f,list,dct,&dc);
! 507: if ( dc ) {
! 508: *dcp = dc;
! 509: return;
! 510: }
! 511: n = UDEG(f);
! 512: W_LUMALLOC(n,b,fpa); W_LUMALLOC(0,b,lcpa);
! 513: W_LUMALLOC(n,b,wb0); W_LUMALLOC(n,b,wb1);
! 514: W_LUMALLOC(n,b,tpa);
! 515: wt = W_UMALLOC(n); ws = W_UMALLOC(n);
! 516: wr = W_UMALLOC(n);
! 517: wq = W_UMALLOC(2*n); wq0 = W_UMALLOC(n);
! 518: wm = W_UMALLOC(2*n); wm0 = W_UMALLOC(2*n);
! 519: wa = W_UMALLOC(2*n);
! 520: ptolum(m,b,f,fpa); DEG(lcpa) = 0;
! 521: for ( i = 0, pp = COEF(lcpa), fpp = COEF(fpa); i < b; i++ )
! 522: pp[0][i] = fpp[n][i];
! 523: gcdgen(f,fp,&cfp);
! 524: llist = (LUM *) ALLOCA(np*sizeof(LUM));
! 525: dlist = (UM *) ALLOCA(np*sizeof(UM));
! 526: l = (UM *)fp->c; c = (UM *)cfp->c;
! 527: for ( i = 0; i < np; i++ ) {
! 528: W_LUMALLOC(DEG(l[i]),b,llist[i]);
! 529: for ( j = DEG(l[i]), pp = COEF(llist[i]), px = COEF(l[i]); j >= 0; j-- )
! 530: pp[j][0] = px[j];
! 531: if ( ( e = dct[i].n ) != 1 ) {
! 532: wb = dct[i].f;
! 533: dlist[i] = W_UMALLOC(DEG(wb)*e); cpyum(l[i],dlist[i]);
! 534: divum(m,dlist[i],wb,wq); DEG(dlist[i])= DEG(wq);
! 535: for ( k = 0; k <= DEG(wq); k++ )
! 536: COEF(dlist[i])[k] = dmb(m,COEF(wq)[k],e,&tmp);
! 537: }
! 538: }
! 539: for ( i = 1; i < b; i++ ) {
! 540: mullum(m,i+1,lcpa,llist[0],wb0);
! 541: for ( j = 1; j < np; j++ ) {
! 542: mullum(m,i+1,llist[j],wb0,wb1);
! 543: tlum = wb0; wb0 = wb1; wb1 = tlum;
! 544: }
! 545: for ( j = n, px = COEF(wt), pp = COEF(fpa), wpp = COEF(wb0);
! 546: j >= 0; j-- )
! 547: px[j] = ( pp[j][i] - wpp[j][i] + m ) % m;
! 548: degum(wt,n);
! 549: for ( j = n, px = COEF(wq0); j >= 0; j-- )
! 550: px[j] = 0;
! 551: for ( j = 1; j < np; j++ ) {
! 552: mulum(m,wt,c[j],wm); dr = divum(m,wm,l[j],wq);
! 553: for ( k = DEG(wq), px = COEF(wq0), py = COEF(wq); k >= 0; k-- )
! 554: px[k] = ( px[k] + py[k] ) % m;
! 555: for ( k = dr, pp = COEF(llist[j]), px = COEF(wm); k >= 0; k-- )
! 556: pp[k][i] = px[k];
! 557: }
! 558: degum(wq0,n); mulum(m,wq0,l[0],wm);
! 559: mulum(m,wt,c[0],wm0); addum(m,wm,wm0,wa);
! 560: for ( j = DEG(wa), pp = COEF(llist[0]), px = COEF(wa); j >= 0; j-- )
! 561: pp[j][i] = px[j];
! 562: for ( j = n, px = COEF(wq0); j >= 0; j-- )
! 563: px[j] = 0;
! 564: for ( j = 0; j < np; j++ )
! 565: if ( dct[j].n == 1 )
! 566: for ( k = 0,
! 567: pp = COEF(llist[j]),
! 568: wpp = COEF(((LUM *)list->c)[j]);
! 569: k <= DEG(llist[j]); k++ )
! 570: wpp[k][i] = pp[k][i];
! 571: else {
! 572: pwrlum(m,i+1,((LUM *)list->c)[j],dct[j].n,tpa);
! 573: for ( k = 0,
! 574: pp = COEF(llist[j]),
! 575: wpp = COEF(tpa);
! 576: k <= DEG(l[j]); k++ )
! 577: COEF(wt)[k] = (pp[k][i]-wpp[k][i]+m)%m;
! 578: degum(wt,DEG(l[j])); dr = divum(m,wt,dlist[j],ws);
! 579: if ( dr >= 0 ) {
! 580: *dcp = 0;
! 581: return;
! 582: } else
! 583: for ( k = 0,
! 584: pp = COEF(((LUM *)list->c)[j]);
! 585: k <= DEG(ws); k++ )
! 586: pp[k][i] = COEF(ws)[k];
! 587: }
! 588: list->bound = i+1; dtestsql(f,list,dct,&dc);
! 589: if ( dc ) {
! 590: *dcp = dc;
! 591: return;
! 592: }
! 593: }
! 594: *dcp = 0;
! 595: }
! 596:
! 597: void gcdgen(P f,ML blist,ML *clistp)
! 598: {
! 599: register int i;
! 600: int n,d,mod,np;
! 601: UM wf,wm,wx,wy,wu,wv,wa,wb,wg,q,tum;
! 602: UM *in,*out;
! 603: ML clist;
! 604:
! 605: n = UDEG(f); mod = blist->mod; np = blist->n;
! 606: d = 2*n;
! 607: q = W_UMALLOC(d); wf = W_UMALLOC(d);
! 608: wm = W_UMALLOC(d); wx = W_UMALLOC(d);
! 609: wy = W_UMALLOC(d); wu = W_UMALLOC(d);
! 610: wv = W_UMALLOC(d); wg = W_UMALLOC(d);
! 611: wa = W_UMALLOC(d); wb = W_UMALLOC(d);
! 612: ptoum(mod,f,wf); DEG(wg) = 0; COEF(wg)[0] = 1;
! 613: *clistp = clist = MLALLOC(np); clist->mod = mod; clist->n = np;
! 614: for ( i = 0, in = (UM *)blist->c, out = (UM *)clist->c; i < np; i++ ) {
! 615: divum(mod,wf,in[i],q); tum = wf; wf = q; q = tum;
! 616: cpyum(wf,wx); cpyum(in[i],wy);
! 617: eucum(mod,wx,wy,wa,wb); mulum(mod,wa,wg,wm);
! 618: DEG(wm) = divum(mod,wm,in[i],q); out[i] = UMALLOC(DEG(wm));
! 619: cpyum(wm,out[i]); mulum(mod,q,wf,wu);
! 620: mulum(mod,wg,wb,wv); addum(mod,wu,wv,wg);
! 621: }
! 622: }
! 623:
! 624: /* find a,b s.t. qa*qg+qb*qh=1 mod q, qg=g mod mod, qh=h mod mod */
! 625: /* q = mod^k */
! 626:
! 627: void henprep2(int mod,int q,int k,UM f,UM g,UM h,UM qg,UM qh,UM qa,UM qb)
! 628: {
! 629: int n;
! 630: UM wg,wh,wa,wb;
! 631: ML bl,cl,bql,cql;
! 632: P ff;
! 633:
! 634: n = DEG(f);
! 635: wg = W_UMALLOC(2*n); wh = W_UMALLOC(2*n);
! 636: wa = W_UMALLOC(2*n); wb = W_UMALLOC(2*n);
! 637: cpyum(g,wg); cpyum(h,wh);
! 638:
! 639: /* wa*g+wb*h = 1 mod mod */
! 640: eucum(mod,wg,wh,wa,wb);
! 641:
! 642: #if 0
! 643: /* check */
! 644: wt = W_UMALLOC(2*n); ws = W_UMALLOC(2*n); wu = W_UMALLOC(2*n);
! 645: mulum(mod,wa,g,wt);
! 646: mulum(mod,wb,h,ws);
! 647: addum(mod,wt,ws,wu);
! 648: if ( DEG(wu) != 0 || COEF(wu)[0] != 1 )
! 649: error("henprep 1");
! 650: #endif
! 651:
! 652: bl = MLALLOC(2); bl->n = 2; bl->mod = mod; bl->c[0] = g; bl->c[1] = h;
! 653: cl = MLALLOC(2); cl->n = 2; cl->mod = mod; cl->c[0] = wb; cl->c[1] = wa;
! 654: umtop(CO->v,f,&ff); /* XXX */
! 655: henprep(ff,bl,cl,&bql,&cql); /* XXX */
! 656:
! 657: cpyum(bql->c[0],qg); cpyum(bql->c[1],qh);
! 658: cpyum(cql->c[0],qb); cpyum(cql->c[1],qa);
! 659:
! 660: #if 0
! 661: /* check */
! 662: mulum(q,qa,qg,wt);
! 663: mulum(q,qb,qh,ws);
! 664: addum(q,wt,ws,wu);
! 665: if ( DEG(wu) != 0 || COEF(wu)[0] != 1 )
! 666: error("henprep 2");
! 667: #endif
! 668: }
! 669:
! 670: /*
! 671: henprep(f,blist,clist,&bqlist,&cqlist);
! 672: */
! 673:
! 674: void henprep(P f,ML blist,ML clist,ML *bqlistp,ML *cqlistp)
! 675: {
! 676: register int i,j,k,*px,*py,*pz;
! 677: int n,pmax,dr,tmp,p,p1,mod,np,b,q;
! 678: UM w,wm,wn,wa,wt,wq,wf,quot,tum,*in,*inc,*out,*outc;
! 679: ML bqlist,cqlist;
! 680:
! 681: n = UDEG(f); p = mod = blist->mod; np = blist->n;
! 682: /* for ( b = 1, q = mod; q <= (unsigned int)(LBASE / (L)mod); q *= mod, b++ ); */
! 683: for ( b = 1, q = mod; q <= ((1<<27) / mod); q *= mod, b++ );
! 684: w = W_UMALLOC(n); ptoum(q,f,w);
! 685: wm = W_UMALLOC(2*n); wn = W_UMALLOC(2*n);
! 686: wa = W_UMALLOC(2*n); wt = W_UMALLOC(2*n);
! 687: wq = W_UMALLOC(2*n); wf = W_UMALLOC(2*n);
! 688: quot = W_UMALLOC(2*n);
! 689: *bqlistp = bqlist = MLALLOC(np); *cqlistp = cqlist = MLALLOC(np);
! 690: for ( i = 0; i < n+2; i++ )
! 691: COEF(wq)[i] = 0;
! 692: for ( i = 0,
! 693: in = (UM *)blist->c, inc = (UM *)clist->c,
! 694: out = (UM *)bqlist->c, outc = (UM *)cqlist->c;
! 695: i < np; i++ ) {
! 696: out[i] = C_UMALLOC(n+1); cpyum(in[i],out[i]);
! 697: outc[i] = C_UMALLOC(n+1); cpyum(inc[i],outc[i]);
! 698: }
! 699: for ( pmax = 1, i = b; i > 0; i-- )
! 700: pmax *= mod;
! 701: for ( i = 1; i < b; i++, p = p1 ) {
! 702: cpyum(out[0],wm);
! 703: for ( j = 1; j < np; j++ ) {
! 704: mulum(pmax,wm,out[j],wn);
! 705: tum = wm; wm = wn; wn = tum;
! 706: }
! 707: for ( j = n, px = COEF(w), py = COEF(wm), pz = COEF(wt); j >= 0; j-- ) {
! 708: tmp = ( ( px[j] - py[j] ) / p ) % mod;
! 709: pz[j] = ( tmp >= 0? tmp : tmp + mod );
! 710: }
! 711: degum(wt,n);
! 712: for ( j = 1; j < np; j++ ) {
! 713: mulum(mod,wt,inc[j],wm); dr = divum(mod,wm,in[j],quot);
! 714: for ( k = DEG(quot); k >= 0; k-- )
! 715: COEF(wq)[k] = ( COEF(wq)[k] + COEF(quot)[k] ) % mod;
! 716: for ( k = dr, px = COEF(out[j]), py = COEF(wm); k >= 0; k-- )
! 717: px[k] += p * py[k];
! 718: }
! 719: degum(wq,n); mulum(mod,wq,in[0],wm);
! 720: mulum(mod,wt,inc[0],wn); addum(mod,wm,wn,wa);
! 721: for ( j = DEG(wa), px = COEF(out[0]), py = COEF(wa); j >= 0; j-- )
! 722: px[j] += p * py[j];
! 723: for ( j = n, px = COEF(wq); j >= 0; j-- )
! 724: px[j] = 0;
! 725: p1 = p * mod;
! 726: for ( j = n, px = COEF(wt); j >= 1; j-- )
! 727: px[j] = 0;
! 728: px[0] = 1;
! 729: for ( j = 0; j < np; j++ ) {
! 730: cpyum(w,wf);
! 731: for ( k = DEG(wf), px = COEF(wf); k >= 0; k-- )
! 732: px[k] %= p1;
! 733: divum(p1,wf,out[j],quot); mulum(p1,outc[j],quot,wm);
! 734: for ( k = DEG(wm), px = COEF(wt), py = COEF(wm); k >= 0; k-- )
! 735: px[k] = ( px[k] - py[k] ) % p1;
! 736: }
! 737: degum(wt,n);
! 738: for ( j = DEG(wt), px = COEF(wt); j >= 0; j-- )
! 739: px[j] = ((tmp=(px[j]/p)%mod)>= 0?tmp:tmp + mod);
! 740: for ( j = 0; j < np; j++ ) {
! 741: mulum(mod,wt,outc[j],wm); dr = divum(mod,wm,in[j],quot);
! 742: for ( k = dr, px = COEF(outc[j]), py = COEF(wm); k >= 0; k-- )
! 743: px[k] += p * py[k];
! 744: degum(outc[j],MAX(DEG(outc[j]),dr));
! 745: }
! 746: }
! 747: bqlist->n = cqlist->n = np;
! 748: bqlist->mod = cqlist->mod = q;
! 749: }
! 750:
! 751: /*
! 752: henmain(fl,bqlist,cqlist,listp)
! 753: */
! 754:
! 755: void henmain(LUM f,ML bqlist,ML cqlist,ML *listp)
! 756: {
! 757: register int i,j,k;
! 758: int *px,*py;
! 759: int **pp,**pp1;
! 760: int n,np,mod,bound,dr,tmp;
! 761: UM wt,wq0,wq,wr,wm,wm0,wa,q;
! 762: LUM wb0,wb1,tlum;
! 763: UM *b,*c;
! 764: LUM *l;
! 765: ML list;
! 766:
! 767: n = DEG(f); np = bqlist->n; mod = bqlist->mod; bound = bqlist->bound;
! 768: *listp = list = MLALLOC(n);
! 769: list->n = np; list->mod = mod; list->bound = bound;
! 770: W_LUMALLOC(n,bound,wb0); W_LUMALLOC(n,bound,wb1);
! 771: wt = W_UMALLOC(n); wq0 = W_UMALLOC(n); wq = W_UMALLOC(n);
! 772: wr = W_UMALLOC(n); wm = W_UMALLOC(2*n); wm0 = W_UMALLOC(2*n);
! 773: wa = W_UMALLOC(2*n); q = W_UMALLOC(2*n);
! 774: b = (UM *)bqlist->c; c = (UM *)cqlist->c; l = (LUM *)list->c;
! 775: for ( i = 0; i < np; i++ ) {
! 776: l[i] = LUMALLOC(DEG(b[i]),bound);
! 777: for ( j = DEG(b[i]), pp = COEF(l[i]), px = COEF(b[i]); j >= 0; j-- )
! 778: pp[j][0] = px[j];
! 779: }
! 780: #if 0
! 781: fprintf(stderr,"bound=%d\n",bound);
! 782: #endif
! 783: for ( i = 1; i < bound; i++ ) {
! 784: #if 0
! 785: fprintf(stderr,".");
! 786: #endif
! 787: #if defined(VISUAL) || defined(__MINGW32__)
! 788: check_intr();
! 789: #endif
! 790: mullum(mod,i+1,l[0],l[1],wb0);
! 791: for ( j = 2; j < np; j++ ) {
! 792: mullum(mod,i+1,l[j],wb0,wb1);
! 793: tlum = wb0; wb0 = wb1; wb1 = tlum;
! 794: }
! 795: for ( j = n, px = COEF(wt); j >= 0; j-- )
! 796: px[j] = 0;
! 797: for ( j = n, pp = COEF(f), pp1 = COEF(wb0); j >= 0; j-- ) {
! 798: tmp = ( pp[j][i] - pp1[j][i] ) % mod;
! 799: COEF(wt)[j] = ( tmp < 0 ? tmp + mod : tmp );
! 800: }
! 801: degum(wt,n);
! 802: for ( j = n, px = COEF(wq0); j >= 0; j-- )
! 803: px[j] = 0;
! 804: for ( j = 1; j < np; j++ ) {
! 805: mulum(mod,wt,c[j],wm); dr = divum(mod,wm,b[j],q);
! 806: for ( k = DEG(q), px = COEF(wq0), py = COEF(q); k >= 0; k-- )
! 807: px[k] = ( px[k] + py[k] ) % mod;
! 808: for ( k = dr, pp = COEF(l[j]), px = COEF(wm); k >= 0; k-- )
! 809: pp[k][i] = px[k];
! 810: }
! 811: degum(wq0,n); mulum(mod,wq0,b[0],wm);
! 812: mulum(mod,wt,c[0],wm0); addum(mod,wm,wm0,wa);
! 813: for ( j = DEG(wa), pp = COEF(l[0]), px = COEF(wa); j >= 0; j-- )
! 814: pp[j][i] = px[j];
! 815: for ( j = n, px = COEF(wq0); j >= 0; j-- )
! 816: px[j] = 0;
! 817: }
! 818: #if 0
! 819: fprintf(stderr,"\n");
! 820: #endif
! 821: }
! 822:
! 823: /*
! 824: henmain_incremental(fl,bqlist,cqlist,start)
! 825: fl = bqlist[0]*... mod q^start
! 826: */
! 827:
! 828: void henmain_incremental(LUM f,LUM *bqlist,ML cqlist,
! 829: int np, int mod, int start, int bound)
! 830: {
! 831: register int i,j,k;
! 832: int *px,*py;
! 833: int **pp,**pp1;
! 834: int n,dr,tmp;
! 835: UM wt,wq0,wq,wr,wm,wm0,wa,q;
! 836: LUM wb0,wb1,tlum;
! 837: UM *b,*c;
! 838: LUM *l;
! 839: ML list;
! 840:
! 841: n = DEG(f);
! 842: W_LUMALLOC(n,bound,wb0); W_LUMALLOC(n,bound,wb1);
! 843: wt = W_UMALLOC(n); wq0 = W_UMALLOC(n); wq = W_UMALLOC(n);
! 844: wr = W_UMALLOC(n); wm = W_UMALLOC(2*n); wm0 = W_UMALLOC(2*n);
! 845: wa = W_UMALLOC(2*n); q = W_UMALLOC(2*n);
! 846: c = (UM *)cqlist->c; l = bqlist;
! 847: b = (UM *)ALLOCA(n*sizeof(UM));
! 848: for ( i = 0; i < np; i++ ) {
! 849: j = DEG(l[i]);
! 850: b[i] = W_UMALLOC(j);
! 851: DEG(b[i]) = j;
! 852: for ( pp = COEF(l[i]), px = COEF(b[i]); j >= 0; j-- )
! 853: px[j] = pp[j][0];
! 854: }
! 855: #if 0
! 856: fprintf(stderr,"bound=%d\n",bound);
! 857: #endif
! 858: for ( i = start; i < bound; i++ ) {
! 859: #if 0
! 860: fprintf(stderr,".");
! 861: #endif
! 862: mullum(mod,i+1,l[0],l[1],wb0);
! 863: for ( j = 2; j < np; j++ ) {
! 864: mullum(mod,i+1,l[j],wb0,wb1);
! 865: tlum = wb0; wb0 = wb1; wb1 = tlum;
! 866: }
! 867: for ( j = n, px = COEF(wt); j >= 0; j-- )
! 868: px[j] = 0;
! 869: for ( j = n, pp = COEF(f), pp1 = COEF(wb0); j >= 0; j-- ) {
! 870: tmp = ( pp[j][i] - pp1[j][i] ) % mod;
! 871: COEF(wt)[j] = ( tmp < 0 ? tmp + mod : tmp );
! 872: }
! 873: degum(wt,n);
! 874: for ( j = n, px = COEF(wq0); j >= 0; j-- )
! 875: px[j] = 0;
! 876: for ( j = 1; j < np; j++ ) {
! 877: mulum(mod,wt,c[j],wm); dr = divum(mod,wm,b[j],q);
! 878: for ( k = DEG(q), px = COEF(wq0), py = COEF(q); k >= 0; k-- )
! 879: px[k] = ( px[k] + py[k] ) % mod;
! 880: for ( k = dr, pp = COEF(l[j]), px = COEF(wm); k >= 0; k-- )
! 881: pp[k][i] = px[k];
! 882: }
! 883: degum(wq0,n); mulum(mod,wq0,b[0],wm);
! 884: mulum(mod,wt,c[0],wm0); addum(mod,wm,wm0,wa);
! 885: for ( j = DEG(wa), pp = COEF(l[0]), px = COEF(wa); j >= 0; j-- )
! 886: pp[j][i] = px[j];
! 887: for ( j = n, px = COEF(wq0); j >= 0; j-- )
! 888: px[j] = 0;
! 889: }
! 890: #if 0
! 891: fprintf(stderr,"\n");
! 892: #endif
! 893: }
! 894:
! 895: static double M;
! 896: static int E;
! 897:
! 898: int mig(int q,int d,P f)
! 899: {
! 900: mpz_t z;
! 901: int s;
! 902: mp_limb_t m;
! 903: DCP dc;
! 904:
! 905: for ( dc = DC(f), M = 0, E = 0; dc; dc = NEXT(dc) ) {
! 906: z[0] = BDY((Z)COEF(dc))[0]; s = mpz_size(z); m = mpz_getlimbn(z,s-1);
! 907: sqad(m,(s-1)*sizeof(mp_limb_t)*8);
! 908: }
! 909: if (E % 2) M *= 2; M = ceil(sqrt(M)); E /= 2;
! 910: z[0] = BDY((Z)COEF(DC(f)))[0]; s = mpz_size(z); m = mpz_getlimbn(z,s-1);
! 911: M *= ((double)m)+1; E += (s-1) * sizeof(mp_limb_t)*8;
! 912: return (int)ceil( (0.31*(E+d+1)+log10((double)M)) / log10((double)q) );
! 913: }
! 914:
! 915: int mignotte(int q,P f)
! 916: {
! 917: return mig(q,UDEG(f),f);
! 918: }
! 919:
! 920: /* man*2^exp */
! 921:
! 922: void sqad(mp_limb_t man,int exp)
! 923: {
! 924: int e,sqe;
! 925: mp_limb_t t;
! 926: double man1,d,sqm;
! 927: int diff;
! 928:
! 929: if ( man+1 == 0 ) {
! 930: e = sizeof(mp_limb_t)*8; man1 = 1.0;
! 931: } else {
! 932: man += 1;
! 933: for ( e = 0, t = man; t; e++, t >>= 1 );
! 934: e--; d = (double)(1<<e);
! 935: man1 = ((double)man)/d;
! 936: }
! 937: exp += e; sqm = man1 * man1; sqe = 2 * exp;
! 938: if ( sqm >= 2.0 ) {
! 939: sqm /= 2.0; sqe++;
! 940: }
! 941: diff = E - sqe;
! 942: if ( diff > 18 )
! 943: return;
! 944: if ( diff < -18 ) {
! 945: M = sqm; E = sqe;
! 946: return;
! 947: }
! 948: if ( diff >= 0 )
! 949: M += (sqm / (double)(1<<diff));
! 950: else {
! 951: M = ( ( M / (double)(1<<-diff)) + sqm ); E = sqe;
! 952: }
! 953: if ( M >= 2.0 ) {
! 954: M /= 2.0; E++;
! 955: }
! 956: }
! 957:
! 958: void ptolum(int q,int bound,P f,LUM fl)
! 959: {
! 960: DCP dc;
! 961: int i,j;
! 962: int **pp;
! 963: int d,br,s;
! 964: unsigned int r;
! 965: int *c;
! 966: unsigned int *w;
! 967: Z z;
! 968:
! 969: for ( dc = DC(f), pp = COEF(fl); dc; dc = NEXT(dc) ) {
! 970: absz((Z)COEF(dc),&z);
! 971: d = ztonadic(q,z,&w);
! 972: c = pp[QTOS(DEG(dc))];
! 973: for ( i = 0; i < d; i++ ) c[i] = w[i];
! 974: for ( ; i < bound; i++ ) c[i] = 0;
! 975: if ( sgnz((Z)COEF(dc)) < 0 )
! 976: for (i = 0, br = 0; i < bound; i++ ) {
! 977: if ( ( s = -(c[i] + br) ) < 0 ) {
! 978: c[i] = s + q; br = 1;
! 979: } else {
! 980: c[i] = 0; br = 0;
! 981: }
! 982: }
! 983: }
! 984: }
! 985:
! 986: void modfctrp(P p,int mod,int flag,DCP *dcp)
! 987: {
! 988: int cm,n,i,j,k;
! 989: DCP dc,dc0;
! 990: P zp;
! 991: Q c;
! 992: Z q;
! 993: UM mp;
! 994: UM *tl;
! 995: struct oDUM *udc,*udc1;
! 996:
! 997: if ( !p ) {
! 998: *dcp = 0; return;
! 999: }
! 1000: ptozp(p,1,&c,&zp);
! 1001: if ( !INT(c) || !(cm = remqi(c,mod)) ) {
! 1002: *dcp = 0; return;
! 1003: }
! 1004: mp = W_UMALLOC(UDEG(p));
! 1005: ptoum(mod,zp,mp);
! 1006: if ( (n = DEG(mp)) < 0 ) {
! 1007: *dcp = 0; return;
! 1008: } else if ( n == 0 ) {
! 1009: cm = dmar(cm,COEF(mp)[0],0,mod); STOQ(cm,q);
! 1010: NEWDC(dc); COEF(dc) = (P)q; DEG(dc) = ONE;
! 1011: NEXT(dc) = 0; *dcp = dc;
! 1012: return;
! 1013: }
! 1014: if ( COEF(mp)[n] != 1 ) {
! 1015: cm = dmar(cm,COEF(mp)[n],0,mod);
! 1016: i = invm(COEF(mp)[n],mod);
! 1017: for ( j = 0; j <= n; j++ )
! 1018: COEF(mp)[j] = dmar(COEF(mp)[j],i,0,mod);
! 1019: }
! 1020: W_CALLOC(n+1,struct oDUM,udc);
! 1021: gensqfrum(mod,mp,udc);
! 1022: switch ( flag ) {
! 1023: case FCTR:
! 1024: tl = (UM *)ALLOCA((n+1)*sizeof(UM));
! 1025: W_CALLOC(DEG(mp)+1,struct oDUM,udc1);
! 1026: for ( i = 0,j = 0; udc[i].f; i++ )
! 1027: if ( DEG(udc[i].f) == 1 ) {
! 1028: udc1[j].f = udc[i].f; udc1[j].n = udc[i].n; j++;
! 1029: } else {
! 1030: bzero((char *)tl,(n+1)*sizeof(UM));
! 1031: berlemain(mod,udc[i].f,tl);
! 1032: for ( k = 0; tl[k]; k++, j++ ) {
! 1033: udc1[j].f = tl[k]; udc1[j].n = udc[i].n;
! 1034: }
! 1035: }
! 1036: udc = udc1; break;
! 1037: case SQFR:
! 1038: break;
! 1039: case DDD:
! 1040: tl = (UM *)ALLOCA((n+1)*sizeof(UM));
! 1041: W_CALLOC(DEG(mp)+1,struct oDUM,udc1);
! 1042: for ( i = 0,j = 0; udc[i].f; i++ )
! 1043: if ( DEG(udc[i].f) == 1 ) {
! 1044: udc1[j].f = udc[i].f; udc1[j].n = udc[i].n; j++;
! 1045: } else {
! 1046: bzero((char *)tl,(n+1)*sizeof(UM));
! 1047: ddd(mod,udc[i].f,tl);
! 1048: for ( k = 0; tl[k]; k++, j++ ) {
! 1049: udc1[j].f = tl[k]; udc1[j].n = udc[i].n;
! 1050: }
! 1051: }
! 1052: udc = udc1; break;
! 1053: case NEWDDD:
! 1054: tl = (UM *)ALLOCA((n+1)*sizeof(UM));
! 1055: W_CALLOC(DEG(mp)+1,struct oDUM,udc1);
! 1056: for ( i = 0,j = 0; udc[i].f; i++ )
! 1057: if ( DEG(udc[i].f) == 1 ) {
! 1058: udc1[j].f = udc[i].f; udc1[j].n = udc[i].n; j++;
! 1059: } else {
! 1060: bzero((char *)tl,(n+1)*sizeof(UM));
! 1061: if ( mod == 2 )
! 1062: berlemain(mod,udc[i].f,tl);
! 1063: else
! 1064: newddd(mod,udc[i].f,tl);
! 1065: for ( k = 0; tl[k]; k++, j++ ) {
! 1066: udc1[j].f = tl[k]; udc1[j].n = udc[i].n;
! 1067: }
! 1068: }
! 1069: udc = udc1; break;
! 1070: }
! 1071: NEWDC(dc0); STOQ(cm,q); COEF(dc0) = (P)q; DEG(dc0) = ONE; dc = dc0;
! 1072: for ( n = 0; udc[n].f; n++ ) {
! 1073: NEWDC(NEXT(dc)); dc = NEXT(dc);
! 1074: STOQ(udc[n].n,DEG(dc)); umtop(VR(p),udc[n].f,&COEF(dc));
! 1075: }
! 1076: NEXT(dc) = 0; *dcp = dc0;
! 1077: }
! 1078:
! 1079: void gensqfrum(int mod,UM p,struct oDUM *dc)
! 1080: {
! 1081: int n,i,j,d;
! 1082: UM t,s,g,f,f1,b;
! 1083:
! 1084: if ( (n = DEG(p)) == 1 ) {
! 1085: dc[0].f = UMALLOC(DEG(p)); cpyum(p,dc[0].f); dc[0].n = 1;
! 1086: return;
! 1087: }
! 1088: t = W_UMALLOC(n); s = W_UMALLOC(n); g = W_UMALLOC(n);
! 1089: f = W_UMALLOC(n); f1 = W_UMALLOC(n); b = W_UMALLOC(n);
! 1090: diffum(mod,p,t); cpyum(p,s); Gcdum(mod,t,s,g);
! 1091: if ( !DEG(g) ) {
! 1092: dc[0].f = UMALLOC(DEG(p)); cpyum(p,dc[0].f); dc[0].n = 1;
! 1093: return;
! 1094: }
! 1095: cpyum(p,b); cpyum(p,t); Divum(mod,t,g,f);
! 1096: for ( i = 0, d = 0; DEG(f); i++ ) {
! 1097: while ( 1 ) {
! 1098: cpyum(b,t);
! 1099: if ( Divum(mod,t,f,s) >= 0 )
! 1100: break;
! 1101: else {
! 1102: cpyum(s,b); d++;
! 1103: }
! 1104: }
! 1105: cpyum(b,t); cpyum(f,s); Gcdum(mod,t,s,f1);
! 1106: Divum(mod,f,f1,s); cpyum(f1,f);
! 1107: dc[i].f = UMALLOC(DEG(s)); cpyum(s,dc[i].f); dc[i].n = d;
! 1108: }
! 1109: if ( DEG(b) > 0 ) {
! 1110: d = 1;
! 1111: while ( 1 ) {
! 1112: cpyum(b,t);
! 1113: for ( j = DEG(t); j >= 0; j-- )
! 1114: if ( COEF(t)[j] && (j % mod) )
! 1115: break;
! 1116: if ( j >= 0 )
! 1117: break;
! 1118: else {
! 1119: DEG(s) = DEG(t)/mod;
! 1120: for ( j = 0; j <= DEG(t); j++ )
! 1121: COEF(s)[j] = COEF(t)[j*mod];
! 1122: cpyum(s,b); d *= mod;
! 1123: }
! 1124: }
! 1125: gensqfrum(mod,b,dc+i);
! 1126: for ( j = i; dc[j].f; j++ )
! 1127: dc[j].n *= d;
! 1128: }
! 1129: }
! 1130:
! 1131: #if 0
! 1132: void srchum(int mod,UM p1,UM p2,UM gr)
! 1133: {
! 1134: UM m,m1,m2,q,r,t,g1,g2;
! 1135: int lc,d,d1,d2,i,j,k,l,l1,l2,l3,tmp,adj;
! 1136: V v;
! 1137:
! 1138: d = MAX(DEG(p1),DEG(p2));
! 1139: g1 = W_UMALLOC(d); g2 = W_UMALLOC(d);
! 1140: bzero((char *)g1,(d+2)*sizeof(int)); bzero((char *)g2,(d+2)*sizeof(int));
! 1141: if ( d == DEG(p1) ) {
! 1142: cpyum(p1,g1); cpyum(p2,g2);
! 1143: } else {
! 1144: cpyum(p1,g2); cpyum(p2,g1);
! 1145: }
! 1146: if ( ( d1 = DEG(g1) ) > ( d2 = DEG(g2) ) ) {
! 1147: j = d1 - 1; adj = 1;
! 1148: } else
! 1149: j = d2;
! 1150: lc = 1;
! 1151: r = W_UMALLOC(d1+d2); q = W_UMALLOC(d1+d2);
! 1152: m1 = W_UMALLOC(d1+d2); t = W_UMALLOC(d1+d2);
! 1153: bzero((char *)r,(d1+d2+2)*sizeof(int)); bzero((char *)q,(d1+d2+2)*sizeof(int));
! 1154: bzero((char *)m1,(d1+d2+2)*sizeof(int)); bzero((char *)t,(d1+d2+2)*sizeof(int));
! 1155: m = W_UMALLOC(0); bzero((char *)m,2*sizeof(int));
! 1156: adj = pwrm(mod,COEF(g2)[DEG(g2)],DEG(g1));
! 1157: DEG(m) = 0; COEF(m)[0] = invm(COEF(g2)[DEG(g2)],mod);
! 1158: Mulum(mod,g2,m,r); cpyum(r,g2);
! 1159: while ( 1 ) {
! 1160: if ( ( k = DEG(g2) ) < 0 ) {
! 1161: DEG(gr) = -1;
! 1162: return;
! 1163: }
! 1164: if ( k == j ) {
! 1165: if ( k == 0 ) {
! 1166: DEG(m) = 0; COEF(m)[0] = adj;
! 1167: Mulum(mod,g2,m,gr);
! 1168: return;
! 1169: } else {
! 1170: DEG(m) = 0;
! 1171: COEF(m)[0] = pwrm(mod,COEF(g2)[k],DEG(g1)-k+1);
! 1172: Mulum(mod,g1,m,r); DEG(r) = Divum(mod,r,g2,t);
! 1173: DEG(m) = 0; COEF(m)[0] = dmb(mod,lc,lc,&tmp);
! 1174: Divum(mod,r,m,q); cpyum(g2,g1); cpyum(q,g2);
! 1175: lc = COEF(g1)[DEG(g1)]; j = k - 1;
! 1176: }
! 1177: } else {
! 1178: d = j - k;
! 1179: DEG(m) = 0; COEF(m)[0] = pwrm(mod,COEF(g2)[DEG(g2)],d);
! 1180: Mulum(mod,g2,m,m1); l = pwrm(mod,lc,d);
! 1181: DEG(m) = 0; COEF(m)[0] = l; Divum(mod,m1,m,t);
! 1182: if ( k == 0 ) {
! 1183: DEG(m) = 0; COEF(m)[0] = adj;
! 1184: Mulum(mod,t,m,gr);
! 1185: return;
! 1186: } else {
! 1187: DEG(m) = 0;
! 1188: COEF(m)[0] = pwrm(mod,COEF(g2)[k],DEG(g1)-k+1);
! 1189: Mulum(mod,g1,m,r); DEG(r) = Divum(mod,r,g2,q);
! 1190: l1 = dmb(mod,lc,lc,&tmp); l2 = dmb(mod,l,l1,&tmp);
! 1191: DEG(m) = 0; COEF(m)[0] = l2;
! 1192: Divum(mod,r,m,q); cpyum(t,g1); cpyum(q,g2);
! 1193: if ( d % 2 )
! 1194: for ( i = DEG(g2); i >= 0; i-- )
! 1195: COEF(g2)[i] = ( mod - COEF(g2)[i] ) % mod;
! 1196: lc = COEF(g1)[DEG(g1)]; j = k - 1;
! 1197: }
! 1198: }
! 1199: }
! 1200: }
! 1201:
! 1202: UM *resberle(int mod,UM f,UM *fp)
! 1203: {
! 1204: UM w,wg,ws,wf,f0,gcd,q,res;
! 1205: int n;
! 1206: register int i;
! 1207:
! 1208: n = DEG(f); wg = W_UMALLOC(n); mini(mod,f,wg);
! 1209: if ( DEG(wg) <= 0 ) {
! 1210: f0 = UMALLOC(n); cpyum(f,f0); *fp++ = f0;
! 1211: return ( fp );
! 1212: }
! 1213: f0 = W_UMALLOC(n); cpyum(f,f0);
! 1214: ws = W_UMALLOC(n); wf = W_UMALLOC(n);
! 1215: q = W_UMALLOC(n); gcd = W_UMALLOC(n);
! 1216: res = W_UMALLOC(2*n);
! 1217: srchum(mod,f,wg,res);
! 1218: for ( i = 0; i < mod; i++ ) {
! 1219: if ( substum(mod,res,i) )
! 1220: continue;
! 1221: cpyum(f0,wf); cpyum(wg,ws);
! 1222: COEF(ws)[0] = ( COEF(ws)[0] + mod - i ) % mod;
! 1223: Gcdum(mod,wf,ws,gcd);
! 1224: if ( DEG(gcd) > 0 ) {
! 1225: if ( DEG(gcd) < n ) {
! 1226: Divum(mod,f0,gcd,q); f0 = q; fp = resberle(mod,gcd,fp);
! 1227: }
! 1228: break;
! 1229: }
! 1230: }
! 1231: fp = resberle(mod,f0,fp);
! 1232: return ( fp );
! 1233: }
! 1234:
! 1235: int substum(int mod,UM p,int a)
! 1236: {
! 1237: int i,j,s;
! 1238: int *c;
! 1239:
! 1240: if ( DEG(p) < 0 )
! 1241: return 0;
! 1242: if ( DEG(p) == 0 )
! 1243: return COEF(p)[0];
! 1244: for ( i = DEG(p), c = COEF(p), s = c[i]; i >= 0; ) {
! 1245: for ( j = i--; (i>=0) && !c[i]; i-- );
! 1246: if ( i >= 0 )
! 1247: s = (s*pwrm(mod,a,j-i)%mod+c[i])%mod;
! 1248: else
! 1249: s = s*pwrm(mod,a,j)%mod;
! 1250: }
! 1251: return s;
! 1252: }
! 1253: #endif
! 1254:
! 1255: void ddd(int mod,UM f,UM *r)
! 1256: {
! 1257: register int i,j;
! 1258: int d,n;
! 1259: UM q,s,t,u,v,w,g,x,m;
! 1260: UM *base;
! 1261:
! 1262: n = DEG(f);
! 1263: if ( n == 1 ) {
! 1264: r[0] = UMALLOC(1); cpyum(f,r[0]); r[1] = 0; return;
! 1265: }
! 1266: base = (UM *)ALLOCA(n*sizeof(UM)); bzero((char *)base,n*sizeof(UM));
! 1267: w = W_UMALLOC(2*n); q = W_UMALLOC(2*n); m = W_UMALLOC(2*n);
! 1268: base[0] = W_UMALLOC(0); DEG(base[0]) = 0; COEF(base[0])[0] = 1;
! 1269: t = W_UMALLOC(1); DEG(t) = 1; COEF(t)[0] = 0; COEF(t)[1] = 1;
! 1270: pwrmodum(mod,t,mod,f,w); base[1] = W_UMALLOC(DEG(w)); cpyum(w,base[1]);
! 1271: for ( i = 2; i < n; i++ ) {
! 1272: mulum(mod,base[i-1],base[1],m); DEG(m) = divum(mod,m,f,q);
! 1273: base[i] = W_UMALLOC(DEG(m)); cpyum(m,base[i]);
! 1274: }
! 1275: v = W_UMALLOC(n); cpyum(f,v);
! 1276: DEG(w) = 1; COEF(w)[0] = 0; COEF(w)[1] = 1;
! 1277: x = W_UMALLOC(1); DEG(x) = 1; COEF(x)[0] = 0; COEF(x)[1] = 1;
! 1278: t = W_UMALLOC(n); s = W_UMALLOC(n); u = W_UMALLOC(n); g = W_UMALLOC(n);
! 1279: for ( j = 0, d = 1; 2*d <= DEG(v); d++ ) {
! 1280: for ( DEG(t) = -1, i = 0; i <= DEG(w); i++ )
! 1281: if ( COEF(w)[i] ) {
! 1282: Mulsum(mod,base[i],COEF(w)[i],s);
! 1283: addum(mod,s,t,u); cpyum(u,t);
! 1284: }
! 1285: cpyum(t,w); cpyum(v,s); subum(mod,w,x,t); Gcdum(mod,s,t,g);
! 1286: if ( DEG(g) >= 1 ) {
! 1287: canzas(mod,g,d,base,r+j); j += DEG(g)/d;
! 1288: Divum(mod,v,g,q); cpyum(q,v);
! 1289: DEG(w) = Divum(mod,w,v,q);
! 1290: for ( i = 0; i < DEG(v); i++ )
! 1291: DEG(base[i]) = Divum(mod,base[i],v,q);
! 1292: }
! 1293: }
! 1294: if ( DEG(v) ) {
! 1295: r[j] = UMALLOC(DEG(v)); cpyum(v,r[j]); j++;
! 1296: }
! 1297: r[j] = 0;
! 1298: }
! 1299:
! 1300: void canzas(int mod,UM f,int d,UM *base,UM *r)
! 1301: {
! 1302: UM t,s,u,w,g,o,q;
! 1303: Z n1,n2,n3,n4,n5,z;
! 1304: UM *b;
! 1305: int n,m,i;
! 1306:
! 1307: if ( DEG(f) == d ) {
! 1308: r[0] = UMALLOC(d); cpyum(f,r[0]);
! 1309: return;
! 1310: } else {
! 1311: n = DEG(f); b = (UM *)ALLOCA(n*sizeof(UM)); bzero((char *)b,n*sizeof(UM));
! 1312: for ( i = 0, m = 0; i < n; i++ )
! 1313: m = MAX(m,DEG(base[i]));
! 1314: q = W_UMALLOC(m);
! 1315: for ( i = 0; i < n; i++ ) {
! 1316: b[i] = W_UMALLOC(DEG(base[i])); cpyum(base[i],b[i]);
! 1317: DEG(b[i]) = Divum(mod,b[i],f,q);
! 1318: }
! 1319: t = W_UMALLOC(2*d);
! 1320: s = W_UMALLOC(DEG(f)); u = W_UMALLOC(DEG(f));
! 1321: w = W_UMALLOC(DEG(f)); g = W_UMALLOC(DEG(f));
! 1322: o = W_UMALLOC(0); DEG(o) = 0; COEF(o)[0] = 1;
! 1323: STOQ(mod,n1); STOQ(d,z); pwrz(n1,z,&n2); subz(n2,ONE,&n3);
! 1324: STOQ(2,n4); divz(n3,n4,&n5);
! 1325: while ( 1 ) {
! 1326: randum(mod,2*d,t); spwrum0(mod,f,t,n5,s);
! 1327: subum(mod,s,o,u); cpyum(f,w); Gcdum(mod,w,u,g);
! 1328: if ( (DEG(g) >= 1) && (DEG(g) < DEG(f)) ) {
! 1329: canzas(mod,g,d,b,r);
! 1330: cpyum(f,w); Divum(mod,w,g,s);
! 1331: canzas(mod,s,d,b,r+DEG(g)/d);
! 1332: return;
! 1333: }
! 1334: }
! 1335: }
! 1336: }
! 1337:
! 1338: void randum(int mod,int d,UM p)
! 1339: {
! 1340: unsigned int n;
! 1341: int i;
! 1342:
! 1343: n = ((unsigned int)random()) % d; DEG(p) = n; COEF(p)[n] = 1;
! 1344: for ( i = 0; i < (int)n; i++ )
! 1345: COEF(p)[i] = ((unsigned int)random()) % mod;
! 1346: }
! 1347:
! 1348: void pwrmodum(int mod,UM p,int e,UM f,UM pr)
! 1349: {
! 1350: UM wt,ws,q;
! 1351:
! 1352: if ( e == 0 ) {
! 1353: DEG(pr) = 0; COEF(pr)[0] = 1;
! 1354: } else if ( DEG(p) < 0 )
! 1355: DEG(pr) = -1;
! 1356: else if ( e == 1 ) {
! 1357: q = W_UMALLOC(DEG(p)); cpyum(p,pr);
! 1358: DEG(pr) = divum(mod,pr,f,q);
! 1359: } else if ( DEG(p) == 0 ) {
! 1360: DEG(pr) = 0; COEF(pr)[0] = pwrm(mod,COEF(p)[0],e);
! 1361: } else {
! 1362: wt = W_UMALLOC(2*DEG(f)); ws = W_UMALLOC(2*DEG(f));
! 1363: q = W_UMALLOC(2*DEG(f));
! 1364: pwrmodum(mod,p,e/2,f,wt);
! 1365: if ( !(e%2) ) {
! 1366: mulum(mod,wt,wt,pr); DEG(pr) = divum(mod,pr,f,q);
! 1367: } else {
! 1368: mulum(mod,wt,wt,ws); DEG(ws) = divum(mod,ws,f,q);
! 1369: mulum(mod,ws,p,pr); DEG(pr) = divum(mod,pr,f,q);
! 1370: }
! 1371: }
! 1372: }
! 1373:
! 1374: void spwrum0(int mod,UM m,UM f,Z e,UM r)
! 1375: {
! 1376: UM t,s,q;
! 1377: Z e1,rem,two;
! 1378:
! 1379: if ( !e ) {
! 1380: DEG(r) = 0; COEF(r)[0] = 1;
! 1381: } else if ( UNIZ(e) )
! 1382: cpyum(f,r);
! 1383: else {
! 1384: STOQ(2,two);
! 1385: divqrz(e,two,&e1,&rem);
! 1386: t = W_UMALLOC(2*DEG(m)); spwrum0(mod,m,f,e1,t);
! 1387: s = W_UMALLOC(2*DEG(m)); q = W_UMALLOC(2*DEG(m));
! 1388: Mulum(mod,t,t,s); DEG(s) = Divum(mod,s,m,q);
! 1389: if ( rem ) {
! 1390: Mulum(mod,s,f,t); DEG(t) = Divum(mod,t,m,q); cpyum(t,r);
! 1391: } else
! 1392: cpyum(s,r);
! 1393: }
! 1394: }
! 1395:
! 1396: void mult_mod_tab(UM p,int mod,UM *tab,UM r,int d)
! 1397: {
! 1398: UM w,w1,c;
! 1399: int n,i;
! 1400: int *pc;
! 1401:
! 1402: w = W_UMALLOC(d); w1 = W_UMALLOC(d);
! 1403: c = W_UMALLOC(1); DEG(c) = 0;
! 1404: n = DEG(p); DEG(r) = -1;
! 1405: for ( i = 0, pc = COEF(p); i <= n; i++ )
! 1406: if ( pc[i] ) {
! 1407: COEF(c)[0] = pc[i];
! 1408: mulum(mod,tab[i],c,w);
! 1409: addum(mod,r,w,w1);
! 1410: cpyum(w1,r);
! 1411: }
! 1412: }
! 1413:
! 1414: void make_qmat(UM p,int mod,UM *tab,int ***mp)
! 1415: {
! 1416: int n,i,j;
! 1417: int *c;
! 1418: UM q,r;
! 1419: int **mat;
! 1420:
! 1421: n = DEG(p);
! 1422: *mp = mat = almat(n,n);
! 1423: for ( j = 0; j < n; j++ ) {
! 1424: r = W_UMALLOC(DEG(tab[j])); q = W_UMALLOC(DEG(tab[j]));
! 1425: cpyum(tab[j],r); DEG(r) = divum(mod,r,p,q);
! 1426: for ( i = 0, c = COEF(r); i <= DEG(r); i++ )
! 1427: mat[i][j] = c[i];
! 1428: }
! 1429: for ( i = 0; i < n; i++ )
! 1430: mat[i][i] = (mat[i][i]+mod-1) % mod;
! 1431: }
! 1432:
! 1433: void null_mod(int **mat,int mod,int n,int *ind)
! 1434: {
! 1435: int i,j,l,s,h,inv;
! 1436: int *t,*u;
! 1437:
! 1438: bzero((char *)ind,n*sizeof(int));
! 1439: ind[0] = 0;
! 1440: for ( i = j = 0; j < n; i++, j++ ) {
! 1441: for ( ; j < n; j++ ) {
! 1442: for ( l = i; l < n; l++ )
! 1443: if ( mat[l][j] )
! 1444: break;
! 1445: if ( l < n ) {
! 1446: t = mat[i]; mat[i] = mat[l]; mat[l] = t; break;
! 1447: } else
! 1448: ind[j] = 1;
! 1449: }
! 1450: if ( j == n )
! 1451: break;
! 1452: inv = invm(mat[i][j],mod);
! 1453: for ( s = j, t = mat[i]; s < n; s++ )
! 1454: t[s] = dmar(t[s],inv,0,mod);
! 1455: for ( l = 0; l < n; l++ ) {
! 1456: if ( l == i )
! 1457: continue;
! 1458: for ( s = j, u = mat[l], h = (mod-u[j])%mod; s < n; s++ )
! 1459: u[s] = dmar(h,t[s],u[s],mod);
! 1460: }
! 1461: }
! 1462: }
! 1463:
! 1464: void null_to_sol(int **mat,int *ind,int mod,int n,UM *r)
! 1465: {
! 1466: int i,j,k,l;
! 1467: int *c;
! 1468: UM w;
! 1469:
! 1470: for ( i = 0, l = 0; i < n; i++ ) {
! 1471: if ( !ind[i] )
! 1472: continue;
! 1473: w = UMALLOC(n);
! 1474: for ( j = k = 0, c = COEF(w); j < n; j++ )
! 1475: if ( ind[j] )
! 1476: c[j] = 0;
! 1477: else
! 1478: c[j] = mat[k++][i];
! 1479: c[i] = mod-1;
! 1480: for ( j = n; j >= 0; j-- )
! 1481: if ( c[j] )
! 1482: break;
! 1483: DEG(w) = j;
! 1484: r[l++] = w;
! 1485: }
! 1486: }
! 1487: /*
! 1488: make_qmat(p,mod,tab,mp)
! 1489: null_mod(mat,mod,n,ind)
! 1490: null_to_sol(mat,ind,mod,n,r)
! 1491: */
! 1492:
! 1493: void newddd(int mod,UM f,UM *r)
! 1494: {
! 1495: register int i,j;
! 1496: int d,n;
! 1497: UM q,s,t,u,v,w,g,x,m;
! 1498: UM *base;
! 1499:
! 1500: n = DEG(f); base = (UM *)ALLOCA(n*sizeof(UM)); bzero((char *)base,n*sizeof(UM));
! 1501: w = W_UMALLOC(2*n); q = W_UMALLOC(2*n); m = W_UMALLOC(2*n);
! 1502: base[0] = W_UMALLOC(0); DEG(base[0]) = 0; COEF(base[0])[0] = 1;
! 1503: t = W_UMALLOC(1); DEG(t) = 1; COEF(t)[0] = 0; COEF(t)[1] = 1;
! 1504: pwrmodum(mod,t,mod,f,w); base[1] = W_UMALLOC(DEG(w)); cpyum(w,base[1]);
! 1505: for ( i = 2; i < n; i++ ) {
! 1506: /* fprintf(stderr,"i=%d\n",i); */
! 1507: mulum(mod,base[i-1],base[1],m); DEG(m) = divum(mod,m,f,q);
! 1508: base[i] = W_UMALLOC(DEG(m)); cpyum(m,base[i]);
! 1509: }
! 1510: v = W_UMALLOC(n); cpyum(f,v);
! 1511: DEG(w) = 1; COEF(w)[0] = 0; COEF(w)[1] = 1;
! 1512: x = W_UMALLOC(1); DEG(x) = 1; COEF(x)[0] = 0; COEF(x)[1] = 1;
! 1513: t = W_UMALLOC(n); s = W_UMALLOC(n); u = W_UMALLOC(n); g = W_UMALLOC(n);
! 1514: for ( j = 0, d = 1; 2*d <= DEG(v); d++ ) {
! 1515: /* fprintf(stderr,"d=%d\n",d); */
! 1516: for ( DEG(t) = -1, i = 0; i <= DEG(w); i++ )
! 1517: if ( COEF(w)[i] ) {
! 1518: Mulsum(mod,base[i],COEF(w)[i],s);
! 1519: addum(mod,s,t,u); cpyum(u,t);
! 1520: }
! 1521: cpyum(t,w); cpyum(v,s); subum(mod,w,x,t); Gcdum(mod,s,t,g);
! 1522: if ( DEG(g) >= 1 ) {
! 1523: berlekamp(g,mod,d,base,r+j); j += DEG(g)/d;
! 1524: Divum(mod,v,g,q); cpyum(q,v);
! 1525: DEG(w) = Divum(mod,w,v,q);
! 1526: for ( i = 0; i < DEG(v); i++ )
! 1527: DEG(base[i]) = Divum(mod,base[i],v,q);
! 1528: }
! 1529: }
! 1530: if ( DEG(v) ) {
! 1531: r[j] = UMALLOC(DEG(v)); cpyum(v,r[j]); j++;
! 1532: }
! 1533: r[j] = 0;
! 1534: }
! 1535:
! 1536: int nfctr_mod(UM f,int mod)
! 1537: {
! 1538: register int i,j;
! 1539: int d,n;
! 1540: UM q,s,t,u,v,w,g,x,m;
! 1541: UM *base;
! 1542:
! 1543: n = DEG(f); base = (UM *)ALLOCA(n*sizeof(UM)); bzero((char *)base,n*sizeof(UM));
! 1544: w = W_UMALLOC(2*n); q = W_UMALLOC(2*n); m = W_UMALLOC(2*n);
! 1545: base[0] = W_UMALLOC(0); DEG(base[0]) = 0; COEF(base[0])[0] = 1;
! 1546: t = W_UMALLOC(1); DEG(t) = 1; COEF(t)[0] = 0; COEF(t)[1] = 1;
! 1547: pwrmodum(mod,t,mod,f,w); base[1] = W_UMALLOC(DEG(w)); cpyum(w,base[1]);
! 1548: for ( i = 2; i < n; i++ ) {
! 1549: /* fprintf(stderr,"i=%d\n",i); */
! 1550: mulum(mod,base[i-1],base[1],m); DEG(m) = divum(mod,m,f,q);
! 1551: base[i] = W_UMALLOC(DEG(m)); cpyum(m,base[i]);
! 1552: }
! 1553: v = W_UMALLOC(n); cpyum(f,v);
! 1554: DEG(w) = 1; COEF(w)[0] = 0; COEF(w)[1] = 1;
! 1555: x = W_UMALLOC(1); DEG(x) = 1; COEF(x)[0] = 0; COEF(x)[1] = 1;
! 1556: t = W_UMALLOC(n); s = W_UMALLOC(n); u = W_UMALLOC(n); g = W_UMALLOC(n);
! 1557: for ( j = 0, d = 1; 2*d <= DEG(v); d++ ) {
! 1558: /* fprintf(stderr,"d=%d\n",d); */
! 1559: for ( DEG(t) = -1, i = 0; i <= DEG(w); i++ )
! 1560: if ( COEF(w)[i] ) {
! 1561: Mulsum(mod,base[i],COEF(w)[i],s);
! 1562: addum(mod,s,t,u); cpyum(u,t);
! 1563: }
! 1564: cpyum(t,w); cpyum(v,s); subum(mod,w,x,t); Gcdum(mod,s,t,g);
! 1565: if ( DEG(g) >= 1 ) {
! 1566: j += DEG(g)/d;
! 1567: Divum(mod,v,g,q); cpyum(q,v);
! 1568: DEG(w) = Divum(mod,w,v,q);
! 1569: for ( i = 0; i < DEG(v); i++ )
! 1570: DEG(base[i]) = Divum(mod,base[i],v,q);
! 1571: }
! 1572: }
! 1573: if ( DEG(v) ) j++;
! 1574: return j;
! 1575: }
! 1576:
! 1577: int irred_check(UM f,int mod)
! 1578: {
! 1579: register int i,j;
! 1580: int d,n;
! 1581: UM q,s,t,u,v,w,g,x,m,f1,b;
! 1582: UM *base;
! 1583:
! 1584: if ( (n = DEG(f)) == 1 )
! 1585: return 1;
! 1586: t = W_UMALLOC(n); s = W_UMALLOC(n); g = W_UMALLOC(n);
! 1587: f1 = W_UMALLOC(n); b = W_UMALLOC(n);
! 1588: diffum(mod,f,t); cpyum(f,s); Gcdum(mod,t,s,g);
! 1589: if ( DEG(g) )
! 1590: return 0;
! 1591:
! 1592: base = (UM *)ALLOCA(n*sizeof(UM)); bzero((char *)base,n*sizeof(UM));
! 1593: w = W_UMALLOC(2*n); q = W_UMALLOC(2*n); m = W_UMALLOC(2*n);
! 1594: base[0] = W_UMALLOC(0); DEG(base[0]) = 0; COEF(base[0])[0] = 1;
! 1595: t = W_UMALLOC(1); DEG(t) = 1; COEF(t)[0] = 0; COEF(t)[1] = 1;
! 1596: pwrmodum(mod,t,mod,f,w); base[1] = W_UMALLOC(DEG(w)); cpyum(w,base[1]);
! 1597: for ( i = 2; i < n; i++ ) {
! 1598: /* fprintf(stderr,"i=%d\n",i); */
! 1599: mulum(mod,base[i-1],base[1],m); DEG(m) = divum(mod,m,f,q);
! 1600: base[i] = W_UMALLOC(DEG(m)); cpyum(m,base[i]);
! 1601: }
! 1602: v = W_UMALLOC(n); cpyum(f,v);
! 1603: DEG(w) = 1; COEF(w)[0] = 0; COEF(w)[1] = 1;
! 1604: x = W_UMALLOC(1); DEG(x) = 1; COEF(x)[0] = 0; COEF(x)[1] = 1;
! 1605: t = W_UMALLOC(n); s = W_UMALLOC(n); u = W_UMALLOC(n); g = W_UMALLOC(n);
! 1606: for ( j = 0, d = 1; 2*d <= n; d++ ) {
! 1607: /* fprintf(stderr,"d=%d\n",d); */
! 1608: for ( DEG(t) = -1, i = 0; i <= DEG(w); i++ )
! 1609: if ( COEF(w)[i] ) {
! 1610: Mulsum(mod,base[i],COEF(w)[i],s);
! 1611: addum(mod,s,t,u); cpyum(u,t);
! 1612: }
! 1613: cpyum(t,w); cpyum(v,s); subum(mod,w,x,t); Gcdum(mod,s,t,g);
! 1614: if ( DEG(g) >= 1 )
! 1615: return 0;
! 1616: }
! 1617: return 1;
! 1618: }
! 1619:
! 1620: int berlekamp(UM p,int mod,int df,UM *tab,UM *r)
! 1621: {
! 1622: int n,i,j,k,nf,d,nr;
! 1623: int **mat;
! 1624: int *ind;
! 1625: UM mp,w,q,gcd,w1,w2;
! 1626: UM *u;
! 1627: int *root;
! 1628:
! 1629: n = DEG(p);
! 1630: ind = ALLOCA(n*sizeof(int));
! 1631: make_qmat(p,mod,tab,&mat);
! 1632: null_mod(mat,mod,n,ind);
! 1633: for ( i = 0, d = 0; i < n; i++ )
! 1634: if ( ind[i] )
! 1635: d++;
! 1636: if ( d == 1 ) {
! 1637: r[0] = UMALLOC(n); cpyum(p,r[0]); return 1;
! 1638: }
! 1639: u = ALLOCA(d*sizeof(UM *));
! 1640: r[0] = UMALLOC(n); cpyum(p,r[0]);
! 1641: null_to_sol(mat,ind,mod,n,u);
! 1642: root = ALLOCA(d*sizeof(int));
! 1643: w = W_UMALLOC(n); mp = W_UMALLOC(d);
! 1644: w1 = W_UMALLOC(n); w2 = W_UMALLOC(n);
! 1645: for ( i = 1, nf = 1; i < d; i++ ) {
! 1646: minipoly_mod(mod,u[i],p,mp);
! 1647: nr = find_root(mod,mp,root);
! 1648: for ( j = 0; j < nf; j++ ) {
! 1649: if ( DEG(r[j]) == df )
! 1650: continue;
! 1651: for ( k = 0; k < nr; k++ ) {
! 1652: cpyum(u[i],w1); cpyum(r[j],w2);
! 1653: COEF(w1)[0] = (mod-root[k]) % mod;
! 1654: gcdum(mod,w1,w2,w);
! 1655: if ( DEG(w) > 0 && DEG(w) < DEG(r[j]) ) {
! 1656: gcd = UMALLOC(DEG(w));
! 1657: q = UMALLOC(DEG(r[j])-DEG(w));
! 1658: cpyum(w,gcd); divum(mod,r[j],w,q);
! 1659: r[j] = q; r[nf++] = gcd;
! 1660: }
! 1661: if ( nf == d )
! 1662: return d;
! 1663: }
! 1664: }
! 1665: }
! 1666: /* NOTREACHED */
! 1667: error("berlekamp : cannot happen");
! 1668: return -1;
! 1669: }
! 1670:
! 1671: void minipoly_mod(int mod,UM f,UM p,UM mp)
! 1672: {
! 1673: struct p_pair *list,*l,*l1,*lprev;
! 1674: int n,d;
! 1675: UM u,p0,p1,np0,np1,q,w;
! 1676:
! 1677: list = (struct p_pair *)MALLOC(sizeof(struct p_pair));
! 1678: list->p0 = u = W_UMALLOC(0); DEG(u) = 0; COEF(u)[0] = 1;
! 1679: list->p1 = W_UMALLOC(0); cpyum(list->p0,list->p1);
! 1680: list->next = 0;
! 1681: n = DEG(p); w = UMALLOC(2*n);
! 1682: p0 = UMALLOC(2*n); cpyum(list->p0,p0);
! 1683: p1 = UMALLOC(2*n); cpyum(list->p1,p1);
! 1684: q = W_UMALLOC(2*n);
! 1685: while ( 1 ) {
! 1686: COEF(p0)[DEG(p0)] = 0; DEG(p0)++; COEF(p0)[DEG(p0)] = 1;
! 1687: mulum(mod,f,p1,w); DEG(w) = divum(mod,w,p,q); cpyum(w,p1);
! 1688: np0 = UMALLOC(n); np1 = UMALLOC(n);
! 1689: lnf_mod(mod,n,p0,p1,list,np0,np1);
! 1690: if ( DEG(np1) < 0 ) {
! 1691: cpyum(np0,mp); return;
! 1692: } else {
! 1693: l1 = (struct p_pair *)MALLOC(sizeof(struct p_pair));
! 1694: l1->p0 = np0; l1->p1 = np1;
! 1695: for ( l = list, lprev = 0, d = DEG(np1);
! 1696: l && (DEG(l->p1) > d); lprev = l, l = l->next );
! 1697: if ( lprev ) {
! 1698: lprev->next = l1; l1->next = l;
! 1699: } else {
! 1700: l1->next = list; list = l1;
! 1701: }
! 1702: }
! 1703: }
! 1704: }
! 1705:
! 1706: void lnf_mod(int mod,int n,UM p0,UM p1,struct p_pair *list,UM np0,UM np1)
! 1707: {
! 1708: int inv,h,d1;
! 1709: UM t0,t1,s0,s1;
! 1710: struct p_pair *l;
! 1711:
! 1712: cpyum(p0,np0); cpyum(p1,np1);
! 1713: t0 = W_UMALLOC(n); t1 = W_UMALLOC(n);
! 1714: s0 = W_UMALLOC(n); s1 = W_UMALLOC(n);
! 1715: for ( l = list; l; l = l->next ) {
! 1716: d1 = DEG(np1);
! 1717: if ( d1 == DEG(l->p1) ) {
! 1718: inv = invm((mod-COEF(l->p1)[d1])%mod,mod);
! 1719: h = dmar(COEF(np1)[d1],inv,0,mod);
! 1720: mulsum(mod,l->p0,h,t0); addum(mod,np0,t0,s0); cpyum(s0,np0);
! 1721: mulsum(mod,l->p1,h,t1); addum(mod,np1,t1,s1); cpyum(s1,np1);
! 1722: }
! 1723: }
! 1724: }
! 1725:
! 1726: int find_root(int mod,UM p,int *root)
! 1727: {
! 1728: UM *r;
! 1729: int i,j;
! 1730:
! 1731: r = ALLOCA((DEG(p)+1)*sizeof(UM));
! 1732: ddd(mod,p,r);
! 1733: for ( i = 0, j = 0; r[i]; i++ )
! 1734: if ( DEG(r[i]) == 1 )
! 1735: root[j++] = (mod - COEF(r[i])[0]) % mod;
! 1736: return j;
! 1737: }
! 1738:
! 1739: void showum(UM p)
! 1740: {
! 1741: int i;
! 1742: int *c;
! 1743:
! 1744: for ( i = DEG(p), c = COEF(p); i >= 0; i-- )
! 1745: if ( c[i] )
! 1746: printf("+%dx^%d",c[i],i);
! 1747: printf("\n");
! 1748: }
! 1749:
! 1750: void showumat(int **mat,int n)
! 1751: {
! 1752: int i,j;
! 1753:
! 1754: for ( i = 0; i < n; i++ ) {
! 1755: for ( j = 0; j < n; j++ )
! 1756: printf("%d ",mat[i][j]);
! 1757: printf("\n");
! 1758: }
! 1759: }
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