Annotation of OpenXM_contrib2/asir2000/engine/nd.c, Revision 1.55
1.55 ! noro 1: /* $OpenXM: OpenXM_contrib2/asir2000/engine/nd.c,v 1.54 2003/08/31 07:42:23 noro Exp $ */
1.2 noro 2:
1.1 noro 3: #include "ca.h"
4: #include "inline.h"
5:
6: #if defined(__GNUC__)
7: #define INLINE inline
8: #elif defined(VISUAL)
9: #define INLINE __inline
10: #else
11: #define INLINE
12: #endif
13:
1.47 noro 14: #define USE_GEOBUCKET 1
1.28 noro 15:
1.1 noro 16: #define REDTAB_LEN 32003
17:
1.40 noro 18: /* GeoBucket for polynomial addition */
19:
1.1 noro 20: typedef struct oPGeoBucket {
21: int m;
22: struct oND *body[32];
23: } *PGeoBucket;
24:
1.40 noro 25: /* distributed polynomial; linked list rep. */
1.1 noro 26: typedef struct oND {
27: struct oNM *body;
28: int nv;
1.31 noro 29: int len;
1.1 noro 30: int sugar;
31: } *ND;
32:
1.40 noro 33: /* distributed polynomial; array rep. */
1.3 noro 34: typedef struct oNDV {
35: struct oNMV *body;
36: int nv;
1.31 noro 37: int len;
1.3 noro 38: int sugar;
39: } *NDV;
40:
1.40 noro 41: /* monomial; linked list rep. */
1.1 noro 42: typedef struct oNM {
43: struct oNM *next;
1.14 noro 44: union {
45: int m;
46: Q z;
47: } c;
1.1 noro 48: unsigned int dl[1];
49: } *NM;
50:
1.40 noro 51: /* monomial; array rep. */
1.3 noro 52: typedef struct oNMV {
1.14 noro 53: union {
54: int m;
55: Q z;
56: } c;
1.3 noro 57: unsigned int dl[1];
58: } *NMV;
59:
1.40 noro 60: /* history of reducer */
1.13 noro 61: typedef struct oRHist {
62: struct oRHist *next;
63: int index;
1.34 noro 64: int sugar;
1.13 noro 65: unsigned int dl[1];
66: } *RHist;
67:
1.40 noro 68: /* S-pair list */
1.1 noro 69: typedef struct oND_pairs {
70: struct oND_pairs *next;
71: int i1,i2;
1.34 noro 72: int sugar;
1.1 noro 73: unsigned int lcm[1];
74: } *ND_pairs;
75:
1.42 noro 76: /* index and shift count for each exponent */
77: typedef struct oEPOS {
78: int i; /* index */
79: int s; /* shift */
80: } *EPOS;
81:
1.43 noro 82: typedef struct oBlockMask {
83: int n;
84: struct order_pair *order_pair;
85: unsigned int **mask;
86: } *BlockMask;
87:
1.45 noro 88: typedef struct oBaseSet {
89: int len;
90: NDV *ps;
91: unsigned int **bound;
92: } *BaseSet;
93:
94: int (*ndl_compare_function)(unsigned int *a1,unsigned int *a2);
1.32 noro 95:
1.42 noro 96: static double nd_scale=2;
1.1 noro 97: static unsigned int **nd_bound;
1.42 noro 98: static struct order_spec *nd_ord;
99: static EPOS nd_epos;
1.43 noro 100: static BlockMask nd_blockmask;
1.42 noro 101: static int nd_nvar;
102: static int nd_isrlex;
103: static int nd_epw,nd_bpe,nd_wpd,nd_exporigin;
104: static unsigned int nd_mask[32];
105: static unsigned int nd_mask0,nd_mask1;
106:
107: static NM _nm_free_list;
108: static ND _nd_free_list;
109: static ND_pairs _ndp_free_list;
1.20 noro 110:
111: static NDV *nd_ps;
1.53 noro 112: static NDV *nd_ps_trace;
1.42 noro 113: static RHist *nd_psh;
114: static int nd_psn,nd_pslen;
1.20 noro 115:
1.42 noro 116: static RHist *nd_red;
1.1 noro 117:
1.42 noro 118: static int nd_found,nd_create,nd_notfirst;
119: static int nm_adv;
120: static int nmv_adv;
121: static int nd_dcomp;
1.1 noro 122:
1.55 ! noro 123: extern int Top,Reverse,dp_nelim,do_weyl;
1.1 noro 124:
1.40 noro 125: /* fundamental macros */
1.34 noro 126: #define TD(d) (d[0])
1.1 noro 127: #define HDL(d) ((d)->body->dl)
1.34 noro 128: #define HTD(d) (TD(HDL(d)))
1.14 noro 129: #define HCM(d) ((d)->body->c.m)
1.16 noro 130: #define HCQ(d) ((d)->body->c.z)
1.14 noro 131: #define CM(a) ((a)->c.m)
1.16 noro 132: #define CQ(a) ((a)->c.z)
1.14 noro 133: #define DL(a) ((a)->dl)
134: #define SG(a) ((a)->sugar)
135: #define LEN(a) ((a)->len)
1.33 noro 136: #define LCM(a) ((a)->lcm)
1.42 noro 137: #define GET_EXP(d,a) (((d)[nd_epos[a].i]>>nd_epos[a].s)&nd_mask0)
138: #define PUT_EXP(r,a,e) ((r)[nd_epos[a].i] |= ((e)<<nd_epos[a].s))
1.45 noro 139: #define XOR_EXP(r,a,e) ((r)[nd_epos[a].i] ^= ((e)<<nd_epos[a].s))
1.1 noro 140:
1.40 noro 141: /* macros for term comparison */
1.34 noro 142: #define TD_DL_COMPARE(d1,d2)\
1.41 noro 143: (TD(d1)>TD(d2)?1:(TD(d1)<TD(d2)?-1:ndl_lex_compare(d1,d2)))
1.43 noro 144: #if 0
1.34 noro 145: #define DL_COMPARE(d1,d2)\
1.43 noro 146: (nd_dcomp>0?TD_DL_COMPARE(d1,d2)\
147: :(nd_dcomp==0?ndl_lex_compare(d1,d2)\
148: :(nd_blockmask?ndl_block_compare(d1,d2)\
1.45 noro 149: :(*ndl_compare_function)(d1,d2))))
1.43 noro 150: #else
151: #define DL_COMPARE(d1,d2)\
1.45 noro 152: (nd_dcomp>0?TD_DL_COMPARE(d1,d2):(*ndl_compare_function)(d1,d2))
1.43 noro 153: #endif
1.34 noro 154:
1.40 noro 155: /* allocators */
1.15 noro 156: #define NEWRHist(r) \
1.41 noro 157: ((r)=(RHist)MALLOC(sizeof(struct oRHist)+(nd_wpd-1)*sizeof(unsigned int)))
1.34 noro 158: #define NEWND_pairs(m) \
159: if(!_ndp_free_list)_NDP_alloc();\
160: (m)=_ndp_free_list; _ndp_free_list = NEXT(_ndp_free_list)
161: #define NEWNM(m)\
162: if(!_nm_free_list)_NM_alloc();\
163: (m)=_nm_free_list; _nm_free_list = NEXT(_nm_free_list)
164: #define MKND(n,m,len,d)\
165: if(!_nd_free_list)_ND_alloc();\
166: (d)=_nd_free_list; _nd_free_list = (ND)BDY(_nd_free_list);\
167: NV(d)=(n); LEN(d)=(len); BDY(d)=(m)
1.40 noro 168: #define NEWNDV(d) ((d)=(NDV)MALLOC(sizeof(struct oNDV)))
169: #define MKNDV(n,m,l,d) NEWNDV(d); NV(d)=(n); BDY(d)=(m); LEN(d) = l;
1.1 noro 170:
1.40 noro 171: /* allocate and link a new object */
1.13 noro 172: #define NEXTRHist(r,c) \
173: if(!(r)){NEWRHist(r);(c)=(r);}else{NEWRHist(NEXT(c));(c)=NEXT(c);}
1.1 noro 174: #define NEXTNM(r,c) \
175: if(!(r)){NEWNM(r);(c)=(r);}else{NEWNM(NEXT(c));(c)=NEXT(c);}
176: #define NEXTNM2(r,c,s) \
177: if(!(r)){(c)=(r)=(s);}else{NEXT(c)=(s);(c)=(s);}
1.40 noro 178: #define NEXTND_pairs(r,c) \
179: if(!(r)){NEWND_pairs(r);(c)=(r);}else{NEWND_pairs(NEXT(c));(c)=NEXT(c);}
1.34 noro 180:
1.40 noro 181: /* deallocators */
1.1 noro 182: #define FREENM(m) NEXT(m)=_nm_free_list; _nm_free_list=(m)
183: #define FREENDP(m) NEXT(m)=_ndp_free_list; _ndp_free_list=(m)
184: #define FREEND(m) BDY(m)=(NM)_nd_free_list; _nd_free_list=(m)
185:
1.40 noro 186: /* macro for increasing pointer to NMV */
187: #define NMV_ADV(m) (m = (NMV)(((char *)m)+nmv_adv))
188:
189: /* external functions */
190: void GC_gcollect();
191: NODE append_one(NODE,int);
1.1 noro 192:
1.40 noro 193: /* manipulation of coefficients */
1.20 noro 194: void nd_removecont(int mod,ND p);
1.21 noro 195: void nd_removecont2(ND p1,ND p2);
1.40 noro 196: void removecont_array(Q *c,int n);
197:
198: /* GeoBucket functions */
1.25 noro 199: ND normalize_pbucket(int mod,PGeoBucket g);
200: int head_pbucket(int mod,PGeoBucket g);
1.26 noro 201: int head_pbucket_q(PGeoBucket g);
1.31 noro 202: void add_pbucket(int mod,PGeoBucket g,ND d);
1.25 noro 203: void free_pbucket(PGeoBucket b);
1.26 noro 204: void mulq_pbucket(PGeoBucket g,Q c);
1.25 noro 205: PGeoBucket create_pbucket();
1.20 noro 206:
1.40 noro 207: /* manipulation of pairs and bases */
1.39 noro 208: int nd_newps(int mod,ND a,ND aq);
1.40 noro 209: ND_pairs nd_newpairs( NODE g, int t );
1.1 noro 210: ND_pairs nd_minp( ND_pairs d, ND_pairs *prest );
211: NODE update_base(NODE nd,int ndp);
1.40 noro 212: ND_pairs update_pairs( ND_pairs d, NODE /* of index */ g, int t);
213: ND_pairs equivalent_pairs( ND_pairs d1, ND_pairs *prest );
214: ND_pairs crit_B( ND_pairs d, int s );
215: ND_pairs crit_M( ND_pairs d1 );
216: ND_pairs crit_F( ND_pairs d1 );
1.1 noro 217: int crit_2( int dp1, int dp2 );
1.40 noro 218:
219: /* top level functions */
220: void nd_gr(LIST f,LIST v,int m,struct order_spec *ord,LIST *rp);
1.52 noro 221: void nd_gr_trace(LIST f,LIST v,int trace,int homo,struct order_spec *ord,LIST *rp);
1.27 noro 222: NODE nd_gb(int m,int checkonly);
1.23 noro 223: NODE nd_gb_trace(int m);
1.40 noro 224:
225: /* ndl functions */
1.39 noro 226: int ndl_weight(unsigned int *d);
1.43 noro 227: int ndl_weight_mask(unsigned int *d,int i);
1.34 noro 228: void ndl_dehomogenize(unsigned int *p);
1.43 noro 229: void ndl_reconstruct(int obpe,EPOS oepos,unsigned int *d,unsigned int *r);
1.40 noro 230: INLINE int ndl_reducible(unsigned int *d1,unsigned int *d2);
231: INLINE int ndl_lex_compare(unsigned int *d1,unsigned int *d2);
1.43 noro 232: INLINE int ndl_block_compare(unsigned int *d1,unsigned int *d2);
1.40 noro 233: INLINE int ndl_equal(unsigned int *d1,unsigned int *d2);
234: INLINE void ndl_copy(unsigned int *d1,unsigned int *d2);
235: INLINE void ndl_add(unsigned int *d1,unsigned int *d2,unsigned int *d);
1.55 ! noro 236: INLINE void ndl_addto(unsigned int *d1,unsigned int *d2);
1.40 noro 237: INLINE void ndl_sub(unsigned int *d1,unsigned int *d2,unsigned int *d);
238: INLINE int ndl_hash_value(unsigned int *d);
1.45 noro 239:
240: /* normal forms */
1.40 noro 241: INLINE int nd_find_reducer(ND g);
242: INLINE int nd_find_reducer_direct(ND g,NDV *ps,int len);
1.53 noro 243: int nd_sp(int mod,int trace,ND_pairs p,ND *nf);
244: int nd_nf(int mod,ND g,NDV *ps,int full,ND *nf);
245: int nd_nf_pbucket(int mod,ND g,NDV *ps,int full,ND *nf);
1.45 noro 246: int nd_nf_direct(int mod,ND g,BaseSet base,int full,ND *rp);
1.40 noro 247:
248: /* finalizers */
249: NODE nd_reducebase(NODE x);
1.23 noro 250: NODE nd_reduceall(int m,NODE f);
1.27 noro 251: int nd_gbcheck(int m,NODE f);
252: int nd_membercheck(int m,NODE f);
1.40 noro 253:
254: /* allocators */
255: void nd_free_private_storage();
256: void _NM_alloc();
257: void _ND_alloc();
1.1 noro 258: void nd_free(ND p);
1.40 noro 259: void nd_free_redlist();
260:
261: /* printing */
1.1 noro 262: void ndl_print(unsigned int *dl);
263: void nd_print(ND p);
1.16 noro 264: void nd_print_q(ND p);
1.1 noro 265: void ndp_print(ND_pairs d);
1.40 noro 266:
267:
268: /* setup, reconstruct */
269: void nd_init_ord(struct order_spec *spec);
270: ND_pairs nd_reconstruct(int mod,int trace,ND_pairs ndp);
271: void nd_reconstruct_direct(int mod,NDV *ps,int len);
272: void nd_setup(int mod,int trace,NODE f);
273: void nd_setup_parameters();
1.43 noro 274: BlockMask nd_create_blockmask(struct order_spec *ord);
1.48 noro 275: int nd_get_exporigin(struct order_spec *ord);
1.40 noro 276:
277: /* ND functions */
278: int nd_check_candidate(NODE input,NODE cand);
279: void nd_mul_c(int mod,ND p,int mul);
280: void nd_mul_c_q(ND p,Q mul);
281: ND nd_remove_head(ND p);
1.1 noro 282: int nd_length(ND p);
1.34 noro 283: void nd_append_red(unsigned int *d,int i);
1.45 noro 284: unsigned int *ndv_compute_bound(NDV p);
1.5 noro 285: unsigned int *dp_compute_bound(DP p);
1.6 noro 286: ND nd_copy(ND p);
1.40 noro 287: ND nd_add(int mod,ND p1,ND p2);
288: ND nd_add_q(ND p1,ND p2);
1.41 noro 289: INLINE int nd_length(ND p);
1.4 noro 290:
1.40 noro 291: /* NDV functions */
1.55 ! noro 292: ND weyl_ndv_mul_nm(int mod,NM m0,NDV p);
! 293: void weyl_mul_nm_nmv(int n,int mod,NM m0,NMV m1,NM *tab,int tlen);
! 294: void weyl_mul_nm_nmv_q(int n,NM m0,NMV m1,NM *tab,int tlen);
1.19 noro 295: void ndv_mul_c(int mod,NDV p,int mul);
1.40 noro 296: void ndv_mul_c_q(NDV p,Q mul);
1.43 noro 297: void ndv_realloc(NDV p,int obpe,int oadv,EPOS oepos);
1.55 ! noro 298: ND ndv_mul_nm(int mod,NM m0,NDV p);
1.45 noro 299: void ndv_dehomogenize(NDV p,struct order_spec *spec);
1.40 noro 300: void ndv_removecont(int mod,NDV p);
301: void ndv_print(NDV p);
302: void ndv_print_q(NDV p);
303: void ndv_free(NDV p);
304:
305: /* converters */
1.16 noro 306: NDV ndtondv(int mod,ND p);
1.23 noro 307: ND ndvtond(int mod,NDV p);
1.16 noro 308: NDV dptondv(int,DP);
309: DP ndvtodp(int,NDV);
1.17 noro 310: ND dptond(int,DP);
311: DP ndtodp(int,ND);
1.1 noro 312:
313: void nd_free_private_storage()
314: {
315: _nd_free_list = 0;
316: _nm_free_list = 0;
1.5 noro 317: _ndp_free_list = 0;
1.13 noro 318: bzero(nd_red,sizeof(REDTAB_LEN*sizeof(RHist)));
1.1 noro 319: GC_gcollect();
320: }
321:
322: void _NM_alloc()
323: {
324: NM p;
325: int i;
326:
1.11 noro 327: for ( i = 0; i < 1024; i++ ) {
1.41 noro 328: p = (NM)GC_malloc(sizeof(struct oNM)+(nd_wpd-1)*sizeof(unsigned int));
1.1 noro 329: p->next = _nm_free_list; _nm_free_list = p;
330: }
331: }
332:
333: void _ND_alloc()
334: {
335: ND p;
336: int i;
337:
338: for ( i = 0; i < 1024; i++ ) {
339: p = (ND)GC_malloc(sizeof(struct oND));
340: p->body = (NM)_nd_free_list; _nd_free_list = p;
341: }
342: }
343:
344: void _NDP_alloc()
345: {
346: ND_pairs p;
347: int i;
348:
1.11 noro 349: for ( i = 0; i < 1024; i++ ) {
1.1 noro 350: p = (ND_pairs)GC_malloc(sizeof(struct oND_pairs)
1.41 noro 351: +(nd_wpd-1)*sizeof(unsigned int));
1.1 noro 352: p->next = _ndp_free_list; _ndp_free_list = p;
353: }
354: }
355:
1.30 noro 356: INLINE int nd_length(ND p)
1.1 noro 357: {
358: NM m;
359: int i;
360:
361: if ( !p )
362: return 0;
363: else {
364: for ( i = 0, m = BDY(p); m; m = NEXT(m), i++ );
365: return i;
366: }
367: }
368:
1.35 noro 369: INLINE int ndl_reducible(unsigned int *d1,unsigned int *d2)
1.1 noro 370: {
371: unsigned int u1,u2;
372: int i,j;
373:
1.34 noro 374: if ( TD(d1) < TD(d2) ) return 0;
1.1 noro 375: switch ( nd_bpe ) {
376: case 4:
1.41 noro 377: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 378: u1 = d1[i]; u2 = d2[i];
379: if ( (u1&0xf0000000) < (u2&0xf0000000) ) return 0;
380: if ( (u1&0xf000000) < (u2&0xf000000) ) return 0;
381: if ( (u1&0xf00000) < (u2&0xf00000) ) return 0;
382: if ( (u1&0xf0000) < (u2&0xf0000) ) return 0;
383: if ( (u1&0xf000) < (u2&0xf000) ) return 0;
384: if ( (u1&0xf00) < (u2&0xf00) ) return 0;
385: if ( (u1&0xf0) < (u2&0xf0) ) return 0;
386: if ( (u1&0xf) < (u2&0xf) ) return 0;
387: }
388: return 1;
389: break;
390: case 6:
1.41 noro 391: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 392: u1 = d1[i]; u2 = d2[i];
393: if ( (u1&0x3f000000) < (u2&0x3f000000) ) return 0;
394: if ( (u1&0xfc0000) < (u2&0xfc0000) ) return 0;
395: if ( (u1&0x3f000) < (u2&0x3f000) ) return 0;
396: if ( (u1&0xfc0) < (u2&0xfc0) ) return 0;
397: if ( (u1&0x3f) < (u2&0x3f) ) return 0;
398: }
399: return 1;
400: break;
401: case 8:
1.41 noro 402: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 403: u1 = d1[i]; u2 = d2[i];
404: if ( (u1&0xff000000) < (u2&0xff000000) ) return 0;
405: if ( (u1&0xff0000) < (u2&0xff0000) ) return 0;
406: if ( (u1&0xff00) < (u2&0xff00) ) return 0;
407: if ( (u1&0xff) < (u2&0xff) ) return 0;
408: }
409: return 1;
410: break;
411: case 16:
1.41 noro 412: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 413: u1 = d1[i]; u2 = d2[i];
414: if ( (u1&0xffff0000) < (u2&0xffff0000) ) return 0;
415: if ( (u1&0xffff) < (u2&0xffff) ) return 0;
416: }
417: return 1;
418: break;
419: case 32:
1.41 noro 420: for ( i = nd_exporigin; i < nd_wpd; i++ )
1.1 noro 421: if ( d1[i] < d2[i] ) return 0;
422: return 1;
423: break;
424: default:
1.41 noro 425: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 426: u1 = d1[i]; u2 = d2[i];
427: for ( j = 0; j < nd_epw; j++ )
428: if ( (u1&nd_mask[j]) < (u2&nd_mask[j]) ) return 0;
429: }
430: return 1;
431: }
432: }
433:
1.34 noro 434: void ndl_dehomogenize(unsigned int *d)
1.23 noro 435: {
436: unsigned int mask;
437: unsigned int h;
1.31 noro 438: int i,bits;
1.23 noro 439:
1.44 noro 440: if ( nd_blockmask ) {
441: h = GET_EXP(d,nd_nvar-1);
1.45 noro 442: XOR_EXP(d,nd_nvar-1,h);
1.44 noro 443: TD(d) -= h;
444: d[nd_exporigin-1] -= h;
445: } else {
446: if ( nd_isrlex ) {
447: if ( nd_bpe == 32 ) {
448: h = d[nd_exporigin];
449: for ( i = nd_exporigin+1; i < nd_wpd; i++ )
450: d[i-1] = d[i];
451: d[i-1] = 0;
452: TD(d) -= h;
453: } else {
454: bits = nd_epw*nd_bpe;
455: mask = bits==32?0xffffffff:((1<<(nd_epw*nd_bpe))-1);
456: h = (d[nd_exporigin]>>((nd_epw-1)*nd_bpe))&nd_mask0;
457: for ( i = nd_exporigin; i < nd_wpd; i++ )
458: d[i] = ((d[i]<<nd_bpe)&mask)
459: |(i+1<nd_wpd?((d[i+1]>>((nd_epw-1)*nd_bpe))&nd_mask0):0);
460: TD(d) -= h;
461: }
1.45 noro 462: } else {
463: h = GET_EXP(d,nd_nvar-1);
464: XOR_EXP(d,nd_nvar-1,h);
465: TD(d) -= h;
466: }
1.44 noro 467: }
1.23 noro 468: }
469:
1.1 noro 470: void ndl_lcm(unsigned int *d1,unsigned *d2,unsigned int *d)
471: {
472: unsigned int t1,t2,u,u1,u2;
1.43 noro 473: int i,j,l;
1.1 noro 474:
475: switch ( nd_bpe ) {
476: case 4:
1.41 noro 477: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 478: u1 = d1[i]; u2 = d2[i];
479: t1 = (u1&0xf0000000); t2 = (u2&0xf0000000); u = t1>t2?t1:t2;
480: t1 = (u1&0xf000000); t2 = (u2&0xf000000); u |= t1>t2?t1:t2;
481: t1 = (u1&0xf00000); t2 = (u2&0xf00000); u |= t1>t2?t1:t2;
482: t1 = (u1&0xf0000); t2 = (u2&0xf0000); u |= t1>t2?t1:t2;
483: t1 = (u1&0xf000); t2 = (u2&0xf000); u |= t1>t2?t1:t2;
484: t1 = (u1&0xf00); t2 = (u2&0xf00); u |= t1>t2?t1:t2;
485: t1 = (u1&0xf0); t2 = (u2&0xf0); u |= t1>t2?t1:t2;
486: t1 = (u1&0xf); t2 = (u2&0xf); u |= t1>t2?t1:t2;
487: d[i] = u;
488: }
489: break;
490: case 6:
1.41 noro 491: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 492: u1 = d1[i]; u2 = d2[i];
493: t1 = (u1&0x3f000000); t2 = (u2&0x3f000000); u = t1>t2?t1:t2;
494: t1 = (u1&0xfc0000); t2 = (u2&0xfc0000); u |= t1>t2?t1:t2;
495: t1 = (u1&0x3f000); t2 = (u2&0x3f000); u |= t1>t2?t1:t2;
496: t1 = (u1&0xfc0); t2 = (u2&0xfc0); u |= t1>t2?t1:t2;
497: t1 = (u1&0x3f); t2 = (u2&0x3f); u |= t1>t2?t1:t2;
498: d[i] = u;
499: }
500: break;
501: case 8:
1.41 noro 502: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 503: u1 = d1[i]; u2 = d2[i];
504: t1 = (u1&0xff000000); t2 = (u2&0xff000000); u = t1>t2?t1:t2;
505: t1 = (u1&0xff0000); t2 = (u2&0xff0000); u |= t1>t2?t1:t2;
506: t1 = (u1&0xff00); t2 = (u2&0xff00); u |= t1>t2?t1:t2;
507: t1 = (u1&0xff); t2 = (u2&0xff); u |= t1>t2?t1:t2;
508: d[i] = u;
509: }
510: break;
511: case 16:
1.41 noro 512: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 513: u1 = d1[i]; u2 = d2[i];
514: t1 = (u1&0xffff0000); t2 = (u2&0xffff0000); u = t1>t2?t1:t2;
515: t1 = (u1&0xffff); t2 = (u2&0xffff); u |= t1>t2?t1:t2;
516: d[i] = u;
517: }
518: break;
519: case 32:
1.41 noro 520: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 521: u1 = d1[i]; u2 = d2[i];
522: d[i] = u1>u2?u1:u2;
523: }
524: break;
525: default:
1.41 noro 526: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 527: u1 = d1[i]; u2 = d2[i];
528: for ( j = 0, u = 0; j < nd_epw; j++ ) {
529: t1 = (u1&nd_mask[j]); t2 = (u2&nd_mask[j]); u |= t1>t2?t1:t2;
530: }
531: d[i] = u;
532: }
533: break;
534: }
1.39 noro 535: TD(d) = ndl_weight(d);
1.43 noro 536: if ( nd_blockmask ) {
537: l = nd_blockmask->n;
538: for ( j = 0; j < l; j++ )
539: d[j+1] = ndl_weight_mask(d,j);
540: }
1.1 noro 541: }
542:
1.39 noro 543: int ndl_weight(unsigned int *d)
1.1 noro 544: {
545: unsigned int t,u;
546: int i,j;
547:
1.41 noro 548: for ( t = 0, i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 549: u = d[i];
550: for ( j = 0; j < nd_epw; j++, u>>=nd_bpe )
551: t += (u&nd_mask0);
552: }
553: return t;
554: }
555:
1.43 noro 556: int ndl_weight_mask(unsigned int *d,int index)
557: {
558: unsigned int t,u;
559: unsigned int *mask;
560: int i,j;
561:
562: mask = nd_blockmask->mask[index];
563: for ( t = 0, i = nd_exporigin; i < nd_wpd; i++ ) {
564: u = d[i]&mask[i];
565: for ( j = 0; j < nd_epw; j++, u>>=nd_bpe )
566: t += (u&nd_mask0);
567: }
568: return t;
569: }
570:
571: int ndl_lex_compare(unsigned int *d1,unsigned int *d2)
1.1 noro 572: {
573: int i;
574:
1.41 noro 575: d1 += nd_exporigin;
576: d2 += nd_exporigin;
577: for ( i = nd_exporigin; i < nd_wpd; i++, d1++, d2++ )
1.1 noro 578: if ( *d1 > *d2 )
1.32 noro 579: return nd_isrlex ? -1 : 1;
1.1 noro 580: else if ( *d1 < *d2 )
1.32 noro 581: return nd_isrlex ? 1 : -1;
1.1 noro 582: return 0;
583: }
584:
1.43 noro 585: int ndl_block_compare(unsigned int *d1,unsigned int *d2)
586: {
587: int i,l,j,ord_o,ord_l;
588: struct order_pair *op;
1.44 noro 589: unsigned int t1,t2,m;
1.43 noro 590: unsigned int *mask;
591:
592: l = nd_blockmask->n;
593: op = nd_blockmask->order_pair;
594: for ( j = 0; j < l; j++ ) {
595: mask = nd_blockmask->mask[j];
596: ord_o = op[j].order;
597: if ( ord_o < 2 )
1.44 noro 598: if ( (t1=d1[j+1]) > (t2=d2[j+1]) ) return 1;
599: else if ( t1 < t2 ) return -1;
1.43 noro 600: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.44 noro 601: m = mask[i];
602: t1 = d1[i]&m;
603: t2 = d2[i]&m;
1.43 noro 604: if ( t1 > t2 )
605: return !ord_o ? -1 : 1;
606: else if ( t1 < t2 )
607: return !ord_o ? 1 : -1;
608: }
609: }
610: return 0;
611: }
612:
1.1 noro 613: INLINE int ndl_equal(unsigned int *d1,unsigned int *d2)
614: {
615: int i;
616:
1.41 noro 617: for ( i = 0; i < nd_wpd; i++ )
1.34 noro 618: if ( *d1++ != *d2++ )
1.1 noro 619: return 0;
620: return 1;
621: }
622:
1.6 noro 623: INLINE void ndl_copy(unsigned int *d1,unsigned int *d2)
624: {
625: int i;
626:
627: switch ( nd_wpd ) {
1.41 noro 628: case 2:
1.34 noro 629: TD(d2) = TD(d1);
630: d2[1] = d1[1];
1.6 noro 631: break;
1.41 noro 632: case 3:
1.34 noro 633: TD(d2) = TD(d1);
1.6 noro 634: d2[1] = d1[1];
1.34 noro 635: d2[2] = d1[2];
1.6 noro 636: break;
637: default:
1.41 noro 638: for ( i = 0; i < nd_wpd; i++ )
1.6 noro 639: d2[i] = d1[i];
640: break;
641: }
642: }
643:
1.1 noro 644: INLINE void ndl_add(unsigned int *d1,unsigned int *d2,unsigned int *d)
645: {
646: int i;
647:
1.43 noro 648: #if 1
1.6 noro 649: switch ( nd_wpd ) {
1.41 noro 650: case 2:
651: TD(d) = TD(d1)+TD(d2);
1.34 noro 652: d[1] = d1[1]+d2[1];
1.6 noro 653: break;
1.41 noro 654: case 3:
655: TD(d) = TD(d1)+TD(d2);
1.6 noro 656: d[1] = d1[1]+d2[1];
1.34 noro 657: d[2] = d1[2]+d2[2];
1.6 noro 658: break;
659: default:
1.43 noro 660: for ( i = 0; i < nd_wpd; i++ ) d[i] = d1[i]+d2[i];
1.6 noro 661: break;
662: }
1.43 noro 663: #else
664: for ( i = 0; i < nd_wpd; i++ ) d[i] = d1[i]+d2[i];
665: #endif
1.6 noro 666: }
667:
1.55 ! noro 668: /* d1 += d2 */
! 669: INLINE void ndl_addto(unsigned int *d1,unsigned int *d2)
! 670: {
! 671: int i;
! 672:
! 673: #if 1
! 674: switch ( nd_wpd ) {
! 675: case 2:
! 676: TD(d1) += TD(d2);
! 677: d1[1] += d2[1];
! 678: break;
! 679: case 3:
! 680: TD(d1) += TD(d2);
! 681: d1[1] += d2[1];
! 682: d1[2] += d2[2];
! 683: break;
! 684: default:
! 685: for ( i = 0; i < nd_wpd; i++ ) d1[i] += d2[i];
! 686: break;
! 687: }
! 688: #else
! 689: for ( i = 0; i < nd_wpd; i++ ) d1[i] += d2[i];
! 690: #endif
! 691: }
! 692:
1.34 noro 693: INLINE void ndl_sub(unsigned int *d1,unsigned int *d2,unsigned int *d)
1.6 noro 694: {
695: int i;
696:
1.43 noro 697: for ( i = 0; i < nd_wpd; i++ ) d[i] = d1[i]-d2[i];
1.1 noro 698: }
699:
700: int ndl_disjoint(unsigned int *d1,unsigned int *d2)
701: {
702: unsigned int t1,t2,u,u1,u2;
703: int i,j;
704:
705: switch ( nd_bpe ) {
706: case 4:
1.41 noro 707: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 708: u1 = d1[i]; u2 = d2[i];
709: t1 = u1&0xf0000000; t2 = u2&0xf0000000; if ( t1&&t2 ) return 0;
710: t1 = u1&0xf000000; t2 = u2&0xf000000; if ( t1&&t2 ) return 0;
711: t1 = u1&0xf00000; t2 = u2&0xf00000; if ( t1&&t2 ) return 0;
712: t1 = u1&0xf0000; t2 = u2&0xf0000; if ( t1&&t2 ) return 0;
713: t1 = u1&0xf000; t2 = u2&0xf000; if ( t1&&t2 ) return 0;
714: t1 = u1&0xf00; t2 = u2&0xf00; if ( t1&&t2 ) return 0;
715: t1 = u1&0xf0; t2 = u2&0xf0; if ( t1&&t2 ) return 0;
716: t1 = u1&0xf; t2 = u2&0xf; if ( t1&&t2 ) return 0;
717: }
718: return 1;
719: break;
720: case 6:
1.41 noro 721: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 722: u1 = d1[i]; u2 = d2[i];
723: t1 = u1&0x3f000000; t2 = u2&0x3f000000; if ( t1&&t2 ) return 0;
724: t1 = u1&0xfc0000; t2 = u2&0xfc0000; if ( t1&&t2 ) return 0;
725: t1 = u1&0x3f000; t2 = u2&0x3f000; if ( t1&&t2 ) return 0;
726: t1 = u1&0xfc0; t2 = u2&0xfc0; if ( t1&&t2 ) return 0;
727: t1 = u1&0x3f; t2 = u2&0x3f; if ( t1&&t2 ) return 0;
728: }
729: return 1;
730: break;
731: case 8:
1.41 noro 732: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 733: u1 = d1[i]; u2 = d2[i];
734: t1 = u1&0xff000000; t2 = u2&0xff000000; if ( t1&&t2 ) return 0;
735: t1 = u1&0xff0000; t2 = u2&0xff0000; if ( t1&&t2 ) return 0;
736: t1 = u1&0xff00; t2 = u2&0xff00; if ( t1&&t2 ) return 0;
737: t1 = u1&0xff; t2 = u2&0xff; if ( t1&&t2 ) return 0;
738: }
739: return 1;
740: break;
741: case 16:
1.41 noro 742: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 743: u1 = d1[i]; u2 = d2[i];
744: t1 = u1&0xffff0000; t2 = u2&0xffff0000; if ( t1&&t2 ) return 0;
745: t1 = u1&0xffff; t2 = u2&0xffff; if ( t1&&t2 ) return 0;
746: }
747: return 1;
748: break;
749: case 32:
1.41 noro 750: for ( i = nd_exporigin; i < nd_wpd; i++ )
1.1 noro 751: if ( d1[i] && d2[i] ) return 0;
752: return 1;
753: break;
754: default:
1.41 noro 755: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.1 noro 756: u1 = d1[i]; u2 = d2[i];
757: for ( j = 0; j < nd_epw; j++ ) {
758: if ( (u1&nd_mask0) && (u2&nd_mask0) ) return 0;
759: u1 >>= nd_bpe; u2 >>= nd_bpe;
760: }
761: }
762: return 1;
763: break;
764: }
765: }
766:
1.5 noro 767: int ndl_check_bound2(int index,unsigned int *d2)
1.1 noro 768: {
1.5 noro 769: unsigned int u2;
770: unsigned int *d1;
771: int i,j,ind,k;
1.1 noro 772:
1.5 noro 773: d1 = nd_bound[index];
774: ind = 0;
775: switch ( nd_bpe ) {
776: case 4:
1.41 noro 777: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.5 noro 778: u2 = d2[i];
779: if ( d1[ind++]+((u2>>28)&0xf) >= 0x10 ) return 1;
780: if ( d1[ind++]+((u2>>24)&0xf) >= 0x10 ) return 1;
781: if ( d1[ind++]+((u2>>20)&0xf) >= 0x10 ) return 1;
782: if ( d1[ind++]+((u2>>16)&0xf) >= 0x10 ) return 1;
783: if ( d1[ind++]+((u2>>12)&0xf) >= 0x10 ) return 1;
784: if ( d1[ind++]+((u2>>8)&0xf) >= 0x10 ) return 1;
785: if ( d1[ind++]+((u2>>4)&0xf) >= 0x10 ) return 1;
786: if ( d1[ind++]+(u2&0xf) >= 0x10 ) return 1;
787: }
788: return 0;
789: break;
790: case 6:
1.41 noro 791: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.5 noro 792: u2 = d2[i];
793: if ( d1[ind++]+((u2>>24)&0x3f) >= 0x40 ) return 1;
794: if ( d1[ind++]+((u2>>18)&0x3f) >= 0x40 ) return 1;
795: if ( d1[ind++]+((u2>>12)&0x3f) >= 0x40 ) return 1;
796: if ( d1[ind++]+((u2>>6)&0x3f) >= 0x40 ) return 1;
797: if ( d1[ind++]+(u2&0x3f) >= 0x40 ) return 1;
798: }
799: return 0;
800: break;
801: case 8:
1.41 noro 802: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.5 noro 803: u2 = d2[i];
804: if ( d1[ind++]+((u2>>24)&0xff) >= 0x100 ) return 1;
805: if ( d1[ind++]+((u2>>16)&0xff) >= 0x100 ) return 1;
806: if ( d1[ind++]+((u2>>8)&0xff) >= 0x100 ) return 1;
807: if ( d1[ind++]+(u2&0xff) >= 0x100 ) return 1;
808: }
809: return 0;
810: break;
811: case 16:
1.41 noro 812: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.5 noro 813: u2 = d2[i];
814: if ( d1[ind++]+((u2>>16)&0xffff) > 0x10000 ) return 1;
815: if ( d1[ind++]+(u2&0xffff) > 0x10000 ) return 1;
816: }
817: return 0;
818: break;
819: case 32:
1.41 noro 820: for ( i = nd_exporigin; i < nd_wpd; i++ )
1.5 noro 821: if ( d1[i]+d2[i]<d1[i] ) return 1;
822: return 0;
823: break;
824: default:
1.41 noro 825: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.5 noro 826: u2 = d2[i];
827: k = (nd_epw-1)*nd_bpe;
828: for ( j = 0; j < nd_epw; j++, k -= nd_bpe )
829: if ( d1[ind++]+((u2>>k)&nd_mask0) > nd_mask0 ) return 1;
830: }
831: return 0;
832: break;
833: }
1.1 noro 834: }
835:
1.23 noro 836: int ndl_check_bound2_direct(unsigned int *d1,unsigned int *d2)
837: {
1.45 noro 838: unsigned int u2;
839: int i,j,ind,k;
1.23 noro 840:
1.45 noro 841: ind = 0;
1.23 noro 842: switch ( nd_bpe ) {
843: case 4:
1.41 noro 844: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.45 noro 845: u2 = d2[i];
846: if ( d1[ind++]+((u2>>28)&0xf) >= 0x10 ) return 1;
847: if ( d1[ind++]+((u2>>24)&0xf) >= 0x10 ) return 1;
848: if ( d1[ind++]+((u2>>20)&0xf) >= 0x10 ) return 1;
849: if ( d1[ind++]+((u2>>16)&0xf) >= 0x10 ) return 1;
850: if ( d1[ind++]+((u2>>12)&0xf) >= 0x10 ) return 1;
851: if ( d1[ind++]+((u2>>8)&0xf) >= 0x10 ) return 1;
852: if ( d1[ind++]+((u2>>4)&0xf) >= 0x10 ) return 1;
853: if ( d1[ind++]+(u2&0xf) >= 0x10 ) return 1;
1.23 noro 854: }
855: return 0;
856: break;
857: case 6:
1.41 noro 858: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.45 noro 859: u2 = d2[i];
860: if ( d1[ind++]+((u2>>24)&0x3f) >= 0x40 ) return 1;
861: if ( d1[ind++]+((u2>>18)&0x3f) >= 0x40 ) return 1;
862: if ( d1[ind++]+((u2>>12)&0x3f) >= 0x40 ) return 1;
863: if ( d1[ind++]+((u2>>6)&0x3f) >= 0x40 ) return 1;
864: if ( d1[ind++]+(u2&0x3f) >= 0x40 ) return 1;
1.23 noro 865: }
866: return 0;
867: break;
868: case 8:
1.41 noro 869: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.45 noro 870: u2 = d2[i];
871: if ( d1[ind++]+((u2>>24)&0xff) >= 0x100 ) return 1;
872: if ( d1[ind++]+((u2>>16)&0xff) >= 0x100 ) return 1;
873: if ( d1[ind++]+((u2>>8)&0xff) >= 0x100 ) return 1;
874: if ( d1[ind++]+(u2&0xff) >= 0x100 ) return 1;
1.23 noro 875: }
876: return 0;
877: break;
878: case 16:
1.41 noro 879: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.45 noro 880: u2 = d2[i];
881: if ( d1[ind++]+((u2>>16)&0xffff) > 0x10000 ) return 1;
882: if ( d1[ind++]+(u2&0xffff) > 0x10000 ) return 1;
1.23 noro 883: }
884: return 0;
885: break;
886: case 32:
1.41 noro 887: for ( i = nd_exporigin; i < nd_wpd; i++ )
1.23 noro 888: if ( d1[i]+d2[i]<d1[i] ) return 1;
889: return 0;
890: break;
891: default:
1.41 noro 892: for ( i = nd_exporigin; i < nd_wpd; i++ ) {
1.45 noro 893: u2 = d2[i];
1.23 noro 894: k = (nd_epw-1)*nd_bpe;
895: for ( j = 0; j < nd_epw; j++, k -= nd_bpe )
1.45 noro 896: if ( d1[ind++]+((u2>>k)&nd_mask0) > nd_mask0 ) return 1;
1.23 noro 897: }
898: return 0;
899: break;
900: }
901: }
902:
1.34 noro 903: INLINE int ndl_hash_value(unsigned int *d)
1.1 noro 904: {
905: int i;
906: int r;
907:
1.34 noro 908: r = 0;
1.41 noro 909: for ( i = 0; i < nd_wpd; i++ )
1.1 noro 910: r = ((r<<16)+d[i])%REDTAB_LEN;
911: return r;
912: }
913:
1.9 noro 914: INLINE int nd_find_reducer(ND g)
1.1 noro 915: {
1.13 noro 916: RHist r;
1.34 noro 917: unsigned int *dg;
1.6 noro 918: int d,k,i;
1.1 noro 919:
1.34 noro 920: dg = HDL(g);
1.39 noro 921: #if 1
1.34 noro 922: d = ndl_hash_value(HDL(g));
1.13 noro 923: for ( r = nd_red[d], k = 0; r; r = NEXT(r), k++ ) {
1.34 noro 924: if ( ndl_equal(dg,DL(r)) ) {
1.1 noro 925: if ( k > 0 ) nd_notfirst++;
926: nd_found++;
1.13 noro 927: return r->index;
1.1 noro 928: }
929: }
1.39 noro 930: #endif
1.13 noro 931: if ( Reverse )
932: for ( i = nd_psn-1; i >= 0; i-- ) {
933: r = nd_psh[i];
1.34 noro 934: if ( ndl_reducible(dg,DL(r)) ) {
1.13 noro 935: nd_create++;
1.34 noro 936: nd_append_red(dg,i);
1.13 noro 937: return i;
938: }
939: }
940: else
941: for ( i = 0; i < nd_psn; i++ ) {
942: r = nd_psh[i];
1.34 noro 943: if ( ndl_reducible(dg,DL(r)) ) {
1.13 noro 944: nd_create++;
1.34 noro 945: nd_append_red(dg,i);
1.13 noro 946: return i;
947: }
1.1 noro 948: }
1.6 noro 949: return -1;
1.1 noro 950: }
951:
1.23 noro 952: INLINE int nd_find_reducer_direct(ND g,NDV *ps,int len)
953: {
954: NDV r;
1.31 noro 955: RHist s;
956: int d,k,i;
1.23 noro 957:
958: if ( Reverse )
959: for ( i = len-1; i >= 0; i-- ) {
960: r = ps[i];
1.45 noro 961: if ( ndl_reducible(HDL(g),HDL(r)) )
1.23 noro 962: return i;
963: }
964: else
965: for ( i = 0; i < len; i++ ) {
966: r = ps[i];
1.45 noro 967: if ( ndl_reducible(HDL(g),HDL(r)) )
1.23 noro 968: return i;
969: }
970: return -1;
971: }
972:
1.31 noro 973: ND nd_add(int mod,ND p1,ND p2)
1.1 noro 974: {
975: int n,c;
1.34 noro 976: int t,can,td1,td2;
1.1 noro 977: ND r;
978: NM m1,m2,mr0,mr,s;
979:
1.34 noro 980: if ( !p1 ) return p2;
981: else if ( !p2 ) return p1;
982: else if ( !mod ) return nd_add_q(p1,p2);
1.1 noro 983: else {
1.30 noro 984: can = 0;
1.1 noro 985: for ( n = NV(p1), m1 = BDY(p1), m2 = BDY(p2), mr0 = 0; m1 && m2; ) {
1.34 noro 986: c = DL_COMPARE(DL(m1),DL(m2));
1.1 noro 987: switch ( c ) {
988: case 0:
1.19 noro 989: t = ((CM(m1))+(CM(m2))) - mod;
1.34 noro 990: if ( t < 0 ) t += mod;
1.1 noro 991: s = m1; m1 = NEXT(m1);
992: if ( t ) {
1.34 noro 993: can++; NEXTNM2(mr0,mr,s); CM(mr) = (t);
1.1 noro 994: } else {
1.34 noro 995: can += 2; FREENM(s);
1.1 noro 996: }
997: s = m2; m2 = NEXT(m2); FREENM(s);
998: break;
999: case 1:
1000: s = m1; m1 = NEXT(m1); NEXTNM2(mr0,mr,s);
1001: break;
1002: case -1:
1003: s = m2; m2 = NEXT(m2); NEXTNM2(mr0,mr,s);
1004: break;
1005: }
1006: }
1007: if ( !mr0 )
1.34 noro 1008: if ( m1 ) mr0 = m1;
1009: else if ( m2 ) mr0 = m2;
1010: else return 0;
1011: else if ( m1 ) NEXT(mr) = m1;
1012: else if ( m2 ) NEXT(mr) = m2;
1013: else NEXT(mr) = 0;
1.1 noro 1014: BDY(p1) = mr0;
1.14 noro 1015: SG(p1) = MAX(SG(p1),SG(p2));
1.31 noro 1016: LEN(p1) = LEN(p1)+LEN(p2)-can;
1.1 noro 1017: FREEND(p2);
1018: return p1;
1019: }
1020: }
1021:
1.31 noro 1022: ND nd_add_q(ND p1,ND p2)
1.17 noro 1023: {
1.30 noro 1024: int n,c,can;
1.17 noro 1025: ND r;
1026: NM m1,m2,mr0,mr,s;
1027: Q t;
1028:
1.34 noro 1029: if ( !p1 ) return p2;
1030: else if ( !p2 ) return p1;
1.31 noro 1031: else {
1.30 noro 1032: can = 0;
1.17 noro 1033: for ( n = NV(p1), m1 = BDY(p1), m2 = BDY(p2), mr0 = 0; m1 && m2; ) {
1.34 noro 1034: c = DL_COMPARE(DL(m1),DL(m2));
1.17 noro 1035: switch ( c ) {
1036: case 0:
1037: addq(CQ(m1),CQ(m2),&t);
1038: s = m1; m1 = NEXT(m1);
1039: if ( t ) {
1.34 noro 1040: can++; NEXTNM2(mr0,mr,s); CQ(mr) = (t);
1.17 noro 1041: } else {
1.34 noro 1042: can += 2; FREENM(s);
1.17 noro 1043: }
1044: s = m2; m2 = NEXT(m2); FREENM(s);
1045: break;
1046: case 1:
1047: s = m1; m1 = NEXT(m1); NEXTNM2(mr0,mr,s);
1048: break;
1049: case -1:
1050: s = m2; m2 = NEXT(m2); NEXTNM2(mr0,mr,s);
1051: break;
1052: }
1053: }
1054: if ( !mr0 )
1.34 noro 1055: if ( m1 ) mr0 = m1;
1056: else if ( m2 ) mr0 = m2;
1057: else return 0;
1058: else if ( m1 ) NEXT(mr) = m1;
1059: else if ( m2 ) NEXT(mr) = m2;
1060: else NEXT(mr) = 0;
1.17 noro 1061: BDY(p1) = mr0;
1062: SG(p1) = MAX(SG(p1),SG(p2));
1.31 noro 1063: LEN(p1) = LEN(p1)+LEN(p2)-can;
1.17 noro 1064: FREEND(p2);
1065: return p1;
1066: }
1067: }
1068:
1.1 noro 1069: /* ret=1 : success, ret=0 : overflow */
1.53 noro 1070: int nd_nf(int mod,ND g,NDV *ps,int full,ND *rp)
1.1 noro 1071: {
1.11 noro 1072: ND d;
1.1 noro 1073: NM m,mrd,tail;
1.7 noro 1074: NM mul;
1.10 noro 1075: int n,sugar,psugar,sugar0,stat,index;
1.30 noro 1076: int c,c1,c2,dummy;
1.17 noro 1077: RHist h;
1.11 noro 1078: NDV p,red;
1.16 noro 1079: Q cg,cred,gcd;
1.21 noro 1080: double hmag;
1.1 noro 1081:
1082: if ( !g ) {
1083: *rp = 0;
1084: return 1;
1085: }
1.34 noro 1086: if ( !mod ) hmag = ((double)p_mag((P)HCQ(g)))*nd_scale;
1.21 noro 1087:
1.14 noro 1088: sugar0 = sugar = SG(g);
1.1 noro 1089: n = NV(g);
1.41 noro 1090: mul = (NM)ALLOCA(sizeof(struct oNM)+(nd_wpd-1)*sizeof(unsigned int));
1.1 noro 1091: for ( d = 0; g; ) {
1.6 noro 1092: index = nd_find_reducer(g);
1093: if ( index >= 0 ) {
1.17 noro 1094: h = nd_psh[index];
1095: ndl_sub(HDL(g),DL(h),DL(mul));
1.14 noro 1096: if ( ndl_check_bound2(index,DL(mul)) ) {
1.6 noro 1097: nd_free(g); nd_free(d);
1098: return 0;
1099: }
1.53 noro 1100: p = ps[index];
1.16 noro 1101: if ( mod ) {
1.19 noro 1102: c1 = invm(HCM(p),mod); c2 = mod-HCM(g);
1103: DMAR(c1,c2,0,mod,c); CM(mul) = c;
1.16 noro 1104: } else {
1.17 noro 1105: igcd_cofactor(HCQ(g),HCQ(p),&gcd,&cg,&cred);
1.16 noro 1106: chsgnq(cg,&CQ(mul));
1.20 noro 1107: nd_mul_c_q(d,cred); nd_mul_c_q(g,cred);
1.16 noro 1108: }
1.55 ! noro 1109: g = nd_add(mod,g,ndv_mul_nm(mod,mul,p));
1.34 noro 1110: sugar = MAX(sugar,SG(p)+TD(DL(mul)));
1.22 noro 1111: if ( !mod && hmag && g && ((double)(p_mag((P)HCQ(g))) > hmag) ) {
1.21 noro 1112: nd_removecont2(d,g);
1113: hmag = ((double)p_mag((P)HCQ(g)))*nd_scale;
1114: }
1.1 noro 1115: } else if ( !full ) {
1116: *rp = g;
1117: return 1;
1118: } else {
1119: m = BDY(g);
1120: if ( NEXT(m) ) {
1.34 noro 1121: BDY(g) = NEXT(m); NEXT(m) = 0; LEN(g)--;
1.1 noro 1122: } else {
1123: FREEND(g); g = 0;
1124: }
1125: if ( d ) {
1.34 noro 1126: NEXT(tail)=m; tail=m; LEN(d)++;
1.1 noro 1127: } else {
1.34 noro 1128: MKND(n,m,1,d); tail = BDY(d);
1.1 noro 1129: }
1130: }
1131: }
1.34 noro 1132: if ( d ) SG(d) = sugar;
1.1 noro 1133: *rp = d;
1134: return 1;
1135: }
1.28 noro 1136:
1.53 noro 1137: int nd_nf_pbucket(int mod,ND g,NDV *ps,int full,ND *rp)
1.25 noro 1138: {
1139: int hindex,index;
1140: NDV p;
1141: ND u,d,red;
1142: NODE l;
1.31 noro 1143: NM mul,m,mrd,tail;
1.25 noro 1144: int sugar,psugar,n,h_reducible;
1145: PGeoBucket bucket;
1146: int c,c1,c2;
1.26 noro 1147: Q cg,cred,gcd,zzz;
1.25 noro 1148: RHist h;
1.28 noro 1149: double hmag,gmag;
1.25 noro 1150:
1151: if ( !g ) {
1152: *rp = 0;
1153: return 1;
1154: }
1155: sugar = SG(g);
1156: n = NV(g);
1.34 noro 1157: if ( !mod ) hmag = ((double)p_mag((P)HCQ(g)))*nd_scale;
1.25 noro 1158: bucket = create_pbucket();
1.31 noro 1159: add_pbucket(mod,bucket,g);
1.25 noro 1160: d = 0;
1.41 noro 1161: mul = (NM)ALLOCA(sizeof(struct oNM)+(nd_wpd-1)*sizeof(unsigned int));
1.25 noro 1162: while ( 1 ) {
1.26 noro 1163: hindex = mod?head_pbucket(mod,bucket):head_pbucket_q(bucket);
1.25 noro 1164: if ( hindex < 0 ) {
1.34 noro 1165: if ( d ) SG(d) = sugar;
1.25 noro 1166: *rp = d;
1167: return 1;
1168: }
1169: g = bucket->body[hindex];
1170: index = nd_find_reducer(g);
1171: if ( index >= 0 ) {
1172: h = nd_psh[index];
1173: ndl_sub(HDL(g),DL(h),DL(mul));
1174: if ( ndl_check_bound2(index,DL(mul)) ) {
1.26 noro 1175: nd_free(d);
1.25 noro 1176: free_pbucket(bucket);
1177: *rp = 0;
1178: return 0;
1179: }
1.53 noro 1180: p = ps[index];
1.25 noro 1181: if ( mod ) {
1182: c1 = invm(HCM(p),mod); c2 = mod-HCM(g);
1183: DMAR(c1,c2,0,mod,c); CM(mul) = c;
1184: } else {
1185: igcd_cofactor(HCQ(g),HCQ(p),&gcd,&cg,&cred);
1186: chsgnq(cg,&CQ(mul));
1.26 noro 1187: nd_mul_c_q(d,cred);
1188: mulq_pbucket(bucket,cred);
1189: g = bucket->body[hindex];
1.28 noro 1190: gmag = (double)p_mag((P)HCQ(g));
1.25 noro 1191: }
1.55 ! noro 1192: red = ndv_mul_nm(mod,mul,p);
1.25 noro 1193: bucket->body[hindex] = nd_remove_head(g);
1194: red = nd_remove_head(red);
1.31 noro 1195: add_pbucket(mod,bucket,red);
1.34 noro 1196: psugar = SG(p)+TD(DL(mul));
1197: sugar = MAX(sugar,psugar);
1.28 noro 1198: if ( !mod && hmag && (gmag > hmag) ) {
1199: g = normalize_pbucket(mod,bucket);
1200: if ( !g ) {
1.34 noro 1201: if ( d ) SG(d) = sugar;
1.28 noro 1202: *rp = d;
1203: return 1;
1204: }
1205: nd_removecont2(d,g);
1206: hmag = ((double)p_mag((P)HCQ(g)))*nd_scale;
1.31 noro 1207: add_pbucket(mod,bucket,g);
1.28 noro 1208: }
1.25 noro 1209: } else if ( !full ) {
1210: g = normalize_pbucket(mod,bucket);
1.34 noro 1211: if ( g ) SG(g) = sugar;
1.25 noro 1212: *rp = g;
1213: return 1;
1214: } else {
1215: m = BDY(g);
1216: if ( NEXT(m) ) {
1.34 noro 1217: BDY(g) = NEXT(m); NEXT(m) = 0; LEN(g)--;
1.25 noro 1218: } else {
1219: FREEND(g); g = 0;
1220: }
1221: bucket->body[hindex] = g;
1222: NEXT(m) = 0;
1223: if ( d ) {
1.34 noro 1224: NEXT(tail)=m; tail=m; LEN(d)++;
1.25 noro 1225: } else {
1.34 noro 1226: MKND(n,m,1,d); tail = BDY(d);
1.25 noro 1227: }
1228: }
1229: }
1230: }
1.27 noro 1231:
1.45 noro 1232: int nd_nf_direct(int mod,ND g,BaseSet base,int full,ND *rp)
1.23 noro 1233: {
1.30 noro 1234: ND d;
1235: NM m,mrd,tail;
1236: NM mul;
1.45 noro 1237: NDV *ps;
1238: int n,sugar,psugar,sugar0,stat,index,len;
1.31 noro 1239: int c,c1,c2;
1.45 noro 1240: unsigned int **bound;
1.30 noro 1241: RHist h;
1242: NDV p,red;
1243: Q cg,cred,gcd;
1244: double hmag;
1245:
1246: if ( !g ) {
1247: *rp = 0;
1248: return 1;
1249: }
1250: #if 0
1251: if ( !mod )
1252: hmag = ((double)p_mag((P)HCQ(g)))*nd_scale;
1253: #else
1254: /* XXX */
1255: hmag = 0;
1256: #endif
1257:
1.45 noro 1258: ps = base->ps;
1259: bound = base->bound;
1260: len = base->len;
1.30 noro 1261: sugar0 = sugar = SG(g);
1262: n = NV(g);
1.41 noro 1263: mul = (NM)ALLOCA(sizeof(struct oNM)+(nd_wpd-1)*sizeof(unsigned int));
1.30 noro 1264: for ( d = 0; g; ) {
1265: index = nd_find_reducer_direct(g,ps,len);
1266: if ( index >= 0 ) {
1267: p = ps[index];
1268: ndl_sub(HDL(g),HDL(p),DL(mul));
1.45 noro 1269: if ( ndl_check_bound2_direct(bound[index],DL(mul)) ) {
1.30 noro 1270: nd_free(g); nd_free(d);
1271: return 0;
1272: }
1273: if ( mod ) {
1274: c1 = invm(HCM(p),mod); c2 = mod-HCM(g);
1275: DMAR(c1,c2,0,mod,c); CM(mul) = c;
1276: } else {
1277: igcd_cofactor(HCQ(g),HCQ(p),&gcd,&cg,&cred);
1278: chsgnq(cg,&CQ(mul));
1279: nd_mul_c_q(d,cred); nd_mul_c_q(g,cred);
1280: }
1.55 ! noro 1281: g = nd_add(mod,g,ndv_mul_nm(mod,mul,p));
1.34 noro 1282: sugar = MAX(sugar,SG(p)+TD(DL(mul)));
1.30 noro 1283: if ( !mod && hmag && g && ((double)(p_mag((P)HCQ(g))) > hmag) ) {
1284: nd_removecont2(d,g);
1285: hmag = ((double)p_mag((P)HCQ(g)))*nd_scale;
1286: }
1287: } else if ( !full ) {
1288: *rp = g;
1289: return 1;
1290: } else {
1291: m = BDY(g);
1292: if ( NEXT(m) ) {
1.34 noro 1293: BDY(g) = NEXT(m); NEXT(m) = 0; LEN(g)--;
1.30 noro 1294: } else {
1295: FREEND(g); g = 0;
1296: }
1297: if ( d ) {
1.34 noro 1298: NEXT(tail)=m; tail=m; LEN(d)++;
1.30 noro 1299: } else {
1.34 noro 1300: MKND(n,m,1,d); tail = BDY(d);
1.30 noro 1301: }
1302: }
1303: }
1.34 noro 1304: if ( d ) SG(d) = sugar;
1.30 noro 1305: *rp = d;
1306: return 1;
1307: }
1308:
1.28 noro 1309: /* input : list of DP, cand : list of DP */
1310:
1311: int nd_check_candidate(NODE input,NODE cand)
1312: {
1313: int n,i,stat;
1314: ND nf,d;
1.45 noro 1315: NODE t,s;
1316:
1317: #if 0
1318: for ( t = 0; cand; cand = NEXT(cand) ) {
1319: MKNODE(s,BDY(cand),t); t = s;
1320: }
1321: cand = t;
1322: #endif
1.28 noro 1323:
1.39 noro 1324: nd_setup(0,0,cand);
1.31 noro 1325: n = length(cand);
1.28 noro 1326:
1327: /* membercheck : list is a subset of Id(cand) ? */
1328: for ( t = input; t; t = NEXT(t) ) {
1.45 noro 1329: again:
1.28 noro 1330: d = dptond(0,(DP)BDY(t));
1.53 noro 1331: stat = nd_nf(0,d,nd_ps,0,&nf);
1.45 noro 1332: if ( !stat ) {
1333: nd_reconstruct(0,0,0);
1334: goto again;
1335: } else if ( nf ) return 0;
1336: printf("."); fflush(stdout);
1.28 noro 1337: }
1.45 noro 1338: printf("\n");
1.28 noro 1339: /* gbcheck : cand is a GB of Id(cand) ? */
1.34 noro 1340: if ( !nd_gb(0,1) ) return 0;
1.28 noro 1341: /* XXX */
1.23 noro 1342: return 1;
1343: }
1.1 noro 1344:
1345: ND nd_remove_head(ND p)
1346: {
1347: NM m;
1348:
1349: m = BDY(p);
1350: if ( !NEXT(m) ) {
1.34 noro 1351: FREEND(p); p = 0;
1.31 noro 1352: } else {
1.34 noro 1353: BDY(p) = NEXT(m); LEN(p)--;
1.31 noro 1354: }
1.1 noro 1355: FREENM(m);
1356: return p;
1357: }
1358:
1359: PGeoBucket create_pbucket()
1360: {
1361: PGeoBucket g;
1362:
1363: g = CALLOC(1,sizeof(struct oPGeoBucket));
1364: g->m = -1;
1365: return g;
1366: }
1367:
1.25 noro 1368: void free_pbucket(PGeoBucket b) {
1369: int i;
1370:
1.26 noro 1371: for ( i = 0; i <= b->m; i++ )
1.25 noro 1372: if ( b->body[i] ) {
1373: nd_free(b->body[i]);
1374: b->body[i] = 0;
1375: }
1376: GC_free(b);
1377: }
1378:
1.31 noro 1379: void add_pbucket(int mod,PGeoBucket g,ND d)
1.1 noro 1380: {
1.31 noro 1381: int l,i,k,m;
1.1 noro 1382:
1.31 noro 1383: if ( !d )
1384: return;
1385: l = LEN(d);
1.29 noro 1386: for ( k = 0, m = 1; l > m; k++, m <<= 1 );
1387: /* 2^(k-1) < l <= 2^k (=m) */
1.31 noro 1388: d = nd_add(mod,g->body[k],d);
1389: for ( ; d && LEN(d) > m; k++, m <<= 1 ) {
1.1 noro 1390: g->body[k] = 0;
1.31 noro 1391: d = nd_add(mod,g->body[k+1],d);
1.1 noro 1392: }
1393: g->body[k] = d;
1394: g->m = MAX(g->m,k);
1395: }
1396:
1.26 noro 1397: void mulq_pbucket(PGeoBucket g,Q c)
1398: {
1399: int k;
1400:
1401: for ( k = 0; k <= g->m; k++ )
1402: nd_mul_c_q(g->body[k],c);
1403: }
1404:
1.19 noro 1405: int head_pbucket(int mod,PGeoBucket g)
1.1 noro 1406: {
1407: int j,i,c,k,nv,sum;
1408: unsigned int *di,*dj;
1409: ND gi,gj;
1410:
1411: k = g->m;
1412: while ( 1 ) {
1413: j = -1;
1414: for ( i = 0; i <= k; i++ ) {
1415: if ( !(gi = g->body[i]) )
1416: continue;
1417: if ( j < 0 ) {
1418: j = i;
1419: gj = g->body[j];
1420: dj = HDL(gj);
1.14 noro 1421: sum = HCM(gj);
1.1 noro 1422: } else {
1.34 noro 1423: c = DL_COMPARE(HDL(gi),dj);
1.1 noro 1424: if ( c > 0 ) {
1.34 noro 1425: if ( sum ) HCM(gj) = sum;
1426: else g->body[j] = nd_remove_head(gj);
1.1 noro 1427: j = i;
1428: gj = g->body[j];
1429: dj = HDL(gj);
1.14 noro 1430: sum = HCM(gj);
1.1 noro 1431: } else if ( c == 0 ) {
1.19 noro 1432: sum = sum+HCM(gi)-mod;
1.34 noro 1433: if ( sum < 0 ) sum += mod;
1.1 noro 1434: g->body[i] = nd_remove_head(gi);
1435: }
1436: }
1437: }
1.34 noro 1438: if ( j < 0 ) return -1;
1.1 noro 1439: else if ( sum ) {
1.14 noro 1440: HCM(gj) = sum;
1.26 noro 1441: return j;
1.31 noro 1442: } else
1.26 noro 1443: g->body[j] = nd_remove_head(gj);
1444: }
1445: }
1446:
1447: int head_pbucket_q(PGeoBucket g)
1448: {
1449: int j,i,c,k,nv;
1450: Q sum,t;
1451: ND gi,gj;
1452:
1453: k = g->m;
1454: while ( 1 ) {
1455: j = -1;
1456: for ( i = 0; i <= k; i++ ) {
1.34 noro 1457: if ( !(gi = g->body[i]) ) continue;
1.26 noro 1458: if ( j < 0 ) {
1459: j = i;
1460: gj = g->body[j];
1461: sum = HCQ(gj);
1462: } else {
1463: nv = NV(gi);
1.34 noro 1464: c = DL_COMPARE(HDL(gi),HDL(gj));
1.26 noro 1465: if ( c > 0 ) {
1.34 noro 1466: if ( sum ) HCQ(gj) = sum;
1467: else g->body[j] = nd_remove_head(gj);
1.26 noro 1468: j = i;
1469: gj = g->body[j];
1470: sum = HCQ(gj);
1471: } else if ( c == 0 ) {
1472: addq(sum,HCQ(gi),&t);
1473: sum = t;
1474: g->body[i] = nd_remove_head(gi);
1475: }
1476: }
1477: }
1.34 noro 1478: if ( j < 0 ) return -1;
1.26 noro 1479: else if ( sum ) {
1480: HCQ(gj) = sum;
1.1 noro 1481: return j;
1.31 noro 1482: } else
1.1 noro 1483: g->body[j] = nd_remove_head(gj);
1484: }
1485: }
1486:
1.25 noro 1487: ND normalize_pbucket(int mod,PGeoBucket g)
1.1 noro 1488: {
1.31 noro 1489: int i;
1.1 noro 1490: ND r,t;
1491:
1492: r = 0;
1.28 noro 1493: for ( i = 0; i <= g->m; i++ ) {
1.31 noro 1494: r = nd_add(mod,r,g->body[i]);
1.28 noro 1495: g->body[i] = 0;
1496: }
1497: g->m = -1;
1.1 noro 1498: return r;
1499: }
1500:
1.27 noro 1501: /* return value = 0 => input is not a GB */
1502:
1503: NODE nd_gb(int m,int checkonly)
1.1 noro 1504: {
1505: int i,nh,sugar,stat;
1.23 noro 1506: NODE r,g,t;
1.1 noro 1507: ND_pairs d;
1508: ND_pairs l;
1509: ND h,nf;
1510:
1.23 noro 1511: g = 0; d = 0;
1512: for ( i = 0; i < nd_psn; i++ ) {
1.1 noro 1513: d = update_pairs(d,g,i);
1514: g = update_base(g,i);
1515: }
1516: sugar = 0;
1517: while ( d ) {
1518: again:
1519: l = nd_minp(d,&d);
1.14 noro 1520: if ( SG(l) != sugar ) {
1521: sugar = SG(l);
1.1 noro 1522: fprintf(asir_out,"%d",sugar);
1523: }
1.53 noro 1524: stat = nd_sp(m,0,l,&h);
1.1 noro 1525: if ( !stat ) {
1526: NEXT(l) = d; d = l;
1.20 noro 1527: d = nd_reconstruct(m,0,d);
1.1 noro 1528: goto again;
1529: }
1.41 noro 1530: #if USE_GEOBUCKET
1.53 noro 1531: stat = m?nd_nf_pbucket(m,h,nd_ps,!Top,&nf):nd_nf(m,h,nd_ps,!Top,&nf);
1.41 noro 1532: #else
1.53 noro 1533: stat = nd_nf(m,h,nd_ps,!Top,&nf);
1.41 noro 1534: #endif
1.1 noro 1535: if ( !stat ) {
1536: NEXT(l) = d; d = l;
1.20 noro 1537: d = nd_reconstruct(m,0,d);
1.1 noro 1538: goto again;
1539: } else if ( nf ) {
1.27 noro 1540: if ( checkonly ) return 0;
1.1 noro 1541: printf("+"); fflush(stdout);
1.53 noro 1542: nh = nd_newps(m,nf,0);
1.1 noro 1543: d = update_pairs(d,g,nh);
1544: g = update_base(g,nh);
1545: FREENDP(l);
1546: } else {
1547: printf("."); fflush(stdout);
1548: FREENDP(l);
1549: }
1550: }
1.53 noro 1551: for ( t = g; t; t = NEXT(t) ) BDY(t) = (pointer)nd_ps[(int)BDY(t)];
1.1 noro 1552: return g;
1553: }
1554:
1.23 noro 1555: NODE nd_gb_trace(int m)
1.20 noro 1556: {
1557: int i,nh,sugar,stat;
1.23 noro 1558: NODE r,g,t;
1.20 noro 1559: ND_pairs d;
1560: ND_pairs l;
1561: ND h,nf,nfq;
1562:
1.23 noro 1563: g = 0; d = 0;
1564: for ( i = 0; i < nd_psn; i++ ) {
1.20 noro 1565: d = update_pairs(d,g,i);
1566: g = update_base(g,i);
1567: }
1568: sugar = 0;
1569: while ( d ) {
1570: again:
1571: l = nd_minp(d,&d);
1572: if ( SG(l) != sugar ) {
1573: sugar = SG(l);
1574: fprintf(asir_out,"%d",sugar);
1575: }
1.53 noro 1576: stat = nd_sp(m,0,l,&h);
1.20 noro 1577: if ( !stat ) {
1578: NEXT(l) = d; d = l;
1579: d = nd_reconstruct(m,1,d);
1580: goto again;
1581: }
1.41 noro 1582: #if USE_GEOBUCKET
1.53 noro 1583: stat = nd_nf_pbucket(m,h,nd_ps,!Top,&nf);
1.41 noro 1584: #else
1.53 noro 1585: stat = nd_nf(m,h,nd_ps,!Top,&nf);
1.41 noro 1586: #endif
1.20 noro 1587: if ( !stat ) {
1588: NEXT(l) = d; d = l;
1589: d = nd_reconstruct(m,1,d);
1590: goto again;
1591: } else if ( nf ) {
1592: /* overflow does not occur */
1.53 noro 1593: nd_sp(0,1,l,&h);
1594: nd_nf(0,h,nd_ps_trace,!Top,&nfq);
1.20 noro 1595: if ( nfq ) {
1596: printf("+"); fflush(stdout);
1.39 noro 1597: nh = nd_newps(m,nf,nfq);
1.27 noro 1598: /* failure; m|HC(nfq) */
1.38 noro 1599: if ( nh < 0 ) return 0;
1.20 noro 1600: d = update_pairs(d,g,nh);
1601: g = update_base(g,nh);
1602: } else {
1603: printf("*"); fflush(stdout);
1604: }
1605: } else {
1606: printf("."); fflush(stdout);
1607: }
1608: FREENDP(l);
1609: }
1.23 noro 1610: for ( t = g; t; t = NEXT(t) )
1.53 noro 1611: BDY(t) = (pointer)nd_ps_trace[(int)BDY(t)];
1.20 noro 1612: return g;
1613: }
1614:
1.23 noro 1615: int ndv_compare(NDV *p1,NDV *p2)
1616: {
1.34 noro 1617: return DL_COMPARE(HDL(*p1),HDL(*p2));
1.23 noro 1618: }
1619:
1620: int ndv_compare_rev(NDV *p1,NDV *p2)
1621: {
1.34 noro 1622: return -DL_COMPARE(HDL(*p1),HDL(*p2));
1.23 noro 1623: }
1624:
1625: NODE nd_reduceall(int m,NODE f)
1626: {
1627: int i,j,n,stat;
1628: NDV *w,*ps;
1629: ND nf,g;
1630: NODE t,a0,a;
1.45 noro 1631: struct oBaseSet base;
1632: unsigned int **bound;
1.23 noro 1633:
1634: for ( n = 0, t = f; t; t = NEXT(t), n++ );
1635: ps = (NDV *)ALLOCA(n*sizeof(NDV));
1.45 noro 1636: bound = (unsigned int **)ALLOCA(n*sizeof(unsigned int *));
1.54 noro 1637: for ( i = 0, t = f; i < n; i++, t = NEXT(t) ) ps[i] = (NDV)BDY(t);
1.23 noro 1638: qsort(ps,n,sizeof(NDV),(int (*)(const void *,const void *))ndv_compare);
1.54 noro 1639: for ( i = 0; i < n; i++ ) bound[i] = ndv_compute_bound(ps[i]);
1.45 noro 1640: base.ps = (NDV *)ALLOCA((n-1)*sizeof(NDV));
1641: base.bound = (unsigned int **)ALLOCA((n-1)*sizeof(unsigned int *));
1642: base.len = n-1;
1.50 noro 1643: i = 0;
1644: while ( i < n ) {
1.45 noro 1645: for ( j = 0; j < i; j++ ) {
1646: base.ps[j] = ps[j]; base.bound[j] = bound[j];
1647: }
1648: for ( j = i+1; j < n; j++ ) {
1649: base.ps[j-1] = ps[j]; base.bound[j-1] = bound[j];
1650: }
1.23 noro 1651: g = ndvtond(m,ps[i]);
1.45 noro 1652: stat = nd_nf_direct(m,g,&base,1,&nf);
1.50 noro 1653: if ( !stat )
1.23 noro 1654: nd_reconstruct_direct(m,ps,n);
1655: else if ( !nf ) {
1656: printf("."); fflush(stdout);
1657: ndv_free(ps[i]);
1.50 noro 1658: for ( j = i+1; j < n; j++ ) {
1659: ps[j-1] = ps[j]; bound[j-1] = bound[j];
1660: }
1.23 noro 1661: n--;
1.50 noro 1662: base.len = n-1;
1.23 noro 1663: } else {
1664: printf("."); fflush(stdout);
1665: ndv_free(ps[i]);
1.24 noro 1666: nd_removecont(m,nf);
1.23 noro 1667: ps[i] = ndtondv(m,nf);
1.45 noro 1668: bound[i] = ndv_compute_bound(ps[i]);
1.23 noro 1669: nd_free(nf);
1.50 noro 1670: i++;
1.23 noro 1671: }
1672: }
1.45 noro 1673: printf("\n");
1.23 noro 1674: for ( a0 = 0, i = 0; i < n; i++ ) {
1675: NEXTNODE(a0,a);
1676: BDY(a) = (pointer)ps[i];
1677: }
1678: NEXT(a) = 0;
1679: return a0;
1680: }
1681:
1.1 noro 1682: ND_pairs update_pairs( ND_pairs d, NODE /* of index */ g, int t)
1683: {
1684: ND_pairs d1,nd,cur,head,prev,remove;
1685:
1686: if ( !g ) return d;
1687: d = crit_B(d,t);
1688: d1 = nd_newpairs(g,t);
1689: d1 = crit_M(d1);
1690: d1 = crit_F(d1);
1.55 ! noro 1691: if ( do_weyl )
! 1692: head = d1;
! 1693: else {
! 1694: prev = 0; cur = head = d1;
! 1695: while ( cur ) {
! 1696: if ( crit_2( cur->i1,cur->i2 ) ) {
! 1697: remove = cur;
! 1698: if ( !prev ) head = cur = NEXT(cur);
! 1699: else cur = NEXT(prev) = NEXT(cur);
! 1700: FREENDP(remove);
! 1701: } else {
! 1702: prev = cur; cur = NEXT(cur);
! 1703: }
1.1 noro 1704: }
1705: }
1706: if ( !d )
1707: return head;
1708: else {
1709: nd = d;
1.34 noro 1710: while ( NEXT(nd) ) nd = NEXT(nd);
1.1 noro 1711: NEXT(nd) = head;
1712: return d;
1713: }
1714: }
1715:
1716: ND_pairs nd_newpairs( NODE g, int t )
1717: {
1718: NODE h;
1719: unsigned int *dl;
1.34 noro 1720: int ts,s;
1.1 noro 1721: ND_pairs r,r0;
1722:
1.20 noro 1723: dl = DL(nd_psh[t]);
1.34 noro 1724: ts = SG(nd_psh[t]) - TD(dl);
1.1 noro 1725: for ( r0 = 0, h = g; h; h = NEXT(h) ) {
1726: NEXTND_pairs(r0,r);
1727: r->i1 = (int)BDY(h);
1728: r->i2 = t;
1.20 noro 1729: ndl_lcm(DL(nd_psh[r->i1]),dl,r->lcm);
1.34 noro 1730: s = SG(nd_psh[r->i1])-TD(DL(nd_psh[r->i1]));
1731: SG(r) = MAX(s,ts) + TD(LCM(r));
1.1 noro 1732: }
1733: NEXT(r) = 0;
1734: return r0;
1735: }
1736:
1737: ND_pairs crit_B( ND_pairs d, int s )
1738: {
1739: ND_pairs cur,head,prev,remove;
1740: unsigned int *t,*tl,*lcm;
1741: int td,tdl;
1742:
1743: if ( !d ) return 0;
1.20 noro 1744: t = DL(nd_psh[s]);
1.1 noro 1745: prev = 0;
1746: head = cur = d;
1.41 noro 1747: lcm = (unsigned int *)ALLOCA(nd_wpd*sizeof(unsigned int));
1.1 noro 1748: while ( cur ) {
1749: tl = cur->lcm;
1750: if ( ndl_reducible(tl,t)
1.20 noro 1751: && (ndl_lcm(DL(nd_psh[cur->i1]),t,lcm),!ndl_equal(lcm,tl))
1752: && (ndl_lcm(DL(nd_psh[cur->i2]),t,lcm),!ndl_equal(lcm,tl)) ) {
1.1 noro 1753: remove = cur;
1754: if ( !prev ) {
1755: head = cur = NEXT(cur);
1756: } else {
1757: cur = NEXT(prev) = NEXT(cur);
1758: }
1759: FREENDP(remove);
1760: } else {
1.34 noro 1761: prev = cur; cur = NEXT(cur);
1.1 noro 1762: }
1763: }
1764: return head;
1765: }
1766:
1.34 noro 1767: /* XXX : check is necessary */
1768:
1.1 noro 1769: ND_pairs crit_M( ND_pairs d1 )
1770: {
1771: ND_pairs e,d2,d3,dd,p;
1772: unsigned int *id,*jd;
1773:
1774: for ( dd = 0, e = d1; e; e = d3 ) {
1775: if ( !(d2 = NEXT(e)) ) {
1776: NEXT(e) = dd;
1777: return e;
1778: }
1.34 noro 1779: id = LCM(e);
1.1 noro 1780: for ( d3 = 0; d2; d2 = p ) {
1.34 noro 1781: p = NEXT(d2);
1782: jd = LCM(d2);
1783: if ( ndl_equal(jd,id) )
1784: ;
1785: else if ( TD(jd) > TD(id) )
1.1 noro 1786: if ( ndl_reducible(jd,id) ) continue;
1787: else ;
1.34 noro 1788: else if ( ndl_reducible(id,jd) ) goto delit;
1.1 noro 1789: NEXT(d2) = d3;
1790: d3 = d2;
1791: }
1792: NEXT(e) = dd;
1793: dd = e;
1794: continue;
1795: /**/
1796: delit: NEXT(d2) = d3;
1797: d3 = d2;
1798: for ( ; p; p = d2 ) {
1799: d2 = NEXT(p);
1800: NEXT(p) = d3;
1801: d3 = p;
1802: }
1803: FREENDP(e);
1804: }
1805: return dd;
1806: }
1807:
1808: ND_pairs crit_F( ND_pairs d1 )
1809: {
1810: ND_pairs rest, head,remove;
1811: ND_pairs last, p, r, w;
1812: int s;
1813:
1814: for ( head = last = 0, p = d1; NEXT(p); ) {
1815: r = w = equivalent_pairs(p,&rest);
1.14 noro 1816: s = SG(r);
1.1 noro 1817: w = NEXT(w);
1818: while ( w ) {
1819: if ( crit_2(w->i1,w->i2) ) {
1820: r = w;
1821: w = NEXT(w);
1822: while ( w ) {
1823: remove = w;
1824: w = NEXT(w);
1825: FREENDP(remove);
1826: }
1827: break;
1.14 noro 1828: } else if ( SG(w) < s ) {
1.1 noro 1829: FREENDP(r);
1830: r = w;
1.14 noro 1831: s = SG(r);
1.1 noro 1832: w = NEXT(w);
1833: } else {
1834: remove = w;
1835: w = NEXT(w);
1836: FREENDP(remove);
1837: }
1838: }
1839: if ( last ) NEXT(last) = r;
1840: else head = r;
1841: NEXT(last = r) = 0;
1842: p = rest;
1843: if ( !p ) return head;
1844: }
1845: if ( !last ) return p;
1846: NEXT(last) = p;
1847: return head;
1848: }
1849:
1850: int crit_2( int dp1, int dp2 )
1851: {
1.20 noro 1852: return ndl_disjoint(DL(nd_psh[dp1]),DL(nd_psh[dp2]));
1.1 noro 1853: }
1854:
1.40 noro 1855: ND_pairs equivalent_pairs( ND_pairs d1, ND_pairs *prest )
1.1 noro 1856: {
1857: ND_pairs w,p,r,s;
1858: unsigned int *d;
1859:
1860: w = d1;
1.34 noro 1861: d = LCM(w);
1.1 noro 1862: s = NEXT(w);
1863: NEXT(w) = 0;
1864: for ( r = 0; s; s = p ) {
1865: p = NEXT(s);
1.34 noro 1866: if ( ndl_equal(d,LCM(s)) ) {
1.39 noro 1867: NEXT(s) = w; w = s;
1.1 noro 1868: } else {
1.39 noro 1869: NEXT(s) = r; r = s;
1.1 noro 1870: }
1871: }
1872: *prest = r;
1873: return w;
1874: }
1875:
1876: NODE update_base(NODE nd,int ndp)
1877: {
1878: unsigned int *dl, *dln;
1879: NODE last, p, head;
1880:
1.20 noro 1881: dl = DL(nd_psh[ndp]);
1.1 noro 1882: for ( head = last = 0, p = nd; p; ) {
1.20 noro 1883: dln = DL(nd_psh[(int)BDY(p)]);
1.34 noro 1884: if ( ndl_reducible( dln, dl ) ) {
1.1 noro 1885: p = NEXT(p);
1886: if ( last ) NEXT(last) = p;
1887: } else {
1888: if ( !last ) head = p;
1889: p = NEXT(last = p);
1890: }
1891: }
1892: head = append_one(head,ndp);
1893: return head;
1894: }
1895:
1896: ND_pairs nd_minp( ND_pairs d, ND_pairs *prest )
1897: {
1898: ND_pairs m,ml,p,l;
1899: unsigned int *lcm;
1.33 noro 1900: int s,td,len,tlen,c,c1;
1.1 noro 1901:
1902: if ( !(p = NEXT(m = d)) ) {
1903: *prest = p;
1904: NEXT(m) = 0;
1905: return m;
1906: }
1.14 noro 1907: s = SG(m);
1.33 noro 1908: for ( ml = 0, l = m; p; p = NEXT(l = p) )
1.34 noro 1909: if ( (SG(p) < s)
1910: || ((SG(p) == s) && (DL_COMPARE(LCM(p),LCM(m)) < 0)) ) {
1.39 noro 1911: ml = l; m = p; s = SG(m);
1.1 noro 1912: }
1913: if ( !ml ) *prest = NEXT(m);
1914: else {
1915: NEXT(ml) = NEXT(m);
1916: *prest = d;
1917: }
1918: NEXT(m) = 0;
1919: return m;
1920: }
1921:
1.39 noro 1922: int nd_newps(int mod,ND a,ND aq)
1.1 noro 1923: {
1.3 noro 1924: int len;
1.13 noro 1925: RHist r;
1.20 noro 1926: NDV b;
1.3 noro 1927:
1.53 noro 1928: if ( aq ) {
1929: /* trace lifting */
1930: if ( !rem(NM(HCQ(aq)),mod) )
1931: return -1;
1932: }
1.1 noro 1933: if ( nd_psn == nd_pslen ) {
1934: nd_pslen *= 2;
1.11 noro 1935: nd_ps = (NDV *)REALLOC((char *)nd_ps,nd_pslen*sizeof(NDV));
1.53 noro 1936: nd_ps_trace = (NDV *)REALLOC((char *)nd_ps_trace,nd_pslen*sizeof(NDV));
1.13 noro 1937: nd_psh = (RHist *)REALLOC((char *)nd_psh,nd_pslen*sizeof(RHist));
1.1 noro 1938: nd_bound = (unsigned int **)
1939: REALLOC((char *)nd_bound,nd_pslen*sizeof(unsigned int *));
1940: }
1.39 noro 1941: NEWRHist(r); nd_psh[nd_psn] = r;
1.53 noro 1942: nd_removecont(mod,a); nd_ps[nd_psn] = ndtondv(mod,a);
1.39 noro 1943: if ( aq ) {
1.53 noro 1944: nd_removecont(0,aq); nd_ps_trace[nd_psn] = ndtondv(0,aq);
1945: nd_bound[nd_psn] = ndv_compute_bound(nd_ps_trace[nd_psn]);
1.39 noro 1946: SG(r) = SG(aq); ndl_copy(HDL(aq),DL(r));
1.53 noro 1947: nd_free(a); nd_free(aq);
1948: } else {
1949: nd_bound[nd_psn] = ndv_compute_bound(nd_ps[nd_psn]);
1950: SG(r) = SG(a); ndl_copy(HDL(a),DL(r));
1951: nd_free(a);
1.39 noro 1952: }
1.1 noro 1953: return nd_psn++;
1954: }
1955:
1.39 noro 1956: void nd_setup(int mod,int trace,NODE f)
1.1 noro 1957: {
1.5 noro 1958: int i,j,td,len,max;
1.1 noro 1959: NODE s,s0,f0;
1.5 noro 1960: unsigned int *d;
1.13 noro 1961: RHist r;
1.20 noro 1962: NDV a;
1.11 noro 1963:
1964: nd_found = 0; nd_notfirst = 0; nd_create = 0;
1.1 noro 1965:
1966: nd_psn = length(f); nd_pslen = 2*nd_psn;
1.11 noro 1967: nd_ps = (NDV *)MALLOC(nd_pslen*sizeof(NDV));
1.53 noro 1968: nd_ps_trace = (NDV *)MALLOC(nd_pslen*sizeof(NDV));
1.13 noro 1969: nd_psh = (RHist *)MALLOC(nd_pslen*sizeof(RHist));
1.1 noro 1970: nd_bound = (unsigned int **)MALLOC(nd_pslen*sizeof(unsigned int *));
1.5 noro 1971: for ( max = 0, i = 0, s = f; i < nd_psn; i++, s = NEXT(s) ) {
1972: nd_bound[i] = d = dp_compute_bound((DP)BDY(s));
1973: for ( j = 0; j < nd_nvar; j++ )
1974: max = MAX(d[j],max);
1975: }
1.11 noro 1976: if ( !nd_red )
1.13 noro 1977: nd_red = (RHist *)MALLOC(REDTAB_LEN*sizeof(RHist));
1978: bzero(nd_red,REDTAB_LEN*sizeof(RHist));
1.5 noro 1979:
1.34 noro 1980: if ( max < 2 ) nd_bpe = 2;
1981: else if ( max < 4 ) nd_bpe = 4;
1982: else if ( max < 64 ) nd_bpe = 6;
1983: else if ( max < 256 ) nd_bpe = 8;
1984: else if ( max < 65536 ) nd_bpe = 16;
1985: else nd_bpe = 32;
1.13 noro 1986:
1.1 noro 1987: nd_setup_parameters();
1988: nd_free_private_storage();
1989: for ( i = 0; i < nd_psn; i++, f = NEXT(f) ) {
1.20 noro 1990: NEWRHist(r);
1.39 noro 1991: a = dptondv(mod,(DP)BDY(f)); ndv_removecont(mod,a);
1.34 noro 1992: SG(r) = HTD(a); ndl_copy(HDL(a),DL(r));
1.1 noro 1993:
1.53 noro 1994: nd_ps[i] = a;
1.39 noro 1995: if ( trace ) {
1996: a = dptondv(0,(DP)BDY(f)); ndv_removecont(0,a);
1.53 noro 1997: nd_ps_trace[i] = a;
1.39 noro 1998: }
1.20 noro 1999: nd_psh[i] = r;
2000: }
2001: }
2002:
1.1 noro 2003: void nd_gr(LIST f,LIST v,int m,struct order_spec *ord,LIST *rp)
2004: {
2005: struct order_spec ord1;
2006: VL fv,vv,vc;
2007: NODE fd,fd0,r,r0,t,x,s,xx;
2008: DP a,b,c;
2009:
2010: get_vars((Obj)f,&fv); pltovl(v,&vv);
2011: nd_nvar = length(vv);
1.32 noro 2012: nd_init_ord(ord);
2013: /* XXX for DP */
1.1 noro 2014: initd(ord);
2015: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
2016: ptod(CO,vv,(P)BDY(t),&b);
1.20 noro 2017: NEXTNODE(fd0,fd); BDY(fd) = (pointer)b;
1.1 noro 2018: }
2019: if ( fd0 ) NEXT(fd) = 0;
1.39 noro 2020: nd_setup(m,0,fd0);
1.27 noro 2021: x = nd_gb(m,0);
1.25 noro 2022: fprintf(asir_out,"found=%d,notfirst=%d,create=%d\n",
2023: nd_found,nd_notfirst,nd_create);
1.50 noro 2024: x = nd_reducebase(x);
1.23 noro 2025: x = nd_reduceall(m,x);
2026: for ( r0 = 0, t = x; t; t = NEXT(t) ) {
1.1 noro 2027: NEXTNODE(r0,r);
1.20 noro 2028: if ( m ) {
1.23 noro 2029: a = ndvtodp(m,BDY(t));
1.16 noro 2030: _dtop_mod(CO,vv,a,(P *)&BDY(r));
1.20 noro 2031: } else {
1.23 noro 2032: a = ndvtodp(m,BDY(t));
1.16 noro 2033: dtop(CO,vv,a,(P *)&BDY(r));
1.20 noro 2034: }
2035: }
2036: if ( r0 ) NEXT(r) = 0;
2037: MKLIST(*rp,r0);
2038: }
2039:
1.52 noro 2040: void nd_gr_trace(LIST f,LIST v,int trace,int homo,struct order_spec *ord,LIST *rp)
1.20 noro 2041: {
2042: struct order_spec ord1;
2043: VL fv,vv,vc;
1.27 noro 2044: NODE fd,fd0,in0,in,r,r0,t,s,cand;
1.52 noro 2045: int m,nocheck,nvar,mindex;
1.23 noro 2046: DP a,b,c,h;
1.27 noro 2047: P p;
1.20 noro 2048:
2049: get_vars((Obj)f,&fv); pltovl(v,&vv);
1.52 noro 2050: nvar = length(vv);
2051: nocheck = 0;
2052: mindex = 0;
2053:
2054: /* setup modulus */
2055: if ( trace < 0 ) {
2056: trace = -trace;
2057: nocheck = 1;
2058: }
2059: m = trace > 1 ? trace : get_lprime(mindex);
2060:
1.20 noro 2061: initd(ord);
1.23 noro 2062: if ( homo ) {
2063: homogenize_order(ord,nd_nvar,&ord1);
1.27 noro 2064: for ( fd0 = 0, in0 = 0, t = BDY(f); t; t = NEXT(t) ) {
1.23 noro 2065: ptod(CO,vv,(P)BDY(t),&c);
2066: if ( c ) {
2067: dp_homo(c,&h); NEXTNODE(fd0,fd); BDY(fd) = (pointer)h;
1.27 noro 2068: NEXTNODE(in0,in); BDY(in) = (pointer)c;
1.23 noro 2069: }
2070: }
2071: if ( fd0 ) NEXT(fd) = 0;
1.27 noro 2072: if ( in0 ) NEXT(in) = 0;
1.25 noro 2073: } else {
2074: for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) {
2075: ptod(CO,vv,(P)BDY(t),&c);
2076: if ( c ) {
2077: NEXTNODE(fd0,fd); BDY(fd) = (pointer)c;
1.23 noro 2078: }
2079: }
1.25 noro 2080: if ( fd0 ) NEXT(fd) = 0;
1.27 noro 2081: in0 = fd0;
2082: }
1.52 noro 2083: while ( 1 ) {
2084: if ( homo ) {
2085: nd_init_ord(&ord1);
2086: initd(&ord1);
2087: nd_nvar = nvar+1;
2088: } else {
2089: nd_init_ord(ord);
2090: nd_nvar = nvar;
2091: }
1.39 noro 2092: nd_setup(m,1,fd0);
1.27 noro 2093: cand = nd_gb_trace(m);
1.52 noro 2094: if ( !cand ) {
2095: /* failure */
2096: if ( trace > 1 ) {
2097: *rp = 0; return;
2098: } else
2099: m = get_lprime(++mindex);
2100: continue;
2101: }
2102:
1.27 noro 2103: if ( homo ) {
2104: /* dehomogenization */
2105: for ( t = cand; t; t = NEXT(t) )
1.45 noro 2106: ndv_dehomogenize((NDV)BDY(t),ord);
1.52 noro 2107: nd_nvar = nvar;
1.45 noro 2108: initd(ord);
2109: nd_init_ord(ord);
1.27 noro 2110: nd_setup_parameters();
2111: }
1.50 noro 2112: cand = nd_reducebase(cand);
1.27 noro 2113: fprintf(asir_out,"found=%d,notfirst=%d,create=%d\n",
2114: nd_found,nd_notfirst,nd_create);
2115: cand = nd_reduceall(0,cand);
2116: initd(ord);
2117: for ( r0 = 0; cand; cand = NEXT(cand) ) {
2118: NEXTNODE(r0,r);
2119: BDY(r) = (pointer)ndvtodp(0,(NDV)BDY(cand));
2120: }
2121: if ( r0 ) NEXT(r) = 0;
2122: cand = r0;
1.52 noro 2123: if ( nocheck || nd_check_candidate(in0,cand) )
2124: /* success */
2125: break;
2126: else if ( trace > 1 ) {
2127: /* failure */
2128: *rp = 0; return;
2129: } else
2130: /* try the next modulus */
2131: m = get_lprime(++mindex);
2132: }
1.27 noro 2133: /* dp->p */
2134: for ( r = cand; r; r = NEXT(r) ) {
2135: dtop(CO,vv,BDY(r),&p);
2136: BDY(r) = (pointer)p;
1.23 noro 2137: }
1.27 noro 2138: MKLIST(*rp,cand);
1.1 noro 2139: }
2140:
2141: void dltondl(int n,DL dl,unsigned int *r)
2142: {
2143: unsigned int *d;
1.43 noro 2144: int i,j,l,s,ord_l,ord_o;
2145: struct order_pair *op;
1.1 noro 2146:
2147: d = dl->d;
1.41 noro 2148: for ( i = 0; i < nd_wpd; i++ ) r[i] = 0;
1.43 noro 2149: if ( nd_blockmask ) {
2150: l = nd_blockmask->n;
2151: op = nd_blockmask->order_pair;
2152: for ( j = 0, s = 0; j < l; j++ ) {
2153: ord_o = op[j].order;
2154: ord_l = op[j].length;
2155: if ( !ord_o )
2156: for ( i = 0; i < ord_l; i++ )
2157: PUT_EXP(r,s+ord_l-i-1,d[s+i]);
2158: else
2159: for ( i = 0; i < ord_l; i++ )
2160: PUT_EXP(r,s+i,d[s+i]);
2161: s += ord_l;
2162: }
2163: TD(r) = ndl_weight(r);
2164: for ( j = 0; j < l; j++ )
2165: r[j+1] = ndl_weight_mask(r,j);
2166: } else {
2167: if ( nd_isrlex )
2168: for ( i = 0; i < n; i++ ) PUT_EXP(r,n-1-i,d[i]);
2169: else
2170: for ( i = 0; i < n; i++ ) PUT_EXP(r,i,d[i]);
2171: TD(r) = ndl_weight(r);
2172: }
1.1 noro 2173: }
2174:
1.34 noro 2175: DL ndltodl(int n,unsigned int *ndl)
1.1 noro 2176: {
2177: DL dl;
2178: int *d;
1.43 noro 2179: int i,j,l,s,ord_l,ord_o;
2180: struct order_pair *op;
1.1 noro 2181:
2182: NEWDL(dl,n);
1.34 noro 2183: dl->td = TD(ndl);
1.1 noro 2184: d = dl->d;
1.43 noro 2185: if ( nd_blockmask ) {
2186: l = nd_blockmask->n;
2187: op = nd_blockmask->order_pair;
2188: for ( j = 0, s = 0; j < l; j++ ) {
2189: ord_o = op[j].order;
2190: ord_l = op[j].length;
2191: if ( !ord_o )
2192: for ( i = 0; i < ord_l; i++ )
2193: d[s+i] = GET_EXP(ndl,s+ord_l-i-1);
2194: else
2195: for ( i = 0; i < ord_l; i++ )
2196: d[s+i] = GET_EXP(ndl,s+i);
2197: s += ord_l;
2198: }
2199: } else {
2200: if ( nd_isrlex )
2201: for ( i = 0; i < n; i++ )
2202: d[i] = GET_EXP(ndl,n-1-i);
2203: else
2204: for ( i = 0; i < n; i++ )
2205: d[i] = GET_EXP(ndl,i);
2206: }
1.1 noro 2207: return dl;
2208: }
2209:
1.17 noro 2210: ND dptond(int mod,DP p)
1.1 noro 2211: {
2212: ND d;
2213: NM m0,m;
2214: MP t;
1.31 noro 2215: int n,l;
1.1 noro 2216:
2217: if ( !p )
2218: return 0;
2219: n = NV(p);
2220: m0 = 0;
1.31 noro 2221: for ( t = BDY(p), l = 0; t; t = NEXT(t), l++ ) {
1.1 noro 2222: NEXTNM(m0,m);
1.34 noro 2223: if ( mod ) CM(m) = ITOS(C(t));
2224: else CQ(m) = (Q)C(t);
1.14 noro 2225: dltondl(n,DL(t),DL(m));
1.1 noro 2226: }
2227: NEXT(m) = 0;
1.31 noro 2228: MKND(n,m0,l,d);
1.14 noro 2229: SG(d) = SG(p);
1.1 noro 2230: return d;
2231: }
2232:
1.17 noro 2233: DP ndtodp(int mod,ND p)
1.1 noro 2234: {
2235: DP d;
2236: MP m0,m;
2237: NM t;
2238: int n;
2239:
2240: if ( !p )
2241: return 0;
2242: n = NV(p);
2243: m0 = 0;
2244: for ( t = BDY(p); t; t = NEXT(t) ) {
2245: NEXTMP(m0,m);
1.34 noro 2246: if ( mod ) C(m) = STOI(CM(t));
2247: else C(m) = (P)CQ(t);
2248: DL(m) = ndltodl(n,DL(t));
1.1 noro 2249: }
2250: NEXT(m) = 0;
2251: MKDP(n,m0,d);
1.14 noro 2252: SG(d) = SG(p);
1.1 noro 2253: return d;
2254: }
2255:
2256: void ndl_print(unsigned int *dl)
2257: {
2258: int n;
1.43 noro 2259: int i,j,l,ord_o,ord_l,s,s0;
2260: struct order_pair *op;
1.1 noro 2261:
2262: n = nd_nvar;
2263: printf("<<");
1.43 noro 2264: if ( nd_blockmask ) {
2265: l = nd_blockmask->n;
2266: op = nd_blockmask->order_pair;
2267: for ( j = 0, s = s0 = 0; j < l; j++ ) {
2268: ord_o = op[j].order;
2269: ord_l = op[j].length;
2270: if ( !ord_o )
2271: for ( i = 0, s0 += ord_l; i < ord_l; i++, s++ )
2272: printf(s==n-1?"%d":"%d,",GET_EXP(dl,s0-i-1));
2273: else
2274: for ( i = 0; i < ord_l; i++, s++ )
2275: printf(s==n-1?"%d":"%d,",GET_EXP(dl,s));
2276: }
2277: } else {
2278: if ( nd_isrlex )
2279: for ( i = 0; i < n; i++ ) printf(i==n-1?"%d":"%d,",GET_EXP(dl,n-1-i));
2280: else
2281: for ( i = 0; i < n; i++ ) printf(i==n-1?"%d":"%d,",GET_EXP(dl,i));
2282: }
1.1 noro 2283: printf(">>");
2284: }
2285:
2286: void nd_print(ND p)
2287: {
2288: NM m;
2289:
2290: if ( !p )
2291: printf("0\n");
2292: else {
2293: for ( m = BDY(p); m; m = NEXT(m) ) {
1.14 noro 2294: printf("+%d*",CM(m));
2295: ndl_print(DL(m));
1.1 noro 2296: }
2297: printf("\n");
2298: }
2299: }
2300:
1.16 noro 2301: void nd_print_q(ND p)
2302: {
2303: NM m;
2304:
2305: if ( !p )
2306: printf("0\n");
2307: else {
2308: for ( m = BDY(p); m; m = NEXT(m) ) {
2309: printf("+");
2310: printexpr(CO,CQ(m));
2311: printf("*");
2312: ndl_print(DL(m));
2313: }
2314: printf("\n");
2315: }
2316: }
2317:
1.1 noro 2318: void ndp_print(ND_pairs d)
2319: {
2320: ND_pairs t;
2321:
1.34 noro 2322: for ( t = d; t; t = NEXT(t) ) printf("%d,%d ",t->i1,t->i2);
1.1 noro 2323: printf("\n");
2324: }
2325:
1.20 noro 2326: void nd_removecont(int mod,ND p)
1.16 noro 2327: {
2328: int i,n;
2329: Q *w;
2330: Q dvr,t;
2331: NM m;
1.21 noro 2332: struct oVECT v;
2333: N q,r;
1.16 noro 2334:
1.34 noro 2335: if ( mod ) nd_mul_c(mod,p,invm(HCM(p),mod));
1.20 noro 2336: else {
2337: for ( m = BDY(p), n = 0; m; m = NEXT(m), n++ );
2338: w = (Q *)ALLOCA(n*sizeof(Q));
1.21 noro 2339: v.len = n;
2340: v.body = (pointer *)w;
1.34 noro 2341: for ( m = BDY(p), i = 0; i < n; m = NEXT(m), i++ ) w[i] = CQ(m);
1.21 noro 2342: removecont_array(w,n);
2343: for ( m = BDY(p), i = 0; i < n; m = NEXT(m), i++ ) CQ(m) = w[i];
1.16 noro 2344: }
2345: }
2346:
1.21 noro 2347: void nd_removecont2(ND p1,ND p2)
2348: {
2349: int i,n1,n2,n;
2350: Q *w;
2351: Q dvr,t;
2352: NM m;
2353: struct oVECT v;
2354: N q,r;
2355:
2356: if ( !p1 ) {
2357: nd_removecont(0,p2); return;
2358: } else if ( !p2 ) {
2359: nd_removecont(0,p1); return;
2360: }
2361: n1 = nd_length(p1);
2362: n2 = nd_length(p2);
2363: n = n1+n2;
2364: w = (Q *)ALLOCA(n*sizeof(Q));
2365: v.len = n;
2366: v.body = (pointer *)w;
1.34 noro 2367: for ( m = BDY(p1), i = 0; i < n1; m = NEXT(m), i++ ) w[i] = CQ(m);
2368: for ( m = BDY(p2); i < n; m = NEXT(m), i++ ) w[i] = CQ(m);
1.21 noro 2369: removecont_array(w,n);
2370: for ( m = BDY(p1), i = 0; i < n1; m = NEXT(m), i++ ) CQ(m) = w[i];
2371: for ( m = BDY(p2); i < n; m = NEXT(m), i++ ) CQ(m) = w[i];
2372: }
2373:
1.20 noro 2374: void ndv_removecont(int mod,NDV p)
1.16 noro 2375: {
2376: int i,len;
2377: Q *w;
2378: Q dvr,t;
2379: NMV m;
2380:
1.20 noro 2381: if ( mod )
2382: ndv_mul_c(mod,p,invm(HCM(p),mod));
2383: else {
2384: len = p->len;
2385: w = (Q *)ALLOCA(len*sizeof(Q));
1.34 noro 2386: for ( m = BDY(p), i = 0; i < len; NMV_ADV(m), i++ ) w[i] = CQ(m);
1.20 noro 2387: sortbynm(w,len);
2388: qltozl(w,len,&dvr);
2389: for ( m = BDY(p), i = 0; i < len; NMV_ADV(m), i++ ) {
2390: divq(CQ(m),dvr,&t); CQ(m) = t;
2391: }
1.16 noro 2392: }
1.21 noro 2393: }
2394:
1.45 noro 2395: void ndv_dehomogenize(NDV p,struct order_spec *ord)
1.23 noro 2396: {
1.45 noro 2397: int i,j,adj,len,newnvar,newwpd,newadv,newexporigin;
1.23 noro 2398: Q *w;
2399: Q dvr,t;
2400: NMV m,r;
2401: #define NEWADV(m) (m = (NMV)(((char *)m)+newadv))
2402:
2403: len = p->len;
2404: newnvar = nd_nvar-1;
1.48 noro 2405: newexporigin = nd_get_exporigin(ord);
1.45 noro 2406: newwpd = newnvar/nd_epw+(newnvar%nd_epw?1:0)+newexporigin;
1.23 noro 2407: for ( m = BDY(p), i = 0; i < len; NMV_ADV(m), i++ )
1.34 noro 2408: ndl_dehomogenize(DL(m));
1.23 noro 2409: if ( newwpd != nd_wpd ) {
1.41 noro 2410: newadv = sizeof(struct oNMV)+(newwpd-1)*sizeof(unsigned int);
1.23 noro 2411: for ( m = r = BDY(p), i = 0; i < len; NMV_ADV(m), NEWADV(r), i++ ) {
1.45 noro 2412: CQ(r) = CQ(m);
2413: for ( j = 0; j < newexporigin; j++ ) DL(r)[j] = DL(m)[j];
2414: adj = nd_exporigin-newexporigin;
2415: for ( ; j < newwpd; j++ ) DL(r)[j] = DL(m)[j+adj];
1.23 noro 2416: }
2417: }
2418: NV(p)--;
2419: }
2420:
1.21 noro 2421: void removecont_array(Q *c,int n)
2422: {
2423: struct oVECT v;
2424: Q d0,d1,a,u,u1,gcd;
2425: int i;
2426: N qn,rn,gn;
2427: Q *q,*r;
2428:
2429: q = (Q *)ALLOCA(n*sizeof(Q));
2430: r = (Q *)ALLOCA(n*sizeof(Q));
2431: v.id = O_VECT; v.len = n; v.body = (pointer *)c;
2432: igcdv_estimate(&v,&d0);
2433: for ( i = 0; i < n; i++ ) {
2434: divn(NM(c[i]),NM(d0),&qn,&rn);
2435: NTOQ(qn,SGN(c[i])*SGN(d0),q[i]);
2436: NTOQ(rn,SGN(c[i]),r[i]);
2437: }
1.34 noro 2438: for ( i = 0; i < n; i++ ) if ( r[i] ) break;
1.21 noro 2439: if ( i < n ) {
2440: v.id = O_VECT; v.len = n; v.body = (pointer *)r;
2441: igcdv(&v,&d1);
2442: gcdn(NM(d0),NM(d1),&gn); NTOQ(gn,1,gcd);
2443: divsn(NM(d0),gn,&qn); NTOQ(qn,1,a);
2444: for ( i = 0; i < n; i++ ) {
2445: mulq(a,q[i],&u);
2446: if ( r[i] ) {
2447: divsn(NM(r[i]),gn,&qn); NTOQ(qn,SGN(r[i]),u1);
2448: addq(u,u1,&q[i]);
2449: } else
2450: q[i] = u;
2451: }
2452: }
1.34 noro 2453: for ( i = 0; i < n; i++ ) c[i] = q[i];
1.16 noro 2454: }
2455:
1.19 noro 2456: void nd_mul_c(int mod,ND p,int mul)
1.1 noro 2457: {
2458: NM m;
2459: int c,c1;
2460:
1.34 noro 2461: if ( !p ) return;
1.1 noro 2462: for ( m = BDY(p); m; m = NEXT(m) ) {
1.14 noro 2463: c1 = CM(m);
1.19 noro 2464: DMAR(c1,mul,0,mod,c);
1.14 noro 2465: CM(m) = c;
1.1 noro 2466: }
2467: }
2468:
1.16 noro 2469: void nd_mul_c_q(ND p,Q mul)
2470: {
2471: NM m;
2472: Q c;
2473:
1.34 noro 2474: if ( !p ) return;
1.16 noro 2475: for ( m = BDY(p); m; m = NEXT(m) ) {
2476: mulq(CQ(m),mul,&c); CQ(m) = c;
2477: }
2478: }
2479:
1.1 noro 2480: void nd_free(ND p)
2481: {
2482: NM t,s;
2483:
1.34 noro 2484: if ( !p ) return;
1.1 noro 2485: t = BDY(p);
2486: while ( t ) {
2487: s = NEXT(t);
2488: FREENM(t);
2489: t = s;
2490: }
2491: FREEND(p);
2492: }
2493:
1.23 noro 2494: void ndv_free(NDV p)
2495: {
2496: GC_free(BDY(p));
2497: }
2498:
1.34 noro 2499: void nd_append_red(unsigned int *d,int i)
1.1 noro 2500: {
1.13 noro 2501: RHist m,m0;
1.1 noro 2502: int h;
2503:
1.13 noro 2504: NEWRHist(m);
1.34 noro 2505: h = ndl_hash_value(d);
1.13 noro 2506: m->index = i;
1.14 noro 2507: ndl_copy(d,DL(m));
1.1 noro 2508: NEXT(m) = nd_red[h];
2509: nd_red[h] = m;
2510: }
2511:
1.5 noro 2512: unsigned int *dp_compute_bound(DP p)
2513: {
2514: unsigned int *d,*d1,*d2,*t;
2515: MP m;
1.7 noro 2516: int i,l;
1.5 noro 2517:
2518: if ( !p )
2519: return 0;
2520: d1 = (unsigned int *)ALLOCA(nd_nvar*sizeof(unsigned int));
2521: d2 = (unsigned int *)ALLOCA(nd_nvar*sizeof(unsigned int));
2522: m = BDY(p);
1.35 noro 2523: d = DL(m)->d;
2524: for ( i = 0; i < nd_nvar; i++ ) d1[i] = d[i];
1.5 noro 2525: for ( m = NEXT(BDY(p)); m; m = NEXT(m) ) {
1.14 noro 2526: d = DL(m)->d;
1.5 noro 2527: for ( i = 0; i < nd_nvar; i++ )
2528: d2[i] = d[i] > d1[i] ? d[i] : d1[i];
2529: t = d1; d1 = d2; d2 = t;
2530: }
1.13 noro 2531: l = (nd_nvar+31);
1.7 noro 2532: t = (unsigned int *)MALLOC_ATOMIC(l*sizeof(unsigned int));
1.35 noro 2533: for ( i = 0; i < nd_nvar; i++ ) t[i] = d1[i];
2534: for ( ; i < l; i++ ) t[i] = 0;
1.5 noro 2535: return t;
2536: }
2537:
1.45 noro 2538: unsigned int *ndv_compute_bound(NDV p)
1.1 noro 2539: {
2540: unsigned int *d1,*d2,*t;
1.45 noro 2541: int i,l,len;
2542: NMV m;
1.1 noro 2543:
2544: if ( !p )
2545: return 0;
2546: d1 = (unsigned int *)ALLOCA(nd_wpd*sizeof(unsigned int));
2547: d2 = (unsigned int *)ALLOCA(nd_wpd*sizeof(unsigned int));
1.45 noro 2548: len = LEN(p);
2549: m = BDY(p); ndl_copy(DL(m),d1); NMV_ADV(m);
2550: for ( i = 1; i < len; i++, NMV_ADV(m) ) {
1.14 noro 2551: ndl_lcm(DL(m),d1,d2);
1.1 noro 2552: t = d1; d1 = d2; d2 = t;
2553: }
1.12 noro 2554: l = nd_nvar+31;
1.9 noro 2555: t = (unsigned int *)MALLOC_ATOMIC(l*sizeof(unsigned int));
1.42 noro 2556: for ( i = 0; i < nd_nvar; i++ ) t[i] = GET_EXP(d1,i);
1.35 noro 2557: for ( ; i < l; i++ ) t[i] = 0;
1.1 noro 2558: return t;
2559: }
2560:
1.48 noro 2561: int nd_get_exporigin(struct order_spec *ord)
2562: {
1.51 noro 2563: switch ( ord->id ) {
1.41 noro 2564: case 0:
1.48 noro 2565: return 1;
1.41 noro 2566: case 1:
2567: /* block order */
1.43 noro 2568: /* d[0]:weight d[1]:w0,...,d[nd_exporigin-1]:w(n-1) */
1.48 noro 2569: return ord->ord.block.length+1;
1.41 noro 2570: case 2:
1.52 noro 2571: error("nd_get_exporigin : matrix order is not supported yet.");
1.41 noro 2572: }
1.48 noro 2573: }
2574:
2575: void nd_setup_parameters() {
2576: int i,n,elen;
2577:
2578: nd_epw = (sizeof(unsigned int)*8)/nd_bpe;
2579: elen = nd_nvar/nd_epw+(nd_nvar%nd_epw?1:0);
2580:
2581: nd_exporigin = nd_get_exporigin(nd_ord);
1.43 noro 2582: nd_wpd = nd_exporigin+elen;
2583: nd_epos = (EPOS)MALLOC_ATOMIC(nd_nvar*sizeof(struct oEPOS));
2584: for ( i = 0; i < nd_nvar; i++ ) {
2585: nd_epos[i].i = nd_exporigin + i/nd_epw;
2586: nd_epos[i].s = (nd_epw-(i%nd_epw)-1)*nd_bpe;
2587: }
1.1 noro 2588: if ( nd_bpe < 32 ) {
2589: nd_mask0 = (1<<nd_bpe)-1;
2590: } else {
2591: nd_mask0 = 0xffffffff;
2592: }
2593: bzero(nd_mask,sizeof(nd_mask));
2594: nd_mask1 = 0;
2595: for ( i = 0; i < nd_epw; i++ ) {
2596: nd_mask[nd_epw-i-1] = (nd_mask0<<(i*nd_bpe));
2597: nd_mask1 |= (1<<(nd_bpe-1))<<(i*nd_bpe);
2598: }
1.41 noro 2599: nm_adv = sizeof(struct oNM)+(nd_wpd-1)*sizeof(unsigned int);
2600: nmv_adv = sizeof(struct oNMV)+(nd_wpd-1)*sizeof(unsigned int);
1.43 noro 2601: nd_blockmask = nd_create_blockmask(nd_ord);
1.1 noro 2602: }
2603:
1.20 noro 2604: ND_pairs nd_reconstruct(int mod,int trace,ND_pairs d)
1.1 noro 2605: {
1.37 noro 2606: int i,obpe,oadv,h;
1.13 noro 2607: NM prev_nm_free_list;
2608: RHist mr0,mr;
2609: RHist r;
1.37 noro 2610: RHist *old_red;
1.1 noro 2611: ND_pairs s0,s,t,prev_ndp_free_list;
1.43 noro 2612: EPOS oepos;
1.15 noro 2613:
1.1 noro 2614: obpe = nd_bpe;
1.11 noro 2615: oadv = nmv_adv;
1.43 noro 2616: oepos = nd_epos;
1.34 noro 2617: if ( obpe < 4 ) nd_bpe = 4;
2618: else if ( obpe < 6 ) nd_bpe = 6;
2619: else if ( obpe < 8 ) nd_bpe = 8;
2620: else if ( obpe < 16 ) nd_bpe = 16;
2621: else if ( obpe < 32 ) nd_bpe = 32;
2622: else error("nd_reconstruct : exponent too large");
1.5 noro 2623:
1.1 noro 2624: nd_setup_parameters();
2625: prev_nm_free_list = _nm_free_list;
2626: prev_ndp_free_list = _ndp_free_list;
2627: _nm_free_list = 0;
2628: _ndp_free_list = 0;
1.53 noro 2629: for ( i = nd_psn-1; i >= 0; i-- ) ndv_realloc(nd_ps[i],obpe,oadv,oepos);
2630: if ( trace )
2631: for ( i = nd_psn-1; i >= 0; i-- )
2632: ndv_realloc(nd_ps_trace[i],obpe,oadv,oepos);
1.1 noro 2633: s0 = 0;
2634: for ( t = d; t; t = NEXT(t) ) {
2635: NEXTND_pairs(s0,s);
2636: s->i1 = t->i1;
2637: s->i2 = t->i2;
1.14 noro 2638: SG(s) = SG(t);
1.43 noro 2639: ndl_reconstruct(obpe,oepos,LCM(t),LCM(s));
1.1 noro 2640: }
1.37 noro 2641:
2642: old_red = (RHist *)ALLOCA(REDTAB_LEN*sizeof(RHist));
1.6 noro 2643: for ( i = 0; i < REDTAB_LEN; i++ ) {
1.37 noro 2644: old_red[i] = nd_red[i];
2645: nd_red[i] = 0;
2646: }
2647: for ( i = 0; i < REDTAB_LEN; i++ )
2648: for ( r = old_red[i]; r; r = NEXT(r) ) {
2649: NEWRHist(mr);
1.13 noro 2650: mr->index = r->index;
1.20 noro 2651: SG(mr) = SG(r);
1.43 noro 2652: ndl_reconstruct(obpe,oepos,DL(r),DL(mr));
1.37 noro 2653: h = ndl_hash_value(DL(mr));
2654: NEXT(mr) = nd_red[h];
2655: nd_red[h] = mr;
1.6 noro 2656: }
1.37 noro 2657: for ( i = 0; i < REDTAB_LEN; i++ ) old_red[i] = 0;
2658: old_red = 0;
1.11 noro 2659: for ( i = 0; i < nd_psn; i++ ) {
1.20 noro 2660: NEWRHist(r); SG(r) = SG(nd_psh[i]);
1.43 noro 2661: ndl_reconstruct(obpe,oepos,DL(nd_psh[i]),DL(r));
1.13 noro 2662: nd_psh[i] = r;
1.11 noro 2663: }
1.1 noro 2664: if ( s0 ) NEXT(s) = 0;
2665: prev_nm_free_list = 0;
2666: prev_ndp_free_list = 0;
2667: GC_gcollect();
2668: return s0;
2669: }
2670:
1.23 noro 2671: void nd_reconstruct_direct(int mod,NDV *ps,int len)
2672: {
1.37 noro 2673: int i,obpe,oadv,h;
1.45 noro 2674: unsigned int **bound;
1.23 noro 2675: NM prev_nm_free_list;
2676: RHist mr0,mr;
2677: RHist r;
1.37 noro 2678: RHist *old_red;
1.23 noro 2679: ND_pairs s0,s,t,prev_ndp_free_list;
1.43 noro 2680: EPOS oepos;
1.23 noro 2681:
2682: obpe = nd_bpe;
2683: oadv = nmv_adv;
1.43 noro 2684: oepos = nd_epos;
1.34 noro 2685: if ( obpe < 4 ) nd_bpe = 4;
2686: else if ( obpe < 6 ) nd_bpe = 6;
2687: else if ( obpe < 8 ) nd_bpe = 8;
2688: else if ( obpe < 16 ) nd_bpe = 16;
2689: else if ( obpe < 32 ) nd_bpe = 32;
2690: else error("nd_reconstruct_direct : exponent too large");
1.23 noro 2691:
2692: nd_setup_parameters();
2693: prev_nm_free_list = _nm_free_list;
2694: prev_ndp_free_list = _ndp_free_list;
1.34 noro 2695: _nm_free_list = 0; _ndp_free_list = 0;
1.43 noro 2696: for ( i = len-1; i >= 0; i-- ) ndv_realloc(ps[i],obpe,oadv,oepos);
1.23 noro 2697: prev_nm_free_list = 0;
2698: prev_ndp_free_list = 0;
2699: GC_gcollect();
2700: }
2701:
1.43 noro 2702: void ndl_reconstruct(int obpe,EPOS oepos,unsigned int *d,unsigned int *r)
1.1 noro 2703: {
1.43 noro 2704: int n,i,ei,oepw,omask0,j,s,ord_l,ord_o,l;
2705: struct order_pair *op;
2706: #define GET_EXP_OLD(d,a) (((d)[oepos[a].i]>>oepos[a].s)&omask0)
2707: #define PUT_EXP_OLD(r,a,e) ((r)[oepos[a].i] |= ((e)<<oepos[a].s))
1.1 noro 2708:
2709: n = nd_nvar;
2710: oepw = (sizeof(unsigned int)*8)/obpe;
1.43 noro 2711: omask0 = (1<<obpe)-1;
1.34 noro 2712: TD(r) = TD(d);
1.41 noro 2713: for ( i = nd_exporigin; i < nd_wpd; i++ ) r[i] = 0;
1.43 noro 2714: if ( nd_blockmask ) {
2715: l = nd_blockmask->n;
2716: op = nd_blockmask->order_pair;
2717: for ( i = 1; i < nd_exporigin; i++ )
2718: r[i] = d[i];
2719: for ( j = 0, s = 0; j < l; j++ ) {
2720: ord_o = op[j].order;
2721: ord_l = op[j].length;
2722: if ( !ord_o )
2723: for ( i = 0; i < ord_l; i++ ) {
2724: ei = GET_EXP_OLD(d,s+ord_l-i-1);
2725: PUT_EXP(r,s+ord_l-i-1,ei);
2726: }
2727: else
2728: for ( i = 0; i < ord_l; i++ ) {
2729: ei = GET_EXP_OLD(d,s+i);
2730: PUT_EXP(r,s+i,ei);
2731: }
2732: s += ord_l;
1.1 noro 2733: }
1.43 noro 2734: } else {
2735: if ( nd_isrlex )
2736: for ( i = 0; i < n; i++ ) {
2737: ei = GET_EXP_OLD(d,n-1-i);
2738: PUT_EXP(r,n-1-i,ei);
2739: }
2740: else
2741: for ( i = 0; i < n; i++ ) {
2742: ei = GET_EXP_OLD(d,i);
2743: PUT_EXP(r,i,ei);
2744: }
1.1 noro 2745: }
2746: }
1.3 noro 2747:
1.6 noro 2748: ND nd_copy(ND p)
2749: {
2750: NM m,mr,mr0;
1.41 noro 2751: int c,n;
1.6 noro 2752: ND r;
2753:
2754: if ( !p )
2755: return 0;
2756: else {
2757: for ( mr0 = 0, m = BDY(p); m; m = NEXT(m) ) {
2758: NEXTNM(mr0,mr);
1.14 noro 2759: CM(mr) = CM(m);
2760: ndl_copy(DL(m),DL(mr));
1.6 noro 2761: }
2762: NEXT(mr) = 0;
1.31 noro 2763: MKND(NV(p),mr0,LEN(p),r);
1.14 noro 2764: SG(r) = SG(p);
1.6 noro 2765: return r;
2766: }
2767: }
2768:
1.53 noro 2769: int nd_sp(int mod,int trace,ND_pairs p,ND *rp)
1.11 noro 2770: {
2771: NM m;
2772: NDV p1,p2;
2773: ND t1,t2;
2774: unsigned int *lcm;
1.31 noro 2775: int td;
1.11 noro 2776:
1.53 noro 2777: if ( trace ) {
2778: p1 = nd_ps_trace[p->i1]; p2 = nd_ps_trace[p->i2];
2779: } else {
1.20 noro 2780: p1 = nd_ps[p->i1]; p2 = nd_ps[p->i2];
2781: }
1.34 noro 2782: lcm = LCM(p);
1.11 noro 2783: NEWNM(m);
1.20 noro 2784: CQ(m) = HCQ(p2);
1.34 noro 2785: ndl_sub(lcm,HDL(p1),DL(m));
2786: if ( ndl_check_bound2(p->i1,DL(m)) ) return 0;
1.55 ! noro 2787: t1 = ndv_mul_nm(mod,m,p1);
1.34 noro 2788: if ( mod ) CM(m) = mod-HCM(p1);
2789: else chsgnq(HCQ(p1),&CQ(m));
2790: ndl_sub(lcm,HDL(p2),DL(m));
1.14 noro 2791: if ( ndl_check_bound2(p->i2,DL(m)) ) {
1.11 noro 2792: nd_free(t1);
2793: return 0;
2794: }
1.55 ! noro 2795: t2 = ndv_mul_nm(mod,m,p2);
1.31 noro 2796: *rp = nd_add(mod,t1,t2);
1.11 noro 2797: FREENM(m);
2798: return 1;
2799: }
2800:
1.19 noro 2801: void ndv_mul_c(int mod,NDV p,int mul)
1.11 noro 2802: {
2803: NMV m;
2804: int c,c1,len,i;
2805:
1.34 noro 2806: if ( !p ) return;
1.14 noro 2807: len = LEN(p);
1.11 noro 2808: for ( m = BDY(p), i = 0; i < len; i++, NMV_ADV(m) ) {
1.34 noro 2809: c1 = CM(m); DMAR(c1,mul,0,mod,c); CM(m) = c;
1.11 noro 2810: }
2811: }
2812:
1.16 noro 2813: void ndv_mul_c_q(NDV p,Q mul)
2814: {
2815: NMV m;
2816: Q c;
2817: int len,i;
2818:
1.34 noro 2819: if ( !p ) return;
1.16 noro 2820: len = LEN(p);
2821: for ( m = BDY(p), i = 0; i < len; i++, NMV_ADV(m) ) {
2822: mulq(CQ(m),mul,&c); CQ(m) = c;
2823: }
2824: }
2825:
1.55 ! noro 2826: ND weyl_ndv_mul_nm(int mod,NM m0,NDV p) {
! 2827: int n2,i,j,l,n,tlen;
! 2828: unsigned int *d0;
! 2829: NM *tab,*psum;
! 2830: ND s,r;
! 2831: NM t;
! 2832: NMV m1;
! 2833:
! 2834: if ( !p ) return 0;
! 2835: n = NV(p); n2 = n>>1;
! 2836: d0 = DL(m0);
! 2837: l = LEN(p);
! 2838: for ( i = 0, tlen = 1; i < n2; i++ ) tlen *= (GET_EXP(d0,n2+i)+1);
! 2839: tab = (NM *)ALLOCA(tlen*sizeof(NM));
! 2840: psum = (NM *)ALLOCA(tlen*sizeof(NM));
! 2841: for ( i = 0; i < tlen; i++ ) psum[i] = 0;
! 2842: for ( i = l-1, m1 = BDY(p)+nmv_adv*(l-1); i >= 0; i--, m1 -= nmv_adv ) {
! 2843: /* m0(NM) * m1(NMV) => tab(NM) */
! 2844: if ( mod )
! 2845: weyl_mul_nm_nmv(mod,n,m0,m1,tab,tlen);
! 2846: else
! 2847: weyl_mul_nm_nmv_q(n,m0,m1,tab,tlen);
! 2848: for ( j = 0; j < tlen; j++ ) {
! 2849: if ( tab[j] ) {
! 2850: NEXT(tab[j]) = psum[j]; psum[j] = tab[j];
! 2851: }
! 2852: }
! 2853: }
! 2854: for ( i = tlen-1, r = 0; i >= 0; i-- )
! 2855: if ( psum[i] ) {
! 2856: for ( j = 0, t = psum[i]; t; t = NEXT(t), j++ );
! 2857: MKND(n,psum[i],j,s);
! 2858: r = nd_add(mod,r,s);
! 2859: }
! 2860: if ( s ) SG(s) = SG(p)+TD(d0);
! 2861: return s;
! 2862: }
! 2863:
! 2864: void weyl_mul_nm_nmv(int n,int mod,NM m0,NMV m1,NM *tab,int tlen)
! 2865: {
! 2866: int i,n2,j,s,curlen,homo,h,a,b,k,l,min;
! 2867: unsigned int *d0,*d1,*d,*ctab;
! 2868: unsigned int c0,c1,c;
! 2869: NM *p;
! 2870: NM m,t;
! 2871:
! 2872: for ( i = 0; i < tlen; i++ ) tab[i] = 0;
! 2873: if ( !m0 || !m1 ) return;
! 2874: d0 = DL(m0); d1 = DL(m1); n2 = n>>1;
! 2875: NEWNM(m); d = DL(m);
! 2876: c0 = CM(m0); c1 = CM(m1); DMAR(c1,c,0,mod,c); CM(m) = c;
! 2877: for ( i = 0; i < nd_wpd; i++ ) d[i] = 0;
! 2878: homo = n&1 ? 1 : 0;
! 2879: if ( homo ) {
! 2880: /* offset of h-degree */
! 2881: h = GET_EXP(d0,n-1)+GET_EXP(d1,n-1);
! 2882: PUT_EXP(DL(m),n-1,h);
! 2883: TD(DL(m)) = h;
! 2884: /* XXX other weights */
! 2885: }
! 2886: tab[0] = m;
! 2887: curlen = 1;
! 2888: s = MUL_WEIGHT(a,i)+MUL_WEIGHT(b,n2+i);
! 2889: NEWNM(m); d = DL(m);
! 2890: for ( i = 0; i < n2; i++ ) {
! 2891: a = GET_EXP(d0,i); b = GET_EXP(d1,n2+i);
! 2892: k = GET_EXP(d0,n2+i); l = GET_EXP(d1,i);
! 2893: /* xi^a*(Di^k*xi^l)*Di^b */
! 2894: a += l; b += k;
! 2895: if ( !k || !l ) {
! 2896: for ( j = 0; j < curlen; j++ )
! 2897: if ( m = tab[j] ) {
! 2898: d = DL(m);
! 2899: PUT_EXP(d,i,a); PUT_EXP(d,n2+i,b); TD(d) += s;
! 2900: /* XXX other weights */
! 2901: }
! 2902: curlen *= k+1;
! 2903: continue;
! 2904: }
! 2905: min = MIN(k,l);
! 2906: ctab = (unsigned int *)ALLOCA((min+1)*sizeof(unsigned int));
! 2907: mkwcm(k,l,mod,ctab);
! 2908: for ( j = 0; j < nd_wpd; i++ ) d[j] = 0;
! 2909: p = tab+curlen;
! 2910: for ( j = 1; j <= min; j++ ) {
! 2911: PUT_EXP(d,i,a-j); PUT_EXP(d,n2+i,b-j);
! 2912: h = s-(MUL_WEIGHT(a-j,i)+MUL_WEIGHT(b-j,n2+i));
! 2913: if ( homo ) {
! 2914: TD(d) = s;
! 2915: PUT_EXP(d,n-1,h);
! 2916: } else TD(d) = h;
! 2917: /* XXX other weights */
! 2918: c = ctab[j];
! 2919: for ( k = 0; k < curlen; k++, p++ ) {
! 2920: NEWNM(t);
! 2921: ndl_add(DL(tab[k]),d,DL(t));
! 2922: c0 = CM(tab[k]); DMAR(c0,c,0,mod,c1); CM(t) = c1;
! 2923: *p = t;
! 2924: }
! 2925: }
! 2926: /* destructive for j = 0 */
! 2927: PUT_EXP(d,i,a); PUT_EXP(d,n2+i,b);
! 2928: h = s-(MUL_WEIGHT(a,i)+MUL_WEIGHT(b,n2+i));
! 2929: if ( homo ) {
! 2930: TD(d) = s;
! 2931: PUT_EXP(d,n-1,h);
! 2932: } else TD(d) = h;
! 2933: /* XXX other weights */
! 2934: c = ctab[0];
! 2935: p = tab;
! 2936: for ( k = 0; k < curlen; k++, p++ ) {
! 2937: ndl_addto(DL(tab[k]),d);
! 2938: c0 = CM(tab[k]); DMAR(c0,c,0,mod,c1); CM(tab[k]) = c1;
! 2939: }
! 2940: curlen *= k+1;
! 2941: }
! 2942: FREENM(m);
! 2943: }
! 2944:
! 2945: void weyl_mul_nm_nmv_q(int n,NM m0,NMV m1,NM *tab,int tlen)
! 2946: {
! 2947: int i,n2,j,s,curlen,homo,h,a,b,k,l,min;
! 2948: unsigned int *d0,*d1,*d;
! 2949: Q *ctab;
! 2950: Q c0,c1,c;
! 2951: NM *p;
! 2952: NM m,t;
! 2953:
! 2954: for ( i = 0; i < tlen; i++ ) tab[i] = 0;
! 2955: if ( !m0 || !m1 ) return;
! 2956: d0 = DL(m0); d1 = DL(m1); n2 = n>>1;
! 2957: NEWNM(m); d = DL(m);
! 2958: mulq(CQ(m0),CQ(m1),&CQ(m));
! 2959: for ( i = 0; i < nd_wpd; i++ ) d[i] = 0;
! 2960: homo = n&1 ? 1 : 0;
! 2961: if ( homo ) {
! 2962: /* offset of h-degree */
! 2963: h = GET_EXP(d0,n-1)+GET_EXP(d1,n-1);
! 2964: PUT_EXP(DL(m),n-1,h);
! 2965: TD(DL(m)) = h;
! 2966: /* XXX other weights */
! 2967: }
! 2968: tab[0] = m;
! 2969: curlen = 1;
! 2970: s = MUL_WEIGHT(a,i)+MUL_WEIGHT(b,n2+i);
! 2971: NEWNM(m); d = DL(m);
! 2972: for ( i = 0; i < n2; i++ ) {
! 2973: a = GET_EXP(d0,i); b = GET_EXP(d1,n2+i);
! 2974: k = GET_EXP(d0,n2+i); l = GET_EXP(d1,i);
! 2975: /* xi^a*(Di^k*xi^l)*Di^b */
! 2976: a += l; b += k;
! 2977: if ( !k || !l ) {
! 2978: for ( j = 0; j < curlen; j++ )
! 2979: if ( m = tab[j] ) {
! 2980: d = DL(m);
! 2981: PUT_EXP(d,i,a); PUT_EXP(d,n2+i,b); TD(d) += s;
! 2982: /* XXX other weights */
! 2983: }
! 2984: curlen *= k+1;
! 2985: continue;
! 2986: }
! 2987: min = MIN(k,l);
! 2988: ctab = (Q *)ALLOCA((min+1)*sizeof(Q));
! 2989: mkwc(k,l,ctab);
! 2990: for ( j = 0; j < nd_wpd; i++ ) d[j] = 0;
! 2991: p = tab+curlen;
! 2992: for ( j = 1; j <= min; j++ ) {
! 2993: PUT_EXP(d,i,a-j); PUT_EXP(d,n2+i,b-j);
! 2994: h = s-(MUL_WEIGHT(a-j,i)+MUL_WEIGHT(b-j,n2+i));
! 2995: if ( homo ) {
! 2996: TD(d) = s;
! 2997: PUT_EXP(d,n-1,h);
! 2998: } else TD(d) = h;
! 2999: /* XXX other weights */
! 3000: c = ctab[j];
! 3001: for ( k = 0; k < curlen; k++, p++ ) {
! 3002: NEWNM(t);
! 3003: ndl_add(DL(tab[k]),d,DL(t));
! 3004: mulq(CQ(tab[k]),c,&CQ(t));
! 3005: *p = t;
! 3006: }
! 3007: }
! 3008: /* destructive for j = 0 */
! 3009: PUT_EXP(d,i,a); PUT_EXP(d,n2+i,b);
! 3010: h = s-(MUL_WEIGHT(a,i)+MUL_WEIGHT(b,n2+i));
! 3011: if ( homo ) {
! 3012: TD(d) = s;
! 3013: PUT_EXP(d,n-1,h);
! 3014: } else TD(d) = h;
! 3015: /* XXX other weights */
! 3016: c = ctab[0];
! 3017: p = tab;
! 3018: for ( k = 0; k < curlen; k++, p++ ) {
! 3019: ndl_addto(DL(tab[k]),d);
! 3020: mulq(CQ(tab[k]),c,&CQ(tab[k]));
! 3021: }
! 3022: curlen *= k+1;
! 3023: }
! 3024: FREENM(m);
! 3025: }
! 3026:
! 3027: ND ndv_mul_nm(int mod,NM m0,NDV p)
1.9 noro 3028: {
3029: NM mr,mr0;
3030: NMV m;
3031: unsigned int *d,*dt,*dm;
3032: int c,n,td,i,c1,c2,len;
1.16 noro 3033: Q q;
1.9 noro 3034: ND r;
3035:
1.34 noro 3036: if ( !p ) return 0;
1.55 ! noro 3037: else if ( do_weyl )
! 3038: return weyl_ndv_mul_nm(mod,m0,p);
1.9 noro 3039: else {
3040: n = NV(p); m = BDY(p);
1.34 noro 3041: d = DL(m0);
1.14 noro 3042: len = LEN(p);
1.9 noro 3043: mr0 = 0;
1.34 noro 3044: td = TD(d);
1.16 noro 3045: if ( mod ) {
3046: c = CM(m0);
3047: for ( i = 0; i < len; i++, NMV_ADV(m) ) {
3048: NEXTNM(mr0,mr);
3049: c1 = CM(m);
1.19 noro 3050: DMAR(c1,c,0,mod,c2);
1.16 noro 3051: CM(mr) = c2;
3052: ndl_add(DL(m),d,DL(mr));
3053: }
3054: } else {
3055: q = CQ(m0);
3056: for ( i = 0; i < len; i++, NMV_ADV(m) ) {
3057: NEXTNM(mr0,mr);
3058: mulq(CQ(m),q,&CQ(mr));
3059: ndl_add(DL(m),d,DL(mr));
3060: }
1.4 noro 3061: }
1.9 noro 3062: NEXT(mr) = 0;
1.31 noro 3063: MKND(NV(p),mr0,len,r);
1.34 noro 3064: SG(r) = SG(p) + TD(d);
1.9 noro 3065: return r;
1.4 noro 3066: }
3067: }
3068:
1.43 noro 3069: void ndv_realloc(NDV p,int obpe,int oadv,EPOS oepos)
1.11 noro 3070: {
1.13 noro 3071: NMV m,mr,mr0,t;
3072: int len,i,k;
1.11 noro 3073:
1.13 noro 3074: #define NMV_OPREV(m) (m = (NMV)(((char *)m)-oadv))
3075: #define NMV_PREV(m) (m = (NMV)(((char *)m)-nmv_adv))
1.11 noro 3076:
3077: if ( p ) {
1.14 noro 3078: m = BDY(p); len = LEN(p);
1.34 noro 3079: mr0 = nmv_adv>oadv?(NMV)REALLOC(BDY(p),len*nmv_adv):BDY(p);
1.13 noro 3080: m = (NMV)((char *)mr0+(len-1)*oadv);
3081: mr = (NMV)((char *)mr0+(len-1)*nmv_adv);
3082: t = (NMV)ALLOCA(nmv_adv);
3083: for ( i = 0; i < len; i++, NMV_OPREV(m), NMV_PREV(mr) ) {
1.16 noro 3084: CQ(t) = CQ(m);
1.14 noro 3085: for ( k = 0; k < nd_wpd; k++ ) DL(t)[k] = 0;
1.43 noro 3086: ndl_reconstruct(obpe,oepos,DL(m),DL(t));
1.16 noro 3087: CQ(mr) = CQ(t);
1.14 noro 3088: ndl_copy(DL(t),DL(mr));
1.11 noro 3089: }
3090: BDY(p) = mr0;
3091: }
3092: }
3093:
1.16 noro 3094: NDV ndtondv(int mod,ND p)
1.3 noro 3095: {
3096: NDV d;
3097: NMV m,m0;
3098: NM t;
3099: int i,len;
3100:
1.34 noro 3101: if ( !p ) return 0;
1.31 noro 3102: len = LEN(p);
1.34 noro 3103: m0 = m = (NMV)(mod?MALLOC_ATOMIC(len*nmv_adv):MALLOC(len*nmv_adv));
1.3 noro 3104: for ( t = BDY(p), i = 0; t; t = NEXT(t), i++, NMV_ADV(m) ) {
1.14 noro 3105: ndl_copy(DL(t),DL(m));
1.16 noro 3106: CQ(m) = CQ(t);
1.3 noro 3107: }
3108: MKNDV(NV(p),m0,len,d);
1.23 noro 3109: SG(d) = SG(p);
3110: return d;
3111: }
3112:
3113: ND ndvtond(int mod,NDV p)
3114: {
3115: ND d;
3116: NM m,m0;
3117: NMV t;
3118: int i,len;
3119:
1.34 noro 3120: if ( !p ) return 0;
1.23 noro 3121: m0 = 0;
3122: len = p->len;
3123: for ( t = BDY(p), i = 0; i < len; NMV_ADV(t), i++ ) {
3124: NEXTNM(m0,m);
3125: ndl_copy(DL(t),DL(m));
3126: CQ(m) = CQ(t);
3127: }
3128: NEXT(m) = 0;
1.31 noro 3129: MKND(NV(p),m0,len,d);
1.14 noro 3130: SG(d) = SG(p);
1.3 noro 3131: return d;
3132: }
3133:
1.16 noro 3134: NDV dptondv(int mod,DP p)
1.11 noro 3135: {
3136: NDV d;
3137: NMV m0,m;
3138: MP t;
1.20 noro 3139: DP q;
1.11 noro 3140: int l,i,n;
3141:
1.46 noro 3142: if ( mod ) {
3143: _dp_mod(p,mod,0,&q); p = q;
3144: }
1.34 noro 3145: if ( !p ) return 0;
1.11 noro 3146: for ( t = BDY(p), l = 0; t; t = NEXT(t), l++ );
1.46 noro 3147: if ( mod )
1.16 noro 3148: m0 = m = (NMV)MALLOC_ATOMIC(l*nmv_adv);
1.46 noro 3149: else
1.16 noro 3150: m0 = m = (NMV)MALLOC(l*nmv_adv);
1.11 noro 3151: n = NV(p);
1.46 noro 3152: for ( t = BDY(p); t; t = NEXT(t), NMV_ADV(m) ) {
1.34 noro 3153: if ( mod ) CM(m) = ITOS(C(t));
3154: else CQ(m) = (Q)C(t);
1.17 noro 3155: dltondl(n,DL(t),DL(m));
1.11 noro 3156: }
3157: MKNDV(n,m0,l,d);
1.14 noro 3158: SG(d) = SG(p);
1.11 noro 3159: return d;
3160: }
3161:
1.16 noro 3162: DP ndvtodp(int mod,NDV p)
1.11 noro 3163: {
3164: DP d;
3165: MP m0,m;
3166: NMV t;
3167: int len,i,n;
3168:
1.34 noro 3169: if ( !p ) return 0;
1.11 noro 3170: m0 = 0;
1.14 noro 3171: len = LEN(p);
1.11 noro 3172: n = NV(p);
1.17 noro 3173: for ( t = BDY(p), i = 0; i < len; i++, NMV_ADV(t) ) {
3174: NEXTMP(m0,m);
1.34 noro 3175: if ( mod ) C(m) = STOI(CM(t));
3176: else C(m) = (P)CQ(t);
3177: DL(m) = ndltodl(n,DL(t));
1.11 noro 3178: }
3179: NEXT(m) = 0;
3180: MKDP(NV(p),m0,d);
1.14 noro 3181: SG(d) = SG(p);
1.11 noro 3182: return d;
3183: }
3184:
1.3 noro 3185: void ndv_print(NDV p)
3186: {
3187: NMV m;
3188: int i,len;
3189:
1.34 noro 3190: if ( !p ) printf("0\n");
1.3 noro 3191: else {
1.14 noro 3192: len = LEN(p);
1.3 noro 3193: for ( m = BDY(p), i = 0; i < len; i++, NMV_ADV(m) ) {
1.14 noro 3194: printf("+%d*",CM(m));
1.16 noro 3195: ndl_print(DL(m));
3196: }
3197: printf("\n");
3198: }
3199: }
3200:
3201: void ndv_print_q(NDV p)
3202: {
3203: NMV m;
3204: int i,len;
3205:
1.34 noro 3206: if ( !p ) printf("0\n");
1.16 noro 3207: else {
3208: len = LEN(p);
3209: for ( m = BDY(p), i = 0; i < len; i++, NMV_ADV(m) ) {
3210: printf("+");
3211: printexpr(CO,CQ(m));
3212: printf("*");
1.14 noro 3213: ndl_print(DL(m));
1.3 noro 3214: }
3215: printf("\n");
3216: }
1.25 noro 3217: }
3218:
1.27 noro 3219: NODE nd_reducebase(NODE x)
3220: {
3221: int len,i,j;
3222: NDV *w;
3223: NODE t,t0;
3224:
3225: len = length(x);
3226: w = (NDV *)ALLOCA(len*sizeof(NDV));
3227: for ( i = 0, t = x; i < len; i++, t = NEXT(t) ) w[i] = BDY(t);
3228: for ( i = 0; i < len; i++ ) {
3229: for ( j = 0; j < i; j++ ) {
3230: if ( w[i] && w[j] )
3231: if ( ndl_reducible(HDL(w[i]),HDL(w[j])) ) w[i] = 0;
3232: else if ( ndl_reducible(HDL(w[j]),HDL(w[i])) ) w[j] = 0;
3233: }
3234: }
3235: for ( i = len-1, t0 = 0; i >= 0; i-- ) {
3236: if ( w[i] ) { NEXTNODE(t0,t); BDY(t) = (pointer)w[i]; }
3237: }
3238: NEXT(t) = 0; x = t0;
3239: return x;
1.11 noro 3240: }
1.32 noro 3241:
1.43 noro 3242: /* XXX incomplete */
3243:
1.32 noro 3244: void nd_init_ord(struct order_spec *ord)
3245: {
1.43 noro 3246: switch ( ord->id ) {
1.32 noro 3247: case 0:
1.43 noro 3248: switch ( ord->ord.simple ) {
3249: case 0:
3250: nd_dcomp = 1;
3251: nd_isrlex = 1;
3252: break;
3253: case 1:
3254: nd_dcomp = 1;
3255: nd_isrlex = 0;
3256: break;
3257: case 2:
3258: nd_dcomp = 0;
3259: nd_isrlex = 0;
1.45 noro 3260: ndl_compare_function = ndl_lex_compare;
1.43 noro 3261: break;
3262: default:
3263: error("nd_gr : unsupported order");
3264: }
1.32 noro 3265: break;
3266: case 1:
1.43 noro 3267: /* XXX */
3268: nd_dcomp = -1;
1.32 noro 3269: nd_isrlex = 0;
1.45 noro 3270: ndl_compare_function = ndl_block_compare;
1.34 noro 3271: break;
1.43 noro 3272: case 2:
3273: error("nd_init_ord : matrix order is not supported yet.");
1.32 noro 3274: break;
3275: }
1.41 noro 3276: nd_ord = ord;
1.32 noro 3277: }
3278:
1.43 noro 3279: BlockMask nd_create_blockmask(struct order_spec *ord)
3280: {
3281: int n,i,j,s,l;
3282: unsigned int *t;
3283: BlockMask bm;
3284:
3285: if ( !ord->id )
3286: return 0;
3287: n = ord->ord.block.length;
3288: bm = (BlockMask)MALLOC(sizeof(struct oBlockMask));
3289: bm->n = n;
3290: bm->order_pair = ord->ord.block.order_pair;
3291: bm->mask = (unsigned int **)MALLOC(n*sizeof(unsigned int *));
3292: for ( i = 0, s = 0; i < n; i++ ) {
3293: bm->mask[i] = t
3294: = (unsigned int *)MALLOC_ATOMIC(nd_wpd*sizeof(unsigned int));
3295: for ( j = 0; j < nd_wpd; j++ ) t[j] = 0;
3296: l = bm->order_pair[i].length;
3297: for ( j = 0; j < l; j++, s++ ) PUT_EXP(t,s,nd_mask0);
3298: }
3299: return bm;
3300: }
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