Annotation of OpenXM_contrib2/asir2000/include/ca.h, Revision 1.51
1.4 noro 1: /*
2: * Copyright (c) 1994-2000 FUJITSU LABORATORIES LIMITED
3: * All rights reserved.
4: *
5: * FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited,
6: * non-exclusive and royalty-free license to use, copy, modify and
7: * redistribute, solely for non-commercial and non-profit purposes, the
8: * computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and
9: * conditions of this Agreement. For the avoidance of doubt, you acquire
10: * only a limited right to use the SOFTWARE hereunder, and FLL or any
11: * third party developer retains all rights, including but not limited to
12: * copyrights, in and to the SOFTWARE.
13: *
14: * (1) FLL does not grant you a license in any way for commercial
15: * purposes. You may use the SOFTWARE only for non-commercial and
16: * non-profit purposes only, such as academic, research and internal
17: * business use.
18: * (2) The SOFTWARE is protected by the Copyright Law of Japan and
19: * international copyright treaties. If you make copies of the SOFTWARE,
20: * with or without modification, as permitted hereunder, you shall affix
21: * to all such copies of the SOFTWARE the above copyright notice.
22: * (3) An explicit reference to this SOFTWARE and its copyright owner
23: * shall be made on your publication or presentation in any form of the
24: * results obtained by use of the SOFTWARE.
25: * (4) In the event that you modify the SOFTWARE, you shall notify FLL by
1.5 noro 26: * e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
1.4 noro 27: * for such modification or the source code of the modified part of the
28: * SOFTWARE.
29: *
30: * THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL
31: * MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND
32: * EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS
33: * FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES'
34: * RIGHTS. NO FLL DEALER, AGENT, EMPLOYEES IS AUTHORIZED TO MAKE ANY
35: * MODIFICATIONS, EXTENSIONS, OR ADDITIONS TO THIS WARRANTY.
36: * UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, TORT, CONTRACT,
37: * OR OTHERWISE, SHALL FLL BE LIABLE TO YOU OR ANY OTHER PERSON FOR ANY
38: * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL
39: * DAMAGES OF ANY CHARACTER, INCLUDING, WITHOUT LIMITATION, DAMAGES
40: * ARISING OUT OF OR RELATING TO THE SOFTWARE OR THIS AGREEMENT, DAMAGES
41: * FOR LOSS OF GOODWILL, WORK STOPPAGE, OR LOSS OF DATA, OR FOR ANY
42: * DAMAGES, EVEN IF FLL SHALL HAVE BEEN INFORMED OF THE POSSIBILITY OF
43: * SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. EVEN IF A PART
44: * OF THE SOFTWARE HAS BEEN DEVELOPED BY A THIRD PARTY, THE THIRD PARTY
45: * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,
46: * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.
47: *
1.51 ! noro 48: * $OpenXM: OpenXM_contrib2/asir2000/include/ca.h,v 1.50 2004/07/13 07:59:53 noro Exp $
1.4 noro 49: */
1.1 noro 50: #include <stdio.h>
1.36 ohara 51: #include <stdlib.h>
1.1 noro 52:
53: #if defined(hpux)
54: #include <netinet/in.h>
55: # define setbuffer(FP,buf,siz) setvbuf(FP,buf,_IOFBF,siz)
56: #endif
57:
1.36 ohara 58: #if !defined(VISUAL)
59: #include <unistd.h>
1.1 noro 60: #endif
61:
1.28 noro 62: #if !defined(VISUAL)
63: #include <sys/param.h>
64: #endif
65:
1.1 noro 66: #if defined(linux) || (defined(sun) && !defined(SYSV)) || defined(news5000) || (defined(mips) && defined(ultrix))
67: #include <alloca.h>
68: #endif
69:
70: #if (defined(sun) && defined(SYSV))
71: #define alloca(x) __builtin_alloca(x)
72: #endif
73:
74: #if defined(VISUAL)
75: #include <malloc.h>
76: #endif
77:
78: #if 0
79: #include <sys/types.h>
80: typedef caddr_t pointer;
81: #endif
82:
83: typedef void * pointer;
84:
1.36 ohara 85: #if defined(sun)
86: #include <strings.h>
87: #else
88: #include <string.h>
1.1 noro 89: #if defined(VISUAL)
90: #define index(s,c) strchr(s,c)
91: #define bzero(s,len) memset(s,0,len)
92: #define bcopy(x,y,len) memcpy(y,x,len)
1.36 ohara 93: #endif
1.1 noro 94: #endif
95:
96: #define COPY(a,b) ((b)=(a))
97: #define FREEN(p)
98: #define FREEQ(p)
99: #define FREE(p)
100: #define INITRC(p)
101:
102: /* data structures */
103:
104: #define O_N 1
105: #define O_P 2
106: #define O_R 3
107: #define O_LIST 4
108: #define O_VECT 5
109: #define O_MAT 6
110: #define O_STR 7
111: #define O_COMP 8
112: #define O_DP 9
113: #define O_USINT 10
114: #define O_ERR 11
115: #define O_GF2MAT 12
116: #define O_MATHCAP 13
117: #define O_F 14
118: #define O_GFMMAT 15
1.6 noro 119: #define O_BYTEARRAY 16
1.13 noro 120: #define O_QUOTE 17
1.39 noro 121: #define O_OPTLIST 18
1.43 noro 122: #define O_SYMBOL 19
1.45 noro 123: #define O_RANGE 20
1.46 noro 124: #define O_TB 21
1.49 noro 125: #define O_DPV 22
1.50 noro 126: #define O_QUOTEARG 23
1.1 noro 127: #define O_VOID -1
128:
129: #define N_Q 0
130: #define N_R 1
131: #define N_A 2
132: #define N_B 3
133: #define N_C 4
134: #define N_M 5
135: #define N_LM 6
136: #define N_GF2N 7
137: #define N_GFPN 8
1.12 noro 138: #define N_GFS 9
1.21 noro 139: #define N_GFSN 10
1.1 noro 140:
141: #define ORD_REVGRADLEX 0
142: #define ORD_GRADLEX 1
143: #define ORD_LEX 2
144:
1.50 noro 145: typedef enum {
146: A_end=0,A_fnode,A_arf,A_int,A_str,A_internal,A_node,A_notimpl,A_func
147: } farg_type;
148:
1.35 ohara 149: #if defined(LONG_IS_32BIT)
1.1 noro 150: #if defined(VISUAL)
151: typedef _int64 L;
152: typedef unsigned _int64 UL;
153: #else
154: typedef long long L;
155: typedef unsigned long long UL;
156: #endif
157: #else
158: typedef long L;
159: typedef unsigned long UL;
160: #endif
161:
162: typedef struct oN {
163: int p;
164: unsigned int b[1];
165: } *N;
166:
167: typedef struct oUP2 {
168: int w;
169: unsigned int b[1];
170: } *UP2;
171:
172: typedef struct _oUP2 {
173: int w;
174: unsigned int *b;
175: } *_UP2;
176:
177: #define UP2_DENSE 0
178: #define UP2_SPARSE 1
179:
180: typedef struct oGEN_UP2 {
181: int id;
182: UP2 dense;
183: UP2 sparse;
184: } *GEN_UP2;
185:
186: typedef struct oV {
187: char *name;
188: pointer attr;
189: pointer priv;
190: } *V;
191:
192: typedef struct oQ {
193: short id;
194: char nid;
195: char sgn;
196: N nm;
197: N dn;
198: } *Q;
199:
200: typedef struct oReal {
201: short id;
202: char nid;
203: char pad;
204: double body;
205: } *Real;
206:
207: typedef struct oAlg {
208: short id;
209: char nid;
210: char pad;
211: struct oObj *body;
212: } *Alg;
213:
214: typedef struct oBF {
215: short id;
216: char nid;
217: char pad;
218: long body[1];
219: } *BF;
220:
221: typedef struct oC {
222: short id;
223: char nid;
224: char pad;
225: struct oNum *r,*i;
226: } *C;
227:
228: typedef struct oLM {
229: short id;
230: char nid;
231: char pad;
232: struct oN *body;
233: } *LM;
234:
235: typedef struct oGF2N {
236: short id;
237: char nid;
238: char pad;
239: struct oUP2 *body;
240: } *GF2N;
241:
242: typedef struct oGFPN {
243: short id;
244: char nid;
245: char pad;
246: struct oUP *body;
247: } *GFPN;
248:
249: typedef struct oNum {
250: short id;
251: char nid;
252: char pad;
253: } *Num;
254:
255: typedef struct oMQ {
256: short id;
257: char nid;
258: char pad;
259: int cont;
260: } *MQ;
261:
1.12 noro 262: typedef struct oGFS {
263: short id;
264: char nid;
265: char pad;
266: int cont;
267: } *GFS;
268:
1.21 noro 269: typedef struct oGFSN {
1.20 noro 270: short id;
271: char nid;
272: char pad;
273: struct oUM *body;
1.21 noro 274: } *GFSN;
1.12 noro 275:
1.1 noro 276: typedef struct oP {
277: short id;
278: short pad;
279: V v;
280: struct oDCP *dc;
281: } *P;
282:
283: typedef struct oR {
284: short id;
285: short reduced;
286: P nm;
287: P dn;
288: } *R;
289:
290: typedef struct oVECT {
291: short id;
292: short pad;
293: int len;
294: pointer *body;
295: } *VECT;
296:
297: typedef struct oMAT {
298: short id;
299: short pad;
300: int row,col;
301: pointer **body;
302: } *MAT;
303:
304: typedef struct oGF2MAT {
305: short id;
306: short pad;
307: int row,col;
308: unsigned int **body;
309: } *GF2MAT, *GFMMAT;
310:
311: typedef struct oLIST {
312: short id;
313: short pad;
314: struct oNODE *body;
315: } *LIST;
316:
317: typedef struct oSTRING {
318: short id;
319: short pad;
320: char *body;
321: } *STRING;
322:
323: typedef struct oCOMP {
324: short id;
325: short type;
326: struct oObj *member[1];
327: } *COMP;
328:
329: typedef struct oDP {
330: short id;
331: short nv;
332: int sugar;
333: struct oMP *body;
334: } *DP;
335:
1.49 noro 336: typedef struct oDPV {
337: short id;
338: int len;
339: int sugar;
340: struct oDP **body;
341: } *DPV;
342:
1.1 noro 343: typedef struct oUSINT {
344: short id;
345: short pad;
346: unsigned body;
347: } *USINT;
348:
349: typedef struct oERR {
350: short id;
351: short pad;
352: struct oObj *body;
353: } *ERR;
354:
355: typedef struct oMATHCAP {
356: short id;
357: short pad;
358: struct oLIST *body;
359: } *MATHCAP;
360:
1.6 noro 361: typedef struct oBYTEARRAY {
362: short id;
363: short pad;
364: int len;
365: unsigned char *body;
366: } *BYTEARRAY;
367:
1.13 noro 368: typedef struct oQUOTE {
369: short id;
370: short pad;
371: pointer body;
372: } *QUOTE;
373:
1.50 noro 374: typedef struct oQUOTEARG {
375: short id;
376: short pad;
377: farg_type type;
378: pointer body;
379: } *QUOTEARG;
380:
1.39 noro 381: typedef struct oOPTLIST {
382: short id;
383: short pad;
384: struct oNODE *body;
385: } *OPTLIST;
386:
1.45 noro 387: typedef struct oSYMBOL {
1.43 noro 388: short id;
389: short pad;
390: char *name;
391: int value;
1.45 noro 392: } *SYMBOL;
393:
394: typedef struct oRANGE {
395: short id;
396: short pad;
397: struct oObj *start,*end;
398: } *RANGE;
399:
1.46 noro 400: typedef struct oTB {
401: short id;
402: short pad;
403: int size,next;
404: char **body;
405: } *TB;
1.43 noro 406:
1.1 noro 407: typedef struct oObj {
408: short id;
409: short pad;
410: } *Obj;
411:
412: typedef struct oDCP {
413: Q d;
414: P c;
415: struct oDCP *next;
416: } *DCP;
417:
418: typedef struct oMP {
419: struct oDL *dl;
420: P c;
421: struct oMP *next;
422: } *MP;
423:
424: typedef struct oDL {
425: int td;
426: int d[1];
427: } *DL;
1.23 noro 428:
1.29 noro 429: struct dp_pairs {
430: int dp1, dp2;
431: DL lcm;
432: int sugar;
433: struct dp_pairs *next;
434: };
435:
436: typedef struct dp_pairs *DP_pairs;
437:
438: struct p_pair {
439: struct oUM *p0;
440: struct oUM *p1;
441: struct p_pair *next;
442: };
443:
444: struct oMF {
445: int m;
446: P f;
447: };
448:
1.23 noro 449: /*
450: * compressed DP
451: */
452:
453: typedef struct oCDP {
454: int len;
1.26 noro 455: int psindex;
1.27 noro 456: unsigned int *body;
1.23 noro 457: } *CDP;
458:
1.24 noro 459: typedef struct oCM {
1.23 noro 460: int index;
461: int c;
1.24 noro 462: } *CM;
1.1 noro 463:
1.25 noro 464: /* bucket list for DL */
465:
466: typedef struct oDLBUCKET {
467: int td;
468: struct oNODE *body;
469: struct oDLBUCKET *next;
470: } *DLBUCKET;
1.37 noro 471:
472: typedef struct oGeoBucket {
473: int m;
474: struct oNODE *body[32];
475: } *GeoBucket;
1.25 noro 476:
1.1 noro 477: typedef struct oVL {
478: V v;
479: struct oVL *next;
480: } *VL;
481:
482: typedef struct oNODE {
483: pointer body;
484: struct oNODE *next;
485: } *NODE;
486:
1.16 noro 487: /* univariate poly over small finite field; dense */
1.1 noro 488: typedef struct oUM {
489: int d;
490: int c[1];
491: } *UM;
492:
1.16 noro 493: /* univariate poly with padic coeff */
1.1 noro 494: typedef struct oLUM {
495: int d;
496: int *c[1];
497: } *LUM;
498:
1.16 noro 499: /* bivariate poly over small finite field; dense */
500:
501: typedef struct oBM {
502: int d;
503: UM c[1];
504: } *BM;
505:
1.1 noro 506: typedef struct oML {
507: int n;
508: int mod;
509: int bound;
510: pointer c[1];
511: } *ML;
512:
513: typedef struct oUB {
514: int d;
515: N c[1];
516: } *UB;
517:
518: typedef struct oVN {
519: V v;
520: int n;
521: } *VN;
522:
523: typedef struct oUP {
524: int d;
525: Num c[1];
526: } *UP;
527:
528: typedef struct oDUM {
529: int n;
530: UM f;
531: } *DUM;
532:
533: struct order_pair {
534: int order, length;
535: };
536:
1.42 noro 537: struct sparse_weight {
538: int pos, value;
539: };
540:
541: #define IS_DENSE_WEIGHT 0
542: #define IS_SPARSE_WEIGHT 1
543: #define IS_BLOCK 2
544:
545: struct weight_or_block {
546: int type;
547: int length;
548: union {
549: int *dense_weight;
550: struct sparse_weight *sparse_weight;
551: struct {
552: int order, start;
553: } block;
554: } body;
555: };
556:
1.1 noro 557: struct order_spec {
558: int id;
559: Obj obj;
560: int nv;
561: union {
562: int simple;
563: struct {
564: int length;
565: struct order_pair *order_pair;
566: } block;
567: struct {
568: int row;
569: int **matrix;
570: } matrix;
1.42 noro 571: struct {
572: int length;
573: struct weight_or_block *w_or_b;
574: } composite;
1.1 noro 575: } ord;
576: };
577:
1.49 noro 578: struct modorder_spec {
579: /* id : ORD_REVGRADLEX, ORD_GRADLEX, ORD_LEX */
580: int id;
581: Obj obj;
582: int len;
583: int *degree_shift;
584: };
585:
1.1 noro 586: /* structure for cputime */
587:
588: struct oEGT {
589: double exectime,gctime;
590: };
591:
592: /* constant */
593:
594: /* ground finite field specification */
595: #define FF_NOT_SET 0
596: #define FF_GFP 1
597: #define FF_GF2N 2
598: #define FF_GFPN 3
1.12 noro 599: #define FF_GFS 4
1.21 noro 600: #define FF_GFSN 5
1.11 saito 601:
602: /* include interval.h */
603: #include "interval.h"
1.1 noro 604:
605: #define INDEX 100
606:
1.35 ohara 607: #if defined(USE_FLOAT)
1.1 noro 608: typedef float ModNum;
609: #define NPrimes 536
610: #else
611: typedef unsigned int ModNum;
612: #define NPrimes 13681
613: #endif
614:
615: /* general macros */
1.28 noro 616: #if defined(MAX)
617: #undef MAX
618: #endif
619: #if defined(MIN)
620: #undef MIN
621: #endif
1.1 noro 622: #define MAX(a,b) ((a) > (b) ? (a) : (b) )
623: #define MIN(a,b) ((a) > (b) ? (b) : (a) )
624: #ifdef ABS
625: #undef ABS
626: #endif
627: #define ABS(a) ((a)>0?(a):-(a))
628: #define ID(p) ((p)->id)
629: #define OID(p) (((Obj)(p))->id)
630: #define NID(p) (((Num)(p))->nid)
631: #define BDY(p) ((p)->body)
632: #define VR(p) ((p)->v)
633: #define NAME(p) ((p)->name)
634: #define NEXT(p) ((p)->next)
635: #define NM(q) ((q)->nm)
636: #define DN(q) ((q)->dn)
637: #define SGN(q) ((q)->sgn)
638: #define DC(p) ((p)->dc)
639: #define COEF(p) ((p)->c)
640: #define DEG(p) ((p)->d)
641: #define PL(n) ((n)->p)
642: #define BD(n) ((n)->b)
643: #define CONT(a) ((a)->cont)
644: #define UDEG(f) BD(NM(DEG(DC(f))))[0]
645: #define UCOEF(f) (COEF(DC(f)))
646: #define LC(f) (NUM(f)?(f):COEF(DC(f)))
647:
648: /* memory allocators (W_... : uses alloca) */
649:
650: #if 0
651: #define MALLOC(d) Risa_GC_malloc(d)
652: #define MALLOC_ATOMIC(d) Risa_GC_malloc_atomic(d)
653: #define REALLOC(p,d) Risa_GC_realloc(p,d)
654: #else
655: #define MALLOC(d) GC_malloc(d)
656: #define MALLOC_ATOMIC(d) GC_malloc_atomic(d)
657: #define REALLOC(p,d) GC_realloc(p,d)
658: #endif
659: #define CALLOC(d,e) MALLOC((d)*(e))
660:
1.32 noro 661: #if !defined(__CYGWIN__) && (defined(__GNUC__) || defined(vax) || defined(apollo) || defined(alloca) || defined(VISUAL))
1.1 noro 662: #define ALLOCA(d) alloca(d)
663: #else
664: #define ALLOCA(d) MALLOC(d)
1.32 noro 665: #endif
666:
667: /* for setjmp/longjmp compatibility */
1.40 noro 668: #if defined(__CYGWIN__) || defined(__x86_64)
1.32 noro 669: #define JMP_BUF sigjmp_buf
670: #define SETJMP(x) sigsetjmp(x,~0)
671: #define LONGJMP(x,y) siglongjmp(x,y)
672: #else
673: #define JMP_BUF jmp_buf
674: #define SETJMP(x) setjmp(x)
675: #define LONGJMP(x,y) longjmp(x,y)
1.1 noro 676: #endif
677:
678: #define TRUESIZE(type,n,atype) (sizeof(struct type)+MAX((n),0)*sizeof(atype))
679: #define NALLOC(d) ((N)MALLOC_ATOMIC(TRUESIZE(oN,(d)-1,int)))
680: #define UMALLOC(d) ((UM)MALLOC(TRUESIZE(oUM,d,int)))
681: #define UPALLOC(d) ((UP)MALLOC(TRUESIZE(oUP,(d),Num)))
682: #define C_UMALLOC(d) ((UM)MALLOC(TRUESIZE(oUM,d,int)))
683: #define MLALLOC(d) ((ML)MALLOC(TRUESIZE(oML,d,pointer)))
684:
685: #define W_ALLOC(d) ((int *)ALLOCA(((d)+1)*sizeof(int)))
686: #define W_CALLOC(n,type,p) \
687: ((p)=(type *)ALLOCA(((n)+1)*sizeof(type)),\
688: bzero((char *)(p),(int)(((n)+1)*sizeof(type))))
689: #define W_UMALLOC(d) ((UM)ALLOCA(TRUESIZE(oUM,d,int)))
690: #define W_UPALLOC(d) ((UP)ALLOCA(TRUESIZE(oUP,(d),Num)))
691: #define W_MLALLOC(d) ((ML)ALLOCA(TRUESIZE(oML,d,pointer)))
692: #define W_LUMALLOC(n,bound,p)\
693: {\
694: LUM ___q___;\
695: int ___i___,**___c___;\
696: (___q___) = (LUM)ALLOCA(TRUESIZE(oLUM,(n),int *));\
697: DEG(___q___) = n;\
698: for ( ___i___ = 0, ___c___ = (int **)COEF(___q___); ___i___ <= n; ___i___++ ) {\
699: ___c___[___i___] = (int *)ALLOCA(((bound)+1)*sizeof(int));\
700: bzero((char *)___c___[___i___],((bound)+1)*sizeof(int));\
701: }\
702: (p) = ___q___;\
703: }
704:
1.18 noro 705: #define W_BMALLOC(dx,dy,p)\
1.16 noro 706: {\
707: BM ___q___;\
708: int ___i___;\
709: UM *___c___;\
1.18 noro 710: (___q___) = (BM)ALLOCA(TRUESIZE(oBM,(dy),UM));\
711: DEG(___q___) = dy;\
1.16 noro 712: ___c___ = (UM *)COEF(___q___);\
1.18 noro 713: for ( ___i___ = 0; ___i___ <= dy; ___i___++ ) {\
714: ___c___[___i___] = W_UMALLOC(dx);\
715: clearum(___c___[___i___],dx);\
1.16 noro 716: }\
717: (p) = ___q___;\
718: }
719:
1.1 noro 720: #define NEWUP2(q,w)\
721: ((q)=(UP2)MALLOC_ATOMIC(TRUESIZE(oUP2,(w)-1,unsigned int)),\
722: bzero((char *)(q)->b,(w)*sizeof(unsigned int)))
723: #define W_NEWUP2(q,w)\
724: ((q)=(UP2)ALLOCA(TRUESIZE(oUP2,(w)-1,unsigned int)),\
725: bzero((char *)(q)->b,(w)*sizeof(unsigned int)))
726: #define W_NEW_UP2(q,w)\
727: ((q).b=(unsigned int *)ALLOCA((w)*sizeof(unsigned int)))
728:
729: /* cell allocators */
730: #define NEWQ(q) ((q)=(Q)MALLOC(sizeof(struct oQ)),OID(q)=O_N,NID(q)=N_Q)
731: #define NEWMQ(q) ((q)=(MQ)MALLOC_ATOMIC(sizeof(struct oMQ)),OID(q)=O_N,NID(q)=N_M)
1.12 noro 732: #define NEWGFS(q) ((q)=(GFS)MALLOC_ATOMIC(sizeof(struct oGFS)),OID(q)=O_N,NID(q)=N_GFS)
1.21 noro 733: #define NEWGFSN(q) ((q)=(GFSN)MALLOC(sizeof(struct oGFSN)),OID(q)=O_N,NID(q)=N_GFSN)
1.1 noro 734: #define NEWP(p) ((p)=(P)MALLOC(sizeof(struct oP)),OID(p)=O_P)
735: #define NEWR(r) ((r)=(R)MALLOC(sizeof(struct oR)),OID(r)=O_R,(r)->reduced=0)
736: #define NEWLIST(l) ((l)=(LIST)MALLOC(sizeof(struct oLIST)),OID(l)=O_LIST)
737: #define NEWVECT(l) ((l)=(VECT)MALLOC(sizeof(struct oVECT)),OID(l)=O_VECT)
738: #define NEWSTR(l) ((l)=(STRING)MALLOC(sizeof(struct oSTRING)),OID(l)=O_STR)
739: #define NEWCOMP(c,n) ((c)=(COMP)MALLOC(sizeof(struct oCOMP)+((n)-1)*sizeof(Obj)),OID(c)=O_COMP)
740: #define NEWDP(d) ((d)=(DP)MALLOC(sizeof(struct oDP)),OID(d)=O_DP)
1.49 noro 741: #define NEWDPV(d) ((d)=(DPV)MALLOC(sizeof(struct oDPV)),OID(d)=O_DPV)
1.1 noro 742: #define NEWUSINT(u) ((u)=(USINT)MALLOC_ATOMIC(sizeof(struct oUSINT)),OID(u)=O_USINT)
743: #define NEWERR(e) ((e)=(ERR)MALLOC(sizeof(struct oERR)),OID(e)=O_ERR)
744: #define NEWMATHCAP(e) ((e)=(MATHCAP)MALLOC(sizeof(struct oMATHCAP)),OID(e)=O_MATHCAP)
1.6 noro 745: #define NEWBYTEARRAY(e) ((e)=(BYTEARRAY)MALLOC(sizeof(struct oBYTEARRAY)),OID(e)=O_BYTEARRAY)
1.13 noro 746: #define NEWQUOTE(e) ((e)=(QUOTE)MALLOC(sizeof(struct oQUOTE)),OID(e)=O_QUOTE)
1.50 noro 747: #define NEWQUOTEARG(e) ((e)=(QUOTEARG)MALLOC(sizeof(struct oQUOTEARG)),OID(e)=O_QUOTEARG)
1.39 noro 748: #define NEWOPTLIST(l) ((l)=(OPTLIST)MALLOC(sizeof(struct oOPTLIST)),OID(l)=O_OPTLIST)
1.43 noro 749: #define NEWSYMBOL(l) ((l)=(SYMBOL)MALLOC(sizeof(struct oSYMBOL)),OID(l)=O_SYMBOL)
1.45 noro 750: #define NEWRANGE(l) ((l)=(RANGE)MALLOC(sizeof(struct oRANGE)),OID(l)=O_RANGE)
1.46 noro 751: #define NEWTB(l) ((l)=(TB)MALLOC(sizeof(struct oTB)),OID(l)=O_TB,(l)->size=256,(l)->next=0,(l)->body=(char **)MALLOC((l)->size*sizeof(char *)))
1.1 noro 752:
753: #define NEWNODE(a) ((a)=(NODE)MALLOC(sizeof(struct oNODE)))
754: #define NEWDC(dc) ((dc)=(DCP)MALLOC(sizeof(struct oDCP)))
755: #define NEWV(v) ((v)=(V)MALLOC(sizeof(struct oV)))
756: #define NEWVL(vl) ((vl)=(VL)MALLOC(sizeof(struct oVL)))
757: #define NEWMP(m) ((m)=(MP)MALLOC(sizeof(struct oMP)))
1.25 noro 758: #define NEWDLBUCKET(a) ((a)=(DLBUCKET)MALLOC(sizeof(struct oDLBUCKET)))
1.29 noro 759: #define NEWDPP(a) ((a)=(DP_pairs)MALLOC(sizeof(struct dp_pairs)))
1.1 noro 760:
761: #define NEWMAT(l) ((l)=(MAT)MALLOC(sizeof(struct oMAT)),OID(l)=O_MAT)
762: #define NEWGF2MAT(l) ((l)=(GF2MAT)MALLOC(sizeof(struct oGF2MAT)),OID(l)=O_GF2MAT)
763: #define NEWGFMMAT(l) ((l)=(GFMMAT)MALLOC(sizeof(struct oGF2MAT)),OID(l)=O_GFMMAT)
764: #define NEWReal(q) ((q)=(Real)MALLOC_ATOMIC(sizeof(struct oReal)),OID(q)=O_N,NID(q)=N_R)
765: #define NEWAlg(r) ((r)=(Alg)MALLOC(sizeof(struct oAlg)),OID(r)=O_N,NID(r)=N_A)
766: #define NEWBF(q,l) ((q)=(BF)MALLOC_ATOMIC(TRUESIZE(oBF,(l)-1,long)),OID(q)=O_N,NID(q)=N_B)
767: #define NEWC(r) ((r)=(C)MALLOC(sizeof(struct oC)),OID(r)=O_N,NID(r)=N_C)
768: #define NEWLM(r) ((r)=(LM)MALLOC(sizeof(struct oLM)),OID(r)=O_N,NID(r)=N_LM)
769: #define NEWGF2N(r) ((r)=(GF2N)MALLOC(sizeof(struct oGF2N)),OID(r)=O_N,NID(r)=N_GF2N)
770: #define NEWGFPN(r) ((r)=(GFPN)MALLOC(sizeof(struct oGFPN)),OID(r)=O_N,NID(r)=N_GFPN)
771: #define NEWDL(d,n) \
772: ((d)=(DL)MALLOC_ATOMIC(TRUESIZE(oDL,(n)-1,int)),bzero((char *)(d),TRUESIZE(oDL,(n)-1,int)))
1.9 noro 773: #define NEWDL_NOINIT(d,n) \
774: ((d)=(DL)MALLOC_ATOMIC(TRUESIZE(oDL,(n)-1,int)))
1.1 noro 775:
776: #define MKP(v,dc,p) \
1.51 ! noro 777: ((!DEG(dc)&&!NEXT(dc))?((p)=COEF(dc)):(NEWP(p),VR(p)=(v),DC(p)=(dc),(p)))
1.1 noro 778: #define MKV(v,p) \
779: (NEWP(p),VR(p)=(v),NEWDC(DC(p)),\
780: DEG(DC(p))=ONE,COEF(DC(p))=(P)ONE,NEXT(DC(p))=0)
781: #define MKRAT(n,d,r,p) \
782: (NEWR(p),NM(p)=(n),DN(p)=(d),(p)->reduced=(r))
783: #define MKMV(v,p) \
784: (NEWP(p),VR(p)=(v),NEWDC(DC(p)),\
785: DEG(DC(p))=ONE,COEF(DC(p))=(P)ONEM,NEXT(DC(p))=0)
786: #define MKNODE(a,b,c) \
787: (NEWNODE(a),(a)->body=(pointer)b,NEXT(a)=(NODE)(c))
788: #define MKLIST(a,b) (NEWLIST(a),(a)->body=(NODE)(b))
789: #define MKVECT(m,l) \
790: (NEWVECT(m),(m)->len=(l),(m)->body=(pointer *)CALLOC((l),sizeof(pointer)))
791: #define MKMAT(m,r,c) \
792: (NEWMAT(m),(m)->row=(r),(m)->col=(c),(m)->body=(pointer **)almat_pointer((r),(c)))
793: #define TOGF2MAT(r,c,b,m) (NEWGF2MAT(m),(m)->row=(r),(m)->col=(c),(m)->body=(b))
794: #define TOGFMMAT(r,c,b,m) (NEWGFMMAT(m),(m)->row=(r),(m)->col=(c),(m)->body=(b))
795: #define MKSTR(a,b) (NEWSTR(a),(a)->body=(char *)(b))
796: #define MKDP(n,m,d) (NEWDP(d),(d)->nv=(n),BDY(d)=(m))
1.49 noro 797: #define MKDPV(len,m,d) (NEWDPV(d),(d)->len=(len),BDY(d)=(m))
1.1 noro 798: #define MKLM(b,l) (!(b)?(l)=0:(NEWLM(l),(l)->body=(b),(l)))
799: #define MKGF2N(b,l) (!(b)?(l)=0:(NEWGF2N(l),(l)->body=(b),(l)))
800: #define MKGFPN(b,l) (!(b)?(l)=0:(NEWGFPN(l),(l)->body=(b),(l)))
801: #define MKUSINT(u,b) (NEWUSINT(u),(u)->body=(unsigned)(b))
802: #define MKERR(e,b) (NEWERR(e),(e)->body=(Obj)(b))
803: #define MKMATHCAP(e,b) (NEWMATHCAP(e),(e)->body=(LIST)(b))
1.6 noro 804: #define MKBYTEARRAY(m,l) \
805: (NEWBYTEARRAY(m),(m)->len=(l),(m)->body=(char *)MALLOC_ATOMIC((l)),bzero((m)->body,(l)))
1.48 noro 806: #define MKQUOTE(q,b) (NEWQUOTE(q),(q)->body=(pointer)(b))
1.50 noro 807: #define MKQUOTEARG(q,t,b) (NEWQUOTEARG(q),(q)->type=(t),(q)->body=(pointer)(b))
1.1 noro 808:
809: #define NEXTDC(r,c) \
810: if(!(r)){NEWDC(r);(c)=(r);}else{NEWDC(NEXT(c));(c)=NEXT(c);}
811: #define NEXTNODE(r,c) \
812: if(!(r)){NEWNODE(r);(c)=(r);}else{NEWNODE(NEXT(c));(c)=NEXT(c);}
813: #define NEXTMP(r,c) \
814: if(!(r)){NEWMP(r);(c)=(r);}else{NEWMP(NEXT(c));(c)=NEXT(c);}
1.9 noro 815: #define NEXTMP2(r,c,s) \
816: if(!(r)){(c)=(r)=(s);}else{NEXT(c)=(s);(c)=(s);}
1.25 noro 817: #define NEXTDLBUCKET(r,c) \
818: if(!(r)){NEWDLBUCKET(r);(c)=(r);}else{NEWDLBUCKET(NEXT(c));(c)=NEXT(c);}
1.29 noro 819: #define NEXTVL(r,c) \
820: if(!(r)){NEWVL(r);(c)=(r);}else{NEWVL(NEXT(c));(c)=NEXT(c);}
821: #define NEXTDPP(r,c) \
822: if(!(r)){NEWDPP(r);(c)=(r);}else{NEWDPP(NEXT(c));(c)=NEXT(c);}
1.1 noro 823:
824: /* convertors */
825: #define NTOQ(n,s,q) \
826: (!(n)?((q)=0):(NEWQ(q),SGN(q)=(s),NM(q)=(n),DN(q)=0,(q)))
827: #define NDTOQ(n,d,s,q) \
828: ((!(d)||UNIN(d))?NTOQ(n,s,q):(NEWQ(q),SGN(q)=(s),NM(q)=(n),DN(q)=(d),(q)))
829: #define DUPQ(p,q) \
830: (NEWQ(q),SGN(q)=SGN(p),NM(q)=NM(p),DN(q)=DN(p))
831: #define STOQ(n,q) \
832: ((!(n))?((q)=(Q)NULL):(NEWQ(q),\
833: SGN(q)=((n)>0?1:-1),NM(q)=NALLOC(1),\
834: PL(NM(q))=1,BD(NM(q))[0]=ABS(n),DN(q)=0,(q)))
835: #define UTOMQ(a,b) \
836: ((a)?(NEWMQ(b),CONT(b)=(unsigned int)(a),(b)):((b)=0))
1.12 noro 837: #define MKGFS(a,b) \
838: ((NEWGFS(b),CONT(b)=(a),(b)))
1.21 noro 839: #define MKGFSN(a,b) \
840: ((DEG(a)>=0)?(NEWGFSN(b),BDY(b)=(a),(b)):((b)=0))
1.1 noro 841: #define STOMQ(a,b) \
842: ((a)?(NEWMQ(b),CONT(b)=(a),(b)):((b)=0))
843: #define UTON(u,n) \
844: ((!(u))?((n)=(N)NULL):((n)=NALLOC(1),PL(n)=1,BD(n)[0]=(unsigned int)(u),(n)))
845: #define UTOQ(n,q) \
846: ((!(n))?((q)=(Q)NULL):(NEWQ(q),\
847: SGN(q)=1,NM(q)=NALLOC(1),\
848: PL(NM(q))=1,BD(NM(q))[0]=(unsigned int)(n),DN(q)=0,(q)))
849: #define QTOS(q) (!(q)?0:SGN(q)*((int)BD(NM(q))[0]))
850: #define STON(i,n)\
851: (i?((n)=NALLOC(1),PL(n)=1,BD(n)[0]=(i),(n)):((n)=(N)0))
852: #define PTOR(a,b) \
853: (!(a)?((b)=0):(NEWR(b),NM(b)=(a),DN(b)=(P)ONE,(b)->reduced=1,(b)))
854: #define RTOS(a) (!(a)?0:QTOS((Q)NM((R)a)))
855: #define MKReal(a,b) (!(a)?((b)=0):(NEWReal(b),BDY(b)=(a),(b)))
856: #define MKAlg(b,r) \
857: (!(b)?((r)=0):NUM(b)?((r)=(Alg)(b)):(NEWAlg(r),BDY(r)=(Obj)(b),(r)))
858:
1.35 ohara 859: #if defined(PARI)
1.3 noro 860: #define ToReal(a) (!(a)?(double)0.0:REAL(a)?BDY((Real)a):RATN(a)?RatnToReal((Q)a):BIGFLOAT(a)?rtodbl(BDY((BF)a)):0)
861: #else
862: #define ToReal(a) (!(a)?(double)0.0:REAL(a)?BDY((Real)a):RATN(a)?RatnToReal((Q)a):0.0)
863: #endif
1.1 noro 864:
865: /* predicates */
866: #define NUM(p) (OID(p)==O_N)
867: #define RAT(p) (OID(p)==O_R)
868: #define RATN(a) (NID(a)==N_Q)
1.22 noro 869: #define INT(q) (!(q)||(NUM(q)&&RATN((Num)q)&&!DN((Q)q)))
1.1 noro 870: #define REAL(a) (NID(a)==N_R)
1.3 noro 871: #define BIGFLOAT(a) (NID(a)==N_B)
1.1 noro 872: #define SFF(a) (NID(a)==N_M)
873: #define UNIQ(q) ((q)&&NUM(q)&&RATN(q)&&(SGN((Q)q)==1)&&UNIN(NM((Q)q))&&(!DN((Q)q)))
874: #define UNIMQ(q) ((q)&&NUM(q)&&SFF(q)&&(CONT((MQ)q)==1))
875: #define MUNIQ(q) ((q)&&NUM(q)&&RATN(q)&&(SGN((Q)q)==-1)&&UNIN(NM((Q)q))&&(!DN((Q)q)))
876: #define MUNIMQ(q) ((q)&&NUM(q)&&SFF(q)&&(CONT((MQ)q)==-1))
877: #define UNIN(n) ((n)&&(PL(n)==1)&&(BD(n)[0]==1))
878: #define EVENN(n) ((!(n))||(!(BD(n)[0]%2)))
879:
1.8 noro 880: /* special macros for private memory management */
881:
882: #define NV(p) ((p)->nv)
883: #define C(p) ((p)->c)
1.28 noro 884: #if 0
1.8 noro 885: #define ITOS(p) (((unsigned int)(p))&0x7fffffff)
886: #define STOI(i) ((P)((unsigned int)(i)|0x80000000))
1.28 noro 887: #else
888: #define ITOS(p) (((unsigned int)(p)))
889: #define STOI(i) ((P)((unsigned int)(i)))
890: #endif
1.15 noro 891:
892: /* immediate GFS representation */
893:
894: #define IFTOF(p) ((int)(((unsigned int)(p))&0x7fffffff))
895: #define FTOIF(i) ((int)(((unsigned int)(i)|0x80000000)))
1.8 noro 896:
897: struct cdl {
898: P c;
899: DL d;
900: };
901:
902: struct cdlm {
903: int c;
904: DL d;
905: };
906:
907: extern MP _mp_free_list;
908: extern DP _dp_free_list;
909: extern DL _dl_free_list;
910: extern int current_dl_length;
911:
912: #define _NEWDL_NOINIT(d,n) if ((n)!= current_dl_length){_dl_free_list=0; current_dl_length=(n);} if(!_dl_free_list)_DL_alloc(); (d)=_dl_free_list; _dl_free_list = *((DL *)_dl_free_list)
913: #define _NEWDL(d,n) if ((n)!= current_dl_length){_dl_free_list=0; current_dl_length=(n);} if(!_dl_free_list)_DL_alloc(); (d)=_dl_free_list; _dl_free_list = *((DL *)_dl_free_list); bzero((d),(((n)+1)*sizeof(int)))
914: #define _NEWMP(m) if(!_mp_free_list)_MP_alloc(); (m)=_mp_free_list; _mp_free_list = NEXT(_mp_free_list)
1.10 noro 915: #define _MKDP(n,m,d) if(!_dp_free_list)_DP_alloc(); (d)=_dp_free_list; _dp_free_list = (DP)BDY(_dp_free_list); (d)->id = O_DP; (d)->nv=(n); BDY(d)=(m)
1.8 noro 916:
917: #define _NEXTMP(r,c) \
918: if(!(r)){_NEWMP(r);(c)=(r);}else{_NEWMP(NEXT(c));(c)=NEXT(c);}
919:
920: #define _NEXTMP2(r,c,s) \
921: if(!(r)){(c)=(r)=(s);}else{NEXT(c)=(s);(c)=(s);}
922:
923: #define _FREEDL(m) *((DL *)m)=_dl_free_list; _dl_free_list=(m)
924: #define _FREEMP(m) NEXT(m)=_mp_free_list; _mp_free_list=(m)
925: #define _FREEDP(m) BDY(m)=(MP)_dp_free_list; _dp_free_list=(m)
1.1 noro 926:
1.33 noro 927: #define MUL_WEIGHT(a,i) (current_dl_weight_vector?(a)*current_dl_weight_vector[i]:(a))
928:
1.1 noro 929: /* externals */
930: #if 0
931: double NatToReal();
932: double RatnToReal();
933: #endif
934:
935: extern struct oR oUNIR;
936: extern struct oQ oUNIQ;
937: extern struct oMQ oUNIMQ;
938: extern struct oN oUNIN;
939: extern struct oUP2 oONEUP2;
940: extern struct oV oVAR[];
941: extern struct oV oPVAR[];
942: extern struct oVL oVLIST[];
943: extern struct oVL oPVLIST[];
944: extern VL CO,ALG;
945: extern VL PVL;
946: extern R ONER;
947: extern Q ONE;
1.38 saito 948: extern Q TWO;
1.1 noro 949: extern MQ ONEM;
950: extern LM ONELM;
951: extern N ONEN;
952: extern UP2 ONEUP2;
953:
954: extern FILE *asir_out;
1.7 noro 955: #if defined(__GNUC__)
1.1 noro 956: extern const int sprime[];
957: #else
958: extern int sprime[];
959: #endif
1.14 noro 960:
961: extern int lprime_size;
962: extern int *lprime;
1.1 noro 963:
964: extern void (*addnumt[])();
965: extern void (*subnumt[])();
966: extern void (*mulnumt[])();
967: extern void (*divnumt[])();
968: extern void (*pwrnumt[])();
969: extern int (*cmpnumt[])();
970: extern void (*chsgnnumt[])();
971:
1.29 noro 972: extern int current_mod;
973: extern GEN_UP2 current_mod_gf2n;
974: extern int lm_lazy;
975: extern int current_ff;
976: extern V up_var;
977: extern V up2_var;
978: extern P current_gfs_ext;
979: extern int current_gfs_p;
980: extern int current_gfs_q;
981: extern int current_gfs_q1;
982: extern int *current_gfs_plus1;
983: extern int *current_gfs_ntoi;
984: extern int *current_gfs_iton;
1.33 noro 985:
986: extern int *current_dl_weight_vector;
1.29 noro 987:
1.1 noro 988: /* prototypes */
989: int compui(VL,USINT,USINT);
1.6 noro 990: int compbytearray(VL,BYTEARRAY,BYTEARRAY);
1.1 noro 991:
992: void powermodup(UP,UP *);
993: void hybrid_powermodup(UP,UP *);
994:
995: void powertabup(UP,UP,UP *);
996: void hybrid_powertabup(UP,UP,UP *);
997:
998: void generic_powermodup(UP,UP,Q,UP *);
999: void hybrid_generic_powermodup(UP,UP,Q,UP *);
1000:
1001: void powermod1up(UP,UP *);
1002: void hybrid_rembymulup_special(int,UP,UP,UP,UP *);
1003: void hybrid_tmulup(int,UP,UP,int,UP *);
1004: void hybrid_squareup(int,UP,UP *);
1005: void hybrid_mulup(int,UP,UP,UP *);
1006:
1007: void getmod_lm(N *);
1008:
1009: int maxblenup(UP);
1010: void monicup(UP,UP *);
1011: void simpup(UP,UP *);
1012: void simpnum(Num,Num *);
1013: void decompp(P,Q,P *,P *);
1014: void truncp(P,Q,P *);
1015: void uremp(P,P,P *);
1016: void ugcdp(P,P,P *);
1017: void reversep(P,Q,P *);
1018: void invmodp(P,Q,P *);
1019: void addup(UP,UP,UP *);
1020: void subup(UP,UP,UP *);
1021: void chsgnup(UP,UP *);
1022: void mulup(UP,UP,UP *);
1023: void tmulup(UP,UP,int,UP *);
1024: void squareup(UP,UP *);
1025: void remup(UP,UP,UP *);
1026: void remup_destructive(UP,UP);
1027: void qrup(UP,UP,UP *,UP *);
1028: void qrup_destructive(UP,UP);
1029: void gcdup(UP,UP,UP *);
1030: void reverseup(UP,int,UP *);
1031: void invmodup(UP,int,UP *);
1032: void pwrup(UP,Q,UP *);
1033: void squarep_gf2n(VL,P,P *);
1034: void kmulp(VL,P,P,P *);
1035: void ksquarep(VL,P,P *);
1036: void kmulup(UP,UP,UP *);
1037: void ksquareup(UP,UP *);
1038: void extractup(UP,int,int,UP *);
1039: void copyup(UP,UP);
1040: void c_copyup(UP,int,pointer *);
1041: void kmulupmain(UP,UP,UP *);
1042: void ksquareupmain(UP,UP *);
1043: void rembymulup(UP,UP,UP *);
1044: void rembymulup_special(UP,UP,UP,UP *);
1045: void tkmulup(UP,UP,int,UP *);
1046: void shiftup(UP,int,UP *);
1047: void set_degreeup(UP,int);
1048: void decompup(UP,int,UP *,UP *);
1049: void truncup(UP,int,UP *);
1050: void uptofmarray(int,UP,ModNum *);
1051: void fmarraytoup(ModNum *,int,UP *);
1052: void uiarraytoup(unsigned int **,int,int,UP *);
1053: void adj_coefup(UP,N,N,UP *);
1054: void uptolmup(UP,UP *);
1055: void remcup(UP,N,UP *);
1056: void fft_mulup(UP,UP,UP *);
1057: void fft_squareup(UP,UP *);
1058: void trunc_fft_mulup(UP,UP,int,UP *);
1059: void shoup_fft_mulup(UP,UP,UP *);
1060: void shoup_fft_squareup(UP,UP *);
1061: void shoup_trunc_fft_mulup(UP,UP,int,UP *);
1062: void crup(ModNum **,int,int *,int,N,UP *);
1063: void shoup_crup(ModNum **,int,int *,int,N,N,UP *);
1064: void squareup_gf2n(UP,UP *);
1065: void powermodup_gf2n(UP,UP *);
1066: void generic_powermodup_gf2n(UP,UP,Q,UP *);
1067: void tracemodup_gf2n(UP,UP,Q,UP *);
1068: void tracemodup_gf2n_slow(UP,UP,Q,UP *);
1069: void tracemodup_gf2n_tab(UP,UP,Q,UP *);
1070: void square_rem_tab_up_gf2n(UP,UP *,UP *);
1071: void powertabup_gf2n(UP,UP,UP *);
1072: void find_root_gf2n(UP,GF2N *);
1073:
1.44 noro 1074: int cmpdl_composite(int,DL,DL);
1.1 noro 1075: int cmpdl_matrix(int,DL,DL);
1076: int cmpdl_order_pair(int,DL,DL);
1077: int cmpdl_elim(int,DL,DL);
1078: int cmpdl_blexrev(int,DL,DL);
1079: int cmpdl_bgradrev(int,DL,DL);
1080: int cmpdl_brevrev(int,DL,DL);
1081: int cmpdl_brevgradlex(int,DL,DL);
1082: int cmpdl_bgradlex(int,DL,DL);
1083: int cmpdl_blex(int,DL,DL);
1084: int cmpdl_revgradlex(int,DL,DL);
1085: int cmpdl_gradlex(int,DL,DL);
1086: int cmpdl_revlex(int,DL,DL);
1087: int cmpdl_lex(int,DL,DL);
1088: int compd(VL,DP,DP);
1089: void adddl(int,DL,DL,DL *);
1090: void divsdc(VL,DP,P,DP *);
1091: void muldc(VL,DP,P,DP *);
1092: void muldm(VL,DP,MP,DP *);
1093: void muld(VL,DP,DP,DP *);
1094: void chsgnd(DP,DP *);
1095: void subd(VL,DP,DP,DP *);
1096: void addd(VL,DP,DP,DP *);
1097: int sugard(MP);
1098: void nodetod(NODE,DP *);
1099: void dtop(VL,VL,DP,P *);
1100: void ptod(VL,VL,P,DP *);
1101: void initd(struct order_spec *);
1.49 noro 1102:
1103: void adddv(VL,DPV,DPV,DPV *);
1104: void subdv(VL,DPV,DPV,DPV *);
1105: void muldv(VL,DP,DPV,DPV *);
1106: void chsgndv(DPV,DPV *);
1107: int compdv(VL,DPV,DPV);
1.1 noro 1108:
1109: void _printdp(DP);
1110: void _dp_sp_mod(DP,DP,int,DP *);
1111: void _dp_mod(DP,int,NODE,DP *);
1112: void _dp_red_mod(DP,DP,int,DP *);
1113: void _dtop_mod(VL,VL,DP,P *);
1114: void _mulmdm(VL,int,DP,MP,DP *);
1115: void _mulmd(VL,int,DP,DP,DP *);
1116: void _chsgnmd(int,DP,DP *);
1117: void _submd(VL,int,DP,DP,DP *);
1118: void _addmd(VL,int,DP,DP,DP *);
1119: void _mdtop(VL,int,VL,DP,P *);
1120: void divsmdc(VL,int,DP,P,DP *);
1121: void mulmdc(VL,int,DP,P,DP *);
1122: void mulmdm(VL,int,DP,MP,DP *);
1123: void mulmd(VL,int,DP,DP,DP *);
1124: void chsgnmd(int,DP,DP *);
1125: void submd(VL,int,DP,DP,DP *);
1126: void addmd(VL,int,DP,DP,DP *);
1127: void mdtop(VL,int,VL,DP,P *);
1128: void mptomd(VL,int,VL,P,DP *);
1129: void ptomd(VL,int,VL,P,DP *);
1130: int p_mag(P);
1131: int n_bits(N);
1132: void gcdBinary_27n(N,N,N *);
1133: void rtime_init(void);
1134: void setmod_gf2n(P);
1135: void mt_sgenrand(unsigned long);
1136: unsigned long mt_genrand(void);
1137: #if defined(VISUAL)
1138: void srandom(unsigned int);
1139: unsigned int random(void);
1140: #endif
1141: void gcdbmodn(N,N,N *);
1142: void gcdbinn(N,N,N *);
1143: void gcdmodn(N,N,N *);
1144: void gcdaccn(N,N,N *);
1145: void gcdEuclidn(N,N,N *);
1146: void GC_free(void *);
1147: void FFT_primes(int,int *,int *,int *);
1148: int FFT_pol_product(unsigned int,unsigned int *, unsigned int,unsigned int *,
1149: unsigned int *,int,unsigned int *);
1150: int FFT_pol_square(unsigned int,unsigned int *,
1151: unsigned int *,int,unsigned int *);
1152: void dcptolist(DCP,LIST *);
1153: void gcdprsmp(VL,int,P,P,P *);
1154: void mult_mod_tab(UM,int,UM *,UM,int);
1155: int nfctr_mod(UM,int);
1156: int irred_check(UM,int);
1157: void modfctrp(P,int,int,DCP *);
1158: void pf_init(void);
1159: void binaryton(char *,N *);
1160: void hexton(char *,N *);
1161: void ptolmp(P,P *);
1162: void lmptop(P,P *);
1163: void ulmptoum(int,UP,UM);
1164: void objtobobj(int,Obj,Obj *);
1165: void bobjtoobj(int,Obj,Obj *);
1166: void numtobnum(int,Num,Num *);
1167: void bnumtonum(int,Num,Num *);
1168: void ptobp(int,P,P *);
1169: void bptop(int,P,P *);
1170: void listtoblist(int,LIST,LIST *);
1171: void blisttolist(int,LIST,LIST *);
1172: void vecttobvect(int,VECT,VECT *);
1173: void bvecttovect(int,VECT,VECT *);
1174: void mattobmat(int,MAT,MAT *);
1175: void bmattomat(int,MAT,MAT *);
1176: void n32ton27(N,N *);
1177: void n27ton32(N,N *);
1178: void kmulum(int,UM,UM,UM);
1179: void saveobj(FILE *,Obj);
1180: void endian_init(void);
1181: void write_char(FILE *,unsigned char *);
1182: void write_short(FILE *,unsigned short *);
1183: void write_int(FILE *,unsigned int *);
1184: void write_double(FILE *,double *);
1185: void write_intarray(FILE *,unsigned int *,int);
1186: void write_string(FILE *,unsigned char *,int);
1187: void savestr(FILE *,char *);
1188: void loadstr(FILE *,char **);
1189: void savevl(FILE *,VL);
1190: void loadvl(FILE *);
1191: void skipvl(FILE *);
1192: void savev(FILE *,V);
1193: void loadv(FILE *,V *);
1194: int save_convv(V);
1195: V load_convv(int);
1196: void swap_bytes(char *,int,int);
1197: void read_char(FILE *,unsigned char *);
1198: void read_short(FILE *,unsigned short *);
1199: void read_int(FILE *,unsigned int *);
1200: void read_double(FILE *,double *);
1201: void read_intarray(FILE *,unsigned int *,int);
1202: void read_string(FILE *,unsigned char *,int);
1203: void loadobj(FILE *,Obj *);
1204: void invum(int,UM,UM,UM);
1205: void addarray_to(unsigned int *,int,unsigned int *,int);
1206: void muln_1(unsigned int *,int,unsigned int,unsigned int *);
1207: unsigned int divn_1(unsigned int *,int,unsigned int,unsigned int *);
1208: void ptoup(P,UP *);
1209: void uptop(UP,P *);
1210: void printnum(Num);
1211: void printv(VL,V);
1212: void kmulq(Q,Q,Q *);
1213: void bshiftn(N,int,N *);
1214: void remn(N,N,N*);
1215: void simplm(LM,LM *);
1216: void qtolm(Q,LM *);
1217: int qpcheck(Obj);
1218: int headsgn(P);
1219: void adjsgn(P,DCP);
1220: void setmod_g2n(P);
1221: void simpgf2n(GF2N,GF2N *);
1222: void ptogf2n(Obj,GF2N *);
1223: void gf2ntop(GF2N,P *);
1224: void gf2ntovect(GF2N,VECT *);
1225: void squaregf2n(GF2N,GF2N *);
1226: void randomgf2n(GF2N *);
1227: void invgf2n(GF2N,GF2N *);
1228: void kmuln(N,N,N *);
1229: void extractn(N,int,int,N *);
1230: void copyn(N,int,int *);
1231: void kmulnmain(N,N,N *);
1232: int qcoefp(Obj);
1233: int qcoefr(Obj);
1234: int get_allocwords(void);
1235: double get_clock(void);
1236: void get_eg(struct oEGT *);
1237: void printtime(struct oEGT *,struct oEGT *,double);
1238: void init_eg(struct oEGT *);
1239: void add_eg(struct oEGT *,struct oEGT *,struct oEGT *);
1240: void print_eg(char *,struct oEGT *);
1241: void print_split_eg(struct oEGT *,struct oEGT *);
1242: void print_split_e(struct oEGT *,struct oEGT *);
1243: void suspend_timer(void);
1244: void resume_timer(void);
1245: void reset_engine(void);
1246: void notdef(VL,Obj,Obj,Obj *);
1247: void error(char *);
1248: void ptoup2(P,UP2 *);
1249: void ptoup2_sparse(P,UP2 *);
1250: void up2top(UP2,P *);
1251: void up2tovect(UP2,VECT *);
1252: void up2ton(UP2,Q *);
1253: void ntoup2(Q,UP2 *);
1254: void gen_simpup2(UP2,GEN_UP2,UP2 *);
1255: void gen_simpup2_destructive(UP2,GEN_UP2);
1256: void gen_invup2(UP2,GEN_UP2,UP2 *);
1257: void gen_pwrmodup2(UP2,Q,GEN_UP2,UP2 *);
1258: void simpup2(UP2,UP2,UP2 *);
1259: int degup2(UP2);
1260: int degup2_sparse(UP2);
1261: int degup2_1(unsigned int);
1262: void addup2(UP2,UP2,UP2 *);
1263: void subup2(UP2,UP2,UP2 *);
1264: void mulup2_n1(unsigned int *,int,unsigned int,unsigned int *);
1265: void mulup2_nh(unsigned int *,int,unsigned int,unsigned int *);
1266: void _mulup2_1(UP2,unsigned int,UP2);
1267: void _mulup2_h(UP2,unsigned int,UP2);
1268: void mulup2(UP2,UP2,UP2 *);
1269: void _kmulup2_(unsigned int *,unsigned int *,int,unsigned int *);
1270: void _mulup2_nn(unsigned int *,unsigned int *,int,unsigned int *);
1271: void _mulup2(UP2,UP2,UP2);
1272: void _mulup2_(_UP2,_UP2,_UP2);
1273: void squareup2(UP2,UP2 *);
1274: void _adjup2(UP2);
1275: void _adjup2_(_UP2);
1276: void _addup2(UP2,UP2,UP2);
1277: void _addup2_destructive(UP2,UP2);
1278: void _addup2_(_UP2,_UP2,_UP2);
1279: void _addtoup2_(_UP2,_UP2);
1280: unsigned int mulup2_bb(unsigned int,unsigned int);
1281: void init_up2_tab(void);
1282: unsigned int quoup2_11(unsigned int,unsigned int);
1283: void divup2_1(unsigned int,unsigned int,int,int,unsigned int *,unsigned int *);
1284: void qrup2(UP2,UP2,UP2 *,UP2 *);
1285: void _qrup2(UP2,UP2,UP2,UP2);
1286: void remup2(UP2,UP2,UP2 *);
1287: void _remup2(UP2,UP2,UP2);
1288: void remup2_sparse(UP2,UP2,UP2 *);
1289: void remup2_sparse_destructive(UP2,UP2);
1290: void remup2_type1_destructive(UP2,int);
1291: void remup2_3_destructive(UP2,UP2);
1292: void remup2_5_destructive(UP2,UP2);
1293: void _invup2_1(unsigned int,unsigned int,unsigned int *,unsigned int *);
1294: void _gcdup2_1(unsigned int,unsigned int,unsigned int *);
1295: void up2_init_eg(void);
1296: void up2_show_eg(void);
1297: void invup2(UP2,UP2,UP2 *);
1298: void gcdup2(UP2,UP2,UP2 *);
1299: void chsgnup2(UP2,UP2 *);
1300: void pwrmodup2(UP2,Q,UP2,UP2 *);
1301: void pwrmodup2_sparse(UP2,Q,UP2,UP2 *);
1302: int compup2(UP2,UP2);
1303: void printup2(UP2);
1304: void _copyup2(UP2,UP2);
1305: void _bshiftup2(UP2,int,UP2);
1306: void _bshiftup2_destructive(UP2,int);
1307: void diffup2(UP2,UP2 *);
1308: int sqfrcheckup2(UP2);
1309: int irredcheckup2(UP2);
1310: int irredcheck_dddup2(UP2);
1311: void _copy_up2bits(UP2,unsigned int **,int);
1312: void _print_frobmat(unsigned int **,int,int);
1313: int compute_multiplication_matrix(P,GF2MAT *);
1314: void compute_change_of_basis_matrix(P,P,int,GF2MAT *,GF2MAT *);
1315: int compute_representation_conversion_matrix(P,GF2MAT *,GF2MAT *);
1316: void mul_nb(GF2MAT,unsigned int *,unsigned int *,unsigned int *);
1317: void leftshift(unsigned int *,int);
1318: void mat_to_gf2mat(MAT,unsigned int ***);
1319: void gf2mat_to_mat(unsigned int **,int,MAT *);
1320: void mulgf2mat(int,unsigned int **,unsigned int **,unsigned int **);
1321: void mulgf2vectmat(int,unsigned int *,unsigned int **,unsigned int *);
1322: int mulgf2vectvect(int,unsigned int *,unsigned int *);
1323: int invgf2mat(int,unsigned int **,unsigned int **);
1324: void _mulup2_11(unsigned int,unsigned int,unsigned int *);
1325: void _mulup2_22(unsigned int *,unsigned int *,unsigned int *);
1326: void _mulup2_33(unsigned int *,unsigned int *,unsigned int *);
1327: void _mulup2_44(unsigned int *,unsigned int *,unsigned int *);
1328: void _mulup2_55(unsigned int *,unsigned int *,unsigned int *);
1329: void _mulup2_66(unsigned int *,unsigned int *,unsigned int *);
1330: void printup2_(unsigned int *,int);
1331: void type1_bin_invup2(UP2,int,UP2 *);
1332: int int_bits(int);
1333:
1334:
1335: LUM LUMALLOC(int, int);
1.16 noro 1336: BM BMALLOC(int, int);
1.1 noro 1337: Obj ToAlg(Num);
1338: UM *berlemain(register int, UM, UM *);
1339: void *Risa_GC_malloc(size_t);
1340: void *Risa_GC_malloc_atomic(size_t);
1341: void *Risa_GC_realloc(void *,size_t);
1342: void *GC_malloc(size_t);
1343: void *GC_malloc_atomic(size_t);
1344: void *GC_realloc(void *,size_t);
1345: double NatToReal(N,int *);
1346: double RatnToReal(Q);
1347: double pwrreal0(double,int);
1.3 noro 1348: double rtodbl(); /* XXX */
1.1 noro 1349: int **almat(int,int);
1350: pointer **almat_pointer(int,int);
1351: int berlecnt(register int,UM);
1352: int berlecntmain(register int,int,int,register int **);
1353: int cmpalg(Num,Num);
1354: int cmpbf(Num,Num);
1355: int cmpcplx(Num,Num);
1356: int cmpn(N,N);
1357: int cmpq(Q,Q);
1358: int cmpreal(Real,Real);
1359: int cmpmi(MQ,MQ);
1360: int cmplm(LM,LM);
1361: int compmat(VL,MAT,MAT);
1362: int compnum(VL,Num,Num);
1363: int compp(VL,P,P);
1364: int compr(VL,Obj,Obj);
1365: int compstr(VL,STRING,STRING);
1366: int compvect(VL,VECT,VECT);
1367: int ctest(P,ML,int,int *);
1368: int cycchk(P);
1369: int dbound(V,P);
1370: int dcomp(P,P);
1371: int deg(V,P);
1372: int degtest(int,int *,ML,int);
1373: int divcheck(VL,P *,int,P,P);
1374: unsigned int divin(N,unsigned int,N *);
1375: int divtdcpz(VL,P,P,P *);
1376: int divtpz(VL,P,P,P *);
1377: int divum(register int,UM,UM,UM);
1378: int dm(int,int,int *);
1379: int dmb(int,int,int,int *);
1380: int dma(int,int,int,int *);
1381: int dmab(int,int,int,int,int *);
1382: int dmar(int,int,int,int);
1383: int dtestmain(P,Q,ML,int,int *,P *,P *);
1384: int geldb(VL,P);
1385: int getchomdeg(V,P);
1386: int getdeg(V,P);
1387: int getlchomdeg(V,P,int *);
1.29 noro 1388: int get_lprime(int);
1.1 noro 1389: int homdeg(P);
1390: unsigned int invm(unsigned int,int);
1391: int iscycm(P);
1392: int iscycp(P);
1393: int lengthp(P);
1394: int mig(int,int,P);
1395: int mignotte(int,P);
1396: int minimain(register int,int,int,register int **);
1397: int ncombi(int,int,int,int *);
1398: int nextbin(VN,int);
1399: int nmonop(P);
1400: int pcoef(VL,VL,P,P *);
1401: int pcoef0(VL,VL,P,P *);
1402: unsigned int pwrm(register int,register int,int);
1.29 noro 1403: unsigned int rem(N,int);
1.1 noro 1404: int sqfrchk(P);
1405: int subn(N,N,N *);
1406: int ucmpp(P,P);
1407: int valideval(VL,DCP,VN);
1408: int zerovpchk(VL,P,VN);
1409:
1410: void addgf2n(GF2N,GF2N,GF2N *);
1411: void subgf2n(GF2N,GF2N,GF2N *);
1412: void mulgf2n(GF2N,GF2N,GF2N *);
1413: void divgf2n(GF2N,GF2N,GF2N *);
1414: void chsgngf2n(GF2N,GF2N *);
1415: void pwrgf2n(GF2N,Q, GF2N *);
1416: int cmpgf2n(GF2N,GF2N);
1417:
1418: void addgfpn(GFPN,GFPN,GFPN *);
1419: void subgfpn(GFPN,GFPN,GFPN *);
1420: void mulgfpn(GFPN,GFPN,GFPN *);
1421: void divgfpn(GFPN,GFPN,GFPN *);
1422: void chsgngfpn(GFPN,GFPN *);
1423: void pwrgfpn(GFPN,Q, GFPN *);
1424: int cmpgfpn(GFPN,GFPN);
1.12 noro 1425:
1426: void addgfs(GFS,GFS,GFS *);
1427: void subgfs(GFS,GFS,GFS *);
1428: void mulgfs(GFS,GFS,GFS *);
1429: void divgfs(GFS,GFS,GFS *);
1430: void chsgngfs(GFS,GFS *);
1431: void pwrgfs(GFS,Q, GFS *);
1432: int cmpgfs(GFS,GFS);
1.20 noro 1433:
1.21 noro 1434: void addgfsn(GFSN,GFSN,GFSN *);
1435: void subgfsn(GFSN,GFSN,GFSN *);
1436: void mulgfsn(GFSN,GFSN,GFSN *);
1437: void divgfsn(GFSN,GFSN,GFSN *);
1438: void chsgngfsn(GFSN,GFSN *);
1439: void pwrgfsn(GFSN,Q, GFSN *);
1440: int cmpgfsn(GFSN,GFSN);
1.1 noro 1441:
1442: void addalg(Num,Num,Num *);
1443: void addbf(Num,Num,Num *);
1444: void addcplx(Num,Num,Num *);
1445: void addm2p(VL,Q,Q,P,P,P *);
1446: void addm2q(Q,Q,Q,Q,Q *);
1447: void addmat(VL,MAT,MAT,MAT *);
1448: void addmp(VL,int,P,P,P *);
1449: void addmpq(int,P,P,P *);
1450: void addmptoc(VL,int,P,P,P *);
1451: void addmq(int,MQ,MQ,MQ *);
1452: void addn(N,N,N *);
1453: void addnum(VL,Num,Num,Num *);
1454: void addp(VL,P,P,P *);
1455: void addpadic(int,int,unsigned int *,unsigned int *);
1456: void addpq(P,P,P *);
1457: void addptoc(VL,P,P,P *);
1458: void addq(Q,Q,Q *);
1459: void addr(VL,Obj,Obj,Obj *);
1460: void addreal(Num,Num,Real *);
1461: void addmi(MQ,MQ,MQ *);
1462: void addlm(LM,LM,LM *);
1463: void addstr(VL,STRING,STRING,STRING *);
1464: void addum(int,UM,UM,UM);
1465: void addvect(VL,VECT,VECT,VECT *);
1.19 noro 1466: void addquote(VL,QUOTE,QUOTE,QUOTE *);
1.1 noro 1467: void adjc(VL,P,P,P,Q,P *,P *);
1468: void afctr(VL,P,P,DCP *);
1469: void afctrmain(VL,P,P,int,DCP *);
1470: void affine(VL,P,VN,P *);
1471: void affinemain(VL,P,V,int,P *,P *);
1472: void berle(int,int,P,ML *);
1473: void bnton(register int,N,N *);
1474: void cbound(VL,P,Q *);
1475: void chnrem(int,V,P,Q,UM,P *,Q *);
1476: void chnremp(VL,int,P,Q,P,P *);
1477: void chsgnalg(Num,Num *);
1478: void chsgnbf(Num a,Num *);
1479: void chsgncplx(Num,Num *);
1480: void chsgnmat(MAT,MAT *);
1481: void chsgnmp(int,P,P *);
1482: void chsgnnum(Num,Num *);
1483: void chsgnp(P,P *);
1484: void chsgnq(Q,Q *);
1485: void chsgnr(Obj,Obj *);
1486: void chsgnreal(Num,Num *);
1487: void chsgnmi(MQ,MQ *);
1488: void chsgnlm(LM,LM *);
1489: void chsgnvect(VECT,VECT *);
1.19 noro 1490: void chsgnquote(QUOTE,QUOTE *);
1.1 noro 1491: void clctv(VL,P,VL *);
1492: void clctvr(VL,Obj,VL *);
1493: void cm2p(Q,Q,P,P *);
1494: void cmax(P,Q *);
1495: void cmp(Q,P,P *);
1496: void coefp(P,int,P *);
1497: void cpylum(int,LUM,LUM);
1498: void cpyum(UM,UM);
1499: void csump(VL,P,Q *);
1500: void cycm(V,register int,DCP *);
1501: void cycp(V,register int,DCP *);
1502: void degp(V,P,Q *);
1503: void degum(UM,int);
1504: void detmp(VL,int,P **,int,P *);
1505: void detp(VL,P **,int,P *);
1506: void diffp(VL,P,V,P *);
1507: void diffum(register int,UM,UM);
1508: void divalg(Num,Num,Num *);
1509: void divbf(Num,Num,Num *);
1510: void divcp(P,Q,P *);
1511: void divcplx(Num,Num,Num *);
1512: void divmat(VL,Obj,Obj,Obj *);
1513: void divmq(int,MQ,MQ,MQ *);
1514: void divn(N,N,N *,N *);
1515: void divnmain(int,int,unsigned int *,unsigned int *,unsigned int *);
1516: void divnum(VL,Num,Num,Num *);
1517: void divq(Q,Q,Q *);
1518: void divr(VL,Obj,Obj,Obj *);
1519: void divreal(Num,Num,Real *);
1520: void divmi(MQ,MQ,MQ *);
1521: void divlm(LM,LM,LM *);
1522: void divsdcmp(VL,int,P,P,P *);
1523: void divsdcp(VL,P,P,P *);
1524: void divsmp(VL,int,P,P,P *);
1525: void divsn(N,N,N *);
1526: void divsp(VL,P,P,P *);
1527: void divsrdcmp(VL,int,P,P,P *,P *);
1528: void divsrdcp(VL,P,P,P *,P *);
1529: void divsrmp(VL,int,P,P,P *,P *);
1530: void divsrp(VL,P,P,P *,P *);
1531: void divvect(VL,Obj,Obj,Obj *);
1.19 noro 1532: void divquote(VL,QUOTE,QUOTE,QUOTE *);
1.1 noro 1533: void dtest(P,ML,int,DCP *);
1534: void dtestroot(int,int,P,LUM,struct oDUM *,DCP *);
1535: void dtestroot1(int,int,P,LUM,P *);
1536: void dtestsq(int,int,P,LUM,P *);
1537: void dtestsql(P,ML,struct oDUM *,DCP *);
1.41 ohara 1538: void ediffp(VL,P,V,P *);
1.1 noro 1539: void estimatelc(VL,Q,DCP,VN,P *);
1540: void eucum(register int,UM,UM,UM,UM);
1541: void exthp(VL,P,int,P *);
1542: void exthpc(VL,V,P,int,P *);
1543: void ezgcd1p(VL,P,P,P *);
1544: void ezgcdhensel(P,int,UM,UM,ML *);
1545: void ezgcdnp(VL,P,P *,int,P *);
1546: void ezgcdnpp(VL,DCP,P *,int,P *);
1547: void ezgcdnpz(VL,P *,int,P *);
1548: void ezgcdp(VL,P,P,P *);
1549: void ezgcdpp(VL,DCP,P,P *);
1550: void ezgcdpz(VL,P,P,P *);
1551: void factorial(int,Q *);
1552: void fctrp(VL,P,DCP *);
1553: void fctrwithmvp(VL,P,V,DCP *);
1554: void gcda(VL,P,P,P,P *);
1555: void gcdcp(VL,P,P *);
1556: void gcdgen(P,ML,ML *);
1557: void gcdmonomial(VL,DCP *,int,P *);
1558: void gcdn(N,N,N *);
1559: void gcdprsp(VL,P,P,P *);
1560: void gcdum(register int,UM,UM,UM);
1561: void getmindeg(V,P,Q *);
1562: void henmain(LUM,ML,ML,ML *);
1563: void henmv(VL,VN,P,P,P,P,P,P,P,P,P,Q,int,P *,P *);
1564: void henmvmain(VL,VN,P,P,P,P,P,P,P,Q,Q,int,P *,P *);
1565: void henprep(P,ML,ML,ML *,ML *);
1566: void hensel(int,int,P,ML *);
1567: void henzq(P,P,UM,P,UM,int,int,P *,P *,P *,P *,Q *);
1568: void henzq1(P,P,Q,P *,P *,Q *);
1569: void hsq(int,int,P,int *,DCP *);
1570: void intersectv(VL,VL,VL *);
1571: void invl(Q,Q,Q *);
1572: void invmq(int,MQ,MQ *);
1573: void invq(Q,Q *);
1574: void lgp(P,N *,N *);
1575: void lumtop(V,int,int,LUM,P *);
1576: void markv(VN,int,P);
1577: void maxdegp(VL,P,VL *,P *);
1578: void mergev(VL,VL,VL,VL *);
1579: void mfctr(VL,P,DCP *);
1580: void mfctrhen2(VL,VN,P,P,P,P,P,P,P *);
1581: void mfctrmain(VL,P,DCP *);
1582: void mfctrwithmv(VL,P,V,DCP *);
1583: void min_common_vars_in_coefp(VL,P,VL *,P *);
1584: void minchdegp(VL,P,VL *,P *);
1585: void mindegp(VL,P,VL *,P *);
1586: void mini(register int,UM,UM);
1587: void minlcdegp(VL,P,VL *,P *);
1588: void mkbc(int,Q *);
1589: void mkbcm(int,int,MQ *);
1590: void mkssum(V,int,int,int,P *);
1591: void monomialfctr(VL,P,P *,DCP *);
1592: void mptop(P,P *);
1593: void mptoum(P,UM);
1594: void msqfr(VL,P,DCP *);
1595: void msqfrmain(VL,P,DCP *);
1596: void msqfrmainmain(VL,P,VN,P,DCP,DCP *,P *);
1597: void mulalg(Num,Num,Num *);
1598: void mulbf(Num,Num,Num *);
1599: void mulcplx(Num,Num,Num *);
1600: void mulin(N,unsigned int,unsigned int *);
1601: void mullum(int,int,LUM,LUM,LUM);
1602: void mullumarray(P,ML,int,int *,P *);
1603: void mulm2p(VL,Q,Q,P,P,P *);
1604: void mulm2q(Q,Q,Q,Q,Q *);
1605: void mulmat(VL,Obj,Obj,Obj *);
1606: void mulmatmat(VL,MAT,MAT,MAT *);
1607: void mulmatvect(VL,MAT,VECT,VECT *);
1608: void mulmp(VL,int,P,P,P *);
1609: void mulmpc(VL,int,P,P,P *);
1610: void mulmpq(int,P,P,P *);
1611: void mulmq(int,MQ,MQ,MQ *);
1612: void muln(N,N,N *);
1613: void mulnum(VL,Num,Num,Num *);
1614: void mulp(VL,P,P,P *);
1615: void mulpadic(int,int,unsigned int *,unsigned int *,unsigned int *);
1616: void mulpc(VL,P,P,P *);
1617: void mulpq(P,P,P *);
1618: void mulq(Q,Q,Q *);
1619: void mulr(VL,Obj,Obj,Obj *);
1620: void mulreal(Num,Num,Real *);
1621: void mulmi(MQ,MQ,MQ *);
1622: void mullm(LM,LM,LM *);
1623: void mulrmat(VL,Obj,MAT,MAT *);
1624: void mulrvect(VL,Obj,VECT,VECT *);
1625: void mulsgn(VN,VN,int,VN);
1626: void mulsum(register int,UM,register int,UM);
1627: void mulum(register int,UM,UM,UM);
1628: void mulvect(VL,Obj,Obj,Obj *);
1.19 noro 1629: void mulquote(VL,QUOTE,QUOTE,QUOTE *);
1.1 noro 1630: void mulvectmat(VL,VECT,MAT,VECT *);
1631: void next(VN);
1632: void nezgcdnp_sqfr_primitive(VL,P,P *,int,P *);
1633: void nezgcdnpp(VL,DCP,P *,int,P *);
1634: void nezgcdnpz(VL,P *,int,P *);
1635: void nezgcdnpzmain(VL,P *,int,P *);
1636: void nglob_init(void);
1637: void norm(P,Q *);
1638: void norm1(P,P *);
1639: void norm1c(P,Q *);
1640: void normalizemp(int,P);
1641: void nthrootchk(P,struct oDUM *,ML,DCP *);
1642: void nthrootn(N,int,N *);
1643: void ntobn(register int,N,N *);
1644: void nuezgcdnpzmain(VL,P *,int,P *);
1645: void padictoq(int,int,int *,Q *);
1646: void risa_pari_init(void);
1647: void pcp(VL,P,P *,P *);
1648: void pderivr(VL,Obj,V,Obj *);
1649: void pdiva(VL,P,P,P,P *);
1650: void pinva(P,P,P *);
1651: void plisttop(P *,V,int,P *);
1652: void pmonic(VL,P,P,P *);
1653: void pqra(VL,P,P,P,P *,P *);
1654: void premmp(VL,int,P,P,P *);
1655: void premp(VL,P,P,P *);
1656: void ptolum(int,int,P,LUM);
1657: void ptomp(int,P,P *);
1658: void ptoum(int,P,UM);
1659: void ptozp(P,int,Q *,P *);
1660: void ptozp0(P,P *);
1661: void pwralg(Num,Num,Num *);
1662: void pwrbf(Num,Num,Num *);
1663: void pwrcplx(Num,Num,Num *);
1664: void pwrcplx0(Num,int,Num *);
1665: void pwrlum(int,int,LUM,int,LUM);
1666: void pwrmat(VL,MAT,Obj,MAT *);
1667: void pwrmatmain(VL,MAT,int,MAT *);
1668: void pwrmp(VL,int,P,Q,P *);
1669: void pwrmq(int,MQ,Q,MQ *);
1670: void pwrn(N,int,N *);
1671: void pwrnum(VL,Num,Num,Num *);
1672: void pwrp(VL,P,Q,P *);
1673: void pwrq(Q,Q,Q *);
1674: void pwrr(VL,Obj,Obj,Obj *);
1.19 noro 1675: void pwrquote(VL,QUOTE,QUOTE,QUOTE *);
1.1 noro 1676: void pwrreal(Num,Num,Real *);
1677: void pwrmi(MQ,Q,MQ *);
1678: void pwrlm(LM,Q,LM *);
1679: void pwrum(int,UM,int,UM);
1680: void reallocarray(char **,int *,int *,int);
1681: void reductr(VL,Obj,Obj *);
1682: void reimtocplx(Num,Num,Num *);
1683: void rem2q(Q,Q,Q,Q *);
1684: void rema(VL,P,P,P,P *);
1685: void remq(Q,Q,Q *);
1686: void remsdcp(VL,P,P,P *);
1687: void reordermp(VL,int,VL,P,P *);
1688: void reorderp(VL,VL,P,P *);
1689: void reordvar(VL,V,VL *);
1690: void res_ch_det(VL,V,P,P,P *);
1691: void res_detmp(VL,int,V,P,P,P *);
1692: void restore(VL,P,VN,P *);
1693: void resultmp(VL,int,V,P,P,P *);
1694: void resultp(VL,V,P,P,P *);
1695: void setlum(int,int,LUM);
1696: void sort_by_deg(int,P *,P *);
1697: void sort_by_deg_rev(int,P *,P *);
1698: void sortfs(DCP *);
1699: void sortfsrev(DCP *);
1700: void sortplist(P *,int);
1701: void sortplistbyhomdeg(P *,int);
1702: void sprs(VL,V,P,P,P *);
1703: void sqa(VL,P,P,DCP *);
1704: void sqad(unsigned int,int);
1705: void sqfrp(VL,P,DCP *);
1706: void sqfrum(int,int,P,int *,struct oDUM **,ML *);
1707: void sqfrummain(int,UM,UM,struct oDUM **);
1708: void sqrtn(N,N *);
1709: void srch2(VL,V,P,P,P *);
1710: void srchmp(VL,int,V,P,P,P *);
1711: void srchump(int,P,P,P *);
1712: void srcr(VL,V,P,P,P *);
1713: void strtobf(char *,BF *);
1714: void subalg(Num,Num,Num *);
1715: void subbf(Num,Num,Num *);
1716: void subcplx(Num,Num,Num *);
1717: void subm2p(VL,Q,Q,P,P,P *);
1718: void subm2q(Q,Q,Q,Q,Q *);
1719: void submat(VL,MAT,MAT,MAT *);
1720: void submp(VL,int,P,P,P *);
1721: void submq(int,MQ,MQ,MQ *);
1722: void subnum(VL,Num,Num,Num *);
1723: void subp(VL,P,P,P *);
1724: void subq(Q,Q,Q *);
1725: void subr(VL,Obj,Obj,Obj *);
1726: void subreal(Num,Num,Real *);
1727: void submi(MQ,MQ,MQ *);
1728: void sublm(LM,LM,LM *);
1729: void substmp(VL,int,P,V,P,P *);
1730: void substp(VL,P,V,P,P *);
1731: void substvp(VL,P,VN,P *);
1732: void subum(int,UM,UM,UM);
1733: void subvect(VL,VECT,VECT,VECT *);
1.19 noro 1734: void subquote(VL,QUOTE,QUOTE,QUOTE *);
1.1 noro 1735: void toreim(Num,Num *,Num *);
1736: void ucsump(P,Q *);
1737: void udivpwm(Q,P,P,P *,P *);
1738: void udivpz(P,P,P *,P *);
1739: void udivpzwm(Q,P,P,P *,P *);
1740: void uexgcdnp(VL,P,P *,int,VN,Q,P *,P *,P *,P *,Q *);
1741: void uezgcd1p(P,P,P *);
1742: void uezgcdpp(DCP,P,P *);
1743: void uezgcdpz(VL,P,P,P *);
1744: void ufctr(P,int,DCP *);
1745: void ufctrmain(P,int,DCP *);
1746: void umtomp(V,UM,P *);
1747: void umtop(V,UM,P *);
1748: void usqp(P,DCP *);
1749: void vntovl(VN,int,VL *);
1.29 noro 1750:
1751: void saveerror(FILE *,ERR);
1752: void saveui(FILE *,USINT);
1753: void savedp(FILE *,DP);
1754: void savestring(FILE *,STRING);
1755: void savemat(FILE *,MAT);
1756: void savevect(FILE *,VECT);
1757: void savelist(FILE *,LIST);
1758: void saver(FILE *,R);
1759: void savep(FILE *,P);
1760: void savegf2n(FILE *,GF2N);
1761: void savegfpn(FILE *,GFPN);
1762: void savegfs(FILE *,GFS);
1763: void savelm(FILE *,LM);
1764: void savemi(FILE *,MQ);
1765: void savecplx(FILE *,C);
1766: void savebf(FILE *,BF);
1767: void savereal(FILE *,Real);
1768: void saveq(FILE *,Q);
1769: void savenum(FILE *,Num);
1770: void savepfins(FILE *,V);
1771: void savegfmmat(FILE *,GFMMAT);
1772: void savebytearray(FILE *,BYTEARRAY);
1773: void savegfsn(FILE *,GFSN);
1774:
1775: void loaderror(FILE *,ERR *);
1776: void loadui(FILE *,USINT *);
1777: void loaddp(FILE *,DP *);
1778: void loadstring(FILE *,STRING *);
1779: void loadmat(FILE *,MAT *);
1780: void loadvect(FILE *,VECT *);
1781: void loadlist(FILE *,LIST *);
1782: void loadr(FILE *,R *);
1783: void loadp(FILE *,P *);
1784: void loadgf2n(FILE *,GF2N *);
1785: void loadgfpn(FILE *,GFPN *);
1786: void loadgfs(FILE *,GFS *);
1787: void loadgfsn(FILE *,GFSN *);
1788: void loadlm(FILE *,LM *);
1789: void loadmi(FILE *,MQ *);
1790: void loadcplx(FILE *,C *);
1791: void loadbf(FILE *,BF *);
1792: void loadreal(FILE *,Real *);
1793: void loadq(FILE *,Q *);
1794: void loadnum(FILE *,Num *);
1795: void loadgfmmat(FILE *,GFMMAT *);
1796: void loadbytearray(FILE *,BYTEARRAY *);
1797: V loadpfins(FILE *);
1798: void eucum2(int mod,UM f1,UM f2,UM a,UM b);
1799: void clearum(UM p,int n);
1800: BM BMALLOC(int dx,int dy);
1801: int isequalum(UM f1,UM f2);
1802: void dec_um(int p,int a,UM u);
1803: void setmod_sf(int p,int n);
1804: int search_defpoly_and_primitive_root(int p,int n,UM dp);
1805: void generate_defpoly_um(int p,int n,UM dp);
1806: int generate_primitive_root_enc(int p,int n,UM dp);
1807: int mulremum_enc(int p,int n,UM dp,int a,int b);
1808: void gfs_galois_action(GFS a,Q e,GFS *c);
1809: void gfs_embed(GFS z,int k,int pm,GFS *c);
1810: void qtogfs(Q a,GFS *c);
1811: void mqtogfs(MQ a,GFS *c);
1812: void gfstomq(GFS a,MQ *c);
1813: void ntogfs(Obj a,GFS *b);
1814: void addgfs(GFS a,GFS b,GFS *c);
1815: void subgfs(GFS a,GFS b,GFS *c);
1816: void mulgfs(GFS a,GFS b,GFS *c);
1817: void divgfs(GFS a,GFS b,GFS *c);
1818: void chsgngfs(GFS a,GFS *c);
1819: void pwrgfs(GFS a,Q b,GFS *c);
1820: int cmpgfs(GFS a,GFS b);
1821: void randomgfs(GFS *r);
1822: int _addsf(int a,int b);
1823: int _chsgnsf(int a);
1824: int _subsf(int a,int b);
1825: int _mulsf(int a,int b);
1826: int _invsf(int a);
1827: int _divsf(int a,int b);
1828: int _pwrsf(int a,int b);
1829: int _onesf();
1830: int _itosf(int n);
1831: int _isonesf(int a);
1832: int _randomsf();
1833: int field_order_sf();
1834: int characteristic_sf();
1835: int extdeg_sf();
1836: void addsfum(UM p1,UM p2,UM pr);
1837: void subsfum(UM p1,UM p2,UM pr);
1838: void gcdsfum(UM p1,UM p2,UM pr);
1839: void mulsfum(UM p1,UM p2,UM pr);
1840: void mulssfum(UM p,int n,UM pr);
1841: void kmulsfum(UM n1,UM n2,UM nr);
1842: void kmulsfummain(UM n1,UM n2,UM nr);
1843: int divsfum(UM p1,UM p2,UM pq);
1844: void diffsfum(UM f,UM fd);
1845: void monicsfum(UM f);
1846: int compsfum(UM a,UM b);
1847: void mulsfbm(BM f1,BM f2,BM fr);
1848: int degbm(BM f);
1849: void addtosfbm(BM f,BM g);
1850: void eucsfum(UM f1,UM f2,UM a,UM b);
1851: void shiftsfum(UM f,int a,UM g);
1852: void shiftsflum(int n,LUM f,int ev);
1853: void shiftsfbm(BM f,int a);
1854: void clearbm(int n,BM f);
1855:
1856: void ksquareum(int mod,UM n1,UM nr);
1857: void extractum(UM n,int index,int len,UM nr);
1858: void copyum(UM n1,UM n2);
1859: void c_copyum(UM n,int len,int *p);
1860: void kmulummain(int mod,UM n1,UM n2,UM nr);
1861: void ksquareummain(int mod,UM n1,UM nr);
1862:
1863: void simp_ff(Obj p,Obj *rp);
1864: void field_order_ff(N *order);
1865:
1866: void random_lm(LM *r);
1867: void ntosparsen(N p,N *bits);
1868: void setmod_lm(N p);
1869: void getmod_lm(N *p);
1870: void simplm(LM n,LM *r);
1871: void qtolm(Q q,LM *l);
1872: void addlm(LM a,LM b,LM *c);
1873: void sublm(LM a,LM b,LM *c);
1874: void mullm(LM a,LM b,LM *c);
1875: void divlm(LM a,LM b,LM *c);
1876: void chsgnlm(LM a,LM *c);
1877: void pwrlm(LM a,Q b,LM *c);
1878: void pwrlm0(N a,N n,N *c);
1879: int cmplm(LM a,LM b);
1880: void remn_special(N,N,int,unsigned int ,N *);;
1881: void gen_simpn(N a,N *b);
1882: void gen_simpn_force(N a,N *b);
1883: void setmod_gfpn(P p);
1884: void getmod_gfpn(UP *up);
1885: void ptogfpn(Obj q,GFPN *l);
1886: void gfpntop(GFPN q,P *l);
1887: void simpgfpn(GFPN n,GFPN *r);
1888: void ntogfpn(Obj a,GFPN *b);
1889: void addgfpn(GFPN a,GFPN b,GFPN *c);
1890: void subgfpn(GFPN a,GFPN b,GFPN *c);
1891: void mulgfpn(GFPN a,GFPN b,GFPN *c);
1892: void squaregfpn(GFPN a,GFPN *c);
1893: void divgfpn(GFPN a,GFPN b,GFPN *c);
1894: void invgfpn(GFPN b,GFPN *c);
1895: void chsgngfpn(GFPN a,GFPN *c);
1896: void pwrgfpn(GFPN a,Q b,GFPN *c);
1897: int cmpgfpn(GFPN a,GFPN b);
1898: void randomgfpn(GFPN *r);
1899: void setmod_gfsn(UM p);
1900: void getmod_gfsn(UM *up);
1901: void simpgfsn(GFSN n,GFSN *r);
1902: void ntogfsn(Obj a,GFSN *b);
1903: void addgfsn(GFSN a,GFSN b,GFSN *c);
1904: void subgfsn(GFSN a,GFSN b,GFSN *c);
1905: void mulgfsn(GFSN a,GFSN b,GFSN *c);
1906: void divgfsn(GFSN a,GFSN b,GFSN *c);
1907: void invgfsn(GFSN b,GFSN *c);
1908: void chsgngfsn(GFSN a,GFSN *c);
1909: void pwrgfsn(GFSN a,Q b,GFSN *c);
1910: int cmpgfsn(GFSN a,GFSN b);
1911: void randomgfsn(GFSN *r);
1912: void setmod_gf2n(P p);
1913: void getmod_gf2n(UP2 *p);
1914: void simpgf2n(GF2N n,GF2N *r);
1915: void ptogf2n(Obj q,GF2N *l);
1916: void gf2ntop(GF2N q,P *l);
1917: void gf2ntovect(GF2N q,VECT *l);
1918: void addgf2n(GF2N a,GF2N b,GF2N *c);
1919: void subgf2n(GF2N a,GF2N b,GF2N *c);
1920: void mulgf2n(GF2N a,GF2N b,GF2N *c);
1921: void squaregf2n(GF2N a,GF2N *c);
1922: void divgf2n(GF2N a,GF2N b,GF2N *c);
1923: void invgf2n(GF2N b,GF2N *c);
1924: void chsgngf2n(GF2N a,GF2N *c);
1925: void pwrgf2n(GF2N a,Q b,GF2N *c);
1926: int cmpgf2n(GF2N a,GF2N b);
1927: void randomgf2n(GF2N *r);
1928: void binaryton(char *binary,N *np);
1929: void hexton(char *hex,N *np);
1930: void ntobn(int base,N n,N *nrp);
1931: void bnton(int base,N n,N *nrp);
1932: void ptomp(int m,P p,P *pr);
1933: void mptop(P f,P *gp);
1934: void ptosfp(P p,P *pr);
1935: void sfptop(P f,P *gp);
1936: void sf_galois_action(P p,Q e,P *pr);
1937: void sf_embed(P p,int k,int pm,P *pr);
1938: void ptolmp(P p,P *pr);
1939: void lmptop(P f,P *gp);
1940: void ptoum(int m,P f,UM wf);
1941: void umtop(V v,UM w,P *f);
1942: void ptosfum(P f,UM wf);
1943: void sfumtop(V v,UM w,P *f);
1944: void ptoup(P n,UP *nr);
1945: void uptop(UP n,P *nr);
1946: void ulmptoum(int m,UP f,UM wf);
1947: void objtobobj(int base,Obj p,Obj *rp);
1948: void bobjtoobj(int base,Obj p,Obj *rp);
1949: void numtobnum(int base,Num p,Num *rp);
1950: void bnumtonum(int base,Num p,Num *rp);
1951: void ptobp(int base,P p,P *rp);
1952: void bptop(int base,P p,P *rp);
1953: void listtoblist(int base,LIST p,LIST *rp);
1954: void blisttolist(int base,LIST p,LIST *rp);
1955: void vecttobvect(int base,VECT p,VECT *rp);
1956: void bvecttovect(int base,VECT p,VECT *rp);
1957: void mattobmat(int base,MAT p,MAT *rp);
1958: void bmattomat(int base,MAT p,MAT *rp);
1959: void n32ton27(N g,N *rp);
1960: void n27ton32(N a,N *rp);
1961: void mptoum(P p,UM pr);
1962: void umtomp(V v,UM p,P *pr);
1963: void enc_to_p(int p,int a,V v,P *pr);
1964: int comp_dum(DUM a,DUM b);
1965: void fctrsf(P p,DCP *dcp);
1966: void gensqfrsfum(UM p,struct oDUM *dc);
1967: void randsfum(int d,UM p);
1968: void pwrmodsfum(UM p,int e,UM f,UM pr);
1969: void spwrsfum(UM m,UM f,N e,UM r);
1970: void tracemodsfum(UM m,UM f,int e,UM r);
1971: void make_qmatsf(UM p,UM *tab,int ***mp);
1972: void nullsf(int **mat,int n,int *ind);
1973: void null_to_solsf(int **mat,int *ind,int n,UM *r);
1974: void czsfum(UM f,UM *r);
1975: int berlekampsf(UM p,int df,UM *tab,UM *r);
1976: void minipolysf(UM f,UM p,UM mp);
1977: int find_rootsf(UM p,int *root);
1978: void canzassf(UM f,int d,UM *r);
1.34 noro 1979: void sfhensel(int count,P f,V x,V y,int degbound,GFS *evp,P *sfp,ML *listp);
1980: int sfberle(V x,V y,P f,int count,GFS *ev,DCP *dcp);
1.29 noro 1981: void sfgcdgen(P f,ML blist,ML *clistp);
1982: void sfhenmain2(BM f,UM g0,UM h0,int dy,BM *gp);
1983: void ptosfbm(int dy,P f,BM fl);
1984: void sfbmtop(BM f,V x,V y,P *fp);
1985: void sfsqfr(P f,DCP *dcp);
1986: void sfusqfr(P f,DCP *dcp);
1987: void sfbsqfr(P f,V x,V y,DCP *dcp);
1.30 noro 1988: void sfbfctr(P f,V x,V y,int degbound,DCP *dcp);
1.29 noro 1989: void sfdtest(P f,ML list,V x,V y,DCP *dcp);
1990: int sfdtestmain(VL vl,P lcg,UM lcg0,BM lcy,P csum,ML list,
1991: int k,int *in,P *fp,P *cofp);
1992: void const_term(P f,UM c);
1993: void const_term_sfbm(BM f,UM c);
1994: int sfctest(UM lcg0,BM lcy,ML list,int k,int *in);
1995: void mulsfbmarray(int dx,BM lcy,ML list,int k,int *in,V x,V y,P *g);
1996: void sfcsump(VL vl,P f,P *s);
1997: void cont_pp_sfp(VL vl,P f,P *cp,P *fp);
1998: int divtp_by_sfbm(VL vl,P f,P g,P *qp);
1999: void generate_defpoly_sfum(int n,UM *dp);
2000: NODE symb_merge(NODE,NODE,int);
2001: void _free_private_storage();
2002: void _DL_alloc();
2003: void _MP_alloc();
2004: void _DP_alloc();
2005: void _addmd_destructive(int mod,DP p1,DP p2,DP *pr);
2006: void _mulmd_dup(int mod,DP p1,DP p2,DP *pr);
2007: void _comm_mulmd_dup(int mod,DP p1,DP p2,DP *pr);
2008: void _weyl_mulmd_dup(int mod,DP p1,DP p2,DP *pr);
2009: void _mulmdm_dup(int mod,DP p,MP m0,DP *pr);
2010: void _weyl_mulmdm_dup(int mod,MP m0,DP p,DP *pr);
2011: void _weyl_mulmmm_dup(int mod,MP m0,MP m1,int n,struct cdlm *rtab,int rtablen);
2012: void _comm_mulmd_tab(int mod,int nv,struct cdlm *t,int n,struct cdlm *t1,int n1,struct cdlm *rt);
2013: void _comm_mulmd_tab_destructive(int mod,int nv,struct cdlm *t,int n,struct cdlm *t1,int n1);
2014: void dlto_dl(DL d,DL *dr);
2015: void _dltodl(DL d,DL *dr);
2016: void _adddl_dup(int n,DL d1,DL d2,DL *dr);
2017: void _free_dlarray(DL *a,int n);
2018: void _free_dp(DP f);
2019: void dpto_dp(DP p,DP *r);
2020: void _dptodp(DP p,DP *r);
2021: NODE _symb_merge(NODE m1,NODE m2,int n);
2022: void _addd_destructive(VL vl,DP p1,DP p2,DP *pr);
2023: void _muld_dup(VL vl,DP p1,DP p2,DP *pr);
2024: void _comm_muld_dup(VL vl,DP p1,DP p2,DP *pr);
2025: void _weyl_muld_dup(VL vl,DP p1,DP p2,DP *pr);
2026: void _muldm_dup(VL vl,DP p,MP m0,DP *pr);
2027: void _weyl_muldm_dup(VL vl,MP m0,DP p,DP *pr);
2028: void _weyl_mulmm_dup(VL vl,MP m0,MP m1,int n,struct cdl *rtab,int rtablen);
2029: void _comm_muld_tab(VL vl,int nv,struct cdl *t,int n,struct cdl *t1,int n1,struct cdl *rt);
2030: void _comm_muld_tab_destructive(VL vl,int nv,struct cdl *t,int n,struct cdl *t1,int n1);
2031:
2032: int has_fcoef(DP f);
2033: int has_fcoef_p(P f);
2034: void initd(struct order_spec *spec);
2035: void ptod(VL vl,VL dvl,P p,DP *pr);
2036: void dtop(VL vl,VL dvl,DP p,P *pr);
2037: void nodetod(NODE node,DP *dp);
2038: int sugard(MP m);
2039: void addd(VL vl,DP p1,DP p2,DP *pr);
2040: void symb_addd(DP p1,DP p2,DP *pr);
2041: NODE symb_merge(NODE m1,NODE m2,int n);
2042: DLBUCKET symb_merge_bucket(DLBUCKET m1,DLBUCKET m2,int n);
2043: void subd(VL vl,DP p1,DP p2,DP *pr);
2044: void chsgnd(DP p,DP *pr);
2045: void muld(VL vl,DP p1,DP p2,DP *pr);
2046: void comm_muld(VL vl,DP p1,DP p2,DP *pr);
2047: void muldm(VL vl,DP p,MP m0,DP *pr);
2048: void weyl_muld(VL vl,DP p1,DP p2,DP *pr);
2049: void weyl_muldm(VL vl,MP m0,DP p,DP *pr);
2050: void weyl_mulmm(VL vl,MP m0,MP m1,int n,struct cdl *rtab,int rtablen);
2051: void comm_muld_tab(VL vl,int nv,struct cdl *t,int n,struct cdl *t1,int n1,struct cdl *rt);
2052: void muldc(VL vl,DP p,P c,DP *pr);
2053: void divsdc(VL vl,DP p,P c,DP *pr);
2054: void adddl(int n,DL d1,DL d2,DL *dr);
2055: void adddl_destructive(int n,DL d1,DL d2);
2056: int compd(VL vl,DP p1,DP p2);
2057: int cmpdl_lex(int n,DL d1,DL d2);
2058: int cmpdl_revlex(int n,DL d1,DL d2);
2059: int cmpdl_gradlex(int n,DL d1,DL d2);
2060: int cmpdl_revgradlex(int n,DL d1,DL d2);
2061: int cmpdl_blex(int n,DL d1,DL d2);
2062: int cmpdl_bgradlex(int n,DL d1,DL d2);
2063: int cmpdl_brevgradlex(int n,DL d1,DL d2);
2064: int cmpdl_brevrev(int n,DL d1,DL d2);
2065: int cmpdl_bgradrev(int n,DL d1,DL d2);
2066: int cmpdl_blexrev(int n,DL d1,DL d2);
2067: int cmpdl_elim(int n,DL d1,DL d2);
2068: int cmpdl_weyl_elim(int n,DL d1,DL d2);
2069: int cmpdl_homo_ww_drl(int n,DL d1,DL d2);
2070: int cmpdl_order_pair(int n,DL d1,DL d2);
2071: int cmpdl_matrix(int n,DL d1,DL d2);
2072: void ptomd(VL vl,int mod,VL dvl,P p,DP *pr);
2073: void mptomd(VL vl,int mod,VL dvl,P p,DP *pr);
2074: void mdtop(VL vl,int mod,VL dvl,DP p,P *pr);
2075: void addmd(VL vl,int mod,DP p1,DP p2,DP *pr);
2076: void submd(VL vl,int mod,DP p1,DP p2,DP *pr);
2077: void chsgnmd(int mod,DP p,DP *pr);
2078: void mulmd(VL vl,int mod,DP p1,DP p2,DP *pr);
2079: void comm_mulmd(VL vl,int mod,DP p1,DP p2,DP *pr);
2080: void weyl_mulmd(VL vl,int mod,DP p1,DP p2,DP *pr);
2081: void mulmdm(VL vl,int mod,DP p,MP m0,DP *pr);
2082: void weyl_mulmdm(VL vl,int mod,DP p,MP m0,DP *pr);
2083: void weyl_mulmmm(VL vl,int mod,MP m0,MP m1,int n,DP *pr);
2084: void mulmdc(VL vl,int mod,DP p,P c,DP *pr);
2085: void divsmdc(VL vl,int mod,DP p,P c,DP *pr);
2086: void _dtop_mod(VL vl,VL dvl,DP p,P *pr);
2087: void _dp_mod(DP p,int mod,NODE subst,DP *rp);
2088: void _dp_monic(DP p,int mod,DP *rp);
2089: void _printdp(DP d);
2090: void addmd_destructive(int mod,DP p1,DP p2,DP *pr);
2091: void mulmd_dup(int mod,DP p1,DP p2,DP *pr);
2092: void comm_mulmd_dup(int mod,DP p1,DP p2,DP *pr);
2093: void weyl_mulmd_dup(int mod,DP p1,DP p2,DP *pr);
2094: void mulmdm_dup(int mod,DP p,MP m0,DP *pr);
2095: void weyl_mulmdm_dup(int mod,MP m0,DP p,DP *pr);
2096: void weyl_mulmmm_dup(int mod,MP m0,MP m1,int n,struct cdlm *rtab,int rtablen);
2097: void comm_mulmd_tab_destructive(int mod,int nv,struct cdlm *t,int n,struct cdlm *t1,int n1);
2098: void adddl_dup(int n,DL d1,DL d2,DL *dr);
2099: void monicup(UP a,UP *b);
2100: void simpup(UP a,UP *b);
2101: void simpnum(Num a,Num *b);
2102: void uremp(P p1,P p2,P *rp);
2103: void ugcdp(P p1,P p2,P *rp);
2104: void reversep(P p1,Q d,P *rp);
2105: void invmodp(P p1,Q d,P *rp);
2106: void addup(UP n1,UP n2,UP *nr);
2107: void subup(UP n1,UP n2,UP *nr);
2108: void chsgnup(UP n1,UP *nr);
2109: void hybrid_mulup(int ff,UP n1,UP n2,UP *nr);
2110: void hybrid_squareup(int ff,UP n1,UP *nr);
2111: void hybrid_tmulup(int ff,UP n1,UP n2,int d,UP *nr);
2112: void mulup(UP n1,UP n2,UP *nr);
2113: void mulcup(Num c,UP n1,UP *nr);
2114: void tmulup(UP n1,UP n2,int d,UP *nr);
2115: void squareup(UP n1,UP *nr);
2116: void remup(UP n1,UP n2,UP *nr);
2117: void remup_destructive(UP n1,UP n2);
2118: void qrup(UP n1,UP n2,UP *nq,UP *nr);
2119: void qrup_destructive(UP n1,UP n2);
2120: void gcdup(UP n1,UP n2,UP *nr);
2121: void extended_gcdup(UP a,UP m,UP *r);
2122: void reverseup(UP n1,int d,UP *nr);
2123: void invmodup(UP n1,int d,UP *nr);
2124: void pwrup(UP n,Q e,UP *nr);
2125: int compup(UP n1,UP n2);
2126: void kmulp(VL vl,P n1,P n2,P *nr);
2127: void ksquarep(VL vl,P n1,P *nr);
2128: void kmulup(UP n1,UP n2,UP *nr);
2129: void ksquareup(UP n1,UP *nr);
2130: void copyup(UP n1,UP n2);
2131: void c_copyup(UP n,int len,pointer *p);
2132: void kmulupmain(UP n1,UP n2,UP *nr);
2133: void ksquareupmain(UP n1,UP *nr);
2134: void rembymulup(UP n1,UP n2,UP *nr);
2135: void hybrid_rembymulup_special(int ff,UP n1,UP n2,UP inv2,UP *nr);
2136: void rembymulup_special(UP n1,UP n2,UP inv2,UP *nr);
2137: void tkmulup(UP n1,UP n2,int d,UP *nr);
2138: void shiftup(UP n,int d,UP *nr);
2139: void fft_rembymulup_special(UP n1,UP n2,UP inv2,UP *nr);
2140: void set_degreeup(UP n,int d);
2141: void decompup(UP n,int d,UP *n0,UP *n1);
2142: void truncup(UP n1,int d,UP *nr);
2143: int int_bits(int t);
2144: int maxblenup(UP n);
2145: void uptofmarray(int mod,UP n,ModNum *f);
2146: void fmarraytoup(ModNum *f,int d,UP *nr);
2147: void uiarraytoup(unsigned int **f,int n,int d,UP *nr);
2148: void adj_coefup(UP n,N m,N m2,UP *nr);
2149: void remcup(UP n,N mod,UP *nr);
2150: void fft_mulup(UP n1,UP n2,UP *nr);
2151: void trunc_fft_mulup(UP n1,UP n2,int dbd,UP *nr);
2152: void fft_squareup(UP n1,UP *nr);
2153: void fft_mulup_main(UP n1,UP n2,int dbd,UP *nr);
2154: void crup(ModNum **f,int d,int *mod,int index,N m,UP *r);
2155: void fft_mulup_specialmod_main(UP n1,UP n2,int dbd,int *modind,int nmod,UP *nr);
2156: void divn(N n1,N n2,N *nq,N *nr);
2157: void divsn(N n1,N n2,N *nq);
2158: void remn(N n1,N n2,N *nr);
2159: void remn_special(N a,N d,int bits,unsigned int lower,N *b);
2160: void mulin(N n,unsigned int d,unsigned int *p);
2161: unsigned int divin(N n,unsigned int dvr,N *q);
2162: void bprintn(N n);
2163: void bxprintn(N n);
2164: void muln(N n1,N n2,N *nr);
2165: void _muln(N n1,N n2,N nr);
2166: void muln_1(unsigned int *p,int s,unsigned int d,unsigned int *r);
2167: void divnmain(int d1,int d2,unsigned int *m1,unsigned int *m2,unsigned int *q);
2168: void divnmain_special(int d1,int d2,unsigned int *m1,unsigned int *m2,unsigned int *q);
2169: unsigned int divn_1(unsigned int *p,int s,unsigned int d,unsigned int *r);
2170: void addn(N n1,N n2,N *nr);
2171: int subn(N n1,N n2,N *nr);
2172: void _addn(N n1,N n2,N nr);
2173: int _subn(N n1,N n2,N nr);
2174: void addarray_to(unsigned int *a1,int n1,unsigned int *a2,int n2);
2175: void pwrn(N n,int e,N *nr);
2176: void gcdn(N n1,N n2,N *nr);
2177: void gcdEuclidn(N n1,N n2,N *nr);
2178: int cmpn(N n1,N n2);
2179: void bshiftn(N n,int b,N *r);
2180: void shiftn(N n,int w,N *r);
2181: void randomn(int bits,N *r);
2182: void freen(N n);
2183: int n_bits(N n);
2184: void fft_mulup_lm(UP n1,UP n2,UP *nr);
2185: void fft_squareup_lm(UP n1,UP *nr);
2186: void trunc_fft_mulup_lm(UP n1,UP n2,int dbd,UP *nr);
2187: void crup_lm(ModNum **f,int d,int *mod,int index,N m,N lm_mod,UP *r);
2188: void fft_rembymulup_special_lm(UP n1,UP n2,UP inv2,UP *nr);
2189: void uptolmup(UP n,UP *nr);
2190: void save_up(UP obj,char *name);
2191: void hybrid_powermodup(UP f,UP *xp);
2192: void powermodup(UP f,UP *xp);
2193: void hybrid_generic_powermodup(UP g,UP f,Q d,UP *xp);
2194: void generic_powermodup(UP g,UP f,Q d,UP *xp);
2195: void hybrid_powertabup(UP f,UP xp,UP *tab);
2196: void powertabup(UP f,UP xp,UP *tab);
2197: void squarep_gf2n(VL vl,P n1,P *nr);
2198: void squareup_gf2n(UP n1,UP *nr);
2199: void powermodup_gf2n(UP f,UP *xp);
2200: void generic_powermodup_gf2n(UP g,UP f,Q d,UP *xp);
2201: void tracemodup_gf2n(UP g,UP f,Q d,UP *xp);
2202: void tracemodup_gf2n_slow(UP g,UP f,Q d,UP *xp);
2203: void tracemodup_gf2n_tab(UP g,UP f,Q d,UP *xp);
2204: void square_rem_tab_up_gf2n(UP f,UP *tab,UP *rp);
2205: void powertabup_gf2n(UP f,UP xp,UP *tab);
2206: void find_root_gf2n(UP f,GF2N *r);
2207: void ptoup2(P n,UP2 *nr);
2208: void ptoup2_sparse(P n,UP2 *nr);
2209: void up2top(UP2 n,P *nr);
2210: void up2tovect(UP2 n,VECT *nr);
2211: void up2ton(UP2 p,Q *n);
2212: void ntoup2(Q n,UP2 *p);
2213: void gen_simpup2(UP2 p,GEN_UP2 m,UP2 *r);
2214: void gen_simpup2_destructive(UP2 p,GEN_UP2 m);
2215: void gen_invup2(UP2 p,GEN_UP2 m,UP2 *r);
2216: void gen_pwrmodup2(UP2 a,Q b,GEN_UP2 m,UP2 *c);
2217: void simpup2(UP2 p,UP2 m,UP2 *r);
2218: int degup2(UP2 a);
2219: int degup2_sparse(UP2 a);
2220: int degup2_1(unsigned int a);
2221: void addup2(UP2 a,UP2 b,UP2 *c);
2222: void subup2(UP2 a,UP2 b,UP2 *c);
2223: void _mulup2_1(UP2 a,unsigned int b,UP2 c);
2224: void _mulup2_h(UP2 a,unsigned int b,UP2 c);
2225: void mulup2(UP2 a,UP2 b,UP2 *c);
2226: void _kmulup2_(unsigned int *a,unsigned int *b,int w,unsigned int *c);
2227: void _mulup2_nn(unsigned int *a,unsigned int *b,int w,unsigned int *c);
2228: void _mulup2(UP2 a,UP2 b,UP2 c);
2229: void _mulup2_(_UP2 a,_UP2 b,_UP2 c);
2230: void squareup2(UP2 n,UP2 *nr);
2231: void _squareup2(UP2 n,UP2 nr);
2232: void _adjup2(UP2 n);
2233: void _adjup2_(_UP2 n);
2234: void _addup2(UP2 a,UP2 b,UP2 c);
2235: void _addup2_destructive(UP2 a,UP2 b);
2236: void _addup2_(_UP2 a,_UP2 b,_UP2 c);
2237: void _addtoup2_(_UP2 a,_UP2 b);
2238: unsigned int mulup2_bb(unsigned int a,unsigned int b);
2239: void init_up2_tab();
2240: void divup2_1(unsigned int a1,unsigned int a2,int e1,int e2,unsigned int *qp,unsigned int *rp);
2241: void qrup2(UP2 a,UP2 b,UP2 *q,UP2 *r);
2242: void _qrup2(UP2 a,UP2 b,UP2 q,UP2 r);
2243: void remup2(UP2 a,UP2 b,UP2 *c);
2244: void _remup2(UP2 a,UP2 b,UP2 c);
2245: void remup2_sparse(UP2 a,UP2 b,UP2 *c);
2246: void remup2_sparse_destructive(UP2 a,UP2 b);
2247: void remup2_type1_destructive(UP2 a,int d);
2248: void remup2_3_destructive(UP2 a,UP2 b);
2249: void remup2_5_destructive(UP2 a,UP2 b);
2250: void _invup2_1(unsigned int f1,unsigned int f2,unsigned int *a1,unsigned int *b1);
2251: void _gcdup2_1(unsigned int f1,unsigned int f2,unsigned int *gcd);
2252: void up2_init_eg();
2253: void up2_show_eg();
2254: void invup2(UP2 a,UP2 m,UP2 *inv);
2255: void gcdup2(UP2 a,UP2 m,UP2 *gcd);
2256: void chsgnup2(UP2 a,UP2 *c);
2257: void pwrmodup2(UP2 a,Q b,UP2 m,UP2 *c);
2258: void pwrmodup2_sparse(UP2 a,Q b,UP2 m,UP2 *c);
2259: int compup2(UP2 n1,UP2 n2);
2260: void _copyup2(UP2 n,UP2 r);
2261: void _bshiftup2(UP2 n,int b,UP2 r);
2262: void _bshiftup2_destructive(UP2 n,int b);
2263: void diffup2(UP2 f,UP2 *r);
2264: int sqfrcheckup2(UP2 f);
2265: int irredcheckup2(UP2 f);
2266: int irredcheck_dddup2(UP2 f);
2267: void _copy_up2bits(UP2 p,unsigned int **mat,int pos);
2268: int compute_multiplication_matrix(P p0,GF2MAT *mp);
2269: void compute_change_of_basis_matrix(P p0,P p1,int to,GF2MAT *m01,GF2MAT *m10);
2270: void compute_change_of_basis_matrix_with_root(P p0,P p1,int to,GF2N root,GF2MAT *m01,GF2MAT *m10);
2271: int compute_representation_conversion_matrix(P p0,GF2MAT *np,GF2MAT *pn);
2272: void mul_nb(GF2MAT mat,unsigned int *a,unsigned int *b,unsigned int *c);
2273: void leftshift(unsigned int *a,int n);
2274: void mat_to_gf2mat(MAT a,unsigned int ***b);
2275: void gf2mat_to_mat(unsigned int **a,int n,MAT *b);
2276: void mulgf2mat(int n,unsigned int **a,unsigned int **b,unsigned int **c);
2277: void mulgf2vectmat(int n,unsigned int *a,unsigned int **b,unsigned int *c);
2278: int mulgf2vectvect(int n,unsigned int *a,unsigned int *b);
2279: int invgf2mat(int n,unsigned int **a,unsigned int **b);
2280: void _mulup2_22(unsigned int *a1,unsigned int *a2,unsigned int *ar);
2281: void _mulup2_33(unsigned int *a1,unsigned int *a2,unsigned int *ar);
2282: void _mulup2_44(unsigned int *a1,unsigned int *a2,unsigned int *ar);
2283: void _mulup2_55(unsigned int *a1,unsigned int *a2,unsigned int *ar);
2284: void _mulup2_66(unsigned int *a1,unsigned int *a2,unsigned int *ar);
2285: void type1_bin_invup2(UP2 a,int n,UP2 *inv);
2286: UP2 *compute_tab_gf2n(UP2 f);
2287: UP compute_trace_gf2n(UP2 *tab,GF2N c,int n);
2288: void up2toup(UP2 f,UP *r);
2289: void find_root_up2(UP2 f,GF2N *r);
2290: void addq(Q n1,Q n2,Q *nr);
2291: void subq(Q n1,Q n2,Q *nr);
2292: void mulq(Q n1,Q n2,Q *nr);
2293: void divq(Q n1,Q n2,Q *nq);
2294: void divsq(Q n1,Q n2,Q *nq);
2295: void invq(Q n,Q *nr);
2296: void chsgnq(Q n,Q *nr);
2297: void pwrq(Q n1,Q n,Q *nr);
2298: int cmpq(Q q1,Q q2);
2299: void remq(Q n,Q m,Q *nr);
2300: void mkbc(int n,Q *t);
2301: void mkwc(int k,int l,Q *t);
2302: void mkwcm(int k,int l,int m,int *t);
2303: void factorial(int n,Q *r);
2304: void invl(Q a,Q mod,Q *ar);
2305: void kmuln(N n1,N n2,N *nr);
2306: void extractn(N n,int index,int len,N *nr);
2307: void copyn(N n,int len,int *p);
2308: void dupn(N n,N p);
2309: void kmulnmain(N n1,N n2,N *nr);
2310: void plisttop(P *f,V v,int n,P *gp);
2311: int divtp(VL vl,P p1,P p2,P *q);
2312: int divtdcp(VL vl,P p1,P p2,P *q);
2313: int divtpz(VL vl,P p1,P p2,P *q);
2314: int divtdcpz(VL vl,P p1,P p2,P *q);
2315: void udivpz(P f1,P f2,P *fqp,P *frp);
2316: void udivpwm(Q mod,P p1,P p2,P *q,P *r);
2317: void udivpzwm(Q mod,P f1,P f2,P *fqp,P *frp);
2318: void henmv(VL vl,VN vn,P f,P g0,P h0,P a0,P b0,P lg,P lh,P lg0,P lh0,Q q,int k,P *gp,P *hp);
2319: void henmvmain(VL vl,VN vn,P f,P fi0,P fi1,P gi0,P gi1,P l0,P l1,Q mod,Q mod2,int k,P *fr0,P *fr1);
2320: void henzq(P f,P i0,UM fi0,P i1,UM fi1,int p,int k,P *fr0p,P *fr1p,P *gr0p,P *gr1p,Q *qrp);
2321: void henzq1(P g,P h,Q bound,P *gcp,P *hcp,Q *qp);
2322: void addm2p(VL vl,Q mod,Q mod2,P n1,P n2,P *nr);
2323: void subm2p(VL vl,Q mod,Q mod2,P n1,P n2,P *nr);
2324: void mulm2p(VL vl,Q mod,Q mod2,P n1,P n2,P *nr);
2325: void cmp(Q mod,P p,P *pr);
2326: void cm2p(Q mod,Q m,P p,P *pr);
2327: void addm2q(Q mod,Q mod2,Q n1,Q n2,Q *nr);
2328: void subm2q(Q mod,Q mod2,Q n1,Q n2,Q *nr);
2329: void mulm2q(Q mod,Q mod2,Q n1,Q n2,Q *nr);
2330: void rem2q(Q n,Q m,Q m2,Q *nr);
2331: void exthpc_generic(VL vl,P p,int d,V v,P *pr);
2332: void exthp(VL vl,P p,int d,P *pr);
2333: void exthpc(VL vl,V v,P p,int d,P *pr);
2334: void cbound(VL vl,P p,Q *b);
2335: int geldb(VL vl,P p);
2336: int getdeg(V v,P p);
2337: void cmax(P p,Q *b);
2338: int nextbin(VN vn,int n);
2339: void mulsgn(VN vn,VN vnt,int n,VN vn1);
2340: void next(VN vn);
2341: void clctv(VL vl,P p,VL *nvlp);
2342: void markv(VN vn,int n,P p);
2343: void vntovl(VN vn,int n,VL *vlp);
2344: int dbound(V v,P f);
2345: int homdeg(P f);
2346: int minhomdeg(P f);
2347: void adjc(VL vl,P f,P a,P lc0,Q q,P *fr,P *ar);
2348: void affinemain(VL vl,P p,V v0,int n,P *pl,P *pr);
2349: void restore(VL vl,P f,VN vn,P *fr);
2350: void mergev(VL vl,VL vl1,VL vl2,VL *nvlp);
2351: void substvp(VL vl,P f,VN vn,P *g);
2352: void affine(VL vl,P f,VN vn,P *fr);
2353: void addnum(VL vl,Num a,Num b,Num *c);
2354: void subnum(VL vl,Num a,Num b,Num *c);
2355: void mulnum(VL vl,Num a,Num b,Num *c);
2356: void divnum(VL vl,Num a,Num b,Num *c);
2357: void pwrnum(VL vl,Num a,Num b,Num *c);
2358: void chsgnnum(Num a,Num *c);
2359: int compnum(VL vl,Num a,Num b);
2360: void one_ff(Num *c);
2361: int negative_number(Num c);
2362: void simp_ff(Obj p,Obj *rp);
2363: void field_order_ff(N *order);
2364: int fft_available(int d1,int n1,int d2,int n2);
2365: void get_fft_prime(int index,int *p,int *d);
2366: void nglob_init();
2367: void get_eg(struct oEGT *p);
2368: void init_eg(struct oEGT *eg);
2369: void add_eg(struct oEGT *base,struct oEGT *start,struct oEGT *end);
2370: void print_eg(char *item,struct oEGT *eg);
2371: void print_split_eg(struct oEGT *start,struct oEGT *end);
2372: void print_split_e(struct oEGT *start,struct oEGT *end);
2373: void suspend_timer() ;
2374: void resume_timer() ;
2375: void reset_engine() ;
2376: unsigned int get_asir_version() ;
2377: char *get_asir_distribution();
2378: void create_error(ERR *err,unsigned int serial,char *msg);
2379: void init_lprime();
2380: int get_lprime(int index);
2381: void create_new_lprimes(int index);
2382: void reorderp(VL nvl,VL ovl,P p,P *pr);
2383: void substp(VL vl,P p,V v0,P p0,P *pr);
2384: void detp(VL vl,P **rmat,int n,P *dp);
2385: void invmatp(VL vl,P **rmat,int n,P ***imatp,P *dnp);
2386: void reordvar(VL vl,V v,VL *nvlp);
2387: void gcdprsp(VL vl,P p1,P p2,P *pr);
2388: void gcdcp(VL vl,P p,P *pr);
2389: void sprs(VL vl,V v,P p1,P p2,P *pr);
2390: void resultp(VL vl,V v,P p1,P p2,P *pr);
2391: void srch2(VL vl,V v,P p1,P p2,P *pr);
2392: void srcr(VL vl,V v,P p1,P p2,P *pr);
2393: void res_ch_det(VL vl,V v,P p1,P p2,P *pr);
2394: void res_detmp(VL vl,int mod,V v,P p1,P p2,P *dp);
2395: void premp(VL vl,P p1,P p2,P *pr);
2396: void ptozp0(P p,P *pr);
2397: void mindegp(VL vl,P p,VL *mvlp,P *pr);
2398: void maxdegp(VL vl,P p,VL *mvlp,P *pr);
2399: void min_common_vars_in_coefp(VL vl,P p,VL *mvlp,P *pr);
2400: void minlcdegp(VL vl,P p,VL *mvlp,P *pr);
2401: void sort_by_deg(int n,P *p,P *pr);
2402: void sort_by_deg_rev(int n,P *p,P *pr);
2403: void getmindeg(V v,P p,Q *dp);
2404: void minchdegp(VL vl,P p,VL *mvlp,P *pr);
2405: int getchomdeg(V v,P p);
2406: int getlchomdeg(V v,P p,int *d);
2407: int nmonop(P p);
2408: int qpcheck(Obj p);
2409: int uzpcheck(Obj p);
2410: int p_mag(P p);
2411: int maxblenp(P p);
2412: void berle(int index,int count,P f,ML *listp);
2413: int berlecnt(int mod,UM f);
2414: int berlecntmain(int mod,int n,int m,int **c);
2415: UM *berlemain(int mod,UM f,UM *fp);
2416: void hensel(int index,int count,P f,ML *listp);
2417: void hensel2(int index,int count,P f,ML *listp);
2418: void henmain2(LUM f,UM g0,UM h0,UM a0,UM b0,int m,int bound,LUM *gp);
2419: void clearlum(int n,int bound,LUM f);
2420: void addtolum(int m,int bound,LUM f,LUM g);
2421: void hsq(int index,int count,P f,int *nindex,DCP *dcp);
2422: void gcdgen(P f,ML blist,ML *clistp);
2423: void henprep2(int mod,int q,int k,UM f,UM g,UM h,UM qg,UM qh,UM qa,UM qb);
2424: void henprep(P f,ML blist,ML clist,ML *bqlistp,ML *cqlistp);
2425: void henmain(LUM f,ML bqlist,ML cqlist,ML *listp);
2426: int mignotte(int q,P f);
2427: int mig(int q,int d,P f);
2428: void sqad(unsigned int man,int exp);
2429: void ptolum(int q,int bound,P f,LUM fl);
2430: void modfctrp(P p,int mod,int flag,DCP *dcp);
2431: void gensqfrum(int mod,UM p,struct oDUM *dc);
2432: void ddd(int mod,UM f,UM *r);
2433: void canzas(int mod,UM f,int d,UM *base,UM *r);
2434: void randum(int mod,int d,UM p);
2435: void pwrmodum(int mod,UM p,int e,UM f,UM pr);
2436: void spwrum(int mod,UM m,UM *base,UM f,N e,UM r);
2437: void spwrum0(int mod,UM m,UM f,N e,UM r);
2438: void mult_mod_tab(UM p,int mod,UM *tab,UM r,int d);
2439: void make_qmat(UM p,int mod,UM *tab,int ***mp);
2440: void null_mod(int **mat,int mod,int n,int *ind);
2441: void null_to_sol(int **mat,int *ind,int mod,int n,UM *r);
2442: void newddd(int mod,UM f,UM *r);
2443: int nfctr_mod(UM f,int mod);
2444: int irred_check(UM f,int mod);
2445: int berlekamp(UM p,int mod,int df,UM *tab,UM *r);
2446: void minipoly_mod(int mod,UM f,UM p,UM mp);
2447: void lnf_mod(int mod,int n,UM p0,UM p1,struct p_pair *list,UM np0,UM np1);
2448: void showum(UM p);
2449: void showumat(int **mat,int n);
2450: int find_root(int mod,UM p,int *root);
2451: void fctrp(VL vl,P f,DCP *dcp);
2452: void fctr_wrt_v_p(VL vl,P f,V v,DCP *dcp);
2453: void homfctr(VL vl,P g,DCP *dcp);
2454: void mfctr(VL vl,P f,DCP *dcp);
2455: void mfctr_wrt_v(VL vl,P f,V v,DCP *dcp);
2456: void adjsgn(P p,DCP dc);
2457: int headsgn(P p);
2458: void fctrwithmvp(VL vl,P f,V v,DCP *dcp);
2459: void mfctrwithmv(VL vl,P f,V v,DCP *dcp);
2460: void ufctr(P f,int hint,DCP *dcp);
2461: void mfctrmain(VL vl,P p,DCP *dcp);
2462: void ufctrmain(P p,int hint,DCP *dcp);
2463: void cycm(V v,int n,DCP *dcp);
2464: void cycp(V v,int n,DCP *dcp);
2465: void calcphi(V v,int n,struct oMF *mfp);
2466: void mkssum(V v,int e,int s,int sgn,P *r);
2467: int iscycp(P f);
2468: int iscycm(P f);
2469: void sortfs(DCP *dcp);
2470: void sortfsrev(DCP *dcp);
2471: void nthrootchk(P f,struct oDUM *dc,ML fp,DCP *dcp);
2472: void sqfrp(VL vl,P f,DCP *dcp);
2473: void msqfr(VL vl,P f,DCP *dcp);
2474: void usqp(P f,DCP *dcp);
2475: void msqfrmain(VL vl,P p,DCP *dcp);
2476: void msqfrmainmain(VL vl,P p,VN vn,P p0,DCP dc0,DCP *dcp,P *pp);
2477: void mfctrhen2(VL vl,VN vn,P f,P f0,P g0,P h0,P lcg,P lch,P *gp);
2478: int sqfrchk(P p);
2479: int cycchk(P p);
2480: int zerovpchk(VL vl,P p,VN vn);
2481: int valideval(VL vl,DCP dc,VN vn);
2482: void estimatelc(VL vl,Q c,DCP dc,VN vn,P *lcp);
2483: void monomialfctr(VL vl,P p,P *pr,DCP *dcp);
2484: void afctr(VL vl,P p0,P p,DCP *dcp);
2485: void afctrmain(VL vl,P p0,P p,int init,DCP *dcp);
2486: int divtmp(VL vl,int mod,P p1,P p2,P *q);
2487: int divtdcmp(VL vl,int mod,P p1,P p2,P *q);
2488: void GC_gcollect();
1.1 noro 2489:
2490: #if 0 && !defined(VISUAL)
2491: void bzero(const void *,int);
2492: void bcopy(const void *,void *,int);
2493: char *index(char *,int);
2494: #endif
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