Annotation of OpenXM_contrib2/asir2000/io/cio.c, Revision 1.8
1.3 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
1.4 noro 26: * e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
1.3 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.
1.8 ! noro 47: * $OpenXM: OpenXM_contrib2/asir2000/io/cio.c,v 1.7 2001/08/03 08:50:19 noro Exp $
1.3 noro 48: */
1.1 noro 49: #include "ca.h"
50: #include "parse.h"
51: #include "ox.h"
52:
53: #define ISIZ sizeof(int)
54:
55: int write_cmo_zz(FILE *,int,N);
56: int read_cmo_zz(FILE *,int *,N *);
57:
58: int valid_as_cmo(obj)
59: Obj obj;
60: {
61: NODE m;
62:
63: if ( !obj )
64: return 1;
65: switch ( OID(obj) ) {
66: case O_MATHCAP: case O_P: case O_R: case O_DP: case O_STR:
1.6 noro 67: case O_ERR: case O_USINT: case O_BYTEARRAY: case O_VOID:
1.1 noro 68: return 1;
69: case O_N:
1.2 noro 70: if ( NID((Num)obj) == N_Q || NID((Num)obj) == N_R )
1.1 noro 71: return 1;
72: else
73: return 0;
74: case O_LIST:
75: for ( m = BDY((LIST)obj); m; m = NEXT(m) )
76: if ( !valid_as_cmo(BDY(m)) )
77: return 0;
78: return 1;
1.7 noro 79: case O_QUOTE:
80: return 1;
1.1 noro 81: default:
82: return 0;
83: }
84: }
85:
86: write_cmo(s,obj)
87: FILE *s;
88: Obj obj;
89: {
90: int r;
91: char errmsg[BUFSIZ];
92:
93: if ( !obj ) {
94: r = CMO_NULL; write_int(s,&r);
95: return;
96: }
97: switch ( OID(obj) ) {
98: case O_N:
1.2 noro 99: switch ( NID((Num)obj) ) {
100: case N_Q:
101: write_cmo_q(s,(Q)obj);
102: break;
103: case N_R:
104: write_cmo_real(s,(Real)obj);
105: break;
106: default:
107: sprintf(errmsg, "write_cmo : number id=%d not implemented.",
108: NID((Num)obj));
109: error(errmsg);
110: break;
111: }
1.1 noro 112: break;
113: case O_P:
114: write_cmo_p(s,obj);
115: break;
116: case O_R:
117: write_cmo_r(s,obj);
118: break;
119: case O_DP:
120: write_cmo_dp(s,obj);
121: break;
122: case O_LIST:
123: write_cmo_list(s,obj);
124: break;
125: case O_STR:
126: write_cmo_string(s,obj);
127: break;
128: case O_USINT:
129: write_cmo_uint(s,obj);
130: break;
131: case O_MATHCAP:
132: write_cmo_mathcap(s,obj);
133: break;
134: case O_ERR:
135: write_cmo_error(s,obj);
136: break;
1.6 noro 137: case O_BYTEARRAY:
138: write_cmo_bytearray(s,obj);
139: break;
1.1 noro 140: case O_VOID:
141: r = ((USINT)obj)->body; write_int(s,&r);
142: break;
1.7 noro 143: case O_QUOTE:
144: write_cmo_tree(s,(FNODE)(((QUOTE)obj)->body));
145: break;
1.1 noro 146: default:
147: sprintf(errmsg, "write_cmo : id=%d not implemented.",OID(obj));
148: error(errmsg);
149: break;
150: }
1.5 noro 151: }
152:
153: int cmo_tag(obj,tag)
154: Obj obj;
155: int *tag;
156: {
157: if ( !valid_as_cmo(obj) )
158: return 0;
159: if ( !obj ) {
160: *tag = CMO_NULL;
161: return 1;
162: }
163: switch ( OID(obj) ) {
164: case O_N:
165: switch ( NID((Num)obj) ) {
166: case N_Q:
167: *tag = DN((Q)obj) ? CMO_QQ : CMO_ZZ; break;
168: case N_R:
169: *tag = CMO_IEEE_DOUBLE_FLOAT; break;
170: default:
171: return 0;
172: }
173: break;
174: case O_P:
175: *tag = CMO_RECURSIVE_POLYNOMIAL; break;
176: case O_R:
177: *tag = CMO_RATIONAL; break;
178: case O_DP:
179: *tag = CMO_DISTRIBUTED_POLYNOMIAL; break;
180: case O_LIST:
181: *tag = CMO_LIST; break;
182: case O_STR:
183: *tag = CMO_STRING; break;
184: case O_USINT:
185: *tag = CMO_INT32; break;
186: case O_MATHCAP:
187: *tag = CMO_MATHCAP; break;
188: case O_ERR:
189: *tag = CMO_ERROR2; break;
1.7 noro 190: case O_QUOTE:
191: *tag = CMO_TREE; break; break;
1.5 noro 192: default:
193: return 0;
194: }
195: return 1;
1.1 noro 196: }
197:
198: write_cmo_mathcap(s,mc)
199: FILE *s;
200: MATHCAP mc;
201: {
202: unsigned int r;
203:
204: r = CMO_MATHCAP; write_int(s,&r);
205: write_cmo(s,BDY(mc));
206: }
207:
208: write_cmo_uint(s,ui)
209: FILE *s;
210: USINT ui;
211: {
212: unsigned int r;
213:
214: r = CMO_INT32; write_int(s,&r);
215: r = ui->body; write_int(s,&r);
216: }
217:
218: write_cmo_q(s,q)
219: FILE *s;
220: Q q;
221: {
222: int r;
223:
224: if ( q && DN(q) ) {
225: r = CMO_QQ; write_int(s,&r);
226: write_cmo_zz(s,SGN(q),NM(q));
227: write_cmo_zz(s,1,DN(q));
228: } else {
229: r = CMO_ZZ; write_int(s,&r);
230: write_cmo_zz(s,SGN(q),NM(q));
231: }
232: }
233:
1.2 noro 234: write_cmo_real(s,real)
235: FILE *s;
236: Real real;
237: {
238: unsigned int r;
239: double dbl;
240:
241: r = CMO_IEEE_DOUBLE_FLOAT; write_int(s,&r);
242: dbl = real->body; write_double(s,&dbl);
243: }
244:
1.1 noro 245: write_cmo_zz(s,sgn,n)
246: FILE *s;
247: int sgn;
248: N n;
249: {
250: int i,l,bytes;
251: unsigned int t;
252: unsigned int *b;
253: unsigned char c;
254:
255: #if 1
256: l = PL(n);
257: bytes = sgn*l;
258: write_int(s,&bytes);
259: write_intarray(s,BD(n),l);
260: #else
261: l = PL(n); b = (unsigned int *)BD(n);
262: bytes = sgn*4*l;
263: write_int(s,&bytes);
264: for ( i = l-1; i >= 0; i-- ) {
265: t = b[i];
266: c = t>>24; write_char(s,&c);
267: c = (t>>16)&0xff; write_char(s,&c);
268: c = (t>>8)&0xff; write_char(s,&c);
269: c = t&0xff; write_char(s,&c);
270: }
271: #endif
272: }
273:
274: write_cmo_p(s,p)
275: FILE *s;
276: P p;
277: {
278: int r,i;
279: VL t,vl;
280: char *namestr;
281: STRING name;
282: NODE n0,n;
283:
284: r = CMO_RECURSIVE_POLYNOMIAL; write_int(s,&r);
285: get_vars((Obj)p,&vl);
286:
287: /* indeterminate list */
288: r = CMO_LIST; write_int(s,&r);
289: for ( t = vl, i = 0; t; t = NEXT(t), i++ );
290: write_int(s,&i);
291: r = CMO_INDETERMINATE;
292: for ( t = vl; t; t = NEXT(t) ) {
293: write_int(s,&r);
294: /* localname_to_cmoname(NAME(t->v),&namestr); */
295: namestr = NAME(t->v);
296: MKSTR(name,namestr);
297: write_cmo(s,name);
298: }
299:
300: /* body */
301: write_cmo_upoly(s,vl,p);
302: }
303:
304: write_cmo_upoly(s,vl,p)
305: FILE *s;
306: VL vl;
307: P p;
308: {
309: int r,i;
310: V v;
311: DCP dc,dct;
312: VL vlt;
313:
314: if ( NUM(p) )
315: write_cmo(s,p);
316: else {
317: r = CMO_UNIVARIATE_POLYNOMIAL; write_int(s,&r);
318: v = VR(p);
319: dc = DC(p);
320: for ( i = 0, dct = dc; dct; dct = NEXT(dct), i++ );
321: write_int(s,&i);
322: for ( i = 0, vlt = vl; vlt->v != v; vlt = NEXT(vlt), i++ );
323: write_int(s,&i);
324: for ( dct = dc; dct; dct = NEXT(dct) ) {
325: i = QTOS(DEG(dct)); write_int(s,&i);
326: write_cmo_upoly(s,vl,COEF(dct));
327: }
328: }
329: }
330:
331: write_cmo_r(s,f)
332: FILE *s;
333: R f;
334: {
335: int r;
336:
337: r = CMO_RATIONAL; write_int(s,&r);
338: write_cmo(s,NM(f));
339: write_cmo(s,DN(f));
340: }
341:
342: write_cmo_dp(s,dp)
343: FILE *s;
344: DP dp;
345: {
346: int i,n,nv,r;
347: MP m;
348:
349: for ( n = 0, m = BDY(dp); m; m = NEXT(m), n++ );
350: r = CMO_DISTRIBUTED_POLYNOMIAL; write_int(s,&r);
351: r = n; write_int(s,&r);
352: r = CMO_DMS_GENERIC; write_int(s,&r);
353: nv = dp->nv;
354: for ( i = 0, m = BDY(dp); i < n; i++, m = NEXT(m) )
355: write_cmo_monomial(s,m,nv);
356: }
357:
358: write_cmo_monomial(s,m,n)
359: FILE *s;
360: MP m;
361: int n;
362: {
363: int i,r;
364: int *p;
365:
366: r = CMO_MONOMIAL32; write_int(s,&r);
367: write_int(s,&n);
368: for ( i = 0, p = m->dl->d; i < n; i++ ) {
369: write_int(s,p++);
370: }
371: write_cmo_q(s,m->c);
372: }
373:
374: write_cmo_list(s,list)
375: FILE *s;
376: LIST list;
377: {
378: NODE m;
379: int i,n,r;
380:
381: for ( n = 0, m = BDY(list); m; m = NEXT(m), n++ );
382: r = CMO_LIST; write_int(s,&r);
383: write_int(s,&n);
384: for ( i = 0, m = BDY(list); i < n; i++, m = NEXT(m) )
385: write_cmo(s,BDY(m));
386: }
387:
388: write_cmo_string(s,str)
389: FILE *s;
390: STRING str;
391: {
392: int r;
393:
394: r = CMO_STRING; write_int(s,&r);
395: savestr(s,BDY(str));
396: }
397:
1.6 noro 398: write_cmo_bytearray(s,array)
399: FILE *s;
400: BYTEARRAY array;
401: {
402: int r;
403:
404: r = CMO_DATUM; write_int(s,&r);
405: write_int(s,&array->len);
406: write_string(s,array->body,array->len);
407: }
408:
1.1 noro 409: write_cmo_error(s,e)
410: FILE *s;
411: ERR e;
412: {
413: int r;
414:
415: r = CMO_ERROR2; write_int(s,&r);
416: write_cmo(s,BDY(e));
417: }
418:
1.7 noro 419: /* XXX */
420:
421: write_cmo_tree(s,f)
422: FILE *s;
423: FNODE f;
424: {
425: int r,i,n;
426: char opname[BUFSIZ];
427: NODE args,t;
428: FUNC fspec;
429: struct oSTRING str,nullstr;
430:
1.8 ! noro 431: /* zero */
! 432: if ( !f ) {
! 433: r = CMO_NULL; write_int(s,&r);
! 434: return;
! 435: }
! 436:
1.7 noro 437: /* null string */
438: nullstr.id = O_STR;
439: nullstr.body = 0;
440:
441: /* name string */
442: str.id = O_STR;
443: str.body = opname;
444:
445: switch ( f->id ) {
446: case I_BOP: case I_COP:
447: case I_AND: case I_OR:
448: /*
449: * (CMO_TREE (CMO_STRING,op),(CMO_STRING,0)(CMO_LIST,2,arg1,arg2))
450: */
451: switch ( f->id ) {
452: case I_BOP:
453: strcpy(opname,((ARF)FA0(f))->name); break;
454: case I_COP:
455: switch( (cid)FA0(f) ) {
456: case C_EQ: strcpy(opname,"=="); break;
457: case C_NE: strcpy(opname,"!="); break;
458: case C_GT: strcpy(opname,">"); break;
459: case C_LT: strcpy(opname,"<"); break;
460: case C_GE: strcpy(opname,">="); break;
461: case C_LE: strcpy(opname,"<="); break;
462: }
463: break;
464: case I_AND:
465: strcpy(opname,"&&"); break;
466: case I_OR:
467: strcpy(opname,"||"); break;
468: }
469: r = CMO_TREE; write_int(s,&r);
470: write_cmo_string(s,&str);
471: write_cmo_string(s,&nullstr);
472: r = CMO_LIST; write_int(s,&r);
473: n = 2; write_int(s,&n);
474: write_cmo_tree(s,(FNODE)FA1(f));
475: write_cmo_tree(s,(FNODE)FA2(f));
476: break;
477: case I_NOT:
478: r = CMO_TREE; write_int(s,&r);
479: strcpy(opname,"!");
480: write_cmo_string(s,&str);;
481: write_cmo_string(s,&nullstr);
482: r = CMO_LIST; write_int(s,&r);
483: n = 1; write_int(s,&n);
484: write_cmo_tree(s,(FNODE)FA1(f));
485: break;
486: case I_FUNC:
1.8 ! noro 487: r = CMO_TREE; write_int(s,&r);
1.7 noro 488: fspec = (FUNC)FA0(f);
489: strcpy(opname,fspec->name);
490: write_cmo_string(s,&str);
491: write_cmo_string(s,&nullstr);
492: args = (NODE)FA0((FNODE)FA1(f));
493: r = CMO_LIST; write_int(s,&r);
494: for ( n = 0, t = args; t; t = NEXT(t), n++ );
495: write_int(s,&n);
496: for ( i = 0, t = args; i < n; t = NEXT(t), i++ )
497: write_cmo_tree(s,BDY(t));
498: break;
499: case I_FORMULA:
500: write_cmo(s,FA0(f));
501: break;
502: default:
503: break; /* XXX */
504: }
505: }
506:
1.1 noro 507: read_cmo(s,rp)
508: FILE *s;
509: Obj *rp;
510: {
511: int id;
512: int n,sgn,dummy;
513: Q q,qnm,qdn;
514: N nm,dn;
515: P p,pnm,pdn;
516: R r;
1.2 noro 517: Real real;
518: double dbl;
1.1 noro 519: STRING str;
520: USINT t;
521: DP dp;
522: char *b;
523: Obj obj;
524: ERR e;
525: MATHCAP mc;
1.6 noro 526: BYTEARRAY array;
1.8 ! noro 527: QUOTE quote;
! 528: FNODE fn;
1.1 noro 529:
530: read_int(s,&id);
531: switch ( id ) {
532: /* level 0 objects */
533: case CMO_NULL:
534: *rp = 0;
535: break;
536: case CMO_INT32:
537: read_cmo_uint(s,rp);
538: break;
539: case CMO_DATUM:
1.6 noro 540: loadbytearray(s,&array); *rp = (Obj)array;
541: break;
1.1 noro 542: case CMO_STRING:
543: loadstring(s,&str); *rp = (Obj)str;
544: break;
545: case CMO_MATHCAP:
546: read_cmo(s,&obj); MKMATHCAP(mc,(LIST)obj);
547: *rp = (Obj)mc;
548: break;
549: case CMO_ERROR:
550: MKERR(e,0); *rp = (Obj)e;
551: break;
552: case CMO_ERROR2:
553: read_cmo(s,&obj); MKERR(e,obj); *rp = (Obj)e;
554: break;
555: /* level 1 objects */
556: case CMO_LIST:
557: read_cmo_list(s,rp);
558: break;
559: case CMO_MONOMIAL32:
560: read_cmo_monomial(s,rp);
561: break;
562: case CMO_ZZ:
563: read_cmo_zz(s,&sgn,&nm);
564: NTOQ(nm,sgn,q); *rp = (Obj)q;
565: break;
566: case CMO_QQ:
567: read_cmo_zz(s,&sgn,&nm);
568: read_cmo_zz(s,&dummy,&dn);
569: NDTOQ(nm,dn,sgn,q); *rp = (Obj)q;
1.2 noro 570: break;
571: case CMO_IEEE_DOUBLE_FLOAT:
572: read_double(s,&dbl); MKReal(dbl,real); *rp = (Obj)real;
1.1 noro 573: break;
574: case CMO_DISTRIBUTED_POLYNOMIAL:
575: read_cmo_dp(s,&dp); *rp = (Obj)dp;
576: break;
577: case CMO_RECURSIVE_POLYNOMIAL:
578: read_cmo_p(s,&p); *rp = (Obj)p;
579: break;
580: case CMO_UNIVARIATE_POLYNOMIAL:
581: read_cmo_upoly(s,&p); *rp = (Obj)p;
582: break;
583: case CMO_INDETERMINATE:
584: read_cmo(s,&str); *rp = (Obj)str;
585: break;
586: case CMO_RATIONAL:
587: read_cmo(s,&pnm); read_cmo(s,&pdn);
588: divr(CO,(Obj)pnm,(Obj)pdn,rp);
589: break;
590: case CMO_ZERO:
591: *rp = 0;
592: break;
593: case CMO_DMS_OF_N_VARIABLES:
594: read_cmo(s,rp);
595: break;
596: case CMO_RING_BY_NAME:
597: read_cmo(s,rp);
598: break;
1.7 noro 599: case CMO_TREE:
1.8 ! noro 600: read_cmo_tree(s,&fn);
! 601: MKQUOTE(quote,fn);
! 602: *rp = (Obj)quote;
1.7 noro 603: break;
1.1 noro 604: default:
605: MKUSINT(t,id);
606: t->id = O_VOID;
607: *rp = (Obj)t;
608: break;
609: }
610: }
611:
612: read_cmo_uint(s,rp)
613: FILE *s;
614: USINT *rp;
615: {
616: unsigned int body;
617:
618: read_int(s,&body);
619: MKUSINT(*rp,body);
620: }
621:
622: read_cmo_zz(s,sgn,rp)
623: FILE *s;
624: int *sgn;
625: N *rp;
626: {
627: int l,i,words;
628: N n;
629: unsigned int *b;
630: unsigned int h;
631: unsigned char c;
632:
633: read_int(s,&l);
634: if ( l == 0 ) {
635: *sgn = 0;
636: *rp = 0;
637: return;
638: }
639: if ( l < 0 ) {
640: *sgn = -1; l = -l;
641: } else
642: *sgn = 1;
643: #if 1
644: *rp = n = NALLOC(l); PL(n) = l;
645: read_intarray(s,BD(n),l);
646: #else
647: words = (l+3)/4;
648: *rp = n = NALLOC(words); PL(n) = words; b = BD(n);
649: h = 0;
650: switch ( l % 4 ) {
651: case 0:
652: read_char(s,&c); h = c;
653: case 3:
654: read_char(s,&c); h = (h<<8)|c;
655: case 2:
656: read_char(s,&c); h = (h<<8)|c;
657: case 1:
658: read_char(s,&c); h = (h<<8)|c;
659: }
660: b[words-1] = h;
661: for ( i = words-2; i >= 0; i-- ) {
662: read_char(s,&c); h = c;
663: read_char(s,&c); h = (h<<8)|c;
664: read_char(s,&c); h = (h<<8)|c;
665: read_char(s,&c); h = (h<<8)|c;
666: b[i] = h;
667: }
668: #endif
669: }
670:
671: read_cmo_list(s,rp)
672: FILE *s;
673: Obj *rp;
674: {
675: int len;
676: Obj *w;
677: int i;
678: Obj r,r1;
679: NODE n0,n1;
680: LIST list;
681:
682: read_int(s,&len);
683: w = (Obj *)ALLOCA(len*sizeof(Obj));
684: for ( i = 0; i < len; i++ )
685: read_cmo(s,&w[i]);
686: for ( i = len-1, n0 = 0; i >= 0; i-- ) {
687: MKNODE(n1,w[i],n0); n0 = n1;
688: }
689: MKLIST(list,n0);
690: *rp = (Obj)list;
691: }
692:
693: read_cmo_dp(s,rp)
694: FILE *s;
695: DP *rp;
696: {
697: int len;
698: int i;
699: NODE n0,n1;
700: MP mp0,mp;
701: int nv,d;
702: DP dp;
703: Obj obj;
704:
705: read_int(s,&len);
706: /* skip the ring definition */
707: read_cmo(s,&obj);
708: for ( mp0 = 0, i = 0, d = 0; i < len; i++ ) {
709: read_cmo(s,&dp);
710: if ( !mp0 ) {
711: nv = dp->nv;
712: mp0 = dp->body;
713: mp = mp0;
714: } else {
715: NEXT(mp) = dp->body;
716: mp = NEXT(mp);
717: }
718: d = MAX(d,dp->sugar);
719: }
720: MKDP(nv,mp0,dp);
721: dp->sugar = d; *rp = dp;
722: }
723:
724: read_cmo_monomial(s,rp)
725: FILE *s;
726: DP *rp;
727: {
728: MP m;
729: DP dp;
730: int i,sugar,n;
731: DL dl;
732:
733: read_int(s,&n);
734: NEWMP(m); NEWDL(dl,n); m->dl = dl;
735: read_intarray(s,dl->d,n);
736: for ( sugar = 0, i = 0; i < n; i++ )
737: sugar += dl->d[i];
738: dl->td = sugar;
739: read_cmo(s,&m->c);
740: NEXT(m) = 0; MKDP(n,m,dp); dp->sugar = sugar; *rp = dp;
741: }
742:
743: static V *remote_vtab;
744:
745: read_cmo_p(s,rp)
746: FILE *s;
747: P *rp;
748: {
749: LIST vlist;
750: int nv,i;
751: V *vtab;
752: V v1,v2;
753: NODE t;
754: P v,p;
755: VL tvl,rvl;
756: char *name;
757:
758: read_cmo(s,&vlist);
759: nv = length(BDY(vlist));
760: vtab = (V *)ALLOCA(nv*sizeof(V));
761: for ( i = 0, t = BDY(vlist); i < nv; t = NEXT(t), i++ ) {
762: /* cmoname_to_localname(BDY((STRING)BDY(t)),&name); */
763: name = BDY((STRING)BDY(t));
764: makevar(name,&v); vtab[i] = VR(v);
765: }
766: remote_vtab = vtab;
767: read_cmo(s,&p);
768: for ( i = 0; i < nv-1; i++ ) {
769: v1 = vtab[i]; v2 = vtab[i+1];
770: for ( tvl = CO; tvl->v != v1 && tvl->v != v2; tvl = NEXT(tvl) );
771: if ( tvl->v == v2 )
772: break;
773: }
774: if ( i < nv-1 ) {
775: for ( i = nv-1, rvl = 0; i >= 0; i-- ) {
776: NEWVL(tvl); tvl->v = vtab[i]; NEXT(tvl) = rvl; rvl = tvl;
777: }
778: reorderp(CO,rvl,p,rp);
779: } else
780: *rp = p;
781: }
782:
783: read_cmo_upoly(s,rp)
784: FILE *s;
785: P *rp;
786: {
787: int n,ind,i,d;
788: P c;
789: Q q;
790: DCP dc0,dc;
791:
792: read_int(s,&n);
793: read_int(s,&ind);
794: for ( i = 0, dc0 = 0; i < n; i++ ) {
795: read_int(s,&d);
796: read_cmo(s,&c);
797: if ( c ) {
798: if ( OID(c) == O_USINT ) {
799: UTOQ(((USINT)c)->body,q); c = (P)q;
800: }
801: NEXTDC(dc0,dc);
802: STOQ(d,q);
803: dc->c = c; dc->d = q;
804: }
805: }
806: if ( dc0 )
807: NEXT(dc) = 0;
808: MKP(remote_vtab[ind],dc0,*rp);
1.7 noro 809: }
810:
811: /* XXX */
812:
813: extern struct oARF arf[];
814:
815: struct operator_tab {
816: char *name;
817: fid id;
818: ARF arf;
819: cid cid;
820: };
821:
822: static struct operator_tab optab[] = {
823: {"+",I_BOP,&arf[0],0}, /* XXX */
824: {"-",I_BOP,&arf[1],0},
825: {"*",I_BOP,&arf[2],0},
826: {"/",I_BOP,&arf[3],0},
827: {"%",I_BOP,&arf[4],0},
828: {"^",I_BOP,&arf[5],0},
829: {"==",I_COP,0,C_EQ},
830: {"!=",I_COP,0,C_NE},
831: {"<",I_COP,0,C_LT},
832: {"<=",I_COP,0,C_LE},
833: {">",I_COP,0,C_GT},
834: {">=",I_COP,0,C_GE},
835: {"&&",I_AND,0,0},
836: {"||",I_OR,0,0},
837: {"!",I_NOT,0,0},
838: };
839:
840: static int optab_len = sizeof(optab)/sizeof(struct operator_tab);
841:
842: read_cmo_tree(s,rp)
843: FILE *s;
1.8 ! noro 844: FNODE *rp;
1.7 noro 845: {
846: int r,i,n;
847: char *opname;
848: STRING name,cd;
849: int op;
1.8 ! noro 850: pointer *arg;
1.7 noro 851: QUOTE quote;
852: FNODE fn;
1.8 ! noro 853: NODE t,t1;
1.7 noro 854: fid id;
1.8 ! noro 855: Obj expr;
! 856: FUNC func;
1.7 noro 857:
858: read_cmo(s,&name);
859: read_cmo(s,&cd); /* XXX: currently not used */
860: for ( i = 0; i < optab_len; i++ )
861: if ( !strcmp(optab[i].name,BDY(name)) )
862: break;
863: if ( i == optab_len ) {
864: /* may be a function name */
1.8 ! noro 865: n = read_cmo_tree_arg(s,&arg);
! 866: for ( i = n-1, t = 0; i >= 0; i-- ) {
! 867: MKNODE(t1,arg[i],t); t = t1;
! 868: }
! 869: searchf(sysf,BDY(name),&func);
! 870: if ( !func )
! 871: searchf(ubinf,BDY(name),&func);
! 872: if ( !func )
! 873: searchpf(BDY(name),&func);
! 874: if ( !func )
! 875: searchf(usrf,BDY(name),&func);
! 876: if ( !func )
! 877: appenduf(BDY(name),&func);
! 878: *rp = mkfnode(2,I_FUNC,func,mkfnode(1,I_LIST,t));
1.7 noro 879: } else {
880: opname = optab[i].name;
881: id = optab[i].id;
882: switch ( id ) {
883: case I_BOP:
1.8 ! noro 884: read_cmo_tree_arg(s,&arg);
! 885: *rp = mkfnode(3,I_BOP,optab[i].arf,arg[0],arg[1]);
! 886: return;
1.7 noro 887: case I_COP:
1.8 ! noro 888: read_cmo_tree_arg(s,&arg);
! 889: *rp = mkfnode(3,I_COP,optab[i].cid,arg[0],arg[0]);
! 890: return;
1.7 noro 891: case I_AND:
1.8 ! noro 892: read_cmo_tree_arg(s,&arg);
! 893: *rp = mkfnode(2,I_AND,arg[0],arg[1]);
! 894: return;
1.7 noro 895: case I_OR:
1.8 ! noro 896: read_cmo_tree_arg(s,&arg);
! 897: *rp = mkfnode(2,I_OR,arg[0],arg[1]);
! 898: return;
1.7 noro 899: case I_NOT:
1.8 ! noro 900: read_cmo_tree_arg(s,&arg);
! 901: *rp = mkfnode(1,I_OR,arg[0]);
! 902: return;
1.7 noro 903: }
904: }
1.8 ! noro 905: }
! 906:
! 907: int read_cmo_tree_arg(s,argp)
! 908: FILE *s;
! 909: pointer **argp;
! 910: {
! 911: int id,n,i;
! 912: pointer *ap;
! 913: Obj t;
! 914:
! 915: read_int(s,&id); /* id = CMO_LIST */
! 916: read_int(s,&n); /* n = the number of args */
! 917: *argp = ap = (pointer *) MALLOC(n*sizeof(pointer));
! 918: for ( i = 0; i < n; i++ ) {
! 919: read_cmo(s,&t);
! 920: if ( !t || (OID(t) != O_QUOTE) )
! 921: ap[i] = mkfnode(1,I_FORMULA,t);
! 922: else
! 923: ap[i] = BDY((QUOTE)t);
! 924: }
! 925: return n;
1.1 noro 926: }
927:
928: localname_to_cmoname(a,b)
929: char *a;
930: char **b;
931: {
932: int l;
933: char *t;
934:
935: l = strlen(a);
936: if ( l >= 2 && a[0] == '@' && isupper(a[1]) ) {
937: t = *b = (char *)MALLOC_ATOMIC(l);
938: strcpy(t,a+1);
939: } else {
940: t = *b = (char *)MALLOC_ATOMIC(l+1);
941: strcpy(t,a);
942: }
943: }
944:
945: cmoname_to_localname(a,b)
946: char *a;
947: char **b;
948: {
949: int l;
950: char *t;
951:
952: l = strlen(a);
953: if ( isupper(a[0]) ) {
954: t = *b = (char *)MALLOC_ATOMIC(l+2);
955: strcpy(t+1,a);
956: t[0] = '@';
957: } else {
958: t = *b = (char *)MALLOC_ATOMIC(l+1);
959: strcpy(t,a);
960: }
961: }
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