Annotation of OpenXM_contrib2/asir2000/parse/eval.c, Revision 1.79
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: *
1.79 ! noro 48: * $OpenXM: OpenXM_contrib2/asir2000/parse/eval.c,v 1.78 2018/03/27 06:29:19 noro Exp $
1.4 noro 49: */
1.1 noro 50: #include <ctype.h>
51: #include "ca.h"
52: #include "al.h"
53: #include "base.h"
54: #include "parse.h"
1.62 noro 55: #if defined(GC7)
1.61 ohara 56: #include "gc.h"
1.62 noro 57: #endif
1.1 noro 58: #include <sys/types.h>
59: #include <sys/stat.h>
60:
1.18 noro 61: extern JMP_BUF timer_env;
1.60 noro 62: extern FUNC cur_binf;
63: extern NODE PVSS;
1.78 noro 64: extern int evalef;
1.1 noro 65:
66: int f_break,f_return,f_continue;
67: int evalstatline;
1.24 noro 68: int show_crossref;
1.60 noro 69: int at_root;
1.70 noro 70: void gen_searchf_searchonly(char *name,FUNC *r,int global);
1.57 noro 71: LIST eval_arg(FNODE a,unsigned int quote);
1.1 noro 72:
1.16 noro 73: pointer eval(FNODE f)
1.1 noro 74: {
75: LIST t;
76: STRING str;
77: pointer val = 0;
78: pointer a,a1,a2;
1.48 noro 79: NODE tn,tn1,ind,match;
1.1 noro 80: R u;
81: DP dp;
1.21 noro 82: unsigned int pv;
1.77 noro 83: int c,ret,pos;
1.1 noro 84: FNODE f1;
85: UP2 up2;
86: UP up;
1.13 noro 87: UM um;
1.14 noro 88: Obj obj;
1.1 noro 89: GF2N gf2n;
90: GFPN gfpn;
1.13 noro 91: GFSN gfsn;
1.31 noro 92: RANGE range;
1.41 noro 93: QUOTE expr,pattern;
1.79 ! noro 94: Q q;
1.1 noro 95:
1.74 fujimoto 96: #if defined(VISUAL) || defined(__MINGW32__)
1.75 ohara 97: check_intr();
1.1 noro 98: #endif
99: if ( !f )
100: return ( 0 );
101: switch ( f->id ) {
1.10 noro 102: case I_PAREN:
103: val = eval((FNODE)(FA0(f)));
1.14 noro 104: break;
105: case I_MINUS:
106: a1 = eval((FNODE)(FA0(f)));
107: arf_chsgn((Obj)a1,&obj);
108: val = (pointer)obj;
1.10 noro 109: break;
1.1 noro 110: case I_BOP:
111: a1 = eval((FNODE)FA1(f)); a2 = eval((FNODE)FA2(f));
112: (*((ARF)FA0(f))->fp)(CO,a1,a2,&val);
1.10 noro 113: break;
1.46 noro 114: case I_NARYOP:
115: tn = (NODE)FA1(f);
116: a = eval((FNODE)BDY(tn));
117: for ( tn = NEXT(tn); tn; tn = NEXT(tn) ) {
118: a1 = eval((FNODE)BDY(tn));
119: (*((ARF)FA0(f))->fp)(CO,a,a1,&a2);
120: a = a2;
121: }
122: val = a;
123: break;
1.1 noro 124: case I_COP:
125: a1 = eval((FNODE)FA1(f)); a2 = eval((FNODE)FA2(f));
126: c = arf_comp(CO,a1,a2);
127: switch ( (cid)FA0(f) ) {
128: case C_EQ:
129: c = (c == 0); break;
130: case C_NE:
131: c = (c != 0); break;
132: case C_GT:
133: c = (c > 0); break;
134: case C_LT:
135: c = (c < 0); break;
136: case C_GE:
137: c = (c >= 0); break;
138: case C_LE:
139: c = (c <= 0); break;
140: default:
141: c = 0; break;
142: }
143: if ( c )
144: val = (pointer)ONE;
145: break;
146: case I_AND:
147: if ( eval((FNODE)FA0(f)) && eval((FNODE)FA1(f)) )
148: val = (pointer)ONE;
149: break;
150: case I_OR:
151: if ( eval((FNODE)FA0(f)) || eval((FNODE)FA1(f)) )
152: val = (pointer)ONE;
153: break;
154: case I_NOT:
155: if ( eval((FNODE)FA0(f)) )
156: val = 0;
157: else
158: val = (pointer)ONE;
159: break;
160: case I_LOP:
161: a1 = eval((FNODE)FA1(f)); a2 = eval((FNODE)FA2(f));
162: val = evall((lid)FA0(f),a1,a2);
163: break;
164: case I_CE:
165: if ( eval((FNODE)FA0(f)) )
166: val = eval((FNODE)FA1(f));
167: else
168: val = eval((FNODE)FA2(f));
169: break;
170: case I_EV:
171: evalnodebody((NODE)FA0(f),&tn); nodetod(tn,&dp); val = (pointer)dp;
172: break;
1.77 noro 173: case I_EVM:
174: evalnodebody((NODE)FA0(f),&tn); pos = eval((FNODE)FA1(f)); nodetodpm(tn,pos,&dp); val = (pointer)dp;
175: break;
1.1 noro 176: case I_FUNC:
177: val = evalf((FUNC)FA0(f),(FNODE)FA1(f),0); break;
178: case I_FUNC_OPT:
179: val = evalf((FUNC)FA0(f),(FNODE)FA1(f),(FNODE)FA2(f)); break;
1.57 noro 180: case I_FUNC_QARG:
181: tn = BDY(eval_arg((FNODE)FA1(f),(unsigned int)0xffffffff));
182: val = bevalf((FUNC)FA0(f),tn); break;
1.1 noro 183: case I_PFDERIV:
1.44 noro 184: val = evalf_deriv((FUNC)FA0(f),(FNODE)FA1(f),(FNODE)FA2(f)); break;
1.1 noro 185: case I_MAP:
186: val = evalmapf((FUNC)FA0(f),(FNODE)FA1(f)); break;
1.9 noro 187: case I_RECMAP:
188: val = eval_rec_mapf((FUNC)FA0(f),(FNODE)FA1(f)); break;
1.1 noro 189: case I_IFUNC:
1.63 noro 190: val = evalif((FNODE)FA0(f),(FNODE)FA1(f),(FNODE)FA2(f)); break;
1.74 fujimoto 191: #if !defined(VISUAL) && !defined(__MINGW32__)
1.1 noro 192: case I_TIMER:
193: {
194: int interval;
195: Obj expired;
196:
197: interval = QTOS((Q)eval((FNODE)FA0(f)));
198: expired = (Obj)eval((FNODE)FA2(f));
199: set_timer(interval);
200: savepvs();
1.18 noro 201: if ( !SETJMP(timer_env) )
1.1 noro 202: val = eval((FNODE)FA1(f));
203: else {
204: val = (pointer)expired;
205: restorepvs();
206: }
207: reset_timer();
208: }
209: break;
210: #endif
211: case I_PRESELF:
212: f1 = (FNODE)FA1(f);
213: if ( ID(f1) == I_PVAR ) {
1.21 noro 214: pv = (unsigned int)FA0(f1); ind = (NODE)FA1(f1); GETPV(pv,a);
1.1 noro 215: if ( !ind ) {
216: (*((ARF)FA0(f))->fp)(CO,a,ONE,&val); ASSPV(pv,val);
217: } else if ( a ) {
218: evalnodebody(ind,&tn); getarray(a,tn,(pointer *)&u);
219: (*((ARF)FA0(f))->fp)(CO,u,ONE,&val); putarray(a,tn,val);
220: }
221: } else
1.6 noro 222: error("++ : not implemented yet");
1.1 noro 223: break;
224: case I_POSTSELF:
225: f1 = (FNODE)FA1(f);
226: if ( ID(f1) == I_PVAR ) {
1.21 noro 227: pv = (unsigned int)FA0(f1); ind = (NODE)FA1(f1); GETPV(pv,val);
1.1 noro 228: if ( !ind ) {
229: (*((ARF)FA0(f))->fp)(CO,val,ONE,&u); ASSPV(pv,u);
230: } else if ( val ) {
231: evalnodebody(ind,&tn); getarray(val,tn,&a);
232: (*((ARF)FA0(f))->fp)(CO,a,ONE,&u); putarray(val,tn,(pointer)u);
233: val = a;
234: }
235: } else
1.6 noro 236: error("-- : not implemented yet");
1.1 noro 237: break;
238: case I_PVAR:
1.39 noro 239: pv = (unsigned int)FA0(f);
240: ind = (NODE)FA1(f);
241: GETPV(pv,a);
1.1 noro 242: if ( !ind )
243: val = a;
244: else {
245: evalnodebody(ind,&tn); getarray(a,tn,&val);
246: }
247: break;
248: case I_ASSPVAR:
249: f1 = (FNODE)FA0(f);
250: if ( ID(f1) == I_PVAR ) {
1.21 noro 251: pv = (unsigned int)FA0(f1); ind = (NODE)FA1(f1);
1.1 noro 252: if ( !ind ) {
253: val = eval((FNODE)FA1(f)); ASSPV(pv,val);
254: } else {
255: GETPV(pv,a);
256: evalnodebody(ind,&tn);
257: putarray(a,tn,val = eval((FNODE)FA1(f)));
258: }
1.6 noro 259: } else if ( ID(f1) == I_POINT ) {
260: /* f1 <-> FA0(f1)->FA1(f1) */
261: a = eval(FA0(f1));
1.7 noro 262: assign_to_member(a,(char *)FA1(f1),val = eval((FNODE)FA1(f)));
263: } else if ( ID(f1) == I_INDEX ) {
264: /* f1 <-> FA0(f1)[FA1(f1)] */
265: a = eval((FNODE)FA0(f1)); ind = (NODE)FA1(f1);
266: evalnodebody(ind,&tn);
267: putarray(a,tn,val = eval((FNODE)FA1(f)));
1.15 noro 268: } else {
269: error("eval : invalid assignment");
1.6 noro 270: }
1.1 noro 271: break;
272: case I_ANS:
273: if ( (pv =(int)FA0(f)) < (int)APVS->n )
274: val = APVS->va[pv].priv;
275: break;
276: case I_GF2NGEN:
277: NEWUP2(up2,1);
278: up2->w=1;
279: up2->b[0] = 2; /* @ */
280: MKGF2N(up2,gf2n);
281: val = (pointer)gf2n;
282: break;
283: case I_GFPNGEN:
284: up = UPALLOC(1);
1.13 noro 285: DEG(up)=1;
286: COEF(up)[0] = 0;
287: COEF(up)[1] = (Num)ONELM;
1.1 noro 288: MKGFPN(up,gfpn);
289: val = (pointer)gfpn;
1.13 noro 290: break;
291: case I_GFSNGEN:
292: um = UMALLOC(1);
293: DEG(um) = 1;
294: COEF(um)[0] = 0;
295: COEF(um)[1] = _onesf();
296: MKGFSN(um,gfsn);
297: val = (pointer)gfsn;
1.1 noro 298: break;
299: case I_STR:
300: MKSTR(str,FA0(f)); val = (pointer)str; break;
301: case I_FORMULA:
1.78 noro 302: val = FA0(f);
303: break;
1.1 noro 304: case I_LIST:
305: evalnodebody((NODE)FA0(f),&tn); MKLIST(t,tn); val = (pointer)t; break;
1.48 noro 306: case I_CONS:
307: evalnodebody((NODE)FA0(f),&tn); a2 = eval(FA1(f));
308: if ( !a2 || OID(a2) != O_LIST )
309: error("cons : invalid argument");
310: for ( tn1 = tn; NEXT(tn1); tn1 = NEXT(tn1) );
311: NEXT(tn1) = BDY((LIST)a2);
312: MKLIST(t,tn); val = (pointer)t;
313: break;
1.1 noro 314: case I_NEWCOMP:
315: newstruct((int)FA0(f),(struct oCOMP **)&val); break;
316: case I_CAR:
317: if ( !(a = eval((FNODE)FA0(f))) || (OID(a) != O_LIST) )
318: val = 0;
319: else if ( !BDY((LIST)a) )
320: val = a;
321: else
322: val = (pointer)BDY(BDY((LIST)a));
323: break;
324: case I_CDR:
325: if ( !(a = eval((FNODE)FA0(f))) || (OID(a) != O_LIST) )
326: val = 0;
327: else if ( !BDY((LIST)a) )
328: val = a;
329: else {
330: MKLIST(t,NEXT(BDY((LIST)a))); val = (pointer)t;
331: }
332: break;
333: case I_INDEX:
334: a = eval((FNODE)FA0(f)); ind = (NODE)FA1(f);
335: evalnodebody(ind,&tn); getarray(a,tn,&val);
336: break;
337: case I_OPT:
338: MKSTR(str,(char *)FA0(f));
339: a = (pointer)eval(FA1(f));
340: tn = mknode(2,str,a);
341: MKLIST(t,tn); val = (pointer)t;
342: break;
343: case I_GETOPT:
344: val = (pointer)getopt_from_cpvs((char *)FA0(f));
1.6 noro 345: break;
346: case I_POINT:
347: a = (pointer)eval(FA0(f));
348: val = (pointer)memberofstruct(a,(char *)FA1(f));
1.1 noro 349: break;
350: default:
351: error("eval : unknown id");
352: break;
353: }
354: return ( val );
1.45 noro 355: }
356:
1.51 noro 357: NODE fnode_to_nary_node(NODE);
358: NODE fnode_to_bin_node(NODE,int);
1.46 noro 359:
1.51 noro 360: FNODE fnode_to_nary(FNODE f)
1.46 noro 361: {
362: FNODE a0,a1,a2;
1.47 noro 363: NODE n,t,t0;
1.46 noro 364: pointer val;
365: char *op;
366:
367: if ( !f )
368: return f;
369: switch ( f->id ) {
1.47 noro 370: case I_NARYOP:
1.51 noro 371: n = fnode_to_nary_node((NODE)FA1(f));
1.47 noro 372: return mkfnode(2,I_NARYOP,FA0(f),n);
373:
1.46 noro 374: case I_BOP:
1.51 noro 375: a1 = fnode_to_nary((FNODE)FA1(f));
376: a2 = fnode_to_nary((FNODE)FA2(f));
1.46 noro 377: op = ((ARF)FA0(f))->name;
378: if ( !strcmp(op,"+") || !strcmp(op,"*") ) {
379: if ( a1->id == I_NARYOP && !strcmp(op,((ARF)FA0(a1))->name) ) {
1.47 noro 380: for ( n = (NODE)FA1(a1); NEXT(n); n = NEXT(n) );
1.46 noro 381: if ( a2->id == I_NARYOP && !strcmp(op,((ARF)FA0(a2))->name) )
1.47 noro 382: NEXT(n) = (NODE)FA1(a2);
1.46 noro 383: else
1.47 noro 384: MKNODE(NEXT(n),a2,0);
1.46 noro 385: return a1;
386: } else if ( a2->id == I_NARYOP && !strcmp(op,((ARF)FA0(a2))->name) ) {
387: MKNODE(t,a1,(NODE)FA1(a2));
1.47 noro 388: return mkfnode(2,I_NARYOP,FA0(f),t);
1.46 noro 389: } else {
390: t = mknode(2,a1,a2);
391: return mkfnode(2,I_NARYOP,FA0(f),t);
392: }
393: } else
394: return mkfnode(3,f->id,FA0(f),a1,a2);
395:
396: case I_NOT: case I_PAREN: case I_MINUS:
397: case I_CAR: case I_CDR:
1.51 noro 398: a0 = fnode_to_nary((FNODE)FA0(f));
1.46 noro 399: return mkfnode(1,f->id,a0);
400:
401: case I_COP: case I_LOP:
1.51 noro 402: a1 = fnode_to_nary((FNODE)FA1(f));
403: a2 = fnode_to_nary((FNODE)FA2(f));
1.46 noro 404: return mkfnode(3,f->id,FA0(f),a1,a2);
405:
406: case I_AND: case I_OR:
1.51 noro 407: a0 = fnode_to_nary((FNODE)FA0(f));
408: a1 = fnode_to_nary((FNODE)FA1(f));
1.46 noro 409: return mkfnode(2,f->id,a0,a1);
410:
411: /* ternary operators */
412: case I_CE:
1.51 noro 413: a0 = fnode_to_nary((FNODE)FA0(f));
414: a1 = fnode_to_nary((FNODE)FA1(f));
415: a2 = fnode_to_nary((FNODE)FA2(f));
1.46 noro 416: return mkfnode(3,f->id,a0,a1,a2);
417: break;
418:
419: /* function */
420: case I_FUNC:
1.51 noro 421: a1 = fnode_to_nary((FNODE)FA1(f));
1.46 noro 422: return mkfnode(2,f->id,FA0(f),a1);
423:
424: case I_LIST: case I_EV:
1.51 noro 425: n = fnode_to_nary_node((NODE)FA0(f));
1.46 noro 426: return mkfnode(1,f->id,n);
427:
428: case I_STR: case I_FORMULA: case I_PVAR:
429: return f;
430:
431: default:
1.51 noro 432: error("fnode_to_nary : not implemented yet");
1.46 noro 433: }
434: }
435:
1.51 noro 436: FNODE fnode_to_bin(FNODE f,int dir)
1.46 noro 437: {
438: FNODE a0,a1,a2;
439: NODE n,t;
440: pointer val;
441: ARF fun;
442: int len,i;
443: FNODE *arg;
444:
445: if ( !f )
446: return f;
447: switch ( f->id ) {
448: case I_NARYOP:
449: fun = (ARF)FA0(f);
450: len = length((NODE)FA1(f));
1.53 noro 451: if ( len==1 ) return BDY((NODE)(FA1(f)));
452:
1.46 noro 453: arg = (FNODE *)ALLOCA(len*sizeof(FNODE));
454: for ( i = 0, t = (NODE)FA1(f); i < len; i++, t = NEXT(t) )
1.51 noro 455: arg[i] = fnode_to_bin((FNODE)BDY(t),dir);
1.46 noro 456: if ( dir ) {
457: a2 = mkfnode(3,I_BOP,fun,arg[len-2],arg[len-1]);
458: for ( i = len-3; i >= 0; i-- )
459: a2 = mkfnode(3,I_BOP,fun,arg[i],a2);
460: } else {
461: a2 = mkfnode(3,I_BOP,fun,arg[0],arg[1]);
462: for ( i = 2; i < len; i++ )
463: a2 = mkfnode(3,I_BOP,fun,a2,arg[i]);
464: }
465: return a2;
466:
467: case I_NOT: case I_PAREN: case I_MINUS:
468: case I_CAR: case I_CDR:
1.51 noro 469: a0 = fnode_to_bin((FNODE)FA0(f),dir);
1.46 noro 470: return mkfnode(1,f->id,a0);
471:
472: case I_BOP: case I_COP: case I_LOP:
1.51 noro 473: a1 = fnode_to_bin((FNODE)FA1(f),dir);
474: a2 = fnode_to_bin((FNODE)FA2(f),dir);
1.46 noro 475: return mkfnode(3,f->id,FA0(f),a1,a2);
476:
477: case I_AND: case I_OR:
1.51 noro 478: a0 = fnode_to_bin((FNODE)FA0(f),dir);
479: a1 = fnode_to_bin((FNODE)FA1(f),dir);
1.46 noro 480: return mkfnode(2,f->id,a0,a1);
481:
482: /* ternary operators */
483: case I_CE:
1.51 noro 484: a0 = fnode_to_bin((FNODE)FA0(f),dir);
485: a1 = fnode_to_bin((FNODE)FA1(f),dir);
486: a2 = fnode_to_bin((FNODE)FA2(f),dir);
1.46 noro 487: return mkfnode(3,f->id,a0,a1,a2);
488: break;
489:
490: /* function */
491: case I_FUNC:
1.51 noro 492: a1 = fnode_to_bin((FNODE)FA1(f),dir);
1.46 noro 493: return mkfnode(2,f->id,FA0(f),a1);
494:
495: case I_LIST: case I_EV:
1.51 noro 496: n = fnode_to_bin_node((NODE)FA0(f),dir);
1.46 noro 497: return mkfnode(1,f->id,n);
498:
499: case I_STR: case I_FORMULA: case I_PVAR:
500: return f;
501:
502: default:
1.51 noro 503: error("fnode_to_bin : not implemented yet");
1.46 noro 504: }
505: }
506:
1.45 noro 507: NODE partial_eval_node(NODE n);
508: FNODE partial_eval(FNODE f);
509:
510: FNODE partial_eval(FNODE f)
511: {
512: FNODE a0,a1,a2;
513: NODE n;
1.55 noro 514: Obj obj;
515: QUOTE q;
1.45 noro 516: pointer val;
1.56 noro 517: FUNC func;
1.45 noro 518:
519: if ( !f )
520: return f;
521: switch ( f->id ) {
522: case I_NOT: case I_PAREN: case I_MINUS:
523: case I_CAR: case I_CDR:
524: a0 = partial_eval((FNODE)FA0(f));
525: return mkfnode(1,f->id,a0);
526:
527: case I_BOP: case I_COP: case I_LOP:
528: a1 = partial_eval((FNODE)FA1(f));
529: a2 = partial_eval((FNODE)FA2(f));
530: return mkfnode(3,f->id,FA0(f),a1,a2);
531:
1.50 noro 532: case I_NARYOP:
533: n = partial_eval_node((NODE)FA1(f));
534: return mkfnode(2,f->id,FA0(f),n);
535:
1.45 noro 536: case I_AND: case I_OR:
537: a0 = partial_eval((FNODE)FA0(f));
538: a1 = partial_eval((FNODE)FA1(f));
539: return mkfnode(2,f->id,a0,a1);
540:
541: /* ternary operators */
542: case I_CE:
543: a0 = partial_eval((FNODE)FA0(f));
544: a1 = partial_eval((FNODE)FA1(f));
545: a2 = partial_eval((FNODE)FA2(f));
546: return mkfnode(3,f->id,a0,a1,a2);
547: break;
548:
1.58 noro 549: /* XXX : function is evaluated with QUOTE args */
550: case I_FUNC:
1.45 noro 551: a1 = partial_eval((FNODE)FA1(f));
1.56 noro 552: func = (FUNC)FA0(f);
1.59 noro 553: if ( func->id == A_UNDEF || func->id != A_USR ) {
1.58 noro 554: a1 = mkfnode(2,I_FUNC,func,a1);
1.56 noro 555: return a1;
1.58 noro 556: } else {
557: n = BDY(eval_arg(a1,(unsigned int)0xffffffff));
558: obj = bevalf(func,n);
1.56 noro 559: objtoquote(obj,&q);
560: return BDY(q);
561: }
1.55 noro 562: break;
1.45 noro 563:
564: case I_LIST: case I_EV:
565: n = partial_eval_node((NODE)FA0(f));
566: return mkfnode(1,f->id,n);
567:
568: case I_STR: case I_FORMULA:
569: return f;
570:
571: /* program variable */
572: case I_PVAR:
573: val = eval(f);
574: if ( val && OID((Obj)val) == O_QUOTE )
575: return partial_eval((FNODE)BDY((QUOTE)val));
576: else
577: return mkfnode(1,I_FORMULA,val);
578:
579: default:
580: error("partial_eval : not implemented yet");
581: }
582: }
583:
584: NODE partial_eval_node(NODE n)
585: {
586: NODE r0,r,t;
587:
588: for ( r0 = 0, t = n; t; t = NEXT(t) ) {
589: NEXTNODE(r0,r);
590: BDY(r) = partial_eval((FNODE)BDY(t));
1.49 noro 591: }
592: if ( r0 ) NEXT(r) = 0;
593: return r0;
594: }
595:
1.57 noro 596: NODE rewrite_fnode_node(NODE n,NODE arg,int qarg);
597: FNODE rewrite_fnode(FNODE f,NODE arg,int qarg);
1.49 noro 598:
1.57 noro 599: FNODE rewrite_fnode(FNODE f,NODE arg,int qarg)
1.49 noro 600: {
601: FNODE a0,a1,a2,value;
602: NODE n,t,pair;
603: pointer val;
604: int pv,ind;
605:
606: if ( !f )
607: return f;
608: switch ( f->id ) {
609: case I_NOT: case I_PAREN: case I_MINUS:
610: case I_CAR: case I_CDR:
1.57 noro 611: a0 = rewrite_fnode((FNODE)FA0(f),arg,qarg);
1.49 noro 612: return mkfnode(1,f->id,a0);
613:
614: case I_BOP: case I_COP: case I_LOP:
1.57 noro 615: a1 = rewrite_fnode((FNODE)FA1(f),arg,qarg);
616: a2 = rewrite_fnode((FNODE)FA2(f),arg,qarg);
1.49 noro 617: return mkfnode(3,f->id,FA0(f),a1,a2);
618:
619: case I_AND: case I_OR:
1.57 noro 620: a0 = rewrite_fnode((FNODE)FA0(f),arg,qarg);
621: a1 = rewrite_fnode((FNODE)FA1(f),arg,qarg);
1.49 noro 622: return mkfnode(2,f->id,a0,a1);
623:
624: /* ternary operators */
625: case I_CE:
1.57 noro 626: a0 = rewrite_fnode((FNODE)FA0(f),arg,qarg);
627: a1 = rewrite_fnode((FNODE)FA1(f),arg,qarg);
628: a2 = rewrite_fnode((FNODE)FA2(f),arg,qarg);
1.49 noro 629: return mkfnode(3,f->id,a0,a1,a2);
630: break;
631:
1.52 noro 632: /* nary operators */
633: case I_NARYOP:
1.57 noro 634: n = rewrite_fnode_node((NODE)FA1(f),arg,qarg);
1.52 noro 635: return mkfnode(2,f->id,FA0(f),n);
636:
637: /* and function */
1.49 noro 638: case I_FUNC:
1.57 noro 639: a1 = rewrite_fnode((FNODE)FA1(f),arg,qarg);
640: return mkfnode(2,qarg?I_FUNC_QARG:f->id,FA0(f),a1);
1.49 noro 641:
642: case I_LIST: case I_EV:
1.57 noro 643: n = rewrite_fnode_node((NODE)FA0(f),arg,qarg);
1.49 noro 644: return mkfnode(1,f->id,n);
645:
646: case I_STR: case I_FORMULA:
647: return f;
648:
649: /* program variable */
650: case I_PVAR:
651: pv = (int)FA0(f);
652: for ( t = arg; t; t = NEXT(t) ) {
653: pair = (NODE)BDY(t);
1.57 noro 654: ind = (int)BDY(pair);
655: value = (FNODE)BDY(NEXT(pair));
1.49 noro 656: if ( pv == ind )
657: return value;
658: }
659: return f;
660: break;
661:
662: default:
663: error("rewrite_fnode : not implemented yet");
664: }
665: }
666:
1.57 noro 667: NODE rewrite_fnode_node(NODE n,NODE arg,int qarg)
1.49 noro 668: {
669: NODE r0,r,t;
670:
671: for ( r0 = 0, t = n; t; t = NEXT(t) ) {
672: NEXTNODE(r0,r);
1.57 noro 673: BDY(r) = rewrite_fnode((FNODE)BDY(t),arg,qarg);
1.46 noro 674: }
675: if ( r0 ) NEXT(r) = 0;
676: return r0;
677: }
678:
1.51 noro 679: NODE fnode_to_nary_node(NODE n)
1.46 noro 680: {
681: NODE r0,r,t;
682:
683: for ( r0 = 0, t = n; t; t = NEXT(t) ) {
684: NEXTNODE(r0,r);
1.51 noro 685: BDY(r) = fnode_to_nary((FNODE)BDY(t));
1.46 noro 686: }
687: if ( r0 ) NEXT(r) = 0;
688: return r0;
689: }
690:
1.51 noro 691: NODE fnode_to_bin_node(NODE n,int dir)
1.46 noro 692: {
693: NODE r0,r,t;
694:
695: for ( r0 = 0, t = n; t; t = NEXT(t) ) {
696: NEXTNODE(r0,r);
1.51 noro 697: BDY(r) = fnode_to_bin((FNODE)BDY(t),dir);
1.45 noro 698: }
699: if ( r0 ) NEXT(r) = 0;
700: return r0;
1.1 noro 701: }
702:
1.43 noro 703: V searchvar(char *name);
704:
1.16 noro 705: pointer evalstat(SNODE f)
1.1 noro 706: {
707: pointer val = 0,t,s,s1;
708: P u;
709: NODE tn;
710: int i,ac;
1.43 noro 711: V v;
1.1 noro 712: V *a;
713: char *buf;
1.43 noro 714: FUNC func;
1.1 noro 715:
716: if ( !f )
717: return ( 0 );
718: if ( nextbp && nextbplevel <= 0 && f->id != S_CPLX ) {
719: nextbp = 0;
720: bp(f);
721: }
722: evalstatline = f->ln;
1.60 noro 723: if ( !PVSS ) at_root = evalstatline;
1.1 noro 724:
725: switch ( f->id ) {
726: case S_BP:
727: if ( !nextbp && (!FA1(f) || eval((FNODE)FA1(f))) ) {
728: if ( (FNODE)FA2(f) ) {
729: asir_out = stderr;
730: printexpr(CO,eval((FNODE)FA2(f)));
731: putc('\n',asir_out); fflush(asir_out);
732: asir_out = stdout;
733: } else {
734: nextbp = 1; nextbplevel = 0;
735: }
736: }
737: val = evalstat((SNODE)FA0(f));
738: break;
739: case S_PFDEF:
740: ac = argc(FA1(f)); a = (V *)MALLOC(ac*sizeof(V));
741: s = eval((FNODE)FA2(f));
742: buf = (char *)ALLOCA(BUFSIZ);
743: for ( i = 0, tn = (NODE)FA1(f); tn; tn = NEXT(tn), i++ ) {
744: t = eval((FNODE)tn->body); sprintf(buf,"_%s",NAME(VR((P)t)));
745: makevar(buf,&u); a[i] = VR(u);
746: substr(CO,0,(Obj)s,VR((P)t),(Obj)u,(Obj *)&s1); s = s1;
747: }
1.43 noro 748: mkpf((char *)FA0(f),(Obj)s,ac,a,0,0,0,(PF *)&val); val = 0;
749: v = searchvar((char *)FA0(f));
750: if ( v ) {
751: searchpf((char *)FA0(f),&func);
752: makesrvar(func,&u);
753: }
754: break;
1.1 noro 755: case S_SINGLE:
756: val = eval((FNODE)FA0(f)); break;
757: case S_CPLX:
758: for ( tn = (NODE)FA0(f); tn; tn = NEXT(tn) ) {
759: if ( BDY(tn) )
760: val = evalstat((SNODE)BDY(tn));
761: if ( f_break || f_return || f_continue )
762: break;
763: }
764: break;
765: case S_BREAK:
1.79 ! noro 766: if ( 1 || GPVS != CPVS )
1.1 noro 767: f_break = 1;
768: break;
769: case S_CONTINUE:
1.79 ! noro 770: if ( 1 || GPVS != CPVS )
1.1 noro 771: f_continue = 1;
772: break;
773: case S_RETURN:
1.79 ! noro 774: if ( 1 || GPVS != CPVS ) {
1.1 noro 775: val = eval((FNODE)FA0(f)); f_return = 1;
776: }
777: break;
778: case S_IFELSE:
779: if ( evalnode((NODE)FA1(f)) )
780: val = evalstat((SNODE)FA2(f));
781: else if ( FA3(f) )
782: val = evalstat((SNODE)FA3(f));
783: break;
784: case S_FOR:
785: evalnode((NODE)FA1(f));
786: while ( 1 ) {
787: if ( !evalnode((NODE)FA2(f)) )
788: break;
789: val = evalstat((SNODE)FA4(f));
790: if ( f_break || f_return )
791: break;
792: f_continue = 0;
793: evalnode((NODE)FA3(f));
794: }
795: f_break = 0; break;
796: case S_DO:
797: while ( 1 ) {
798: val = evalstat((SNODE)FA1(f));
799: if ( f_break || f_return )
800: break;
801: f_continue = 0;
802: if ( !evalnode((NODE)FA2(f)) )
803: break;
804: }
805: f_break = 0; break;
1.40 noro 806: case S_MODULE:
807: CUR_MODULE = (MODULE)FA0(f);
808: if ( CUR_MODULE )
809: MPVS = CUR_MODULE->pvs;
810: else
811: MPVS = 0;
812: break;
1.1 noro 813: default:
814: error("evalstat : unknown id");
815: break;
816: }
817: return ( val );
818: }
819:
1.16 noro 820: pointer evalnode(NODE node)
1.1 noro 821: {
822: NODE tn;
823: pointer val;
824:
825: for ( tn = node, val = 0; tn; tn = NEXT(tn) )
826: if ( BDY(tn) )
827: val = eval((FNODE)BDY(tn));
828: return ( val );
829: }
830:
831:
1.44 noro 832: LIST eval_arg(FNODE a,unsigned int quote)
833: {
834: LIST l;
835: FNODE fn;
836: NODE n,n0,tn;
837: QUOTE q;
838: int i;
839:
840: for ( tn = (NODE)FA0(a), n0 = 0, i = 0; tn; tn = NEXT(tn), i++ ) {
841: NEXTNODE(n0,n);
842: if ( quote & (1<<i) ) {
843: fn = (FNODE)(BDY(tn));
844: if ( fn->id == I_FORMULA && FA0(fn)
845: && OID((Obj)FA0(fn))== O_QUOTE )
846: BDY(n) = FA0(fn);
847: else {
848: MKQUOTE(q,(FNODE)BDY(tn));
849: BDY(n) = (pointer)q;
850: }
851: } else
852: BDY(n) = eval((FNODE)BDY(tn));
853: }
854: if ( n0 ) NEXT(n) = 0;
855: MKLIST(l,n0);
856: return l;
857: }
858:
1.16 noro 859: pointer evalf(FUNC f,FNODE a,FNODE opt)
1.1 noro 860: {
861: LIST args;
862: pointer val;
863: int i,n,level;
1.30 noro 864: NODE tn,sn,opts,opt1,dmy;
865: VS pvs,prev_mpvs;
1.1 noro 866: char errbuf[BUFSIZ];
1.19 saito 867: static unsigned int stack_size;
1.12 noro 868: static void *stack_base;
1.43 noro 869: FUNC f1;
1.1 noro 870:
871: if ( f->id == A_UNDEF ) {
1.70 noro 872: gen_searchf_searchonly(f->fullname,&f1,0);
1.43 noro 873: if ( f1->id == A_UNDEF ) {
874: sprintf(errbuf,"evalf : %s undefined",NAME(f));
875: error(errbuf);
876: } else
877: *f = *f1;
1.36 noro 878: }
879: if ( getsecuremode() && !PVSS && !f->secure ) {
880: sprintf(errbuf,"evalf : %s not permitted",NAME(f));
1.1 noro 881: error(errbuf);
882: }
883: if ( f->id != A_PARI ) {
884: for ( i = 0, tn = a?(NODE)FA0(a):0; tn; i++, tn = NEXT(tn) );
885: if ( ((n = f->argc)>= 0 && i != n) || (n < 0 && i > -n) ) {
886: sprintf(errbuf,"evalf : argument mismatch in %s()",NAME(f));
887: error(errbuf);
888: }
889: }
890: switch ( f->id ) {
891: case A_BIN:
1.30 noro 892: if ( opt ) {
893: opts = BDY((LIST)eval(opt));
894: /* opts = ["opt1",arg1],... */
895: opt1 = BDY((LIST)BDY(opts));
896: if ( !strcmp(BDY((STRING)BDY(opt1)),"option_list") ) {
897: /*
898: * the special option specification:
899: * option_list=[["o1","a1"],...]
900: */
901: asir_assert(BDY(NEXT(opt1)),O_LIST,"evalf");
902: opts = BDY((LIST)BDY(NEXT(opt1)));
903: }
904: } else
905: opts = 0;
1.1 noro 906: if ( !n ) {
1.68 noro 907: current_option = opts;
1.1 noro 908: cur_binf = f;
909: (*f->f.binf)(&val);
910: } else {
1.44 noro 911: args = (LIST)eval_arg(a,f->quote);
1.33 noro 912: current_option = opts;
1.1 noro 913: cur_binf = f;
914: (*f->f.binf)(args?BDY(args):0,&val);
915: }
916: cur_binf = 0;
917: break;
918: case A_PARI:
919: args = (LIST)eval(a);
920: cur_binf = f;
921: val = evalparif(f,args?BDY(args):0);
922: cur_binf = 0;
923: break;
924: case A_USR:
1.12 noro 925: /* stack check */
1.74 fujimoto 926: #if !defined(VISUAL) && !defined(__MINGW32__) && !defined(__CYGWIN__)
1.12 noro 927: if ( !stack_size ) {
928: struct rlimit rl;
929: getrlimit(RLIMIT_STACK,&rl);
930: stack_size = rl.rlim_cur;
931: }
1.61 ohara 932: if ( !stack_base ) {
933: #if defined(GC7)
1.65 ohara 934: stack_base = (void *)GC_get_main_stack_base();
1.61 ohara 935: #else
936: stack_base = (void *)GC_get_stack_base();
937: #endif
938: }
1.12 noro 939: if ( (stack_base - (void *)&args) +0x100000 > stack_size )
940: error("stack overflow");
941: #endif
1.44 noro 942: args = (LIST)eval_arg(a,f->quote);
1.11 noro 943: if ( opt ) {
1.1 noro 944: opts = BDY((LIST)eval(opt));
1.11 noro 945: /* opts = ["opt1",arg1],... */
946: opt1 = BDY((LIST)BDY(opts));
947: if ( !strcmp(BDY((STRING)BDY(opt1)),"option_list") ) {
948: /*
949: * the special option specification:
950: * option_list=[["o1","a1"],...]
951: */
952: asir_assert(BDY(NEXT(opt1)),O_LIST,"evalf");
953: opts = BDY((LIST)BDY(NEXT(opt1)));
954: }
955: } else
1.1 noro 956: opts = 0;
957: pvs = f->f.usrf->pvs;
958: if ( PVSS ) {
959: ((VS)BDY(PVSS))->at = evalstatline;
960: level = ((VS)BDY(PVSS))->level+1;
961: } else
962: level = 1;
963: MKNODE(tn,pvs,PVSS); PVSS = tn;
964: CPVS = (VS)ALLOCA(sizeof(struct oVS)); BDY(PVSS) = (pointer)CPVS;
965: CPVS->usrf = f; CPVS->n = CPVS->asize = pvs->n;
966: CPVS->level = level;
967: CPVS->opt = opts;
968: if ( CPVS->n ) {
969: CPVS->va = (struct oPV *)ALLOCA(CPVS->n*sizeof(struct oPV));
970: bcopy((char *)pvs->va,(char *)CPVS->va,
971: (int)(pvs->n*sizeof(struct oPV)));
972: }
973: if ( nextbp )
974: nextbplevel++;
975: for ( tn = f->f.usrf->args, sn = BDY(args);
976: sn; tn = NEXT(tn), sn = NEXT(sn) )
977: ASSPV((int)FA0((FNODE)BDY(tn)),BDY(sn));
1.66 noro 978: f_return = f_break = f_continue = 0;
1.21 noro 979: if ( f->f.usrf->module ) {
980: prev_mpvs = MPVS;
981: MPVS = f->f.usrf->module->pvs;
982: val = evalstat((SNODE)BDY(f->f.usrf));
983: MPVS = prev_mpvs;
984: } else
985: val = evalstat((SNODE)BDY(f->f.usrf));
1.1 noro 986: f_return = f_break = f_continue = 0; poppvs();
1.67 noro 987: if ( PVSS )
988: evalstatline = ((VS)BDY(PVSS))->at;
1.1 noro 989: break;
990: case A_PURE:
991: args = (LIST)eval(a);
1.44 noro 992: val = evalpf(f->f.puref,args?BDY(args):0,0);
1.1 noro 993: break;
994: default:
995: sprintf(errbuf,"evalf : %s undefined",NAME(f));
996: error(errbuf);
997: break;
998: }
999: return val;
1000: }
1001:
1.44 noro 1002: pointer evalf_deriv(FUNC f,FNODE a,FNODE deriv)
1003: {
1004: LIST args,dargs;
1005: pointer val;
1006: char errbuf[BUFSIZ];
1007:
1008: switch ( f->id ) {
1009: case A_PURE:
1010: args = (LIST)eval(a);
1011: dargs = (LIST)eval(deriv);
1012: val = evalpf(f->f.puref,
1013: args?BDY(args):0,dargs?BDY(dargs):0);
1014: break;
1015: default:
1016: sprintf(errbuf,
1017: "evalf : %s is not a pure function",NAME(f));
1018: error(errbuf);
1019: break;
1020: }
1021: return val;
1022: }
1023:
1.16 noro 1024: pointer evalmapf(FUNC f,FNODE a)
1.1 noro 1025: {
1026: LIST args;
1027: NODE node,rest,t,n,r,r0;
1028: Obj head;
1029: VECT v,rv;
1030: MAT m,rm;
1031: LIST rl;
1032: int len,row,col,i,j;
1033: pointer val;
1034:
1.44 noro 1035: args = (LIST)eval_arg(a,f->quote);
1.1 noro 1036: node = BDY(args); head = (Obj)BDY(node); rest = NEXT(node);
1.3 noro 1037: if ( !head ) {
1038: val = bevalf(f,node);
1039: return val;
1040: }
1.1 noro 1041: switch ( OID(head) ) {
1042: case O_VECT:
1043: v = (VECT)head; len = v->len; MKVECT(rv,len);
1044: for ( i = 0; i < len; i++ ) {
1045: MKNODE(t,BDY(v)[i],rest); BDY(rv)[i] = bevalf(f,t);
1046: }
1047: val = (pointer)rv;
1048: break;
1049: case O_MAT:
1050: m = (MAT)head; row = m->row; col = m->col; MKMAT(rm,row,col);
1051: for ( i = 0; i < row; i++ )
1052: for ( j = 0; j < col; j++ ) {
1053: MKNODE(t,BDY(m)[i][j],rest); BDY(rm)[i][j] = bevalf(f,t);
1054: }
1055: val = (pointer)rm;
1056: break;
1057: case O_LIST:
1058: n = BDY((LIST)head);
1059: for ( r0 = r = 0; n; n = NEXT(n) ) {
1060: NEXTNODE(r0,r); MKNODE(t,BDY(n),rest); BDY(r) = bevalf(f,t);
1.9 noro 1061: }
1062: if ( r0 )
1063: NEXT(r) = 0;
1064: MKLIST(rl,r0);
1065: val = (pointer)rl;
1066: break;
1067: default:
1068: val = bevalf(f,node);
1069: break;
1070: }
1071: return val;
1072: }
1073:
1.16 noro 1074: pointer eval_rec_mapf(FUNC f,FNODE a)
1.9 noro 1075: {
1076: LIST args;
1077:
1.44 noro 1078: args = (LIST)eval_arg(a,f->quote);
1.9 noro 1079: return beval_rec_mapf(f,BDY(args));
1080: }
1081:
1.16 noro 1082: pointer beval_rec_mapf(FUNC f,NODE node)
1.9 noro 1083: {
1084: NODE rest,t,n,r,r0;
1085: Obj head;
1086: VECT v,rv;
1087: MAT m,rm;
1088: LIST rl;
1089: int len,row,col,i,j;
1090: pointer val;
1091:
1092: head = (Obj)BDY(node); rest = NEXT(node);
1093: if ( !head ) {
1094: val = bevalf(f,node);
1095: return val;
1096: }
1097: switch ( OID(head) ) {
1098: case O_VECT:
1099: v = (VECT)head; len = v->len; MKVECT(rv,len);
1100: for ( i = 0; i < len; i++ ) {
1101: MKNODE(t,BDY(v)[i],rest); BDY(rv)[i] = beval_rec_mapf(f,t);
1102: }
1103: val = (pointer)rv;
1104: break;
1105: case O_MAT:
1106: m = (MAT)head; row = m->row; col = m->col; MKMAT(rm,row,col);
1107: for ( i = 0; i < row; i++ )
1108: for ( j = 0; j < col; j++ ) {
1109: MKNODE(t,BDY(m)[i][j],rest);
1110: BDY(rm)[i][j] = beval_rec_mapf(f,t);
1111: }
1112: val = (pointer)rm;
1113: break;
1114: case O_LIST:
1115: n = BDY((LIST)head);
1116: for ( r0 = r = 0; n; n = NEXT(n) ) {
1117: NEXTNODE(r0,r); MKNODE(t,BDY(n),rest);
1118: BDY(r) = beval_rec_mapf(f,t);
1.1 noro 1119: }
1120: if ( r0 )
1121: NEXT(r) = 0;
1122: MKLIST(rl,r0);
1123: val = (pointer)rl;
1124: break;
1125: default:
1126: val = bevalf(f,node);
1127: break;
1128: }
1129: return val;
1130: }
1131:
1.16 noro 1132: pointer bevalf(FUNC f,NODE a)
1.1 noro 1133: {
1134: pointer val;
1135: int i,n;
1136: NODE tn,sn;
1.44 noro 1137: VS pvs,prev_mpvs;
1.1 noro 1138: char errbuf[BUFSIZ];
1139:
1140: if ( f->id == A_UNDEF ) {
1141: sprintf(errbuf,"bevalf : %s undefined",NAME(f));
1.37 noro 1142: error(errbuf);
1143: }
1144: if ( getsecuremode() && !PVSS && !f->secure ) {
1145: sprintf(errbuf,"bevalf : %s not permitted",NAME(f));
1.1 noro 1146: error(errbuf);
1147: }
1148: if ( f->id != A_PARI ) {
1149: for ( i = 0, tn = a; tn; i++, tn = NEXT(tn) );
1150: if ( ((n = f->argc)>= 0 && i != n) || (n < 0 && i > -n) ) {
1151: sprintf(errbuf,"bevalf : argument mismatch in %s()",NAME(f));
1152: error(errbuf);
1153: }
1154: }
1155: switch ( f->id ) {
1156: case A_BIN:
1.68 noro 1157: current_option = 0;
1.1 noro 1158: if ( !n ) {
1159: cur_binf = f;
1160: (*f->f.binf)(&val);
1161: } else {
1162: cur_binf = f;
1163: (*f->f.binf)(a,&val);
1164: }
1165: cur_binf = 0;
1166: break;
1167: case A_PARI:
1168: cur_binf = f;
1169: val = evalparif(f,a);
1170: cur_binf = 0;
1171: break;
1172: case A_USR:
1173: pvs = f->f.usrf->pvs;
1174: if ( PVSS )
1175: ((VS)BDY(PVSS))->at = evalstatline;
1176: MKNODE(tn,pvs,PVSS); PVSS = tn;
1177: CPVS = (VS)ALLOCA(sizeof(struct oVS)); BDY(PVSS) = (pointer)CPVS;
1178: CPVS->usrf = f; CPVS->n = CPVS->asize = pvs->n;
1179: CPVS->opt = 0;
1180: if ( CPVS->n ) {
1181: CPVS->va = (struct oPV *)ALLOCA(CPVS->n*sizeof(struct oPV));
1182: bcopy((char *)pvs->va,(char *)CPVS->va,
1183: (int)(pvs->n*sizeof(struct oPV)));
1184: }
1185: if ( nextbp )
1186: nextbplevel++;
1187: for ( tn = f->f.usrf->args, sn = a;
1188: sn; tn = NEXT(tn), sn = NEXT(sn) )
1189: ASSPV((int)FA0((FNODE)BDY(tn)),BDY(sn));
1.66 noro 1190: f_return = f_break = f_continue = 0;
1.39 noro 1191: if ( f->f.usrf->module ) {
1192: prev_mpvs = MPVS;
1193: MPVS = f->f.usrf->module->pvs;
1194: val = evalstat((SNODE)BDY(f->f.usrf));
1195: MPVS = prev_mpvs;
1196: } else
1197: val = evalstat((SNODE)BDY(f->f.usrf));
1.1 noro 1198: f_return = f_break = f_continue = 0; poppvs();
1199: break;
1200: case A_PURE:
1.44 noro 1201: val = evalpf(f->f.puref,a,0);
1.1 noro 1202: break;
1203: default:
1204: sprintf(errbuf,"bevalf : %s undefined",NAME(f));
1205: error(errbuf);
1206: break;
1207: }
1208: return val;
1209: }
1210:
1.64 ohara 1211: pointer bevalf_with_opts(FUNC f,NODE a,NODE opts)
1212: {
1213: pointer val;
1214: int i,n;
1215: NODE tn,sn;
1216: VS pvs,prev_mpvs;
1217: char errbuf[BUFSIZ];
1218:
1219: if ( f->id == A_UNDEF ) {
1220: sprintf(errbuf,"bevalf : %s undefined",NAME(f));
1221: error(errbuf);
1222: }
1223: if ( getsecuremode() && !PVSS && !f->secure ) {
1224: sprintf(errbuf,"bevalf : %s not permitted",NAME(f));
1225: error(errbuf);
1226: }
1227: if ( f->id != A_PARI ) {
1228: for ( i = 0, tn = a; tn; i++, tn = NEXT(tn) );
1229: if ( ((n = f->argc)>= 0 && i != n) || (n < 0 && i > -n) ) {
1230: sprintf(errbuf,"bevalf : argument mismatch in %s()",NAME(f));
1231: error(errbuf);
1232: }
1233: }
1234: switch ( f->id ) {
1235: case A_BIN:
1236: current_option = opts;
1237: if ( !n ) {
1238: cur_binf = f;
1239: (*f->f.binf)(&val);
1240: } else {
1241: cur_binf = f;
1242: (*f->f.binf)(a,&val);
1243: }
1244: cur_binf = 0;
1245: break;
1246: case A_PARI:
1247: cur_binf = f;
1248: val = evalparif(f,a);
1249: cur_binf = 0;
1250: break;
1251: case A_USR:
1252: pvs = f->f.usrf->pvs;
1253: if ( PVSS )
1254: ((VS)BDY(PVSS))->at = evalstatline;
1255: MKNODE(tn,pvs,PVSS); PVSS = tn;
1256: CPVS = (VS)ALLOCA(sizeof(struct oVS)); BDY(PVSS) = (pointer)CPVS;
1257: CPVS->usrf = f; CPVS->n = CPVS->asize = pvs->n;
1258: CPVS->opt = opts;
1259: if ( CPVS->n ) {
1260: CPVS->va = (struct oPV *)ALLOCA(CPVS->n*sizeof(struct oPV));
1261: bcopy((char *)pvs->va,(char *)CPVS->va,
1262: (int)(pvs->n*sizeof(struct oPV)));
1263: }
1264: if ( nextbp )
1265: nextbplevel++;
1266: for ( tn = f->f.usrf->args, sn = a;
1267: sn; tn = NEXT(tn), sn = NEXT(sn) )
1268: ASSPV((int)FA0((FNODE)BDY(tn)),BDY(sn));
1.66 noro 1269: f_return = f_break = f_continue = 0;
1.64 ohara 1270: if ( f->f.usrf->module ) {
1271: prev_mpvs = MPVS;
1272: MPVS = f->f.usrf->module->pvs;
1273: val = evalstat((SNODE)BDY(f->f.usrf));
1274: MPVS = prev_mpvs;
1275: } else
1276: val = evalstat((SNODE)BDY(f->f.usrf));
1277: f_return = f_break = f_continue = 0; poppvs();
1278: break;
1279: case A_PURE:
1280: val = evalpf(f->f.puref,a,0);
1281: break;
1282: default:
1283: sprintf(errbuf,"bevalf : %s undefined",NAME(f));
1284: error(errbuf);
1285: break;
1286: }
1287: return val;
1288: }
1289:
1.63 noro 1290: pointer evalif(FNODE f,FNODE a,FNODE opt)
1.1 noro 1291: {
1292: Obj g;
1.50 noro 1293: QUOTE q;
1.41 noro 1294: FNODE t;
1.50 noro 1295: LIST l;
1.1 noro 1296:
1297: g = (Obj)eval(f);
1298: if ( g && (OID(g) == O_P) && (VR((P)g)->attr == (pointer)V_SR) )
1.63 noro 1299: return evalf((FUNC)VR((P)g)->priv,a,opt);
1.41 noro 1300: else if ( g && OID(g) == O_QUOTEARG && ((QUOTEARG)g)->type == A_func ) {
1301: t = mkfnode(2,I_FUNC,((QUOTEARG)g)->body,a);
1.50 noro 1302: MKQUOTE(q,t);
1303: return q;
1.41 noro 1304: } else {
1.1 noro 1305: error("invalid function pointer");
1.16 noro 1306: /* NOTREACHED */
1307: return (pointer)-1;
1.1 noro 1308: }
1309: }
1310:
1.44 noro 1311: pointer evalpf(PF pf,NODE args,NODE dargs)
1.1 noro 1312: {
1313: Obj s,s1;
1.54 noro 1314: int i,di,j;
1.44 noro 1315: NODE node,dnode;
1.1 noro 1316: PFINS ins;
1317: PFAD ad;
1318:
1319: if ( !pf->body ) {
1320: ins = (PFINS)CALLOC(1,sizeof(PF)+pf->argc*sizeof(struct oPFAD));
1321: ins->pf = pf;
1.44 noro 1322: for ( i = 0, node = args, dnode = dargs, ad = ins->ad;
1323: node; i++ ) {
1324: ad[i].arg = (Obj)node->body;
1325: if ( !dnode ) ad[i].d = 0;
1326: else
1327: ad[i].d = QTOS((Q)dnode->body);
1328: node = NEXT(node);
1329: if ( dnode ) dnode = NEXT(dnode);
1.1 noro 1330: }
1331: simplify_ins(ins,&s);
1332: } else {
1.54 noro 1333: s = pf->body;
1.69 noro 1334: if ( dargs ) {
1.54 noro 1335: for ( i = 0, dnode = dargs; dnode; dnode = NEXT(dnode), i++ ) {
1336: di = QTOS((Q)dnode->body);
1337: for ( j = 0; j < di; j++ ) {
1338: derivr(CO,s,pf->args[i],&s1); s = s1;
1339: }
1340: }
1341: }
1342: for ( i = 0, node = args; node; node = NEXT(node), i++ ) {
1.1 noro 1343: substr(CO,0,s,pf->args[i],(Obj)node->body,&s1); s = s1;
1344: }
1345: }
1346: return (pointer)s;
1347: }
1348:
1.16 noro 1349: void evalnodebody(NODE sn,NODE *dnp)
1.1 noro 1350: {
1351: NODE n,n0,tn;
1352: int line;
1353:
1354: if ( !sn ) {
1355: *dnp = 0;
1356: return;
1357: }
1358: line = evalstatline;
1359: for ( tn = sn, n0 = 0; tn; tn = NEXT(tn) ) {
1360: NEXTNODE(n0,n);
1361: BDY(n) = eval((FNODE)BDY(tn));
1362: evalstatline = line;
1363: }
1364: NEXT(n) = 0; *dnp = n0;
1365: }
1366:
1.21 noro 1367: MODULE searchmodule(char *name)
1368: {
1369: MODULE mod;
1370: NODE m;
1371:
1372: for ( m = MODULE_LIST; m; m = NEXT(m) ) {
1373: mod = (MODULE)BDY(m);
1374: if ( !strcmp(mod->name,name) )
1375: return mod;
1376: }
1377: return 0;
1378: }
1.24 noro 1379: /*
1380: * xxx.yyy() is searched in the flist
1381: * of the module xxx.
1382: * yyy() is searched in the global flist.
1383: */
1.21 noro 1384:
1.22 noro 1385: void searchuf(char *name,FUNC *r)
1386: {
1387: MODULE mod;
1388: char *name0,*dot;
1389:
1390: if ( dot = strchr(name,'.') ) {
1391: name0 = (char *)ALLOCA(strlen(name)+1);
1392: strcpy(name0,name);
1393: dot = strchr(name0,'.');
1394: *dot = 0;
1395: mod = searchmodule(name0);
1396: if ( mod )
1397: searchf(mod->usrf_list,dot+1,r);
1398: } else
1399: searchf(usrf,name,r);
1400: }
1401:
1.16 noro 1402: void gen_searchf(char *name,FUNC *r)
1.12 noro 1403: {
1.21 noro 1404: FUNC val = 0;
1.29 noro 1405: int global = 0;
1406: if ( *name == ':' ) {
1407: global = 1;
1408: name += 2;
1409: }
1410: if ( CUR_MODULE && !global )
1.21 noro 1411: searchf(CUR_MODULE->usrf_list,name,&val);
1.25 noro 1412: if ( !val )
1413: searchf(sysf,name,&val);
1414: if ( !val )
1415: searchf(ubinf,name,&val);
1416: if ( !val )
1417: searchpf(name,&val);
1418: if ( !val )
1419: searchuf(name,&val);
1420: if ( !val )
1421: appenduf(name,&val);
1.34 noro 1422: *r = val;
1423: }
1424:
1.70 noro 1425: void gen_searchf_searchonly(char *name,FUNC *r,int global)
1.34 noro 1426: {
1427: FUNC val = 0;
1428: if ( *name == ':' ) {
1429: global = 1;
1430: name += 2;
1431: }
1432: if ( CUR_MODULE && !global )
1433: searchf(CUR_MODULE->usrf_list,name,&val);
1434: if ( !val )
1435: searchf(sysf,name,&val);
1436: if ( !val )
1437: searchf(ubinf,name,&val);
1438: if ( !val )
1439: searchpf(name,&val);
1440: if ( !val )
1441: searchuf(name,&val);
1.12 noro 1442: *r = val;
1443: }
1444:
1.16 noro 1445: void searchf(NODE fn,char *name,FUNC *r)
1.1 noro 1446: {
1447: NODE tn;
1448:
1449: for ( tn = fn;
1450: tn && strcmp(NAME((FUNC)BDY(tn)),name); tn = NEXT(tn) );
1451: if ( tn ) {
1452: *r = (FUNC)BDY(tn);
1453: return;
1454: }
1455: *r = 0;
1456: }
1457:
1.22 noro 1458: MODULE mkmodule(char *);
1459:
1.16 noro 1460: void appenduf(char *name,FUNC *r)
1.1 noro 1461: {
1462: NODE tn;
1463: FUNC f;
1.22 noro 1464: int len;
1465: MODULE mod;
1466: char *modname,*fname,*dot;
1.1 noro 1467:
1468: f=(FUNC)MALLOC(sizeof(struct oFUNC));
1.22 noro 1469: f->id = A_UNDEF; f->argc = 0; f->f.binf = 0;
1470: if ( dot = strchr(name,'.') ) {
1.28 noro 1471: /* undefined function in a module */
1.22 noro 1472: len = dot-name;
1473: modname = (char *)MALLOC_ATOMIC(len+1);
1474: strncpy(modname,name,len); modname[len] = 0;
1475: fname = (char *)MALLOC_ATOMIC(strlen(name)-len+1);
1476: strcpy(fname,dot+1);
1477: f->name = fname;
1.25 noro 1478: f->fullname = name;
1.28 noro 1479: mod = searchmodule(modname);
1480: if ( !mod )
1481: mod = mkmodule(modname);
1482: MKNODE(tn,f,mod->usrf_list); mod->usrf_list = tn;
1.21 noro 1483: } else {
1.22 noro 1484: f->name = name;
1.25 noro 1485: f->fullname = name;
1486: MKNODE(tn,f,usrf); usrf = tn;
1.21 noro 1487: }
1.1 noro 1488: *r = f;
1489: }
1490:
1.25 noro 1491: void appenduf_local(char *name,FUNC *r)
1.24 noro 1492: {
1493: NODE tn;
1494: FUNC f;
1.25 noro 1495: MODULE mod;
1.24 noro 1496:
1.27 noro 1497: for ( tn = CUR_MODULE->usrf_list; tn; tn = NEXT(tn) )
1498: if ( !strcmp(((FUNC)BDY(tn))->name,name) )
1499: break;
1500: if ( tn )
1501: return;
1502:
1.24 noro 1503: f=(FUNC)MALLOC(sizeof(struct oFUNC));
1504: f->id = A_UNDEF; f->argc = 0; f->f.binf = 0;
1.25 noro 1505: f->name = name;
1506: f->fullname =
1507: (char *)MALLOC_ATOMIC(strlen(CUR_MODULE->name)+strlen(name)+1);
1508: sprintf(f->fullname,"%s.%s",CUR_MODULE->name,name);
1509: MKNODE(tn,f,CUR_MODULE->usrf_list); CUR_MODULE->usrf_list = tn;
1.24 noro 1510: *r = f;
1511: }
1512:
1.25 noro 1513: void appenduflist(NODE n)
1514: {
1515: NODE tn;
1516: FUNC f;
1517:
1518: for ( tn = n; tn; tn = NEXT(tn) )
1519: appenduf_local((char *)BDY(tn),&f);
1520: }
1521:
1.16 noro 1522: void mkparif(char *name,FUNC *r)
1.1 noro 1523: {
1524: FUNC f;
1525:
1526: *r = f =(FUNC)MALLOC(sizeof(struct oFUNC));
1527: f->name = name; f->id = A_PARI; f->argc = 0; f->f.binf = 0;
1.27 noro 1528: f->fullname = name;
1.1 noro 1529: }
1530:
1.21 noro 1531: void mkuf(char *name,char *fname,NODE args,SNODE body,int startl,int endl,char *desc,MODULE module)
1.1 noro 1532: {
1533: FUNC f;
1534: USRF t;
1.21 noro 1535: NODE usrf_list,sn,tn;
1.1 noro 1536: FNODE fn;
1.21 noro 1537: char *longname;
1.1 noro 1538: int argc;
1539:
1.38 noro 1540: if ( getsecuremode() ) {
1541: error("defining function is not permitted in the secure mode");
1542: }
1.29 noro 1543: if ( *name == ':' )
1544: name += 2;
1.21 noro 1545: if ( !module ) {
1546: searchf(sysf,name,&f);
1547: if ( f ) {
1548: fprintf(stderr,"def : builtin function %s() cannot be redefined.\n",name);
1549: CPVS = GPVS; return;
1550: }
1.1 noro 1551: }
1552: for ( argc = 0, sn = args; sn; argc++, sn = NEXT(sn) ) {
1553: fn = (FNODE)BDY(sn);
1554: if ( !fn || ID(fn) != I_PVAR ) {
1555: fprintf(stderr,"illegal argument in %s()\n",name);
1556: CPVS = GPVS; return;
1557: }
1558: }
1.21 noro 1559: usrf_list = module ? module->usrf_list : usrf;
1560: for ( sn = usrf_list; sn && strcmp(NAME((FUNC)BDY(sn)),name); sn = NEXT(sn) );
1.1 noro 1561: if ( sn )
1562: f = (FUNC)BDY(sn);
1563: else {
1564: f=(FUNC)MALLOC(sizeof(struct oFUNC));
1565: f->name = name;
1.21 noro 1566: MKNODE(tn,f,usrf_list); usrf_list = tn;
1.25 noro 1567: if ( module ) {
1568: f->fullname =
1569: (char *)MALLOC_ATOMIC(strlen(f->name)+strlen(module->name)+1);
1570: sprintf(f->fullname,"%s.%s",module->name,f->name);
1.21 noro 1571: module->usrf_list = usrf_list;
1.25 noro 1572: } else {
1573: f->fullname = f->name;
1.21 noro 1574: usrf = usrf_list;
1.25 noro 1575: }
1.21 noro 1576: }
1577: if ( Verbose && f->id != A_UNDEF ) {
1578: if ( module )
1579: fprintf(stderr,"Warning : %s.%s() redefined.\n",module->name,name);
1580: else
1581: fprintf(stderr,"Warning : %s() redefined.\n",name);
1.1 noro 1582: }
1583: t=(USRF)MALLOC(sizeof(struct oUSRF));
1584: t->args=args; BDY(t)=body; t->pvs = CPVS; t->fname = fname;
1.21 noro 1585: t->startl = startl; t->endl = endl; t->module = module;
1.1 noro 1586: t->desc = desc;
1587: f->id = A_USR; f->argc = argc; f->f.usrf = t;
1588: CPVS = GPVS;
1.24 noro 1589: CUR_FUNC = 0;
1.1 noro 1590: clearbp(f);
1591: }
1592:
1593: /*
1594: retrieve value of an option whose key matches 'key'
1595: CVS->opt is a list(node) of key-value pair (list)
1596: CVS->opt = BDY([[key,value],[key,value],...])
1597: */
1598:
1.16 noro 1599: Obj getopt_from_cpvs(char *key)
1.1 noro 1600: {
1601: NODE opts,opt;
1.12 noro 1602: LIST r;
1.1 noro 1603: extern Obj VOIDobj;
1604:
1605: opts = CPVS->opt;
1.12 noro 1606: if ( !key ) {
1607: MKLIST(r,opts);
1608: return (Obj)r;
1609: } else {
1610: for ( ; opts; opts = NEXT(opts) ) {
1611: asir_assert(BDY(opts),O_LIST,"getopt_from_cvps");
1612: opt = BDY((LIST)BDY(opts));
1613: if ( !strcmp(key,BDY((STRING)BDY(opt))) )
1614: return (Obj)BDY(NEXT(opt));
1615: }
1616: return VOIDobj;
1.1 noro 1617: }
1618:
1.21 noro 1619: }
1620:
1621: MODULE mkmodule(char *name)
1622: {
1623: MODULE mod;
1624: NODE m;
1625: int len;
1626: VS mpvs;
1627:
1628: for ( m = MODULE_LIST; m; m = NEXT(m) ) {
1629: mod = (MODULE)m->body;
1630: if ( !strcmp(mod->name,name) )
1631: break;
1632: }
1633: if ( m )
1634: return mod;
1635: else {
1636: mod = (MODULE)MALLOC(sizeof(struct oMODULE));
1637: len = strlen(name);
1638: mod->name = (char *)MALLOC_ATOMIC(len+1);
1639: strcpy(mod->name,name);
1640: mod->pvs = mpvs = (VS)MALLOC(sizeof(struct oVS));
1.76 noro 1641: asir_reallocarray((char **)&mpvs->va,(int *)&mpvs->asize,
1.21 noro 1642: (int *)&mpvs->n,(int)sizeof(struct oPV));
1643: mod->usrf_list = 0;
1644: MKNODE(m,mod,MODULE_LIST);
1645: MODULE_LIST = m;
1646: return mod;
1647: }
1.23 noro 1648: }
1649:
1.24 noro 1650: void print_crossref(FUNC f)
1651: {
1.26 takayama 1652: FUNC r;
1653: if ( show_crossref && CUR_FUNC ) {
1654: searchuf(f->fullname,&r);
1655: if (r != NULL) {
1656: fprintf(asir_out,"%s() at line %d in %s()\n",
1657: f->fullname, asir_infile->ln, CUR_FUNC);
1658: }
1659: }
1.1 noro 1660: }
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