![[BACK]](/cvsweb/icons/back.gif){kind=icon}
Return to eval.c CVS log ![[TXT]](/cvsweb/icons/text.gif){kind=icon}
![[DIR]](/cvsweb/icons/dir.gif){kind=icon}
Up to [CSRG BSD Unix] / 43BSD / ucb / lisp / franz|
Return to eval.c CVS log | Up to [CSRG BSD Unix] / 43BSD / ucb / lisp / franz |
1.1 root 1: #ifndef lint
2: static char *rcsid =
3: "$Header: eval.c,v 1.6 83/09/07 17:54:42 sklower Exp $";
4: #endif
5:
6: /* -[Thu Aug 18 10:07:22 1983 by jkf]-
7: * eval.c $Locker: $
8: * evaluator
9: *
10: * (c) copyright 1982, Regents of the University of California
11: */
12:
13: #include "global.h"
14: #include <signal.h>
15: #include "frame.h"
16:
17:
18:
19: /*
20: * eval
21: * returns the value of the pointer passed as the argument.
22: *
23: */
24:
25: lispval
26: eval(actarg)
27: lispval actarg;
28: {
29: #define argptr handy
30: register lispval a = actarg;
31: register lispval handy;
32: register struct nament *namptr;
33: register struct argent *workp;
34: struct nament *oldbnp = bnp;
35: int dopopframe = FALSE;
36: int type, shortcircuit = TRUE;
37: lispval Ifcall(), Iarray();
38: Savestack(4);
39:
40: /*debugging
41: if (rsetsw && rsetatom->a.clb != nil) {
42: printf("Eval:");
43: printr(a,stdout);
44: printf("\nrsetsw: %d evalhsw: %d\n", rsetsw, evalhsw);
45: printf("*rset: ");
46: printr(rsetatom->a.clb,stdout);
47: printf(" evalhook: ");
48: printr(evalhatom->a.clb,stdout);
49: printf(" evalhook call flag^G: %d\n", evalhcallsw);
50: fflush(stdout);
51: };
52: */
53:
54: /* check if an interrupt is pending and handle if so */
55: if(sigintcnt > 0) sigcall(SIGINT);
56:
57: if (rsetsw && rsetatom->a.clb != nil) /* if (*rset t) has been done */
58: {
59: pbuf pb;
60: shortcircuit = FALSE;
61: if (evalhsw != nil && evalhatom->a.clb != nil)
62: {
63: /*if (sstatus evalhook t)
64: and evalhook non-nil */
65: if (!evalhcallsw)
66: /*if we got here after calling evalhook, then
67: evalhcallsw will be TRUE, so we want to skip calling
68: the hook function, permitting one form to be
69: evaluated before the hook fires.
70: */
71: {
72: /* setup equivalent of (funcall evalhook <arg to eval>) */
73: (np++)->val = a; /* push form on namestack */
74: lbot=np; /* set up args to funcall */
75: (np++)->val = evalhatom->a.clb; /* push evalhook's clb */
76: (np++)->val = a; /* eval's arg becomes
77: 2nd arg to funcall */
78: PUSHDOWN(evalhatom, nil); /* bind evalhook to nil*/
79: PUSHDOWN(funhatom, nil); /* bind funcallhook to nil*/
80: funhcallsw = TRUE; /* skip any funcall hook */
81: handy = Lfuncal(); /* now call funcall */
82: funhcallsw = FALSE;
83: POP;
84: POP;
85: Restorestack();
86: return(handy);
87: };
88: }
89: errp = Pushframe(F_EVAL,a,nil);
90: dopopframe = TRUE; /* remember to pop later */
91: if(retval == C_FRETURN)
92: {
93: Restorestack();
94: errp = Popframe();
95: return(lispretval);
96: }
97: };
98:
99: evalhcallsw = FALSE; /* clear indication that evalhook called */
100:
101: switch (TYPE(a))
102: {
103: case ATOM:
104: if (rsetsw && rsetatom->a.clb != nil && bptr_atom->a.clb != nil) {
105:
106: struct nament *bpntr, *eval1bptr;
107: /* Both rsetsw and rsetatom for efficiency*/
108: /* bptr_atom set by second arg to eval1 */
109: eval1bptr = (struct nament *) bptr_atom->a.clb->d.cdr;
110: /* eval1bptr is bnp when eval1 was called;
111: if an atom was bound after this,
112: then its clb is valid */
113: for (bpntr = eval1bptr; bpntr < bnp; bpntr++)
114: if (bpntr->atm==a) {
115: handy = a->a.clb;
116: goto gotatom;
117: }; /* Value saved in first binding of a,
118: if any, after pointer to eval1,
119: is the valid value, else use its clb */
120: for (bpntr = (struct nament *)bptr_atom->a.clb->d.car;
121: bpntr < eval1bptr; bpntr++)
122: if (bpntr->atm==a) {
123: handy=bpntr->val;
124: goto gotatom; /* Simply no way around goto here */
125: };
126: };
127: handy = a->a.clb;
128: gotatom:
129: if(handy==CNIL) {
130: handy = errorh1(Vermisc,"Unbound Variable:",nil,TRUE,0,a);
131: }
132: if(dopopframe) errp = Popframe();
133: Restorestack();
134: return(handy);
135:
136: case VALUE:
137: if(dopopframe) errp = Popframe();
138: Restorestack();
139: return(a->l);
140:
141: case DTPR:
142: (np++)->val = a; /* push form on namestack */
143: lbot = np; /* define beginning of argstack */
144: /* oldbnp = bnp; redundant - Mitch Marcus */
145: a = a->d.car; /* function name or lambda-expr */
146: for(EVER)
147: {
148: switch(TYPE(a))
149: {
150: case ATOM:
151: /* get function binding */
152: if(a->a.fnbnd==nil && a->a.clb!=nil) {
153: a=a->a.clb;
154: if(TYPE(a)==ATOM)
155: a=a->a.fnbnd;
156: } else
157: a = a->a.fnbnd;
158: break;
159: case VALUE:
160: a = a->l; /* get value */
161: break;
162: }
163:
164: vtemp = (CNIL-1); /* sentinel value for error test */
165:
166: /*funcal:*/ switch (TYPE(a))
167: {
168: case BCD: /* function */
169: argptr = actarg->d.cdr;
170:
171: /* decide whether lambda, nlambda or
172: macro and push args onto argstack
173: accordingly. */
174:
175: if(a->bcd.discipline==nlambda) {
176: (np++)->val = argptr;
177: TNP;
178: } else if(a->bcd.discipline==macro) {
179: (np++)->val = actarg;
180: TNP;
181: } else for(;argptr!=nil; argptr = argptr->d.cdr) {
182: /* short circuit evaluations of ATOM, INT, DOUB
183: * if not in debugging mode
184: */
185: if(shortcircuit
186: && ((type = TYPE(argptr->d.car)) == ATOM)
187: && (argptr->d.car->a.clb != CNIL))
188: (np++)->val = argptr->d.car->a.clb;
189: else if(shortcircuit &&
190: ((type == INT) || (type == STRNG)))
191: (np++)->val = argptr->d.car;
192: else
193: (np++)->val = eval(argptr->d.car);
194: TNP;
195: }
196: /* go for it */
197:
198: if(TYPE(a->bcd.discipline)==STRNG)
199: vtemp = Ifcall(a);
200: else
201: vtemp = (*(lispval (*)())(a->bcd.start))();
202: break;
203:
204: case ARRAY:
205: vtemp = Iarray(a,actarg->d.cdr,TRUE);
206: break;
207:
208: case DTPR: /* push args on argstack according to
209: type */
210: protect(a); /* save function definition in case function
211: is redefined */
212: lbot = np;
213: argptr = a->d.car;
214: if (argptr==lambda) {
215: for(argptr = actarg->d.cdr;
216: argptr!=nil; argptr=argptr->d.cdr) {
217:
218: (np++)->val = eval(argptr->d.car);
219: TNP;
220: }
221: } else if (argptr==nlambda) {
222: (np++)->val = actarg->d.cdr;
223: TNP;
224: } else if (argptr==macro) {
225: (np++)->val = actarg;
226: TNP;
227: } else if (argptr==lexpr) {
228: for(argptr = actarg->d.cdr;
229: argptr!=nil; argptr=argptr->d.cdr) {
230:
231: (np++)->val = eval(argptr->d.car);
232: TNP;
233: }
234: handy = newdot();
235: handy->d.car = (lispval)lbot;
236: handy->d.cdr = (lispval)np;
237: PUSHDOWN(lexpr_atom,handy);
238: lbot = np;
239: (np++)->val = inewint(((lispval *)handy->d.cdr) - (lispval *)handy->d.car);
240:
241: } else break; /* something is wrong - this isn't a proper function */
242:
243: argptr = (a->d.cdr)->d.car;
244: namptr = bnp;
245: workp = lbot;
246: if(bnp + (np - lbot)> bnplim)
247: binderr();
248: for(;argptr != (lispval)nil;
249: workp++,argptr = argptr->d.cdr) /* rebind formal names (shallow) */
250: {
251: if(argptr->d.car==nil)
252: continue;
253: /*if(((namptr)->atm = argptr->d.car)==nil)
254: error("Attempt to lambda bind nil",FALSE);*/
255: namptr->atm = argptr->d.car;
256: if (workp < np) {
257: namptr->val = namptr->atm->a.clb;
258: namptr->atm->a.clb = workp->val;
259: } else
260: bnp = namptr,
261: error("Too few actual parameters",FALSE);
262: namptr++;
263: }
264: bnp = namptr;
265: if (workp < np)
266: error("Too many actual parameters",FALSE);
267:
268: /* execute body, implied prog allowed */
269:
270: for (handy = a->d.cdr->d.cdr;
271: handy != nil;
272: handy = handy->d.cdr) {
273: vtemp = eval(handy->d.car);
274: }
275: }
276: if (vtemp != (CNIL-1)) {
277: /* if we get here with a believable value, */
278: /* we must have executed a function. */
279: popnames(oldbnp);
280:
281: /* in case some clown trashed t */
282:
283: tatom->a.clb = (lispval) tatom;
284: if(a->d.car==macro)
285: {
286: if(Vdisplacemacros->a.clb && (TYPE(vtemp) == DTPR))
287: {
288: actarg->d.car = vtemp->d.car;
289: actarg->d.cdr = vtemp->d.cdr;
290: }
291: vtemp = eval(vtemp);
292: }
293: /* It is of the most wonderful
294: coincidence that the offset
295: for car is the same as for
296: discipline so we get bcd macros
297: for free here ! */
298: if(dopopframe) errp = Popframe();
299: Restorestack();
300: return(vtemp);
301: }
302: popnames(oldbnp);
303: a = (lispval) errorh1(Verundef,"eval: Undefined function ",nil,TRUE,0,actarg->d.car);
304: }
305:
306: }
307: if(dopopframe) errp = Popframe();
308: Restorestack();
309: return(a); /* other data types are considered constants */
310: }
311:
312: /*
313: * popnames
314: * removes from the name stack all entries above the first argument.
315: * routine should usually be used to clean up the name stack as it
316: * knows about the special cases. bnp is returned pointing to the
317: * same place as the argument passed.
318: */
319: lispval
320: popnames(llimit)
321: register struct nament *llimit;
322: {
323: register struct nament *rnp;
324:
325: for(rnp = bnp; --rnp >= llimit;)
326: rnp->atm->a.clb = rnp->val;
327: bnp = llimit;
328: }
329:
330:
331: /* dumpnamestack
332: * utility routine to dump out the namestack.
333: * from bottom to 5 above np
334: * should be put elsewhere
335: */
336: dumpnamestack()
337: {
338: struct argent *newnp;
339:
340: printf("namestack dump:\n");
341: for(newnp = orgnp ; (newnp < np + 6) && (newnp < nplim) ; newnp++)
342: {
343: if(newnp == np) printf("**np:**\n");
344: printf("[%d]: ",newnp-orgnp);
345: printr(newnp->val,stdout);
346: printf("\n");
347: }
348: printf("end namestack dump\n");
349: }
350:
351:
352:
353: lispval
354: Lapply()
355: {
356: register lispval a;
357: register lispval handy;
358: lispval vtemp, Ifclosure();
359: struct nament *oldbnp = bnp;
360: struct argent *oldlbot = lbot; /* Bottom of my frame! */
361: struct argent *oldnp = np; /* First free on stack */
362: int extrapush; /* if must save function value */
363:
364: a = lbot->val;
365: argptr = lbot[1].val;
366: if(np-lbot!=2)
367: errorh2(Vermisc,"Apply: Wrong number of args.",nil,FALSE,
368: 999,a,argptr);
369: if(TYPE(argptr)!=DTPR && argptr!=nil)
370: argptr = errorh1(Vermisc,"Apply: non-list of args",nil,TRUE,
371: 998,argptr);
372: (np++)->val = a; /* push form on namestack */
373: TNP;
374: lbot = np; /* bottom of current frame */
375: for(EVER)
376: {
377: extrapush = 0;
378: if (TYPE(a) == ATOM) { a = a->a.fnbnd; extrapush = 1; }
379: /* get function definition (unless
380: calling form is itself a lambda-
381: expression) */
382: vtemp = CNIL; /* sentinel value for error test */
383: switch (TYPE(a)) {
384:
385: case BCD:
386: /* push arguments - value of a */
387: if(a->bcd.discipline==nlambda || a->bcd.discipline==macro) {
388: (np++)->val=argptr;
389: TNP;
390: } else for (; argptr!=nil; argptr = argptr->d.cdr) {
391: (np++)->val=argptr->d.car;
392: TNP;
393: }
394:
395: if(TYPE(a->bcd.discipline) == STRNG)
396: vtemp = Ifcall(a); /* foreign function */
397: else
398: vtemp = (*(lispval (*)())(a->bcd.start))(); /* go for it */
399: break;
400:
401: case ARRAY:
402: vtemp = Iarray(a,argptr,FALSE);
403: break;
404:
405:
406: case DTPR:
407: if (a->d.car==nlambda || a->d.car==macro) {
408: (np++)->val = argptr;
409: TNP;
410: } else if (a->d.car==lambda)
411: for (; argptr!=nil; argptr = argptr->d.cdr) {
412: (np++)->val = argptr->d.car;
413: TNP;
414: }
415: else if(a->d.car==lexpr) {
416: for (; argptr!=nil; argptr = argptr->d.cdr) {
417:
418: (np++)->val = argptr->d.car;
419: TNP;
420: }
421: handy = newdot();
422: handy->d.car = (lispval)lbot;
423: handy->d.cdr = (lispval)np;
424: PUSHDOWN(lexpr_atom,handy);
425: lbot = np;
426: (np++)->val = inewint(((lispval *)handy->d.cdr) - (lispval *)handy->d.car);
427:
428: } else break; /* something is wrong - this isnt a proper function */
429: rebind(a->d.cdr->d.car,lbot);
430:
431: if (extrapush == 1) { protect(a); extrapush = 2;}
432: for (handy = a->d.cdr->d.cdr;
433: handy != nil;
434: handy = handy->d.cdr) {
435: vtemp = eval(handy->d.car); /* go for it */
436: }
437: break;
438:
439: case VECTOR:
440: /* certain vectors are valid (fclosures) */
441: if(a->v.vector[VPropOff] == fclosure)
442: vtemp = (lispval) Ifclosure(a,FALSE);
443: break;
444:
445: };
446:
447: /* pop off extra value if we pushed it before */
448: if (extrapush == 2)
449: {
450: np--;
451: extrapush = 0;
452: };
453:
454: if (vtemp != CNIL)
455: /* if we get here with a believable value, */
456: /* we must have executed a function. */
457: {
458: popnames(oldbnp);
459:
460: /* in case some clown trashed t */
461:
462: tatom->a.clb = (lispval) tatom;
463: np = oldnp; lbot = oldlbot;
464: return(vtemp);
465: }
466: popnames(oldbnp);
467: a = (lispval) errorh1(Verundef,"apply: Undefined Function ",
468: nil,TRUE,0,oldlbot->val);
469: }
470: /*NOT REACHED*/
471: }
472:
473:
474: /*
475: * Rebind -- rebind formal names
476: */
477: rebind(argptr,workp)
478: register lispval argptr; /* argptr points to list of atoms */
479: register struct argent * workp; /* workp points to position on stack
480: where evaluated args begin */
481: {
482: register struct nament *namptr = bnp;
483:
484: for(;argptr != (lispval)nil;
485: workp++,argptr = argptr->d.cdr) /* rebind formal names (shallow) */
486: {
487: if(argptr->d.car==nil)
488: continue;
489: namptr->atm = argptr->d.car;
490: if (workp < np) {
491: namptr->val = namptr->atm->a.clb;
492: namptr->atm->a.clb = workp->val;
493: } else
494: bnp = namptr,
495: error("Too few actual parameters",FALSE);
496: namptr++;
497: if(namptr > bnplim)
498: binderr();
499: }
500: bnp = namptr;
501: if (workp < np)
502: error("Too many actual parameters",FALSE);
503: }
504:
505: /* the argument to Lfuncal is now mandatory since nargs
506: * wont work on RISC. If it is given then it is
507: * the name of the function to call and lbot points to the first arg.
508: * if it is not given, then lbot points to the function to call
509: */
510: lispval
511: Ifuncal(fcn)
512: lispval fcn;
513: {
514: register lispval a;
515: register lispval handy;
516: struct nament *oldbnp = bnp; /* MUST be first local for evalframe */
517: lispval fcncalled;
518: lispval Ifcall(),Llist(),Iarray(), Ifclosure();
519: lispval vtemp;
520: int typ, dopopframe = FALSE, extrapush;
521: extern lispval end[];
522: Savestack(3);
523:
524: /*if(nargs()==1) /* function I am evaling. */
525: a = fcncalled = fcn;
526: /*else { a = fcncalled = lbot->val; lbot++; }*/
527:
528: /*debugging
529: if (rsetsw && rsetatom->a.clb != nil) {
530: printf("funcall:");
531: printr(a,stdout);
532: printf("\nrsetsw: %d evalhsw: %d\n", rsetsw, evalhsw);
533: printf("*rset: ");
534: printr(rsetatom->a.clb,stdout);
535: printf(" funhook: ");
536: printr(funhatom->a.clb,stdout);
537: printf(" funhook call flag^G: %d\n",funhcallsw);
538: fflush(stdout);
539: };
540: */
541:
542: /* check if exception pending */
543: if(sigintcnt > 0 ) sigcall(SIGINT);
544:
545: if (rsetsw && rsetatom->a.clb != nil) /* if (*rset t) has been done */
546: {
547: pbuf pb;
548: if (evalhsw != nil && funhatom->a.clb != nil)
549: {
550: /*if (sstatus evalhook t)
551: and evalhook non-nil */
552: if (!funhcallsw)
553: /*if we got here after calling funcallhook, then
554: funhcallsw will be TRUE, so we want to skip calling
555: the hook function, permitting one form to be
556: evaluated before the hook fires.
557: */
558: {
559: /* setup equivalent of (funcall funcallhook <args to eval>) */
560: protect(a);
561: a = fcncalled = funhatom->a.clb; /* new function to funcall */
562: PUSHDOWN(funhatom, nil); /* lambda-bind
563: * funcallhook to nil
564: */
565: PUSHDOWN(evalhatom, nil);
566: /* printf(" now will funcall ");
567: printr(a,stdout);
568: putchar('\n');
569: fflush(stdout); */
570: };
571: }
572: errp = Pushframe(F_FUNCALL,a,nil);
573: dopopframe = TRUE; /* remember to pop later */
574: if(retval == C_FRETURN)
575: {
576: popnames(oldbnp);
577: errp = Popframe();
578: Restorestack();
579: return(lispretval);
580: }
581: };
582:
583: funhcallsw = FALSE; /* so recursive calls to funcall will cause hook
584: to fire */
585: for(EVER)
586: {
587: top:
588: extrapush = 0;
589:
590: typ = TYPE(a);
591: if (typ == ATOM)
592: { /* get function defn (unless calling form */
593: /* is itself a lambda-expr) */
594: a = a->a.fnbnd;
595: typ = TYPE(a);
596: extrapush = 1; /* must protect this later */
597: }
598: vtemp = CNIL-1; /* sentinel value for error test */
599: switch (typ) {
600: case ARRAY:
601: protect(a); /* stack array descriptor on top */
602: a = a->ar.accfun; /* now funcall access function */
603: goto top;
604: case BCD:
605: if(a->bcd.discipline==nlambda)
606: { if(np==lbot) protect(nil); /* default is nil */
607: while(np-lbot!=1 || (lbot->val != nil &&
608: TYPE(lbot->val)!=DTPR)) {
609:
610: lbot->val = errorh1(Vermisc,"Bad funcall arg(s) to fexpr.",
611: nil,TRUE,0,lbot->val);
612:
613: np = lbot+1;
614: }
615: }
616: /* go for it */
617:
618: if(TYPE(a->bcd.discipline)==STRNG)
619: vtemp = Ifcall(a);
620: else
621: vtemp = (*(lispval (*)())(a->bcd.start))();
622: if(a->bcd.discipline==macro)
623: vtemp = eval(vtemp);
624: break;
625:
626:
627: case DTPR:
628: if (a->d.car == lambda) {
629: ;/* VOID */
630: } else if (a->d.car == nlambda || a->d.car==macro) {
631: if( np==lbot ) protect(nil); /* default */
632: while(np-lbot!=1 || (lbot->val != nil &&
633: TYPE(lbot->val)!=DTPR)) {
634: lbot->val = error("Bad funcall arg(s) to fexpr.",TRUE);
635: np = lbot+1;
636: }
637: } else if (a->d.car == lexpr) {
638: handy = newdot();
639: handy->d.car = (lispval) lbot;
640: handy->d.cdr = (lispval) np;
641: PUSHDOWN(lexpr_atom,handy);
642: lbot = np;
643: (np++)->val = inewint(((lispval *)handy->d.cdr) - (lispval *)handy->d.car);
644: } else break; /* something is wrong - this isn't a proper function */
645: rebind(a->d.cdr->d.car,lbot);
646:
647: /* since the actual arguments are bound to their formal params
648: * we can pop them off the stack. However if we are doing
649: * debugging (that is if we've pushed a frame on the stack)
650: * then we must not pop off the actual args since they must
651: * be visible for evalframe to work
652: */
653: if(!dopopframe) np = lbot;
654: if (extrapush == 1) {protect(a); extrapush = 2;}
655: for (handy = a->d.cdr->d.cdr;
656: handy != nil;
657: handy = handy->d.cdr) {
658: vtemp = eval(handy->d.car); /* go for it */
659: }
660: if(a->d.car==macro)
661: vtemp = eval(vtemp);
662: break;
663:
664: case VECTOR:
665: /* A fclosure represented as a vector with the property 'fclosure' */
666: if(a->v.vector[VPropOff] == fclosure)
667: vtemp = (lispval) Ifclosure(a,TRUE);
668: break;
669:
670: }
671:
672: /* pop off extra value if we pushed it before */
673: if(extrapush == 2) { np-- ; extrapush = 0; }
674:
675: if (vtemp != CNIL-1)
676: /* if we get here with a believable value, */
677: /* we must have executed a function. */
678: {
679: popnames(oldbnp);
680:
681: /* in case some clown trashed t */
682:
683: tatom->a.clb = (lispval) tatom;
684:
685: if(dopopframe) errp = Popframe();
686: Restorestack();
687: return(vtemp);
688: }
689: popnames(oldbnp);
690: a = fcncalled = (lispval) errorh1(Verundef,"funcall: Bad function",
691: nil,TRUE,0,fcncalled);
692: }
693: /*NOT REACHED*/
694: }
695: lispval /* this version called from lisp */
696: Lfuncal()
697: {
698: lispval handy;
699: Savestack(0);
700:
701: switch(np-lbot)
702: {
703: case 0: argerr("funcall");
704: break;
705: }
706: handy = lbot++->val;
707: handy = Ifuncal(handy);
708: Restorestack();
709: return(handy);
710: }
711:
712: /* The following must be the next "function" after Lfuncal, for the
713: sake of Levalf. */
714: fchack () {}
715:
716:
717: /*
718: * Llexfun :: lisp function lexpr-funcall
719: * lexpr-funcall is a cross between funcall and apply.
720: * the last argument is nil or a list of the rest of the arguments.
721: * we push those arguments on the stack and call funcall
722: *
723: */
724: lispval
725: Llexfun()
726: {
727: register lispval handy;
728:
729: switch(np-lbot)
730: {
731: case 0: argerr("lexpr-funcall"); /* need at least one arg */
732: break;
733: case 1: return(Lfuncal()); /* no args besides function */
734: }
735: /* have at least one argument past the function to funcall */
736: handy = np[-1].val; /* get last value */
737: np--; /* pop it off stack */
738:
739: while((handy != nil) && (TYPE(handy) != DTPR))
740: handy = errorh1(Vermisc,"lexpr-funcall: last argument is not a list ",
741: nil,TRUE,0,handy);
742:
743: /* stack arguments */
744: for( ; handy != nil ; handy = handy->d.cdr) protect(handy->d.car);
745:
746: return(Lfuncal());
747: }
748:
749:
750: #undef protect
751:
752: /* protect
753: * pushes the first argument onto namestack, thereby protecting from gc
754: */
755: lispval
756: protect(a)
757: lispval a;
758: {
759: (np++)->val = a;
760: if (np >= nplim)
761: namerr();
762: }
763:
764: /* unprot
765: * returns the top thing on the name stack. Underflow had better not
766: * occur.
767: */
768: lispval
769: unprot()
770: {
771: return((--np)->val);
772: }
773:
774: lispval
775: linterp()
776: {
777: error("BYTE INTERPRETER CALLED ERRONEOUSLY",FALSE);
778: }
779:
780: /* Undeff - called from qfuncl when it detects a call to a undefined
781: function from compiled code, we print out a message and
782: will continue only if returned a symbol (ATOM in C parlance).
783: */
784: lispval
785: Undeff(atmn)
786: lispval atmn;
787: {
788: do {atmn =errorh1(Verundef,"Undefined function called from compiled code ",
789: nil,TRUE,0,atmn);}
790: while(TYPE(atmn) != ATOM);
791: return(atmn);
792: }
793:
794: /* VARARGS1 */
795: bindfix(firstarg)
796: lispval firstarg;
797: {
798: register lispval *argp = &firstarg;
799: register struct nament *mybnp = bnp;
800: while(*argp != nil) {
801: mybnp->atm = *argp++;
802: mybnp->val = mybnp->atm->a.clb;
803: mybnp->atm->a.clb = *argp++;
804: bnp = mybnp++;
805: }
806: }
807:
This archive runs on limited infrastructure. Preserving old code on modern bandwidth. Automated agents are requested to crawl responsibly.