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Revision: 1.7
Committed: Wed Nov 25 22:12:59 2015 UTC (8 years, 6 months ago) by root
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Branch: MAIN
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# Content
1 /*
2 * µscheme
3 *
4 * Copyright (C) 2015 Marc Alexander Lehmann <uscheme@schmorp.de>
5 * do as you want with this, attribution appreciated.
6 *
7 * Based opn tinyscheme-1.41 (original credits follow)
8 * Dimitrios Souflis (dsouflis@acm.org)
9 * Based on MiniScheme (original credits follow)
10 * (MINISCM) coded by Atsushi Moriwaki (11/5/1989)
11 * (MINISCM) E-MAIL : moriwaki@kurims.kurims.kyoto-u.ac.jp
12 * (MINISCM) This version has been modified by R.C. Secrist.
13 * (MINISCM)
14 * (MINISCM) Mini-Scheme is now maintained by Akira KIDA.
15 * (MINISCM)
16 * (MINISCM) This is a revised and modified version by Akira KIDA.
17 * (MINISCM) current version is 0.85k4 (15 May 1994)
18 *
19 */
20
21 #define PAGE_SIZE 4096 /* does not work on sparc/alpha */
22 #include "malloc.c"
23
24 #define SCHEME_SOURCE
25 #include "scheme-private.h"
26 #ifndef WIN32
27 # include <unistd.h>
28 #endif
29 #if USE_MATH
30 # include <math.h>
31 #endif
32
33 #include <sys/types.h>
34 #include <sys/stat.h>
35 #include <fcntl.h>
36
37 #include <string.h>
38 #include <stdlib.h>
39
40 #include <limits.h>
41 #include <inttypes.h>
42 #include <float.h>
43 //#include <ctype.h>
44
45 enum {
46 TOK_EOF,
47 TOK_LPAREN,
48 TOK_RPAREN,
49 TOK_DOT,
50 TOK_ATOM,
51 TOK_QUOTE,
52 TOK_DQUOTE,
53 TOK_BQUOTE,
54 TOK_COMMA,
55 TOK_ATMARK,
56 TOK_SHARP,
57 TOK_SHARP_CONST,
58 TOK_VEC
59 };
60
61 #define BACKQUOTE '`'
62 #define DELIMITERS "()\";\f\t\v\n\r "
63
64 #define NIL (&SCHEME_V->xNIL) //TODO: make this 0?
65 #define S_T (&SCHEME_V->xT) //TODO: magic ptr value?
66 #define S_F (&SCHEME_V->xF) //TODO: magic ptr value?
67 #define S_SINK (&SCHEME_V->xsink)
68 #define S_EOF (&SCHEME_V->xEOF_OBJ)
69
70 #if !USE_MULTIPLICITY
71 static scheme sc;
72 #endif
73
74 static void
75 xbase (char *s, long n, int base)
76 {
77 if (n < 0)
78 {
79 *s++ = '-';
80 n = -n;
81 }
82
83 char *p = s;
84
85 do {
86 *p++ = '0' + n % base;
87 n /= base;
88 } while (n);
89
90 *p-- = 0;
91
92 while (p > s)
93 {
94 char x = *s; *s = *p; *p = x;
95 --p; ++s;
96 }
97 }
98
99 static void
100 xnum (char *s, long n)
101 {
102 xbase (s, n, 10);
103 }
104
105 static void
106 xwrstr (const char *s)
107 {
108 write (1, s, strlen (s));
109 }
110
111 static void
112 xwrnum (long n)
113 {
114 char buf[64];
115
116 xnum (buf, n);
117 xwrstr (buf);
118 }
119
120 static char
121 xtoupper (char c)
122 {
123 if (c >= 'a' && c <= 'z')
124 c -= 'a' - 'A';
125
126 return c;
127 }
128
129 static char
130 xtolower (char c)
131 {
132 if (c >= 'A' && c <= 'Z')
133 c += 'a' - 'A';
134
135 return c;
136 }
137
138 static int
139 xisdigit (char c)
140 {
141 return c >= '0' && c <= '9';
142 }
143
144 #define toupper(c) xtoupper (c)
145 #define tolower(c) xtolower (c)
146 #define isdigit(c) xisdigit (c)
147
148 #if USE_STRLWR
149 static const char *
150 strlwr (char *s)
151 {
152 const char *p = s;
153
154 while (*s)
155 {
156 *s = tolower (*s);
157 s++;
158 }
159
160 return p;
161 }
162 #endif
163
164 #define stricmp(a,b) strcmp (a, b)
165 #define strlwr(s) (s)
166
167 #ifndef prompt
168 # define prompt "ts> "
169 #endif
170
171 #ifndef InitFile
172 # define InitFile "init.scm"
173 #endif
174
175 #ifndef FIRST_CELLSEGS
176 # define FIRST_CELLSEGS 3
177 #endif
178
179 enum scheme_types
180 {
181 T_FREE,
182 T_STRING,
183 T_NUMBER,
184 T_SYMBOL,
185 T_PROC,
186 T_PAIR,
187 T_CLOSURE,
188 T_CONTINUATION,
189 T_FOREIGN,
190 T_CHARACTER,
191 T_PORT,
192 T_VECTOR,
193 T_MACRO,
194 T_PROMISE,
195 T_ENVIRONMENT,
196 /* one more... */
197 T_NUM_SYSTEM_TYPES
198 };
199
200 #define T_MASKTYPE 0x000f
201 #define T_SYNTAX 0x0010
202 #define T_IMMUTABLE 0x0020
203 #define T_ATOM 0x0040 /* only for gc */
204 #define T_MARK 0x0080 /* only for gc */
205
206 static num num_add (num a, num b);
207 static num num_mul (num a, num b);
208 static num num_div (num a, num b);
209 static num num_intdiv (num a, num b);
210 static num num_sub (num a, num b);
211 static num num_rem (num a, num b);
212 static num num_mod (num a, num b);
213 static int num_eq (num a, num b);
214 static int num_gt (num a, num b);
215 static int num_ge (num a, num b);
216 static int num_lt (num a, num b);
217 static int num_le (num a, num b);
218
219 #if USE_MATH
220 static double round_per_R5RS (double x);
221 #endif
222 static int is_zero_rvalue (RVALUE x);
223
224 static INLINE int
225 num_is_integer (pointer p)
226 {
227 return num_is_fixnum (p->object.number);
228 }
229
230 static num num_zero;
231 static num num_one;
232
233 /* macros for cell operations */
234 #define typeflag(p) ((p)->flag + 0)
235 #define set_typeflag(p,v) ((p)->flag = (v))
236 #define type(p) (typeflag (p) & T_MASKTYPE)
237
238 INTERFACE INLINE int
239 is_string (pointer p)
240 {
241 return type (p) == T_STRING;
242 }
243
244 #define strvalue(p) ((p)->object.string.svalue)
245 #define strlength(p) ((p)->object.string.length)
246
247 INTERFACE int is_list (SCHEME_P_ pointer p);
248 INTERFACE INLINE int
249 is_vector (pointer p)
250 {
251 return type (p) == T_VECTOR;
252 }
253
254 #define vecvalue(p) ((p)->object.vector.vvalue)
255 #define veclength(p) ((p)->object.vector.length)
256 INTERFACE void fill_vector (pointer vec, pointer obj);
257 INTERFACE uint32_t vector_length (pointer vec);
258 INTERFACE pointer vector_elem (pointer vec, uint32_t ielem);
259 INTERFACE void set_vector_elem (pointer vec, uint32_t ielem, pointer a);
260
261 INTERFACE uint32_t
262 vector_length (pointer vec)
263 {
264 return vec->object.vector.length;
265 }
266
267 INTERFACE INLINE int
268 is_number (pointer p)
269 {
270 return type (p) == T_NUMBER;
271 }
272
273 INTERFACE INLINE int
274 is_integer (pointer p)
275 {
276 if (!is_number (p))
277 return 0;
278
279 if (num_is_integer (p) || ivalue (p) == rvalue (p))
280 return 1;
281
282 return 0;
283 }
284
285 INTERFACE INLINE int
286 is_real (pointer p)
287 {
288 return is_number (p) && !num_is_fixnum (p->object.number);
289 }
290
291 INTERFACE INLINE int
292 is_character (pointer p)
293 {
294 return type (p) == T_CHARACTER;
295 }
296
297 INTERFACE INLINE char *
298 string_value (pointer p)
299 {
300 return strvalue (p);
301 }
302
303 INLINE num
304 nvalue (pointer p)
305 {
306 return (p)->object.number;
307 }
308
309 static IVALUE
310 num_get_ivalue (const num n)
311 {
312 return num_is_fixnum (n) ? num_ivalue (n) : (IVALUE)num_rvalue (n);
313 }
314
315 static RVALUE
316 num_get_rvalue (const num n)
317 {
318 return num_is_fixnum (n) ? (RVALUE)num_ivalue (n) : num_rvalue (n);
319 }
320
321 INTERFACE IVALUE
322 ivalue (pointer p)
323 {
324 return num_get_ivalue (p->object.number);
325 }
326
327 INTERFACE RVALUE
328 rvalue (pointer p)
329 {
330 return num_get_rvalue (p->object.number);
331 }
332
333 #define ivalue_unchecked(p) ((p)->object.number.value.ivalue)
334 #if USE_REAL
335 # define rvalue_unchecked(p) ((p)->object.number.value.rvalue)
336 # define set_num_integer(p) (p)->object.number.is_fixnum=1;
337 # define set_num_real(p) (p)->object.number.is_fixnum=0;
338 #else
339 # define rvalue_unchecked(p) ((p)->object.number.value.ivalue)
340 # define set_num_integer(p) 0
341 # define set_num_real(p) 0
342 #endif
343 INTERFACE long
344 charvalue (pointer p)
345 {
346 return ivalue_unchecked (p);
347 }
348
349 INTERFACE INLINE int
350 is_port (pointer p)
351 {
352 return type (p) == T_PORT;
353 }
354
355 INTERFACE INLINE int
356 is_inport (pointer p)
357 {
358 return is_port (p) && p->object.port->kind & port_input;
359 }
360
361 INTERFACE INLINE int
362 is_outport (pointer p)
363 {
364 return is_port (p) && p->object.port->kind & port_output;
365 }
366
367 INTERFACE INLINE int
368 is_pair (pointer p)
369 {
370 return type (p) == T_PAIR;
371 }
372
373 #define car(p) ((p)->object.cons.car + 0)
374 #define cdr(p) ((p)->object.cons.cdr) /* find_consecutive_cells uses &cdr */
375
376 #define caar(p) car (car (p))
377 #define cadr(p) car (cdr (p))
378 #define cdar(p) cdr (car (p))
379 #define cddr(p) cdr (cdr (p))
380
381 #define cadar(p) car (cdr (car (p)))
382 #define caddr(p) car (cdr (cdr (p)))
383 #define cdaar(p) cdr (car (car (p)))
384
385 INTERFACE void
386 set_car (pointer p, pointer q)
387 {
388 p->object.cons.car = q;
389 }
390
391 INTERFACE void
392 set_cdr (pointer p, pointer q)
393 {
394 p->object.cons.cdr = q;
395 }
396
397 INTERFACE pointer
398 pair_car (pointer p)
399 {
400 return car (p);
401 }
402
403 INTERFACE pointer
404 pair_cdr (pointer p)
405 {
406 return cdr (p);
407 }
408
409 INTERFACE INLINE int
410 is_symbol (pointer p)
411 {
412 return type (p) == T_SYMBOL;
413 }
414
415 INTERFACE INLINE char *
416 symname (pointer p)
417 {
418 return strvalue (car (p));
419 }
420
421 #if USE_PLIST
422 SCHEME_EXPORT INLINE int
423 hasprop (pointer p)
424 {
425 return typeflag (p) & T_SYMBOL;
426 }
427
428 # define symprop(p) cdr(p)
429 #endif
430
431 INTERFACE INLINE int
432 is_syntax (pointer p)
433 {
434 return typeflag (p) & T_SYNTAX;
435 }
436
437 INTERFACE INLINE int
438 is_proc (pointer p)
439 {
440 return type (p) == T_PROC;
441 }
442
443 INTERFACE INLINE int
444 is_foreign (pointer p)
445 {
446 return type (p) == T_FOREIGN;
447 }
448
449 INTERFACE INLINE char *
450 syntaxname (pointer p)
451 {
452 return strvalue (car (p));
453 }
454
455 #define procnum(p) ivalue (p)
456 static const char *procname (pointer x);
457
458 INTERFACE INLINE int
459 is_closure (pointer p)
460 {
461 return type (p) == T_CLOSURE;
462 }
463
464 INTERFACE INLINE int
465 is_macro (pointer p)
466 {
467 return type (p) == T_MACRO;
468 }
469
470 INTERFACE INLINE pointer
471 closure_code (pointer p)
472 {
473 return car (p);
474 }
475
476 INTERFACE INLINE pointer
477 closure_env (pointer p)
478 {
479 return cdr (p);
480 }
481
482 INTERFACE INLINE int
483 is_continuation (pointer p)
484 {
485 return type (p) == T_CONTINUATION;
486 }
487
488 #define cont_dump(p) cdr (p)
489 #define set_cont_dump(p,v) set_cdr ((p), (v))
490
491 /* To do: promise should be forced ONCE only */
492 INTERFACE INLINE int
493 is_promise (pointer p)
494 {
495 return type (p) == T_PROMISE;
496 }
497
498 INTERFACE INLINE int
499 is_environment (pointer p)
500 {
501 return type (p) == T_ENVIRONMENT;
502 }
503
504 #define setenvironment(p) set_typeflag ((p), T_ENVIRONMENT)
505
506 #define is_atom(p) (typeflag (p) & T_ATOM)
507 #define setatom(p) set_typeflag ((p), typeflag (p) | T_ATOM)
508 #define clratom(p) set_typeflag ((p), typeflag (p) & ~T_ATOM)
509
510 #define is_mark(p) (typeflag (p) & T_MARK)
511 #define setmark(p) set_typeflag ((p), typeflag (p) | T_MARK)
512 #define clrmark(p) set_typeflag ((p), typeflag (p) & ~T_MARK)
513
514 INTERFACE INLINE int
515 is_immutable (pointer p)
516 {
517 return typeflag (p) & T_IMMUTABLE && USE_ERROR_CHECKING;
518 }
519
520 INTERFACE INLINE void
521 setimmutable (pointer p)
522 {
523 #if USE_ERROR_CHECKING
524 set_typeflag (p, typeflag (p) | T_IMMUTABLE);
525 #endif
526 }
527
528 #if USE_CHAR_CLASSIFIERS
529 static INLINE int
530 Cisalpha (int c)
531 {
532 return isascii (c) && isalpha (c);
533 }
534
535 static INLINE int
536 Cisdigit (int c)
537 {
538 return isascii (c) && isdigit (c);
539 }
540
541 static INLINE int
542 Cisspace (int c)
543 {
544 return isascii (c) && isspace (c);
545 }
546
547 static INLINE int
548 Cisupper (int c)
549 {
550 return isascii (c) && isupper (c);
551 }
552
553 static INLINE int
554 Cislower (int c)
555 {
556 return isascii (c) && islower (c);
557 }
558 #endif
559
560 #if USE_ASCII_NAMES
561 static const char *charnames[32] = {
562 "nul",
563 "soh",
564 "stx",
565 "etx",
566 "eot",
567 "enq",
568 "ack",
569 "bel",
570 "bs",
571 "ht",
572 "lf",
573 "vt",
574 "ff",
575 "cr",
576 "so",
577 "si",
578 "dle",
579 "dc1",
580 "dc2",
581 "dc3",
582 "dc4",
583 "nak",
584 "syn",
585 "etb",
586 "can",
587 "em",
588 "sub",
589 "esc",
590 "fs",
591 "gs",
592 "rs",
593 "us"
594 };
595
596 static int
597 is_ascii_name (const char *name, int *pc)
598 {
599 int i;
600
601 for (i = 0; i < 32; i++)
602 {
603 if (stricmp (name, charnames[i]) == 0)
604 {
605 *pc = i;
606 return 1;
607 }
608 }
609
610 if (stricmp (name, "del") == 0)
611 {
612 *pc = 127;
613 return 1;
614 }
615
616 return 0;
617 }
618
619 #endif
620
621 static int file_push (SCHEME_P_ const char *fname);
622 static void file_pop (SCHEME_P);
623 static int file_interactive (SCHEME_P);
624 static INLINE int is_one_of (char *s, int c);
625 static int alloc_cellseg (SCHEME_P_ int n);
626 static long binary_decode (const char *s);
627 static INLINE pointer get_cell (SCHEME_P_ pointer a, pointer b);
628 static void finalize_cell (SCHEME_P_ pointer a);
629 static int count_consecutive_cells (pointer x, int needed);
630 static pointer find_slot_in_env (SCHEME_P_ pointer env, pointer sym, int all);
631 static pointer mk_number (SCHEME_P_ const num n);
632 static char *store_string (SCHEME_P_ uint32_t len, const char *str, char fill);
633 static pointer mk_vector (SCHEME_P_ uint32_t len);
634 static pointer mk_atom (SCHEME_P_ char *q);
635 static pointer mk_sharp_const (SCHEME_P_ char *name);
636
637 #if USE_PORTS
638 static pointer mk_port (SCHEME_P_ port *p);
639 static pointer port_from_filename (SCHEME_P_ const char *fn, int prop);
640 static pointer port_from_file (SCHEME_P_ int, int prop);
641 static pointer port_from_string (SCHEME_P_ char *start, char *past_the_end, int prop);
642 static port *port_rep_from_filename (SCHEME_P_ const char *fn, int prop);
643 static port *port_rep_from_file (SCHEME_P_ int, int prop);
644 static port *port_rep_from_string (SCHEME_P_ char *start, char *past_the_end, int prop);
645 static void port_close (SCHEME_P_ pointer p, int flag);
646 #endif
647 static void mark (pointer a);
648 static void gc (SCHEME_P_ pointer a, pointer b);
649 static int basic_inchar (port *pt);
650 static int inchar (SCHEME_P);
651 static void backchar (SCHEME_P_ int c);
652 static char *readstr_upto (SCHEME_P_ char *delim);
653 static pointer readstrexp (SCHEME_P);
654 static INLINE int skipspace (SCHEME_P);
655 static int token (SCHEME_P);
656 static void printslashstring (SCHEME_P_ char *s, int len);
657 static void atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen);
658 static void printatom (SCHEME_P_ pointer l, int f);
659 static pointer mk_proc (SCHEME_P_ enum scheme_opcodes op);
660 static pointer mk_closure (SCHEME_P_ pointer c, pointer e);
661 static pointer mk_continuation (SCHEME_P_ pointer d);
662 static pointer reverse (SCHEME_P_ pointer a);
663 static pointer reverse_in_place (SCHEME_P_ pointer term, pointer list);
664 static pointer revappend (SCHEME_P_ pointer a, pointer b);
665 static pointer ss_get_cont (SCHEME_P);
666 static void ss_set_cont (SCHEME_P_ pointer cont);
667 static void dump_stack_mark (SCHEME_P);
668 static pointer opexe_0 (SCHEME_P_ enum scheme_opcodes op);
669 static pointer opexe_2 (SCHEME_P_ enum scheme_opcodes op);
670 static pointer opexe_3 (SCHEME_P_ enum scheme_opcodes op);
671 static pointer opexe_4 (SCHEME_P_ enum scheme_opcodes op);
672 static pointer opexe_5 (SCHEME_P_ enum scheme_opcodes op);
673 static pointer opexe_6 (SCHEME_P_ enum scheme_opcodes op);
674 static void Eval_Cycle (SCHEME_P_ enum scheme_opcodes op);
675 static void assign_syntax (SCHEME_P_ const char *name);
676 static int syntaxnum (pointer p);
677 static void assign_proc (SCHEME_P_ enum scheme_opcodes, const char *name);
678
679 static num
680 num_add (num a, num b)
681 {
682 num ret;
683
684 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
685
686 if (num_is_fixnum (ret))
687 num_set_ivalue (ret, num_get_ivalue (a) + num_get_ivalue (b));
688 else
689 num_set_rvalue (ret, num_get_rvalue (a) + num_get_rvalue (b));
690
691 return ret;
692 }
693
694 static num
695 num_mul (num a, num b)
696 {
697 num ret;
698
699 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
700
701 if (num_is_fixnum (ret))
702 num_set_ivalue (ret, num_get_ivalue (a) * num_get_ivalue (b));
703 else
704 num_set_rvalue (ret, num_get_rvalue (a) * num_get_rvalue (b));
705
706 return ret;
707 }
708
709 static num
710 num_div (num a, num b)
711 {
712 num ret;
713
714 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b) && num_get_ivalue (a) % num_get_ivalue (b) == 0);
715
716 if (num_is_fixnum (ret))
717 num_set_ivalue (ret, num_get_ivalue (a) / num_get_ivalue (b));
718 else
719 num_set_rvalue (ret, num_get_rvalue (a) / num_get_rvalue (b));
720
721 return ret;
722 }
723
724 static num
725 num_intdiv (num a, num b)
726 {
727 num ret;
728
729 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
730
731 if (num_is_fixnum (ret))
732 num_set_ivalue (ret, num_get_ivalue (a) / num_get_ivalue (b));
733 else
734 num_set_rvalue (ret, num_get_rvalue (a) / num_get_rvalue (b));
735
736 return ret;
737 }
738
739 static num
740 num_sub (num a, num b)
741 {
742 num ret;
743
744 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
745
746 if (num_is_fixnum (ret))
747 num_set_ivalue (ret, num_get_ivalue (a) - num_get_ivalue (b));
748 else
749 num_set_rvalue (ret, num_get_rvalue (a) - num_get_rvalue (b));
750
751 return ret;
752 }
753
754 static num
755 num_rem (num a, num b)
756 {
757 num ret;
758 long e1, e2, res;
759
760 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
761 e1 = num_get_ivalue (a);
762 e2 = num_get_ivalue (b);
763 res = e1 % e2;
764
765 /* remainder should have same sign as second operand */
766 if (res > 0)
767 {
768 if (e1 < 0)
769 res -= labs (e2);
770 }
771 else if (res < 0)
772 {
773 if (e1 > 0)
774 res += labs (e2);
775 }
776
777 num_set_ivalue (ret, res);
778 return ret;
779 }
780
781 static num
782 num_mod (num a, num b)
783 {
784 num ret;
785 long e1, e2, res;
786
787 num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
788 e1 = num_get_ivalue (a);
789 e2 = num_get_ivalue (b);
790 res = e1 % e2;
791
792 /* modulo should have same sign as second operand */
793 if (res * e2 < 0)
794 res += e2;
795
796 num_set_ivalue (ret, res);
797 return ret;
798 }
799
800 static int
801 num_eq (num a, num b)
802 {
803 int ret;
804 int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);
805
806 if (is_fixnum)
807 ret = num_get_ivalue (a) == num_get_ivalue (b);
808 else
809 ret = num_get_rvalue (a) == num_get_rvalue (b);
810
811 return ret;
812 }
813
814
815 static int
816 num_gt (num a, num b)
817 {
818 int ret;
819 int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);
820
821 if (is_fixnum)
822 ret = num_get_ivalue (a) > num_get_ivalue (b);
823 else
824 ret = num_get_rvalue (a) > num_get_rvalue (b);
825
826 return ret;
827 }
828
829 static int
830 num_ge (num a, num b)
831 {
832 return !num_lt (a, b);
833 }
834
835 static int
836 num_lt (num a, num b)
837 {
838 int ret;
839 int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);
840
841 if (is_fixnum)
842 ret = num_get_ivalue (a) < num_get_ivalue (b);
843 else
844 ret = num_get_rvalue (a) < num_get_rvalue (b);
845
846 return ret;
847 }
848
849 static int
850 num_le (num a, num b)
851 {
852 return !num_gt (a, b);
853 }
854
855 #if USE_MATH
856
857 /* Round to nearest. Round to even if midway */
858 static double
859 round_per_R5RS (double x)
860 {
861 double fl = floor (x);
862 double ce = ceil (x);
863 double dfl = x - fl;
864 double dce = ce - x;
865
866 if (dfl > dce)
867 return ce;
868 else if (dfl < dce)
869 return fl;
870 else
871 {
872 if (fmod (fl, 2.0) == 0.0) /* I imagine this holds */
873 return fl;
874 else
875 return ce;
876 }
877 }
878 #endif
879
880 static int
881 is_zero_rvalue (RVALUE x)
882 {
883 #if USE_REAL
884 return x < DBL_MIN && x > -DBL_MIN; /* why the hate of denormals? this should be == 0. */
885 #else
886 return x == 0;
887 #endif
888 }
889
890 static long
891 binary_decode (const char *s)
892 {
893 long x = 0;
894
895 while (*s != 0 && (*s == '1' || *s == '0'))
896 {
897 x <<= 1;
898 x += *s - '0';
899 s++;
900 }
901
902 return x;
903 }
904
905 /* allocate new cell segment */
906 static int
907 alloc_cellseg (SCHEME_P_ int n)
908 {
909 pointer newp;
910 pointer last;
911 pointer p;
912 char *cp;
913 long i;
914 int k;
915
916 static int segsize = CELL_SEGSIZE >> 1;
917 segsize <<= 1;
918
919 for (k = 0; k < n; k++)
920 {
921 if (SCHEME_V->last_cell_seg >= CELL_NSEGMENT - 1)
922 return k;
923
924 cp = malloc (segsize * sizeof (struct cell));
925
926 if (!cp && USE_ERROR_CHECKING)
927 return k;
928
929 i = ++SCHEME_V->last_cell_seg;
930 SCHEME_V->alloc_seg[i] = cp;
931
932 /* insert new segment in address order */
933 newp = (pointer)cp;
934 SCHEME_V->cell_seg[i] = newp;
935 SCHEME_V->cell_segsize[i] = segsize;
936
937 //TODO: insert, not swap
938 while (i > 0 && SCHEME_V->cell_seg[i - 1] > SCHEME_V->cell_seg[i])
939 {
940 p = SCHEME_V->cell_seg[i];
941 SCHEME_V->cell_seg[i] = SCHEME_V->cell_seg[i - 1];
942 SCHEME_V->cell_seg[i - 1] = p;
943
944 k = SCHEME_V->cell_segsize[i];
945 SCHEME_V->cell_segsize[i] = SCHEME_V->cell_segsize[i - 1];
946 SCHEME_V->cell_segsize[i - 1] = k;
947
948 --i;
949 }
950
951 SCHEME_V->fcells += segsize;
952 last = newp + segsize - 1;
953
954 for (p = newp; p <= last; p++)
955 {
956 set_typeflag (p, T_FREE);
957 set_car (p, NIL);
958 set_cdr (p, p + 1);
959 }
960
961 /* insert new cells in address order on free list */
962 if (SCHEME_V->free_cell == NIL || p < SCHEME_V->free_cell)
963 {
964 set_cdr (last, SCHEME_V->free_cell);
965 SCHEME_V->free_cell = newp;
966 }
967 else
968 {
969 p = SCHEME_V->free_cell;
970
971 while (cdr (p) != NIL && newp > cdr (p))
972 p = cdr (p);
973
974 set_cdr (last, cdr (p));
975 set_cdr (p, newp);
976 }
977 }
978
979 return n;
980 }
981
982 /* get new cell. parameter a, b is marked by gc. */
983 static INLINE pointer
984 get_cell_x (SCHEME_P_ pointer a, pointer b)
985 {
986 if (SCHEME_V->free_cell == NIL)
987 {
988 if (SCHEME_V->no_memory && USE_ERROR_CHECKING)
989 return S_SINK;
990
991 if (SCHEME_V->free_cell == NIL)
992 {
993 const int min_to_be_recovered = SCHEME_V->last_cell_seg < 128 ? 128 * 8 : SCHEME_V->last_cell_seg * 8;
994
995 gc (SCHEME_A_ a, b);
996
997 if (SCHEME_V->fcells < min_to_be_recovered || SCHEME_V->free_cell == NIL)
998 {
999 /* if only a few recovered, get more to avoid fruitless gc's */
1000 if (!alloc_cellseg (SCHEME_A_ 1) && SCHEME_V->free_cell == NIL)
1001 {
1002 #if USE_ERROR_CHECKING
1003 SCHEME_V->no_memory = 1;
1004 return S_SINK;
1005 #endif
1006 }
1007 }
1008 }
1009 }
1010
1011 {
1012 pointer x = SCHEME_V->free_cell;
1013
1014 SCHEME_V->free_cell = cdr (x);
1015 --SCHEME_V->fcells;
1016 return x;
1017 }
1018 }
1019
1020 /* To retain recent allocs before interpreter knows about them -
1021 Tehom */
1022
1023 static void
1024 push_recent_alloc (SCHEME_P_ pointer recent, pointer extra)
1025 {
1026 pointer holder = get_cell_x (SCHEME_A_ recent, extra);
1027
1028 set_typeflag (holder, T_PAIR);
1029 setimmutable (holder);
1030 set_car (holder, recent);
1031 set_cdr (holder, car (S_SINK));
1032 set_car (S_SINK, holder);
1033 }
1034
1035 static pointer
1036 get_cell (SCHEME_P_ pointer a, pointer b)
1037 {
1038 pointer cell = get_cell_x (SCHEME_A_ a, b);
1039
1040 /* For right now, include "a" and "b" in "cell" so that gc doesn't
1041 think they are garbage. */
1042 /* Tentatively record it as a pair so gc understands it. */
1043 set_typeflag (cell, T_PAIR);
1044 set_car (cell, a);
1045 set_cdr (cell, b);
1046 push_recent_alloc (SCHEME_A_ cell, NIL);
1047
1048 return cell;
1049 }
1050
1051 static pointer
1052 get_vector_object (SCHEME_P_ uint32_t len, pointer init)
1053 {
1054 pointer v = get_cell_x (SCHEME_A_ 0, 0);
1055 pointer *e = malloc (len * sizeof (pointer));
1056
1057 if (!e && USE_ERROR_CHECKING)
1058 return S_SINK;
1059
1060 /* Record it as a vector so that gc understands it. */
1061 set_typeflag (v, T_VECTOR | T_ATOM);
1062
1063 v->object.vector.vvalue = e;
1064 v->object.vector.length = len;
1065 fill_vector (v, init);
1066 push_recent_alloc (SCHEME_A_ v, NIL);
1067
1068 return v;
1069 }
1070
1071 static INLINE void
1072 ok_to_freely_gc (SCHEME_P)
1073 {
1074 set_car (S_SINK, NIL);
1075 }
1076
1077 #if defined TSGRIND
1078 static void
1079 check_cell_alloced (pointer p, int expect_alloced)
1080 {
1081 /* Can't use putstr(SCHEME_A_ str) because callers have no access to sc. */
1082 if (typeflag (p) & !expect_alloced)
1083 xwrstr ("Cell is already allocated!\n");
1084
1085 if (!(typeflag (p)) & expect_alloced)
1086 xwrstr ("Cell is not allocated!\n");
1087 }
1088
1089 static void
1090 check_range_alloced (pointer p, int n, int expect_alloced)
1091 {
1092 int i;
1093
1094 for (i = 0; i < n; i++)
1095 check_cell_alloced (p + i, expect_alloced);
1096 }
1097 #endif
1098
1099 /* Medium level cell allocation */
1100
1101 /* get new cons cell */
1102 pointer
1103 xcons (SCHEME_P_ pointer a, pointer b, int immutable)
1104 {
1105 pointer x = get_cell (SCHEME_A_ a, b);
1106
1107 set_typeflag (x, T_PAIR);
1108
1109 if (immutable)
1110 setimmutable (x);
1111
1112 set_car (x, a);
1113 set_cdr (x, b);
1114
1115 return x;
1116 }
1117
1118 /* ========== oblist implementation ========== */
1119
1120 #ifndef USE_OBJECT_LIST
1121
1122 static int hash_fn (const char *key, int table_size);
1123
1124 static pointer
1125 oblist_initial_value (SCHEME_P)
1126 {
1127 return mk_vector (SCHEME_A_ 461); /* probably should be bigger */
1128 }
1129
1130 /* returns the new symbol */
1131 static pointer
1132 oblist_add_by_name (SCHEME_P_ const char *name)
1133 {
1134 int location;
1135
1136 pointer x = immutable_cons (mk_string (SCHEME_A_ name), NIL);
1137 set_typeflag (x, T_SYMBOL);
1138 setimmutable (car (x));
1139
1140 location = hash_fn (name, veclength (SCHEME_V->oblist));
1141 set_vector_elem (SCHEME_V->oblist, location, immutable_cons (x, vector_elem (SCHEME_V->oblist, location)));
1142 return x;
1143 }
1144
1145 static INLINE pointer
1146 oblist_find_by_name (SCHEME_P_ const char *name)
1147 {
1148 int location;
1149 pointer x;
1150 char *s;
1151
1152 location = hash_fn (name, veclength (SCHEME_V->oblist));
1153
1154 for (x = vector_elem (SCHEME_V->oblist, location); x != NIL; x = cdr (x))
1155 {
1156 s = symname (car (x));
1157
1158 /* case-insensitive, per R5RS section 2 */
1159 if (stricmp (name, s) == 0)
1160 return car (x);
1161 }
1162
1163 return NIL;
1164 }
1165
1166 static pointer
1167 oblist_all_symbols (SCHEME_P)
1168 {
1169 int i;
1170 pointer x;
1171 pointer ob_list = NIL;
1172
1173 for (i = 0; i < veclength (SCHEME_V->oblist); i++)
1174 for (x = vector_elem (SCHEME_V->oblist, i); x != NIL; x = cdr (x))
1175 ob_list = cons (x, ob_list);
1176
1177 return ob_list;
1178 }
1179
1180 #else
1181
1182 static pointer
1183 oblist_initial_value (SCHEME_P)
1184 {
1185 return NIL;
1186 }
1187
1188 static INLINE pointer
1189 oblist_find_by_name (SCHEME_P_ const char *name)
1190 {
1191 pointer x;
1192 char *s;
1193
1194 for (x = SCHEME_V->oblist; x != NIL; x = cdr (x))
1195 {
1196 s = symname (car (x));
1197
1198 /* case-insensitive, per R5RS section 2 */
1199 if (stricmp (name, s) == 0)
1200 return car (x);
1201 }
1202
1203 return NIL;
1204 }
1205
1206 /* returns the new symbol */
1207 static pointer
1208 oblist_add_by_name (SCHEME_P_ const char *name)
1209 {
1210 pointer x;
1211
1212 x = immutable_cons (mk_string (SCHEME_A_ name), NIL);
1213 set_typeflag (x, T_SYMBOL);
1214 setimmutable (car (x));
1215 SCHEME_V->oblist = immutable_cons (x, SCHEME_V->oblist);
1216 return x;
1217 }
1218
1219 static pointer
1220 oblist_all_symbols (SCHEME_P)
1221 {
1222 return SCHEME_V->oblist;
1223 }
1224
1225 #endif
1226
1227 #if USE_PORTS
1228 static pointer
1229 mk_port (SCHEME_P_ port *p)
1230 {
1231 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1232
1233 set_typeflag (x, T_PORT | T_ATOM);
1234 x->object.port = p;
1235
1236 return x;
1237 }
1238 #endif
1239
1240 pointer
1241 mk_foreign_func (SCHEME_P_ foreign_func f)
1242 {
1243 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1244
1245 set_typeflag (x, (T_FOREIGN | T_ATOM));
1246 x->object.ff = f;
1247
1248 return x;
1249 }
1250
1251 INTERFACE pointer
1252 mk_character (SCHEME_P_ int c)
1253 {
1254 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1255
1256 set_typeflag (x, (T_CHARACTER | T_ATOM));
1257 ivalue_unchecked (x) = c & 0xff;
1258 set_num_integer (x);
1259 return x;
1260 }
1261
1262 /* get number atom (integer) */
1263 INTERFACE pointer
1264 mk_integer (SCHEME_P_ long num)
1265 {
1266 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1267
1268 set_typeflag (x, (T_NUMBER | T_ATOM));
1269 ivalue_unchecked (x) = num;
1270 set_num_integer (x);
1271 return x;
1272 }
1273
1274 INTERFACE pointer
1275 mk_real (SCHEME_P_ RVALUE n)
1276 {
1277 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1278
1279 set_typeflag (x, (T_NUMBER | T_ATOM));
1280 rvalue_unchecked (x) = n;
1281 set_num_real (x);
1282 return x;
1283 }
1284
1285 static pointer
1286 mk_number (SCHEME_P_ const num n)
1287 {
1288 if (num_is_fixnum (n))
1289 return mk_integer (SCHEME_A_ num_get_ivalue (n));
1290 else
1291 return mk_real (SCHEME_A_ num_get_rvalue (n));
1292 }
1293
1294 /* allocate name to string area */
1295 static char *
1296 store_string (SCHEME_P_ uint32_t len_str, const char *str, char fill)
1297 {
1298 char *q = malloc (len_str + 1);
1299
1300 if (q == 0 && USE_ERROR_CHECKING)
1301 {
1302 SCHEME_V->no_memory = 1;
1303 return SCHEME_V->strbuff;
1304 }
1305
1306 if (str)
1307 {
1308 int l = strlen (str);
1309
1310 if (l > len_str)
1311 l = len_str;
1312
1313 memcpy (q, str, l);
1314 q[l] = 0;
1315 }
1316 else
1317 {
1318 memset (q, fill, len_str);
1319 q[len_str] = 0;
1320 }
1321
1322 return q;
1323 }
1324
1325 /* get new string */
1326 INTERFACE pointer
1327 mk_string (SCHEME_P_ const char *str)
1328 {
1329 return mk_counted_string (SCHEME_A_ str, strlen (str));
1330 }
1331
1332 INTERFACE pointer
1333 mk_counted_string (SCHEME_P_ const char *str, uint32_t len)
1334 {
1335 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1336
1337 set_typeflag (x, T_STRING | T_ATOM);
1338 strvalue (x) = store_string (SCHEME_A_ len, str, 0);
1339 strlength (x) = len;
1340 return x;
1341 }
1342
1343 INTERFACE pointer
1344 mk_empty_string (SCHEME_P_ uint32_t len, char fill)
1345 {
1346 pointer x = get_cell (SCHEME_A_ NIL, NIL);
1347
1348 set_typeflag (x, T_STRING | T_ATOM);
1349 strvalue (x) = store_string (SCHEME_A_ len, 0, fill);
1350 strlength (x) = len;
1351 return x;
1352 }
1353
1354 INTERFACE pointer
1355 mk_vector (SCHEME_P_ uint32_t len)
1356 {
1357 return get_vector_object (SCHEME_A_ len, NIL);
1358 }
1359
1360 INTERFACE void
1361 fill_vector (pointer vec, pointer obj)
1362 {
1363 int i;
1364
1365 for (i = 0; i < vec->object.vector.length; i++)
1366 vecvalue (vec)[i] = obj;
1367 }
1368
1369 INTERFACE pointer
1370 vector_elem (pointer vec, uint32_t ielem)
1371 {
1372 return vecvalue(vec)[ielem];
1373 }
1374
1375 INTERFACE void
1376 set_vector_elem (pointer vec, uint32_t ielem, pointer a)
1377 {
1378 vecvalue(vec)[ielem] = a;
1379 }
1380
1381 /* get new symbol */
1382 INTERFACE pointer
1383 mk_symbol (SCHEME_P_ const char *name)
1384 {
1385 /* first check oblist */
1386 pointer x = oblist_find_by_name (SCHEME_A_ name);
1387
1388 if (x == NIL)
1389 x = oblist_add_by_name (SCHEME_A_ name);
1390
1391 return x;
1392 }
1393
1394 INTERFACE pointer
1395 gensym (SCHEME_P)
1396 {
1397 pointer x;
1398 char name[40];
1399
1400 for (; SCHEME_V->gensym_cnt < LONG_MAX; SCHEME_V->gensym_cnt++)
1401 {
1402 strcpy (name, "gensym-");
1403 xnum (name + 7, SCHEME_V->gensym_cnt);
1404
1405 /* first check oblist */
1406 x = oblist_find_by_name (SCHEME_A_ name);
1407
1408 if (x != NIL)
1409 continue;
1410 else
1411 {
1412 x = oblist_add_by_name (SCHEME_A_ name);
1413 return x;
1414 }
1415 }
1416
1417 return NIL;
1418 }
1419
1420 /* make symbol or number atom from string */
1421 static pointer
1422 mk_atom (SCHEME_P_ char *q)
1423 {
1424 char c, *p;
1425 int has_dec_point = 0;
1426 int has_fp_exp = 0;
1427
1428 #if USE_COLON_HOOK
1429
1430 if ((p = strstr (q, "::")) != 0)
1431 {
1432 *p = 0;
1433 return cons (SCHEME_V->COLON_HOOK,
1434 cons (cons (SCHEME_V->QUOTE,
1435 cons (mk_atom (SCHEME_A_ p + 2), NIL)), cons (mk_symbol (SCHEME_A_ strlwr (q)), NIL)));
1436 }
1437
1438 #endif
1439
1440 p = q;
1441 c = *p++;
1442
1443 if ((c == '+') || (c == '-'))
1444 {
1445 c = *p++;
1446
1447 if (c == '.')
1448 {
1449 has_dec_point = 1;
1450 c = *p++;
1451 }
1452
1453 if (!isdigit (c))
1454 return mk_symbol (SCHEME_A_ strlwr (q));
1455 }
1456 else if (c == '.')
1457 {
1458 has_dec_point = 1;
1459 c = *p++;
1460
1461 if (!isdigit (c))
1462 return mk_symbol (SCHEME_A_ strlwr (q));
1463 }
1464 else if (!isdigit (c))
1465 return mk_symbol (SCHEME_A_ strlwr (q));
1466
1467 for (; (c = *p) != 0; ++p)
1468 {
1469 if (!isdigit (c))
1470 {
1471 if (c == '.')
1472 {
1473 if (!has_dec_point)
1474 {
1475 has_dec_point = 1;
1476 continue;
1477 }
1478 }
1479 else if ((c == 'e') || (c == 'E'))
1480 {
1481 if (!has_fp_exp)
1482 {
1483 has_dec_point = 1; /* decimal point illegal
1484 from now on */
1485 p++;
1486
1487 if ((*p == '-') || (*p == '+') || isdigit (*p))
1488 continue;
1489 }
1490 }
1491
1492 return mk_symbol (SCHEME_A_ strlwr (q));
1493 }
1494 }
1495
1496 #if USE_REAL
1497 if (has_dec_point)
1498 return mk_real (SCHEME_A_ atof (q));
1499 #endif
1500
1501 return mk_integer (SCHEME_A_ strtol (q, 0, 10));
1502 }
1503
1504 /* make constant */
1505 static pointer
1506 mk_sharp_const (SCHEME_P_ char *name)
1507 {
1508 long x;
1509 char tmp[STRBUFFSIZE];
1510
1511 if (!strcmp (name, "t"))
1512 return S_T;
1513 else if (!strcmp (name, "f"))
1514 return S_F;
1515 else if (*name == 'o') /* #o (octal) */
1516 {
1517 x = strtol (name + 1, 0, 8);
1518 return mk_integer (SCHEME_A_ x);
1519 }
1520 else if (*name == 'd') /* #d (decimal) */
1521 {
1522 x = strtol (name + 1, 0, 10);
1523 return mk_integer (SCHEME_A_ x);
1524 }
1525 else if (*name == 'x') /* #x (hex) */
1526 {
1527 x = strtol (name + 1, 0, 16);
1528 return mk_integer (SCHEME_A_ x);
1529 }
1530 else if (*name == 'b') /* #b (binary) */
1531 {
1532 x = binary_decode (name + 1);
1533 return mk_integer (SCHEME_A_ x);
1534 }
1535 else if (*name == '\\') /* #\w (character) */
1536 {
1537 int c = 0;
1538
1539 if (stricmp (name + 1, "space") == 0)
1540 c = ' ';
1541 else if (stricmp (name + 1, "newline") == 0)
1542 c = '\n';
1543 else if (stricmp (name + 1, "return") == 0)
1544 c = '\r';
1545 else if (stricmp (name + 1, "tab") == 0)
1546 c = '\t';
1547 else if (name[1] == 'x' && name[2] != 0)
1548 {
1549 int c1 = strtol (name + 2, 0, 16);
1550
1551 if (c1 <= UCHAR_MAX)
1552 c = c1;
1553 else
1554 return NIL;
1555
1556 #if USE_ASCII_NAMES
1557 }
1558 else if (is_ascii_name (name + 1, &c))
1559 {
1560 /* nothing */
1561 #endif
1562 }
1563 else if (name[2] == 0)
1564 c = name[1];
1565 else
1566 return NIL;
1567
1568 return mk_character (SCHEME_A_ c);
1569 }
1570 else
1571 return NIL;
1572 }
1573
1574 /* ========== garbage collector ========== */
1575
1576 /*--
1577 * We use algorithm E (Knuth, The Art of Computer Programming Vol.1,
1578 * sec. 2.3.5), the Schorr-Deutsch-Waite link-inversion algorithm,
1579 * for marking.
1580 */
1581 static void
1582 mark (pointer a)
1583 {
1584 pointer t, q, p;
1585
1586 t = 0;
1587 p = a;
1588 E2:
1589 setmark (p);
1590
1591 if (is_vector (p))
1592 {
1593 int i;
1594
1595 for (i = 0; i < p->object.vector.length; i++)
1596 mark (vecvalue (p)[i]);
1597 }
1598
1599 if (is_atom (p))
1600 goto E6;
1601
1602 /* E4: down car */
1603 q = car (p);
1604
1605 if (q && !is_mark (q))
1606 {
1607 setatom (p); /* a note that we have moved car */
1608 set_car (p, t);
1609 t = p;
1610 p = q;
1611 goto E2;
1612 }
1613
1614 E5:
1615 q = cdr (p); /* down cdr */
1616
1617 if (q && !is_mark (q))
1618 {
1619 set_cdr (p, t);
1620 t = p;
1621 p = q;
1622 goto E2;
1623 }
1624
1625 E6: /* up. Undo the link switching from steps E4 and E5. */
1626 if (!t)
1627 return;
1628
1629 q = t;
1630
1631 if (is_atom (q))
1632 {
1633 clratom (q);
1634 t = car (q);
1635 set_car (q, p);
1636 p = q;
1637 goto E5;
1638 }
1639 else
1640 {
1641 t = cdr (q);
1642 set_cdr (q, p);
1643 p = q;
1644 goto E6;
1645 }
1646 }
1647
1648 /* garbage collection. parameter a, b is marked. */
1649 static void
1650 gc (SCHEME_P_ pointer a, pointer b)
1651 {
1652 pointer p;
1653 int i;
1654
1655 if (SCHEME_V->gc_verbose)
1656 putstr (SCHEME_A_ "gc...");
1657
1658 /* mark system globals */
1659 mark (SCHEME_V->oblist);
1660 mark (SCHEME_V->global_env);
1661
1662 /* mark current registers */
1663 mark (SCHEME_V->args);
1664 mark (SCHEME_V->envir);
1665 mark (SCHEME_V->code);
1666 dump_stack_mark (SCHEME_A);
1667 mark (SCHEME_V->value);
1668 mark (SCHEME_V->inport);
1669 mark (SCHEME_V->save_inport);
1670 mark (SCHEME_V->outport);
1671 mark (SCHEME_V->loadport);
1672
1673 /* Mark recent objects the interpreter doesn't know about yet. */
1674 mark (car (S_SINK));
1675 /* Mark any older stuff above nested C calls */
1676 mark (SCHEME_V->c_nest);
1677
1678 /* mark variables a, b */
1679 mark (a);
1680 mark (b);
1681
1682 /* garbage collect */
1683 clrmark (NIL);
1684 SCHEME_V->fcells = 0;
1685 SCHEME_V->free_cell = NIL;
1686
1687 /* free-list is kept sorted by address so as to maintain consecutive
1688 ranges, if possible, for use with vectors. Here we scan the cells
1689 (which are also kept sorted by address) downwards to build the
1690 free-list in sorted order.
1691 */
1692 for (i = SCHEME_V->last_cell_seg; i >= 0; i--)
1693 {
1694 p = SCHEME_V->cell_seg[i] + SCHEME_V->cell_segsize [i];
1695
1696 while (--p >= SCHEME_V->cell_seg[i])
1697 {
1698 if (is_mark (p))
1699 clrmark (p);
1700 else
1701 {
1702 /* reclaim cell */
1703 if (typeflag (p) != T_FREE)
1704 {
1705 finalize_cell (SCHEME_A_ p);
1706 set_typeflag (p, T_FREE);
1707 set_car (p, NIL);
1708 }
1709
1710 ++SCHEME_V->fcells;
1711 set_cdr (p, SCHEME_V->free_cell);
1712 SCHEME_V->free_cell = p;
1713 }
1714 }
1715 }
1716
1717 if (SCHEME_V->gc_verbose)
1718 xwrstr ("done: "); xwrnum (SCHEME_V->fcells); xwrstr (" cells were recovered.\n");
1719 }
1720
1721 static void
1722 finalize_cell (SCHEME_P_ pointer a)
1723 {
1724 if (is_string (a))
1725 free (strvalue (a));
1726 else if (is_vector (a))
1727 free (vecvalue (a));
1728 #if USE_PORTS
1729 else if (is_port (a))
1730 {
1731 if (a->object.port->kind & port_file && a->object.port->rep.stdio.closeit)
1732 port_close (SCHEME_A_ a, port_input | port_output);
1733
1734 free (a->object.port);
1735 }
1736 #endif
1737 }
1738
1739 /* ========== Routines for Reading ========== */
1740
1741 static int
1742 file_push (SCHEME_P_ const char *fname)
1743 {
1744 #if USE_PORTS
1745 int fin;
1746
1747 if (SCHEME_V->file_i == MAXFIL - 1)
1748 return 0;
1749
1750 fin = open (fname, O_RDONLY);
1751
1752 if (fin >= 0)
1753 {
1754 SCHEME_V->file_i++;
1755 SCHEME_V->load_stack[SCHEME_V->file_i].unget = -1;
1756 SCHEME_V->load_stack[SCHEME_V->file_i].kind = port_file | port_input;
1757 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.file = fin;
1758 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.closeit = 1;
1759 SCHEME_V->nesting_stack[SCHEME_V->file_i] = 0;
1760 SCHEME_V->loadport->object.port = SCHEME_V->load_stack + SCHEME_V->file_i;
1761
1762 #if SHOW_ERROR_LINE
1763 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line = 0;
1764
1765 if (fname)
1766 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.filename = store_string (SCHEME_A_ strlen (fname), fname, 0);
1767 #endif
1768 }
1769
1770 return fin >= 0;
1771
1772 #else
1773 return 1;
1774 #endif
1775 }
1776
1777 static void
1778 file_pop (SCHEME_P)
1779 {
1780 if (SCHEME_V->file_i != 0)
1781 {
1782 SCHEME_V->nesting = SCHEME_V->nesting_stack[SCHEME_V->file_i];
1783 #if USE_PORTS
1784 port_close (SCHEME_A_ SCHEME_V->loadport, port_input);
1785 #endif
1786 SCHEME_V->file_i--;
1787 SCHEME_V->loadport->object.port = SCHEME_V->load_stack + SCHEME_V->file_i;
1788 }
1789 }
1790
1791 static int
1792 file_interactive (SCHEME_P)
1793 {
1794 #if USE_PORTS
1795 return SCHEME_V->file_i == 0
1796 && SCHEME_V->load_stack[0].rep.stdio.file == STDIN_FILENO
1797 && (SCHEME_V->inport->object.port->kind & port_file);
1798 #else
1799 return 0;
1800 #endif
1801 }
1802
1803 #if USE_PORTS
1804 static port *
1805 port_rep_from_filename (SCHEME_P_ const char *fn, int prop)
1806 {
1807 int fd;
1808 int flags;
1809 char *rw;
1810 port *pt;
1811
1812 if (prop == (port_input | port_output))
1813 flags = O_RDWR | O_APPEND | O_CREAT;
1814 else if (prop == port_output)
1815 flags = O_WRONLY | O_TRUNC | O_CREAT;
1816 else
1817 flags = O_RDONLY;
1818
1819 fd = open (fn, flags, 0666);
1820
1821 if (fd < 0)
1822 return 0;
1823
1824 pt = port_rep_from_file (SCHEME_A_ fd, prop);
1825 pt->rep.stdio.closeit = 1;
1826
1827 # if SHOW_ERROR_LINE
1828 if (fn)
1829 pt->rep.stdio.filename = store_string (SCHEME_A_ strlen (fn), fn, 0);
1830
1831 pt->rep.stdio.curr_line = 0;
1832 # endif
1833
1834 return pt;
1835 }
1836
1837 static pointer
1838 port_from_filename (SCHEME_P_ const char *fn, int prop)
1839 {
1840 port *pt = port_rep_from_filename (SCHEME_A_ fn, prop);
1841
1842 if (!pt && USE_ERROR_CHECKING)
1843 return NIL;
1844
1845 return mk_port (SCHEME_A_ pt);
1846 }
1847
1848 static port *
1849 port_rep_from_file (SCHEME_P_ int f, int prop)
1850 {
1851 port *pt = malloc (sizeof *pt);
1852
1853 if (!pt && USE_ERROR_CHECKING)
1854 return NULL;
1855
1856 pt->unget = -1;
1857 pt->kind = port_file | prop;
1858 pt->rep.stdio.file = f;
1859 pt->rep.stdio.closeit = 0;
1860 return pt;
1861 }
1862
1863 static pointer
1864 port_from_file (SCHEME_P_ int f, int prop)
1865 {
1866 port *pt = port_rep_from_file (SCHEME_A_ f, prop);
1867
1868 if (!pt && USE_ERROR_CHECKING)
1869 return NIL;
1870
1871 return mk_port (SCHEME_A_ pt);
1872 }
1873
1874 static port *
1875 port_rep_from_string (SCHEME_P_ char *start, char *past_the_end, int prop)
1876 {
1877 port *pt = malloc (sizeof (port));
1878
1879 if (!pt && USE_ERROR_CHECKING)
1880 return 0;
1881
1882 pt->unget = -1;
1883 pt->kind = port_string | prop;
1884 pt->rep.string.start = start;
1885 pt->rep.string.curr = start;
1886 pt->rep.string.past_the_end = past_the_end;
1887 return pt;
1888 }
1889
1890 static pointer
1891 port_from_string (SCHEME_P_ char *start, char *past_the_end, int prop)
1892 {
1893 port *pt = port_rep_from_string (SCHEME_A_ start, past_the_end, prop);
1894
1895 if (!pt && USE_ERROR_CHECKING)
1896 return NIL;
1897
1898 return mk_port (SCHEME_A_ pt);
1899 }
1900
1901 # define BLOCK_SIZE 256
1902
1903 static port *
1904 port_rep_from_scratch (SCHEME_P)
1905 {
1906 char *start;
1907 port *pt = malloc (sizeof (port));
1908
1909 if (!pt && USE_ERROR_CHECKING)
1910 return 0;
1911
1912 start = malloc (BLOCK_SIZE);
1913
1914 if (start == 0)
1915 return 0;
1916
1917 memset (start, ' ', BLOCK_SIZE - 1);
1918 start[BLOCK_SIZE - 1] = '\0';
1919 pt->unget = -1;
1920 pt->kind = port_string | port_output | port_srfi6;
1921 pt->rep.string.start = start;
1922 pt->rep.string.curr = start;
1923 pt->rep.string.past_the_end = start + BLOCK_SIZE - 1;
1924 return pt;
1925 }
1926
1927 static pointer
1928 port_from_scratch (SCHEME_P)
1929 {
1930 port *pt = port_rep_from_scratch (SCHEME_A);
1931
1932 if (!pt && USE_ERROR_CHECKING)
1933 return NIL;
1934
1935 return mk_port (SCHEME_A_ pt);
1936 }
1937
1938 static void
1939 port_close (SCHEME_P_ pointer p, int flag)
1940 {
1941 port *pt = p->object.port;
1942
1943 pt->kind &= ~flag;
1944
1945 if ((pt->kind & (port_input | port_output)) == 0)
1946 {
1947 if (pt->kind & port_file)
1948 {
1949
1950 # if SHOW_ERROR_LINE
1951 /* Cleanup is here so (close-*-port) functions could work too */
1952 pt->rep.stdio.curr_line = 0;
1953
1954 if (pt->rep.stdio.filename)
1955 free (pt->rep.stdio.filename);
1956
1957 # endif
1958
1959 close (pt->rep.stdio.file);
1960 }
1961
1962 pt->kind = port_free;
1963 }
1964 }
1965 #endif
1966
1967 /* get new character from input file */
1968 static int
1969 inchar (SCHEME_P)
1970 {
1971 int c;
1972 port *pt;
1973
1974 pt = SCHEME_V->inport->object.port;
1975
1976 if (pt->kind & port_saw_EOF)
1977 return EOF;
1978
1979 c = basic_inchar (pt);
1980
1981 if (c == EOF && SCHEME_V->inport == SCHEME_V->loadport)
1982 {
1983 /* Instead, set port_saw_EOF */
1984 pt->kind |= port_saw_EOF;
1985
1986 /* file_pop(SCHEME_A); */
1987 return EOF;
1988 /* NOTREACHED */
1989 }
1990
1991 return c;
1992 }
1993
1994 static int ungot = -1;
1995
1996 static int
1997 basic_inchar (port *pt)
1998 {
1999 #if USE_PORTS
2000 if (pt->unget != -1)
2001 {
2002 int r = pt->unget;
2003 pt->unget = -1;
2004 return r;
2005 }
2006
2007 if (pt->kind & port_file)
2008 {
2009 char c;
2010
2011 if (!read (pt->rep.stdio.file, &c, 1))
2012 return EOF;
2013
2014 return c;
2015 }
2016 else
2017 {
2018 if (*pt->rep.string.curr == 0 || pt->rep.string.curr == pt->rep.string.past_the_end)
2019 return EOF;
2020 else
2021 return *pt->rep.string.curr++;
2022 }
2023 #else
2024 if (ungot == -1)
2025 {
2026 char c;
2027 if (!read (0, &c, 1))
2028 return EOF;
2029
2030 ungot = c;
2031 }
2032
2033 {
2034 int r = ungot;
2035 ungot = -1;
2036 return r;
2037 }
2038 #endif
2039 }
2040
2041 /* back character to input buffer */
2042 static void
2043 backchar (SCHEME_P_ int c)
2044 {
2045 #if USE_PORTS
2046 port *pt;
2047
2048 if (c == EOF)
2049 return;
2050
2051 pt = SCHEME_V->inport->object.port;
2052 pt->unget = c;
2053 #else
2054 if (c == EOF)
2055 return;
2056
2057 ungot = c;
2058 #endif
2059 }
2060
2061 #if USE_PORTS
2062 static int
2063 realloc_port_string (SCHEME_P_ port *p)
2064 {
2065 char *start = p->rep.string.start;
2066 size_t new_size = p->rep.string.past_the_end - start + 1 + BLOCK_SIZE;
2067 char *str = malloc (new_size);
2068
2069 if (str)
2070 {
2071 memset (str, ' ', new_size - 1);
2072 str[new_size - 1] = '\0';
2073 strcpy (str, start);
2074 p->rep.string.start = str;
2075 p->rep.string.past_the_end = str + new_size - 1;
2076 p->rep.string.curr -= start - str;
2077 free (start);
2078 return 1;
2079 }
2080 else
2081 return 0;
2082 }
2083 #endif
2084
2085 INTERFACE void
2086 putstr (SCHEME_P_ const char *s)
2087 {
2088 #if USE_PORTS
2089 port *pt = SCHEME_V->outport->object.port;
2090
2091 if (pt->kind & port_file)
2092 write (pt->rep.stdio.file, s, strlen (s));
2093 else
2094 for (; *s; s++)
2095 if (pt->rep.string.curr != pt->rep.string.past_the_end)
2096 *pt->rep.string.curr++ = *s;
2097 else if (pt->kind & port_srfi6 && realloc_port_string (SCHEME_A_ pt))
2098 *pt->rep.string.curr++ = *s;
2099
2100 #else
2101 xwrstr (s);
2102 #endif
2103 }
2104
2105 static void
2106 putchars (SCHEME_P_ const char *s, int len)
2107 {
2108 #if USE_PORTS
2109 port *pt = SCHEME_V->outport->object.port;
2110
2111 if (pt->kind & port_file)
2112 write (pt->rep.stdio.file, s, len);
2113 else
2114 {
2115 for (; len; len--)
2116 {
2117 if (pt->rep.string.curr != pt->rep.string.past_the_end)
2118 *pt->rep.string.curr++ = *s++;
2119 else if (pt->kind & port_srfi6 && realloc_port_string (SCHEME_A_ pt))
2120 *pt->rep.string.curr++ = *s++;
2121 }
2122 }
2123
2124 #else
2125 write (1, s, len);
2126 #endif
2127 }
2128
2129 INTERFACE void
2130 putcharacter (SCHEME_P_ int c)
2131 {
2132 #if USE_PORTS
2133 port *pt = SCHEME_V->outport->object.port;
2134
2135 if (pt->kind & port_file)
2136 {
2137 char cc = c;
2138 write (pt->rep.stdio.file, &cc, 1);
2139 }
2140 else
2141 {
2142 if (pt->rep.string.curr != pt->rep.string.past_the_end)
2143 *pt->rep.string.curr++ = c;
2144 else if (pt->kind & port_srfi6 && realloc_port_string (SCHEME_A_ pt))
2145 *pt->rep.string.curr++ = c;
2146 }
2147
2148 #else
2149 char cc = c;
2150 write (1, &c, 1);
2151 #endif
2152 }
2153
2154 /* read characters up to delimiter, but cater to character constants */
2155 static char *
2156 readstr_upto (SCHEME_P_ char *delim)
2157 {
2158 char *p = SCHEME_V->strbuff;
2159
2160 while ((p - SCHEME_V->strbuff < sizeof (SCHEME_V->strbuff)) && !is_one_of (delim, (*p++ = inchar (SCHEME_A))));
2161
2162 if (p == SCHEME_V->strbuff + 2 && p[-2] == '\\')
2163 *p = 0;
2164 else
2165 {
2166 backchar (SCHEME_A_ p[-1]);
2167 *--p = '\0';
2168 }
2169
2170 return SCHEME_V->strbuff;
2171 }
2172
2173 /* read string expression "xxx...xxx" */
2174 static pointer
2175 readstrexp (SCHEME_P)
2176 {
2177 char *p = SCHEME_V->strbuff;
2178 int c;
2179 int c1 = 0;
2180 enum
2181 { st_ok, st_bsl, st_x1, st_x2, st_oct1, st_oct2 } state = st_ok;
2182
2183 for (;;)
2184 {
2185 c = inchar (SCHEME_A);
2186
2187 if (c == EOF || p - SCHEME_V->strbuff > sizeof (SCHEME_V->strbuff) - 1)
2188 return S_F;
2189
2190 switch (state)
2191 {
2192 case st_ok:
2193 switch (c)
2194 {
2195 case '\\':
2196 state = st_bsl;
2197 break;
2198
2199 case '"':
2200 *p = 0;
2201 return mk_counted_string (SCHEME_A_ SCHEME_V->strbuff, p - SCHEME_V->strbuff);
2202
2203 default:
2204 *p++ = c;
2205 break;
2206 }
2207
2208 break;
2209
2210 case st_bsl:
2211 switch (c)
2212 {
2213 case '0':
2214 case '1':
2215 case '2':
2216 case '3':
2217 case '4':
2218 case '5':
2219 case '6':
2220 case '7':
2221 state = st_oct1;
2222 c1 = c - '0';
2223 break;
2224
2225 case 'x':
2226 case 'X':
2227 state = st_x1;
2228 c1 = 0;
2229 break;
2230
2231 case 'n':
2232 *p++ = '\n';
2233 state = st_ok;
2234 break;
2235
2236 case 't':
2237 *p++ = '\t';
2238 state = st_ok;
2239 break;
2240
2241 case 'r':
2242 *p++ = '\r';
2243 state = st_ok;
2244 break;
2245
2246 case '"':
2247 *p++ = '"';
2248 state = st_ok;
2249 break;
2250
2251 default:
2252 *p++ = c;
2253 state = st_ok;
2254 break;
2255 }
2256
2257 break;
2258
2259 case st_x1:
2260 case st_x2:
2261 c = toupper (c);
2262
2263 if (c >= '0' && c <= 'F')
2264 {
2265 if (c <= '9')
2266 c1 = (c1 << 4) + c - '0';
2267 else
2268 c1 = (c1 << 4) + c - 'A' + 10;
2269
2270 if (state == st_x1)
2271 state = st_x2;
2272 else
2273 {
2274 *p++ = c1;
2275 state = st_ok;
2276 }
2277 }
2278 else
2279 return S_F;
2280
2281 break;
2282
2283 case st_oct1:
2284 case st_oct2:
2285 if (c < '0' || c > '7')
2286 {
2287 *p++ = c1;
2288 backchar (SCHEME_A_ c);
2289 state = st_ok;
2290 }
2291 else
2292 {
2293 if (state == st_oct2 && c1 >= 32)
2294 return S_F;
2295
2296 c1 = (c1 << 3) + (c - '0');
2297
2298 if (state == st_oct1)
2299 state = st_oct2;
2300 else
2301 {
2302 *p++ = c1;
2303 state = st_ok;
2304 }
2305 }
2306
2307 break;
2308
2309 }
2310 }
2311 }
2312
2313 /* check c is in chars */
2314 static INLINE int
2315 is_one_of (char *s, int c)
2316 {
2317 if (c == EOF)
2318 return 1;
2319
2320 return !!strchr (s, c);
2321 }
2322
2323 /* skip white characters */
2324 static INLINE int
2325 skipspace (SCHEME_P)
2326 {
2327 int c, curr_line = 0;
2328
2329 do
2330 {
2331 c = inchar (SCHEME_A);
2332 #if SHOW_ERROR_LINE
2333 if (c == '\n')
2334 curr_line++;
2335 #endif
2336 }
2337 while (c == ' ' || c == '\n' || c == '\r' || c == '\t');
2338
2339 /* record it */
2340 #if SHOW_ERROR_LINE
2341 if (SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file)
2342 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line += curr_line;
2343 #endif
2344
2345 if (c != EOF)
2346 {
2347 backchar (SCHEME_A_ c);
2348 return 1;
2349 }
2350 else
2351 return EOF;
2352 }
2353
2354 /* get token */
2355 static int
2356 token (SCHEME_P)
2357 {
2358 int c = skipspace (SCHEME_A);
2359
2360 if (c == EOF)
2361 return TOK_EOF;
2362
2363 switch ((c = inchar (SCHEME_A)))
2364 {
2365 case EOF:
2366 return TOK_EOF;
2367
2368 case '(':
2369 return TOK_LPAREN;
2370
2371 case ')':
2372 return TOK_RPAREN;
2373
2374 case '.':
2375 c = inchar (SCHEME_A);
2376
2377 if (is_one_of (" \n\t", c))
2378 return TOK_DOT;
2379 else
2380 {
2381 //TODO: ungetc twice in a row is not supported in C
2382 backchar (SCHEME_A_ c);
2383 backchar (SCHEME_A_ '.');
2384 return TOK_ATOM;
2385 }
2386
2387 case '\'':
2388 return TOK_QUOTE;
2389
2390 case ';':
2391 while ((c = inchar (SCHEME_A)) != '\n' && c != EOF)
2392 ;
2393
2394 #if SHOW_ERROR_LINE
2395
2396 if (c == '\n' && SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file)
2397 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line++;
2398
2399 #endif
2400
2401 if (c == EOF)
2402 return TOK_EOF;
2403 else
2404 return token (SCHEME_A);
2405
2406 case '"':
2407 return TOK_DQUOTE;
2408
2409 case BACKQUOTE:
2410 return TOK_BQUOTE;
2411
2412 case ',':
2413 if ((c = inchar (SCHEME_A)) == '@')
2414 return TOK_ATMARK;
2415 else
2416 {
2417 backchar (SCHEME_A_ c);
2418 return TOK_COMMA;
2419 }
2420
2421 case '#':
2422 c = inchar (SCHEME_A);
2423
2424 if (c == '(')
2425 return TOK_VEC;
2426 else if (c == '!')
2427 {
2428 while ((c = inchar (SCHEME_A)) != '\n' && c != EOF)
2429 ;
2430
2431 #if SHOW_ERROR_LINE
2432
2433 if (c == '\n' && SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file)
2434 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line++;
2435
2436 #endif
2437
2438 if (c == EOF)
2439 return TOK_EOF;
2440 else
2441 return token (SCHEME_A);
2442 }
2443 else
2444 {
2445 backchar (SCHEME_A_ c);
2446
2447 if (is_one_of (" tfodxb\\", c))
2448 return TOK_SHARP_CONST;
2449 else
2450 return TOK_SHARP;
2451 }
2452
2453 default:
2454 backchar (SCHEME_A_ c);
2455 return TOK_ATOM;
2456 }
2457 }
2458
2459 /* ========== Routines for Printing ========== */
2460 #define ok_abbrev(x) (is_pair(x) && cdr(x) == NIL)
2461
2462 static void
2463 printslashstring (SCHEME_P_ char *p, int len)
2464 {
2465 int i;
2466 unsigned char *s = (unsigned char *) p;
2467
2468 putcharacter (SCHEME_A_ '"');
2469
2470 for (i = 0; i < len; i++)
2471 {
2472 if (*s == 0xff || *s == '"' || *s < ' ' || *s == '\\')
2473 {
2474 putcharacter (SCHEME_A_ '\\');
2475
2476 switch (*s)
2477 {
2478 case '"':
2479 putcharacter (SCHEME_A_ '"');
2480 break;
2481
2482 case '\n':
2483 putcharacter (SCHEME_A_ 'n');
2484 break;
2485
2486 case '\t':
2487 putcharacter (SCHEME_A_ 't');
2488 break;
2489
2490 case '\r':
2491 putcharacter (SCHEME_A_ 'r');
2492 break;
2493
2494 case '\\':
2495 putcharacter (SCHEME_A_ '\\');
2496 break;
2497
2498 default:
2499 {
2500 int d = *s / 16;
2501
2502 putcharacter (SCHEME_A_ 'x');
2503
2504 if (d < 10)
2505 putcharacter (SCHEME_A_ d + '0');
2506 else
2507 putcharacter (SCHEME_A_ d - 10 + 'A');
2508
2509 d = *s % 16;
2510
2511 if (d < 10)
2512 putcharacter (SCHEME_A_ d + '0');
2513 else
2514 putcharacter (SCHEME_A_ d - 10 + 'A');
2515 }
2516 }
2517 }
2518 else
2519 putcharacter (SCHEME_A_ * s);
2520
2521 s++;
2522 }
2523
2524 putcharacter (SCHEME_A_ '"');
2525 }
2526
2527
2528 /* print atoms */
2529 static void
2530 printatom (SCHEME_P_ pointer l, int f)
2531 {
2532 char *p;
2533 int len;
2534
2535 atom2str (SCHEME_A_ l, f, &p, &len);
2536 putchars (SCHEME_A_ p, len);
2537 }
2538
2539
2540 /* Uses internal buffer unless string pointer is already available */
2541 static void
2542 atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen)
2543 {
2544 char *p;
2545
2546 if (l == NIL)
2547 p = "()";
2548 else if (l == S_T)
2549 p = "#t";
2550 else if (l == S_F)
2551 p = "#f";
2552 else if (l == S_EOF)
2553 p = "#<EOF>";
2554 else if (is_port (l))
2555 p = "#<PORT>";
2556 else if (is_number (l))
2557 {
2558 p = SCHEME_V->strbuff;
2559
2560 if (f <= 1 || f == 10) /* f is the base for numbers if > 1 */
2561 {
2562 if (num_is_integer (l))
2563 xnum (p, ivalue_unchecked (l));
2564 #if USE_REAL
2565 else
2566 {
2567 snprintf (p, STRBUFFSIZE, "%.10g", rvalue_unchecked (l));
2568 /* r5rs says there must be a '.' (unless 'e'?) */
2569 f = strcspn (p, ".e");
2570
2571 if (p[f] == 0)
2572 {
2573 p[f] = '.'; /* not found, so add '.0' at the end */
2574 p[f + 1] = '0';
2575 p[f + 2] = 0;
2576 }
2577 }
2578 #endif
2579 }
2580 else
2581 {
2582 long v = ivalue (l);
2583
2584 if (f == 16)
2585 xbase (p, v, 16);
2586 else if (f == 8)
2587 xbase (p, v, 8);
2588 else if (f == 2)
2589 {
2590 unsigned long b = (v < 0) ? -v : v;
2591
2592 p = &p[STRBUFFSIZE - 1];
2593 *p = 0;
2594
2595 do
2596 {
2597 *--p = (b & 1) ? '1' : '0';
2598 b >>= 1;
2599 }
2600 while (b != 0);
2601
2602 if (v < 0)
2603 *--p = '-';
2604 }
2605 }
2606 }
2607 else if (is_string (l))
2608 {
2609 if (!f)
2610 p = strvalue (l);
2611 else /* Hack, uses the fact that printing is needed */
2612 {
2613 *pp = SCHEME_V->strbuff;
2614 *plen = 0;
2615 printslashstring (SCHEME_A_ strvalue (l), strlength (l));
2616 return;
2617 }
2618 }
2619 else if (is_character (l))
2620 {
2621 int c = charvalue (l);
2622
2623 p = SCHEME_V->strbuff;
2624
2625 if (!f)
2626 {
2627 p[0] = c;
2628 p[1] = 0;
2629 }
2630 else
2631 {
2632 switch (c)
2633 {
2634 case ' ':
2635 p ="#\\space";
2636 break;
2637
2638 case '\n':
2639 p ="#\\newline";
2640 break;
2641
2642 case '\r':
2643 p ="#\\return";
2644 break;
2645
2646 case '\t':
2647 p ="#\\tab";
2648 break;
2649
2650 default:
2651 #if USE_ASCII_NAMES
2652 if (c == 127)
2653 {
2654 strcpy (p, "#\\del");
2655 break;
2656 }
2657 else if (c < 32)
2658 {
2659 strcpy (p, "#\\");
2660 strcpy (p + 2, charnames[c]);
2661 break;
2662 }
2663
2664 #else
2665
2666 if (c < 32)
2667 {
2668 strcpy (p, "#\\x");
2669 xbase (p + 3, c, 16);
2670 break;
2671 }
2672
2673 #endif
2674 strcpy (p, "#\\%");
2675 p[2] = c;
2676 break;
2677 }
2678 }
2679 }
2680 else if (is_symbol (l))
2681 p = symname (l);
2682 else if (is_proc (l))
2683 {
2684 #if USE_PRINTF
2685 p = SCHEME_V->strbuff;
2686 snprintf (p, STRBUFFSIZE, "#<%s PROCEDURE %ld>", procname (l), procnum (l));
2687 #else
2688 p = "#<PROCEDURE>";
2689 #endif
2690 }
2691 else if (is_macro (l))
2692 p = "#<MACRO>";
2693 else if (is_closure (l))
2694 p = "#<CLOSURE>";
2695 else if (is_promise (l))
2696 p = "#<PROMISE>";
2697 else if (is_foreign (l))
2698 {
2699 #if USE_PRINTF
2700 p = SCHEME_V->strbuff;
2701 snprintf (p, STRBUFFSIZE, "#<FOREIGN PROCEDURE %ld>", procnum (l));
2702 #else
2703 p = "#<FOREIGN PROCEDURE>";
2704 #endif
2705 }
2706 else if (is_continuation (l))
2707 p = "#<CONTINUATION>";
2708 else
2709 p = "#<ERROR>";
2710
2711 *pp = p;
2712 *plen = strlen (p);
2713 }
2714
2715 /* ========== Routines for Evaluation Cycle ========== */
2716
2717 /* make closure. c is code. e is environment */
2718 static pointer
2719 mk_closure (SCHEME_P_ pointer c, pointer e)
2720 {
2721 pointer x = get_cell (SCHEME_A_ c, e);
2722
2723 set_typeflag (x, T_CLOSURE);
2724 set_car (x, c);
2725 set_cdr (x, e);
2726 return x;
2727 }
2728
2729 /* make continuation. */
2730 static pointer
2731 mk_continuation (SCHEME_P_ pointer d)
2732 {
2733 pointer x = get_cell (SCHEME_A_ NIL, d);
2734
2735 set_typeflag (x, T_CONTINUATION);
2736 set_cont_dump (x, d);
2737 return x;
2738 }
2739
2740 static pointer
2741 list_star (SCHEME_P_ pointer d)
2742 {
2743 pointer p, q;
2744
2745 if (cdr (d) == NIL)
2746 return car (d);
2747
2748 p = cons (car (d), cdr (d));
2749 q = p;
2750
2751 while (cdr (cdr (p)) != NIL)
2752 {
2753 d = cons (car (p), cdr (p));
2754
2755 if (cdr (cdr (p)) != NIL)
2756 p = cdr (d);
2757 }
2758
2759 set_cdr (p, car (cdr (p)));
2760 return q;
2761 }
2762
2763 /* reverse list -- produce new list */
2764 static pointer
2765 reverse (SCHEME_P_ pointer a)
2766 {
2767 /* a must be checked by gc */
2768 pointer p = NIL;
2769
2770 for (; is_pair (a); a = cdr (a))
2771 p = cons (car (a), p);
2772
2773 return p;
2774 }
2775
2776 /* reverse list --- in-place */
2777 static pointer
2778 reverse_in_place (SCHEME_P_ pointer term, pointer list)
2779 {
2780 pointer result = term;
2781 pointer p = list;
2782
2783 while (p != NIL)
2784 {
2785 pointer q = cdr (p);
2786 set_cdr (p, result);
2787 result = p;
2788 p = q;
2789 }
2790
2791 return result;
2792 }
2793
2794 /* append list -- produce new list (in reverse order) */
2795 static pointer
2796 revappend (SCHEME_P_ pointer a, pointer b)
2797 {
2798 pointer result = a;
2799 pointer p = b;
2800
2801 while (is_pair (p))
2802 {
2803 result = cons (car (p), result);
2804 p = cdr (p);
2805 }
2806
2807 if (p == NIL)
2808 return result;
2809
2810 return S_F; /* signal an error */
2811 }
2812
2813 /* equivalence of atoms */
2814 int
2815 eqv (pointer a, pointer b)
2816 {
2817 if (is_string (a))
2818 {
2819 if (is_string (b))
2820 return strvalue (a) == strvalue (b);
2821 else
2822 return 0;
2823 }
2824 else if (is_number (a))
2825 {
2826 if (is_number (b))
2827 if (num_is_integer (a) == num_is_integer (b))
2828 return num_eq (nvalue (a), nvalue (b));
2829
2830 return 0;
2831 }
2832 else if (is_character (a))
2833 {
2834 if (is_character (b))
2835 return charvalue (a) == charvalue (b);
2836 else
2837 return 0;
2838 }
2839 else if (is_port (a))
2840 {
2841 if (is_port (b))
2842 return a == b;
2843 else
2844 return 0;
2845 }
2846 else if (is_proc (a))
2847 {
2848 if (is_proc (b))
2849 return procnum (a) == procnum (b);
2850 else
2851 return 0;
2852 }
2853 else
2854 return a == b;
2855 }
2856
2857 /* true or false value macro */
2858
2859 /* () is #t in R5RS */
2860 #define is_true(p) ((p) != S_F)
2861 #define is_false(p) ((p) == S_F)
2862
2863 /* ========== Environment implementation ========== */
2864
2865 #if !defined(USE_ALIST_ENV) || !defined(USE_OBJECT_LIST)
2866
2867 static int
2868 hash_fn (const char *key, int table_size)
2869 {
2870 const unsigned char *p = key;
2871 uint32_t hash = 2166136261;
2872
2873 while (*p)
2874 hash = (hash ^ *p++) * 16777619;
2875
2876 return hash % table_size;
2877 }
2878 #endif
2879
2880 #ifndef USE_ALIST_ENV
2881
2882 /*
2883 * In this implementation, each frame of the environment may be
2884 * a hash table: a vector of alists hashed by variable name.
2885 * In practice, we use a vector only for the initial frame;
2886 * subsequent frames are too small and transient for the lookup
2887 * speed to out-weigh the cost of making a new vector.
2888 */
2889
2890 static void
2891 new_frame_in_env (SCHEME_P_ pointer old_env)
2892 {
2893 pointer new_frame;
2894
2895 /* The interaction-environment has about 300 variables in it. */
2896 if (old_env == NIL)
2897 new_frame = mk_vector (SCHEME_A_ 461);
2898 else
2899 new_frame = NIL;
2900
2901 SCHEME_V->envir = immutable_cons (new_frame, old_env);
2902 setenvironment (SCHEME_V->envir);
2903 }
2904
2905 static INLINE void
2906 new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)
2907 {
2908 pointer slot = immutable_cons (variable, value);
2909
2910 if (is_vector (car (env)))
2911 {
2912 int location = hash_fn (symname (variable), veclength (car (env)));
2913
2914 set_vector_elem (car (env), location, immutable_cons (slot, vector_elem (car (env), location)));
2915 }
2916 else
2917 set_car (env, immutable_cons (slot, car (env)));
2918 }
2919
2920 static pointer
2921 find_slot_in_env (SCHEME_P_ pointer env, pointer hdl, int all)
2922 {
2923 pointer x, y;
2924 int location;
2925
2926 for (x = env; x != NIL; x = cdr (x))
2927 {
2928 if (is_vector (car (x)))
2929 {
2930 location = hash_fn (symname (hdl), veclength (car (x)));
2931 y = vector_elem (car (x), location);
2932 }
2933 else
2934 y = car (x);
2935
2936 for (; y != NIL; y = cdr (y))
2937 if (caar (y) == hdl)
2938 break;
2939
2940 if (y != NIL)
2941 break;
2942
2943 if (!all)
2944 return NIL;
2945 }
2946
2947 if (x != NIL)
2948 return car (y);
2949
2950 return NIL;
2951 }
2952
2953 #else /* USE_ALIST_ENV */
2954
2955 static INLINE void
2956 new_frame_in_env (SCHEME_P_ pointer old_env)
2957 {
2958 SCHEME_V->envir = immutable_cons (NIL, old_env);
2959 setenvironment (SCHEME_V->envir);
2960 }
2961
2962 static INLINE void
2963 new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)
2964 {
2965 set_car (env, immutable_cons (immutable_cons (variable, value), car (env)));
2966 }
2967
2968 static pointer
2969 find_slot_in_env (SCHEME_P_ pointer env, pointer hdl, int all)
2970 {
2971 pointer x, y;
2972
2973 for (x = env; x != NIL; x = cdr (x))
2974 {
2975 for (y = car (x); y != NIL; y = cdr (y))
2976 if (caar (y) == hdl)
2977 break;
2978
2979 if (y != NIL)
2980 break;
2981
2982 if (!all)
2983 return NIL;
2984 }
2985
2986 if (x != NIL)
2987 return car (y);
2988
2989 return NIL;
2990 }
2991
2992 #endif /* USE_ALIST_ENV else */
2993
2994 static INLINE void
2995 new_slot_in_env (SCHEME_P_ pointer variable, pointer value)
2996 {
2997 new_slot_spec_in_env (SCHEME_A_ SCHEME_V->envir, variable, value);
2998 }
2999
3000 static INLINE void
3001 set_slot_in_env (SCHEME_P_ pointer slot, pointer value)
3002 {
3003 set_cdr (slot, value);
3004 }
3005
3006 static INLINE pointer
3007 slot_value_in_env (pointer slot)
3008 {
3009 return cdr (slot);
3010 }
3011
3012 /* ========== Evaluation Cycle ========== */
3013
3014 static pointer
3015 xError_1 (SCHEME_P_ const char *s, pointer a)
3016 {
3017 #if USE_ERROR_HOOK
3018 pointer x;
3019 pointer hdl = SCHEME_V->ERROR_HOOK;
3020 #endif
3021
3022 #if USE_PRINTF
3023 #if SHOW_ERROR_LINE
3024 char sbuf[STRBUFFSIZE];
3025
3026 /* make sure error is not in REPL */
3027 if ((SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file) && SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.file != STDIN_FILENO)
3028 {
3029 int ln = SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line;
3030 const char *fname = SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.filename;
3031
3032 /* should never happen */
3033 if (!fname)
3034 fname = "<unknown>";
3035
3036 /* we started from 0 */
3037 ln++;
3038 snprintf (sbuf, STRBUFFSIZE, "(%s : %i) %s", fname, ln, s);
3039
3040 s = sbuf;
3041 }
3042 #endif
3043 #endif
3044
3045 #if USE_ERROR_HOOK
3046 x = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, hdl, 1);
3047
3048 if (x != NIL)
3049 {
3050 pointer code = a
3051 ? cons (cons (SCHEME_V->QUOTE, cons (a, NIL)), NIL)
3052 : NIL;
3053
3054 code = cons (mk_string (SCHEME_A_ s), code);
3055 setimmutable (car (code));
3056 SCHEME_V->code = cons (slot_value_in_env (x), code);
3057 SCHEME_V->op = OP_EVAL;
3058
3059 return S_T;
3060 }
3061 #endif
3062
3063 if (a)
3064 SCHEME_V->args = cons (a, NIL);
3065 else
3066 SCHEME_V->args = NIL;
3067
3068 SCHEME_V->args = cons (mk_string (SCHEME_A_ s), SCHEME_V->args);
3069 setimmutable (car (SCHEME_V->args));
3070 SCHEME_V->op = OP_ERR0;
3071 return S_T;
3072 }
3073
3074 #define Error_1(s, a) return xError_1(SCHEME_A_ USE_ERROR_CHECKING ? s : "", a)
3075 #define Error_0(s) Error_1 (s, 0)
3076
3077 /* Too small to turn into function */
3078 #define BEGIN do {
3079 #define END } while (0)
3080 #define s_goto(a) BEGIN \
3081 SCHEME_V->op = a; \
3082 return S_T; END
3083
3084 #define s_return(a) return xs_return (SCHEME_A_ a)
3085
3086 #ifndef USE_SCHEME_STACK
3087
3088 /* this structure holds all the interpreter's registers */
3089 struct dump_stack_frame
3090 {
3091 enum scheme_opcodes op;
3092 pointer args;
3093 pointer envir;
3094 pointer code;
3095 };
3096
3097 # define STACK_GROWTH 3
3098
3099 static void
3100 s_save (SCHEME_P_ enum scheme_opcodes op, pointer args, pointer code)
3101 {
3102 int nframes = (uintptr_t)SCHEME_V->dump;
3103 struct dump_stack_frame *next_frame;
3104
3105 /* enough room for the next frame? */
3106 if (nframes >= SCHEME_V->dump_size)
3107 {
3108 SCHEME_V->dump_size += STACK_GROWTH;
3109 SCHEME_V->dump_base = realloc (SCHEME_V->dump_base, sizeof (struct dump_stack_frame) * SCHEME_V->dump_size);
3110 }
3111
3112 next_frame = SCHEME_V->dump_base + nframes;
3113
3114 next_frame->op = op;
3115 next_frame->args = args;
3116 next_frame->envir = SCHEME_V->envir;
3117 next_frame->code = code;
3118
3119 SCHEME_V->dump = (pointer)(uintptr_t)(nframes + 1);
3120 }
3121
3122 static pointer
3123 xs_return (SCHEME_P_ pointer a)
3124 {
3125 int nframes = (uintptr_t)SCHEME_V->dump;
3126 struct dump_stack_frame *frame;
3127
3128 SCHEME_V->value = a;
3129
3130 if (nframes <= 0)
3131 return NIL;
3132
3133 frame = &SCHEME_V->dump_base[--nframes];
3134 SCHEME_V->op = frame->op;
3135 SCHEME_V->args = frame->args;
3136 SCHEME_V->envir = frame->envir;
3137 SCHEME_V->code = frame->code;
3138 SCHEME_V->dump = (pointer)(uintptr_t)nframes;
3139
3140 return S_T;
3141 }
3142
3143 static INLINE void
3144 dump_stack_reset (SCHEME_P)
3145 {
3146 /* in this implementation, SCHEME_V->dump is the number of frames on the stack */
3147 SCHEME_V->dump = (pointer)+0;
3148 }
3149
3150 static INLINE void
3151 dump_stack_initialize (SCHEME_P)
3152 {
3153 SCHEME_V->dump_size = 0;
3154 SCHEME_V->dump_base = 0;
3155 dump_stack_reset (SCHEME_A);
3156 }
3157
3158 static void
3159 dump_stack_free (SCHEME_P)
3160 {
3161 free (SCHEME_V->dump_base);
3162 SCHEME_V->dump_base = 0;
3163 SCHEME_V->dump = (pointer)0;
3164 SCHEME_V->dump_size = 0;
3165 }
3166
3167 static void
3168 dump_stack_mark (SCHEME_P)
3169 {
3170 int nframes = (uintptr_t)SCHEME_V->dump;
3171 int i;
3172
3173 for (i = 0; i < nframes; i++)
3174 {
3175 struct dump_stack_frame *frame = SCHEME_V->dump_base + i;
3176
3177 mark (frame->args);
3178 mark (frame->envir);
3179 mark (frame->code);
3180 }
3181 }
3182
3183 static pointer
3184 ss_get_cont (SCHEME_P)
3185 {
3186 int nframes = (uintptr_t)SCHEME_V->dump;
3187 int i;
3188
3189 pointer cont = NIL;
3190
3191 for (i = nframes; i--; )
3192 {
3193 struct dump_stack_frame *frame = SCHEME_V->dump_base + i;
3194
3195 cont = cons (mk_integer (SCHEME_A_ frame->op),
3196 cons (frame->args,
3197 cons (frame->envir,
3198 cons (frame->code,
3199 cont))));
3200 }
3201
3202 return cont;
3203 }
3204
3205 static void
3206 ss_set_cont (SCHEME_P_ pointer cont)
3207 {
3208 int i = 0;
3209 struct dump_stack_frame *frame = SCHEME_V->dump_base;
3210
3211 while (cont != NIL)
3212 {
3213 frame->op = ivalue (car (cont)); cont = cdr (cont);
3214 frame->args = car (cont) ; cont = cdr (cont);
3215 frame->envir = car (cont) ; cont = cdr (cont);
3216 frame->code = car (cont) ; cont = cdr (cont);
3217
3218 ++frame;
3219 ++i;
3220 }
3221
3222 SCHEME_V->dump = (pointer)(uintptr_t)i;
3223 }
3224
3225 #else
3226
3227 static INLINE void
3228 dump_stack_reset (SCHEME_P)
3229 {
3230 SCHEME_V->dump = NIL;
3231 }
3232
3233 static INLINE void
3234 dump_stack_initialize (SCHEME_P)
3235 {
3236 dump_stack_reset (SCHEME_A);
3237 }
3238
3239 static void
3240 dump_stack_free (SCHEME_P)
3241 {
3242 SCHEME_V->dump = NIL;
3243 }
3244
3245 static pointer
3246 xs_return (SCHEME_P_ pointer a)
3247 {
3248 pointer dump = SCHEME_V->dump;
3249
3250 SCHEME_V->value = a;
3251
3252 if (dump == NIL)
3253 return NIL;
3254
3255 SCHEME_V->op = ivalue (car (dump)); dump = cdr (dump);
3256 SCHEME_V->args = car (dump) ; dump = cdr (dump);
3257 SCHEME_V->envir = car (dump) ; dump = cdr (dump);
3258 SCHEME_V->code = car (dump) ; dump = cdr (dump);
3259
3260 SCHEME_V->dump = dump;
3261
3262 return S_T;
3263 }
3264
3265 static void
3266 s_save (SCHEME_P_ enum scheme_opcodes op, pointer args, pointer code)
3267 {
3268 SCHEME_V->dump = cons (mk_integer (SCHEME_A_ op),
3269 cons (args,
3270 cons (SCHEME_V->envir,
3271 cons (code,
3272 SCHEME_V->dump))));
3273 }
3274
3275 static void
3276 dump_stack_mark (SCHEME_P)
3277 {
3278 mark (SCHEME_V->dump);
3279 }
3280
3281 static pointer
3282 ss_get_cont (SCHEME_P)
3283 {
3284 return SCHEME_V->dump;
3285 }
3286
3287 static void
3288 ss_set_cont (SCHEME_P_ pointer cont)
3289 {
3290 SCHEME_V->dump = cont;
3291 }
3292
3293 #endif
3294
3295 #define s_retbool(tf) s_return ((tf) ? S_T : S_F)
3296
3297 static pointer
3298 opexe_0 (SCHEME_P_ enum scheme_opcodes op)
3299 {
3300 pointer x, y;
3301
3302 switch (op)
3303 {
3304 case OP_LOAD: /* load */
3305 if (file_interactive (SCHEME_A))
3306 {
3307 xwrstr ("Loading "); xwrstr (strvalue (car (SCHEME_V->args))); xwrstr ("\n");
3308 //D fprintf (SCHEME_V->outport->object.port->rep.stdio.file, "Loading %s\n", strvalue (car (SCHEME_V->args)));
3309 }
3310
3311 if (!file_push (SCHEME_A_ strvalue (car (SCHEME_V->args))))
3312 Error_1 ("unable to open", car (SCHEME_V->args));
3313 else
3314 {
3315 SCHEME_V->args = mk_integer (SCHEME_A_ SCHEME_V->file_i);
3316 s_goto (OP_T0LVL);
3317 }
3318
3319 case OP_T0LVL: /* top level */
3320
3321 /* If we reached the end of file, this loop is done. */
3322 if (SCHEME_V->loadport->object.port->kind & port_saw_EOF)
3323 {
3324 if (SCHEME_V->file_i == 0)
3325 {
3326 SCHEME_V->args = NIL;
3327 s_goto (OP_QUIT);
3328 }
3329 else
3330 {
3331 file_pop (SCHEME_A);
3332 s_return (SCHEME_V->value);
3333 }
3334
3335 /* NOTREACHED */
3336 }
3337
3338 /* If interactive, be nice to user. */
3339 if (file_interactive (SCHEME_A))
3340 {
3341 SCHEME_V->envir = SCHEME_V->global_env;
3342 dump_stack_reset (SCHEME_A);
3343 putstr (SCHEME_A_ "\n");
3344 putstr (SCHEME_A_ prompt);
3345 }
3346
3347 /* Set up another iteration of REPL */
3348 SCHEME_V->nesting = 0;
3349 SCHEME_V->save_inport = SCHEME_V->inport;
3350 SCHEME_V->inport = SCHEME_V->loadport;
3351 s_save (SCHEME_A_ OP_T0LVL, NIL, NIL);
3352 s_save (SCHEME_A_ OP_VALUEPRINT, NIL, NIL);
3353 s_save (SCHEME_A_ OP_T1LVL, NIL, NIL);
3354 s_goto (OP_READ_INTERNAL);
3355
3356 case OP_T1LVL: /* top level */
3357 SCHEME_V->code = SCHEME_V->value;
3358 SCHEME_V->inport = SCHEME_V->save_inport;
3359 s_goto (OP_EVAL);
3360
3361 case OP_READ_INTERNAL: /* internal read */
3362 SCHEME_V->tok = token (SCHEME_A);
3363
3364 if (SCHEME_V->tok == TOK_EOF)
3365 s_return (S_EOF);
3366
3367 s_goto (OP_RDSEXPR);
3368
3369 case OP_GENSYM:
3370 s_return (gensym (SCHEME_A));
3371
3372 case OP_VALUEPRINT: /* print evaluation result */
3373
3374 /* OP_VALUEPRINT is always pushed, because when changing from
3375 non-interactive to interactive mode, it needs to be
3376 already on the stack */
3377 #if USE_TRACING
3378 if (SCHEME_V->tracing)
3379 putstr (SCHEME_A_ "\nGives: ");
3380 #endif
3381
3382 if (file_interactive (SCHEME_A))
3383 {
3384 SCHEME_V->print_flag = 1;
3385 SCHEME_V->args = SCHEME_V->value;
3386 s_goto (OP_P0LIST);
3387 }
3388 else
3389 s_return (SCHEME_V->value);
3390
3391 case OP_EVAL: /* main part of evaluation */
3392 #if USE_TRACING
3393 if (SCHEME_V->tracing)
3394 {
3395 /*s_save(SCHEME_A_ OP_VALUEPRINT,NIL,NIL); */
3396 s_save (SCHEME_A_ OP_REAL_EVAL, SCHEME_V->args, SCHEME_V->code);
3397 SCHEME_V->args = SCHEME_V->code;
3398 putstr (SCHEME_A_ "\nEval: ");
3399 s_goto (OP_P0LIST);
3400 }
3401
3402 /* fall through */
3403
3404 case OP_REAL_EVAL:
3405 #endif
3406 if (is_symbol (SCHEME_V->code)) /* symbol */
3407 {
3408 x = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->code, 1);
3409
3410 if (x != NIL)
3411 s_return (slot_value_in_env (x));
3412 else
3413 Error_1 ("eval: unbound variable:", SCHEME_V->code);
3414 }
3415 else if (is_pair (SCHEME_V->code))
3416 {
3417 x = car (SCHEME_V->code);
3418
3419 if (is_syntax (x)) /* SYNTAX */
3420 {
3421 SCHEME_V->code = cdr (SCHEME_V->code);
3422 s_goto (syntaxnum (x));
3423 }
3424 else /* first, eval top element and eval arguments */
3425 {
3426 s_save (SCHEME_A_ OP_E0ARGS, NIL, SCHEME_V->code);
3427 /* If no macros => s_save(SCHEME_A_ OP_E1ARGS, NIL, cdr(SCHEME_V->code)); */
3428 SCHEME_V->code = x;
3429 s_goto (OP_EVAL);
3430 }
3431 }
3432 else
3433 s_return (SCHEME_V->code);
3434
3435 case OP_E0ARGS: /* eval arguments */
3436 if (is_macro (SCHEME_V->value)) /* macro expansion */
3437 {
3438 s_save (SCHEME_A_ OP_DOMACRO, NIL, NIL);
3439 SCHEME_V->args = cons (SCHEME_V->code, NIL);
3440 SCHEME_V->code = SCHEME_V->value;
3441 s_goto (OP_APPLY);
3442 }
3443 else
3444 {
3445 SCHEME_V->code = cdr (SCHEME_V->code);
3446 s_goto (OP_E1ARGS);
3447 }
3448
3449 case OP_E1ARGS: /* eval arguments */
3450 SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);
3451
3452 if (is_pair (SCHEME_V->code)) /* continue */
3453 {
3454 s_save (SCHEME_A_ OP_E1ARGS, SCHEME_V->args, cdr (SCHEME_V->code));
3455 SCHEME_V->code = car (SCHEME_V->code);
3456 SCHEME_V->args = NIL;
3457 s_goto (OP_EVAL);
3458 }
3459 else /* end */
3460 {
3461 SCHEME_V->args = reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args);
3462 SCHEME_V->code = car (SCHEME_V->args);
3463 SCHEME_V->args = cdr (SCHEME_V->args);
3464 s_goto (OP_APPLY);
3465 }
3466
3467 #if USE_TRACING
3468
3469 case OP_TRACING:
3470 {
3471 int tr = SCHEME_V->tracing;
3472
3473 SCHEME_V->tracing = ivalue (car (SCHEME_V->args));
3474 s_return (mk_integer (SCHEME_A_ tr));
3475 }
3476
3477 #endif
3478
3479 case OP_APPLY: /* apply 'code' to 'args' */
3480 #if USE_TRACING
3481 if (SCHEME_V->tracing)
3482 {
3483 s_save (SCHEME_A_ OP_REAL_APPLY, SCHEME_V->args, SCHEME_V->code);
3484 SCHEME_V->print_flag = 1;
3485 /* SCHEME_V->args=cons(SCHEME_V->code,SCHEME_V->args); */
3486 putstr (SCHEME_A_ "\nApply to: ");
3487 s_goto (OP_P0LIST);
3488 }
3489
3490 /* fall through */
3491
3492 case OP_REAL_APPLY:
3493 #endif
3494 if (is_proc (SCHEME_V->code))
3495 {
3496 s_goto (procnum (SCHEME_V->code)); /* PROCEDURE */
3497 }
3498 else if (is_foreign (SCHEME_V->code))
3499 {
3500 /* Keep nested calls from GC'ing the arglist */
3501 push_recent_alloc (SCHEME_A_ SCHEME_V->args, NIL);
3502 x = SCHEME_V->code->object.ff (SCHEME_A_ SCHEME_V->args);
3503
3504 s_return (x);
3505 }
3506 else if (is_closure (SCHEME_V->code) || is_macro (SCHEME_V->code) || is_promise (SCHEME_V->code)) /* CLOSURE */
3507 {
3508 /* Should not accept promise */
3509 /* make environment */
3510 new_frame_in_env (SCHEME_A_ closure_env (SCHEME_V->code));
3511
3512 for (x = car (closure_code (SCHEME_V->code)), y = SCHEME_V->args; is_pair (x); x = cdr (x), y = cdr (y))
3513 {
3514 if (y == NIL)
3515 Error_0 ("not enough arguments");
3516 else
3517 new_slot_in_env (SCHEME_A_ car (x), car (y));
3518 }
3519
3520 if (x == NIL)
3521 {
3522 /*--
3523 * if (y != NIL) {
3524 * Error_0("too many arguments");
3525 * }
3526 */
3527 }
3528 else if (is_symbol (x))
3529 new_slot_in_env (SCHEME_A_ x, y);
3530 else
3531 Error_1 ("syntax error in closure: not a symbol:", x);
3532
3533 SCHEME_V->code = cdr (closure_code (SCHEME_V->code));
3534 SCHEME_V->args = NIL;
3535 s_goto (OP_BEGIN);
3536 }
3537 else if (is_continuation (SCHEME_V->code)) /* CONTINUATION */
3538 {
3539 ss_set_cont (SCHEME_A_ cont_dump (SCHEME_V->code));
3540 s_return (SCHEME_V->args != NIL ? car (SCHEME_V->args) : NIL);
3541 }
3542 else
3543 Error_0 ("illegal function");
3544
3545 case OP_DOMACRO: /* do macro */
3546 SCHEME_V->code = SCHEME_V->value;
3547 s_goto (OP_EVAL);
3548
3549 #if 1
3550
3551 case OP_LAMBDA: /* lambda */
3552 /* If the hook is defined, apply it to SCHEME_V->code, otherwise
3553 set SCHEME_V->value fall thru */
3554 {
3555 pointer f = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->COMPILE_HOOK, 1);
3556
3557 if (f != NIL)
3558 {
3559 s_save (SCHEME_A_ OP_LAMBDA1, SCHEME_V->args, SCHEME_V->code);
3560 SCHEME_V->args = cons (SCHEME_V->code, NIL);
3561 SCHEME_V->code = slot_value_in_env (f);
3562 s_goto (OP_APPLY);
3563 }
3564
3565 SCHEME_V->value = SCHEME_V->code;
3566 /* Fallthru */
3567 }
3568
3569 case OP_LAMBDA1:
3570 s_return (mk_closure (SCHEME_A_ SCHEME_V->value, SCHEME_V->envir));
3571
3572 #else
3573
3574 case OP_LAMBDA: /* lambda */
3575 s_return (mk_closure (SCHEME_A_ SCHEME_V->code, SCHEME_V->envir));
3576
3577 #endif
3578
3579 case OP_MKCLOSURE: /* make-closure */
3580 x = car (SCHEME_V->args);
3581
3582 if (car (x) == SCHEME_V->LAMBDA)
3583 x = cdr (x);
3584
3585 if (cdr (SCHEME_V->args) == NIL)
3586 y = SCHEME_V->envir;
3587 else
3588 y = cadr (SCHEME_V->args);
3589
3590 s_return (mk_closure (SCHEME_A_ x, y));
3591
3592 case OP_QUOTE: /* quote */
3593 s_return (car (SCHEME_V->code));
3594
3595 case OP_DEF0: /* define */
3596 if (is_immutable (car (SCHEME_V->code)))
3597 Error_1 ("define: unable to alter immutable", car (SCHEME_V->code));
3598
3599 if (is_pair (car (SCHEME_V->code)))
3600 {
3601 x = caar (SCHEME_V->code);
3602 SCHEME_V->code = cons (SCHEME_V->LAMBDA, cons (cdar (SCHEME_V->code), cdr (SCHEME_V->code)));
3603 }
3604 else
3605 {
3606 x = car (SCHEME_V->code);
3607 SCHEME_V->code = cadr (SCHEME_V->code);
3608 }
3609
3610 if (!is_symbol (x))
3611 Error_0 ("variable is not a symbol");
3612
3613 s_save (SCHEME_A_ OP_DEF1, NIL, x);
3614 s_goto (OP_EVAL);
3615
3616 case OP_DEF1: /* define */
3617 x = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->code, 0);
3618
3619 if (x != NIL)
3620 set_slot_in_env (SCHEME_A_ x, SCHEME_V->value);
3621 else
3622 new_slot_in_env (SCHEME_A_ SCHEME_V->code, SCHEME_V->value);
3623
3624 s_return (SCHEME_V->code);
3625
3626
3627 case OP_DEFP: /* defined? */
3628 x = SCHEME_V->envir;
3629
3630 if (cdr (SCHEME_V->args) != NIL)
3631 x = cadr (SCHEME_V->args);
3632
3633 s_retbool (find_slot_in_env (SCHEME_A_ x, car (SCHEME_V->args), 1) != NIL);
3634
3635 case OP_SET0: /* set! */
3636 if (is_immutable (car (SCHEME_V->code)))
3637 Error_1 ("set!: unable to alter immutable variable", car (SCHEME_V->code));
3638
3639 s_save (SCHEME_A_ OP_SET1, NIL, car (SCHEME_V->code));
3640 SCHEME_V->code = cadr (SCHEME_V->code);
3641 s_goto (OP_EVAL);
3642
3643 case OP_SET1: /* set! */
3644 y = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->code, 1);
3645
3646 if (y != NIL)
3647 {
3648 set_slot_in_env (SCHEME_A_ y, SCHEME_V->value);
3649 s_return (SCHEME_V->value);
3650 }
3651 else
3652 Error_1 ("set!: unbound variable:", SCHEME_V->code);
3653
3654
3655 case OP_BEGIN: /* begin */
3656 if (!is_pair (SCHEME_V->code))
3657 s_return (SCHEME_V->code);
3658
3659 if (cdr (SCHEME_V->code) != NIL)
3660 s_save (SCHEME_A_ OP_BEGIN, NIL, cdr (SCHEME_V->code));
3661
3662 SCHEME_V->code = car (SCHEME_V->code);
3663 s_goto (OP_EVAL);
3664
3665 case OP_IF0: /* if */
3666 s_save (SCHEME_A_ OP_IF1, NIL, cdr (SCHEME_V->code));
3667 SCHEME_V->code = car (SCHEME_V->code);
3668 s_goto (OP_EVAL);
3669
3670 case OP_IF1: /* if */
3671 if (is_true (SCHEME_V->value))
3672 SCHEME_V->code = car (SCHEME_V->code);
3673 else
3674 SCHEME_V->code = cadr (SCHEME_V->code); /* (if #f 1) ==> () because
3675
3676 * car(NIL) = NIL */
3677 s_goto (OP_EVAL);
3678
3679 case OP_LET0: /* let */
3680 SCHEME_V->args = NIL;
3681 SCHEME_V->value = SCHEME_V->code;
3682 SCHEME_V->code = is_symbol (car (SCHEME_V->code)) ? cadr (SCHEME_V->code) : car (SCHEME_V->code);
3683 s_goto (OP_LET1);
3684
3685 case OP_LET1: /* let (calculate parameters) */
3686 SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);
3687
3688 if (is_pair (SCHEME_V->code)) /* continue */
3689 {
3690 if (!is_pair (car (SCHEME_V->code)) || !is_pair (cdar (SCHEME_V->code)))
3691 Error_1 ("Bad syntax of binding spec in let :", car (SCHEME_V->code));
3692
3693 s_save (SCHEME_A_ OP_LET1, SCHEME_V->args, cdr (SCHEME_V->code));
3694 SCHEME_V->code = cadar (SCHEME_V->code);
3695 SCHEME_V->args = NIL;
3696 s_goto (OP_EVAL);
3697 }
3698 else /* end */
3699 {
3700 SCHEME_V->args = reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args);
3701 SCHEME_V->code = car (SCHEME_V->args);
3702 SCHEME_V->args = cdr (SCHEME_V->args);
3703 s_goto (OP_LET2);
3704 }
3705
3706 case OP_LET2: /* let */
3707 new_frame_in_env (SCHEME_A_ SCHEME_V->envir);
3708
3709 for (x = is_symbol (car (SCHEME_V->code)) ? cadr (SCHEME_V->code) : car (SCHEME_V->code), y = SCHEME_V->args;
3710 y != NIL; x = cdr (x), y = cdr (y))
3711 new_slot_in_env (SCHEME_A_ caar (x), car (y));
3712
3713 if (is_symbol (car (SCHEME_V->code))) /* named let */
3714 {
3715 for (x = cadr (SCHEME_V->code), SCHEME_V->args = NIL; x != NIL; x = cdr (x))
3716 {
3717 if (!is_pair (x))
3718 Error_1 ("Bad syntax of binding in let :", x);
3719
3720 if (!is_list (SCHEME_A_ car (x)))
3721 Error_1 ("Bad syntax of binding in let :", car (x));
3722
3723 SCHEME_V->args = cons (caar (x), SCHEME_V->args);
3724 }
3725
3726 x =
3727 mk_closure (SCHEME_A_ cons (reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args), cddr (SCHEME_V->code)),
3728 SCHEME_V->envir);
3729 new_slot_in_env (SCHEME_A_ car (SCHEME_V->code), x);
3730 SCHEME_V->code = cddr (SCHEME_V->code);
3731 SCHEME_V->args = NIL;
3732 }
3733 else
3734 {
3735 SCHEME_V->code = cdr (SCHEME_V->code);
3736 SCHEME_V->args = NIL;
3737 }
3738
3739 s_goto (OP_BEGIN);
3740
3741 case OP_LET0AST: /* let* */
3742 if (car (SCHEME_V->code) == NIL)
3743 {
3744 new_frame_in_env (SCHEME_A_ SCHEME_V->envir);
3745 SCHEME_V->code = cdr (SCHEME_V->code);
3746 s_goto (OP_BEGIN);
3747 }
3748
3749 if (!is_pair (car (SCHEME_V->code)) || !is_pair (caar (SCHEME_V->code)) || !is_pair (cdaar (SCHEME_V->code)))
3750 Error_1 ("Bad syntax of binding spec in let* :", car (SCHEME_V->code));
3751
3752 s_save (SCHEME_A_ OP_LET1AST, cdr (SCHEME_V->code), car (SCHEME_V->code));
3753 SCHEME_V->code = car (cdaar (SCHEME_V->code));
3754 s_goto (OP_EVAL);
3755
3756 case OP_LET1AST: /* let* (make new frame) */
3757 new_frame_in_env (SCHEME_A_ SCHEME_V->envir);
3758 s_goto (OP_LET2AST);
3759
3760 case OP_LET2AST: /* let* (calculate parameters) */
3761 new_slot_in_env (SCHEME_A_ caar (SCHEME_V->code), SCHEME_V->value);
3762 SCHEME_V->code = cdr (SCHEME_V->code);
3763
3764 if (is_pair (SCHEME_V->code)) /* continue */
3765 {
3766 s_save (SCHEME_A_ OP_LET2AST, SCHEME_V->args, SCHEME_V->code);
3767 SCHEME_V->code = cadar (SCHEME_V->code);
3768 SCHEME_V->args = NIL;
3769 s_goto (OP_EVAL);
3770 }
3771 else /* end */
3772 {
3773 SCHEME_V->code = SCHEME_V->args;
3774 SCHEME_V->args = NIL;
3775 s_goto (OP_BEGIN);
3776 }
3777
3778 case OP_LET0REC: /* letrec */
3779 new_frame_in_env (SCHEME_A_ SCHEME_V->envir);
3780 SCHEME_V->args = NIL;
3781 SCHEME_V->value = SCHEME_V->code;
3782 SCHEME_V->code = car (SCHEME_V->code);
3783 s_goto (OP_LET1REC);
3784
3785 case OP_LET1REC: /* letrec (calculate parameters) */
3786 SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);
3787
3788 if (is_pair (SCHEME_V->code)) /* continue */
3789 {
3790 if (!is_pair (car (SCHEME_V->code)) || !is_pair (cdar (SCHEME_V->code)))
3791 Error_1 ("Bad syntax of binding spec in letrec :", car (SCHEME_V->code));
3792
3793 s_save (SCHEME_A_ OP_LET1REC, SCHEME_V->args, cdr (SCHEME_V->code));
3794 SCHEME_V->code = cadar (SCHEME_V->code);
3795 SCHEME_V->args = NIL;
3796 s_goto (OP_EVAL);
3797 }
3798 else /* end */
3799 {
3800 SCHEME_V->args = reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args);
3801 SCHEME_V->code = car (SCHEME_V->args);
3802 SCHEME_V->args = cdr (SCHEME_V->args);
3803 s_goto (OP_LET2REC);
3804 }
3805
3806 case OP_LET2REC: /* letrec */
3807 for (x = car (SCHEME_V->code), y = SCHEME_V->args; y != NIL; x = cdr (x), y = cdr (y))
3808 new_slot_in_env (SCHEME_A_ caar (x), car (y));
3809
3810 SCHEME_V->code = cdr (SCHEME_V->code);
3811 SCHEME_V->args = NIL;
3812 s_goto (OP_BEGIN);
3813
3814 case OP_COND0: /* cond */
3815 if (!is_pair (SCHEME_V->code))
3816 Error_0 ("syntax error in cond");
3817
3818 s_save (SCHEME_A_ OP_COND1, NIL, SCHEME_V->code);
3819 SCHEME_V->code = caar (SCHEME_V->code);
3820 s_goto (OP_EVAL);
3821
3822 case OP_COND1: /* cond */
3823 if (is_true (SCHEME_V->value))
3824 {
3825 if ((SCHEME_V->code = cdar (SCHEME_V->code)) == NIL)
3826 s_return (SCHEME_V->value);
3827
3828 if (car (SCHEME_V->code) == SCHEME_V->FEED_TO)
3829 {
3830 if (!is_pair (cdr (SCHEME_V->code)))
3831 Error_0 ("syntax error in cond");
3832
3833 x = cons (SCHEME_V->QUOTE, cons (SCHEME_V->value, NIL));
3834 SCHEME_V->code = cons (cadr (SCHEME_V->code), cons (x, NIL));
3835 s_goto (OP_EVAL);
3836 }
3837
3838 s_goto (OP_BEGIN);
3839 }
3840 else
3841 {
3842 if ((SCHEME_V->code = cdr (SCHEME_V->code)) == NIL)
3843 s_return (NIL);
3844 else
3845 {
3846 s_save (SCHEME_A_ OP_COND1, NIL, SCHEME_V->code);
3847 SCHEME_V->code = caar (SCHEME_V->code);
3848 s_goto (OP_EVAL);
3849 }
3850 }
3851
3852 case OP_DELAY: /* delay */
3853 x = mk_closure (SCHEME_A_ cons (NIL, SCHEME_V->code), SCHEME_V->envir);
3854 set_typeflag (x, T_PROMISE);
3855 s_return (x);
3856
3857 case OP_AND0: /* and */
3858 if (SCHEME_V->code == NIL)
3859 s_return (S_T);
3860
3861 s_save (SCHEME_A_ OP_AND1, NIL, cdr (SCHEME_V->code));
3862 SCHEME_V->code = car (SCHEME_V->code);
3863 s_goto (OP_EVAL);
3864
3865 case OP_AND1: /* and */
3866 if (is_false (SCHEME_V->value))
3867 s_return (SCHEME_V->value);
3868 else if (SCHEME_V->code == NIL)
3869 s_return (SCHEME_V->value);
3870 else
3871 {
3872 s_save (SCHEME_A_ OP_AND1, NIL, cdr (SCHEME_V->code));
3873 SCHEME_V->code = car (SCHEME_V->code);
3874 s_goto (OP_EVAL);
3875 }
3876
3877 case OP_OR0: /* or */
3878 if (SCHEME_V->code == NIL)
3879 s_return (S_F);
3880
3881 s_save (SCHEME_A_ OP_OR1, NIL, cdr (SCHEME_V->code));
3882 SCHEME_V->code = car (SCHEME_V->code);
3883 s_goto (OP_EVAL);
3884
3885 case OP_OR1: /* or */
3886 if (is_true (SCHEME_V->value))
3887 s_return (SCHEME_V->value);
3888 else if (SCHEME_V->code == NIL)
3889 s_return (SCHEME_V->value);
3890 else
3891 {
3892 s_save (SCHEME_A_ OP_OR1, NIL, cdr (SCHEME_V->code));
3893 SCHEME_V->code = car (SCHEME_V->code);
3894 s_goto (OP_EVAL);
3895 }
3896
3897 case OP_C0STREAM: /* cons-stream */
3898 s_save (SCHEME_A_ OP_C1STREAM, NIL, cdr (SCHEME_V->code));
3899 SCHEME_V->code = car (SCHEME_V->code);
3900 s_goto (OP_EVAL);
3901
3902 case OP_C1STREAM: /* cons-stream */
3903 SCHEME_V->args = SCHEME_V->value; /* save SCHEME_V->value to register SCHEME_V->args for gc */
3904 x = mk_closure (SCHEME_A_ cons (NIL, SCHEME_V->code), SCHEME_V->envir);
3905 set_typeflag (x, T_PROMISE);
3906 s_return (cons (SCHEME_V->args, x));
3907
3908 case OP_MACRO0: /* macro */
3909 if (is_pair (car (SCHEME_V->code)))
3910 {
3911 x = caar (SCHEME_V->code);
3912 SCHEME_V->code = cons (SCHEME_V->LAMBDA, cons (cdar (SCHEME_V->code), cdr (SCHEME_V->code)));
3913 }
3914 else
3915 {
3916 x = car (SCHEME_V->code);
3917 SCHEME_V->code = cadr (SCHEME_V->code);
3918 }
3919
3920 if (!is_symbol (x))
3921 Error_0 ("variable is not a symbol");
3922
3923 s_save (SCHEME_A_ OP_MACRO1, NIL, x);
3924 s_goto (OP_EVAL);
3925
3926 case OP_MACRO1: /* macro */
3927 set_typeflag (SCHEME_V->value, T_MACRO);
3928 x = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->code, 0);
3929
3930 if (x != NIL)
3931 set_slot_in_env (SCHEME_A_ x, SCHEME_V->value);
3932 else
3933 new_slot_in_env (SCHEME_A_ SCHEME_V->code, SCHEME_V->value);
3934
3935 s_return (SCHEME_V->code);
3936
3937 case OP_CASE0: /* case */
3938 s_save (SCHEME_A_ OP_CASE1, NIL, cdr (SCHEME_V->code));
3939 SCHEME_V->code = car (SCHEME_V->code);
3940 s_goto (OP_EVAL);
3941
3942 case OP_CASE1: /* case */
3943 for (x = SCHEME_V->code; x != NIL; x = cdr (x))
3944 {
3945 if (!is_pair (y = caar (x)))
3946 break;
3947
3948 for (; y != NIL; y = cdr (y))
3949 {
3950 if (eqv (car (y), SCHEME_V->value))
3951 break;
3952 }
3953
3954 if (y != NIL)
3955 break;
3956 }
3957
3958 if (x != NIL)
3959 {
3960 if (is_pair (caar (x)))
3961 {
3962 SCHEME_V->code = cdar (x);
3963 s_goto (OP_BEGIN);
3964 }
3965 else /* else */
3966 {
3967 s_save (SCHEME_A_ OP_CASE2, NIL, cdar (x));
3968 SCHEME_V->code = caar (x);
3969 s_goto (OP_EVAL);
3970 }
3971 }
3972 else
3973 s_return (NIL);
3974
3975 case OP_CASE2: /* case */
3976 if (is_true (SCHEME_V->value))
3977 s_goto (OP_BEGIN);
3978 else
3979 s_return (NIL);
3980
3981 case OP_PAPPLY: /* apply */
3982 SCHEME_V->code = car (SCHEME_V->args);
3983 SCHEME_V->args = list_star (SCHEME_A_ cdr (SCHEME_V->args));
3984 /*SCHEME_V->args = cadr(SCHEME_V->args); */
3985 s_goto (OP_APPLY);
3986
3987 case OP_PEVAL: /* eval */
3988 if (cdr (SCHEME_V->args) != NIL)
3989 SCHEME_V->envir = cadr (SCHEME_V->args);
3990
3991 SCHEME_V->code = car (SCHEME_V->args);
3992 s_goto (OP_EVAL);
3993
3994 case OP_CONTINUATION: /* call-with-current-continuation */
3995 SCHEME_V->code = car (SCHEME_V->args);
3996 SCHEME_V->args = cons (mk_continuation (SCHEME_A_ ss_get_cont (SCHEME_A)), NIL);
3997 s_goto (OP_APPLY);
3998 }
3999
4000 return S_T;
4001 }
4002
4003 static pointer
4004 opexe_2 (SCHEME_P_ enum scheme_opcodes op)
4005 {
4006 pointer x;
4007 num v;
4008
4009 #if USE_MATH
4010 RVALUE dd;
4011 #endif
4012
4013 switch (op)
4014 {
4015 #if USE_MATH
4016
4017 case OP_INEX2EX: /* inexact->exact */
4018 x = car (SCHEME_V->args);
4019
4020 if (num_is_integer (x))
4021 s_return (x);
4022 else if (modf (rvalue_unchecked (x), &dd) == 0.0)
4023 s_return (mk_integer (SCHEME_A_ ivalue (x)));
4024 else
4025 Error_1 ("inexact->exact: not integral:", x);
4026
4027 case OP_EXP:
4028 x = car (SCHEME_V->args);
4029 s_return (mk_real (SCHEME_A_ exp (rvalue (x))));
4030
4031 case OP_LOG:
4032 x = car (SCHEME_V->args);
4033 s_return (mk_real (SCHEME_A_ log (rvalue (x))));
4034
4035 case OP_SIN:
4036 x = car (SCHEME_V->args);
4037 s_return (mk_real (SCHEME_A_ sin (rvalue (x))));
4038
4039 case OP_COS:
4040 x = car (SCHEME_V->args);
4041 s_return (mk_real (SCHEME_A_ cos (rvalue (x))));
4042
4043 case OP_TAN:
4044 x = car (SCHEME_V->args);
4045 s_return (mk_real (SCHEME_A_ tan (rvalue (x))));
4046
4047 case OP_ASIN:
4048 x = car (SCHEME_V->args);
4049 s_return (mk_real (SCHEME_A_ asin (rvalue (x))));
4050
4051 case OP_ACOS:
4052 x = car (SCHEME_V->args);
4053 s_return (mk_real (SCHEME_A_ acos (rvalue (x))));
4054
4055 case OP_ATAN:
4056 x = car (SCHEME_V->args);
4057
4058 if (cdr (SCHEME_V->args) == NIL)
4059 s_return (mk_real (SCHEME_A_ atan (rvalue (x))));
4060 else
4061 {
4062 pointer y = cadr (SCHEME_V->args);
4063
4064 s_return (mk_real (SCHEME_A_ atan2 (rvalue (x), rvalue (y))));
4065 }
4066
4067 case OP_SQRT:
4068 x = car (SCHEME_V->args);
4069 s_return (mk_real (SCHEME_A_ sqrt (rvalue (x))));
4070
4071 case OP_EXPT:
4072 {
4073 RVALUE result;
4074 int real_result = 1;
4075 pointer y = cadr (SCHEME_V->args);
4076
4077 x = car (SCHEME_V->args);
4078
4079 if (num_is_integer (x) && num_is_integer (y))
4080 real_result = 0;
4081
4082 /* This 'if' is an R5RS compatibility fix. */
4083 /* NOTE: Remove this 'if' fix for R6RS. */
4084 if (rvalue (x) == 0 && rvalue (y) < 0)
4085 result = 0.0;
4086 else
4087 result = pow (rvalue (x), rvalue (y));
4088
4089 /* Before returning integer result make sure we can. */
4090 /* If the test fails, result is too big for integer. */
4091 if (!real_result)
4092 {
4093 long result_as_long = (long) result;
4094
4095 if (result != (RVALUE) result_as_long)
4096 real_result = 1;
4097 }
4098
4099 if (real_result)
4100 s_return (mk_real (SCHEME_A_ result));
4101 else
4102 s_return (mk_integer (SCHEME_A_ result));
4103 }
4104
4105 case OP_FLOOR:
4106 x = car (SCHEME_V->args);
4107 s_return (mk_real (SCHEME_A_ floor (rvalue (x))));
4108
4109 case OP_CEILING:
4110 x = car (SCHEME_V->args);
4111 s_return (mk_real (SCHEME_A_ ceil (rvalue (x))));
4112
4113 case OP_TRUNCATE:
4114 {
4115 RVALUE rvalue_of_x;
4116
4117 x = car (SCHEME_V->args);
4118 rvalue_of_x = rvalue (x);
4119
4120 if (rvalue_of_x > 0)
4121 s_return (mk_real (SCHEME_A_ floor (rvalue_of_x)));
4122 else
4123 s_return (mk_real (SCHEME_A_ ceil (rvalue_of_x)));
4124 }
4125
4126 case OP_ROUND:
4127 x = car (SCHEME_V->args);
4128
4129 if (num_is_integer (x))
4130 s_return (x);
4131
4132 s_return (mk_real (SCHEME_A_ round_per_R5RS (rvalue (x))));
4133 #endif
4134
4135 case OP_ADD: /* + */
4136 v = num_zero;
4137
4138 for (x = SCHEME_V->args; x != NIL; x = cdr (x))
4139 v = num_add (v, nvalue (car (x)));
4140
4141 s_return (mk_number (SCHEME_A_ v));
4142
4143 case OP_MUL: /* * */
4144 v = num_one;
4145
4146 for (x = SCHEME_V->args; x != NIL; x = cdr (x))
4147 v = num_mul (v, nvalue (car (x)));
4148
4149 s_return (mk_number (SCHEME_A_ v));
4150
4151 case OP_SUB: /* - */
4152 if (cdr (SCHEME_V->args) == NIL)
4153 {
4154 x = SCHEME_V->args;
4155 v = num_zero;
4156 }
4157 else
4158 {
4159 x = cdr (SCHEME_V->args);
4160 v = nvalue (car (SCHEME_V->args));
4161 }
4162
4163 for (; x != NIL; x = cdr (x))
4164 v = num_sub (v, nvalue (car (x)));
4165
4166 s_return (mk_number (SCHEME_A_ v));
4167
4168 case OP_DIV: /* / */
4169 if (cdr (SCHEME_V->args) == NIL)
4170 {
4171 x = SCHEME_V->args;
4172 v = num_one;
4173 }
4174 else
4175 {
4176 x = cdr (SCHEME_V->args);
4177 v = nvalue (car (SCHEME_V->args));
4178 }
4179
4180 for (; x != NIL; x = cdr (x))
4181 {
4182 if (!is_zero_rvalue (rvalue (car (x))))
4183 v = num_div (v, nvalue (car (x)));
4184 else
4185 Error_0 ("/: division by zero");
4186 }
4187
4188 s_return (mk_number (SCHEME_A_ v));
4189
4190 case OP_INTDIV: /* quotient */
4191 if (cdr (SCHEME_V->args) == NIL)
4192 {
4193 x = SCHEME_V->args;
4194 v = num_one;
4195 }
4196 else
4197 {
4198 x = cdr (SCHEME_V->args);
4199 v = nvalue (car (SCHEME_V->args));
4200 }
4201
4202 for (; x != NIL; x = cdr (x))
4203 {
4204 if (ivalue (car (x)) != 0)
4205 v = num_intdiv (v, nvalue (car (x)));
4206 else
4207 Error_0 ("quotient: division by zero");
4208 }
4209
4210 s_return (mk_number (SCHEME_A_ v));
4211
4212 case OP_REM: /* remainder */
4213 v = nvalue (car (SCHEME_V->args));
4214
4215 if (ivalue (cadr (SCHEME_V->args)) != 0)
4216 v = num_rem (v, nvalue (cadr (SCHEME_V->args)));
4217 else
4218 Error_0 ("remainder: division by zero");
4219
4220 s_return (mk_number (SCHEME_A_ v));
4221
4222 case OP_MOD: /* modulo */
4223 v = nvalue (car (SCHEME_V->args));
4224
4225 if (ivalue (cadr (SCHEME_V->args)) != 0)
4226 v = num_mod (v, nvalue (cadr (SCHEME_V->args)));
4227 else
4228 Error_0 ("modulo: division by zero");
4229
4230 s_return (mk_number (SCHEME_A_ v));
4231
4232 case OP_CAR: /* car */
4233 s_return (caar (SCHEME_V->args));
4234
4235 case OP_CDR: /* cdr */
4236 s_return (cdar (SCHEME_V->args));
4237
4238 case OP_CONS: /* cons */
4239 set_cdr (SCHEME_V->args, cadr (SCHEME_V->args));
4240 s_return (SCHEME_V->args);
4241
4242 case OP_SETCAR: /* set-car! */
4243 if (!is_immutable (car (SCHEME_V->args)))
4244 {
4245 set_car (car (SCHEME_V->args), cadr (SCHEME_V->args));
4246 s_return (car (SCHEME_V->args));
4247 }
4248 else
4249 Error_0 ("set-car!: unable to alter immutable pair");
4250
4251 case OP_SETCDR: /* set-cdr! */
4252 if (!is_immutable (car (SCHEME_V->args)))
4253 {
4254 set_cdr (car (SCHEME_V->args), cadr (SCHEME_V->args));
4255 s_return (car (SCHEME_V->args));
4256 }
4257 else
4258 Error_0 ("set-cdr!: unable to alter immutable pair");
4259
4260 case OP_CHAR2INT: /* char->integer */
4261 s_return (mk_integer (SCHEME_A_ ivalue (car (SCHEME_V->args))));
4262
4263 case OP_INT2CHAR: /* integer->char */
4264 s_return (mk_character (SCHEME_A_ ivalue (car (SCHEME_V->args))));
4265
4266 case OP_CHARUPCASE:
4267 {
4268 unsigned char c = ivalue (car (SCHEME_V->args));
4269 c = toupper (c);
4270 s_return (mk_character (SCHEME_A_ c));
4271 }
4272
4273 case OP_CHARDNCASE:
4274 {
4275 unsigned char c = ivalue (car (SCHEME_V->args));
4276 c = tolower (c);
4277 s_return (mk_character (SCHEME_A_ c));
4278 }
4279
4280 case OP_STR2SYM: /* string->symbol */
4281 s_return (mk_symbol (SCHEME_A_ strvalue (car (SCHEME_V->args))));
4282
4283 case OP_STR2ATOM: /* string->atom */
4284 {
4285 char *s = strvalue (car (SCHEME_V->args));
4286 long pf = 0;
4287
4288 if (cdr (SCHEME_V->args) != NIL)
4289 {
4290 /* we know cadr(SCHEME_V->args) is a natural number */
4291 /* see if it is 2, 8, 10, or 16, or error */
4292 pf = ivalue_unchecked (cadr (SCHEME_V->args));
4293
4294 if (pf == 16 || pf == 10 || pf == 8 || pf == 2)
4295 {
4296 /* base is OK */
4297 }
4298 else
4299 pf = -1;
4300 }
4301
4302 if (pf < 0)
4303 Error_1 ("string->atom: bad base:", cadr (SCHEME_V->args));
4304 else if (*s == '#') /* no use of base! */
4305 s_return (mk_sharp_const (SCHEME_A_ s + 1));
4306 else
4307 {
4308 if (pf == 0 || pf == 10)
4309 s_return (mk_atom (SCHEME_A_ s));
4310 else
4311 {
4312 char *ep;
4313 long iv = strtol (s, &ep, (int) pf);
4314
4315 if (*ep == 0)
4316 s_return (mk_integer (SCHEME_A_ iv));
4317 else
4318 s_return (S_F);
4319 }
4320 }
4321 }
4322
4323 case OP_SYM2STR: /* symbol->string */
4324 x = mk_string (SCHEME_A_ symname (car (SCHEME_V->args)));
4325 setimmutable (x);
4326 s_return (x);
4327
4328 case OP_ATOM2STR: /* atom->string */
4329 {
4330 long pf = 0;
4331
4332 x = car (SCHEME_V->args);
4333
4334 if (cdr (SCHEME_V->args) != NIL)
4335 {
4336 /* we know cadr(SCHEME_V->args) is a natural number */
4337 /* see if it is 2, 8, 10, or 16, or error */
4338 pf = ivalue_unchecked (cadr (SCHEME_V->args));
4339
4340 if (is_number (x) && (pf == 16 || pf == 10 || pf == 8 || pf == 2))
4341 {
4342 /* base is OK */
4343 }
4344 else
4345 pf = -1;
4346 }
4347
4348 if (pf < 0)
4349 Error_1 ("atom->string: bad base:", cadr (SCHEME_V->args));
4350 else if (is_number (x) || is_character (x) || is_string (x) || is_symbol (x))
4351 {
4352 char *p;
4353 int len;
4354
4355 atom2str (SCHEME_A_ x, pf, &p, &len);
4356 s_return (mk_counted_string (SCHEME_A_ p, len));
4357 }
4358 else
4359 Error_1 ("atom->string: not an atom:", x);
4360 }
4361
4362 case OP_MKSTRING: /* make-string */
4363 {
4364 int fill = ' ';
4365 int len;
4366
4367 len = ivalue (car (SCHEME_V->args));
4368
4369 if (cdr (SCHEME_V->args) != NIL)
4370 fill = charvalue (cadr (SCHEME_V->args));
4371
4372 s_return (mk_empty_string (SCHEME_A_ len, (char) fill));
4373 }
4374
4375 case OP_STRLEN: /* string-length */
4376 s_return (mk_integer (SCHEME_A_ strlength (car (SCHEME_V->args))));
4377
4378 case OP_STRREF: /* string-ref */
4379 {
4380 char *str;
4381 int index;
4382
4383 str = strvalue (car (SCHEME_V->args));
4384
4385 index = ivalue (cadr (SCHEME_V->args));
4386
4387 if (index >= strlength (car (SCHEME_V->args)))
4388 Error_1 ("string-ref: out of bounds:", cadr (SCHEME_V->args));
4389
4390 s_return (mk_character (SCHEME_A_ ((unsigned char *) str)[index]));
4391 }
4392
4393 case OP_STRSET: /* string-set! */
4394 {
4395 char *str;
4396 int index;
4397 int c;
4398
4399 if (is_immutable (car (SCHEME_V->args)))
4400 Error_1 ("string-set!: unable to alter immutable string:", car (SCHEME_V->args));
4401
4402 str = strvalue (car (SCHEME_V->args));
4403
4404 index = ivalue (cadr (SCHEME_V->args));
4405
4406 if (index >= strlength (car (SCHEME_V->args)))
4407 Error_1 ("string-set!: out of bounds:", cadr (SCHEME_V->args));
4408
4409 c = charvalue (caddr (SCHEME_V->args));
4410
4411 str[index] = (char) c;
4412 s_return (car (SCHEME_V->args));
4413 }
4414
4415 case OP_STRAPPEND: /* string-append */
4416 {
4417 /* in 1.29 string-append was in Scheme in init.scm but was too slow */
4418 int len = 0;
4419 pointer newstr;
4420 char *pos;
4421
4422 /* compute needed length for new string */
4423 for (x = SCHEME_V->args; x != NIL; x = cdr (x))
4424 len += strlength (car (x));
4425
4426 newstr = mk_empty_string (SCHEME_A_ len, ' ');
4427
4428 /* store the contents of the argument strings into the new string */
4429 for (pos = strvalue (newstr), x = SCHEME_V->args; x != NIL; pos += strlength (car (x)), x = cdr (x))
4430 memcpy (pos, strvalue (car (x)), strlength (car (x)));
4431
4432 s_return (newstr);
4433 }
4434
4435 case OP_SUBSTR: /* substring */
4436 {
4437 char *str;
4438 int index0;
4439 int index1;
4440 int len;
4441
4442 str = strvalue (car (SCHEME_V->args));
4443
4444 index0 = ivalue (cadr (SCHEME_V->args));
4445
4446 if (index0 > strlength (car (SCHEME_V->args)))
4447 Error_1 ("substring: start out of bounds:", cadr (SCHEME_V->args));
4448
4449 if (cddr (SCHEME_V->args) != NIL)
4450 {
4451 index1 = ivalue (caddr (SCHEME_V->args));
4452
4453 if (index1 > strlength (car (SCHEME_V->args)) || index1 < index0)
4454 Error_1 ("substring: end out of bounds:", caddr (SCHEME_V->args));
4455 }
4456 else
4457 index1 = strlength (car (SCHEME_V->args));
4458
4459 len = index1 - index0;
4460 x = mk_empty_string (SCHEME_A_ len, ' ');
4461 memcpy (strvalue (x), str + index0, len);
4462 strvalue (x)[len] = 0;
4463
4464 s_return (x);
4465 }
4466
4467 case OP_VECTOR: /* vector */
4468 {
4469 int i;
4470 pointer vec;
4471 int len = list_length (SCHEME_A_ SCHEME_V->args);
4472
4473 if (len < 0)
4474 Error_1 ("vector: not a proper list:", SCHEME_V->args);
4475
4476 vec = mk_vector (SCHEME_A_ len);
4477
4478 #if USE_ERROR_CHECKING
4479 if (SCHEME_V->no_memory)
4480 s_return (S_SINK);
4481 #endif
4482
4483 for (x = SCHEME_V->args, i = 0; is_pair (x); x = cdr (x), i++)
4484 set_vector_elem (vec, i, car (x));
4485
4486 s_return (vec);
4487 }
4488
4489 case OP_MKVECTOR: /* make-vector */
4490 {
4491 pointer fill = NIL;
4492 int len;
4493 pointer vec;
4494
4495 len = ivalue (car (SCHEME_V->args));
4496
4497 if (cdr (SCHEME_V->args) != NIL)
4498 fill = cadr (SCHEME_V->args);
4499
4500 vec = mk_vector (SCHEME_A_ len);
4501
4502 #if USE_ERROR_CHECKING
4503 if (SCHEME_V->no_memory)
4504 s_return (S_SINK);
4505 #endif
4506
4507 if (fill != NIL)
4508 fill_vector (vec, fill);
4509
4510 s_return (vec);
4511 }
4512
4513 case OP_VECLEN: /* vector-length */
4514 s_return (mk_integer (SCHEME_A_ veclength (car (SCHEME_V->args))));
4515
4516 case OP_VECREF: /* vector-ref */
4517 {
4518 int index;
4519
4520 index = ivalue (cadr (SCHEME_V->args));
4521
4522 if (index >= veclength (car (SCHEME_V->args)) && USE_ERROR_CHECKING)
4523 Error_1 ("vector-ref: out of bounds:", cadr (SCHEME_V->args));
4524
4525 s_return (vector_elem (car (SCHEME_V->args), index));
4526 }
4527
4528 case OP_VECSET: /* vector-set! */
4529 {
4530 int index;
4531
4532 if (is_immutable (car (SCHEME_V->args)))
4533 Error_1 ("vector-set!: unable to alter immutable vector:", car (SCHEME_V->args));
4534
4535 index = ivalue (cadr (SCHEME_V->args));
4536
4537 if (index >= veclength (car (SCHEME_V->args)) && USE_ERROR_CHECKING)
4538 Error_1 ("vector-set!: out of bounds:", cadr (SCHEME_V->args));
4539
4540 set_vector_elem (car (SCHEME_V->args), index, caddr (SCHEME_V->args));
4541 s_return (car (SCHEME_V->args));
4542 }
4543 }
4544
4545 return S_T;
4546 }
4547
4548 INTERFACE int
4549 is_list (SCHEME_P_ pointer a)
4550 {
4551 return list_length (SCHEME_A_ a) >= 0;
4552 }
4553
4554 /* Result is:
4555 proper list: length
4556 circular list: -1
4557 not even a pair: -2
4558 dotted list: -2 minus length before dot
4559 */
4560 INTERFACE int
4561 list_length (SCHEME_P_ pointer a)
4562 {
4563 int i = 0;
4564 pointer slow, fast;
4565
4566 slow = fast = a;
4567
4568 while (1)
4569 {
4570 if (fast == NIL)
4571 return i;
4572
4573 if (!is_pair (fast))
4574 return -2 - i;
4575
4576 fast = cdr (fast);
4577 ++i;
4578
4579 if (fast == NIL)
4580 return i;
4581
4582 if (!is_pair (fast))
4583 return -2 - i;
4584
4585 ++i;
4586 fast = cdr (fast);
4587
4588 /* Safe because we would have already returned if `fast'
4589 encountered a non-pair. */
4590 slow = cdr (slow);
4591
4592 if (fast == slow)
4593 {
4594 /* the fast pointer has looped back around and caught up
4595 with the slow pointer, hence the structure is circular,
4596 not of finite length, and therefore not a list */
4597 return -1;
4598 }
4599 }
4600 }
4601
4602 static pointer
4603 opexe_3 (SCHEME_P_ enum scheme_opcodes op)
4604 {
4605 pointer x;
4606 num v;
4607 int (*comp_func) (num, num);
4608
4609 switch (op)
4610 {
4611 case OP_NOT: /* not */
4612 s_retbool (is_false (car (SCHEME_V->args)));
4613
4614 case OP_BOOLP: /* boolean? */
4615 s_retbool (car (SCHEME_V->args) == S_F || car (SCHEME_V->args) == S_T);
4616
4617 case OP_EOFOBJP: /* boolean? */
4618 s_retbool (car (SCHEME_V->args) == S_EOF);
4619
4620 case OP_NULLP: /* null? */
4621 s_retbool (car (SCHEME_V->args) == NIL);
4622
4623 case OP_NUMEQ: /* = */
4624 case OP_LESS: /* < */
4625 case OP_GRE: /* > */
4626 case OP_LEQ: /* <= */
4627 case OP_GEQ: /* >= */
4628 switch (op)
4629 {
4630 case OP_NUMEQ:
4631 comp_func = num_eq;
4632 break;
4633
4634 case OP_LESS:
4635 comp_func = num_lt;
4636 break;
4637
4638 case OP_GRE:
4639 comp_func = num_gt;
4640 break;
4641
4642 case OP_LEQ:
4643 comp_func = num_le;
4644 break;
4645
4646 case OP_GEQ:
4647 comp_func = num_ge;
4648 break;
4649 }
4650
4651 x = SCHEME_V->args;
4652 v = nvalue (car (x));
4653 x = cdr (x);
4654
4655 for (; x != NIL; x = cdr (x))
4656 {
4657 if (!comp_func (v, nvalue (car (x))))
4658 s_retbool (0);
4659
4660 v = nvalue (car (x));
4661 }
4662
4663 s_retbool (1);
4664
4665 case OP_SYMBOLP: /* symbol? */
4666 s_retbool (is_symbol (car (SCHEME_V->args)));
4667
4668 case OP_NUMBERP: /* number? */
4669 s_retbool (is_number (car (SCHEME_V->args)));
4670
4671 case OP_STRINGP: /* string? */
4672 s_retbool (is_string (car (SCHEME_V->args)));
4673
4674 case OP_INTEGERP: /* integer? */
4675 s_retbool (is_integer (car (SCHEME_V->args)));
4676
4677 case OP_REALP: /* real? */
4678 s_retbool (is_number (car (SCHEME_V->args))); /* All numbers are real */
4679
4680 case OP_CHARP: /* char? */
4681 s_retbool (is_character (car (SCHEME_V->args)));
4682 #if USE_CHAR_CLASSIFIERS
4683
4684 case OP_CHARAP: /* char-alphabetic? */
4685 s_retbool (Cisalpha (ivalue (car (SCHEME_V->args))));
4686
4687 case OP_CHARNP: /* char-numeric? */
4688 s_retbool (Cisdigit (ivalue (car (SCHEME_V->args))));
4689
4690 case OP_CHARWP: /* char-whitespace? */
4691 s_retbool (Cisspace (ivalue (car (SCHEME_V->args))));
4692
4693 case OP_CHARUP: /* char-upper-case? */
4694 s_retbool (Cisupper (ivalue (car (SCHEME_V->args))));
4695
4696 case OP_CHARLP: /* char-lower-case? */
4697 s_retbool (Cislower (ivalue (car (SCHEME_V->args))));
4698 #endif
4699 #if USE_PORTS
4700
4701 case OP_PORTP: /* port? */
4702 s_retbool (is_port (car (SCHEME_V->args)));
4703
4704 case OP_INPORTP: /* input-port? */
4705 s_retbool (is_inport (car (SCHEME_V->args)));
4706
4707 case OP_OUTPORTP: /* output-port? */
4708 s_retbool (is_outport (car (SCHEME_V->args)));
4709 #endif
4710
4711 case OP_PROCP: /* procedure? */
4712
4713 /*--
4714 * continuation should be procedure by the example
4715 * (call-with-current-continuation procedure?) ==> #t
4716 * in R^3 report sec. 6.9
4717 */
4718 s_retbool (is_proc (car (SCHEME_V->args)) || is_closure (car (SCHEME_V->args))
4719 || is_continuation (car (SCHEME_V->args)) || is_foreign (car (SCHEME_V->args)));
4720
4721 case OP_PAIRP: /* pair? */
4722 s_retbool (is_pair (car (SCHEME_V->args)));
4723
4724 case OP_LISTP: /* list? */
4725 s_retbool (list_length (SCHEME_A_ car (SCHEME_V->args)) >= 0);
4726
4727 case OP_ENVP: /* environment? */
4728 s_retbool (is_environment (car (SCHEME_V->args)));
4729
4730 case OP_VECTORP: /* vector? */
4731 s_retbool (is_vector (car (SCHEME_V->args)));
4732
4733 case OP_EQ: /* eq? */
4734 s_retbool (car (SCHEME_V->args) == cadr (SCHEME_V->args));
4735
4736 case OP_EQV: /* eqv? */
4737 s_retbool (eqv (car (SCHEME_V->args), cadr (SCHEME_V->args)));
4738 }
4739
4740 return S_T;
4741 }
4742
4743 static pointer
4744 opexe_4 (SCHEME_P_ enum scheme_opcodes op)
4745 {
4746 pointer x, y;
4747
4748 switch (op)
4749 {
4750 case OP_FORCE: /* force */
4751 SCHEME_V->code = car (SCHEME_V->args);
4752
4753 if (is_promise (SCHEME_V->code))
4754 {
4755 /* Should change type to closure here */
4756 s_save (SCHEME_A_ OP_SAVE_FORCED, NIL, SCHEME_V->code);
4757 SCHEME_V->args = NIL;
4758 s_goto (OP_APPLY);
4759 }
4760 else
4761 s_return (SCHEME_V->code);
4762
4763 case OP_SAVE_FORCED: /* Save forced value replacing promise */
4764 memcpy (SCHEME_V->code, SCHEME_V->value, sizeof (struct cell));
4765 s_return (SCHEME_V->value);
4766
4767 #if USE_PORTS
4768
4769 case OP_WRITE: /* write */
4770 case OP_DISPLAY: /* display */
4771 case OP_WRITE_CHAR: /* write-char */
4772 if (is_pair (cdr (SCHEME_V->args)))
4773 {
4774 if (cadr (SCHEME_V->args) != SCHEME_V->outport)
4775 {
4776 x = cons (SCHEME_V->outport, NIL);
4777 s_save (SCHEME_A_ OP_SET_OUTPORT, x, NIL);
4778 SCHEME_V->outport = cadr (SCHEME_V->args);
4779 }
4780 }
4781
4782 SCHEME_V->args = car (SCHEME_V->args);
4783
4784 if (op == OP_WRITE)
4785 SCHEME_V->print_flag = 1;
4786 else
4787 SCHEME_V->print_flag = 0;
4788
4789 s_goto (OP_P0LIST);
4790
4791 case OP_NEWLINE: /* newline */
4792 if (is_pair (SCHEME_V->args))
4793 {
4794 if (car (SCHEME_V->args) != SCHEME_V->outport)
4795 {
4796 x = cons (SCHEME_V->outport, NIL);
4797 s_save (SCHEME_A_ OP_SET_OUTPORT, x, NIL);
4798 SCHEME_V->outport = car (SCHEME_V->args);
4799 }
4800 }
4801
4802 putstr (SCHEME_A_ "\n");
4803 s_return (S_T);
4804 #endif
4805
4806 case OP_ERR0: /* error */
4807 SCHEME_V->retcode = -1;
4808
4809 if (!is_string (car (SCHEME_V->args)))
4810 {
4811 SCHEME_V->args = cons (mk_string (SCHEME_A_ " -- "), SCHEME_V->args);
4812 setimmutable (car (SCHEME_V->args));
4813 }
4814
4815 putstr (SCHEME_A_ "Error: ");
4816 putstr (SCHEME_A_ strvalue (car (SCHEME_V->args)));
4817 SCHEME_V->args = cdr (SCHEME_V->args);
4818 s_goto (OP_ERR1);
4819
4820 case OP_ERR1: /* error */
4821 putstr (SCHEME_A_ " ");
4822
4823 if (SCHEME_V->args != NIL)
4824 {
4825 s_save (SCHEME_A_ OP_ERR1, cdr (SCHEME_V->args), NIL);
4826 SCHEME_V->args = car (SCHEME_V->args);
4827 SCHEME_V->print_flag = 1;
4828 s_goto (OP_P0LIST);
4829 }
4830 else
4831 {
4832 putstr (SCHEME_A_ "\n");
4833
4834 if (SCHEME_V->interactive_repl)
4835 s_goto (OP_T0LVL);
4836 else
4837 return NIL;
4838 }
4839
4840 case OP_REVERSE: /* reverse */
4841 s_return (reverse (SCHEME_A_ car (SCHEME_V->args)));
4842
4843 case OP_LIST_STAR: /* list* */
4844 s_return (list_star (SCHEME_A_ SCHEME_V->args));
4845
4846 case OP_APPEND: /* append */
4847 x = NIL;
4848 y = SCHEME_V->args;
4849
4850 if (y == x)
4851 s_return (x);
4852
4853 /* cdr() in the while condition is not a typo. If car() */
4854 /* is used (append '() 'a) will return the wrong result. */
4855 while (cdr (y) != NIL)
4856 {
4857 x = revappend (SCHEME_A_ x, car (y));
4858 y = cdr (y);
4859
4860 if (x == S_F)
4861 Error_0 ("non-list argument to append");
4862 }
4863
4864 s_return (reverse_in_place (SCHEME_A_ car (y), x));
4865
4866 #if USE_PLIST
4867
4868 case OP_PUT: /* put */
4869 if (!hasprop (car (SCHEME_V->args)) || !hasprop (cadr (SCHEME_V->args)))
4870 Error_0 ("illegal use of put");
4871
4872 for (x = symprop (car (SCHEME_V->args)), y = cadr (SCHEME_V->args); x != NIL; x = cdr (x))
4873 {
4874 if (caar (x) == y)
4875 break;
4876 }
4877
4878 if (x != NIL)
4879 cdar (x) = caddr (SCHEME_V->args);
4880 else
4881 symprop (car (SCHEME_V->args)) = cons (cons (y, caddr (SCHEME_V->args)), symprop (car (SCHEME_V->args)));
4882
4883 s_return (S_T);
4884
4885 case OP_GET: /* get */
4886 if (!hasprop (car (SCHEME_V->args)) || !hasprop (cadr (SCHEME_V->args)))
4887 Error_0 ("illegal use of get");
4888
4889 for (x = symprop (car (SCHEME_V->args)), y = cadr (SCHEME_V->args); x != NIL; x = cdr (x))
4890 if (caar (x) == y)
4891 break;
4892
4893 if (x != NIL)
4894 s_return (cdar (x));
4895 else
4896 s_return (NIL);
4897
4898 #endif /* USE_PLIST */
4899
4900 case OP_QUIT: /* quit */
4901 if (is_pair (SCHEME_V->args))
4902 SCHEME_V->retcode = ivalue (car (SCHEME_V->args));
4903
4904 return NIL;
4905
4906 case OP_GC: /* gc */
4907 gc (SCHEME_A_ NIL, NIL);
4908 s_return (S_T);
4909
4910 case OP_GCVERB: /* gc-verbose */
4911 {
4912 int was = SCHEME_V->gc_verbose;
4913
4914 SCHEME_V->gc_verbose = (car (SCHEME_V->args) != S_F);
4915 s_retbool (was);
4916 }
4917
4918 case OP_NEWSEGMENT: /* new-segment */
4919 if (!is_pair (SCHEME_V->args) || !is_number (car (SCHEME_V->args)))
4920 Error_0 ("new-segment: argument must be a number");
4921
4922 alloc_cellseg (SCHEME_A_ (int)ivalue (car (SCHEME_V->args)));
4923
4924 s_return (S_T);
4925
4926 case OP_OBLIST: /* oblist */
4927 s_return (oblist_all_symbols (SCHEME_A));
4928
4929 #if USE_PORTS
4930
4931 case OP_CURR_INPORT: /* current-input-port */
4932 s_return (SCHEME_V->inport);
4933
4934 case OP_CURR_OUTPORT: /* current-output-port */
4935 s_return (SCHEME_V->outport);
4936
4937 case OP_OPEN_INFILE: /* open-input-file */
4938 case OP_OPEN_OUTFILE: /* open-output-file */
4939 case OP_OPEN_INOUTFILE: /* open-input-output-file */
4940 {
4941 int prop = 0;
4942 pointer p;
4943
4944 switch (op)
4945 {
4946 case OP_OPEN_INFILE:
4947 prop = port_input;
4948 break;
4949
4950 case OP_OPEN_OUTFILE:
4951 prop = port_output;
4952 break;
4953
4954 case OP_OPEN_INOUTFILE:
4955 prop = port_input | port_output;
4956 break;
4957 }
4958
4959 p = port_from_filename (SCHEME_A_ strvalue (car (SCHEME_V->args)), prop);
4960
4961 if (p == NIL)
4962 s_return (S_F);
4963
4964 s_return (p);
4965 }
4966
4967 # if USE_STRING_PORTS
4968
4969 case OP_OPEN_INSTRING: /* open-input-string */
4970 case OP_OPEN_INOUTSTRING: /* open-input-output-string */
4971 {
4972 int prop = 0;
4973 pointer p;
4974
4975 switch (op)
4976 {
4977 case OP_OPEN_INSTRING:
4978 prop = port_input;
4979 break;
4980
4981 case OP_OPEN_INOUTSTRING:
4982 prop = port_input | port_output;
4983 break;
4984 }
4985
4986 p = port_from_string (SCHEME_A_ strvalue (car (SCHEME_V->args)),
4987 strvalue (car (SCHEME_V->args)) + strlength (car (SCHEME_V->args)), prop);
4988
4989 if (p == NIL)
4990 s_return (S_F);
4991
4992 s_return (p);
4993 }
4994
4995 case OP_OPEN_OUTSTRING: /* open-output-string */
4996 {
4997 pointer p;
4998
4999 if (car (SCHEME_V->args) == NIL)
5000 {
5001 p = port_from_scratch (SCHEME_A);
5002
5003 if (p == NIL)
5004 s_return (S_F);
5005 }
5006 else
5007 {
5008 p = port_from_string (SCHEME_A_ strvalue (car (SCHEME_V->args)),
5009 strvalue (car (SCHEME_V->args)) + strlength (car (SCHEME_V->args)), port_output);
5010
5011 if (p == NIL)
5012 s_return (S_F);
5013 }
5014
5015 s_return (p);
5016 }
5017
5018 case OP_GET_OUTSTRING: /* get-output-string */
5019 {
5020 port *p;
5021
5022 if ((p = car (SCHEME_V->args)->object.port)->kind & port_string)
5023 {
5024 off_t size;
5025 char *str;
5026
5027 size = p->rep.string.curr - p->rep.string.start + 1;
5028 str = malloc (size);
5029
5030 if (str != NULL)
5031 {
5032 pointer s;
5033
5034 memcpy (str, p->rep.string.start, size - 1);
5035 str[size - 1] = '\0';
5036 s = mk_string (SCHEME_A_ str);
5037 free (str);
5038 s_return (s);
5039 }
5040 }
5041
5042 s_return (S_F);
5043 }
5044
5045 # endif
5046
5047 case OP_CLOSE_INPORT: /* close-input-port */
5048 port_close (SCHEME_A_ car (SCHEME_V->args), port_input);
5049 s_return (S_T);
5050
5051 case OP_CLOSE_OUTPORT: /* close-output-port */
5052 port_close (SCHEME_A_ car (SCHEME_V->args), port_output);
5053 s_return (S_T);
5054 #endif
5055
5056 case OP_INT_ENV: /* interaction-environment */
5057 s_return (SCHEME_V->global_env);
5058
5059 case OP_CURR_ENV: /* current-environment */
5060 s_return (SCHEME_V->envir);
5061
5062 }
5063
5064 return S_T;
5065 }
5066
5067 static pointer
5068 opexe_5 (SCHEME_P_ enum scheme_opcodes op)
5069 {
5070 pointer x;
5071
5072 if (SCHEME_V->nesting != 0)
5073 {
5074 int n = SCHEME_V->nesting;
5075
5076 SCHEME_V->nesting = 0;
5077 SCHEME_V->retcode = -1;
5078 Error_1 ("unmatched parentheses:", mk_integer (SCHEME_A_ n));
5079 }
5080
5081 switch (op)
5082 {
5083 /* ========== reading part ========== */
5084 #if USE_PORTS
5085 case OP_READ:
5086 if (!is_pair (SCHEME_V->args))
5087 s_goto (OP_READ_INTERNAL);
5088
5089 if (!is_inport (car (SCHEME_V->args)))
5090 Error_1 ("read: not an input port:", car (SCHEME_V->args));
5091
5092 if (car (SCHEME_V->args) == SCHEME_V->inport)
5093 s_goto (OP_READ_INTERNAL);
5094
5095 x = SCHEME_V->inport;
5096 SCHEME_V->inport = car (SCHEME_V->args);
5097 x = cons (x, NIL);
5098 s_save (SCHEME_A_ OP_SET_INPORT, x, NIL);
5099 s_goto (OP_READ_INTERNAL);
5100
5101 case OP_READ_CHAR: /* read-char */
5102 case OP_PEEK_CHAR: /* peek-char */
5103 {
5104 int c;
5105
5106 if (is_pair (SCHEME_V->args))
5107 {
5108 if (car (SCHEME_V->args) != SCHEME_V->inport)
5109 {
5110 x = SCHEME_V->inport;
5111 x = cons (x, NIL);
5112 s_save (SCHEME_A_ OP_SET_INPORT, x, NIL);
5113 SCHEME_V->inport = car (SCHEME_V->args);
5114 }
5115 }
5116
5117 c = inchar (SCHEME_A);
5118
5119 if (c == EOF)
5120 s_return (S_EOF);
5121
5122 if (SCHEME_V->op == OP_PEEK_CHAR)
5123 backchar (SCHEME_A_ c);
5124
5125 s_return (mk_character (SCHEME_A_ c));
5126 }
5127
5128 case OP_CHAR_READY: /* char-ready? */
5129 {
5130 pointer p = SCHEME_V->inport;
5131 int res;
5132
5133 if (is_pair (SCHEME_V->args))
5134 p = car (SCHEME_V->args);
5135
5136 res = p->object.port->kind & port_string;
5137
5138 s_retbool (res);
5139 }
5140
5141 case OP_SET_INPORT: /* set-input-port */
5142 SCHEME_V->inport = car (SCHEME_V->args);
5143 s_return (SCHEME_V->value);
5144
5145 case OP_SET_OUTPORT: /* set-output-port */
5146 SCHEME_V->outport = car (SCHEME_V->args);
5147 s_return (SCHEME_V->value);
5148 #endif
5149
5150 case OP_RDSEXPR:
5151 switch (SCHEME_V->tok)
5152 {
5153 case TOK_EOF:
5154 s_return (S_EOF);
5155 /* NOTREACHED */
5156
5157 case TOK_VEC:
5158 s_save (SCHEME_A_ OP_RDVEC, NIL, NIL);
5159 /* fall through */
5160
5161 case TOK_LPAREN:
5162 SCHEME_V->tok = token (SCHEME_A);
5163
5164 if (SCHEME_V->tok == TOK_RPAREN)
5165 s_return (NIL);
5166 else if (SCHEME_V->tok == TOK_DOT)
5167 Error_0 ("syntax error: illegal dot expression");
5168 else
5169 {
5170 SCHEME_V->nesting_stack[SCHEME_V->file_i]++;
5171 s_save (SCHEME_A_ OP_RDLIST, NIL, NIL);
5172 s_goto (OP_RDSEXPR);
5173 }
5174
5175 case TOK_QUOTE:
5176 s_save (SCHEME_A_ OP_RDQUOTE, NIL, NIL);
5177 SCHEME_V->tok = token (SCHEME_A);
5178 s_goto (OP_RDSEXPR);
5179
5180 case TOK_BQUOTE:
5181 SCHEME_V->tok = token (SCHEME_A);
5182
5183 if (SCHEME_V->tok == TOK_VEC)
5184 {
5185 s_save (SCHEME_A_ OP_RDQQUOTEVEC, NIL, NIL);
5186 SCHEME_V->tok = TOK_LPAREN;
5187 s_goto (OP_RDSEXPR);
5188 }
5189 else
5190 s_save (SCHEME_A_ OP_RDQQUOTE, NIL, NIL);
5191
5192 s_goto (OP_RDSEXPR);
5193
5194 case TOK_COMMA:
5195 s_save (SCHEME_A_ OP_RDUNQUOTE, NIL, NIL);
5196 SCHEME_V->tok = token (SCHEME_A);
5197 s_goto (OP_RDSEXPR);
5198
5199 case TOK_ATMARK:
5200 s_save (SCHEME_A_ OP_RDUQTSP, NIL, NIL);
5201 SCHEME_V->tok = token (SCHEME_A);
5202 s_goto (OP_RDSEXPR);
5203
5204 case TOK_ATOM:
5205 s_return (mk_atom (SCHEME_A_ readstr_upto (SCHEME_A_ DELIMITERS)));
5206
5207 case TOK_DQUOTE:
5208 x = readstrexp (SCHEME_A);
5209
5210 if (x == S_F)
5211 Error_0 ("Error reading string");
5212
5213 setimmutable (x);
5214 s_return (x);
5215
5216 case TOK_SHARP:
5217 {
5218 pointer f = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->SHARP_HOOK, 1);
5219
5220 if (f == NIL)
5221 Error_0 ("undefined sharp expression");
5222 else
5223 {
5224 SCHEME_V->code = cons (slot_value_in_env (f), NIL);
5225 s_goto (OP_EVAL);
5226 }
5227 }
5228
5229 case TOK_SHARP_CONST:
5230 if ((x = mk_sharp_const (SCHEME_A_ readstr_upto (SCHEME_A_ DELIMITERS))) == NIL)
5231 Error_0 ("undefined sharp expression");
5232 else
5233 s_return (x);
5234
5235 default:
5236 Error_0 ("syntax error: illegal token");
5237 }
5238
5239 break;
5240
5241 case OP_RDLIST:
5242 SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);
5243 SCHEME_V->tok = token (SCHEME_A);
5244
5245 switch (SCHEME_V->tok)
5246 {
5247 case TOK_EOF:
5248 s_return (S_EOF);
5249
5250 case TOK_RPAREN:
5251 {
5252 int c = inchar (SCHEME_A);
5253
5254 if (c != '\n')
5255 backchar (SCHEME_A_ c);
5256 #if SHOW_ERROR_LINE
5257 else if (SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file)
5258 SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line++;
5259 #endif
5260
5261 SCHEME_V->nesting_stack[SCHEME_V->file_i]--;
5262 s_return (reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args));
5263 }
5264
5265 case TOK_DOT:
5266 s_save (SCHEME_A_ OP_RDDOT, SCHEME_V->args, NIL);
5267 SCHEME_V->tok = token (SCHEME_A);
5268 s_goto (OP_RDSEXPR);
5269
5270 default:
5271 s_save (SCHEME_A_ OP_RDLIST, SCHEME_V->args, NIL);
5272 s_goto (OP_RDSEXPR);
5273 }
5274
5275 case OP_RDDOT:
5276 if (token (SCHEME_A) != TOK_RPAREN)
5277 Error_0 ("syntax error: illegal dot expression");
5278
5279 SCHEME_V->nesting_stack[SCHEME_V->file_i]--;
5280 s_return (reverse_in_place (SCHEME_A_ SCHEME_V->value, SCHEME_V->args));
5281
5282 case OP_RDQUOTE:
5283 s_return (cons (SCHEME_V->QUOTE, cons (SCHEME_V->value, NIL)));
5284
5285 case OP_RDQQUOTE:
5286 s_return (cons (SCHEME_V->QQUOTE, cons (SCHEME_V->value, NIL)));
5287
5288 case OP_RDQQUOTEVEC:
5289 s_return (cons (mk_symbol (SCHEME_A_ "apply"),
5290 cons (mk_symbol (SCHEME_A_ "vector"),
5291 cons (cons (SCHEME_V->QQUOTE, cons (SCHEME_V->value, NIL)), NIL))));
5292
5293 case OP_RDUNQUOTE:
5294 s_return (cons (SCHEME_V->UNQUOTE, cons (SCHEME_V->value, NIL)));
5295
5296 case OP_RDUQTSP:
5297 s_return (cons (SCHEME_V->UNQUOTESP, cons (SCHEME_V->value, NIL)));
5298
5299 case OP_RDVEC:
5300 /*SCHEME_V->code=cons(mk_proc(SCHEME_A_ OP_VECTOR),SCHEME_V->value);
5301 s_goto(OP_EVAL); Cannot be quoted */
5302 /*x=cons(mk_proc(SCHEME_A_ OP_VECTOR),SCHEME_V->value);
5303 s_return(x); Cannot be part of pairs */
5304 /*SCHEME_V->code=mk_proc(SCHEME_A_ OP_VECTOR);
5305 SCHEME_V->args=SCHEME_V->value;
5306 s_goto(OP_APPLY); */
5307 SCHEME_V->args = SCHEME_V->value;
5308 s_goto (OP_VECTOR);
5309
5310 /* ========== printing part ========== */
5311 case OP_P0LIST:
5312 if (is_vector (SCHEME_V->args))
5313 {
5314 putstr (SCHEME_A_ "#(");
5315 SCHEME_V->args = cons (SCHEME_V->args, mk_integer (SCHEME_A_ 0));
5316 s_goto (OP_PVECFROM);
5317 }
5318 else if (is_environment (SCHEME_V->args))
5319 {
5320 putstr (SCHEME_A_ "#<ENVIRONMENT>");
5321 s_return (S_T);
5322 }
5323 else if (!is_pair (SCHEME_V->args))
5324 {
5325 printatom (SCHEME_A_ SCHEME_V->args, SCHEME_V->print_flag);
5326 s_return (S_T);
5327 }
5328 else if (car (SCHEME_V->args) == SCHEME_V->QUOTE && ok_abbrev (cdr (SCHEME_V->args)))
5329 {
5330 putstr (SCHEME_A_ "'");
5331 SCHEME_V->args = cadr (SCHEME_V->args);
5332 s_goto (OP_P0LIST);
5333 }
5334 else if (car (SCHEME_V->args) == SCHEME_V->QQUOTE && ok_abbrev (cdr (SCHEME_V->args)))
5335 {
5336 putstr (SCHEME_A_ "`");
5337 SCHEME_V->args = cadr (SCHEME_V->args);
5338 s_goto (OP_P0LIST);
5339 }
5340 else if (car (SCHEME_V->args) == SCHEME_V->UNQUOTE && ok_abbrev (cdr (SCHEME_V->args)))
5341 {
5342 putstr (SCHEME_A_ ",");
5343 SCHEME_V->args = cadr (SCHEME_V->args);
5344 s_goto (OP_P0LIST);
5345 }
5346 else if (car (SCHEME_V->args) == SCHEME_V->UNQUOTESP && ok_abbrev (cdr (SCHEME_V->args)))
5347 {
5348 putstr (SCHEME_A_ ",@");
5349 SCHEME_V->args = cadr (SCHEME_V->args);
5350 s_goto (OP_P0LIST);
5351 }
5352 else
5353 {
5354 putstr (SCHEME_A_ "(");
5355 s_save (SCHEME_A_ OP_P1LIST, cdr (SCHEME_V->args), NIL);
5356 SCHEME_V->args = car (SCHEME_V->args);
5357 s_goto (OP_P0LIST);
5358 }
5359
5360 case OP_P1LIST:
5361 if (is_pair (SCHEME_V->args))
5362 {
5363 s_save (SCHEME_A_ OP_P1LIST, cdr (SCHEME_V->args), NIL);
5364 putstr (SCHEME_A_ " ");
5365 SCHEME_V->args = car (SCHEME_V->args);
5366 s_goto (OP_P0LIST);
5367 }
5368 else if (is_vector (SCHEME_V->args))
5369 {
5370 s_save (SCHEME_A_ OP_P1LIST, NIL, NIL);
5371 putstr (SCHEME_A_ " . ");
5372 s_goto (OP_P0LIST);
5373 }
5374 else
5375 {
5376 if (SCHEME_V->args != NIL)
5377 {
5378 putstr (SCHEME_A_ " . ");
5379 printatom (SCHEME_A_ SCHEME_V->args, SCHEME_V->print_flag);
5380 }
5381
5382 putstr (SCHEME_A_ ")");
5383 s_return (S_T);
5384 }
5385
5386 case OP_PVECFROM:
5387 {
5388 int i = ivalue_unchecked (cdr (SCHEME_V->args));
5389 pointer vec = car (SCHEME_V->args);
5390 int len = veclength (vec);
5391
5392 if (i == len)
5393 {
5394 putstr (SCHEME_A_ ")");
5395 s_return (S_T);
5396 }
5397 else
5398 {
5399 pointer elem = vector_elem (vec, i);
5400
5401 ivalue_unchecked (cdr (SCHEME_V->args)) = i + 1;
5402 s_save (SCHEME_A_ OP_PVECFROM, SCHEME_V->args, NIL);
5403 SCHEME_V->args = elem;
5404
5405 if (i > 0)
5406 putstr (SCHEME_A_ " ");
5407
5408 s_goto (OP_P0LIST);
5409 }
5410 }
5411 }
5412
5413 return S_T;
5414 }
5415
5416 static pointer
5417 opexe_6 (SCHEME_P_ enum scheme_opcodes op)
5418 {
5419 pointer x, y;
5420
5421 switch (op)
5422 {
5423 case OP_LIST_LENGTH: /* length *//* a.k */
5424 {
5425 long v = list_length (SCHEME_A_ car (SCHEME_V->args));
5426
5427 if (v < 0)
5428 Error_1 ("length: not a list:", car (SCHEME_V->args));
5429
5430 s_return (mk_integer (SCHEME_A_ v));
5431 }
5432
5433 case OP_ASSQ: /* assq *//* a.k */
5434 x = car (SCHEME_V->args);
5435
5436 for (y = cadr (SCHEME_V->args); is_pair (y); y = cdr (y))
5437 {
5438 if (!is_pair (car (y)))
5439 Error_0 ("unable to handle non pair element");
5440
5441 if (x == caar (y))
5442 break;
5443 }
5444
5445 if (is_pair (y))
5446 s_return (car (y));
5447 else
5448 s_return (S_F);
5449
5450
5451 case OP_GET_CLOSURE: /* get-closure-code *//* a.k */
5452 SCHEME_V->args = car (SCHEME_V->args);
5453
5454 if (SCHEME_V->args == NIL)
5455 s_return (S_F);
5456 else if (is_closure (SCHEME_V->args))
5457 s_return (cons (SCHEME_V->LAMBDA, closure_code (SCHEME_V->value)));
5458 else if (is_macro (SCHEME_V->args))
5459 s_return (cons (SCHEME_V->LAMBDA, closure_code (SCHEME_V->value)));
5460 else
5461 s_return (S_F);
5462
5463 case OP_CLOSUREP: /* closure? */
5464 /*
5465 * Note, macro object is also a closure.
5466 * Therefore, (closure? <#MACRO>) ==> #t
5467 */
5468 s_retbool (is_closure (car (SCHEME_V->args)));
5469
5470 case OP_MACROP: /* macro? */
5471 s_retbool (is_macro (car (SCHEME_V->args)));
5472 }
5473
5474 return S_T; /* NOTREACHED */
5475 }
5476
5477 typedef pointer (*dispatch_func) (SCHEME_P_ enum scheme_opcodes);
5478
5479 typedef int (*test_predicate) (pointer);
5480 static int
5481 is_any (pointer p)
5482 {
5483 return 1;
5484 }
5485
5486 static int
5487 is_nonneg (pointer p)
5488 {
5489 return ivalue (p) >= 0 && is_integer (p);
5490 }
5491
5492 /* Correspond carefully with following defines! */
5493 static struct
5494 {
5495 test_predicate fct;
5496 const char *kind;
5497 } tests[] =
5498 {
5499 { 0, 0}, /* unused */
5500 { is_any, 0},
5501 { is_string, "string" },
5502 { is_symbol, "symbol" },
5503 { is_port, "port" },
5504 { is_inport, "input port" },
5505 { is_outport, "output port" },
5506 { is_environment, "environment" },
5507 { is_pair, "pair" },
5508 { 0, "pair or '()" },
5509 { is_character, "character" },
5510 { is_vector, "vector" },
5511 { is_number, "number" },
5512 { is_integer, "integer" },
5513 { is_nonneg, "non-negative integer" }
5514 };
5515
5516 #define TST_NONE 0
5517 #define TST_ANY "\001"
5518 #define TST_STRING "\002"
5519 #define TST_SYMBOL "\003"
5520 #define TST_PORT "\004"
5521 #define TST_INPORT "\005"
5522 #define TST_OUTPORT "\006"
5523 #define TST_ENVIRONMENT "\007"
5524 #define TST_PAIR "\010"
5525 #define TST_LIST "\011"
5526 #define TST_CHAR "\012"
5527 #define TST_VECTOR "\013"
5528 #define TST_NUMBER "\014"
5529 #define TST_INTEGER "\015"
5530 #define TST_NATURAL "\016"
5531
5532 typedef struct
5533 {
5534 dispatch_func func;
5535 char *name;
5536 int min_arity;
5537 int max_arity;
5538 char *arg_tests_encoding;
5539 } op_code_info;
5540
5541 #define INF_ARG 0xffff
5542
5543 static op_code_info dispatch_table[] = {
5544 #define OP_DEF(A,B,C,D,E,OP) {A,B,C,D,E},
5545 #include "opdefines.h"
5546 {0}
5547 };
5548
5549 static const char *
5550 procname (pointer x)
5551 {
5552 int n = procnum (x);
5553 const char *name = dispatch_table[n].name;
5554
5555 if (name == 0)
5556 name = "ILLEGAL!";
5557
5558 return name;
5559 }
5560
5561 /* kernel of this interpreter */
5562 static void
5563 Eval_Cycle (SCHEME_P_ enum scheme_opcodes op)
5564 {
5565 SCHEME_V->op = op;
5566
5567 for (;;)
5568 {
5569 op_code_info *pcd = dispatch_table + SCHEME_V->op;
5570
5571 #if USE_ERROR_CHECKING
5572 if (pcd->name) /* if built-in function, check arguments */
5573 {
5574 int ok = 1;
5575 char msg[STRBUFFSIZE];
5576 int n = list_length (SCHEME_A_ SCHEME_V->args);
5577
5578 /* Check number of arguments */
5579 if (n < pcd->min_arity)
5580 {
5581 ok = 0;
5582 snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",
5583 pcd->name, pcd->min_arity == pcd->max_arity ? "" : " at least", pcd->min_arity);
5584 }
5585
5586 if (ok && n > pcd->max_arity)
5587 {
5588 ok = 0;
5589 snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",
5590 pcd->name, pcd->min_arity == pcd->max_arity ? "" : " at most", pcd->max_arity);
5591 }
5592
5593 if (ok)
5594 {
5595 if (pcd->arg_tests_encoding)
5596 {
5597 int i = 0;
5598 int j;
5599 const char *t = pcd->arg_tests_encoding;
5600 pointer arglist = SCHEME_V->args;
5601
5602 do
5603 {
5604 pointer arg = car (arglist);
5605
5606 j = (int) t[0];
5607
5608 if (j == TST_LIST[0])
5609 {
5610 if (arg != NIL && !is_pair (arg))
5611 break;
5612 }
5613 else
5614 {
5615 if (!tests[j].fct (arg))
5616 break;
5617 }
5618
5619 if (t[1] != 0) /* last test is replicated as necessary */
5620 t++;
5621
5622 arglist = cdr (arglist);
5623 i++;
5624 }
5625 while (i < n);
5626
5627 if (i < n)
5628 {
5629 ok = 0;
5630 snprintf (msg, STRBUFFSIZE, "%s: argument %d must be: %s", pcd->name, i + 1, tests[j].kind);
5631 }
5632 }
5633 }
5634
5635 if (!ok)
5636 {
5637 if (xError_1 (SCHEME_A_ msg, 0) == NIL)
5638 return;
5639
5640 pcd = dispatch_table + SCHEME_V->op;
5641 }
5642 }
5643 #endif
5644
5645 ok_to_freely_gc (SCHEME_A);
5646
5647 if (pcd->func (SCHEME_A_ SCHEME_V->op) == NIL)
5648 return;
5649
5650 if (SCHEME_V->no_memory && USE_ERROR_CHECKING)
5651 {
5652 xwrstr ("No memory!\n");
5653 return;
5654 }
5655 }
5656 }
5657
5658 /* ========== Initialization of internal keywords ========== */
5659
5660 static void
5661 assign_syntax (SCHEME_P_ const char *name)
5662 {
5663 pointer x = oblist_add_by_name (SCHEME_A_ name);
5664 set_typeflag (x, typeflag (x) | T_SYNTAX);
5665 }
5666
5667 static void
5668 assign_proc (SCHEME_P_ enum scheme_opcodes op, const char *name)
5669 {
5670 pointer x = mk_symbol (SCHEME_A_ name);
5671 pointer y = mk_proc (SCHEME_A_ op);
5672 new_slot_in_env (SCHEME_A_ x, y);
5673 }
5674
5675 static pointer
5676 mk_proc (SCHEME_P_ enum scheme_opcodes op)
5677 {
5678 pointer y = get_cell (SCHEME_A_ NIL, NIL);
5679 set_typeflag (y, (T_PROC | T_ATOM));
5680 ivalue_unchecked (y) = op;
5681 set_num_integer (y);
5682 return y;
5683 }
5684
5685 /* Hard-coded for the given keywords. Remember to rewrite if more are added! */
5686 static int
5687 syntaxnum (pointer p)
5688 {
5689 const char *s = strvalue (car (p));
5690
5691 switch (strlength (car (p)))
5692 {
5693 case 2:
5694 if (s[0] == 'i')
5695 return OP_IF0; /* if */
5696 else
5697 return OP_OR0; /* or */
5698
5699 case 3:
5700 if (s[0] == 'a')
5701 return OP_AND0; /* and */
5702 else
5703 return OP_LET0; /* let */
5704
5705 case 4:
5706 switch (s[3])
5707 {
5708 case 'e':
5709 return OP_CASE0; /* case */
5710
5711 case 'd':
5712 return OP_COND0; /* cond */
5713
5714 case '*':
5715 return OP_LET0AST; /* let* */
5716
5717 default:
5718 return OP_SET0; /* set! */
5719 }
5720
5721 case 5:
5722 switch (s[2])
5723 {
5724 case 'g':
5725 return OP_BEGIN; /* begin */
5726
5727 case 'l':
5728 return OP_DELAY; /* delay */
5729
5730 case 'c':
5731 return OP_MACRO0; /* macro */
5732
5733 default:
5734 return OP_QUOTE; /* quote */
5735 }
5736
5737 case 6:
5738 switch (s[2])
5739 {
5740 case 'm':
5741 return OP_LAMBDA; /* lambda */
5742
5743 case 'f':
5744 return OP_DEF0; /* define */
5745
5746 default:
5747 return OP_LET0REC; /* letrec */
5748 }
5749
5750 default:
5751 return OP_C0STREAM; /* cons-stream */
5752 }
5753 }
5754
5755 #if USE_MULTIPLICITY
5756 scheme *
5757 scheme_init_new ()
5758 {
5759 scheme *sc = malloc (sizeof (scheme));
5760
5761 if (!scheme_init (SCHEME_A))
5762 {
5763 free (SCHEME_A);
5764 return 0;
5765 }
5766 else
5767 return sc;
5768 }
5769 #endif
5770
5771 int
5772 scheme_init (SCHEME_P)
5773 {
5774 int i, n = sizeof (dispatch_table) / sizeof (dispatch_table[0]);
5775 pointer x;
5776
5777 num_set_fixnum (num_zero, 1);
5778 num_set_ivalue (num_zero, 0);
5779 num_set_fixnum (num_one, 1);
5780 num_set_ivalue (num_one, 1);
5781
5782 #if USE_INTERFACE
5783 SCHEME_V->vptr = &vtbl;
5784 #endif
5785 SCHEME_V->gensym_cnt = 0;
5786 SCHEME_V->last_cell_seg = -1;
5787 SCHEME_V->free_cell = NIL;
5788 SCHEME_V->fcells = 0;
5789 SCHEME_V->no_memory = 0;
5790 SCHEME_V->inport = NIL;
5791 SCHEME_V->outport = NIL;
5792 SCHEME_V->save_inport = NIL;
5793 SCHEME_V->loadport = NIL;
5794 SCHEME_V->nesting = 0;
5795 SCHEME_V->interactive_repl = 0;
5796
5797 if (alloc_cellseg (SCHEME_A_ FIRST_CELLSEGS) != FIRST_CELLSEGS)
5798 {
5799 #if USE_ERROR_CHECKING
5800 SCHEME_V->no_memory = 1;
5801 return 0;
5802 #endif
5803 }
5804
5805 SCHEME_V->gc_verbose = 0;
5806 dump_stack_initialize (SCHEME_A);
5807 SCHEME_V->code = NIL;
5808 SCHEME_V->args = NIL;
5809 SCHEME_V->envir = NIL;
5810 SCHEME_V->tracing = 0;
5811
5812 /* init NIL */
5813 set_typeflag (NIL, T_ATOM | T_MARK);
5814 set_car (NIL, NIL);
5815 set_cdr (NIL, NIL);
5816 /* init T */
5817 set_typeflag (S_T, T_ATOM | T_MARK);
5818 set_car (S_T, S_T);
5819 set_cdr (S_T, S_T);
5820 /* init F */
5821 set_typeflag (S_F, T_ATOM | T_MARK);
5822 set_car (S_F, S_F);
5823 set_cdr (S_F, S_F);
5824 /* init EOF_OBJ */
5825 set_typeflag (S_EOF, T_ATOM | T_MARK);
5826 set_car (S_EOF, S_EOF);
5827 set_cdr (S_EOF, S_EOF);
5828 /* init sink */
5829 set_typeflag (S_SINK, T_PAIR | T_MARK);
5830 set_car (S_SINK, NIL);
5831
5832 /* init c_nest */
5833 SCHEME_V->c_nest = NIL;
5834
5835 SCHEME_V->oblist = oblist_initial_value (SCHEME_A);
5836 /* init global_env */
5837 new_frame_in_env (SCHEME_A_ NIL);
5838 SCHEME_V->global_env = SCHEME_V->envir;
5839 /* init else */
5840 x = mk_symbol (SCHEME_A_ "else");
5841 new_slot_in_env (SCHEME_A_ x, S_T);
5842
5843 {
5844 static const char *syntax_names[] = {
5845 "lambda", "quote", "define", "if", "begin", "set!",
5846 "let", "let*", "letrec", "cond", "delay", "and",
5847 "or", "cons-stream", "macro", "case"
5848 };
5849
5850 for (i = 0; i < sizeof (syntax_names) / sizeof (*syntax_names); ++i)
5851 assign_syntax (SCHEME_A_ syntax_names[i]);
5852 }
5853
5854 for (i = 0; i < n; i++)
5855 if (dispatch_table[i].name != 0)
5856 assign_proc (SCHEME_A_ i, dispatch_table[i].name);
5857
5858 /* initialization of global pointers to special symbols */
5859 SCHEME_V->LAMBDA = mk_symbol (SCHEME_A_ "lambda");
5860 SCHEME_V->QUOTE = mk_symbol (SCHEME_A_ "quote");
5861 SCHEME_V->QQUOTE = mk_symbol (SCHEME_A_ "quasiquote");
5862 SCHEME_V->UNQUOTE = mk_symbol (SCHEME_A_ "unquote");
5863 SCHEME_V->UNQUOTESP = mk_symbol (SCHEME_A_ "unquote-splicing");
5864 SCHEME_V->FEED_TO = mk_symbol (SCHEME_A_ "=>");
5865 SCHEME_V->COLON_HOOK = mk_symbol (SCHEME_A_ "*colon-hook*");
5866 SCHEME_V->ERROR_HOOK = mk_symbol (SCHEME_A_ "*error-hook*");
5867 SCHEME_V->SHARP_HOOK = mk_symbol (SCHEME_A_ "*sharp-hook*");
5868 SCHEME_V->COMPILE_HOOK = mk_symbol (SCHEME_A_ "*compile-hook*");
5869
5870 return !SCHEME_V->no_memory;
5871 }
5872
5873 #if USE_PORTS
5874 void
5875 scheme_set_input_port_file (SCHEME_P_ int fin)
5876 {
5877 SCHEME_V->inport = port_from_file (SCHEME_A_ fin, port_input);
5878 }
5879
5880 void
5881 scheme_set_input_port_string (SCHEME_P_ char *start, char *past_the_end)
5882 {
5883 SCHEME_V->inport = port_from_string (SCHEME_A_ start, past_the_end, port_input);
5884 }
5885
5886 void
5887 scheme_set_output_port_file (SCHEME_P_ int fout)
5888 {
5889 SCHEME_V->outport = port_from_file (SCHEME_A_ fout, port_output);
5890 }
5891
5892 void
5893 scheme_set_output_port_string (SCHEME_P_ char *start, char *past_the_end)
5894 {
5895 SCHEME_V->outport = port_from_string (SCHEME_A_ start, past_the_end, port_output);
5896 }
5897 #endif
5898
5899 void
5900 scheme_set_external_data (SCHEME_P_ void *p)
5901 {
5902 SCHEME_V->ext_data = p;
5903 }
5904
5905 void
5906 scheme_deinit (SCHEME_P)
5907 {
5908 int i;
5909
5910 #if SHOW_ERROR_LINE
5911 char *fname;
5912 #endif
5913
5914 SCHEME_V->oblist = NIL;
5915 SCHEME_V->global_env = NIL;
5916 dump_stack_free (SCHEME_A);
5917 SCHEME_V->envir = NIL;
5918 SCHEME_V->code = NIL;
5919 SCHEME_V->args = NIL;
5920 SCHEME_V->value = NIL;
5921
5922 if (is_port (SCHEME_V->inport))
5923 set_typeflag (SCHEME_V->inport, T_ATOM);
5924
5925 SCHEME_V->inport = NIL;
5926 SCHEME_V->outport = NIL;
5927
5928 if (is_port (SCHEME_V->save_inport))
5929 set_typeflag (SCHEME_V->save_inport, T_ATOM);
5930
5931 SCHEME_V->save_inport = NIL;
5932
5933 if (is_port (SCHEME_V->loadport))
5934 set_typeflag (SCHEME_V->loadport, T_ATOM);
5935
5936 SCHEME_V->loadport = NIL;
5937 SCHEME_V->gc_verbose = 0;
5938 gc (SCHEME_A_ NIL, NIL);
5939
5940 for (i = 0; i <= SCHEME_V->last_cell_seg; i++)
5941 free (SCHEME_V->alloc_seg[i]);
5942
5943 #if SHOW_ERROR_LINE
5944 for (i = 0; i <= SCHEME_V->file_i; i++)
5945 {
5946 if (SCHEME_V->load_stack[i].kind & port_file)
5947 {
5948 fname = SCHEME_V->load_stack[i].rep.stdio.filename;
5949
5950 if (fname)
5951 free (fname);
5952 }
5953 }
5954 #endif
5955 }
5956
5957 void
5958 scheme_load_file (SCHEME_P_ int fin)
5959 {
5960 scheme_load_named_file (SCHEME_A_ fin, 0);
5961 }
5962
5963 void
5964 scheme_load_named_file (SCHEME_P_ int fin, const char *filename)
5965 {
5966 dump_stack_reset (SCHEME_A);
5967 SCHEME_V->envir = SCHEME_V->global_env;
5968 SCHEME_V->file_i = 0;
5969 SCHEME_V->load_stack[0].unget = -1;
5970 SCHEME_V->load_stack[0].kind = port_input | port_file;
5971 SCHEME_V->load_stack[0].rep.stdio.file = fin;
5972 #if USE_PORTS
5973 SCHEME_V->loadport = mk_port (SCHEME_A_ SCHEME_V->load_stack);
5974 #endif
5975 SCHEME_V->retcode = 0;
5976
5977 #if USE_PORTS
5978 if (fin == STDIN_FILENO)
5979 SCHEME_V->interactive_repl = 1;
5980 #endif
5981
5982 #if USE_PORTS
5983 #if SHOW_ERROR_LINE
5984 SCHEME_V->load_stack[0].rep.stdio.curr_line = 0;
5985
5986 if (fin != STDIN_FILENO && filename)
5987 SCHEME_V->load_stack[0].rep.stdio.filename = store_string (SCHEME_A_ strlen (filename), filename, 0);
5988 #endif
5989 #endif
5990
5991 SCHEME_V->inport = SCHEME_V->loadport;
5992 SCHEME_V->args = mk_integer (SCHEME_A_ SCHEME_V->file_i);
5993 Eval_Cycle (SCHEME_A_ OP_T0LVL);
5994 set_typeflag (SCHEME_V->loadport, T_ATOM);
5995
5996 if (SCHEME_V->retcode == 0)
5997 SCHEME_V->retcode = SCHEME_V->nesting != 0;
5998 }
5999
6000 void
6001 scheme_load_string (SCHEME_P_ const char *cmd)
6002 {
6003 dump_stack_reset (SCHEME_A);
6004 SCHEME_V->envir = SCHEME_V->global_env;
6005 SCHEME_V->file_i = 0;
6006 SCHEME_V->load_stack[0].kind = port_input | port_string;
6007 SCHEME_V->load_stack[0].rep.string.start = (char *) cmd; /* This func respects const */
6008 SCHEME_V->load_stack[0].rep.string.past_the_end = (char *) cmd + strlen (cmd);
6009 SCHEME_V->load_stack[0].rep.string.curr = (char *) cmd;
6010 #if USE_PORTS
6011 SCHEME_V->loadport = mk_port (SCHEME_A_ SCHEME_V->load_stack);
6012 #endif
6013 SCHEME_V->retcode = 0;
6014 SCHEME_V->interactive_repl = 0;
6015 SCHEME_V->inport = SCHEME_V->loadport;
6016 SCHEME_V->args = mk_integer (SCHEME_A_ SCHEME_V->file_i);
6017 Eval_Cycle (SCHEME_A_ OP_T0LVL);
6018 set_typeflag (SCHEME_V->loadport, T_ATOM);
6019
6020 if (SCHEME_V->retcode == 0)
6021 SCHEME_V->retcode = SCHEME_V->nesting != 0;
6022 }
6023
6024 void
6025 scheme_define (SCHEME_P_ pointer envir, pointer symbol, pointer value)
6026 {
6027 pointer x;
6028
6029 x = find_slot_in_env (SCHEME_A_ envir, symbol, 0);
6030
6031 if (x != NIL)
6032 set_slot_in_env (SCHEME_A_ x, value);
6033 else
6034 new_slot_spec_in_env (SCHEME_A_ envir, symbol, value);
6035 }
6036
6037 #if !STANDALONE
6038
6039 void
6040 scheme_register_foreign_func (scheme * sc, scheme_registerable * sr)
6041 {
6042 scheme_define (SCHEME_A_ SCHEME_V->global_env, mk_symbol (SCHEME_A_ sr->name), mk_foreign_func (SCHEME_A_ sr->f));
6043 }
6044
6045 void
6046 scheme_register_foreign_func_list (scheme * sc, scheme_registerable * list, int count)
6047 {
6048 int i;
6049
6050 for (i = 0; i < count; i++)
6051 scheme_register_foreign_func (SCHEME_A_ list + i);
6052 }
6053
6054 pointer
6055 scheme_apply0 (SCHEME_P_ const char *procname)
6056 {
6057 return scheme_eval (SCHEME_A_ cons (mk_symbol (SCHEME_A_ procname), NIL));
6058 }
6059
6060 void
6061 save_from_C_call (SCHEME_P)
6062 {
6063 pointer saved_data = cons (car (S_SINK),
6064 cons (SCHEME_V->envir,
6065 SCHEME_V->dump));
6066
6067 /* Push */
6068 SCHEME_V->c_nest = cons (saved_data, SCHEME_V->c_nest);
6069 /* Truncate the dump stack so TS will return here when done, not
6070 directly resume pre-C-call operations. */
6071 dump_stack_reset (SCHEME_A);
6072 }
6073
6074 void
6075 restore_from_C_call (SCHEME_P)
6076 {
6077 set_car (S_SINK, caar (SCHEME_V->c_nest));
6078 SCHEME_V->envir = cadar (SCHEME_V->c_nest);
6079 SCHEME_V->dump = cdr (cdar (SCHEME_V->c_nest));
6080 /* Pop */
6081 SCHEME_V->c_nest = cdr (SCHEME_V->c_nest);
6082 }
6083
6084 /* "func" and "args" are assumed to be already eval'ed. */
6085 pointer
6086 scheme_call (SCHEME_P_ pointer func, pointer args)
6087 {
6088 int old_repl = SCHEME_V->interactive_repl;
6089
6090 SCHEME_V->interactive_repl = 0;
6091 save_from_C_call (SCHEME_A);
6092 SCHEME_V->envir = SCHEME_V->global_env;
6093 SCHEME_V->args = args;
6094 SCHEME_V->code = func;
6095 SCHEME_V->retcode = 0;
6096 Eval_Cycle (SCHEME_A_ OP_APPLY);
6097 SCHEME_V->interactive_repl = old_repl;
6098 restore_from_C_call (SCHEME_A);
6099 return SCHEME_V->value;
6100 }
6101
6102 pointer
6103 scheme_eval (SCHEME_P_ pointer obj)
6104 {
6105 int old_repl = SCHEME_V->interactive_repl;
6106
6107 SCHEME_V->interactive_repl = 0;
6108 save_from_C_call (SCHEME_A);
6109 SCHEME_V->args = NIL;
6110 SCHEME_V->code = obj;
6111 SCHEME_V->retcode = 0;
6112 Eval_Cycle (SCHEME_A_ OP_EVAL);
6113 SCHEME_V->interactive_repl = old_repl;
6114 restore_from_C_call (SCHEME_A);
6115 return SCHEME_V->value;
6116 }
6117
6118 #endif
6119
6120 /* ========== Main ========== */
6121
6122 #if STANDALONE
6123
6124 int
6125 main (int argc, char **argv)
6126 {
6127 # if USE_MULTIPLICITY
6128 scheme ssc;
6129 scheme *const SCHEME_V = &ssc;
6130 # else
6131 # endif
6132 int fin;
6133 char *file_name = InitFile;
6134 int retcode;
6135 int isfile = 1;
6136
6137 if (argc == 2 && strcmp (argv[1], "-?") == 0)
6138 {
6139 xwrstr ("Usage: tinyscheme -?\n");
6140 xwrstr ("or: tinyscheme [<file1> <file2> ...]\n");
6141 xwrstr ("followed by\n");
6142 xwrstr (" -1 <file> [<arg1> <arg2> ...]\n");
6143 xwrstr (" -c <Scheme commands> [<arg1> <arg2> ...]\n");
6144 xwrstr ("assuming that the executable is named tinyscheme.\n");
6145 xwrstr ("Use - as filename for stdin.\n");
6146 return 1;
6147 }
6148
6149 if (!scheme_init (SCHEME_A))
6150 {
6151 xwrstr ("Could not initialize!\n");
6152 return 2;
6153 }
6154
6155 # if USE_PORTS
6156 scheme_set_input_port_file (SCHEME_A_ STDIN_FILENO);
6157 scheme_set_output_port_file (SCHEME_A_ STDOUT_FILENO);
6158 # endif
6159
6160 argv++;
6161
6162 #if 0
6163 if (access (file_name, 0) != 0)
6164 {
6165 char *p = getenv ("TINYSCHEMEINIT");
6166
6167 if (p != 0)
6168 file_name = p;
6169 }
6170 #endif
6171
6172 do
6173 {
6174 #if USE_PORTS
6175 if (strcmp (file_name, "-") == 0)
6176 fin = STDIN_FILENO;
6177 else if (strcmp (file_name, "-1") == 0 || strcmp (file_name, "-c") == 0)
6178 {
6179 pointer args = NIL;
6180
6181 isfile = file_name[1] == '1';
6182 file_name = *argv++;
6183
6184 if (strcmp (file_name, "-") == 0)
6185 fin = STDIN_FILENO;
6186 else if (isfile)
6187 fin = open (file_name, O_RDONLY);
6188
6189 for (; *argv; argv++)
6190 {
6191 pointer value = mk_string (SCHEME_A_ * argv);
6192
6193 args = cons (value, args);
6194 }
6195
6196 args = reverse_in_place (SCHEME_A_ NIL, args);
6197 scheme_define (SCHEME_A_ SCHEME_V->global_env, mk_symbol (SCHEME_A_ "*args*"), args);
6198
6199 }
6200 else
6201 fin = open (file_name, O_RDONLY);
6202 #endif
6203
6204 if (isfile && fin < 0)
6205 {
6206 xwrstr ("Could not open file "); xwrstr (file_name); xwrstr ("\n");
6207 }
6208 else
6209 {
6210 if (isfile)
6211 scheme_load_named_file (SCHEME_A_ fin, file_name);
6212 else
6213 scheme_load_string (SCHEME_A_ file_name);
6214
6215 #if USE_PORTS
6216 if (!isfile || fin != STDIN_FILENO)
6217 {
6218 if (SCHEME_V->retcode != 0)
6219 {
6220 xwrstr ("Errors encountered reading "); xwrstr (file_name); xwrstr ("\n");
6221 }
6222
6223 if (isfile)
6224 close (fin);
6225 }
6226 #endif
6227 }
6228
6229 file_name = *argv++;
6230 }
6231 while (file_name != 0);
6232
6233 if (argc == 1)
6234 scheme_load_named_file (SCHEME_A_ STDIN_FILENO, 0);
6235
6236 retcode = SCHEME_V->retcode;
6237 scheme_deinit (SCHEME_A);
6238
6239 return retcode;
6240 }
6241
6242 #endif
6243
6244 /*
6245 Local variables:
6246 c-file-style: "k&r"
6247 End:
6248 */