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/cvs/cvsroot/microscheme/scheme.c

Comparing cvsroot/microscheme/scheme.c (file contents):
Revision 1.7 by root, Wed Nov 25 22:12:59 2015 UTC vs.
Revision 1.34 by root, Sat Nov 28 22:14:49 2015 UTC

…		…
28	#endif	28	#endif
29	#if USE_MATH	29	#if USE_MATH
30	# include <math.h>	30	# include <math.h>
31	#endif	31	#endif
32		32
		33	#include "ecb.h"
		34
33	#include <sys/types.h>	35	#include <sys/types.h>
34	#include <sys/stat.h>	36	#include <sys/stat.h>
35	#include <fcntl.h>	37	#include <fcntl.h>
36		38
37	#include <string.h>	39	#include <string.h>
…		…
143		145
144	#define toupper(c) xtoupper (c)	146	#define toupper(c) xtoupper (c)
145	#define tolower(c) xtolower (c)	147	#define tolower(c) xtolower (c)
146	#define isdigit(c) xisdigit (c)	148	#define isdigit(c) xisdigit (c)
147		149
148	#if USE_STRLWR	150	#if USE_IGNORECASE
149	static const char *	151	static const char *
150	strlwr (char *s)	152	xstrlwr (char *s)
151	{	153	{
152	const char *p = s;	154	const char *p = s;
153		155
154	while (*s)	156	while (*s)
155	{	157	{
…		…
157	s++;	159	s++;
158	}	160	}
159		161
160	return p;	162	return p;
161	}	163	}
162	#endif
163		164
		165	#define stricmp(a,b) strcasecmp (a, b)
		166	#define strlwr(s) xstrlwr (s)
		167
		168	#else
164	#define stricmp(a,b) strcmp (a, b)	169	# define stricmp(a,b) strcmp (a, b)
165	#define strlwr(s) (s)	170	# define strlwr(s) (s)
		171	#endif
166		172
167	#ifndef prompt	173	#ifndef prompt
168	# define prompt "ts> "	174	# define prompt "ts> "
169	#endif	175	#endif
170		176
…		…
176	# define FIRST_CELLSEGS 3	182	# define FIRST_CELLSEGS 3
177	#endif	183	#endif
178		184
179	enum scheme_types	185	enum scheme_types
180	{	186	{
		187	T_INTEGER,
181	T_FREE,	188	T_REAL,
182	T_STRING,	189	T_STRING,
183	T_NUMBER,
184	T_SYMBOL,	190	T_SYMBOL,
185	T_PROC,	191	T_PROC,
186	T_PAIR,	192	T_PAIR, /* also used for free cells */
187	T_CLOSURE,	193	T_CLOSURE,
188	T_CONTINUATION,	194	T_CONTINUATION,
189	T_FOREIGN,	195	T_FOREIGN,
190	T_CHARACTER,	196	T_CHARACTER,
191	T_PORT,	197	T_PORT,
…		…
201	#define T_SYNTAX 0x0010	207	#define T_SYNTAX 0x0010
202	#define T_IMMUTABLE 0x0020	208	#define T_IMMUTABLE 0x0020
203	#define T_ATOM 0x0040 /* only for gc */	209	#define T_ATOM 0x0040 /* only for gc */
204	#define T_MARK 0x0080 /* only for gc */	210	#define T_MARK 0x0080 /* only for gc */
205		211
206	static num num_add (num a, num b);	212	/* num, for generic arithmetic */
207	static num num_mul (num a, num b);	213	struct num
208	static num num_div (num a, num b);	214	{
		215	IVALUE ivalue;
		216	#if USE_REAL
		217	RVALUE rvalue;
		218	char is_fixnum;
		219	#endif
		220	};
		221
		222	#if USE_REAL
		223	# define num_is_fixnum(n) (n).is_fixnum
		224	# define num_set_fixnum(n,f) (n).is_fixnum = (f)
		225	# define num_ivalue(n) (n).ivalue
		226	# define num_rvalue(n) (n).rvalue
		227	# define num_set_ivalue(n,i) (n).rvalue = (n).ivalue = (i)
		228	# define num_set_rvalue(n,r) (n).rvalue = (r)
		229	#else
		230	# define num_is_fixnum(n) 1
		231	# define num_set_fixnum(n,f) 0
		232	# define num_ivalue(n) (n).ivalue
		233	# define num_rvalue(n) (n).ivalue
		234	# define num_set_ivalue(n,i) (n).ivalue = (i)
		235	# define num_set_rvalue(n,r) (n).ivalue = (r)
		236	#endif
		237
		238	enum num_op { NUM_ADD, NUM_SUB, NUM_MUL, NUM_INTDIV };
		239
		240	static num num_op (enum num_op op, num a, num b);
209	static num num_intdiv (num a, num b);	241	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);	242	static num num_rem (num a, num b);
212	static num num_mod (num a, num b);	243	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		244
219	#if USE_MATH	245	#if USE_MATH
220	static double round_per_R5RS (double x);	246	static double round_per_R5RS (double x);
221	#endif	247	#endif
222	static int is_zero_rvalue (RVALUE x);	248	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		249
230	static num num_zero;	250	static num num_zero;
231	static num num_one;	251	static num num_one;
232		252
233	/* macros for cell operations */	253	/* macros for cell operations */
234	#define typeflag(p) ((p)->flag + 0)	254	#define typeflag(p) ((p)->flag + 0)
235	#define set_typeflag(p,v) ((p)->flag = (v))	255	#define set_typeflag(p,v) ((p)->flag = (v))
236	#define type(p) (typeflag (p) & T_MASKTYPE)	256	#define type(p) (typeflag (p) & T_MASKTYPE)
237		257
238	INTERFACE INLINE int	258	INTERFACE int
239	is_string (pointer p)	259	is_string (pointer p)
240	{	260	{
241	return type (p) == T_STRING;	261	return type (p) == T_STRING;
242	}	262	}
243		263
244	#define strvalue(p) ((p)->object.string.svalue)	264	#define strvalue(p) ((p)->object.string.svalue)
245	#define strlength(p) ((p)->object.string.length)	265	#define strlength(p) ((p)->object.string.length)
246		266
247	INTERFACE int is_list (SCHEME_P_ pointer p);
248	INTERFACE INLINE int	267	INTERFACE int
249	is_vector (pointer p)	268	is_vector (pointer p)
250	{	269	{
251	return type (p) == T_VECTOR;	270	return type (p) == T_VECTOR;
252	}	271	}
253		272
254	#define vecvalue(p) ((p)->object.vector.vvalue)	273	#define vecvalue(p) ((p)->object.vector.vvalue)
255	#define veclength(p) ((p)->object.vector.length)	274	#define veclength(p) ((p)->object.vector.length)
256	INTERFACE void fill_vector (pointer vec, pointer obj);	275	INTERFACE void fill_vector (pointer vec, uint32_t start, pointer obj);
257	INTERFACE uint32_t vector_length (pointer vec);
258	INTERFACE pointer vector_elem (pointer vec, uint32_t ielem);	276	INTERFACE pointer vector_get (pointer vec, uint32_t ielem);
259	INTERFACE void set_vector_elem (pointer vec, uint32_t ielem, pointer a);	277	INTERFACE void vector_set (pointer vec, uint32_t ielem, pointer a);
260		278
261	INTERFACE uint32_t	279	INTERFACE int
262	vector_length (pointer vec)	280	is_integer (pointer p)
263	{	281	{
264	return vec->object.vector.length;	282	return type (p) == T_INTEGER;
265	}	283	}
266		284
		285	/* not the same as in scheme, where integers are (correctly :) reals */
267	INTERFACE INLINE int	286	INTERFACE int
		287	is_real (pointer p)
		288	{
		289	return type (p) == T_REAL;
		290	}
		291
		292	INTERFACE int
268	is_number (pointer p)	293	is_number (pointer p)
269	{	294	{
270	return type (p) == T_NUMBER;	295	return is_integer (p) || is_real (p);
271	}	296	}
272		297
273	INTERFACE INLINE int	298	INTERFACE 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)	299	is_character (pointer p)
293	{	300	{
294	return type (p) == T_CHARACTER;	301	return type (p) == T_CHARACTER;
295	}	302	}
296		303
297	INTERFACE INLINE char *	304	INTERFACE char *
298	string_value (pointer p)	305	string_value (pointer p)
299	{	306	{
300	return strvalue (p);	307	return strvalue (p);
301	}	308	}
302		309
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)	310	#define ivalue_unchecked(p) (p)->object.ivalue
		311	#define set_ivalue(p,v) (p)->object.ivalue = (v)
		312
334	#if USE_REAL	313	#if USE_REAL
335	# define rvalue_unchecked(p) ((p)->object.number.value.rvalue)	314	#define rvalue_unchecked(p) (p)->object.rvalue
336	# define set_num_integer(p) (p)->object.number.is_fixnum=1;	315	#define set_rvalue(p,v) (p)->object.rvalue = (v)
337	# define set_num_real(p) (p)->object.number.is_fixnum=0;
338	#else	316	#else
339	# define rvalue_unchecked(p) ((p)->object.number.value.ivalue)	317	#define rvalue_unchecked(p) (p)->object.ivalue
340	# define set_num_integer(p) 0	318	#define set_rvalue(p,v) (p)->object.ivalue = (v)
341	# define set_num_real(p) 0
342	#endif	319	#endif
		320
343	INTERFACE long	321	INTERFACE long
344	charvalue (pointer p)	322	charvalue (pointer p)
345	{	323	{
346	return ivalue_unchecked (p);	324	return ivalue_unchecked (p);
347	}	325	}
348		326
349	INTERFACE INLINE int	327	INTERFACE int
350	is_port (pointer p)	328	is_port (pointer p)
351	{	329	{
352	return type (p) == T_PORT;	330	return type (p) == T_PORT;
353	}	331	}
354		332
355	INTERFACE INLINE int	333	INTERFACE int
356	is_inport (pointer p)	334	is_inport (pointer p)
357	{	335	{
358	return is_port (p) && p->object.port->kind & port_input;	336	return is_port (p) && p->object.port->kind & port_input;
359	}	337	}
360		338
361	INTERFACE INLINE int	339	INTERFACE int
362	is_outport (pointer p)	340	is_outport (pointer p)
363	{	341	{
364	return is_port (p) && p->object.port->kind & port_output;	342	return is_port (p) && p->object.port->kind & port_output;
365	}	343	}
366		344
367	INTERFACE INLINE int	345	INTERFACE int
368	is_pair (pointer p)	346	is_pair (pointer p)
369	{	347	{
370	return type (p) == T_PAIR;	348	return type (p) == T_PAIR;
371	}	349	}
372		350
373	#define car(p) ((p)->object.cons.car + 0)	351	#define car(p) ((p)->object.cons.car + 0)
374	#define cdr(p) ((p)->object.cons.cdr) /* find_consecutive_cells uses &cdr */	352	#define cdr(p) ((p)->object.cons.cdr + 0)
375		353
376	#define caar(p) car (car (p))	354	static pointer caar (pointer p) { return car (car (p)); }
377	#define cadr(p) car (cdr (p))	355	static pointer cadr (pointer p) { return car (cdr (p)); }
378	#define cdar(p) cdr (car (p))	356	static pointer cdar (pointer p) { return cdr (car (p)); }
379	#define cddr(p) cdr (cdr (p))	357	static pointer cddr (pointer p) { return cdr (cdr (p)); }
380		358
381	#define cadar(p) car (cdr (car (p)))	359	static pointer cadar (pointer p) { return car (cdr (car (p))); }
382	#define caddr(p) car (cdr (cdr (p)))	360	static pointer caddr (pointer p) { return car (cdr (cdr (p))); }
383	#define cdaar(p) cdr (car (car (p)))	361	static pointer cdaar (pointer p) { return cdr (car (car (p))); }
384		362
385	INTERFACE void	363	INTERFACE void
386	set_car (pointer p, pointer q)	364	set_car (pointer p, pointer q)
387	{	365	{
388	p->object.cons.car = q;	366	p->object.cons.car = q;
…		…
404	pair_cdr (pointer p)	382	pair_cdr (pointer p)
405	{	383	{
406	return cdr (p);	384	return cdr (p);
407	}	385	}
408		386
409	INTERFACE INLINE int	387	INTERFACE int
410	is_symbol (pointer p)	388	is_symbol (pointer p)
411	{	389	{
412	return type (p) == T_SYMBOL;	390	return type (p) == T_SYMBOL;
413	}	391	}
414		392
415	INTERFACE INLINE char *	393	INTERFACE char *
416	symname (pointer p)	394	symname (pointer p)
417	{	395	{
418	return strvalue (car (p));	396	return strvalue (car (p));
419	}	397	}
420		398
421	#if USE_PLIST	399	#if USE_PLIST
422	SCHEME_EXPORT INLINE int	400	SCHEME_EXPORT int
423	hasprop (pointer p)	401	hasprop (pointer p)
424	{	402	{
425	return typeflag (p) & T_SYMBOL;	403	return typeflag (p) & T_SYMBOL;
426	}	404	}
427		405
428	# define symprop(p) cdr(p)	406	# define symprop(p) cdr(p)
429	#endif	407	#endif
430		408
431	INTERFACE INLINE int	409	INTERFACE int
432	is_syntax (pointer p)	410	is_syntax (pointer p)
433	{	411	{
434	return typeflag (p) & T_SYNTAX;	412	return typeflag (p) & T_SYNTAX;
435	}	413	}
436		414
437	INTERFACE INLINE int	415	INTERFACE int
438	is_proc (pointer p)	416	is_proc (pointer p)
439	{	417	{
440	return type (p) == T_PROC;	418	return type (p) == T_PROC;
441	}	419	}
442		420
443	INTERFACE INLINE int	421	INTERFACE int
444	is_foreign (pointer p)	422	is_foreign (pointer p)
445	{	423	{
446	return type (p) == T_FOREIGN;	424	return type (p) == T_FOREIGN;
447	}	425	}
448		426
449	INTERFACE INLINE char *	427	INTERFACE char *
450	syntaxname (pointer p)	428	syntaxname (pointer p)
451	{	429	{
452	return strvalue (car (p));	430	return strvalue (car (p));
453	}	431	}
454		432
455	#define procnum(p) ivalue (p)	433	#define procnum(p) ivalue_unchecked (p)
456	static const char *procname (pointer x);	434	static const char *procname (pointer x);
457		435
458	INTERFACE INLINE int	436	INTERFACE int
459	is_closure (pointer p)	437	is_closure (pointer p)
460	{	438	{
461	return type (p) == T_CLOSURE;	439	return type (p) == T_CLOSURE;
462	}	440	}
463		441
464	INTERFACE INLINE int	442	INTERFACE int
465	is_macro (pointer p)	443	is_macro (pointer p)
466	{	444	{
467	return type (p) == T_MACRO;	445	return type (p) == T_MACRO;
468	}	446	}
469		447
470	INTERFACE INLINE pointer	448	INTERFACE pointer
471	closure_code (pointer p)	449	closure_code (pointer p)
472	{	450	{
473	return car (p);	451	return car (p);
474	}	452	}
475		453
476	INTERFACE INLINE pointer	454	INTERFACE pointer
477	closure_env (pointer p)	455	closure_env (pointer p)
478	{	456	{
479	return cdr (p);	457	return cdr (p);
480	}	458	}
481		459
482	INTERFACE INLINE int	460	INTERFACE int
483	is_continuation (pointer p)	461	is_continuation (pointer p)
484	{	462	{
485	return type (p) == T_CONTINUATION;	463	return type (p) == T_CONTINUATION;
486	}	464	}
487		465
488	#define cont_dump(p) cdr (p)	466	#define cont_dump(p) cdr (p)
489	#define set_cont_dump(p,v) set_cdr ((p), (v))	467	#define set_cont_dump(p,v) set_cdr ((p), (v))
490		468
491	/* To do: promise should be forced ONCE only */	469	/* To do: promise should be forced ONCE only */
492	INTERFACE INLINE int	470	INTERFACE int
493	is_promise (pointer p)	471	is_promise (pointer p)
494	{	472	{
495	return type (p) == T_PROMISE;	473	return type (p) == T_PROMISE;
496	}	474	}
497		475
498	INTERFACE INLINE int	476	INTERFACE int
499	is_environment (pointer p)	477	is_environment (pointer p)
500	{	478	{
501	return type (p) == T_ENVIRONMENT;	479	return type (p) == T_ENVIRONMENT;
502	}	480	}
503		481
…		…
509		487
510	#define is_mark(p) (typeflag (p) & T_MARK)	488	#define is_mark(p) (typeflag (p) & T_MARK)
511	#define setmark(p) set_typeflag ((p), typeflag (p) | T_MARK)	489	#define setmark(p) set_typeflag ((p), typeflag (p) | T_MARK)
512	#define clrmark(p) set_typeflag ((p), typeflag (p) & ~T_MARK)	490	#define clrmark(p) set_typeflag ((p), typeflag (p) & ~T_MARK)
513		491
514	INTERFACE INLINE int	492	INTERFACE int
515	is_immutable (pointer p)	493	is_immutable (pointer p)
516	{	494	{
517	return typeflag (p) & T_IMMUTABLE && USE_ERROR_CHECKING;	495	return typeflag (p) & T_IMMUTABLE && USE_ERROR_CHECKING;
518	}	496	}
519		497
520	INTERFACE INLINE void	498	INTERFACE void
521	setimmutable (pointer p)	499	setimmutable (pointer p)
522	{	500	{
523	#if USE_ERROR_CHECKING	501	#if USE_ERROR_CHECKING
524	set_typeflag (p, typeflag (p) | T_IMMUTABLE);	502	set_typeflag (p, typeflag (p) | T_IMMUTABLE);
525	#endif	503	#endif
526	}	504	}
527		505
		506	/* Result is:
		507	proper list: length
		508	circular list: -1
		509	not even a pair: -2
		510	dotted list: -2 minus length before dot
		511	*/
		512	INTERFACE int
		513	list_length (SCHEME_P_ pointer a)
		514	{
		515	int i = 0;
		516	pointer slow, fast;
		517
		518	slow = fast = a;
		519
		520	while (1)
		521	{
		522	if (fast == NIL)
		523	return i;
		524
		525	if (!is_pair (fast))
		526	return -2 - i;
		527
		528	fast = cdr (fast);
		529	++i;
		530
		531	if (fast == NIL)
		532	return i;
		533
		534	if (!is_pair (fast))
		535	return -2 - i;
		536
		537	++i;
		538	fast = cdr (fast);
		539
		540	/* Safe because we would have already returned if `fast'
		541	encountered a non-pair. */
		542	slow = cdr (slow);
		543
		544	if (fast == slow)
		545	{
		546	/* the fast pointer has looped back around and caught up
		547	with the slow pointer, hence the structure is circular,
		548	not of finite length, and therefore not a list */
		549	return -1;
		550	}
		551	}
		552	}
		553
		554	INTERFACE int
		555	is_list (SCHEME_P_ pointer a)
		556	{
		557	return list_length (SCHEME_A_ a) >= 0;
		558	}
		559
528	#if USE_CHAR_CLASSIFIERS	560	#if USE_CHAR_CLASSIFIERS
529	static INLINE int	561	ecb_inline int
530	Cisalpha (int c)	562	Cisalpha (int c)
531	{	563	{
532	return isascii (c) && isalpha (c);	564	return isascii (c) && isalpha (c);
533	}	565	}
534		566
535	static INLINE int	567	ecb_inline int
536	Cisdigit (int c)	568	Cisdigit (int c)
537	{	569	{
538	return isascii (c) && isdigit (c);	570	return isascii (c) && isdigit (c);
539	}	571	}
540		572
541	static INLINE int	573	ecb_inline int
542	Cisspace (int c)	574	Cisspace (int c)
543	{	575	{
544	return isascii (c) && isspace (c);	576	return isascii (c) && isspace (c);
545	}	577	}
546		578
547	static INLINE int	579	ecb_inline int
548	Cisupper (int c)	580	Cisupper (int c)
549	{	581	{
550	return isascii (c) && isupper (c);	582	return isascii (c) && isupper (c);
551	}	583	}
552		584
553	static INLINE int	585	ecb_inline int
554	Cislower (int c)	586	Cislower (int c)
555	{	587	{
556	return isascii (c) && islower (c);	588	return isascii (c) && islower (c);
557	}	589	}
558	#endif	590	#endif
…		…
619	#endif	651	#endif
620		652
621	static int file_push (SCHEME_P_ const char *fname);	653	static int file_push (SCHEME_P_ const char *fname);
622	static void file_pop (SCHEME_P);	654	static void file_pop (SCHEME_P);
623	static int file_interactive (SCHEME_P);	655	static int file_interactive (SCHEME_P);
624	static INLINE int is_one_of (char *s, int c);	656	ecb_inline int is_one_of (char *s, int c);
625	static int alloc_cellseg (SCHEME_P_ int n);	657	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);	658	ecb_inline pointer get_cell (SCHEME_P_ pointer a, pointer b);
628	static void finalize_cell (SCHEME_P_ pointer a);	659	static void finalize_cell (SCHEME_P_ pointer a);
629	static int count_consecutive_cells (pointer x, int needed);	660	static int count_consecutive_cells (pointer x, int needed);
630	static pointer find_slot_in_env (SCHEME_P_ pointer env, pointer sym, int all);	661	static pointer find_slot_in_env (SCHEME_P_ pointer env, pointer sym, int all);
631	static pointer mk_number (SCHEME_P_ const num n);	662	static pointer mk_number (SCHEME_P_ const num n);
632	static char *store_string (SCHEME_P_ uint32_t len, const char *str, char fill);	663	static char *store_string (SCHEME_P_ uint32_t len, const char *str, char fill);
…		…
649	static int basic_inchar (port *pt);	680	static int basic_inchar (port *pt);
650	static int inchar (SCHEME_P);	681	static int inchar (SCHEME_P);
651	static void backchar (SCHEME_P_ int c);	682	static void backchar (SCHEME_P_ int c);
652	static char *readstr_upto (SCHEME_P_ char *delim);	683	static char *readstr_upto (SCHEME_P_ char *delim);
653	static pointer readstrexp (SCHEME_P);	684	static pointer readstrexp (SCHEME_P);
654	static INLINE int skipspace (SCHEME_P);	685	ecb_inline int skipspace (SCHEME_P);
655	static int token (SCHEME_P);	686	static int token (SCHEME_P);
656	static void printslashstring (SCHEME_P_ char *s, int len);	687	static void printslashstring (SCHEME_P_ char *s, int len);
657	static void atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen);	688	static void atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen);
658	static void printatom (SCHEME_P_ pointer l, int f);	689	static void printatom (SCHEME_P_ pointer l, int f);
659	static pointer mk_proc (SCHEME_P_ enum scheme_opcodes op);	690	static pointer mk_proc (SCHEME_P_ enum scheme_opcodes op);
…		…
663	static pointer reverse_in_place (SCHEME_P_ pointer term, pointer list);	694	static pointer reverse_in_place (SCHEME_P_ pointer term, pointer list);
664	static pointer revappend (SCHEME_P_ pointer a, pointer b);	695	static pointer revappend (SCHEME_P_ pointer a, pointer b);
665	static pointer ss_get_cont (SCHEME_P);	696	static pointer ss_get_cont (SCHEME_P);
666	static void ss_set_cont (SCHEME_P_ pointer cont);	697	static void ss_set_cont (SCHEME_P_ pointer cont);
667	static void dump_stack_mark (SCHEME_P);	698	static void dump_stack_mark (SCHEME_P);
668	static pointer opexe_0 (SCHEME_P_ enum scheme_opcodes op);	699	static int opexe_0 (SCHEME_P_ enum scheme_opcodes op);
		700	static int opexe_1 (SCHEME_P_ enum scheme_opcodes op);
669	static pointer opexe_2 (SCHEME_P_ enum scheme_opcodes op);	701	static int opexe_2 (SCHEME_P_ enum scheme_opcodes op);
670	static pointer opexe_3 (SCHEME_P_ enum scheme_opcodes op);	702	static int opexe_3 (SCHEME_P_ enum scheme_opcodes op);
671	static pointer opexe_4 (SCHEME_P_ enum scheme_opcodes op);	703	static int opexe_4 (SCHEME_P_ enum scheme_opcodes op);
672	static pointer opexe_5 (SCHEME_P_ enum scheme_opcodes op);	704	static int opexe_5 (SCHEME_P_ enum scheme_opcodes op);
673	static pointer opexe_6 (SCHEME_P_ enum scheme_opcodes op);	705	static int opexe_6 (SCHEME_P_ enum scheme_opcodes op);
674	static void Eval_Cycle (SCHEME_P_ enum scheme_opcodes op);	706	static void Eval_Cycle (SCHEME_P_ enum scheme_opcodes op);
675	static void assign_syntax (SCHEME_P_ const char *name);	707	static void assign_syntax (SCHEME_P_ const char *name);
676	static int syntaxnum (pointer p);	708	static int syntaxnum (pointer p);
677	static void assign_proc (SCHEME_P_ enum scheme_opcodes, const char *name);	709	static void assign_proc (SCHEME_P_ enum scheme_opcodes, const char *name);
678		710
		711	static IVALUE
		712	ivalue (pointer x)
		713	{
		714	return is_integer (x) ? ivalue_unchecked (x) : rvalue_unchecked (x);
		715	}
		716
		717	static RVALUE
		718	rvalue (pointer x)
		719	{
		720	return is_integer (x) ? ivalue_unchecked (x) : rvalue_unchecked (x);
		721	}
		722
		723	INTERFACE num
		724	nvalue (pointer x)
		725	{
		726	num n;
		727
		728	num_set_fixnum (n, is_integer (x));
		729
		730	if (num_is_fixnum (n))
		731	num_set_ivalue (n, ivalue_unchecked (x));
		732	else
		733	num_set_rvalue (n, rvalue_unchecked (x));
		734
		735	return n;
		736	}
		737
679	static num	738	static num
680	num_add (num a, num b)	739	num_op (enum num_op op, num a, num b)
681	{	740	{
682	num ret;	741	num ret;
683		742
684	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));	743	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
685		744
686	if (num_is_fixnum (ret))	745	if (num_is_fixnum (ret))
687	num_set_ivalue (ret, num_get_ivalue (a) + num_get_ivalue (b));	746	{
		747	switch (op)
		748	{
		749	case NUM_ADD: a.ivalue += b.ivalue; break;
		750	case NUM_SUB: a.ivalue -= b.ivalue; break;
		751	case NUM_MUL: a.ivalue *= b.ivalue; break;
		752	case NUM_INTDIV: a.ivalue /= b.ivalue; break;
		753	}
		754
		755	num_set_ivalue (ret, a.ivalue);
		756	}
		757	#if USE_REAL
688	else	758	else
689	num_set_rvalue (ret, num_get_rvalue (a) + num_get_rvalue (b));	759	{
		760	switch (op)
		761	{
		762	case NUM_ADD: a.rvalue += b.rvalue; break;
		763	case NUM_SUB: a.rvalue -= b.rvalue; break;
		764	case NUM_MUL: a.rvalue *= b.rvalue; break;
		765	case NUM_INTDIV: a.rvalue /= b.rvalue; break;
		766	}
690		767
691	return ret;	768	num_set_rvalue (ret, a.rvalue);
692	}	769	}
693		770	#endif
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		771
706	return ret;	772	return ret;
707	}	773	}
708		774
709	static num	775	static num
710	num_div (num a, num b)	776	num_div (num a, num b)
711	{	777	{
712	num ret;	778	num ret;
713		779
714	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b) && num_get_ivalue (a) % num_get_ivalue (b) == 0);	780	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b) && num_ivalue (a) % num_ivalue (b) == 0);
715		781
716	if (num_is_fixnum (ret))	782	if (num_is_fixnum (ret))
717	num_set_ivalue (ret, num_get_ivalue (a) / num_get_ivalue (b));	783	num_set_ivalue (ret, num_ivalue (a) / num_ivalue (b));
718	else	784	else
719	num_set_rvalue (ret, num_get_rvalue (a) / num_get_rvalue (b));	785	num_set_rvalue (ret, num_rvalue (a) / num_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		786
751	return ret;	787	return ret;
752	}	788	}
753		789
754	static num	790	static num
…		…
756	{	792	{
757	num ret;	793	num ret;
758	long e1, e2, res;	794	long e1, e2, res;
759		795
760	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));	796	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
761	e1 = num_get_ivalue (a);	797	e1 = num_ivalue (a);
762	e2 = num_get_ivalue (b);	798	e2 = num_ivalue (b);
763	res = e1 % e2;	799	res = e1 % e2;
764		800
765	/* remainder should have same sign as second operand */	801	/* remainder should have same sign as second operand */
766	if (res > 0)	802	if (res > 0)
767	{	803	{
…		…
783	{	819	{
784	num ret;	820	num ret;
785	long e1, e2, res;	821	long e1, e2, res;
786		822
787	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));	823	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
788	e1 = num_get_ivalue (a);	824	e1 = num_ivalue (a);
789	e2 = num_get_ivalue (b);	825	e2 = num_ivalue (b);
790	res = e1 % e2;	826	res = e1 % e2;
791		827
792	/* modulo should have same sign as second operand */	828	/* modulo should have same sign as second operand */
793	if (res * e2 < 0)	829	if (res * e2 < 0)
794	res += e2;	830	res += e2;
795		831
796	num_set_ivalue (ret, res);	832	num_set_ivalue (ret, res);
797	return ret;	833	return ret;
798	}	834	}
799		835
		836	/* this completely disrespects NaNs, but r5rs doesn't even allow NaNs */
800	static int	837	static int
801	num_eq (num a, num b)	838	num_cmp (num a, num b)
802	{	839	{
		840	int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);
803	int ret;	841	int ret;
804	int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);
805		842
806	if (is_fixnum)	843	if (is_fixnum)
807	ret = num_get_ivalue (a) == num_get_ivalue (b);	844	{
		845	IVALUE av = num_ivalue (a);
		846	IVALUE bv = num_ivalue (b);
		847
		848	ret = av == bv ? 0 : av < bv ? -1 : +1;
		849	}
808	else	850	else
809	ret = num_get_rvalue (a) == num_get_rvalue (b);	851	{
		852	RVALUE av = num_rvalue (a);
		853	RVALUE bv = num_rvalue (b);
		854
		855	ret = av == bv ? 0 : av < bv ? -1 : +1;
		856	}
810		857
811	return ret;	858	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	}	859	}
854		860
855	#if USE_MATH	861	#if USE_MATH
856		862
857	/* Round to nearest. Round to even if midway */	863	/* Round to nearest. Round to even if midway */
…		…
867	return ce;	873	return ce;
868	else if (dfl < dce)	874	else if (dfl < dce)
869	return fl;	875	return fl;
870	else	876	else
871	{	877	{
872	if (fmod (fl, 2.0) == 0.0) /* I imagine this holds */	878	if (fmod (fl, 2) == 0) /* I imagine this holds */
873	return fl;	879	return fl;
874	else	880	else
875	return ce;	881	return ce;
876	}	882	}
877	}	883	}
878	#endif	884	#endif
879		885
880	static int	886	static int
881	is_zero_rvalue (RVALUE x)	887	is_zero_rvalue (RVALUE x)
882	{	888	{
		889	return x == 0;
		890	#if 0
883	#if USE_REAL	891	#if USE_REAL
884	return x < DBL_MIN && x > -DBL_MIN; /* why the hate of denormals? this should be == 0. */	892	return x < DBL_MIN && x > -DBL_MIN; /* why the hate of denormals? this should be == 0. */
885	#else	893	#else
886	return x == 0;	894	return x == 0;
887	#endif	895	#endif
888	}	896	#endif
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	}	897	}
904		898
905	/* allocate new cell segment */	899	/* allocate new cell segment */
906	static int	900	static int
907	alloc_cellseg (SCHEME_P_ int n)	901	alloc_cellseg (SCHEME_P_ int n)
…		…
927	return k;	921	return k;
928		922
929	i = ++SCHEME_V->last_cell_seg;	923	i = ++SCHEME_V->last_cell_seg;
930	SCHEME_V->alloc_seg[i] = cp;	924	SCHEME_V->alloc_seg[i] = cp;
931		925
932	/* insert new segment in address order */
933	newp = (pointer)cp;	926	newp = (pointer)cp;
934	SCHEME_V->cell_seg[i] = newp;	927	SCHEME_V->cell_seg[i] = newp;
935	SCHEME_V->cell_segsize[i] = segsize;	928	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;	929	SCHEME_V->fcells += segsize;
952	last = newp + segsize - 1;	930	last = newp + segsize - 1;
953		931
954	for (p = newp; p <= last; p++)	932	for (p = newp; p <= last; p++)
955	{	933	{
956	set_typeflag (p, T_FREE);	934	set_typeflag (p, T_PAIR);
957	set_car (p, NIL);	935	set_car (p, NIL);
958	set_cdr (p, p + 1);	936	set_cdr (p, p + 1);
959	}	937	}
960		938
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);	939	set_cdr (last, SCHEME_V->free_cell);
965	SCHEME_V->free_cell = newp;	940	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	}	941	}
978		942
979	return n;	943	return n;
980	}	944	}
981		945
982	/* get new cell. parameter a, b is marked by gc. */	946	/* get new cell. parameter a, b is marked by gc. */
983	static INLINE pointer	947	ecb_inline pointer
984	get_cell_x (SCHEME_P_ pointer a, pointer b)	948	get_cell_x (SCHEME_P_ pointer a, pointer b)
985	{	949	{
986	if (SCHEME_V->free_cell == NIL)	950	if (ecb_expect_false (SCHEME_V->free_cell == NIL))
987	{	951	{
988	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)	952	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)
989	return S_SINK;	953	return S_SINK;
990		954
991	if (SCHEME_V->free_cell == NIL)	955	if (SCHEME_V->free_cell == NIL)
…		…
1060	/* Record it as a vector so that gc understands it. */	1024	/* Record it as a vector so that gc understands it. */
1061	set_typeflag (v, T_VECTOR | T_ATOM);	1025	set_typeflag (v, T_VECTOR | T_ATOM);
1062		1026
1063	v->object.vector.vvalue = e;	1027	v->object.vector.vvalue = e;
1064	v->object.vector.length = len;	1028	v->object.vector.length = len;
1065	fill_vector (v, init);	1029	fill_vector (v, 0, init);
1066	push_recent_alloc (SCHEME_A_ v, NIL);	1030	push_recent_alloc (SCHEME_A_ v, NIL);
1067		1031
1068	return v;	1032	return v;
1069	}	1033	}
1070		1034
1071	static INLINE void	1035	ecb_inline void
1072	ok_to_freely_gc (SCHEME_P)	1036	ok_to_freely_gc (SCHEME_P)
1073	{	1037	{
1074	set_car (S_SINK, NIL);	1038	set_car (S_SINK, NIL);
1075	}	1039	}
1076		1040
…		…
1115	return x;	1079	return x;
1116	}	1080	}
1117		1081
1118	/* ========== oblist implementation ========== */	1082	/* ========== oblist implementation ========== */
1119		1083
		1084	static pointer
		1085	generate_symbol (SCHEME_P_ const char *name)
		1086	{
		1087	pointer x = mk_string (SCHEME_A_ name);
		1088	setimmutable (x);
		1089	x = immutable_cons (x, NIL);
		1090	set_typeflag (x, T_SYMBOL);
		1091	return x;
		1092	}
		1093
1120	#ifndef USE_OBJECT_LIST	1094	#ifndef USE_OBJECT_LIST
1121		1095
		1096	static int
1122	static int hash_fn (const char *key, int table_size);	1097	hash_fn (const char *key, int table_size)
		1098	{
		1099	const unsigned char *p = key;
		1100	uint32_t hash = 2166136261;
		1101
		1102	while (*p)
		1103	hash = (hash ^ *p++) * 16777619;
		1104
		1105	return hash % table_size;
		1106	}
1123		1107
1124	static pointer	1108	static pointer
1125	oblist_initial_value (SCHEME_P)	1109	oblist_initial_value (SCHEME_P)
1126	{	1110	{
1127	return mk_vector (SCHEME_A_ 461); /* probably should be bigger */	1111	return mk_vector (SCHEME_A_ 461); /* probably should be bigger */
…		…
1129		1113
1130	/* returns the new symbol */	1114	/* returns the new symbol */
1131	static pointer	1115	static pointer
1132	oblist_add_by_name (SCHEME_P_ const char *name)	1116	oblist_add_by_name (SCHEME_P_ const char *name)
1133	{	1117	{
1134	int location;	1118	pointer x = generate_symbol (SCHEME_A_ name);
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));	1119	int 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)));	1120	vector_set (SCHEME_V->oblist, location, immutable_cons (x, vector_get (SCHEME_V->oblist, location)));
1142	return x;	1121	return x;
1143	}	1122	}
1144		1123
1145	static INLINE pointer	1124	ecb_inline pointer
1146	oblist_find_by_name (SCHEME_P_ const char *name)	1125	oblist_find_by_name (SCHEME_P_ const char *name)
1147	{	1126	{
1148	int location;	1127	int location;
1149	pointer x;	1128	pointer x;
1150	char *s;	1129	char *s;
1151		1130
1152	location = hash_fn (name, veclength (SCHEME_V->oblist));	1131	location = hash_fn (name, veclength (SCHEME_V->oblist));
1153		1132
1154	for (x = vector_elem (SCHEME_V->oblist, location); x != NIL; x = cdr (x))	1133	for (x = vector_get (SCHEME_V->oblist, location); x != NIL; x = cdr (x))
1155	{	1134	{
1156	s = symname (car (x));	1135	s = symname (car (x));
1157		1136
1158	/* case-insensitive, per R5RS section 2 */	1137	/* case-insensitive, per R5RS section 2 */
1159	if (stricmp (name, s) == 0)	1138	if (stricmp (name, s) == 0)
…		…
1169	int i;	1148	int i;
1170	pointer x;	1149	pointer x;
1171	pointer ob_list = NIL;	1150	pointer ob_list = NIL;
1172		1151
1173	for (i = 0; i < veclength (SCHEME_V->oblist); i++)	1152	for (i = 0; i < veclength (SCHEME_V->oblist); i++)
1174	for (x = vector_elem (SCHEME_V->oblist, i); x != NIL; x = cdr (x))	1153	for (x = vector_get (SCHEME_V->oblist, i); x != NIL; x = cdr (x))
1175	ob_list = cons (x, ob_list);	1154	ob_list = cons (x, ob_list);
1176		1155
1177	return ob_list;	1156	return ob_list;
1178	}	1157	}
1179		1158
…		…
1183	oblist_initial_value (SCHEME_P)	1162	oblist_initial_value (SCHEME_P)
1184	{	1163	{
1185	return NIL;	1164	return NIL;
1186	}	1165	}
1187		1166
1188	static INLINE pointer	1167	ecb_inline pointer
1189	oblist_find_by_name (SCHEME_P_ const char *name)	1168	oblist_find_by_name (SCHEME_P_ const char *name)
1190	{	1169	{
1191	pointer x;	1170	pointer x;
1192	char *s;	1171	char *s;
1193		1172
…		…
1205		1184
1206	/* returns the new symbol */	1185	/* returns the new symbol */
1207	static pointer	1186	static pointer
1208	oblist_add_by_name (SCHEME_P_ const char *name)	1187	oblist_add_by_name (SCHEME_P_ const char *name)
1209	{	1188	{
1210	pointer x;	1189	pointer x = mk_string (SCHEME_A_ name);
1211
1212	x = immutable_cons (mk_string (SCHEME_A_ name), NIL);
1213	set_typeflag (x, T_SYMBOL);	1190	set_typeflag (x, T_SYMBOL);
1214	setimmutable (car (x));	1191	setimmutable (x);
1215	SCHEME_V->oblist = immutable_cons (x, SCHEME_V->oblist);	1192	SCHEME_V->oblist = immutable_cons (x, SCHEME_V->oblist);
1216	return x;	1193	return x;
1217	}	1194	}
1218		1195
1219	static pointer	1196	static pointer
…		…
1252	mk_character (SCHEME_P_ int c)	1229	mk_character (SCHEME_P_ int c)
1253	{	1230	{
1254	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1231	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1255		1232
1256	set_typeflag (x, (T_CHARACTER | T_ATOM));	1233	set_typeflag (x, (T_CHARACTER | T_ATOM));
1257	ivalue_unchecked (x) = c & 0xff;	1234	set_ivalue (x, c & 0xff);
1258	set_num_integer (x);	1235
1259	return x;	1236	return x;
1260	}	1237	}
1261		1238
1262	/* get number atom (integer) */	1239	/* get number atom (integer) */
1263	INTERFACE pointer	1240	INTERFACE pointer
1264	mk_integer (SCHEME_P_ long num)	1241	mk_integer (SCHEME_P_ long n)
1265	{	1242	{
1266	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1243	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1267		1244
1268	set_typeflag (x, (T_NUMBER | T_ATOM));	1245	set_typeflag (x, (T_INTEGER | T_ATOM));
1269	ivalue_unchecked (x) = num;	1246	set_ivalue (x, n);
1270	set_num_integer (x);	1247
1271	return x;	1248	return x;
1272	}	1249	}
1273		1250
1274	INTERFACE pointer	1251	INTERFACE pointer
1275	mk_real (SCHEME_P_ RVALUE n)	1252	mk_real (SCHEME_P_ RVALUE n)
1276	{	1253	{
		1254	#if USE_REAL
1277	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1255	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1278		1256
1279	set_typeflag (x, (T_NUMBER | T_ATOM));	1257	set_typeflag (x, (T_REAL | T_ATOM));
1280	rvalue_unchecked (x) = n;	1258	set_rvalue (x, n);
1281	set_num_real (x);	1259
1282	return x;	1260	return x;
		1261	#else
		1262	return mk_integer (SCHEME_A_ n);
		1263	#endif
1283	}	1264	}
1284		1265
1285	static pointer	1266	static pointer
1286	mk_number (SCHEME_P_ const num n)	1267	mk_number (SCHEME_P_ const num n)
1287	{	1268	{
		1269	#if USE_REAL
1288	if (num_is_fixnum (n))	1270	return num_is_fixnum (n)
		1271	? mk_integer (SCHEME_A_ num_ivalue (n))
		1272	: mk_real (SCHEME_A_ num_rvalue (n));
		1273	#else
1289	return mk_integer (SCHEME_A_ num_get_ivalue (n));	1274	return mk_integer (SCHEME_A_ num_ivalue (n));
1290	else	1275	#endif
1291	return mk_real (SCHEME_A_ num_get_rvalue (n));
1292	}	1276	}
1293		1277
1294	/* allocate name to string area */	1278	/* allocate name to string area */
1295	static char *	1279	static char *
1296	store_string (SCHEME_P_ uint32_t len_str, const char *str, char fill)	1280	store_string (SCHEME_P_ uint32_t len_str, const char *str, char fill)
…		…
1320	}	1304	}
1321		1305
1322	return q;	1306	return q;
1323	}	1307	}
1324		1308
1325	/* get new string */
1326	INTERFACE pointer	1309	INTERFACE pointer
1327	mk_string (SCHEME_P_ const char *str)	1310	mk_empty_string (SCHEME_P_ uint32_t len, char fill)
1328	{	1311	{
1329	return mk_counted_string (SCHEME_A_ str, strlen (str));	1312	pointer x = get_cell (SCHEME_A_ NIL, NIL);
		1313
		1314	set_typeflag (x, T_STRING | T_ATOM);
		1315	strvalue (x) = store_string (SCHEME_A_ len, 0, fill);
		1316	strlength (x) = len;
		1317	return x;
1330	}	1318	}
1331		1319
1332	INTERFACE pointer	1320	INTERFACE pointer
1333	mk_counted_string (SCHEME_P_ const char *str, uint32_t len)	1321	mk_counted_string (SCHEME_P_ const char *str, uint32_t len)
1334	{	1322	{
…		…
1339	strlength (x) = len;	1327	strlength (x) = len;
1340	return x;	1328	return x;
1341	}	1329	}
1342		1330
1343	INTERFACE pointer	1331	INTERFACE pointer
1344	mk_empty_string (SCHEME_P_ uint32_t len, char fill)	1332	mk_string (SCHEME_P_ const char *str)
1345	{	1333	{
1346	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1334	return mk_counted_string (SCHEME_A_ str, strlen (str));
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	}	1335	}
1353		1336
1354	INTERFACE pointer	1337	INTERFACE pointer
1355	mk_vector (SCHEME_P_ uint32_t len)	1338	mk_vector (SCHEME_P_ uint32_t len)
1356	{	1339	{
1357	return get_vector_object (SCHEME_A_ len, NIL);	1340	return get_vector_object (SCHEME_A_ len, NIL);
1358	}	1341	}
1359		1342
1360	INTERFACE void	1343	INTERFACE void
1361	fill_vector (pointer vec, pointer obj)	1344	fill_vector (pointer vec, uint32_t start, pointer obj)
1362	{	1345	{
1363	int i;	1346	int i;
1364		1347
1365	for (i = 0; i < vec->object.vector.length; i++)	1348	for (i = start; i < veclength (vec); i++)
1366	vecvalue (vec)[i] = obj;	1349	vecvalue (vec)[i] = obj;
1367	}	1350	}
1368		1351
1369	INTERFACE pointer	1352	INTERFACE pointer
1370	vector_elem (pointer vec, uint32_t ielem)	1353	vector_get (pointer vec, uint32_t ielem)
1371	{	1354	{
1372	return vecvalue(vec)[ielem];	1355	return vecvalue(vec)[ielem];
1373	}	1356	}
1374		1357
1375	INTERFACE void	1358	INTERFACE void
1376	set_vector_elem (pointer vec, uint32_t ielem, pointer a)	1359	vector_set (pointer vec, uint32_t ielem, pointer a)
1377	{	1360	{
1378	vecvalue(vec)[ielem] = a;	1361	vecvalue(vec)[ielem] = a;
1379	}	1362	}
1380		1363
1381	/* get new symbol */	1364	/* get new symbol */
…		…
1393		1376
1394	INTERFACE pointer	1377	INTERFACE pointer
1395	gensym (SCHEME_P)	1378	gensym (SCHEME_P)
1396	{	1379	{
1397	pointer x;	1380	pointer x;
1398	char name[40];	1381	char name[40] = "gensym-";
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);	1382	xnum (name + 7, SCHEME_V->gensym_cnt);
1404		1383
1405	/* first check oblist */	1384	return generate_symbol (SCHEME_A_ name);
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	}	1385	}
1419		1386
1420	/* make symbol or number atom from string */	1387	/* make symbol or number atom from string */
1421	static pointer	1388	static pointer
1422	mk_atom (SCHEME_P_ char *q)	1389	mk_atom (SCHEME_P_ char *q)
…		…
1424	char c, *p;	1391	char c, *p;
1425	int has_dec_point = 0;	1392	int has_dec_point = 0;
1426	int has_fp_exp = 0;	1393	int has_fp_exp = 0;
1427		1394
1428	#if USE_COLON_HOOK	1395	#if USE_COLON_HOOK
1429
1430	if ((p = strstr (q, "::")) != 0)	1396	if ((p = strstr (q, "::")) != 0)
1431	{	1397	{
1432	*p = 0;	1398	*p = 0;
1433	return cons (SCHEME_V->COLON_HOOK,	1399	return cons (SCHEME_V->COLON_HOOK,
1434	cons (cons (SCHEME_V->QUOTE,	1400	cons (cons (SCHEME_V->QUOTE,
1435	cons (mk_atom (SCHEME_A_ p + 2), NIL)), cons (mk_symbol (SCHEME_A_ strlwr (q)), NIL)));	1401	cons (mk_atom (SCHEME_A_ p + 2), NIL)), cons (mk_symbol (SCHEME_A_ strlwr (q)), NIL)));
1436	}	1402	}
1437
1438	#endif	1403	#endif
1439		1404
1440	p = q;	1405	p = q;
1441	c = *p++;	1406	c = *p++;
1442		1407
…		…
1478	}	1443	}
1479	else if ((c == 'e') || (c == 'E'))	1444	else if ((c == 'e') || (c == 'E'))
1480	{	1445	{
1481	if (!has_fp_exp)	1446	if (!has_fp_exp)
1482	{	1447	{
1483	has_dec_point = 1; /* decimal point illegal	1448	has_dec_point = 1; /* decimal point illegal from now on */
1484	from now on */
1485	p++;	1449	p++;
1486		1450
1487	if ((*p == '-') || (*p == '+') || isdigit (*p))	1451	if ((*p == '-') || (*p == '+') || isdigit (*p))
1488	continue;	1452	continue;
1489	}	1453	}
…		…
1503		1467
1504	/* make constant */	1468	/* make constant */
1505	static pointer	1469	static pointer
1506	mk_sharp_const (SCHEME_P_ char *name)	1470	mk_sharp_const (SCHEME_P_ char *name)
1507	{	1471	{
1508	long x;
1509	char tmp[STRBUFFSIZE];
1510
1511	if (!strcmp (name, "t"))	1472	if (!strcmp (name, "t"))
1512	return S_T;	1473	return S_T;
1513	else if (!strcmp (name, "f"))	1474	else if (!strcmp (name, "f"))
1514	return S_F;	1475	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) */	1476	else if (*name == '\\') /* #\w (character) */
1536	{	1477	{
1537	int c = 0;	1478	int c;
1538		1479
1539	if (stricmp (name + 1, "space") == 0)	1480	if (stricmp (name + 1, "space") == 0)
1540	c = ' ';	1481	c = ' ';
1541	else if (stricmp (name + 1, "newline") == 0)	1482	else if (stricmp (name + 1, "newline") == 0)
1542	c = '\n';	1483	c = '\n';
…		…
1544	c = '\r';	1485	c = '\r';
1545	else if (stricmp (name + 1, "tab") == 0)	1486	else if (stricmp (name + 1, "tab") == 0)
1546	c = '\t';	1487	c = '\t';
1547	else if (name[1] == 'x' && name[2] != 0)	1488	else if (name[1] == 'x' && name[2] != 0)
1548	{	1489	{
1549	int c1 = strtol (name + 2, 0, 16);	1490	long c1 = strtol (name + 2, 0, 16);
1550		1491
1551	if (c1 <= UCHAR_MAX)	1492	if (0 <= c1 && c1 <= UCHAR_MAX)
1552	c = c1;	1493	c = c1;
1553	else	1494	else
1554	return NIL;	1495	return NIL;
1555		1496	}
1556	#if USE_ASCII_NAMES	1497	#if USE_ASCII_NAMES
1557	}
1558	else if (is_ascii_name (name + 1, &c))	1498	else if (is_ascii_name (name + 1, &c))
1559	{
1560	/* nothing */	1499	/* nothing */;
1561	#endif	1500	#endif
1562	}
1563	else if (name[2] == 0)	1501	else if (name[2] == 0)
1564	c = name[1];	1502	c = name[1];
1565	else	1503	else
1566	return NIL;	1504	return NIL;
1567		1505
1568	return mk_character (SCHEME_A_ c);	1506	return mk_character (SCHEME_A_ c);
1569	}	1507	}
1570	else	1508	else
		1509	{
		1510	/* identify base by string index */
		1511	const char baseidx[17] = "ffbf" "ffff" "ofdf" "ffff" "x";
		1512	char *base = strchr (baseidx, *name);
		1513
		1514	if (base)
		1515	return mk_integer (SCHEME_A_ strtol (name + 1, 0, base - baseidx));
		1516
1571	return NIL;	1517	return NIL;
		1518	}
1572	}	1519	}
1573		1520
1574	/* ========== garbage collector ========== */	1521	/* ========== garbage collector ========== */
1575		1522
1576	/*--	1523	/*--
1577	* We use algorithm E (Knuth, The Art of Computer Programming Vol.1,	1524	* We use algorithm E (Knuth, The Art of Computer Programming Vol.1,
1578	* sec. 2.3.5), the Schorr-Deutsch-Waite link-inversion algorithm,	1525	* sec. 2.3.5), the Schorr-Deutsch-Waite link-inversion algorithm,
1579	* for marking.	1526	* for marking.
		1527	*
		1528	* The exception is vectors - vectors are currently marked recursively,
		1529	* which is inherited form tinyscheme and could be fixed by having another
		1530	* word of context in the vector
1580	*/	1531	*/
1581	static void	1532	static void
1582	mark (pointer a)	1533	mark (pointer a)
1583	{	1534	{
1584	pointer t, q, p;	1535	pointer t, q, p;
…		…
1586	t = 0;	1537	t = 0;
1587	p = a;	1538	p = a;
1588	E2:	1539	E2:
1589	setmark (p);	1540	setmark (p);
1590		1541
1591	if (is_vector (p))	1542	if (ecb_expect_false (is_vector (p)))
1592	{	1543	{
1593	int i;	1544	int i;
1594		1545
1595	for (i = 0; i < p->object.vector.length; i++)	1546	for (i = 0; i < veclength (p); i++)
1596	mark (vecvalue (p)[i]);	1547	mark (vecvalue (p)[i]);
1597	}	1548	}
1598		1549
1599	if (is_atom (p))	1550	if (is_atom (p))
1600	goto E6;	1551	goto E6;
…		…
1698	if (is_mark (p))	1649	if (is_mark (p))
1699	clrmark (p);	1650	clrmark (p);
1700	else	1651	else
1701	{	1652	{
1702	/* reclaim cell */	1653	/* reclaim cell */
1703	if (typeflag (p) != T_FREE)	1654	if (typeflag (p) != T_PAIR)
1704	{	1655	{
1705	finalize_cell (SCHEME_A_ p);	1656	finalize_cell (SCHEME_A_ p);
1706	set_typeflag (p, T_FREE);	1657	set_typeflag (p, T_PAIR);
1707	set_car (p, NIL);	1658	set_car (p, NIL);
1708	}	1659	}
1709		1660
1710	++SCHEME_V->fcells;	1661	++SCHEME_V->fcells;
1711	set_cdr (p, SCHEME_V->free_cell);	1662	set_cdr (p, SCHEME_V->free_cell);
…		…
1713	}	1664	}
1714	}	1665	}
1715	}	1666	}
1716		1667
1717	if (SCHEME_V->gc_verbose)	1668	if (SCHEME_V->gc_verbose)
		1669	{
1718	xwrstr ("done: "); xwrnum (SCHEME_V->fcells); xwrstr (" cells were recovered.\n");	1670	xwrstr ("done: "); xwrnum (SCHEME_V->fcells); xwrstr (" cells were recovered.\n");
		1671	}
1719	}	1672	}
1720		1673
1721	static void	1674	static void
1722	finalize_cell (SCHEME_P_ pointer a)	1675	finalize_cell (SCHEME_P_ pointer a)
1723	{	1676	{
		1677	/* TODO, fast bitmap check? */
1724	if (is_string (a))	1678	if (is_string (a))
1725	free (strvalue (a));	1679	free (strvalue (a));
1726	else if (is_vector (a))	1680	else if (is_vector (a))
1727	free (vecvalue (a));	1681	free (vecvalue (a));
1728	#if USE_PORTS	1682	#if USE_PORTS
…		…
2309	}	2263	}
2310	}	2264	}
2311	}	2265	}
2312		2266
2313	/* check c is in chars */	2267	/* check c is in chars */
2314	static INLINE int	2268	ecb_inline int
2315	is_one_of (char *s, int c)	2269	is_one_of (char *s, int c)
2316	{	2270	{
2317	if (c == EOF)	2271	if (c == EOF)
2318	return 1;	2272	return 1;
2319		2273
2320	return !!strchr (s, c);	2274	return !!strchr (s, c);
2321	}	2275	}
2322		2276
2323	/* skip white characters */	2277	/* skip white characters */
2324	static INLINE int	2278	ecb_inline int
2325	skipspace (SCHEME_P)	2279	skipspace (SCHEME_P)
2326	{	2280	{
2327	int c, curr_line = 0;	2281	int c, curr_line = 0;
2328		2282
2329	do	2283	do
…		…
2557	{	2511	{
2558	p = SCHEME_V->strbuff;	2512	p = SCHEME_V->strbuff;
2559		2513
2560	if (f <= 1 || f == 10) /* f is the base for numbers if > 1 */	2514	if (f <= 1 || f == 10) /* f is the base for numbers if > 1 */
2561	{	2515	{
2562	if (num_is_integer (l))	2516	if (is_integer (l))
2563	xnum (p, ivalue_unchecked (l));	2517	xnum (p, ivalue_unchecked (l));
2564	#if USE_REAL	2518	#if USE_REAL
2565	else	2519	else
2566	{	2520	{
2567	snprintf (p, STRBUFFSIZE, "%.10g", rvalue_unchecked (l));	2521	snprintf (p, STRBUFFSIZE, "%.10g", rvalue_unchecked (l));
…		…
2822	return 0;	2776	return 0;
2823	}	2777	}
2824	else if (is_number (a))	2778	else if (is_number (a))
2825	{	2779	{
2826	if (is_number (b))	2780	if (is_number (b))
2827	if (num_is_integer (a) == num_is_integer (b))
2828	return num_eq (nvalue (a), nvalue (b));	2781	return num_cmp (nvalue (a), nvalue (b)) == 0;
2829		2782
2830	return 0;	2783	return 0;
2831	}	2784	}
2832	else if (is_character (a))	2785	else if (is_character (a))
2833	{	2786	{
…		…
2859	/* () is #t in R5RS */	2812	/* () is #t in R5RS */
2860	#define is_true(p) ((p) != S_F)	2813	#define is_true(p) ((p) != S_F)
2861	#define is_false(p) ((p) == S_F)	2814	#define is_false(p) ((p) == S_F)
2862		2815
2863	/* ========== Environment implementation ========== */	2816	/* ========== 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		2817
2880	#ifndef USE_ALIST_ENV	2818	#ifndef USE_ALIST_ENV
2881		2819
2882	/*	2820	/*
2883	* In this implementation, each frame of the environment may be	2821	* In this implementation, each frame of the environment may be
…		…
2900		2838
2901	SCHEME_V->envir = immutable_cons (new_frame, old_env);	2839	SCHEME_V->envir = immutable_cons (new_frame, old_env);
2902	setenvironment (SCHEME_V->envir);	2840	setenvironment (SCHEME_V->envir);
2903	}	2841	}
2904		2842
2905	static INLINE void	2843	static uint32_t
		2844	sym_hash (pointer sym, uint32_t size)
		2845	{
		2846	uintptr_t ptr = (uintptr_t)sym;
		2847
		2848	#if 0
		2849	/* table size is prime, so why mix */
		2850	ptr += ptr >> 32;
		2851	ptr += ptr >> 16;
		2852	ptr += ptr >> 8;
		2853	#endif
		2854
		2855	return ptr % size;
		2856	}
		2857
		2858	ecb_inline void
2906	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)	2859	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)
2907	{	2860	{
2908	pointer slot = immutable_cons (variable, value);	2861	pointer slot = immutable_cons (variable, value);
2909		2862
2910	if (is_vector (car (env)))	2863	if (is_vector (car (env)))
2911	{	2864	{
2912	int location = hash_fn (symname (variable), veclength (car (env)));	2865	int location = sym_hash (variable, veclength (car (env)));
2913
2914	set_vector_elem (car (env), location, immutable_cons (slot, vector_elem (car (env), location)));	2866	vector_set (car (env), location, immutable_cons (slot, vector_get (car (env), location)));
2915	}	2867	}
2916	else	2868	else
2917	set_car (env, immutable_cons (slot, car (env)));	2869	set_car (env, immutable_cons (slot, car (env)));
2918	}	2870	}
2919		2871
2920	static pointer	2872	static pointer
2921	find_slot_in_env (SCHEME_P_ pointer env, pointer hdl, int all)	2873	find_slot_in_env (SCHEME_P_ pointer env, pointer hdl, int all)
2922	{	2874	{
2923	pointer x, y;	2875	pointer x, y;
2924	int location;
2925		2876
2926	for (x = env; x != NIL; x = cdr (x))	2877	for (x = env; x != NIL; x = cdr (x))
2927	{	2878	{
2928	if (is_vector (car (x)))	2879	if (is_vector (car (x)))
2929	{	2880	{
2930	location = hash_fn (symname (hdl), veclength (car (x)));	2881	int location = sym_hash (hdl, veclength (car (x)));
2931	y = vector_elem (car (x), location);	2882	y = vector_get (car (x), location);
2932	}	2883	}
2933	else	2884	else
2934	y = car (x);	2885	y = car (x);
2935		2886
2936	for (; y != NIL; y = cdr (y))	2887	for (; y != NIL; y = cdr (y))
2937	if (caar (y) == hdl)	2888	if (caar (y) == hdl)
2938	break;	2889	break;
2939		2890
2940	if (y != NIL)	2891	if (y != NIL)
		2892	return car (y);
		2893
		2894	if (!all)
2941	break;	2895	break;
2942
2943	if (!all)
2944	return NIL;
2945	}	2896	}
2946
2947	if (x != NIL)
2948	return car (y);
2949		2897
2950	return NIL;	2898	return NIL;
2951	}	2899	}
2952		2900
2953	#else /* USE_ALIST_ENV */	2901	#else /* USE_ALIST_ENV */
2954		2902
2955	static INLINE void	2903	ecb_inline void
2956	new_frame_in_env (SCHEME_P_ pointer old_env)	2904	new_frame_in_env (SCHEME_P_ pointer old_env)
2957	{	2905	{
2958	SCHEME_V->envir = immutable_cons (NIL, old_env);	2906	SCHEME_V->envir = immutable_cons (NIL, old_env);
2959	setenvironment (SCHEME_V->envir);	2907	setenvironment (SCHEME_V->envir);
2960	}	2908	}
2961		2909
2962	static INLINE void	2910	ecb_inline void
2963	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)	2911	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)
2964	{	2912	{
2965	set_car (env, immutable_cons (immutable_cons (variable, value), car (env)));	2913	set_car (env, immutable_cons (immutable_cons (variable, value), car (env)));
2966	}	2914	}
2967		2915
…		…
2975	for (y = car (x); y != NIL; y = cdr (y))	2923	for (y = car (x); y != NIL; y = cdr (y))
2976	if (caar (y) == hdl)	2924	if (caar (y) == hdl)
2977	break;	2925	break;
2978		2926
2979	if (y != NIL)	2927	if (y != NIL)
		2928	return car (y);
2980	break;	2929	break;
2981		2930
2982	if (!all)	2931	if (!all)
2983	return NIL;	2932	break;
2984	}	2933	}
2985
2986	if (x != NIL)
2987	return car (y);
2988		2934
2989	return NIL;	2935	return NIL;
2990	}	2936	}
2991		2937
2992	#endif /* USE_ALIST_ENV else */	2938	#endif /* USE_ALIST_ENV else */
2993		2939
2994	static INLINE void	2940	ecb_inline void
2995	new_slot_in_env (SCHEME_P_ pointer variable, pointer value)	2941	new_slot_in_env (SCHEME_P_ pointer variable, pointer value)
2996	{	2942	{
2997	new_slot_spec_in_env (SCHEME_A_ SCHEME_V->envir, variable, value);	2943	new_slot_spec_in_env (SCHEME_A_ SCHEME_V->envir, variable, value);
2998	}	2944	}
2999		2945
3000	static INLINE void	2946	ecb_inline void
3001	set_slot_in_env (SCHEME_P_ pointer slot, pointer value)	2947	set_slot_in_env (SCHEME_P_ pointer slot, pointer value)
3002	{	2948	{
3003	set_cdr (slot, value);	2949	set_cdr (slot, value);
3004	}	2950	}
3005		2951
3006	static INLINE pointer	2952	ecb_inline pointer
3007	slot_value_in_env (pointer slot)	2953	slot_value_in_env (pointer slot)
3008	{	2954	{
3009	return cdr (slot);	2955	return cdr (slot);
3010	}	2956	}
3011		2957
3012	/* ========== Evaluation Cycle ========== */	2958	/* ========== Evaluation Cycle ========== */
3013		2959
3014	static pointer	2960	static int
3015	xError_1 (SCHEME_P_ const char *s, pointer a)	2961	xError_1 (SCHEME_P_ const char *s, pointer a)
3016	{	2962	{
3017	#if USE_ERROR_HOOK	2963	#if USE_ERROR_HOOK
3018	pointer x;	2964	pointer x;
3019	pointer hdl = SCHEME_V->ERROR_HOOK;	2965	pointer hdl = SCHEME_V->ERROR_HOOK;
…		…
3054	code = cons (mk_string (SCHEME_A_ s), code);	3000	code = cons (mk_string (SCHEME_A_ s), code);
3055	setimmutable (car (code));	3001	setimmutable (car (code));
3056	SCHEME_V->code = cons (slot_value_in_env (x), code);	3002	SCHEME_V->code = cons (slot_value_in_env (x), code);
3057	SCHEME_V->op = OP_EVAL;	3003	SCHEME_V->op = OP_EVAL;
3058		3004
3059	return S_T;	3005	return 0;
3060	}	3006	}
3061	#endif	3007	#endif
3062		3008
3063	if (a)	3009	if (a)
3064	SCHEME_V->args = cons (a, NIL);	3010	SCHEME_V->args = cons (a, NIL);
…		…
3066	SCHEME_V->args = NIL;	3012	SCHEME_V->args = NIL;
3067		3013
3068	SCHEME_V->args = cons (mk_string (SCHEME_A_ s), SCHEME_V->args);	3014	SCHEME_V->args = cons (mk_string (SCHEME_A_ s), SCHEME_V->args);
3069	setimmutable (car (SCHEME_V->args));	3015	setimmutable (car (SCHEME_V->args));
3070	SCHEME_V->op = OP_ERR0;	3016	SCHEME_V->op = OP_ERR0;
		3017
3071	return S_T;	3018	return 0;
3072	}	3019	}
3073		3020
3074	#define Error_1(s, a) return xError_1(SCHEME_A_ USE_ERROR_CHECKING ? s : "", a)	3021	#define Error_1(s, a) return xError_1(SCHEME_A_ USE_ERROR_CHECKING ? s : "", a)
3075	#define Error_0(s) Error_1 (s, 0)	3022	#define Error_0(s) Error_1 (s, 0)
3076		3023
3077	/* Too small to turn into function */	3024	/* Too small to turn into function */
3078	#define BEGIN do {	3025	#define BEGIN do {
3079	#define END } while (0)	3026	#define END } while (0)
3080	#define s_goto(a) BEGIN \	3027	#define s_goto(a) BEGIN \
3081	SCHEME_V->op = a; \	3028	SCHEME_V->op = a; \
3082	return S_T; END	3029	return 0; END
3083		3030
3084	#define s_return(a) return xs_return (SCHEME_A_ a)	3031	#define s_return(a) return xs_return (SCHEME_A_ a)
3085		3032
3086	#ifndef USE_SCHEME_STACK	3033	#ifndef USE_SCHEME_STACK
3087		3034
…		…
3112	next_frame = SCHEME_V->dump_base + nframes;	3059	next_frame = SCHEME_V->dump_base + nframes;
3113		3060
3114	next_frame->op = op;	3061	next_frame->op = op;
3115	next_frame->args = args;	3062	next_frame->args = args;
3116	next_frame->envir = SCHEME_V->envir;	3063	next_frame->envir = SCHEME_V->envir;
3117	next_frame->code = code;	3064	next_frame->code = code;
3118		3065
3119	SCHEME_V->dump = (pointer)(uintptr_t)(nframes + 1);	3066	SCHEME_V->dump = (pointer)(uintptr_t)(nframes + 1);
3120	}	3067	}
3121		3068
3122	static pointer	3069	static int
3123	xs_return (SCHEME_P_ pointer a)	3070	xs_return (SCHEME_P_ pointer a)
3124	{	3071	{
3125	int nframes = (uintptr_t)SCHEME_V->dump;	3072	int nframes = (uintptr_t)SCHEME_V->dump;
3126	struct dump_stack_frame *frame;	3073	struct dump_stack_frame *frame;
3127		3074
3128	SCHEME_V->value = a;	3075	SCHEME_V->value = a;
3129		3076
3130	if (nframes <= 0)	3077	if (nframes <= 0)
3131	return NIL;	3078	return -1;
3132		3079
3133	frame = &SCHEME_V->dump_base[--nframes];	3080	frame = &SCHEME_V->dump_base[--nframes];
3134	SCHEME_V->op = frame->op;	3081	SCHEME_V->op = frame->op;
3135	SCHEME_V->args = frame->args;	3082	SCHEME_V->args = frame->args;
3136	SCHEME_V->envir = frame->envir;	3083	SCHEME_V->envir = frame->envir;
3137	SCHEME_V->code = frame->code;	3084	SCHEME_V->code = frame->code;
3138	SCHEME_V->dump = (pointer)(uintptr_t)nframes;	3085	SCHEME_V->dump = (pointer)(uintptr_t)nframes;
3139		3086
3140	return S_T;	3087	return 0;
3141	}	3088	}
3142		3089
3143	static INLINE void	3090	ecb_inline void
3144	dump_stack_reset (SCHEME_P)	3091	dump_stack_reset (SCHEME_P)
3145	{	3092	{
3146	/* in this implementation, SCHEME_V->dump is the number of frames on the stack */	3093	/* in this implementation, SCHEME_V->dump is the number of frames on the stack */
3147	SCHEME_V->dump = (pointer)+0;	3094	SCHEME_V->dump = (pointer)+0;
3148	}	3095	}
3149		3096
3150	static INLINE void	3097	ecb_inline void
3151	dump_stack_initialize (SCHEME_P)	3098	dump_stack_initialize (SCHEME_P)
3152	{	3099	{
3153	SCHEME_V->dump_size = 0;	3100	SCHEME_V->dump_size = 0;
3154	SCHEME_V->dump_base = 0;	3101	SCHEME_V->dump_base = 0;
3155	dump_stack_reset (SCHEME_A);	3102	dump_stack_reset (SCHEME_A);
…		…
3208	int i = 0;	3155	int i = 0;
3209	struct dump_stack_frame *frame = SCHEME_V->dump_base;	3156	struct dump_stack_frame *frame = SCHEME_V->dump_base;
3210		3157
3211	while (cont != NIL)	3158	while (cont != NIL)
3212	{	3159	{
3213	frame->op = ivalue (car (cont)); cont = cdr (cont);	3160	frame->op = ivalue_unchecked (car (cont)); cont = cdr (cont);
3214	frame->args = car (cont) ; cont = cdr (cont);	3161	frame->args = car (cont) ; cont = cdr (cont);
3215	frame->envir = car (cont) ; cont = cdr (cont);	3162	frame->envir = car (cont) ; cont = cdr (cont);
3216	frame->code = car (cont) ; cont = cdr (cont);	3163	frame->code = car (cont) ; cont = cdr (cont);
3217		3164
3218	++frame;	3165	++frame;
3219	++i;	3166	++i;
3220	}	3167	}
3221		3168
3222	SCHEME_V->dump = (pointer)(uintptr_t)i;	3169	SCHEME_V->dump = (pointer)(uintptr_t)i;
3223	}	3170	}
3224		3171
3225	#else	3172	#else
3226		3173
3227	static INLINE void	3174	ecb_inline void
3228	dump_stack_reset (SCHEME_P)	3175	dump_stack_reset (SCHEME_P)
3229	{	3176	{
3230	SCHEME_V->dump = NIL;	3177	SCHEME_V->dump = NIL;
3231	}	3178	}
3232		3179
3233	static INLINE void	3180	ecb_inline void
3234	dump_stack_initialize (SCHEME_P)	3181	dump_stack_initialize (SCHEME_P)
3235	{	3182	{
3236	dump_stack_reset (SCHEME_A);	3183	dump_stack_reset (SCHEME_A);
3237	}	3184	}
3238		3185
…		…
3240	dump_stack_free (SCHEME_P)	3187	dump_stack_free (SCHEME_P)
3241	{	3188	{
3242	SCHEME_V->dump = NIL;	3189	SCHEME_V->dump = NIL;
3243	}	3190	}
3244		3191
3245	static pointer	3192	static int
3246	xs_return (SCHEME_P_ pointer a)	3193	xs_return (SCHEME_P_ pointer a)
3247	{	3194	{
3248	pointer dump = SCHEME_V->dump;	3195	pointer dump = SCHEME_V->dump;
3249		3196
3250	SCHEME_V->value = a;	3197	SCHEME_V->value = a;
3251		3198
3252	if (dump == NIL)	3199	if (dump == NIL)
3253	return NIL;	3200	return -1;
3254		3201
3255	SCHEME_V->op = ivalue (car (dump)); dump = cdr (dump);	3202	SCHEME_V->op = ivalue_unchecked (car (dump)); dump = cdr (dump);
3256	SCHEME_V->args = car (dump) ; dump = cdr (dump);	3203	SCHEME_V->args = car (dump) ; dump = cdr (dump);
3257	SCHEME_V->envir = car (dump) ; dump = cdr (dump);	3204	SCHEME_V->envir = car (dump) ; dump = cdr (dump);
3258	SCHEME_V->code = car (dump) ; dump = cdr (dump);	3205	SCHEME_V->code = car (dump) ; dump = cdr (dump);
3259		3206
3260	SCHEME_V->dump = dump;	3207	SCHEME_V->dump = dump;
3261		3208
3262	return S_T;	3209	return 0;
3263	}	3210	}
3264		3211
3265	static void	3212	static void
3266	s_save (SCHEME_P_ enum scheme_opcodes op, pointer args, pointer code)	3213	s_save (SCHEME_P_ enum scheme_opcodes op, pointer args, pointer code)
3267	{	3214	{
…		…
3292		3239
3293	#endif	3240	#endif
3294		3241
3295	#define s_retbool(tf) s_return ((tf) ? S_T : S_F)	3242	#define s_retbool(tf) s_return ((tf) ? S_T : S_F)
3296		3243
3297	static pointer	3244	static int
3298	opexe_0 (SCHEME_P_ enum scheme_opcodes op)	3245	opexe_0 (SCHEME_P_ enum scheme_opcodes op)
3299	{	3246	{
		3247	pointer args = SCHEME_V->args;
3300	pointer x, y;	3248	pointer x, y;
3301		3249
3302	switch (op)	3250	switch (op)
3303	{	3251	{
3304	case OP_LOAD: /* load */	3252	case OP_LOAD: /* load */
3305	if (file_interactive (SCHEME_A))	3253	if (file_interactive (SCHEME_A))
3306	{	3254	{
3307	xwrstr ("Loading "); xwrstr (strvalue (car (SCHEME_V->args))); xwrstr ("\n");	3255	xwrstr ("Loading "); xwrstr (strvalue (car (args))); xwrstr ("\n");
3308	//D fprintf (SCHEME_V->outport->object.port->rep.stdio.file, "Loading %s\n", strvalue (car (SCHEME_V->args)));	3256	//D fprintf (SCHEME_V->outport->object.port->rep.stdio.file, "Loading %s\n", strvalue (car (args)));
3309	}	3257	}
3310		3258
3311	if (!file_push (SCHEME_A_ strvalue (car (SCHEME_V->args))))	3259	if (!file_push (SCHEME_A_ strvalue (car (args))))
3312	Error_1 ("unable to open", car (SCHEME_V->args));	3260	Error_1 ("unable to open", car (args));
3313	else	3261	else
3314	{	3262	{
3315	SCHEME_V->args = mk_integer (SCHEME_A_ SCHEME_V->file_i);	3263	SCHEME_V->args = mk_integer (SCHEME_A_ SCHEME_V->file_i);
3316	s_goto (OP_T0LVL);	3264	s_goto (OP_T0LVL);
3317	}	3265	}
…		…
3391	case OP_EVAL: /* main part of evaluation */	3339	case OP_EVAL: /* main part of evaluation */
3392	#if USE_TRACING	3340	#if USE_TRACING
3393	if (SCHEME_V->tracing)	3341	if (SCHEME_V->tracing)
3394	{	3342	{
3395	/*s_save(SCHEME_A_ OP_VALUEPRINT,NIL,NIL); */	3343	/*s_save(SCHEME_A_ OP_VALUEPRINT,NIL,NIL); */
3396	s_save (SCHEME_A_ OP_REAL_EVAL, SCHEME_V->args, SCHEME_V->code);	3344	s_save (SCHEME_A_ OP_REAL_EVAL, args, SCHEME_V->code);
3397	SCHEME_V->args = SCHEME_V->code;	3345	SCHEME_V->args = SCHEME_V->code;
3398	putstr (SCHEME_A_ "\nEval: ");	3346	putstr (SCHEME_A_ "\nEval: ");
3399	s_goto (OP_P0LIST);	3347	s_goto (OP_P0LIST);
3400	}	3348	}
3401		3349
…		…
3445	SCHEME_V->code = cdr (SCHEME_V->code);	3393	SCHEME_V->code = cdr (SCHEME_V->code);
3446	s_goto (OP_E1ARGS);	3394	s_goto (OP_E1ARGS);
3447	}	3395	}
3448		3396
3449	case OP_E1ARGS: /* eval arguments */	3397	case OP_E1ARGS: /* eval arguments */
3450	SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);	3398	args = cons (SCHEME_V->value, args);
3451		3399
3452	if (is_pair (SCHEME_V->code)) /* continue */	3400	if (is_pair (SCHEME_V->code)) /* continue */
3453	{	3401	{
3454	s_save (SCHEME_A_ OP_E1ARGS, SCHEME_V->args, cdr (SCHEME_V->code));	3402	s_save (SCHEME_A_ OP_E1ARGS, args, cdr (SCHEME_V->code));
3455	SCHEME_V->code = car (SCHEME_V->code);	3403	SCHEME_V->code = car (SCHEME_V->code);
3456	SCHEME_V->args = NIL;	3404	SCHEME_V->args = NIL;
3457	s_goto (OP_EVAL);	3405	s_goto (OP_EVAL);
3458	}	3406	}
3459	else /* end */	3407	else /* end */
3460	{	3408	{
3461	SCHEME_V->args = reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args);	3409	args = reverse_in_place (SCHEME_A_ NIL, args);
3462	SCHEME_V->code = car (SCHEME_V->args);	3410	SCHEME_V->code = car (args);
3463	SCHEME_V->args = cdr (SCHEME_V->args);	3411	SCHEME_V->args = cdr (args);
3464	s_goto (OP_APPLY);	3412	s_goto (OP_APPLY);
3465	}	3413	}
3466		3414
3467	#if USE_TRACING	3415	#if USE_TRACING
3468		3416
3469	case OP_TRACING:	3417	case OP_TRACING:
3470	{	3418	{
3471	int tr = SCHEME_V->tracing;	3419	int tr = SCHEME_V->tracing;
3472		3420
3473	SCHEME_V->tracing = ivalue (car (SCHEME_V->args));	3421	SCHEME_V->tracing = ivalue_unchecked (car (args));
3474	s_return (mk_integer (SCHEME_A_ tr));	3422	s_return (mk_integer (SCHEME_A_ tr));
3475	}	3423	}
3476		3424
3477	#endif	3425	#endif
3478		3426
3479	case OP_APPLY: /* apply 'code' to 'args' */	3427	case OP_APPLY: /* apply 'code' to 'args' */
3480	#if USE_TRACING	3428	#if USE_TRACING
3481	if (SCHEME_V->tracing)	3429	if (SCHEME_V->tracing)
3482	{	3430	{
3483	s_save (SCHEME_A_ OP_REAL_APPLY, SCHEME_V->args, SCHEME_V->code);	3431	s_save (SCHEME_A_ OP_REAL_APPLY, args, SCHEME_V->code);
3484	SCHEME_V->print_flag = 1;	3432	SCHEME_V->print_flag = 1;
3485	/* SCHEME_V->args=cons(SCHEME_V->code,SCHEME_V->args); */	3433	/* args=cons(SCHEME_V->code,args); */
3486	putstr (SCHEME_A_ "\nApply to: ");	3434	putstr (SCHEME_A_ "\nApply to: ");
3487	s_goto (OP_P0LIST);	3435	s_goto (OP_P0LIST);
3488	}	3436	}
3489		3437
3490	/* fall through */	3438	/* fall through */
3491		3439
3492	case OP_REAL_APPLY:	3440	case OP_REAL_APPLY:
3493	#endif	3441	#endif
3494	if (is_proc (SCHEME_V->code))	3442	if (is_proc (SCHEME_V->code))
3495	{
3496	s_goto (procnum (SCHEME_V->code)); /* PROCEDURE */	3443	s_goto (procnum (SCHEME_V->code)); /* PROCEDURE */
3497	}
3498	else if (is_foreign (SCHEME_V->code))	3444	else if (is_foreign (SCHEME_V->code))
3499	{	3445	{
3500	/* Keep nested calls from GC'ing the arglist */	3446	/* Keep nested calls from GC'ing the arglist */
3501	push_recent_alloc (SCHEME_A_ SCHEME_V->args, NIL);	3447	push_recent_alloc (SCHEME_A_ args, NIL);
3502	x = SCHEME_V->code->object.ff (SCHEME_A_ SCHEME_V->args);	3448	x = SCHEME_V->code->object.ff (SCHEME_A_ args);
3503		3449
3504	s_return (x);	3450	s_return (x);
3505	}	3451	}
3506	else if (is_closure (SCHEME_V->code) || is_macro (SCHEME_V->code) || is_promise (SCHEME_V->code)) /* CLOSURE */	3452	else if (is_closure (SCHEME_V->code) || is_macro (SCHEME_V->code) || is_promise (SCHEME_V->code)) /* CLOSURE */
3507	{	3453	{
3508	/* Should not accept promise */	3454	/* Should not accept promise */
3509	/* make environment */	3455	/* make environment */
3510	new_frame_in_env (SCHEME_A_ closure_env (SCHEME_V->code));	3456	new_frame_in_env (SCHEME_A_ closure_env (SCHEME_V->code));
3511		3457
3512	for (x = car (closure_code (SCHEME_V->code)), y = SCHEME_V->args; is_pair (x); x = cdr (x), y = cdr (y))	3458	for (x = car (closure_code (SCHEME_V->code)), y = args; is_pair (x); x = cdr (x), y = cdr (y))
3513	{	3459	{
3514	if (y == NIL)	3460	if (y == NIL)
3515	Error_0 ("not enough arguments");	3461	Error_0 ("not enough arguments");
3516	else	3462	else
3517	new_slot_in_env (SCHEME_A_ car (x), car (y));	3463	new_slot_in_env (SCHEME_A_ car (x), car (y));
…		…
3535	s_goto (OP_BEGIN);	3481	s_goto (OP_BEGIN);
3536	}	3482	}
3537	else if (is_continuation (SCHEME_V->code)) /* CONTINUATION */	3483	else if (is_continuation (SCHEME_V->code)) /* CONTINUATION */
3538	{	3484	{
3539	ss_set_cont (SCHEME_A_ cont_dump (SCHEME_V->code));	3485	ss_set_cont (SCHEME_A_ cont_dump (SCHEME_V->code));
3540	s_return (SCHEME_V->args != NIL ? car (SCHEME_V->args) : NIL);	3486	s_return (args != NIL ? car (args) : NIL);
3541	}	3487	}
3542	else	3488	else
3543	Error_0 ("illegal function");	3489	Error_0 ("illegal function");
3544		3490
3545	case OP_DOMACRO: /* do macro */	3491	case OP_DOMACRO: /* do macro */
…		…
3554	{	3500	{
3555	pointer f = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->COMPILE_HOOK, 1);	3501	pointer f = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->COMPILE_HOOK, 1);
3556		3502
3557	if (f != NIL)	3503	if (f != NIL)
3558	{	3504	{
3559	s_save (SCHEME_A_ OP_LAMBDA1, SCHEME_V->args, SCHEME_V->code);	3505	s_save (SCHEME_A_ OP_LAMBDA1, args, SCHEME_V->code);
3560	SCHEME_V->args = cons (SCHEME_V->code, NIL);	3506	SCHEME_V->args = cons (SCHEME_V->code, NIL);
3561	SCHEME_V->code = slot_value_in_env (f);	3507	SCHEME_V->code = slot_value_in_env (f);
3562	s_goto (OP_APPLY);	3508	s_goto (OP_APPLY);
3563	}	3509	}
3564		3510
…		…
3575	s_return (mk_closure (SCHEME_A_ SCHEME_V->code, SCHEME_V->envir));	3521	s_return (mk_closure (SCHEME_A_ SCHEME_V->code, SCHEME_V->envir));
3576		3522
3577	#endif	3523	#endif
3578		3524
3579	case OP_MKCLOSURE: /* make-closure */	3525	case OP_MKCLOSURE: /* make-closure */
3580	x = car (SCHEME_V->args);	3526	x = car (args);
3581		3527
3582	if (car (x) == SCHEME_V->LAMBDA)	3528	if (car (x) == SCHEME_V->LAMBDA)
3583	x = cdr (x);	3529	x = cdr (x);
3584		3530
3585	if (cdr (SCHEME_V->args) == NIL)	3531	if (cdr (args) == NIL)
3586	y = SCHEME_V->envir;	3532	y = SCHEME_V->envir;
3587	else	3533	else
3588	y = cadr (SCHEME_V->args);	3534	y = cadr (args);
3589		3535
3590	s_return (mk_closure (SCHEME_A_ x, y));	3536	s_return (mk_closure (SCHEME_A_ x, y));
3591		3537
3592	case OP_QUOTE: /* quote */	3538	case OP_QUOTE: /* quote */
3593	s_return (car (SCHEME_V->code));	3539	s_return (car (SCHEME_V->code));
…		…
3625		3571
3626		3572
3627	case OP_DEFP: /* defined? */	3573	case OP_DEFP: /* defined? */
3628	x = SCHEME_V->envir;	3574	x = SCHEME_V->envir;
3629		3575
3630	if (cdr (SCHEME_V->args) != NIL)	3576	if (cdr (args) != NIL)
3631	x = cadr (SCHEME_V->args);	3577	x = cadr (args);
3632		3578
3633	s_retbool (find_slot_in_env (SCHEME_A_ x, car (SCHEME_V->args), 1) != NIL);	3579	s_retbool (find_slot_in_env (SCHEME_A_ x, car (args), 1) != NIL);
3634		3580
3635	case OP_SET0: /* set! */	3581	case OP_SET0: /* set! */
3636	if (is_immutable (car (SCHEME_V->code)))	3582	if (is_immutable (car (SCHEME_V->code)))
3637	Error_1 ("set!: unable to alter immutable variable", car (SCHEME_V->code));	3583	Error_1 ("set!: unable to alter immutable variable", car (SCHEME_V->code));
3638		3584
…		…
3669		3615
3670	case OP_IF1: /* if */	3616	case OP_IF1: /* if */
3671	if (is_true (SCHEME_V->value))	3617	if (is_true (SCHEME_V->value))
3672	SCHEME_V->code = car (SCHEME_V->code);	3618	SCHEME_V->code = car (SCHEME_V->code);
3673	else	3619	else
3674	SCHEME_V->code = cadr (SCHEME_V->code); /* (if #f 1) ==> () because	3620	SCHEME_V->code = cadr (SCHEME_V->code); /* (if #f 1) ==> () because * car(NIL) = NIL */
3675
3676	* car(NIL) = NIL */
3677	s_goto (OP_EVAL);	3621	s_goto (OP_EVAL);
3678		3622
3679	case OP_LET0: /* let */	3623	case OP_LET0: /* let */
3680	SCHEME_V->args = NIL;	3624	SCHEME_V->args = NIL;
3681	SCHEME_V->value = SCHEME_V->code;	3625	SCHEME_V->value = SCHEME_V->code;
3682	SCHEME_V->code = is_symbol (car (SCHEME_V->code)) ? cadr (SCHEME_V->code) : car (SCHEME_V->code);	3626	SCHEME_V->code = is_symbol (car (SCHEME_V->code)) ? cadr (SCHEME_V->code) : car (SCHEME_V->code);
3683	s_goto (OP_LET1);	3627	s_goto (OP_LET1);
3684		3628
3685	case OP_LET1: /* let (calculate parameters) */	3629	case OP_LET1: /* let (calculate parameters) */
3686	SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);	3630	args = cons (SCHEME_V->value, args);
3687		3631
3688	if (is_pair (SCHEME_V->code)) /* continue */	3632	if (is_pair (SCHEME_V->code)) /* continue */
3689	{	3633	{
3690	if (!is_pair (car (SCHEME_V->code)) || !is_pair (cdar (SCHEME_V->code)))	3634	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));	3635	Error_1 ("Bad syntax of binding spec in let :", car (SCHEME_V->code));
3692		3636
3693	s_save (SCHEME_A_ OP_LET1, SCHEME_V->args, cdr (SCHEME_V->code));	3637	s_save (SCHEME_A_ OP_LET1, args, cdr (SCHEME_V->code));
3694	SCHEME_V->code = cadar (SCHEME_V->code);	3638	SCHEME_V->code = cadar (SCHEME_V->code);
3695	SCHEME_V->args = NIL;	3639	SCHEME_V->args = NIL;
3696	s_goto (OP_EVAL);	3640	s_goto (OP_EVAL);
3697	}	3641	}
3698	else /* end */	3642	else /* end */
3699	{	3643	{
3700	SCHEME_V->args = reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args);	3644	args = reverse_in_place (SCHEME_A_ NIL, args);
3701	SCHEME_V->code = car (SCHEME_V->args);	3645	SCHEME_V->code = car (args);
3702	SCHEME_V->args = cdr (SCHEME_V->args);	3646	SCHEME_V->args = cdr (args);
3703	s_goto (OP_LET2);	3647	s_goto (OP_LET2);
3704	}	3648	}
3705		3649
3706	case OP_LET2: /* let */	3650	case OP_LET2: /* let */
3707	new_frame_in_env (SCHEME_A_ SCHEME_V->envir);	3651	new_frame_in_env (SCHEME_A_ SCHEME_V->envir);
3708		3652
3709	for (x = is_symbol (car (SCHEME_V->code)) ? cadr (SCHEME_V->code) : car (SCHEME_V->code), y = SCHEME_V->args;	3653	for (x = is_symbol (car (SCHEME_V->code)) ? cadr (SCHEME_V->code) : car (SCHEME_V->code), y = args;
3710	y != NIL; x = cdr (x), y = cdr (y))	3654	y != NIL; x = cdr (x), y = cdr (y))
3711	new_slot_in_env (SCHEME_A_ caar (x), car (y));	3655	new_slot_in_env (SCHEME_A_ caar (x), car (y));
3712		3656
3713	if (is_symbol (car (SCHEME_V->code))) /* named let */	3657	if (is_symbol (car (SCHEME_V->code))) /* named let */
3714	{	3658	{
3715	for (x = cadr (SCHEME_V->code), SCHEME_V->args = NIL; x != NIL; x = cdr (x))	3659	for (x = cadr (SCHEME_V->code), args = NIL; x != NIL; x = cdr (x))
3716	{	3660	{
3717	if (!is_pair (x))	3661	if (!is_pair (x))
3718	Error_1 ("Bad syntax of binding in let :", x);	3662	Error_1 ("Bad syntax of binding in let :", x);
3719		3663
3720	if (!is_list (SCHEME_A_ car (x)))	3664	if (!is_list (SCHEME_A_ car (x)))
3721	Error_1 ("Bad syntax of binding in let :", car (x));	3665	Error_1 ("Bad syntax of binding in let :", car (x));
3722		3666
3723	SCHEME_V->args = cons (caar (x), SCHEME_V->args);	3667	args = cons (caar (x), args);
3724	}	3668	}
3725		3669
3726	x =
3727	mk_closure (SCHEME_A_ cons (reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args), cddr (SCHEME_V->code)),	3670	x = mk_closure (SCHEME_A_ cons (reverse_in_place (SCHEME_A_ NIL, args), cddr (SCHEME_V->code)),
3728	SCHEME_V->envir);	3671	SCHEME_V->envir);
3729	new_slot_in_env (SCHEME_A_ car (SCHEME_V->code), x);	3672	new_slot_in_env (SCHEME_A_ car (SCHEME_V->code), x);
3730	SCHEME_V->code = cddr (SCHEME_V->code);	3673	SCHEME_V->code = cddr (SCHEME_V->code);
3731	SCHEME_V->args = NIL;
3732	}	3674	}
3733	else	3675	else
3734	{	3676	{
3735	SCHEME_V->code = cdr (SCHEME_V->code);	3677	SCHEME_V->code = cdr (SCHEME_V->code);
		3678	}
		3679
3736	SCHEME_V->args = NIL;	3680	SCHEME_V->args = NIL;
3737	}
3738
3739	s_goto (OP_BEGIN);	3681	s_goto (OP_BEGIN);
3740		3682
3741	case OP_LET0AST: /* let* */	3683	case OP_LET0AST: /* let* */
3742	if (car (SCHEME_V->code) == NIL)	3684	if (car (SCHEME_V->code) == NIL)
3743	{	3685	{
…		…
3761	new_slot_in_env (SCHEME_A_ caar (SCHEME_V->code), SCHEME_V->value);	3703	new_slot_in_env (SCHEME_A_ caar (SCHEME_V->code), SCHEME_V->value);
3762	SCHEME_V->code = cdr (SCHEME_V->code);	3704	SCHEME_V->code = cdr (SCHEME_V->code);
3763		3705
3764	if (is_pair (SCHEME_V->code)) /* continue */	3706	if (is_pair (SCHEME_V->code)) /* continue */
3765	{	3707	{
3766	s_save (SCHEME_A_ OP_LET2AST, SCHEME_V->args, SCHEME_V->code);	3708	s_save (SCHEME_A_ OP_LET2AST, args, SCHEME_V->code);
3767	SCHEME_V->code = cadar (SCHEME_V->code);	3709	SCHEME_V->code = cadar (SCHEME_V->code);
3768	SCHEME_V->args = NIL;	3710	SCHEME_V->args = NIL;
3769	s_goto (OP_EVAL);	3711	s_goto (OP_EVAL);
3770	}	3712	}
3771	else /* end */	3713	else /* end */
3772	{	3714	{
3773	SCHEME_V->code = SCHEME_V->args;	3715	SCHEME_V->code = args;
3774	SCHEME_V->args = NIL;	3716	SCHEME_V->args = NIL;
3775	s_goto (OP_BEGIN);	3717	s_goto (OP_BEGIN);
3776	}	3718	}
3777		3719
3778	case OP_LET0REC: /* letrec */	3720	case OP_LET0REC: /* letrec */
…		…
3781	SCHEME_V->value = SCHEME_V->code;	3723	SCHEME_V->value = SCHEME_V->code;
3782	SCHEME_V->code = car (SCHEME_V->code);	3724	SCHEME_V->code = car (SCHEME_V->code);
3783	s_goto (OP_LET1REC);	3725	s_goto (OP_LET1REC);
3784		3726
3785	case OP_LET1REC: /* letrec (calculate parameters) */	3727	case OP_LET1REC: /* letrec (calculate parameters) */
3786	SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);	3728	args = cons (SCHEME_V->value, args);
3787		3729
3788	if (is_pair (SCHEME_V->code)) /* continue */	3730	if (is_pair (SCHEME_V->code)) /* continue */
3789	{	3731	{
3790	if (!is_pair (car (SCHEME_V->code)) || !is_pair (cdar (SCHEME_V->code)))	3732	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));	3733	Error_1 ("Bad syntax of binding spec in letrec :", car (SCHEME_V->code));
3792		3734
3793	s_save (SCHEME_A_ OP_LET1REC, SCHEME_V->args, cdr (SCHEME_V->code));	3735	s_save (SCHEME_A_ OP_LET1REC, args, cdr (SCHEME_V->code));
3794	SCHEME_V->code = cadar (SCHEME_V->code);	3736	SCHEME_V->code = cadar (SCHEME_V->code);
3795	SCHEME_V->args = NIL;	3737	SCHEME_V->args = NIL;
3796	s_goto (OP_EVAL);	3738	s_goto (OP_EVAL);
3797	}	3739	}
3798	else /* end */	3740	else /* end */
3799	{	3741	{
3800	SCHEME_V->args = reverse_in_place (SCHEME_A_ NIL, SCHEME_V->args);	3742	args = reverse_in_place (SCHEME_A_ NIL, args);
3801	SCHEME_V->code = car (SCHEME_V->args);	3743	SCHEME_V->code = car (args);
3802	SCHEME_V->args = cdr (SCHEME_V->args);	3744	SCHEME_V->args = cdr (args);
3803	s_goto (OP_LET2REC);	3745	s_goto (OP_LET2REC);
3804	}	3746	}
3805		3747
3806	case OP_LET2REC: /* letrec */	3748	case OP_LET2REC: /* letrec */
3807	for (x = car (SCHEME_V->code), y = SCHEME_V->args; y != NIL; x = cdr (x), y = cdr (y))	3749	for (x = car (SCHEME_V->code), y = args; y != NIL; x = cdr (x), y = cdr (y))
3808	new_slot_in_env (SCHEME_A_ caar (x), car (y));	3750	new_slot_in_env (SCHEME_A_ caar (x), car (y));
3809		3751
3810	SCHEME_V->code = cdr (SCHEME_V->code);	3752	SCHEME_V->code = cdr (SCHEME_V->code);
3811	SCHEME_V->args = NIL;	3753	SCHEME_V->args = NIL;
3812	s_goto (OP_BEGIN);	3754	s_goto (OP_BEGIN);
…		…
3898	s_save (SCHEME_A_ OP_C1STREAM, NIL, cdr (SCHEME_V->code));	3840	s_save (SCHEME_A_ OP_C1STREAM, NIL, cdr (SCHEME_V->code));
3899	SCHEME_V->code = car (SCHEME_V->code);	3841	SCHEME_V->code = car (SCHEME_V->code);
3900	s_goto (OP_EVAL);	3842	s_goto (OP_EVAL);
3901		3843
3902	case OP_C1STREAM: /* cons-stream */	3844	case OP_C1STREAM: /* cons-stream */
3903	SCHEME_V->args = SCHEME_V->value; /* save SCHEME_V->value to register SCHEME_V->args for gc */	3845	SCHEME_V->args = SCHEME_V->value; /* save SCHEME_V->value to register args for gc */
3904	x = mk_closure (SCHEME_A_ cons (NIL, SCHEME_V->code), SCHEME_V->envir);	3846	x = mk_closure (SCHEME_A_ cons (NIL, SCHEME_V->code), SCHEME_V->envir);
3905	set_typeflag (x, T_PROMISE);	3847	set_typeflag (x, T_PROMISE);
3906	s_return (cons (SCHEME_V->args, x));	3848	s_return (cons (args, x));
3907		3849
3908	case OP_MACRO0: /* macro */	3850	case OP_MACRO0: /* macro */
3909	if (is_pair (car (SCHEME_V->code)))	3851	if (is_pair (car (SCHEME_V->code)))
3910	{	3852	{
3911	x = caar (SCHEME_V->code);	3853	x = caar (SCHEME_V->code);
…		…
3944	{	3886	{
3945	if (!is_pair (y = caar (x)))	3887	if (!is_pair (y = caar (x)))
3946	break;	3888	break;
3947		3889
3948	for (; y != NIL; y = cdr (y))	3890	for (; y != NIL; y = cdr (y))
3949	{
3950	if (eqv (car (y), SCHEME_V->value))	3891	if (eqv (car (y), SCHEME_V->value))
3951	break;	3892	break;
3952	}
3953		3893
3954	if (y != NIL)	3894	if (y != NIL)
3955	break;	3895	break;
3956	}	3896	}
3957		3897
…		…
3977	s_goto (OP_BEGIN);	3917	s_goto (OP_BEGIN);
3978	else	3918	else
3979	s_return (NIL);	3919	s_return (NIL);
3980		3920
3981	case OP_PAPPLY: /* apply */	3921	case OP_PAPPLY: /* apply */
3982	SCHEME_V->code = car (SCHEME_V->args);	3922	SCHEME_V->code = car (args);
3983	SCHEME_V->args = list_star (SCHEME_A_ cdr (SCHEME_V->args));	3923	SCHEME_V->args = list_star (SCHEME_A_ cdr (args));
3984	/*SCHEME_V->args = cadr(SCHEME_V->args); */	3924	/*SCHEME_V->args = cadr(args); */
3985	s_goto (OP_APPLY);	3925	s_goto (OP_APPLY);
3986		3926
3987	case OP_PEVAL: /* eval */	3927	case OP_PEVAL: /* eval */
3988	if (cdr (SCHEME_V->args) != NIL)	3928	if (cdr (args) != NIL)
3989	SCHEME_V->envir = cadr (SCHEME_V->args);	3929	SCHEME_V->envir = cadr (args);
3990		3930
3991	SCHEME_V->code = car (SCHEME_V->args);	3931	SCHEME_V->code = car (args);
3992	s_goto (OP_EVAL);	3932	s_goto (OP_EVAL);
3993		3933
3994	case OP_CONTINUATION: /* call-with-current-continuation */	3934	case OP_CONTINUATION: /* call-with-current-continuation */
3995	SCHEME_V->code = car (SCHEME_V->args);	3935	SCHEME_V->code = car (args);
3996	SCHEME_V->args = cons (mk_continuation (SCHEME_A_ ss_get_cont (SCHEME_A)), NIL);	3936	SCHEME_V->args = cons (mk_continuation (SCHEME_A_ ss_get_cont (SCHEME_A)), NIL);
3997	s_goto (OP_APPLY);	3937	s_goto (OP_APPLY);
3998	}	3938	}
3999		3939
4000	return S_T;	3940	if (USE_ERROR_CHECKING) abort ();
4001	}	3941	}
4002		3942
4003	static pointer	3943	static int
4004	opexe_2 (SCHEME_P_ enum scheme_opcodes op)	3944	opexe_1 (SCHEME_P_ enum scheme_opcodes op)
4005	{	3945	{
4006	pointer x;	3946	pointer args = SCHEME_V->args;
		3947	pointer x = car (args);
4007	num v;	3948	num v;
4008		3949
		3950	switch (op)
		3951	{
4009	#if USE_MATH	3952	#if USE_MATH
4010	RVALUE dd;
4011	#endif
4012
4013	switch (op)
4014	{
4015	#if USE_MATH
4016
4017	case OP_INEX2EX: /* inexact->exact */	3953	case OP_INEX2EX: /* inexact->exact */
4018	x = car (SCHEME_V->args);	3954	{
4019
4020	if (num_is_integer (x))	3955	if (is_integer (x))
4021	s_return (x);	3956	s_return (x);
4022	else if (modf (rvalue_unchecked (x), &dd) == 0.0)	3957
		3958	RVALUE r = rvalue_unchecked (x);
		3959
		3960	if (r == (RVALUE)(IVALUE)r)
4023	s_return (mk_integer (SCHEME_A_ ivalue (x)));	3961	s_return (mk_integer (SCHEME_A_ rvalue_unchecked (x)));
4024	else	3962	else
4025	Error_1 ("inexact->exact: not integral:", x);	3963	Error_1 ("inexact->exact: not integral:", x);
		3964	}
4026		3965
4027	case OP_EXP:
4028	x = car (SCHEME_V->args);
4029	s_return (mk_real (SCHEME_A_ exp (rvalue (x))));	3966	case OP_EXP: 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))));	3967	case OP_LOG: 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))));	3968	case OP_SIN: 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))));	3969	case OP_COS: 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))));	3970	case OP_TAN: 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))));	3971	case OP_ASIN: 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))));	3972	case OP_ACOS: s_return (mk_real (SCHEME_A_ acos (rvalue (x))));
4054		3973
4055	case OP_ATAN:	3974	case OP_ATAN:
4056	x = car (SCHEME_V->args);
4057
4058	if (cdr (SCHEME_V->args) == NIL)	3975	if (cdr (args) == NIL)
4059	s_return (mk_real (SCHEME_A_ atan (rvalue (x))));	3976	s_return (mk_real (SCHEME_A_ atan (rvalue (x))));
4060	else	3977	else
4061	{	3978	{
4062	pointer y = cadr (SCHEME_V->args);	3979	pointer y = cadr (args);
4063
4064	s_return (mk_real (SCHEME_A_ atan2 (rvalue (x), rvalue (y))));	3980	s_return (mk_real (SCHEME_A_ atan2 (rvalue (x), rvalue (y))));
4065	}	3981	}
4066		3982
4067	case OP_SQRT:	3983	case OP_SQRT:
4068	x = car (SCHEME_V->args);
4069	s_return (mk_real (SCHEME_A_ sqrt (rvalue (x))));	3984	s_return (mk_real (SCHEME_A_ sqrt (rvalue (x))));
4070		3985
4071	case OP_EXPT:	3986	case OP_EXPT:
4072	{	3987	{
4073	RVALUE result;	3988	RVALUE result;
4074	int real_result = 1;	3989	int real_result = 1;
4075	pointer y = cadr (SCHEME_V->args);	3990	pointer y = cadr (args);
4076		3991
4077	x = car (SCHEME_V->args);
4078
4079	if (num_is_integer (x) && num_is_integer (y))	3992	if (is_integer (x) && is_integer (y))
4080	real_result = 0;	3993	real_result = 0;
4081		3994
4082	/* This 'if' is an R5RS compatibility fix. */	3995	/* This 'if' is an R5RS compatibility fix. */
4083	/* NOTE: Remove this 'if' fix for R6RS. */	3996	/* NOTE: Remove this 'if' fix for R6RS. */
4084	if (rvalue (x) == 0 && rvalue (y) < 0)	3997	if (rvalue (x) == 0 && rvalue (y) < 0)
4085	result = 0.0;	3998	result = 0;
4086	else	3999	else
4087	result = pow (rvalue (x), rvalue (y));	4000	result = pow (rvalue (x), rvalue (y));
4088		4001
4089	/* Before returning integer result make sure we can. */	4002	/* Before returning integer result make sure we can. */
4090	/* If the test fails, result is too big for integer. */	4003	/* If the test fails, result is too big for integer. */
4091	if (!real_result)	4004	if (!real_result)
4092	{	4005	{
4093	long result_as_long = (long) result;	4006	long result_as_long = result;
4094		4007
4095	if (result != (RVALUE) result_as_long)	4008	if (result != result_as_long)
4096	real_result = 1;	4009	real_result = 1;
4097	}	4010	}
4098		4011
4099	if (real_result)	4012	if (real_result)
4100	s_return (mk_real (SCHEME_A_ result));	4013	s_return (mk_real (SCHEME_A_ result));
4101	else	4014	else
4102	s_return (mk_integer (SCHEME_A_ result));	4015	s_return (mk_integer (SCHEME_A_ result));
4103	}	4016	}
4104		4017
4105	case OP_FLOOR:
4106	x = car (SCHEME_V->args);
4107	s_return (mk_real (SCHEME_A_ floor (rvalue (x))));	4018	case OP_FLOOR: 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))));	4019	case OP_CEILING: s_return (mk_real (SCHEME_A_ ceil (rvalue (x))));
4112		4020
4113	case OP_TRUNCATE:	4021	case OP_TRUNCATE:
4114	{	4022	{
4115	RVALUE rvalue_of_x;	4023	RVALUE n = rvalue (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)));	4024	s_return (mk_real (SCHEME_A_ n > 0 ? floor (n) : ceil (n)));
4122	else
4123	s_return (mk_real (SCHEME_A_ ceil (rvalue_of_x)));
4124	}	4025	}
4125		4026
4126	case OP_ROUND:	4027	case OP_ROUND:
4127	x = car (SCHEME_V->args);
4128
4129	if (num_is_integer (x))	4028	if (is_integer (x))
4130	s_return (x);	4029	s_return (x);
4131		4030
4132	s_return (mk_real (SCHEME_A_ round_per_R5RS (rvalue (x))));	4031	s_return (mk_real (SCHEME_A_ round_per_R5RS (rvalue (x))));
4133	#endif	4032	#endif
4134		4033
4135	case OP_ADD: /* + */	4034	case OP_ADD: /* + */
4136	v = num_zero;	4035	v = num_zero;
4137		4036
4138	for (x = SCHEME_V->args; x != NIL; x = cdr (x))	4037	for (x = args; x != NIL; x = cdr (x))
4139	v = num_add (v, nvalue (car (x)));	4038	v = num_op (NUM_ADD, v, nvalue (car (x)));
4140		4039
4141	s_return (mk_number (SCHEME_A_ v));	4040	s_return (mk_number (SCHEME_A_ v));
4142		4041
4143	case OP_MUL: /* * */	4042	case OP_MUL: /* * */
4144	v = num_one;	4043	v = num_one;
4145		4044
4146	for (x = SCHEME_V->args; x != NIL; x = cdr (x))	4045	for (x = args; x != NIL; x = cdr (x))
4147	v = num_mul (v, nvalue (car (x)));	4046	v = num_op (NUM_MUL, v, nvalue (car (x)));
4148		4047
4149	s_return (mk_number (SCHEME_A_ v));	4048	s_return (mk_number (SCHEME_A_ v));
4150		4049
4151	case OP_SUB: /* - */	4050	case OP_SUB: /* - */
4152	if (cdr (SCHEME_V->args) == NIL)	4051	if (cdr (args) == NIL)
4153	{	4052	{
4154	x = SCHEME_V->args;	4053	x = args;
4155	v = num_zero;	4054	v = num_zero;
4156	}	4055	}
4157	else	4056	else
4158	{	4057	{
4159	x = cdr (SCHEME_V->args);	4058	x = cdr (args);
4160	v = nvalue (car (SCHEME_V->args));	4059	v = nvalue (car (args));
4161	}	4060	}
4162		4061
4163	for (; x != NIL; x = cdr (x))	4062	for (; x != NIL; x = cdr (x))
4164	v = num_sub (v, nvalue (car (x)));	4063	v = num_op (NUM_SUB, v, nvalue (car (x)));
4165		4064
4166	s_return (mk_number (SCHEME_A_ v));	4065	s_return (mk_number (SCHEME_A_ v));
4167		4066
4168	case OP_DIV: /* / */	4067	case OP_DIV: /* / */
4169	if (cdr (SCHEME_V->args) == NIL)	4068	if (cdr (args) == NIL)
4170	{	4069	{
4171	x = SCHEME_V->args;	4070	x = args;
4172	v = num_one;	4071	v = num_one;
4173	}	4072	}
4174	else	4073	else
4175	{	4074	{
4176	x = cdr (SCHEME_V->args);	4075	x = cdr (args);
4177	v = nvalue (car (SCHEME_V->args));	4076	v = nvalue (car (args));
4178	}	4077	}
4179		4078
4180	for (; x != NIL; x = cdr (x))	4079	for (; x != NIL; x = cdr (x))
4181	{
4182	if (!is_zero_rvalue (rvalue (car (x))))	4080	if (!is_zero_rvalue (rvalue (car (x))))
4183	v = num_div (v, nvalue (car (x)));	4081	v = num_div (v, nvalue (car (x)));
4184	else	4082	else
4185	Error_0 ("/: division by zero");	4083	Error_0 ("/: division by zero");
4186	}
4187		4084
4188	s_return (mk_number (SCHEME_A_ v));	4085	s_return (mk_number (SCHEME_A_ v));
4189		4086
4190	case OP_INTDIV: /* quotient */	4087	case OP_INTDIV: /* quotient */
4191	if (cdr (SCHEME_V->args) == NIL)	4088	if (cdr (args) == NIL)
4192	{	4089	{
4193	x = SCHEME_V->args;	4090	x = args;
4194	v = num_one;	4091	v = num_one;
4195	}	4092	}
4196	else	4093	else
4197	{	4094	{
4198	x = cdr (SCHEME_V->args);	4095	x = cdr (args);
4199	v = nvalue (car (SCHEME_V->args));	4096	v = nvalue (car (args));
4200	}	4097	}
4201		4098
4202	for (; x != NIL; x = cdr (x))	4099	for (; x != NIL; x = cdr (x))
4203	{	4100	{
4204	if (ivalue (car (x)) != 0)	4101	if (ivalue (car (x)) != 0)
4205	v = num_intdiv (v, nvalue (car (x)));	4102	v = num_op (NUM_INTDIV, v, nvalue (car (x)));
4206	else	4103	else
4207	Error_0 ("quotient: division by zero");	4104	Error_0 ("quotient: division by zero");
4208	}	4105	}
4209		4106
4210	s_return (mk_number (SCHEME_A_ v));	4107	s_return (mk_number (SCHEME_A_ v));
4211		4108
4212	case OP_REM: /* remainder */	4109	case OP_REM: /* remainder */
4213	v = nvalue (car (SCHEME_V->args));	4110	v = nvalue (x);
4214		4111
4215	if (ivalue (cadr (SCHEME_V->args)) != 0)	4112	if (ivalue (cadr (args)) != 0)
4216	v = num_rem (v, nvalue (cadr (SCHEME_V->args)));	4113	v = num_rem (v, nvalue (cadr (args)));
4217	else	4114	else
4218	Error_0 ("remainder: division by zero");	4115	Error_0 ("remainder: division by zero");
4219		4116
4220	s_return (mk_number (SCHEME_A_ v));	4117	s_return (mk_number (SCHEME_A_ v));
4221		4118
4222	case OP_MOD: /* modulo */	4119	case OP_MOD: /* modulo */
4223	v = nvalue (car (SCHEME_V->args));	4120	v = nvalue (x);
4224		4121
4225	if (ivalue (cadr (SCHEME_V->args)) != 0)	4122	if (ivalue (cadr (args)) != 0)
4226	v = num_mod (v, nvalue (cadr (SCHEME_V->args)));	4123	v = num_mod (v, nvalue (cadr (args)));
4227	else	4124	else
4228	Error_0 ("modulo: division by zero");	4125	Error_0 ("modulo: division by zero");
4229		4126
4230	s_return (mk_number (SCHEME_A_ v));	4127	s_return (mk_number (SCHEME_A_ v));
4231		4128
4232	case OP_CAR: /* car */	4129	case OP_CAR: /* car */
4233	s_return (caar (SCHEME_V->args));	4130	s_return (caar (args));
4234		4131
4235	case OP_CDR: /* cdr */	4132	case OP_CDR: /* cdr */
4236	s_return (cdar (SCHEME_V->args));	4133	s_return (cdar (args));
4237		4134
4238	case OP_CONS: /* cons */	4135	case OP_CONS: /* cons */
4239	set_cdr (SCHEME_V->args, cadr (SCHEME_V->args));	4136	set_cdr (args, cadr (args));
4240	s_return (SCHEME_V->args);	4137	s_return (args);
4241		4138
4242	case OP_SETCAR: /* set-car! */	4139	case OP_SETCAR: /* set-car! */
4243	if (!is_immutable (car (SCHEME_V->args)))	4140	if (!is_immutable (x))
4244	{	4141	{
4245	set_car (car (SCHEME_V->args), cadr (SCHEME_V->args));	4142	set_car (x, cadr (args));
4246	s_return (car (SCHEME_V->args));	4143	s_return (car (args));
4247	}	4144	}
4248	else	4145	else
4249	Error_0 ("set-car!: unable to alter immutable pair");	4146	Error_0 ("set-car!: unable to alter immutable pair");
4250		4147
4251	case OP_SETCDR: /* set-cdr! */	4148	case OP_SETCDR: /* set-cdr! */
4252	if (!is_immutable (car (SCHEME_V->args)))	4149	if (!is_immutable (x))
4253	{	4150	{
4254	set_cdr (car (SCHEME_V->args), cadr (SCHEME_V->args));	4151	set_cdr (x, cadr (args));
4255	s_return (car (SCHEME_V->args));	4152	s_return (car (args));
4256	}	4153	}
4257	else	4154	else
4258	Error_0 ("set-cdr!: unable to alter immutable pair");	4155	Error_0 ("set-cdr!: unable to alter immutable pair");
4259		4156
4260	case OP_CHAR2INT: /* char->integer */	4157	case OP_CHAR2INT: /* char->integer */
4261	s_return (mk_integer (SCHEME_A_ ivalue (car (SCHEME_V->args))));	4158	s_return (mk_integer (SCHEME_A_ ivalue_unchecked (x)));
4262		4159
4263	case OP_INT2CHAR: /* integer->char */	4160	case OP_INT2CHAR: /* integer->char */
4264	s_return (mk_character (SCHEME_A_ ivalue (car (SCHEME_V->args))));	4161	s_return (mk_character (SCHEME_A_ ivalue_unchecked (x)));
4265		4162
4266	case OP_CHARUPCASE:	4163	case OP_CHARUPCASE:
4267	{	4164	{
4268	unsigned char c = ivalue (car (SCHEME_V->args));	4165	unsigned char c = ivalue_unchecked (x);
4269	c = toupper (c);	4166	c = toupper (c);
4270	s_return (mk_character (SCHEME_A_ c));	4167	s_return (mk_character (SCHEME_A_ c));
4271	}	4168	}
4272		4169
4273	case OP_CHARDNCASE:	4170	case OP_CHARDNCASE:
4274	{	4171	{
4275	unsigned char c = ivalue (car (SCHEME_V->args));	4172	unsigned char c = ivalue_unchecked (x);
4276	c = tolower (c);	4173	c = tolower (c);
4277	s_return (mk_character (SCHEME_A_ c));	4174	s_return (mk_character (SCHEME_A_ c));
4278	}	4175	}
4279		4176
4280	case OP_STR2SYM: /* string->symbol */	4177	case OP_STR2SYM: /* string->symbol */
4281	s_return (mk_symbol (SCHEME_A_ strvalue (car (SCHEME_V->args))));	4178	s_return (mk_symbol (SCHEME_A_ strvalue (x)));
4282		4179
4283	case OP_STR2ATOM: /* string->atom */	4180	case OP_STR2ATOM: /* string->atom */
4284	{	4181	{
4285	char *s = strvalue (car (SCHEME_V->args));	4182	char *s = strvalue (x);
4286	long pf = 0;	4183	long pf = 0;
4287		4184
4288	if (cdr (SCHEME_V->args) != NIL)	4185	if (cdr (args) != NIL)
4289	{	4186	{
4290	/* we know cadr(SCHEME_V->args) is a natural number */	4187	/* we know cadr(args) is a natural number */
4291	/* see if it is 2, 8, 10, or 16, or error */	4188	/* see if it is 2, 8, 10, or 16, or error */
4292	pf = ivalue_unchecked (cadr (SCHEME_V->args));	4189	pf = ivalue_unchecked (cadr (args));
4293		4190
4294	if (pf == 16 || pf == 10 || pf == 8 || pf == 2)	4191	if (pf == 16 || pf == 10 || pf == 8 || pf == 2)
4295	{	4192	{
4296	/* base is OK */	4193	/* base is OK */
4297	}	4194	}
4298	else	4195	else
4299	pf = -1;	4196	pf = -1;
4300	}	4197	}
4301		4198
4302	if (pf < 0)	4199	if (pf < 0)
4303	Error_1 ("string->atom: bad base:", cadr (SCHEME_V->args));	4200	Error_1 ("string->atom: bad base:", cadr (args));
4304	else if (*s == '#') /* no use of base! */	4201	else if (*s == '#') /* no use of base! */
4305	s_return (mk_sharp_const (SCHEME_A_ s + 1));	4202	s_return (mk_sharp_const (SCHEME_A_ s + 1));
4306	else	4203	else
4307	{	4204	{
4308	if (pf == 0 || pf == 10)	4205	if (pf == 0 || pf == 10)
…		…
4319	}	4216	}
4320	}	4217	}
4321	}	4218	}
4322		4219
4323	case OP_SYM2STR: /* symbol->string */	4220	case OP_SYM2STR: /* symbol->string */
4324	x = mk_string (SCHEME_A_ symname (car (SCHEME_V->args)));	4221	x = mk_string (SCHEME_A_ symname (x));
4325	setimmutable (x);	4222	setimmutable (x);
4326	s_return (x);	4223	s_return (x);
4327		4224
4328	case OP_ATOM2STR: /* atom->string */	4225	case OP_ATOM2STR: /* atom->string */
4329	{	4226	{
4330	long pf = 0;	4227	long pf = 0;
4331		4228
4332	x = car (SCHEME_V->args);
4333
4334	if (cdr (SCHEME_V->args) != NIL)	4229	if (cdr (args) != NIL)
4335	{	4230	{
4336	/* we know cadr(SCHEME_V->args) is a natural number */	4231	/* we know cadr(args) is a natural number */
4337	/* see if it is 2, 8, 10, or 16, or error */	4232	/* see if it is 2, 8, 10, or 16, or error */
4338	pf = ivalue_unchecked (cadr (SCHEME_V->args));	4233	pf = ivalue_unchecked (cadr (args));
4339		4234
4340	if (is_number (x) && (pf == 16 || pf == 10 || pf == 8 || pf == 2))	4235	if (is_number (x) && (pf == 16 || pf == 10 || pf == 8 || pf == 2))
4341	{	4236	{
4342	/* base is OK */	4237	/* base is OK */
4343	}	4238	}
4344	else	4239	else
4345	pf = -1;	4240	pf = -1;
4346	}	4241	}
4347		4242
4348	if (pf < 0)	4243	if (pf < 0)
4349	Error_1 ("atom->string: bad base:", cadr (SCHEME_V->args));	4244	Error_1 ("atom->string: bad base:", cadr (args));
4350	else if (is_number (x) || is_character (x) || is_string (x) || is_symbol (x))	4245	else if (is_number (x) || is_character (x) || is_string (x) || is_symbol (x))
4351	{	4246	{
4352	char *p;	4247	char *p;
4353	int len;	4248	int len;
4354		4249
…		…
4359	Error_1 ("atom->string: not an atom:", x);	4254	Error_1 ("atom->string: not an atom:", x);
4360	}	4255	}
4361		4256
4362	case OP_MKSTRING: /* make-string */	4257	case OP_MKSTRING: /* make-string */
4363	{	4258	{
4364	int fill = ' ';	4259	int fill = cdr (args) != NIL ? charvalue (cadr (args)) : ' ';
4365	int len;	4260	int len = ivalue_unchecked (x);
4366		4261
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));	4262	s_return (mk_empty_string (SCHEME_A_ len, fill));
4373	}	4263	}
4374		4264
4375	case OP_STRLEN: /* string-length */	4265	case OP_STRLEN: /* string-length */
4376	s_return (mk_integer (SCHEME_A_ strlength (car (SCHEME_V->args))));	4266	s_return (mk_integer (SCHEME_A_ strlength (x)));
4377		4267
4378	case OP_STRREF: /* string-ref */	4268	case OP_STRREF: /* string-ref */
4379	{	4269	{
4380	char *str;	4270	char *str = strvalue (x);
4381	int index;
4382
4383	str = strvalue (car (SCHEME_V->args));
4384
4385	index = ivalue (cadr (SCHEME_V->args));	4271	int index = ivalue_unchecked (cadr (args));
4386		4272
4387	if (index >= strlength (car (SCHEME_V->args)))	4273	if (index >= strlength (x))
4388	Error_1 ("string-ref: out of bounds:", cadr (SCHEME_V->args));	4274	Error_1 ("string-ref: out of bounds:", cadr (args));
4389		4275
4390	s_return (mk_character (SCHEME_A_ ((unsigned char *) str)[index]));	4276	s_return (mk_character (SCHEME_A_ ((unsigned char *)str)[index]));
4391	}	4277	}
4392		4278
4393	case OP_STRSET: /* string-set! */	4279	case OP_STRSET: /* string-set! */
4394	{	4280	{
4395	char *str;	4281	char *str = strvalue (x);
4396	int index;	4282	int index = ivalue_unchecked (cadr (args));
4397	int c;	4283	int c;
4398		4284
4399	if (is_immutable (car (SCHEME_V->args)))	4285	if (is_immutable (x))
4400	Error_1 ("string-set!: unable to alter immutable string:", car (SCHEME_V->args));	4286	Error_1 ("string-set!: unable to alter immutable string:", x);
4401		4287
4402	str = strvalue (car (SCHEME_V->args));
4403
4404	index = ivalue (cadr (SCHEME_V->args));
4405
4406	if (index >= strlength (car (SCHEME_V->args)))	4288	if (index >= strlength (x))
4407	Error_1 ("string-set!: out of bounds:", cadr (SCHEME_V->args));	4289	Error_1 ("string-set!: out of bounds:", cadr (args));
4408		4290
4409	c = charvalue (caddr (SCHEME_V->args));	4291	c = charvalue (caddr (args));
4410		4292
4411	str[index] = (char) c;	4293	str[index] = c;
4412	s_return (car (SCHEME_V->args));	4294	s_return (car (args));
4413	}	4295	}
4414		4296
4415	case OP_STRAPPEND: /* string-append */	4297	case OP_STRAPPEND: /* string-append */
4416	{	4298	{
4417	/* in 1.29 string-append was in Scheme in init.scm but was too slow */	4299	/* in 1.29 string-append was in Scheme in init.scm but was too slow */
4418	int len = 0;	4300	int len = 0;
4419	pointer newstr;	4301	pointer newstr;
4420	char *pos;	4302	char *pos;
4421		4303
4422	/* compute needed length for new string */	4304	/* compute needed length for new string */
4423	for (x = SCHEME_V->args; x != NIL; x = cdr (x))	4305	for (x = args; x != NIL; x = cdr (x))
4424	len += strlength (car (x));	4306	len += strlength (car (x));
4425		4307
4426	newstr = mk_empty_string (SCHEME_A_ len, ' ');	4308	newstr = mk_empty_string (SCHEME_A_ len, ' ');
4427		4309
4428	/* store the contents of the argument strings into the new string */	4310	/* 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))	4311	for (pos = strvalue (newstr), x = args; x != NIL; pos += strlength (car (x)), x = cdr (x))
4430	memcpy (pos, strvalue (car (x)), strlength (car (x)));	4312	memcpy (pos, strvalue (car (x)), strlength (car (x)));
4431		4313
4432	s_return (newstr);	4314	s_return (newstr);
4433	}	4315	}
4434		4316
4435	case OP_SUBSTR: /* substring */	4317	case OP_SUBSTR: /* substring */
4436	{	4318	{
4437	char *str;	4319	char *str = strvalue (x);
4438	int index0;	4320	int index0 = ivalue_unchecked (cadr (args));
4439	int index1;	4321	int index1;
4440	int len;	4322	int len;
4441		4323
4442	str = strvalue (car (SCHEME_V->args));
4443
4444	index0 = ivalue (cadr (SCHEME_V->args));
4445
4446	if (index0 > strlength (car (SCHEME_V->args)))	4324	if (index0 > strlength (x))
4447	Error_1 ("substring: start out of bounds:", cadr (SCHEME_V->args));	4325	Error_1 ("substring: start out of bounds:", cadr (args));
4448		4326
4449	if (cddr (SCHEME_V->args) != NIL)	4327	if (cddr (args) != NIL)
4450	{	4328	{
4451	index1 = ivalue (caddr (SCHEME_V->args));	4329	index1 = ivalue_unchecked (caddr (args));
4452		4330
4453	if (index1 > strlength (car (SCHEME_V->args)) || index1 < index0)	4331	if (index1 > strlength (x) || index1 < index0)
4454	Error_1 ("substring: end out of bounds:", caddr (SCHEME_V->args));	4332	Error_1 ("substring: end out of bounds:", caddr (args));
4455	}	4333	}
4456	else	4334	else
4457	index1 = strlength (car (SCHEME_V->args));	4335	index1 = strlength (x);
4458		4336
4459	len = index1 - index0;	4337	len = index1 - index0;
4460	x = mk_empty_string (SCHEME_A_ len, ' ');	4338	x = mk_empty_string (SCHEME_A_ len, ' ');
4461	memcpy (strvalue (x), str + index0, len);	4339	memcpy (strvalue (x), str + index0, len);
4462	strvalue (x)[len] = 0;	4340	strvalue (x)[len] = 0;
…		…
4466		4344
4467	case OP_VECTOR: /* vector */	4345	case OP_VECTOR: /* vector */
4468	{	4346	{
4469	int i;	4347	int i;
4470	pointer vec;	4348	pointer vec;
4471	int len = list_length (SCHEME_A_ SCHEME_V->args);	4349	int len = list_length (SCHEME_A_ args);
4472		4350
4473	if (len < 0)	4351	if (len < 0)
4474	Error_1 ("vector: not a proper list:", SCHEME_V->args);	4352	Error_1 ("vector: not a proper list:", args);
4475		4353
4476	vec = mk_vector (SCHEME_A_ len);	4354	vec = mk_vector (SCHEME_A_ len);
4477		4355
4478	#if USE_ERROR_CHECKING	4356	#if USE_ERROR_CHECKING
4479	if (SCHEME_V->no_memory)	4357	if (SCHEME_V->no_memory)
4480	s_return (S_SINK);	4358	s_return (S_SINK);
4481	#endif	4359	#endif
4482		4360
4483	for (x = SCHEME_V->args, i = 0; is_pair (x); x = cdr (x), i++)	4361	for (x = args, i = 0; is_pair (x); x = cdr (x), i++)
4484	set_vector_elem (vec, i, car (x));	4362	vector_set (vec, i, car (x));
4485		4363
4486	s_return (vec);	4364	s_return (vec);
4487	}	4365	}
4488		4366
4489	case OP_MKVECTOR: /* make-vector */	4367	case OP_MKVECTOR: /* make-vector */
4490	{	4368	{
4491	pointer fill = NIL;	4369	pointer fill = NIL;
4492	int len;
4493	pointer vec;	4370	pointer vec;
		4371	int len = ivalue_unchecked (x);
4494		4372
4495	len = ivalue (car (SCHEME_V->args));
4496
4497	if (cdr (SCHEME_V->args) != NIL)	4373	if (cdr (args) != NIL)
4498	fill = cadr (SCHEME_V->args);	4374	fill = cadr (args);
4499		4375
4500	vec = mk_vector (SCHEME_A_ len);	4376	vec = mk_vector (SCHEME_A_ len);
4501		4377
4502	#if USE_ERROR_CHECKING	4378	#if USE_ERROR_CHECKING
4503	if (SCHEME_V->no_memory)	4379	if (SCHEME_V->no_memory)
4504	s_return (S_SINK);	4380	s_return (S_SINK);
4505	#endif	4381	#endif
4506		4382
4507	if (fill != NIL)	4383	if (fill != NIL)
4508	fill_vector (vec, fill);	4384	fill_vector (vec, 0, fill);
4509		4385
4510	s_return (vec);	4386	s_return (vec);
4511	}	4387	}
4512		4388
4513	case OP_VECLEN: /* vector-length */	4389	case OP_VECLEN: /* vector-length */
4514	s_return (mk_integer (SCHEME_A_ veclength (car (SCHEME_V->args))));	4390	s_return (mk_integer (SCHEME_A_ veclength (x)));
4515		4391
4516	case OP_VECREF: /* vector-ref */	4392	case OP_VECREF: /* vector-ref */
4517	{	4393	{
4518	int index;
4519
4520	index = ivalue (cadr (SCHEME_V->args));	4394	int index = ivalue_unchecked (cadr (args));
4521		4395
4522	if (index >= veclength (car (SCHEME_V->args)) && USE_ERROR_CHECKING)	4396	if (index >= veclength (car (args)) && USE_ERROR_CHECKING)
4523	Error_1 ("vector-ref: out of bounds:", cadr (SCHEME_V->args));	4397	Error_1 ("vector-ref: out of bounds:", cadr (args));
4524		4398
4525	s_return (vector_elem (car (SCHEME_V->args), index));	4399	s_return (vector_get (x, index));
4526	}	4400	}
4527		4401
4528	case OP_VECSET: /* vector-set! */	4402	case OP_VECSET: /* vector-set! */
4529	{	4403	{
4530	int index;	4404	int index = ivalue_unchecked (cadr (args));
4531		4405
4532	if (is_immutable (car (SCHEME_V->args)))	4406	if (is_immutable (x))
4533	Error_1 ("vector-set!: unable to alter immutable vector:", car (SCHEME_V->args));	4407	Error_1 ("vector-set!: unable to alter immutable vector:", x);
4534		4408
4535	index = ivalue (cadr (SCHEME_V->args));
4536
4537	if (index >= veclength (car (SCHEME_V->args)) && USE_ERROR_CHECKING)	4409	if (index >= veclength (car (args)) && USE_ERROR_CHECKING)
4538	Error_1 ("vector-set!: out of bounds:", cadr (SCHEME_V->args));	4410	Error_1 ("vector-set!: out of bounds:", cadr (args));
4539		4411
4540	set_vector_elem (car (SCHEME_V->args), index, caddr (SCHEME_V->args));	4412	vector_set (x, index, caddr (args));
4541	s_return (car (SCHEME_V->args));	4413	s_return (x);
4542	}	4414	}
4543	}	4415	}
4544		4416
4545	return S_T;	4417	if (USE_ERROR_CHECKING) abort ();
4546	}	4418	}
4547		4419
4548	INTERFACE int	4420	static int
4549	is_list (SCHEME_P_ pointer a)	4421	opexe_2 (SCHEME_P_ enum scheme_opcodes op)
4550	{	4422	{
4551	return list_length (SCHEME_A_ a) >= 0;	4423	pointer x = SCHEME_V->args;
4552	}
4553		4424
4554	/* Result is:	4425	for (;;)
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	{	4426	{
		4427	num v = nvalue (car (x));
		4428	x = cdr (x);
		4429
4570	if (fast == NIL)	4430	if (x == NIL)
4571	return i;	4431	break;
4572		4432
4573	if (!is_pair (fast))	4433	int r = num_cmp (v, nvalue (car (x)));
4574	return -2 - i;
4575		4434
4576	fast = cdr (fast);	4435	switch (op)
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	{	4436	{
4594	/* the fast pointer has looped back around and caught up	4437	case OP_NUMEQ: r = r == 0; break;
4595	with the slow pointer, hence the structure is circular,	4438	case OP_LESS: r = r < 0; break;
4596	not of finite length, and therefore not a list */	4439	case OP_GRE: r = r > 0; break;
4597	return -1;	4440	case OP_LEQ: r = r <= 0; break;
		4441	case OP_GEQ: r = r >= 0; break;
4598	}	4442	}
4599	}
4600	}
4601		4443
		4444	if (!r)
		4445	s_return (S_F);
		4446	}
		4447
		4448	s_return (S_T);
		4449	}
		4450
4602	static pointer	4451	static int
4603	opexe_3 (SCHEME_P_ enum scheme_opcodes op)	4452	opexe_3 (SCHEME_P_ enum scheme_opcodes op)
4604	{	4453	{
4605	pointer x;	4454	pointer args = SCHEME_V->args;
4606	num v;	4455	pointer a = car (args);
4607	int (*comp_func) (num, num);	4456	pointer d = cdr (args);
		4457	int r;
4608		4458
4609	switch (op)	4459	switch (op)
4610	{	4460	{
4611	case OP_NOT: /* not */	4461	case OP_NOT: /* not */ r = is_false (a) ; break;
4612	s_retbool (is_false (car (SCHEME_V->args)));	4462	case OP_BOOLP: /* boolean? */ r = a == S_F || a == S_T; break;
		4463	case OP_EOFOBJP: /* eof-object? */ r = a == S_EOF ; break;
		4464	case OP_NULLP: /* null? */ r = a == NIL ; break;
		4465	case OP_SYMBOLP: /* symbol? */ r = is_symbol (a) ; break;
		4466	case OP_NUMBERP: /* number? */ r = is_number (a) ; break;
		4467	case OP_STRINGP: /* string? */ r = is_string (a) ; break;
		4468	case OP_INTEGERP: /* integer? */ r = is_integer (a) ; break;
		4469	case OP_REALP: /* real? */ r = is_number (a) ; break; /* all numbers are real */
		4470	case OP_CHARP: /* char? */ r = is_character (a) ; break;
4613		4471
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	4472	#if USE_CHAR_CLASSIFIERS
4683		4473	case OP_CHARAP: /* char-alphabetic? */ r = Cisalpha (ivalue_unchecked (a)); break;
4684	case OP_CHARAP: /* char-alphabetic? */	4474	case OP_CHARNP: /* char-numeric? */ r = Cisdigit (ivalue_unchecked (a)); break;
4685	s_retbool (Cisalpha (ivalue (car (SCHEME_V->args))));	4475	case OP_CHARWP: /* char-whitespace? */ r = Cisspace (ivalue_unchecked (a)); break;
4686		4476	case OP_CHARUP: /* char-upper-case? */ r = Cisupper (ivalue_unchecked (a)); break;
4687	case OP_CHARNP: /* char-numeric? */	4477	case OP_CHARLP: /* char-lower-case? */ r = Cislower (ivalue_unchecked (a)); break;
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	4478	#endif
		4479
4699	#if USE_PORTS	4480	#if USE_PORTS
4700		4481	case OP_PORTP: /* port? */ r = is_port (a) ; break;
4701	case OP_PORTP: /* port? */
4702	s_retbool (is_port (car (SCHEME_V->args)));
4703
4704	case OP_INPORTP: /* input-port? */	4482	case OP_INPORTP: /* input-port? */ r = is_inport (a) ; break;
4705	s_retbool (is_inport (car (SCHEME_V->args)));
4706
4707	case OP_OUTPORTP: /* output-port? */	4483	case OP_OUTPORTP: /* output-port? */ r = is_outport (a); break;
4708	s_retbool (is_outport (car (SCHEME_V->args)));
4709	#endif	4484	#endif
4710		4485
4711	case OP_PROCP: /* procedure? */	4486	case OP_PROCP: /* procedure? */
4712		4487
4713	/*--	4488	/*--
4714	* continuation should be procedure by the example	4489	* continuation should be procedure by the example
4715	* (call-with-current-continuation procedure?) ==> #t	4490	* (call-with-current-continuation procedure?) ==> #t
4716	* in R^3 report sec. 6.9	4491	* in R^3 report sec. 6.9
4717	*/	4492	*/
4718	s_retbool (is_proc (car (SCHEME_V->args)) || is_closure (car (SCHEME_V->args))	4493	r = is_proc (a) || is_closure (a) || is_continuation (a) || is_foreign (a);
4719	|| is_continuation (car (SCHEME_V->args)) || is_foreign (car (SCHEME_V->args)));	4494	break;
4720		4495
4721	case OP_PAIRP: /* pair? */	4496	case OP_PAIRP: /* pair? */ r = is_pair (a) ; break;
4722	s_retbool (is_pair (car (SCHEME_V->args)));	4497	case OP_LISTP: /* list? */ r = list_length (SCHEME_A_ a) >= 0; break;
4723		4498	case OP_ENVP: /* environment? */ r = is_environment (a) ; break;
4724	case OP_LISTP: /* list? */	4499	case OP_VECTORP: /* vector? */ r = is_vector (a) ; break;
4725	s_retbool (list_length (SCHEME_A_ car (SCHEME_V->args)) >= 0);	4500	case OP_EQ: /* eq? */ r = a == cadr (args) ; break;
4726		4501	case OP_EQV: /* eqv? */ r = eqv (a, cadr (args)) ; break;
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	}	4502	}
4739		4503
4740	return S_T;	4504	s_retbool (r);
4741	}	4505	}
4742		4506
4743	static pointer	4507	static int
4744	opexe_4 (SCHEME_P_ enum scheme_opcodes op)	4508	opexe_4 (SCHEME_P_ enum scheme_opcodes op)
4745	{	4509	{
		4510	pointer args = SCHEME_V->args;
		4511	pointer a = car (args);
4746	pointer x, y;	4512	pointer x, y;
4747		4513
4748	switch (op)	4514	switch (op)
4749	{	4515	{
4750	case OP_FORCE: /* force */	4516	case OP_FORCE: /* force */
4751	SCHEME_V->code = car (SCHEME_V->args);	4517	SCHEME_V->code = a;
4752		4518
4753	if (is_promise (SCHEME_V->code))	4519	if (is_promise (SCHEME_V->code))
4754	{	4520	{
4755	/* Should change type to closure here */	4521	/* Should change type to closure here */
4756	s_save (SCHEME_A_ OP_SAVE_FORCED, NIL, SCHEME_V->code);	4522	s_save (SCHEME_A_ OP_SAVE_FORCED, NIL, SCHEME_V->code);
…		…
4777	s_save (SCHEME_A_ OP_SET_OUTPORT, x, NIL);	4543	s_save (SCHEME_A_ OP_SET_OUTPORT, x, NIL);
4778	SCHEME_V->outport = cadr (SCHEME_V->args);	4544	SCHEME_V->outport = cadr (SCHEME_V->args);
4779	}	4545	}
4780	}	4546	}
4781		4547
4782	SCHEME_V->args = car (SCHEME_V->args);	4548	SCHEME_V->args = a;
4783		4549
4784	if (op == OP_WRITE)	4550	if (op == OP_WRITE)
4785	SCHEME_V->print_flag = 1;	4551	SCHEME_V->print_flag = 1;
4786	else	4552	else
4787	SCHEME_V->print_flag = 0;	4553	SCHEME_V->print_flag = 0;
4788		4554
4789	s_goto (OP_P0LIST);	4555	s_goto (OP_P0LIST);
4790		4556
4791	case OP_NEWLINE: /* newline */	4557	case OP_NEWLINE: /* newline */
4792	if (is_pair (SCHEME_V->args))	4558	if (is_pair (args))
4793	{	4559	{
4794	if (car (SCHEME_V->args) != SCHEME_V->outport)	4560	if (a != SCHEME_V->outport)
4795	{	4561	{
4796	x = cons (SCHEME_V->outport, NIL);	4562	x = cons (SCHEME_V->outport, NIL);
4797	s_save (SCHEME_A_ OP_SET_OUTPORT, x, NIL);	4563	s_save (SCHEME_A_ OP_SET_OUTPORT, x, NIL);
4798	SCHEME_V->outport = car (SCHEME_V->args);	4564	SCHEME_V->outport = a;
4799	}	4565	}
4800	}	4566	}
4801		4567
4802	putstr (SCHEME_A_ "\n");	4568	putstr (SCHEME_A_ "\n");
4803	s_return (S_T);	4569	s_return (S_T);
4804	#endif	4570	#endif
4805		4571
4806	case OP_ERR0: /* error */	4572	case OP_ERR0: /* error */
4807	SCHEME_V->retcode = -1;	4573	SCHEME_V->retcode = -1;
4808		4574
4809	if (!is_string (car (SCHEME_V->args)))	4575	if (!is_string (a))
4810	{	4576	{
4811	SCHEME_V->args = cons (mk_string (SCHEME_A_ " -- "), SCHEME_V->args);	4577	args = cons (mk_string (SCHEME_A_ " -- "), args);
4812	setimmutable (car (SCHEME_V->args));	4578	setimmutable (car (args));
4813	}	4579	}
4814		4580
4815	putstr (SCHEME_A_ "Error: ");	4581	putstr (SCHEME_A_ "Error: ");
4816	putstr (SCHEME_A_ strvalue (car (SCHEME_V->args)));	4582	putstr (SCHEME_A_ strvalue (car (args)));
4817	SCHEME_V->args = cdr (SCHEME_V->args);	4583	SCHEME_V->args = cdr (args);
4818	s_goto (OP_ERR1);	4584	s_goto (OP_ERR1);
4819		4585
4820	case OP_ERR1: /* error */	4586	case OP_ERR1: /* error */
4821	putstr (SCHEME_A_ " ");	4587	putstr (SCHEME_A_ " ");
4822		4588
4823	if (SCHEME_V->args != NIL)	4589	if (args != NIL)
4824	{	4590	{
4825	s_save (SCHEME_A_ OP_ERR1, cdr (SCHEME_V->args), NIL);	4591	s_save (SCHEME_A_ OP_ERR1, cdr (args), NIL);
4826	SCHEME_V->args = car (SCHEME_V->args);	4592	SCHEME_V->args = a;
4827	SCHEME_V->print_flag = 1;	4593	SCHEME_V->print_flag = 1;
4828	s_goto (OP_P0LIST);	4594	s_goto (OP_P0LIST);
4829	}	4595	}
4830	else	4596	else
4831	{	4597	{
4832	putstr (SCHEME_A_ "\n");	4598	putstr (SCHEME_A_ "\n");
4833		4599
4834	if (SCHEME_V->interactive_repl)	4600	if (SCHEME_V->interactive_repl)
4835	s_goto (OP_T0LVL);	4601	s_goto (OP_T0LVL);
4836	else	4602	else
4837	return NIL;	4603	return -1;
4838	}	4604	}
4839		4605
4840	case OP_REVERSE: /* reverse */	4606	case OP_REVERSE: /* reverse */
4841	s_return (reverse (SCHEME_A_ car (SCHEME_V->args)));	4607	s_return (reverse (SCHEME_A_ a));
4842		4608
4843	case OP_LIST_STAR: /* list* */	4609	case OP_LIST_STAR: /* list* */
4844	s_return (list_star (SCHEME_A_ SCHEME_V->args));	4610	s_return (list_star (SCHEME_A_ SCHEME_V->args));
4845		4611
4846	case OP_APPEND: /* append */	4612	case OP_APPEND: /* append */
4847	x = NIL;	4613	x = NIL;
4848	y = SCHEME_V->args;	4614	y = args;
4849		4615
4850	if (y == x)	4616	if (y == x)
4851	s_return (x);	4617	s_return (x);
4852		4618
4853	/* cdr() in the while condition is not a typo. If car() */	4619	/* cdr() in the while condition is not a typo. If car() */
…		…
4864	s_return (reverse_in_place (SCHEME_A_ car (y), x));	4630	s_return (reverse_in_place (SCHEME_A_ car (y), x));
4865		4631
4866	#if USE_PLIST	4632	#if USE_PLIST
4867		4633
4868	case OP_PUT: /* put */	4634	case OP_PUT: /* put */
4869	if (!hasprop (car (SCHEME_V->args)) || !hasprop (cadr (SCHEME_V->args)))	4635	if (!hasprop (a) || !hasprop (cadr (args)))
4870	Error_0 ("illegal use of put");	4636	Error_0 ("illegal use of put");
4871		4637
4872	for (x = symprop (car (SCHEME_V->args)), y = cadr (SCHEME_V->args); x != NIL; x = cdr (x))	4638	for (x = symprop (a), y = cadr (args); x != NIL; x = cdr (x))
4873	{	4639	{
4874	if (caar (x) == y)	4640	if (caar (x) == y)
4875	break;	4641	break;
4876	}	4642	}
4877		4643
4878	if (x != NIL)	4644	if (x != NIL)
4879	cdar (x) = caddr (SCHEME_V->args);	4645	cdar (x) = caddr (args);
4880	else	4646	else
4881	symprop (car (SCHEME_V->args)) = cons (cons (y, caddr (SCHEME_V->args)), symprop (car (SCHEME_V->args)));	4647	symprop (a) = cons (cons (y, caddr (args)), symprop (a));
4882		4648
4883	s_return (S_T);	4649	s_return (S_T);
4884		4650
4885	case OP_GET: /* get */	4651	case OP_GET: /* get */
4886	if (!hasprop (car (SCHEME_V->args)) || !hasprop (cadr (SCHEME_V->args)))	4652	if (!hasprop (a) || !hasprop (cadr (args)))
4887	Error_0 ("illegal use of get");	4653	Error_0 ("illegal use of get");
4888		4654
4889	for (x = symprop (car (SCHEME_V->args)), y = cadr (SCHEME_V->args); x != NIL; x = cdr (x))	4655	for (x = symprop (a), y = cadr (args); x != NIL; x = cdr (x))
4890	if (caar (x) == y)	4656	if (caar (x) == y)
4891	break;	4657	break;
4892		4658
4893	if (x != NIL)	4659	if (x != NIL)
4894	s_return (cdar (x));	4660	s_return (cdar (x));
…		…
4896	s_return (NIL);	4662	s_return (NIL);
4897		4663
4898	#endif /* USE_PLIST */	4664	#endif /* USE_PLIST */
4899		4665
4900	case OP_QUIT: /* quit */	4666	case OP_QUIT: /* quit */
4901	if (is_pair (SCHEME_V->args))	4667	if (is_pair (args))
4902	SCHEME_V->retcode = ivalue (car (SCHEME_V->args));	4668	SCHEME_V->retcode = ivalue (a);
4903		4669
4904	return NIL;	4670	return -1;
4905		4671
4906	case OP_GC: /* gc */	4672	case OP_GC: /* gc */
4907	gc (SCHEME_A_ NIL, NIL);	4673	gc (SCHEME_A_ NIL, NIL);
4908	s_return (S_T);	4674	s_return (S_T);
4909		4675
4910	case OP_GCVERB: /* gc-verbose */	4676	case OP_GCVERB: /* gc-verbose */
4911	{	4677	{
4912	int was = SCHEME_V->gc_verbose;	4678	int was = SCHEME_V->gc_verbose;
4913		4679
4914	SCHEME_V->gc_verbose = (car (SCHEME_V->args) != S_F);	4680	SCHEME_V->gc_verbose = (a != S_F);
4915	s_retbool (was);	4681	s_retbool (was);
4916	}	4682	}
4917		4683
4918	case OP_NEWSEGMENT: /* new-segment */	4684	case OP_NEWSEGMENT: /* new-segment */
4919	if (!is_pair (SCHEME_V->args) || !is_number (car (SCHEME_V->args)))	4685	if (!is_pair (args) || !is_number (a))
4920	Error_0 ("new-segment: argument must be a number");	4686	Error_0 ("new-segment: argument must be a number");
4921		4687
4922	alloc_cellseg (SCHEME_A_ (int)ivalue (car (SCHEME_V->args)));	4688	alloc_cellseg (SCHEME_A_ ivalue (a));
4923		4689
4924	s_return (S_T);	4690	s_return (S_T);
4925		4691
4926	case OP_OBLIST: /* oblist */	4692	case OP_OBLIST: /* oblist */
4927	s_return (oblist_all_symbols (SCHEME_A));	4693	s_return (oblist_all_symbols (SCHEME_A));
…		…
4954	case OP_OPEN_INOUTFILE:	4720	case OP_OPEN_INOUTFILE:
4955	prop = port_input | port_output;	4721	prop = port_input | port_output;
4956	break;	4722	break;
4957	}	4723	}
4958		4724
4959	p = port_from_filename (SCHEME_A_ strvalue (car (SCHEME_V->args)), prop);	4725	p = port_from_filename (SCHEME_A_ strvalue (a), prop);
4960		4726
4961	if (p == NIL)	4727	s_return (p == NIL ? S_F : p);
4962	s_return (S_F);
4963
4964	s_return (p);
4965	}	4728	}
4966		4729
4967	# if USE_STRING_PORTS	4730	# if USE_STRING_PORTS
4968		4731
4969	case OP_OPEN_INSTRING: /* open-input-string */	4732	case OP_OPEN_INSTRING: /* open-input-string */
…		…
4981	case OP_OPEN_INOUTSTRING:	4744	case OP_OPEN_INOUTSTRING:
4982	prop = port_input | port_output;	4745	prop = port_input | port_output;
4983	break;	4746	break;
4984	}	4747	}
4985		4748
4986	p = port_from_string (SCHEME_A_ strvalue (car (SCHEME_V->args)),	4749	p = port_from_string (SCHEME_A_ strvalue (a),
4987	strvalue (car (SCHEME_V->args)) + strlength (car (SCHEME_V->args)), prop);	4750	strvalue (a) + strlength (a), prop);
4988		4751
4989	if (p == NIL)	4752	s_return (p == NIL ? S_F : p);
4990	s_return (S_F);
4991
4992	s_return (p);
4993	}	4753	}
4994		4754
4995	case OP_OPEN_OUTSTRING: /* open-output-string */	4755	case OP_OPEN_OUTSTRING: /* open-output-string */
4996	{	4756	{
4997	pointer p;	4757	pointer p;
4998		4758
4999	if (car (SCHEME_V->args) == NIL)	4759	if (a == NIL)
5000	{
5001	p = port_from_scratch (SCHEME_A);	4760	p = port_from_scratch (SCHEME_A);
5002
5003	if (p == NIL)
5004	s_return (S_F);
5005	}
5006	else	4761	else
5007	{
5008	p = port_from_string (SCHEME_A_ strvalue (car (SCHEME_V->args)),	4762	p = port_from_string (SCHEME_A_ strvalue (a),
5009	strvalue (car (SCHEME_V->args)) + strlength (car (SCHEME_V->args)), port_output);	4763	strvalue (a) + strlength (a), port_output);
5010		4764
5011	if (p == NIL)	4765	s_return (p == NIL ? S_F : p);
5012	s_return (S_F);
5013	}
5014
5015	s_return (p);
5016	}	4766	}
5017		4767
5018	case OP_GET_OUTSTRING: /* get-output-string */	4768	case OP_GET_OUTSTRING: /* get-output-string */
5019	{	4769	{
5020	port *p;	4770	port *p;
5021		4771
5022	if ((p = car (SCHEME_V->args)->object.port)->kind & port_string)	4772	if ((p = a->object.port)->kind & port_string)
5023	{	4773	{
5024	off_t size;	4774	off_t size;
5025	char *str;	4775	char *str;
5026		4776
5027	size = p->rep.string.curr - p->rep.string.start + 1;	4777	size = p->rep.string.curr - p->rep.string.start + 1;
…		…
5043	}	4793	}
5044		4794
5045	# endif	4795	# endif
5046		4796
5047	case OP_CLOSE_INPORT: /* close-input-port */	4797	case OP_CLOSE_INPORT: /* close-input-port */
5048	port_close (SCHEME_A_ car (SCHEME_V->args), port_input);	4798	port_close (SCHEME_A_ a, port_input);
5049	s_return (S_T);	4799	s_return (S_T);
5050		4800
5051	case OP_CLOSE_OUTPORT: /* close-output-port */	4801	case OP_CLOSE_OUTPORT: /* close-output-port */
5052	port_close (SCHEME_A_ car (SCHEME_V->args), port_output);	4802	port_close (SCHEME_A_ a, port_output);
5053	s_return (S_T);	4803	s_return (S_T);
5054	#endif	4804	#endif
5055		4805
5056	case OP_INT_ENV: /* interaction-environment */	4806	case OP_INT_ENV: /* interaction-environment */
5057	s_return (SCHEME_V->global_env);	4807	s_return (SCHEME_V->global_env);
…		…
5059	case OP_CURR_ENV: /* current-environment */	4809	case OP_CURR_ENV: /* current-environment */
5060	s_return (SCHEME_V->envir);	4810	s_return (SCHEME_V->envir);
5061		4811
5062	}	4812	}
5063		4813
5064	return S_T;	4814	if (USE_ERROR_CHECKING) abort ();
5065	}	4815	}
5066		4816
5067	static pointer	4817	static int
5068	opexe_5 (SCHEME_P_ enum scheme_opcodes op)	4818	opexe_5 (SCHEME_P_ enum scheme_opcodes op)
5069	{	4819	{
		4820	pointer args = SCHEME_V->args;
5070	pointer x;	4821	pointer x;
5071		4822
5072	if (SCHEME_V->nesting != 0)	4823	if (SCHEME_V->nesting != 0)
5073	{	4824	{
5074	int n = SCHEME_V->nesting;	4825	int n = SCHEME_V->nesting;
…		…
5081	switch (op)	4832	switch (op)
5082	{	4833	{
5083	/* ========== reading part ========== */	4834	/* ========== reading part ========== */
5084	#if USE_PORTS	4835	#if USE_PORTS
5085	case OP_READ:	4836	case OP_READ:
5086	if (!is_pair (SCHEME_V->args))	4837	if (!is_pair (args))
5087	s_goto (OP_READ_INTERNAL);	4838	s_goto (OP_READ_INTERNAL);
5088		4839
5089	if (!is_inport (car (SCHEME_V->args)))	4840	if (!is_inport (car (args)))
5090	Error_1 ("read: not an input port:", car (SCHEME_V->args));	4841	Error_1 ("read: not an input port:", car (args));
5091		4842
5092	if (car (SCHEME_V->args) == SCHEME_V->inport)	4843	if (car (args) == SCHEME_V->inport)
5093	s_goto (OP_READ_INTERNAL);	4844	s_goto (OP_READ_INTERNAL);
5094		4845
5095	x = SCHEME_V->inport;	4846	x = SCHEME_V->inport;
5096	SCHEME_V->inport = car (SCHEME_V->args);	4847	SCHEME_V->inport = car (args);
5097	x = cons (x, NIL);	4848	x = cons (x, NIL);
5098	s_save (SCHEME_A_ OP_SET_INPORT, x, NIL);	4849	s_save (SCHEME_A_ OP_SET_INPORT, x, NIL);
5099	s_goto (OP_READ_INTERNAL);	4850	s_goto (OP_READ_INTERNAL);
5100		4851
5101	case OP_READ_CHAR: /* read-char */	4852	case OP_READ_CHAR: /* read-char */
5102	case OP_PEEK_CHAR: /* peek-char */	4853	case OP_PEEK_CHAR: /* peek-char */
5103	{	4854	{
5104	int c;	4855	int c;
5105		4856
5106	if (is_pair (SCHEME_V->args))	4857	if (is_pair (args))
5107	{	4858	{
5108	if (car (SCHEME_V->args) != SCHEME_V->inport)	4859	if (car (args) != SCHEME_V->inport)
5109	{	4860	{
5110	x = SCHEME_V->inport;	4861	x = SCHEME_V->inport;
5111	x = cons (x, NIL);	4862	x = cons (x, NIL);
5112	s_save (SCHEME_A_ OP_SET_INPORT, x, NIL);	4863	s_save (SCHEME_A_ OP_SET_INPORT, x, NIL);
5113	SCHEME_V->inport = car (SCHEME_V->args);	4864	SCHEME_V->inport = car (args);
5114	}	4865	}
5115	}	4866	}
5116		4867
5117	c = inchar (SCHEME_A);	4868	c = inchar (SCHEME_A);
5118		4869
…		…
5128	case OP_CHAR_READY: /* char-ready? */	4879	case OP_CHAR_READY: /* char-ready? */
5129	{	4880	{
5130	pointer p = SCHEME_V->inport;	4881	pointer p = SCHEME_V->inport;
5131	int res;	4882	int res;
5132		4883
5133	if (is_pair (SCHEME_V->args))	4884	if (is_pair (args))
5134	p = car (SCHEME_V->args);	4885	p = car (args);
5135		4886
5136	res = p->object.port->kind & port_string;	4887	res = p->object.port->kind & port_string;
5137		4888
5138	s_retbool (res);	4889	s_retbool (res);
5139	}	4890	}
5140		4891
5141	case OP_SET_INPORT: /* set-input-port */	4892	case OP_SET_INPORT: /* set-input-port */
5142	SCHEME_V->inport = car (SCHEME_V->args);	4893	SCHEME_V->inport = car (args);
5143	s_return (SCHEME_V->value);	4894	s_return (SCHEME_V->value);
5144		4895
5145	case OP_SET_OUTPORT: /* set-output-port */	4896	case OP_SET_OUTPORT: /* set-output-port */
5146	SCHEME_V->outport = car (SCHEME_V->args);	4897	SCHEME_V->outport = car (args);
5147	s_return (SCHEME_V->value);	4898	s_return (SCHEME_V->value);
5148	#endif	4899	#endif
5149		4900
5150	case OP_RDSEXPR:	4901	case OP_RDSEXPR:
5151	switch (SCHEME_V->tok)	4902	switch (SCHEME_V->tok)
…		…
5237	}	4988	}
5238		4989
5239	break;	4990	break;
5240		4991
5241	case OP_RDLIST:	4992	case OP_RDLIST:
5242	SCHEME_V->args = cons (SCHEME_V->value, SCHEME_V->args);	4993	SCHEME_V->args = cons (SCHEME_V->value, args);
5243	SCHEME_V->tok = token (SCHEME_A);	4994	SCHEME_V->tok = token (SCHEME_A);
5244		4995
5245	switch (SCHEME_V->tok)	4996	switch (SCHEME_V->tok)
5246	{	4997	{
5247	case TOK_EOF:	4998	case TOK_EOF:
…		…
5275	case OP_RDDOT:	5026	case OP_RDDOT:
5276	if (token (SCHEME_A) != TOK_RPAREN)	5027	if (token (SCHEME_A) != TOK_RPAREN)
5277	Error_0 ("syntax error: illegal dot expression");	5028	Error_0 ("syntax error: illegal dot expression");
5278		5029
5279	SCHEME_V->nesting_stack[SCHEME_V->file_i]--;	5030	SCHEME_V->nesting_stack[SCHEME_V->file_i]--;
5280	s_return (reverse_in_place (SCHEME_A_ SCHEME_V->value, SCHEME_V->args));	5031	s_return (reverse_in_place (SCHEME_A_ SCHEME_V->value, args));
5281		5032
5282	case OP_RDQUOTE:	5033	case OP_RDQUOTE:
5283	s_return (cons (SCHEME_V->QUOTE, cons (SCHEME_V->value, NIL)));	5034	s_return (cons (SCHEME_V->QUOTE, cons (SCHEME_V->value, NIL)));
5284		5035
5285	case OP_RDQQUOTE:	5036	case OP_RDQQUOTE:
…		…
5307	SCHEME_V->args = SCHEME_V->value;	5058	SCHEME_V->args = SCHEME_V->value;
5308	s_goto (OP_VECTOR);	5059	s_goto (OP_VECTOR);
5309		5060
5310	/* ========== printing part ========== */	5061	/* ========== printing part ========== */
5311	case OP_P0LIST:	5062	case OP_P0LIST:
5312	if (is_vector (SCHEME_V->args))	5063	if (is_vector (args))
5313	{	5064	{
5314	putstr (SCHEME_A_ "#(");	5065	putstr (SCHEME_A_ "#(");
5315	SCHEME_V->args = cons (SCHEME_V->args, mk_integer (SCHEME_A_ 0));	5066	SCHEME_V->args = cons (args, mk_integer (SCHEME_A_ 0));
5316	s_goto (OP_PVECFROM);	5067	s_goto (OP_PVECFROM);
5317	}	5068	}
5318	else if (is_environment (SCHEME_V->args))	5069	else if (is_environment (args))
5319	{	5070	{
5320	putstr (SCHEME_A_ "#<ENVIRONMENT>");	5071	putstr (SCHEME_A_ "#<ENVIRONMENT>");
5321	s_return (S_T);	5072	s_return (S_T);
5322	}	5073	}
5323	else if (!is_pair (SCHEME_V->args))	5074	else if (!is_pair (args))
5324	{	5075	{
5325	printatom (SCHEME_A_ SCHEME_V->args, SCHEME_V->print_flag);	5076	printatom (SCHEME_A_ args, SCHEME_V->print_flag);
5326	s_return (S_T);	5077	s_return (S_T);
5327	}	5078	}
5328	else if (car (SCHEME_V->args) == SCHEME_V->QUOTE && ok_abbrev (cdr (SCHEME_V->args)))	5079	else
5329	{	5080	{
		5081	pointer a = car (args);
		5082	pointer b = cdr (args);
		5083	int ok_abbr = ok_abbrev (b);
		5084	SCHEME_V->args = car (b);
		5085
		5086	if (a == SCHEME_V->QUOTE && ok_abbr)
5330	putstr (SCHEME_A_ "'");	5087	putstr (SCHEME_A_ "'");
5331	SCHEME_V->args = cadr (SCHEME_V->args);	5088	else if (a == SCHEME_V->QQUOTE && ok_abbr)
		5089	putstr (SCHEME_A_ "`");
		5090	else if (a == SCHEME_V->UNQUOTE && ok_abbr)
		5091	putstr (SCHEME_A_ ",");
		5092	else if (a == SCHEME_V->UNQUOTESP && ok_abbr)
		5093	putstr (SCHEME_A_ ",@");
		5094	else
		5095	{
		5096	putstr (SCHEME_A_ "(");
		5097	s_save (SCHEME_A_ OP_P1LIST, b, NIL);
		5098	SCHEME_V->args = a;
		5099	}
		5100
5332	s_goto (OP_P0LIST);	5101	s_goto (OP_P0LIST);
5333	}	5102	}
5334	else if (car (SCHEME_V->args) == SCHEME_V->QQUOTE && ok_abbrev (cdr (SCHEME_V->args)))	5103
		5104	case OP_P1LIST:
		5105	if (is_pair (args))
5335	{	5106	{
		5107	s_save (SCHEME_A_ OP_P1LIST, cdr (args), NIL);
5336	putstr (SCHEME_A_ "`");	5108	putstr (SCHEME_A_ " ");
5337	SCHEME_V->args = cadr (SCHEME_V->args);	5109	SCHEME_V->args = car (args);
5338	s_goto (OP_P0LIST);	5110	s_goto (OP_P0LIST);
5339	}	5111	}
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))	5112	else if (is_vector (args))
5369	{	5113	{
5370	s_save (SCHEME_A_ OP_P1LIST, NIL, NIL);	5114	s_save (SCHEME_A_ OP_P1LIST, NIL, NIL);
5371	putstr (SCHEME_A_ " . ");	5115	putstr (SCHEME_A_ " . ");
5372	s_goto (OP_P0LIST);	5116	s_goto (OP_P0LIST);
5373	}	5117	}
5374	else	5118	else
5375	{	5119	{
5376	if (SCHEME_V->args != NIL)	5120	if (args != NIL)
5377	{	5121	{
5378	putstr (SCHEME_A_ " . ");	5122	putstr (SCHEME_A_ " . ");
5379	printatom (SCHEME_A_ SCHEME_V->args, SCHEME_V->print_flag);	5123	printatom (SCHEME_A_ args, SCHEME_V->print_flag);
5380	}	5124	}
5381		5125
5382	putstr (SCHEME_A_ ")");	5126	putstr (SCHEME_A_ ")");
5383	s_return (S_T);	5127	s_return (S_T);
5384	}	5128	}
5385		5129
5386	case OP_PVECFROM:	5130	case OP_PVECFROM:
5387	{	5131	{
5388	int i = ivalue_unchecked (cdr (SCHEME_V->args));	5132	int i = ivalue_unchecked (cdr (args));
5389	pointer vec = car (SCHEME_V->args);	5133	pointer vec = car (args);
5390	int len = veclength (vec);	5134	int len = veclength (vec);
5391		5135
5392	if (i == len)	5136	if (i == len)
5393	{	5137	{
5394	putstr (SCHEME_A_ ")");	5138	putstr (SCHEME_A_ ")");
5395	s_return (S_T);	5139	s_return (S_T);
5396	}	5140	}
5397	else	5141	else
5398	{	5142	{
5399	pointer elem = vector_elem (vec, i);	5143	pointer elem = vector_get (vec, i);
5400		5144
5401	ivalue_unchecked (cdr (SCHEME_V->args)) = i + 1;	5145	ivalue_unchecked (cdr (args)) = i + 1;
5402	s_save (SCHEME_A_ OP_PVECFROM, SCHEME_V->args, NIL);	5146	s_save (SCHEME_A_ OP_PVECFROM, args, NIL);
5403	SCHEME_V->args = elem;	5147	SCHEME_V->args = elem;
5404		5148
5405	if (i > 0)	5149	if (i > 0)
5406	putstr (SCHEME_A_ " ");	5150	putstr (SCHEME_A_ " ");
5407		5151
5408	s_goto (OP_P0LIST);	5152	s_goto (OP_P0LIST);
5409	}	5153	}
5410	}	5154	}
5411	}	5155	}
5412		5156
5413	return S_T;	5157	if (USE_ERROR_CHECKING) abort ();
5414	}	5158	}
5415		5159
5416	static pointer	5160	static int
5417	opexe_6 (SCHEME_P_ enum scheme_opcodes op)	5161	opexe_6 (SCHEME_P_ enum scheme_opcodes op)
5418	{	5162	{
		5163	pointer args = SCHEME_V->args;
		5164	pointer a = car (args);
5419	pointer x, y;	5165	pointer x, y;
5420		5166
5421	switch (op)	5167	switch (op)
5422	{	5168	{
5423	case OP_LIST_LENGTH: /* length *//* a.k */	5169	case OP_LIST_LENGTH: /* length *//* a.k */
5424	{	5170	{
5425	long v = list_length (SCHEME_A_ car (SCHEME_V->args));	5171	long v = list_length (SCHEME_A_ a);
5426		5172
5427	if (v < 0)	5173	if (v < 0)
5428	Error_1 ("length: not a list:", car (SCHEME_V->args));	5174	Error_1 ("length: not a list:", a);
5429		5175
5430	s_return (mk_integer (SCHEME_A_ v));	5176	s_return (mk_integer (SCHEME_A_ v));
5431	}	5177	}
5432		5178
5433	case OP_ASSQ: /* assq *//* a.k */	5179	case OP_ASSQ: /* assq *//* a.k */
5434	x = car (SCHEME_V->args);	5180	x = a;
5435		5181
5436	for (y = cadr (SCHEME_V->args); is_pair (y); y = cdr (y))	5182	for (y = cadr (args); is_pair (y); y = cdr (y))
5437	{	5183	{
5438	if (!is_pair (car (y)))	5184	if (!is_pair (car (y)))
5439	Error_0 ("unable to handle non pair element");	5185	Error_0 ("unable to handle non pair element");
5440		5186
5441	if (x == caar (y))	5187	if (x == caar (y))
…		…
5447	else	5193	else
5448	s_return (S_F);	5194	s_return (S_F);
5449		5195
5450		5196
5451	case OP_GET_CLOSURE: /* get-closure-code *//* a.k */	5197	case OP_GET_CLOSURE: /* get-closure-code *//* a.k */
5452	SCHEME_V->args = car (SCHEME_V->args);	5198	SCHEME_V->args = a;
5453		5199
5454	if (SCHEME_V->args == NIL)	5200	if (SCHEME_V->args == NIL)
5455	s_return (S_F);	5201	s_return (S_F);
5456	else if (is_closure (SCHEME_V->args))	5202	else if (is_closure (SCHEME_V->args))
5457	s_return (cons (SCHEME_V->LAMBDA, closure_code (SCHEME_V->value)));	5203	s_return (cons (SCHEME_V->LAMBDA, closure_code (SCHEME_V->value)));
…		…
5463	case OP_CLOSUREP: /* closure? */	5209	case OP_CLOSUREP: /* closure? */
5464	/*	5210	/*
5465	* Note, macro object is also a closure.	5211	* Note, macro object is also a closure.
5466	* Therefore, (closure? <#MACRO>) ==> #t	5212	* Therefore, (closure? <#MACRO>) ==> #t
5467	*/	5213	*/
5468	s_retbool (is_closure (car (SCHEME_V->args)));	5214	s_retbool (is_closure (a));
5469		5215
5470	case OP_MACROP: /* macro? */	5216	case OP_MACROP: /* macro? */
5471	s_retbool (is_macro (car (SCHEME_V->args)));	5217	s_retbool (is_macro (a));
5472	}	5218	}
5473		5219
5474	return S_T; /* NOTREACHED */	5220	if (USE_ERROR_CHECKING) abort ();
5475	}	5221	}
5476		5222
		5223	/* dispatch functions (opexe_x) return new opcode, or 0 for same opcode, or -1 to stop */
5477	typedef pointer (*dispatch_func) (SCHEME_P_ enum scheme_opcodes);	5224	typedef int (*dispatch_func)(SCHEME_P_ enum scheme_opcodes);
5478		5225
5479	typedef int (*test_predicate) (pointer);	5226	typedef int (*test_predicate)(pointer);
5480	static int	5227	static int
5481	is_any (pointer p)	5228	tst_any (pointer p)
5482	{	5229	{
5483	return 1;	5230	return 1;
5484	}	5231	}
5485		5232
5486	static int	5233	static int
5487	is_nonneg (pointer p)	5234	tst_inonneg (pointer p)
5488	{	5235	{
5489	return ivalue (p) >= 0 && is_integer (p);	5236	return is_integer (p) && ivalue_unchecked (p) >= 0;
		5237	}
		5238
		5239	static int
		5240	tst_is_list (SCHEME_P_ pointer p)
		5241	{
		5242	return p == NIL || is_pair (p);
5490	}	5243	}
5491		5244
5492	/* Correspond carefully with following defines! */	5245	/* Correspond carefully with following defines! */
5493	static struct	5246	static struct
5494	{	5247	{
5495	test_predicate fct;	5248	test_predicate fct;
5496	const char *kind;	5249	const char *kind;
5497	} tests[] =	5250	} tests[] = {
5498	{	5251	{ tst_any , 0 },
5499	{ 0, 0}, /* unused */	5252	{ is_string , "string" },
5500	{ is_any, 0},	5253	{ is_symbol , "symbol" },
5501	{ is_string, "string" },	5254	{ is_port , "port" },
5502	{ is_symbol, "symbol" },
5503	{ is_port, "port" },
5504	{ is_inport, "input port" },	5255	{ is_inport , "input port" },
5505	{ is_outport, "output port" },	5256	{ is_outport , "output port" },
5506	{ is_environment, "environment" },	5257	{ is_environment, "environment" },
5507	{ is_pair, "pair" },	5258	{ is_pair , "pair" },
5508	{ 0, "pair or '()" },	5259	{ 0 , "pair or '()" },
5509	{ is_character, "character" },	5260	{ is_character , "character" },
5510	{ is_vector, "vector" },	5261	{ is_vector , "vector" },
5511	{ is_number, "number" },	5262	{ is_number , "number" },
5512	{ is_integer, "integer" },	5263	{ is_integer , "integer" },
5513	{ is_nonneg, "non-negative integer" }	5264	{ tst_inonneg , "non-negative integer" }
5514	};	5265	};
5515		5266
5516	#define TST_NONE 0	5267	#define TST_NONE 0 /* TST_NONE used for built-ins, 0 for internal ops */
5517	#define TST_ANY "\001"	5268	#define TST_ANY "\001"
5518	#define TST_STRING "\002"	5269	#define TST_STRING "\002"
5519	#define TST_SYMBOL "\003"	5270	#define TST_SYMBOL "\003"
5520	#define TST_PORT "\004"	5271	#define TST_PORT "\004"
5521	#define TST_INPORT "\005"	5272	#define TST_INPORT "\005"
5522	#define TST_OUTPORT "\006"	5273	#define TST_OUTPORT "\006"
5523	#define TST_ENVIRONMENT "\007"	5274	#define TST_ENVIRONMENT "\007"
5524	#define TST_PAIR "\010"	5275	#define TST_PAIR "\010"
5525	#define TST_LIST "\011"	5276	#define TST_LIST "\011"
5526	#define TST_CHAR "\012"	5277	#define TST_CHAR "\012"
5527	#define TST_VECTOR "\013"	5278	#define TST_VECTOR "\013"
5528	#define TST_NUMBER "\014"	5279	#define TST_NUMBER "\014"
5529	#define TST_INTEGER "\015"	5280	#define TST_INTEGER "\015"
5530	#define TST_NATURAL "\016"	5281	#define TST_NATURAL "\016"
		5282
		5283	#define INF_ARG 0xff
		5284	#define UNNAMED_OP ""
		5285
		5286	static const char opnames[] =
		5287	#define OP_DEF(func,name,minarity,maxarity,argtest,op) name "\x00"
		5288	#include "opdefines.h"
		5289	#undef OP_DEF
		5290	;
		5291
		5292	static const char *
		5293	opname (int idx)
		5294	{
		5295	const char *name = opnames;
		5296
		5297	/* should do this at compile time, but would require external program, right? */
		5298	while (idx--)
		5299	name += strlen (name) + 1;
		5300
		5301	return *name ? name : "ILLEGAL";
		5302	}
		5303
		5304	static const char *
		5305	procname (pointer x)
		5306	{
		5307	return opname (procnum (x));
		5308	}
5531		5309
5532	typedef struct	5310	typedef struct
5533	{	5311	{
5534	dispatch_func func;	5312	uint8_t func;
5535	char *name;	5313	/*dispatch_func func;*//*TODO: maybe optionally keep the pointer, for speed? */
		5314	uint8_t builtin;
		5315	#if USE_ERROR_CHECKING
5536	int min_arity;	5316	uint8_t min_arity;
5537	int max_arity;	5317	uint8_t max_arity;
5538	char *arg_tests_encoding;	5318	char arg_tests_encoding[3];
		5319	#endif
5539	} op_code_info;	5320	} op_code_info;
5540		5321
5541	#define INF_ARG 0xffff
5542
5543	static op_code_info dispatch_table[] = {	5322	static const op_code_info dispatch_table[] = {
5544	#define OP_DEF(A,B,C,D,E,OP) {A,B,C,D,E},	5323	#if USE_ERROR_CHECKING
		5324	#define OP_DEF(func,name,minarity,maxarity,argtest,op) { func, sizeof (name) > 1, minarity, maxarity, argtest },
		5325	#else
		5326	#define OP_DEF(func,name,minarity,maxarity,argtest,op) { func, sizeof (name) > 1 },
		5327	#endif
5545	#include "opdefines.h"	5328	#include "opdefines.h"
		5329	#undef OP_DEF
5546	{0}	5330	{0}
5547	};	5331	};
5548		5332
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 */	5333	/* kernel of this interpreter */
5562	static void	5334	static void ecb_hot
5563	Eval_Cycle (SCHEME_P_ enum scheme_opcodes op)	5335	Eval_Cycle (SCHEME_P_ enum scheme_opcodes op)
5564	{	5336	{
5565	SCHEME_V->op = op;	5337	SCHEME_V->op = op;
5566		5338
5567	for (;;)	5339	for (;;)
5568	{	5340	{
5569	op_code_info *pcd = dispatch_table + SCHEME_V->op;	5341	const op_code_info *pcd = dispatch_table + SCHEME_V->op;
5570		5342
5571	#if USE_ERROR_CHECKING	5343	#if USE_ERROR_CHECKING
5572	if (pcd->name) /* if built-in function, check arguments */	5344	if (pcd->builtin) /* if built-in function, check arguments */
5573	{	5345	{
5574	int ok = 1;
5575	char msg[STRBUFFSIZE];	5346	char msg[STRBUFFSIZE];
5576	int n = list_length (SCHEME_A_ SCHEME_V->args);	5347	int n = list_length (SCHEME_A_ SCHEME_V->args);
5577		5348
5578	/* Check number of arguments */	5349	/* Check number of arguments */
5579	if (n < pcd->min_arity)	5350	if (ecb_expect_false (n < pcd->min_arity))
5580	{	5351	{
5581	ok = 0;
5582	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",	5352	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",
5583	pcd->name, pcd->min_arity == pcd->max_arity ? "" : " at least", pcd->min_arity);	5353	opname (SCHEME_V->op), pcd->min_arity == pcd->max_arity ? "" : " at least", pcd->min_arity);
		5354	xError_1 (SCHEME_A_ msg, 0);
		5355	continue;
5584	}	5356	}
5585		5357	else if (ecb_expect_false (n > pcd->max_arity && pcd->max_arity != INF_ARG))
5586	if (ok && n > pcd->max_arity)
5587	{	5358	{
5588	ok = 0;
5589	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",	5359	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",
5590	pcd->name, pcd->min_arity == pcd->max_arity ? "" : " at most", pcd->max_arity);	5360	opname (SCHEME_V->op), pcd->min_arity == pcd->max_arity ? "" : " at most", pcd->max_arity);
		5361	xError_1 (SCHEME_A_ msg, 0);
		5362	continue;
5591	}	5363	}
5592		5364	else
5593	if (ok)
5594	{	5365	{
5595	if (pcd->arg_tests_encoding)	5366	if (*pcd->arg_tests_encoding) /* literal 0 and TST_NONE treated the same */
5596	{	5367	{
5597	int i = 0;	5368	int i = 0;
5598	int j;	5369	int j;
5599	const char *t = pcd->arg_tests_encoding;	5370	const char *t = pcd->arg_tests_encoding;
5600	pointer arglist = SCHEME_V->args;	5371	pointer arglist = SCHEME_V->args;
5601		5372
5602	do	5373	do
5603	{	5374	{
5604	pointer arg = car (arglist);	5375	pointer arg = car (arglist);
5605		5376
5606	j = (int) t[0];	5377	j = t[0];
5607		5378
		5379	/*TODO: tst_is_list has different prototype - fix if other tests acquire same prototype */
5608	if (j == TST_LIST[0])	5380	if (j == TST_LIST[0])
5609	{	5381	{
5610	if (arg != NIL && !is_pair (arg))	5382	if (!tst_is_list (SCHEME_A_ arg))
5611	break;	5383	break;
5612	}	5384	}
5613	else	5385	else
5614	{	5386	{
5615	if (!tests[j].fct (arg))	5387	if (!tests[j - 1].fct (arg))
5616	break;	5388	break;
5617	}	5389	}
5618		5390
5619	if (t[1] != 0) /* last test is replicated as necessary */	5391	if (t < pcd->arg_tests_encoding + sizeof (pcd->arg_tests_encoding) - 1 && t[1]) /* last test is replicated as necessary */
5620	t++;	5392	t++;
5621		5393
5622	arglist = cdr (arglist);	5394	arglist = cdr (arglist);
5623	i++;	5395	i++;
5624	}	5396	}
5625	while (i < n);	5397	while (i < n);
5626		5398
5627	if (i < n)	5399	if (i < n)
5628	{	5400	{
5629	ok = 0;
5630	snprintf (msg, STRBUFFSIZE, "%s: argument %d must be: %s", pcd->name, i + 1, tests[j].kind);	5401	snprintf (msg, STRBUFFSIZE, "%s: argument %d must be: %s", opname (SCHEME_V->op), i + 1, tests[j].kind);
		5402	xError_1 (SCHEME_A_ msg, 0);
		5403	continue;
5631	}	5404	}
5632	}	5405	}
5633	}	5406	}
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	}	5407	}
5643	#endif	5408	#endif
5644		5409
5645	ok_to_freely_gc (SCHEME_A);	5410	ok_to_freely_gc (SCHEME_A);
5646		5411
5647	if (pcd->func (SCHEME_A_ SCHEME_V->op) == NIL)	5412	static const dispatch_func dispatch_funcs[] = {
		5413	opexe_0,
		5414	opexe_1,
		5415	opexe_2,
		5416	opexe_3,
		5417	opexe_4,
		5418	opexe_5,
		5419	opexe_6,
		5420	};
		5421
		5422	if (ecb_expect_false (dispatch_funcs [pcd->func] (SCHEME_A_ SCHEME_V->op) != 0))
5648	return;	5423	return;
5649		5424
5650	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)	5425	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)
5651	{	5426	{
5652	xwrstr ("No memory!\n");	5427	xwrstr ("No memory!\n");
…		…
5676	mk_proc (SCHEME_P_ enum scheme_opcodes op)	5451	mk_proc (SCHEME_P_ enum scheme_opcodes op)
5677	{	5452	{
5678	pointer y = get_cell (SCHEME_A_ NIL, NIL);	5453	pointer y = get_cell (SCHEME_A_ NIL, NIL);
5679	set_typeflag (y, (T_PROC | T_ATOM));	5454	set_typeflag (y, (T_PROC | T_ATOM));
5680	ivalue_unchecked (y) = op;	5455	ivalue_unchecked (y) = op;
5681	set_num_integer (y);
5682	return y;	5456	return y;
5683	}	5457	}
5684		5458
5685	/* Hard-coded for the given keywords. Remember to rewrite if more are added! */	5459	/* Hard-coded for the given keywords. Remember to rewrite if more are added! */
5686	static int	5460	static int
…		…
5710		5484
5711	case 'd':	5485	case 'd':
5712	return OP_COND0; /* cond */	5486	return OP_COND0; /* cond */
5713		5487
5714	case '*':	5488	case '*':
5715	return OP_LET0AST; /* let* */	5489	return OP_LET0AST;/* let* */
5716		5490
5717	default:	5491	default:
5718	return OP_SET0; /* set! */	5492	return OP_SET0; /* set! */
5719	}	5493	}
5720		5494
…		…
5742		5516
5743	case 'f':	5517	case 'f':
5744	return OP_DEF0; /* define */	5518	return OP_DEF0; /* define */
5745		5519
5746	default:	5520	default:
5747	return OP_LET0REC; /* letrec */	5521	return OP_LET0REC;/* letrec */
5748	}	5522	}
5749		5523
5750	default:	5524	default:
5751	return OP_C0STREAM; /* cons-stream */	5525	return OP_C0STREAM; /* cons-stream */
5752	}	5526	}
5753	}	5527	}
5754		5528
5755	#if USE_MULTIPLICITY	5529	#if USE_MULTIPLICITY
5756	scheme *	5530	ecb_cold scheme *
5757	scheme_init_new ()	5531	scheme_init_new ()
5758	{	5532	{
5759	scheme *sc = malloc (sizeof (scheme));	5533	scheme *sc = malloc (sizeof (scheme));
5760		5534
5761	if (!scheme_init (SCHEME_A))	5535	if (!scheme_init (SCHEME_A))
…		…
5766	else	5540	else
5767	return sc;	5541	return sc;
5768	}	5542	}
5769	#endif	5543	#endif
5770		5544
5771	int	5545	ecb_cold int
5772	scheme_init (SCHEME_P)	5546	scheme_init (SCHEME_P)
5773	{	5547	{
5774	int i, n = sizeof (dispatch_table) / sizeof (dispatch_table[0]);	5548	int i, n = sizeof (dispatch_table) / sizeof (dispatch_table[0]);
5775	pointer x;	5549	pointer x;
5776		5550
…		…
5849		5623
5850	for (i = 0; i < sizeof (syntax_names) / sizeof (*syntax_names); ++i)	5624	for (i = 0; i < sizeof (syntax_names) / sizeof (*syntax_names); ++i)
5851	assign_syntax (SCHEME_A_ syntax_names[i]);	5625	assign_syntax (SCHEME_A_ syntax_names[i]);
5852	}	5626	}
5853		5627
		5628	// TODO: should iterate via strlen, to avoid n² complexity
5854	for (i = 0; i < n; i++)	5629	for (i = 0; i < n; i++)
5855	if (dispatch_table[i].name != 0)	5630	if (dispatch_table[i].builtin)
5856	assign_proc (SCHEME_A_ i, dispatch_table[i].name);	5631	assign_proc (SCHEME_A_ i, opname (i));
5857		5632
5858	/* initialization of global pointers to special symbols */	5633	/* initialization of global pointers to special symbols */
5859	SCHEME_V->LAMBDA = mk_symbol (SCHEME_A_ "lambda");	5634	SCHEME_V->LAMBDA = mk_symbol (SCHEME_A_ "lambda");
5860	SCHEME_V->QUOTE = mk_symbol (SCHEME_A_ "quote");	5635	SCHEME_V->QUOTE = mk_symbol (SCHEME_A_ "quote");
5861	SCHEME_V->QQUOTE = mk_symbol (SCHEME_A_ "quasiquote");	5636	SCHEME_V->QQUOTE = mk_symbol (SCHEME_A_ "quasiquote");
…		…
5900	scheme_set_external_data (SCHEME_P_ void *p)	5675	scheme_set_external_data (SCHEME_P_ void *p)
5901	{	5676	{
5902	SCHEME_V->ext_data = p;	5677	SCHEME_V->ext_data = p;
5903	}	5678	}
5904		5679
5905	void	5680	ecb_cold void
5906	scheme_deinit (SCHEME_P)	5681	scheme_deinit (SCHEME_P)
5907	{	5682	{
5908	int i;	5683	int i;
5909		5684
5910	#if SHOW_ERROR_LINE	5685	#if SHOW_ERROR_LINE
…		…
6002	{	5777	{
6003	dump_stack_reset (SCHEME_A);	5778	dump_stack_reset (SCHEME_A);
6004	SCHEME_V->envir = SCHEME_V->global_env;	5779	SCHEME_V->envir = SCHEME_V->global_env;
6005	SCHEME_V->file_i = 0;	5780	SCHEME_V->file_i = 0;
6006	SCHEME_V->load_stack[0].kind = port_input | port_string;	5781	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 */	5782	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);	5783	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;	5784	SCHEME_V->load_stack[0].rep.string.curr = (char *)cmd;
6010	#if USE_PORTS	5785	#if USE_PORTS
6011	SCHEME_V->loadport = mk_port (SCHEME_A_ SCHEME_V->load_stack);	5786	SCHEME_V->loadport = mk_port (SCHEME_A_ SCHEME_V->load_stack);
6012	#endif	5787	#endif
6013	SCHEME_V->retcode = 0;	5788	SCHEME_V->retcode = 0;
6014	SCHEME_V->interactive_repl = 0;	5789	SCHEME_V->interactive_repl = 0;

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