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Comparing cvsroot/microscheme/scheme.c (file contents):
Revision 1.18 by root, Thu Nov 26 21:32:16 2015 UTC vs.
Revision 1.55 by root, Tue Dec 1 03:03:11 2015 UTC

…		…
16	* (MINISCM) This is a revised and modified version by Akira KIDA.	16	* (MINISCM) This is a revised and modified version by Akira KIDA.
17	* (MINISCM) current version is 0.85k4 (15 May 1994)	17	* (MINISCM) current version is 0.85k4 (15 May 1994)
18	*	18	*
19	*/	19	*/
20		20
		21	#define EXPERIMENT 1
		22
		23	#if 1
21	#define PAGE_SIZE 4096 /* does not work on sparc/alpha */	24	#define PAGE_SIZE 4096 /* does not work on sparc/alpha */
22	#include "malloc.c"	25	#include "malloc.c"
		26	#endif
23		27
24	#define SCHEME_SOURCE	28	#define SCHEME_SOURCE
25	#include "scheme-private.h"	29	#include "scheme-private.h"
26	#ifndef WIN32	30	#ifndef WIN32
27	# include <unistd.h>	31	# include <unistd.h>
28	#endif	32	#endif
29	#if USE_MATH	33	#if USE_MATH
30	# include <math.h>	34	# include <math.h>
31	#endif	35	#endif
32		36
		37	#include "ecb.h"
		38
33	#include <sys/types.h>	39	#include <sys/types.h>
34	#include <sys/stat.h>	40	#include <sys/stat.h>
35	#include <fcntl.h>	41	#include <fcntl.h>
36		42
		43	#if !USE_ERROR_CHECKING
		44	# define NDEBUG
		45	#endif
		46
		47	#include <assert.h>
		48	#include <stdlib.h>
37	#include <string.h>	49	#include <string.h>
38	#include <stdlib.h>
39		50
40	#include <limits.h>	51	#include <limits.h>
41	#include <inttypes.h>	52	#include <inttypes.h>
42	#include <float.h>	53	#include <float.h>
43	//#include <ctype.h>	54	//#include <ctype.h>
		55
		56	#if '1' != '0' + 1 \
		57	|| '2' != '0' + 2 || '3' != '0' + 3 || '4' != '0' + 4 || '5' != '0' + 5 \
		58	|| '6' != '0' + 6 || '7' != '0' + 7 || '8' != '0' + 8 || '9' != '0' + 9 \
		59	|| 'b' != 'a' + 1 || 'c' != 'a' + 2 || 'd' != 'a' + 3 || 'e' != 'a' + 4 \
		60	|| 'f' != 'a' + 5
		61	# error "execution character set digits not consecutive"
		62	#endif
44		63
45	enum {	64	enum {
46	TOK_EOF,	65	TOK_EOF,
47	TOK_LPAREN,	66	TOK_LPAREN,
48	TOK_RPAREN,	67	TOK_RPAREN,
49	TOK_DOT,	68	TOK_DOT,
50	TOK_ATOM,	69	TOK_ATOM,
		70	TOK_DOTATOM, /* atom name starting with '.' */
		71	TOK_STRATOM, /* atom name enclosed in | */
51	TOK_QUOTE,	72	TOK_QUOTE,
52	TOK_DQUOTE,	73	TOK_DQUOTE,
53	TOK_BQUOTE,	74	TOK_BQUOTE,
54	TOK_COMMA,	75	TOK_COMMA,
55	TOK_ATMARK,	76	TOK_ATMARK,
…		…
57	TOK_SHARP_CONST,	78	TOK_SHARP_CONST,
58	TOK_VEC	79	TOK_VEC
59	};	80	};
60		81
61	#define BACKQUOTE '`'	82	#define BACKQUOTE '`'
62	#define DELIMITERS "()\";\f\t\v\n\r "	83	#define WHITESPACE " \t\r\n\v\f"
		84	#define DELIMITERS "()\";" WHITESPACE
63		85
64	#define NIL (&SCHEME_V->xNIL) //TODO: make this 0?	86	#define NIL POINTER (&SCHEME_V->xNIL)
65	#define S_T (&SCHEME_V->xT) //TODO: magic ptr value?	87	#define S_T POINTER (&SCHEME_V->xT)
66	#define S_F (&SCHEME_V->xF) //TODO: magic ptr value?	88	#define S_F POINTER (&SCHEME_V->xF)
67	#define S_SINK (&SCHEME_V->xsink)	89	#define S_SINK POINTER (&SCHEME_V->xsink)
68	#define S_EOF (&SCHEME_V->xEOF_OBJ)	90	#define S_EOF POINTER (&SCHEME_V->xEOF_OBJ)
69
70	/* should use libecb */
71	#if __GNUC__ >= 4
72	# define ecb_expect(expr,value) __builtin_expect ((expr),(value))
73	# define ecb_expect_false(expr) ecb_expect (!!(expr), 0)
74	# define ecb_expect_true(expr) ecb_expect (!!(expr), 1)
75	#else
76	# define ecb_expect_false(expr) !!(expr)
77	# define ecb_expect_true(expr) !!(expr)
78	#endif
79		91
80	#if !USE_MULTIPLICITY	92	#if !USE_MULTIPLICITY
81	static scheme sc;	93	static scheme sc;
82	#endif	94	#endif
83		95
…		…
91	}	103	}
92		104
93	char *p = s;	105	char *p = s;
94		106
95	do {	107	do {
96	*p++ = '0' + n % base;	108	*p++ = "0123456789abcdef"[n % base];
97	n /= base;	109	n /= base;
98	} while (n);	110	} while (n);
99		111
100	*p-- = 0;	112	*p-- = 0;
101		113
…		…
111	{	123	{
112	xbase (s, n, 10);	124	xbase (s, n, 10);
113	}	125	}
114		126
115	static void	127	static void
116	xwrstr (const char *s)	128	putnum (SCHEME_P_ long n)
117	{
118	write (1, s, strlen (s));
119	}
120
121	static void
122	xwrnum (long n)
123	{	129	{
124	char buf[64];	130	char buf[64];
125		131
126	xnum (buf, n);	132	xnum (buf, n);
127	xwrstr (buf);	133	putstr (SCHEME_A_ buf);
128	}	134	}
129		135
130	static char	136	static char
131	xtoupper (char c)	137	xtoupper (char c)
132	{	138	{
…		…
153		159
154	#define toupper(c) xtoupper (c)	160	#define toupper(c) xtoupper (c)
155	#define tolower(c) xtolower (c)	161	#define tolower(c) xtolower (c)
156	#define isdigit(c) xisdigit (c)	162	#define isdigit(c) xisdigit (c)
157		163
158	#if USE_STRLWR	164	#if USE_IGNORECASE
159	static const char *	165	static const char *
160	strlwr (char *s)	166	xstrlwr (char *s)
161	{	167	{
162	const char *p = s;	168	const char *p = s;
163		169
164	while (*s)	170	while (*s)
165	{	171	{
…		…
167	s++;	173	s++;
168	}	174	}
169		175
170	return p;	176	return p;
171	}	177	}
172	#endif
173		178
		179	#define stricmp(a,b) strcasecmp (a, b)
		180	#define strlwr(s) xstrlwr (s)
		181
		182	#else
174	#define stricmp(a,b) strcmp (a, b)	183	# define stricmp(a,b) strcmp (a, b)
175	#define strlwr(s) (s)	184	# define strlwr(s) (s)
		185	#endif
176		186
177	#ifndef prompt	187	#ifndef prompt
178	# define prompt "ts> "	188	# define prompt "ts> "
179	#endif	189	#endif
180		190
181	#ifndef InitFile	191	#ifndef InitFile
182	# define InitFile "init.scm"	192	# define InitFile "init.scm"
183	#endif	193	#endif
184		194
185	#ifndef FIRST_CELLSEGS
186	# define FIRST_CELLSEGS 3
187	#endif
188
189	enum scheme_types	195	enum scheme_types
190	{	196	{
		197	T_INTEGER,
191	T_FREE,	198	T_REAL,
192	T_STRING,	199	T_STRING,
193	T_NUMBER,
194	T_SYMBOL,	200	T_SYMBOL,
195	T_PROC,	201	T_PROC,
196	T_PAIR,	202	T_PAIR, /* also used for free cells */
197	T_CLOSURE,	203	T_CLOSURE,
198	T_CONTINUATION,	204	T_CONTINUATION,
199	T_FOREIGN,	205	T_FOREIGN,
200	T_CHARACTER,	206	T_CHARACTER,
201	T_PORT,	207	T_PORT,
…		…
211	#define T_SYNTAX 0x0010	217	#define T_SYNTAX 0x0010
212	#define T_IMMUTABLE 0x0020	218	#define T_IMMUTABLE 0x0020
213	#define T_ATOM 0x0040 /* only for gc */	219	#define T_ATOM 0x0040 /* only for gc */
214	#define T_MARK 0x0080 /* only for gc */	220	#define T_MARK 0x0080 /* only for gc */
215		221
		222	/* num, for generic arithmetic */
		223	struct num
		224	{
		225	IVALUE ivalue;
		226	#if USE_REAL
		227	RVALUE rvalue;
		228	char is_fixnum;
		229	#endif
		230	};
		231
		232	#if USE_REAL
		233	# define num_is_fixnum(n) (n).is_fixnum
		234	# define num_set_fixnum(n,f) (n).is_fixnum = (f)
		235	# define num_ivalue(n) (n).ivalue
		236	# define num_rvalue(n) (n).rvalue
		237	# define num_set_ivalue(n,i) (n).rvalue = (n).ivalue = (i)
		238	# define num_set_rvalue(n,r) (n).rvalue = (r)
		239	#else
		240	# define num_is_fixnum(n) 1
		241	# define num_set_fixnum(n,f) 0
		242	# define num_ivalue(n) (n).ivalue
		243	# define num_rvalue(n) (n).ivalue
		244	# define num_set_ivalue(n,i) (n).ivalue = (i)
		245	# define num_set_rvalue(n,r) (n).ivalue = (r)
		246	#endif
		247
216	enum num_op { NUM_ADD, NUM_SUB, NUM_MUL, NUM_INTDIV };	248	enum num_op { NUM_ADD, NUM_SUB, NUM_MUL, NUM_INTDIV };
217		249
218	static num num_op (enum num_op op, num a, num b);	250	static num num_op (enum num_op op, num a, num b);
219	static num num_intdiv (num a, num b);	251	static num num_intdiv (num a, num b);
220	static num num_rem (num a, num b);	252	static num num_rem (num a, num b);
221	static num num_mod (num a, num b);	253	static num num_mod (num a, num b);
222		254
223	#if USE_MATH
224	static double round_per_R5RS (double x);
225	#endif
226	static int is_zero_rvalue (RVALUE x);	255	static int is_zero_rvalue (RVALUE x);
227
228	static INLINE int
229	num_is_integer (pointer p)
230	{
231	return num_is_fixnum (p->object.number);
232	}
233		256
234	static num num_zero;	257	static num num_zero;
235	static num num_one;	258	static num num_one;
236		259
		260	/* convert "pointer" to cell* / cell* to pointer */
		261	#define CELL(p) ((struct cell *)(p) + 0)
		262	#define POINTER(c) ((void *)((c) - 0))
		263
237	/* macros for cell operations */	264	/* macros for cell operations */
238	#define typeflag(p) ((p)->flag + 0)	265	#define typeflag(p) (CELL(p)->flag + 0)
239	#define set_typeflag(p,v) ((p)->flag = (v))	266	#define set_typeflag(p,v) (CELL(p)->flag = (v))
240	#define type(p) (typeflag (p) & T_MASKTYPE)	267	#define type(p) (typeflag (p) & T_MASKTYPE)
241		268
242	INTERFACE INLINE int	269	INTERFACE int
243	is_string (pointer p)	270	is_string (pointer p)
244	{	271	{
245	return type (p) == T_STRING;	272	return type (p) == T_STRING;
246	}	273	}
247		274
248	#define strvalue(p) ((p)->object.string.svalue)	275	#define strvalue(p) (CELL(p)->object.string.svalue)
249	#define strlength(p) ((p)->object.string.length)	276	#define strlength(p) (CELL(p)->object.string.length)
250		277
251	INTERFACE int is_list (SCHEME_P_ pointer p);
252	INTERFACE INLINE int	278	INTERFACE int
253	is_vector (pointer p)	279	is_vector (pointer p)
254	{	280	{
255	return type (p) == T_VECTOR;	281	return type (p) == T_VECTOR;
256	}	282	}
257		283
258	#define vecvalue(p) ((p)->object.vector.vvalue)	284	#define vecvalue(p) (CELL(p)->object.vector.vvalue)
259	#define veclength(p) ((p)->object.vector.length)	285	#define veclength(p) (CELL(p)->object.vector.length)
260	INTERFACE void fill_vector (pointer vec, pointer obj);	286	INTERFACE void fill_vector (pointer vec, uint32_t start, pointer obj);
261	INTERFACE uint32_t vector_length (pointer vec);
262	INTERFACE pointer vector_elem (pointer vec, uint32_t ielem);	287	INTERFACE pointer vector_get (pointer vec, uint32_t ielem);
263	INTERFACE void set_vector_elem (pointer vec, uint32_t ielem, pointer a);	288	INTERFACE void vector_set (pointer vec, uint32_t ielem, pointer a);
264		289
265	INTERFACE uint32_t	290	INTERFACE int
266	vector_length (pointer vec)	291	is_integer (pointer p)
267	{	292	{
268	return vec->object.vector.length;	293	return type (p) == T_INTEGER;
269	}	294	}
270		295
		296	/* not the same as in scheme, where integers are (correctly :) reals */
271	INTERFACE INLINE int	297	INTERFACE int
		298	is_real (pointer p)
		299	{
		300	return type (p) == T_REAL;
		301	}
		302
		303	INTERFACE int
272	is_number (pointer p)	304	is_number (pointer p)
273	{	305	{
274	return type (p) == T_NUMBER;	306	return is_integer (p) || is_real (p);
275	}	307	}
276		308
277	INTERFACE INLINE int	309	INTERFACE int
278	is_integer (pointer p)
279	{
280	if (!is_number (p))
281	return 0;
282
283	if (num_is_integer (p) || ivalue (p) == rvalue (p))
284	return 1;
285
286	return 0;
287	}
288
289	INTERFACE INLINE int
290	is_real (pointer p)
291	{
292	return is_number (p) && !num_is_fixnum (p->object.number);
293	}
294
295	INTERFACE INLINE int
296	is_character (pointer p)	310	is_character (pointer p)
297	{	311	{
298	return type (p) == T_CHARACTER;	312	return type (p) == T_CHARACTER;
299	}	313	}
300		314
301	INTERFACE INLINE char *	315	INTERFACE char *
302	string_value (pointer p)	316	string_value (pointer p)
303	{	317	{
304	return strvalue (p);	318	return strvalue (p);
305	}	319	}
306		320
307	INLINE num
308	nvalue (pointer p)
309	{
310	return (p)->object.number;
311	}
312
313	static IVALUE
314	num_get_ivalue (const num n)
315	{
316	return num_is_fixnum (n) ? num_ivalue (n) : (IVALUE)num_rvalue (n);
317	}
318
319	static RVALUE
320	num_get_rvalue (const num n)
321	{
322	return num_is_fixnum (n) ? (RVALUE)num_ivalue (n) : num_rvalue (n);
323	}
324
325	INTERFACE IVALUE
326	ivalue (pointer p)
327	{
328	return num_get_ivalue (p->object.number);
329	}
330
331	INTERFACE RVALUE
332	rvalue (pointer p)
333	{
334	return num_get_rvalue (p->object.number);
335	}
336
337	#define ivalue_unchecked(p) ((p)->object.number.value.ivalue)	321	#define ivalue_unchecked(p) CELL(p)->object.ivalue
		322	#define set_ivalue(p,v) CELL(p)->object.ivalue = (v)
		323
338	#if USE_REAL	324	#if USE_REAL
339	# define rvalue_unchecked(p) ((p)->object.number.value.rvalue)	325	#define rvalue_unchecked(p) CELL(p)->object.rvalue
340	# define set_num_integer(p) (p)->object.number.is_fixnum=1;	326	#define set_rvalue(p,v) CELL(p)->object.rvalue = (v)
341	# define set_num_real(p) (p)->object.number.is_fixnum=0;
342	#else	327	#else
343	# define rvalue_unchecked(p) ((p)->object.number.value.ivalue)	328	#define rvalue_unchecked(p) CELL(p)->object.ivalue
344	# define set_num_integer(p) 0	329	#define set_rvalue(p,v) CELL(p)->object.ivalue = (v)
345	# define set_num_real(p) 0
346	#endif	330	#endif
		331
347	INTERFACE long	332	INTERFACE long
348	charvalue (pointer p)	333	charvalue (pointer p)
349	{	334	{
350	return ivalue_unchecked (p);	335	return ivalue_unchecked (p);
351	}	336	}
352		337
		338	#define port(p) CELL(p)->object.port
		339	#define set_port(p,v) port(p) = (v)
353	INTERFACE INLINE int	340	INTERFACE int
354	is_port (pointer p)	341	is_port (pointer p)
355	{	342	{
356	return type (p) == T_PORT;	343	return type (p) == T_PORT;
357	}	344	}
358		345
359	INTERFACE INLINE int	346	INTERFACE int
360	is_inport (pointer p)	347	is_inport (pointer p)
361	{	348	{
362	return is_port (p) && p->object.port->kind & port_input;	349	return is_port (p) && port (p)->kind & port_input;
363	}	350	}
364		351
365	INTERFACE INLINE int	352	INTERFACE int
366	is_outport (pointer p)	353	is_outport (pointer p)
367	{	354	{
368	return is_port (p) && p->object.port->kind & port_output;	355	return is_port (p) && port (p)->kind & port_output;
369	}	356	}
370		357
371	INTERFACE INLINE int	358	INTERFACE int
372	is_pair (pointer p)	359	is_pair (pointer p)
373	{	360	{
374	return type (p) == T_PAIR;	361	return type (p) == T_PAIR;
375	}	362	}
376		363
377	#define car(p) ((p)->object.cons.car + 0)	364	#define car(p) (POINTER (CELL(p)->object.cons.car))
378	#define cdr(p) ((p)->object.cons.cdr + 0)	365	#define cdr(p) (POINTER (CELL(p)->object.cons.cdr))
379		366
380	static pointer caar (pointer p) { return car (car (p)); }	367	static pointer caar (pointer p) { return car (car (p)); }
381	static pointer cadr (pointer p) { return car (cdr (p)); }	368	static pointer cadr (pointer p) { return car (cdr (p)); }
382	static pointer cdar (pointer p) { return cdr (car (p)); }	369	static pointer cdar (pointer p) { return cdr (car (p)); }
383	static pointer cddr (pointer p) { return cdr (cdr (p)); }	370	static pointer cddr (pointer p) { return cdr (cdr (p)); }
…		…
387	static pointer cdaar (pointer p) { return cdr (car (car (p))); }	374	static pointer cdaar (pointer p) { return cdr (car (car (p))); }
388		375
389	INTERFACE void	376	INTERFACE void
390	set_car (pointer p, pointer q)	377	set_car (pointer p, pointer q)
391	{	378	{
392	p->object.cons.car = q;	379	CELL(p)->object.cons.car = CELL (q);
393	}	380	}
394		381
395	INTERFACE void	382	INTERFACE void
396	set_cdr (pointer p, pointer q)	383	set_cdr (pointer p, pointer q)
397	{	384	{
398	p->object.cons.cdr = q;	385	CELL(p)->object.cons.cdr = CELL (q);
399	}	386	}
400		387
401	INTERFACE pointer	388	INTERFACE pointer
402	pair_car (pointer p)	389	pair_car (pointer p)
403	{	390	{
…		…
408	pair_cdr (pointer p)	395	pair_cdr (pointer p)
409	{	396	{
410	return cdr (p);	397	return cdr (p);
411	}	398	}
412		399
413	INTERFACE INLINE int	400	INTERFACE int
414	is_symbol (pointer p)	401	is_symbol (pointer p)
415	{	402	{
416	return type (p) == T_SYMBOL;	403	return type (p) == T_SYMBOL;
417	}	404	}
418		405
419	INTERFACE INLINE char *	406	INTERFACE char *
420	symname (pointer p)	407	symname (pointer p)
421	{	408	{
422	return strvalue (car (p));	409	return strvalue (p);
423	}	410	}
424		411
425	#if USE_PLIST	412	#if USE_PLIST
		413	#error plists are broken because symbols are no longer pairs
		414	#define symprop(p) cdr(p)
426	SCHEME_EXPORT INLINE int	415	SCHEME_EXPORT int
427	hasprop (pointer p)	416	hasprop (pointer p)
428	{	417	{
429	return typeflag (p) & T_SYMBOL;	418	return typeflag (p) & T_SYMBOL;
430	}	419	}
431
432	# define symprop(p) cdr(p)
433	#endif	420	#endif
434		421
435	INTERFACE INLINE int	422	INTERFACE int
436	is_syntax (pointer p)	423	is_syntax (pointer p)
437	{	424	{
438	return typeflag (p) & T_SYNTAX;	425	return typeflag (p) & T_SYNTAX;
439	}	426	}
440		427
441	INTERFACE INLINE int	428	INTERFACE int
442	is_proc (pointer p)	429	is_proc (pointer p)
443	{	430	{
444	return type (p) == T_PROC;	431	return type (p) == T_PROC;
445	}	432	}
446		433
447	INTERFACE INLINE int	434	INTERFACE int
448	is_foreign (pointer p)	435	is_foreign (pointer p)
449	{	436	{
450	return type (p) == T_FOREIGN;	437	return type (p) == T_FOREIGN;
451	}	438	}
452		439
453	INTERFACE INLINE char *	440	INTERFACE char *
454	syntaxname (pointer p)	441	syntaxname (pointer p)
455	{	442	{
456	return strvalue (car (p));	443	return strvalue (p);
457	}	444	}
458		445
459	#define procnum(p) ivalue (p)	446	#define procnum(p) ivalue_unchecked (p)
460	static const char *procname (pointer x);	447	static const char *procname (pointer x);
461		448
462	INTERFACE INLINE int	449	INTERFACE int
463	is_closure (pointer p)	450	is_closure (pointer p)
464	{	451	{
465	return type (p) == T_CLOSURE;	452	return type (p) == T_CLOSURE;
466	}	453	}
467		454
468	INTERFACE INLINE int	455	INTERFACE int
469	is_macro (pointer p)	456	is_macro (pointer p)
470	{	457	{
471	return type (p) == T_MACRO;	458	return type (p) == T_MACRO;
472	}	459	}
473		460
474	INTERFACE INLINE pointer	461	INTERFACE pointer
475	closure_code (pointer p)	462	closure_code (pointer p)
476	{	463	{
477	return car (p);	464	return car (p);
478	}	465	}
479		466
480	INTERFACE INLINE pointer	467	INTERFACE pointer
481	closure_env (pointer p)	468	closure_env (pointer p)
482	{	469	{
483	return cdr (p);	470	return cdr (p);
484	}	471	}
485		472
486	INTERFACE INLINE int	473	INTERFACE int
487	is_continuation (pointer p)	474	is_continuation (pointer p)
488	{	475	{
489	return type (p) == T_CONTINUATION;	476	return type (p) == T_CONTINUATION;
490	}	477	}
491		478
492	#define cont_dump(p) cdr (p)	479	#define cont_dump(p) cdr (p)
493	#define set_cont_dump(p,v) set_cdr ((p), (v))	480	#define set_cont_dump(p,v) set_cdr ((p), (v))
494		481
495	/* To do: promise should be forced ONCE only */	482	/* To do: promise should be forced ONCE only */
496	INTERFACE INLINE int	483	INTERFACE int
497	is_promise (pointer p)	484	is_promise (pointer p)
498	{	485	{
499	return type (p) == T_PROMISE;	486	return type (p) == T_PROMISE;
500	}	487	}
501		488
502	INTERFACE INLINE int	489	INTERFACE int
503	is_environment (pointer p)	490	is_environment (pointer p)
504	{	491	{
505	return type (p) == T_ENVIRONMENT;	492	return type (p) == T_ENVIRONMENT;
506	}	493	}
507		494
…		…
513		500
514	#define is_mark(p) (typeflag (p) & T_MARK)	501	#define is_mark(p) (typeflag (p) & T_MARK)
515	#define setmark(p) set_typeflag ((p), typeflag (p) | T_MARK)	502	#define setmark(p) set_typeflag ((p), typeflag (p) | T_MARK)
516	#define clrmark(p) set_typeflag ((p), typeflag (p) & ~T_MARK)	503	#define clrmark(p) set_typeflag ((p), typeflag (p) & ~T_MARK)
517		504
518	INTERFACE INLINE int	505	INTERFACE int
519	is_immutable (pointer p)	506	is_immutable (pointer p)
520	{	507	{
521	return typeflag (p) & T_IMMUTABLE && USE_ERROR_CHECKING;	508	return typeflag (p) & T_IMMUTABLE && USE_ERROR_CHECKING;
522	}	509	}
523		510
524	INTERFACE INLINE void	511	INTERFACE void
525	setimmutable (pointer p)	512	setimmutable (pointer p)
526	{	513	{
527	#if USE_ERROR_CHECKING	514	#if USE_ERROR_CHECKING
528	set_typeflag (p, typeflag (p) | T_IMMUTABLE);	515	set_typeflag (p, typeflag (p) | T_IMMUTABLE);
529	#endif	516	#endif
530	}	517	}
531		518
		519	/* Result is:
		520	proper list: length
		521	circular list: -1
		522	not even a pair: -2
		523	dotted list: -2 minus length before dot
		524	*/
		525	INTERFACE int
		526	list_length (SCHEME_P_ pointer a)
		527	{
		528	int i = 0;
		529	pointer slow, fast;
		530
		531	slow = fast = a;
		532
		533	while (1)
		534	{
		535	if (fast == NIL)
		536	return i;
		537
		538	if (!is_pair (fast))
		539	return -2 - i;
		540
		541	fast = cdr (fast);
		542	++i;
		543
		544	if (fast == NIL)
		545	return i;
		546
		547	if (!is_pair (fast))
		548	return -2 - i;
		549
		550	++i;
		551	fast = cdr (fast);
		552
		553	/* Safe because we would have already returned if `fast'
		554	encountered a non-pair. */
		555	slow = cdr (slow);
		556
		557	if (fast == slow)
		558	{
		559	/* the fast pointer has looped back around and caught up
		560	with the slow pointer, hence the structure is circular,
		561	not of finite length, and therefore not a list */
		562	return -1;
		563	}
		564	}
		565	}
		566
		567	INTERFACE int
		568	is_list (SCHEME_P_ pointer a)
		569	{
		570	return list_length (SCHEME_A_ a) >= 0;
		571	}
		572
532	#if USE_CHAR_CLASSIFIERS	573	#if USE_CHAR_CLASSIFIERS
533	static INLINE int	574	ecb_inline int
534	Cisalpha (int c)	575	Cisalpha (int c)
535	{	576	{
536	return isascii (c) && isalpha (c);	577	return isascii (c) && isalpha (c);
537	}	578	}
538		579
539	static INLINE int	580	ecb_inline int
540	Cisdigit (int c)	581	Cisdigit (int c)
541	{	582	{
542	return isascii (c) && isdigit (c);	583	return isascii (c) && isdigit (c);
543	}	584	}
544		585
545	static INLINE int	586	ecb_inline int
546	Cisspace (int c)	587	Cisspace (int c)
547	{	588	{
548	return isascii (c) && isspace (c);	589	return isascii (c) && isspace (c);
549	}	590	}
550		591
551	static INLINE int	592	ecb_inline int
552	Cisupper (int c)	593	Cisupper (int c)
553	{	594	{
554	return isascii (c) && isupper (c);	595	return isascii (c) && isupper (c);
555	}	596	}
556		597
557	static INLINE int	598	ecb_inline int
558	Cislower (int c)	599	Cislower (int c)
559	{	600	{
560	return isascii (c) && islower (c);	601	return isascii (c) && islower (c);
561	}	602	}
562	#endif	603	#endif
…		…
623	#endif	664	#endif
624		665
625	static int file_push (SCHEME_P_ const char *fname);	666	static int file_push (SCHEME_P_ const char *fname);
626	static void file_pop (SCHEME_P);	667	static void file_pop (SCHEME_P);
627	static int file_interactive (SCHEME_P);	668	static int file_interactive (SCHEME_P);
628	static INLINE int is_one_of (char *s, int c);	669	ecb_inline int is_one_of (const char *s, int c);
629	static int alloc_cellseg (SCHEME_P_ int n);	670	static int alloc_cellseg (SCHEME_P);
630	static INLINE pointer get_cell (SCHEME_P_ pointer a, pointer b);	671	ecb_inline pointer get_cell (SCHEME_P_ pointer a, pointer b);
631	static void finalize_cell (SCHEME_P_ pointer a);	672	static void finalize_cell (SCHEME_P_ pointer a);
632	static int count_consecutive_cells (pointer x, int needed);	673	static int count_consecutive_cells (pointer x, int needed);
633	static pointer find_slot_in_env (SCHEME_P_ pointer env, pointer sym, int all);	674	static pointer find_slot_in_env (SCHEME_P_ pointer env, pointer sym, int all);
634	static pointer mk_number (SCHEME_P_ const num n);	675	static pointer mk_number (SCHEME_P_ const num n);
635	static char *store_string (SCHEME_P_ uint32_t len, const char *str, char fill);	676	static char *store_string (SCHEME_P_ uint32_t len, const char *str, char fill);
…		…
650	static void mark (pointer a);	691	static void mark (pointer a);
651	static void gc (SCHEME_P_ pointer a, pointer b);	692	static void gc (SCHEME_P_ pointer a, pointer b);
652	static int basic_inchar (port *pt);	693	static int basic_inchar (port *pt);
653	static int inchar (SCHEME_P);	694	static int inchar (SCHEME_P);
654	static void backchar (SCHEME_P_ int c);	695	static void backchar (SCHEME_P_ int c);
655	static char *readstr_upto (SCHEME_P_ char *delim);	696	static char *readstr_upto (SCHEME_P_ int skip, const char *delim);
656	static pointer readstrexp (SCHEME_P);	697	static pointer readstrexp (SCHEME_P_ char delim);
657	static INLINE int skipspace (SCHEME_P);	698	ecb_inline int skipspace (SCHEME_P);
658	static int token (SCHEME_P);	699	static int token (SCHEME_P);
659	static void printslashstring (SCHEME_P_ char *s, int len);	700	static void printslashstring (SCHEME_P_ char *s, int len);
660	static void atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen);	701	static void atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen);
661	static void printatom (SCHEME_P_ pointer l, int f);	702	static void printatom (SCHEME_P_ pointer l, int f);
662	static pointer mk_proc (SCHEME_P_ enum scheme_opcodes op);	703	static pointer mk_proc (SCHEME_P_ enum scheme_opcodes op);
…		…
666	static pointer reverse_in_place (SCHEME_P_ pointer term, pointer list);	707	static pointer reverse_in_place (SCHEME_P_ pointer term, pointer list);
667	static pointer revappend (SCHEME_P_ pointer a, pointer b);	708	static pointer revappend (SCHEME_P_ pointer a, pointer b);
668	static pointer ss_get_cont (SCHEME_P);	709	static pointer ss_get_cont (SCHEME_P);
669	static void ss_set_cont (SCHEME_P_ pointer cont);	710	static void ss_set_cont (SCHEME_P_ pointer cont);
670	static void dump_stack_mark (SCHEME_P);	711	static void dump_stack_mark (SCHEME_P);
671	static pointer opexe_0 (SCHEME_P_ enum scheme_opcodes op);	712	static int opexe_0 (SCHEME_P_ enum scheme_opcodes op);
		713	static int opexe_1 (SCHEME_P_ enum scheme_opcodes op);
672	static pointer opexe_2 (SCHEME_P_ enum scheme_opcodes op);	714	static int opexe_2 (SCHEME_P_ enum scheme_opcodes op);
673	static pointer opexe_r (SCHEME_P_ enum scheme_opcodes op);
674	static pointer opexe_3 (SCHEME_P_ enum scheme_opcodes op);	715	static int opexe_3 (SCHEME_P_ enum scheme_opcodes op);
675	static pointer opexe_4 (SCHEME_P_ enum scheme_opcodes op);	716	static int opexe_4 (SCHEME_P_ enum scheme_opcodes op);
676	static pointer opexe_5 (SCHEME_P_ enum scheme_opcodes op);	717	static int opexe_5 (SCHEME_P_ enum scheme_opcodes op);
677	static pointer opexe_6 (SCHEME_P_ enum scheme_opcodes op);	718	static int opexe_6 (SCHEME_P_ enum scheme_opcodes op);
678	static void Eval_Cycle (SCHEME_P_ enum scheme_opcodes op);	719	static void Eval_Cycle (SCHEME_P_ enum scheme_opcodes op);
679	static void assign_syntax (SCHEME_P_ const char *name);	720	static void assign_syntax (SCHEME_P_ const char *name);
680	static int syntaxnum (pointer p);	721	static int syntaxnum (pointer p);
681	static void assign_proc (SCHEME_P_ enum scheme_opcodes, const char *name);	722	static void assign_proc (SCHEME_P_ enum scheme_opcodes, const char *name);
682		723
		724	static IVALUE
		725	ivalue (pointer x)
		726	{
		727	return is_integer (x) ? ivalue_unchecked (x) : rvalue_unchecked (x);
		728	}
		729
		730	static RVALUE
		731	rvalue (pointer x)
		732	{
		733	return is_integer (x) ? ivalue_unchecked (x) : rvalue_unchecked (x);
		734	}
		735
		736	INTERFACE num
		737	nvalue (pointer x)
		738	{
		739	num n;
		740
		741	num_set_fixnum (n, is_integer (x));
		742
		743	if (num_is_fixnum (n))
		744	num_set_ivalue (n, ivalue_unchecked (x));
		745	else
		746	num_set_rvalue (n, rvalue_unchecked (x));
		747
		748	return n;
		749	}
		750
683	static num	751	static num
684	num_op (enum num_op op, num a, num b)	752	num_op (enum num_op op, num a, num b)
685	{	753	{
686	num ret;	754	num ret;
687		755
688	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));	756	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
689		757
690	if (num_is_fixnum (ret))	758	if (num_is_fixnum (ret))
691	{	759	{
692	IVALUE av = num_get_ivalue (a);
693	IVALUE bv = num_get_ivalue (b);
694
695	switch (op)	760	switch (op)
696	{	761	{
697	case NUM_ADD: av += bv; break;	762	case NUM_ADD: a.ivalue += b.ivalue; break;
698	case NUM_SUB: av -= bv; break;	763	case NUM_SUB: a.ivalue -= b.ivalue; break;
699	case NUM_MUL: av *= bv; break;	764	case NUM_MUL: a.ivalue *= b.ivalue; break;
700	case NUM_INTDIV: av /= bv; break;	765	case NUM_INTDIV: a.ivalue /= b.ivalue; break;
701	}	766	}
702		767
703	num_set_ivalue (ret, av);	768	num_set_ivalue (ret, a.ivalue);
704	}	769	}
		770	#if USE_REAL
705	else	771	else
706	{	772	{
707	RVALUE av = num_get_rvalue (a);
708	RVALUE bv = num_get_rvalue (b);
709
710	switch (op)	773	switch (op)
711	{	774	{
712	case NUM_ADD: av += bv; break;	775	case NUM_ADD: a.rvalue += b.rvalue; break;
713	case NUM_SUB: av -= bv; break;	776	case NUM_SUB: a.rvalue -= b.rvalue; break;
714	case NUM_MUL: av *= bv; break;	777	case NUM_MUL: a.rvalue *= b.rvalue; break;
715	case NUM_INTDIV: av /= bv; break;	778	case NUM_INTDIV: a.rvalue /= b.rvalue; break;
716	}	779	}
717		780
718	num_set_rvalue (ret, av);	781	num_set_rvalue (ret, a.rvalue);
719	}	782	}
		783	#endif
720		784
721	return ret;	785	return ret;
722	}	786	}
723		787
724	static num	788	static num
725	num_div (num a, num b)	789	num_div (num a, num b)
726	{	790	{
727	num ret;	791	num ret;
728		792
729	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b) && num_get_ivalue (a) % num_get_ivalue (b) == 0);	793	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b) && num_ivalue (a) % num_ivalue (b) == 0);
730		794
731	if (num_is_fixnum (ret))	795	if (num_is_fixnum (ret))
732	num_set_ivalue (ret, num_get_ivalue (a) / num_get_ivalue (b));	796	num_set_ivalue (ret, num_ivalue (a) / num_ivalue (b));
733	else	797	else
734	num_set_rvalue (ret, num_get_rvalue (a) / num_get_rvalue (b));	798	num_set_rvalue (ret, num_rvalue (a) / num_rvalue (b));
735		799
736	return ret;	800	return ret;
737	}	801	}
738		802
739	static num	803	static num
…		…
741	{	805	{
742	num ret;	806	num ret;
743	long e1, e2, res;	807	long e1, e2, res;
744		808
745	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));	809	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
746	e1 = num_get_ivalue (a);	810	e1 = num_ivalue (a);
747	e2 = num_get_ivalue (b);	811	e2 = num_ivalue (b);
748	res = e1 % e2;	812	res = e1 % e2;
749		813
750	/* remainder should have same sign as second operand */	814	/* remainder should have same sign as second operand */
751	if (res > 0)	815	if (res > 0)
752	{	816	{
…		…
768	{	832	{
769	num ret;	833	num ret;
770	long e1, e2, res;	834	long e1, e2, res;
771		835
772	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));	836	num_set_fixnum (ret, num_is_fixnum (a) && num_is_fixnum (b));
773	e1 = num_get_ivalue (a);	837	e1 = num_ivalue (a);
774	e2 = num_get_ivalue (b);	838	e2 = num_ivalue (b);
775	res = e1 % e2;	839	res = e1 % e2;
776		840
777	/* modulo should have same sign as second operand */	841	/* modulo should have same sign as second operand */
778	if (res * e2 < 0)	842	if (res * e2 < 0)
779	res += e2;	843	res += e2;
780		844
781	num_set_ivalue (ret, res);	845	num_set_ivalue (ret, res);
782	return ret;	846	return ret;
783	}	847	}
784		848
785	/* this completely disrespects NaNs */	849	/* this completely disrespects NaNs, but r5rs doesn't even allow NaNs */
786	static int	850	static int
787	num_cmp (num a, num b)	851	num_cmp (num a, num b)
788	{	852	{
789	int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);	853	int is_fixnum = num_is_fixnum (a) && num_is_fixnum (b);
790	int ret;	854	int ret;
791		855
792	if (is_fixnum)	856	if (is_fixnum)
793	{	857	{
794	IVALUE av = num_get_ivalue (a);	858	IVALUE av = num_ivalue (a);
795	IVALUE bv = num_get_ivalue (b);	859	IVALUE bv = num_ivalue (b);
796		860
797	ret = av == bv ? 0 : av < bv ? -1 : +1;	861	ret = av == bv ? 0 : av < bv ? -1 : +1;
798	}	862	}
799	else	863	else
800	{	864	{
801	RVALUE av = num_get_rvalue (a);	865	RVALUE av = num_rvalue (a);
802	RVALUE bv = num_get_rvalue (b);	866	RVALUE bv = num_rvalue (b);
803		867
804	ret = av == bv ? 0 : av < bv ? -1 : +1;	868	ret = av == bv ? 0 : av < bv ? -1 : +1;
805	}	869	}
806		870
807	return ret;	871	return ret;
808	}	872	}
809
810	#if USE_MATH
811
812	/* Round to nearest. Round to even if midway */
813	static double
814	round_per_R5RS (double x)
815	{
816	double fl = floor (x);
817	double ce = ceil (x);
818	double dfl = x - fl;
819	double dce = ce - x;
820
821	if (dfl > dce)
822	return ce;
823	else if (dfl < dce)
824	return fl;
825	else
826	{
827	if (fmod (fl, 2) == 0) /* I imagine this holds */
828	return fl;
829	else
830	return ce;
831	}
832	}
833	#endif
834		873
835	static int	874	static int
836	is_zero_rvalue (RVALUE x)	875	is_zero_rvalue (RVALUE x)
837	{	876	{
		877	return x == 0;
		878	#if 0
838	#if USE_REAL	879	#if USE_REAL
839	return x < DBL_MIN && x > -DBL_MIN; /* why the hate of denormals? this should be == 0. */	880	return x < DBL_MIN && x > -DBL_MIN; /* why the hate of denormals? this should be == 0. */
840	#else	881	#else
841	return x == 0;	882	return x == 0;
842	#endif	883	#endif
		884	#endif
843	}	885	}
844		886
845	/* allocate new cell segment */	887	/* allocate new cell segment */
846	static int	888	static int
847	alloc_cellseg (SCHEME_P_ int n)	889	alloc_cellseg (SCHEME_P)
848	{	890	{
849	pointer newp;	891	struct cell *newp;
850	pointer last;	892	struct cell *last;
851	pointer p;	893	struct cell *p;
852	char *cp;	894	char *cp;
853	long i;	895	long i;
854	int k;	896	int k;
855		897
856	static int segsize = CELL_SEGSIZE >> 1;	898	static int segsize = CELL_SEGSIZE >> 1;
857	segsize <<= 1;	899	segsize <<= 1;
858		900
859	for (k = 0; k < n; k++)
860	{
861	if (SCHEME_V->last_cell_seg >= CELL_NSEGMENT - 1)
862	return k;
863
864	cp = malloc (segsize * sizeof (struct cell));	901	cp = malloc (segsize * sizeof (struct cell));
865		902
866	if (!cp && USE_ERROR_CHECKING)	903	if (!cp && USE_ERROR_CHECKING)
867	return k;	904	return k;
868		905
869	i = ++SCHEME_V->last_cell_seg;	906	i = ++SCHEME_V->last_cell_seg;
870	SCHEME_V->alloc_seg[i] = cp;	907	SCHEME_V->alloc_seg[i] = cp;
871		908
872	/* insert new segment in address order */	909	newp = (struct cell *)cp;
873	newp = (pointer)cp;
874	SCHEME_V->cell_seg[i] = newp;	910	SCHEME_V->cell_seg[i] = newp;
875	SCHEME_V->cell_segsize[i] = segsize;	911	SCHEME_V->cell_segsize[i] = segsize;
876
877	//TODO: insert, not swap
878	while (i > 0 && SCHEME_V->cell_seg[i - 1] > SCHEME_V->cell_seg[i])
879	{
880	p = SCHEME_V->cell_seg[i];
881	SCHEME_V->cell_seg[i] = SCHEME_V->cell_seg[i - 1];
882	SCHEME_V->cell_seg[i - 1] = p;
883
884	k = SCHEME_V->cell_segsize[i];
885	SCHEME_V->cell_segsize[i] = SCHEME_V->cell_segsize[i - 1];
886	SCHEME_V->cell_segsize[i - 1] = k;
887
888	--i;
889	}
890
891	SCHEME_V->fcells += segsize;	912	SCHEME_V->fcells += segsize;
892	last = newp + segsize - 1;	913	last = newp + segsize - 1;
893		914
894	for (p = newp; p <= last; p++)	915	for (p = newp; p <= last; p++)
895	{	916	{
		917	pointer cp = POINTER (p);
896	set_typeflag (p, T_FREE);	918	set_typeflag (cp, T_PAIR);
897	set_car (p, NIL);	919	set_car (cp, NIL);
898	set_cdr (p, p + 1);	920	set_cdr (cp, POINTER (p + 1));
899	}	921	}
900		922
901	/* insert new cells in address order on free list */
902	if (SCHEME_V->free_cell == NIL || p < SCHEME_V->free_cell)
903	{
904	set_cdr (last, SCHEME_V->free_cell);	923	set_cdr (POINTER (last), SCHEME_V->free_cell);
905	SCHEME_V->free_cell = newp;	924	SCHEME_V->free_cell = POINTER (newp);
906	}
907	else
908	{
909	p = SCHEME_V->free_cell;
910		925
911	while (cdr (p) != NIL && newp > cdr (p))
912	p = cdr (p);
913
914	set_cdr (last, cdr (p));
915	set_cdr (p, newp);
916	}
917	}
918
919	return n;	926	return 1;
920	}	927	}
921		928
922	/* get new cell. parameter a, b is marked by gc. */	929	/* get new cell. parameter a, b is marked by gc. */
923	static INLINE pointer	930	ecb_inline pointer
924	get_cell_x (SCHEME_P_ pointer a, pointer b)	931	get_cell_x (SCHEME_P_ pointer a, pointer b)
925	{	932	{
926	if (ecb_expect_false (SCHEME_V->free_cell == NIL))	933	if (ecb_expect_false (SCHEME_V->free_cell == NIL))
927	{	934	{
928	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)	935	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)
929	return S_SINK;	936	return S_SINK;
930		937
931	if (SCHEME_V->free_cell == NIL)	938	if (SCHEME_V->free_cell == NIL)
932	{	939	{
933	const int min_to_be_recovered = SCHEME_V->last_cell_seg < 128 ? 128 * 8 : SCHEME_V->last_cell_seg * 8;	940	const int min_to_be_recovered = SCHEME_V->cell_segsize [SCHEME_V->last_cell_seg] >> 1;
934		941
935	gc (SCHEME_A_ a, b);	942	gc (SCHEME_A_ a, b);
936		943
937	if (SCHEME_V->fcells < min_to_be_recovered || SCHEME_V->free_cell == NIL)	944	if (SCHEME_V->fcells < min_to_be_recovered || SCHEME_V->free_cell == NIL)
938	{	945	{
939	/* if only a few recovered, get more to avoid fruitless gc's */	946	/* if only a few recovered, get more to avoid fruitless gc's */
940	if (!alloc_cellseg (SCHEME_A_ 1) && SCHEME_V->free_cell == NIL)	947	if (!alloc_cellseg (SCHEME_A) && SCHEME_V->free_cell == NIL)
941	{	948	{
942	#if USE_ERROR_CHECKING	949	#if USE_ERROR_CHECKING
943	SCHEME_V->no_memory = 1;	950	SCHEME_V->no_memory = 1;
944	return S_SINK;	951	return S_SINK;
945	#endif	952	#endif
…		…
957	}	964	}
958	}	965	}
959		966
960	/* To retain recent allocs before interpreter knows about them -	967	/* To retain recent allocs before interpreter knows about them -
961	Tehom */	968	Tehom */
962
963	static void	969	static void
964	push_recent_alloc (SCHEME_P_ pointer recent, pointer extra)	970	push_recent_alloc (SCHEME_P_ pointer recent, pointer extra)
965	{	971	{
966	pointer holder = get_cell_x (SCHEME_A_ recent, extra);	972	pointer holder = get_cell_x (SCHEME_A_ recent, extra);
967		973
…		…
989	}	995	}
990		996
991	static pointer	997	static pointer
992	get_vector_object (SCHEME_P_ uint32_t len, pointer init)	998	get_vector_object (SCHEME_P_ uint32_t len, pointer init)
993	{	999	{
994	pointer v = get_cell_x (SCHEME_A_ 0, 0);	1000	pointer v = get_cell_x (SCHEME_A_ NIL, NIL);
995	pointer *e = malloc (len * sizeof (pointer));	1001	pointer *e = malloc (len * sizeof (pointer));
996		1002
997	if (!e && USE_ERROR_CHECKING)	1003	if (!e && USE_ERROR_CHECKING)
998	return S_SINK;	1004	return S_SINK;
999		1005
1000	/* Record it as a vector so that gc understands it. */	1006	/* Record it as a vector so that gc understands it. */
1001	set_typeflag (v, T_VECTOR | T_ATOM);	1007	set_typeflag (v, T_VECTOR | T_ATOM);
1002		1008
1003	v->object.vector.vvalue = e;	1009	CELL(v)->object.vector.vvalue = e;
1004	v->object.vector.length = len;	1010	CELL(v)->object.vector.length = len;
1005	fill_vector (v, init);	1011	fill_vector (v, 0, init);
1006	push_recent_alloc (SCHEME_A_ v, NIL);	1012	push_recent_alloc (SCHEME_A_ v, NIL);
1007		1013
1008	return v;	1014	return v;
1009	}	1015	}
1010		1016
1011	static INLINE void	1017	ecb_inline void
1012	ok_to_freely_gc (SCHEME_P)	1018	ok_to_freely_gc (SCHEME_P)
1013	{	1019	{
1014	set_car (S_SINK, NIL);	1020	set_car (S_SINK, NIL);
1015	}	1021	}
1016		1022
…		…
1018	static void	1024	static void
1019	check_cell_alloced (pointer p, int expect_alloced)	1025	check_cell_alloced (pointer p, int expect_alloced)
1020	{	1026	{
1021	/* Can't use putstr(SCHEME_A_ str) because callers have no access to sc. */	1027	/* Can't use putstr(SCHEME_A_ str) because callers have no access to sc. */
1022	if (typeflag (p) & !expect_alloced)	1028	if (typeflag (p) & !expect_alloced)
1023	xwrstr ("Cell is already allocated!\n");	1029	putstr (SCHEME_A_ "Cell is already allocated!\n");
1024		1030
1025	if (!(typeflag (p)) & expect_alloced)	1031	if (!(typeflag (p)) & expect_alloced)
1026	xwrstr ("Cell is not allocated!\n");	1032	putstr (SCHEME_A_ "Cell is not allocated!\n");
1027	}	1033	}
1028		1034
1029	static void	1035	static void
1030	check_range_alloced (pointer p, int n, int expect_alloced)	1036	check_range_alloced (pointer p, int n, int expect_alloced)
1031	{	1037	{
…		…
1053	set_cdr (x, b);	1059	set_cdr (x, b);
1054		1060
1055	return x;	1061	return x;
1056	}	1062	}
1057		1063
		1064	static pointer
		1065	generate_symbol (SCHEME_P_ const char *name)
		1066	{
		1067	pointer x = mk_string (SCHEME_A_ name);
		1068	setimmutable (x);
		1069	set_typeflag (x, T_SYMBOL | T_ATOM);
		1070	return x;
		1071	}
		1072
1058	/* ========== oblist implementation ========== */	1073	/* ========== oblist implementation ========== */
1059		1074
1060	#ifndef USE_OBJECT_LIST	1075	#ifndef USE_OBJECT_LIST
1061		1076
		1077	static int
1062	static int hash_fn (const char *key, int table_size);	1078	hash_fn (const char *key, int table_size)
		1079	{
		1080	const unsigned char *p = key;
		1081	uint32_t hash = 2166136261;
		1082
		1083	while (*p)
		1084	hash = (hash ^ *p++) * 16777619;
		1085
		1086	return hash % table_size;
		1087	}
1063		1088
1064	static pointer	1089	static pointer
1065	oblist_initial_value (SCHEME_P)	1090	oblist_initial_value (SCHEME_P)
1066	{	1091	{
1067	return mk_vector (SCHEME_A_ 461); /* probably should be bigger */	1092	return mk_vector (SCHEME_A_ 461); /* probably should be bigger */
…		…
1069		1094
1070	/* returns the new symbol */	1095	/* returns the new symbol */
1071	static pointer	1096	static pointer
1072	oblist_add_by_name (SCHEME_P_ const char *name)	1097	oblist_add_by_name (SCHEME_P_ const char *name)
1073	{	1098	{
1074	int location;	1099	pointer x = generate_symbol (SCHEME_A_ name);
1075
1076	pointer x = immutable_cons (mk_string (SCHEME_A_ name), NIL);
1077	set_typeflag (x, T_SYMBOL);
1078	setimmutable (car (x));
1079
1080	location = hash_fn (name, veclength (SCHEME_V->oblist));	1100	int location = hash_fn (name, veclength (SCHEME_V->oblist));
1081	set_vector_elem (SCHEME_V->oblist, location, immutable_cons (x, vector_elem (SCHEME_V->oblist, location)));	1101	vector_set (SCHEME_V->oblist, location, immutable_cons (x, vector_get (SCHEME_V->oblist, location)));
1082	return x;	1102	return x;
1083	}	1103	}
1084		1104
1085	static INLINE pointer	1105	ecb_inline pointer
1086	oblist_find_by_name (SCHEME_P_ const char *name)	1106	oblist_find_by_name (SCHEME_P_ const char *name)
1087	{	1107	{
1088	int location;	1108	int location;
1089	pointer x;	1109	pointer x;
1090	char *s;	1110	char *s;
1091		1111
1092	location = hash_fn (name, veclength (SCHEME_V->oblist));	1112	location = hash_fn (name, veclength (SCHEME_V->oblist));
1093		1113
1094	for (x = vector_elem (SCHEME_V->oblist, location); x != NIL; x = cdr (x))	1114	for (x = vector_get (SCHEME_V->oblist, location); x != NIL; x = cdr (x))
1095	{	1115	{
1096	s = symname (car (x));	1116	s = symname (car (x));
1097		1117
1098	/* case-insensitive, per R5RS section 2 */	1118	/* case-insensitive, per R5RS section 2 */
1099	if (stricmp (name, s) == 0)	1119	if (stricmp (name, s) == 0)
…		…
1109	int i;	1129	int i;
1110	pointer x;	1130	pointer x;
1111	pointer ob_list = NIL;	1131	pointer ob_list = NIL;
1112		1132
1113	for (i = 0; i < veclength (SCHEME_V->oblist); i++)	1133	for (i = 0; i < veclength (SCHEME_V->oblist); i++)
1114	for (x = vector_elem (SCHEME_V->oblist, i); x != NIL; x = cdr (x))	1134	for (x = vector_get (SCHEME_V->oblist, i); x != NIL; x = cdr (x))
1115	ob_list = cons (x, ob_list);	1135	ob_list = cons (x, ob_list);
1116		1136
1117	return ob_list;	1137	return ob_list;
1118	}	1138	}
1119		1139
…		…
1123	oblist_initial_value (SCHEME_P)	1143	oblist_initial_value (SCHEME_P)
1124	{	1144	{
1125	return NIL;	1145	return NIL;
1126	}	1146	}
1127		1147
1128	static INLINE pointer	1148	ecb_inline pointer
1129	oblist_find_by_name (SCHEME_P_ const char *name)	1149	oblist_find_by_name (SCHEME_P_ const char *name)
1130	{	1150	{
1131	pointer x;	1151	pointer x;
1132	char *s;	1152	char *s;
1133		1153
…		…
1145		1165
1146	/* returns the new symbol */	1166	/* returns the new symbol */
1147	static pointer	1167	static pointer
1148	oblist_add_by_name (SCHEME_P_ const char *name)	1168	oblist_add_by_name (SCHEME_P_ const char *name)
1149	{	1169	{
1150	pointer x;	1170	pointer x = generate_symbol (SCHEME_A_ name);
1151
1152	x = immutable_cons (mk_string (SCHEME_A_ name), NIL);
1153	set_typeflag (x, T_SYMBOL);
1154	setimmutable (car (x));
1155	SCHEME_V->oblist = immutable_cons (x, SCHEME_V->oblist);	1171	SCHEME_V->oblist = immutable_cons (x, SCHEME_V->oblist);
1156	return x;	1172	return x;
1157	}	1173	}
1158		1174
1159	static pointer	1175	static pointer
…		…
1169	mk_port (SCHEME_P_ port *p)	1185	mk_port (SCHEME_P_ port *p)
1170	{	1186	{
1171	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1187	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1172		1188
1173	set_typeflag (x, T_PORT | T_ATOM);	1189	set_typeflag (x, T_PORT | T_ATOM);
1174	x->object.port = p;	1190	set_port (x, p);
1175		1191
1176	return x;	1192	return x;
1177	}	1193	}
1178	#endif	1194	#endif
1179		1195
1180	pointer	1196	pointer
1181	mk_foreign_func (SCHEME_P_ foreign_func f)	1197	mk_foreign_func (SCHEME_P_ foreign_func f)
1182	{	1198	{
1183	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1199	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1184		1200
1185	set_typeflag (x, (T_FOREIGN | T_ATOM));	1201	set_typeflag (x, T_FOREIGN | T_ATOM);
1186	x->object.ff = f;	1202	CELL(x)->object.ff = f;
1187		1203
1188	return x;	1204	return x;
1189	}	1205	}
1190		1206
1191	INTERFACE pointer	1207	INTERFACE pointer
1192	mk_character (SCHEME_P_ int c)	1208	mk_character (SCHEME_P_ int c)
1193	{	1209	{
1194	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1210	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1195		1211
1196	set_typeflag (x, (T_CHARACTER | T_ATOM));	1212	set_typeflag (x, T_CHARACTER | T_ATOM);
1197	ivalue_unchecked (x) = c & 0xff;	1213	set_ivalue (x, c & 0xff);
1198	set_num_integer (x);	1214
1199	return x;	1215	return x;
1200	}	1216	}
1201		1217
1202	/* get number atom (integer) */	1218	/* get number atom (integer) */
1203	INTERFACE pointer	1219	INTERFACE pointer
1204	mk_integer (SCHEME_P_ long num)	1220	mk_integer (SCHEME_P_ long n)
1205	{	1221	{
		1222	pointer p = 0;
		1223	pointer *pp = &p;
		1224
		1225	#if USE_INTCACHE
		1226	if (n >= INTCACHE_MIN && n <= INTCACHE_MAX)
		1227	pp = &SCHEME_V->intcache[n - INTCACHE_MIN];
		1228	#endif
		1229
		1230	if (!*pp)
		1231	{
1206	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1232	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1207		1233
1208	set_typeflag (x, (T_NUMBER | T_ATOM));	1234	set_typeflag (x, T_INTEGER | T_ATOM);
1209	ivalue_unchecked (x) = num;	1235	setimmutable (x); /* shouldn't do anythi9ng, doesn't cost anything */
1210	set_num_integer (x);	1236	set_ivalue (x, n);
		1237
		1238	*pp = x;
		1239	}
		1240
1211	return x;	1241	return *pp;
1212	}	1242	}
1213		1243
1214	INTERFACE pointer	1244	INTERFACE pointer
1215	mk_real (SCHEME_P_ RVALUE n)	1245	mk_real (SCHEME_P_ RVALUE n)
1216	{	1246	{
		1247	#if USE_REAL
1217	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1248	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1218		1249
1219	set_typeflag (x, (T_NUMBER | T_ATOM));	1250	set_typeflag (x, T_REAL | T_ATOM);
1220	rvalue_unchecked (x) = n;	1251	set_rvalue (x, n);
1221	set_num_real (x);	1252
1222	return x;	1253	return x;
		1254	#else
		1255	return mk_integer (SCHEME_A_ n);
		1256	#endif
1223	}	1257	}
1224		1258
1225	static pointer	1259	static pointer
1226	mk_number (SCHEME_P_ const num n)	1260	mk_number (SCHEME_P_ const num n)
1227	{	1261	{
		1262	#if USE_REAL
1228	if (num_is_fixnum (n))	1263	return num_is_fixnum (n)
		1264	? mk_integer (SCHEME_A_ num_ivalue (n))
		1265	: mk_real (SCHEME_A_ num_rvalue (n));
		1266	#else
1229	return mk_integer (SCHEME_A_ num_get_ivalue (n));	1267	return mk_integer (SCHEME_A_ num_ivalue (n));
1230	else	1268	#endif
1231	return mk_real (SCHEME_A_ num_get_rvalue (n));
1232	}	1269	}
1233		1270
1234	/* allocate name to string area */	1271	/* allocate name to string area */
1235	static char *	1272	static char *
1236	store_string (SCHEME_P_ uint32_t len_str, const char *str, char fill)	1273	store_string (SCHEME_P_ uint32_t len_str, const char *str, char fill)
…		…
1242	SCHEME_V->no_memory = 1;	1279	SCHEME_V->no_memory = 1;
1243	return SCHEME_V->strbuff;	1280	return SCHEME_V->strbuff;
1244	}	1281	}
1245		1282
1246	if (str)	1283	if (str)
1247	{	1284	memcpy (q, str , len_str); /* caller must ensure that *str has length len_str */
1248	int l = strlen (str);
1249
1250	if (l > len_str)
1251	l = len_str;
1252
1253	memcpy (q, str, l);
1254	q[l] = 0;
1255	}
1256	else	1285	else
1257	{
1258	memset (q, fill, len_str);	1286	memset (q, fill, len_str);
		1287
1259	q[len_str] = 0;	1288	q[len_str] = 0;
1260	}
1261		1289
1262	return q;	1290	return q;
1263	}	1291	}
1264		1292
1265	INTERFACE pointer	1293	INTERFACE pointer
…		…
1279	pointer x = get_cell (SCHEME_A_ NIL, NIL);	1307	pointer x = get_cell (SCHEME_A_ NIL, NIL);
1280		1308
1281	set_typeflag (x, T_STRING | T_ATOM);	1309	set_typeflag (x, T_STRING | T_ATOM);
1282	strvalue (x) = store_string (SCHEME_A_ len, str, 0);	1310	strvalue (x) = store_string (SCHEME_A_ len, str, 0);
1283	strlength (x) = len;	1311	strlength (x) = len;
		1312
1284	return x;	1313	return x;
1285	}	1314	}
1286		1315
1287	INTERFACE pointer	1316	INTERFACE pointer
1288	mk_string (SCHEME_P_ const char *str)	1317	mk_string (SCHEME_P_ const char *str)
…		…
1295	{	1324	{
1296	return get_vector_object (SCHEME_A_ len, NIL);	1325	return get_vector_object (SCHEME_A_ len, NIL);
1297	}	1326	}
1298		1327
1299	INTERFACE void	1328	INTERFACE void
1300	fill_vector (pointer vec, pointer obj)	1329	fill_vector (pointer vec, uint32_t start, pointer obj)
1301	{	1330	{
1302	int i;	1331	int i;
1303		1332
1304	for (i = 0; i < vec->object.vector.length; i++)	1333	for (i = start; i < veclength (vec); i++)
1305	vecvalue (vec)[i] = obj;	1334	vecvalue (vec)[i] = obj;
1306	}	1335	}
1307		1336
		1337	INTERFACE void
		1338	vector_resize (pointer vec, uint32_t newsize, pointer fill)
		1339	{
		1340	uint32_t oldsize = veclength (vec);
		1341	vecvalue (vec) = realloc (vecvalue (vec), newsize * sizeof (pointer));
		1342	veclength (vec) = newsize;
		1343	fill_vector (vec, oldsize, fill);
		1344	}
		1345
1308	INTERFACE pointer	1346	INTERFACE pointer
1309	vector_elem (pointer vec, uint32_t ielem)	1347	vector_get (pointer vec, uint32_t ielem)
1310	{	1348	{
1311	return vecvalue(vec)[ielem];	1349	return vecvalue(vec)[ielem];
1312	}	1350	}
1313		1351
1314	INTERFACE void	1352	INTERFACE void
1315	set_vector_elem (pointer vec, uint32_t ielem, pointer a)	1353	vector_set (pointer vec, uint32_t ielem, pointer a)
1316	{	1354	{
1317	vecvalue(vec)[ielem] = a;	1355	vecvalue(vec)[ielem] = a;
1318	}	1356	}
1319		1357
1320	/* get new symbol */	1358	/* get new symbol */
…		…
1332		1370
1333	INTERFACE pointer	1371	INTERFACE pointer
1334	gensym (SCHEME_P)	1372	gensym (SCHEME_P)
1335	{	1373	{
1336	pointer x;	1374	pointer x;
1337
1338	for (; SCHEME_V->gensym_cnt < LONG_MAX; SCHEME_V->gensym_cnt++)
1339	{
1340	char name[40] = "gensym-";	1375	char name[40] = "gensym-";
1341	xnum (name + 7, SCHEME_V->gensym_cnt);	1376	xnum (name + 7, ++SCHEME_V->gensym_cnt);
1342		1377
1343	/* first check oblist */	1378	return generate_symbol (SCHEME_A_ name);
1344	x = oblist_find_by_name (SCHEME_A_ name);	1379	}
1345		1380
1346	if (x == NIL)	1381	static int
1347	{	1382	is_gensym (SCHEME_P_ pointer x)
1348	x = oblist_add_by_name (SCHEME_A_ name);	1383	{
1349	return x;	1384	return is_symbol (x) && oblist_find_by_name (SCHEME_A_ strvalue (x)) != x;
1350	}
1351	}
1352
1353	return NIL;
1354	}	1385	}
1355		1386
1356	/* make symbol or number atom from string */	1387	/* make symbol or number atom from string */
1357	static pointer	1388	static pointer
1358	mk_atom (SCHEME_P_ char *q)	1389	mk_atom (SCHEME_P_ char *q)
…		…
1412	}	1443	}
1413	else if ((c == 'e') || (c == 'E'))	1444	else if ((c == 'e') || (c == 'E'))
1414	{	1445	{
1415	if (!has_fp_exp)	1446	if (!has_fp_exp)
1416	{	1447	{
1417	has_dec_point = 1; /* decimal point illegal	1448	has_dec_point = 1; /* decimal point illegal from now on */
1418	from now on */
1419	p++;	1449	p++;
1420		1450
1421	if ((*p == '-') || (*p == '+') || isdigit (*p))	1451	if ((*p == '-') || (*p == '+') || isdigit (*p))
1422	continue;	1452	continue;
1423	}	1453	}
…		…
1511		1541
1512	if (ecb_expect_false (is_vector (p)))	1542	if (ecb_expect_false (is_vector (p)))
1513	{	1543	{
1514	int i;	1544	int i;
1515		1545
1516	for (i = 0; i < p->object.vector.length; i++)	1546	for (i = 0; i < veclength (p); i++)
1517	mark (vecvalue (p)[i]);	1547	mark (vecvalue (p)[i]);
1518	}	1548	}
1519		1549
1520	if (is_atom (p))	1550	if (is_atom (p))
1521	goto E6;	1551	goto E6;
…		…
1568		1598
1569	/* garbage collection. parameter a, b is marked. */	1599	/* garbage collection. parameter a, b is marked. */
1570	static void	1600	static void
1571	gc (SCHEME_P_ pointer a, pointer b)	1601	gc (SCHEME_P_ pointer a, pointer b)
1572	{	1602	{
1573	pointer p;
1574	int i;	1603	int i;
1575		1604
1576	if (SCHEME_V->gc_verbose)	1605	if (SCHEME_V->gc_verbose)
1577	putstr (SCHEME_A_ "gc...");	1606	putstr (SCHEME_A_ "gc...");
1578		1607
…		…
1594	/* Mark recent objects the interpreter doesn't know about yet. */	1623	/* Mark recent objects the interpreter doesn't know about yet. */
1595	mark (car (S_SINK));	1624	mark (car (S_SINK));
1596	/* Mark any older stuff above nested C calls */	1625	/* Mark any older stuff above nested C calls */
1597	mark (SCHEME_V->c_nest);	1626	mark (SCHEME_V->c_nest);
1598		1627
		1628	#if USE_INTCACHE
		1629	/* mark intcache */
		1630	for (i = INTCACHE_MIN; i <= INTCACHE_MAX; ++i)
		1631	if (SCHEME_V->intcache[i - INTCACHE_MIN])
		1632	mark (SCHEME_V->intcache[i - INTCACHE_MIN]);
		1633	#endif
		1634
1599	/* mark variables a, b */	1635	/* mark variables a, b */
1600	mark (a);	1636	mark (a);
1601	mark (b);	1637	mark (b);
1602		1638
1603	/* garbage collect */	1639	/* garbage collect */
1604	clrmark (NIL);	1640	clrmark (NIL);
1605	SCHEME_V->fcells = 0;	1641	SCHEME_V->fcells = 0;
1606	SCHEME_V->free_cell = NIL;	1642	SCHEME_V->free_cell = NIL;
1607		1643
1608	/* free-list is kept sorted by address so as to maintain consecutive	1644	if (SCHEME_V->gc_verbose)
1609	ranges, if possible, for use with vectors. Here we scan the cells	1645	putstr (SCHEME_A_ "freeing...");
1610	(which are also kept sorted by address) downwards to build the	1646
1611	free-list in sorted order.	1647	uint32_t total = 0;
1612	*/	1648
		1649	/* Here we scan the cells to build the free-list. */
1613	for (i = SCHEME_V->last_cell_seg; i >= 0; i--)	1650	for (i = SCHEME_V->last_cell_seg; i >= 0; i--)
1614	{	1651	{
1615	p = SCHEME_V->cell_seg[i] + SCHEME_V->cell_segsize [i];	1652	struct cell *end = SCHEME_V->cell_seg[i] + SCHEME_V->cell_segsize [i];
		1653	struct cell *p;
		1654	total += SCHEME_V->cell_segsize [i];
1616		1655
1617	while (--p >= SCHEME_V->cell_seg[i])	1656	for (p = SCHEME_V->cell_seg[i]; p < end; ++p)
1618	{	1657	{
		1658	pointer c = POINTER (p);
		1659
1619	if (is_mark (p))	1660	if (is_mark (c))
1620	clrmark (p);	1661	clrmark (c);
1621	else	1662	else
1622	{	1663	{
1623	/* reclaim cell */	1664	/* reclaim cell */
1624	if (typeflag (p) != T_FREE)	1665	if (typeflag (c) != T_PAIR)
1625	{	1666	{
1626	finalize_cell (SCHEME_A_ p);	1667	finalize_cell (SCHEME_A_ c);
1627	set_typeflag (p, T_FREE);	1668	set_typeflag (c, T_PAIR);
1628	set_car (p, NIL);	1669	set_car (c, NIL);
1629	}	1670	}
1630		1671
1631	++SCHEME_V->fcells;	1672	++SCHEME_V->fcells;
1632	set_cdr (p, SCHEME_V->free_cell);	1673	set_cdr (c, SCHEME_V->free_cell);
1633	SCHEME_V->free_cell = p;	1674	SCHEME_V->free_cell = c;
1634	}	1675	}
1635	}	1676	}
1636	}	1677	}
1637		1678
1638	if (SCHEME_V->gc_verbose)	1679	if (SCHEME_V->gc_verbose)
1639	xwrstr ("done: "); xwrnum (SCHEME_V->fcells); xwrstr (" cells were recovered.\n");	1680	{
		1681	putstr (SCHEME_A_ "done: "); putnum (SCHEME_A_ SCHEME_V->fcells); putstr (SCHEME_A_ " out of "); putnum (SCHEME_A_ total); putstr (SCHEME_A_ " cells were recovered.\n");
		1682	}
1640	}	1683	}
1641		1684
1642	static void	1685	static void
1643	finalize_cell (SCHEME_P_ pointer a)	1686	finalize_cell (SCHEME_P_ pointer a)
1644	{	1687	{
1645	/* TODO, fast bitmap check? */	1688	/* TODO, fast bitmap check? */
1646	if (is_string (a))	1689	if (is_string (a) || is_symbol (a))
1647	free (strvalue (a));	1690	free (strvalue (a));
1648	else if (is_vector (a))	1691	else if (is_vector (a))
1649	free (vecvalue (a));	1692	free (vecvalue (a));
1650	#if USE_PORTS	1693	#if USE_PORTS
1651	else if (is_port (a))	1694	else if (is_port (a))
1652	{	1695	{
1653	if (a->object.port->kind & port_file && a->object.port->rep.stdio.closeit)	1696	if (port(a)->kind & port_file && port (a)->rep.stdio.closeit)
1654	port_close (SCHEME_A_ a, port_input | port_output);	1697	port_close (SCHEME_A_ a, port_input | port_output);
1655		1698
1656	free (a->object.port);	1699	free (port (a));
1657	}	1700	}
1658	#endif	1701	#endif
1659	}	1702	}
1660		1703
1661	/* ========== Routines for Reading ========== */	1704	/* ========== Routines for Reading ========== */
…		…
1677	SCHEME_V->load_stack[SCHEME_V->file_i].unget = -1;	1720	SCHEME_V->load_stack[SCHEME_V->file_i].unget = -1;
1678	SCHEME_V->load_stack[SCHEME_V->file_i].kind = port_file | port_input;	1721	SCHEME_V->load_stack[SCHEME_V->file_i].kind = port_file | port_input;
1679	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.file = fin;	1722	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.file = fin;
1680	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.closeit = 1;	1723	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.closeit = 1;
1681	SCHEME_V->nesting_stack[SCHEME_V->file_i] = 0;	1724	SCHEME_V->nesting_stack[SCHEME_V->file_i] = 0;
1682	SCHEME_V->loadport->object.port = SCHEME_V->load_stack + SCHEME_V->file_i;	1725	set_port (SCHEME_V->loadport, SCHEME_V->load_stack + SCHEME_V->file_i);
1683		1726
1684	#if SHOW_ERROR_LINE	1727	#if SHOW_ERROR_LINE
1685	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line = 0;	1728	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line = 0;
1686		1729
1687	if (fname)	1730	if (fname)
…		…
1704	SCHEME_V->nesting = SCHEME_V->nesting_stack[SCHEME_V->file_i];	1747	SCHEME_V->nesting = SCHEME_V->nesting_stack[SCHEME_V->file_i];
1705	#if USE_PORTS	1748	#if USE_PORTS
1706	port_close (SCHEME_A_ SCHEME_V->loadport, port_input);	1749	port_close (SCHEME_A_ SCHEME_V->loadport, port_input);
1707	#endif	1750	#endif
1708	SCHEME_V->file_i--;	1751	SCHEME_V->file_i--;
1709	SCHEME_V->loadport->object.port = SCHEME_V->load_stack + SCHEME_V->file_i;	1752	set_port (SCHEME_V->loadport, SCHEME_V->load_stack + SCHEME_V->file_i);
1710	}	1753	}
1711	}	1754	}
1712		1755
1713	static int	1756	static int
1714	file_interactive (SCHEME_P)	1757	file_interactive (SCHEME_P)
1715	{	1758	{
1716	#if USE_PORTS	1759	#if USE_PORTS
1717	return SCHEME_V->file_i == 0	1760	return SCHEME_V->file_i == 0
1718	&& SCHEME_V->load_stack[0].rep.stdio.file == STDIN_FILENO	1761	&& SCHEME_V->load_stack[0].rep.stdio.file == STDIN_FILENO
1719	&& (SCHEME_V->inport->object.port->kind & port_file);	1762	&& (port (SCHEME_V->inport)->kind & port_file);
1720	#else	1763	#else
1721	return 0;	1764	return 0;
1722	#endif	1765	#endif
1723	}	1766	}
1724		1767
…		…
1858	}	1901	}
1859		1902
1860	static void	1903	static void
1861	port_close (SCHEME_P_ pointer p, int flag)	1904	port_close (SCHEME_P_ pointer p, int flag)
1862	{	1905	{
1863	port *pt = p->object.port;	1906	port *pt = port (p);
1864		1907
1865	pt->kind &= ~flag;	1908	pt->kind &= ~flag;
1866		1909
1867	if ((pt->kind & (port_input | port_output)) == 0)	1910	if ((pt->kind & (port_input | port_output)) == 0)
1868	{	1911	{
…		…
1889	/* get new character from input file */	1932	/* get new character from input file */
1890	static int	1933	static int
1891	inchar (SCHEME_P)	1934	inchar (SCHEME_P)
1892	{	1935	{
1893	int c;	1936	int c;
1894	port *pt;	1937	port *pt = port (SCHEME_V->inport);
1895
1896	pt = SCHEME_V->inport->object.port;
1897		1938
1898	if (pt->kind & port_saw_EOF)	1939	if (pt->kind & port_saw_EOF)
1899	return EOF;	1940	return EOF;
1900		1941
1901	c = basic_inchar (pt);	1942	c = basic_inchar (pt);
…		…
1968	port *pt;	2009	port *pt;
1969		2010
1970	if (c == EOF)	2011	if (c == EOF)
1971	return;	2012	return;
1972		2013
1973	pt = SCHEME_V->inport->object.port;	2014	pt = port (SCHEME_V->inport);
1974	pt->unget = c;	2015	pt->unget = c;
1975	#else	2016	#else
1976	if (c == EOF)	2017	if (c == EOF)
1977	return;	2018	return;
1978		2019
…		…
2006		2047
2007	INTERFACE void	2048	INTERFACE void
2008	putstr (SCHEME_P_ const char *s)	2049	putstr (SCHEME_P_ const char *s)
2009	{	2050	{
2010	#if USE_PORTS	2051	#if USE_PORTS
2011	port *pt = SCHEME_V->outport->object.port;	2052	port *pt = port (SCHEME_V->outport);
2012		2053
2013	if (pt->kind & port_file)	2054	if (pt->kind & port_file)
2014	write (pt->rep.stdio.file, s, strlen (s));	2055	write (pt->rep.stdio.file, s, strlen (s));
2015	else	2056	else
2016	for (; *s; s++)	2057	for (; *s; s++)
…		…
2018	*pt->rep.string.curr++ = *s;	2059	*pt->rep.string.curr++ = *s;
2019	else if (pt->kind & port_srfi6 && realloc_port_string (SCHEME_A_ pt))	2060	else if (pt->kind & port_srfi6 && realloc_port_string (SCHEME_A_ pt))
2020	*pt->rep.string.curr++ = *s;	2061	*pt->rep.string.curr++ = *s;
2021		2062
2022	#else	2063	#else
2023	xwrstr (s);	2064	write (pt->rep.stdio.file, s, strlen (s));
2024	#endif	2065	#endif
2025	}	2066	}
2026		2067
2027	static void	2068	static void
2028	putchars (SCHEME_P_ const char *s, int len)	2069	putchars (SCHEME_P_ const char *s, int len)
2029	{	2070	{
2030	#if USE_PORTS	2071	#if USE_PORTS
2031	port *pt = SCHEME_V->outport->object.port;	2072	port *pt = port (SCHEME_V->outport);
2032		2073
2033	if (pt->kind & port_file)	2074	if (pt->kind & port_file)
2034	write (pt->rep.stdio.file, s, len);	2075	write (pt->rep.stdio.file, s, len);
2035	else	2076	else
2036	{	2077	{
…		…
2050		2091
2051	INTERFACE void	2092	INTERFACE void
2052	putcharacter (SCHEME_P_ int c)	2093	putcharacter (SCHEME_P_ int c)
2053	{	2094	{
2054	#if USE_PORTS	2095	#if USE_PORTS
2055	port *pt = SCHEME_V->outport->object.port;	2096	port *pt = port (SCHEME_V->outport);
2056		2097
2057	if (pt->kind & port_file)	2098	if (pt->kind & port_file)
2058	{	2099	{
2059	char cc = c;	2100	char cc = c;
2060	write (pt->rep.stdio.file, &cc, 1);	2101	write (pt->rep.stdio.file, &cc, 1);
…		…
2073	#endif	2114	#endif
2074	}	2115	}
2075		2116
2076	/* read characters up to delimiter, but cater to character constants */	2117	/* read characters up to delimiter, but cater to character constants */
2077	static char *	2118	static char *
2078	readstr_upto (SCHEME_P_ char *delim)	2119	readstr_upto (SCHEME_P_ int skip, const char *delim)
2079	{	2120	{
2080	char *p = SCHEME_V->strbuff;	2121	char *p = SCHEME_V->strbuff + skip;
2081		2122
2082	while ((p - SCHEME_V->strbuff < sizeof (SCHEME_V->strbuff)) && !is_one_of (delim, (*p++ = inchar (SCHEME_A))));	2123	while ((p - SCHEME_V->strbuff < sizeof (SCHEME_V->strbuff)) && !is_one_of (delim, (*p++ = inchar (SCHEME_A))));
2083		2124
2084	if (p == SCHEME_V->strbuff + 2 && p[-2] == '\\')	2125	if (p == SCHEME_V->strbuff + 2 && p[-2] == '\\')
2085	*p = 0;	2126	*p = 0;
…		…
2092	return SCHEME_V->strbuff;	2133	return SCHEME_V->strbuff;
2093	}	2134	}
2094		2135
2095	/* read string expression "xxx...xxx" */	2136	/* read string expression "xxx...xxx" */
2096	static pointer	2137	static pointer
2097	readstrexp (SCHEME_P)	2138	readstrexp (SCHEME_P_ char delim)
2098	{	2139	{
2099	char *p = SCHEME_V->strbuff;	2140	char *p = SCHEME_V->strbuff;
2100	int c;	2141	int c;
2101	int c1 = 0;	2142	int c1 = 0;
2102	enum
2103	{ st_ok, st_bsl, st_x1, st_x2, st_oct1, st_oct2 } state = st_ok;	2143	enum { st_ok, st_bsl, st_x1, st_x2, st_oct1, st_oct2 } state = st_ok;
2104		2144
2105	for (;;)	2145	for (;;)
2106	{	2146	{
2107	c = inchar (SCHEME_A);	2147	c = inchar (SCHEME_A);
2108		2148
…		…
2110	return S_F;	2150	return S_F;
2111		2151
2112	switch (state)	2152	switch (state)
2113	{	2153	{
2114	case st_ok:	2154	case st_ok:
2115	switch (c)	2155	if (ecb_expect_false (c == delim))
2116	{
2117	case '\\':
2118	state = st_bsl;
2119	break;
2120
2121	case '"':
2122	*p = 0;
2123	return mk_counted_string (SCHEME_A_ SCHEME_V->strbuff, p - SCHEME_V->strbuff);	2156	return mk_counted_string (SCHEME_A_ SCHEME_V->strbuff, p - SCHEME_V->strbuff);
2124		2157
2125	default:	2158	if (ecb_expect_false (c == '\\'))
		2159	state = st_bsl;
		2160	else
2126	*p++ = c;	2161	*p++ = c;
2127	break;
2128	}
2129		2162
2130	break;	2163	break;
2131		2164
2132	case st_bsl:	2165	case st_bsl:
2133	switch (c)	2166	switch (c)
…		…
2163	case 'r':	2196	case 'r':
2164	*p++ = '\r';	2197	*p++ = '\r';
2165	state = st_ok;	2198	state = st_ok;
2166	break;	2199	break;
2167		2200
2168	case '"':
2169	*p++ = '"';
2170	state = st_ok;
2171	break;
2172
2173	default:	2201	default:
2174	*p++ = c;	2202	*p++ = c;
2175	state = st_ok;	2203	state = st_ok;
2176	break;	2204	break;
2177	}	2205	}
2178		2206
2179	break;	2207	break;
2180		2208
2181	case st_x1:	2209	case st_x1:
2182	case st_x2:	2210	case st_x2:
2183	c = toupper (c);	2211	c = tolower (c);
2184		2212
2185	if (c >= '0' && c <= 'F')	2213	if (c >= '0' && c <= '9')
2186	{
2187	if (c <= '9')
2188	c1 = (c1 << 4) + c - '0';	2214	c1 = (c1 << 4) + c - '0';
2189	else	2215	else if (c >= 'a' && c <= 'f')
2190	c1 = (c1 << 4) + c - 'A' + 10;	2216	c1 = (c1 << 4) + c - 'a' + 10;
2191
2192	if (state == st_x1)
2193	state = st_x2;
2194	else
2195	{
2196	*p++ = c1;
2197	state = st_ok;
2198	}
2199	}
2200	else	2217	else
2201	return S_F;	2218	return S_F;
		2219
		2220	if (state == st_x1)
		2221	state = st_x2;
		2222	else
		2223	{
		2224	*p++ = c1;
		2225	state = st_ok;
		2226	}
2202		2227
2203	break;	2228	break;
2204		2229
2205	case st_oct1:	2230	case st_oct1:
2206	case st_oct2:	2231	case st_oct2:
…		…
2210	backchar (SCHEME_A_ c);	2235	backchar (SCHEME_A_ c);
2211	state = st_ok;	2236	state = st_ok;
2212	}	2237	}
2213	else	2238	else
2214	{	2239	{
2215	if (state == st_oct2 && c1 >= 32)	2240	if (state == st_oct2 && c1 >= ' ')
2216	return S_F;	2241	return S_F;
2217		2242
2218	c1 = (c1 << 3) + (c - '0');	2243	c1 = (c1 << 3) + (c - '0');
2219		2244
2220	if (state == st_oct1)	2245	if (state == st_oct1)
…		…
2225	state = st_ok;	2250	state = st_ok;
2226	}	2251	}
2227	}	2252	}
2228		2253
2229	break;	2254	break;
2230
2231	}	2255	}
2232	}	2256	}
2233	}	2257	}
2234		2258
2235	/* check c is in chars */	2259	/* check c is in chars */
2236	static INLINE int	2260	ecb_inline int
2237	is_one_of (char *s, int c)	2261	is_one_of (const char *s, int c)
2238	{	2262	{
2239	if (c == EOF)
2240	return 1;
2241
2242	return !!strchr (s, c);	2263	return c == EOF || !!strchr (s, c);
2243	}	2264	}
2244		2265
2245	/* skip white characters */	2266	/* skip white characters */
2246	static INLINE int	2267	ecb_inline int
2247	skipspace (SCHEME_P)	2268	skipspace (SCHEME_P)
2248	{	2269	{
2249	int c, curr_line = 0;	2270	int c, curr_line = 0;
2250		2271
2251	do	2272	do
2252	{	2273	{
2253	c = inchar (SCHEME_A);	2274	c = inchar (SCHEME_A);
		2275
2254	#if SHOW_ERROR_LINE	2276	#if SHOW_ERROR_LINE
2255	if (c == '\n')	2277	if (ecb_expect_false (c == '\n'))
2256	curr_line++;	2278	curr_line++;
2257	#endif	2279	#endif
		2280
		2281	if (ecb_expect_false (c == EOF))
		2282	return c;
2258	}	2283	}
2259	while (c == ' ' || c == '\n' || c == '\r' || c == '\t');	2284	while (is_one_of (WHITESPACE, c));
2260		2285
2261	/* record it */	2286	/* record it */
2262	#if SHOW_ERROR_LINE	2287	#if SHOW_ERROR_LINE
2263	if (SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file)	2288	if (SCHEME_V->load_stack[SCHEME_V->file_i].kind & port_file)
2264	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line += curr_line;	2289	SCHEME_V->load_stack[SCHEME_V->file_i].rep.stdio.curr_line += curr_line;
2265	#endif	2290	#endif
2266		2291
2267	if (c != EOF)
2268	{
2269	backchar (SCHEME_A_ c);	2292	backchar (SCHEME_A_ c);
2270	return 1;	2293	return 1;
2271	}
2272	else
2273	return EOF;
2274	}	2294	}
2275		2295
2276	/* get token */	2296	/* get token */
2277	static int	2297	static int
2278	token (SCHEME_P)	2298	token (SCHEME_P)
…		…
2294	return TOK_RPAREN;	2314	return TOK_RPAREN;
2295		2315
2296	case '.':	2316	case '.':
2297	c = inchar (SCHEME_A);	2317	c = inchar (SCHEME_A);
2298		2318
2299	if (is_one_of (" \n\t", c))	2319	if (is_one_of (WHITESPACE, c))
2300	return TOK_DOT;	2320	return TOK_DOT;
2301	else	2321	else
2302	{	2322	{
2303	//TODO: ungetc twice in a row is not supported in C
2304	backchar (SCHEME_A_ c);	2323	backchar (SCHEME_A_ c);
2305	backchar (SCHEME_A_ '.');
2306	return TOK_ATOM;	2324	return TOK_DOTATOM;
2307	}	2325	}
		2326
		2327	case '|':
		2328	return TOK_STRATOM;
2308		2329
2309	case '\'':	2330	case '\'':
2310	return TOK_QUOTE;	2331	return TOK_QUOTE;
2311		2332
2312	case ';':	2333	case ';':
…		…
2444	}	2465	}
2445		2466
2446	putcharacter (SCHEME_A_ '"');	2467	putcharacter (SCHEME_A_ '"');
2447	}	2468	}
2448		2469
2449
2450	/* print atoms */	2470	/* print atoms */
2451	static void	2471	static void
2452	printatom (SCHEME_P_ pointer l, int f)	2472	printatom (SCHEME_P_ pointer l, int f)
2453	{	2473	{
2454	char *p;	2474	char *p;
2455	int len;	2475	int len;
2456		2476
2457	atom2str (SCHEME_A_ l, f, &p, &len);	2477	atom2str (SCHEME_A_ l, f, &p, &len);
2458	putchars (SCHEME_A_ p, len);	2478	putchars (SCHEME_A_ p, len);
2459	}	2479	}
2460
2461		2480
2462	/* Uses internal buffer unless string pointer is already available */	2481	/* Uses internal buffer unless string pointer is already available */
2463	static void	2482	static void
2464	atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen)	2483	atom2str (SCHEME_P_ pointer l, int f, char **pp, int *plen)
2465	{	2484	{
…		…
2479	{	2498	{
2480	p = SCHEME_V->strbuff;	2499	p = SCHEME_V->strbuff;
2481		2500
2482	if (f <= 1 || f == 10) /* f is the base for numbers if > 1 */	2501	if (f <= 1 || f == 10) /* f is the base for numbers if > 1 */
2483	{	2502	{
2484	if (num_is_integer (l))	2503	if (is_integer (l))
2485	xnum (p, ivalue_unchecked (l));	2504	xnum (p, ivalue_unchecked (l));
2486	#if USE_REAL	2505	#if USE_REAL
2487	else	2506	else
2488	{	2507	{
2489	snprintf (p, STRBUFFSIZE, "%.10g", rvalue_unchecked (l));	2508	snprintf (p, STRBUFFSIZE, "%.10g", rvalue_unchecked (l));
…		…
2626	#endif	2645	#endif
2627	}	2646	}
2628	else if (is_continuation (l))	2647	else if (is_continuation (l))
2629	p = "#<CONTINUATION>";	2648	p = "#<CONTINUATION>";
2630	else	2649	else
		2650	{
		2651	#if USE_PRINTF
		2652	p = SCHEME_V->strbuff;
		2653	snprintf (p, STRBUFFSIZE, "#<ERROR %x>", (int)typeflag (l));
		2654	#else
2631	p = "#<ERROR>";	2655	p = "#<ERROR>";
		2656	#endif
		2657	}
2632		2658
2633	*pp = p;	2659	*pp = p;
2634	*plen = strlen (p);	2660	*plen = strlen (p);
2635	}	2661	}
2636		2662
…		…
2744	return 0;	2770	return 0;
2745	}	2771	}
2746	else if (is_number (a))	2772	else if (is_number (a))
2747	{	2773	{
2748	if (is_number (b))	2774	if (is_number (b))
2749	if (num_is_integer (a) == num_is_integer (b))
2750	return num_cmp (nvalue (a), nvalue (b)) == 0;	2775	return num_cmp (nvalue (a), nvalue (b)) == 0;
2751		2776
2752	return 0;	2777	return 0;
2753	}	2778	}
2754	else if (is_character (a))	2779	else if (is_character (a))
2755	{	2780	{
…		…
2781	/* () is #t in R5RS */	2806	/* () is #t in R5RS */
2782	#define is_true(p) ((p) != S_F)	2807	#define is_true(p) ((p) != S_F)
2783	#define is_false(p) ((p) == S_F)	2808	#define is_false(p) ((p) == S_F)
2784		2809
2785	/* ========== Environment implementation ========== */	2810	/* ========== Environment implementation ========== */
2786
2787	#if !defined(USE_ALIST_ENV) || !defined(USE_OBJECT_LIST)
2788
2789	static int
2790	hash_fn (const char *key, int table_size)
2791	{
2792	const unsigned char *p = key;
2793	uint32_t hash = 2166136261;
2794
2795	while (*p)
2796	hash = (hash ^ *p++) * 16777619;
2797
2798	return hash % table_size;
2799	}
2800	#endif
2801		2811
2802	#ifndef USE_ALIST_ENV	2812	#ifndef USE_ALIST_ENV
2803		2813
2804	/*	2814	/*
2805	* In this implementation, each frame of the environment may be	2815	* In this implementation, each frame of the environment may be
…		…
2822		2832
2823	SCHEME_V->envir = immutable_cons (new_frame, old_env);	2833	SCHEME_V->envir = immutable_cons (new_frame, old_env);
2824	setenvironment (SCHEME_V->envir);	2834	setenvironment (SCHEME_V->envir);
2825	}	2835	}
2826		2836
2827	static INLINE void	2837	static uint32_t
		2838	sym_hash (pointer sym, uint32_t size)
		2839	{
		2840	uintptr_t ptr = (uintptr_t)sym;
		2841
		2842	#if 0
		2843	/* table size is prime, so why mix */
		2844	ptr += ptr >> 32;
		2845	ptr += ptr >> 16;
		2846	ptr += ptr >> 8;
		2847	#endif
		2848
		2849	return ptr % size;
		2850	}
		2851
		2852	ecb_inline void
2828	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)	2853	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)
2829	{	2854	{
2830	pointer slot = immutable_cons (variable, value);	2855	pointer slot = immutable_cons (variable, value);
2831		2856
2832	if (is_vector (car (env)))	2857	if (is_vector (car (env)))
2833	{	2858	{
2834	int location = hash_fn (symname (variable), veclength (car (env)));	2859	int location = sym_hash (variable, veclength (car (env)));
2835
2836	set_vector_elem (car (env), location, immutable_cons (slot, vector_elem (car (env), location)));	2860	vector_set (car (env), location, immutable_cons (slot, vector_get (car (env), location)));
2837	}	2861	}
2838	else	2862	else
2839	set_car (env, immutable_cons (slot, car (env)));	2863	set_car (env, immutable_cons (slot, car (env)));
2840	}	2864	}
2841		2865
2842	static pointer	2866	static pointer
2843	find_slot_in_env (SCHEME_P_ pointer env, pointer hdl, int all)	2867	find_slot_in_env (SCHEME_P_ pointer env, pointer hdl, int all)
2844	{	2868	{
2845	pointer x, y;	2869	pointer x, y;
2846	int location;
2847		2870
2848	for (x = env; x != NIL; x = cdr (x))	2871	for (x = env; x != NIL; x = cdr (x))
2849	{	2872	{
2850	if (is_vector (car (x)))	2873	if (is_vector (car (x)))
2851	{	2874	{
2852	location = hash_fn (symname (hdl), veclength (car (x)));	2875	int location = sym_hash (hdl, veclength (car (x)));
2853	y = vector_elem (car (x), location);	2876	y = vector_get (car (x), location);
2854	}	2877	}
2855	else	2878	else
2856	y = car (x);	2879	y = car (x);
2857		2880
2858	for (; y != NIL; y = cdr (y))	2881	for (; y != NIL; y = cdr (y))
2859	if (caar (y) == hdl)	2882	if (caar (y) == hdl)
2860	break;	2883	break;
2861		2884
2862	if (y != NIL)	2885	if (y != NIL)
		2886	return car (y);
		2887
		2888	if (!all)
2863	break;	2889	break;
2864
2865	if (!all)
2866	return NIL;
2867	}	2890	}
2868
2869	if (x != NIL)
2870	return car (y);
2871		2891
2872	return NIL;	2892	return NIL;
2873	}	2893	}
2874		2894
2875	#else /* USE_ALIST_ENV */	2895	#else /* USE_ALIST_ENV */
2876		2896
2877	static INLINE void	2897	ecb_inline void
2878	new_frame_in_env (SCHEME_P_ pointer old_env)	2898	new_frame_in_env (SCHEME_P_ pointer old_env)
2879	{	2899	{
2880	SCHEME_V->envir = immutable_cons (NIL, old_env);	2900	SCHEME_V->envir = immutable_cons (NIL, old_env);
2881	setenvironment (SCHEME_V->envir);	2901	setenvironment (SCHEME_V->envir);
2882	}	2902	}
2883		2903
2884	static INLINE void	2904	ecb_inline void
2885	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)	2905	new_slot_spec_in_env (SCHEME_P_ pointer env, pointer variable, pointer value)
2886	{	2906	{
2887	set_car (env, immutable_cons (immutable_cons (variable, value), car (env)));	2907	set_car (env, immutable_cons (immutable_cons (variable, value), car (env)));
2888	}	2908	}
2889		2909
…		…
2897	for (y = car (x); y != NIL; y = cdr (y))	2917	for (y = car (x); y != NIL; y = cdr (y))
2898	if (caar (y) == hdl)	2918	if (caar (y) == hdl)
2899	break;	2919	break;
2900		2920
2901	if (y != NIL)	2921	if (y != NIL)
		2922	return car (y);
2902	break;	2923	break;
2903		2924
2904	if (!all)	2925	if (!all)
2905	return NIL;	2926	break;
2906	}	2927	}
2907
2908	if (x != NIL)
2909	return car (y);
2910		2928
2911	return NIL;	2929	return NIL;
2912	}	2930	}
2913		2931
2914	#endif /* USE_ALIST_ENV else */	2932	#endif /* USE_ALIST_ENV else */
2915		2933
2916	static INLINE void	2934	ecb_inline void
2917	new_slot_in_env (SCHEME_P_ pointer variable, pointer value)	2935	new_slot_in_env (SCHEME_P_ pointer variable, pointer value)
2918	{	2936	{
		2937	assert (is_symbol (variable));//TODO: bug in current-ws/OP_LET2
2919	new_slot_spec_in_env (SCHEME_A_ SCHEME_V->envir, variable, value);	2938	new_slot_spec_in_env (SCHEME_A_ SCHEME_V->envir, variable, value);
2920	}	2939	}
2921		2940
2922	static INLINE void	2941	ecb_inline void
2923	set_slot_in_env (SCHEME_P_ pointer slot, pointer value)	2942	set_slot_in_env (SCHEME_P_ pointer slot, pointer value)
2924	{	2943	{
2925	set_cdr (slot, value);	2944	set_cdr (slot, value);
2926	}	2945	}
2927		2946
2928	static INLINE pointer	2947	ecb_inline pointer
2929	slot_value_in_env (pointer slot)	2948	slot_value_in_env (pointer slot)
2930	{	2949	{
2931	return cdr (slot);	2950	return cdr (slot);
2932	}	2951	}
2933		2952
2934	/* ========== Evaluation Cycle ========== */	2953	/* ========== Evaluation Cycle ========== */
2935		2954
2936	static pointer	2955	static int
2937	xError_1 (SCHEME_P_ const char *s, pointer a)	2956	xError_1 (SCHEME_P_ const char *s, pointer a)
2938	{	2957	{
2939	#if USE_ERROR_HOOK	2958	#if USE_ERROR_HOOK
2940	pointer x;	2959	pointer x;
2941	pointer hdl = SCHEME_V->ERROR_HOOK;	2960	pointer hdl = SCHEME_V->ERROR_HOOK;
…		…
2976	code = cons (mk_string (SCHEME_A_ s), code);	2995	code = cons (mk_string (SCHEME_A_ s), code);
2977	setimmutable (car (code));	2996	setimmutable (car (code));
2978	SCHEME_V->code = cons (slot_value_in_env (x), code);	2997	SCHEME_V->code = cons (slot_value_in_env (x), code);
2979	SCHEME_V->op = OP_EVAL;	2998	SCHEME_V->op = OP_EVAL;
2980		2999
2981	return S_T;	3000	return 0;
2982	}	3001	}
2983	#endif	3002	#endif
2984		3003
2985	if (a)	3004	if (a)
2986	SCHEME_V->args = cons (a, NIL);	3005	SCHEME_V->args = cons (a, NIL);
…		…
2988	SCHEME_V->args = NIL;	3007	SCHEME_V->args = NIL;
2989		3008
2990	SCHEME_V->args = cons (mk_string (SCHEME_A_ s), SCHEME_V->args);	3009	SCHEME_V->args = cons (mk_string (SCHEME_A_ s), SCHEME_V->args);
2991	setimmutable (car (SCHEME_V->args));	3010	setimmutable (car (SCHEME_V->args));
2992	SCHEME_V->op = OP_ERR0;	3011	SCHEME_V->op = OP_ERR0;
		3012
2993	return S_T;	3013	return 0;
2994	}	3014	}
2995		3015
2996	#define Error_1(s, a) return xError_1(SCHEME_A_ USE_ERROR_CHECKING ? s : "", a)	3016	#define Error_1(s, a) return xError_1(SCHEME_A_ USE_ERROR_CHECKING ? s : "", a)
2997	#define Error_0(s) Error_1 (s, 0)	3017	#define Error_0(s) Error_1 (s, 0)
2998		3018
2999	/* Too small to turn into function */	3019	/* Too small to turn into function */
3000	#define BEGIN do {	3020	#define BEGIN do {
3001	#define END } while (0)	3021	#define END } while (0)
3002	#define s_goto(a) BEGIN \	3022	#define s_goto(a) BEGIN \
3003	SCHEME_V->op = a; \	3023	SCHEME_V->op = a; \
3004	return S_T; END	3024	return 0; END
3005		3025
3006	#define s_return(a) return xs_return (SCHEME_A_ a)	3026	#define s_return(a) return xs_return (SCHEME_A_ a)
3007		3027
3008	#ifndef USE_SCHEME_STACK	3028	#ifndef USE_SCHEME_STACK
3009		3029
…		…
3023	{	3043	{
3024	int nframes = (uintptr_t)SCHEME_V->dump;	3044	int nframes = (uintptr_t)SCHEME_V->dump;
3025	struct dump_stack_frame *next_frame;	3045	struct dump_stack_frame *next_frame;
3026		3046
3027	/* enough room for the next frame? */	3047	/* enough room for the next frame? */
3028	if (nframes >= SCHEME_V->dump_size)	3048	if (ecb_expect_false (nframes >= SCHEME_V->dump_size))
3029	{	3049	{
3030	SCHEME_V->dump_size += STACK_GROWTH;	3050	SCHEME_V->dump_size += STACK_GROWTH;
3031	SCHEME_V->dump_base = realloc (SCHEME_V->dump_base, sizeof (struct dump_stack_frame) * SCHEME_V->dump_size);	3051	SCHEME_V->dump_base = realloc (SCHEME_V->dump_base, sizeof (struct dump_stack_frame) * SCHEME_V->dump_size);
3032	}	3052	}
3033		3053
…		…
3039	next_frame->code = code;	3059	next_frame->code = code;
3040		3060
3041	SCHEME_V->dump = (pointer)(uintptr_t)(nframes + 1);	3061	SCHEME_V->dump = (pointer)(uintptr_t)(nframes + 1);
3042	}	3062	}
3043		3063
3044	static pointer	3064	static int
3045	xs_return (SCHEME_P_ pointer a)	3065	xs_return (SCHEME_P_ pointer a)
3046	{	3066	{
3047	int nframes = (uintptr_t)SCHEME_V->dump;	3067	int nframes = (uintptr_t)SCHEME_V->dump;
3048	struct dump_stack_frame *frame;	3068	struct dump_stack_frame *frame;
3049		3069
3050	SCHEME_V->value = a;	3070	SCHEME_V->value = a;
3051		3071
3052	if (nframes <= 0)	3072	if (nframes <= 0)
3053	return NIL;	3073	return -1;
3054		3074
3055	frame = &SCHEME_V->dump_base[--nframes];	3075	frame = &SCHEME_V->dump_base[--nframes];
3056	SCHEME_V->op = frame->op;	3076	SCHEME_V->op = frame->op;
3057	SCHEME_V->args = frame->args;	3077	SCHEME_V->args = frame->args;
3058	SCHEME_V->envir = frame->envir;	3078	SCHEME_V->envir = frame->envir;
3059	SCHEME_V->code = frame->code;	3079	SCHEME_V->code = frame->code;
3060	SCHEME_V->dump = (pointer)(uintptr_t)nframes;	3080	SCHEME_V->dump = (pointer)(uintptr_t)nframes;
3061		3081
3062	return S_T;	3082	return 0;
3063	}	3083	}
3064		3084
3065	static INLINE void	3085	ecb_inline void
3066	dump_stack_reset (SCHEME_P)	3086	dump_stack_reset (SCHEME_P)
3067	{	3087	{
3068	/* in this implementation, SCHEME_V->dump is the number of frames on the stack */	3088	/* in this implementation, SCHEME_V->dump is the number of frames on the stack */
3069	SCHEME_V->dump = (pointer)+0;	3089	SCHEME_V->dump = (pointer)+0;
3070	}	3090	}
3071		3091
3072	static INLINE void	3092	ecb_inline void
3073	dump_stack_initialize (SCHEME_P)	3093	dump_stack_initialize (SCHEME_P)
3074	{	3094	{
3075	SCHEME_V->dump_size = 0;	3095	SCHEME_V->dump_size = 0;
3076	SCHEME_V->dump_base = 0;	3096	SCHEME_V->dump_base = 0;
3077	dump_stack_reset (SCHEME_A);	3097	dump_stack_reset (SCHEME_A);
…		…
3130	int i = 0;	3150	int i = 0;
3131	struct dump_stack_frame *frame = SCHEME_V->dump_base;	3151	struct dump_stack_frame *frame = SCHEME_V->dump_base;
3132		3152
3133	while (cont != NIL)	3153	while (cont != NIL)
3134	{	3154	{
3135	frame->op = ivalue (car (cont)); cont = cdr (cont);	3155	frame->op = ivalue_unchecked (car (cont)); cont = cdr (cont);
3136	frame->args = car (cont) ; cont = cdr (cont);	3156	frame->args = car (cont) ; cont = cdr (cont);
3137	frame->envir = car (cont) ; cont = cdr (cont);	3157	frame->envir = car (cont) ; cont = cdr (cont);
3138	frame->code = car (cont) ; cont = cdr (cont);	3158	frame->code = car (cont) ; cont = cdr (cont);
3139		3159
3140	++frame;	3160	++frame;
3141	++i;	3161	++i;
3142	}	3162	}
3143		3163
3144	SCHEME_V->dump = (pointer)(uintptr_t)i;	3164	SCHEME_V->dump = (pointer)(uintptr_t)i;
3145	}	3165	}
3146		3166
3147	#else	3167	#else
3148		3168
3149	static INLINE void	3169	ecb_inline void
3150	dump_stack_reset (SCHEME_P)	3170	dump_stack_reset (SCHEME_P)
3151	{	3171	{
3152	SCHEME_V->dump = NIL;	3172	SCHEME_V->dump = NIL;
3153	}	3173	}
3154		3174
3155	static INLINE void	3175	ecb_inline void
3156	dump_stack_initialize (SCHEME_P)	3176	dump_stack_initialize (SCHEME_P)
3157	{	3177	{
3158	dump_stack_reset (SCHEME_A);	3178	dump_stack_reset (SCHEME_A);
3159	}	3179	}
3160		3180
…		…
3162	dump_stack_free (SCHEME_P)	3182	dump_stack_free (SCHEME_P)
3163	{	3183	{
3164	SCHEME_V->dump = NIL;	3184	SCHEME_V->dump = NIL;
3165	}	3185	}
3166		3186
3167	static pointer	3187	static int
3168	xs_return (SCHEME_P_ pointer a)	3188	xs_return (SCHEME_P_ pointer a)
3169	{	3189	{
3170	pointer dump = SCHEME_V->dump;	3190	pointer dump = SCHEME_V->dump;
3171		3191
3172	SCHEME_V->value = a;	3192	SCHEME_V->value = a;
3173		3193
3174	if (dump == NIL)	3194	if (dump == NIL)
3175	return NIL;	3195	return -1;
3176		3196
3177	SCHEME_V->op = ivalue (car (dump)); dump = cdr (dump);	3197	SCHEME_V->op = ivalue_unchecked (car (dump)); dump = cdr (dump);
3178	SCHEME_V->args = car (dump) ; dump = cdr (dump);	3198	SCHEME_V->args = car (dump) ; dump = cdr (dump);
3179	SCHEME_V->envir = car (dump) ; dump = cdr (dump);	3199	SCHEME_V->envir = car (dump) ; dump = cdr (dump);
3180	SCHEME_V->code = car (dump) ; dump = cdr (dump);	3200	SCHEME_V->code = car (dump) ; dump = cdr (dump);
3181		3201
3182	SCHEME_V->dump = dump;	3202	SCHEME_V->dump = dump;
3183		3203
3184	return S_T;	3204	return 0;
3185	}	3205	}
3186		3206
3187	static void	3207	static void
3188	s_save (SCHEME_P_ enum scheme_opcodes op, pointer args, pointer code)	3208	s_save (SCHEME_P_ enum scheme_opcodes op, pointer args, pointer code)
3189	{	3209	{
…		…
3214		3234
3215	#endif	3235	#endif
3216		3236
3217	#define s_retbool(tf) s_return ((tf) ? S_T : S_F)	3237	#define s_retbool(tf) s_return ((tf) ? S_T : S_F)
3218		3238
		3239	#if EXPERIMENT
3219	static pointer	3240	static int
		3241	debug (SCHEME_P_ int indent, pointer x)
		3242	{
		3243	int c;
		3244
		3245	if (is_syntax (x))
		3246	{
		3247	printf ("%*ssyntax<%s,%d>\n", indent, "", syntaxname(x),syntaxnum(x));
		3248	return 8 + 8;
		3249	}
		3250
		3251	if (x == NIL)
		3252	{
		3253	printf ("%*sNIL\n", indent, "");
		3254	return 3;
		3255	}
		3256
		3257	switch (type (x))
		3258	{
		3259	case T_INTEGER:
		3260	printf ("%*sI<%d>%p\n", indent, "", (int)ivalue_unchecked (x), x);
		3261	return 32+8;
		3262
		3263	case T_SYMBOL:
		3264	printf ("%*sS<%s>\n", indent, "", symname (x));
		3265	return 24+8;
		3266
		3267	case T_CLOSURE:
		3268	printf ("%*sS<%s>\n", indent, "", "closure");
		3269	debug (SCHEME_A_ indent + 3, cdr(x));
		3270	return 32 + debug (SCHEME_A_ indent + 3, car (x));
		3271
		3272	case T_PAIR:
		3273	printf ("%*spair %p %p\n", indent, "", car(x),cdr(x));
		3274	c = debug (SCHEME_A_ indent + 3, car (x));
		3275	c += debug (SCHEME_A_ indent + 3, cdr (x));
		3276	return c + 1;
		3277
		3278	case T_PORT:
		3279	printf ("%*sS<%s>\n", indent, "", "port");
		3280	return 24+8;
		3281
		3282	case T_VECTOR:
		3283	printf ("%*sS<%s>\n", indent, "", "vector");
		3284	return 24+8;
		3285
		3286	case T_ENVIRONMENT:
		3287	printf ("%*sS<%s>\n", indent, "", "environment");
		3288	return 0 + debug (SCHEME_A_ indent + 3, car (x));
		3289
		3290	default:
		3291	printf ("unhandled type %d\n", type (x));
		3292	break;
		3293	}
		3294	}
		3295	#endif
		3296
		3297	static int
3220	opexe_0 (SCHEME_P_ enum scheme_opcodes op)	3298	opexe_0 (SCHEME_P_ enum scheme_opcodes op)
3221	{	3299	{
3222	pointer args = SCHEME_V->args;	3300	pointer args = SCHEME_V->args;
3223	pointer x, y;	3301	pointer x, y;
3224		3302
3225	switch (op)	3303	switch (op)
3226	{	3304	{
		3305	#if EXPERIMENT //D
		3306	case OP_DEBUG:
		3307	printf ("len = %d\n", debug (SCHEME_A_ 0, args) / 8);
		3308	printf ("\n");
		3309	s_return (S_T);
		3310	#endif
3227	case OP_LOAD: /* load */	3311	case OP_LOAD: /* load */
3228	if (file_interactive (SCHEME_A))	3312	if (file_interactive (SCHEME_A))
3229	{	3313	{
3230	xwrstr ("Loading "); xwrstr (strvalue (car (args))); xwrstr ("\n");	3314	putstr (SCHEME_A_ "Loading "); putstr (SCHEME_A_ strvalue (car (args))); putstr (SCHEME_A_ "\n");
3231	//D fprintf (SCHEME_V->outport->object.port->rep.stdio.file, "Loading %s\n", strvalue (car (args)));	3315	//D fprintf (port (SCHEME_V->outport)->rep.stdio.file, "Loading %s\n", strvalue (car (args)));
3232	}	3316	}
3233		3317
3234	if (!file_push (SCHEME_A_ strvalue (car (args))))	3318	if (!file_push (SCHEME_A_ strvalue (car (args))))
3235	Error_1 ("unable to open", car (args));	3319	Error_1 ("unable to open", car (args));
3236	else	3320	else
…		…
3240	}	3324	}
3241		3325
3242	case OP_T0LVL: /* top level */	3326	case OP_T0LVL: /* top level */
3243		3327
3244	/* If we reached the end of file, this loop is done. */	3328	/* If we reached the end of file, this loop is done. */
3245	if (SCHEME_V->loadport->object.port->kind & port_saw_EOF)	3329	if (port (SCHEME_V->loadport)->kind & port_saw_EOF)
3246	{	3330	{
3247	if (SCHEME_V->file_i == 0)	3331	if (SCHEME_V->file_i == 0)
3248	{	3332	{
3249	SCHEME_V->args = NIL;	3333	SCHEME_V->args = NIL;
3250	s_goto (OP_QUIT);	3334	s_goto (OP_QUIT);
…		…
3328	#endif	3412	#endif
3329	if (is_symbol (SCHEME_V->code)) /* symbol */	3413	if (is_symbol (SCHEME_V->code)) /* symbol */
3330	{	3414	{
3331	x = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->code, 1);	3415	x = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->code, 1);
3332		3416
3333	if (x != NIL)	3417	if (x == NIL)
3334	s_return (slot_value_in_env (x));
3335	else
3336	Error_1 ("eval: unbound variable:", SCHEME_V->code);	3418	Error_1 ("eval: unbound variable:", SCHEME_V->code);
		3419
		3420	s_return (slot_value_in_env (x));
3337	}	3421	}
3338	else if (is_pair (SCHEME_V->code))	3422	else if (is_pair (SCHEME_V->code))
3339	{	3423	{
3340	x = car (SCHEME_V->code);	3424	x = car (SCHEME_V->code);
3341		3425
…		…
3354	}	3438	}
3355	else	3439	else
3356	s_return (SCHEME_V->code);	3440	s_return (SCHEME_V->code);
3357		3441
3358	case OP_E0ARGS: /* eval arguments */	3442	case OP_E0ARGS: /* eval arguments */
3359	if (is_macro (SCHEME_V->value)) /* macro expansion */	3443	if (ecb_expect_false (is_macro (SCHEME_V->value))) /* macro expansion */
3360	{	3444	{
3361	s_save (SCHEME_A_ OP_DOMACRO, NIL, NIL);	3445	s_save (SCHEME_A_ OP_DOMACRO, NIL, NIL);
3362	SCHEME_V->args = cons (SCHEME_V->code, NIL);	3446	SCHEME_V->args = cons (SCHEME_V->code, NIL);
3363	SCHEME_V->code = SCHEME_V->value;	3447	SCHEME_V->code = SCHEME_V->value;
3364	s_goto (OP_APPLY);	3448	s_goto (OP_APPLY);
…		…
3391		3475
3392	case OP_TRACING:	3476	case OP_TRACING:
3393	{	3477	{
3394	int tr = SCHEME_V->tracing;	3478	int tr = SCHEME_V->tracing;
3395		3479
3396	SCHEME_V->tracing = ivalue (car (args));	3480	SCHEME_V->tracing = ivalue_unchecked (car (args));
3397	s_return (mk_integer (SCHEME_A_ tr));	3481	s_return (mk_integer (SCHEME_A_ tr));
3398	}	3482	}
3399		3483
3400	#endif	3484	#endif
3401		3485
…		…
3418	s_goto (procnum (SCHEME_V->code)); /* PROCEDURE */	3502	s_goto (procnum (SCHEME_V->code)); /* PROCEDURE */
3419	else if (is_foreign (SCHEME_V->code))	3503	else if (is_foreign (SCHEME_V->code))
3420	{	3504	{
3421	/* Keep nested calls from GC'ing the arglist */	3505	/* Keep nested calls from GC'ing the arglist */
3422	push_recent_alloc (SCHEME_A_ args, NIL);	3506	push_recent_alloc (SCHEME_A_ args, NIL);
3423	x = SCHEME_V->code->object.ff (SCHEME_A_ args);	3507	x = CELL(SCHEME_V->code)->object.ff (SCHEME_A_ args);
3424		3508
3425	s_return (x);	3509	s_return (x);
3426	}	3510	}
3427	else if (is_closure (SCHEME_V->code) || is_macro (SCHEME_V->code) || is_promise (SCHEME_V->code)) /* CLOSURE */	3511	else if (is_closure (SCHEME_V->code) || is_macro (SCHEME_V->code) || is_promise (SCHEME_V->code)) /* CLOSURE */
3428	{	3512	{
…		…
3465		3549
3466	case OP_DOMACRO: /* do macro */	3550	case OP_DOMACRO: /* do macro */
3467	SCHEME_V->code = SCHEME_V->value;	3551	SCHEME_V->code = SCHEME_V->value;
3468	s_goto (OP_EVAL);	3552	s_goto (OP_EVAL);
3469		3553
3470	#if 1
3471
3472	case OP_LAMBDA: /* lambda */	3554	case OP_LAMBDA: /* lambda */
3473	/* If the hook is defined, apply it to SCHEME_V->code, otherwise	3555	/* If the hook is defined, apply it to SCHEME_V->code, otherwise
3474	set SCHEME_V->value fall thru */	3556	set SCHEME_V->value fall thru */
3475	{	3557	{
3476	pointer f = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->COMPILE_HOOK, 1);	3558	pointer f = find_slot_in_env (SCHEME_A_ SCHEME_V->envir, SCHEME_V->COMPILE_HOOK, 1);
…		…
3482	SCHEME_V->code = slot_value_in_env (f);	3564	SCHEME_V->code = slot_value_in_env (f);
3483	s_goto (OP_APPLY);	3565	s_goto (OP_APPLY);
3484	}	3566	}
3485		3567
3486	SCHEME_V->value = SCHEME_V->code;	3568	SCHEME_V->value = SCHEME_V->code;
3487	/* Fallthru */
3488	}	3569	}
		3570	/* Fallthru */
3489		3571
3490	case OP_LAMBDA1:	3572	case OP_LAMBDA1:
3491	s_return (mk_closure (SCHEME_A_ SCHEME_V->value, SCHEME_V->envir));	3573	s_return (mk_closure (SCHEME_A_ SCHEME_V->value, SCHEME_V->envir));
3492
3493	#else
3494
3495	case OP_LAMBDA: /* lambda */
3496	s_return (mk_closure (SCHEME_A_ SCHEME_V->code, SCHEME_V->envir));
3497
3498	#endif
3499		3574
3500	case OP_MKCLOSURE: /* make-closure */	3575	case OP_MKCLOSURE: /* make-closure */
3501	x = car (args);	3576	x = car (args);
3502		3577
3503	if (car (x) == SCHEME_V->LAMBDA)	3578	if (car (x) == SCHEME_V->LAMBDA)
…		…
3910	SCHEME_V->code = car (args);	3985	SCHEME_V->code = car (args);
3911	SCHEME_V->args = cons (mk_continuation (SCHEME_A_ ss_get_cont (SCHEME_A)), NIL);	3986	SCHEME_V->args = cons (mk_continuation (SCHEME_A_ ss_get_cont (SCHEME_A)), NIL);
3912	s_goto (OP_APPLY);	3987	s_goto (OP_APPLY);
3913	}	3988	}
3914		3989
3915	abort ();	3990	if (USE_ERROR_CHECKING) abort ();
3916	}	3991	}
3917		3992
3918	static pointer	3993	static int
3919	opexe_2 (SCHEME_P_ enum scheme_opcodes op)	3994	opexe_1 (SCHEME_P_ enum scheme_opcodes op)
3920	{	3995	{
3921	pointer args = SCHEME_V->args;	3996	pointer args = SCHEME_V->args;
3922	pointer x = car (args);	3997	pointer x = car (args);
3923	num v;	3998	num v;
3924		3999
3925	#if USE_MATH
3926	RVALUE dd;
3927	#endif
3928
3929	switch (op)	4000	switch (op)
3930	{	4001	{
3931	#if USE_MATH	4002	#if USE_MATH
3932	case OP_INEX2EX: /* inexact->exact */	4003	case OP_INEX2EX: /* inexact->exact */
3933	if (num_is_integer (x))	4004	if (!is_integer (x))
3934	s_return (x);	4005	{
3935	else if (modf (rvalue_unchecked (x), &dd) == 0)	4006	RVALUE r = rvalue_unchecked (x);
3936	s_return (mk_integer (SCHEME_A_ ivalue (x)));	4007
		4008	if (r == (RVALUE)(IVALUE)r)
		4009	x = mk_integer (SCHEME_A_ rvalue_unchecked (x));
3937	else	4010	else
3938	Error_1 ("inexact->exact: not integral:", x);	4011	Error_1 ("inexact->exact: not integral:", x);
		4012	}
		4013
		4014	s_return (x);
3939		4015
3940	case OP_EXP: s_return (mk_real (SCHEME_A_ exp (rvalue (x))));	4016	case OP_EXP: s_return (mk_real (SCHEME_A_ exp (rvalue (x))));
3941	case OP_LOG: s_return (mk_real (SCHEME_A_ log (rvalue (x))));	4017	case OP_LOG: s_return (mk_real (SCHEME_A_ log (rvalue (x))
		4018	/ (cadr (args) == NIL ? 1 : log (rvalue (cadr (args))))));
3942	case OP_SIN: s_return (mk_real (SCHEME_A_ sin (rvalue (x))));	4019	case OP_SIN: s_return (mk_real (SCHEME_A_ sin (rvalue (x))));
3943	case OP_COS: s_return (mk_real (SCHEME_A_ cos (rvalue (x))));	4020	case OP_COS: s_return (mk_real (SCHEME_A_ cos (rvalue (x))));
3944	case OP_TAN: s_return (mk_real (SCHEME_A_ tan (rvalue (x))));	4021	case OP_TAN: s_return (mk_real (SCHEME_A_ tan (rvalue (x))));
3945	case OP_ASIN: s_return (mk_real (SCHEME_A_ asin (rvalue (x))));	4022	case OP_ASIN: s_return (mk_real (SCHEME_A_ asin (rvalue (x))));
3946	case OP_ACOS: s_return (mk_real (SCHEME_A_ acos (rvalue (x))));	4023	case OP_ACOS: s_return (mk_real (SCHEME_A_ acos (rvalue (x))));
3947		4024
3948	case OP_ATAN:	4025	case OP_ATAN:
		4026	s_return (mk_real (SCHEME_A_
3949	if (cdr (args) == NIL)	4027	cdr (args) == NIL
3950	s_return (mk_real (SCHEME_A_ atan (rvalue (x))));	4028	? atan (rvalue (x))
3951	else	4029	: atan2 (rvalue (x), rvalue (cadr (args)))));
3952	{
3953	pointer y = cadr (args);
3954	s_return (mk_real (SCHEME_A_ atan2 (rvalue (x), rvalue (y))));
3955	}
3956		4030
3957	case OP_SQRT:	4031	case OP_SQRT:
3958	s_return (mk_real (SCHEME_A_ sqrt (rvalue (x))));	4032	s_return (mk_real (SCHEME_A_ sqrt (rvalue (x))));
3959		4033
3960	case OP_EXPT:	4034	case OP_EXPT:
3961	{	4035	{
3962	RVALUE result;	4036	RVALUE result;
3963	int real_result = 1;	4037	int real_result = 1;
3964	pointer y = cadr (args);	4038	pointer y = cadr (args);
3965		4039
3966	if (num_is_integer (x) && num_is_integer (y))	4040	if (is_integer (x) && is_integer (y))
3967	real_result = 0;	4041	real_result = 0;
3968		4042
3969	/* This 'if' is an R5RS compatibility fix. */	4043	/* This 'if' is an R5RS compatibility fix. */
3970	/* NOTE: Remove this 'if' fix for R6RS. */	4044	/* NOTE: Remove this 'if' fix for R6RS. */
3971	if (rvalue (x) == 0 && rvalue (y) < 0)	4045	if (rvalue (x) == 0 && rvalue (y) < 0)
…		…
3977	/* If the test fails, result is too big for integer. */	4051	/* If the test fails, result is too big for integer. */
3978	if (!real_result)	4052	if (!real_result)
3979	{	4053	{
3980	long result_as_long = result;	4054	long result_as_long = result;
3981		4055
3982	if (result != (RVALUE) result_as_long)	4056	if (result != result_as_long)
3983	real_result = 1;	4057	real_result = 1;
3984	}	4058	}
3985		4059
3986	if (real_result)	4060	if (real_result)
3987	s_return (mk_real (SCHEME_A_ result));	4061	s_return (mk_real (SCHEME_A_ result));
3988	else	4062	else
3989	s_return (mk_integer (SCHEME_A_ result));	4063	s_return (mk_integer (SCHEME_A_ result));
3990	}	4064	}
3991		4065
3992	case OP_FLOOR: s_return (mk_real (SCHEME_A_ floor (rvalue (x))));	4066	case OP_FLOOR: s_return (mk_real (SCHEME_A_ floor (rvalue (x))));
3993	case OP_CEILING: s_return (mk_real (SCHEME_A_ ceil (rvalue (x))));	4067	case OP_CEILING: s_return (mk_real (SCHEME_A_ ceil (rvalue (x))));
3994		4068	case OP_TRUNCATE: s_return (mk_real (SCHEME_A_ trunc (rvalue (x))));
3995	case OP_TRUNCATE:
3996	{
3997	RVALUE rvalue_of_x;
3998
3999	rvalue_of_x = rvalue (x);
4000
4001	if (rvalue_of_x > 0)
4002	s_return (mk_real (SCHEME_A_ floor (rvalue_of_x)));
4003	else
4004	s_return (mk_real (SCHEME_A_ ceil (rvalue_of_x)));	4069	case OP_ROUND: s_return (mk_real (SCHEME_A_ nearbyint (rvalue (x))));
4005	}
4006
4007	case OP_ROUND:
4008	if (num_is_integer (x))
4009	s_return (x);
4010
4011	s_return (mk_real (SCHEME_A_ round_per_R5RS (rvalue (x))));
4012	#endif	4070	#endif
4013		4071
4014	case OP_ADD: /* + */	4072	case OP_ADD: /* + */
4015	v = num_zero;	4073	v = num_zero;
4016		4074
4017	for (x = args; x != NIL; x = cdr (x))	4075	for (x = args; x != NIL; x = cdr (x))
4018	v = num_op ('+', v, nvalue (car (x)));	4076	v = num_op (NUM_ADD, v, nvalue (car (x)));
4019		4077
4020	s_return (mk_number (SCHEME_A_ v));	4078	s_return (mk_number (SCHEME_A_ v));
4021		4079
4022	case OP_MUL: /* * */	4080	case OP_MUL: /* * */
4023	v = num_one;	4081	v = num_one;
4024		4082
4025	for (x = args; x != NIL; x = cdr (x))	4083	for (x = args; x != NIL; x = cdr (x))
4026	v = num_op ('+', v, nvalue (car (x)));	4084	v = num_op (NUM_MUL, v, nvalue (car (x)));
4027		4085
4028	s_return (mk_number (SCHEME_A_ v));	4086	s_return (mk_number (SCHEME_A_ v));
4029		4087
4030	case OP_SUB: /* - */	4088	case OP_SUB: /* - */
4031	if (cdr (args) == NIL)	4089	if (cdr (args) == NIL)
…		…
4038	x = cdr (args);	4096	x = cdr (args);
4039	v = nvalue (car (args));	4097	v = nvalue (car (args));
4040	}	4098	}
4041		4099
4042	for (; x != NIL; x = cdr (x))	4100	for (; x != NIL; x = cdr (x))
4043	v = num_op ('+', v, nvalue (car (x)));	4101	v = num_op (NUM_SUB, v, nvalue (car (x)));
4044		4102
4045	s_return (mk_number (SCHEME_A_ v));	4103	s_return (mk_number (SCHEME_A_ v));
4046		4104
4047	case OP_DIV: /* / */	4105	case OP_DIV: /* / */
4048	if (cdr (args) == NIL)	4106	if (cdr (args) == NIL)
…		…
4055	x = cdr (args);	4113	x = cdr (args);
4056	v = nvalue (car (args));	4114	v = nvalue (car (args));
4057	}	4115	}
4058		4116
4059	for (; x != NIL; x = cdr (x))	4117	for (; x != NIL; x = cdr (x))
4060	{
4061	if (!is_zero_rvalue (rvalue (car (x))))	4118	if (!is_zero_rvalue (rvalue (car (x))))
4062	v = num_div (v, nvalue (car (x)));	4119	v = num_div (v, nvalue (car (x)));
4063	else	4120	else
4064	Error_0 ("/: division by zero");	4121	Error_0 ("/: division by zero");
4065	}
4066		4122
4067	s_return (mk_number (SCHEME_A_ v));	4123	s_return (mk_number (SCHEME_A_ v));
4068		4124
4069	case OP_INTDIV: /* quotient */	4125	case OP_INTDIV: /* quotient */
4070	if (cdr (args) == NIL)	4126	if (cdr (args) == NIL)
…		…
4079	}	4135	}
4080		4136
4081	for (; x != NIL; x = cdr (x))	4137	for (; x != NIL; x = cdr (x))
4082	{	4138	{
4083	if (ivalue (car (x)) != 0)	4139	if (ivalue (car (x)) != 0)
4084	v = num_op ('/', v, nvalue (car (x)));	4140	v = num_op (NUM_INTDIV, v, nvalue (car (x)));
4085	else	4141	else
4086	Error_0 ("quotient: division by zero");	4142	Error_0 ("quotient: division by zero");
4087	}	4143	}
4088		4144
4089	s_return (mk_number (SCHEME_A_ v));	4145	s_return (mk_number (SCHEME_A_ v));
…		…
4106	else	4162	else
4107	Error_0 ("modulo: division by zero");	4163	Error_0 ("modulo: division by zero");
4108		4164
4109	s_return (mk_number (SCHEME_A_ v));	4165	s_return (mk_number (SCHEME_A_ v));
4110		4166
4111	case OP_CAR: /* car */	4167	/* the compiler will optimize this mess... */
4112	s_return (caar (args));	4168	case OP_CAR: op_car: s_return (car (x));
4113		4169	case OP_CDR: op_cdr: s_return (cdr (x));
4114	case OP_CDR: /* cdr */	4170	case OP_CAAR: op_caar: x = car (x); goto op_car;
4115	s_return (cdar (args));	4171	case OP_CADR: op_cadr: x = cdr (x); goto op_car;
		4172	case OP_CDAR: op_cdar: x = car (x); goto op_cdr;
		4173	case OP_CDDR: op_cddr: x = cdr (x); goto op_cdr;
		4174	case OP_CAAAR: op_caaar: x = car (x); goto op_caar;
		4175	case OP_CAADR: op_caadr: x = cdr (x); goto op_caar;
		4176	case OP_CADAR: op_cadar: x = car (x); goto op_cadr;
		4177	case OP_CADDR: op_caddr: x = cdr (x); goto op_cadr;
		4178	case OP_CDAAR: op_cdaar: x = car (x); goto op_cdar;
		4179	case OP_CDADR: op_cdadr: x = cdr (x); goto op_cdar;
		4180	case OP_CDDAR: op_cddar: x = car (x); goto op_cddr;
		4181	case OP_CDDDR: op_cdddr: x = cdr (x); goto op_cddr;
		4182	case OP_CAAAAR: x = car (x); goto op_caaar;
		4183	case OP_CAAADR: x = cdr (x); goto op_caaar;
		4184	case OP_CAADAR: x = car (x); goto op_caadr;
		4185	case OP_CAADDR: x = cdr (x); goto op_caadr;
		4186	case OP_CADAAR: x = car (x); goto op_cadar;
		4187	case OP_CADADR: x = cdr (x); goto op_cadar;
		4188	case OP_CADDAR: x = car (x); goto op_caddr;
		4189	case OP_CADDDR: x = cdr (x); goto op_caddr;
		4190	case OP_CDAAAR: x = car (x); goto op_cdaar;
		4191	case OP_CDAADR: x = cdr (x); goto op_cdaar;
		4192	case OP_CDADAR: x = car (x); goto op_cdadr;
		4193	case OP_CDADDR: x = cdr (x); goto op_cdadr;
		4194	case OP_CDDAAR: x = car (x); goto op_cddar;
		4195	case OP_CDDADR: x = cdr (x); goto op_cddar;
		4196	case OP_CDDDAR: x = car (x); goto op_cdddr;
		4197	case OP_CDDDDR: x = cdr (x); goto op_cdddr;
4116		4198
4117	case OP_CONS: /* cons */	4199	case OP_CONS: /* cons */
4118	set_cdr (args, cadr (args));	4200	set_cdr (args, cadr (args));
4119	s_return (args);	4201	s_return (args);
4120		4202
…		…
4135	}	4217	}
4136	else	4218	else
4137	Error_0 ("set-cdr!: unable to alter immutable pair");	4219	Error_0 ("set-cdr!: unable to alter immutable pair");
4138		4220
4139	case OP_CHAR2INT: /* char->integer */	4221	case OP_CHAR2INT: /* char->integer */
4140	s_return (mk_integer (SCHEME_A_ ivalue (x)));	4222	s_return (mk_integer (SCHEME_A_ ivalue_unchecked (x)));
4141		4223
4142	case OP_INT2CHAR: /* integer->char */	4224	case OP_INT2CHAR: /* integer->char */
4143	s_return (mk_character (SCHEME_A_ ivalue (x)));	4225	s_return (mk_character (SCHEME_A_ ivalue_unchecked (x)));
4144		4226
4145	case OP_CHARUPCASE:	4227	case OP_CHARUPCASE:
4146	{	4228	{
4147	unsigned char c = ivalue (x);	4229	unsigned char c = ivalue_unchecked (x);
4148	c = toupper (c);	4230	c = toupper (c);
4149	s_return (mk_character (SCHEME_A_ c));	4231	s_return (mk_character (SCHEME_A_ c));
4150	}	4232	}
4151		4233
4152	case OP_CHARDNCASE:	4234	case OP_CHARDNCASE:
4153	{	4235	{
4154	unsigned char c = ivalue (x);	4236	unsigned char c = ivalue_unchecked (x);
4155	c = tolower (c);	4237	c = tolower (c);
4156	s_return (mk_character (SCHEME_A_ c));	4238	s_return (mk_character (SCHEME_A_ c));
4157	}	4239	}
4158		4240
4159	case OP_STR2SYM: /* string->symbol */	4241	case OP_STR2SYM: /* string->symbol */
…		…
4236	Error_1 ("atom->string: not an atom:", x);	4318	Error_1 ("atom->string: not an atom:", x);
4237	}	4319	}
4238		4320
4239	case OP_MKSTRING: /* make-string */	4321	case OP_MKSTRING: /* make-string */
4240	{	4322	{
4241	int fill = ' ';	4323	int fill = cdr (args) != NIL ? charvalue (cadr (args)) : ' ';
4242	int len;
4243
4244	len = ivalue (x);	4324	int len = ivalue_unchecked (x);
4245
4246	if (cdr (args) != NIL)
4247	fill = charvalue (cadr (args));
4248		4325
4249	s_return (mk_empty_string (SCHEME_A_ len, fill));	4326	s_return (mk_empty_string (SCHEME_A_ len, fill));
4250	}	4327	}
4251		4328
4252	case OP_STRLEN: /* string-length */	4329	case OP_STRLEN: /* string-length */
4253	s_return (mk_integer (SCHEME_A_ strlength (x)));	4330	s_return (mk_integer (SCHEME_A_ strlength (x)));
4254		4331
4255	case OP_STRREF: /* string-ref */	4332	case OP_STRREF: /* string-ref */
4256	{	4333	{
4257	char *str;
4258	int index;
4259
4260	str = strvalue (x);	4334	char *str = strvalue (x);
4261
4262	index = ivalue (cadr (args));	4335	int index = ivalue_unchecked (cadr (args));
4263		4336
4264	if (index >= strlength (x))	4337	if (index >= strlength (x))
4265	Error_1 ("string-ref: out of bounds:", cadr (args));	4338	Error_1 ("string-ref: out of bounds:", cadr (args));
4266		4339
4267	s_return (mk_character (SCHEME_A_ ((unsigned char *)str)[index]));	4340	s_return (mk_character (SCHEME_A_ ((unsigned char *)str)[index]));
4268	}	4341	}
4269		4342
4270	case OP_STRSET: /* string-set! */	4343	case OP_STRSET: /* string-set! */
4271	{	4344	{
4272	char *str;	4345	char *str = strvalue (x);
4273	int index;	4346	int index = ivalue_unchecked (cadr (args));
4274	int c;	4347	int c;
4275		4348
4276	if (is_immutable (x))	4349	if (is_immutable (x))
4277	Error_1 ("string-set!: unable to alter immutable string:", x);	4350	Error_1 ("string-set!: unable to alter immutable string:", x);
4278
4279	str = strvalue (x);
4280
4281	index = ivalue (cadr (args));
4282		4351
4283	if (index >= strlength (x))	4352	if (index >= strlength (x))
4284	Error_1 ("string-set!: out of bounds:", cadr (args));	4353	Error_1 ("string-set!: out of bounds:", cadr (args));
4285		4354
4286	c = charvalue (caddr (args));	4355	c = charvalue (caddr (args));
…		…
4309	s_return (newstr);	4378	s_return (newstr);
4310	}	4379	}
4311		4380
4312	case OP_SUBSTR: /* substring */	4381	case OP_SUBSTR: /* substring */
4313	{	4382	{
4314	char *str;	4383	char *str = strvalue (x);
4315	int index0;	4384	int index0 = ivalue_unchecked (cadr (args));
4316	int index1;	4385	int index1;
4317	int len;	4386	int len;
4318		4387
4319	str = strvalue (x);
4320
4321	index0 = ivalue (cadr (args));
4322
4323	if (index0 > strlength (x))	4388	if (index0 > strlength (x))
4324	Error_1 ("substring: start out of bounds:", cadr (args));	4389	Error_1 ("substring: start out of bounds:", cadr (args));
4325		4390
4326	if (cddr (args) != NIL)	4391	if (cddr (args) != NIL)
4327	{	4392	{
4328	index1 = ivalue (caddr (args));	4393	index1 = ivalue_unchecked (caddr (args));
4329		4394
4330	if (index1 > strlength (x) || index1 < index0)	4395	if (index1 > strlength (x) || index1 < index0)
4331	Error_1 ("substring: end out of bounds:", caddr (args));	4396	Error_1 ("substring: end out of bounds:", caddr (args));
4332	}	4397	}
4333	else	4398	else
…		…
4356	if (SCHEME_V->no_memory)	4421	if (SCHEME_V->no_memory)
4357	s_return (S_SINK);	4422	s_return (S_SINK);
4358	#endif	4423	#endif
4359		4424
4360	for (x = args, i = 0; is_pair (x); x = cdr (x), i++)	4425	for (x = args, i = 0; is_pair (x); x = cdr (x), i++)
4361	set_vector_elem (vec, i, car (x));	4426	vector_set (vec, i, car (x));
4362		4427
4363	s_return (vec);	4428	s_return (vec);
4364	}	4429	}
4365		4430
4366	case OP_MKVECTOR: /* make-vector */	4431	case OP_MKVECTOR: /* make-vector */
4367	{	4432	{
4368	pointer fill = NIL;	4433	pointer fill = NIL;
4369	int len;
4370	pointer vec;	4434	pointer vec;
4371
4372	len = ivalue (x);	4435	int len = ivalue_unchecked (x);
4373		4436
4374	if (cdr (args) != NIL)	4437	if (cdr (args) != NIL)
4375	fill = cadr (args);	4438	fill = cadr (args);
4376		4439
4377	vec = mk_vector (SCHEME_A_ len);	4440	vec = mk_vector (SCHEME_A_ len);
…		…
4380	if (SCHEME_V->no_memory)	4443	if (SCHEME_V->no_memory)
4381	s_return (S_SINK);	4444	s_return (S_SINK);
4382	#endif	4445	#endif
4383		4446
4384	if (fill != NIL)	4447	if (fill != NIL)
4385	fill_vector (vec, fill);	4448	fill_vector (vec, 0, fill);
4386		4449
4387	s_return (vec);	4450	s_return (vec);
4388	}	4451	}
4389		4452
4390	case OP_VECLEN: /* vector-length */	4453	case OP_VECLEN: /* vector-length */
4391	s_return (mk_integer (SCHEME_A_ veclength (x)));	4454	s_return (mk_integer (SCHEME_A_ veclength (x)));
4392		4455
		4456	case OP_VECRESIZE:
		4457	vector_resize (x, ivalue_unchecked (cadr (args)), caddr (args));
		4458	s_return (x);
		4459
4393	case OP_VECREF: /* vector-ref */	4460	case OP_VECREF: /* vector-ref */
4394	{	4461	{
4395	int index;
4396
4397	index = ivalue (cadr (args));	4462	int index = ivalue_unchecked (cadr (args));
4398		4463
4399	if (index >= veclength (car (args)) && USE_ERROR_CHECKING)	4464	if (index >= veclength (car (args)) && USE_ERROR_CHECKING)
4400	Error_1 ("vector-ref: out of bounds:", cadr (args));	4465	Error_1 ("vector-ref: out of bounds:", cadr (args));
4401		4466
4402	s_return (vector_elem (x, index));	4467	s_return (vector_get (x, index));
4403	}	4468	}
4404		4469
4405	case OP_VECSET: /* vector-set! */	4470	case OP_VECSET: /* vector-set! */
4406	{	4471	{
4407	int index;	4472	int index = ivalue_unchecked (cadr (args));
4408		4473
4409	if (is_immutable (x))	4474	if (is_immutable (x))
4410	Error_1 ("vector-set!: unable to alter immutable vector:", x);	4475	Error_1 ("vector-set!: unable to alter immutable vector:", x);
4411		4476
4412	index = ivalue (cadr (args));
4413
4414	if (index >= veclength (car (args)) && USE_ERROR_CHECKING)	4477	if (index >= veclength (car (args)) && USE_ERROR_CHECKING)
4415	Error_1 ("vector-set!: out of bounds:", cadr (args));	4478	Error_1 ("vector-set!: out of bounds:", cadr (args));
4416		4479
4417	set_vector_elem (x, index, caddr (args));	4480	vector_set (x, index, caddr (args));
4418	s_return (x);	4481	s_return (x);
4419	}	4482	}
4420	}	4483	}
4421		4484
4422	return S_T;	4485	if (USE_ERROR_CHECKING) abort ();
4423	}	4486	}
4424		4487
4425	INTERFACE int
4426	is_list (SCHEME_P_ pointer a)
4427	{
4428	return list_length (SCHEME_A_ a) >= 0;
4429	}
4430
4431	/* Result is:
4432	proper list: length
4433	circular list: -1
4434	not even a pair: -2
4435	dotted list: -2 minus length before dot
4436	*/
4437	INTERFACE int
4438	list_length (SCHEME_P_ pointer a)
4439	{
4440	int i = 0;
4441	pointer slow, fast;
4442
4443	slow = fast = a;
4444
4445	while (1)
4446	{
4447	if (fast == NIL)
4448	return i;
4449
4450	if (!is_pair (fast))
4451	return -2 - i;
4452
4453	fast = cdr (fast);
4454	++i;
4455
4456	if (fast == NIL)
4457	return i;
4458
4459	if (!is_pair (fast))
4460	return -2 - i;
4461
4462	++i;
4463	fast = cdr (fast);
4464
4465	/* Safe because we would have already returned if `fast'
4466	encountered a non-pair. */
4467	slow = cdr (slow);
4468
4469	if (fast == slow)
4470	{
4471	/* the fast pointer has looped back around and caught up
4472	with the slow pointer, hence the structure is circular,
4473	not of finite length, and therefore not a list */
4474	return -1;
4475	}
4476	}
4477	}
4478
4479	static pointer	4488	static int
4480	opexe_r (SCHEME_P_ enum scheme_opcodes op)	4489	opexe_2 (SCHEME_P_ enum scheme_opcodes op)
4481	{	4490	{
4482	pointer x = SCHEME_V->args;	4491	pointer x = SCHEME_V->args;
4483		4492
4484	for (;;)	4493	for (;;)
4485	{	4494	{
…		…
4505	}	4514	}
4506		4515
4507	s_return (S_T);	4516	s_return (S_T);
4508	}	4517	}
4509		4518
4510	static pointer	4519	static int
4511	opexe_3 (SCHEME_P_ enum scheme_opcodes op)	4520	opexe_3 (SCHEME_P_ enum scheme_opcodes op)
4512	{	4521	{
4513	pointer args = SCHEME_V->args;	4522	pointer args = SCHEME_V->args;
4514	pointer a = car (args);	4523	pointer a = car (args);
4515	pointer d = cdr (args);	4524	pointer d = cdr (args);
4516	int r;	4525	int r;
4517		4526
4518	switch (op)	4527	switch (op)
4519	{	4528	{
4520	case OP_NOT: /* not */ r = is_false (a) ; break;	4529	case OP_NOT: /* not */ r = is_false (a) ; break;
4521	case OP_BOOLP: /* boolean? */ r = a == S_F || a == S_T; break;	4530	case OP_BOOLP: /* boolean? */ r = a == S_F || a == S_T ; break;
4522	case OP_EOFOBJP: /* eof-object? */ r = a == S_EOF ; break;	4531	case OP_EOFOBJP: /* eof-object? */ r = a == S_EOF ; break;
4523	case OP_NULLP: /* null? */ r = a == NIL ; break;	4532	case OP_NULLP: /* null? */ r = a == NIL ; break;
4524	case OP_SYMBOLP: /* symbol? */ r = is_symbol (a) ; break;	4533	case OP_SYMBOLP: /* symbol? */ r = is_symbol (a) ; break;
		4534	case OP_GENSYMP: /* gensym? */ r = is_gensym (SCHEME_A_ a); break;
4525	case OP_NUMBERP: /* number? */ r = is_number (a) ; break;	4535	case OP_NUMBERP: /* number? */ r = is_number (a) ; break;
4526	case OP_STRINGP: /* string? */ r = is_string (a) ; break;	4536	case OP_STRINGP: /* string? */ r = is_string (a) ; break;
4527	case OP_INTEGERP: /* integer? */ r = is_integer (a) ; break;	4537	case OP_INTEGERP: /* integer? */ r = is_integer (a) ; break;
4528	case OP_REALP: /* real? */ r = is_number (a) ; break; /* all numbers are real */	4538	case OP_REALP: /* real? */ r = is_number (a) ; break; /* all numbers are real */
4529	case OP_CHARP: /* char? */ r = is_character (a) ; break;	4539	case OP_CHARP: /* char? */ r = is_character (a) ; break;
4530		4540
4531	#if USE_CHAR_CLASSIFIERS	4541	#if USE_CHAR_CLASSIFIERS
4532	case OP_CHARAP: /* char-alphabetic? */ r = Cisalpha (ivalue (a)); break;	4542	case OP_CHARAP: /* char-alphabetic? */ r = Cisalpha (ivalue_unchecked (a)); break;
4533	case OP_CHARNP: /* char-numeric? */ r = Cisdigit (ivalue (a)); break;	4543	case OP_CHARNP: /* char-numeric? */ r = Cisdigit (ivalue_unchecked (a)); break;
4534	case OP_CHARWP: /* char-whitespace? */ r = Cisspace (ivalue (a)); break;	4544	case OP_CHARWP: /* char-whitespace? */ r = Cisspace (ivalue_unchecked (a)); break;
4535	case OP_CHARUP: /* char-upper-case? */ r = Cisupper (ivalue (a)); break;	4545	case OP_CHARUP: /* char-upper-case? */ r = Cisupper (ivalue_unchecked (a)); break;
4536	case OP_CHARLP: /* char-lower-case? */ r = Cislower (ivalue (a)); break;	4546	case OP_CHARLP: /* char-lower-case? */ r = Cislower (ivalue_unchecked (a)); break;
4537	#endif	4547	#endif
4538		4548
4539	#if USE_PORTS	4549	#if USE_PORTS
4540	case OP_PORTP: /* port? */ r = is_port (a) ; break;	4550	case OP_PORTP: /* port? */ r = is_port (a) ; break;
4541	case OP_INPORTP: /* input-port? */ r = is_inport (a) ; break;	4551	case OP_INPORTP: /* input-port? */ r = is_inport (a) ; break;
…		…
4561	}	4571	}
4562		4572
4563	s_retbool (r);	4573	s_retbool (r);
4564	}	4574	}
4565		4575
4566	static pointer	4576	static int
4567	opexe_4 (SCHEME_P_ enum scheme_opcodes op)	4577	opexe_4 (SCHEME_P_ enum scheme_opcodes op)
4568	{	4578	{
4569	pointer args = SCHEME_V->args;	4579	pointer args = SCHEME_V->args;
4570	pointer a = car (args);	4580	pointer a = car (args);
4571	pointer x, y;	4581	pointer x, y;
…		…
4584	}	4594	}
4585	else	4595	else
4586	s_return (SCHEME_V->code);	4596	s_return (SCHEME_V->code);
4587		4597
4588	case OP_SAVE_FORCED: /* Save forced value replacing promise */	4598	case OP_SAVE_FORCED: /* Save forced value replacing promise */
4589	memcpy (SCHEME_V->code, SCHEME_V->value, sizeof (struct cell));	4599	*CELL (SCHEME_V->code) = *CELL (SCHEME_V->value);
4590	s_return (SCHEME_V->value);	4600	s_return (SCHEME_V->value);
4591		4601
4592	#if USE_PORTS	4602	#if USE_PORTS
4593		4603
4594	case OP_WRITE: /* write */	4604	case OP_WRITE: /* write */
…		…
4657	putstr (SCHEME_A_ "\n");	4667	putstr (SCHEME_A_ "\n");
4658		4668
4659	if (SCHEME_V->interactive_repl)	4669	if (SCHEME_V->interactive_repl)
4660	s_goto (OP_T0LVL);	4670	s_goto (OP_T0LVL);
4661	else	4671	else
4662	return NIL;	4672	return -1;
4663	}	4673	}
4664		4674
4665	case OP_REVERSE: /* reverse */	4675	case OP_REVERSE: /* reverse */
4666	s_return (reverse (SCHEME_A_ a));	4676	s_return (reverse (SCHEME_A_ a));
4667		4677
…		…
4724		4734
4725	case OP_QUIT: /* quit */	4735	case OP_QUIT: /* quit */
4726	if (is_pair (args))	4736	if (is_pair (args))
4727	SCHEME_V->retcode = ivalue (a);	4737	SCHEME_V->retcode = ivalue (a);
4728		4738
4729	return NIL;	4739	return -1;
4730		4740
4731	case OP_GC: /* gc */	4741	case OP_GC: /* gc */
4732	gc (SCHEME_A_ NIL, NIL);	4742	gc (SCHEME_A_ NIL, NIL);
4733	s_return (S_T);	4743	s_return (S_T);
4734		4744
…		…
4739	SCHEME_V->gc_verbose = (a != S_F);	4749	SCHEME_V->gc_verbose = (a != S_F);
4740	s_retbool (was);	4750	s_retbool (was);
4741	}	4751	}
4742		4752
4743	case OP_NEWSEGMENT: /* new-segment */	4753	case OP_NEWSEGMENT: /* new-segment */
		4754	#if 0
4744	if (!is_pair (args) || !is_number (a))	4755	if (!is_pair (args) || !is_number (a))
4745	Error_0 ("new-segment: argument must be a number");	4756	Error_0 ("new-segment: argument must be a number");
4746		4757	#endif
4747	alloc_cellseg (SCHEME_A_ (int)ivalue (a));	4758	s_retbool (alloc_cellseg (SCHEME_A));
4748
4749	s_return (S_T);
4750		4759
4751	case OP_OBLIST: /* oblist */	4760	case OP_OBLIST: /* oblist */
4752	s_return (oblist_all_symbols (SCHEME_A));	4761	s_return (oblist_all_symbols (SCHEME_A));
4753		4762
4754	#if USE_PORTS	4763	#if USE_PORTS
…		…
4781	break;	4790	break;
4782	}	4791	}
4783		4792
4784	p = port_from_filename (SCHEME_A_ strvalue (a), prop);	4793	p = port_from_filename (SCHEME_A_ strvalue (a), prop);
4785		4794
4786	if (p == NIL)	4795	s_return (p == NIL ? S_F : p);
4787	s_return (S_F);
4788
4789	s_return (p);
4790	}	4796	}
4791		4797
4792	# if USE_STRING_PORTS	4798	# if USE_STRING_PORTS
4793		4799
4794	case OP_OPEN_INSTRING: /* open-input-string */	4800	case OP_OPEN_INSTRING: /* open-input-string */
…		…
4809	}	4815	}
4810		4816
4811	p = port_from_string (SCHEME_A_ strvalue (a),	4817	p = port_from_string (SCHEME_A_ strvalue (a),
4812	strvalue (a) + strlength (a), prop);	4818	strvalue (a) + strlength (a), prop);
4813		4819
4814	if (p == NIL)	4820	s_return (p == NIL ? S_F : p);
4815	s_return (S_F);
4816
4817	s_return (p);
4818	}	4821	}
4819		4822
4820	case OP_OPEN_OUTSTRING: /* open-output-string */	4823	case OP_OPEN_OUTSTRING: /* open-output-string */
4821	{	4824	{
4822	pointer p;	4825	pointer p;
4823		4826
4824	if (a == NIL)	4827	if (a == NIL)
4825	{
4826	p = port_from_scratch (SCHEME_A);	4828	p = port_from_scratch (SCHEME_A);
4827
4828	if (p == NIL)
4829	s_return (S_F);
4830	}
4831	else	4829	else
4832	{
4833	p = port_from_string (SCHEME_A_ strvalue (a),	4830	p = port_from_string (SCHEME_A_ strvalue (a),
4834	strvalue (a) + strlength (a), port_output);	4831	strvalue (a) + strlength (a), port_output);
4835		4832
4836	if (p == NIL)	4833	s_return (p == NIL ? S_F : p);
4837	s_return (S_F);
4838	}
4839
4840	s_return (p);
4841	}	4834	}
4842		4835
4843	case OP_GET_OUTSTRING: /* get-output-string */	4836	case OP_GET_OUTSTRING: /* get-output-string */
4844	{	4837	{
4845	port *p;	4838	port *p = port (a);
4846		4839
4847	if ((p = a->object.port)->kind & port_string)	4840	if (p->kind & port_string)
4848	{	4841	{
4849	off_t size;	4842	off_t size;
4850	char *str;	4843	char *str;
4851		4844
4852	size = p->rep.string.curr - p->rep.string.start + 1;	4845	size = p->rep.string.curr - p->rep.string.start + 1;
…		…
4884	case OP_CURR_ENV: /* current-environment */	4877	case OP_CURR_ENV: /* current-environment */
4885	s_return (SCHEME_V->envir);	4878	s_return (SCHEME_V->envir);
4886		4879
4887	}	4880	}
4888		4881
4889	abort ();	4882	if (USE_ERROR_CHECKING) abort ();
4890	}	4883	}
4891		4884
4892	static pointer	4885	static int
4893	opexe_5 (SCHEME_P_ enum scheme_opcodes op)	4886	opexe_5 (SCHEME_P_ enum scheme_opcodes op)
4894	{	4887	{
4895	pointer args = SCHEME_V->args;	4888	pointer args = SCHEME_V->args;
4896	pointer x;	4889	pointer x;
4897		4890
…		…
4957	int res;	4950	int res;
4958		4951
4959	if (is_pair (args))	4952	if (is_pair (args))
4960	p = car (args);	4953	p = car (args);
4961		4954
4962	res = p->object.port->kind & port_string;	4955	res = port (p)->kind & port_string;
4963		4956
4964	s_retbool (res);	4957	s_retbool (res);
4965	}	4958	}
4966		4959
4967	case OP_SET_INPORT: /* set-input-port */	4960	case OP_SET_INPORT: /* set-input-port */
…		…
5026	s_save (SCHEME_A_ OP_RDUQTSP, NIL, NIL);	5019	s_save (SCHEME_A_ OP_RDUQTSP, NIL, NIL);
5027	SCHEME_V->tok = token (SCHEME_A);	5020	SCHEME_V->tok = token (SCHEME_A);
5028	s_goto (OP_RDSEXPR);	5021	s_goto (OP_RDSEXPR);
5029		5022
5030	case TOK_ATOM:	5023	case TOK_ATOM:
5031	s_return (mk_atom (SCHEME_A_ readstr_upto (SCHEME_A_ DELIMITERS)));	5024	s_return (mk_atom (SCHEME_A_ readstr_upto (SCHEME_A_ 0, DELIMITERS)));
		5025
		5026	case TOK_DOTATOM:
		5027	SCHEME_V->strbuff[0] = '.';
		5028	s_return (mk_atom (SCHEME_A_ readstr_upto (SCHEME_A_ 1, DELIMITERS)));
		5029
		5030	case TOK_STRATOM:
		5031	x = readstrexp (SCHEME_A_ '|');
		5032	//TODO: haven't checked whether the garbage collector could interfere
		5033	s_return (mk_atom (SCHEME_A_ strvalue (x)));
5032		5034
5033	case TOK_DQUOTE:	5035	case TOK_DQUOTE:
5034	x = readstrexp (SCHEME_A);	5036	x = readstrexp (SCHEME_A_ '"');
5035		5037
5036	if (x == S_F)	5038	if (x == S_F)
5037	Error_0 ("Error reading string");	5039	Error_0 ("Error reading string");
5038		5040
5039	setimmutable (x);	5041	setimmutable (x);
…		…
5051	s_goto (OP_EVAL);	5053	s_goto (OP_EVAL);
5052	}	5054	}
5053	}	5055	}
5054		5056
5055	case TOK_SHARP_CONST:	5057	case TOK_SHARP_CONST:
5056	if ((x = mk_sharp_const (SCHEME_A_ readstr_upto (SCHEME_A_ DELIMITERS))) == NIL)	5058	if ((x = mk_sharp_const (SCHEME_A_ readstr_upto (SCHEME_A_ 0, DELIMITERS))) == NIL)
5057	Error_0 ("undefined sharp expression");	5059	Error_0 ("undefined sharp expression");
5058	else	5060	else
5059	s_return (x);	5061	s_return (x);
5060		5062
5061	default:	5063	default:
…		…
5213	putstr (SCHEME_A_ ")");	5215	putstr (SCHEME_A_ ")");
5214	s_return (S_T);	5216	s_return (S_T);
5215	}	5217	}
5216	else	5218	else
5217	{	5219	{
5218	pointer elem = vector_elem (vec, i);	5220	pointer elem = vector_get (vec, i);
5219		5221
5220	ivalue_unchecked (cdr (args)) = i + 1;	5222	ivalue_unchecked (cdr (args)) = i + 1;
5221	s_save (SCHEME_A_ OP_PVECFROM, args, NIL);	5223	s_save (SCHEME_A_ OP_PVECFROM, args, NIL);
5222	SCHEME_V->args = elem;	5224	SCHEME_V->args = elem;
5223		5225
…		…
5227	s_goto (OP_P0LIST);	5229	s_goto (OP_P0LIST);
5228	}	5230	}
5229	}	5231	}
5230	}	5232	}
5231		5233
5232	abort ();	5234	if (USE_ERROR_CHECKING) abort ();
5233	}	5235	}
5234		5236
5235	static pointer	5237	static int
5236	opexe_6 (SCHEME_P_ enum scheme_opcodes op)	5238	opexe_6 (SCHEME_P_ enum scheme_opcodes op)
5237	{	5239	{
5238	pointer args = SCHEME_V->args;	5240	pointer args = SCHEME_V->args;
5239	pointer a = car (args);	5241	pointer a = car (args);
5240	pointer x, y;	5242	pointer x, y;
…		…
5283		5285
5284	case OP_CLOSUREP: /* closure? */	5286	case OP_CLOSUREP: /* closure? */
5285	/*	5287	/*
5286	* Note, macro object is also a closure.	5288	* Note, macro object is also a closure.
5287	* Therefore, (closure? <#MACRO>) ==> #t	5289	* Therefore, (closure? <#MACRO>) ==> #t
		5290	* (schmorp) well, obviously not, fix? TODO
5288	*/	5291	*/
5289	s_retbool (is_closure (a));	5292	s_retbool (is_closure (a));
5290		5293
5291	case OP_MACROP: /* macro? */	5294	case OP_MACROP: /* macro? */
5292	s_retbool (is_macro (a));	5295	s_retbool (is_macro (a));
5293	}	5296	}
5294		5297
5295	abort ();	5298	if (USE_ERROR_CHECKING) abort ();
5296	}	5299	}
5297		5300
		5301	/* dispatch functions (opexe_x) return new opcode, or 0 for same opcode, or -1 to stop */
5298	typedef pointer (*dispatch_func) (SCHEME_P_ enum scheme_opcodes);	5302	typedef int (*dispatch_func)(SCHEME_P_ enum scheme_opcodes);
5299		5303
5300	typedef int (*test_predicate) (pointer);	5304	typedef int (*test_predicate)(pointer);
5301	static int	5305	static int
5302	is_any (pointer p)	5306	tst_any (pointer p)
5303	{	5307	{
5304	return 1;	5308	return 1;
5305	}	5309	}
5306		5310
5307	static int	5311	static int
5308	is_nonneg (pointer p)	5312	tst_inonneg (pointer p)
5309	{	5313	{
5310	return ivalue (p) >= 0 && is_integer (p);	5314	return is_integer (p) && ivalue_unchecked (p) >= 0;
		5315	}
		5316
		5317	static int
		5318	tst_is_list (SCHEME_P_ pointer p)
		5319	{
		5320	return p == NIL || is_pair (p);
5311	}	5321	}
5312		5322
5313	/* Correspond carefully with following defines! */	5323	/* Correspond carefully with following defines! */
5314	static struct	5324	static struct
5315	{	5325	{
5316	test_predicate fct;	5326	test_predicate fct;
5317	const char *kind;	5327	const char *kind;
5318	} tests[] =	5328	} tests[] = {
5319	{	5329	{ tst_any , 0 },
5320	{ 0, 0}, /* unused */	5330	{ is_string , "string" },
5321	{ is_any, 0},	5331	{ is_symbol , "symbol" },
5322	{ is_string, "string" },	5332	{ is_port , "port" },
5323	{ is_symbol, "symbol" },
5324	{ is_port, "port" },
5325	{ is_inport, "input port" },	5333	{ is_inport , "input port" },
5326	{ is_outport, "output port" },	5334	{ is_outport , "output port" },
5327	{ is_environment, "environment" },	5335	{ is_environment, "environment" },
5328	{ is_pair, "pair" },	5336	{ is_pair , "pair" },
5329	{ 0, "pair or '()" },	5337	{ 0 , "pair or '()" },
5330	{ is_character, "character" },	5338	{ is_character , "character" },
5331	{ is_vector, "vector" },	5339	{ is_vector , "vector" },
5332	{ is_number, "number" },	5340	{ is_number , "number" },
5333	{ is_integer, "integer" },	5341	{ is_integer , "integer" },
5334	{ is_nonneg, "non-negative integer" }	5342	{ tst_inonneg , "non-negative integer" }
5335	};	5343	};
5336		5344
5337	#define TST_NONE 0 /* TST_NONE used for standard procedures, for internal ops, 0 is used */	5345	#define TST_NONE 0 /* TST_NONE used for built-ins, 0 for internal ops */
5338	#define TST_ANY "\001"	5346	#define TST_ANY "\001"
5339	#define TST_STRING "\002"	5347	#define TST_STRING "\002"
5340	#define TST_SYMBOL "\003"	5348	#define TST_SYMBOL "\003"
5341	#define TST_PORT "\004"	5349	#define TST_PORT "\004"
5342	#define TST_INPORT "\005"	5350	#define TST_INPORT "\005"
…		…
5348	#define TST_VECTOR "\013"	5356	#define TST_VECTOR "\013"
5349	#define TST_NUMBER "\014"	5357	#define TST_NUMBER "\014"
5350	#define TST_INTEGER "\015"	5358	#define TST_INTEGER "\015"
5351	#define TST_NATURAL "\016"	5359	#define TST_NATURAL "\016"
5352		5360
		5361	#define INF_ARG 0xff
		5362	#define UNNAMED_OP ""
		5363
		5364	static const char opnames[] =
		5365	#define OP_DEF(func,name,minarity,maxarity,argtest,op) name "\x00"
		5366	#include "opdefines.h"
		5367	#undef OP_DEF
		5368	;
		5369
		5370	static const char *
		5371	opname (int idx)
		5372	{
		5373	const char *name = opnames;
		5374
		5375	/* should do this at compile time, but would require external program, right? */
		5376	while (idx--)
		5377	name += strlen (name) + 1;
		5378
		5379	return *name ? name : "ILLEGAL";
		5380	}
		5381
		5382	static const char *
		5383	procname (pointer x)
		5384	{
		5385	return opname (procnum (x));
		5386	}
		5387
5353	typedef struct	5388	typedef struct
5354	{	5389	{
5355	dispatch_func func;	5390	uint8_t func;
5356	char *name;	5391	/*dispatch_func func;*//*TODO: maybe optionally keep the pointer, for speed? */
		5392	uint8_t builtin;
		5393	#if USE_ERROR_CHECKING
5357	int min_arity;	5394	uint8_t min_arity;
5358	int max_arity;	5395	uint8_t max_arity;
5359	char arg_tests_encoding[3];	5396	char arg_tests_encoding[3];
		5397	#endif
5360	} op_code_info;	5398	} op_code_info;
5361		5399
5362	#define INF_ARG 0xffff
5363
5364	static op_code_info dispatch_table[] = {	5400	static const op_code_info dispatch_table[] = {
		5401	#if USE_ERROR_CHECKING
5365	#define OP_DEF(func,name,minarity,maxarity,argtest,op) { opexe_ ## func, name, minarity, maxarity, argtest },	5402	#define OP_DEF(func,name,minarity,maxarity,argtest,op) { func, sizeof (name) > 1, minarity, maxarity, argtest },
		5403	#else
		5404	#define OP_DEF(func,name,minarity,maxarity,argtest,op) { func, sizeof (name) > 1 },
		5405	#endif
5366	#include "opdefines.h"	5406	#include "opdefines.h"
5367	#undef OP_DEF	5407	#undef OP_DEF
5368	{0}	5408	{0}
5369	};	5409	};
5370		5410
5371	static const char *
5372	procname (pointer x)
5373	{
5374	int n = procnum (x);
5375	const char *name = dispatch_table[n].name;
5376
5377	if (name == 0)
5378	name = "ILLEGAL!";
5379
5380	return name;
5381	}
5382
5383	/* kernel of this interpreter */	5411	/* kernel of this interpreter */
5384	static void	5412	static void ecb_hot
5385	Eval_Cycle (SCHEME_P_ enum scheme_opcodes op)	5413	Eval_Cycle (SCHEME_P_ enum scheme_opcodes op)
5386	{	5414	{
5387	SCHEME_V->op = op;	5415	SCHEME_V->op = op;
5388		5416
5389	for (;;)	5417	for (;;)
5390	{	5418	{
5391	op_code_info *pcd = dispatch_table + SCHEME_V->op;	5419	const op_code_info *pcd = dispatch_table + SCHEME_V->op;
5392		5420
5393	#if USE_ERROR_CHECKING	5421	#if USE_ERROR_CHECKING
5394	if (pcd->name) /* if built-in function, check arguments */	5422	if (pcd->builtin) /* if built-in function, check arguments */
5395	{	5423	{
5396	int ok = 1;
5397	char msg[STRBUFFSIZE];	5424	char msg[STRBUFFSIZE];
5398	int n = list_length (SCHEME_A_ SCHEME_V->args);	5425	int n = list_length (SCHEME_A_ SCHEME_V->args);
5399		5426
5400	/* Check number of arguments */	5427	/* Check number of arguments */
5401	if (ecb_expect_false (n < pcd->min_arity))	5428	if (ecb_expect_false (n < pcd->min_arity))
5402	{	5429	{
5403	ok = 0;
5404	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",	5430	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",
5405	pcd->name, pcd->min_arity == pcd->max_arity ? "" : " at least", pcd->min_arity);	5431	opname (SCHEME_V->op), pcd->min_arity == pcd->max_arity ? "" : " at least", pcd->min_arity);
		5432	xError_1 (SCHEME_A_ msg, 0);
		5433	continue;
5406	}	5434	}
5407	else if (ecb_expect_false (n > pcd->max_arity))	5435	else if (ecb_expect_false (n > pcd->max_arity && pcd->max_arity != INF_ARG))
5408	{	5436	{
5409	ok = 0;
5410	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",	5437	snprintf (msg, STRBUFFSIZE, "%s: needs%s %d argument(s)",
5411	pcd->name, pcd->min_arity == pcd->max_arity ? "" : " at most", pcd->max_arity);	5438	opname (SCHEME_V->op), pcd->min_arity == pcd->max_arity ? "" : " at most", pcd->max_arity);
		5439	xError_1 (SCHEME_A_ msg, 0);
		5440	continue;
5412	}	5441	}
5413		5442	else
5414	if (ecb_expect_false (ok))
5415	{	5443	{
5416	if (*pcd->arg_tests_encoding)	5444	if (*pcd->arg_tests_encoding) /* literal 0 and TST_NONE treated the same */
5417	{	5445	{
5418	int i = 0;	5446	int i = 0;
5419	int j;	5447	int j;
5420	const char *t = pcd->arg_tests_encoding;	5448	const char *t = pcd->arg_tests_encoding;
5421	pointer arglist = SCHEME_V->args;	5449	pointer arglist = SCHEME_V->args;
…		…
5424	{	5452	{
5425	pointer arg = car (arglist);	5453	pointer arg = car (arglist);
5426		5454
5427	j = t[0];	5455	j = t[0];
5428		5456
		5457	/*TODO: tst_is_list has different prototype - fix if other tests acquire same prototype */
5429	if (j == TST_LIST[0])	5458	if (j == TST_LIST[0])
5430	{	5459	{
5431	if (arg != NIL && !is_pair (arg))	5460	if (!tst_is_list (SCHEME_A_ arg))
5432	break;	5461	break;
5433	}	5462	}
5434	else	5463	else
5435	{	5464	{
5436	if (!tests[j].fct (arg))	5465	if (!tests[j - 1].fct (arg))
5437	break;	5466	break;
5438	}	5467	}
5439		5468
5440	if (t[1]) /* last test is replicated as necessary */	5469	if (t < pcd->arg_tests_encoding + sizeof (pcd->arg_tests_encoding) - 1 && t[1]) /* last test is replicated as necessary */
5441	t++;	5470	t++;
5442		5471
5443	arglist = cdr (arglist);	5472	arglist = cdr (arglist);
5444	i++;	5473	i++;
5445	}	5474	}
5446	while (i < n);	5475	while (i < n);
5447		5476
5448	if (i < n)	5477	if (i < n)
5449	{	5478	{
5450	ok = 0;
5451	snprintf (msg, STRBUFFSIZE, "%s: argument %d must be: %s", pcd->name, i + 1, tests[j].kind);	5479	snprintf (msg, STRBUFFSIZE, "%s: argument %d must be: %s", opname (SCHEME_V->op), i + 1, tests[j].kind);
		5480	xError_1 (SCHEME_A_ msg, 0);
		5481	continue;
5452	}	5482	}
5453	}	5483	}
5454	}	5484	}
5455
5456	if (!ok)
5457	{
5458	if (xError_1 (SCHEME_A_ msg, 0) == NIL)
5459	return;
5460
5461	pcd = dispatch_table + SCHEME_V->op;
5462	}
5463	}	5485	}
5464	#endif	5486	#endif
5465		5487
5466	ok_to_freely_gc (SCHEME_A);	5488	ok_to_freely_gc (SCHEME_A);
5467		5489
		5490	static const dispatch_func dispatch_funcs[] = {
		5491	opexe_0,
		5492	opexe_1,
		5493	opexe_2,
		5494	opexe_3,
		5495	opexe_4,
		5496	opexe_5,
		5497	opexe_6,
		5498	};
		5499
5468	if (ecb_expect_false (pcd->func (SCHEME_A_ SCHEME_V->op) == NIL))	5500	if (ecb_expect_false (dispatch_funcs [pcd->func] (SCHEME_A_ SCHEME_V->op) != 0))
5469	return;	5501	return;
5470		5502
5471	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)	5503	if (SCHEME_V->no_memory && USE_ERROR_CHECKING)
5472	{	5504	{
5473	xwrstr ("No memory!\n");	5505	putstr (SCHEME_A_ "No memory!\n");
5474	return;	5506	return;
5475	}	5507	}
5476	}	5508	}
5477	}	5509	}
5478		5510
…		…
5497	mk_proc (SCHEME_P_ enum scheme_opcodes op)	5529	mk_proc (SCHEME_P_ enum scheme_opcodes op)
5498	{	5530	{
5499	pointer y = get_cell (SCHEME_A_ NIL, NIL);	5531	pointer y = get_cell (SCHEME_A_ NIL, NIL);
5500	set_typeflag (y, (T_PROC | T_ATOM));	5532	set_typeflag (y, (T_PROC | T_ATOM));
5501	ivalue_unchecked (y) = op;	5533	ivalue_unchecked (y) = op;
5502	set_num_integer (y);
5503	return y;	5534	return y;
5504	}	5535	}
5505		5536
5506	/* Hard-coded for the given keywords. Remember to rewrite if more are added! */	5537	/* Hard-coded for the given keywords. Remember to rewrite if more are added! */
5507	static int	5538	static int
5508	syntaxnum (pointer p)	5539	syntaxnum (pointer p)
5509	{	5540	{
5510	const char *s = strvalue (car (p));	5541	const char *s = strvalue (p);
5511		5542
5512	switch (strlength (car (p)))	5543	switch (strlength (p))
5513	{	5544	{
5514	case 2:	5545	case 2:
5515	if (s[0] == 'i')	5546	if (s[0] == 'i')
5516	return OP_IF0; /* if */	5547	return OP_IF0; /* if */
5517	else	5548	else
…		…
5572	return OP_C0STREAM; /* cons-stream */	5603	return OP_C0STREAM; /* cons-stream */
5573	}	5604	}
5574	}	5605	}
5575		5606
5576	#if USE_MULTIPLICITY	5607	#if USE_MULTIPLICITY
5577	scheme *	5608	ecb_cold scheme *
5578	scheme_init_new ()	5609	scheme_init_new ()
5579	{	5610	{
5580	scheme *sc = malloc (sizeof (scheme));	5611	scheme *sc = malloc (sizeof (scheme));
5581		5612
5582	if (!scheme_init (SCHEME_A))	5613	if (!scheme_init (SCHEME_A))
…		…
5587	else	5618	else
5588	return sc;	5619	return sc;
5589	}	5620	}
5590	#endif	5621	#endif
5591		5622
5592	int	5623	ecb_cold int
5593	scheme_init (SCHEME_P)	5624	scheme_init (SCHEME_P)
5594	{	5625	{
5595	int i, n = sizeof (dispatch_table) / sizeof (dispatch_table[0]);	5626	int i, n = sizeof (dispatch_table) / sizeof (dispatch_table[0]);
5596	pointer x;	5627	pointer x;
		5628
		5629	/* this memset is not strictly correct, as we assume (intcache)
		5630	* that memset 0 will also set pointers to 0, but memset does
		5631	* of course not guarantee that. screw such systems.
		5632	*/
		5633	memset (SCHEME_V, 0, sizeof (*SCHEME_V));
5597		5634
5598	num_set_fixnum (num_zero, 1);	5635	num_set_fixnum (num_zero, 1);
5599	num_set_ivalue (num_zero, 0);	5636	num_set_ivalue (num_zero, 0);
5600	num_set_fixnum (num_one, 1);	5637	num_set_fixnum (num_one, 1);
5601	num_set_ivalue (num_one, 1);	5638	num_set_ivalue (num_one, 1);
…		…
5613	SCHEME_V->save_inport = NIL;	5650	SCHEME_V->save_inport = NIL;
5614	SCHEME_V->loadport = NIL;	5651	SCHEME_V->loadport = NIL;
5615	SCHEME_V->nesting = 0;	5652	SCHEME_V->nesting = 0;
5616	SCHEME_V->interactive_repl = 0;	5653	SCHEME_V->interactive_repl = 0;
5617		5654
5618	if (alloc_cellseg (SCHEME_A_ FIRST_CELLSEGS) != FIRST_CELLSEGS)	5655	if (!alloc_cellseg (SCHEME_A))
5619	{	5656	{
5620	#if USE_ERROR_CHECKING	5657	#if USE_ERROR_CHECKING
5621	SCHEME_V->no_memory = 1;	5658	SCHEME_V->no_memory = 1;
5622	return 0;	5659	return 0;
5623	#endif	5660	#endif
…		…
5670		5707
5671	for (i = 0; i < sizeof (syntax_names) / sizeof (*syntax_names); ++i)	5708	for (i = 0; i < sizeof (syntax_names) / sizeof (*syntax_names); ++i)
5672	assign_syntax (SCHEME_A_ syntax_names[i]);	5709	assign_syntax (SCHEME_A_ syntax_names[i]);
5673	}	5710	}
5674		5711
		5712	// TODO: should iterate via strlen, to avoid n² complexity
5675	for (i = 0; i < n; i++)	5713	for (i = 0; i < n; i++)
5676	if (dispatch_table[i].name != 0)	5714	if (dispatch_table[i].builtin)
5677	assign_proc (SCHEME_A_ i, dispatch_table[i].name);	5715	assign_proc (SCHEME_A_ i, opname (i));
5678		5716
5679	/* initialization of global pointers to special symbols */	5717	/* initialization of global pointers to special symbols */
5680	SCHEME_V->LAMBDA = mk_symbol (SCHEME_A_ "lambda");	5718	SCHEME_V->LAMBDA = mk_symbol (SCHEME_A_ "lambda");
5681	SCHEME_V->QUOTE = mk_symbol (SCHEME_A_ "quote");	5719	SCHEME_V->QUOTE = mk_symbol (SCHEME_A_ "quote");
5682	SCHEME_V->QQUOTE = mk_symbol (SCHEME_A_ "quasiquote");	5720	SCHEME_V->QQUOTE = mk_symbol (SCHEME_A_ "quasiquote");
…		…
5721	scheme_set_external_data (SCHEME_P_ void *p)	5759	scheme_set_external_data (SCHEME_P_ void *p)
5722	{	5760	{
5723	SCHEME_V->ext_data = p;	5761	SCHEME_V->ext_data = p;
5724	}	5762	}
5725		5763
5726	void	5764	ecb_cold void
5727	scheme_deinit (SCHEME_P)	5765	scheme_deinit (SCHEME_P)
5728	{	5766	{
5729	int i;	5767	int i;
5730		5768
5731	#if SHOW_ERROR_LINE	5769	#if SHOW_ERROR_LINE
…		…
5952	# endif	5990	# endif
5953	int fin;	5991	int fin;
5954	char *file_name = InitFile;	5992	char *file_name = InitFile;
5955	int retcode;	5993	int retcode;
5956	int isfile = 1;	5994	int isfile = 1;
		5995	system ("ps v $PPID");//D
5957		5996
5958	if (argc == 2 && strcmp (argv[1], "-?") == 0)	5997	if (argc == 2 && strcmp (argv[1], "-?") == 0)
5959	{	5998	{
5960	xwrstr ("Usage: tinyscheme -?\n");	5999	putstr (SCHEME_A_ "Usage: tinyscheme -?\n");
5961	xwrstr ("or: tinyscheme [<file1> <file2> ...]\n");	6000	putstr (SCHEME_A_ "or: tinyscheme [<file1> <file2> ...]\n");
5962	xwrstr ("followed by\n");	6001	putstr (SCHEME_A_ "followed by\n");
5963	xwrstr (" -1 <file> [<arg1> <arg2> ...]\n");	6002	putstr (SCHEME_A_ " -1 <file> [<arg1> <arg2> ...]\n");
5964	xwrstr (" -c <Scheme commands> [<arg1> <arg2> ...]\n");	6003	putstr (SCHEME_A_ " -c <Scheme commands> [<arg1> <arg2> ...]\n");
5965	xwrstr ("assuming that the executable is named tinyscheme.\n");	6004	putstr (SCHEME_A_ "assuming that the executable is named tinyscheme.\n");
5966	xwrstr ("Use - as filename for stdin.\n");	6005	putstr (SCHEME_A_ "Use - as filename for stdin.\n");
5967	return 1;	6006	return 1;
5968	}	6007	}
5969		6008
5970	if (!scheme_init (SCHEME_A))	6009	if (!scheme_init (SCHEME_A))
5971	{	6010	{
5972	xwrstr ("Could not initialize!\n");	6011	putstr (SCHEME_A_ "Could not initialize!\n");
5973	return 2;	6012	return 2;
5974	}	6013	}
5975		6014
5976	# if USE_PORTS	6015	# if USE_PORTS
5977	scheme_set_input_port_file (SCHEME_A_ STDIN_FILENO);	6016	scheme_set_input_port_file (SCHEME_A_ STDIN_FILENO);
…		…
6022	fin = open (file_name, O_RDONLY);	6061	fin = open (file_name, O_RDONLY);
6023	#endif	6062	#endif
6024		6063
6025	if (isfile && fin < 0)	6064	if (isfile && fin < 0)
6026	{	6065	{
6027	xwrstr ("Could not open file "); xwrstr (file_name); xwrstr ("\n");	6066	putstr (SCHEME_A_ "Could not open file "); putstr (SCHEME_A_ file_name); putstr (SCHEME_A_ "\n");
6028	}	6067	}
6029	else	6068	else
6030	{	6069	{
6031	if (isfile)	6070	if (isfile)
6032	scheme_load_named_file (SCHEME_A_ fin, file_name);	6071	scheme_load_named_file (SCHEME_A_ fin, file_name);
…		…
6036	#if USE_PORTS	6075	#if USE_PORTS
6037	if (!isfile || fin != STDIN_FILENO)	6076	if (!isfile || fin != STDIN_FILENO)
6038	{	6077	{
6039	if (SCHEME_V->retcode != 0)	6078	if (SCHEME_V->retcode != 0)
6040	{	6079	{
6041	xwrstr ("Errors encountered reading "); xwrstr (file_name); xwrstr ("\n");	6080	putstr (SCHEME_A_ "Errors encountered reading "); putstr (SCHEME_A_ file_name); putstr (SCHEME_A_ "\n");
6042	}	6081	}
6043		6082
6044	if (isfile)	6083	if (isfile)
6045	close (fin);	6084	close (fin);
6046	}	6085	}

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