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helper/jim: review scope of symbols
[openocd.git] / src / helper / jim.c
blob91f1ea5db2c8709a82fbb7317ed572784224ba38
1 /* Jim - A small embeddable Tcl interpreter
2 *
3 * Copyright 2005 Salvatore Sanfilippo <antirez@invece.org>
4 * Copyright 2005 Clemens Hintze <c.hintze@gmx.net>
5 * Copyright 2005 patthoyts - Pat Thoyts <patthoyts@users.sf.net>
6 * Copyright 2008,2009 oharboe - Øyvind Harboe - oyvind.harboe@zylin.com
7 * Copyright 2008 Andrew Lunn <andrew@lunn.ch>
8 * Copyright 2008 Duane Ellis <openocd@duaneellis.com>
9 * Copyright 2008 Uwe Klein <uklein@klein-messgeraete.de>
10 * Copyright 2008 Steve Bennett <steveb@workware.net.au>
11 * Copyright 2009 Nico Coesel <ncoesel@dealogic.nl>
12 * Copyright 2009 Zachary T Welch zw@superlucidity.net
13 * Copyright 2009 David Brownell
14 *
15 * The FreeBSD license
16 *
17 * Redistribution and use in source and binary forms, with or without
18 * modification, are permitted provided that the following conditions
19 * are met:
20 *
21 * 1. Redistributions of source code must retain the above copyright
22 * notice, this list of conditions and the following disclaimer.
23 * 2. Redistributions in binary form must reproduce the above
24 * copyright notice, this list of conditions and the following
25 * disclaimer in the documentation and/or other materials
26 * provided with the distribution.
27 *
28 * THIS SOFTWARE IS PROVIDED BY THE JIM TCL PROJECT ``AS IS'' AND ANY
29 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
30 * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
31 * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
32 * JIM TCL PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
33 * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
34 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
35 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
36 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
37 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
38 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
39 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
40 *
41 * The views and conclusions contained in the software and documentation
42 * are those of the authors and should not be interpreted as representing
43 * official policies, either expressed or implied, of the Jim Tcl Project.
44 **/
45 #ifdef HAVE_CONFIG_H
46 #include "config.h"
47 #endif
48
49 #define __JIM_CORE__
50 #define JIM_OPTIMIZATION /* comment to avoid optimizations and reduce size */
51
52 #ifdef __ECOS
53 #include <pkgconf/jimtcl.h>
54 #include <stdio.h>
55 #include <stdlib.h>
56
57 typedef CYG_ADDRWORD intptr_t;
58
59 #include <string.h>
60 #include <stdarg.h>
61 #include <ctype.h>
62 #include <limits.h>
63 #include <assert.h>
64 #include <errno.h>
65 #include <time.h>
66 #endif
67 #ifndef JIM_ANSIC
68 #define JIM_DYNLIB /* Dynamic library support for UNIX and WIN32 */
69 #endif /* JIM_ANSIC */
70
71 #include <stdarg.h>
72 #include <limits.h>
73
74 /* Include the platform dependent libraries for
75 * dynamic loading of libraries. */
76 #ifdef JIM_DYNLIB
77 #if defined(_WIN32) || defined(WIN32)
78 #ifndef WIN32
79 #define WIN32 1
80 #endif
81 #ifndef STRICT
82 #define STRICT
83 #endif
84 #define WIN32_LEAN_AND_MEAN
85 #include <windows.h>
86 #if _MSC_VER >= 1000
87 #pragma warning(disable:4146)
88 #endif /* _MSC_VER */
89 #else
90 #include <dlfcn.h>
91 #endif /* WIN32 */
92 #endif /* JIM_DYNLIB */
93
94 #ifdef __ECOS
95 #include <cyg/jimtcl/jim.h>
96 #else
97 #include "jim.h"
98 #endif
99
100 #ifdef HAVE_BACKTRACE
101 #include <execinfo.h>
102 #endif
103
104 /* -----------------------------------------------------------------------------
105 * Global variables
106 * ---------------------------------------------------------------------------*/
107
108 /* A shared empty string for the objects string representation.
109 * Jim_InvalidateStringRep knows about it and don't try to free. */
110 static char *JimEmptyStringRep = (char*) "";
111
112 /* -----------------------------------------------------------------------------
113 * Required prototypes of not exported functions
114 * ---------------------------------------------------------------------------*/
115 static void JimChangeCallFrameId(Jim_Interp *interp, Jim_CallFrame *cf);
116 static void JimFreeCallFrame(Jim_Interp *interp, Jim_CallFrame *cf, int flags);
117 static void JimRegisterCoreApi(Jim_Interp *interp);
118
119 static Jim_HashTableType *getJimVariablesHashTableType(void);
120
121 /* -----------------------------------------------------------------------------
122 * Utility functions
123 * ---------------------------------------------------------------------------*/
124
125 static char *
126 jim_vasprintf(const char *fmt, va_list ap)
127 {
128 #ifndef HAVE_VASPRINTF
129 /* yucky way */
130 static char buf[2048];
131 vsnprintf(buf, sizeof(buf), fmt, ap);
132 /* garentee termination */
133 buf[sizeof(buf)-1] = 0;
134 #else
135 char *buf;
136 int result;
137 result = vasprintf(&buf, fmt, ap);
138 if (result < 0) exit(-1);
139 #endif
140 return buf;
141 }
142
143 static void
144 jim_vasprintf_done(void *buf)
145 {
146 #ifndef HAVE_VASPRINTF
147 (void)(buf);
148 #else
149 free(buf);
150 #endif
151 }
152
153
154 /*
155 * Convert a string to a jim_wide INTEGER.
156 * This function originates from BSD.
157 *
158 * Ignores `locale' stuff. Assumes that the upper and lower case
159 * alphabets and digits are each contiguous.
160 */
161 #ifdef HAVE_LONG_LONG_INT
162 #define JimIsAscii(c) (((c) & ~0x7f) == 0)
163 static jim_wide JimStrtoll(const char *nptr, char **endptr, register int base)
164 {
165 register const char *s;
166 register unsigned jim_wide acc;
167 register unsigned char c;
168 register unsigned jim_wide qbase, cutoff;
169 register int neg, any, cutlim;
170
171 /*
172 * Skip white space and pick up leading +/- sign if any.
173 * If base is 0, allow 0x for hex and 0 for octal, else
174 * assume decimal; if base is already 16, allow 0x.
175 */
176 s = nptr;
177 do {
178 c = *s++;
179 } while (isspace(c));
180 if (c == '-') {
181 neg = 1;
182 c = *s++;
183 } else {
184 neg = 0;
185 if (c == '+')
186 c = *s++;
187 }
188 if ((base == 0 || base == 16) &&
189 c == '0' && (*s == 'x' || *s == 'X')) {
190 c = s[1];
191 s += 2;
192 base = 16;
193 }
194 if (base == 0)
195 base = c == '0' ? 8 : 10;
196
197 /*
198 * Compute the cutoff value between legal numbers and illegal
199 * numbers. That is the largest legal value, divided by the
200 * base. An input number that is greater than this value, if
201 * followed by a legal input character, is too big. One that
202 * is equal to this value may be valid or not; the limit
203 * between valid and invalid numbers is then based on the last
204 * digit. For instance, if the range for quads is
205 * [-9223372036854775808..9223372036854775807] and the input base
206 * is 10, cutoff will be set to 922337203685477580 and cutlim to
207 * either 7 (neg == 0) or 8 (neg == 1), meaning that if we have
208 * accumulated a value > 922337203685477580, or equal but the
209 * next digit is > 7 (or 8), the number is too big, and we will
210 * return a range error.
211 *
212 * Set any if any `digits' consumed; make it negative to indicate
213 * overflow.
214 */
215 qbase = (unsigned)base;
216 cutoff = neg ? (unsigned jim_wide)-(LLONG_MIN + LLONG_MAX) + LLONG_MAX
217 : LLONG_MAX;
218 cutlim = (int)(cutoff % qbase);
219 cutoff /= qbase;
220 for (acc = 0, any = 0;; c = *s++) {
221 if (!JimIsAscii(c))
222 break;
223 if (isdigit(c))
224 c -= '0';
225 else if (isalpha(c))
226 c -= isupper(c) ? 'A' - 10 : 'a' - 10;
227 else
228 break;
229 if (c >= base)
230 break;
231 if (any < 0 || acc > cutoff || (acc == cutoff && c > cutlim))
232 any = -1;
233 else {
234 any = 1;
235 acc *= qbase;
236 acc += c;
237 }
238 }
239 if (any < 0) {
240 acc = neg ? LLONG_MIN : LLONG_MAX;
241 errno = ERANGE;
242 } else if (neg)
243 acc = -acc;
244 if (endptr != 0)
245 *endptr = (char *)(any ? s - 1 : nptr);
246 return (acc);
247 }
248 #endif
249
250 /* Glob-style pattern matching. */
251 static int JimStringMatch(const char *pattern, int patternLen,
252 const char *string, int stringLen, int nocase)
253 {
254 while (patternLen) {
255 switch (pattern[0]) {
256 case '*':
257 while (pattern[1] == '*') {
258 pattern++;
259 patternLen--;
260 }
261 if (patternLen == 1)
262 return 1; /* match */
263 while (stringLen) {
264 if (JimStringMatch(pattern + 1, patternLen-1,
265 string, stringLen, nocase))
266 return 1; /* match */
267 string++;
268 stringLen--;
269 }
270 return 0; /* no match */
271 break;
272 case '?':
273 if (stringLen == 0)
274 return 0; /* no match */
275 string++;
276 stringLen--;
277 break;
278 case '[':
279 {
280 int not, match;
281
282 pattern++;
283 patternLen--;
284 not = pattern[0] == '^';
285 if (not) {
286 pattern++;
287 patternLen--;
288 }
289 match = 0;
290 while (1) {
291 if (pattern[0] == '\\') {
292 pattern++;
293 patternLen--;
294 if (pattern[0] == string[0])
295 match = 1;
296 } else if (pattern[0] == ']') {
297 break;
298 } else if (patternLen == 0) {
299 pattern--;
300 patternLen++;
301 break;
302 } else if (pattern[1] == '-' && patternLen >= 3) {
303 int start = pattern[0];
304 int end = pattern[2];
305 int c = string[0];
306 if (start > end) {
307 int t = start;
308 start = end;
309 end = t;
310 }
311 if (nocase) {
312 start = tolower(start);
313 end = tolower(end);
314 c = tolower(c);
315 }
316 pattern += 2;
317 patternLen -= 2;
318 if (c >= start && c <= end)
319 match = 1;
320 } else {
321 if (!nocase) {
322 if (pattern[0] == string[0])
323 match = 1;
324 } else {
325 if (tolower((int)pattern[0]) == tolower((int)string[0]))
326 match = 1;
327 }
328 }
329 pattern++;
330 patternLen--;
331 }
332 if (not)
333 match = !match;
334 if (!match)
335 return 0; /* no match */
336 string++;
337 stringLen--;
338 break;
339 }
340 case '\\':
341 if (patternLen >= 2) {
342 pattern++;
343 patternLen--;
344 }
345 /* fall through */
346 default:
347 if (!nocase) {
348 if (pattern[0] != string[0])
349 return 0; /* no match */
350 } else {
351 if (tolower((int)pattern[0]) != tolower((int)string[0]))
352 return 0; /* no match */
353 }
354 string++;
355 stringLen--;
356 break;
357 }
358 pattern++;
359 patternLen--;
360 if (stringLen == 0) {
361 while (*pattern == '*') {
362 pattern++;
363 patternLen--;
364 }
365 break;
366 }
367 }
368 if (patternLen == 0 && stringLen == 0)
369 return 1;
370 return 0;
371 }
372
373 static int JimStringCompare(const char *s1, int l1, const char *s2, int l2,
374 int nocase)
375 {
376 unsigned char *u1 = (unsigned char*) s1, *u2 = (unsigned char*) s2;
377
378 if (nocase == 0) {
379 while (l1 && l2) {
380 if (*u1 != *u2)
381 return (int)*u1-*u2;
382 u1++; u2++; l1--; l2--;
383 }
384 if (!l1 && !l2) return 0;
385 return l1-l2;
386 } else {
387 while (l1 && l2) {
388 if (tolower((int)*u1) != tolower((int)*u2))
389 return tolower((int)*u1)-tolower((int)*u2);
390 u1++; u2++; l1--; l2--;
391 }
392 if (!l1 && !l2) return 0;
393 return l1-l2;
394 }
395 }
396
397 /* Search 's1' inside 's2', starting to search from char 'index' of 's2'.
398 * The index of the first occurrence of s1 in s2 is returned.
399 * If s1 is not found inside s2, -1 is returned. */
400 static int JimStringFirst(const char *s1, int l1, const char *s2, int l2, int index_t)
401 {
402 int i;
403
404 if (!l1 || !l2 || l1 > l2) return -1;
405 if (index_t < 0) index_t = 0;
406 s2 += index_t;
407 for (i = index_t; i <= l2-l1; i++) {
408 if (memcmp(s2, s1, l1) == 0)
409 return i;
410 s2++;
411 }
412 return -1;
413 }
414
415 static int Jim_WideToString(char *buf, jim_wide wideValue)
416 {
417 const char *fmt = "%" JIM_WIDE_MODIFIER;
418 return sprintf(buf, fmt, wideValue);
419 }
420
421 static int Jim_StringToWide(const char *str, jim_wide *widePtr, int base)
422 {
423 char *endptr;
424
425 #ifdef HAVE_LONG_LONG_INT
426 *widePtr = JimStrtoll(str, &endptr, base);
427 #else
428 *widePtr = strtol(str, &endptr, base);
429 #endif
430 if ((str[0] == '\0') || (str == endptr))
431 return JIM_ERR;
432 if (endptr[0] != '\0') {
433 while (*endptr) {
434 if (!isspace((int)*endptr))
435 return JIM_ERR;
436 endptr++;
437 }
438 }
439 return JIM_OK;
440 }
441
442 static int Jim_StringToIndex(const char *str, int *intPtr)
443 {
444 char *endptr;
445
446 *intPtr = strtol(str, &endptr, 10);
447 if ((str[0] == '\0') || (str == endptr))
448 return JIM_ERR;
449 if (endptr[0] != '\0') {
450 while (*endptr) {
451 if (!isspace((int)*endptr))
452 return JIM_ERR;
453 endptr++;
454 }
455 }
456 return JIM_OK;
457 }
458
459 /* The string representation of references has two features in order
460 * to make the GC faster. The first is that every reference starts
461 * with a non common character '~', in order to make the string matching
462 * fater. The second is that the reference string rep his 32 characters
463 * in length, this allows to avoid to check every object with a string
464 * repr < 32, and usually there are many of this objects. */
465
466 #define JIM_REFERENCE_SPACE (35 + JIM_REFERENCE_TAGLEN)
467
468 static int JimFormatReference(char *buf, Jim_Reference *refPtr, jim_wide id)
469 {
470 const char *fmt = "<reference.<%s>.%020" JIM_WIDE_MODIFIER ">";
471 sprintf(buf, fmt, refPtr->tag, id);
472 return JIM_REFERENCE_SPACE;
473 }
474
475 static int Jim_DoubleToString(char *buf, double doubleValue)
476 {
477 char *s;
478 int len;
479
480 len = sprintf(buf, "%.17g", doubleValue);
481 s = buf;
482 while (*s) {
483 if (*s == '.') return len;
484 s++;
485 }
486 /* Add a final ".0" if it's a number. But not
487 * for NaN or InF */
488 if (isdigit((int)buf[0])
489 || ((buf[0] == '-' || buf[0] == '+')
490 && isdigit((int)buf[1]))) {
491 s[0] = '.';
492 s[1] = '0';
493 s[2] = '\0';
494 return len + 2;
495 }
496 return len;
497 }
498
499 static int Jim_StringToDouble(const char *str, double *doublePtr)
500 {
501 char *endptr;
502
503 *doublePtr = strtod(str, &endptr);
504 if (str[0] == '\0' || endptr[0] != '\0' || (str == endptr))
505 return JIM_ERR;
506 return JIM_OK;
507 }
508
509 static jim_wide JimPowWide(jim_wide b, jim_wide e)
510 {
511 jim_wide i, res = 1;
512 if ((b == 0 && e != 0) || (e < 0)) return 0;
513 for (i = 0; i < e; i++) {res *= b;}
514 return res;
515 }
516
517 /* -----------------------------------------------------------------------------
518 * Special functions
519 * ---------------------------------------------------------------------------*/
520
521 /* Note that 'interp' may be NULL if not available in the
522 * context of the panic. It's only useful to get the error
523 * file descriptor, it will default to stderr otherwise. */
524 void Jim_Panic(Jim_Interp *interp, const char *fmt, ...)
525 {
526 va_list ap;
527
528 va_start(ap, fmt);
529 /*
530 * Send it here first.. Assuming STDIO still works
531 */
532 fprintf(stderr, JIM_NL "JIM INTERPRETER PANIC: ");
533 vfprintf(stderr, fmt, ap);
534 fprintf(stderr, JIM_NL JIM_NL);
535 va_end(ap);
536
537 #ifdef HAVE_BACKTRACE
538 {
539 void *array[40];
540 int size, i;
541 char **strings;
542
543 size = backtrace(array, 40);
544 strings = backtrace_symbols(array, size);
545 for (i = 0; i < size; i++)
546 fprintf(fp,"[backtrace] %s" JIM_NL, strings[i]);
547 fprintf(fp,"[backtrace] Include the above lines and the output" JIM_NL);
548 fprintf(fp,"[backtrace] of 'nm <executable>' in the bug report." JIM_NL);
549 }
550 #endif
551
552 /* This may actually crash... we do it last */
553 if (interp && interp->cookie_stderr) {
554 Jim_fprintf(interp, interp->cookie_stderr, JIM_NL "JIM INTERPRETER PANIC: ");
555 Jim_vfprintf(interp, interp->cookie_stderr, fmt, ap);
556 Jim_fprintf(interp, interp->cookie_stderr, JIM_NL JIM_NL);
557 }
558 abort();
559 }
560
561 /* -----------------------------------------------------------------------------
562 * Memory allocation
563 * ---------------------------------------------------------------------------*/
564
565 /* Macro used for memory debugging.
566 * In order for they to work you have to rename Jim_Alloc into _Jim_Alloc
567 * and similary for Jim_Realloc and Jim_Free */
568 #if 0
569 #define Jim_Alloc(s) (printf("%s %d: Jim_Alloc(%d)\n",__FILE__,__LINE__,s),_Jim_Alloc(s))
570 #define Jim_Free(p) (printf("%s %d: Jim_Free(%p)\n",__FILE__,__LINE__,p),_Jim_Free(p))
571 #define Jim_Realloc(p,s) (printf("%s %d: Jim_Realloc(%p,%d)\n",__FILE__,__LINE__,p,s),_Jim_Realloc(p,s))
572 #endif
573
574 void *Jim_Alloc(int size)
575 {
576 /* We allocate zero length arrayes, etc. to use a single orthogonal codepath */
577 if (size == 0)
578 size = 1;
579 void *p = malloc(size);
580 if (p == NULL)
581 Jim_Panic(NULL,"malloc: Out of memory");
582 return p;
583 }
584
585 void Jim_Free(void *ptr) {
586 free(ptr);
587 }
588
589 static void *Jim_Realloc(void *ptr, int size)
590 {
591 /* We allocate zero length arrayes, etc. to use a single orthogonal codepath */
592 if (size == 0)
593 size = 1;
594 void *p = realloc(ptr, size);
595 if (p == NULL)
596 Jim_Panic(NULL,"realloc: Out of memory");
597 return p;
598 }
599
600 char *Jim_StrDup(const char *s)
601 {
602 int l = strlen(s);
603 char *copy = Jim_Alloc(l + 1);
604
605 memcpy(copy, s, l + 1);
606 return copy;
607 }
608
609 static char *Jim_StrDupLen(const char *s, int l)
610 {
611 char *copy = Jim_Alloc(l + 1);
612
613 memcpy(copy, s, l + 1);
614 copy[l] = 0; /* Just to be sure, original could be substring */
615 return copy;
616 }
617
618 /* -----------------------------------------------------------------------------
619 * Time related functions
620 * ---------------------------------------------------------------------------*/
621 /* Returns microseconds of CPU used since start. */
622 static jim_wide JimClock(void)
623 {
624 #if (defined WIN32) && !(defined JIM_ANSIC)
625 LARGE_INTEGER t, f;
626 QueryPerformanceFrequency(&f);
627 QueryPerformanceCounter(&t);
628 return (long)((t.QuadPart * 1000000) / f.QuadPart);
629 #else /* !WIN32 */
630 clock_t clocks = clock();
631
632 return (long)(clocks*(1000000/CLOCKS_PER_SEC));
633 #endif /* WIN32 */
634 }
635
636 /* -----------------------------------------------------------------------------
637 * Hash Tables
638 * ---------------------------------------------------------------------------*/
639
640 /* -------------------------- private prototypes ---------------------------- */
641 static int JimExpandHashTableIfNeeded(Jim_HashTable *ht);
642 static unsigned int JimHashTableNextPower(unsigned int size);
643 static int JimInsertHashEntry(Jim_HashTable *ht, const void *key);
644
645 /* -------------------------- hash functions -------------------------------- */
646
647 /* Thomas Wang's 32 bit Mix Function */
648 static unsigned int Jim_IntHashFunction(unsigned int key)
649 {
650 key += ~(key << 15);
651 key ^= (key >> 10);
652 key += (key << 3);
653 key ^= (key >> 6);
654 key += ~(key << 11);
655 key ^= (key >> 16);
656 return key;
657 }
658
659 /* Identity hash function for integer keys */
660 unsigned int Jim_IdentityHashFunction(unsigned int key)
661 {
662 return key;
663 }
664
665 /* Generic hash function (we are using to multiply by 9 and add the byte
666 * as Tcl) */
667 static unsigned int Jim_GenHashFunction(const unsigned char *buf, int len)
668 {
669 unsigned int h = 0;
670 while (len--)
671 h += (h << 3)+*buf++;
672 return h;
673 }
674
675 /* ----------------------------- API implementation ------------------------- */
676 /* reset an hashtable already initialized with ht_init().
677 * NOTE: This function should only called by ht_destroy(). */
678 static void JimResetHashTable(Jim_HashTable *ht)
679 {
680 ht->table = NULL;
681 ht->size = 0;
682 ht->sizemask = 0;
683 ht->used = 0;
684 ht->collisions = 0;
685 }
686
687 /* Initialize the hash table */
688 int Jim_InitHashTable(Jim_HashTable *ht, Jim_HashTableType *type,
689 void *privDataPtr)
690 {
691 JimResetHashTable(ht);
692 ht->type = type;
693 ht->privdata = privDataPtr;
694 return JIM_OK;
695 }
696
697 /* Resize the table to the minimal size that contains all the elements,
698 * but with the invariant of a USER/BUCKETS ration near to <= 1 */
699 int Jim_ResizeHashTable(Jim_HashTable *ht)
700 {
701 int minimal = ht->used;
702
703 if (minimal < JIM_HT_INITIAL_SIZE)
704 minimal = JIM_HT_INITIAL_SIZE;
705 return Jim_ExpandHashTable(ht, minimal);
706 }
707
708 /* Expand or create the hashtable */
709 int Jim_ExpandHashTable(Jim_HashTable *ht, unsigned int size)
710 {
711 Jim_HashTable n; /* the new hashtable */
712 unsigned int realsize = JimHashTableNextPower(size), i;
713
714 /* the size is invalid if it is smaller than the number of
715 * elements already inside the hashtable */
716 if (ht->used >= size)
717 return JIM_ERR;
718
719 Jim_InitHashTable(&n, ht->type, ht->privdata);
720 n.size = realsize;
721 n.sizemask = realsize-1;
722 n.table = Jim_Alloc(realsize*sizeof(Jim_HashEntry*));
723
724 /* Initialize all the pointers to NULL */
725 memset(n.table, 0, realsize*sizeof(Jim_HashEntry*));
726
727 /* Copy all the elements from the old to the new table:
728 * note that if the old hash table is empty ht->size is zero,
729 * so Jim_ExpandHashTable just creates an hash table. */
730 n.used = ht->used;
731 for (i = 0; i < ht->size && ht->used > 0; i++) {
732 Jim_HashEntry *he, *nextHe;
733
734 if (ht->table[i] == NULL) continue;
735
736 /* For each hash entry on this slot... */
737 he = ht->table[i];
738 while (he) {
739 unsigned int h;
740
741 nextHe = he->next;
742 /* Get the new element index */
743 h = Jim_HashKey(ht, he->key) & n.sizemask;
744 he->next = n.table[h];
745 n.table[h] = he;
746 ht->used--;
747 /* Pass to the next element */
748 he = nextHe;
749 }
750 }
751 assert(ht->used == 0);
752 Jim_Free(ht->table);
753
754 /* Remap the new hashtable in the old */
755 *ht = n;
756 return JIM_OK;
757 }
758
759 /* Add an element to the target hash table */
760 int Jim_AddHashEntry(Jim_HashTable *ht, const void *key, void *val)
761 {
762 int index_t;
763 Jim_HashEntry *entry;
764
765 /* Get the index of the new element, or -1 if
766 * the element already exists. */
767 if ((index_t = JimInsertHashEntry(ht, key)) == -1)
768 return JIM_ERR;
769
770 /* Allocates the memory and stores key */
771 entry = Jim_Alloc(sizeof(*entry));
772 entry->next = ht->table[index_t];
773 ht->table[index_t] = entry;
774
775 /* Set the hash entry fields. */
776 Jim_SetHashKey(ht, entry, key);
777 Jim_SetHashVal(ht, entry, val);
778 ht->used++;
779 return JIM_OK;
780 }
781
782 /* Add an element, discarding the old if the key already exists */
783 int Jim_ReplaceHashEntry(Jim_HashTable *ht, const void *key, void *val)
784 {
785 Jim_HashEntry *entry;
786
787 /* Try to add the element. If the key
788 * does not exists Jim_AddHashEntry will suceed. */
789 if (Jim_AddHashEntry(ht, key, val) == JIM_OK)
790 return JIM_OK;
791 /* It already exists, get the entry */
792 entry = Jim_FindHashEntry(ht, key);
793 /* Free the old value and set the new one */
794 Jim_FreeEntryVal(ht, entry);
795 Jim_SetHashVal(ht, entry, val);
796 return JIM_OK;
797 }
798
799 /* Search and remove an element */
800 int Jim_DeleteHashEntry(Jim_HashTable *ht, const void *key)
801 {
802 unsigned int h;
803 Jim_HashEntry *he, *prevHe;
804
805 if (ht->size == 0)
806 return JIM_ERR;
807 h = Jim_HashKey(ht, key) & ht->sizemask;
808 he = ht->table[h];
809
810 prevHe = NULL;
811 while (he) {
812 if (Jim_CompareHashKeys(ht, key, he->key)) {
813 /* Unlink the element from the list */
814 if (prevHe)
815 prevHe->next = he->next;
816 else
817 ht->table[h] = he->next;
818 Jim_FreeEntryKey(ht, he);
819 Jim_FreeEntryVal(ht, he);
820 Jim_Free(he);
821 ht->used--;
822 return JIM_OK;
823 }
824 prevHe = he;
825 he = he->next;
826 }
827 return JIM_ERR; /* not found */
828 }
829
830 /* Destroy an entire hash table */
831 int Jim_FreeHashTable(Jim_HashTable *ht)
832 {
833 unsigned int i;
834
835 /* Free all the elements */
836 for (i = 0; i < ht->size && ht->used > 0; i++) {
837 Jim_HashEntry *he, *nextHe;
838
839 if ((he = ht->table[i]) == NULL) continue;
840 while (he) {
841 nextHe = he->next;
842 Jim_FreeEntryKey(ht, he);
843 Jim_FreeEntryVal(ht, he);
844 Jim_Free(he);
845 ht->used--;
846 he = nextHe;
847 }
848 }
849 /* Free the table and the allocated cache structure */
850 Jim_Free(ht->table);
851 /* Re-initialize the table */
852 JimResetHashTable(ht);
853 return JIM_OK; /* never fails */
854 }
855
856 Jim_HashEntry *Jim_FindHashEntry(Jim_HashTable *ht, const void *key)
857 {
858 Jim_HashEntry *he;
859 unsigned int h;
860
861 if (ht->size == 0) return NULL;
862 h = Jim_HashKey(ht, key) & ht->sizemask;
863 he = ht->table[h];
864 while (he) {
865 if (Jim_CompareHashKeys(ht, key, he->key))
866 return he;
867 he = he->next;
868 }
869 return NULL;
870 }
871
872 Jim_HashTableIterator *Jim_GetHashTableIterator(Jim_HashTable *ht)
873 {
874 Jim_HashTableIterator *iter = Jim_Alloc(sizeof(*iter));
875
876 iter->ht = ht;
877 iter->index = -1;
878 iter->entry = NULL;
879 iter->nextEntry = NULL;
880 return iter;
881 }
882
883 Jim_HashEntry *Jim_NextHashEntry(Jim_HashTableIterator *iter)
884 {
885 while (1) {
886 if (iter->entry == NULL) {
887 iter->index++;
888 if (iter->index >=
889 (signed)iter->ht->size) break;
890 iter->entry = iter->ht->table[iter->index];
891 } else {
892 iter->entry = iter->nextEntry;
893 }
894 if (iter->entry) {
895 /* We need to save the 'next' here, the iterator user
896 * may delete the entry we are returning. */
897 iter->nextEntry = iter->entry->next;
898 return iter->entry;
899 }
900 }
901 return NULL;
902 }
903
904 /* ------------------------- private functions ------------------------------ */
905
906 /* Expand the hash table if needed */
907 static int JimExpandHashTableIfNeeded(Jim_HashTable *ht)
908 {
909 /* If the hash table is empty expand it to the intial size,
910 * if the table is "full" dobule its size. */
911 if (ht->size == 0)
912 return Jim_ExpandHashTable(ht, JIM_HT_INITIAL_SIZE);
913 if (ht->size == ht->used)
914 return Jim_ExpandHashTable(ht, ht->size*2);
915 return JIM_OK;
916 }
917
918 /* Our hash table capability is a power of two */
919 static unsigned int JimHashTableNextPower(unsigned int size)
920 {
921 unsigned int i = JIM_HT_INITIAL_SIZE;
922
923 if (size >= 2147483648U)
924 return 2147483648U;
925 while (1) {
926 if (i >= size)
927 return i;
928 i *= 2;
929 }
930 }
931
932 /* Returns the index of a free slot that can be populated with
933 * an hash entry for the given 'key'.
934 * If the key already exists, -1 is returned. */
935 static int JimInsertHashEntry(Jim_HashTable *ht, const void *key)
936 {
937 unsigned int h;
938 Jim_HashEntry *he;
939
940 /* Expand the hashtable if needed */
941 if (JimExpandHashTableIfNeeded(ht) == JIM_ERR)
942 return -1;
943 /* Compute the key hash value */
944 h = Jim_HashKey(ht, key) & ht->sizemask;
945 /* Search if this slot does not already contain the given key */
946 he = ht->table[h];
947 while (he) {
948 if (Jim_CompareHashKeys(ht, key, he->key))
949 return -1;
950 he = he->next;
951 }
952 return h;
953 }
954
955 /* ----------------------- StringCopy Hash Table Type ------------------------*/
956
957 static unsigned int JimStringCopyHTHashFunction(const void *key)
958 {
959 return Jim_GenHashFunction(key, strlen(key));
960 }
961
962 static const void *JimStringCopyHTKeyDup(void *privdata, const void *key)
963 {
964 int len = strlen(key);
965 char *copy = Jim_Alloc(len + 1);
966 JIM_NOTUSED(privdata);
967
968 memcpy(copy, key, len);
969 copy[len] = '\0';
970 return copy;
971 }
972
973 static void *JimStringKeyValCopyHTValDup(void *privdata, const void *val)
974 {
975 int len = strlen(val);
976 char *copy = Jim_Alloc(len + 1);
977 JIM_NOTUSED(privdata);
978
979 memcpy(copy, val, len);
980 copy[len] = '\0';
981 return copy;
982 }
983
984 static int JimStringCopyHTKeyCompare(void *privdata, const void *key1,
985 const void *key2)
986 {
987 JIM_NOTUSED(privdata);
988
989 return strcmp(key1, key2) == 0;
990 }
991
992 static void JimStringCopyHTKeyDestructor(void *privdata, const void *key)
993 {
994 JIM_NOTUSED(privdata);
995
996 Jim_Free((void*)key); /* ATTENTION: const cast */
997 }
998
999 static void JimStringKeyValCopyHTValDestructor(void *privdata, void *val)
1000 {
1001 JIM_NOTUSED(privdata);
1002
1003 Jim_Free((void*)val); /* ATTENTION: const cast */
1004 }
1005
1006 static Jim_HashTableType JimStringCopyHashTableType = {
1007 JimStringCopyHTHashFunction, /* hash function */
1008 JimStringCopyHTKeyDup, /* key dup */
1009 NULL, /* val dup */
1010 JimStringCopyHTKeyCompare, /* key compare */
1011 JimStringCopyHTKeyDestructor, /* key destructor */
1012 NULL /* val destructor */
1013 };
1014
1015 /* This is like StringCopy but does not auto-duplicate the key.
1016 * It's used for intepreter's shared strings. */
1017 static Jim_HashTableType JimSharedStringsHashTableType = {
1018 JimStringCopyHTHashFunction, /* hash function */
1019 NULL, /* key dup */
1020 NULL, /* val dup */
1021 JimStringCopyHTKeyCompare, /* key compare */
1022 JimStringCopyHTKeyDestructor, /* key destructor */
1023 NULL /* val destructor */
1024 };
1025
1026 /* This is like StringCopy but also automatically handle dynamic
1027 * allocated C strings as values. */
1028 static Jim_HashTableType JimStringKeyValCopyHashTableType = {
1029 JimStringCopyHTHashFunction, /* hash function */
1030 JimStringCopyHTKeyDup, /* key dup */
1031 JimStringKeyValCopyHTValDup, /* val dup */
1032 JimStringCopyHTKeyCompare, /* key compare */
1033 JimStringCopyHTKeyDestructor, /* key destructor */
1034 JimStringKeyValCopyHTValDestructor, /* val destructor */
1035 };
1036
1037 typedef struct AssocDataValue {
1038 Jim_InterpDeleteProc *delProc;
1039 void *data;
1040 } AssocDataValue;
1041
1042 static void JimAssocDataHashTableValueDestructor(void *privdata, void *data)
1043 {
1044 AssocDataValue *assocPtr = (AssocDataValue *)data;
1045 if (assocPtr->delProc != NULL)
1046 assocPtr->delProc((Jim_Interp *)privdata, assocPtr->data);
1047 Jim_Free(data);
1048 }
1049
1050 static Jim_HashTableType JimAssocDataHashTableType = {
1051 JimStringCopyHTHashFunction, /* hash function */
1052 JimStringCopyHTKeyDup, /* key dup */
1053 NULL, /* val dup */
1054 JimStringCopyHTKeyCompare, /* key compare */
1055 JimStringCopyHTKeyDestructor, /* key destructor */
1056 JimAssocDataHashTableValueDestructor /* val destructor */
1057 };
1058
1059 /* -----------------------------------------------------------------------------
1060 * Stack - This is a simple generic stack implementation. It is used for
1061 * example in the 'expr' expression compiler.
1062 * ---------------------------------------------------------------------------*/
1063 void Jim_InitStack(Jim_Stack *stack)
1064 {
1065 stack->len = 0;
1066 stack->maxlen = 0;
1067 stack->vector = NULL;
1068 }
1069
1070 void Jim_FreeStack(Jim_Stack *stack)
1071 {
1072 Jim_Free(stack->vector);
1073 }
1074
1075 int Jim_StackLen(Jim_Stack *stack)
1076 {
1077 return stack->len;
1078 }
1079
1080 void Jim_StackPush(Jim_Stack *stack, void *element) {
1081 int neededLen = stack->len + 1;
1082 if (neededLen > stack->maxlen) {
1083 stack->maxlen = neededLen*2;
1084 stack->vector = Jim_Realloc(stack->vector, sizeof(void*)*stack->maxlen);
1085 }
1086 stack->vector[stack->len] = element;
1087 stack->len++;
1088 }
1089
1090 void *Jim_StackPop(Jim_Stack *stack)
1091 {
1092 if (stack->len == 0) return NULL;
1093 stack->len--;
1094 return stack->vector[stack->len];
1095 }
1096
1097 void *Jim_StackPeek(Jim_Stack *stack)
1098 {
1099 if (stack->len == 0) return NULL;
1100 return stack->vector[stack->len-1];
1101 }
1102
1103 void Jim_FreeStackElements(Jim_Stack *stack, void (*freeFunc)(void *ptr))
1104 {
1105 int i;
1106
1107 for (i = 0; i < stack->len; i++)
1108 freeFunc(stack->vector[i]);
1109 }
1110
1111 /* -----------------------------------------------------------------------------
1112 * Parser
1113 * ---------------------------------------------------------------------------*/
1114
1115 /* Token types */
1116 #define JIM_TT_NONE -1 /* No token returned */
1117 #define JIM_TT_STR 0 /* simple string */
1118 #define JIM_TT_ESC 1 /* string that needs escape chars conversion */
1119 #define JIM_TT_VAR 2 /* var substitution */
1120 #define JIM_TT_DICTSUGAR 3 /* Syntax sugar for [dict get], $foo(bar) */
1121 #define JIM_TT_CMD 4 /* command substitution */
1122 #define JIM_TT_SEP 5 /* word separator */
1123 #define JIM_TT_EOL 6 /* line separator */
1124
1125 /* Additional token types needed for expressions */
1126 #define JIM_TT_SUBEXPR_START 7
1127 #define JIM_TT_SUBEXPR_END 8
1128 #define JIM_TT_EXPR_NUMBER 9
1129 #define JIM_TT_EXPR_OPERATOR 10
1130
1131 /* Parser states */
1132 #define JIM_PS_DEF 0 /* Default state */
1133 #define JIM_PS_QUOTE 1 /* Inside "" */
1134
1135 /* Parser context structure. The same context is used both to parse
1136 * Tcl scripts and lists. */
1137 struct JimParserCtx {
1138 const char *prg; /* Program text */
1139 const char *p; /* Pointer to the point of the program we are parsing */
1140 int len; /* Left length of 'prg' */
1141 int linenr; /* Current line number */
1142 const char *tstart;
1143 const char *tend; /* Returned token is at tstart-tend in 'prg'. */
1144 int tline; /* Line number of the returned token */
1145 int tt; /* Token type */
1146 int eof; /* Non zero if EOF condition is true. */
1147 int state; /* Parser state */
1148 int comment; /* Non zero if the next chars may be a comment. */
1149 };
1150
1151 #define JimParserEof(c) ((c)->eof)
1152 #define JimParserTstart(c) ((c)->tstart)
1153 #define JimParserTend(c) ((c)->tend)
1154 #define JimParserTtype(c) ((c)->tt)
1155 #define JimParserTline(c) ((c)->tline)
1156
1157 static int JimParseScript(struct JimParserCtx *pc);
1158 static int JimParseSep(struct JimParserCtx *pc);
1159 static int JimParseEol(struct JimParserCtx *pc);
1160 static int JimParseCmd(struct JimParserCtx *pc);
1161 static int JimParseVar(struct JimParserCtx *pc);
1162 static int JimParseBrace(struct JimParserCtx *pc);
1163 static int JimParseStr(struct JimParserCtx *pc);
1164 static int JimParseComment(struct JimParserCtx *pc);
1165 static char *JimParserGetToken(struct JimParserCtx *pc,
1166 int *lenPtr, int *typePtr, int *linePtr);
1167
1168 /* Initialize a parser context.
1169 * 'prg' is a pointer to the program text, linenr is the line
1170 * number of the first line contained in the program. */
1171 static void JimParserInit(struct JimParserCtx *pc, const char *prg,
1172 int len, int linenr)
1173 {
1174 pc->prg = prg;
1175 pc->p = prg;
1176 pc->len = len;
1177 pc->tstart = NULL;
1178 pc->tend = NULL;
1179 pc->tline = 0;
1180 pc->tt = JIM_TT_NONE;
1181 pc->eof = 0;
1182 pc->state = JIM_PS_DEF;
1183 pc->linenr = linenr;
1184 pc->comment = 1;
1185 }
1186
1187 int JimParseScript(struct JimParserCtx *pc)
1188 {
1189 while (1) { /* the while is used to reiterate with continue if needed */
1190 if (!pc->len) {
1191 pc->tstart = pc->p;
1192 pc->tend = pc->p-1;
1193 pc->tline = pc->linenr;
1194 pc->tt = JIM_TT_EOL;
1195 pc->eof = 1;
1196 return JIM_OK;
1197 }
1198 switch (*(pc->p)) {
1199 case '\\':
1200 if (*(pc->p + 1) == '\n')
1201 return JimParseSep(pc);
1202 else {
1203 pc->comment = 0;
1204 return JimParseStr(pc);
1205 }
1206 break;
1207 case ' ':
1208 case '\t':
1209 case '\r':
1210 if (pc->state == JIM_PS_DEF)
1211 return JimParseSep(pc);
1212 else {
1213 pc->comment = 0;
1214 return JimParseStr(pc);
1215 }
1216 break;
1217 case '\n':
1218 case ';':
1219 pc->comment = 1;
1220 if (pc->state == JIM_PS_DEF)
1221 return JimParseEol(pc);
1222 else
1223 return JimParseStr(pc);
1224 break;
1225 case '[':
1226 pc->comment = 0;
1227 return JimParseCmd(pc);
1228 break;
1229 case '$':
1230 pc->comment = 0;
1231 if (JimParseVar(pc) == JIM_ERR) {
1232 pc->tstart = pc->tend = pc->p++; pc->len--;
1233 pc->tline = pc->linenr;
1234 pc->tt = JIM_TT_STR;
1235 return JIM_OK;
1236 } else
1237 return JIM_OK;
1238 break;
1239 case '#':
1240 if (pc->comment) {
1241 JimParseComment(pc);
1242 continue;
1243 } else {
1244 return JimParseStr(pc);
1245 }
1246 default:
1247 pc->comment = 0;
1248 return JimParseStr(pc);
1249 break;
1250 }
1251 return JIM_OK;
1252 }
1253 }
1254
1255 int JimParseSep(struct JimParserCtx *pc)
1256 {
1257 pc->tstart = pc->p;
1258 pc->tline = pc->linenr;
1259 while (*pc->p == ' ' || *pc->p == '\t' || *pc->p == '\r' ||
1260 (*pc->p == '\\' && *(pc->p + 1) == '\n')) {
1261 if (*pc->p == '\\') {
1262 pc->p++; pc->len--;
1263 pc->linenr++;
1264 }
1265 pc->p++; pc->len--;
1266 }
1267 pc->tend = pc->p-1;
1268 pc->tt = JIM_TT_SEP;
1269 return JIM_OK;
1270 }
1271
1272 int JimParseEol(struct JimParserCtx *pc)
1273 {
1274 pc->tstart = pc->p;
1275 pc->tline = pc->linenr;
1276 while (*pc->p == ' ' || *pc->p == '\n' ||
1277 *pc->p == '\t' || *pc->p == '\r' || *pc->p == ';') {
1278 if (*pc->p == '\n')
1279 pc->linenr++;
1280 pc->p++; pc->len--;
1281 }
1282 pc->tend = pc->p-1;
1283 pc->tt = JIM_TT_EOL;
1284 return JIM_OK;
1285 }
1286
1287 /* Todo. Don't stop if ']' appears inside {} or quoted.
1288 * Also should handle the case of puts [string length "]"] */
1289 int JimParseCmd(struct JimParserCtx *pc)
1290 {
1291 int level = 1;
1292 int blevel = 0;
1293
1294 pc->tstart = ++pc->p; pc->len--;
1295 pc->tline = pc->linenr;
1296 while (1) {
1297 if (pc->len == 0) {
1298 break;
1299 } else if (*pc->p == '[' && blevel == 0) {
1300 level++;
1301 } else if (*pc->p == ']' && blevel == 0) {
1302 level--;
1303 if (!level) break;
1304 } else if (*pc->p == '\\') {
1305 pc->p++; pc->len--;
1306 } else if (*pc->p == '{') {
1307 blevel++;
1308 } else if (*pc->p == '}') {
1309 if (blevel != 0)
1310 blevel--;
1311 } else if (*pc->p == '\n')
1312 pc->linenr++;
1313 pc->p++; pc->len--;
1314 }
1315 pc->tend = pc->p-1;
1316 pc->tt = JIM_TT_CMD;
1317 if (*pc->p == ']') {
1318 pc->p++; pc->len--;
1319 }
1320 return JIM_OK;
1321 }
1322
1323 int JimParseVar(struct JimParserCtx *pc)
1324 {
1325 int brace = 0, stop = 0, ttype = JIM_TT_VAR;
1326
1327 pc->tstart = ++pc->p; pc->len--; /* skip the $ */
1328 pc->tline = pc->linenr;
1329 if (*pc->p == '{') {
1330 pc->tstart = ++pc->p; pc->len--;
1331 brace = 1;
1332 }
1333 if (brace) {
1334 while (!stop) {
1335 if (*pc->p == '}' || pc->len == 0) {
1336 pc->tend = pc->p-1;
1337 stop = 1;
1338 if (pc->len == 0)
1339 break;
1340 }
1341 else if (*pc->p == '\n')
1342 pc->linenr++;
1343 pc->p++; pc->len--;
1344 }
1345 } else {
1346 /* Include leading colons */
1347 while (*pc->p == ':') {
1348 pc->p++;
1349 pc->len--;
1350 }
1351 while (!stop) {
1352 if (!((*pc->p >= 'a' && *pc->p <= 'z') ||
1353 (*pc->p >= 'A' && *pc->p <= 'Z') ||
1354 (*pc->p >= '0' && *pc->p <= '9') || *pc->p == '_'))
1355 stop = 1;
1356 else {
1357 pc->p++; pc->len--;
1358 }
1359 }
1360 /* Parse [dict get] syntax sugar. */
1361 if (*pc->p == '(') {
1362 while (*pc->p != ')' && pc->len) {
1363 pc->p++; pc->len--;
1364 if (*pc->p == '\\' && pc->len >= 2) {
1365 pc->p += 2; pc->len -= 2;
1366 }
1367 }
1368 if (*pc->p != '\0') {
1369 pc->p++; pc->len--;
1370 }
1371 ttype = JIM_TT_DICTSUGAR;
1372 }
1373 pc->tend = pc->p-1;
1374 }
1375 /* Check if we parsed just the '$' character.
1376 * That's not a variable so an error is returned
1377 * to tell the state machine to consider this '$' just
1378 * a string. */
1379 if (pc->tstart == pc->p) {
1380 pc->p--; pc->len++;
1381 return JIM_ERR;
1382 }
1383 pc->tt = ttype;
1384 return JIM_OK;
1385 }
1386
1387 int JimParseBrace(struct JimParserCtx *pc)
1388 {
1389 int level = 1;
1390
1391 pc->tstart = ++pc->p; pc->len--;
1392 pc->tline = pc->linenr;
1393 while (1) {
1394 if (*pc->p == '\\' && pc->len >= 2) {
1395 pc->p++; pc->len--;
1396 if (*pc->p == '\n')
1397 pc->linenr++;
1398 } else if (*pc->p == '{') {
1399 level++;
1400 } else if (pc->len == 0 || *pc->p == '}') {
1401 level--;
1402 if (pc->len == 0 || level == 0) {
1403 pc->tend = pc->p-1;
1404 if (pc->len != 0) {
1405 pc->p++; pc->len--;
1406 }
1407 pc->tt = JIM_TT_STR;
1408 return JIM_OK;
1409 }
1410 } else if (*pc->p == '\n') {
1411 pc->linenr++;
1412 }
1413 pc->p++; pc->len--;
1414 }
1415 return JIM_OK; /* unreached */
1416 }
1417
1418 int JimParseStr(struct JimParserCtx *pc)
1419 {
1420 int newword = (pc->tt == JIM_TT_SEP || pc->tt == JIM_TT_EOL ||
1421 pc->tt == JIM_TT_NONE || pc->tt == JIM_TT_STR);
1422 if (newword && *pc->p == '{') {
1423 return JimParseBrace(pc);
1424 } else if (newword && *pc->p == '"') {
1425 pc->state = JIM_PS_QUOTE;
1426 pc->p++; pc->len--;
1427 }
1428 pc->tstart = pc->p;
1429 pc->tline = pc->linenr;
1430 while (1) {
1431 if (pc->len == 0) {
1432 pc->tend = pc->p-1;
1433 pc->tt = JIM_TT_ESC;
1434 return JIM_OK;
1435 }
1436 switch (*pc->p) {
1437 case '\\':
1438 if (pc->state == JIM_PS_DEF &&
1439 *(pc->p + 1) == '\n') {
1440 pc->tend = pc->p-1;
1441 pc->tt = JIM_TT_ESC;
1442 return JIM_OK;
1443 }
1444 if (pc->len >= 2) {
1445 pc->p++; pc->len--;
1446 }
1447 break;
1448 case '$':
1449 case '[':
1450 pc->tend = pc->p-1;
1451 pc->tt = JIM_TT_ESC;
1452 return JIM_OK;
1453 case ' ':
1454 case '\t':
1455 case '\n':
1456 case '\r':
1457 case ';':
1458 if (pc->state == JIM_PS_DEF) {
1459 pc->tend = pc->p-1;
1460 pc->tt = JIM_TT_ESC;
1461 return JIM_OK;
1462 } else if (*pc->p == '\n') {
1463 pc->linenr++;
1464 }
1465 break;
1466 case '"':
1467 if (pc->state == JIM_PS_QUOTE) {
1468 pc->tend = pc->p-1;
1469 pc->tt = JIM_TT_ESC;
1470 pc->p++; pc->len--;
1471 pc->state = JIM_PS_DEF;
1472 return JIM_OK;
1473 }
1474 break;
1475 }
1476 pc->p++; pc->len--;
1477 }
1478 return JIM_OK; /* unreached */
1479 }
1480
1481 int JimParseComment(struct JimParserCtx *pc)
1482 {
1483 while (*pc->p) {
1484 if (*pc->p == '\n') {
1485 pc->linenr++;
1486 if (*(pc->p-1) != '\\') {
1487 pc->p++; pc->len--;
1488 return JIM_OK;
1489 }
1490 }
1491 pc->p++; pc->len--;
1492 }
1493 return JIM_OK;
1494 }
1495
1496 /* xdigitval and odigitval are helper functions for JimParserGetToken() */
1497 static int xdigitval(int c)
1498 {
1499 if (c >= '0' && c <= '9') return c-'0';
1500 if (c >= 'a' && c <= 'f') return c-'a'+10;
1501 if (c >= 'A' && c <= 'F') return c-'A'+10;
1502 return -1;
1503 }
1504
1505 static int odigitval(int c)
1506 {
1507 if (c >= '0' && c <= '7') return c-'0';
1508 return -1;
1509 }
1510
1511 /* Perform Tcl escape substitution of 's', storing the result
1512 * string into 'dest'. The escaped string is guaranteed to
1513 * be the same length or shorted than the source string.
1514 * Slen is the length of the string at 's', if it's -1 the string
1515 * length will be calculated by the function.
1516 *
1517 * The function returns the length of the resulting string. */
1518 static int JimEscape(char *dest, const char *s, int slen)
1519 {
1520 char *p = dest;
1521 int i, len;
1522
1523 if (slen == -1)
1524 slen = strlen(s);
1525
1526 for (i = 0; i < slen; i++) {
1527 switch (s[i]) {
1528 case '\\':
1529 switch (s[i + 1]) {
1530 case 'a': *p++ = 0x7; i++; break;
1531 case 'b': *p++ = 0x8; i++; break;
1532 case 'f': *p++ = 0xc; i++; break;
1533 case 'n': *p++ = 0xa; i++; break;
1534 case 'r': *p++ = 0xd; i++; break;
1535 case 't': *p++ = 0x9; i++; break;
1536 case 'v': *p++ = 0xb; i++; break;
1537 case '\0': *p++ = '\\'; i++; break;
1538 case '\n': *p++ = ' '; i++; break;
1539 default:
1540 if (s[i + 1] == 'x') {
1541 int val = 0;
1542 int c = xdigitval(s[i + 2]);
1543 if (c == -1) {
1544 *p++ = 'x';
1545 i++;
1546 break;
1547 }
1548 val = c;
1549 c = xdigitval(s[i + 3]);
1550 if (c == -1) {
1551 *p++ = val;
1552 i += 2;
1553 break;
1554 }
1555 val = (val*16) + c;
1556 *p++ = val;
1557 i += 3;
1558 break;
1559 } else if (s[i + 1] >= '0' && s[i + 1] <= '7')
1560 {
1561 int val = 0;
1562 int c = odigitval(s[i + 1]);
1563 val = c;
1564 c = odigitval(s[i + 2]);
1565 if (c == -1) {
1566 *p++ = val;
1567 i ++;
1568 break;
1569 }
1570 val = (val*8) + c;
1571 c = odigitval(s[i + 3]);
1572 if (c == -1) {
1573 *p++ = val;
1574 i += 2;
1575 break;
1576 }
1577 val = (val*8) + c;
1578 *p++ = val;
1579 i += 3;
1580 } else {
1581 *p++ = s[i + 1];
1582 i++;
1583 }
1584 break;
1585 }
1586 break;
1587 default:
1588 *p++ = s[i];
1589 break;
1590 }
1591 }
1592 len = p-dest;
1593 *p++ = '\0';
1594 return len;
1595 }
1596
1597 /* Returns a dynamically allocated copy of the current token in the
1598 * parser context. The function perform conversion of escapes if
1599 * the token is of type JIM_TT_ESC.
1600 *
1601 * Note that after the conversion, tokens that are grouped with
1602 * braces in the source code, are always recognizable from the
1603 * identical string obtained in a different way from the type.
1604 *
1605 * For exmple the string:
1606 *
1607 * {expand}$a
1608 *
1609 * will return as first token "expand", of type JIM_TT_STR
1610 *
1611 * While the string:
1612 *
1613 * expand$a
1614 *
1615 * will return as first token "expand", of type JIM_TT_ESC
1616 */
1617 char *JimParserGetToken(struct JimParserCtx *pc,
1618 int *lenPtr, int *typePtr, int *linePtr)
1619 {
1620 const char *start, *end;
1621 char *token;
1622 int len;
1623
1624 start = JimParserTstart(pc);
1625 end = JimParserTend(pc);
1626 if (start > end) {
1627 if (lenPtr) *lenPtr = 0;
1628 if (typePtr) *typePtr = JimParserTtype(pc);
1629 if (linePtr) *linePtr = JimParserTline(pc);
1630 token = Jim_Alloc(1);
1631 token[0] = '\0';
1632 return token;
1633 }
1634 len = (end-start) + 1;
1635 token = Jim_Alloc(len + 1);
1636 if (JimParserTtype(pc) != JIM_TT_ESC) {
1637 /* No escape conversion needed? Just copy it. */
1638 memcpy(token, start, len);
1639 token[len] = '\0';
1640 } else {
1641 /* Else convert the escape chars. */
1642 len = JimEscape(token, start, len);
1643 }
1644 if (lenPtr) *lenPtr = len;
1645 if (typePtr) *typePtr = JimParserTtype(pc);
1646 if (linePtr) *linePtr = JimParserTline(pc);
1647 return token;
1648 }
1649
1650 /* The following functin is not really part of the parsing engine of Jim,
1651 * but it somewhat related. Given an string and its length, it tries
1652 * to guess if the script is complete or there are instead " " or { }
1653 * open and not completed. This is useful for interactive shells
1654 * implementation and for [info complete].
1655 *
1656 * If 'stateCharPtr' != NULL, the function stores ' ' on complete script,
1657 * '{' on scripts incomplete missing one or more '}' to be balanced.
1658 * '"' on scripts incomplete missing a '"' char.
1659 *
1660 * If the script is complete, 1 is returned, otherwise 0. */
1661 int Jim_ScriptIsComplete(const char *s, int len, char *stateCharPtr)
1662 {
1663 int level = 0;
1664 int state = ' ';
1665
1666 while (len) {
1667 switch (*s) {
1668 case '\\':
1669 if (len > 1)
1670 s++;
1671 break;
1672 case '"':
1673 if (state == ' ') {
1674 state = '"';
1675 } else if (state == '"') {
1676 state = ' ';
1677 }
1678 break;
1679 case '{':
1680 if (state == '{') {
1681 level++;
1682 } else if (state == ' ') {
1683 state = '{';
1684 level++;
1685 }
1686 break;
1687 case '}':
1688 if (state == '{') {
1689 level--;
1690 if (level == 0)
1691 state = ' ';
1692 }
1693 break;
1694 }
1695 s++;
1696 len--;
1697 }
1698 if (stateCharPtr)
1699 *stateCharPtr = state;
1700 return state == ' ';
1701 }
1702
1703 /* -----------------------------------------------------------------------------
1704 * Tcl Lists parsing
1705 * ---------------------------------------------------------------------------*/
1706 static int JimParseListSep(struct JimParserCtx *pc);
1707 static int JimParseListStr(struct JimParserCtx *pc);
1708
1709 static int JimParseList(struct JimParserCtx *pc)
1710 {
1711 if (pc->len == 0) {
1712 pc->tstart = pc->tend = pc->p;
1713 pc->tline = pc->linenr;
1714 pc->tt = JIM_TT_EOL;
1715 pc->eof = 1;
1716 return JIM_OK;
1717 }
1718 switch (*pc->p) {
1719 case ' ':
1720 case '\n':
1721 case '\t':
1722 case '\r':
1723 if (pc->state == JIM_PS_DEF)
1724 return JimParseListSep(pc);
1725 else
1726 return JimParseListStr(pc);
1727 break;
1728 default:
1729 return JimParseListStr(pc);
1730 break;
1731 }
1732 return JIM_OK;
1733 }
1734
1735 int JimParseListSep(struct JimParserCtx *pc)
1736 {
1737 pc->tstart = pc->p;
1738 pc->tline = pc->linenr;
1739 while (*pc->p == ' ' || *pc->p == '\t' || *pc->p == '\r' || *pc->p == '\n')
1740 {
1741 pc->p++; pc->len--;
1742 }
1743 pc->tend = pc->p-1;
1744 pc->tt = JIM_TT_SEP;
1745 return JIM_OK;
1746 }
1747
1748 int JimParseListStr(struct JimParserCtx *pc)
1749 {
1750 int newword = (pc->tt == JIM_TT_SEP || pc->tt == JIM_TT_EOL ||
1751 pc->tt == JIM_TT_NONE);
1752 if (newword && *pc->p == '{') {
1753 return JimParseBrace(pc);
1754 } else if (newword && *pc->p == '"') {
1755 pc->state = JIM_PS_QUOTE;
1756 pc->p++; pc->len--;
1757 }
1758 pc->tstart = pc->p;
1759 pc->tline = pc->linenr;
1760 while (1) {
1761 if (pc->len == 0) {
1762 pc->tend = pc->p-1;
1763 pc->tt = JIM_TT_ESC;
1764 return JIM_OK;
1765 }
1766 switch (*pc->p) {
1767 case '\\':
1768 pc->p++; pc->len--;
1769 break;
1770 case ' ':
1771 case '\t':
1772 case '\n':
1773 case '\r':
1774 if (pc->state == JIM_PS_DEF) {
1775 pc->tend = pc->p-1;
1776 pc->tt = JIM_TT_ESC;
1777 return JIM_OK;
1778 } else if (*pc->p == '\n') {
1779 pc->linenr++;
1780 }
1781 break;
1782 case '"':
1783 if (pc->state == JIM_PS_QUOTE) {
1784 pc->tend = pc->p-1;
1785 pc->tt = JIM_TT_ESC;
1786 pc->p++; pc->len--;
1787 pc->state = JIM_PS_DEF;
1788 return JIM_OK;
1789 }
1790 break;
1791 }
1792 pc->p++; pc->len--;
1793 }
1794 return JIM_OK; /* unreached */
1795 }
1796
1797 /* -----------------------------------------------------------------------------
1798 * Jim_Obj related functions
1799 * ---------------------------------------------------------------------------*/
1800
1801 /* Return a new initialized object. */
1802 Jim_Obj *Jim_NewObj(Jim_Interp *interp)
1803 {
1804 Jim_Obj *objPtr;
1805
1806 /* -- Check if there are objects in the free list -- */
1807 if (interp->freeList != NULL) {
1808 /* -- Unlink the object from the free list -- */
1809 objPtr = interp->freeList;
1810 interp->freeList = objPtr->nextObjPtr;
1811 } else {
1812 /* -- No ready to use objects: allocate a new one -- */
1813 objPtr = Jim_Alloc(sizeof(*objPtr));
1814 }
1815
1816 /* Object is returned with refCount of 0. Every
1817 * kind of GC implemented should take care to don't try
1818 * to scan objects with refCount == 0. */
1819 objPtr->refCount = 0;
1820 /* All the other fields are left not initialized to save time.
1821 * The caller will probably want set they to the right
1822 * value anyway. */
1823
1824 /* -- Put the object into the live list -- */
1825 objPtr->prevObjPtr = NULL;
1826 objPtr->nextObjPtr = interp->liveList;
1827 if (interp->liveList)
1828 interp->liveList->prevObjPtr = objPtr;
1829 interp->liveList = objPtr;
1830
1831 return objPtr;
1832 }
1833
1834 /* Free an object. Actually objects are never freed, but
1835 * just moved to the free objects list, where they will be
1836 * reused by Jim_NewObj(). */
1837 void Jim_FreeObj(Jim_Interp *interp, Jim_Obj *objPtr)
1838 {
1839 /* Check if the object was already freed, panic. */
1840 if (objPtr->refCount != 0) {
1841 Jim_Panic(interp,"!!!Object %p freed with bad refcount %d", objPtr,
1842 objPtr->refCount);
1843 }
1844 /* Free the internal representation */
1845 Jim_FreeIntRep(interp, objPtr);
1846 /* Free the string representation */
1847 if (objPtr->bytes != NULL) {
1848 if (objPtr->bytes != JimEmptyStringRep)
1849 Jim_Free(objPtr->bytes);
1850 }
1851 /* Unlink the object from the live objects list */
1852 if (objPtr->prevObjPtr)
1853 objPtr->prevObjPtr->nextObjPtr = objPtr->nextObjPtr;
1854 if (objPtr->nextObjPtr)
1855 objPtr->nextObjPtr->prevObjPtr = objPtr->prevObjPtr;
1856 if (interp->liveList == objPtr)
1857 interp->liveList = objPtr->nextObjPtr;
1858 /* Link the object into the free objects list */
1859 objPtr->prevObjPtr = NULL;
1860 objPtr->nextObjPtr = interp->freeList;
1861 if (interp->freeList)
1862 interp->freeList->prevObjPtr = objPtr;
1863 interp->freeList = objPtr;
1864 objPtr->refCount = -1;
1865 }
1866
1867 /* Invalidate the string representation of an object. */
1868 void Jim_InvalidateStringRep(Jim_Obj *objPtr)
1869 {
1870 if (objPtr->bytes != NULL) {
1871 if (objPtr->bytes != JimEmptyStringRep)
1872 Jim_Free(objPtr->bytes);
1873 }
1874 objPtr->bytes = NULL;
1875 }
1876
1877 #define Jim_SetStringRep(o, b, l) \
1878 do { (o)->bytes = b; (o)->length = l; } while (0)
1879
1880 /* Set the initial string representation for an object.
1881 * Does not try to free an old one. */
1882 void Jim_InitStringRep(Jim_Obj *objPtr, const char *bytes, int length)
1883 {
1884 if (length == 0) {
1885 objPtr->bytes = JimEmptyStringRep;
1886 objPtr->length = 0;
1887 } else {
1888 objPtr->bytes = Jim_Alloc(length + 1);
1889 objPtr->length = length;
1890 memcpy(objPtr->bytes, bytes, length);
1891 objPtr->bytes[length] = '\0';
1892 }
1893 }
1894
1895 /* Duplicate an object. The returned object has refcount = 0. */
1896 Jim_Obj *Jim_DuplicateObj(Jim_Interp *interp, Jim_Obj *objPtr)
1897 {
1898 Jim_Obj *dupPtr;
1899
1900 dupPtr = Jim_NewObj(interp);
1901 if (objPtr->bytes == NULL) {
1902 /* Object does not have a valid string representation. */
1903 dupPtr->bytes = NULL;
1904 } else {
1905 Jim_InitStringRep(dupPtr, objPtr->bytes, objPtr->length);
1906 }
1907 if (objPtr->typePtr != NULL) {
1908 if (objPtr->typePtr->dupIntRepProc == NULL) {
1909 dupPtr->internalRep = objPtr->internalRep;
1910 } else {
1911 objPtr->typePtr->dupIntRepProc(interp, objPtr, dupPtr);
1912 }
1913 dupPtr->typePtr = objPtr->typePtr;
1914 } else {
1915 dupPtr->typePtr = NULL;
1916 }
1917 return dupPtr;
1918 }
1919
1920 /* Return the string representation for objPtr. If the object
1921 * string representation is invalid, calls the method to create
1922 * a new one starting from the internal representation of the object. */
1923 const char *Jim_GetString(Jim_Obj *objPtr, int *lenPtr)
1924 {
1925 if (objPtr->bytes == NULL) {
1926 /* Invalid string repr. Generate it. */
1927 if (objPtr->typePtr->updateStringProc == NULL) {
1928 Jim_Panic(NULL,"UpdataStringProc called against '%s' type.",
1929 objPtr->typePtr->name);
1930 }
1931 objPtr->typePtr->updateStringProc(objPtr);
1932 }
1933 if (lenPtr)
1934 *lenPtr = objPtr->length;
1935 return objPtr->bytes;
1936 }
1937
1938 /* Just returns the length of the object's string rep */
1939 int Jim_Length(Jim_Obj *objPtr)
1940 {
1941 int len;
1942
1943 Jim_GetString(objPtr, &len);
1944 return len;
1945 }
1946
1947 /* -----------------------------------------------------------------------------
1948 * String Object
1949 * ---------------------------------------------------------------------------*/
1950 static void DupStringInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
1951 static int SetStringFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
1952
1953 static Jim_ObjType stringObjType = {
1954 "string",
1955 NULL,
1956 DupStringInternalRep,
1957 NULL,
1958 JIM_TYPE_REFERENCES,
1959 };
1960
1961 void DupStringInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
1962 {
1963 JIM_NOTUSED(interp);
1964
1965 /* This is a bit subtle: the only caller of this function
1966 * should be Jim_DuplicateObj(), that will copy the
1967 * string representaion. After the copy, the duplicated
1968 * object will not have more room in teh buffer than
1969 * srcPtr->length bytes. So we just set it to length. */
1970 dupPtr->internalRep.strValue.maxLength = srcPtr->length;
1971 }
1972
1973 int SetStringFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
1974 {
1975 /* Get a fresh string representation. */
1976 (void) Jim_GetString(objPtr, NULL);
1977 /* Free any other internal representation. */
1978 Jim_FreeIntRep(interp, objPtr);
1979 /* Set it as string, i.e. just set the maxLength field. */
1980 objPtr->typePtr = &stringObjType;
1981 objPtr->internalRep.strValue.maxLength = objPtr->length;
1982 return JIM_OK;
1983 }
1984
1985 Jim_Obj *Jim_NewStringObj(Jim_Interp *interp, const char *s, int len)
1986 {
1987 Jim_Obj *objPtr = Jim_NewObj(interp);
1988
1989 if (len == -1)
1990 len = strlen(s);
1991 /* Alloc/Set the string rep. */
1992 if (len == 0) {
1993 objPtr->bytes = JimEmptyStringRep;
1994 objPtr->length = 0;
1995 } else {
1996 objPtr->bytes = Jim_Alloc(len + 1);
1997 objPtr->length = len;
1998 memcpy(objPtr->bytes, s, len);
1999 objPtr->bytes[len] = '\0';
2000 }
2001
2002 /* No typePtr field for the vanilla string object. */
2003 objPtr->typePtr = NULL;
2004 return objPtr;
2005 }
2006
2007 /* This version does not try to duplicate the 's' pointer, but
2008 * use it directly. */
2009 Jim_Obj *Jim_NewStringObjNoAlloc(Jim_Interp *interp, char *s, int len)
2010 {
2011 Jim_Obj *objPtr = Jim_NewObj(interp);
2012
2013 if (len == -1)
2014 len = strlen(s);
2015 Jim_SetStringRep(objPtr, s, len);
2016 objPtr->typePtr = NULL;
2017 return objPtr;
2018 }
2019
2020 /* Low-level string append. Use it only against objects
2021 * of type "string". */
2022 static void StringAppendString(Jim_Obj *objPtr, const char *str, int len)
2023 {
2024 int needlen;
2025
2026 if (len == -1)
2027 len = strlen(str);
2028 needlen = objPtr->length + len;
2029 if (objPtr->internalRep.strValue.maxLength < needlen ||
2030 objPtr->internalRep.strValue.maxLength == 0) {
2031 if (objPtr->bytes == JimEmptyStringRep) {
2032 objPtr->bytes = Jim_Alloc((needlen*2) + 1);
2033 } else {
2034 objPtr->bytes = Jim_Realloc(objPtr->bytes, (needlen*2) + 1);
2035 }
2036 objPtr->internalRep.strValue.maxLength = needlen*2;
2037 }
2038 memcpy(objPtr->bytes + objPtr->length, str, len);
2039 objPtr->bytes[objPtr->length + len] = '\0';
2040 objPtr->length += len;
2041 }
2042
2043 /* Low-level wrapper to append an object. */
2044 void StringAppendObj(Jim_Obj *objPtr, Jim_Obj *appendObjPtr)
2045 {
2046 int len;
2047 const char *str;
2048
2049 str = Jim_GetString(appendObjPtr, &len);
2050 StringAppendString(objPtr, str, len);
2051 }
2052
2053 /* Higher level API to append strings to objects. */
2054 void Jim_AppendString(Jim_Interp *interp, Jim_Obj *objPtr, const char *str,
2055 int len)
2056 {
2057 if (Jim_IsShared(objPtr))
2058 Jim_Panic(interp,"Jim_AppendString called with shared object");
2059 if (objPtr->typePtr != &stringObjType)
2060 SetStringFromAny(interp, objPtr);
2061 StringAppendString(objPtr, str, len);
2062 }
2063
2064 void Jim_AppendString_sprintf(Jim_Interp *interp, Jim_Obj *objPtr, const char *fmt, ...)
2065 {
2066 char *buf;
2067 va_list ap;
2068
2069 va_start(ap, fmt);
2070 buf = jim_vasprintf(fmt, ap);
2071 va_end(ap);
2072
2073 if (buf) {
2074 Jim_AppendString(interp, objPtr, buf, -1);
2075 jim_vasprintf_done(buf);
2076 }
2077 }
2078
2079
2080 void Jim_AppendObj(Jim_Interp *interp, Jim_Obj *objPtr,
2081 Jim_Obj *appendObjPtr)
2082 {
2083 int len;
2084 const char *str;
2085
2086 str = Jim_GetString(appendObjPtr, &len);
2087 Jim_AppendString(interp, objPtr, str, len);
2088 }
2089
2090 void Jim_AppendStrings(Jim_Interp *interp, Jim_Obj *objPtr, ...)
2091 {
2092 va_list ap;
2093
2094 if (objPtr->typePtr != &stringObjType)
2095 SetStringFromAny(interp, objPtr);
2096 va_start(ap, objPtr);
2097 while (1) {
2098 char *s = va_arg(ap, char*);
2099
2100 if (s == NULL) break;
2101 Jim_AppendString(interp, objPtr, s, -1);
2102 }
2103 va_end(ap);
2104 }
2105
2106 int Jim_StringEqObj(Jim_Obj *aObjPtr, Jim_Obj *bObjPtr, int nocase)
2107 {
2108 const char *aStr, *bStr;
2109 int aLen, bLen, i;
2110
2111 if (aObjPtr == bObjPtr) return 1;
2112 aStr = Jim_GetString(aObjPtr, &aLen);
2113 bStr = Jim_GetString(bObjPtr, &bLen);
2114 if (aLen != bLen) return 0;
2115 if (nocase == 0)
2116 return memcmp(aStr, bStr, aLen) == 0;
2117 for (i = 0; i < aLen; i++) {
2118 if (tolower((int)aStr[i]) != tolower((int)bStr[i]))
2119 return 0;
2120 }
2121 return 1;
2122 }
2123
2124 int Jim_StringMatchObj(Jim_Obj *patternObjPtr, Jim_Obj *objPtr,
2125 int nocase)
2126 {
2127 const char *pattern, *string;
2128 int patternLen, stringLen;
2129
2130 pattern = Jim_GetString(patternObjPtr, &patternLen);
2131 string = Jim_GetString(objPtr, &stringLen);
2132 return JimStringMatch(pattern, patternLen, string, stringLen, nocase);
2133 }
2134
2135 static int Jim_StringCompareObj(Jim_Obj *firstObjPtr,
2136 Jim_Obj *secondObjPtr, int nocase)
2137 {
2138 const char *s1, *s2;
2139 int l1, l2;
2140
2141 s1 = Jim_GetString(firstObjPtr, &l1);
2142 s2 = Jim_GetString(secondObjPtr, &l2);
2143 return JimStringCompare(s1, l1, s2, l2, nocase);
2144 }
2145
2146 /* Convert a range, as returned by Jim_GetRange(), into
2147 * an absolute index into an object of the specified length.
2148 * This function may return negative values, or values
2149 * bigger or equal to the length of the list if the index
2150 * is out of range. */
2151 static int JimRelToAbsIndex(int len, int index_t)
2152 {
2153 if (index_t < 0)
2154 return len + index_t;
2155 return index_t;
2156 }
2157
2158 /* Convert a pair of index as normalize by JimRelToAbsIndex(),
2159 * into a range stored in *firstPtr, *lastPtr, *rangeLenPtr, suitable
2160 * for implementation of commands like [string range] and [lrange].
2161 *
2162 * The resulting range is guaranteed to address valid elements of
2163 * the structure. */
2164 static void JimRelToAbsRange(int len, int first, int last,
2165 int *firstPtr, int *lastPtr, int *rangeLenPtr)
2166 {
2167 int rangeLen;
2168
2169 if (first > last) {
2170 rangeLen = 0;
2171 } else {
2172 rangeLen = last-first + 1;
2173 if (rangeLen) {
2174 if (first < 0) {
2175 rangeLen += first;
2176 first = 0;
2177 }
2178 if (last >= len) {
2179 rangeLen -= (last-(len-1));
2180 last = len-1;
2181 }
2182 }
2183 }
2184 if (rangeLen < 0) rangeLen = 0;
2185
2186 *firstPtr = first;
2187 *lastPtr = last;
2188 *rangeLenPtr = rangeLen;
2189 }
2190
2191 Jim_Obj *Jim_StringRangeObj(Jim_Interp *interp,
2192 Jim_Obj *strObjPtr, Jim_Obj *firstObjPtr, Jim_Obj *lastObjPtr)
2193 {
2194 int first, last;
2195 const char *str;
2196 int len, rangeLen;
2197
2198 if (Jim_GetIndex(interp, firstObjPtr, &first) != JIM_OK ||
2199 Jim_GetIndex(interp, lastObjPtr, &last) != JIM_OK)
2200 return NULL;
2201 str = Jim_GetString(strObjPtr, &len);
2202 first = JimRelToAbsIndex(len, first);
2203 last = JimRelToAbsIndex(len, last);
2204 JimRelToAbsRange(len, first, last, &first, &last, &rangeLen);
2205 return Jim_NewStringObj(interp, str + first, rangeLen);
2206 }
2207
2208 static Jim_Obj *JimStringToLower(Jim_Interp *interp, Jim_Obj *strObjPtr)
2209 {
2210 char *buf;
2211 int i;
2212 if (strObjPtr->typePtr != &stringObjType) {
2213 SetStringFromAny(interp, strObjPtr);
2214 }
2215
2216 buf = Jim_Alloc(strObjPtr->length + 1);
2217
2218 memcpy(buf, strObjPtr->bytes, strObjPtr->length + 1);
2219 for (i = 0; i < strObjPtr->length; i++)
2220 buf[i] = tolower((unsigned)buf[i]);
2221 return Jim_NewStringObjNoAlloc(interp, buf, strObjPtr->length);
2222 }
2223
2224 static Jim_Obj *JimStringToUpper(Jim_Interp *interp, Jim_Obj *strObjPtr)
2225 {
2226 char *buf;
2227 int i;
2228 if (strObjPtr->typePtr != &stringObjType) {
2229 SetStringFromAny(interp, strObjPtr);
2230 }
2231
2232 buf = Jim_Alloc(strObjPtr->length + 1);
2233
2234 memcpy(buf, strObjPtr->bytes, strObjPtr->length + 1);
2235 for (i = 0; i < strObjPtr->length; i++)
2236 buf[i] = toupper((unsigned)buf[i]);
2237 return Jim_NewStringObjNoAlloc(interp, buf, strObjPtr->length);
2238 }
2239
2240 /* This is the core of the [format] command.
2241 * TODO: Lots of things work - via a hack
2242 * However, no format item can be >= JIM_MAX_FMT
2243 */
2244 #define JIM_MAX_FMT 2048
2245 static Jim_Obj *Jim_FormatString_Inner(Jim_Interp *interp, Jim_Obj *fmtObjPtr,
2246 int objc, Jim_Obj *const *objv, char *sprintf_buf)
2247 {
2248 const char *fmt, *_fmt;
2249 int fmtLen;
2250 Jim_Obj *resObjPtr;
2251
2252
2253 fmt = Jim_GetString(fmtObjPtr, &fmtLen);
2254 _fmt = fmt;
2255 resObjPtr = Jim_NewStringObj(interp, "", 0);
2256 while (fmtLen) {
2257 const char *p = fmt;
2258 char spec[2], c;
2259 jim_wide wideValue;
2260 double doubleValue;
2261 /* we cheat and use Sprintf()! */
2262 char fmt_str[100];
2263 char *cp;
2264 int width;
2265 int ljust;
2266 int zpad;
2267 int spad;
2268 int altfm;
2269 int forceplus;
2270 int prec;
2271 int inprec;
2272 int haveprec;
2273 int accum;
2274
2275 while (*fmt != '%' && fmtLen) {
2276 fmt++; fmtLen--;
2277 }
2278 Jim_AppendString(interp, resObjPtr, p, fmt-p);
2279 if (fmtLen == 0)
2280 break;
2281 fmt++; fmtLen--; /* skip '%' */
2282 zpad = 0;
2283 spad = 0;
2284 width = -1;
2285 ljust = 0;
2286 altfm = 0;
2287 forceplus = 0;
2288 inprec = 0;
2289 haveprec = 0;
2290 prec = -1; /* not found yet */
2291 next_fmt:
2292 if (fmtLen <= 0) {
2293 break;
2294 }
2295 switch (*fmt) {
2296 /* terminals */
2297 case 'b': /* binary - not all printfs() do this */
2298 case 's': /* string */
2299 case 'i': /* integer */
2300 case 'd': /* decimal */
2301 case 'x': /* hex */
2302 case 'X': /* CAP hex */
2303 case 'c': /* char */
2304 case 'o': /* octal */
2305 case 'u': /* unsigned */
2306 case 'f': /* float */
2307 break;
2308
2309 /* non-terminals */
2310 case '0': /* zero pad */
2311 zpad = 1;
2312 fmt++; fmtLen--;
2313 goto next_fmt;
2314 break;
2315 case '+':
2316 forceplus = 1;
2317 fmt++; fmtLen--;
2318 goto next_fmt;
2319 break;
2320 case ' ': /* sign space */
2321 spad = 1;
2322 fmt++; fmtLen--;
2323 goto next_fmt;
2324 break;
2325 case '-':
2326 ljust = 1;
2327 fmt++; fmtLen--;
2328 goto next_fmt;
2329 break;
2330 case '#':
2331 altfm = 1;
2332 fmt++; fmtLen--;
2333 goto next_fmt;
2334
2335 case '.':
2336 inprec = 1;
2337 fmt++; fmtLen--;
2338 goto next_fmt;
2339 break;
2340 case '1':
2341 case '2':
2342 case '3':
2343 case '4':
2344 case '5':
2345 case '6':
2346 case '7':
2347 case '8':
2348 case '9':
2349 accum = 0;
2350 while (isdigit((unsigned)*fmt) && (fmtLen > 0)) {
2351 accum = (accum * 10) + (*fmt - '0');
2352 fmt++; fmtLen--;
2353 }
2354 if (inprec) {
2355 haveprec = 1;
2356 prec = accum;
2357 } else {
2358 width = accum;
2359 }
2360 goto next_fmt;
2361 case '*':
2362 /* suck up the next item as an integer */
2363 fmt++; fmtLen--;
2364 objc--;
2365 if (objc <= 0) {
2366 goto not_enough_args;
2367 }
2368 if (Jim_GetWide(interp,objv[0],&wideValue)== JIM_ERR) {
2369 Jim_FreeNewObj(interp, resObjPtr);
2370 return NULL;
2371 }
2372 if (inprec) {
2373 haveprec = 1;
2374 prec = wideValue;
2375 if (prec < 0) {
2376 /* man 3 printf says */
2377 /* if prec is negative, it is zero */
2378 prec = 0;
2379 }
2380 } else {
2381 width = wideValue;
2382 if (width < 0) {
2383 ljust = 1;
2384 width = -width;
2385 }
2386 }
2387 objv++;
2388 goto next_fmt;
2389 break;
2390 }
2391
2392
2393 if (*fmt != '%') {
2394 if (objc == 0) {
2395 not_enough_args:
2396 Jim_FreeNewObj(interp, resObjPtr);
2397 Jim_SetResultString(interp,
2398 "not enough arguments for all format specifiers", -1);
2399 return NULL;
2400 } else {
2401 objc--;
2402 }
2403 }
2404
2405 /*
2406 * Create the formatter
2407 * cause we cheat and use sprintf()
2408 */
2409 cp = fmt_str;
2410 *cp++ = '%';
2411 if (altfm) {
2412 *cp++ = '#';
2413 }
2414 if (forceplus) {
2415 *cp++ = '+';
2416 } else if (spad) {
2417 /* PLUS overrides */
2418 *cp++ = ' ';
2419 }
2420 if (ljust) {
2421 *cp++ = '-';
2422 }
2423 if (zpad) {
2424 *cp++ = '0';
2425 }
2426 if (width > 0) {
2427 sprintf(cp, "%d", width);
2428 /* skip ahead */
2429 cp = strchr(cp,0);
2430 }
2431 /* did we find a period? */
2432 if (inprec) {
2433 /* then add it */
2434 *cp++ = '.';
2435 /* did something occur after the period? */
2436 if (haveprec) {
2437 sprintf(cp, "%d", prec);
2438 }
2439 cp = strchr(cp,0);
2440 }
2441 *cp = 0;
2442
2443 /* here we do the work */
2444 /* actually - we make sprintf() do it for us */
2445 switch (*fmt) {
2446 case 's':
2447 *cp++ = 's';
2448 *cp = 0;
2449 /* BUG: we do not handled embeded NULLs */
2450 snprintf(sprintf_buf, JIM_MAX_FMT, fmt_str, Jim_GetString(objv[0], NULL));
2451 break;
2452 case 'c':
2453 *cp++ = 'c';
2454 *cp = 0;
2455 if (Jim_GetWide(interp, objv[0], &wideValue) == JIM_ERR) {
2456 Jim_FreeNewObj(interp, resObjPtr);
2457 return NULL;
2458 }
2459 c = (char) wideValue;
2460 snprintf(sprintf_buf, JIM_MAX_FMT, fmt_str, c);
2461 break;
2462 case 'f':
2463 case 'F':
2464 case 'g':
2465 case 'G':
2466 case 'e':
2467 case 'E':
2468 *cp++ = *fmt;
2469 *cp = 0;
2470 if (Jim_GetDouble(interp, objv[0], &doubleValue) == JIM_ERR) {
2471 Jim_FreeNewObj(interp, resObjPtr);
2472 return NULL;
2473 }
2474 snprintf(sprintf_buf, JIM_MAX_FMT, fmt_str, doubleValue);
2475 break;
2476 case 'b':
2477 case 'd':
2478 case 'o':
2479 case 'i':
2480 case 'u':
2481 case 'x':
2482 case 'X':
2483 /* jim widevaluse are 64bit */
2484 if (sizeof(jim_wide) == sizeof(long long)) {
2485 *cp++ = 'l';
2486 *cp++ = 'l';
2487 } else {
2488 *cp++ = 'l';
2489 }
2490 *cp++ = *fmt;
2491 *cp = 0;
2492 if (Jim_GetWide(interp, objv[0], &wideValue) == JIM_ERR) {
2493 Jim_FreeNewObj(interp, resObjPtr);
2494 return NULL;
2495 }
2496 snprintf(sprintf_buf, JIM_MAX_FMT, fmt_str, wideValue);
2497 break;
2498 case '%':
2499 sprintf_buf[0] = '%';
2500 sprintf_buf[1] = 0;
2501 objv--; /* undo the objv++ below */
2502 break;
2503 default:
2504 spec[0] = *fmt; spec[1] = '\0';
2505 Jim_FreeNewObj(interp, resObjPtr);
2506 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
2507 Jim_AppendStrings(interp, Jim_GetResult(interp),
2508 "bad field specifier \"", spec, "\"", NULL);
2509 return NULL;
2510 }
2511 /* force terminate */
2512 #if 0
2513 printf("FMT was: %s\n", fmt_str);
2514 printf("RES was: |%s|\n", sprintf_buf);
2515 #endif
2516
2517 sprintf_buf[ JIM_MAX_FMT - 1] = 0;
2518 Jim_AppendString(interp, resObjPtr, sprintf_buf, strlen(sprintf_buf));
2519 /* next obj */
2520 objv++;
2521 fmt++;
2522 fmtLen--;
2523 }
2524 return resObjPtr;
2525 }
2526
2527 Jim_Obj *Jim_FormatString(Jim_Interp *interp, Jim_Obj *fmtObjPtr,
2528 int objc, Jim_Obj *const *objv)
2529 {
2530 char *sprintf_buf = malloc(JIM_MAX_FMT);
2531 Jim_Obj *t = Jim_FormatString_Inner(interp, fmtObjPtr, objc, objv, sprintf_buf);
2532 free(sprintf_buf);
2533 return t;
2534 }
2535
2536 /* -----------------------------------------------------------------------------
2537 * Compared String Object
2538 * ---------------------------------------------------------------------------*/
2539
2540 /* This is strange object that allows to compare a C literal string
2541 * with a Jim object in very short time if the same comparison is done
2542 * multiple times. For example every time the [if] command is executed,
2543 * Jim has to check if a given argument is "else". This comparions if
2544 * the code has no errors are true most of the times, so we can cache
2545 * inside the object the pointer of the string of the last matching
2546 * comparison. Because most C compilers perform literal sharing,
2547 * so that: char *x = "foo", char *y = "foo", will lead to x == y,
2548 * this works pretty well even if comparisons are at different places
2549 * inside the C code. */
2550
2551 static Jim_ObjType comparedStringObjType = {
2552 "compared-string",
2553 NULL,
2554 NULL,
2555 NULL,
2556 JIM_TYPE_REFERENCES,
2557 };
2558
2559 /* The only way this object is exposed to the API is via the following
2560 * function. Returns true if the string and the object string repr.
2561 * are the same, otherwise zero is returned.
2562 *
2563 * Note: this isn't binary safe, but it hardly needs to be.*/
2564 int Jim_CompareStringImmediate(Jim_Interp *interp, Jim_Obj *objPtr,
2565 const char *str)
2566 {
2567 if (objPtr->typePtr == &comparedStringObjType &&
2568 objPtr->internalRep.ptr == str)
2569 return 1;
2570 else {
2571 const char *objStr = Jim_GetString(objPtr, NULL);
2572 if (strcmp(str, objStr) != 0) return 0;
2573 if (objPtr->typePtr != &comparedStringObjType) {
2574 Jim_FreeIntRep(interp, objPtr);
2575 objPtr->typePtr = &comparedStringObjType;
2576 }
2577 objPtr->internalRep.ptr = (char*)str; /*ATTENTION: const cast */
2578 return 1;
2579 }
2580 }
2581
2582 static int qsortCompareStringPointers(const void *a, const void *b)
2583 {
2584 char * const *sa = (char * const *)a;
2585 char * const *sb = (char * const *)b;
2586 return strcmp(*sa, *sb);
2587 }
2588
2589 int Jim_GetEnum(Jim_Interp *interp, Jim_Obj *objPtr,
2590 const char * const *tablePtr, int *indexPtr, const char *name, int flags)
2591 {
2592 const char * const *entryPtr = NULL;
2593 char **tablePtrSorted;
2594 int i, count = 0;
2595
2596 *indexPtr = -1;
2597 for (entryPtr = tablePtr, i = 0; *entryPtr != NULL; entryPtr++, i++) {
2598 if (Jim_CompareStringImmediate(interp, objPtr, *entryPtr)) {
2599 *indexPtr = i;
2600 return JIM_OK;
2601 }
2602 count++; /* If nothing matches, this will reach the len of tablePtr */
2603 }
2604 if (flags & JIM_ERRMSG) {
2605 if (name == NULL)
2606 name = "option";
2607 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
2608 Jim_AppendStrings(interp, Jim_GetResult(interp),
2609 "bad ", name, " \"", Jim_GetString(objPtr, NULL), "\": must be one of ",
2610 NULL);
2611 tablePtrSorted = Jim_Alloc(sizeof(char*)*count);
2612 memcpy(tablePtrSorted, tablePtr, sizeof(char*)*count);
2613 qsort(tablePtrSorted, count, sizeof(char*), qsortCompareStringPointers);
2614 for (i = 0; i < count; i++) {
2615 if (i + 1 == count && count > 1)
2616 Jim_AppendString(interp, Jim_GetResult(interp), "or ", -1);
2617 Jim_AppendString(interp, Jim_GetResult(interp),
2618 tablePtrSorted[i], -1);
2619 if (i + 1 != count)
2620 Jim_AppendString(interp, Jim_GetResult(interp), ", ", -1);
2621 }
2622 Jim_Free(tablePtrSorted);
2623 }
2624 return JIM_ERR;
2625 }
2626
2627 int Jim_GetNvp(Jim_Interp *interp,
2628 Jim_Obj *objPtr,
2629 const Jim_Nvp *nvp_table,
2630 const Jim_Nvp ** result)
2631 {
2632 Jim_Nvp *n;
2633 int e;
2634
2635 e = Jim_Nvp_name2value_obj(interp, nvp_table, objPtr, &n);
2636 if (e == JIM_ERR) {
2637 return e;
2638 }
2639
2640 /* Success? found? */
2641 if (n->name) {
2642 /* remove const */
2643 *result = (Jim_Nvp *)n;
2644 return JIM_OK;
2645 } else {
2646 return JIM_ERR;
2647 }
2648 }
2649
2650 /* -----------------------------------------------------------------------------
2651 * Source Object
2652 *
2653 * This object is just a string from the language point of view, but
2654 * in the internal representation it contains the filename and line number
2655 * where this given token was read. This information is used by
2656 * Jim_EvalObj() if the object passed happens to be of type "source".
2657 *
2658 * This allows to propagate the information about line numbers and file
2659 * names and give error messages with absolute line numbers.
2660 *
2661 * Note that this object uses shared strings for filenames, and the
2662 * pointer to the filename together with the line number is taken into
2663 * the space for the "inline" internal represenation of the Jim_Object,
2664 * so there is almost memory zero-overhead.
2665 *
2666 * Also the object will be converted to something else if the given
2667 * token it represents in the source file is not something to be
2668 * evaluated (not a script), and will be specialized in some other way,
2669 * so the time overhead is alzo null.
2670 * ---------------------------------------------------------------------------*/
2671
2672 static void FreeSourceInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
2673 static void DupSourceInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
2674
2675 static Jim_ObjType sourceObjType = {
2676 "source",
2677 FreeSourceInternalRep,
2678 DupSourceInternalRep,
2679 NULL,
2680 JIM_TYPE_REFERENCES,
2681 };
2682
2683 void FreeSourceInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
2684 {
2685 Jim_ReleaseSharedString(interp,
2686 objPtr->internalRep.sourceValue.fileName);
2687 }
2688
2689 void DupSourceInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
2690 {
2691 dupPtr->internalRep.sourceValue.fileName =
2692 Jim_GetSharedString(interp,
2693 srcPtr->internalRep.sourceValue.fileName);
2694 dupPtr->internalRep.sourceValue.lineNumber =
2695 dupPtr->internalRep.sourceValue.lineNumber;
2696 dupPtr->typePtr = &sourceObjType;
2697 }
2698
2699 static void JimSetSourceInfo(Jim_Interp *interp, Jim_Obj *objPtr,
2700 const char *fileName, int lineNumber)
2701 {
2702 if (Jim_IsShared(objPtr))
2703 Jim_Panic(interp,"JimSetSourceInfo called with shared object");
2704 if (objPtr->typePtr != NULL)
2705 Jim_Panic(interp,"JimSetSourceInfo called with typePtr != NULL");
2706 objPtr->internalRep.sourceValue.fileName =
2707 Jim_GetSharedString(interp, fileName);
2708 objPtr->internalRep.sourceValue.lineNumber = lineNumber;
2709 objPtr->typePtr = &sourceObjType;
2710 }
2711
2712 /* -----------------------------------------------------------------------------
2713 * Script Object
2714 * ---------------------------------------------------------------------------*/
2715
2716 #define JIM_CMDSTRUCT_EXPAND -1
2717
2718 static void FreeScriptInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
2719 static void DupScriptInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
2720 static int SetScriptFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
2721
2722 static Jim_ObjType scriptObjType = {
2723 "script",
2724 FreeScriptInternalRep,
2725 DupScriptInternalRep,
2726 NULL,
2727 JIM_TYPE_REFERENCES,
2728 };
2729
2730 /* The ScriptToken structure represents every token into a scriptObj.
2731 * Every token contains an associated Jim_Obj that can be specialized
2732 * by commands operating on it. */
2733 typedef struct ScriptToken {
2734 int type;
2735 Jim_Obj *objPtr;
2736 int linenr;
2737 } ScriptToken;
2738
2739 /* This is the script object internal representation. An array of
2740 * ScriptToken structures, with an associated command structure array.
2741 * The command structure is a pre-computed representation of the
2742 * command length and arguments structure as a simple liner array
2743 * of integers.
2744 *
2745 * For example the script:
2746 *
2747 * puts hello
2748 * set $i $x$y [foo]BAR
2749 *
2750 * will produce a ScriptObj with the following Tokens:
2751 *
2752 * ESC puts
2753 * SEP
2754 * ESC hello
2755 * EOL
2756 * ESC set
2757 * EOL
2758 * VAR i
2759 * SEP
2760 * VAR x
2761 * VAR y
2762 * SEP
2763 * CMD foo
2764 * ESC BAR
2765 * EOL
2766 *
2767 * This is a description of the tokens, separators, and of lines.
2768 * The command structure instead represents the number of arguments
2769 * of every command, followed by the tokens of which every argument
2770 * is composed. So for the example script, the cmdstruct array will
2771 * contain:
2772 *
2773 * 2 1 1 4 1 1 2 2
2774 *
2775 * Because "puts hello" has two args (2), composed of single tokens (1 1)
2776 * While "set $i $x$y [foo]BAR" has four (4) args, the first two
2777 * composed of single tokens (1 1) and the last two of double tokens
2778 * (2 2).
2779 *
2780 * The precomputation of the command structure makes Jim_Eval() faster,
2781 * and simpler because there aren't dynamic lengths / allocations.
2782 *
2783 * -- {expand} handling --
2784 *
2785 * Expand is handled in a special way. When a command
2786 * contains at least an argument with the {expand} prefix,
2787 * the command structure presents a -1 before the integer
2788 * describing the number of arguments. This is used in order
2789 * to send the command exection to a different path in case
2790 * of {expand} and guarantee a fast path for the more common
2791 * case. Also, the integers describing the number of tokens
2792 * are expressed with negative sign, to allow for fast check
2793 * of what's an {expand}-prefixed argument and what not.
2794 *
2795 * For example the command:
2796 *
2797 * list {expand}{1 2}
2798 *
2799 * Will produce the following cmdstruct array:
2800 *
2801 * -1 2 1 -2
2802 *
2803 * -- the substFlags field of the structure --
2804 *
2805 * The scriptObj structure is used to represent both "script" objects
2806 * and "subst" objects. In the second case, the cmdStruct related
2807 * fields are not used at all, but there is an additional field used
2808 * that is 'substFlags': this represents the flags used to turn
2809 * the string into the intenral representation used to perform the
2810 * substitution. If this flags are not what the application requires
2811 * the scriptObj is created again. For example the script:
2812 *
2813 * subst -nocommands $string
2814 * subst -novariables $string
2815 *
2816 * Will recreate the internal representation of the $string object
2817 * two times.
2818 */
2819 typedef struct ScriptObj {
2820 int len; /* Length as number of tokens. */
2821 int commands; /* number of top-level commands in script. */
2822 ScriptToken *token; /* Tokens array. */
2823 int *cmdStruct; /* commands structure */
2824 int csLen; /* length of the cmdStruct array. */
2825 int substFlags; /* flags used for the compilation of "subst" objects */
2826 int inUse; /* Used to share a ScriptObj. Currently
2827 only used by Jim_EvalObj() as protection against
2828 shimmering of the currently evaluated object. */
2829 char *fileName;
2830 } ScriptObj;
2831
2832 void FreeScriptInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
2833 {
2834 int i;
2835 struct ScriptObj *script = (void*) objPtr->internalRep.ptr;
2836
2837 if (!script)
2838 return;
2839
2840 script->inUse--;
2841 if (script->inUse != 0) return;
2842 for (i = 0; i < script->len; i++) {
2843 if (script->token[i].objPtr != NULL)
2844 Jim_DecrRefCount(interp, script->token[i].objPtr);
2845 }
2846 Jim_Free(script->token);
2847 Jim_Free(script->cmdStruct);
2848 Jim_Free(script->fileName);
2849 Jim_Free(script);
2850 }
2851
2852 void DupScriptInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
2853 {
2854 JIM_NOTUSED(interp);
2855 JIM_NOTUSED(srcPtr);
2856
2857 /* Just returns an simple string. */
2858 dupPtr->typePtr = NULL;
2859 }
2860
2861 /* Add a new token to the internal repr of a script object */
2862 static void ScriptObjAddToken(Jim_Interp *interp, struct ScriptObj *script,
2863 char *strtoken, int len, int type, char *filename, int linenr)
2864 {
2865 int prevtype;
2866 struct ScriptToken *token;
2867
2868 prevtype = (script->len == 0) ? JIM_TT_EOL : \
2869 script->token[script->len-1].type;
2870 /* Skip tokens without meaning, like words separators
2871 * following a word separator or an end of command and
2872 * so on. */
2873 if (prevtype == JIM_TT_EOL) {
2874 if (type == JIM_TT_EOL || type == JIM_TT_SEP) {
2875 Jim_Free(strtoken);
2876 return;
2877 }
2878 } else if (prevtype == JIM_TT_SEP) {
2879 if (type == JIM_TT_SEP) {
2880 Jim_Free(strtoken);
2881 return;
2882 } else if (type == JIM_TT_EOL) {
2883 /* If an EOL is following by a SEP, drop the previous
2884 * separator. */
2885 script->len--;
2886 Jim_DecrRefCount(interp, script->token[script->len].objPtr);
2887 }
2888 } else if (prevtype != JIM_TT_EOL && prevtype != JIM_TT_SEP &&
2889 type == JIM_TT_ESC && len == 0)
2890 {
2891 /* Don't add empty tokens used in interpolation */
2892 Jim_Free(strtoken);
2893 return;
2894 }
2895 /* Make space for a new istruction */
2896 script->len++;
2897 script->token = Jim_Realloc(script->token,
2898 sizeof(ScriptToken)*script->len);
2899 /* Initialize the new token */
2900 token = script->token + (script->len-1);
2901 token->type = type;
2902 /* Every object is intially as a string, but the
2903 * internal type may be specialized during execution of the
2904 * script. */
2905 token->objPtr = Jim_NewStringObjNoAlloc(interp, strtoken, len);
2906 /* To add source info to SEP and EOL tokens is useless because
2907 * they will never by called as arguments of Jim_EvalObj(). */
2908 if (filename && type != JIM_TT_SEP && type != JIM_TT_EOL)
2909 JimSetSourceInfo(interp, token->objPtr, filename, linenr);
2910 Jim_IncrRefCount(token->objPtr);
2911 token->linenr = linenr;
2912 }
2913
2914 /* Add an integer into the command structure field of the script object. */
2915 static void ScriptObjAddInt(struct ScriptObj *script, int val)
2916 {
2917 script->csLen++;
2918 script->cmdStruct = Jim_Realloc(script->cmdStruct,
2919 sizeof(int)*script->csLen);
2920 script->cmdStruct[script->csLen-1] = val;
2921 }
2922
2923 /* Search a Jim_Obj contained in 'script' with the same stinrg repr.
2924 * of objPtr. Search nested script objects recursively. */
2925 static Jim_Obj *ScriptSearchLiteral(Jim_Interp *interp, ScriptObj *script,
2926 ScriptObj *scriptBarrier, Jim_Obj *objPtr)
2927 {
2928 int i;
2929
2930 for (i = 0; i < script->len; i++) {
2931 if (script->token[i].objPtr != objPtr &&
2932 Jim_StringEqObj(script->token[i].objPtr, objPtr, 0)) {
2933 return script->token[i].objPtr;
2934 }
2935 /* Enter recursively on scripts only if the object
2936 * is not the same as the one we are searching for
2937 * shared occurrences. */
2938 if (script->token[i].objPtr->typePtr == &scriptObjType &&
2939 script->token[i].objPtr != objPtr) {
2940 Jim_Obj *foundObjPtr;
2941
2942 ScriptObj *subScript =
2943 script->token[i].objPtr->internalRep.ptr;
2944 /* Don't recursively enter the script we are trying
2945 * to make shared to avoid circular references. */
2946 if (subScript == scriptBarrier) continue;
2947 if (subScript != script) {
2948 foundObjPtr =
2949 ScriptSearchLiteral(interp, subScript,
2950 scriptBarrier, objPtr);
2951 if (foundObjPtr != NULL)
2952 return foundObjPtr;
2953 }
2954 }
2955 }
2956 return NULL;
2957 }
2958
2959 /* Share literals of a script recursively sharing sub-scripts literals. */
2960 static void ScriptShareLiterals(Jim_Interp *interp, ScriptObj *script,
2961 ScriptObj *topLevelScript)
2962 {
2963 int i, j;
2964
2965 return;
2966 /* Try to share with toplevel object. */
2967 if (topLevelScript != NULL) {
2968 for (i = 0; i < script->len; i++) {
2969 Jim_Obj *foundObjPtr;
2970 char *str = script->token[i].objPtr->bytes;
2971
2972 if (script->token[i].objPtr->refCount != 1) continue;
2973 if (script->token[i].objPtr->typePtr == &scriptObjType) continue;
2974 if (strchr(str, ' ') || strchr(str, '\n')) continue;
2975 foundObjPtr = ScriptSearchLiteral(interp,
2976 topLevelScript,
2977 script, /* barrier */
2978 script->token[i].objPtr);
2979 if (foundObjPtr != NULL) {
2980 Jim_IncrRefCount(foundObjPtr);
2981 Jim_DecrRefCount(interp,
2982 script->token[i].objPtr);
2983 script->token[i].objPtr = foundObjPtr;
2984 }
2985 }
2986 }
2987 /* Try to share locally */
2988 for (i = 0; i < script->len; i++) {
2989 char *str = script->token[i].objPtr->bytes;
2990
2991 if (script->token[i].objPtr->refCount != 1) continue;
2992 if (strchr(str, ' ') || strchr(str, '\n')) continue;
2993 for (j = 0; j < script->len; j++) {
2994 if (script->token[i].objPtr !=
2995 script->token[j].objPtr &&
2996 Jim_StringEqObj(script->token[i].objPtr,
2997 script->token[j].objPtr, 0))
2998 {
2999 Jim_IncrRefCount(script->token[j].objPtr);
3000 Jim_DecrRefCount(interp,
3001 script->token[i].objPtr);
3002 script->token[i].objPtr =
3003 script->token[j].objPtr;
3004 }
3005 }
3006 }
3007 }
3008
3009 /* This method takes the string representation of an object
3010 * as a Tcl script, and generates the pre-parsed internal representation
3011 * of the script. */
3012 int SetScriptFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
3013 {
3014 int scriptTextLen;
3015 const char *scriptText = Jim_GetString(objPtr, &scriptTextLen);
3016 struct JimParserCtx parser;
3017 struct ScriptObj *script = Jim_Alloc(sizeof(*script));
3018 ScriptToken *token;
3019 int args, tokens, start, end, i;
3020 int initialLineNumber;
3021 int propagateSourceInfo = 0;
3022
3023 script->len = 0;
3024 script->csLen = 0;
3025 script->commands = 0;
3026 script->token = NULL;
3027 script->cmdStruct = NULL;
3028 script->inUse = 1;
3029 /* Try to get information about filename / line number */
3030 if (objPtr->typePtr == &sourceObjType) {
3031 script->fileName =
3032 Jim_StrDup(objPtr->internalRep.sourceValue.fileName);
3033 initialLineNumber = objPtr->internalRep.sourceValue.lineNumber;
3034 propagateSourceInfo = 1;
3035 } else {
3036 script->fileName = Jim_StrDup("");
3037 initialLineNumber = 1;
3038 }
3039
3040 JimParserInit(&parser, scriptText, scriptTextLen, initialLineNumber);
3041 while (!JimParserEof(&parser)) {
3042 char *token_t;
3043 int len, type, linenr;
3044
3045 JimParseScript(&parser);
3046 token_t = JimParserGetToken(&parser, &len, &type, &linenr);
3047 ScriptObjAddToken(interp, script, token_t, len, type,
3048 propagateSourceInfo ? script->fileName : NULL,
3049 linenr);
3050 }
3051 token = script->token;
3052
3053 /* Compute the command structure array
3054 * (see the ScriptObj struct definition for more info) */
3055 start = 0; /* Current command start token index */
3056 end = -1; /* Current command end token index */
3057 while (1) {
3058 int expand = 0; /* expand flag. set to 1 on {expand} form. */
3059 int interpolation = 0; /* set to 1 if there is at least one
3060 argument of the command obtained via
3061 interpolation of more tokens. */
3062 /* Search for the end of command, while
3063 * count the number of args. */
3064 start = ++end;
3065 if (start >= script->len) break;
3066 args = 1; /* Number of args in current command */
3067 while (token[end].type != JIM_TT_EOL) {
3068 if (end == 0 || token[end-1].type == JIM_TT_SEP ||
3069 token[end-1].type == JIM_TT_EOL)
3070 {
3071 if (token[end].type == JIM_TT_STR &&
3072 token[end + 1].type != JIM_TT_SEP &&
3073 token[end + 1].type != JIM_TT_EOL &&
3074 (!strcmp(token[end].objPtr->bytes, "expand") ||
3075 !strcmp(token[end].objPtr->bytes, "*")))
3076 expand++;
3077 }
3078 if (token[end].type == JIM_TT_SEP)
3079 args++;
3080 end++;
3081 }
3082 interpolation = !((end-start + 1) == args*2);
3083 /* Add the 'number of arguments' info into cmdstruct.
3084 * Negative value if there is list expansion involved. */
3085 if (expand)
3086 ScriptObjAddInt(script, -1);
3087 ScriptObjAddInt(script, args);
3088 /* Now add info about the number of tokens. */
3089 tokens = 0; /* Number of tokens in current argument. */
3090 expand = 0;
3091 for (i = start; i <= end; i++) {
3092 if (token[i].type == JIM_TT_SEP ||
3093 token[i].type == JIM_TT_EOL)
3094 {
3095 if (tokens == 1 && expand)
3096 expand = 0;
3097 ScriptObjAddInt(script,
3098 expand ? -tokens : tokens);
3099
3100 expand = 0;
3101 tokens = 0;
3102 continue;
3103 } else if (tokens == 0 && token[i].type == JIM_TT_STR &&
3104 (!strcmp(token[i].objPtr->bytes, "expand") ||
3105 !strcmp(token[i].objPtr->bytes, "*")))
3106 {
3107 expand++;
3108 }
3109 tokens++;
3110 }
3111 }
3112 /* Perform literal sharing, but only for objects that appear
3113 * to be scripts written as literals inside the source code,
3114 * and not computed at runtime. Literal sharing is a costly
3115 * operation that should be done only against objects that
3116 * are likely to require compilation only the first time, and
3117 * then are executed multiple times. */
3118 if (propagateSourceInfo && interp->framePtr->procBodyObjPtr) {
3119 Jim_Obj *bodyObjPtr = interp->framePtr->procBodyObjPtr;
3120 if (bodyObjPtr->typePtr == &scriptObjType) {
3121 ScriptObj *bodyScript =
3122 bodyObjPtr->internalRep.ptr;
3123 ScriptShareLiterals(interp, script, bodyScript);
3124 }
3125 } else if (propagateSourceInfo) {
3126 ScriptShareLiterals(interp, script, NULL);
3127 }
3128 /* Free the old internal rep and set the new one. */
3129 Jim_FreeIntRep(interp, objPtr);
3130 Jim_SetIntRepPtr(objPtr, script);
3131 objPtr->typePtr = &scriptObjType;
3132 return JIM_OK;
3133 }
3134
3135 static ScriptObj *Jim_GetScript(Jim_Interp *interp, Jim_Obj *objPtr)
3136 {
3137 if (objPtr->typePtr != &scriptObjType) {
3138 SetScriptFromAny(interp, objPtr);
3139 }
3140 return (ScriptObj*) Jim_GetIntRepPtr(objPtr);
3141 }
3142
3143 /* -----------------------------------------------------------------------------
3144 * Commands
3145 * ---------------------------------------------------------------------------*/
3146
3147 /* Commands HashTable Type.
3148 *
3149 * Keys are dynamic allocated strings, Values are Jim_Cmd structures. */
3150 static void Jim_CommandsHT_ValDestructor(void *interp, void *val)
3151 {
3152 Jim_Cmd *cmdPtr = (void*) val;
3153
3154 if (cmdPtr->cmdProc == NULL) {
3155 Jim_DecrRefCount(interp, cmdPtr->argListObjPtr);
3156 Jim_DecrRefCount(interp, cmdPtr->bodyObjPtr);
3157 if (cmdPtr->staticVars) {
3158 Jim_FreeHashTable(cmdPtr->staticVars);
3159 Jim_Free(cmdPtr->staticVars);
3160 }
3161 } else if (cmdPtr->delProc != NULL) {
3162 /* If it was a C coded command, call the delProc if any */
3163 cmdPtr->delProc(interp, cmdPtr->privData);
3164 }
3165 Jim_Free(val);
3166 }
3167
3168 static Jim_HashTableType JimCommandsHashTableType = {
3169 JimStringCopyHTHashFunction, /* hash function */
3170 JimStringCopyHTKeyDup, /* key dup */
3171 NULL, /* val dup */
3172 JimStringCopyHTKeyCompare, /* key compare */
3173 JimStringCopyHTKeyDestructor, /* key destructor */
3174 Jim_CommandsHT_ValDestructor /* val destructor */
3175 };
3176
3177 /* ------------------------- Commands related functions --------------------- */
3178
3179 int Jim_CreateCommand(Jim_Interp *interp, const char *cmdName,
3180 Jim_CmdProc cmdProc, void *privData, Jim_DelCmdProc delProc)
3181 {
3182 Jim_HashEntry *he;
3183 Jim_Cmd *cmdPtr;
3184
3185 he = Jim_FindHashEntry(&interp->commands, cmdName);
3186 if (he == NULL) { /* New command to create */
3187 cmdPtr = Jim_Alloc(sizeof(*cmdPtr));
3188 Jim_AddHashEntry(&interp->commands, cmdName, cmdPtr);
3189 } else {
3190 Jim_InterpIncrProcEpoch(interp);
3191 /* Free the arglist/body objects if it was a Tcl procedure */
3192 cmdPtr = he->val;
3193 if (cmdPtr->cmdProc == NULL) {
3194 Jim_DecrRefCount(interp, cmdPtr->argListObjPtr);
3195 Jim_DecrRefCount(interp, cmdPtr->bodyObjPtr);
3196 if (cmdPtr->staticVars) {
3197 Jim_FreeHashTable(cmdPtr->staticVars);
3198 Jim_Free(cmdPtr->staticVars);
3199 }
3200 cmdPtr->staticVars = NULL;
3201 } else if (cmdPtr->delProc != NULL) {
3202 /* If it was a C coded command, call the delProc if any */
3203 cmdPtr->delProc(interp, cmdPtr->privData);
3204 }
3205 }
3206
3207 /* Store the new details for this proc */
3208 cmdPtr->delProc = delProc;
3209 cmdPtr->cmdProc = cmdProc;
3210 cmdPtr->privData = privData;
3211
3212 /* There is no need to increment the 'proc epoch' because
3213 * creation of a new procedure can never affect existing
3214 * cached commands. We don't do negative caching. */
3215 return JIM_OK;
3216 }
3217
3218 int Jim_CreateProcedure(Jim_Interp *interp, const char *cmdName,
3219 Jim_Obj *argListObjPtr, Jim_Obj *staticsListObjPtr, Jim_Obj *bodyObjPtr,
3220 int arityMin, int arityMax)
3221 {
3222 Jim_Cmd *cmdPtr;
3223
3224 cmdPtr = Jim_Alloc(sizeof(*cmdPtr));
3225 cmdPtr->cmdProc = NULL; /* Not a C coded command */
3226 cmdPtr->argListObjPtr = argListObjPtr;
3227 cmdPtr->bodyObjPtr = bodyObjPtr;
3228 Jim_IncrRefCount(argListObjPtr);
3229 Jim_IncrRefCount(bodyObjPtr);
3230 cmdPtr->arityMin = arityMin;
3231 cmdPtr->arityMax = arityMax;
3232 cmdPtr->staticVars = NULL;
3233
3234 /* Create the statics hash table. */
3235 if (staticsListObjPtr) {
3236 int len, i;
3237
3238 Jim_ListLength(interp, staticsListObjPtr, &len);
3239 if (len != 0) {
3240 cmdPtr->staticVars = Jim_Alloc(sizeof(Jim_HashTable));
3241 Jim_InitHashTable(cmdPtr->staticVars, getJimVariablesHashTableType(),
3242 interp);
3243 for (i = 0; i < len; i++) {
3244 Jim_Obj *objPtr=NULL, *initObjPtr=NULL, *nameObjPtr=NULL;
3245 Jim_Var *varPtr;
3246 int subLen;
3247
3248 Jim_ListIndex(interp, staticsListObjPtr, i, &objPtr, JIM_NONE);
3249 /* Check if it's composed of two elements. */
3250 Jim_ListLength(interp, objPtr, &subLen);
3251 if (subLen == 1 || subLen == 2) {
3252 /* Try to get the variable value from the current
3253 * environment. */
3254 Jim_ListIndex(interp, objPtr, 0, &nameObjPtr, JIM_NONE);
3255 if (subLen == 1) {
3256 initObjPtr = Jim_GetVariable(interp, nameObjPtr,
3257 JIM_NONE);
3258 if (initObjPtr == NULL) {
3259 Jim_SetResult(interp,
3260 Jim_NewEmptyStringObj(interp));
3261 Jim_AppendStrings(interp, Jim_GetResult(interp),
3262 "variable for initialization of static \"",
3263 Jim_GetString(nameObjPtr, NULL),
3264 "\" not found in the local context",
3265 NULL);
3266 goto err;
3267 }
3268 } else {
3269 Jim_ListIndex(interp, objPtr, 1, &initObjPtr, JIM_NONE);
3270 }
3271 varPtr = Jim_Alloc(sizeof(*varPtr));
3272 varPtr->objPtr = initObjPtr;
3273 Jim_IncrRefCount(initObjPtr);
3274 varPtr->linkFramePtr = NULL;
3275 if (Jim_AddHashEntry(cmdPtr->staticVars,
3276 Jim_GetString(nameObjPtr, NULL),
3277 varPtr) != JIM_OK)
3278 {
3279 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3280 Jim_AppendStrings(interp, Jim_GetResult(interp),
3281 "static variable name \"",
3282 Jim_GetString(objPtr, NULL), "\"",
3283 " duplicated in statics list", NULL);
3284 Jim_DecrRefCount(interp, initObjPtr);
3285 Jim_Free(varPtr);
3286 goto err;
3287 }
3288 } else {
3289 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3290 Jim_AppendStrings(interp, Jim_GetResult(interp),
3291 "too many fields in static specifier \"",
3292 objPtr, "\"", NULL);
3293 goto err;
3294 }
3295 }
3296 }
3297 }
3298
3299 /* Add the new command */
3300
3301 /* it may already exist, so we try to delete the old one */
3302 if (Jim_DeleteHashEntry(&interp->commands, cmdName) != JIM_ERR) {
3303 /* There was an old procedure with the same name, this requires
3304 * a 'proc epoch' update. */
3305 Jim_InterpIncrProcEpoch(interp);
3306 }
3307 /* If a procedure with the same name didn't existed there is no need
3308 * to increment the 'proc epoch' because creation of a new procedure
3309 * can never affect existing cached commands. We don't do
3310 * negative caching. */
3311 Jim_AddHashEntry(&interp->commands, cmdName, cmdPtr);
3312 return JIM_OK;
3313
3314 err:
3315 Jim_FreeHashTable(cmdPtr->staticVars);
3316 Jim_Free(cmdPtr->staticVars);
3317 Jim_DecrRefCount(interp, argListObjPtr);
3318 Jim_DecrRefCount(interp, bodyObjPtr);
3319 Jim_Free(cmdPtr);
3320 return JIM_ERR;
3321 }
3322
3323 int Jim_DeleteCommand(Jim_Interp *interp, const char *cmdName)
3324 {
3325 if (Jim_DeleteHashEntry(&interp->commands, cmdName) == JIM_ERR)
3326 return JIM_ERR;
3327 Jim_InterpIncrProcEpoch(interp);
3328 return JIM_OK;
3329 }
3330
3331 int Jim_RenameCommand(Jim_Interp *interp, const char *oldName,
3332 const char *newName)
3333 {
3334 Jim_Cmd *cmdPtr;
3335 Jim_HashEntry *he;
3336 Jim_Cmd *copyCmdPtr;
3337
3338 if (newName[0] == '\0') /* Delete! */
3339 return Jim_DeleteCommand(interp, oldName);
3340 /* Rename */
3341 he = Jim_FindHashEntry(&interp->commands, oldName);
3342 if (he == NULL)
3343 return JIM_ERR; /* Invalid command name */
3344 cmdPtr = he->val;
3345 copyCmdPtr = Jim_Alloc(sizeof(Jim_Cmd));
3346 *copyCmdPtr = *cmdPtr;
3347 /* In order to avoid that a procedure will get arglist/body/statics
3348 * freed by the hash table methods, fake a C-coded command
3349 * setting cmdPtr->cmdProc as not NULL */
3350 cmdPtr->cmdProc = (void*)1;
3351 /* Also make sure delProc is NULL. */
3352 cmdPtr->delProc = NULL;
3353 /* Destroy the old command, and make sure the new is freed
3354 * as well. */
3355 Jim_DeleteHashEntry(&interp->commands, oldName);
3356 Jim_DeleteHashEntry(&interp->commands, newName);
3357 /* Now the new command. We are sure it can't fail because
3358 * the target name was already freed. */
3359 Jim_AddHashEntry(&interp->commands, newName, copyCmdPtr);
3360 /* Increment the epoch */
3361 Jim_InterpIncrProcEpoch(interp);
3362 return JIM_OK;
3363 }
3364
3365 /* -----------------------------------------------------------------------------
3366 * Command object
3367 * ---------------------------------------------------------------------------*/
3368
3369 static int SetCommandFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
3370
3371 static Jim_ObjType commandObjType = {
3372 "command",
3373 NULL,
3374 NULL,
3375 NULL,
3376 JIM_TYPE_REFERENCES,
3377 };
3378
3379 int SetCommandFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
3380 {
3381 Jim_HashEntry *he;
3382 const char *cmdName;
3383
3384 /* Get the string representation */
3385 cmdName = Jim_GetString(objPtr, NULL);
3386 /* Lookup this name into the commands hash table */
3387 he = Jim_FindHashEntry(&interp->commands, cmdName);
3388 if (he == NULL)
3389 return JIM_ERR;
3390
3391 /* Free the old internal repr and set the new one. */
3392 Jim_FreeIntRep(interp, objPtr);
3393 objPtr->typePtr = &commandObjType;
3394 objPtr->internalRep.cmdValue.procEpoch = interp->procEpoch;
3395 objPtr->internalRep.cmdValue.cmdPtr = (void*)he->val;
3396 return JIM_OK;
3397 }
3398
3399 /* This function returns the command structure for the command name
3400 * stored in objPtr. It tries to specialize the objPtr to contain
3401 * a cached info instead to perform the lookup into the hash table
3402 * every time. The information cached may not be uptodate, in such
3403 * a case the lookup is performed and the cache updated. */
3404 Jim_Cmd *Jim_GetCommand(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
3405 {
3406 if ((objPtr->typePtr != &commandObjType ||
3407 objPtr->internalRep.cmdValue.procEpoch != interp->procEpoch) &&
3408 SetCommandFromAny(interp, objPtr) == JIM_ERR) {
3409 if (flags & JIM_ERRMSG) {
3410 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3411 Jim_AppendStrings(interp, Jim_GetResult(interp),
3412 "invalid command name \"", objPtr->bytes, "\"",
3413 NULL);
3414 }
3415 return NULL;
3416 }
3417 return objPtr->internalRep.cmdValue.cmdPtr;
3418 }
3419
3420 /* -----------------------------------------------------------------------------
3421 * Variables
3422 * ---------------------------------------------------------------------------*/
3423
3424 /* Variables HashTable Type.
3425 *
3426 * Keys are dynamic allocated strings, Values are Jim_Var structures. */
3427 static void JimVariablesHTValDestructor(void *interp, void *val)
3428 {
3429 Jim_Var *varPtr = (void*) val;
3430
3431 Jim_DecrRefCount(interp, varPtr->objPtr);
3432 Jim_Free(val);
3433 }
3434
3435 static Jim_HashTableType JimVariablesHashTableType = {
3436 JimStringCopyHTHashFunction, /* hash function */
3437 JimStringCopyHTKeyDup, /* key dup */
3438 NULL, /* val dup */
3439 JimStringCopyHTKeyCompare, /* key compare */
3440 JimStringCopyHTKeyDestructor, /* key destructor */
3441 JimVariablesHTValDestructor /* val destructor */
3442 };
3443
3444 static Jim_HashTableType *getJimVariablesHashTableType(void)
3445 {
3446 return &JimVariablesHashTableType;
3447 }
3448
3449 /* -----------------------------------------------------------------------------
3450 * Variable object
3451 * ---------------------------------------------------------------------------*/
3452
3453 #define JIM_DICT_SUGAR 100 /* Only returned by SetVariableFromAny() */
3454
3455 static int SetVariableFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
3456
3457 static Jim_ObjType variableObjType = {
3458 "variable",
3459 NULL,
3460 NULL,
3461 NULL,
3462 JIM_TYPE_REFERENCES,
3463 };
3464
3465 /* Return true if the string "str" looks like syntax sugar for [dict]. I.e.
3466 * is in the form "varname(key)". */
3467 static int Jim_NameIsDictSugar(const char *str, int len)
3468 {
3469 if (len == -1)
3470 len = strlen(str);
3471 if (len && str[len-1] == ')' && strchr(str, '(') != NULL)
3472 return 1;
3473 return 0;
3474 }
3475
3476 /* This method should be called only by the variable API.
3477 * It returns JIM_OK on success (variable already exists),
3478 * JIM_ERR if it does not exists, JIM_DICT_GLUE if it's not
3479 * a variable name, but syntax glue for [dict] i.e. the last
3480 * character is ')' */
3481 int SetVariableFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
3482 {
3483 Jim_HashEntry *he;
3484 const char *varName;
3485 int len;
3486
3487 /* Check if the object is already an uptodate variable */
3488 if (objPtr->typePtr == &variableObjType &&
3489 objPtr->internalRep.varValue.callFrameId == interp->framePtr->id)
3490 return JIM_OK; /* nothing to do */
3491 /* Get the string representation */
3492 varName = Jim_GetString(objPtr, &len);
3493 /* Make sure it's not syntax glue to get/set dict. */
3494 if (Jim_NameIsDictSugar(varName, len))
3495 return JIM_DICT_SUGAR;
3496 if (varName[0] == ':' && varName[1] == ':') {
3497 he = Jim_FindHashEntry(&interp->topFramePtr->vars, varName + 2);
3498 if (he == NULL) {
3499 return JIM_ERR;
3500 }
3501 }
3502 else {
3503 /* Lookup this name into the variables hash table */
3504 he = Jim_FindHashEntry(&interp->framePtr->vars, varName);
3505 if (he == NULL) {
3506 /* Try with static vars. */
3507 if (interp->framePtr->staticVars == NULL)
3508 return JIM_ERR;
3509 if (!(he = Jim_FindHashEntry(interp->framePtr->staticVars, varName)))
3510 return JIM_ERR;
3511 }
3512 }
3513 /* Free the old internal repr and set the new one. */
3514 Jim_FreeIntRep(interp, objPtr);
3515 objPtr->typePtr = &variableObjType;
3516 objPtr->internalRep.varValue.callFrameId = interp->framePtr->id;
3517 objPtr->internalRep.varValue.varPtr = (void*)he->val;
3518 return JIM_OK;
3519 }
3520
3521 /* -------------------- Variables related functions ------------------------- */
3522 static int JimDictSugarSet(Jim_Interp *interp, Jim_Obj *ObjPtr,
3523 Jim_Obj *valObjPtr);
3524 static Jim_Obj *JimDictSugarGet(Jim_Interp *interp, Jim_Obj *ObjPtr);
3525
3526 /* For now that's dummy. Variables lookup should be optimized
3527 * in many ways, with caching of lookups, and possibly with
3528 * a table of pre-allocated vars in every CallFrame for local vars.
3529 * All the caching should also have an 'epoch' mechanism similar
3530 * to the one used by Tcl for procedures lookup caching. */
3531
3532 int Jim_SetVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, Jim_Obj *valObjPtr)
3533 {
3534 const char *name;
3535 Jim_Var *var;
3536 int err;
3537
3538 if ((err = SetVariableFromAny(interp, nameObjPtr)) != JIM_OK) {
3539 /* Check for [dict] syntax sugar. */
3540 if (err == JIM_DICT_SUGAR)
3541 return JimDictSugarSet(interp, nameObjPtr, valObjPtr);
3542 /* New variable to create */
3543 name = Jim_GetString(nameObjPtr, NULL);
3544
3545 var = Jim_Alloc(sizeof(*var));
3546 var->objPtr = valObjPtr;
3547 Jim_IncrRefCount(valObjPtr);
3548 var->linkFramePtr = NULL;
3549 /* Insert the new variable */
3550 if (name[0] == ':' && name[1] == ':') {
3551 /* Into to the top evel frame */
3552 Jim_AddHashEntry(&interp->topFramePtr->vars, name + 2, var);
3553 }
3554 else {
3555 Jim_AddHashEntry(&interp->framePtr->vars, name, var);
3556 }
3557 /* Make the object int rep a variable */
3558 Jim_FreeIntRep(interp, nameObjPtr);
3559 nameObjPtr->typePtr = &variableObjType;
3560 nameObjPtr->internalRep.varValue.callFrameId =
3561 interp->framePtr->id;
3562 nameObjPtr->internalRep.varValue.varPtr = var;
3563 } else {
3564 var = nameObjPtr->internalRep.varValue.varPtr;
3565 if (var->linkFramePtr == NULL) {
3566 Jim_IncrRefCount(valObjPtr);
3567 Jim_DecrRefCount(interp, var->objPtr);
3568 var->objPtr = valObjPtr;
3569 } else { /* Else handle the link */
3570 Jim_CallFrame *savedCallFrame;
3571
3572 savedCallFrame = interp->framePtr;
3573 interp->framePtr = var->linkFramePtr;
3574 err = Jim_SetVariable(interp, var->objPtr, valObjPtr);
3575 interp->framePtr = savedCallFrame;
3576 if (err != JIM_OK)
3577 return err;
3578 }
3579 }
3580 return JIM_OK;
3581 }
3582
3583 int Jim_SetVariableStr(Jim_Interp *interp, const char *name, Jim_Obj *objPtr)
3584 {
3585 Jim_Obj *nameObjPtr;
3586 int result;
3587
3588 nameObjPtr = Jim_NewStringObj(interp, name, -1);
3589 Jim_IncrRefCount(nameObjPtr);
3590 result = Jim_SetVariable(interp, nameObjPtr, objPtr);
3591 Jim_DecrRefCount(interp, nameObjPtr);
3592 return result;
3593 }
3594
3595 int Jim_SetGlobalVariableStr(Jim_Interp *interp, const char *name, Jim_Obj *objPtr)
3596 {
3597 Jim_CallFrame *savedFramePtr;
3598 int result;
3599
3600 savedFramePtr = interp->framePtr;
3601 interp->framePtr = interp->topFramePtr;
3602 result = Jim_SetVariableStr(interp, name, objPtr);
3603 interp->framePtr = savedFramePtr;
3604 return result;
3605 }
3606
3607 int Jim_SetVariableStrWithStr(Jim_Interp *interp, const char *name, const char *val)
3608 {
3609 Jim_Obj *nameObjPtr, *valObjPtr;
3610 int result;
3611
3612 nameObjPtr = Jim_NewStringObj(interp, name, -1);
3613 valObjPtr = Jim_NewStringObj(interp, val, -1);
3614 Jim_IncrRefCount(nameObjPtr);
3615 Jim_IncrRefCount(valObjPtr);
3616 result = Jim_SetVariable(interp, nameObjPtr, valObjPtr);
3617 Jim_DecrRefCount(interp, nameObjPtr);
3618 Jim_DecrRefCount(interp, valObjPtr);
3619 return result;
3620 }
3621
3622 int Jim_SetVariableLink(Jim_Interp *interp, Jim_Obj *nameObjPtr,
3623 Jim_Obj *targetNameObjPtr, Jim_CallFrame *targetCallFrame)
3624 {
3625 const char *varName;
3626 int len;
3627
3628 /* Check for cycles. */
3629 if (interp->framePtr == targetCallFrame) {
3630 Jim_Obj *objPtr = targetNameObjPtr;
3631 Jim_Var *varPtr;
3632 /* Cycles are only possible with 'uplevel 0' */
3633 while (1) {
3634 if (Jim_StringEqObj(objPtr, nameObjPtr, 0)) {
3635 Jim_SetResultString(interp,
3636 "can't upvar from variable to itself", -1);
3637 return JIM_ERR;
3638 }
3639 if (SetVariableFromAny(interp, objPtr) != JIM_OK)
3640 break;
3641 varPtr = objPtr->internalRep.varValue.varPtr;
3642 if (varPtr->linkFramePtr != targetCallFrame) break;
3643 objPtr = varPtr->objPtr;
3644 }
3645 }
3646 varName = Jim_GetString(nameObjPtr, &len);
3647 if (Jim_NameIsDictSugar(varName, len)) {
3648 Jim_SetResultString(interp,
3649 "Dict key syntax invalid as link source", -1);
3650 return JIM_ERR;
3651 }
3652 /* Perform the binding */
3653 Jim_SetVariable(interp, nameObjPtr, targetNameObjPtr);
3654 /* We are now sure 'nameObjPtr' type is variableObjType */
3655 nameObjPtr->internalRep.varValue.varPtr->linkFramePtr = targetCallFrame;
3656 return JIM_OK;
3657 }
3658
3659 /* Return the Jim_Obj pointer associated with a variable name,
3660 * or NULL if the variable was not found in the current context.
3661 * The same optimization discussed in the comment to the
3662 * 'SetVariable' function should apply here. */
3663 Jim_Obj *Jim_GetVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, int flags)
3664 {
3665 int err;
3666
3667 /* All the rest is handled here */
3668 if ((err = SetVariableFromAny(interp, nameObjPtr)) != JIM_OK) {
3669 /* Check for [dict] syntax sugar. */
3670 if (err == JIM_DICT_SUGAR)
3671 return JimDictSugarGet(interp, nameObjPtr);
3672 if (flags & JIM_ERRMSG) {
3673 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3674 Jim_AppendStrings(interp, Jim_GetResult(interp),
3675 "can't read \"", nameObjPtr->bytes,
3676 "\": no such variable", NULL);
3677 }
3678 return NULL;
3679 } else {
3680 Jim_Var *varPtr;
3681 Jim_Obj *objPtr;
3682 Jim_CallFrame *savedCallFrame;
3683
3684 varPtr = nameObjPtr->internalRep.varValue.varPtr;
3685 if (varPtr->linkFramePtr == NULL)
3686 return varPtr->objPtr;
3687 /* The variable is a link? Resolve it. */
3688 savedCallFrame = interp->framePtr;
3689 interp->framePtr = varPtr->linkFramePtr;
3690 objPtr = Jim_GetVariable(interp, varPtr->objPtr, JIM_NONE);
3691 if (objPtr == NULL && flags & JIM_ERRMSG) {
3692 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3693 Jim_AppendStrings(interp, Jim_GetResult(interp),
3694 "can't read \"", nameObjPtr->bytes,
3695 "\": no such variable", NULL);
3696 }
3697 interp->framePtr = savedCallFrame;
3698 return objPtr;
3699 }
3700 }
3701
3702 Jim_Obj *Jim_GetGlobalVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr,
3703 int flags)
3704 {
3705 Jim_CallFrame *savedFramePtr;
3706 Jim_Obj *objPtr;
3707
3708 savedFramePtr = interp->framePtr;
3709 interp->framePtr = interp->topFramePtr;
3710 objPtr = Jim_GetVariable(interp, nameObjPtr, flags);
3711 interp->framePtr = savedFramePtr;
3712
3713 return objPtr;
3714 }
3715
3716 Jim_Obj *Jim_GetVariableStr(Jim_Interp *interp, const char *name, int flags)
3717 {
3718 Jim_Obj *nameObjPtr, *varObjPtr;
3719
3720 nameObjPtr = Jim_NewStringObj(interp, name, -1);
3721 Jim_IncrRefCount(nameObjPtr);
3722 varObjPtr = Jim_GetVariable(interp, nameObjPtr, flags);
3723 Jim_DecrRefCount(interp, nameObjPtr);
3724 return varObjPtr;
3725 }
3726
3727 Jim_Obj *Jim_GetGlobalVariableStr(Jim_Interp *interp, const char *name,
3728 int flags)
3729 {
3730 Jim_CallFrame *savedFramePtr;
3731 Jim_Obj *objPtr;
3732
3733 savedFramePtr = interp->framePtr;
3734 interp->framePtr = interp->topFramePtr;
3735 objPtr = Jim_GetVariableStr(interp, name, flags);
3736 interp->framePtr = savedFramePtr;
3737
3738 return objPtr;
3739 }
3740
3741 /* Unset a variable.
3742 * Note: On success unset invalidates all the variable objects created
3743 * in the current call frame incrementing. */
3744 int Jim_UnsetVariable(Jim_Interp *interp, Jim_Obj *nameObjPtr, int flags)
3745 {
3746 const char *name;
3747 Jim_Var *varPtr;
3748 int err;
3749
3750 if ((err = SetVariableFromAny(interp, nameObjPtr)) != JIM_OK) {
3751 /* Check for [dict] syntax sugar. */
3752 if (err == JIM_DICT_SUGAR)
3753 return JimDictSugarSet(interp, nameObjPtr, NULL);
3754 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3755 Jim_AppendStrings(interp, Jim_GetResult(interp),
3756 "can't unset \"", nameObjPtr->bytes,
3757 "\": no such variable", NULL);
3758 return JIM_ERR; /* var not found */
3759 }
3760 varPtr = nameObjPtr->internalRep.varValue.varPtr;
3761 /* If it's a link call UnsetVariable recursively */
3762 if (varPtr->linkFramePtr) {
3763 int retval;
3764
3765 Jim_CallFrame *savedCallFrame;
3766
3767 savedCallFrame = interp->framePtr;
3768 interp->framePtr = varPtr->linkFramePtr;
3769 retval = Jim_UnsetVariable(interp, varPtr->objPtr, JIM_NONE);
3770 interp->framePtr = savedCallFrame;
3771 if (retval != JIM_OK && flags & JIM_ERRMSG) {
3772 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
3773 Jim_AppendStrings(interp, Jim_GetResult(interp),
3774 "can't unset \"", nameObjPtr->bytes,
3775 "\": no such variable", NULL);
3776 }
3777 return retval;
3778 } else {
3779 name = Jim_GetString(nameObjPtr, NULL);
3780 if (Jim_DeleteHashEntry(&interp->framePtr->vars, name)
3781 != JIM_OK) return JIM_ERR;
3782 /* Change the callframe id, invalidating var lookup caching */
3783 JimChangeCallFrameId(interp, interp->framePtr);
3784 return JIM_OK;
3785 }
3786 }
3787
3788 /* ---------- Dict syntax sugar (similar to array Tcl syntax) -------------- */
3789
3790 /* Given a variable name for [dict] operation syntax sugar,
3791 * this function returns two objects, the first with the name
3792 * of the variable to set, and the second with the rispective key.
3793 * For example "foo(bar)" will return objects with string repr. of
3794 * "foo" and "bar".
3795 *
3796 * The returned objects have refcount = 1. The function can't fail. */
3797 static void JimDictSugarParseVarKey(Jim_Interp *interp, Jim_Obj *objPtr,
3798 Jim_Obj **varPtrPtr, Jim_Obj **keyPtrPtr)
3799 {
3800 const char *str, *p;
3801 char *t;
3802 int len, keyLen, nameLen;
3803 Jim_Obj *varObjPtr, *keyObjPtr;
3804
3805 str = Jim_GetString(objPtr, &len);
3806 p = strchr(str, '(');
3807 p++;
3808 keyLen = len-((p-str) + 1);
3809 nameLen = (p-str)-1;
3810 /* Create the objects with the variable name and key. */
3811 t = Jim_Alloc(nameLen + 1);
3812 memcpy(t, str, nameLen);
3813 t[nameLen] = '\0';
3814 varObjPtr = Jim_NewStringObjNoAlloc(interp, t, nameLen);
3815
3816 t = Jim_Alloc(keyLen + 1);
3817 memcpy(t, p, keyLen);
3818 t[keyLen] = '\0';
3819 keyObjPtr = Jim_NewStringObjNoAlloc(interp, t, keyLen);
3820
3821 Jim_IncrRefCount(varObjPtr);
3822 Jim_IncrRefCount(keyObjPtr);
3823 *varPtrPtr = varObjPtr;
3824 *keyPtrPtr = keyObjPtr;
3825 }
3826
3827 /* Helper of Jim_SetVariable() to deal with dict-syntax variable names.
3828 * Also used by Jim_UnsetVariable() with valObjPtr = NULL. */
3829 static int JimDictSugarSet(Jim_Interp *interp, Jim_Obj *objPtr,
3830 Jim_Obj *valObjPtr)
3831 {
3832 Jim_Obj *varObjPtr, *keyObjPtr;
3833 int err = JIM_OK;
3834
3835 JimDictSugarParseVarKey(interp, objPtr, &varObjPtr, &keyObjPtr);
3836 err = Jim_SetDictKeysVector(interp, varObjPtr, &keyObjPtr, 1,
3837 valObjPtr);
3838 Jim_DecrRefCount(interp, varObjPtr);
3839 Jim_DecrRefCount(interp, keyObjPtr);
3840 return err;
3841 }
3842
3843 /* Helper of Jim_GetVariable() to deal with dict-syntax variable names */
3844 static Jim_Obj *JimDictSugarGet(Jim_Interp *interp, Jim_Obj *objPtr)
3845 {
3846 Jim_Obj *varObjPtr, *keyObjPtr, *dictObjPtr, *resObjPtr;
3847
3848 JimDictSugarParseVarKey(interp, objPtr, &varObjPtr, &keyObjPtr);
3849 dictObjPtr = Jim_GetVariable(interp, varObjPtr, JIM_ERRMSG);
3850 if (!dictObjPtr) {
3851 resObjPtr = NULL;
3852 goto err;
3853 }
3854 if (Jim_DictKey(interp, dictObjPtr, keyObjPtr, &resObjPtr, JIM_ERRMSG)
3855 != JIM_OK) {
3856 resObjPtr = NULL;
3857 }
3858 err:
3859 Jim_DecrRefCount(interp, varObjPtr);
3860 Jim_DecrRefCount(interp, keyObjPtr);
3861 return resObjPtr;
3862 }
3863
3864 /* --------- $var(INDEX) substitution, using a specialized object ----------- */
3865
3866 static void FreeDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
3867 static void DupDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr,
3868 Jim_Obj *dupPtr);
3869
3870 static Jim_ObjType dictSubstObjType = {
3871 "dict-substitution",
3872 FreeDictSubstInternalRep,
3873 DupDictSubstInternalRep,
3874 NULL,
3875 JIM_TYPE_NONE,
3876 };
3877
3878 void FreeDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
3879 {
3880 Jim_DecrRefCount(interp, objPtr->internalRep.dictSubstValue.varNameObjPtr);
3881 Jim_DecrRefCount(interp, objPtr->internalRep.dictSubstValue.indexObjPtr);
3882 }
3883
3884 void DupDictSubstInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr,
3885 Jim_Obj *dupPtr)
3886 {
3887 JIM_NOTUSED(interp);
3888
3889 dupPtr->internalRep.dictSubstValue.varNameObjPtr =
3890 srcPtr->internalRep.dictSubstValue.varNameObjPtr;
3891 dupPtr->internalRep.dictSubstValue.indexObjPtr =
3892 srcPtr->internalRep.dictSubstValue.indexObjPtr;
3893 dupPtr->typePtr = &dictSubstObjType;
3894 }
3895
3896 /* This function is used to expand [dict get] sugar in the form
3897 * of $var(INDEX). The function is mainly used by Jim_EvalObj()
3898 * to deal with tokens of type JIM_TT_DICTSUGAR. objPtr points to an
3899 * object that is *guaranteed* to be in the form VARNAME(INDEX).
3900 * The 'index' part is [subst]ituted, and is used to lookup a key inside
3901 * the [dict]ionary contained in variable VARNAME. */
3902 static Jim_Obj *Jim_ExpandDictSugar(Jim_Interp *interp, Jim_Obj *objPtr)
3903 {
3904 Jim_Obj *varObjPtr, *keyObjPtr, *dictObjPtr, *resObjPtr;
3905 Jim_Obj *substKeyObjPtr = NULL;
3906
3907 if (objPtr->typePtr != &dictSubstObjType) {
3908 JimDictSugarParseVarKey(interp, objPtr, &varObjPtr, &keyObjPtr);
3909 Jim_FreeIntRep(interp, objPtr);
3910 objPtr->typePtr = &dictSubstObjType;
3911 objPtr->internalRep.dictSubstValue.varNameObjPtr = varObjPtr;
3912 objPtr->internalRep.dictSubstValue.indexObjPtr = keyObjPtr;
3913 }
3914 if (Jim_SubstObj(interp, objPtr->internalRep.dictSubstValue.indexObjPtr,
3915 &substKeyObjPtr, JIM_NONE)
3916 != JIM_OK) {
3917 substKeyObjPtr = NULL;
3918 goto err;
3919 }
3920 Jim_IncrRefCount(substKeyObjPtr);
3921 dictObjPtr = Jim_GetVariable(interp,
3922 objPtr->internalRep.dictSubstValue.varNameObjPtr, JIM_ERRMSG);
3923 if (!dictObjPtr) {
3924 resObjPtr = NULL;
3925 goto err;
3926 }
3927 if (Jim_DictKey(interp, dictObjPtr, substKeyObjPtr, &resObjPtr, JIM_ERRMSG)
3928 != JIM_OK) {
3929 resObjPtr = NULL;
3930 goto err;
3931 }
3932 err:
3933 if (substKeyObjPtr) Jim_DecrRefCount(interp, substKeyObjPtr);
3934 return resObjPtr;
3935 }
3936
3937 /* -----------------------------------------------------------------------------
3938 * CallFrame
3939 * ---------------------------------------------------------------------------*/
3940
3941 static Jim_CallFrame *JimCreateCallFrame(Jim_Interp *interp)
3942 {
3943 Jim_CallFrame *cf;
3944 if (interp->freeFramesList) {
3945 cf = interp->freeFramesList;
3946 interp->freeFramesList = cf->nextFramePtr;
3947 } else {
3948 cf = Jim_Alloc(sizeof(*cf));
3949 cf->vars.table = NULL;
3950 }
3951
3952 cf->id = interp->callFrameEpoch++;
3953 cf->parentCallFrame = NULL;
3954 cf->argv = NULL;
3955 cf->argc = 0;
3956 cf->procArgsObjPtr = NULL;
3957 cf->procBodyObjPtr = NULL;
3958 cf->nextFramePtr = NULL;
3959 cf->staticVars = NULL;
3960 if (cf->vars.table == NULL)
3961 Jim_InitHashTable(&cf->vars, &JimVariablesHashTableType, interp);
3962 return cf;
3963 }
3964
3965 /* Used to invalidate every caching related to callframe stability. */
3966 static void JimChangeCallFrameId(Jim_Interp *interp, Jim_CallFrame *cf)
3967 {
3968 cf->id = interp->callFrameEpoch++;
3969 }
3970
3971 #define JIM_FCF_NONE 0 /* no flags */
3972 #define JIM_FCF_NOHT 1 /* don't free the hash table */
3973 static void JimFreeCallFrame(Jim_Interp *interp, Jim_CallFrame *cf,
3974 int flags)
3975 {
3976 if (cf->procArgsObjPtr) Jim_DecrRefCount(interp, cf->procArgsObjPtr);
3977 if (cf->procBodyObjPtr) Jim_DecrRefCount(interp, cf->procBodyObjPtr);
3978 if (!(flags & JIM_FCF_NOHT))
3979 Jim_FreeHashTable(&cf->vars);
3980 else {
3981 int i;
3982 Jim_HashEntry **table = cf->vars.table, *he;
3983
3984 for (i = 0; i < JIM_HT_INITIAL_SIZE; i++) {
3985 he = table[i];
3986 while (he != NULL) {
3987 Jim_HashEntry *nextEntry = he->next;
3988 Jim_Var *varPtr = (void*) he->val;
3989
3990 Jim_DecrRefCount(interp, varPtr->objPtr);
3991 Jim_Free(he->val);
3992 Jim_Free((void*)he->key); /* ATTENTION: const cast */
3993 Jim_Free(he);
3994 table[i] = NULL;
3995 he = nextEntry;
3996 }
3997 }
3998 cf->vars.used = 0;
3999 }
4000 cf->nextFramePtr = interp->freeFramesList;
4001 interp->freeFramesList = cf;
4002 }
4003
4004 /* -----------------------------------------------------------------------------
4005 * References
4006 * ---------------------------------------------------------------------------*/
4007
4008 /* References HashTable Type.
4009 *
4010 * Keys are jim_wide integers, dynamically allocated for now but in the
4011 * future it's worth to cache this 8 bytes objects. Values are poitners
4012 * to Jim_References. */
4013 static void JimReferencesHTValDestructor(void *interp, void *val)
4014 {
4015 Jim_Reference *refPtr = (void*) val;
4016
4017 Jim_DecrRefCount(interp, refPtr->objPtr);
4018 if (refPtr->finalizerCmdNamePtr != NULL) {
4019 Jim_DecrRefCount(interp, refPtr->finalizerCmdNamePtr);
4020 }
4021 Jim_Free(val);
4022 }
4023
4024 static unsigned int JimReferencesHTHashFunction(const void *key)
4025 {
4026 /* Only the least significant bits are used. */
4027 const jim_wide *widePtr = key;
4028 unsigned int intValue = (unsigned int) *widePtr;
4029 return Jim_IntHashFunction(intValue);
4030 }
4031
4032 unsigned int JimReferencesHTDoubleHashFunction(const void *key)
4033 {
4034 /* Only the least significant bits are used. */
4035 const jim_wide *widePtr = key;
4036 unsigned int intValue = (unsigned int) *widePtr;
4037 return intValue; /* identity function. */
4038 }
4039
4040 static const void *JimReferencesHTKeyDup(void *privdata, const void *key)
4041 {
4042 void *copy = Jim_Alloc(sizeof(jim_wide));
4043 JIM_NOTUSED(privdata);
4044
4045 memcpy(copy, key, sizeof(jim_wide));
4046 return copy;
4047 }
4048
4049 static int JimReferencesHTKeyCompare(void *privdata, const void *key1,
4050 const void *key2)
4051 {
4052 JIM_NOTUSED(privdata);
4053
4054 return memcmp(key1, key2, sizeof(jim_wide)) == 0;
4055 }
4056
4057 static void JimReferencesHTKeyDestructor(void *privdata, const void *key)
4058 {
4059 JIM_NOTUSED(privdata);
4060
4061 Jim_Free((void*)key);
4062 }
4063
4064 static Jim_HashTableType JimReferencesHashTableType = {
4065 JimReferencesHTHashFunction, /* hash function */
4066 JimReferencesHTKeyDup, /* key dup */
4067 NULL, /* val dup */
4068 JimReferencesHTKeyCompare, /* key compare */
4069 JimReferencesHTKeyDestructor, /* key destructor */
4070 JimReferencesHTValDestructor /* val destructor */
4071 };
4072
4073 /* -----------------------------------------------------------------------------
4074 * Reference object type and References API
4075 * ---------------------------------------------------------------------------*/
4076
4077 static void UpdateStringOfReference(struct Jim_Obj *objPtr);
4078
4079 static Jim_ObjType referenceObjType = {
4080 "reference",
4081 NULL,
4082 NULL,
4083 UpdateStringOfReference,
4084 JIM_TYPE_REFERENCES,
4085 };
4086
4087 void UpdateStringOfReference(struct Jim_Obj *objPtr)
4088 {
4089 int len;
4090 char buf[JIM_REFERENCE_SPACE + 1];
4091 Jim_Reference *refPtr;
4092
4093 refPtr = objPtr->internalRep.refValue.refPtr;
4094 len = JimFormatReference(buf, refPtr, objPtr->internalRep.refValue.id);
4095 objPtr->bytes = Jim_Alloc(len + 1);
4096 memcpy(objPtr->bytes, buf, len + 1);
4097 objPtr->length = len;
4098 }
4099
4100 /* returns true if 'c' is a valid reference tag character.
4101 * i.e. inside the range [_a-zA-Z0-9] */
4102 static int isrefchar(int c)
4103 {
4104 if (c == '_' || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') ||
4105 (c >= '0' && c <= '9')) return 1;
4106 return 0;
4107 }
4108
4109 static int SetReferenceFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
4110 {
4111 jim_wide wideValue;
4112 int i, len;
4113 const char *str, *start, *end;
4114 char refId[21];
4115 Jim_Reference *refPtr;
4116 Jim_HashEntry *he;
4117
4118 /* Get the string representation */
4119 str = Jim_GetString(objPtr, &len);
4120 /* Check if it looks like a reference */
4121 if (len < JIM_REFERENCE_SPACE) goto badformat;
4122 /* Trim spaces */
4123 start = str;
4124 end = str + len-1;
4125 while (*start == ' ') start++;
4126 while (*end == ' ' && end > start) end--;
4127 if (end-start + 1 != JIM_REFERENCE_SPACE) goto badformat;
4128 /* <reference.<1234567>.%020> */
4129 if (memcmp(start, "<reference.<", 12) != 0) goto badformat;
4130 if (start[12 + JIM_REFERENCE_TAGLEN] != '>' || end[0] != '>') goto badformat;
4131 /* The tag can't contain chars other than a-zA-Z0-9 + '_'. */
4132 for (i = 0; i < JIM_REFERENCE_TAGLEN; i++) {
4133 if (!isrefchar(start[12 + i])) goto badformat;
4134 }
4135 /* Extract info from the refernece. */
4136 memcpy(refId, start + 14 + JIM_REFERENCE_TAGLEN, 20);
4137 refId[20] = '\0';
4138 /* Try to convert the ID into a jim_wide */
4139 if (Jim_StringToWide(refId, &wideValue, 10) != JIM_OK) goto badformat;
4140 /* Check if the reference really exists! */
4141 he = Jim_FindHashEntry(&interp->references, &wideValue);
4142 if (he == NULL) {
4143 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
4144 Jim_AppendStrings(interp, Jim_GetResult(interp),
4145 "Invalid reference ID \"", str, "\"", NULL);
4146 return JIM_ERR;
4147 }
4148 refPtr = he->val;
4149 /* Free the old internal repr and set the new one. */
4150 Jim_FreeIntRep(interp, objPtr);
4151 objPtr->typePtr = &referenceObjType;
4152 objPtr->internalRep.refValue.id = wideValue;
4153 objPtr->internalRep.refValue.refPtr = refPtr;
4154 return JIM_OK;
4155
4156 badformat:
4157 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
4158 Jim_AppendStrings(interp, Jim_GetResult(interp),
4159 "expected reference but got \"", str, "\"", NULL);
4160 return JIM_ERR;
4161 }
4162
4163 /* Returns a new reference pointing to objPtr, having cmdNamePtr
4164 * as finalizer command (or NULL if there is no finalizer).
4165 * The returned reference object has refcount = 0. */
4166 Jim_Obj *Jim_NewReference(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *tagPtr,
4167 Jim_Obj *cmdNamePtr)
4168 {
4169 struct Jim_Reference *refPtr;
4170 jim_wide wideValue = interp->referenceNextId;
4171 Jim_Obj *refObjPtr;
4172 const char *tag;
4173 int tagLen, i;
4174
4175 /* Perform the Garbage Collection if needed. */
4176 Jim_CollectIfNeeded(interp);
4177
4178 refPtr = Jim_Alloc(sizeof(*refPtr));
4179 refPtr->objPtr = objPtr;
4180 Jim_IncrRefCount(objPtr);
4181 refPtr->finalizerCmdNamePtr = cmdNamePtr;
4182 if (cmdNamePtr)
4183 Jim_IncrRefCount(cmdNamePtr);
4184 Jim_AddHashEntry(&interp->references, &wideValue, refPtr);
4185 refObjPtr = Jim_NewObj(interp);
4186 refObjPtr->typePtr = &referenceObjType;
4187 refObjPtr->bytes = NULL;
4188 refObjPtr->internalRep.refValue.id = interp->referenceNextId;
4189 refObjPtr->internalRep.refValue.refPtr = refPtr;
4190 interp->referenceNextId++;
4191 /* Set the tag. Trimmered at JIM_REFERENCE_TAGLEN. Everything
4192 * that does not pass the 'isrefchar' test is replaced with '_' */
4193 tag = Jim_GetString(tagPtr, &tagLen);
4194 if (tagLen > JIM_REFERENCE_TAGLEN)
4195 tagLen = JIM_REFERENCE_TAGLEN;
4196 for (i = 0; i < JIM_REFERENCE_TAGLEN; i++) {
4197 if (i < tagLen)
4198 refPtr->tag[i] = tag[i];
4199 else
4200 refPtr->tag[i] = '_';
4201 }
4202 refPtr->tag[JIM_REFERENCE_TAGLEN] = '\0';
4203 return refObjPtr;
4204 }
4205
4206 Jim_Reference *Jim_GetReference(Jim_Interp *interp, Jim_Obj *objPtr)
4207 {
4208 if (objPtr->typePtr != &referenceObjType &&
4209 SetReferenceFromAny(interp, objPtr) == JIM_ERR)
4210 return NULL;
4211 return objPtr->internalRep.refValue.refPtr;
4212 }
4213
4214 int Jim_SetFinalizer(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj *cmdNamePtr)
4215 {
4216 Jim_Reference *refPtr;
4217
4218 if ((refPtr = Jim_GetReference(interp, objPtr)) == NULL)
4219 return JIM_ERR;
4220 Jim_IncrRefCount(cmdNamePtr);
4221 if (refPtr->finalizerCmdNamePtr)
4222 Jim_DecrRefCount(interp, refPtr->finalizerCmdNamePtr);
4223 refPtr->finalizerCmdNamePtr = cmdNamePtr;
4224 return JIM_OK;
4225 }
4226
4227 int Jim_GetFinalizer(Jim_Interp *interp, Jim_Obj *objPtr, Jim_Obj **cmdNamePtrPtr)
4228 {
4229 Jim_Reference *refPtr;
4230
4231 if ((refPtr = Jim_GetReference(interp, objPtr)) == NULL)
4232 return JIM_ERR;
4233 *cmdNamePtrPtr = refPtr->finalizerCmdNamePtr;
4234 return JIM_OK;
4235 }
4236
4237 /* -----------------------------------------------------------------------------
4238 * References Garbage Collection
4239 * ---------------------------------------------------------------------------*/
4240
4241 /* This the hash table type for the "MARK" phase of the GC */
4242 static Jim_HashTableType JimRefMarkHashTableType = {
4243 JimReferencesHTHashFunction, /* hash function */
4244 JimReferencesHTKeyDup, /* key dup */
4245 NULL, /* val dup */
4246 JimReferencesHTKeyCompare, /* key compare */
4247 JimReferencesHTKeyDestructor, /* key destructor */
4248 NULL /* val destructor */
4249 };
4250
4251 /* #define JIM_DEBUG_GC 1 */
4252
4253 /* Performs the garbage collection. */
4254 int Jim_Collect(Jim_Interp *interp)
4255 {
4256 Jim_HashTable marks;
4257 Jim_HashTableIterator *htiter;
4258 Jim_HashEntry *he;
4259 Jim_Obj *objPtr;
4260 int collected = 0;
4261
4262 /* Avoid recursive calls */
4263 if (interp->lastCollectId == -1) {
4264 /* Jim_Collect() already running. Return just now. */
4265 return 0;
4266 }
4267 interp->lastCollectId = -1;
4268
4269 /* Mark all the references found into the 'mark' hash table.
4270 * The references are searched in every live object that
4271 * is of a type that can contain references. */
4272 Jim_InitHashTable(&marks, &JimRefMarkHashTableType, NULL);
4273 objPtr = interp->liveList;
4274 while (objPtr) {
4275 if (objPtr->typePtr == NULL ||
4276 objPtr->typePtr->flags & JIM_TYPE_REFERENCES) {
4277 const char *str, *p;
4278 int len;
4279
4280 /* If the object is of type reference, to get the
4281 * Id is simple... */
4282 if (objPtr->typePtr == &referenceObjType) {
4283 Jim_AddHashEntry(&marks,
4284 &objPtr->internalRep.refValue.id, NULL);
4285 #ifdef JIM_DEBUG_GC
4286 Jim_fprintf(interp,interp->cookie_stdout,
4287 "MARK (reference): %d refcount: %d" JIM_NL,
4288 (int) objPtr->internalRep.refValue.id,
4289 objPtr->refCount);
4290 #endif
4291 objPtr = objPtr->nextObjPtr;
4292 continue;
4293 }
4294 /* Get the string repr of the object we want
4295 * to scan for references. */
4296 p = str = Jim_GetString(objPtr, &len);
4297 /* Skip objects too little to contain references. */
4298 if (len < JIM_REFERENCE_SPACE) {
4299 objPtr = objPtr->nextObjPtr;
4300 continue;
4301 }
4302 /* Extract references from the object string repr. */
4303 while (1) {
4304 int i;
4305 jim_wide id;
4306 char buf[21];
4307
4308 if ((p = strstr(p, "<reference.<")) == NULL)
4309 break;
4310 /* Check if it's a valid reference. */
4311 if (len-(p-str) < JIM_REFERENCE_SPACE) break;
4312 if (p[41] != '>' || p[19] != '>' || p[20] != '.') break;
4313 for (i = 21; i <= 40; i++)
4314 if (!isdigit((int)p[i]))
4315 break;
4316 /* Get the ID */
4317 memcpy(buf, p + 21, 20);
4318 buf[20] = '\0';
4319 Jim_StringToWide(buf, &id, 10);
4320
4321 /* Ok, a reference for the given ID
4322 * was found. Mark it. */
4323 Jim_AddHashEntry(&marks, &id, NULL);
4324 #ifdef JIM_DEBUG_GC
4325 Jim_fprintf(interp,interp->cookie_stdout,"MARK: %d" JIM_NL, (int)id);
4326 #endif
4327 p += JIM_REFERENCE_SPACE;
4328 }
4329 }
4330 objPtr = objPtr->nextObjPtr;
4331 }
4332
4333 /* Run the references hash table to destroy every reference that
4334 * is not referenced outside (not present in the mark HT). */
4335 htiter = Jim_GetHashTableIterator(&interp->references);
4336 while ((he = Jim_NextHashEntry(htiter)) != NULL) {
4337 const jim_wide *refId;
4338 Jim_Reference *refPtr;
4339
4340 refId = he->key;
4341 /* Check if in the mark phase we encountered
4342 * this reference. */
4343 if (Jim_FindHashEntry(&marks, refId) == NULL) {
4344 #ifdef JIM_DEBUG_GC
4345 Jim_fprintf(interp,interp->cookie_stdout,"COLLECTING %d" JIM_NL, (int)*refId);
4346 #endif
4347 collected++;
4348 /* Drop the reference, but call the
4349 * finalizer first if registered. */
4350 refPtr = he->val;
4351 if (refPtr->finalizerCmdNamePtr) {
4352 char *refstr = Jim_Alloc(JIM_REFERENCE_SPACE + 1);
4353 Jim_Obj *objv[3], *oldResult;
4354
4355 JimFormatReference(refstr, refPtr, *refId);
4356
4357 objv[0] = refPtr->finalizerCmdNamePtr;
4358 objv[1] = Jim_NewStringObjNoAlloc(interp,
4359 refstr, 32);
4360 objv[2] = refPtr->objPtr;
4361 Jim_IncrRefCount(objv[0]);
4362 Jim_IncrRefCount(objv[1]);
4363 Jim_IncrRefCount(objv[2]);
4364
4365 /* Drop the reference itself */
4366 Jim_DeleteHashEntry(&interp->references, refId);
4367
4368 /* Call the finalizer. Errors ignored. */
4369 oldResult = interp->result;
4370 Jim_IncrRefCount(oldResult);
4371 Jim_EvalObjVector(interp, 3, objv);
4372 Jim_SetResult(interp, oldResult);
4373 Jim_DecrRefCount(interp, oldResult);
4374
4375 Jim_DecrRefCount(interp, objv[0]);
4376 Jim_DecrRefCount(interp, objv[1]);
4377 Jim_DecrRefCount(interp, objv[2]);
4378 } else {
4379 Jim_DeleteHashEntry(&interp->references, refId);
4380 }
4381 }
4382 }
4383 Jim_FreeHashTableIterator(htiter);
4384 Jim_FreeHashTable(&marks);
4385 interp->lastCollectId = interp->referenceNextId;
4386 interp->lastCollectTime = time(NULL);
4387 return collected;
4388 }
4389
4390 #define JIM_COLLECT_ID_PERIOD 5000
4391 #define JIM_COLLECT_TIME_PERIOD 300
4392
4393 void Jim_CollectIfNeeded(Jim_Interp *interp)
4394 {
4395 jim_wide elapsedId;
4396 int elapsedTime;
4397
4398 elapsedId = interp->referenceNextId - interp->lastCollectId;
4399 elapsedTime = time(NULL) - interp->lastCollectTime;
4400
4401
4402 if (elapsedId > JIM_COLLECT_ID_PERIOD ||
4403 elapsedTime > JIM_COLLECT_TIME_PERIOD) {
4404 Jim_Collect(interp);
4405 }
4406 }
4407
4408 /* -----------------------------------------------------------------------------
4409 * Interpreter related functions
4410 * ---------------------------------------------------------------------------*/
4411
4412 Jim_Interp *Jim_CreateInterp(void)
4413 {
4414 Jim_Interp *i = Jim_Alloc(sizeof(*i));
4415 Jim_Obj *pathPtr;
4416
4417 i->errorLine = 0;
4418 i->errorFileName = Jim_StrDup("");
4419 i->numLevels = 0;
4420 i->maxNestingDepth = JIM_MAX_NESTING_DEPTH;
4421 i->returnCode = JIM_OK;
4422 i->exitCode = 0;
4423 i->procEpoch = 0;
4424 i->callFrameEpoch = 0;
4425 i->liveList = i->freeList = NULL;
4426 i->scriptFileName = Jim_StrDup("");
4427 i->referenceNextId = 0;
4428 i->lastCollectId = 0;
4429 i->lastCollectTime = time(NULL);
4430 i->freeFramesList = NULL;
4431 i->prngState = NULL;
4432 i->evalRetcodeLevel = -1;
4433 i->cookie_stdin = stdin;
4434 i->cookie_stdout = stdout;
4435 i->cookie_stderr = stderr;
4436 i->cb_fwrite = ((size_t (*)(const void *, size_t, size_t, void *))(fwrite));
4437 i->cb_fread = ((size_t (*)(void *, size_t, size_t, void *))(fread));
4438 i->cb_vfprintf = ((int (*)(void *, const char *fmt, va_list))(vfprintf));
4439 i->cb_fflush = ((int (*)(void *))(fflush));
4440 i->cb_fgets = ((char * (*)(char *, int, void *))(fgets));
4441
4442 /* Note that we can create objects only after the
4443 * interpreter liveList and freeList pointers are
4444 * initialized to NULL. */
4445 Jim_InitHashTable(&i->commands, &JimCommandsHashTableType, i);
4446 Jim_InitHashTable(&i->references, &JimReferencesHashTableType, i);
4447 Jim_InitHashTable(&i->sharedStrings, &JimSharedStringsHashTableType,
4448 NULL);
4449 Jim_InitHashTable(&i->stub, &JimStringCopyHashTableType, NULL);
4450 Jim_InitHashTable(&i->assocData, &JimAssocDataHashTableType, i);
4451 Jim_InitHashTable(&i->packages, &JimStringKeyValCopyHashTableType, NULL);
4452 i->framePtr = i->topFramePtr = JimCreateCallFrame(i);
4453 i->emptyObj = Jim_NewEmptyStringObj(i);
4454 i->result = i->emptyObj;
4455 i->stackTrace = Jim_NewListObj(i, NULL, 0);
4456 i->unknown = Jim_NewStringObj(i, "unknown", -1);
4457 i->unknown_called = 0;
4458 Jim_IncrRefCount(i->emptyObj);
4459 Jim_IncrRefCount(i->result);
4460 Jim_IncrRefCount(i->stackTrace);
4461 Jim_IncrRefCount(i->unknown);
4462
4463 /* Initialize key variables every interpreter should contain */
4464 pathPtr = Jim_NewStringObj(i, "./", -1);
4465 Jim_SetVariableStr(i, "jim_libpath", pathPtr);
4466 Jim_SetVariableStrWithStr(i, "jim_interactive", "0");
4467
4468 /* Export the core API to extensions */
4469 JimRegisterCoreApi(i);
4470 return i;
4471 }
4472
4473 /* This is the only function Jim exports directly without
4474 * to use the STUB system. It is only used by embedders
4475 * in order to get an interpreter with the Jim API pointers
4476 * registered. */
4477 Jim_Interp *ExportedJimCreateInterp(void)
4478 {
4479 return Jim_CreateInterp();
4480 }
4481
4482 void Jim_FreeInterp(Jim_Interp *i)
4483 {
4484 Jim_CallFrame *cf = i->framePtr, *prevcf, *nextcf;
4485 Jim_Obj *objPtr, *nextObjPtr;
4486
4487 Jim_DecrRefCount(i, i->emptyObj);
4488 Jim_DecrRefCount(i, i->result);
4489 Jim_DecrRefCount(i, i->stackTrace);
4490 Jim_DecrRefCount(i, i->unknown);
4491 Jim_Free((void*)i->errorFileName);
4492 Jim_Free((void*)i->scriptFileName);
4493 Jim_FreeHashTable(&i->commands);
4494 Jim_FreeHashTable(&i->references);
4495 Jim_FreeHashTable(&i->stub);
4496 Jim_FreeHashTable(&i->assocData);
4497 Jim_FreeHashTable(&i->packages);
4498 Jim_Free(i->prngState);
4499 /* Free the call frames list */
4500 while (cf) {
4501 prevcf = cf->parentCallFrame;
4502 JimFreeCallFrame(i, cf, JIM_FCF_NONE);
4503 cf = prevcf;
4504 }
4505 /* Check that the live object list is empty, otherwise
4506 * there is a memory leak. */
4507 if (i->liveList != NULL) {
4508 objPtr = i->liveList;
4509
4510 Jim_fprintf(i, i->cookie_stdout,JIM_NL "-------------------------------------" JIM_NL);
4511 Jim_fprintf(i, i->cookie_stdout,"Objects still in the free list:" JIM_NL);
4512 while (objPtr) {
4513 const char *type = objPtr->typePtr ?
4514 objPtr->typePtr->name : "";
4515 Jim_fprintf(i, i->cookie_stdout,"%p \"%-10s\": '%.20s' (refCount: %d)" JIM_NL,
4516 objPtr, type,
4517 objPtr->bytes ? objPtr->bytes
4518 : "(null)", objPtr->refCount);
4519 if (objPtr->typePtr == &sourceObjType) {
4520 Jim_fprintf(i, i->cookie_stdout, "FILE %s LINE %d" JIM_NL,
4521 objPtr->internalRep.sourceValue.fileName,
4522 objPtr->internalRep.sourceValue.lineNumber);
4523 }
4524 objPtr = objPtr->nextObjPtr;
4525 }
4526 Jim_fprintf(i, i->cookie_stdout, "-------------------------------------" JIM_NL JIM_NL);
4527 Jim_Panic(i,"Live list non empty freeing the interpreter! Leak?");
4528 }
4529 /* Free all the freed objects. */
4530 objPtr = i->freeList;
4531 while (objPtr) {
4532 nextObjPtr = objPtr->nextObjPtr;
4533 Jim_Free(objPtr);
4534 objPtr = nextObjPtr;
4535 }
4536 /* Free cached CallFrame structures */
4537 cf = i->freeFramesList;
4538 while (cf) {
4539 nextcf = cf->nextFramePtr;
4540 if (cf->vars.table != NULL)
4541 Jim_Free(cf->vars.table);
4542 Jim_Free(cf);
4543 cf = nextcf;
4544 }
4545 /* Free the sharedString hash table. Make sure to free it
4546 * after every other Jim_Object was freed. */
4547 Jim_FreeHashTable(&i->sharedStrings);
4548 /* Free the interpreter structure. */
4549 Jim_Free(i);
4550 }
4551
4552 /* Store the call frame relative to the level represented by
4553 * levelObjPtr into *framePtrPtr. If levelObjPtr == NULL, the
4554 * level is assumed to be '1'.
4555 *
4556 * If a newLevelptr int pointer is specified, the function stores
4557 * the absolute level integer value of the new target callframe into
4558 * *newLevelPtr. (this is used to adjust interp->numLevels
4559 * in the implementation of [uplevel], so that [info level] will
4560 * return a correct information).
4561 *
4562 * This function accepts the 'level' argument in the form
4563 * of the commands [uplevel] and [upvar].
4564 *
4565 * For a function accepting a relative integer as level suitable
4566 * for implementation of [info level ?level?] check the
4567 * GetCallFrameByInteger() function. */
4568 int Jim_GetCallFrameByLevel(Jim_Interp *interp, Jim_Obj *levelObjPtr,
4569 Jim_CallFrame **framePtrPtr, int *newLevelPtr)
4570 {
4571 long level;
4572 const char *str;
4573 Jim_CallFrame *framePtr;
4574
4575 if (newLevelPtr) *newLevelPtr = interp->numLevels;
4576 if (levelObjPtr) {
4577 str = Jim_GetString(levelObjPtr, NULL);
4578 if (str[0] == '#') {
4579 char *endptr;
4580 /* speedup for the toplevel (level #0) */
4581 if (str[1] == '0' && str[2] == '\0') {
4582 if (newLevelPtr) *newLevelPtr = 0;
4583 *framePtrPtr = interp->topFramePtr;
4584 return JIM_OK;
4585 }
4586
4587 level = strtol(str + 1, &endptr, 0);
4588 if (str[1] == '\0' || endptr[0] != '\0' || level < 0)
4589 goto badlevel;
4590 /* An 'absolute' level is converted into the
4591 * 'number of levels to go back' format. */
4592 level = interp->numLevels - level;
4593 if (level < 0) goto badlevel;
4594 } else {
4595 if (Jim_GetLong(interp, levelObjPtr, &level) != JIM_OK || level < 0)
4596 goto badlevel;
4597 }
4598 } else {
4599 str = "1"; /* Needed to format the error message. */
4600 level = 1;
4601 }
4602 /* Lookup */
4603 framePtr = interp->framePtr;
4604 if (newLevelPtr) *newLevelPtr = (*newLevelPtr)-level;
4605 while (level--) {
4606 framePtr = framePtr->parentCallFrame;
4607 if (framePtr == NULL) goto badlevel;
4608 }
4609 *framePtrPtr = framePtr;
4610 return JIM_OK;
4611 badlevel:
4612 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
4613 Jim_AppendStrings(interp, Jim_GetResult(interp),
4614 "bad level \"", str, "\"", NULL);
4615 return JIM_ERR;
4616 }
4617
4618 /* Similar to Jim_GetCallFrameByLevel() but the level is specified
4619 * as a relative integer like in the [info level ?level?] command. */
4620 static int JimGetCallFrameByInteger(Jim_Interp *interp, Jim_Obj *levelObjPtr,
4621 Jim_CallFrame **framePtrPtr)
4622 {
4623 jim_wide level;
4624 jim_wide relLevel; /* level relative to the current one. */
4625 Jim_CallFrame *framePtr;
4626
4627 if (Jim_GetWide(interp, levelObjPtr, &level) != JIM_OK)
4628 goto badlevel;
4629 if (level > 0) {
4630 /* An 'absolute' level is converted into the
4631 * 'number of levels to go back' format. */
4632 relLevel = interp->numLevels - level;
4633 } else {
4634 relLevel = -level;
4635 }
4636 /* Lookup */
4637 framePtr = interp->framePtr;
4638 while (relLevel--) {
4639 framePtr = framePtr->parentCallFrame;
4640 if (framePtr == NULL) goto badlevel;
4641 }
4642 *framePtrPtr = framePtr;
4643 return JIM_OK;
4644 badlevel:
4645 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
4646 Jim_AppendStrings(interp, Jim_GetResult(interp),
4647 "bad level \"", Jim_GetString(levelObjPtr, NULL), "\"", NULL);
4648 return JIM_ERR;
4649 }
4650
4651 static void JimSetErrorFileName(Jim_Interp *interp, char *filename)
4652 {
4653 Jim_Free((void*)interp->errorFileName);
4654 interp->errorFileName = Jim_StrDup(filename);
4655 }
4656
4657 static void JimSetErrorLineNumber(Jim_Interp *interp, int linenr)
4658 {
4659 interp->errorLine = linenr;
4660 }
4661
4662 static void JimResetStackTrace(Jim_Interp *interp)
4663 {
4664 Jim_DecrRefCount(interp, interp->stackTrace);
4665 interp->stackTrace = Jim_NewListObj(interp, NULL, 0);
4666 Jim_IncrRefCount(interp->stackTrace);
4667 }
4668
4669 static void JimAppendStackTrace(Jim_Interp *interp, const char *procname,
4670 const char *filename, int linenr)
4671 {
4672 /* No need to add this dummy entry to the stack trace */
4673 if (strcmp(procname, "unknown") == 0) {
4674 return;
4675 }
4676
4677 if (Jim_IsShared(interp->stackTrace)) {
4678 interp->stackTrace =
4679 Jim_DuplicateObj(interp, interp->stackTrace);
4680 Jim_IncrRefCount(interp->stackTrace);
4681 }
4682 Jim_ListAppendElement(interp, interp->stackTrace,
4683 Jim_NewStringObj(interp, procname, -1));
4684 Jim_ListAppendElement(interp, interp->stackTrace,
4685 Jim_NewStringObj(interp, filename, -1));
4686 Jim_ListAppendElement(interp, interp->stackTrace,
4687 Jim_NewIntObj(interp, linenr));
4688 }
4689
4690 int Jim_SetAssocData(Jim_Interp *interp, const char *key, Jim_InterpDeleteProc *delProc, void *data)
4691 {
4692 AssocDataValue *assocEntryPtr = (AssocDataValue *)Jim_Alloc(sizeof(AssocDataValue));
4693 assocEntryPtr->delProc = delProc;
4694 assocEntryPtr->data = data;
4695 return Jim_AddHashEntry(&interp->assocData, key, assocEntryPtr);
4696 }
4697
4698 void *Jim_GetAssocData(Jim_Interp *interp, const char *key)
4699 {
4700 Jim_HashEntry *entryPtr = Jim_FindHashEntry(&interp->assocData, key);
4701 if (entryPtr != NULL) {
4702 AssocDataValue *assocEntryPtr = (AssocDataValue *)entryPtr->val;
4703 return assocEntryPtr->data;
4704 }
4705 return NULL;
4706 }
4707
4708 int Jim_DeleteAssocData(Jim_Interp *interp, const char *key)
4709 {
4710 return Jim_DeleteHashEntry(&interp->assocData, key);
4711 }
4712
4713 int Jim_GetExitCode(Jim_Interp *interp) {
4714 return interp->exitCode;
4715 }
4716
4717 void *Jim_SetStdin(Jim_Interp *interp, void *fp)
4718 {
4719 if (fp != NULL) interp->cookie_stdin = fp;
4720 return interp->cookie_stdin;
4721 }
4722
4723 void *Jim_SetStdout(Jim_Interp *interp, void *fp)
4724 {
4725 if (fp != NULL) interp->cookie_stdout = fp;
4726 return interp->cookie_stdout;
4727 }
4728
4729 void *Jim_SetStderr(Jim_Interp *interp, void *fp)
4730 {
4731 if (fp != NULL) interp->cookie_stderr = fp;
4732 return interp->cookie_stderr;
4733 }
4734
4735 /* -----------------------------------------------------------------------------
4736 * Shared strings.
4737 * Every interpreter has an hash table where to put shared dynamically
4738 * allocate strings that are likely to be used a lot of times.
4739 * For example, in the 'source' object type, there is a pointer to
4740 * the filename associated with that object. Every script has a lot
4741 * of this objects with the identical file name, so it is wise to share
4742 * this info.
4743 *
4744 * The API is trivial: Jim_GetSharedString(interp, "foobar")
4745 * returns the pointer to the shared string. Every time a reference
4746 * to the string is no longer used, the user should call
4747 * Jim_ReleaseSharedString(interp, stringPointer). Once no one is using
4748 * a given string, it is removed from the hash table.
4749 * ---------------------------------------------------------------------------*/
4750 const char *Jim_GetSharedString(Jim_Interp *interp, const char *str)
4751 {
4752 Jim_HashEntry *he = Jim_FindHashEntry(&interp->sharedStrings, str);
4753
4754 if (he == NULL) {
4755 char *strCopy = Jim_StrDup(str);
4756
4757 Jim_AddHashEntry(&interp->sharedStrings, strCopy, (void*)1);
4758 return strCopy;
4759 } else {
4760 intptr_t refCount = (intptr_t) he->val;
4761
4762 refCount++;
4763 he->val = (void*) refCount;
4764 return he->key;
4765 }
4766 }
4767
4768 void Jim_ReleaseSharedString(Jim_Interp *interp, const char *str)
4769 {
4770 intptr_t refCount;
4771 Jim_HashEntry *he = Jim_FindHashEntry(&interp->sharedStrings, str);
4772
4773 if (he == NULL)
4774 Jim_Panic(interp,"Jim_ReleaseSharedString called with "
4775 "unknown shared string '%s'", str);
4776 refCount = (intptr_t) he->val;
4777 refCount--;
4778 if (refCount == 0) {
4779 Jim_DeleteHashEntry(&interp->sharedStrings, str);
4780 } else {
4781 he->val = (void*) refCount;
4782 }
4783 }
4784
4785 /* -----------------------------------------------------------------------------
4786 * Integer object
4787 * ---------------------------------------------------------------------------*/
4788 #define JIM_INTEGER_SPACE 24
4789
4790 static void UpdateStringOfInt(struct Jim_Obj *objPtr);
4791 static int SetIntFromAny(Jim_Interp *interp, Jim_Obj *objPtr, int flags);
4792
4793 static Jim_ObjType intObjType = {
4794 "int",
4795 NULL,
4796 NULL,
4797 UpdateStringOfInt,
4798 JIM_TYPE_NONE,
4799 };
4800
4801 void UpdateStringOfInt(struct Jim_Obj *objPtr)
4802 {
4803 int len;
4804 char buf[JIM_INTEGER_SPACE + 1];
4805
4806 len = Jim_WideToString(buf, objPtr->internalRep.wideValue);
4807 objPtr->bytes = Jim_Alloc(len + 1);
4808 memcpy(objPtr->bytes, buf, len + 1);
4809 objPtr->length = len;
4810 }
4811
4812 int SetIntFromAny(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
4813 {
4814 jim_wide wideValue;
4815 const char *str;
4816
4817 /* Get the string representation */
4818 str = Jim_GetString(objPtr, NULL);
4819 /* Try to convert into a jim_wide */
4820 if (Jim_StringToWide(str, &wideValue, 0) != JIM_OK) {
4821 if (flags & JIM_ERRMSG) {
4822 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
4823 Jim_AppendStrings(interp, Jim_GetResult(interp),
4824 "expected integer but got \"", str, "\"", NULL);
4825 }
4826 return JIM_ERR;
4827 }
4828 if ((wideValue == JIM_WIDE_MIN || wideValue == JIM_WIDE_MAX) &&
4829 errno == ERANGE) {
4830 Jim_SetResultString(interp,
4831 "Integer value too big to be represented", -1);
4832 return JIM_ERR;
4833 }
4834 /* Free the old internal repr and set the new one. */
4835 Jim_FreeIntRep(interp, objPtr);
4836 objPtr->typePtr = &intObjType;
4837 objPtr->internalRep.wideValue = wideValue;
4838 return JIM_OK;
4839 }
4840
4841 int Jim_GetWide(Jim_Interp *interp, Jim_Obj *objPtr, jim_wide *widePtr)
4842 {
4843 if (objPtr->typePtr != &intObjType &&
4844 SetIntFromAny(interp, objPtr, JIM_ERRMSG) == JIM_ERR)
4845 return JIM_ERR;
4846 *widePtr = objPtr->internalRep.wideValue;
4847 return JIM_OK;
4848 }
4849
4850 /* Get a wide but does not set an error if the format is bad. */
4851 static int JimGetWideNoErr(Jim_Interp *interp, Jim_Obj *objPtr,
4852 jim_wide *widePtr)
4853 {
4854 if (objPtr->typePtr != &intObjType &&
4855 SetIntFromAny(interp, objPtr, JIM_NONE) == JIM_ERR)
4856 return JIM_ERR;
4857 *widePtr = objPtr->internalRep.wideValue;
4858 return JIM_OK;
4859 }
4860
4861 int Jim_GetLong(Jim_Interp *interp, Jim_Obj *objPtr, long *longPtr)
4862 {
4863 jim_wide wideValue;
4864 int retval;
4865
4866 retval = Jim_GetWide(interp, objPtr, &wideValue);
4867 if (retval == JIM_OK) {
4868 *longPtr = (long) wideValue;
4869 return JIM_OK;
4870 }
4871 return JIM_ERR;
4872 }
4873
4874 void Jim_SetWide(Jim_Interp *interp, Jim_Obj *objPtr, jim_wide wideValue)
4875 {
4876 if (Jim_IsShared(objPtr))
4877 Jim_Panic(interp,"Jim_SetWide called with shared object");
4878 if (objPtr->typePtr != &intObjType) {
4879 Jim_FreeIntRep(interp, objPtr);
4880 objPtr->typePtr = &intObjType;
4881 }
4882 Jim_InvalidateStringRep(objPtr);
4883 objPtr->internalRep.wideValue = wideValue;
4884 }
4885
4886 Jim_Obj *Jim_NewIntObj(Jim_Interp *interp, jim_wide wideValue)
4887 {
4888 Jim_Obj *objPtr;
4889
4890 objPtr = Jim_NewObj(interp);
4891 objPtr->typePtr = &intObjType;
4892 objPtr->bytes = NULL;
4893 objPtr->internalRep.wideValue = wideValue;
4894 return objPtr;
4895 }
4896
4897 /* -----------------------------------------------------------------------------
4898 * Double object
4899 * ---------------------------------------------------------------------------*/
4900 #define JIM_DOUBLE_SPACE 30
4901
4902 static void UpdateStringOfDouble(struct Jim_Obj *objPtr);
4903 static int SetDoubleFromAny(Jim_Interp *interp, Jim_Obj *objPtr);
4904
4905 static Jim_ObjType doubleObjType = {
4906 "double",
4907 NULL,
4908 NULL,
4909 UpdateStringOfDouble,
4910 JIM_TYPE_NONE,
4911 };
4912
4913 void UpdateStringOfDouble(struct Jim_Obj *objPtr)
4914 {
4915 int len;
4916 char buf[JIM_DOUBLE_SPACE + 1];
4917
4918 len = Jim_DoubleToString(buf, objPtr->internalRep.doubleValue);
4919 objPtr->bytes = Jim_Alloc(len + 1);
4920 memcpy(objPtr->bytes, buf, len + 1);
4921 objPtr->length = len;
4922 }
4923
4924 int SetDoubleFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
4925 {
4926 double doubleValue;
4927 const char *str;
4928
4929 /* Get the string representation */
4930 str = Jim_GetString(objPtr, NULL);
4931 /* Try to convert into a double */
4932 if (Jim_StringToDouble(str, &doubleValue) != JIM_OK) {
4933 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
4934 Jim_AppendStrings(interp, Jim_GetResult(interp),
4935 "expected number but got '", str, "'", NULL);
4936 return JIM_ERR;
4937 }
4938 /* Free the old internal repr and set the new one. */
4939 Jim_FreeIntRep(interp, objPtr);
4940 objPtr->typePtr = &doubleObjType;
4941 objPtr->internalRep.doubleValue = doubleValue;
4942 return JIM_OK;
4943 }
4944
4945 int Jim_GetDouble(Jim_Interp *interp, Jim_Obj *objPtr, double *doublePtr)
4946 {
4947 if (objPtr->typePtr != &doubleObjType &&
4948 SetDoubleFromAny(interp, objPtr) == JIM_ERR)
4949 return JIM_ERR;
4950 *doublePtr = objPtr->internalRep.doubleValue;
4951 return JIM_OK;
4952 }
4953
4954 void Jim_SetDouble(Jim_Interp *interp, Jim_Obj *objPtr, double doubleValue)
4955 {
4956 if (Jim_IsShared(objPtr))
4957 Jim_Panic(interp,"Jim_SetDouble called with shared object");
4958 if (objPtr->typePtr != &doubleObjType) {
4959 Jim_FreeIntRep(interp, objPtr);
4960 objPtr->typePtr = &doubleObjType;
4961 }
4962 Jim_InvalidateStringRep(objPtr);
4963 objPtr->internalRep.doubleValue = doubleValue;
4964 }
4965
4966 Jim_Obj *Jim_NewDoubleObj(Jim_Interp *interp, double doubleValue)
4967 {
4968 Jim_Obj *objPtr;
4969
4970 objPtr = Jim_NewObj(interp);
4971 objPtr->typePtr = &doubleObjType;
4972 objPtr->bytes = NULL;
4973 objPtr->internalRep.doubleValue = doubleValue;
4974 return objPtr;
4975 }
4976
4977 /* -----------------------------------------------------------------------------
4978 * List object
4979 * ---------------------------------------------------------------------------*/
4980 static void ListAppendElement(Jim_Obj *listPtr, Jim_Obj *objPtr);
4981 static void FreeListInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
4982 static void DupListInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
4983 static void UpdateStringOfList(struct Jim_Obj *objPtr);
4984 static int SetListFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
4985
4986 /* Note that while the elements of the list may contain references,
4987 * the list object itself can't. This basically means that the
4988 * list object string representation as a whole can't contain references
4989 * that are not presents in the single elements. */
4990 static Jim_ObjType listObjType = {
4991 "list",
4992 FreeListInternalRep,
4993 DupListInternalRep,
4994 UpdateStringOfList,
4995 JIM_TYPE_NONE,
4996 };
4997
4998 void FreeListInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
4999 {
5000 int i;
5001
5002 for (i = 0; i < objPtr->internalRep.listValue.len; i++) {
5003 Jim_DecrRefCount(interp, objPtr->internalRep.listValue.ele[i]);
5004 }
5005 Jim_Free(objPtr->internalRep.listValue.ele);
5006 }
5007
5008 void DupListInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
5009 {
5010 int i;
5011 JIM_NOTUSED(interp);
5012
5013 dupPtr->internalRep.listValue.len = srcPtr->internalRep.listValue.len;
5014 dupPtr->internalRep.listValue.maxLen = srcPtr->internalRep.listValue.maxLen;
5015 dupPtr->internalRep.listValue.ele =
5016 Jim_Alloc(sizeof(Jim_Obj*)*srcPtr->internalRep.listValue.maxLen);
5017 memcpy(dupPtr->internalRep.listValue.ele, srcPtr->internalRep.listValue.ele,
5018 sizeof(Jim_Obj*)*srcPtr->internalRep.listValue.len);
5019 for (i = 0; i < dupPtr->internalRep.listValue.len; i++) {
5020 Jim_IncrRefCount(dupPtr->internalRep.listValue.ele[i]);
5021 }
5022 dupPtr->typePtr = &listObjType;
5023 }
5024
5025 /* The following function checks if a given string can be encoded
5026 * into a list element without any kind of quoting, surrounded by braces,
5027 * or using escapes to quote. */
5028 #define JIM_ELESTR_SIMPLE 0
5029 #define JIM_ELESTR_BRACE 1
5030 #define JIM_ELESTR_QUOTE 2
5031 static int ListElementQuotingType(const char *s, int len)
5032 {
5033 int i, level, trySimple = 1;
5034
5035 /* Try with the SIMPLE case */
5036 if (len == 0) return JIM_ELESTR_BRACE;
5037 if (s[0] == '"' || s[0] == '{') {
5038 trySimple = 0;
5039 goto testbrace;
5040 }
5041 for (i = 0; i < len; i++) {
5042 switch (s[i]) {
5043 case ' ':
5044 case '$':
5045 case '"':
5046 case '[':
5047 case ']':
5048 case ';':
5049 case '\\':
5050 case '\r':
5051 case '\n':
5052 case '\t':
5053 case '\f':
5054 case '\v':
5055 trySimple = 0;
5056 case '{':
5057 case '}':
5058 goto testbrace;
5059 }
5060 }
5061 return JIM_ELESTR_SIMPLE;
5062
5063 testbrace:
5064 /* Test if it's possible to do with braces */
5065 if (s[len-1] == '\\' ||
5066 s[len-1] == ']') return JIM_ELESTR_QUOTE;
5067 level = 0;
5068 for (i = 0; i < len; i++) {
5069 switch (s[i]) {
5070 case '{': level++; break;
5071 case '}': level--;
5072 if (level < 0) return JIM_ELESTR_QUOTE;
5073 break;
5074 case '\\':
5075 if (s[i + 1] == '\n')
5076 return JIM_ELESTR_QUOTE;
5077 else
5078 if (s[i + 1] != '\0') i++;
5079 break;
5080 }
5081 }
5082 if (level == 0) {
5083 if (!trySimple) return JIM_ELESTR_BRACE;
5084 for (i = 0; i < len; i++) {
5085 switch (s[i]) {
5086 case ' ':
5087 case '$':
5088 case '"':
5089 case '[':
5090 case ']':
5091 case ';':
5092 case '\\':
5093 case '\r':
5094 case '\n':
5095 case '\t':
5096 case '\f':
5097 case '\v':
5098 return JIM_ELESTR_BRACE;
5099 break;
5100 }
5101 }
5102 return JIM_ELESTR_SIMPLE;
5103 }
5104 return JIM_ELESTR_QUOTE;
5105 }
5106
5107 /* Returns the malloc-ed representation of a string
5108 * using backslash to quote special chars. */
5109 static char *BackslashQuoteString(const char *s, int len, int *qlenPtr)
5110 {
5111 char *q = Jim_Alloc(len*2 + 1), *p;
5112
5113 p = q;
5114 while (*s) {
5115 switch (*s) {
5116 case ' ':
5117 case '$':
5118 case '"':
5119 case '[':
5120 case ']':
5121 case '{':
5122 case '}':
5123 case ';':
5124 case '\\':
5125 *p++ = '\\';
5126 *p++ = *s++;
5127 break;
5128 case '\n': *p++ = '\\'; *p++ = 'n'; s++; break;
5129 case '\r': *p++ = '\\'; *p++ = 'r'; s++; break;
5130 case '\t': *p++ = '\\'; *p++ = 't'; s++; break;
5131 case '\f': *p++ = '\\'; *p++ = 'f'; s++; break;
5132 case '\v': *p++ = '\\'; *p++ = 'v'; s++; break;
5133 default:
5134 *p++ = *s++;
5135 break;
5136 }
5137 }
5138 *p = '\0';
5139 *qlenPtr = p-q;
5140 return q;
5141 }
5142
5143 void UpdateStringOfList(struct Jim_Obj *objPtr)
5144 {
5145 int i, bufLen, realLength;
5146 const char *strRep;
5147 char *p;
5148 int *quotingType;
5149 Jim_Obj **ele = objPtr->internalRep.listValue.ele;
5150
5151 /* (Over) Estimate the space needed. */
5152 quotingType = Jim_Alloc(sizeof(int)*objPtr->internalRep.listValue.len + 1);
5153 bufLen = 0;
5154 for (i = 0; i < objPtr->internalRep.listValue.len; i++) {
5155 int len;
5156
5157 strRep = Jim_GetString(ele[i], &len);
5158 quotingType[i] = ListElementQuotingType(strRep, len);
5159 switch (quotingType[i]) {
5160 case JIM_ELESTR_SIMPLE: bufLen += len; break;
5161 case JIM_ELESTR_BRACE: bufLen += len + 2; break;
5162 case JIM_ELESTR_QUOTE: bufLen += len*2; break;
5163 }
5164 bufLen++; /* elements separator. */
5165 }
5166 bufLen++;
5167
5168 /* Generate the string rep. */
5169 p = objPtr->bytes = Jim_Alloc(bufLen + 1);
5170 realLength = 0;
5171 for (i = 0; i < objPtr->internalRep.listValue.len; i++) {
5172 int len, qlen;
5173 strRep = Jim_GetString(ele[i], &len);
5174 char *q;
5175
5176 switch (quotingType[i]) {
5177 case JIM_ELESTR_SIMPLE:
5178 memcpy(p, strRep, len);
5179 p += len;
5180 realLength += len;
5181 break;
5182 case JIM_ELESTR_BRACE:
5183 *p++ = '{';
5184 memcpy(p, strRep, len);
5185 p += len;
5186 *p++ = '}';
5187 realLength += len + 2;
5188 break;
5189 case JIM_ELESTR_QUOTE:
5190 q = BackslashQuoteString(strRep, len, &qlen);
5191 memcpy(p, q, qlen);
5192 Jim_Free(q);
5193 p += qlen;
5194 realLength += qlen;
5195 break;
5196 }
5197 /* Add a separating space */
5198 if (i + 1 != objPtr->internalRep.listValue.len) {
5199 *p++ = ' ';
5200 realLength ++;
5201 }
5202 }
5203 *p = '\0'; /* nul term. */
5204 objPtr->length = realLength;
5205 Jim_Free(quotingType);
5206 }
5207
5208 int SetListFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
5209 {
5210 struct JimParserCtx parser;
5211 const char *str;
5212 int strLen;
5213
5214 /* Get the string representation */
5215 str = Jim_GetString(objPtr, &strLen);
5216
5217 /* Free the old internal repr just now and initialize the
5218 * new one just now. The string->list conversion can't fail. */
5219 Jim_FreeIntRep(interp, objPtr);
5220 objPtr->typePtr = &listObjType;
5221 objPtr->internalRep.listValue.len = 0;
5222 objPtr->internalRep.listValue.maxLen = 0;
5223 objPtr->internalRep.listValue.ele = NULL;
5224
5225 /* Convert into a list */
5226 JimParserInit(&parser, str, strLen, 1);
5227 while (!JimParserEof(&parser)) {
5228 char *token;
5229 int tokenLen, type;
5230 Jim_Obj *elementPtr;
5231
5232 JimParseList(&parser);
5233 if (JimParserTtype(&parser) != JIM_TT_STR &&
5234 JimParserTtype(&parser) != JIM_TT_ESC)
5235 continue;
5236 token = JimParserGetToken(&parser, &tokenLen, &type, NULL);
5237 elementPtr = Jim_NewStringObjNoAlloc(interp, token, tokenLen);
5238 ListAppendElement(objPtr, elementPtr);
5239 }
5240 return JIM_OK;
5241 }
5242
5243 Jim_Obj *Jim_NewListObj(Jim_Interp *interp, Jim_Obj *const *elements,
5244 int len)
5245 {
5246 Jim_Obj *objPtr;
5247 int i;
5248
5249 objPtr = Jim_NewObj(interp);
5250 objPtr->typePtr = &listObjType;
5251 objPtr->bytes = NULL;
5252 objPtr->internalRep.listValue.ele = NULL;
5253 objPtr->internalRep.listValue.len = 0;
5254 objPtr->internalRep.listValue.maxLen = 0;
5255 for (i = 0; i < len; i++) {
5256 ListAppendElement(objPtr, elements[i]);
5257 }
5258 return objPtr;
5259 }
5260
5261 /* Return a vector of Jim_Obj with the elements of a Jim list, and the
5262 * length of the vector. Note that the user of this function should make
5263 * sure that the list object can't shimmer while the vector returned
5264 * is in use, this vector is the one stored inside the internal representation
5265 * of the list object. This function is not exported, extensions should
5266 * always access to the List object elements using Jim_ListIndex(). */
5267 static void JimListGetElements(Jim_Interp *interp, Jim_Obj *listObj, int *argc,
5268 Jim_Obj ***listVec)
5269 {
5270 Jim_ListLength(interp, listObj, argc);
5271 assert(listObj->typePtr == &listObjType);
5272 *listVec = listObj->internalRep.listValue.ele;
5273 }
5274
5275 /* ListSortElements type values */
5276 enum {JIM_LSORT_ASCII, JIM_LSORT_NOCASE, JIM_LSORT_ASCII_DECR,
5277 JIM_LSORT_NOCASE_DECR};
5278
5279 /* Sort the internal rep of a list. */
5280 static int ListSortString(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
5281 {
5282 return Jim_StringCompareObj(*lhsObj, *rhsObj, 0);
5283 }
5284
5285 static int ListSortStringDecr(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
5286 {
5287 return Jim_StringCompareObj(*lhsObj, *rhsObj, 0) * -1;
5288 }
5289
5290 static int ListSortStringNoCase(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
5291 {
5292 return Jim_StringCompareObj(*lhsObj, *rhsObj, 1);
5293 }
5294
5295 static int ListSortStringNoCaseDecr(Jim_Obj **lhsObj, Jim_Obj **rhsObj)
5296 {
5297 return Jim_StringCompareObj(*lhsObj, *rhsObj, 1) * -1;
5298 }
5299
5300 /* Sort a list *in place*. MUST be called with non-shared objects. */
5301 static void ListSortElements(Jim_Interp *interp, Jim_Obj *listObjPtr, int type)
5302 {
5303 typedef int (qsort_comparator)(const void *, const void *);
5304 int (*fn)(Jim_Obj**, Jim_Obj**);
5305 Jim_Obj **vector;
5306 int len;
5307
5308 if (Jim_IsShared(listObjPtr))
5309 Jim_Panic(interp,"Jim_ListSortElements called with shared object");
5310 if (listObjPtr->typePtr != &listObjType)
5311 SetListFromAny(interp, listObjPtr);
5312
5313 vector = listObjPtr->internalRep.listValue.ele;
5314 len = listObjPtr->internalRep.listValue.len;
5315 switch (type) {
5316 case JIM_LSORT_ASCII: fn = ListSortString; break;
5317 case JIM_LSORT_NOCASE: fn = ListSortStringNoCase; break;
5318 case JIM_LSORT_ASCII_DECR: fn = ListSortStringDecr; break;
5319 case JIM_LSORT_NOCASE_DECR: fn = ListSortStringNoCaseDecr; break;
5320 default:
5321 fn = NULL; /* avoid warning */
5322 Jim_Panic(interp,"ListSort called with invalid sort type");
5323 }
5324 qsort(vector, len, sizeof(Jim_Obj *), (qsort_comparator *)fn);
5325 Jim_InvalidateStringRep(listObjPtr);
5326 }
5327
5328 /* This is the low-level function to append an element to a list.
5329 * The higher-level Jim_ListAppendElement() performs shared object
5330 * check and invalidate the string repr. This version is used
5331 * in the internals of the List Object and is not exported.
5332 *
5333 * NOTE: this function can be called only against objects
5334 * with internal type of List. */
5335 void ListAppendElement(Jim_Obj *listPtr, Jim_Obj *objPtr)
5336 {
5337 int requiredLen = listPtr->internalRep.listValue.len + 1;
5338
5339 if (requiredLen > listPtr->internalRep.listValue.maxLen) {
5340 int maxLen = requiredLen * 2;
5341
5342 listPtr->internalRep.listValue.ele =
5343 Jim_Realloc(listPtr->internalRep.listValue.ele,
5344 sizeof(Jim_Obj*)*maxLen);
5345 listPtr->internalRep.listValue.maxLen = maxLen;
5346 }
5347 listPtr->internalRep.listValue.ele[listPtr->internalRep.listValue.len] =
5348 objPtr;
5349 listPtr->internalRep.listValue.len ++;
5350 Jim_IncrRefCount(objPtr);
5351 }
5352
5353 /* This is the low-level function to insert elements into a list.
5354 * The higher-level Jim_ListInsertElements() performs shared object
5355 * check and invalidate the string repr. This version is used
5356 * in the internals of the List Object and is not exported.
5357 *
5358 * NOTE: this function can be called only against objects
5359 * with internal type of List. */
5360 static void ListInsertElements(Jim_Obj *listPtr, int index_t, int elemc,
5361 Jim_Obj *const *elemVec)
5362 {
5363 int currentLen = listPtr->internalRep.listValue.len;
5364 int requiredLen = currentLen + elemc;
5365 int i;
5366 Jim_Obj **point;
5367
5368 if (requiredLen > listPtr->internalRep.listValue.maxLen) {
5369 int maxLen = requiredLen * 2;
5370
5371 listPtr->internalRep.listValue.ele =
5372 Jim_Realloc(listPtr->internalRep.listValue.ele,
5373 sizeof(Jim_Obj*)*maxLen);
5374 listPtr->internalRep.listValue.maxLen = maxLen;
5375 }
5376 point = listPtr->internalRep.listValue.ele + index_t;
5377 memmove(point + elemc, point, (currentLen-index_t) * sizeof(Jim_Obj*));
5378 for (i = 0; i < elemc; ++i) {
5379 point[i] = elemVec[i];
5380 Jim_IncrRefCount(point[i]);
5381 }
5382 listPtr->internalRep.listValue.len += elemc;
5383 }
5384
5385 /* Appends every element of appendListPtr into listPtr.
5386 * Both have to be of the list type. */
5387 static void ListAppendList(Jim_Obj *listPtr, Jim_Obj *appendListPtr)
5388 {
5389 int i, oldLen = listPtr->internalRep.listValue.len;
5390 int appendLen = appendListPtr->internalRep.listValue.len;
5391 int requiredLen = oldLen + appendLen;
5392
5393 if (requiredLen > listPtr->internalRep.listValue.maxLen) {
5394 int maxLen = requiredLen * 2;
5395
5396 listPtr->internalRep.listValue.ele =
5397 Jim_Realloc(listPtr->internalRep.listValue.ele,
5398 sizeof(Jim_Obj*)*maxLen);
5399 listPtr->internalRep.listValue.maxLen = maxLen;
5400 }
5401 for (i = 0; i < appendLen; i++) {
5402 Jim_Obj *objPtr = appendListPtr->internalRep.listValue.ele[i];
5403 listPtr->internalRep.listValue.ele[oldLen + i] = objPtr;
5404 Jim_IncrRefCount(objPtr);
5405 }
5406 listPtr->internalRep.listValue.len += appendLen;
5407 }
5408
5409 void Jim_ListAppendElement(Jim_Interp *interp, Jim_Obj *listPtr, Jim_Obj *objPtr)
5410 {
5411 if (Jim_IsShared(listPtr))
5412 Jim_Panic(interp,"Jim_ListAppendElement called with shared object");
5413 if (listPtr->typePtr != &listObjType)
5414 SetListFromAny(interp, listPtr);
5415 Jim_InvalidateStringRep(listPtr);
5416 ListAppendElement(listPtr, objPtr);
5417 }
5418
5419 void Jim_ListAppendList(Jim_Interp *interp, Jim_Obj *listPtr, Jim_Obj *appendListPtr)
5420 {
5421 if (Jim_IsShared(listPtr))
5422 Jim_Panic(interp,"Jim_ListAppendList called with shared object");
5423 if (listPtr->typePtr != &listObjType)
5424 SetListFromAny(interp, listPtr);
5425 Jim_InvalidateStringRep(listPtr);
5426 ListAppendList(listPtr, appendListPtr);
5427 }
5428
5429 void Jim_ListLength(Jim_Interp *interp, Jim_Obj *listPtr, int *intPtr)
5430 {
5431 if (listPtr->typePtr != &listObjType)
5432 SetListFromAny(interp, listPtr);
5433 *intPtr = listPtr->internalRep.listValue.len;
5434 }
5435
5436 void Jim_ListInsertElements(Jim_Interp *interp, Jim_Obj *listPtr, int index_t,
5437 int objc, Jim_Obj *const *objVec)
5438 {
5439 if (Jim_IsShared(listPtr))
5440 Jim_Panic(interp,"Jim_ListInsertElement called with shared object");
5441 if (listPtr->typePtr != &listObjType)
5442 SetListFromAny(interp, listPtr);
5443 if (index_t >= 0 && index_t > listPtr->internalRep.listValue.len)
5444 index_t = listPtr->internalRep.listValue.len;
5445 else if (index_t < 0)
5446 index_t = 0;
5447 Jim_InvalidateStringRep(listPtr);
5448 ListInsertElements(listPtr, index_t, objc, objVec);
5449 }
5450
5451 int Jim_ListIndex(Jim_Interp *interp, Jim_Obj *listPtr, int index_t,
5452 Jim_Obj **objPtrPtr, int flags)
5453 {
5454 if (listPtr->typePtr != &listObjType)
5455 SetListFromAny(interp, listPtr);
5456 if ((index_t >= 0 && index_t >= listPtr->internalRep.listValue.len) ||
5457 (index_t < 0 && (-index_t-1) >= listPtr->internalRep.listValue.len)) {
5458 if (flags & JIM_ERRMSG) {
5459 Jim_SetResultString(interp,
5460 "list index out of range", -1);
5461 }
5462 return JIM_ERR;
5463 }
5464 if (index_t < 0)
5465 index_t = listPtr->internalRep.listValue.len + index_t;
5466 *objPtrPtr = listPtr->internalRep.listValue.ele[index_t];
5467 return JIM_OK;
5468 }
5469
5470 static int ListSetIndex(Jim_Interp *interp, Jim_Obj *listPtr, int index_t,
5471 Jim_Obj *newObjPtr, int flags)
5472 {
5473 if (listPtr->typePtr != &listObjType)
5474 SetListFromAny(interp, listPtr);
5475 if ((index_t >= 0 && index_t >= listPtr->internalRep.listValue.len) ||
5476 (index_t < 0 && (-index_t-1) >= listPtr->internalRep.listValue.len)) {
5477 if (flags & JIM_ERRMSG) {
5478 Jim_SetResultString(interp,
5479 "list index_t out of range", -1);
5480 }
5481 return JIM_ERR;
5482 }
5483 if (index_t < 0)
5484 index_t = listPtr->internalRep.listValue.len + index_t;
5485 Jim_DecrRefCount(interp, listPtr->internalRep.listValue.ele[index_t]);
5486 listPtr->internalRep.listValue.ele[index_t] = newObjPtr;
5487 Jim_IncrRefCount(newObjPtr);
5488 return JIM_OK;
5489 }
5490
5491 /* Modify the list stored into the variable named 'varNamePtr'
5492 * setting the element specified by the 'indexc' indexes objects in 'indexv',
5493 * with the new element 'newObjptr'. */
5494 int Jim_SetListIndex(Jim_Interp *interp, Jim_Obj *varNamePtr,
5495 Jim_Obj *const *indexv, int indexc, Jim_Obj *newObjPtr)
5496 {
5497 Jim_Obj *varObjPtr, *objPtr, *listObjPtr;
5498 int shared, i, index_t;
5499
5500 varObjPtr = objPtr = Jim_GetVariable(interp, varNamePtr, JIM_ERRMSG);
5501 if (objPtr == NULL)
5502 return JIM_ERR;
5503 if ((shared = Jim_IsShared(objPtr)))
5504 varObjPtr = objPtr = Jim_DuplicateObj(interp, objPtr);
5505 for (i = 0; i < indexc-1; i++) {
5506 listObjPtr = objPtr;
5507 if (Jim_GetIndex(interp, indexv[i], &index_t) != JIM_OK)
5508 goto err;
5509 if (Jim_ListIndex(interp, listObjPtr, index_t, &objPtr,
5510 JIM_ERRMSG) != JIM_OK) {
5511 goto err;
5512 }
5513 if (Jim_IsShared(objPtr)) {
5514 objPtr = Jim_DuplicateObj(interp, objPtr);
5515 ListSetIndex(interp, listObjPtr, index_t, objPtr, JIM_NONE);
5516 }
5517 Jim_InvalidateStringRep(listObjPtr);
5518 }
5519 if (Jim_GetIndex(interp, indexv[indexc-1], &index_t) != JIM_OK)
5520 goto err;
5521 if (ListSetIndex(interp, objPtr, index_t, newObjPtr, JIM_ERRMSG) == JIM_ERR)
5522 goto err;
5523 Jim_InvalidateStringRep(objPtr);
5524 Jim_InvalidateStringRep(varObjPtr);
5525 if (Jim_SetVariable(interp, varNamePtr, varObjPtr) != JIM_OK)
5526 goto err;
5527 Jim_SetResult(interp, varObjPtr);
5528 return JIM_OK;
5529 err:
5530 if (shared) {
5531 Jim_FreeNewObj(interp, varObjPtr);
5532 }
5533 return JIM_ERR;
5534 }
5535
5536 Jim_Obj *Jim_ConcatObj(Jim_Interp *interp, int objc, Jim_Obj *const *objv)
5537 {
5538 int i;
5539
5540 /* If all the objects in objv are lists without string rep.
5541 * it's possible to return a list as result, that's the
5542 * concatenation of all the lists. */
5543 for (i = 0; i < objc; i++) {
5544 if (objv[i]->typePtr != &listObjType || objv[i]->bytes)
5545 break;
5546 }
5547 if (i == objc) {
5548 Jim_Obj *objPtr = Jim_NewListObj(interp, NULL, 0);
5549 for (i = 0; i < objc; i++)
5550 Jim_ListAppendList(interp, objPtr, objv[i]);
5551 return objPtr;
5552 } else {
5553 /* Else... we have to glue strings together */
5554 int len = 0, objLen;
5555 char *bytes, *p;
5556
5557 /* Compute the length */
5558 for (i = 0; i < objc; i++) {
5559 Jim_GetString(objv[i], &objLen);
5560 len += objLen;
5561 }
5562 if (objc) len += objc-1;
5563 /* Create the string rep, and a stinrg object holding it. */
5564 p = bytes = Jim_Alloc(len + 1);
5565 for (i = 0; i < objc; i++) {
5566 const char *s = Jim_GetString(objv[i], &objLen);
5567 while (objLen && (*s == ' ' || *s == '\t' || *s == '\n'))
5568 {
5569 s++; objLen--; len--;
5570 }
5571 while (objLen && (s[objLen-1] == ' ' ||
5572 s[objLen-1] == '\n' || s[objLen-1] == '\t')) {
5573 objLen--; len--;
5574 }
5575 memcpy(p, s, objLen);
5576 p += objLen;
5577 if (objLen && i + 1 != objc) {
5578 *p++ = ' ';
5579 } else if (i + 1 != objc) {
5580 /* Drop the space calcuated for this
5581 * element that is instead null. */
5582 len--;
5583 }
5584 }
5585 *p = '\0';
5586 return Jim_NewStringObjNoAlloc(interp, bytes, len);
5587 }
5588 }
5589
5590 /* Returns a list composed of the elements in the specified range.
5591 * first and start are directly accepted as Jim_Objects and
5592 * processed for the end?-index? case. */
5593 static Jim_Obj *Jim_ListRange(Jim_Interp *interp, Jim_Obj *listObjPtr,
5594 Jim_Obj *firstObjPtr, Jim_Obj *lastObjPtr)
5595 {
5596 int first, last;
5597 int len, rangeLen;
5598
5599 if (Jim_GetIndex(interp, firstObjPtr, &first) != JIM_OK ||
5600 Jim_GetIndex(interp, lastObjPtr, &last) != JIM_OK)
5601 return NULL;
5602 Jim_ListLength(interp, listObjPtr, &len); /* will convert into list */
5603 first = JimRelToAbsIndex(len, first);
5604 last = JimRelToAbsIndex(len, last);
5605 JimRelToAbsRange(len, first, last, &first, &last, &rangeLen);
5606 return Jim_NewListObj(interp,
5607 listObjPtr->internalRep.listValue.ele + first, rangeLen);
5608 }
5609
5610 /* -----------------------------------------------------------------------------
5611 * Dict object
5612 * ---------------------------------------------------------------------------*/
5613 static void FreeDictInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
5614 static void DupDictInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
5615 static void UpdateStringOfDict(struct Jim_Obj *objPtr);
5616 static int SetDictFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
5617
5618 /* Dict HashTable Type.
5619 *
5620 * Keys and Values are Jim objects. */
5621
5622 static unsigned int JimObjectHTHashFunction(const void *key)
5623 {
5624 const char *str;
5625 Jim_Obj *objPtr = (Jim_Obj*) key;
5626 int len, h;
5627
5628 str = Jim_GetString(objPtr, &len);
5629 h = Jim_GenHashFunction((unsigned char*)str, len);
5630 return h;
5631 }
5632
5633 static int JimObjectHTKeyCompare(void *privdata, const void *key1, const void *key2)
5634 {
5635 JIM_NOTUSED(privdata);
5636
5637 return Jim_StringEqObj((Jim_Obj*)key1, (Jim_Obj*)key2, 0);
5638 }
5639
5640 static void JimObjectHTKeyValDestructor(void *interp, void *val)
5641 {
5642 Jim_Obj *objPtr = val;
5643
5644 Jim_DecrRefCount(interp, objPtr);
5645 }
5646
5647 static Jim_HashTableType JimDictHashTableType = {
5648 JimObjectHTHashFunction, /* hash function */
5649 NULL, /* key dup */
5650 NULL, /* val dup */
5651 JimObjectHTKeyCompare, /* key compare */
5652 (void(*)(void*, const void*)) /* ATTENTION: const cast */
5653 JimObjectHTKeyValDestructor, /* key destructor */
5654 JimObjectHTKeyValDestructor /* val destructor */
5655 };
5656
5657 /* Note that while the elements of the dict may contain references,
5658 * the list object itself can't. This basically means that the
5659 * dict object string representation as a whole can't contain references
5660 * that are not presents in the single elements. */
5661 static Jim_ObjType dictObjType = {
5662 "dict",
5663 FreeDictInternalRep,
5664 DupDictInternalRep,
5665 UpdateStringOfDict,
5666 JIM_TYPE_NONE,
5667 };
5668
5669 void FreeDictInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
5670 {
5671 JIM_NOTUSED(interp);
5672
5673 Jim_FreeHashTable(objPtr->internalRep.ptr);
5674 Jim_Free(objPtr->internalRep.ptr);
5675 }
5676
5677 void DupDictInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
5678 {
5679 Jim_HashTable *ht, *dupHt;
5680 Jim_HashTableIterator *htiter;
5681 Jim_HashEntry *he;
5682
5683 /* Create a new hash table */
5684 ht = srcPtr->internalRep.ptr;
5685 dupHt = Jim_Alloc(sizeof(*dupHt));
5686 Jim_InitHashTable(dupHt, &JimDictHashTableType, interp);
5687 if (ht->size != 0)
5688 Jim_ExpandHashTable(dupHt, ht->size);
5689 /* Copy every element from the source to the dup hash table */
5690 htiter = Jim_GetHashTableIterator(ht);
5691 while ((he = Jim_NextHashEntry(htiter)) != NULL) {
5692 const Jim_Obj *keyObjPtr = he->key;
5693 Jim_Obj *valObjPtr = he->val;
5694
5695 Jim_IncrRefCount((Jim_Obj*)keyObjPtr); /* ATTENTION: const cast */
5696 Jim_IncrRefCount(valObjPtr);
5697 Jim_AddHashEntry(dupHt, keyObjPtr, valObjPtr);
5698 }
5699 Jim_FreeHashTableIterator(htiter);
5700
5701 dupPtr->internalRep.ptr = dupHt;
5702 dupPtr->typePtr = &dictObjType;
5703 }
5704
5705 void UpdateStringOfDict(struct Jim_Obj *objPtr)
5706 {
5707 int i, bufLen, realLength;
5708 const char *strRep;
5709 char *p;
5710 int *quotingType, objc;
5711 Jim_HashTable *ht;
5712 Jim_HashTableIterator *htiter;
5713 Jim_HashEntry *he;
5714 Jim_Obj **objv;
5715
5716 /* Trun the hash table into a flat vector of Jim_Objects. */
5717 ht = objPtr->internalRep.ptr;
5718 objc = ht->used*2;
5719 objv = Jim_Alloc(objc*sizeof(Jim_Obj*));
5720 htiter = Jim_GetHashTableIterator(ht);
5721 i = 0;
5722 while ((he = Jim_NextHashEntry(htiter)) != NULL) {
5723 objv[i++] = (Jim_Obj*)he->key; /* ATTENTION: const cast */
5724 objv[i++] = he->val;
5725 }
5726 Jim_FreeHashTableIterator(htiter);
5727 /* (Over) Estimate the space needed. */
5728 quotingType = Jim_Alloc(sizeof(int)*objc);
5729 bufLen = 0;
5730 for (i = 0; i < objc; i++) {
5731 int len;
5732
5733 strRep = Jim_GetString(objv[i], &len);
5734 quotingType[i] = ListElementQuotingType(strRep, len);
5735 switch (quotingType[i]) {
5736 case JIM_ELESTR_SIMPLE: bufLen += len; break;
5737 case JIM_ELESTR_BRACE: bufLen += len + 2; break;
5738 case JIM_ELESTR_QUOTE: bufLen += len*2; break;
5739 }
5740 bufLen++; /* elements separator. */
5741 }
5742 bufLen++;
5743
5744 /* Generate the string rep. */
5745 p = objPtr->bytes = Jim_Alloc(bufLen + 1);
5746 realLength = 0;
5747 for (i = 0; i < objc; i++) {
5748 int len, qlen;
5749 strRep = Jim_GetString(objv[i], &len);
5750 char *q;
5751
5752 switch (quotingType[i]) {
5753 case JIM_ELESTR_SIMPLE:
5754 memcpy(p, strRep, len);
5755 p += len;
5756 realLength += len;
5757 break;
5758 case JIM_ELESTR_BRACE:
5759 *p++ = '{';
5760 memcpy(p, strRep, len);
5761 p += len;
5762 *p++ = '}';
5763 realLength += len + 2;
5764 break;
5765 case JIM_ELESTR_QUOTE:
5766 q = BackslashQuoteString(strRep, len, &qlen);
5767 memcpy(p, q, qlen);
5768 Jim_Free(q);
5769 p += qlen;
5770 realLength += qlen;
5771 break;
5772 }
5773 /* Add a separating space */
5774 if (i + 1 != objc) {
5775 *p++ = ' ';
5776 realLength ++;
5777 }
5778 }
5779 *p = '\0'; /* nul term. */
5780 objPtr->length = realLength;
5781 Jim_Free(quotingType);
5782 Jim_Free(objv);
5783 }
5784
5785 int SetDictFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
5786 {
5787 struct JimParserCtx parser;
5788 Jim_HashTable *ht;
5789 Jim_Obj *objv[2];
5790 const char *str;
5791 int i, strLen;
5792
5793 /* Get the string representation */
5794 str = Jim_GetString(objPtr, &strLen);
5795
5796 /* Free the old internal repr just now and initialize the
5797 * new one just now. The string->list conversion can't fail. */
5798 Jim_FreeIntRep(interp, objPtr);
5799 ht = Jim_Alloc(sizeof(*ht));
5800 Jim_InitHashTable(ht, &JimDictHashTableType, interp);
5801 objPtr->typePtr = &dictObjType;
5802 objPtr->internalRep.ptr = ht;
5803
5804 /* Convert into a dict */
5805 JimParserInit(&parser, str, strLen, 1);
5806 i = 0;
5807 while (!JimParserEof(&parser)) {
5808 char *token;
5809 int tokenLen, type;
5810
5811 JimParseList(&parser);
5812 if (JimParserTtype(&parser) != JIM_TT_STR &&
5813 JimParserTtype(&parser) != JIM_TT_ESC)
5814 continue;
5815 token = JimParserGetToken(&parser, &tokenLen, &type, NULL);
5816 objv[i++] = Jim_NewStringObjNoAlloc(interp, token, tokenLen);
5817 if (i == 2) {
5818 i = 0;
5819 Jim_IncrRefCount(objv[0]);
5820 Jim_IncrRefCount(objv[1]);
5821 if (Jim_AddHashEntry(ht, objv[0], objv[1]) != JIM_OK) {
5822 Jim_HashEntry *he;
5823 he = Jim_FindHashEntry(ht, objv[0]);
5824 Jim_DecrRefCount(interp, objv[0]);
5825 /* ATTENTION: const cast */
5826 Jim_DecrRefCount(interp, (Jim_Obj*)he->val);
5827 he->val = objv[1];
5828 }
5829 }
5830 }
5831 if (i) {
5832 Jim_FreeNewObj(interp, objv[0]);
5833 objPtr->typePtr = NULL;
5834 Jim_FreeHashTable(ht);
5835 Jim_SetResultString(interp, "invalid dictionary value: must be a list with an even number of elements", -1);
5836 return JIM_ERR;
5837 }
5838 return JIM_OK;
5839 }
5840
5841 /* Dict object API */
5842
5843 /* Add an element to a dict. objPtr must be of the "dict" type.
5844 * The higer-level exported function is Jim_DictAddElement().
5845 * If an element with the specified key already exists, the value
5846 * associated is replaced with the new one.
5847 *
5848 * if valueObjPtr == NULL, the key is instead removed if it exists. */
5849 static void DictAddElement(Jim_Interp *interp, Jim_Obj *objPtr,
5850 Jim_Obj *keyObjPtr, Jim_Obj *valueObjPtr)
5851 {
5852 Jim_HashTable *ht = objPtr->internalRep.ptr;
5853
5854 if (valueObjPtr == NULL) { /* unset */
5855 Jim_DeleteHashEntry(ht, keyObjPtr);
5856 return;
5857 }
5858 Jim_IncrRefCount(keyObjPtr);
5859 Jim_IncrRefCount(valueObjPtr);
5860 if (Jim_AddHashEntry(ht, keyObjPtr, valueObjPtr) != JIM_OK) {
5861 Jim_HashEntry *he = Jim_FindHashEntry(ht, keyObjPtr);
5862 Jim_DecrRefCount(interp, keyObjPtr);
5863 /* ATTENTION: const cast */
5864 Jim_DecrRefCount(interp, (Jim_Obj*)he->val);
5865 he->val = valueObjPtr;
5866 }
5867 }
5868
5869 /* Add an element, higher-level interface for DictAddElement().
5870 * If valueObjPtr == NULL, the key is removed if it exists. */
5871 static int Jim_DictAddElement(Jim_Interp *interp, Jim_Obj *objPtr,
5872 Jim_Obj *keyObjPtr, Jim_Obj *valueObjPtr)
5873 {
5874 if (Jim_IsShared(objPtr))
5875 Jim_Panic(interp,"Jim_DictAddElement called with shared object");
5876 if (objPtr->typePtr != &dictObjType) {
5877 if (SetDictFromAny(interp, objPtr) != JIM_OK)
5878 return JIM_ERR;
5879 }
5880 DictAddElement(interp, objPtr, keyObjPtr, valueObjPtr);
5881 Jim_InvalidateStringRep(objPtr);
5882 return JIM_OK;
5883 }
5884
5885 Jim_Obj *Jim_NewDictObj(Jim_Interp *interp, Jim_Obj *const *elements, int len)
5886 {
5887 Jim_Obj *objPtr;
5888 int i;
5889
5890 if (len % 2)
5891 Jim_Panic(interp,"Jim_NewDicObj() 'len' argument must be even");
5892
5893 objPtr = Jim_NewObj(interp);
5894 objPtr->typePtr = &dictObjType;
5895 objPtr->bytes = NULL;
5896 objPtr->internalRep.ptr = Jim_Alloc(sizeof(Jim_HashTable));
5897 Jim_InitHashTable(objPtr->internalRep.ptr, &JimDictHashTableType, interp);
5898 for (i = 0; i < len; i += 2)
5899 DictAddElement(interp, objPtr, elements[i], elements[i + 1]);
5900 return objPtr;
5901 }
5902
5903 /* Return the value associated to the specified dict key */
5904 int Jim_DictKey(Jim_Interp *interp, Jim_Obj *dictPtr, Jim_Obj *keyPtr,
5905 Jim_Obj **objPtrPtr, int flags)
5906 {
5907 Jim_HashEntry *he;
5908 Jim_HashTable *ht;
5909
5910 if (dictPtr->typePtr != &dictObjType) {
5911 if (SetDictFromAny(interp, dictPtr) != JIM_OK)
5912 return JIM_ERR;
5913 }
5914 ht = dictPtr->internalRep.ptr;
5915 if ((he = Jim_FindHashEntry(ht, keyPtr)) == NULL) {
5916 if (flags & JIM_ERRMSG) {
5917 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
5918 Jim_AppendStrings(interp, Jim_GetResult(interp),
5919 "key \"", Jim_GetString(keyPtr, NULL),
5920 "\" not found in dictionary", NULL);
5921 }
5922 return JIM_ERR;
5923 }
5924 *objPtrPtr = he->val;
5925 return JIM_OK;
5926 }
5927
5928 /* Return the value associated to the specified dict keys */
5929 int Jim_DictKeysVector(Jim_Interp *interp, Jim_Obj *dictPtr,
5930 Jim_Obj *const *keyv, int keyc, Jim_Obj **objPtrPtr, int flags)
5931 {
5932 Jim_Obj *objPtr = NULL;
5933 int i;
5934
5935 if (keyc == 0) {
5936 *objPtrPtr = dictPtr;
5937 return JIM_OK;
5938 }
5939
5940 for (i = 0; i < keyc; i++) {
5941 if (Jim_DictKey(interp, dictPtr, keyv[i], &objPtr, flags)
5942 != JIM_OK)
5943 return JIM_ERR;
5944 dictPtr = objPtr;
5945 }
5946 *objPtrPtr = objPtr;
5947 return JIM_OK;
5948 }
5949
5950 /* Modify the dict stored into the variable named 'varNamePtr'
5951 * setting the element specified by the 'keyc' keys objects in 'keyv',
5952 * with the new value of the element 'newObjPtr'.
5953 *
5954 * If newObjPtr == NULL the operation is to remove the given key
5955 * from the dictionary. */
5956 int Jim_SetDictKeysVector(Jim_Interp *interp, Jim_Obj *varNamePtr,
5957 Jim_Obj *const *keyv, int keyc, Jim_Obj *newObjPtr)
5958 {
5959 Jim_Obj *varObjPtr, *objPtr, *dictObjPtr;
5960 int shared, i;
5961
5962 varObjPtr = objPtr = Jim_GetVariable(interp, varNamePtr, JIM_ERRMSG);
5963 if (objPtr == NULL) {
5964 if (newObjPtr == NULL) /* Cannot remove a key from non existing var */
5965 return JIM_ERR;
5966 varObjPtr = objPtr = Jim_NewDictObj(interp, NULL, 0);
5967 if (Jim_SetVariable(interp, varNamePtr, objPtr) != JIM_OK) {
5968 Jim_FreeNewObj(interp, varObjPtr);
5969 return JIM_ERR;
5970 }
5971 }
5972 if ((shared = Jim_IsShared(objPtr)))
5973 varObjPtr = objPtr = Jim_DuplicateObj(interp, objPtr);
5974 for (i = 0; i < keyc-1; i++) {
5975 dictObjPtr = objPtr;
5976
5977 /* Check if it's a valid dictionary */
5978 if (dictObjPtr->typePtr != &dictObjType) {
5979 if (SetDictFromAny(interp, dictObjPtr) != JIM_OK)
5980 goto err;
5981 }
5982 /* Check if the given key exists. */
5983 Jim_InvalidateStringRep(dictObjPtr);
5984 if (Jim_DictKey(interp, dictObjPtr, keyv[i], &objPtr,
5985 newObjPtr ? JIM_NONE : JIM_ERRMSG) == JIM_OK)
5986 {
5987 /* This key exists at the current level.
5988 * Make sure it's not shared!. */
5989 if (Jim_IsShared(objPtr)) {
5990 objPtr = Jim_DuplicateObj(interp, objPtr);
5991 DictAddElement(interp, dictObjPtr, keyv[i], objPtr);
5992 }
5993 } else {
5994 /* Key not found. If it's an [unset] operation
5995 * this is an error. Only the last key may not
5996 * exist. */
5997 if (newObjPtr == NULL)
5998 goto err;
5999 /* Otherwise set an empty dictionary
6000 * as key's value. */
6001 objPtr = Jim_NewDictObj(interp, NULL, 0);
6002 DictAddElement(interp, dictObjPtr, keyv[i], objPtr);
6003 }
6004 }
6005 if (Jim_DictAddElement(interp, objPtr, keyv[keyc-1], newObjPtr)
6006 != JIM_OK)
6007 goto err;
6008 Jim_InvalidateStringRep(objPtr);
6009 Jim_InvalidateStringRep(varObjPtr);
6010 if (Jim_SetVariable(interp, varNamePtr, varObjPtr) != JIM_OK)
6011 goto err;
6012 Jim_SetResult(interp, varObjPtr);
6013 return JIM_OK;
6014 err:
6015 if (shared) {
6016 Jim_FreeNewObj(interp, varObjPtr);
6017 }
6018 return JIM_ERR;
6019 }
6020
6021 /* -----------------------------------------------------------------------------
6022 * Index object
6023 * ---------------------------------------------------------------------------*/
6024 static void UpdateStringOfIndex(struct Jim_Obj *objPtr);
6025 static int SetIndexFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
6026
6027 static Jim_ObjType indexObjType = {
6028 "index",
6029 NULL,
6030 NULL,
6031 UpdateStringOfIndex,
6032 JIM_TYPE_NONE,
6033 };
6034
6035 void UpdateStringOfIndex(struct Jim_Obj *objPtr)
6036 {
6037 int len;
6038 char buf[JIM_INTEGER_SPACE + 1];
6039
6040 if (objPtr->internalRep.indexValue >= 0)
6041 len = sprintf(buf, "%d", objPtr->internalRep.indexValue);
6042 else if (objPtr->internalRep.indexValue == -1)
6043 len = sprintf(buf, "end");
6044 else {
6045 len = sprintf(buf, "end%d", objPtr->internalRep.indexValue + 1);
6046 }
6047 objPtr->bytes = Jim_Alloc(len + 1);
6048 memcpy(objPtr->bytes, buf, len + 1);
6049 objPtr->length = len;
6050 }
6051
6052 int SetIndexFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
6053 {
6054 int index_t, end = 0;
6055 const char *str;
6056
6057 /* Get the string representation */
6058 str = Jim_GetString(objPtr, NULL);
6059 /* Try to convert into an index */
6060 if (!strcmp(str, "end")) {
6061 index_t = 0;
6062 end = 1;
6063 } else {
6064 if (!strncmp(str, "end-", 4)) {
6065 str += 4;
6066 end = 1;
6067 }
6068 if (Jim_StringToIndex(str, &index_t) != JIM_OK) {
6069 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
6070 Jim_AppendStrings(interp, Jim_GetResult(interp),
6071 "bad index \"", Jim_GetString(objPtr, NULL), "\": "
6072 "must be integer or end?-integer?", NULL);
6073 return JIM_ERR;
6074 }
6075 }
6076 if (end) {
6077 if (index_t < 0)
6078 index_t = INT_MAX;
6079 else
6080 index_t = -(index_t + 1);
6081 } else if (index_t < 0)
6082 index_t = -INT_MAX;
6083 /* Free the old internal repr and set the new one. */
6084 Jim_FreeIntRep(interp, objPtr);
6085 objPtr->typePtr = &indexObjType;
6086 objPtr->internalRep.indexValue = index_t;
6087 return JIM_OK;
6088 }
6089
6090 int Jim_GetIndex(Jim_Interp *interp, Jim_Obj *objPtr, int *indexPtr)
6091 {
6092 /* Avoid shimmering if the object is an integer. */
6093 if (objPtr->typePtr == &intObjType) {
6094 jim_wide val = objPtr->internalRep.wideValue;
6095 if (!(val < LONG_MIN) && !(val > LONG_MAX)) {
6096 *indexPtr = (val < 0) ? -INT_MAX : (long)val;;
6097 return JIM_OK;
6098 }
6099 }
6100 if (objPtr->typePtr != &indexObjType &&
6101 SetIndexFromAny(interp, objPtr) == JIM_ERR)
6102 return JIM_ERR;
6103 *indexPtr = objPtr->internalRep.indexValue;
6104 return JIM_OK;
6105 }
6106
6107 /* -----------------------------------------------------------------------------
6108 * Return Code Object.
6109 * ---------------------------------------------------------------------------*/
6110
6111 static int SetReturnCodeFromAny(Jim_Interp *interp, Jim_Obj *objPtr);
6112
6113 static Jim_ObjType returnCodeObjType = {
6114 "return-code",
6115 NULL,
6116 NULL,
6117 NULL,
6118 JIM_TYPE_NONE,
6119 };
6120
6121 int SetReturnCodeFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
6122 {
6123 const char *str;
6124 int strLen, returnCode;
6125 jim_wide wideValue;
6126
6127 /* Get the string representation */
6128 str = Jim_GetString(objPtr, &strLen);
6129 /* Try to convert into an integer */
6130 if (JimGetWideNoErr(interp, objPtr, &wideValue) != JIM_ERR)
6131 returnCode = (int) wideValue;
6132 else if (!JimStringCompare(str, strLen, "ok", 2, JIM_NOCASE))
6133 returnCode = JIM_OK;
6134 else if (!JimStringCompare(str, strLen, "error", 5, JIM_NOCASE))
6135 returnCode = JIM_ERR;
6136 else if (!JimStringCompare(str, strLen, "return", 6, JIM_NOCASE))
6137 returnCode = JIM_RETURN;
6138 else if (!JimStringCompare(str, strLen, "break", 5, JIM_NOCASE))
6139 returnCode = JIM_BREAK;
6140 else if (!JimStringCompare(str, strLen, "continue", 8, JIM_NOCASE))
6141 returnCode = JIM_CONTINUE;
6142 else if (!JimStringCompare(str, strLen, "eval", 4, JIM_NOCASE))
6143 returnCode = JIM_EVAL;
6144 else if (!JimStringCompare(str, strLen, "exit", 4, JIM_NOCASE))
6145 returnCode = JIM_EXIT;
6146 else {
6147 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
6148 Jim_AppendStrings(interp, Jim_GetResult(interp),
6149 "expected return code but got '", str, "'",
6150 NULL);
6151 return JIM_ERR;
6152 }
6153 /* Free the old internal repr and set the new one. */
6154 Jim_FreeIntRep(interp, objPtr);
6155 objPtr->typePtr = &returnCodeObjType;
6156 objPtr->internalRep.returnCode = returnCode;
6157 return JIM_OK;
6158 }
6159
6160 int Jim_GetReturnCode(Jim_Interp *interp, Jim_Obj *objPtr, int *intPtr)
6161 {
6162 if (objPtr->typePtr != &returnCodeObjType &&
6163 SetReturnCodeFromAny(interp, objPtr) == JIM_ERR)
6164 return JIM_ERR;
6165 *intPtr = objPtr->internalRep.returnCode;
6166 return JIM_OK;
6167 }
6168
6169 /* -----------------------------------------------------------------------------
6170 * Expression Parsing
6171 * ---------------------------------------------------------------------------*/
6172 static int JimParseExprOperator(struct JimParserCtx *pc);
6173 static int JimParseExprNumber(struct JimParserCtx *pc);
6174 static int JimParseExprIrrational(struct JimParserCtx *pc);
6175
6176 /* Exrp's Stack machine operators opcodes. */
6177
6178 /* Binary operators (numbers) */
6179 #define JIM_EXPROP_BINARY_NUM_FIRST 0 /* first */
6180 #define JIM_EXPROP_MUL 0
6181 #define JIM_EXPROP_DIV 1
6182 #define JIM_EXPROP_MOD 2
6183 #define JIM_EXPROP_SUB 3
6184 #define JIM_EXPROP_ADD 4
6185 #define JIM_EXPROP_LSHIFT 5
6186 #define JIM_EXPROP_RSHIFT 6
6187 #define JIM_EXPROP_ROTL 7
6188 #define JIM_EXPROP_ROTR 8
6189 #define JIM_EXPROP_LT 9
6190 #define JIM_EXPROP_GT 10
6191 #define JIM_EXPROP_LTE 11
6192 #define JIM_EXPROP_GTE 12
6193 #define JIM_EXPROP_NUMEQ 13
6194 #define JIM_EXPROP_NUMNE 14
6195 #define JIM_EXPROP_BITAND 15
6196 #define JIM_EXPROP_BITXOR 16
6197 #define JIM_EXPROP_BITOR 17
6198 #define JIM_EXPROP_LOGICAND 18
6199 #define JIM_EXPROP_LOGICOR 19
6200 #define JIM_EXPROP_LOGICAND_LEFT 20
6201 #define JIM_EXPROP_LOGICOR_LEFT 21
6202 #define JIM_EXPROP_POW 22
6203 #define JIM_EXPROP_BINARY_NUM_LAST 22 /* last */
6204
6205 /* Binary operators (strings) */
6206 #define JIM_EXPROP_STREQ 23
6207 #define JIM_EXPROP_STRNE 24
6208
6209 /* Unary operators (numbers) */
6210 #define JIM_EXPROP_NOT 25
6211 #define JIM_EXPROP_BITNOT 26
6212 #define JIM_EXPROP_UNARYMINUS 27
6213 #define JIM_EXPROP_UNARYPLUS 28
6214 #define JIM_EXPROP_LOGICAND_RIGHT 29
6215 #define JIM_EXPROP_LOGICOR_RIGHT 30
6216
6217 /* Ternary operators */
6218 #define JIM_EXPROP_TERNARY 31
6219
6220 /* Operands */
6221 #define JIM_EXPROP_NUMBER 32
6222 #define JIM_EXPROP_COMMAND 33
6223 #define JIM_EXPROP_VARIABLE 34
6224 #define JIM_EXPROP_DICTSUGAR 35
6225 #define JIM_EXPROP_SUBST 36
6226 #define JIM_EXPROP_STRING 37
6227
6228 /* Operators table */
6229 typedef struct Jim_ExprOperator {
6230 const char *name;
6231 int precedence;
6232 int arity;
6233 int opcode;
6234 } Jim_ExprOperator;
6235
6236 /* name - precedence - arity - opcode */
6237 static struct Jim_ExprOperator Jim_ExprOperators[] = {
6238 {"!", 300, 1, JIM_EXPROP_NOT},
6239 {"~", 300, 1, JIM_EXPROP_BITNOT},
6240 {"unarymin", 300, 1, JIM_EXPROP_UNARYMINUS},
6241 {"unaryplus", 300, 1, JIM_EXPROP_UNARYPLUS},
6242
6243 {"**", 250, 2, JIM_EXPROP_POW},
6244
6245 {"*", 200, 2, JIM_EXPROP_MUL},
6246 {"/", 200, 2, JIM_EXPROP_DIV},
6247 {"%", 200, 2, JIM_EXPROP_MOD},
6248
6249 {"-", 100, 2, JIM_EXPROP_SUB},
6250 {"+", 100, 2, JIM_EXPROP_ADD},
6251
6252 {"<<<", 90, 3, JIM_EXPROP_ROTL},
6253 {">>>", 90, 3, JIM_EXPROP_ROTR},
6254 {"<<", 90, 2, JIM_EXPROP_LSHIFT},
6255 {">>", 90, 2, JIM_EXPROP_RSHIFT},
6256
6257 {"<", 80, 2, JIM_EXPROP_LT},
6258 {">", 80, 2, JIM_EXPROP_GT},
6259 {"<=", 80, 2, JIM_EXPROP_LTE},
6260 {">=", 80, 2, JIM_EXPROP_GTE},
6261
6262 {"==", 70, 2, JIM_EXPROP_NUMEQ},
6263 {"!=", 70, 2, JIM_EXPROP_NUMNE},
6264
6265 {"eq", 60, 2, JIM_EXPROP_STREQ},
6266 {"ne", 60, 2, JIM_EXPROP_STRNE},
6267
6268 {"&", 50, 2, JIM_EXPROP_BITAND},
6269 {"^", 49, 2, JIM_EXPROP_BITXOR},
6270 {"|", 48, 2, JIM_EXPROP_BITOR},
6271
6272 {"&&", 10, 2, JIM_EXPROP_LOGICAND},
6273 {"||", 10, 2, JIM_EXPROP_LOGICOR},
6274
6275 {"?", 5, 3, JIM_EXPROP_TERNARY},
6276 /* private operators */
6277 {NULL, 10, 2, JIM_EXPROP_LOGICAND_LEFT},
6278 {NULL, 10, 1, JIM_EXPROP_LOGICAND_RIGHT},
6279 {NULL, 10, 2, JIM_EXPROP_LOGICOR_LEFT},
6280 {NULL, 10, 1, JIM_EXPROP_LOGICOR_RIGHT},
6281 };
6282
6283 #define JIM_EXPR_OPERATORS_NUM \
6284 (sizeof(Jim_ExprOperators)/sizeof(struct Jim_ExprOperator))
6285
6286 static int JimParseExpression(struct JimParserCtx *pc)
6287 {
6288 /* Discard spaces and quoted newline */
6289 while (*(pc->p) == ' ' ||
6290 *(pc->p) == '\t' ||
6291 *(pc->p) == '\r' ||
6292 *(pc->p) == '\n' ||
6293 (*(pc->p) == '\\' && *(pc->p + 1) == '\n')) {
6294 pc->p++; pc->len--;
6295 }
6296
6297 if (pc->len == 0) {
6298 pc->tstart = pc->tend = pc->p;
6299 pc->tline = pc->linenr;
6300 pc->tt = JIM_TT_EOL;
6301 pc->eof = 1;
6302 return JIM_OK;
6303 }
6304 switch (*(pc->p)) {
6305 case '(':
6306 pc->tstart = pc->tend = pc->p;
6307 pc->tline = pc->linenr;
6308 pc->tt = JIM_TT_SUBEXPR_START;
6309 pc->p++; pc->len--;
6310 break;
6311 case ')':
6312 pc->tstart = pc->tend = pc->p;
6313 pc->tline = pc->linenr;
6314 pc->tt = JIM_TT_SUBEXPR_END;
6315 pc->p++; pc->len--;
6316 break;
6317 case '[':
6318 return JimParseCmd(pc);
6319 break;
6320 case '$':
6321 if (JimParseVar(pc) == JIM_ERR)
6322 return JimParseExprOperator(pc);
6323 else
6324 return JIM_OK;
6325 break;
6326 case '-':
6327 if ((pc->tt == JIM_TT_NONE || pc->tt == JIM_TT_EXPR_OPERATOR) &&
6328 isdigit((int)*(pc->p + 1)))
6329 return JimParseExprNumber(pc);
6330 else
6331 return JimParseExprOperator(pc);
6332 break;
6333 case '0': case '1': case '2': case '3': case '4':
6334 case '5': case '6': case '7': case '8': case '9': case '.':
6335 return JimParseExprNumber(pc);
6336 break;
6337 case '"':
6338 case '{':
6339 /* Here it's possible to reuse the List String parsing. */
6340 pc->tt = JIM_TT_NONE; /* Make sure it's sensed as a new word. */
6341 return JimParseListStr(pc);
6342 break;
6343 case 'N': case 'I':
6344 case 'n': case 'i':
6345 if (JimParseExprIrrational(pc) == JIM_ERR)
6346 return JimParseExprOperator(pc);
6347 break;
6348 default:
6349 return JimParseExprOperator(pc);
6350 break;
6351 }
6352 return JIM_OK;
6353 }
6354
6355 int JimParseExprNumber(struct JimParserCtx *pc)
6356 {
6357 int allowdot = 1;
6358 int allowhex = 0;
6359
6360 pc->tstart = pc->p;
6361 pc->tline = pc->linenr;
6362 if (*pc->p == '-') {
6363 pc->p++; pc->len--;
6364 }
6365 while (isdigit((int)*pc->p)
6366 || (allowhex && isxdigit((int)*pc->p))
6367 || (allowdot && *pc->p == '.')
6368 || (pc->p-pc->tstart == 1 && *pc->tstart == '0' &&
6369 (*pc->p == 'x' || *pc->p == 'X'))
6370 )
6371 {
6372 if ((*pc->p == 'x') || (*pc->p == 'X')) {
6373 allowhex = 1;
6374 allowdot = 0;
6375 }
6376 if (*pc->p == '.')
6377 allowdot = 0;
6378 pc->p++; pc->len--;
6379 if (!allowdot && *pc->p == 'e' && *(pc->p + 1) == '-') {
6380 pc->p += 2; pc->len -= 2;
6381 }
6382 }
6383 pc->tend = pc->p-1;
6384 pc->tt = JIM_TT_EXPR_NUMBER;
6385 return JIM_OK;
6386 }
6387
6388 int JimParseExprIrrational(struct JimParserCtx *pc)
6389 {
6390 const char *Tokens[] = {"NaN", "nan", "NAN", "Inf", "inf", "INF", NULL};
6391 const char **token;
6392 for (token = Tokens; *token != NULL; token++) {
6393 int len = strlen(*token);
6394 if (strncmp(*token, pc->p, len) == 0) {
6395 pc->tstart = pc->p;
6396 pc->tend = pc->p + len - 1;
6397 pc->p += len; pc->len -= len;
6398 pc->tline = pc->linenr;
6399 pc->tt = JIM_TT_EXPR_NUMBER;
6400 return JIM_OK;
6401 }
6402 }
6403 return JIM_ERR;
6404 }
6405
6406 int JimParseExprOperator(struct JimParserCtx *pc)
6407 {
6408 int i;
6409 int bestIdx = -1, bestLen = 0;
6410
6411 /* Try to get the longest match. */
6412 for (i = 0; i < (signed)JIM_EXPR_OPERATORS_NUM; i++) {
6413 const char *opname;
6414 int oplen;
6415
6416 opname = Jim_ExprOperators[i].name;
6417 if (opname == NULL) continue;
6418 oplen = strlen(opname);
6419
6420 if (strncmp(opname, pc->p, oplen) == 0 && oplen > bestLen) {
6421 bestIdx = i;
6422 bestLen = oplen;
6423 }
6424 }
6425 if (bestIdx == -1) return JIM_ERR;
6426 pc->tstart = pc->p;
6427 pc->tend = pc->p + bestLen - 1;
6428 pc->p += bestLen; pc->len -= bestLen;
6429 pc->tline = pc->linenr;
6430 pc->tt = JIM_TT_EXPR_OPERATOR;
6431 return JIM_OK;
6432 }
6433
6434 static struct Jim_ExprOperator *JimExprOperatorInfo(const char *opname)
6435 {
6436 int i;
6437 for (i = 0; i < (signed)JIM_EXPR_OPERATORS_NUM; i++)
6438 if (Jim_ExprOperators[i].name &&
6439 strcmp(opname, Jim_ExprOperators[i].name) == 0)
6440 return &Jim_ExprOperators[i];
6441 return NULL;
6442 }
6443
6444 static struct Jim_ExprOperator *JimExprOperatorInfoByOpcode(int opcode)
6445 {
6446 int i;
6447 for (i = 0; i < (signed)JIM_EXPR_OPERATORS_NUM; i++)
6448 if (Jim_ExprOperators[i].opcode == opcode)
6449 return &Jim_ExprOperators[i];
6450 return NULL;
6451 }
6452
6453 /* -----------------------------------------------------------------------------
6454 * Expression Object
6455 * ---------------------------------------------------------------------------*/
6456 static void FreeExprInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
6457 static void DupExprInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
6458 static int SetExprFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr);
6459
6460 static Jim_ObjType exprObjType = {
6461 "expression",
6462 FreeExprInternalRep,
6463 DupExprInternalRep,
6464 NULL,
6465 JIM_TYPE_REFERENCES,
6466 };
6467
6468 /* Expr bytecode structure */
6469 typedef struct ExprByteCode {
6470 int *opcode; /* Integer array of opcodes. */
6471 Jim_Obj **obj; /* Array of associated Jim Objects. */
6472 int len; /* Bytecode length */
6473 int inUse; /* Used for sharing. */
6474 } ExprByteCode;
6475
6476 void FreeExprInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
6477 {
6478 int i;
6479 ExprByteCode *expr = (void*) objPtr->internalRep.ptr;
6480
6481 expr->inUse--;
6482 if (expr->inUse != 0) return;
6483 for (i = 0; i < expr->len; i++)
6484 Jim_DecrRefCount(interp, expr->obj[i]);
6485 Jim_Free(expr->opcode);
6486 Jim_Free(expr->obj);
6487 Jim_Free(expr);
6488 }
6489
6490 void DupExprInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
6491 {
6492 JIM_NOTUSED(interp);
6493 JIM_NOTUSED(srcPtr);
6494
6495 /* Just returns an simple string. */
6496 dupPtr->typePtr = NULL;
6497 }
6498
6499 /* Add a new instruction to an expression bytecode structure. */
6500 static void ExprObjAddInstr(Jim_Interp *interp, ExprByteCode *expr,
6501 int opcode, char *str, int len)
6502 {
6503 expr->opcode = Jim_Realloc(expr->opcode, sizeof(int)*(expr->len + 1));
6504 expr->obj = Jim_Realloc(expr->obj, sizeof(Jim_Obj*)*(expr->len + 1));
6505 expr->opcode[expr->len] = opcode;
6506 expr->obj[expr->len] = Jim_NewStringObjNoAlloc(interp, str, len);
6507 Jim_IncrRefCount(expr->obj[expr->len]);
6508 expr->len++;
6509 }
6510
6511 /* Check if an expr program looks correct. */
6512 static int ExprCheckCorrectness(ExprByteCode *expr)
6513 {
6514 int i;
6515 int stacklen = 0;
6516
6517 /* Try to check if there are stack underflows,
6518 * and make sure at the end of the program there is
6519 * a single result on the stack. */
6520 for (i = 0; i < expr->len; i++) {
6521 switch (expr->opcode[i]) {
6522 case JIM_EXPROP_NUMBER:
6523 case JIM_EXPROP_STRING:
6524 case JIM_EXPROP_SUBST:
6525 case JIM_EXPROP_VARIABLE:
6526 case JIM_EXPROP_DICTSUGAR:
6527 case JIM_EXPROP_COMMAND:
6528 stacklen++;
6529 break;
6530 case JIM_EXPROP_NOT:
6531 case JIM_EXPROP_BITNOT:
6532 case JIM_EXPROP_UNARYMINUS:
6533 case JIM_EXPROP_UNARYPLUS:
6534 /* Unary operations */
6535 if (stacklen < 1) return JIM_ERR;
6536 break;
6537 case JIM_EXPROP_ADD:
6538 case JIM_EXPROP_SUB:
6539 case JIM_EXPROP_MUL:
6540 case JIM_EXPROP_DIV:
6541 case JIM_EXPROP_MOD:
6542 case JIM_EXPROP_LT:
6543 case JIM_EXPROP_GT:
6544 case JIM_EXPROP_LTE:
6545 case JIM_EXPROP_GTE:
6546 case JIM_EXPROP_ROTL:
6547 case JIM_EXPROP_ROTR:
6548 case JIM_EXPROP_LSHIFT:
6549 case JIM_EXPROP_RSHIFT:
6550 case JIM_EXPROP_NUMEQ:
6551 case JIM_EXPROP_NUMNE:
6552 case JIM_EXPROP_STREQ:
6553 case JIM_EXPROP_STRNE:
6554 case JIM_EXPROP_BITAND:
6555 case JIM_EXPROP_BITXOR:
6556 case JIM_EXPROP_BITOR:
6557 case JIM_EXPROP_LOGICAND:
6558 case JIM_EXPROP_LOGICOR:
6559 case JIM_EXPROP_POW:
6560 /* binary operations */
6561 if (stacklen < 2) return JIM_ERR;
6562 stacklen--;
6563 break;
6564 default:
6565 Jim_Panic(NULL,"Default opcode reached ExprCheckCorrectness");
6566 break;
6567 }
6568 }
6569 if (stacklen != 1) return JIM_ERR;
6570 return JIM_OK;
6571 }
6572
6573 static void ExprShareLiterals(Jim_Interp *interp, ExprByteCode *expr,
6574 ScriptObj *topLevelScript)
6575 {
6576 int i;
6577
6578 return;
6579 for (i = 0; i < expr->len; i++) {
6580 Jim_Obj *foundObjPtr;
6581
6582 if (expr->obj[i] == NULL) continue;
6583 foundObjPtr = ScriptSearchLiteral(interp, topLevelScript,
6584 NULL, expr->obj[i]);
6585 if (foundObjPtr != NULL) {
6586 Jim_IncrRefCount(foundObjPtr);
6587 Jim_DecrRefCount(interp, expr->obj[i]);
6588 expr->obj[i] = foundObjPtr;
6589 }
6590 }
6591 }
6592
6593 /* This procedure converts every occurrence of || and && opereators
6594 * in lazy unary versions.
6595 *
6596 * a b || is converted into:
6597 *
6598 * a <offset> |L b |R
6599 *
6600 * a b && is converted into:
6601 *
6602 * a <offset> &L b &R
6603 *
6604 * "|L" checks if 'a' is true:
6605 * 1) if it is true pushes 1 and skips <offset> istructions to reach
6606 * the opcode just after |R.
6607 * 2) if it is false does nothing.
6608 * "|R" checks if 'b' is true:
6609 * 1) if it is true pushes 1, otherwise pushes 0.
6610 *
6611 * "&L" checks if 'a' is true:
6612 * 1) if it is true does nothing.
6613 * 2) If it is false pushes 0 and skips <offset> istructions to reach
6614 * the opcode just after &R
6615 * "&R" checks if 'a' is true:
6616 * if it is true pushes 1, otherwise pushes 0.
6617 */
6618 static void ExprMakeLazy(Jim_Interp *interp, ExprByteCode *expr)
6619 {
6620 while (1) {
6621 int index_t = -1, leftindex, arity, i, offset;
6622 Jim_ExprOperator *op;
6623
6624 /* Search for || or && */
6625 for (i = 0; i < expr->len; i++) {
6626 if (expr->opcode[i] == JIM_EXPROP_LOGICAND ||
6627 expr->opcode[i] == JIM_EXPROP_LOGICOR) {
6628 index_t = i;
6629 break;
6630 }
6631 }
6632 if (index_t == -1) return;
6633 /* Search for the end of the first operator */
6634 leftindex = index_t-1;
6635 arity = 1;
6636 while (arity) {
6637 switch (expr->opcode[leftindex]) {
6638 case JIM_EXPROP_NUMBER:
6639 case JIM_EXPROP_COMMAND:
6640 case JIM_EXPROP_VARIABLE:
6641 case JIM_EXPROP_DICTSUGAR:
6642 case JIM_EXPROP_SUBST:
6643 case JIM_EXPROP_STRING:
6644 break;
6645 default:
6646 op = JimExprOperatorInfoByOpcode(expr->opcode[leftindex]);
6647 if (op == NULL) {
6648 Jim_Panic(interp,"Default reached in ExprMakeLazy()");
6649 }
6650 arity += op->arity;
6651 break;
6652 }
6653 arity--;
6654 leftindex--;
6655 }
6656 leftindex++;
6657 expr->opcode = Jim_Realloc(expr->opcode, sizeof(int)*(expr->len + 2));
6658 expr->obj = Jim_Realloc(expr->obj, sizeof(Jim_Obj*)*(expr->len + 2));
6659 memmove(&expr->opcode[leftindex + 2], &expr->opcode[leftindex],
6660 sizeof(int)*(expr->len-leftindex));
6661 memmove(&expr->obj[leftindex + 2], &expr->obj[leftindex],
6662 sizeof(Jim_Obj*)*(expr->len-leftindex));
6663 expr->len += 2;
6664 index_t += 2;
6665 offset = (index_t-leftindex)-1;
6666 Jim_DecrRefCount(interp, expr->obj[index_t]);
6667 if (expr->opcode[index_t] == JIM_EXPROP_LOGICAND) {
6668 expr->opcode[leftindex + 1] = JIM_EXPROP_LOGICAND_LEFT;
6669 expr->opcode[index_t] = JIM_EXPROP_LOGICAND_RIGHT;
6670 expr->obj[leftindex + 1] = Jim_NewStringObj(interp, "&L", -1);
6671 expr->obj[index_t] = Jim_NewStringObj(interp, "&R", -1);
6672 } else {
6673 expr->opcode[leftindex + 1] = JIM_EXPROP_LOGICOR_LEFT;
6674 expr->opcode[index_t] = JIM_EXPROP_LOGICOR_RIGHT;
6675 expr->obj[leftindex + 1] = Jim_NewStringObj(interp, "|L", -1);
6676 expr->obj[index_t] = Jim_NewStringObj(interp, "|R", -1);
6677 }
6678 expr->opcode[leftindex] = JIM_EXPROP_NUMBER;
6679 expr->obj[leftindex] = Jim_NewIntObj(interp, offset);
6680 Jim_IncrRefCount(expr->obj[index_t]);
6681 Jim_IncrRefCount(expr->obj[leftindex]);
6682 Jim_IncrRefCount(expr->obj[leftindex + 1]);
6683 }
6684 }
6685
6686 /* This method takes the string representation of an expression
6687 * and generates a program for the Expr's stack-based VM. */
6688 int SetExprFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr)
6689 {
6690 int exprTextLen;
6691 const char *exprText = Jim_GetString(objPtr, &exprTextLen);
6692 struct JimParserCtx parser;
6693 int i, shareLiterals;
6694 ExprByteCode *expr = Jim_Alloc(sizeof(*expr));
6695 Jim_Stack stack;
6696 Jim_ExprOperator *op;
6697
6698 /* Perform literal sharing with the current procedure
6699 * running only if this expression appears to be not generated
6700 * at runtime. */
6701 shareLiterals = objPtr->typePtr == &sourceObjType;
6702
6703 expr->opcode = NULL;
6704 expr->obj = NULL;
6705 expr->len = 0;
6706 expr->inUse = 1;
6707
6708 Jim_InitStack(&stack);
6709 JimParserInit(&parser, exprText, exprTextLen, 1);
6710 while (!JimParserEof(&parser)) {
6711 char *token;
6712 int len, type;
6713
6714 if (JimParseExpression(&parser) != JIM_OK) {
6715 Jim_SetResultString(interp, "Syntax error in expression", -1);
6716 goto err;
6717 }
6718 token = JimParserGetToken(&parser, &len, &type, NULL);
6719 if (type == JIM_TT_EOL) {
6720 Jim_Free(token);
6721 break;
6722 }
6723 switch (type) {
6724 case JIM_TT_STR:
6725 ExprObjAddInstr(interp, expr, JIM_EXPROP_STRING, token, len);
6726 break;
6727 case JIM_TT_ESC:
6728 ExprObjAddInstr(interp, expr, JIM_EXPROP_SUBST, token, len);
6729 break;
6730 case JIM_TT_VAR:
6731 ExprObjAddInstr(interp, expr, JIM_EXPROP_VARIABLE, token, len);
6732 break;
6733 case JIM_TT_DICTSUGAR:
6734 ExprObjAddInstr(interp, expr, JIM_EXPROP_DICTSUGAR, token, len);
6735 break;
6736 case JIM_TT_CMD:
6737 ExprObjAddInstr(interp, expr, JIM_EXPROP_COMMAND, token, len);
6738 break;
6739 case JIM_TT_EXPR_NUMBER:
6740 ExprObjAddInstr(interp, expr, JIM_EXPROP_NUMBER, token, len);
6741 break;
6742 case JIM_TT_EXPR_OPERATOR:
6743 op = JimExprOperatorInfo(token);
6744 while (1) {
6745 Jim_ExprOperator *stackTopOp;
6746
6747 if (Jim_StackPeek(&stack) != NULL) {
6748 stackTopOp = JimExprOperatorInfo(Jim_StackPeek(&stack));
6749 } else {
6750 stackTopOp = NULL;
6751 }
6752 if (Jim_StackLen(&stack) && op->arity != 1 &&
6753 stackTopOp && stackTopOp->precedence >= op->precedence)
6754 {
6755 ExprObjAddInstr(interp, expr, stackTopOp->opcode,
6756 Jim_StackPeek(&stack), -1);
6757 Jim_StackPop(&stack);
6758 } else {
6759 break;
6760 }
6761 }
6762 Jim_StackPush(&stack, token);
6763 break;
6764 case JIM_TT_SUBEXPR_START:
6765 Jim_StackPush(&stack, Jim_StrDup("("));
6766 Jim_Free(token);
6767 break;
6768 case JIM_TT_SUBEXPR_END:
6769 {
6770 int found = 0;
6771 while (Jim_StackLen(&stack)) {
6772 char *opstr = Jim_StackPop(&stack);
6773 if (!strcmp(opstr, "(")) {
6774 Jim_Free(opstr);
6775 found = 1;
6776 break;
6777 }
6778 op = JimExprOperatorInfo(opstr);
6779 ExprObjAddInstr(interp, expr, op->opcode, opstr, -1);
6780 }
6781 if (!found) {
6782 Jim_SetResultString(interp,
6783 "Unexpected close parenthesis", -1);
6784 goto err;
6785 }
6786 }
6787 Jim_Free(token);
6788 break;
6789 default:
6790 Jim_Panic(interp,"Default reached in SetExprFromAny()");
6791 break;
6792 }
6793 }
6794 while (Jim_StackLen(&stack)) {
6795 char *opstr = Jim_StackPop(&stack);
6796 op = JimExprOperatorInfo(opstr);
6797 if (op == NULL && !strcmp(opstr, "(")) {
6798 Jim_Free(opstr);
6799 Jim_SetResultString(interp, "Missing close parenthesis", -1);
6800 goto err;
6801 }
6802 ExprObjAddInstr(interp, expr, op->opcode, opstr, -1);
6803 }
6804 /* Check program correctness. */
6805 if (ExprCheckCorrectness(expr) != JIM_OK) {
6806 Jim_SetResultString(interp, "Invalid expression", -1);
6807 goto err;
6808 }
6809
6810 /* Free the stack used for the compilation. */
6811 Jim_FreeStackElements(&stack, Jim_Free);
6812 Jim_FreeStack(&stack);
6813
6814 /* Convert || and && operators in unary |L |R and &L &R for lazyness */
6815 ExprMakeLazy(interp, expr);
6816
6817 /* Perform literal sharing */
6818 if (shareLiterals && interp->framePtr->procBodyObjPtr) {
6819 Jim_Obj *bodyObjPtr = interp->framePtr->procBodyObjPtr;
6820 if (bodyObjPtr->typePtr == &scriptObjType) {
6821 ScriptObj *bodyScript = bodyObjPtr->internalRep.ptr;
6822 ExprShareLiterals(interp, expr, bodyScript);
6823 }
6824 }
6825
6826 /* Free the old internal rep and set the new one. */
6827 Jim_FreeIntRep(interp, objPtr);
6828 Jim_SetIntRepPtr(objPtr, expr);
6829 objPtr->typePtr = &exprObjType;
6830 return JIM_OK;
6831
6832 err: /* we jump here on syntax/compile errors. */
6833 Jim_FreeStackElements(&stack, Jim_Free);
6834 Jim_FreeStack(&stack);
6835 Jim_Free(expr->opcode);
6836 for (i = 0; i < expr->len; i++) {
6837 Jim_DecrRefCount(interp,expr->obj[i]);
6838 }
6839 Jim_Free(expr->obj);
6840 Jim_Free(expr);
6841 return JIM_ERR;
6842 }
6843
6844 static ExprByteCode *Jim_GetExpression(Jim_Interp *interp, Jim_Obj *objPtr)
6845 {
6846 if (objPtr->typePtr != &exprObjType) {
6847 if (SetExprFromAny(interp, objPtr) != JIM_OK)
6848 return NULL;
6849 }
6850 return (ExprByteCode*) Jim_GetIntRepPtr(objPtr);
6851 }
6852
6853 /* -----------------------------------------------------------------------------
6854 * Expressions evaluation.
6855 * Jim uses a specialized stack-based virtual machine for expressions,
6856 * that takes advantage of the fact that expr's operators
6857 * can't be redefined.
6858 *
6859 * Jim_EvalExpression() uses the bytecode compiled by
6860 * SetExprFromAny() method of the "expression" object.
6861 *
6862 * On success a Tcl Object containing the result of the evaluation
6863 * is stored into expResultPtrPtr (having refcount of 1), and JIM_OK is
6864 * returned.
6865 * On error the function returns a retcode != to JIM_OK and set a suitable
6866 * error on the interp.
6867 * ---------------------------------------------------------------------------*/
6868 #define JIM_EE_STATICSTACK_LEN 10
6869
6870 int Jim_EvalExpression(Jim_Interp *interp, Jim_Obj *exprObjPtr,
6871 Jim_Obj **exprResultPtrPtr)
6872 {
6873 ExprByteCode *expr;
6874 Jim_Obj **stack, *staticStack[JIM_EE_STATICSTACK_LEN];
6875 int stacklen = 0, i, error = 0, errRetCode = JIM_ERR;
6876
6877 Jim_IncrRefCount(exprObjPtr);
6878 expr = Jim_GetExpression(interp, exprObjPtr);
6879 if (!expr) {
6880 Jim_DecrRefCount(interp, exprObjPtr);
6881 return JIM_ERR; /* error in expression. */
6882 }
6883 /* In order to avoid that the internal repr gets freed due to
6884 * shimmering of the exprObjPtr's object, we make the internal rep
6885 * shared. */
6886 expr->inUse++;
6887
6888 /* The stack-based expr VM itself */
6889
6890 /* Stack allocation. Expr programs have the feature that
6891 * a program of length N can't require a stack longer than
6892 * N. */
6893 if (expr->len > JIM_EE_STATICSTACK_LEN)
6894 stack = Jim_Alloc(sizeof(Jim_Obj*)*expr->len);
6895 else
6896 stack = staticStack;
6897
6898 /* Execute every istruction */
6899 for (i = 0; i < expr->len; i++) {
6900 Jim_Obj *A, *B, *objPtr;
6901 jim_wide wA, wB, wC;
6902 double dA, dB, dC;
6903 const char *sA, *sB;
6904 int Alen, Blen, retcode;
6905 int opcode = expr->opcode[i];
6906
6907 if (opcode == JIM_EXPROP_NUMBER || opcode == JIM_EXPROP_STRING) {
6908 stack[stacklen++] = expr->obj[i];
6909 Jim_IncrRefCount(expr->obj[i]);
6910 } else if (opcode == JIM_EXPROP_VARIABLE) {
6911 objPtr = Jim_GetVariable(interp, expr->obj[i], JIM_ERRMSG);
6912 if (objPtr == NULL) {
6913 error = 1;
6914 goto err;
6915 }
6916 stack[stacklen++] = objPtr;
6917 Jim_IncrRefCount(objPtr);
6918 } else if (opcode == JIM_EXPROP_SUBST) {
6919 if ((retcode = Jim_SubstObj(interp, expr->obj[i],
6920 &objPtr, JIM_NONE)) != JIM_OK)
6921 {
6922 error = 1;
6923 errRetCode = retcode;
6924 goto err;
6925 }
6926 stack[stacklen++] = objPtr;
6927 Jim_IncrRefCount(objPtr);
6928 } else if (opcode == JIM_EXPROP_DICTSUGAR) {
6929 objPtr = Jim_ExpandDictSugar(interp, expr->obj[i]);
6930 if (objPtr == NULL) {
6931 error = 1;
6932 goto err;
6933 }
6934 stack[stacklen++] = objPtr;
6935 Jim_IncrRefCount(objPtr);
6936 } else if (opcode == JIM_EXPROP_COMMAND) {
6937 if ((retcode = Jim_EvalObj(interp, expr->obj[i])) != JIM_OK) {
6938 error = 1;
6939 errRetCode = retcode;
6940 goto err;
6941 }
6942 stack[stacklen++] = interp->result;
6943 Jim_IncrRefCount(interp->result);
6944 } else if (opcode >= JIM_EXPROP_BINARY_NUM_FIRST &&
6945 opcode <= JIM_EXPROP_BINARY_NUM_LAST)
6946 {
6947 /* Note that there isn't to increment the
6948 * refcount of objects. the references are moved
6949 * from stack to A and B. */
6950 B = stack[--stacklen];
6951 A = stack[--stacklen];
6952
6953 /* --- Integer --- */
6954 if ((A->typePtr == &doubleObjType && !A->bytes) ||
6955 (B->typePtr == &doubleObjType && !B->bytes) ||
6956 JimGetWideNoErr(interp, A, &wA) != JIM_OK ||
6957 JimGetWideNoErr(interp, B, &wB) != JIM_OK) {
6958 goto trydouble;
6959 }
6960 Jim_DecrRefCount(interp, A);
6961 Jim_DecrRefCount(interp, B);
6962 switch (expr->opcode[i]) {
6963 case JIM_EXPROP_ADD: wC = wA + wB; break;
6964 case JIM_EXPROP_SUB: wC = wA-wB; break;
6965 case JIM_EXPROP_MUL: wC = wA*wB; break;
6966 case JIM_EXPROP_LT: wC = wA < wB; break;
6967 case JIM_EXPROP_GT: wC = wA > wB; break;
6968 case JIM_EXPROP_LTE: wC = wA <= wB; break;
6969 case JIM_EXPROP_GTE: wC = wA >= wB; break;
6970 case JIM_EXPROP_LSHIFT: wC = wA << wB; break;
6971 case JIM_EXPROP_RSHIFT: wC = wA >> wB; break;
6972 case JIM_EXPROP_NUMEQ: wC = wA == wB; break;
6973 case JIM_EXPROP_NUMNE: wC = wA != wB; break;
6974 case JIM_EXPROP_BITAND: wC = wA&wB; break;
6975 case JIM_EXPROP_BITXOR: wC = wA^wB; break;
6976 case JIM_EXPROP_BITOR: wC = wA | wB; break;
6977 case JIM_EXPROP_POW: wC = JimPowWide(wA,wB); break;
6978 case JIM_EXPROP_LOGICAND_LEFT:
6979 if (wA == 0) {
6980 i += (int)wB;
6981 wC = 0;
6982 } else {
6983 continue;
6984 }
6985 break;
6986 case JIM_EXPROP_LOGICOR_LEFT:
6987 if (wA != 0) {
6988 i += (int)wB;
6989 wC = 1;
6990 } else {
6991 continue;
6992 }
6993 break;
6994 case JIM_EXPROP_DIV:
6995 if (wB == 0) goto divbyzero;
6996 wC = wA/wB;
6997 break;
6998 case JIM_EXPROP_MOD:
6999 if (wB == 0) goto divbyzero;
7000 wC = wA%wB;
7001 break;
7002 case JIM_EXPROP_ROTL: {
7003 /* uint32_t would be better. But not everyone has inttypes.h?*/
7004 unsigned long uA = (unsigned long)wA;
7005 #ifdef _MSC_VER
7006 wC = _rotl(uA,(unsigned long)wB);
7007 #else
7008 const unsigned int S = sizeof(unsigned long) * 8;
7009 wC = (unsigned long)((uA << wB) | (uA >> (S-wB)));
7010 #endif
7011 break;
7012 }
7013 case JIM_EXPROP_ROTR: {
7014 unsigned long uA = (unsigned long)wA;
7015 #ifdef _MSC_VER
7016 wC = _rotr(uA,(unsigned long)wB);
7017 #else
7018 const unsigned int S = sizeof(unsigned long) * 8;
7019 wC = (unsigned long)((uA >> wB) | (uA << (S-wB)));
7020 #endif
7021 break;
7022 }
7023
7024 default:
7025 wC = 0; /* avoid gcc warning */
7026 break;
7027 }
7028 stack[stacklen] = Jim_NewIntObj(interp, wC);
7029 Jim_IncrRefCount(stack[stacklen]);
7030 stacklen++;
7031 continue;
7032 trydouble:
7033 /* --- Double --- */
7034 if (Jim_GetDouble(interp, A, &dA) != JIM_OK ||
7035 Jim_GetDouble(interp, B, &dB) != JIM_OK) {
7036
7037 /* Hmmm! For compatibility, maybe convert != and == into ne and eq */
7038 if (expr->opcode[i] == JIM_EXPROP_NUMNE) {
7039 opcode = JIM_EXPROP_STRNE;
7040 goto retry_as_string;
7041 }
7042 else if (expr->opcode[i] == JIM_EXPROP_NUMEQ) {
7043 opcode = JIM_EXPROP_STREQ;
7044 goto retry_as_string;
7045 }
7046 Jim_DecrRefCount(interp, A);
7047 Jim_DecrRefCount(interp, B);
7048 error = 1;
7049 goto err;
7050 }
7051 Jim_DecrRefCount(interp, A);
7052 Jim_DecrRefCount(interp, B);
7053 switch (expr->opcode[i]) {
7054 case JIM_EXPROP_ROTL:
7055 case JIM_EXPROP_ROTR:
7056 case JIM_EXPROP_LSHIFT:
7057 case JIM_EXPROP_RSHIFT:
7058 case JIM_EXPROP_BITAND:
7059 case JIM_EXPROP_BITXOR:
7060 case JIM_EXPROP_BITOR:
7061 case JIM_EXPROP_MOD:
7062 case JIM_EXPROP_POW:
7063 Jim_SetResultString(interp,
7064 "Got floating-point value where integer was expected", -1);
7065 error = 1;
7066 goto err;
7067 case JIM_EXPROP_ADD: dC = dA + dB; break;
7068 case JIM_EXPROP_SUB: dC = dA-dB; break;
7069 case JIM_EXPROP_MUL: dC = dA*dB; break;
7070 case JIM_EXPROP_LT: dC = dA < dB; break;
7071 case JIM_EXPROP_GT: dC = dA > dB; break;
7072 case JIM_EXPROP_LTE: dC = dA <= dB; break;
7073 case JIM_EXPROP_GTE: dC = dA >= dB; break;
7074 /* FIXME comparing floats for equality/inequality is bad juju */
7075 case JIM_EXPROP_NUMEQ: dC = dA == dB; break;
7076 case JIM_EXPROP_NUMNE: dC = dA != dB; break;
7077 case JIM_EXPROP_LOGICAND_LEFT:
7078 if (dA == 0) {
7079 i += (int)dB;
7080 dC = 0;
7081 } else {
7082 continue;
7083 }
7084 break;
7085 case JIM_EXPROP_LOGICOR_LEFT:
7086 if (dA != 0) {
7087 i += (int)dB;
7088 dC = 1;
7089 } else {
7090 continue;
7091 }
7092 break;
7093 case JIM_EXPROP_DIV:
7094 if (dB == 0) goto divbyzero;
7095 dC = dA/dB;
7096 break;
7097 default:
7098 dC = 0; /* avoid gcc warning */
7099 break;
7100 }
7101 stack[stacklen] = Jim_NewDoubleObj(interp, dC);
7102 Jim_IncrRefCount(stack[stacklen]);
7103 stacklen++;
7104 } else if (opcode == JIM_EXPROP_STREQ || opcode == JIM_EXPROP_STRNE) {
7105 B = stack[--stacklen];
7106 A = stack[--stacklen];
7107 retry_as_string:
7108 sA = Jim_GetString(A, &Alen);
7109 sB = Jim_GetString(B, &Blen);
7110 switch (opcode) {
7111 case JIM_EXPROP_STREQ:
7112 if (Alen == Blen && memcmp(sA, sB, Alen) ==0)
7113 wC = 1;
7114 else
7115 wC = 0;
7116 break;
7117 case JIM_EXPROP_STRNE:
7118 if (Alen != Blen || memcmp(sA, sB, Alen) != 0)
7119 wC = 1;
7120 else
7121 wC = 0;
7122 break;
7123 default:
7124 wC = 0; /* avoid gcc warning */
7125 break;
7126 }
7127 Jim_DecrRefCount(interp, A);
7128 Jim_DecrRefCount(interp, B);
7129 stack[stacklen] = Jim_NewIntObj(interp, wC);
7130 Jim_IncrRefCount(stack[stacklen]);
7131 stacklen++;
7132 } else if (opcode == JIM_EXPROP_NOT ||
7133 opcode == JIM_EXPROP_BITNOT ||
7134 opcode == JIM_EXPROP_LOGICAND_RIGHT ||
7135 opcode == JIM_EXPROP_LOGICOR_RIGHT) {
7136 /* Note that there isn't to increment the
7137 * refcount of objects. the references are moved
7138 * from stack to A and B. */
7139 A = stack[--stacklen];
7140
7141 /* --- Integer --- */
7142 if ((A->typePtr == &doubleObjType && !A->bytes) ||
7143 JimGetWideNoErr(interp, A, &wA) != JIM_OK) {
7144 goto trydouble_unary;
7145 }
7146 Jim_DecrRefCount(interp, A);
7147 switch (expr->opcode[i]) {
7148 case JIM_EXPROP_NOT: wC = !wA; break;
7149 case JIM_EXPROP_BITNOT: wC = ~wA; break;
7150 case JIM_EXPROP_LOGICAND_RIGHT:
7151 case JIM_EXPROP_LOGICOR_RIGHT: wC = (wA != 0); break;
7152 default:
7153 wC = 0; /* avoid gcc warning */
7154 break;
7155 }
7156 stack[stacklen] = Jim_NewIntObj(interp, wC);
7157 Jim_IncrRefCount(stack[stacklen]);
7158 stacklen++;
7159 continue;
7160 trydouble_unary:
7161 /* --- Double --- */
7162 if (Jim_GetDouble(interp, A, &dA) != JIM_OK) {
7163 Jim_DecrRefCount(interp, A);
7164 error = 1;
7165 goto err;
7166 }
7167 Jim_DecrRefCount(interp, A);
7168 switch (expr->opcode[i]) {
7169 case JIM_EXPROP_NOT: dC = !dA; break;
7170 case JIM_EXPROP_LOGICAND_RIGHT:
7171 case JIM_EXPROP_LOGICOR_RIGHT: dC = (dA != 0); break;
7172 case JIM_EXPROP_BITNOT:
7173 Jim_SetResultString(interp,
7174 "Got floating-point value where integer was expected", -1);
7175 error = 1;
7176 goto err;
7177 break;
7178 default:
7179 dC = 0; /* avoid gcc warning */
7180 break;
7181 }
7182 stack[stacklen] = Jim_NewDoubleObj(interp, dC);
7183 Jim_IncrRefCount(stack[stacklen]);
7184 stacklen++;
7185 } else {
7186 Jim_Panic(interp,"Unknown opcode in Jim_EvalExpression");
7187 }
7188 }
7189 err:
7190 /* There is no need to decerement the inUse field because
7191 * this reference is transfered back into the exprObjPtr. */
7192 Jim_FreeIntRep(interp, exprObjPtr);
7193 exprObjPtr->typePtr = &exprObjType;
7194 Jim_SetIntRepPtr(exprObjPtr, expr);
7195 Jim_DecrRefCount(interp, exprObjPtr);
7196 if (!error) {
7197 *exprResultPtrPtr = stack[0];
7198 Jim_IncrRefCount(stack[0]);
7199 errRetCode = JIM_OK;
7200 }
7201 for (i = 0; i < stacklen; i++) {
7202 Jim_DecrRefCount(interp, stack[i]);
7203 }
7204 if (stack != staticStack)
7205 Jim_Free(stack);
7206 return errRetCode;
7207 divbyzero:
7208 error = 1;
7209 Jim_SetResultString(interp, "Division by zero", -1);
7210 goto err;
7211 }
7212
7213 int Jim_GetBoolFromExpr(Jim_Interp *interp, Jim_Obj *exprObjPtr, int *boolPtr)
7214 {
7215 int retcode;
7216 jim_wide wideValue;
7217 double doubleValue;
7218 Jim_Obj *exprResultPtr;
7219
7220 retcode = Jim_EvalExpression(interp, exprObjPtr, &exprResultPtr);
7221 if (retcode != JIM_OK)
7222 return retcode;
7223 if (JimGetWideNoErr(interp, exprResultPtr, &wideValue) != JIM_OK) {
7224 if (Jim_GetDouble(interp, exprResultPtr, &doubleValue) != JIM_OK)
7225 {
7226 Jim_DecrRefCount(interp, exprResultPtr);
7227 return JIM_ERR;
7228 } else {
7229 Jim_DecrRefCount(interp, exprResultPtr);
7230 *boolPtr = doubleValue != 0;
7231 return JIM_OK;
7232 }
7233 }
7234 Jim_DecrRefCount(interp, exprResultPtr);
7235 *boolPtr = wideValue != 0;
7236 return JIM_OK;
7237 }
7238
7239 /* -----------------------------------------------------------------------------
7240 * ScanFormat String Object
7241 * ---------------------------------------------------------------------------*/
7242
7243 /* This Jim_Obj will held a parsed representation of a format string passed to
7244 * the Jim_ScanString command. For error diagnostics, the scanformat string has
7245 * to be parsed in its entirely first and then, if correct, can be used for
7246 * scanning. To avoid endless re-parsing, the parsed representation will be
7247 * stored in an internal representation and re-used for performance reason. */
7248
7249 /* A ScanFmtPartDescr will held the information of /one/ part of the whole
7250 * scanformat string. This part will later be used to extract information
7251 * out from the string to be parsed by Jim_ScanString */
7252
7253 typedef struct ScanFmtPartDescr {
7254 char type; /* Type of conversion (e.g. c, d, f) */
7255 char modifier; /* Modify type (e.g. l - long, h - short */
7256 size_t width; /* Maximal width of input to be converted */
7257 int pos; /* -1 - no assign, 0 - natural pos, >0 - XPG3 pos */
7258 char *arg; /* Specification of a CHARSET conversion */
7259 char *prefix; /* Prefix to be scanned literally before conversion */
7260 } ScanFmtPartDescr;
7261
7262 /* The ScanFmtStringObj will held the internal representation of a scanformat
7263 * string parsed and separated in part descriptions. Furthermore it contains
7264 * the original string representation of the scanformat string to allow for
7265 * fast update of the Jim_Obj's string representation part.
7266 *
7267 * As add-on the internal object representation add some scratch pad area
7268 * for usage by Jim_ScanString to avoid endless allocating and freeing of
7269 * memory for purpose of string scanning.
7270 *
7271 * The error member points to a static allocated string in case of a mal-
7272 * formed scanformat string or it contains '0' (NULL) in case of a valid
7273 * parse representation.
7274 *
7275 * The whole memory of the internal representation is allocated as a single
7276 * area of memory that will be internally separated. So freeing and duplicating
7277 * of such an object is cheap */
7278
7279 typedef struct ScanFmtStringObj {
7280 jim_wide size; /* Size of internal repr in bytes */
7281 char *stringRep; /* Original string representation */
7282 size_t count; /* Number of ScanFmtPartDescr contained */
7283 size_t convCount; /* Number of conversions that will assign */
7284 size_t maxPos; /* Max position index if XPG3 is used */
7285 const char *error; /* Ptr to error text (NULL if no error */
7286 char *scratch; /* Some scratch pad used by Jim_ScanString */
7287 ScanFmtPartDescr descr[1]; /* The vector of partial descriptions */
7288 } ScanFmtStringObj;
7289
7290
7291 static void FreeScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *objPtr);
7292 static void DupScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr);
7293 static void UpdateStringOfScanFmt(Jim_Obj *objPtr);
7294
7295 static Jim_ObjType scanFmtStringObjType = {
7296 "scanformatstring",
7297 FreeScanFmtInternalRep,
7298 DupScanFmtInternalRep,
7299 UpdateStringOfScanFmt,
7300 JIM_TYPE_NONE,
7301 };
7302
7303 void FreeScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *objPtr)
7304 {
7305 JIM_NOTUSED(interp);
7306 Jim_Free((char*)objPtr->internalRep.ptr);
7307 objPtr->internalRep.ptr = 0;
7308 }
7309
7310 void DupScanFmtInternalRep(Jim_Interp *interp, Jim_Obj *srcPtr, Jim_Obj *dupPtr)
7311 {
7312 size_t size = (size_t)((ScanFmtStringObj*)srcPtr->internalRep.ptr)->size;
7313 ScanFmtStringObj *newVec = (ScanFmtStringObj*)Jim_Alloc(size);
7314
7315 JIM_NOTUSED(interp);
7316 memcpy(newVec, srcPtr->internalRep.ptr, size);
7317 dupPtr->internalRep.ptr = newVec;
7318 dupPtr->typePtr = &scanFmtStringObjType;
7319 }
7320
7321 void UpdateStringOfScanFmt(Jim_Obj *objPtr)
7322 {
7323 char *bytes = ((ScanFmtStringObj*)objPtr->internalRep.ptr)->stringRep;
7324
7325 objPtr->bytes = Jim_StrDup(bytes);
7326 objPtr->length = strlen(bytes);
7327 }
7328
7329 /* SetScanFmtFromAny will parse a given string and create the internal
7330 * representation of the format specification. In case of an error
7331 * the error data member of the internal representation will be set
7332 * to an descriptive error text and the function will be left with
7333 * JIM_ERR to indicate unsucessful parsing (aka. malformed scanformat
7334 * specification */
7335
7336 static int SetScanFmtFromAny(Jim_Interp *interp, Jim_Obj *objPtr)
7337 {
7338 ScanFmtStringObj *fmtObj;
7339 char *buffer;
7340 int maxCount, i, approxSize, lastPos = -1;
7341 const char *fmt = objPtr->bytes;
7342 int maxFmtLen = objPtr->length;
7343 const char *fmtEnd = fmt + maxFmtLen;
7344 int curr;
7345
7346 Jim_FreeIntRep(interp, objPtr);
7347 /* Count how many conversions could take place maximally */
7348 for (i = 0, maxCount = 0; i < maxFmtLen; ++i)
7349 if (fmt[i] == '%')
7350 ++maxCount;
7351 /* Calculate an approximation of the memory necessary */
7352 approxSize = sizeof(ScanFmtStringObj) /* Size of the container */
7353 + (maxCount + 1) * sizeof(ScanFmtPartDescr) /* Size of all partials */
7354 + maxFmtLen * sizeof(char) + 3 + 1 /* Scratch + "%n" + '\0' */
7355 + maxFmtLen * sizeof(char) + 1 /* Original stringrep */
7356 + maxFmtLen * sizeof(char) /* Arg for CHARSETs */
7357 + (maxCount +1) * sizeof(char) /* '\0' for every partial */
7358 + 1; /* safety byte */
7359 fmtObj = (ScanFmtStringObj*)Jim_Alloc(approxSize);
7360 memset(fmtObj, 0, approxSize);
7361 fmtObj->size = approxSize;
7362 fmtObj->maxPos = 0;
7363 fmtObj->scratch = (char*)&fmtObj->descr[maxCount + 1];
7364 fmtObj->stringRep = fmtObj->scratch + maxFmtLen + 3 + 1;
7365 memcpy(fmtObj->stringRep, fmt, maxFmtLen);
7366 buffer = fmtObj->stringRep + maxFmtLen + 1;
7367 objPtr->internalRep.ptr = fmtObj;
7368 objPtr->typePtr = &scanFmtStringObjType;
7369 for (i = 0, curr = 0; fmt < fmtEnd; ++fmt) {
7370 int width = 0, skip;
7371 ScanFmtPartDescr *descr = &fmtObj->descr[curr];
7372 fmtObj->count++;
7373 descr->width = 0; /* Assume width unspecified */
7374 /* Overread and store any "literal" prefix */
7375 if (*fmt != '%' || fmt[1] == '%') {
7376 descr->type = 0;
7377 descr->prefix = &buffer[i];
7378 for (; fmt < fmtEnd; ++fmt) {
7379 if (*fmt == '%') {
7380 if (fmt[1] != '%') break;
7381 ++fmt;
7382 }
7383 buffer[i++] = *fmt;
7384 }
7385 buffer[i++] = 0;
7386 }
7387 /* Skip the conversion introducing '%' sign */
7388 ++fmt;
7389 /* End reached due to non-conversion literal only? */
7390 if (fmt >= fmtEnd)
7391 goto done;
7392 descr->pos = 0; /* Assume "natural" positioning */
7393 if (*fmt == '*') {
7394 descr->pos = -1; /* Okay, conversion will not be assigned */
7395 ++fmt;
7396 } else
7397 fmtObj->convCount++; /* Otherwise count as assign-conversion */
7398 /* Check if next token is a number (could be width or pos */
7399 if (sscanf(fmt, "%d%n", &width, &skip) == 1) {
7400 fmt += skip;
7401 /* Was the number a XPG3 position specifier? */
7402 if (descr->pos != -1 && *fmt == '$') {
7403 int prev;
7404 ++fmt;
7405 descr->pos = width;
7406 width = 0;
7407 /* Look if "natural" postioning and XPG3 one was mixed */
7408 if ((lastPos == 0 && descr->pos > 0)
7409 || (lastPos > 0 && descr->pos == 0)) {
7410 fmtObj->error = "cannot mix \"%\" and \"%n$\" conversion specifiers";
7411 return JIM_ERR;
7412 }
7413 /* Look if this position was already used */
7414 for (prev = 0; prev < curr; ++prev) {
7415 if (fmtObj->descr[prev].pos == -1) continue;
7416 if (fmtObj->descr[prev].pos == descr->pos) {
7417 fmtObj->error = "same \"%n$\" conversion specifier "
7418 "used more than once";
7419 return JIM_ERR;
7420 }
7421 }
7422 /* Try to find a width after the XPG3 specifier */
7423 if (sscanf(fmt, "%d%n", &width, &skip) == 1) {
7424 descr->width = width;
7425 fmt += skip;
7426 }
7427 if (descr->pos > 0 && (size_t)descr->pos > fmtObj->maxPos)
7428 fmtObj->maxPos = descr->pos;
7429 } else {
7430 /* Number was not a XPG3, so it has to be a width */
7431 descr->width = width;
7432 }
7433 }
7434 /* If positioning mode was undetermined yet, fix this */
7435 if (lastPos == -1)
7436 lastPos = descr->pos;
7437 /* Handle CHARSET conversion type ... */
7438 if (*fmt == '[') {
7439 int swapped = 1, beg = i, end, j;
7440 descr->type = '[';
7441 descr->arg = &buffer[i];
7442 ++fmt;
7443 if (*fmt == '^') buffer[i++] = *fmt++;
7444 if (*fmt == ']') buffer[i++] = *fmt++;
7445 while (*fmt && *fmt != ']') buffer[i++] = *fmt++;
7446 if (*fmt != ']') {
7447 fmtObj->error = "unmatched [ in format string";
7448 return JIM_ERR;
7449 }
7450 end = i;
7451 buffer[i++] = 0;
7452 /* In case a range fence was given "backwards", swap it */
7453 while (swapped) {
7454 swapped = 0;
7455 for (j = beg + 1; j < end-1; ++j) {
7456 if (buffer[j] == '-' && buffer[j-1] > buffer[j + 1]) {
7457 char tmp = buffer[j-1];
7458 buffer[j-1] = buffer[j + 1];
7459 buffer[j + 1] = tmp;
7460 swapped = 1;
7461 }
7462 }
7463 }
7464 } else {
7465 /* Remember any valid modifier if given */
7466 if (strchr("hlL", *fmt) != 0)
7467 descr->modifier = tolower((int)*fmt++);
7468
7469 descr->type = *fmt;
7470 if (strchr("efgcsndoxui", *fmt) == 0) {
7471 fmtObj->error = "bad scan conversion character";
7472 return JIM_ERR;
7473 } else if (*fmt == 'c' && descr->width != 0) {
7474 fmtObj->error = "field width may not be specified in %c "
7475 "conversion";
7476 return JIM_ERR;
7477 } else if (*fmt == 'u' && descr->modifier == 'l') {
7478 fmtObj->error = "unsigned wide not supported";
7479 return JIM_ERR;
7480 }
7481 }
7482 curr++;
7483 }
7484 done:
7485 if (fmtObj->convCount == 0) {
7486 fmtObj->error = "no any conversion specifier given";
7487 return JIM_ERR;
7488 }
7489 return JIM_OK;
7490 }
7491
7492 /* Some accessor macros to allow lowlevel access to fields of internal repr */
7493
7494 #define FormatGetCnvCount(_fo_) \
7495 ((ScanFmtStringObj*)((_fo_)->internalRep.ptr))->convCount
7496 #define FormatGetMaxPos(_fo_) \
7497 ((ScanFmtStringObj*)((_fo_)->internalRep.ptr))->maxPos
7498 #define FormatGetError(_fo_) \
7499 ((ScanFmtStringObj*)((_fo_)->internalRep.ptr))->error
7500
7501 /* Some Bit testing/setting/cleaning routines. For now only used in handling
7502 * charsets ([a-z123]) within scanning. Later on perhaps a base for a
7503 * bitvector implementation in Jim? */
7504
7505 static int JimTestBit(const char *bitvec, char ch)
7506 {
7507 div_t pos = div(ch-1, 8);
7508 return bitvec[pos.quot] & (1 << pos.rem);
7509 }
7510
7511 static void JimSetBit(char *bitvec, char ch)
7512 {
7513 div_t pos = div(ch-1, 8);
7514 bitvec[pos.quot] |= (1 << pos.rem);
7515 }
7516
7517 #if 0 /* currently not used */
7518 static void JimClearBit(char *bitvec, char ch)
7519 {
7520 div_t pos = div(ch-1, 8);
7521 bitvec[pos.quot] &= ~(1 << pos.rem);
7522 }
7523 #endif
7524
7525 /* JimScanAString is used to scan an unspecified string that ends with
7526 * next WS, or a string that is specified via a charset. The charset
7527 * is currently implemented in a way to only allow for usage with
7528 * ASCII. Whenever we will switch to UNICODE, another idea has to
7529 * be born :-/
7530 *
7531 * FIXME: Works only with ASCII */
7532
7533 static Jim_Obj *
7534 JimScanAString(Jim_Interp *interp, const char *sdescr, const char *str)
7535 {
7536 size_t i;
7537 Jim_Obj *result;
7538 char charset[256/8 + 1]; /* A Charset may contain max 256 chars */
7539 char *buffer = Jim_Alloc(strlen(str) + 1), *anchor = buffer;
7540
7541 /* First init charset to nothing or all, depending if a specified
7542 * or an unspecified string has to be parsed */
7543 memset(charset, (sdescr ? 0 : 255), sizeof(charset));
7544 if (sdescr) {
7545 /* There was a set description given, that means we are parsing
7546 * a specified string. So we have to build a corresponding
7547 * charset reflecting the description */
7548 int notFlag = 0;
7549 /* Should the set be negated at the end? */
7550 if (*sdescr == '^') {
7551 notFlag = 1;
7552 ++sdescr;
7553 }
7554 /* Here '-' is meant literally and not to define a range */
7555 if (*sdescr == '-') {
7556 JimSetBit(charset, '-');
7557 ++sdescr;
7558 }
7559 while (*sdescr) {
7560 if (sdescr[1] == '-' && sdescr[2] != 0) {
7561 /* Handle range definitions */
7562 int i_t;
7563 for (i_t = sdescr[0]; i_t <= sdescr[2]; ++i_t)
7564 JimSetBit(charset, (char)i_t);
7565 sdescr += 3;
7566 } else {
7567 /* Handle verbatim character definitions */
7568 JimSetBit(charset, *sdescr++);
7569 }
7570 }
7571 /* Negate the charset if there was a NOT given */
7572 for (i = 0; notFlag && i < sizeof(charset); ++i)
7573 charset[i] = ~charset[i];
7574 }
7575 /* And after all the mess above, the real work begin ... */
7576 while (str && *str) {
7577 if (!sdescr && isspace((int)*str))
7578 break; /* EOS via WS if unspecified */
7579 if (JimTestBit(charset, *str)) *buffer++ = *str++;
7580 else break; /* EOS via mismatch if specified scanning */
7581 }
7582 *buffer = 0; /* Close the string properly ... */
7583 result = Jim_NewStringObj(interp, anchor, -1);
7584 Jim_Free(anchor); /* ... and free it afer usage */
7585 return result;
7586 }
7587
7588 /* ScanOneEntry will scan one entry out of the string passed as argument.
7589 * It use the sscanf() function for this task. After extracting and
7590 * converting of the value, the count of scanned characters will be
7591 * returned of -1 in case of no conversion tool place and string was
7592 * already scanned thru */
7593
7594 static int ScanOneEntry(Jim_Interp *interp, const char *str, long pos,
7595 ScanFmtStringObj *fmtObj, long index_t, Jim_Obj **valObjPtr)
7596 {
7597 # define MAX_SIZE (sizeof(jim_wide) > sizeof(double) \
7598 ? sizeof(jim_wide) \
7599 : sizeof(double))
7600 char buffer[MAX_SIZE];
7601 char *value = buffer;
7602 const char *tok;
7603 const ScanFmtPartDescr *descr = &fmtObj->descr[index_t];
7604 size_t sLen = strlen(&str[pos]), scanned = 0;
7605 size_t anchor = pos;
7606 int i;
7607
7608 /* First pessimiticly assume, we will not scan anything :-) */
7609 *valObjPtr = 0;
7610 if (descr->prefix) {
7611 /* There was a prefix given before the conversion, skip it and adjust
7612 * the string-to-be-parsed accordingly */
7613 for (i = 0; str[pos] && descr->prefix[i]; ++i) {
7614 /* If prefix require, skip WS */
7615 if (isspace((int)descr->prefix[i]))
7616 while (str[pos] && isspace((int)str[pos])) ++pos;
7617 else if (descr->prefix[i] != str[pos])
7618 break; /* Prefix do not match here, leave the loop */
7619 else
7620 ++pos; /* Prefix matched so far, next round */
7621 }
7622 if (str[pos] == 0)
7623 return -1; /* All of str consumed: EOF condition */
7624 else if (descr->prefix[i] != 0)
7625 return 0; /* Not whole prefix consumed, no conversion possible */
7626 }
7627 /* For all but following conversion, skip leading WS */
7628 if (descr->type != 'c' && descr->type != '[' && descr->type != 'n')
7629 while (isspace((int)str[pos])) ++pos;
7630 /* Determine how much skipped/scanned so far */
7631 scanned = pos - anchor;
7632 if (descr->type == 'n') {
7633 /* Return pseudo conversion means: how much scanned so far? */
7634 *valObjPtr = Jim_NewIntObj(interp, anchor + scanned);
7635 } else if (str[pos] == 0) {
7636 /* Cannot scan anything, as str is totally consumed */
7637 return -1;
7638 } else {
7639 /* Processing of conversions follows ... */
7640 if (descr->width > 0) {
7641 /* Do not try to scan as fas as possible but only the given width.
7642 * To ensure this, we copy the part that should be scanned. */
7643 size_t tLen = descr->width > sLen ? sLen : descr->width;
7644 tok = Jim_StrDupLen(&str[pos], tLen);
7645 } else {
7646 /* As no width was given, simply refer to the original string */
7647 tok = &str[pos];
7648 }
7649 switch (descr->type) {
7650 case 'c':
7651 *valObjPtr = Jim_NewIntObj(interp, *tok);
7652 scanned += 1;
7653 break;
7654 case 'd': case 'o': case 'x': case 'u': case 'i': {
7655 jim_wide jwvalue = 0;
7656 long lvalue = 0;
7657 char *endp; /* Position where the number finished */
7658 int base = descr->type == 'o' ? 8
7659 : descr->type == 'x' ? 16
7660 : descr->type == 'i' ? 0
7661 : 10;
7662
7663 do {
7664 /* Try to scan a number with the given base */
7665 if (descr->modifier == 'l')
7666 {
7667 #ifdef HAVE_LONG_LONG_INT
7668 jwvalue = JimStrtoll(tok, &endp, base),
7669 #else
7670 jwvalue = strtol(tok, &endp, base),
7671 #endif
7672 memcpy(value, &jwvalue, sizeof(jim_wide));
7673 }
7674 else
7675 {
7676 if (descr->type == 'u')
7677 lvalue = strtoul(tok, &endp, base);
7678 else
7679 lvalue = strtol(tok, &endp, base);
7680 memcpy(value, &lvalue, sizeof(lvalue));
7681 }
7682 /* If scanning failed, and base was undetermined, simply
7683 * put it to 10 and try once more. This should catch the
7684 * case where %i begin to parse a number prefix (e.g.
7685 * '0x' but no further digits follows. This will be
7686 * handled as a ZERO followed by a char 'x' by Tcl */
7687 if (endp == tok && base == 0) base = 10;
7688 else break;
7689 } while (1);
7690 if (endp != tok) {
7691 /* There was some number sucessfully scanned! */
7692 if (descr->modifier == 'l')
7693 *valObjPtr = Jim_NewIntObj(interp, jwvalue);
7694 else
7695 *valObjPtr = Jim_NewIntObj(interp, lvalue);
7696 /* Adjust the number-of-chars scanned so far */
7697 scanned += endp - tok;
7698 } else {
7699 /* Nothing was scanned. We have to determine if this
7700 * happened due to e.g. prefix mismatch or input str
7701 * exhausted */
7702 scanned = *tok ? 0 : -1;
7703 }
7704 break;
7705 }
7706 case 's': case '[': {
7707 *valObjPtr = JimScanAString(interp, descr->arg, tok);
7708 scanned += Jim_Length(*valObjPtr);
7709 break;
7710 }
7711 case 'e': case 'f': case 'g': {
7712 char *endp;
7713
7714 double dvalue = strtod(tok, &endp);
7715 memcpy(value, &dvalue, sizeof(double));
7716 if (endp != tok) {
7717 /* There was some number sucessfully scanned! */
7718 *valObjPtr = Jim_NewDoubleObj(interp, dvalue);
7719 /* Adjust the number-of-chars scanned so far */
7720 scanned += endp - tok;
7721 } else {
7722 /* Nothing was scanned. We have to determine if this
7723 * happened due to e.g. prefix mismatch or input str
7724 * exhausted */
7725 scanned = *tok ? 0 : -1;
7726 }
7727 break;
7728 }
7729 }
7730 /* If a substring was allocated (due to pre-defined width) do not
7731 * forget to free it */
7732 if (tok != &str[pos])
7733 Jim_Free((char*)tok);
7734 }
7735 return scanned;
7736 }
7737
7738 /* Jim_ScanString is the workhorse of string scanning. It will scan a given
7739 * string and returns all converted (and not ignored) values in a list back
7740 * to the caller. If an error occured, a NULL pointer will be returned */
7741
7742 Jim_Obj *Jim_ScanString(Jim_Interp *interp, Jim_Obj *strObjPtr,
7743 Jim_Obj *fmtObjPtr, int flags)
7744 {
7745 size_t i, pos;
7746 int scanned = 1;
7747 const char *str = Jim_GetString(strObjPtr, 0);
7748 Jim_Obj *resultList = 0;
7749 Jim_Obj **resultVec =NULL;
7750 int resultc;
7751 Jim_Obj *emptyStr = 0;
7752 ScanFmtStringObj *fmtObj;
7753
7754 /* If format specification is not an object, convert it! */
7755 if (fmtObjPtr->typePtr != &scanFmtStringObjType)
7756 SetScanFmtFromAny(interp, fmtObjPtr);
7757 fmtObj = (ScanFmtStringObj*)fmtObjPtr->internalRep.ptr;
7758 /* Check if format specification was valid */
7759 if (fmtObj->error != 0) {
7760 if (flags & JIM_ERRMSG)
7761 Jim_SetResultString(interp, fmtObj->error, -1);
7762 return 0;
7763 }
7764 /* Allocate a new "shared" empty string for all unassigned conversions */
7765 emptyStr = Jim_NewEmptyStringObj(interp);
7766 Jim_IncrRefCount(emptyStr);
7767 /* Create a list and fill it with empty strings up to max specified XPG3 */
7768 resultList = Jim_NewListObj(interp, 0, 0);
7769 if (fmtObj->maxPos > 0) {
7770 for (i = 0; i < fmtObj->maxPos; ++i)
7771 Jim_ListAppendElement(interp, resultList, emptyStr);
7772 JimListGetElements(interp, resultList, &resultc, &resultVec);
7773 }
7774 /* Now handle every partial format description */
7775 for (i = 0, pos = 0; i < fmtObj->count; ++i) {
7776 ScanFmtPartDescr *descr = &(fmtObj->descr[i]);
7777 Jim_Obj *value = 0;
7778 /* Only last type may be "literal" w/o conversion - skip it! */
7779 if (descr->type == 0) continue;
7780 /* As long as any conversion could be done, we will proceed */
7781 if (scanned > 0)
7782 scanned = ScanOneEntry(interp, str, pos, fmtObj, i, &value);
7783 /* In case our first try results in EOF, we will leave */
7784 if (scanned == -1 && i == 0)
7785 goto eof;
7786 /* Advance next pos-to-be-scanned for the amount scanned already */
7787 pos += scanned;
7788 /* value == 0 means no conversion took place so take empty string */
7789 if (value == 0)
7790 value = Jim_NewEmptyStringObj(interp);
7791 /* If value is a non-assignable one, skip it */
7792 if (descr->pos == -1) {
7793 Jim_FreeNewObj(interp, value);
7794 } else if (descr->pos == 0)
7795 /* Otherwise append it to the result list if no XPG3 was given */
7796 Jim_ListAppendElement(interp, resultList, value);
7797 else if (resultVec[descr->pos-1] == emptyStr) {
7798 /* But due to given XPG3, put the value into the corr. slot */
7799 Jim_DecrRefCount(interp, resultVec[descr->pos-1]);
7800 Jim_IncrRefCount(value);
7801 resultVec[descr->pos-1] = value;
7802 } else {
7803 /* Otherwise, the slot was already used - free obj and ERROR */
7804 Jim_FreeNewObj(interp, value);
7805 goto err;
7806 }
7807 }
7808 Jim_DecrRefCount(interp, emptyStr);
7809 return resultList;
7810 eof:
7811 Jim_DecrRefCount(interp, emptyStr);
7812 Jim_FreeNewObj(interp, resultList);
7813 return (Jim_Obj*)EOF;
7814 err:
7815 Jim_DecrRefCount(interp, emptyStr);
7816 Jim_FreeNewObj(interp, resultList);
7817 return 0;
7818 }
7819
7820 /* -----------------------------------------------------------------------------
7821 * Pseudo Random Number Generation
7822 * ---------------------------------------------------------------------------*/
7823 static void JimPrngSeed(Jim_Interp *interp, const unsigned char *seed,
7824 int seedLen);
7825
7826 /* Initialize the sbox with the numbers from 0 to 255 */
7827 static void JimPrngInit(Jim_Interp *interp)
7828 {
7829 int i;
7830 unsigned int seed[256];
7831
7832 interp->prngState = Jim_Alloc(sizeof(Jim_PrngState));
7833 for (i = 0; i < 256; i++)
7834 seed[i] = (rand() ^ time(NULL) ^ clock());
7835 JimPrngSeed(interp, (unsigned char*) seed, sizeof(int)*256);
7836 }
7837
7838 /* Generates N bytes of random data */
7839 static void JimRandomBytes(Jim_Interp *interp, void *dest, unsigned int len)
7840 {
7841 Jim_PrngState *prng;
7842 unsigned char *destByte = (unsigned char*) dest;
7843 unsigned int si, sj, x;
7844
7845 /* initialization, only needed the first time */
7846 if (interp->prngState == NULL)
7847 JimPrngInit(interp);
7848 prng = interp->prngState;
7849 /* generates 'len' bytes of pseudo-random numbers */
7850 for (x = 0; x < len; x++) {
7851 prng->i = (prng->i + 1) & 0xff;
7852 si = prng->sbox[prng->i];
7853 prng->j = (prng->j + si) & 0xff;
7854 sj = prng->sbox[prng->j];
7855 prng->sbox[prng->i] = sj;
7856 prng->sbox[prng->j] = si;
7857 *destByte++ = prng->sbox[(si + sj)&0xff];
7858 }
7859 }
7860
7861 /* Re-seed the generator with user-provided bytes */
7862 static void JimPrngSeed(Jim_Interp *interp, const unsigned char *seed,
7863 int seedLen)
7864 {
7865 int i;
7866 unsigned char buf[256];
7867 Jim_PrngState *prng;
7868
7869 /* initialization, only needed the first time */
7870 if (interp->prngState == NULL)
7871 JimPrngInit(interp);
7872 prng = interp->prngState;
7873
7874 /* Set the sbox[i] with i */
7875 for (i = 0; i < 256; i++)
7876 prng->sbox[i] = i;
7877 /* Now use the seed to perform a random permutation of the sbox */
7878 for (i = 0; i < seedLen; i++) {
7879 unsigned char t;
7880
7881 t = prng->sbox[i&0xFF];
7882 prng->sbox[i&0xFF] = prng->sbox[seed[i]];
7883 prng->sbox[seed[i]] = t;
7884 }
7885 prng->i = prng->j = 0;
7886 /* discard the first 256 bytes of stream. */
7887 JimRandomBytes(interp, buf, 256);
7888 }
7889
7890 /* -----------------------------------------------------------------------------
7891 * Dynamic libraries support (WIN32 not supported)
7892 * ---------------------------------------------------------------------------*/
7893
7894 #ifdef JIM_DYNLIB
7895 #ifdef WIN32
7896 #define RTLD_LAZY 0
7897 void * dlopen(const char *path, int mode)
7898 {
7899 JIM_NOTUSED(mode);
7900
7901 return (void *)LoadLibraryA(path);
7902 }
7903 int dlclose(void *handle)
7904 {
7905 FreeLibrary((HANDLE)handle);
7906 return 0;
7907 }
7908 void *dlsym(void *handle, const char *symbol)
7909 {
7910 return GetProcAddress((HMODULE)handle, symbol);
7911 }
7912 static char win32_dlerror_string[121];
7913 const char *dlerror(void)
7914 {
7915 FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError(),
7916 LANG_NEUTRAL, win32_dlerror_string, 120, NULL);
7917 return win32_dlerror_string;
7918 }
7919 #endif /* WIN32 */
7920
7921 static int Jim_LoadLibrary(Jim_Interp *interp, const char *pathName)
7922 {
7923 Jim_Obj *libPathObjPtr;
7924 int prefixc, i;
7925 void *handle;
7926 int (*onload)(Jim_Interp *interp);
7927
7928 libPathObjPtr = Jim_GetGlobalVariableStr(interp, "jim_libpath", JIM_NONE);
7929 if (libPathObjPtr == NULL) {
7930 prefixc = 0;
7931 libPathObjPtr = NULL;
7932 } else {
7933 Jim_IncrRefCount(libPathObjPtr);
7934 Jim_ListLength(interp, libPathObjPtr, &prefixc);
7935 }
7936
7937 for (i = -1; i < prefixc; i++) {
7938 if (i < 0) {
7939 handle = dlopen(pathName, RTLD_LAZY);
7940 } else {
7941 FILE *fp;
7942 char buf[JIM_PATH_LEN];
7943 const char *prefix;
7944 int prefixlen;
7945 Jim_Obj *prefixObjPtr;
7946
7947 buf[0] = '\0';
7948 if (Jim_ListIndex(interp, libPathObjPtr, i,
7949 &prefixObjPtr, JIM_NONE) != JIM_OK)
7950 continue;
7951 prefix = Jim_GetString(prefixObjPtr, &prefixlen);
7952 if (prefixlen + strlen(pathName) + 1 >= JIM_PATH_LEN)
7953 continue;
7954 if (*pathName == '/') {
7955 strcpy(buf, pathName);
7956 }
7957 else if (prefixlen && prefix[prefixlen-1] == '/')
7958 sprintf(buf, "%s%s", prefix, pathName);
7959 else
7960 sprintf(buf, "%s/%s", prefix, pathName);
7961 fp = fopen(buf, "r");
7962 if (fp == NULL)
7963 continue;
7964 fclose(fp);
7965 handle = dlopen(buf, RTLD_LAZY);
7966 }
7967 if (handle == NULL) {
7968 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
7969 Jim_AppendStrings(interp, Jim_GetResult(interp),
7970 "error loading extension \"", pathName,
7971 "\": ", dlerror(), NULL);
7972 if (i < 0)
7973 continue;
7974 goto err;
7975 }
7976 if ((onload = dlsym(handle, "Jim_OnLoad")) == NULL) {
7977 Jim_SetResultString(interp,
7978 "No Jim_OnLoad symbol found on extension", -1);
7979 goto err;
7980 }
7981 if (onload(interp) == JIM_ERR) {
7982 dlclose(handle);
7983 goto err;
7984 }
7985 Jim_SetEmptyResult(interp);
7986 if (libPathObjPtr != NULL)
7987 Jim_DecrRefCount(interp, libPathObjPtr);
7988 return JIM_OK;
7989 }
7990 err:
7991 if (libPathObjPtr != NULL)
7992 Jim_DecrRefCount(interp, libPathObjPtr);
7993 return JIM_ERR;
7994 }
7995 #else /* JIM_DYNLIB */
7996 static int Jim_LoadLibrary(Jim_Interp *interp, const char *pathName)
7997 {
7998 JIM_NOTUSED(interp);
7999 JIM_NOTUSED(pathName);
8000
8001 Jim_SetResultString(interp, "the Jim binary has no support for [load]", -1);
8002 return JIM_ERR;
8003 }
8004 #endif/* JIM_DYNLIB */
8005
8006 /* -----------------------------------------------------------------------------
8007 * Packages handling
8008 * ---------------------------------------------------------------------------*/
8009
8010 #define JIM_PKG_ANY_VERSION -1
8011
8012 /* Convert a string of the type "1.2" into an integer.
8013 * MAJOR.MINOR is converted as MAJOR*100 + MINOR, so "1.2" is converted
8014 * to the integer with value 102 */
8015 static int JimPackageVersionToInt(Jim_Interp *interp, const char *v,
8016 int *intPtr, int flags)
8017 {
8018 char *copy;
8019 jim_wide major, minor;
8020 char *majorStr, *minorStr, *p;
8021
8022 if (v[0] == '\0') {
8023 *intPtr = JIM_PKG_ANY_VERSION;
8024 return JIM_OK;
8025 }
8026
8027 copy = Jim_StrDup(v);
8028 p = strchr(copy, '.');
8029 if (p == NULL) goto badfmt;
8030 *p = '\0';
8031 majorStr = copy;
8032 minorStr = p + 1;
8033
8034 if (Jim_StringToWide(majorStr, &major, 10) != JIM_OK ||
8035 Jim_StringToWide(minorStr, &minor, 10) != JIM_OK)
8036 goto badfmt;
8037 *intPtr = (int)(major*100 + minor);
8038 Jim_Free(copy);
8039 return JIM_OK;
8040
8041 badfmt:
8042 Jim_Free(copy);
8043 if (flags & JIM_ERRMSG) {
8044 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
8045 Jim_AppendStrings(interp, Jim_GetResult(interp),
8046 "invalid package version '", v, "'", NULL);
8047 }
8048 return JIM_ERR;
8049 }
8050
8051 #define JIM_MATCHVER_EXACT (1 << JIM_PRIV_FLAG_SHIFT)
8052 static int JimPackageMatchVersion(int needed, int actual, int flags)
8053 {
8054 if (needed == JIM_PKG_ANY_VERSION) return 1;
8055 if (flags & JIM_MATCHVER_EXACT) {
8056 return needed == actual;
8057 } else {
8058 return needed/100 == actual/100 && (needed <= actual);
8059 }
8060 }
8061
8062 int Jim_PackageProvide(Jim_Interp *interp, const char *name, const char *ver,
8063 int flags)
8064 {
8065 int intVersion;
8066 /* Check if the version format is ok */
8067 if (JimPackageVersionToInt(interp, ver, &intVersion, JIM_ERRMSG) != JIM_OK)
8068 return JIM_ERR;
8069 /* If the package was already provided returns an error. */
8070 if (Jim_FindHashEntry(&interp->packages, name) != NULL) {
8071 if (flags & JIM_ERRMSG) {
8072 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
8073 Jim_AppendStrings(interp, Jim_GetResult(interp),
8074 "package '", name, "' was already provided", NULL);
8075 }
8076 return JIM_ERR;
8077 }
8078 Jim_AddHashEntry(&interp->packages, name, (char*) ver);
8079 return JIM_OK;
8080 }
8081
8082 #ifndef JIM_ANSIC
8083
8084 #ifndef WIN32
8085 # include <sys/types.h>
8086 # include <dirent.h>
8087 #else
8088 # include <io.h>
8089 /* Posix dirent.h compatiblity layer for WIN32.
8090 * Copyright Kevlin Henney, 1997, 2003. All rights reserved.
8091 * Copyright Salvatore Sanfilippo ,2005.
8092 *
8093 * Permission to use, copy, modify, and distribute this software and its
8094 * documentation for any purpose is hereby granted without fee, provided
8095 * that this copyright and permissions notice appear in all copies and
8096 * derivatives.
8097 *
8098 * This software is supplied "as is" without express or implied warranty.
8099 * This software was modified by Salvatore Sanfilippo for the Jim Interpreter.
8100 */
8101
8102 struct dirent {
8103 char *d_name;
8104 };
8105
8106 typedef struct DIR {
8107 long handle; /* -1 for failed rewind */
8108 struct _finddata_t info;
8109 struct dirent result; /* d_name null iff first time */
8110 char *name; /* null-terminated char string */
8111 } DIR;
8112
8113 DIR *opendir(const char *name)
8114 {
8115 DIR *dir = 0;
8116
8117 if (name && name[0]) {
8118 size_t base_length = strlen(name);
8119 const char *all = /* search pattern must end with suitable wildcard */
8120 strchr("/\\", name[base_length - 1]) ? "*" : "/*";
8121
8122 if ((dir = (DIR *) Jim_Alloc(sizeof *dir)) != 0 &&
8123 (dir->name = (char *) Jim_Alloc(base_length + strlen(all) + 1)) != 0)
8124 {
8125 strcat(strcpy(dir->name, name), all);
8126
8127 if ((dir->handle = (long) _findfirst(dir->name, &dir->info)) != -1)
8128 dir->result.d_name = 0;
8129 else { /* rollback */
8130 Jim_Free(dir->name);
8131 Jim_Free(dir);
8132 dir = 0;
8133 }
8134 } else { /* rollback */
8135 Jim_Free(dir);
8136 dir = 0;
8137 errno = ENOMEM;
8138 }
8139 } else {
8140 errno = EINVAL;
8141 }
8142 return dir;
8143 }
8144
8145 int closedir(DIR *dir)
8146 {
8147 int result = -1;
8148
8149 if (dir) {
8150 if (dir->handle != -1)
8151 result = _findclose(dir->handle);
8152 Jim_Free(dir->name);
8153 Jim_Free(dir);
8154 }
8155 if (result == -1) /* map all errors to EBADF */
8156 errno = EBADF;
8157 return result;
8158 }
8159
8160 struct dirent *readdir(DIR *dir)
8161 {
8162 struct dirent *result = 0;
8163
8164 if (dir && dir->handle != -1) {
8165 if (!dir->result.d_name || _findnext(dir->handle, &dir->info) != -1) {
8166 result = &dir->result;
8167 result->d_name = dir->info.name;
8168 }
8169 } else {
8170 errno = EBADF;
8171 }
8172 return result;
8173 }
8174
8175 #endif /* WIN32 */
8176
8177 static char *JimFindBestPackage(Jim_Interp *interp, char **prefixes,
8178 int prefixc, const char *pkgName, int pkgVer, int flags)
8179 {
8180 int bestVer = -1, i;
8181 int pkgNameLen = strlen(pkgName);
8182 char *bestPackage = NULL;
8183 struct dirent *de;
8184
8185 for (i = 0; i < prefixc; i++) {
8186 DIR *dir;
8187 char buf[JIM_PATH_LEN];
8188 int prefixLen;
8189
8190 if (prefixes[i] == NULL) continue;
8191 strncpy(buf, prefixes[i], JIM_PATH_LEN);
8192 buf[JIM_PATH_LEN-1] = '\0';
8193 prefixLen = strlen(buf);
8194 if (prefixLen && buf[prefixLen-1] == '/')
8195 buf[prefixLen-1] = '\0';
8196
8197 if ((dir = opendir(buf)) == NULL) continue;
8198 while ((de = readdir(dir)) != NULL) {
8199 char *fileName = de->d_name;
8200 int fileNameLen = strlen(fileName);
8201
8202 if (strncmp(fileName, "jim-", 4) == 0 &&
8203 strncmp(fileName + 4, pkgName, pkgNameLen) == 0 &&
8204 *(fileName + 4+pkgNameLen) == '-' &&
8205 fileNameLen > 4 && /* note that this is not really useful */
8206 (strncmp(fileName + fileNameLen-4, ".tcl", 4) == 0 ||
8207 strncmp(fileName + fileNameLen-4, ".dll", 4) == 0 ||
8208 strncmp(fileName + fileNameLen-3, ".so", 3) == 0))
8209 {
8210 char ver[6]; /* xx.yy < nulterm> */
8211 char *p = strrchr(fileName, '.');
8212 int verLen, fileVer;
8213
8214 verLen = p - (fileName + 4+pkgNameLen + 1);
8215 if (verLen < 3 || verLen > 5) continue;
8216 memcpy(ver, fileName + 4+pkgNameLen + 1, verLen);
8217 ver[verLen] = '\0';
8218 if (JimPackageVersionToInt(interp, ver, &fileVer, JIM_NONE)
8219 != JIM_OK) continue;
8220 if (JimPackageMatchVersion(pkgVer, fileVer, flags) &&
8221 (bestVer == -1 || bestVer < fileVer))
8222 {
8223 bestVer = fileVer;
8224 Jim_Free(bestPackage);
8225 bestPackage = Jim_Alloc(strlen(buf) + strlen(fileName) + 2);
8226 sprintf(bestPackage, "%s/%s", buf, fileName);
8227 }
8228 }
8229 }
8230 closedir(dir);
8231 }
8232 return bestPackage;
8233 }
8234
8235 #else /* JIM_ANSIC */
8236
8237 static char *JimFindBestPackage(Jim_Interp *interp, char **prefixes,
8238 int prefixc, const char *pkgName, int pkgVer, int flags)
8239 {
8240 JIM_NOTUSED(interp);
8241 JIM_NOTUSED(prefixes);
8242 JIM_NOTUSED(prefixc);
8243 JIM_NOTUSED(pkgName);
8244 JIM_NOTUSED(pkgVer);
8245 JIM_NOTUSED(flags);
8246 return NULL;
8247 }
8248
8249 #endif /* JIM_ANSIC */
8250
8251 /* Search for a suitable package under every dir specified by jim_libpath
8252 * and load it if possible. If a suitable package was loaded with success
8253 * JIM_OK is returned, otherwise JIM_ERR is returned. */
8254 static int JimLoadPackage(Jim_Interp *interp, const char *name, int ver,
8255 int flags)
8256 {
8257 Jim_Obj *libPathObjPtr;
8258 char **prefixes, *best;
8259 int prefixc, i, retCode = JIM_OK;
8260
8261 libPathObjPtr = Jim_GetGlobalVariableStr(interp, "jim_libpath", JIM_NONE);
8262 if (libPathObjPtr == NULL) {
8263 prefixc = 0;
8264 libPathObjPtr = NULL;
8265 } else {
8266 Jim_IncrRefCount(libPathObjPtr);
8267 Jim_ListLength(interp, libPathObjPtr, &prefixc);
8268 }
8269
8270 prefixes = Jim_Alloc(sizeof(char*)*prefixc);
8271 for (i = 0; i < prefixc; i++) {
8272 Jim_Obj *prefixObjPtr;
8273 if (Jim_ListIndex(interp, libPathObjPtr, i,
8274 &prefixObjPtr, JIM_NONE) != JIM_OK)
8275 {
8276 prefixes[i] = NULL;
8277 continue;
8278 }
8279 prefixes[i] = Jim_StrDup(Jim_GetString(prefixObjPtr, NULL));
8280 }
8281 /* Scan every directory to find the "best" package. */
8282 best = JimFindBestPackage(interp, prefixes, prefixc, name, ver, flags);
8283 if (best != NULL) {
8284 char *p = strrchr(best, '.');
8285 /* Try to load/source it */
8286 if (p && strcmp(p, ".tcl") == 0) {
8287 retCode = Jim_EvalFile(interp, best);
8288 } else {
8289 retCode = Jim_LoadLibrary(interp, best);
8290 }
8291 } else {
8292 retCode = JIM_ERR;
8293 }
8294 Jim_Free(best);
8295 for (i = 0; i < prefixc; i++)
8296 Jim_Free(prefixes[i]);
8297 Jim_Free(prefixes);
8298 if (libPathObjPtr)
8299 Jim_DecrRefCount(interp, libPathObjPtr);
8300 return retCode;
8301 }
8302
8303 const char *Jim_PackageRequire(Jim_Interp *interp, const char *name,
8304 const char *ver, int flags)
8305 {
8306 Jim_HashEntry *he;
8307 int requiredVer;
8308
8309 /* Start with an empty error string */
8310 Jim_SetResultString(interp, "", 0);
8311
8312 if (JimPackageVersionToInt(interp, ver, &requiredVer, JIM_ERRMSG) != JIM_OK)
8313 return NULL;
8314 he = Jim_FindHashEntry(&interp->packages, name);
8315 if (he == NULL) {
8316 /* Try to load the package. */
8317 if (JimLoadPackage(interp, name, requiredVer, flags) == JIM_OK) {
8318 he = Jim_FindHashEntry(&interp->packages, name);
8319 if (he == NULL) {
8320 return "?";
8321 }
8322 return he->val;
8323 }
8324 /* No way... return an error. */
8325 if (flags & JIM_ERRMSG) {
8326 int len;
8327 Jim_GetString(Jim_GetResult(interp), &len);
8328 Jim_AppendStrings(interp, Jim_GetResult(interp), len ? "\n" : "",
8329 "Can't find package '", name, "'", NULL);
8330 }
8331 return NULL;
8332 } else {
8333 int actualVer;
8334 if (JimPackageVersionToInt(interp, he->val, &actualVer, JIM_ERRMSG)
8335 != JIM_OK)
8336 {
8337 return NULL;
8338 }
8339 /* Check if version matches. */
8340 if (JimPackageMatchVersion(requiredVer, actualVer, flags) == 0) {
8341 Jim_AppendStrings(interp, Jim_GetResult(interp),
8342 "Package '", name, "' already loaded, but with version ",
8343 he->val, NULL);
8344 return NULL;
8345 }
8346 return he->val;
8347 }
8348 }
8349
8350 /* -----------------------------------------------------------------------------
8351 * Eval
8352 * ---------------------------------------------------------------------------*/
8353 #define JIM_EVAL_SARGV_LEN 8 /* static arguments vector length */
8354 #define JIM_EVAL_SINTV_LEN 8 /* static interpolation vector length */
8355
8356 static int JimCallProcedure(Jim_Interp *interp, Jim_Cmd *cmd, int argc,
8357 Jim_Obj *const *argv);
8358
8359 /* Handle calls to the [unknown] command */
8360 static int JimUnknown(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
8361 {
8362 Jim_Obj **v, *sv[JIM_EVAL_SARGV_LEN];
8363 int retCode;
8364
8365 /* If JimUnknown() is recursively called (e.g. error in the unknown proc,
8366 * done here
8367 */
8368 if (interp->unknown_called) {
8369 return JIM_ERR;
8370 }
8371
8372 /* If the [unknown] command does not exists returns
8373 * just now */
8374 if (Jim_GetCommand(interp, interp->unknown, JIM_NONE) == NULL)
8375 return JIM_ERR;
8376
8377 /* The object interp->unknown just contains
8378 * the "unknown" string, it is used in order to
8379 * avoid to lookup the unknown command every time
8380 * but instread to cache the result. */
8381 if (argc + 1 <= JIM_EVAL_SARGV_LEN)
8382 v = sv;
8383 else
8384 v = Jim_Alloc(sizeof(Jim_Obj*)*(argc + 1));
8385 /* Make a copy of the arguments vector, but shifted on
8386 * the right of one position. The command name of the
8387 * command will be instead the first argument of the
8388 * [unknonw] call. */
8389 memcpy(v + 1, argv, sizeof(Jim_Obj*)*argc);
8390 v[0] = interp->unknown;
8391 /* Call it */
8392 interp->unknown_called++;
8393 retCode = Jim_EvalObjVector(interp, argc + 1, v);
8394 interp->unknown_called--;
8395
8396 /* Clean up */
8397 if (v != sv)
8398 Jim_Free(v);
8399 return retCode;
8400 }
8401
8402 /* Eval the object vector 'objv' composed of 'objc' elements.
8403 * Every element is used as single argument.
8404 * Jim_EvalObj() will call this function every time its object
8405 * argument is of "list" type, with no string representation.
8406 *
8407 * This is possible because the string representation of a
8408 * list object generated by the UpdateStringOfList is made
8409 * in a way that ensures that every list element is a different
8410 * command argument. */
8411 int Jim_EvalObjVector(Jim_Interp *interp, int objc, Jim_Obj *const *objv)
8412 {
8413 int i, retcode;
8414 Jim_Cmd *cmdPtr;
8415
8416 /* Incr refcount of arguments. */
8417 for (i = 0; i < objc; i++)
8418 Jim_IncrRefCount(objv[i]);
8419 /* Command lookup */
8420 cmdPtr = Jim_GetCommand(interp, objv[0], JIM_ERRMSG);
8421 if (cmdPtr == NULL) {
8422 retcode = JimUnknown(interp, objc, objv);
8423 } else {
8424 /* Call it -- Make sure result is an empty object. */
8425 Jim_SetEmptyResult(interp);
8426 if (cmdPtr->cmdProc) {
8427 interp->cmdPrivData = cmdPtr->privData;
8428 retcode = cmdPtr->cmdProc(interp, objc, objv);
8429 if (retcode == JIM_ERR_ADDSTACK) {
8430 //JimAppendStackTrace(interp, "", script->fileName, token[i-argc*2].linenr);
8431 retcode = JIM_ERR;
8432 }
8433 } else {
8434 retcode = JimCallProcedure(interp, cmdPtr, objc, objv);
8435 if (retcode == JIM_ERR) {
8436 JimAppendStackTrace(interp,
8437 Jim_GetString(objv[0], NULL), "", 1);
8438 }
8439 }
8440 }
8441 /* Decr refcount of arguments and return the retcode */
8442 for (i = 0; i < objc; i++)
8443 Jim_DecrRefCount(interp, objv[i]);
8444 return retcode;
8445 }
8446
8447 /* Interpolate the given tokens into a unique Jim_Obj returned by reference
8448 * via *objPtrPtr. This function is only called by Jim_EvalObj().
8449 * The returned object has refcount = 0. */
8450 int Jim_InterpolateTokens(Jim_Interp *interp, ScriptToken *token,
8451 int tokens, Jim_Obj **objPtrPtr)
8452 {
8453 int totlen = 0, i, retcode;
8454 Jim_Obj **intv;
8455 Jim_Obj *sintv[JIM_EVAL_SINTV_LEN];
8456 Jim_Obj *objPtr;
8457 char *s;
8458
8459 if (tokens <= JIM_EVAL_SINTV_LEN)
8460 intv = sintv;
8461 else
8462 intv = Jim_Alloc(sizeof(Jim_Obj*)*
8463 tokens);
8464 /* Compute every token forming the argument
8465 * in the intv objects vector. */
8466 for (i = 0; i < tokens; i++) {
8467 switch (token[i].type) {
8468 case JIM_TT_ESC:
8469 case JIM_TT_STR:
8470 intv[i] = token[i].objPtr;
8471 break;
8472 case JIM_TT_VAR:
8473 intv[i] = Jim_GetVariable(interp, token[i].objPtr, JIM_ERRMSG);
8474 if (!intv[i]) {
8475 retcode = JIM_ERR;
8476 goto err;
8477 }
8478 break;
8479 case JIM_TT_DICTSUGAR:
8480 intv[i] = Jim_ExpandDictSugar(interp, token[i].objPtr);
8481 if (!intv[i]) {
8482 retcode = JIM_ERR;
8483 goto err;
8484 }
8485 break;
8486 case JIM_TT_CMD:
8487 retcode = Jim_EvalObj(interp, token[i].objPtr);
8488 if (retcode != JIM_OK)
8489 goto err;
8490 intv[i] = Jim_GetResult(interp);
8491 break;
8492 default:
8493 Jim_Panic(interp,
8494 "default token type reached "
8495 "in Jim_InterpolateTokens().");
8496 break;
8497 }
8498 Jim_IncrRefCount(intv[i]);
8499 /* Make sure there is a valid
8500 * string rep, and add the string
8501 * length to the total legnth. */
8502 Jim_GetString(intv[i], NULL);
8503 totlen += intv[i]->length;
8504 }
8505 /* Concatenate every token in an unique
8506 * object. */
8507 objPtr = Jim_NewStringObjNoAlloc(interp,
8508 NULL, 0);
8509 s = objPtr->bytes = Jim_Alloc(totlen + 1);
8510 objPtr->length = totlen;
8511 for (i = 0; i < tokens; i++) {
8512 memcpy(s, intv[i]->bytes, intv[i]->length);
8513 s += intv[i]->length;
8514 Jim_DecrRefCount(interp, intv[i]);
8515 }
8516 objPtr->bytes[totlen] = '\0';
8517 /* Free the intv vector if not static. */
8518 if (tokens > JIM_EVAL_SINTV_LEN)
8519 Jim_Free(intv);
8520 *objPtrPtr = objPtr;
8521 return JIM_OK;
8522 err:
8523 i--;
8524 for (; i >= 0; i--)
8525 Jim_DecrRefCount(interp, intv[i]);
8526 if (tokens > JIM_EVAL_SINTV_LEN)
8527 Jim_Free(intv);
8528 return retcode;
8529 }
8530
8531 /* Helper of Jim_EvalObj() to perform argument expansion.
8532 * Basically this function append an argument to 'argv'
8533 * (and increments argc by reference accordingly), performing
8534 * expansion of the list object if 'expand' is non-zero, or
8535 * just adding objPtr to argv if 'expand' is zero. */
8536 static void Jim_ExpandArgument(Jim_Interp *interp, Jim_Obj ***argv,
8537 int *argcPtr, int expand, Jim_Obj *objPtr)
8538 {
8539 if (!expand) {
8540 (*argv) = Jim_Realloc(*argv, sizeof(Jim_Obj*)*((*argcPtr) + 1));
8541 /* refcount of objPtr not incremented because
8542 * we are actually transfering a reference from
8543 * the old 'argv' to the expanded one. */
8544 (*argv)[*argcPtr] = objPtr;
8545 (*argcPtr)++;
8546 } else {
8547 int len, i;
8548
8549 Jim_ListLength(interp, objPtr, &len);
8550 (*argv) = Jim_Realloc(*argv, sizeof(Jim_Obj*)*((*argcPtr) + len));
8551 for (i = 0; i < len; i++) {
8552 (*argv)[*argcPtr] = objPtr->internalRep.listValue.ele[i];
8553 Jim_IncrRefCount(objPtr->internalRep.listValue.ele[i]);
8554 (*argcPtr)++;
8555 }
8556 /* The original object reference is no longer needed,
8557 * after the expansion it is no longer present on
8558 * the argument vector, but the single elements are
8559 * in its place. */
8560 Jim_DecrRefCount(interp, objPtr);
8561 }
8562 }
8563
8564 int Jim_EvalObj(Jim_Interp *interp, Jim_Obj *scriptObjPtr)
8565 {
8566 int i, j = 0, len;
8567 ScriptObj *script;
8568 ScriptToken *token;
8569 int *cs; /* command structure array */
8570 int retcode = JIM_OK;
8571 Jim_Obj *sargv[JIM_EVAL_SARGV_LEN], **argv = NULL, *tmpObjPtr;
8572
8573 interp->errorFlag = 0;
8574
8575 /* If the object is of type "list" and there is no
8576 * string representation for this object, we can call
8577 * a specialized version of Jim_EvalObj() */
8578 if (scriptObjPtr->typePtr == &listObjType &&
8579 scriptObjPtr->internalRep.listValue.len &&
8580 scriptObjPtr->bytes == NULL) {
8581 Jim_IncrRefCount(scriptObjPtr);
8582 retcode = Jim_EvalObjVector(interp,
8583 scriptObjPtr->internalRep.listValue.len,
8584 scriptObjPtr->internalRep.listValue.ele);
8585 Jim_DecrRefCount(interp, scriptObjPtr);
8586 return retcode;
8587 }
8588
8589 Jim_IncrRefCount(scriptObjPtr); /* Make sure it's shared. */
8590 script = Jim_GetScript(interp, scriptObjPtr);
8591 /* Now we have to make sure the internal repr will not be
8592 * freed on shimmering.
8593 *
8594 * Think for example to this:
8595 *
8596 * set x {llength $x; ... some more code ...}; eval $x
8597 *
8598 * In order to preserve the internal rep, we increment the
8599 * inUse field of the script internal rep structure. */
8600 script->inUse++;
8601
8602 token = script->token;
8603 len = script->len;
8604 cs = script->cmdStruct;
8605 i = 0; /* 'i' is the current token index. */
8606
8607 /* Reset the interpreter result. This is useful to
8608 * return the emtpy result in the case of empty program. */
8609 Jim_SetEmptyResult(interp);
8610
8611 /* Execute every command sequentially, returns on
8612 * error (i.e. if a command does not return JIM_OK) */
8613 while (i < len) {
8614 int expand = 0;
8615 int argc = *cs++; /* Get the number of arguments */
8616 Jim_Cmd *cmd;
8617
8618 /* Set the expand flag if needed. */
8619 if (argc == -1) {
8620 expand++;
8621 argc = *cs++;
8622 }
8623 /* Allocate the arguments vector */
8624 if (argc <= JIM_EVAL_SARGV_LEN)
8625 argv = sargv;
8626 else
8627 argv = Jim_Alloc(sizeof(Jim_Obj*)*argc);
8628 /* Populate the arguments objects. */
8629 for (j = 0; j < argc; j++) {
8630 int tokens = *cs++;
8631
8632 /* tokens is negative if expansion is needed.
8633 * for this argument. */
8634 if (tokens < 0) {
8635 tokens = (-tokens)-1;
8636 i++;
8637 }
8638 if (tokens == 1) {
8639 /* Fast path if the token does not
8640 * need interpolation */
8641 switch (token[i].type) {
8642 case JIM_TT_ESC:
8643 case JIM_TT_STR:
8644 argv[j] = token[i].objPtr;
8645 break;
8646 case JIM_TT_VAR:
8647 tmpObjPtr = Jim_GetVariable(interp, token[i].objPtr,
8648 JIM_ERRMSG);
8649 if (!tmpObjPtr) {
8650 retcode = JIM_ERR;
8651 goto err;
8652 }
8653 argv[j] = tmpObjPtr;
8654 break;
8655 case JIM_TT_DICTSUGAR:
8656 tmpObjPtr = Jim_ExpandDictSugar(interp, token[i].objPtr);
8657 if (!tmpObjPtr) {
8658 retcode = JIM_ERR;
8659 goto err;
8660 }
8661 argv[j] = tmpObjPtr;
8662 break;
8663 case JIM_TT_CMD:
8664 retcode = Jim_EvalObj(interp, token[i].objPtr);
8665 if (retcode != JIM_OK)
8666 goto err;
8667 argv[j] = Jim_GetResult(interp);
8668 break;
8669 default:
8670 Jim_Panic(interp,
8671 "default token type reached "
8672 "in Jim_EvalObj().");
8673 break;
8674 }
8675 Jim_IncrRefCount(argv[j]);
8676 i += 2;
8677 } else {
8678 /* For interpolation we call an helper
8679 * function doing the work for us. */
8680 if ((retcode = Jim_InterpolateTokens(interp,
8681 token + i, tokens, &tmpObjPtr)) != JIM_OK)
8682 {
8683 goto err;
8684 }
8685 argv[j] = tmpObjPtr;
8686 Jim_IncrRefCount(argv[j]);
8687 i += tokens + 1;
8688 }
8689 }
8690 /* Handle {expand} expansion */
8691 if (expand) {
8692 int *ecs = cs - argc;
8693 int eargc = 0;
8694 Jim_Obj **eargv = NULL;
8695
8696 for (j = 0; j < argc; j++) {
8697 Jim_ExpandArgument(interp, &eargv, &eargc,
8698 ecs[j] < 0, argv[j]);
8699 }
8700 if (argv != sargv)
8701 Jim_Free(argv);
8702 argc = eargc;
8703 argv = eargv;
8704 j = argc;
8705 if (argc == 0) {
8706 /* Nothing to do with zero args. */
8707 Jim_Free(eargv);
8708 continue;
8709 }
8710 }
8711 /* Lookup the command to call */
8712 cmd = Jim_GetCommand(interp, argv[0], JIM_ERRMSG);
8713 if (cmd != NULL) {
8714 /* Call it -- Make sure result is an empty object. */
8715 Jim_SetEmptyResult(interp);
8716 if (cmd->cmdProc) {
8717 interp->cmdPrivData = cmd->privData;
8718 retcode = cmd->cmdProc(interp, argc, argv);
8719 if ((retcode == JIM_ERR)||(retcode == JIM_ERR_ADDSTACK)) {
8720 JimAppendStackTrace(interp, "", script->fileName, token[i-argc*2].linenr);
8721 retcode = JIM_ERR;
8722 }
8723 } else {
8724 retcode = JimCallProcedure(interp, cmd, argc, argv);
8725 if (retcode == JIM_ERR) {
8726 JimAppendStackTrace(interp,
8727 Jim_GetString(argv[0], NULL), script->fileName,
8728 token[i-argc*2].linenr);
8729 }
8730 }
8731 } else {
8732 /* Call [unknown] */
8733 retcode = JimUnknown(interp, argc, argv);
8734 if (retcode == JIM_ERR) {
8735 JimAppendStackTrace(interp,
8736 "", script->fileName,
8737 token[i-argc*2].linenr);
8738 }
8739 }
8740 if (retcode != JIM_OK) {
8741 i -= argc*2; /* point to the command name. */
8742 goto err;
8743 }
8744 /* Decrement the arguments count */
8745 for (j = 0; j < argc; j++) {
8746 Jim_DecrRefCount(interp, argv[j]);
8747 }
8748
8749 if (argv != sargv) {
8750 Jim_Free(argv);
8751 argv = NULL;
8752 }
8753 }
8754 /* Note that we don't have to decrement inUse, because the
8755 * following code transfers our use of the reference again to
8756 * the script object. */
8757 j = 0; /* on normal termination, the argv array is already
8758 Jim_DecrRefCount-ed. */
8759 err:
8760 /* Handle errors. */
8761 if (retcode == JIM_ERR && !interp->errorFlag) {
8762 interp->errorFlag = 1;
8763 JimSetErrorFileName(interp, script->fileName);
8764 JimSetErrorLineNumber(interp, token[i].linenr);
8765 JimResetStackTrace(interp);
8766 }
8767 Jim_FreeIntRep(interp, scriptObjPtr);
8768 scriptObjPtr->typePtr = &scriptObjType;
8769 Jim_SetIntRepPtr(scriptObjPtr, script);
8770 Jim_DecrRefCount(interp, scriptObjPtr);
8771 for (i = 0; i < j; i++) {
8772 Jim_DecrRefCount(interp, argv[i]);
8773 }
8774 if (argv != sargv)
8775 Jim_Free(argv);
8776 return retcode;
8777 }
8778
8779 /* Call a procedure implemented in Tcl.
8780 * It's possible to speed-up a lot this function, currently
8781 * the callframes are not cached, but allocated and
8782 * destroied every time. What is expecially costly is
8783 * to create/destroy the local vars hash table every time.
8784 *
8785 * This can be fixed just implementing callframes caching
8786 * in JimCreateCallFrame() and JimFreeCallFrame(). */
8787 int JimCallProcedure(Jim_Interp *interp, Jim_Cmd *cmd, int argc,
8788 Jim_Obj *const *argv)
8789 {
8790 int i, retcode;
8791 Jim_CallFrame *callFramePtr;
8792 int num_args;
8793
8794 /* Check arity */
8795 if (argc < cmd->arityMin || (cmd->arityMax != -1 &&
8796 argc > cmd->arityMax)) {
8797 Jim_Obj *objPtr = Jim_NewEmptyStringObj(interp);
8798 Jim_AppendStrings(interp, objPtr,
8799 "wrong # args: should be \"", Jim_GetString(argv[0], NULL),
8800 (cmd->arityMin > 1) ? " " : "",
8801 Jim_GetString(cmd->argListObjPtr, NULL), "\"", NULL);
8802 Jim_SetResult(interp, objPtr);
8803 return JIM_ERR;
8804 }
8805 /* Check if there are too nested calls */
8806 if (interp->numLevels == interp->maxNestingDepth) {
8807 Jim_SetResultString(interp,
8808 "Too many nested calls. Infinite recursion?", -1);
8809 return JIM_ERR;
8810 }
8811 /* Create a new callframe */
8812 callFramePtr = JimCreateCallFrame(interp);
8813 callFramePtr->parentCallFrame = interp->framePtr;
8814 callFramePtr->argv = argv;
8815 callFramePtr->argc = argc;
8816 callFramePtr->procArgsObjPtr = cmd->argListObjPtr;
8817 callFramePtr->procBodyObjPtr = cmd->bodyObjPtr;
8818 callFramePtr->staticVars = cmd->staticVars;
8819 Jim_IncrRefCount(cmd->argListObjPtr);
8820 Jim_IncrRefCount(cmd->bodyObjPtr);
8821 interp->framePtr = callFramePtr;
8822 interp->numLevels ++;
8823
8824 /* Set arguments */
8825 Jim_ListLength(interp, cmd->argListObjPtr, &num_args);
8826
8827 /* If last argument is 'args', don't set it here */
8828 if (cmd->arityMax == -1) {
8829 num_args--;
8830 }
8831
8832 for (i = 0; i < num_args; i++) {
8833 Jim_Obj *argObjPtr=NULL;
8834 Jim_Obj *nameObjPtr=NULL;
8835 Jim_Obj *valueObjPtr=NULL;
8836
8837 Jim_ListIndex(interp, cmd->argListObjPtr, i, &argObjPtr, JIM_NONE);
8838 if (i + 1 >= cmd->arityMin) {
8839 /* The name is the first element of the list */
8840 Jim_ListIndex(interp, argObjPtr, 0, &nameObjPtr, JIM_NONE);
8841 }
8842 else {
8843 /* The element arg is the name */
8844 nameObjPtr = argObjPtr;
8845 }
8846
8847 if (i + 1 >= argc) {
8848 /* No more values, so use default */
8849 /* The value is the second element of the list */
8850 Jim_ListIndex(interp, argObjPtr, 1, &valueObjPtr, JIM_NONE);
8851 }
8852 else {
8853 valueObjPtr = argv[i + 1];
8854 }
8855 Jim_SetVariable(interp, nameObjPtr, valueObjPtr);
8856 }
8857 /* Set optional arguments */
8858 if (cmd->arityMax == -1) {
8859 Jim_Obj *listObjPtr=NULL, *objPtr=NULL;
8860
8861 i++;
8862 listObjPtr = Jim_NewListObj(interp, argv + i, argc-i);
8863 Jim_ListIndex(interp, cmd->argListObjPtr, num_args, &objPtr, JIM_NONE);
8864 Jim_SetVariable(interp, objPtr, listObjPtr);
8865 }
8866 /* Eval the body */
8867 retcode = Jim_EvalObj(interp, cmd->bodyObjPtr);
8868
8869 /* Destroy the callframe */
8870 interp->numLevels --;
8871 interp->framePtr = interp->framePtr->parentCallFrame;
8872 if (callFramePtr->vars.size != JIM_HT_INITIAL_SIZE) {
8873 JimFreeCallFrame(interp, callFramePtr, JIM_FCF_NONE);
8874 } else {
8875 JimFreeCallFrame(interp, callFramePtr, JIM_FCF_NOHT);
8876 }
8877 /* Handle the JIM_EVAL return code */
8878 if (retcode == JIM_EVAL && interp->evalRetcodeLevel != interp->numLevels) {
8879 int savedLevel = interp->evalRetcodeLevel;
8880
8881 interp->evalRetcodeLevel = interp->numLevels;
8882 while (retcode == JIM_EVAL) {
8883 Jim_Obj *resultScriptObjPtr = Jim_GetResult(interp);
8884 Jim_IncrRefCount(resultScriptObjPtr);
8885 retcode = Jim_EvalObj(interp, resultScriptObjPtr);
8886 Jim_DecrRefCount(interp, resultScriptObjPtr);
8887 }
8888 interp->evalRetcodeLevel = savedLevel;
8889 }
8890 /* Handle the JIM_RETURN return code */
8891 if (retcode == JIM_RETURN) {
8892 retcode = interp->returnCode;
8893 interp->returnCode = JIM_OK;
8894 }
8895 return retcode;
8896 }
8897
8898 int Jim_Eval_Named(Jim_Interp *interp, const char *script, const char *filename, int lineno)
8899 {
8900 int retval;
8901 Jim_Obj *scriptObjPtr;
8902
8903 scriptObjPtr = Jim_NewStringObj(interp, script, -1);
8904 Jim_IncrRefCount(scriptObjPtr);
8905
8906
8907 if (filename) {
8908 JimSetSourceInfo(interp, scriptObjPtr, filename, lineno);
8909 }
8910
8911 retval = Jim_EvalObj(interp, scriptObjPtr);
8912 Jim_DecrRefCount(interp, scriptObjPtr);
8913 return retval;
8914 }
8915
8916 int Jim_Eval(Jim_Interp *interp, const char *script)
8917 {
8918 return Jim_Eval_Named(interp, script, NULL, 0);
8919 }
8920
8921
8922
8923 /* Execute script in the scope of the global level */
8924 int Jim_EvalGlobal(Jim_Interp *interp, const char *script)
8925 {
8926 Jim_CallFrame *savedFramePtr;
8927 int retval;
8928
8929 savedFramePtr = interp->framePtr;
8930 interp->framePtr = interp->topFramePtr;
8931 retval = Jim_Eval(interp, script);
8932 interp->framePtr = savedFramePtr;
8933 return retval;
8934 }
8935
8936 int Jim_EvalObjBackground(Jim_Interp *interp, Jim_Obj *scriptObjPtr)
8937 {
8938 Jim_CallFrame *savedFramePtr;
8939 int retval;
8940
8941 savedFramePtr = interp->framePtr;
8942 interp->framePtr = interp->topFramePtr;
8943 retval = Jim_EvalObj(interp, scriptObjPtr);
8944 interp->framePtr = savedFramePtr;
8945 /* Try to report the error (if any) via the bgerror proc */
8946 if (retval != JIM_OK) {
8947 Jim_Obj *objv[2];
8948
8949 objv[0] = Jim_NewStringObj(interp, "bgerror", -1);
8950 objv[1] = Jim_GetResult(interp);
8951 Jim_IncrRefCount(objv[0]);
8952 Jim_IncrRefCount(objv[1]);
8953 if (Jim_EvalObjVector(interp, 2, objv) != JIM_OK) {
8954 /* Report the error to stderr. */
8955 Jim_fprintf(interp, interp->cookie_stderr, "Background error:" JIM_NL);
8956 Jim_PrintErrorMessage(interp);
8957 }
8958 Jim_DecrRefCount(interp, objv[0]);
8959 Jim_DecrRefCount(interp, objv[1]);
8960 }
8961 return retval;
8962 }
8963
8964 int Jim_EvalFile(Jim_Interp *interp, const char *filename)
8965 {
8966 char *prg = NULL;
8967 FILE *fp;
8968 int nread, totread, maxlen, buflen;
8969 int retval;
8970 Jim_Obj *scriptObjPtr;
8971
8972 if ((fp = fopen(filename, "r")) == NULL) {
8973 const int cwd_len = 2048;
8974 char *cwd = malloc(cwd_len);
8975 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
8976 if (!getcwd(cwd, cwd_len)) strcpy(cwd, "unknown");
8977 Jim_AppendStrings(interp, Jim_GetResult(interp),
8978 "Error loading script \"", filename, "\"",
8979 " cwd: ", cwd,
8980 " err: ", strerror(errno), NULL);
8981 free(cwd);
8982 return JIM_ERR;
8983 }
8984 buflen = 1024;
8985 maxlen = totread = 0;
8986 while (1) {
8987 if (maxlen < totread + buflen + 1) {
8988 maxlen = totread + buflen + 1;
8989 prg = Jim_Realloc(prg, maxlen);
8990 }
8991 /* do not use Jim_fread() - this is really a file */
8992 if ((nread = fread(prg + totread, 1, buflen, fp)) == 0) break;
8993 totread += nread;
8994 }
8995 prg[totread] = '\0';
8996 /* do not use Jim_fclose() - this is really a file */
8997 fclose(fp);
8998
8999 scriptObjPtr = Jim_NewStringObjNoAlloc(interp, prg, totread);
9000 JimSetSourceInfo(interp, scriptObjPtr, filename, 1);
9001 Jim_IncrRefCount(scriptObjPtr);
9002 retval = Jim_EvalObj(interp, scriptObjPtr);
9003 Jim_DecrRefCount(interp, scriptObjPtr);
9004 return retval;
9005 }
9006
9007 /* -----------------------------------------------------------------------------
9008 * Subst
9009 * ---------------------------------------------------------------------------*/
9010 static int JimParseSubstStr(struct JimParserCtx *pc)
9011 {
9012 pc->tstart = pc->p;
9013 pc->tline = pc->linenr;
9014 while (*pc->p && *pc->p != '$' && *pc->p != '[') {
9015 pc->p++; pc->len--;
9016 }
9017 pc->tend = pc->p-1;
9018 pc->tt = JIM_TT_ESC;
9019 return JIM_OK;
9020 }
9021
9022 static int JimParseSubst(struct JimParserCtx *pc, int flags)
9023 {
9024 int retval;
9025
9026 if (pc->len == 0) {
9027 pc->tstart = pc->tend = pc->p;
9028 pc->tline = pc->linenr;
9029 pc->tt = JIM_TT_EOL;
9030 pc->eof = 1;
9031 return JIM_OK;
9032 }
9033 switch (*pc->p) {
9034 case '[':
9035 retval = JimParseCmd(pc);
9036 if (flags & JIM_SUBST_NOCMD) {
9037 pc->tstart--;
9038 pc->tend++;
9039 pc->tt = (flags & JIM_SUBST_NOESC) ?
9040 JIM_TT_STR : JIM_TT_ESC;
9041 }
9042 return retval;
9043 break;
9044 case '$':
9045 if (JimParseVar(pc) == JIM_ERR) {
9046 pc->tstart = pc->tend = pc->p++; pc->len--;
9047 pc->tline = pc->linenr;
9048 pc->tt = JIM_TT_STR;
9049 } else {
9050 if (flags & JIM_SUBST_NOVAR) {
9051 pc->tstart--;
9052 if (flags & JIM_SUBST_NOESC)
9053 pc->tt = JIM_TT_STR;
9054 else
9055 pc->tt = JIM_TT_ESC;
9056 if (*pc->tstart == '{') {
9057 pc->tstart--;
9058 if (*(pc->tend + 1))
9059 pc->tend++;
9060 }
9061 }
9062 }
9063 break;
9064 default:
9065 retval = JimParseSubstStr(pc);
9066 if (flags & JIM_SUBST_NOESC)
9067 pc->tt = JIM_TT_STR;
9068 return retval;
9069 break;
9070 }
9071 return JIM_OK;
9072 }
9073
9074 /* The subst object type reuses most of the data structures and functions
9075 * of the script object. Script's data structures are a bit more complex
9076 * for what is needed for [subst]itution tasks, but the reuse helps to
9077 * deal with a single data structure at the cost of some more memory
9078 * usage for substitutions. */
9079 static Jim_ObjType substObjType = {
9080 "subst",
9081 FreeScriptInternalRep,
9082 DupScriptInternalRep,
9083 NULL,
9084 JIM_TYPE_REFERENCES,
9085 };
9086
9087 /* This method takes the string representation of an object
9088 * as a Tcl string where to perform [subst]itution, and generates
9089 * the pre-parsed internal representation. */
9090 static int SetSubstFromAny(Jim_Interp *interp, struct Jim_Obj *objPtr, int flags)
9091 {
9092 int scriptTextLen;
9093 const char *scriptText = Jim_GetString(objPtr, &scriptTextLen);
9094 struct JimParserCtx parser;
9095 struct ScriptObj *script = Jim_Alloc(sizeof(*script));
9096
9097 script->len = 0;
9098 script->csLen = 0;
9099 script->commands = 0;
9100 script->token = NULL;
9101 script->cmdStruct = NULL;
9102 script->inUse = 1;
9103 script->substFlags = flags;
9104 script->fileName = NULL;
9105
9106 JimParserInit(&parser, scriptText, scriptTextLen, 1);
9107 while (1) {
9108 char *token;
9109 int len, type, linenr;
9110
9111 JimParseSubst(&parser, flags);
9112 if (JimParserEof(&parser)) break;
9113 token = JimParserGetToken(&parser, &len, &type, &linenr);
9114 ScriptObjAddToken(interp, script, token, len, type,
9115 NULL, linenr);
9116 }
9117 /* Free the old internal rep and set the new one. */
9118 Jim_FreeIntRep(interp, objPtr);
9119 Jim_SetIntRepPtr(objPtr, script);
9120 objPtr->typePtr = &scriptObjType;
9121 return JIM_OK;
9122 }
9123
9124 static ScriptObj *Jim_GetSubst(Jim_Interp *interp, Jim_Obj *objPtr, int flags)
9125 {
9126 struct ScriptObj *script = Jim_GetIntRepPtr(objPtr);
9127
9128 if (objPtr->typePtr != &substObjType || script->substFlags != flags)
9129 SetSubstFromAny(interp, objPtr, flags);
9130 return (ScriptObj*) Jim_GetIntRepPtr(objPtr);
9131 }
9132
9133 /* Performs commands,variables,blackslashes substitution,
9134 * storing the result object (with refcount 0) into
9135 * resObjPtrPtr. */
9136 int Jim_SubstObj(Jim_Interp *interp, Jim_Obj *substObjPtr,
9137 Jim_Obj **resObjPtrPtr, int flags)
9138 {
9139 ScriptObj *script;
9140 ScriptToken *token;
9141 int i, len, retcode = JIM_OK;
9142 Jim_Obj *resObjPtr, *savedResultObjPtr;
9143
9144 script = Jim_GetSubst(interp, substObjPtr, flags);
9145 #ifdef JIM_OPTIMIZATION
9146 /* Fast path for a very common case with array-alike syntax,
9147 * that's: $foo($bar) */
9148 if (script->len == 1 && script->token[0].type == JIM_TT_VAR) {
9149 Jim_Obj *varObjPtr = script->token[0].objPtr;
9150
9151 Jim_IncrRefCount(varObjPtr);
9152 resObjPtr = Jim_GetVariable(interp, varObjPtr, JIM_ERRMSG);
9153 if (resObjPtr == NULL) {
9154 Jim_DecrRefCount(interp, varObjPtr);
9155 return JIM_ERR;
9156 }
9157 Jim_DecrRefCount(interp, varObjPtr);
9158 *resObjPtrPtr = resObjPtr;
9159 return JIM_OK;
9160 }
9161 #endif
9162
9163 Jim_IncrRefCount(substObjPtr); /* Make sure it's shared. */
9164 /* In order to preserve the internal rep, we increment the
9165 * inUse field of the script internal rep structure. */
9166 script->inUse++;
9167
9168 token = script->token;
9169 len = script->len;
9170
9171 /* Save the interp old result, to set it again before
9172 * to return. */
9173 savedResultObjPtr = interp->result;
9174 Jim_IncrRefCount(savedResultObjPtr);
9175
9176 /* Perform the substitution. Starts with an empty object
9177 * and adds every token (performing the appropriate
9178 * var/command/escape substitution). */
9179 resObjPtr = Jim_NewStringObj(interp, "", 0);
9180 for (i = 0; i < len; i++) {
9181 Jim_Obj *objPtr;
9182
9183 switch (token[i].type) {
9184 case JIM_TT_STR:
9185 case JIM_TT_ESC:
9186 Jim_AppendObj(interp, resObjPtr, token[i].objPtr);
9187 break;
9188 case JIM_TT_VAR:
9189 objPtr = Jim_GetVariable(interp, token[i].objPtr, JIM_ERRMSG);
9190 if (objPtr == NULL) goto err;
9191 Jim_IncrRefCount(objPtr);
9192 Jim_AppendObj(interp, resObjPtr, objPtr);
9193 Jim_DecrRefCount(interp, objPtr);
9194 break;
9195 case JIM_TT_DICTSUGAR:
9196 objPtr = Jim_ExpandDictSugar(interp, token[i].objPtr);
9197 if (!objPtr) {
9198 retcode = JIM_ERR;
9199 goto err;
9200 }
9201 break;
9202 case JIM_TT_CMD:
9203 if (Jim_EvalObj(interp, token[i].objPtr) != JIM_OK)
9204 goto err;
9205 Jim_AppendObj(interp, resObjPtr, interp->result);
9206 break;
9207 default:
9208 Jim_Panic(interp,
9209 "default token type (%d) reached "
9210 "in Jim_SubstObj().", token[i].type);
9211 break;
9212 }
9213 }
9214 ok:
9215 if (retcode == JIM_OK)
9216 Jim_SetResult(interp, savedResultObjPtr);
9217 Jim_DecrRefCount(interp, savedResultObjPtr);
9218 /* Note that we don't have to decrement inUse, because the
9219 * following code transfers our use of the reference again to
9220 * the script object. */
9221 Jim_FreeIntRep(interp, substObjPtr);
9222 substObjPtr->typePtr = &scriptObjType;
9223 Jim_SetIntRepPtr(substObjPtr, script);
9224 Jim_DecrRefCount(interp, substObjPtr);
9225 *resObjPtrPtr = resObjPtr;
9226 return retcode;
9227 err:
9228 Jim_FreeNewObj(interp, resObjPtr);
9229 retcode = JIM_ERR;
9230 goto ok;
9231 }
9232
9233 /* -----------------------------------------------------------------------------
9234 * API Input/Export functions
9235 * ---------------------------------------------------------------------------*/
9236
9237 int Jim_GetApi(Jim_Interp *interp, const char *funcname, void *targetPtrPtr)
9238 {
9239 Jim_HashEntry *he;
9240
9241 he = Jim_FindHashEntry(&interp->stub, funcname);
9242 if (!he)
9243 return JIM_ERR;
9244 memcpy(targetPtrPtr, &he->val, sizeof(void*));
9245 return JIM_OK;
9246 }
9247
9248 int Jim_RegisterApi(Jim_Interp *interp, const char *funcname, void *funcptr)
9249 {
9250 return Jim_AddHashEntry(&interp->stub, funcname, funcptr);
9251 }
9252
9253 #define JIM_REGISTER_API(name) \
9254 Jim_RegisterApi(interp, "Jim_" #name, (void *)Jim_ ## name)
9255
9256 void JimRegisterCoreApi(Jim_Interp *interp)
9257 {
9258 interp->getApiFuncPtr = Jim_GetApi;
9259 JIM_REGISTER_API(Alloc);
9260 JIM_REGISTER_API(Free);
9261 JIM_REGISTER_API(Eval);
9262 JIM_REGISTER_API(Eval_Named);
9263 JIM_REGISTER_API(EvalGlobal);
9264 JIM_REGISTER_API(EvalFile);
9265 JIM_REGISTER_API(EvalObj);
9266 JIM_REGISTER_API(EvalObjBackground);
9267 JIM_REGISTER_API(EvalObjVector);
9268 JIM_REGISTER_API(InitHashTable);
9269 JIM_REGISTER_API(ExpandHashTable);
9270 JIM_REGISTER_API(AddHashEntry);
9271 JIM_REGISTER_API(ReplaceHashEntry);
9272 JIM_REGISTER_API(DeleteHashEntry);
9273 JIM_REGISTER_API(FreeHashTable);
9274 JIM_REGISTER_API(FindHashEntry);
9275 JIM_REGISTER_API(ResizeHashTable);
9276 JIM_REGISTER_API(GetHashTableIterator);
9277 JIM_REGISTER_API(NextHashEntry);
9278 JIM_REGISTER_API(NewObj);
9279 JIM_REGISTER_API(FreeObj);
9280 JIM_REGISTER_API(InvalidateStringRep);
9281 JIM_REGISTER_API(InitStringRep);
9282 JIM_REGISTER_API(DuplicateObj);
9283 JIM_REGISTER_API(GetString);
9284 JIM_REGISTER_API(Length);
9285 JIM_REGISTER_API(InvalidateStringRep);
9286 JIM_REGISTER_API(NewStringObj);
9287 JIM_REGISTER_API(NewStringObjNoAlloc);
9288 JIM_REGISTER_API(AppendString);
9289 JIM_REGISTER_API(AppendString_sprintf);
9290 JIM_REGISTER_API(AppendObj);
9291 JIM_REGISTER_API(AppendStrings);
9292 JIM_REGISTER_API(StringEqObj);
9293 JIM_REGISTER_API(StringMatchObj);
9294 JIM_REGISTER_API(StringRangeObj);
9295 JIM_REGISTER_API(FormatString);
9296 JIM_REGISTER_API(CompareStringImmediate);
9297 JIM_REGISTER_API(NewReference);
9298 JIM_REGISTER_API(GetReference);
9299 JIM_REGISTER_API(SetFinalizer);
9300 JIM_REGISTER_API(GetFinalizer);
9301 JIM_REGISTER_API(CreateInterp);
9302 JIM_REGISTER_API(FreeInterp);
9303 JIM_REGISTER_API(GetExitCode);
9304 JIM_REGISTER_API(SetStdin);
9305 JIM_REGISTER_API(SetStdout);
9306 JIM_REGISTER_API(SetStderr);
9307 JIM_REGISTER_API(CreateCommand);
9308 JIM_REGISTER_API(CreateProcedure);
9309 JIM_REGISTER_API(DeleteCommand);
9310 JIM_REGISTER_API(RenameCommand);
9311 JIM_REGISTER_API(GetCommand);
9312 JIM_REGISTER_API(SetVariable);
9313 JIM_REGISTER_API(SetVariableStr);
9314 JIM_REGISTER_API(SetGlobalVariableStr);
9315 JIM_REGISTER_API(SetVariableStrWithStr);
9316 JIM_REGISTER_API(SetVariableLink);
9317 JIM_REGISTER_API(GetVariable);
9318 JIM_REGISTER_API(GetCallFrameByLevel);
9319 JIM_REGISTER_API(Collect);
9320 JIM_REGISTER_API(CollectIfNeeded);
9321 JIM_REGISTER_API(GetIndex);
9322 JIM_REGISTER_API(NewListObj);
9323 JIM_REGISTER_API(ListAppendElement);
9324 JIM_REGISTER_API(ListAppendList);
9325 JIM_REGISTER_API(ListLength);
9326 JIM_REGISTER_API(ListIndex);
9327 JIM_REGISTER_API(SetListIndex);
9328 JIM_REGISTER_API(ConcatObj);
9329 JIM_REGISTER_API(NewDictObj);
9330 JIM_REGISTER_API(DictKey);
9331 JIM_REGISTER_API(DictKeysVector);
9332 JIM_REGISTER_API(GetIndex);
9333 JIM_REGISTER_API(GetReturnCode);
9334 JIM_REGISTER_API(EvalExpression);
9335 JIM_REGISTER_API(GetBoolFromExpr);
9336 JIM_REGISTER_API(GetWide);
9337 JIM_REGISTER_API(GetLong);
9338 JIM_REGISTER_API(SetWide);
9339 JIM_REGISTER_API(NewIntObj);
9340 JIM_REGISTER_API(GetDouble);
9341 JIM_REGISTER_API(SetDouble);
9342 JIM_REGISTER_API(NewDoubleObj);
9343 JIM_REGISTER_API(WrongNumArgs);
9344 JIM_REGISTER_API(SetDictKeysVector);
9345 JIM_REGISTER_API(SubstObj);
9346 JIM_REGISTER_API(RegisterApi);
9347 JIM_REGISTER_API(PrintErrorMessage);
9348 JIM_REGISTER_API(InteractivePrompt);
9349 JIM_REGISTER_API(RegisterCoreCommands);
9350 JIM_REGISTER_API(GetSharedString);
9351 JIM_REGISTER_API(ReleaseSharedString);
9352 JIM_REGISTER_API(Panic);
9353 JIM_REGISTER_API(StrDup);
9354 JIM_REGISTER_API(UnsetVariable);
9355 JIM_REGISTER_API(GetVariableStr);
9356 JIM_REGISTER_API(GetGlobalVariable);
9357 JIM_REGISTER_API(GetGlobalVariableStr);
9358 JIM_REGISTER_API(GetAssocData);
9359 JIM_REGISTER_API(SetAssocData);
9360 JIM_REGISTER_API(DeleteAssocData);
9361 JIM_REGISTER_API(GetEnum);
9362 JIM_REGISTER_API(ScriptIsComplete);
9363 JIM_REGISTER_API(PackageRequire);
9364 JIM_REGISTER_API(PackageProvide);
9365 JIM_REGISTER_API(InitStack);
9366 JIM_REGISTER_API(FreeStack);
9367 JIM_REGISTER_API(StackLen);
9368 JIM_REGISTER_API(StackPush);
9369 JIM_REGISTER_API(StackPop);
9370 JIM_REGISTER_API(StackPeek);
9371 JIM_REGISTER_API(FreeStackElements);
9372 JIM_REGISTER_API(fprintf);
9373 JIM_REGISTER_API(vfprintf);
9374 JIM_REGISTER_API(fwrite);
9375 JIM_REGISTER_API(fread);
9376 JIM_REGISTER_API(fflush);
9377 JIM_REGISTER_API(fgets);
9378 JIM_REGISTER_API(GetNvp);
9379 JIM_REGISTER_API(Nvp_name2value);
9380 JIM_REGISTER_API(Nvp_name2value_simple);
9381 JIM_REGISTER_API(Nvp_name2value_obj);
9382 JIM_REGISTER_API(Nvp_name2value_nocase);
9383 JIM_REGISTER_API(Nvp_name2value_obj_nocase);
9384
9385 JIM_REGISTER_API(Nvp_value2name);
9386 JIM_REGISTER_API(Nvp_value2name_simple);
9387 JIM_REGISTER_API(Nvp_value2name_obj);
9388
9389 JIM_REGISTER_API(GetOpt_Setup);
9390 JIM_REGISTER_API(GetOpt_Debug);
9391 JIM_REGISTER_API(GetOpt_Obj);
9392 JIM_REGISTER_API(GetOpt_String);
9393 JIM_REGISTER_API(GetOpt_Double);
9394 JIM_REGISTER_API(GetOpt_Wide);
9395 JIM_REGISTER_API(GetOpt_Nvp);
9396 JIM_REGISTER_API(GetOpt_NvpUnknown);
9397 JIM_REGISTER_API(GetOpt_Enum);
9398
9399 JIM_REGISTER_API(Debug_ArgvString);
9400 JIM_REGISTER_API(SetResult_sprintf);
9401 JIM_REGISTER_API(SetResult_NvpUnknown);
9402
9403 }
9404
9405 /* -----------------------------------------------------------------------------
9406 * Core commands utility functions
9407 * ---------------------------------------------------------------------------*/
9408 void Jim_WrongNumArgs(Jim_Interp *interp, int argc, Jim_Obj *const *argv,
9409 const char *msg)
9410 {
9411 int i;
9412 Jim_Obj *objPtr = Jim_NewEmptyStringObj(interp);
9413
9414 Jim_AppendString(interp, objPtr, "wrong # args: should be \"", -1);
9415 for (i = 0; i < argc; i++) {
9416 Jim_AppendObj(interp, objPtr, argv[i]);
9417 if (!(i + 1 == argc && msg[0] == '\0'))
9418 Jim_AppendString(interp, objPtr, " ", 1);
9419 }
9420 Jim_AppendString(interp, objPtr, msg, -1);
9421 Jim_AppendString(interp, objPtr, "\"", 1);
9422 Jim_SetResult(interp, objPtr);
9423 }
9424
9425 static Jim_Obj *JimCommandsList(Jim_Interp *interp, Jim_Obj *patternObjPtr)
9426 {
9427 Jim_HashTableIterator *htiter;
9428 Jim_HashEntry *he;
9429 Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
9430 const char *pattern;
9431 int patternLen=0;
9432
9433 pattern = patternObjPtr ? Jim_GetString(patternObjPtr, &patternLen) : NULL;
9434 htiter = Jim_GetHashTableIterator(&interp->commands);
9435 while ((he = Jim_NextHashEntry(htiter)) != NULL) {
9436 if (pattern && !JimStringMatch(pattern, patternLen, he->key,
9437 strlen((const char*)he->key), 0))
9438 continue;
9439 Jim_ListAppendElement(interp, listObjPtr,
9440 Jim_NewStringObj(interp, he->key, -1));
9441 }
9442 Jim_FreeHashTableIterator(htiter);
9443 return listObjPtr;
9444 }
9445
9446 #define JIM_VARLIST_GLOBALS 0
9447 #define JIM_VARLIST_LOCALS 1
9448 #define JIM_VARLIST_VARS 2
9449
9450 static Jim_Obj *JimVariablesList(Jim_Interp *interp, Jim_Obj *patternObjPtr,
9451 int mode)
9452 {
9453 Jim_HashTableIterator *htiter;
9454 Jim_HashEntry *he;
9455 Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
9456 const char *pattern;
9457 int patternLen=0;
9458
9459 pattern = patternObjPtr ? Jim_GetString(patternObjPtr, &patternLen) : NULL;
9460 if (mode == JIM_VARLIST_GLOBALS) {
9461 htiter = Jim_GetHashTableIterator(&interp->topFramePtr->vars);
9462 } else {
9463 /* For [info locals], if we are at top level an emtpy list
9464 * is returned. I don't agree, but we aim at compatibility (SS) */
9465 if (mode == JIM_VARLIST_LOCALS &&
9466 interp->framePtr == interp->topFramePtr)
9467 return listObjPtr;
9468 htiter = Jim_GetHashTableIterator(&interp->framePtr->vars);
9469 }
9470 while ((he = Jim_NextHashEntry(htiter)) != NULL) {
9471 Jim_Var *varPtr = (Jim_Var*) he->val;
9472 if (mode == JIM_VARLIST_LOCALS) {
9473 if (varPtr->linkFramePtr != NULL)
9474 continue;
9475 }
9476 if (pattern && !JimStringMatch(pattern, patternLen, he->key,
9477 strlen((const char*)he->key), 0))
9478 continue;
9479 Jim_ListAppendElement(interp, listObjPtr,
9480 Jim_NewStringObj(interp, he->key, -1));
9481 }
9482 Jim_FreeHashTableIterator(htiter);
9483 return listObjPtr;
9484 }
9485
9486 static int JimInfoLevel(Jim_Interp *interp, Jim_Obj *levelObjPtr,
9487 Jim_Obj **objPtrPtr)
9488 {
9489 Jim_CallFrame *targetCallFrame;
9490
9491 if (JimGetCallFrameByInteger(interp, levelObjPtr, &targetCallFrame)
9492 != JIM_OK)
9493 return JIM_ERR;
9494 /* No proc call at toplevel callframe */
9495 if (targetCallFrame == interp->topFramePtr) {
9496 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
9497 Jim_AppendStrings(interp, Jim_GetResult(interp),
9498 "bad level \"",
9499 Jim_GetString(levelObjPtr, NULL), "\"", NULL);
9500 return JIM_ERR;
9501 }
9502 *objPtrPtr = Jim_NewListObj(interp,
9503 targetCallFrame->argv,
9504 targetCallFrame->argc);
9505 return JIM_OK;
9506 }
9507
9508 /* -----------------------------------------------------------------------------
9509 * Core commands
9510 * ---------------------------------------------------------------------------*/
9511
9512 /* fake [puts] -- not the real puts, just for debugging. */
9513 static int Jim_PutsCoreCommand(Jim_Interp *interp, int argc,
9514 Jim_Obj *const *argv)
9515 {
9516 const char *str;
9517 int len, nonewline = 0;
9518
9519 if (argc != 2 && argc != 3) {
9520 Jim_WrongNumArgs(interp, 1, argv, "-nonewline string");
9521 return JIM_ERR;
9522 }
9523 if (argc == 3) {
9524 if (!Jim_CompareStringImmediate(interp, argv[1], "-nonewline"))
9525 {
9526 Jim_SetResultString(interp, "The second argument must "
9527 "be -nonewline", -1);
9528 return JIM_OK;
9529 } else {
9530 nonewline = 1;
9531 argv++;
9532 }
9533 }
9534 str = Jim_GetString(argv[1], &len);
9535 Jim_fwrite(interp, str, 1, len, interp->cookie_stdout);
9536 if (!nonewline) Jim_fprintf(interp, interp->cookie_stdout, JIM_NL);
9537 return JIM_OK;
9538 }
9539
9540 /* Helper for [+] and [*] */
9541 static int Jim_AddMulHelper(Jim_Interp *interp, int argc,
9542 Jim_Obj *const *argv, int op)
9543 {
9544 jim_wide wideValue, res;
9545 double doubleValue, doubleRes;
9546 int i;
9547
9548 res = (op == JIM_EXPROP_ADD) ? 0 : 1;
9549
9550 for (i = 1; i < argc; i++) {
9551 if (Jim_GetWide(interp, argv[i], &wideValue) != JIM_OK)
9552 goto trydouble;
9553 if (op == JIM_EXPROP_ADD)
9554 res += wideValue;
9555 else
9556 res *= wideValue;
9557 }
9558 Jim_SetResult(interp, Jim_NewIntObj(interp, res));
9559 return JIM_OK;
9560 trydouble:
9561 doubleRes = (double) res;
9562 for (;i < argc; i++) {
9563 if (Jim_GetDouble(interp, argv[i], &doubleValue) != JIM_OK)
9564 return JIM_ERR;
9565 if (op == JIM_EXPROP_ADD)
9566 doubleRes += doubleValue;
9567 else
9568 doubleRes *= doubleValue;
9569 }
9570 Jim_SetResult(interp, Jim_NewDoubleObj(interp, doubleRes));
9571 return JIM_OK;
9572 }
9573
9574 /* Helper for [-] and [/] */
9575 static int Jim_SubDivHelper(Jim_Interp *interp, int argc,
9576 Jim_Obj *const *argv, int op)
9577 {
9578 jim_wide wideValue, res = 0;
9579 double doubleValue, doubleRes = 0;
9580 int i = 2;
9581
9582 if (argc < 2) {
9583 Jim_WrongNumArgs(interp, 1, argv, "number ?number ... number?");
9584 return JIM_ERR;
9585 } else if (argc == 2) {
9586 /* The arity = 2 case is different. For [- x] returns -x,
9587 * while [/ x] returns 1/x. */
9588 if (Jim_GetWide(interp, argv[1], &wideValue) != JIM_OK) {
9589 if (Jim_GetDouble(interp, argv[1], &doubleValue) !=
9590 JIM_OK)
9591 {
9592 return JIM_ERR;
9593 } else {
9594 if (op == JIM_EXPROP_SUB)
9595 doubleRes = -doubleValue;
9596 else
9597 doubleRes = 1.0/doubleValue;
9598 Jim_SetResult(interp, Jim_NewDoubleObj(interp,
9599 doubleRes));
9600 return JIM_OK;
9601 }
9602 }
9603 if (op == JIM_EXPROP_SUB) {
9604 res = -wideValue;
9605 Jim_SetResult(interp, Jim_NewIntObj(interp, res));
9606 } else {
9607 doubleRes = 1.0/wideValue;
9608 Jim_SetResult(interp, Jim_NewDoubleObj(interp,
9609 doubleRes));
9610 }
9611 return JIM_OK;
9612 } else {
9613 if (Jim_GetWide(interp, argv[1], &res) != JIM_OK) {
9614 if (Jim_GetDouble(interp, argv[1], &doubleRes)
9615 != JIM_OK) {
9616 return JIM_ERR;
9617 } else {
9618 goto trydouble;
9619 }
9620 }
9621 }
9622 for (i = 2; i < argc; i++) {
9623 if (Jim_GetWide(interp, argv[i], &wideValue) != JIM_OK) {
9624 doubleRes = (double) res;
9625 goto trydouble;
9626 }
9627 if (op == JIM_EXPROP_SUB)
9628 res -= wideValue;
9629 else
9630 res /= wideValue;
9631 }
9632 Jim_SetResult(interp, Jim_NewIntObj(interp, res));
9633 return JIM_OK;
9634 trydouble:
9635 for (;i < argc; i++) {
9636 if (Jim_GetDouble(interp, argv[i], &doubleValue) != JIM_OK)
9637 return JIM_ERR;
9638 if (op == JIM_EXPROP_SUB)
9639 doubleRes -= doubleValue;
9640 else
9641 doubleRes /= doubleValue;
9642 }
9643 Jim_SetResult(interp, Jim_NewDoubleObj(interp, doubleRes));
9644 return JIM_OK;
9645 }
9646
9647
9648 /* [+] */
9649 static int Jim_AddCoreCommand(Jim_Interp *interp, int argc,
9650 Jim_Obj *const *argv)
9651 {
9652 return Jim_AddMulHelper(interp, argc, argv, JIM_EXPROP_ADD);
9653 }
9654
9655 /* [*] */
9656 static int Jim_MulCoreCommand(Jim_Interp *interp, int argc,
9657 Jim_Obj *const *argv)
9658 {
9659 return Jim_AddMulHelper(interp, argc, argv, JIM_EXPROP_MUL);
9660 }
9661
9662 /* [-] */
9663 static int Jim_SubCoreCommand(Jim_Interp *interp, int argc,
9664 Jim_Obj *const *argv)
9665 {
9666 return Jim_SubDivHelper(interp, argc, argv, JIM_EXPROP_SUB);
9667 }
9668
9669 /* [/] */
9670 static int Jim_DivCoreCommand(Jim_Interp *interp, int argc,
9671 Jim_Obj *const *argv)
9672 {
9673 return Jim_SubDivHelper(interp, argc, argv, JIM_EXPROP_DIV);
9674 }
9675
9676 /* [set] */
9677 static int Jim_SetCoreCommand(Jim_Interp *interp, int argc,
9678 Jim_Obj *const *argv)
9679 {
9680 if (argc != 2 && argc != 3) {
9681 Jim_WrongNumArgs(interp, 1, argv, "varName ?newValue?");
9682 return JIM_ERR;
9683 }
9684 if (argc == 2) {
9685 Jim_Obj *objPtr;
9686 objPtr = Jim_GetVariable(interp, argv[1], JIM_ERRMSG);
9687 if (!objPtr)
9688 return JIM_ERR;
9689 Jim_SetResult(interp, objPtr);
9690 return JIM_OK;
9691 }
9692 /* argc == 3 case. */
9693 if (Jim_SetVariable(interp, argv[1], argv[2]) != JIM_OK)
9694 return JIM_ERR;
9695 Jim_SetResult(interp, argv[2]);
9696 return JIM_OK;
9697 }
9698
9699 /* [unset] */
9700 static int Jim_UnsetCoreCommand(Jim_Interp *interp, int argc,
9701 Jim_Obj *const *argv)
9702 {
9703 int i;
9704
9705 if (argc < 2) {
9706 Jim_WrongNumArgs(interp, 1, argv, "varName ?varName ...?");
9707 return JIM_ERR;
9708 }
9709 for (i = 1; i < argc; i++) {
9710 if (Jim_UnsetVariable(interp, argv[i], JIM_ERRMSG) != JIM_OK)
9711 return JIM_ERR;
9712 }
9713 return JIM_OK;
9714 }
9715
9716 /* [incr] */
9717 static int Jim_IncrCoreCommand(Jim_Interp *interp, int argc,
9718 Jim_Obj *const *argv)
9719 {
9720 jim_wide wideValue, increment = 1;
9721 Jim_Obj *intObjPtr;
9722
9723 if (argc != 2 && argc != 3) {
9724 Jim_WrongNumArgs(interp, 1, argv, "varName ?increment?");
9725 return JIM_ERR;
9726 }
9727 if (argc == 3) {
9728 if (Jim_GetWide(interp, argv[2], &increment) != JIM_OK)
9729 return JIM_ERR;
9730 }
9731 intObjPtr = Jim_GetVariable(interp, argv[1], JIM_ERRMSG);
9732 if (!intObjPtr) return JIM_ERR;
9733 if (Jim_GetWide(interp, intObjPtr, &wideValue) != JIM_OK)
9734 return JIM_ERR;
9735 if (Jim_IsShared(intObjPtr)) {
9736 intObjPtr = Jim_NewIntObj(interp, wideValue + increment);
9737 if (Jim_SetVariable(interp, argv[1], intObjPtr) != JIM_OK) {
9738 Jim_FreeNewObj(interp, intObjPtr);
9739 return JIM_ERR;
9740 }
9741 } else {
9742 Jim_SetWide(interp, intObjPtr, wideValue + increment);
9743 /* The following step is required in order to invalidate the
9744 * string repr of "FOO" if the var name is on the form of "FOO(IDX)" */
9745 if (Jim_SetVariable(interp, argv[1], intObjPtr) != JIM_OK) {
9746 return JIM_ERR;
9747 }
9748 }
9749 Jim_SetResult(interp, intObjPtr);
9750 return JIM_OK;
9751 }
9752
9753 /* [while] */
9754 static int Jim_WhileCoreCommand(Jim_Interp *interp, int argc,
9755 Jim_Obj *const *argv)
9756 {
9757 if (argc != 3) {
9758 Jim_WrongNumArgs(interp, 1, argv, "condition body");
9759 return JIM_ERR;
9760 }
9761 /* Try to run a specialized version of while if the expression
9762 * is in one of the following forms:
9763 *
9764 * $a < CONST, $a < $b
9765 * $a <= CONST, $a <= $b
9766 * $a > CONST, $a > $b
9767 * $a >= CONST, $a >= $b
9768 * $a != CONST, $a != $b
9769 * $a == CONST, $a == $b
9770 * $a
9771 * !$a
9772 * CONST
9773 */
9774
9775 #ifdef JIM_OPTIMIZATION
9776 {
9777 ExprByteCode *expr;
9778 Jim_Obj *varAObjPtr = NULL, *varBObjPtr = NULL, *objPtr;
9779 int exprLen, retval;
9780
9781 /* STEP 1 -- Check if there are the conditions to run the specialized
9782 * version of while */
9783
9784 if ((expr = Jim_GetExpression(interp, argv[1])) == NULL) goto noopt;
9785 if (expr->len <= 0 || expr->len > 3) goto noopt;
9786 switch (expr->len) {
9787 case 1:
9788 if (expr->opcode[0] != JIM_EXPROP_VARIABLE &&
9789 expr->opcode[0] != JIM_EXPROP_NUMBER)
9790 goto noopt;
9791 break;
9792 case 2:
9793 if (expr->opcode[1] != JIM_EXPROP_NOT ||
9794 expr->opcode[0] != JIM_EXPROP_VARIABLE)
9795 goto noopt;
9796 break;
9797 case 3:
9798 if (expr->opcode[0] != JIM_EXPROP_VARIABLE ||
9799 (expr->opcode[1] != JIM_EXPROP_NUMBER &&
9800 expr->opcode[1] != JIM_EXPROP_VARIABLE))
9801 goto noopt;
9802 switch (expr->opcode[2]) {
9803 case JIM_EXPROP_LT:
9804 case JIM_EXPROP_LTE:
9805 case JIM_EXPROP_GT:
9806 case JIM_EXPROP_GTE:
9807 case JIM_EXPROP_NUMEQ:
9808 case JIM_EXPROP_NUMNE:
9809 /* nothing to do */
9810 break;
9811 default:
9812 goto noopt;
9813 }
9814 break;
9815 default:
9816 Jim_Panic(interp,
9817 "Unexpected default reached in Jim_WhileCoreCommand()");
9818 break;
9819 }
9820
9821 /* STEP 2 -- conditions meet. Initialization. Take different
9822 * branches for different expression lengths. */
9823 exprLen = expr->len;
9824
9825 if (exprLen == 1) {
9826 jim_wide wideValue=0;
9827
9828 if (expr->opcode[0] == JIM_EXPROP_VARIABLE) {
9829 varAObjPtr = expr->obj[0];
9830 Jim_IncrRefCount(varAObjPtr);
9831 } else {
9832 if (Jim_GetWide(interp, expr->obj[0], &wideValue) != JIM_OK)
9833 goto noopt;
9834 }
9835 while (1) {
9836 if (varAObjPtr) {
9837 if (!(objPtr =
9838 Jim_GetVariable(interp, varAObjPtr, JIM_NONE)) ||
9839 Jim_GetWide(interp, objPtr, &wideValue) != JIM_OK)
9840 {
9841 Jim_DecrRefCount(interp, varAObjPtr);
9842 goto noopt;
9843 }
9844 }
9845 if (!wideValue) break;
9846 if ((retval = Jim_EvalObj(interp, argv[2])) != JIM_OK) {
9847 switch (retval) {
9848 case JIM_BREAK:
9849 if (varAObjPtr)
9850 Jim_DecrRefCount(interp, varAObjPtr);
9851 goto out;
9852 break;
9853 case JIM_CONTINUE:
9854 continue;
9855 break;
9856 default:
9857 if (varAObjPtr)
9858 Jim_DecrRefCount(interp, varAObjPtr);
9859 return retval;
9860 }
9861 }
9862 }
9863 if (varAObjPtr)
9864 Jim_DecrRefCount(interp, varAObjPtr);
9865 } else if (exprLen == 3) {
9866 jim_wide wideValueA, wideValueB=0, cmpRes = 0;
9867 int cmpType = expr->opcode[2];
9868
9869 varAObjPtr = expr->obj[0];
9870 Jim_IncrRefCount(varAObjPtr);
9871 if (expr->opcode[1] == JIM_EXPROP_VARIABLE) {
9872 varBObjPtr = expr->obj[1];
9873 Jim_IncrRefCount(varBObjPtr);
9874 } else {
9875 if (Jim_GetWide(interp, expr->obj[1], &wideValueB) != JIM_OK)
9876 goto noopt;
9877 }
9878 while (1) {
9879 if (!(objPtr = Jim_GetVariable(interp, varAObjPtr, JIM_NONE)) ||
9880 Jim_GetWide(interp, objPtr, &wideValueA) != JIM_OK)
9881 {
9882 Jim_DecrRefCount(interp, varAObjPtr);
9883 if (varBObjPtr)
9884 Jim_DecrRefCount(interp, varBObjPtr);
9885 goto noopt;
9886 }
9887 if (varBObjPtr) {
9888 if (!(objPtr =
9889 Jim_GetVariable(interp, varBObjPtr, JIM_NONE)) ||
9890 Jim_GetWide(interp, objPtr, &wideValueB) != JIM_OK)
9891 {
9892 Jim_DecrRefCount(interp, varAObjPtr);
9893 Jim_DecrRefCount(interp, varBObjPtr);
9894 goto noopt;
9895 }
9896 }
9897 switch (cmpType) {
9898 case JIM_EXPROP_LT:
9899 cmpRes = wideValueA < wideValueB; break;
9900 case JIM_EXPROP_LTE:
9901 cmpRes = wideValueA <= wideValueB; break;
9902 case JIM_EXPROP_GT:
9903 cmpRes = wideValueA > wideValueB; break;
9904 case JIM_EXPROP_GTE:
9905 cmpRes = wideValueA >= wideValueB; break;
9906 case JIM_EXPROP_NUMEQ:
9907 cmpRes = wideValueA == wideValueB; break;
9908 case JIM_EXPROP_NUMNE:
9909 cmpRes = wideValueA != wideValueB; break;
9910 }
9911 if (!cmpRes) break;
9912 if ((retval = Jim_EvalObj(interp, argv[2])) != JIM_OK) {
9913 switch (retval) {
9914 case JIM_BREAK:
9915 Jim_DecrRefCount(interp, varAObjPtr);
9916 if (varBObjPtr)
9917 Jim_DecrRefCount(interp, varBObjPtr);
9918 goto out;
9919 break;
9920 case JIM_CONTINUE:
9921 continue;
9922 break;
9923 default:
9924 Jim_DecrRefCount(interp, varAObjPtr);
9925 if (varBObjPtr)
9926 Jim_DecrRefCount(interp, varBObjPtr);
9927 return retval;
9928 }
9929 }
9930 }
9931 Jim_DecrRefCount(interp, varAObjPtr);
9932 if (varBObjPtr)
9933 Jim_DecrRefCount(interp, varBObjPtr);
9934 } else {
9935 /* TODO: case for len == 2 */
9936 goto noopt;
9937 }
9938 Jim_SetEmptyResult(interp);
9939 return JIM_OK;
9940 }
9941 noopt:
9942 #endif
9943
9944 /* The general purpose implementation of while starts here */
9945 while (1) {
9946 int local_boolean, retval;
9947
9948 if ((retval = Jim_GetBoolFromExpr(interp, argv[1],
9949 &local_boolean)) != JIM_OK)
9950 return retval;
9951 if (!local_boolean) break;
9952 if ((retval = Jim_EvalObj(interp, argv[2])) != JIM_OK) {
9953 switch (retval) {
9954 case JIM_BREAK:
9955 goto out;
9956 break;
9957 case JIM_CONTINUE:
9958 continue;
9959 break;
9960 default:
9961 return retval;
9962 }
9963 }
9964 }
9965 out:
9966 Jim_SetEmptyResult(interp);
9967 return JIM_OK;
9968 }
9969
9970 /* [for] */
9971 static int Jim_ForCoreCommand(Jim_Interp *interp, int argc,
9972 Jim_Obj *const *argv)
9973 {
9974 int retval;
9975
9976 if (argc != 5) {
9977 Jim_WrongNumArgs(interp, 1, argv, "start test next body");
9978 return JIM_ERR;
9979 }
9980 /* Check if the for is on the form:
9981 * for {set i CONST} {$i < CONST} {incr i}
9982 * for {set i CONST} {$i < $j} {incr i}
9983 * for {set i CONST} {$i <= CONST} {incr i}
9984 * for {set i CONST} {$i <= $j} {incr i}
9985 * XXX: NOTE: if variable traces are implemented, this optimization
9986 * need to be modified to check for the proc epoch at every variable
9987 * update. */
9988 #ifdef JIM_OPTIMIZATION
9989 {
9990 ScriptObj *initScript, *incrScript;
9991 ExprByteCode *expr;
9992 jim_wide start, stop=0, currentVal;
9993 unsigned jim_wide procEpoch = interp->procEpoch;
9994 Jim_Obj *varNamePtr, *stopVarNamePtr = NULL, *objPtr;
9995 int cmpType;
9996 struct Jim_Cmd *cmdPtr;
9997
9998 /* Do it only if there aren't shared arguments */
9999 if (argv[1] == argv[2] || argv[2] == argv[3] || argv[1] == argv[3])
10000 goto evalstart;
10001 initScript = Jim_GetScript(interp, argv[1]);
10002 expr = Jim_GetExpression(interp, argv[2]);
10003 incrScript = Jim_GetScript(interp, argv[3]);
10004
10005 /* Ensure proper lengths to start */
10006 if (initScript->len != 6) goto evalstart;
10007 if (incrScript->len != 4) goto evalstart;
10008 if (expr->len != 3) goto evalstart;
10009 /* Ensure proper token types. */
10010 if (initScript->token[2].type != JIM_TT_ESC ||
10011 initScript->token[4].type != JIM_TT_ESC ||
10012 incrScript->token[2].type != JIM_TT_ESC ||
10013 expr->opcode[0] != JIM_EXPROP_VARIABLE ||
10014 (expr->opcode[1] != JIM_EXPROP_NUMBER &&
10015 expr->opcode[1] != JIM_EXPROP_VARIABLE) ||
10016 (expr->opcode[2] != JIM_EXPROP_LT &&
10017 expr->opcode[2] != JIM_EXPROP_LTE))
10018 goto evalstart;
10019 cmpType = expr->opcode[2];
10020 /* Initialization command must be [set] */
10021 cmdPtr = Jim_GetCommand(interp, initScript->token[0].objPtr, JIM_NONE);
10022 if (cmdPtr == NULL || cmdPtr->cmdProc != Jim_SetCoreCommand)
10023 goto evalstart;
10024 /* Update command must be incr */
10025 cmdPtr = Jim_GetCommand(interp, incrScript->token[0].objPtr, JIM_NONE);
10026 if (cmdPtr == NULL || cmdPtr->cmdProc != Jim_IncrCoreCommand)
10027 goto evalstart;
10028 /* set, incr, expression must be about the same variable */
10029 if (!Jim_StringEqObj(initScript->token[2].objPtr,
10030 incrScript->token[2].objPtr, 0))
10031 goto evalstart;
10032 if (!Jim_StringEqObj(initScript->token[2].objPtr,
10033 expr->obj[0], 0))
10034 goto evalstart;
10035 /* Check that the initialization and comparison are valid integers */
10036 if (Jim_GetWide(interp, initScript->token[4].objPtr, &start) == JIM_ERR)
10037 goto evalstart;
10038 if (expr->opcode[1] == JIM_EXPROP_NUMBER &&
10039 Jim_GetWide(interp, expr->obj[1], &stop) == JIM_ERR)
10040 {
10041 goto evalstart;
10042 }
10043
10044 /* Initialization */
10045 varNamePtr = expr->obj[0];
10046 if (expr->opcode[1] == JIM_EXPROP_VARIABLE) {
10047 stopVarNamePtr = expr->obj[1];
10048 Jim_IncrRefCount(stopVarNamePtr);
10049 }
10050 Jim_IncrRefCount(varNamePtr);
10051
10052 /* --- OPTIMIZED FOR --- */
10053 /* Start to loop */
10054 objPtr = Jim_NewIntObj(interp, start);
10055 if (Jim_SetVariable(interp, varNamePtr, objPtr) != JIM_OK) {
10056 Jim_DecrRefCount(interp, varNamePtr);
10057 if (stopVarNamePtr) Jim_DecrRefCount(interp, stopVarNamePtr);
10058 Jim_FreeNewObj(interp, objPtr);
10059 goto evalstart;
10060 }
10061 while (1) {
10062 /* === Check condition === */
10063 /* Common code: */
10064 objPtr = Jim_GetVariable(interp, varNamePtr, JIM_NONE);
10065 if (objPtr == NULL ||
10066 Jim_GetWide(interp, objPtr, &currentVal) != JIM_OK)
10067 {
10068 Jim_DecrRefCount(interp, varNamePtr);
10069 if (stopVarNamePtr) Jim_DecrRefCount(interp, stopVarNamePtr);
10070 goto testcond;
10071 }
10072 /* Immediate or Variable? get the 'stop' value if the latter. */
10073 if (stopVarNamePtr) {
10074 objPtr = Jim_GetVariable(interp, stopVarNamePtr, JIM_NONE);
10075 if (objPtr == NULL ||
10076 Jim_GetWide(interp, objPtr, &stop) != JIM_OK)
10077 {
10078 Jim_DecrRefCount(interp, varNamePtr);
10079 Jim_DecrRefCount(interp, stopVarNamePtr);
10080 goto testcond;
10081 }
10082 }
10083 if (cmpType == JIM_EXPROP_LT) {
10084 if (currentVal >= stop) break;
10085 } else {
10086 if (currentVal > stop) break;
10087 }
10088 /* Eval body */
10089 if ((retval = Jim_EvalObj(interp, argv[4])) != JIM_OK) {
10090 switch (retval) {
10091 case JIM_BREAK:
10092 if (stopVarNamePtr)
10093 Jim_DecrRefCount(interp, stopVarNamePtr);
10094 Jim_DecrRefCount(interp, varNamePtr);
10095 goto out;
10096 case JIM_CONTINUE:
10097 /* nothing to do */
10098 break;
10099 default:
10100 if (stopVarNamePtr)
10101 Jim_DecrRefCount(interp, stopVarNamePtr);
10102 Jim_DecrRefCount(interp, varNamePtr);
10103 return retval;
10104 }
10105 }
10106 /* If there was a change in procedures/command continue
10107 * with the usual [for] command implementation */
10108 if (procEpoch != interp->procEpoch) {
10109 if (stopVarNamePtr)
10110 Jim_DecrRefCount(interp, stopVarNamePtr);
10111 Jim_DecrRefCount(interp, varNamePtr);
10112 goto evalnext;
10113 }
10114 /* Increment */
10115 objPtr = Jim_GetVariable(interp, varNamePtr, JIM_ERRMSG);
10116 if (objPtr->refCount == 1 && objPtr->typePtr == &intObjType) {
10117 objPtr->internalRep.wideValue ++;
10118 Jim_InvalidateStringRep(objPtr);
10119 } else {
10120 Jim_Obj *auxObjPtr;
10121
10122 if (Jim_GetWide(interp, objPtr, &currentVal) == JIM_ERR) {
10123 if (stopVarNamePtr)
10124 Jim_DecrRefCount(interp, stopVarNamePtr);
10125 Jim_DecrRefCount(interp, varNamePtr);
10126 goto evalnext;
10127 }
10128 auxObjPtr = Jim_NewIntObj(interp, currentVal + 1);
10129 if (Jim_SetVariable(interp, varNamePtr, auxObjPtr) == JIM_ERR) {
10130 if (stopVarNamePtr)
10131 Jim_DecrRefCount(interp, stopVarNamePtr);
10132 Jim_DecrRefCount(interp, varNamePtr);
10133 Jim_FreeNewObj(interp, auxObjPtr);
10134 goto evalnext;
10135 }
10136 }
10137 }
10138 if (stopVarNamePtr)
10139 Jim_DecrRefCount(interp, stopVarNamePtr);
10140 Jim_DecrRefCount(interp, varNamePtr);
10141 Jim_SetEmptyResult(interp);
10142 return JIM_OK;
10143 }
10144 #endif
10145 evalstart:
10146 /* Eval start */
10147 if ((retval = Jim_EvalObj(interp, argv[1])) != JIM_OK)
10148 return retval;
10149 while (1) {
10150 int local_boolean;
10151 testcond:
10152 /* Test the condition */
10153 if ((retval = Jim_GetBoolFromExpr(interp, argv[2], &local_boolean))
10154 != JIM_OK)
10155 return retval;
10156 if (!local_boolean) break;
10157 /* Eval body */
10158 if ((retval = Jim_EvalObj(interp, argv[4])) != JIM_OK) {
10159 switch (retval) {
10160 case JIM_BREAK:
10161 goto out;
10162 break;
10163 case JIM_CONTINUE:
10164 /* Nothing to do */
10165 break;
10166 default:
10167 return retval;
10168 }
10169 }
10170 evalnext:
10171 /* Eval next */
10172 if ((retval = Jim_EvalObj(interp, argv[3])) != JIM_OK) {
10173 switch (retval) {
10174 case JIM_BREAK:
10175 goto out;
10176 break;
10177 case JIM_CONTINUE:
10178 continue;
10179 break;
10180 default:
10181 return retval;
10182 }
10183 }
10184 }
10185 out:
10186 Jim_SetEmptyResult(interp);
10187 return JIM_OK;
10188 }
10189
10190 /* foreach + lmap implementation. */
10191 static int JimForeachMapHelper(Jim_Interp *interp, int argc,
10192 Jim_Obj *const *argv, int doMap)
10193 {
10194 int result = JIM_ERR, i, nbrOfLists, *listsIdx, *listsEnd;
10195 int nbrOfLoops = 0;
10196 Jim_Obj *emptyStr, *script, *mapRes = NULL;
10197
10198 if (argc < 4 || argc % 2 != 0) {
10199 Jim_WrongNumArgs(interp, 1, argv, "varList list ?varList list ...? script");
10200 return JIM_ERR;
10201 }
10202 if (doMap) {
10203 mapRes = Jim_NewListObj(interp, NULL, 0);
10204 Jim_IncrRefCount(mapRes);
10205 }
10206 emptyStr = Jim_NewEmptyStringObj(interp);
10207 Jim_IncrRefCount(emptyStr);
10208 script = argv[argc-1]; /* Last argument is a script */
10209 nbrOfLists = (argc - 1 - 1) / 2; /* argc - 'foreach' - script */
10210 listsIdx = (int*)Jim_Alloc(nbrOfLists * sizeof(int));
10211 listsEnd = (int*)Jim_Alloc(nbrOfLists*2 * sizeof(int));
10212 /* Initialize iterators and remember max nbr elements each list */
10213 memset(listsIdx, 0, nbrOfLists * sizeof(int));
10214 /* Remember lengths of all lists and calculate how much rounds to loop */
10215 for (i = 0; i < nbrOfLists*2; i += 2) {
10216 div_t cnt;
10217 int count;
10218 Jim_ListLength(interp, argv[i + 1], &listsEnd[i]);
10219 Jim_ListLength(interp, argv[i + 2], &listsEnd[i + 1]);
10220 if (listsEnd[i] == 0) {
10221 Jim_SetResultString(interp, "foreach varlist is empty", -1);
10222 goto err;
10223 }
10224 cnt = div(listsEnd[i + 1], listsEnd[i]);
10225 count = cnt.quot + (cnt.rem ? 1 : 0);
10226 if (count > nbrOfLoops)
10227 nbrOfLoops = count;
10228 }
10229 for (; nbrOfLoops-- > 0;) {
10230 for (i = 0; i < nbrOfLists; ++i) {
10231 int varIdx = 0, var = i * 2;
10232 while (varIdx < listsEnd[var]) {
10233 Jim_Obj *varName, *ele;
10234 int lst = i * 2 + 1;
10235 if (Jim_ListIndex(interp, argv[var + 1], varIdx, &varName, JIM_ERRMSG)
10236 != JIM_OK)
10237 goto err;
10238 if (listsIdx[i] < listsEnd[lst]) {
10239 if (Jim_ListIndex(interp, argv[lst + 1], listsIdx[i], &ele, JIM_ERRMSG)
10240 != JIM_OK)
10241 goto err;
10242 if (Jim_SetVariable(interp, varName, ele) != JIM_OK) {
10243 Jim_SetResultString(interp, "couldn't set loop variable: ", -1);
10244 goto err;
10245 }
10246 ++listsIdx[i]; /* Remember next iterator of current list */
10247 } else if (Jim_SetVariable(interp, varName, emptyStr) != JIM_OK) {
10248 Jim_SetResultString(interp, "couldn't set loop variable: ", -1);
10249 goto err;
10250 }
10251 ++varIdx; /* Next variable */
10252 }
10253 }
10254 switch (result = Jim_EvalObj(interp, script)) {
10255 case JIM_OK:
10256 if (doMap)
10257 Jim_ListAppendElement(interp, mapRes, interp->result);
10258 break;
10259 case JIM_CONTINUE:
10260 break;
10261 case JIM_BREAK:
10262 goto out;
10263 break;
10264 default:
10265 goto err;
10266 }
10267 }
10268 out:
10269 result = JIM_OK;
10270 if (doMap)
10271 Jim_SetResult(interp, mapRes);
10272 else
10273 Jim_SetEmptyResult(interp);
10274 err:
10275 if (doMap)
10276 Jim_DecrRefCount(interp, mapRes);
10277 Jim_DecrRefCount(interp, emptyStr);
10278 Jim_Free(listsIdx);
10279 Jim_Free(listsEnd);
10280 return result;
10281 }
10282
10283 /* [foreach] */
10284 static int Jim_ForeachCoreCommand(Jim_Interp *interp, int argc,
10285 Jim_Obj *const *argv)
10286 {
10287 return JimForeachMapHelper(interp, argc, argv, 0);
10288 }
10289
10290 /* [lmap] */
10291 static int Jim_LmapCoreCommand(Jim_Interp *interp, int argc,
10292 Jim_Obj *const *argv)
10293 {
10294 return JimForeachMapHelper(interp, argc, argv, 1);
10295 }
10296
10297 /* [if] */
10298 static int Jim_IfCoreCommand(Jim_Interp *interp, int argc,
10299 Jim_Obj *const *argv)
10300 {
10301 int local_boolean, retval, current = 1, falsebody = 0;
10302 if (argc >= 3) {
10303 while (1) {
10304 /* Far not enough arguments given! */
10305 if (current >= argc) goto err;
10306 if ((retval = Jim_GetBoolFromExpr(interp,
10307 argv[current++], &local_boolean))
10308 != JIM_OK)
10309 return retval;
10310 /* There lacks something, isn't it? */
10311 if (current >= argc) goto err;
10312 if (Jim_CompareStringImmediate(interp, argv[current],
10313 "then")) current++;
10314 /* Tsk tsk, no then-clause? */
10315 if (current >= argc) goto err;
10316 if (local_boolean)
10317 return Jim_EvalObj(interp, argv[current]);
10318 /* Ok: no else-clause follows */
10319 if (++current >= argc) {
10320 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
10321 return JIM_OK;
10322 }
10323 falsebody = current++;
10324 if (Jim_CompareStringImmediate(interp, argv[falsebody],
10325 "else")) {
10326 /* IIICKS - else-clause isn't last cmd? */
10327 if (current != argc-1) goto err;
10328 return Jim_EvalObj(interp, argv[current]);
10329 } else if (Jim_CompareStringImmediate(interp,
10330 argv[falsebody], "elseif"))
10331 /* Ok: elseif follows meaning all the stuff
10332 * again (how boring...) */
10333 continue;
10334 /* OOPS - else-clause is not last cmd?*/
10335 else if (falsebody != argc-1)
10336 goto err;
10337 return Jim_EvalObj(interp, argv[falsebody]);
10338 }
10339 return JIM_OK;
10340 }
10341 err:
10342 Jim_WrongNumArgs(interp, 1, argv, "condition ?then? trueBody ?elseif ...? ?else? falseBody");
10343 return JIM_ERR;
10344 }
10345
10346 enum {SWITCH_EXACT, SWITCH_GLOB, SWITCH_RE, SWITCH_CMD, SWITCH_UNKNOWN};
10347
10348 /* [switch] */
10349 static int Jim_SwitchCoreCommand(Jim_Interp *interp, int argc,
10350 Jim_Obj *const *argv)
10351 {
10352 int retcode = JIM_ERR, matchOpt = SWITCH_EXACT, opt = 1, patCount, i;
10353 Jim_Obj *command = 0, *const *caseList = 0, *strObj;
10354 Jim_Obj *script = 0;
10355 if (argc < 3) goto wrongnumargs;
10356 for (opt = 1; opt < argc; ++opt) {
10357 const char *option = Jim_GetString(argv[opt], 0);
10358 if (*option != '-') break;
10359 else if (strncmp(option, "--", 2) == 0) { ++opt; break; }
10360 else if (strncmp(option, "-exact", 2) == 0) matchOpt = SWITCH_EXACT;
10361 else if (strncmp(option, "-glob", 2) == 0) matchOpt = SWITCH_GLOB;
10362 else if (strncmp(option, "-regexp", 2) == 0) matchOpt = SWITCH_RE;
10363 else if (strncmp(option, "-command", 2) == 0) { matchOpt = SWITCH_CMD;
10364 if ((argc - opt) < 2) goto wrongnumargs;
10365 command = argv[++opt];
10366 } else {
10367 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
10368 Jim_AppendStrings(interp, Jim_GetResult(interp),
10369 "bad option \"", option, "\": must be -exact, -glob, "
10370 "-regexp, -command procname or --", 0);
10371 goto err;
10372 }
10373 if ((argc - opt) < 2) goto wrongnumargs;
10374 }
10375 strObj = argv[opt++];
10376 patCount = argc - opt;
10377 if (patCount == 1) {
10378 Jim_Obj **vector;
10379 JimListGetElements(interp, argv[opt], &patCount, &vector);
10380 caseList = vector;
10381 } else
10382 caseList = &argv[opt];
10383 if (patCount == 0 || patCount % 2 != 0) goto wrongnumargs;
10384 for (i = 0; script == 0 && i < patCount; i += 2) {
10385 Jim_Obj *patObj = caseList[i];
10386 if (!Jim_CompareStringImmediate(interp, patObj, "default")
10387 || i < (patCount-2)) {
10388 switch (matchOpt) {
10389 case SWITCH_EXACT:
10390 if (Jim_StringEqObj(strObj, patObj, 0))
10391 script = caseList[i + 1];
10392 break;
10393 case SWITCH_GLOB:
10394 if (Jim_StringMatchObj(patObj, strObj, 0))
10395 script = caseList[i + 1];
10396 break;
10397 case SWITCH_RE:
10398 command = Jim_NewStringObj(interp, "regexp", -1);
10399 /* Fall thru intentionally */
10400 case SWITCH_CMD: {
10401 Jim_Obj *parms[] = {command, patObj, strObj};
10402 int rc = Jim_EvalObjVector(interp, 3, parms);
10403 long matching;
10404 /* After the execution of a command we need to
10405 * make sure to reconvert the object into a list
10406 * again. Only for the single-list style [switch]. */
10407 if (argc-opt == 1) {
10408 Jim_Obj **vector;
10409 JimListGetElements(interp, argv[opt], &patCount,
10410 &vector);
10411 caseList = vector;
10412 }
10413 /* command is here already decref'd */
10414 if (rc != JIM_OK) {
10415 retcode = rc;
10416 goto err;
10417 }
10418 rc = Jim_GetLong(interp, Jim_GetResult(interp), &matching);
10419 if (rc != JIM_OK) {
10420 retcode = rc;
10421 goto err;
10422 }
10423 if (matching)
10424 script = caseList[i + 1];
10425 break;
10426 }
10427 default:
10428 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
10429 Jim_AppendStrings(interp, Jim_GetResult(interp),
10430 "internal error: no such option implemented", 0);
10431 goto err;
10432 }
10433 } else {
10434 script = caseList[i + 1];
10435 }
10436 }
10437 for (; i < patCount && Jim_CompareStringImmediate(interp, script, "-");
10438 i += 2)
10439 script = caseList[i + 1];
10440 if (script && Jim_CompareStringImmediate(interp, script, "-")) {
10441 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
10442 Jim_AppendStrings(interp, Jim_GetResult(interp),
10443 "no body specified for pattern \"",
10444 Jim_GetString(caseList[i-2], 0), "\"", 0);
10445 goto err;
10446 }
10447 retcode = JIM_OK;
10448 Jim_SetEmptyResult(interp);
10449 if (script != 0)
10450 retcode = Jim_EvalObj(interp, script);
10451 return retcode;
10452 wrongnumargs:
10453 Jim_WrongNumArgs(interp, 1, argv, "?options? string "
10454 "pattern body ... ?default body? or "
10455 "{pattern body ?pattern body ...?}");
10456 err:
10457 return retcode;
10458 }
10459
10460 /* [list] */
10461 static int Jim_ListCoreCommand(Jim_Interp *interp, int argc,
10462 Jim_Obj *const *argv)
10463 {
10464 Jim_Obj *listObjPtr;
10465
10466 listObjPtr = Jim_NewListObj(interp, argv + 1, argc-1);
10467 Jim_SetResult(interp, listObjPtr);
10468 return JIM_OK;
10469 }
10470
10471 /* [lindex] */
10472 static int Jim_LindexCoreCommand(Jim_Interp *interp, int argc,
10473 Jim_Obj *const *argv)
10474 {
10475 Jim_Obj *objPtr, *listObjPtr;
10476 int i;
10477 int index_t;
10478
10479 if (argc < 3) {
10480 Jim_WrongNumArgs(interp, 1, argv, "list index ?...?");
10481 return JIM_ERR;
10482 }
10483 objPtr = argv[1];
10484 Jim_IncrRefCount(objPtr);
10485 for (i = 2; i < argc; i++) {
10486 listObjPtr = objPtr;
10487 if (Jim_GetIndex(interp, argv[i], &index_t) != JIM_OK) {
10488 Jim_DecrRefCount(interp, listObjPtr);
10489 return JIM_ERR;
10490 }
10491 if (Jim_ListIndex(interp, listObjPtr, index_t, &objPtr,
10492 JIM_NONE) != JIM_OK) {
10493 /* Returns an empty object if the index
10494 * is out of range. */
10495 Jim_DecrRefCount(interp, listObjPtr);
10496 Jim_SetEmptyResult(interp);
10497 return JIM_OK;
10498 }
10499 Jim_IncrRefCount(objPtr);
10500 Jim_DecrRefCount(interp, listObjPtr);
10501 }
10502 Jim_SetResult(interp, objPtr);
10503 Jim_DecrRefCount(interp, objPtr);
10504 return JIM_OK;
10505 }
10506
10507 /* [llength] */
10508 static int Jim_LlengthCoreCommand(Jim_Interp *interp, int argc,
10509 Jim_Obj *const *argv)
10510 {
10511 int len;
10512
10513 if (argc != 2) {
10514 Jim_WrongNumArgs(interp, 1, argv, "list");
10515 return JIM_ERR;
10516 }
10517 Jim_ListLength(interp, argv[1], &len);
10518 Jim_SetResult(interp, Jim_NewIntObj(interp, len));
10519 return JIM_OK;
10520 }
10521
10522 /* [lappend] */
10523 static int Jim_LappendCoreCommand(Jim_Interp *interp, int argc,
10524 Jim_Obj *const *argv)
10525 {
10526 Jim_Obj *listObjPtr;
10527 int shared, i;
10528
10529 if (argc < 2) {
10530 Jim_WrongNumArgs(interp, 1, argv, "varName ?value value ...?");
10531 return JIM_ERR;
10532 }
10533 listObjPtr = Jim_GetVariable(interp, argv[1], JIM_NONE);
10534 if (!listObjPtr) {
10535 /* Create the list if it does not exists */
10536 listObjPtr = Jim_NewListObj(interp, NULL, 0);
10537 if (Jim_SetVariable(interp, argv[1], listObjPtr) != JIM_OK) {
10538 Jim_FreeNewObj(interp, listObjPtr);
10539 return JIM_ERR;
10540 }
10541 }
10542 shared = Jim_IsShared(listObjPtr);
10543 if (shared)
10544 listObjPtr = Jim_DuplicateObj(interp, listObjPtr);
10545 for (i = 2; i < argc; i++)
10546 Jim_ListAppendElement(interp, listObjPtr, argv[i]);
10547 if (Jim_SetVariable(interp, argv[1], listObjPtr) != JIM_OK) {
10548 if (shared)
10549 Jim_FreeNewObj(interp, listObjPtr);
10550 return JIM_ERR;
10551 }
10552 Jim_SetResult(interp, listObjPtr);
10553 return JIM_OK;
10554 }
10555
10556 /* [linsert] */
10557 static int Jim_LinsertCoreCommand(Jim_Interp *interp, int argc,
10558 Jim_Obj *const *argv)
10559 {
10560 int index_t, len;
10561 Jim_Obj *listPtr;
10562
10563 if (argc < 4) {
10564 Jim_WrongNumArgs(interp, 1, argv, "list index element "
10565 "?element ...?");
10566 return JIM_ERR;
10567 }
10568 listPtr = argv[1];
10569 if (Jim_IsShared(listPtr))
10570 listPtr = Jim_DuplicateObj(interp, listPtr);
10571 if (Jim_GetIndex(interp, argv[2], &index_t) != JIM_OK)
10572 goto err;
10573 Jim_ListLength(interp, listPtr, &len);
10574 if (index_t >= len)
10575 index_t = len;
10576 else if (index_t < 0)
10577 index_t = len + index_t + 1;
10578 Jim_ListInsertElements(interp, listPtr, index_t, argc-3, &argv[3]);
10579 Jim_SetResult(interp, listPtr);
10580 return JIM_OK;
10581 err:
10582 if (listPtr != argv[1]) {
10583 Jim_FreeNewObj(interp, listPtr);
10584 }
10585 return JIM_ERR;
10586 }
10587
10588 /* [lset] */
10589 static int Jim_LsetCoreCommand(Jim_Interp *interp, int argc,
10590 Jim_Obj *const *argv)
10591 {
10592 if (argc < 3) {
10593 Jim_WrongNumArgs(interp, 1, argv, "listVar ?index...? newVal");
10594 return JIM_ERR;
10595 } else if (argc == 3) {
10596 if (Jim_SetVariable(interp, argv[1], argv[2]) != JIM_OK)
10597 return JIM_ERR;
10598 Jim_SetResult(interp, argv[2]);
10599 return JIM_OK;
10600 }
10601 if (Jim_SetListIndex(interp, argv[1], argv + 2, argc-3, argv[argc-1])
10602 == JIM_ERR) return JIM_ERR;
10603 return JIM_OK;
10604 }
10605
10606 /* [lsort] */
10607 static int Jim_LsortCoreCommand(Jim_Interp *interp, int argc, Jim_Obj *const argv[])
10608 {
10609 const char *options[] = {
10610 "-ascii", "-nocase", "-increasing", "-decreasing", NULL
10611 };
10612 enum {OPT_ASCII, OPT_NOCASE, OPT_INCREASING, OPT_DECREASING};
10613 Jim_Obj *resObj;
10614 int i, lsortType = JIM_LSORT_ASCII; /* default sort type */
10615 int decreasing = 0;
10616
10617 if (argc < 2) {
10618 Jim_WrongNumArgs(interp, 1, argv, "?options? list");
10619 return JIM_ERR;
10620 }
10621 for (i = 1; i < (argc-1); i++) {
10622 int option;
10623
10624 if (Jim_GetEnum(interp, argv[i], options, &option, "option", JIM_ERRMSG)
10625 != JIM_OK)
10626 return JIM_ERR;
10627 switch (option) {
10628 case OPT_ASCII: lsortType = JIM_LSORT_ASCII; break;
10629 case OPT_NOCASE: lsortType = JIM_LSORT_NOCASE; break;
10630 case OPT_INCREASING: decreasing = 0; break;
10631 case OPT_DECREASING: decreasing = 1; break;
10632 }
10633 }
10634 if (decreasing) {
10635 switch (lsortType) {
10636 case JIM_LSORT_ASCII: lsortType = JIM_LSORT_ASCII_DECR; break;
10637 case JIM_LSORT_NOCASE: lsortType = JIM_LSORT_NOCASE_DECR; break;
10638 }
10639 }
10640 resObj = Jim_DuplicateObj(interp, argv[argc-1]);
10641 ListSortElements(interp, resObj, lsortType);
10642 Jim_SetResult(interp, resObj);
10643 return JIM_OK;
10644 }
10645
10646 /* [append] */
10647 static int Jim_AppendCoreCommand(Jim_Interp *interp, int argc,
10648 Jim_Obj *const *argv)
10649 {
10650 Jim_Obj *stringObjPtr;
10651 int shared, i;
10652
10653 if (argc < 2) {
10654 Jim_WrongNumArgs(interp, 1, argv, "varName ?value value ...?");
10655 return JIM_ERR;
10656 }
10657 if (argc == 2) {
10658 stringObjPtr = Jim_GetVariable(interp, argv[1], JIM_ERRMSG);
10659 if (!stringObjPtr) return JIM_ERR;
10660 } else {
10661 stringObjPtr = Jim_GetVariable(interp, argv[1], JIM_NONE);
10662 if (!stringObjPtr) {
10663 /* Create the string if it does not exists */
10664 stringObjPtr = Jim_NewEmptyStringObj(interp);
10665 if (Jim_SetVariable(interp, argv[1], stringObjPtr)
10666 != JIM_OK) {
10667 Jim_FreeNewObj(interp, stringObjPtr);
10668 return JIM_ERR;
10669 }
10670 }
10671 }
10672 shared = Jim_IsShared(stringObjPtr);
10673 if (shared)
10674 stringObjPtr = Jim_DuplicateObj(interp, stringObjPtr);
10675 for (i = 2; i < argc; i++)
10676 Jim_AppendObj(interp, stringObjPtr, argv[i]);
10677 if (Jim_SetVariable(interp, argv[1], stringObjPtr) != JIM_OK) {
10678 if (shared)
10679 Jim_FreeNewObj(interp, stringObjPtr);
10680 return JIM_ERR;
10681 }
10682 Jim_SetResult(interp, stringObjPtr);
10683 return JIM_OK;
10684 }
10685
10686 /* [debug] */
10687 static int Jim_DebugCoreCommand(Jim_Interp *interp, int argc,
10688 Jim_Obj *const *argv)
10689 {
10690 const char *options[] = {
10691 "refcount", "objcount", "objects", "invstr", "scriptlen", "exprlen",
10692 "exprbc",
10693 NULL
10694 };
10695 enum {
10696 OPT_REFCOUNT, OPT_OBJCOUNT, OPT_OBJECTS, OPT_INVSTR, OPT_SCRIPTLEN,
10697 OPT_EXPRLEN, OPT_EXPRBC
10698 };
10699 int option;
10700
10701 if (argc < 2) {
10702 Jim_WrongNumArgs(interp, 1, argv, "option ?...?");
10703 return JIM_ERR;
10704 }
10705 if (Jim_GetEnum(interp, argv[1], options, &option, "option",
10706 JIM_ERRMSG) != JIM_OK)
10707 return JIM_ERR;
10708 if (option == OPT_REFCOUNT) {
10709 if (argc != 3) {
10710 Jim_WrongNumArgs(interp, 2, argv, "object");
10711 return JIM_ERR;
10712 }
10713 Jim_SetResult(interp, Jim_NewIntObj(interp, argv[2]->refCount));
10714 return JIM_OK;
10715 } else if (option == OPT_OBJCOUNT) {
10716 int freeobj = 0, liveobj = 0;
10717 char buf[256];
10718 Jim_Obj *objPtr;
10719
10720 if (argc != 2) {
10721 Jim_WrongNumArgs(interp, 2, argv, "");
10722 return JIM_ERR;
10723 }
10724 /* Count the number of free objects. */
10725 objPtr = interp->freeList;
10726 while (objPtr) {
10727 freeobj++;
10728 objPtr = objPtr->nextObjPtr;
10729 }
10730 /* Count the number of live objects. */
10731 objPtr = interp->liveList;
10732 while (objPtr) {
10733 liveobj++;
10734 objPtr = objPtr->nextObjPtr;
10735 }
10736 /* Set the result string and return. */
10737 sprintf(buf, "free %d used %d", freeobj, liveobj);
10738 Jim_SetResultString(interp, buf, -1);
10739 return JIM_OK;
10740 } else if (option == OPT_OBJECTS) {
10741 Jim_Obj *objPtr, *listObjPtr, *subListObjPtr;
10742 /* Count the number of live objects. */
10743 objPtr = interp->liveList;
10744 listObjPtr = Jim_NewListObj(interp, NULL, 0);
10745 while (objPtr) {
10746 char buf[128];
10747 const char *type = objPtr->typePtr ?
10748 objPtr->typePtr->name : "";
10749 subListObjPtr = Jim_NewListObj(interp, NULL, 0);
10750 sprintf(buf, "%p", objPtr);
10751 Jim_ListAppendElement(interp, subListObjPtr,
10752 Jim_NewStringObj(interp, buf, -1));
10753 Jim_ListAppendElement(interp, subListObjPtr,
10754 Jim_NewStringObj(interp, type, -1));
10755 Jim_ListAppendElement(interp, subListObjPtr,
10756 Jim_NewIntObj(interp, objPtr->refCount));
10757 Jim_ListAppendElement(interp, subListObjPtr, objPtr);
10758 Jim_ListAppendElement(interp, listObjPtr, subListObjPtr);
10759 objPtr = objPtr->nextObjPtr;
10760 }
10761 Jim_SetResult(interp, listObjPtr);
10762 return JIM_OK;
10763 } else if (option == OPT_INVSTR) {
10764 Jim_Obj *objPtr;
10765
10766 if (argc != 3) {
10767 Jim_WrongNumArgs(interp, 2, argv, "object");
10768 return JIM_ERR;
10769 }
10770 objPtr = argv[2];
10771 if (objPtr->typePtr != NULL)
10772 Jim_InvalidateStringRep(objPtr);
10773 Jim_SetEmptyResult(interp);
10774 return JIM_OK;
10775 } else if (option == OPT_SCRIPTLEN) {
10776 ScriptObj *script;
10777 if (argc != 3) {
10778 Jim_WrongNumArgs(interp, 2, argv, "script");
10779 return JIM_ERR;
10780 }
10781 script = Jim_GetScript(interp, argv[2]);
10782 Jim_SetResult(interp, Jim_NewIntObj(interp, script->len));
10783 return JIM_OK;
10784 } else if (option == OPT_EXPRLEN) {
10785 ExprByteCode *expr;
10786 if (argc != 3) {
10787 Jim_WrongNumArgs(interp, 2, argv, "expression");
10788 return JIM_ERR;
10789 }
10790 expr = Jim_GetExpression(interp, argv[2]);
10791 if (expr == NULL)
10792 return JIM_ERR;
10793 Jim_SetResult(interp, Jim_NewIntObj(interp, expr->len));
10794 return JIM_OK;
10795 } else if (option == OPT_EXPRBC) {
10796 Jim_Obj *objPtr;
10797 ExprByteCode *expr;
10798 int i;
10799
10800 if (argc != 3) {
10801 Jim_WrongNumArgs(interp, 2, argv, "expression");
10802 return JIM_ERR;
10803 }
10804 expr = Jim_GetExpression(interp, argv[2]);
10805 if (expr == NULL)
10806 return JIM_ERR;
10807 objPtr = Jim_NewListObj(interp, NULL, 0);
10808 for (i = 0; i < expr->len; i++) {
10809 const char *type;
10810 Jim_ExprOperator *op;
10811
10812 switch (expr->opcode[i]) {
10813 case JIM_EXPROP_NUMBER: type = "number"; break;
10814 case JIM_EXPROP_COMMAND: type = "command"; break;
10815 case JIM_EXPROP_VARIABLE: type = "variable"; break;
10816 case JIM_EXPROP_DICTSUGAR: type = "dictsugar"; break;
10817 case JIM_EXPROP_SUBST: type = "subst"; break;
10818 case JIM_EXPROP_STRING: type = "string"; break;
10819 default:
10820 op = JimExprOperatorInfo(Jim_GetString(expr->obj[i], NULL));
10821 if (op == NULL) {
10822 type = "private";
10823 } else {
10824 type = "operator";
10825 }
10826 break;
10827 }
10828 Jim_ListAppendElement(interp, objPtr,
10829 Jim_NewStringObj(interp, type, -1));
10830 Jim_ListAppendElement(interp, objPtr, expr->obj[i]);
10831 }
10832 Jim_SetResult(interp, objPtr);
10833 return JIM_OK;
10834 } else {
10835 Jim_SetResultString(interp,
10836 "bad option. Valid options are refcount, "
10837 "objcount, objects, invstr", -1);
10838 return JIM_ERR;
10839 }
10840 return JIM_OK; /* unreached */
10841 }
10842
10843 /* [eval] */
10844 static int Jim_EvalCoreCommand(Jim_Interp *interp, int argc,
10845 Jim_Obj *const *argv)
10846 {
10847 if (argc == 2) {
10848 return Jim_EvalObj(interp, argv[1]);
10849 } else if (argc > 2) {
10850 Jim_Obj *objPtr;
10851 int retcode;
10852
10853 objPtr = Jim_ConcatObj(interp, argc-1, argv + 1);
10854 Jim_IncrRefCount(objPtr);
10855 retcode = Jim_EvalObj(interp, objPtr);
10856 Jim_DecrRefCount(interp, objPtr);
10857 return retcode;
10858 } else {
10859 Jim_WrongNumArgs(interp, 1, argv, "script ?...?");
10860 return JIM_ERR;
10861 }
10862 }
10863
10864 /* [uplevel] */
10865 static int Jim_UplevelCoreCommand(Jim_Interp *interp, int argc,
10866 Jim_Obj *const *argv)
10867 {
10868 if (argc >= 2) {
10869 int retcode, newLevel, oldLevel;
10870 Jim_CallFrame *savedCallFrame, *targetCallFrame;
10871 Jim_Obj *objPtr;
10872 const char *str;
10873
10874 /* Save the old callframe pointer */
10875 savedCallFrame = interp->framePtr;
10876
10877 /* Lookup the target frame pointer */
10878 str = Jim_GetString(argv[1], NULL);
10879 if ((str[0] >= '0' && str[0] <= '9') || str[0] == '#')
10880 {
10881 if (Jim_GetCallFrameByLevel(interp, argv[1],
10882 &targetCallFrame,
10883 &newLevel) != JIM_OK)
10884 return JIM_ERR;
10885 argc--;
10886 argv++;
10887 } else {
10888 if (Jim_GetCallFrameByLevel(interp, NULL,
10889 &targetCallFrame,
10890 &newLevel) != JIM_OK)
10891 return JIM_ERR;
10892 }
10893 if (argc < 2) {
10894 argc++;
10895 argv--;
10896 Jim_WrongNumArgs(interp, 1, argv,
10897 "?level? command ?arg ...?");
10898 return JIM_ERR;
10899 }
10900 /* Eval the code in the target callframe. */
10901 interp->framePtr = targetCallFrame;
10902 oldLevel = interp->numLevels;
10903 interp->numLevels = newLevel;
10904 if (argc == 2) {
10905 retcode = Jim_EvalObj(interp, argv[1]);
10906 } else {
10907 objPtr = Jim_ConcatObj(interp, argc-1, argv + 1);
10908 Jim_IncrRefCount(objPtr);
10909 retcode = Jim_EvalObj(interp, objPtr);
10910 Jim_DecrRefCount(interp, objPtr);
10911 }
10912 interp->numLevels = oldLevel;
10913 interp->framePtr = savedCallFrame;
10914 return retcode;
10915 } else {
10916 Jim_WrongNumArgs(interp, 1, argv, "?level? command ?arg ...?");
10917 return JIM_ERR;
10918 }
10919 }
10920
10921 /* [expr] */
10922 static int Jim_ExprCoreCommand(Jim_Interp *interp, int argc,
10923 Jim_Obj *const *argv)
10924 {
10925 Jim_Obj *exprResultPtr;
10926 int retcode;
10927
10928 if (argc == 2) {
10929 retcode = Jim_EvalExpression(interp, argv[1], &exprResultPtr);
10930 } else if (argc > 2) {
10931 Jim_Obj *objPtr;
10932
10933 objPtr = Jim_ConcatObj(interp, argc-1, argv + 1);
10934 Jim_IncrRefCount(objPtr);
10935 retcode = Jim_EvalExpression(interp, objPtr, &exprResultPtr);
10936 Jim_DecrRefCount(interp, objPtr);
10937 } else {
10938 Jim_WrongNumArgs(interp, 1, argv, "expression ?...?");
10939 return JIM_ERR;
10940 }
10941 if (retcode != JIM_OK) return retcode;
10942 Jim_SetResult(interp, exprResultPtr);
10943 Jim_DecrRefCount(interp, exprResultPtr);
10944 return JIM_OK;
10945 }
10946
10947 /* [break] */
10948 static int Jim_BreakCoreCommand(Jim_Interp *interp, int argc,
10949 Jim_Obj *const *argv)
10950 {
10951 if (argc != 1) {
10952 Jim_WrongNumArgs(interp, 1, argv, "");
10953 return JIM_ERR;
10954 }
10955 return JIM_BREAK;
10956 }
10957
10958 /* [continue] */
10959 static int Jim_ContinueCoreCommand(Jim_Interp *interp, int argc,
10960 Jim_Obj *const *argv)
10961 {
10962 if (argc != 1) {
10963 Jim_WrongNumArgs(interp, 1, argv, "");
10964 return JIM_ERR;
10965 }
10966 return JIM_CONTINUE;
10967 }
10968
10969 /* [return] */
10970 static int Jim_ReturnCoreCommand(Jim_Interp *interp, int argc,
10971 Jim_Obj *const *argv)
10972 {
10973 if (argc == 1) {
10974 return JIM_RETURN;
10975 } else if (argc == 2) {
10976 Jim_SetResult(interp, argv[1]);
10977 interp->returnCode = JIM_OK;
10978 return JIM_RETURN;
10979 } else if (argc == 3 || argc == 4) {
10980 int returnCode;
10981 if (Jim_GetReturnCode(interp, argv[2], &returnCode) == JIM_ERR)
10982 return JIM_ERR;
10983 interp->returnCode = returnCode;
10984 if (argc == 4)
10985 Jim_SetResult(interp, argv[3]);
10986 return JIM_RETURN;
10987 } else {
10988 Jim_WrongNumArgs(interp, 1, argv, "?-code code? ?result?");
10989 return JIM_ERR;
10990 }
10991 return JIM_RETURN; /* unreached */
10992 }
10993
10994 /* [tailcall] */
10995 static int Jim_TailcallCoreCommand(Jim_Interp *interp, int argc,
10996 Jim_Obj *const *argv)
10997 {
10998 Jim_Obj *objPtr;
10999
11000 objPtr = Jim_NewListObj(interp, argv + 1, argc-1);
11001 Jim_SetResult(interp, objPtr);
11002 return JIM_EVAL;
11003 }
11004
11005 /* [proc] */
11006 static int Jim_ProcCoreCommand(Jim_Interp *interp, int argc,
11007 Jim_Obj *const *argv)
11008 {
11009 int argListLen;
11010 int arityMin, arityMax;
11011
11012 if (argc != 4 && argc != 5) {
11013 Jim_WrongNumArgs(interp, 1, argv, "name arglist ?statics? body");
11014 return JIM_ERR;
11015 }
11016 Jim_ListLength(interp, argv[2], &argListLen);
11017 arityMin = arityMax = argListLen + 1;
11018
11019 if (argListLen) {
11020 const char *str;
11021 int len;
11022 Jim_Obj *argPtr=NULL;
11023
11024 /* Check for 'args' and adjust arityMin and arityMax if necessary */
11025 Jim_ListIndex(interp, argv[2], argListLen-1, &argPtr, JIM_NONE);
11026 str = Jim_GetString(argPtr, &len);
11027 if (len == 4 && memcmp(str, "args", 4) == 0) {
11028 arityMin--;
11029 arityMax = -1;
11030 }
11031
11032 /* Check for default arguments and reduce arityMin if necessary */
11033 while (arityMin > 1) {
11034 Jim_ListIndex(interp, argv[2], arityMin - 2, &argPtr, JIM_NONE);
11035 Jim_ListLength(interp, argPtr, &len);
11036 if (len != 2) {
11037 /* No default argument */
11038 break;
11039 }
11040 arityMin--;
11041 }
11042 }
11043 if (argc == 4) {
11044 return Jim_CreateProcedure(interp, Jim_GetString(argv[1], NULL),
11045 argv[2], NULL, argv[3], arityMin, arityMax);
11046 } else {
11047 return Jim_CreateProcedure(interp, Jim_GetString(argv[1], NULL),
11048 argv[2], argv[3], argv[4], arityMin, arityMax);
11049 }
11050 }
11051
11052 /* [concat] */
11053 static int Jim_ConcatCoreCommand(Jim_Interp *interp, int argc,
11054 Jim_Obj *const *argv)
11055 {
11056 Jim_SetResult(interp, Jim_ConcatObj(interp, argc-1, argv + 1));
11057 return JIM_OK;
11058 }
11059
11060 /* [upvar] */
11061 static int Jim_UpvarCoreCommand(Jim_Interp *interp, int argc,
11062 Jim_Obj *const *argv)
11063 {
11064 const char *str;
11065 int i;
11066 Jim_CallFrame *targetCallFrame;
11067
11068 /* Lookup the target frame pointer */
11069 str = Jim_GetString(argv[1], NULL);
11070 if (argc > 3 &&
11071 ((str[0] >= '0' && str[0] <= '9') || str[0] == '#'))
11072 {
11073 if (Jim_GetCallFrameByLevel(interp, argv[1],
11074 &targetCallFrame, NULL) != JIM_OK)
11075 return JIM_ERR;
11076 argc--;
11077 argv++;
11078 } else {
11079 if (Jim_GetCallFrameByLevel(interp, NULL,
11080 &targetCallFrame, NULL) != JIM_OK)
11081 return JIM_ERR;
11082 }
11083 /* Check for arity */
11084 if (argc < 3 || ((argc-1)%2) != 0) {
11085 Jim_WrongNumArgs(interp, 1, argv, "?level? otherVar localVar ?otherVar localVar ...?");
11086 return JIM_ERR;
11087 }
11088 /* Now... for every other/local couple: */
11089 for (i = 1; i < argc; i += 2) {
11090 if (Jim_SetVariableLink(interp, argv[i + 1], argv[i],
11091 targetCallFrame) != JIM_OK) return JIM_ERR;
11092 }
11093 return JIM_OK;
11094 }
11095
11096 /* [global] */
11097 static int Jim_GlobalCoreCommand(Jim_Interp *interp, int argc,
11098 Jim_Obj *const *argv)
11099 {
11100 int i;
11101
11102 if (argc < 2) {
11103 Jim_WrongNumArgs(interp, 1, argv, "varName ?varName ...?");
11104 return JIM_ERR;
11105 }
11106 /* Link every var to the toplevel having the same name */
11107 if (interp->numLevels == 0) return JIM_OK; /* global at toplevel... */
11108 for (i = 1; i < argc; i++) {
11109 if (Jim_SetVariableLink(interp, argv[i], argv[i],
11110 interp->topFramePtr) != JIM_OK) return JIM_ERR;
11111 }
11112 return JIM_OK;
11113 }
11114
11115 /* does the [string map] operation. On error NULL is returned,
11116 * otherwise a new string object with the result, having refcount = 0,
11117 * is returned. */
11118 static Jim_Obj *JimStringMap(Jim_Interp *interp, Jim_Obj *mapListObjPtr,
11119 Jim_Obj *objPtr, int nocase)
11120 {
11121 int numMaps;
11122 const char **key, *str, *noMatchStart = NULL;
11123 Jim_Obj **value;
11124 int *keyLen, strLen, i;
11125 Jim_Obj *resultObjPtr;
11126
11127 Jim_ListLength(interp, mapListObjPtr, &numMaps);
11128 if (numMaps % 2) {
11129 Jim_SetResultString(interp,
11130 "list must contain an even number of elements", -1);
11131 return NULL;
11132 }
11133 /* Initialization */
11134 numMaps /= 2;
11135 key = Jim_Alloc(sizeof(char*)*numMaps);
11136 keyLen = Jim_Alloc(sizeof(int)*numMaps);
11137 value = Jim_Alloc(sizeof(Jim_Obj*)*numMaps);
11138 resultObjPtr = Jim_NewStringObj(interp, "", 0);
11139 for (i = 0; i < numMaps; i++) {
11140 Jim_Obj *eleObjPtr=NULL;
11141
11142 Jim_ListIndex(interp, mapListObjPtr, i*2, &eleObjPtr, JIM_NONE);
11143 key[i] = Jim_GetString(eleObjPtr, &keyLen[i]);
11144 Jim_ListIndex(interp, mapListObjPtr, i*2 + 1, &eleObjPtr, JIM_NONE);
11145 value[i] = eleObjPtr;
11146 }
11147 str = Jim_GetString(objPtr, &strLen);
11148 /* Map it */
11149 while (strLen) {
11150 for (i = 0; i < numMaps; i++) {
11151 if (strLen >= keyLen[i] && keyLen[i]) {
11152 if (!JimStringCompare(str, keyLen[i], key[i], keyLen[i],
11153 nocase))
11154 {
11155 if (noMatchStart) {
11156 Jim_AppendString(interp, resultObjPtr,
11157 noMatchStart, str-noMatchStart);
11158 noMatchStart = NULL;
11159 }
11160 Jim_AppendObj(interp, resultObjPtr, value[i]);
11161 str += keyLen[i];
11162 strLen -= keyLen[i];
11163 break;
11164 }
11165 }
11166 }
11167 if (i == numMaps) { /* no match */
11168 if (noMatchStart == NULL)
11169 noMatchStart = str;
11170 str ++;
11171 strLen --;
11172 }
11173 }
11174 if (noMatchStart) {
11175 Jim_AppendString(interp, resultObjPtr,
11176 noMatchStart, str-noMatchStart);
11177 }
11178 Jim_Free((void*)key);
11179 Jim_Free(keyLen);
11180 Jim_Free(value);
11181 return resultObjPtr;
11182 }
11183
11184 /* [string] */
11185 static int Jim_StringCoreCommand(Jim_Interp *interp, int argc,
11186 Jim_Obj *const *argv)
11187 {
11188 int option;
11189 const char *options[] = {
11190 "length", "compare", "match", "equal", "range", "map", "repeat",
11191 "index", "first", "tolower", "toupper", NULL
11192 };
11193 enum {
11194 OPT_LENGTH, OPT_COMPARE, OPT_MATCH, OPT_EQUAL, OPT_RANGE,
11195 OPT_MAP, OPT_REPEAT, OPT_INDEX, OPT_FIRST, OPT_TOLOWER, OPT_TOUPPER
11196 };
11197
11198 if (argc < 2) {
11199 Jim_WrongNumArgs(interp, 1, argv, "option ?arguments ...?");
11200 return JIM_ERR;
11201 }
11202 if (Jim_GetEnum(interp, argv[1], options, &option, "option",
11203 JIM_ERRMSG) != JIM_OK)
11204 return JIM_ERR;
11205
11206 if (option == OPT_LENGTH) {
11207 int len;
11208
11209 if (argc != 3) {
11210 Jim_WrongNumArgs(interp, 2, argv, "string");
11211 return JIM_ERR;
11212 }
11213 Jim_GetString(argv[2], &len);
11214 Jim_SetResult(interp, Jim_NewIntObj(interp, len));
11215 return JIM_OK;
11216 } else if (option == OPT_COMPARE) {
11217 int nocase = 0;
11218 if ((argc != 4 && argc != 5) ||
11219 (argc == 5 && Jim_CompareStringImmediate(interp,
11220 argv[2], "-nocase") == 0)) {
11221 Jim_WrongNumArgs(interp, 2, argv, "string1 string2");
11222 return JIM_ERR;
11223 }
11224 if (argc == 5) {
11225 nocase = 1;
11226 argv++;
11227 }
11228 Jim_SetResult(interp, Jim_NewIntObj(interp,
11229 Jim_StringCompareObj(argv[2],
11230 argv[3], nocase)));
11231 return JIM_OK;
11232 } else if (option == OPT_MATCH) {
11233 int nocase = 0;
11234 if ((argc != 4 && argc != 5) ||
11235 (argc == 5 && Jim_CompareStringImmediate(interp,
11236 argv[2], "-nocase") == 0)) {
11237 Jim_WrongNumArgs(interp, 2, argv, "?-nocase? pattern "
11238 "string");
11239 return JIM_ERR;
11240 }
11241 if (argc == 5) {
11242 nocase = 1;
11243 argv++;
11244 }
11245 Jim_SetResult(interp,
11246 Jim_NewIntObj(interp, Jim_StringMatchObj(argv[2],
11247 argv[3], nocase)));
11248 return JIM_OK;
11249 } else if (option == OPT_EQUAL) {
11250 if (argc != 4) {
11251 Jim_WrongNumArgs(interp, 2, argv, "string1 string2");
11252 return JIM_ERR;
11253 }
11254 Jim_SetResult(interp,
11255 Jim_NewIntObj(interp, Jim_StringEqObj(argv[2],
11256 argv[3], 0)));
11257 return JIM_OK;
11258 } else if (option == OPT_RANGE) {
11259 Jim_Obj *objPtr;
11260
11261 if (argc != 5) {
11262 Jim_WrongNumArgs(interp, 2, argv, "string first last");
11263 return JIM_ERR;
11264 }
11265 objPtr = Jim_StringRangeObj(interp, argv[2], argv[3], argv[4]);
11266 if (objPtr == NULL)
11267 return JIM_ERR;
11268 Jim_SetResult(interp, objPtr);
11269 return JIM_OK;
11270 } else if (option == OPT_MAP) {
11271 int nocase = 0;
11272 Jim_Obj *objPtr;
11273
11274 if ((argc != 4 && argc != 5) ||
11275 (argc == 5 && Jim_CompareStringImmediate(interp,
11276 argv[2], "-nocase") == 0)) {
11277 Jim_WrongNumArgs(interp, 2, argv, "?-nocase? mapList "
11278 "string");
11279 return JIM_ERR;
11280 }
11281 if (argc == 5) {
11282 nocase = 1;
11283 argv++;
11284 }
11285 objPtr = JimStringMap(interp, argv[2], argv[3], nocase);
11286 if (objPtr == NULL)
11287 return JIM_ERR;
11288 Jim_SetResult(interp, objPtr);
11289 return JIM_OK;
11290 } else if (option == OPT_REPEAT) {
11291 Jim_Obj *objPtr;
11292 jim_wide count;
11293
11294 if (argc != 4) {
11295 Jim_WrongNumArgs(interp, 2, argv, "string count");
11296 return JIM_ERR;
11297 }
11298 if (Jim_GetWide(interp, argv[3], &count) != JIM_OK)
11299 return JIM_ERR;
11300 objPtr = Jim_NewStringObj(interp, "", 0);
11301 while (count--) {
11302 Jim_AppendObj(interp, objPtr, argv[2]);
11303 }
11304 Jim_SetResult(interp, objPtr);
11305 return JIM_OK;
11306 } else if (option == OPT_INDEX) {
11307 int index_t, len;
11308 const char *str;
11309
11310 if (argc != 4) {
11311 Jim_WrongNumArgs(interp, 2, argv, "string index");
11312 return JIM_ERR;
11313 }
11314 if (Jim_GetIndex(interp, argv[3], &index_t) != JIM_OK)
11315 return JIM_ERR;
11316 str = Jim_GetString(argv[2], &len);
11317 if (index_t != INT_MIN && index_t != INT_MAX)
11318 index_t = JimRelToAbsIndex(len, index_t);
11319 if (index_t < 0 || index_t >= len) {
11320 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
11321 return JIM_OK;
11322 } else {
11323 Jim_SetResult(interp, Jim_NewStringObj(interp, str + index_t, 1));
11324 return JIM_OK;
11325 }
11326 } else if (option == OPT_FIRST) {
11327 int index_t = 0, l1, l2;
11328 const char *s1, *s2;
11329
11330 if (argc != 4 && argc != 5) {
11331 Jim_WrongNumArgs(interp, 2, argv, "subString string ?startIndex?");
11332 return JIM_ERR;
11333 }
11334 s1 = Jim_GetString(argv[2], &l1);
11335 s2 = Jim_GetString(argv[3], &l2);
11336 if (argc == 5) {
11337 if (Jim_GetIndex(interp, argv[4], &index_t) != JIM_OK)
11338 return JIM_ERR;
11339 index_t = JimRelToAbsIndex(l2, index_t);
11340 }
11341 Jim_SetResult(interp, Jim_NewIntObj(interp,
11342 JimStringFirst(s1, l1, s2, l2, index_t)));
11343 return JIM_OK;
11344 } else if (option == OPT_TOLOWER) {
11345 if (argc != 3) {
11346 Jim_WrongNumArgs(interp, 2, argv, "string");
11347 return JIM_ERR;
11348 }
11349 Jim_SetResult(interp, JimStringToLower(interp, argv[2]));
11350 } else if (option == OPT_TOUPPER) {
11351 if (argc != 3) {
11352 Jim_WrongNumArgs(interp, 2, argv, "string");
11353 return JIM_ERR;
11354 }
11355 Jim_SetResult(interp, JimStringToUpper(interp, argv[2]));
11356 }
11357 return JIM_OK;
11358 }
11359
11360 /* [time] */
11361 static int Jim_TimeCoreCommand(Jim_Interp *interp, int argc,
11362 Jim_Obj *const *argv)
11363 {
11364 long i, count = 1;
11365 jim_wide start, elapsed;
11366 char buf [256];
11367 const char *fmt = "%" JIM_WIDE_MODIFIER " microseconds per iteration";
11368
11369 if (argc < 2) {
11370 Jim_WrongNumArgs(interp, 1, argv, "script ?count?");
11371 return JIM_ERR;
11372 }
11373 if (argc == 3) {
11374 if (Jim_GetLong(interp, argv[2], &count) != JIM_OK)
11375 return JIM_ERR;
11376 }
11377 if (count < 0)
11378 return JIM_OK;
11379 i = count;
11380 start = JimClock();
11381 while (i-- > 0) {
11382 int retval;
11383
11384 if ((retval = Jim_EvalObj(interp, argv[1])) != JIM_OK)
11385 return retval;
11386 }
11387 elapsed = JimClock() - start;
11388 sprintf(buf, fmt, elapsed/count);
11389 Jim_SetResultString(interp, buf, -1);
11390 return JIM_OK;
11391 }
11392
11393 /* [exit] */
11394 static int Jim_ExitCoreCommand(Jim_Interp *interp, int argc,
11395 Jim_Obj *const *argv)
11396 {
11397 long exitCode = 0;
11398
11399 if (argc > 2) {
11400 Jim_WrongNumArgs(interp, 1, argv, "?exitCode?");
11401 return JIM_ERR;
11402 }
11403 if (argc == 2) {
11404 if (Jim_GetLong(interp, argv[1], &exitCode) != JIM_OK)
11405 return JIM_ERR;
11406 }
11407 interp->exitCode = exitCode;
11408 return JIM_EXIT;
11409 }
11410
11411 /* [catch] */
11412 static int Jim_CatchCoreCommand(Jim_Interp *interp, int argc,
11413 Jim_Obj *const *argv)
11414 {
11415 int exitCode = 0;
11416
11417 if (argc != 2 && argc != 3) {
11418 Jim_WrongNumArgs(interp, 1, argv, "script ?varName?");
11419 return JIM_ERR;
11420 }
11421 exitCode = Jim_EvalObj(interp, argv[1]);
11422 if (argc == 3) {
11423 if (Jim_SetVariable(interp, argv[2], Jim_GetResult(interp))
11424 != JIM_OK)
11425 return JIM_ERR;
11426 }
11427 Jim_SetResult(interp, Jim_NewIntObj(interp, exitCode));
11428 return JIM_OK;
11429 }
11430
11431 /* [ref] */
11432 static int Jim_RefCoreCommand(Jim_Interp *interp, int argc,
11433 Jim_Obj *const *argv)
11434 {
11435 if (argc != 3 && argc != 4) {
11436 Jim_WrongNumArgs(interp, 1, argv, "string tag ?finalizer?");
11437 return JIM_ERR;
11438 }
11439 if (argc == 3) {
11440 Jim_SetResult(interp, Jim_NewReference(interp, argv[1], argv[2], NULL));
11441 } else {
11442 Jim_SetResult(interp, Jim_NewReference(interp, argv[1], argv[2],
11443 argv[3]));
11444 }
11445 return JIM_OK;
11446 }
11447
11448 /* [getref] */
11449 static int Jim_GetrefCoreCommand(Jim_Interp *interp, int argc,
11450 Jim_Obj *const *argv)
11451 {
11452 Jim_Reference *refPtr;
11453
11454 if (argc != 2) {
11455 Jim_WrongNumArgs(interp, 1, argv, "reference");
11456 return JIM_ERR;
11457 }
11458 if ((refPtr = Jim_GetReference(interp, argv[1])) == NULL)
11459 return JIM_ERR;
11460 Jim_SetResult(interp, refPtr->objPtr);
11461 return JIM_OK;
11462 }
11463
11464 /* [setref] */
11465 static int Jim_SetrefCoreCommand(Jim_Interp *interp, int argc,
11466 Jim_Obj *const *argv)
11467 {
11468 Jim_Reference *refPtr;
11469
11470 if (argc != 3) {
11471 Jim_WrongNumArgs(interp, 1, argv, "reference newValue");
11472 return JIM_ERR;
11473 }
11474 if ((refPtr = Jim_GetReference(interp, argv[1])) == NULL)
11475 return JIM_ERR;
11476 Jim_IncrRefCount(argv[2]);
11477 Jim_DecrRefCount(interp, refPtr->objPtr);
11478 refPtr->objPtr = argv[2];
11479 Jim_SetResult(interp, argv[2]);
11480 return JIM_OK;
11481 }
11482
11483 /* [collect] */
11484 static int Jim_CollectCoreCommand(Jim_Interp *interp, int argc,
11485 Jim_Obj *const *argv)
11486 {
11487 if (argc != 1) {
11488 Jim_WrongNumArgs(interp, 1, argv, "");
11489 return JIM_ERR;
11490 }
11491 Jim_SetResult(interp, Jim_NewIntObj(interp, Jim_Collect(interp)));
11492 return JIM_OK;
11493 }
11494
11495 /* [finalize] reference ?newValue? */
11496 static int Jim_FinalizeCoreCommand(Jim_Interp *interp, int argc,
11497 Jim_Obj *const *argv)
11498 {
11499 if (argc != 2 && argc != 3) {
11500 Jim_WrongNumArgs(interp, 1, argv, "reference ?finalizerProc?");
11501 return JIM_ERR;
11502 }
11503 if (argc == 2) {
11504 Jim_Obj *cmdNamePtr;
11505
11506 if (Jim_GetFinalizer(interp, argv[1], &cmdNamePtr) != JIM_OK)
11507 return JIM_ERR;
11508 if (cmdNamePtr != NULL) /* otherwise the null string is returned. */
11509 Jim_SetResult(interp, cmdNamePtr);
11510 } else {
11511 if (Jim_SetFinalizer(interp, argv[1], argv[2]) != JIM_OK)
11512 return JIM_ERR;
11513 Jim_SetResult(interp, argv[2]);
11514 }
11515 return JIM_OK;
11516 }
11517
11518 /* TODO */
11519 /* [info references] (list of all the references/finalizers) */
11520
11521 /* [rename] */
11522 static int Jim_RenameCoreCommand(Jim_Interp *interp, int argc,
11523 Jim_Obj *const *argv)
11524 {
11525 const char *oldName, *newName;
11526
11527 if (argc != 3) {
11528 Jim_WrongNumArgs(interp, 1, argv, "oldName newName");
11529 return JIM_ERR;
11530 }
11531 oldName = Jim_GetString(argv[1], NULL);
11532 newName = Jim_GetString(argv[2], NULL);
11533 if (Jim_RenameCommand(interp, oldName, newName) != JIM_OK) {
11534 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
11535 Jim_AppendStrings(interp, Jim_GetResult(interp),
11536 "can't rename \"", oldName, "\": ",
11537 "command doesn't exist", NULL);
11538 return JIM_ERR;
11539 }
11540 return JIM_OK;
11541 }
11542
11543 /* [dict] */
11544 static int Jim_DictCoreCommand(Jim_Interp *interp, int argc,
11545 Jim_Obj *const *argv)
11546 {
11547 int option;
11548 const char *options[] = {
11549 "create", "get", "set", "unset", "exists", NULL
11550 };
11551 enum {
11552 OPT_CREATE, OPT_GET, OPT_SET, OPT_UNSET, OPT_EXIST
11553 };
11554
11555 if (argc < 2) {
11556 Jim_WrongNumArgs(interp, 1, argv, "option ?arguments ...?");
11557 return JIM_ERR;
11558 }
11559
11560 if (Jim_GetEnum(interp, argv[1], options, &option, "option",
11561 JIM_ERRMSG) != JIM_OK)
11562 return JIM_ERR;
11563
11564 if (option == OPT_CREATE) {
11565 Jim_Obj *objPtr;
11566
11567 if (argc % 2) {
11568 Jim_WrongNumArgs(interp, 2, argv, "?key value ...?");
11569 return JIM_ERR;
11570 }
11571 objPtr = Jim_NewDictObj(interp, argv + 2, argc-2);
11572 Jim_SetResult(interp, objPtr);
11573 return JIM_OK;
11574 } else if (option == OPT_GET) {
11575 Jim_Obj *objPtr;
11576
11577 if (Jim_DictKeysVector(interp, argv[2], argv + 3, argc-3, &objPtr,
11578 JIM_ERRMSG) != JIM_OK)
11579 return JIM_ERR;
11580 Jim_SetResult(interp, objPtr);
11581 return JIM_OK;
11582 } else if (option == OPT_SET) {
11583 if (argc < 5) {
11584 Jim_WrongNumArgs(interp, 2, argv, "varName key ?key ...? value");
11585 return JIM_ERR;
11586 }
11587 return Jim_SetDictKeysVector(interp, argv[2], argv + 3, argc-4,
11588 argv[argc-1]);
11589 } else if (option == OPT_UNSET) {
11590 if (argc < 4) {
11591 Jim_WrongNumArgs(interp, 2, argv, "varName key ?key ...?");
11592 return JIM_ERR;
11593 }
11594 return Jim_SetDictKeysVector(interp, argv[2], argv + 3, argc-3,
11595 NULL);
11596 } else if (option == OPT_EXIST) {
11597 Jim_Obj *objPtr;
11598 int exists;
11599
11600 if (Jim_DictKeysVector(interp, argv[2], argv + 3, argc-3, &objPtr,
11601 JIM_ERRMSG) == JIM_OK)
11602 exists = 1;
11603 else
11604 exists = 0;
11605 Jim_SetResult(interp, Jim_NewIntObj(interp, exists));
11606 return JIM_OK;
11607 } else {
11608 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
11609 Jim_AppendStrings(interp, Jim_GetResult(interp),
11610 "bad option \"", Jim_GetString(argv[1], NULL), "\":",
11611 " must be create, get, set", NULL);
11612 return JIM_ERR;
11613 }
11614 return JIM_OK;
11615 }
11616
11617 /* [load] */
11618 static int Jim_LoadCoreCommand(Jim_Interp *interp, int argc,
11619 Jim_Obj *const *argv)
11620 {
11621 if (argc < 2) {
11622 Jim_WrongNumArgs(interp, 1, argv, "libaryFile");
11623 return JIM_ERR;
11624 }
11625 return Jim_LoadLibrary(interp, Jim_GetString(argv[1], NULL));
11626 }
11627
11628 /* [subst] */
11629 static int Jim_SubstCoreCommand(Jim_Interp *interp, int argc,
11630 Jim_Obj *const *argv)
11631 {
11632 int i, flags = 0;
11633 Jim_Obj *objPtr;
11634
11635 if (argc < 2) {
11636 Jim_WrongNumArgs(interp, 1, argv,
11637 "?-nobackslashes? ?-nocommands? ?-novariables? string");
11638 return JIM_ERR;
11639 }
11640 i = argc-2;
11641 while (i--) {
11642 if (Jim_CompareStringImmediate(interp, argv[i + 1],
11643 "-nobackslashes"))
11644 flags |= JIM_SUBST_NOESC;
11645 else if (Jim_CompareStringImmediate(interp, argv[i + 1],
11646 "-novariables"))
11647 flags |= JIM_SUBST_NOVAR;
11648 else if (Jim_CompareStringImmediate(interp, argv[i + 1],
11649 "-nocommands"))
11650 flags |= JIM_SUBST_NOCMD;
11651 else {
11652 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
11653 Jim_AppendStrings(interp, Jim_GetResult(interp),
11654 "bad option \"", Jim_GetString(argv[i + 1], NULL),
11655 "\": must be -nobackslashes, -nocommands, or "
11656 "-novariables", NULL);
11657 return JIM_ERR;
11658 }
11659 }
11660 if (Jim_SubstObj(interp, argv[argc-1], &objPtr, flags) != JIM_OK)
11661 return JIM_ERR;
11662 Jim_SetResult(interp, objPtr);
11663 return JIM_OK;
11664 }
11665
11666 /* [info] */
11667 static int Jim_InfoCoreCommand(Jim_Interp *interp, int argc,
11668 Jim_Obj *const *argv)
11669 {
11670 int cmd, result = JIM_OK;
11671 static const char *commands[] = {
11672 "body", "commands", "exists", "globals", "level", "locals",
11673 "vars", "version", "complete", "args", "hostname", NULL
11674 };
11675 enum {INFO_BODY, INFO_COMMANDS, INFO_EXISTS, INFO_GLOBALS, INFO_LEVEL,
11676 INFO_LOCALS, INFO_VARS, INFO_VERSION, INFO_COMPLETE, INFO_ARGS, INFO_HOSTNAME};
11677
11678 if (argc < 2) {
11679 Jim_WrongNumArgs(interp, 1, argv, "command ?args ...?");
11680 return JIM_ERR;
11681 }
11682 if (Jim_GetEnum(interp, argv[1], commands, &cmd, "command", JIM_ERRMSG)
11683 != JIM_OK) {
11684 return JIM_ERR;
11685 }
11686
11687 if (cmd == INFO_COMMANDS) {
11688 if (argc != 2 && argc != 3) {
11689 Jim_WrongNumArgs(interp, 2, argv, "?pattern?");
11690 return JIM_ERR;
11691 }
11692 if (argc == 3)
11693 Jim_SetResult(interp,JimCommandsList(interp, argv[2]));
11694 else
11695 Jim_SetResult(interp, JimCommandsList(interp, NULL));
11696 } else if (cmd == INFO_EXISTS) {
11697 Jim_Obj *exists;
11698 if (argc != 3) {
11699 Jim_WrongNumArgs(interp, 2, argv, "varName");
11700 return JIM_ERR;
11701 }
11702 exists = Jim_GetVariable(interp, argv[2], 0);
11703 Jim_SetResult(interp, Jim_NewIntObj(interp, exists != 0));
11704 } else if (cmd == INFO_GLOBALS || cmd == INFO_LOCALS || cmd == INFO_VARS) {
11705 int mode;
11706 switch (cmd) {
11707 case INFO_GLOBALS: mode = JIM_VARLIST_GLOBALS; break;
11708 case INFO_LOCALS: mode = JIM_VARLIST_LOCALS; break;
11709 case INFO_VARS: mode = JIM_VARLIST_VARS; break;
11710 default: mode = 0; /* avoid warning */; break;
11711 }
11712 if (argc != 2 && argc != 3) {
11713 Jim_WrongNumArgs(interp, 2, argv, "?pattern?");
11714 return JIM_ERR;
11715 }
11716 if (argc == 3)
11717 Jim_SetResult(interp,JimVariablesList(interp, argv[2], mode));
11718 else
11719 Jim_SetResult(interp, JimVariablesList(interp, NULL, mode));
11720 } else if (cmd == INFO_LEVEL) {
11721 Jim_Obj *objPtr;
11722 switch (argc) {
11723 case 2:
11724 Jim_SetResult(interp,
11725 Jim_NewIntObj(interp, interp->numLevels));
11726 break;
11727 case 3:
11728 if (JimInfoLevel(interp, argv[2], &objPtr) != JIM_OK)
11729 return JIM_ERR;
11730 Jim_SetResult(interp, objPtr);
11731 break;
11732 default:
11733 Jim_WrongNumArgs(interp, 2, argv, "?levelNum?");
11734 return JIM_ERR;
11735 }
11736 } else if (cmd == INFO_BODY || cmd == INFO_ARGS) {
11737 Jim_Cmd *cmdPtr;
11738
11739 if (argc != 3) {
11740 Jim_WrongNumArgs(interp, 2, argv, "procname");
11741 return JIM_ERR;
11742 }
11743 if ((cmdPtr = Jim_GetCommand(interp, argv[2], JIM_ERRMSG)) == NULL)
11744 return JIM_ERR;
11745 if (cmdPtr->cmdProc != NULL) {
11746 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
11747 Jim_AppendStrings(interp, Jim_GetResult(interp),
11748 "command \"", Jim_GetString(argv[2], NULL),
11749 "\" is not a procedure", NULL);
11750 return JIM_ERR;
11751 }
11752 if (cmd == INFO_BODY)
11753 Jim_SetResult(interp, cmdPtr->bodyObjPtr);
11754 else
11755 Jim_SetResult(interp, cmdPtr->argListObjPtr);
11756 } else if (cmd == INFO_VERSION) {
11757 char buf[(JIM_INTEGER_SPACE * 2) + 1];
11758 sprintf(buf, "%d.%d",
11759 JIM_VERSION / 100, JIM_VERSION % 100);
11760 Jim_SetResultString(interp, buf, -1);
11761 } else if (cmd == INFO_COMPLETE) {
11762 const char *s;
11763 int len;
11764
11765 if (argc != 3) {
11766 Jim_WrongNumArgs(interp, 2, argv, "script");
11767 return JIM_ERR;
11768 }
11769 s = Jim_GetString(argv[2], &len);
11770 Jim_SetResult(interp,
11771 Jim_NewIntObj(interp, Jim_ScriptIsComplete(s, len, NULL)));
11772 } else if (cmd == INFO_HOSTNAME) {
11773 /* Redirect to os.hostname if it exists */
11774 Jim_Obj *command = Jim_NewStringObj(interp, "os.gethostname", -1);
11775 result = Jim_EvalObjVector(interp, 1, &command);
11776 }
11777 return result;
11778 }
11779
11780 /* [split] */
11781 static int Jim_SplitCoreCommand(Jim_Interp *interp, int argc,
11782 Jim_Obj *const *argv)
11783 {
11784 const char *str, *splitChars, *noMatchStart;
11785 int splitLen, strLen, i;
11786 Jim_Obj *resObjPtr;
11787
11788 if (argc != 2 && argc != 3) {
11789 Jim_WrongNumArgs(interp, 1, argv, "string ?splitChars?");
11790 return JIM_ERR;
11791 }
11792 /* Init */
11793 if (argc == 2) {
11794 splitChars = " \n\t\r";
11795 splitLen = 4;
11796 } else {
11797 splitChars = Jim_GetString(argv[2], &splitLen);
11798 }
11799 str = Jim_GetString(argv[1], &strLen);
11800 if (!strLen) return JIM_OK;
11801 noMatchStart = str;
11802 resObjPtr = Jim_NewListObj(interp, NULL, 0);
11803 /* Split */
11804 if (splitLen) {
11805 while (strLen) {
11806 for (i = 0; i < splitLen; i++) {
11807 if (*str == splitChars[i]) {
11808 Jim_Obj *objPtr;
11809
11810 objPtr = Jim_NewStringObj(interp, noMatchStart,
11811 (str-noMatchStart));
11812 Jim_ListAppendElement(interp, resObjPtr, objPtr);
11813 noMatchStart = str + 1;
11814 break;
11815 }
11816 }
11817 str ++;
11818 strLen --;
11819 }
11820 Jim_ListAppendElement(interp, resObjPtr,
11821 Jim_NewStringObj(interp, noMatchStart, (str-noMatchStart)));
11822 } else {
11823 /* This handles the special case of splitchars eq {}. This
11824 * is trivial but we want to perform object sharing as Tcl does. */
11825 Jim_Obj *objCache[256];
11826 const unsigned char *u = (unsigned char*) str;
11827 memset(objCache, 0, sizeof(objCache));
11828 for (i = 0; i < strLen; i++) {
11829 int c = u[i];
11830
11831 if (objCache[c] == NULL)
11832 objCache[c] = Jim_NewStringObj(interp, (char*)u + i, 1);
11833 Jim_ListAppendElement(interp, resObjPtr, objCache[c]);
11834 }
11835 }
11836 Jim_SetResult(interp, resObjPtr);
11837 return JIM_OK;
11838 }
11839
11840 /* [join] */
11841 static int Jim_JoinCoreCommand(Jim_Interp *interp, int argc,
11842 Jim_Obj *const *argv)
11843 {
11844 const char *joinStr;
11845 int joinStrLen, i, listLen;
11846 Jim_Obj *resObjPtr;
11847
11848 if (argc != 2 && argc != 3) {
11849 Jim_WrongNumArgs(interp, 1, argv, "list ?joinString?");
11850 return JIM_ERR;
11851 }
11852 /* Init */
11853 if (argc == 2) {
11854 joinStr = " ";
11855 joinStrLen = 1;
11856 } else {
11857 joinStr = Jim_GetString(argv[2], &joinStrLen);
11858 }
11859 Jim_ListLength(interp, argv[1], &listLen);
11860 resObjPtr = Jim_NewStringObj(interp, NULL, 0);
11861 /* Split */
11862 for (i = 0; i < listLen; i++) {
11863 Jim_Obj *objPtr=NULL;
11864
11865 Jim_ListIndex(interp, argv[1], i, &objPtr, JIM_NONE);
11866 Jim_AppendObj(interp, resObjPtr, objPtr);
11867 if (i + 1 != listLen) {
11868 Jim_AppendString(interp, resObjPtr, joinStr, joinStrLen);
11869 }
11870 }
11871 Jim_SetResult(interp, resObjPtr);
11872 return JIM_OK;
11873 }
11874
11875 /* [format] */
11876 static int Jim_FormatCoreCommand(Jim_Interp *interp, int argc,
11877 Jim_Obj *const *argv)
11878 {
11879 Jim_Obj *objPtr;
11880
11881 if (argc < 2) {
11882 Jim_WrongNumArgs(interp, 1, argv, "formatString ?arg arg ...?");
11883 return JIM_ERR;
11884 }
11885 objPtr = Jim_FormatString(interp, argv[1], argc-2, argv + 2);
11886 if (objPtr == NULL)
11887 return JIM_ERR;
11888 Jim_SetResult(interp, objPtr);
11889 return JIM_OK;
11890 }
11891
11892 /* [scan] */
11893 static int Jim_ScanCoreCommand(Jim_Interp *interp, int argc,
11894 Jim_Obj *const *argv)
11895 {
11896 Jim_Obj *listPtr, **outVec;
11897 int outc, i, count = 0;
11898
11899 if (argc < 3) {
11900 Jim_WrongNumArgs(interp, 1, argv, "string formatString ?varName ...?");
11901 return JIM_ERR;
11902 }
11903 if (argv[2]->typePtr != &scanFmtStringObjType)
11904 SetScanFmtFromAny(interp, argv[2]);
11905 if (FormatGetError(argv[2]) != 0) {
11906 Jim_SetResultString(interp, FormatGetError(argv[2]), -1);
11907 return JIM_ERR;
11908 }
11909 if (argc > 3) {
11910 int maxPos = FormatGetMaxPos(argv[2]);
11911 int arg_count = FormatGetCnvCount(argv[2]);
11912 if (maxPos > argc-3) {
11913 Jim_SetResultString(interp, "\"%n$\" argument index out of range", -1);
11914 return JIM_ERR;
11915 } else if (arg_count != 0 && arg_count < argc-3) {
11916 Jim_SetResultString(interp, "variable is not assigned by any "
11917 "conversion specifiers", -1);
11918 return JIM_ERR;
11919 } else if (arg_count > argc-3) {
11920 Jim_SetResultString(interp, "different numbers of variable names and "
11921 "field specifiers", -1);
11922 return JIM_ERR;
11923 }
11924 }
11925 listPtr = Jim_ScanString(interp, argv[1], argv[2], JIM_ERRMSG);
11926 if (listPtr == 0)
11927 return JIM_ERR;
11928 if (argc > 3) {
11929 int len = 0;
11930 if (listPtr != 0 && listPtr != (Jim_Obj*)EOF)
11931 Jim_ListLength(interp, listPtr, &len);
11932 if (listPtr == (Jim_Obj*)EOF || len == 0) { // XXX
11933 Jim_SetResult(interp, Jim_NewIntObj(interp, -1));
11934 return JIM_OK;
11935 }
11936 JimListGetElements(interp, listPtr, &outc, &outVec);
11937 for (i = 0; i < outc; ++i) {
11938 if (Jim_Length(outVec[i]) > 0) {
11939 ++count;
11940 if (Jim_SetVariable(interp, argv[3 + i], outVec[i]) != JIM_OK)
11941 goto err;
11942 }
11943 }
11944 Jim_FreeNewObj(interp, listPtr);
11945 Jim_SetResult(interp, Jim_NewIntObj(interp, count));
11946 } else {
11947 if (listPtr == (Jim_Obj*)EOF) {
11948 Jim_SetResult(interp, Jim_NewListObj(interp, 0, 0));
11949 return JIM_OK;
11950 }
11951 Jim_SetResult(interp, listPtr);
11952 }
11953 return JIM_OK;
11954 err:
11955 Jim_FreeNewObj(interp, listPtr);
11956 return JIM_ERR;
11957 }
11958
11959 /* [error] */
11960 static int Jim_ErrorCoreCommand(Jim_Interp *interp, int argc,
11961 Jim_Obj *const *argv)
11962 {
11963 if (argc != 2) {
11964 Jim_WrongNumArgs(interp, 1, argv, "message");
11965 return JIM_ERR;
11966 }
11967 Jim_SetResult(interp, argv[1]);
11968 return JIM_ERR;
11969 }
11970
11971 /* [lrange] */
11972 static int Jim_LrangeCoreCommand(Jim_Interp *interp, int argc,
11973 Jim_Obj *const *argv)
11974 {
11975 Jim_Obj *objPtr;
11976
11977 if (argc != 4) {
11978 Jim_WrongNumArgs(interp, 1, argv, "list first last");
11979 return JIM_ERR;
11980 }
11981 if ((objPtr = Jim_ListRange(interp, argv[1], argv[2], argv[3])) == NULL)
11982 return JIM_ERR;
11983 Jim_SetResult(interp, objPtr);
11984 return JIM_OK;
11985 }
11986
11987 /* [env] */
11988 static int Jim_EnvCoreCommand(Jim_Interp *interp, int argc,
11989 Jim_Obj *const *argv)
11990 {
11991 const char *key;
11992 char *val;
11993
11994 if (argc == 1) {
11995
11996 #ifdef NEED_ENVIRON_EXTERN
11997 extern char **environ;
11998 #endif
11999
12000 int i;
12001 Jim_Obj *listObjPtr = Jim_NewListObj(interp, NULL, 0);
12002
12003 for (i = 0; environ[i]; i++) {
12004 const char *equals = strchr(environ[i], '=');
12005 if (equals) {
12006 Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp, environ[i], equals - environ[i]));
12007 Jim_ListAppendElement(interp, listObjPtr, Jim_NewStringObj(interp, equals + 1, -1));
12008 }
12009 }
12010
12011 Jim_SetResult(interp, listObjPtr);
12012 return JIM_OK;
12013 }
12014
12015 if (argc != 2) {
12016 Jim_WrongNumArgs(interp, 1, argv, "varName");
12017 return JIM_ERR;
12018 }
12019 key = Jim_GetString(argv[1], NULL);
12020 val = getenv(key);
12021 if (val == NULL) {
12022 Jim_SetResult(interp, Jim_NewEmptyStringObj(interp));
12023 Jim_AppendStrings(interp, Jim_GetResult(interp),
12024 "environment variable \"",
12025 key, "\" does not exist", NULL);
12026 return JIM_ERR;
12027 }
12028 Jim_SetResult(interp, Jim_NewStringObj(interp, val, -1));
12029 return JIM_OK;
12030 }
12031
12032 /* [source] */
12033 static int Jim_SourceCoreCommand(Jim_Interp *interp, int argc,
12034 Jim_Obj *const *argv)
12035 {
12036 int retval;
12037
12038 if (argc != 2) {
12039 Jim_WrongNumArgs(interp, 1, argv, "fileName");
12040 return JIM_ERR;
12041 }
12042 retval = Jim_EvalFile(interp, Jim_GetString(argv[1], NULL));
12043 if (retval == JIM_ERR) {
12044 return JIM_ERR_ADDSTACK;
12045 }
12046 if (retval == JIM_RETURN)
12047 return JIM_OK;
12048 return retval;
12049 }
12050
12051 /* [lreverse] */
12052 static int Jim_LreverseCoreCommand(Jim_Interp *interp, int argc,
12053 Jim_Obj *const *argv)
12054 {
12055 Jim_Obj *revObjPtr, **ele;
12056 int len;
12057
12058 if (argc != 2) {
12059 Jim_WrongNumArgs(interp, 1, argv, "list");
12060 return JIM_ERR;
12061 }
12062 JimListGetElements(interp, argv[1], &len, &ele);
12063 len--;
12064 revObjPtr = Jim_NewListObj(interp, NULL, 0);
12065 while (len >= 0)
12066 ListAppendElement(revObjPtr, ele[len--]);
12067 Jim_SetResult(interp, revObjPtr);
12068 return JIM_OK;
12069 }
12070
12071 static int JimRangeLen(jim_wide start, jim_wide end, jim_wide step)
12072 {
12073 jim_wide len;
12074
12075 if (step == 0) return -1;
12076 if (start == end) return 0;
12077 else if (step > 0 && start > end) return -1;
12078 else if (step < 0 && end > start) return -1;
12079 len = end-start;
12080 if (len < 0) len = -len; /* abs(len) */
12081 if (step < 0) step = -step; /* abs(step) */
12082 len = 1 + ((len-1)/step);
12083 /* We can truncate safely to INT_MAX, the range command
12084 * will always return an error for a such long range
12085 * because Tcl lists can't be so long. */
12086 if (len > INT_MAX) len = INT_MAX;
12087 return (int)((len < 0) ? -1 : len);
12088 }
12089
12090 /* [range] */
12091 static int Jim_RangeCoreCommand(Jim_Interp *interp, int argc,
12092 Jim_Obj *const *argv)
12093 {
12094 jim_wide start = 0, end, step = 1;
12095 int len, i;
12096 Jim_Obj *objPtr;
12097
12098 if (argc < 2 || argc > 4) {
12099 Jim_WrongNumArgs(interp, 1, argv, "?start? end ?step?");
12100 return JIM_ERR;
12101 }
12102 if (argc == 2) {
12103 if (Jim_GetWide(interp, argv[1], &end) != JIM_OK)
12104 return JIM_ERR;
12105 } else {
12106 if (Jim_GetWide(interp, argv[1], &start) != JIM_OK ||
12107 Jim_GetWide(interp, argv[2], &end) != JIM_OK)
12108 return JIM_ERR;
12109 if (argc == 4 && Jim_GetWide(interp, argv[3], &step) != JIM_OK)
12110 return JIM_ERR;
12111 }
12112 if ((len = JimRangeLen(start, end, step)) == -1) {
12113 Jim_SetResultString(interp, "Invalid (infinite?) range specified", -1);
12114 return JIM_ERR;
12115 }
12116 objPtr = Jim_NewListObj(interp, NULL, 0);
12117 for (i = 0; i < len; i++)
12118 ListAppendElement(objPtr, Jim_NewIntObj(interp, start + i*step));
12119 Jim_SetResult(interp, objPtr);
12120 return JIM_OK;
12121 }
12122
12123 /* [rand] */
12124 static int Jim_RandCoreCommand(Jim_Interp *interp, int argc,
12125 Jim_Obj *const *argv)
12126 {
12127 jim_wide min = 0, max =0, len, maxMul;
12128
12129 if (argc < 1 || argc > 3) {
12130 Jim_WrongNumArgs(interp, 1, argv, "?min? max");
12131 return JIM_ERR;
12132 }
12133 if (argc == 1) {
12134 max = JIM_WIDE_MAX;
12135 } else if (argc == 2) {
12136 if (Jim_GetWide(interp, argv[1], &max) != JIM_OK)
12137 return JIM_ERR;
12138 } else if (argc == 3) {
12139 if (Jim_GetWide(interp, argv[1], &min) != JIM_OK ||
12140 Jim_GetWide(interp, argv[2], &max) != JIM_OK)
12141 return JIM_ERR;
12142 }
12143 len = max-min;
12144 if (len < 0) {
12145 Jim_SetResultString(interp, "Invalid arguments (max < min)", -1);
12146 return JIM_ERR;
12147 }
12148 maxMul = JIM_WIDE_MAX - (len ? (JIM_WIDE_MAX%len) : 0);
12149 while (1) {
12150 jim_wide r;
12151
12152 JimRandomBytes(interp, &r, sizeof(jim_wide));
12153 if (r < 0 || r >= maxMul) continue;
12154 r = (len == 0) ? 0 : r%len;
12155 Jim_SetResult(interp, Jim_NewIntObj(interp, min + r));
12156 return JIM_OK;
12157 }
12158 }
12159
12160 /* [package] */
12161 static int Jim_PackageCoreCommand(Jim_Interp *interp, int argc,
12162 Jim_Obj *const *argv)
12163 {
12164 int option;
12165 const char *options[] = {
12166 "require", "provide", NULL
12167 };
12168 enum {OPT_REQUIRE, OPT_PROVIDE};
12169
12170 if (argc < 2) {
12171 Jim_WrongNumArgs(interp, 1, argv, "option ?arguments ...?");
12172 return JIM_ERR;
12173 }
12174 if (Jim_GetEnum(interp, argv[1], options, &option, "option",
12175 JIM_ERRMSG) != JIM_OK)
12176 return JIM_ERR;
12177
12178 if (option == OPT_REQUIRE) {
12179 int exact = 0;
12180 const char *ver;
12181
12182 if (Jim_CompareStringImmediate(interp, argv[2], "-exact")) {
12183 exact = 1;
12184 argv++;
12185 argc--;
12186 }
12187 if (argc != 3 && argc != 4) {
12188 Jim_WrongNumArgs(interp, 2, argv, "?-exact? package ?version?");
12189 return JIM_ERR;
12190 }
12191 ver = Jim_PackageRequire(interp, Jim_GetString(argv[2], NULL),
12192 argc == 4 ? Jim_GetString(argv[3], NULL) : "",
12193 JIM_ERRMSG);
12194 if (ver == NULL)
12195 return JIM_ERR_ADDSTACK;
12196 Jim_SetResultString(interp, ver, -1);
12197 } else if (option == OPT_PROVIDE) {
12198 if (argc != 4) {
12199 Jim_WrongNumArgs(interp, 2, argv, "package version");
12200 return JIM_ERR;
12201 }
12202 return Jim_PackageProvide(interp, Jim_GetString(argv[2], NULL),
12203 Jim_GetString(argv[3], NULL), JIM_ERRMSG);
12204 }
12205 return JIM_OK;
12206 }
12207
12208 static struct {
12209 const char *name;
12210 Jim_CmdProc cmdProc;
12211 } Jim_CoreCommandsTable[] = {
12212 {"set", Jim_SetCoreCommand},
12213 {"unset", Jim_UnsetCoreCommand},
12214 {"puts", Jim_PutsCoreCommand},
12215 {"+", Jim_AddCoreCommand},
12216 {"*", Jim_MulCoreCommand},
12217 {"-", Jim_SubCoreCommand},
12218 {"/", Jim_DivCoreCommand},
12219 {"incr", Jim_IncrCoreCommand},
12220 {"while", Jim_WhileCoreCommand},
12221 {"for", Jim_ForCoreCommand},
12222 {"foreach", Jim_ForeachCoreCommand},
12223 {"lmap", Jim_LmapCoreCommand},
12224 {"if", Jim_IfCoreCommand},
12225 {"switch", Jim_SwitchCoreCommand},
12226 {"list", Jim_ListCoreCommand},
12227 {"lindex", Jim_LindexCoreCommand},
12228 {"lset", Jim_LsetCoreCommand},
12229 {"llength", Jim_LlengthCoreCommand},
12230 {"lappend", Jim_LappendCoreCommand},
12231 {"linsert", Jim_LinsertCoreCommand},
12232 {"lsort", Jim_LsortCoreCommand},
12233 {"append", Jim_AppendCoreCommand},
12234 {"debug", Jim_DebugCoreCommand},
12235 {"eval", Jim_EvalCoreCommand},
12236 {"uplevel", Jim_UplevelCoreCommand},
12237 {"expr", Jim_ExprCoreCommand},
12238 {"break", Jim_BreakCoreCommand},
12239 {"continue", Jim_ContinueCoreCommand},
12240 {"proc", Jim_ProcCoreCommand},
12241 {"concat", Jim_ConcatCoreCommand},
12242 {"return", Jim_ReturnCoreCommand},
12243 {"upvar", Jim_UpvarCoreCommand},
12244 {"global", Jim_GlobalCoreCommand},
12245 {"string", Jim_StringCoreCommand},
12246 {"time", Jim_TimeCoreCommand},
12247 {"exit", Jim_ExitCoreCommand},
12248 {"catch", Jim_CatchCoreCommand},
12249 {"ref", Jim_RefCoreCommand},
12250 {"getref", Jim_GetrefCoreCommand},
12251 {"setref", Jim_SetrefCoreCommand},
12252 {"finalize", Jim_FinalizeCoreCommand},
12253 {"collect", Jim_CollectCoreCommand},
12254 {"rename", Jim_RenameCoreCommand},
12255 {"dict", Jim_DictCoreCommand},
12256 {"load", Jim_LoadCoreCommand},
12257 {"subst", Jim_SubstCoreCommand},
12258 {"info", Jim_InfoCoreCommand},
12259 {"split", Jim_SplitCoreCommand},
12260 {"join", Jim_JoinCoreCommand},
12261 {"format", Jim_FormatCoreCommand},
12262 {"scan", Jim_ScanCoreCommand},
12263 {"error", Jim_ErrorCoreCommand},
12264 {"lrange", Jim_LrangeCoreCommand},
12265 {"env", Jim_EnvCoreCommand},
12266 {"source", Jim_SourceCoreCommand},
12267 {"lreverse", Jim_LreverseCoreCommand},
12268 {"range", Jim_RangeCoreCommand},
12269 {"rand", Jim_RandCoreCommand},
12270 {"package", Jim_PackageCoreCommand},
12271 {"tailcall", Jim_TailcallCoreCommand},
12272 {NULL, NULL},
12273 };
12274
12275 /* Some Jim core command is actually a procedure written in Jim itself. */
12276 static void Jim_RegisterCoreProcedures(Jim_Interp *interp)
12277 {
12278 Jim_Eval(interp, (char*)
12279 "proc lambda {arglist args} {\n"
12280 " set name [ref {} function lambdaFinalizer]\n"
12281 " uplevel 1 [list proc $name $arglist {expand}$args]\n"
12282 " return $name\n"
12283 "}\n"
12284 "proc lambdaFinalizer {name val} {\n"
12285 " rename $name {}\n"
12286 "}\n"
12287 );
12288 }
12289
12290 void Jim_RegisterCoreCommands(Jim_Interp *interp)
12291 {
12292 int i = 0;
12293
12294 while (Jim_CoreCommandsTable[i].name != NULL) {
12295 Jim_CreateCommand(interp,
12296 Jim_CoreCommandsTable[i].name,
12297 Jim_CoreCommandsTable[i].cmdProc,
12298 NULL, NULL);
12299 i++;
12300 }
12301 Jim_RegisterCoreProcedures(interp);
12302 }
12303
12304 /* -----------------------------------------------------------------------------
12305 * Interactive prompt
12306 * ---------------------------------------------------------------------------*/
12307 void Jim_PrintErrorMessage(Jim_Interp *interp)
12308 {
12309 int len, i;
12310
12311 if (*interp->errorFileName) {
12312 Jim_fprintf(interp, interp->cookie_stderr, "Runtime error, file \"%s\", line %d:" JIM_NL " ",
12313 interp->errorFileName, interp->errorLine);
12314 }
12315 Jim_fprintf(interp,interp->cookie_stderr, "%s" JIM_NL,
12316 Jim_GetString(interp->result, NULL));
12317 Jim_ListLength(interp, interp->stackTrace, &len);
12318 for (i = len-3; i >= 0; i-= 3) {
12319 Jim_Obj *objPtr=NULL;
12320 const char *proc, *file, *line;
12321
12322 Jim_ListIndex(interp, interp->stackTrace, i, &objPtr, JIM_NONE);
12323 proc = Jim_GetString(objPtr, NULL);
12324 Jim_ListIndex(interp, interp->stackTrace, i + 1, &objPtr,
12325 JIM_NONE);
12326 file = Jim_GetString(objPtr, NULL);
12327 Jim_ListIndex(interp, interp->stackTrace, i + 2, &objPtr,
12328 JIM_NONE);
12329 line = Jim_GetString(objPtr, NULL);
12330 if (*proc) {
12331 Jim_fprintf(interp, interp->cookie_stderr,
12332 "in procedure '%s' ", proc);
12333 }
12334 if (*file) {
12335 Jim_fprintf(interp, interp->cookie_stderr,
12336 "called at file \"%s\", line %s",
12337 file, line);
12338 }
12339 if (*file || *proc) {
12340 Jim_fprintf(interp, interp->cookie_stderr, JIM_NL);
12341 }
12342 }
12343 }
12344
12345 int Jim_InteractivePrompt(Jim_Interp *interp)
12346 {
12347 int retcode = JIM_OK;
12348 Jim_Obj *scriptObjPtr;
12349
12350 Jim_fprintf(interp,interp->cookie_stdout, "Welcome to Jim version %d.%d, "
12351 "Copyright (c) 2005-8 Salvatore Sanfilippo" JIM_NL,
12352 JIM_VERSION / 100, JIM_VERSION % 100);
12353 Jim_SetVariableStrWithStr(interp, "jim_interactive", "1");
12354 while (1) {
12355 char buf[1024];
12356 const char *result;
12357 const char *retcodestr[] = {
12358 "ok", "error", "return", "break", "continue", "eval", "exit"
12359 };
12360 int reslen;
12361
12362 if (retcode != 0) {
12363 if (retcode >= 2 && retcode <= 6)
12364 Jim_fprintf(interp,interp->cookie_stdout, "[%s] . ", retcodestr[retcode]);
12365 else
12366 Jim_fprintf(interp,interp->cookie_stdout, "[%d] . ", retcode);
12367 } else
12368 Jim_fprintf(interp, interp->cookie_stdout, ". ");
12369 Jim_fflush(interp, interp->cookie_stdout);
12370 scriptObjPtr = Jim_NewStringObj(interp, "", 0);
12371 Jim_IncrRefCount(scriptObjPtr);
12372 while (1) {
12373 const char *str;
12374 char state;
12375 int len;
12376
12377 if (Jim_fgets(interp, buf, 1024, interp->cookie_stdin) == NULL) {
12378 Jim_DecrRefCount(interp, scriptObjPtr);
12379 goto out;
12380 }
12381 Jim_AppendString(interp, scriptObjPtr, buf, -1);
12382 str = Jim_GetString(scriptObjPtr, &len);
12383 if (Jim_ScriptIsComplete(str, len, &state))
12384 break;
12385 Jim_fprintf(interp, interp->cookie_stdout, "%c> ", state);
12386 Jim_fflush(interp, interp->cookie_stdout);
12387 }
12388 retcode = Jim_EvalObj(interp, scriptObjPtr);
12389 Jim_DecrRefCount(interp, scriptObjPtr);
12390 result = Jim_GetString(Jim_GetResult(interp), &reslen);
12391 if (retcode == JIM_ERR) {
12392 Jim_PrintErrorMessage(interp);
12393 } else if (retcode == JIM_EXIT) {
12394 exit(Jim_GetExitCode(interp));
12395 } else {
12396 if (reslen) {
12397 Jim_fwrite(interp, result, 1, reslen, interp->cookie_stdout);
12398 Jim_fprintf(interp,interp->cookie_stdout, JIM_NL);
12399 }
12400 }
12401 }
12402 out:
12403 return 0;
12404 }
12405
12406 /* -----------------------------------------------------------------------------
12407 * Jim's idea of STDIO..
12408 * ---------------------------------------------------------------------------*/
12409
12410 int Jim_fprintf(Jim_Interp *interp, void *cookie, const char *fmt, ...)
12411 {
12412 int r;
12413
12414 va_list ap;
12415 va_start(ap,fmt);
12416 r = Jim_vfprintf(interp, cookie, fmt,ap);
12417 va_end(ap);
12418 return r;
12419 }
12420
12421 int Jim_vfprintf(Jim_Interp *interp, void *cookie, const char *fmt, va_list ap)
12422 {
12423 if ((interp == NULL) || (interp->cb_vfprintf == NULL)) {
12424 errno = ENOTSUP;
12425 return -1;
12426 }
12427 return (*(interp->cb_vfprintf))(cookie, fmt, ap);
12428 }
12429
12430 size_t Jim_fwrite(Jim_Interp *interp, const void *ptr, size_t size, size_t n, void *cookie)
12431 {
12432 if ((interp == NULL) || (interp->cb_fwrite == NULL)) {
12433 errno = ENOTSUP;
12434 return 0;
12435 }
12436 return (*(interp->cb_fwrite))(ptr, size, n, cookie);
12437 }
12438
12439 size_t Jim_fread(Jim_Interp *interp, void *ptr, size_t size, size_t n, void *cookie)
12440 {
12441 if ((interp == NULL) || (interp->cb_fread == NULL)) {
12442 errno = ENOTSUP;
12443 return 0;
12444 }
12445 return (*(interp->cb_fread))(ptr, size, n, cookie);
12446 }
12447
12448 int Jim_fflush(Jim_Interp *interp, void *cookie)
12449 {
12450 if ((interp == NULL) || (interp->cb_fflush == NULL)) {
12451 /* pretend all is well */
12452 return 0;
12453 }
12454 return (*(interp->cb_fflush))(cookie);
12455 }
12456
12457 char* Jim_fgets(Jim_Interp *interp, char *s, int size, void *cookie)
12458 {
12459 if ((interp == NULL) || (interp->cb_fgets == NULL)) {
12460 errno = ENOTSUP;
12461 return NULL;
12462 }
12463 return (*(interp->cb_fgets))(s, size, cookie);
12464 }
12465 Jim_Nvp *
12466 Jim_Nvp_name2value_simple(const Jim_Nvp *p, const char *name)
12467 {
12468 while (p->name) {
12469 if (0 == strcmp(name, p->name)) {
12470 break;
12471 }
12472 p++;
12473 }
12474 return ((Jim_Nvp *)(p));
12475 }
12476
12477 Jim_Nvp *
12478 Jim_Nvp_name2value_nocase_simple(const Jim_Nvp *p, const char *name)
12479 {
12480 while (p->name) {
12481 if (0 == strcasecmp(name, p->name)) {
12482 break;
12483 }
12484 p++;
12485 }
12486 return ((Jim_Nvp *)(p));
12487 }
12488
12489 int
12490 Jim_Nvp_name2value_obj(Jim_Interp *interp,
12491 const Jim_Nvp *p,
12492 Jim_Obj *o,
12493 Jim_Nvp **result)
12494 {
12495 return Jim_Nvp_name2value(interp, p, Jim_GetString(o, NULL), result);
12496 }
12497
12498
12499 int
12500 Jim_Nvp_name2value(Jim_Interp *interp,
12501 const Jim_Nvp *_p,
12502 const char *name,
12503 Jim_Nvp **result)
12504 {
12505 const Jim_Nvp *p;
12506
12507 p = Jim_Nvp_name2value_simple(_p, name);
12508
12509 /* result */
12510 if (result) {
12511 *result = (Jim_Nvp *)(p);
12512 }
12513
12514 /* found? */
12515 if (p->name) {
12516 return JIM_OK;
12517 } else {
12518 return JIM_ERR;
12519 }
12520 }
12521
12522 int
12523 Jim_Nvp_name2value_obj_nocase(Jim_Interp *interp, const Jim_Nvp *p, Jim_Obj *o, Jim_Nvp **puthere)
12524 {
12525 return Jim_Nvp_name2value_nocase(interp, p, Jim_GetString(o, NULL), puthere);
12526 }
12527
12528 int
12529 Jim_Nvp_name2value_nocase(Jim_Interp *interp, const Jim_Nvp *_p, const char *name, Jim_Nvp **puthere)
12530 {
12531 const Jim_Nvp *p;
12532
12533 p = Jim_Nvp_name2value_nocase_simple(_p, name);
12534
12535 if (puthere) {
12536 *puthere = (Jim_Nvp *)(p);
12537 }
12538 /* found */
12539 if (p->name) {
12540 return JIM_OK;
12541 } else {
12542 return JIM_ERR;
12543 }
12544 }
12545
12546
12547 int
12548 Jim_Nvp_value2name_obj(Jim_Interp *interp, const Jim_Nvp *p, Jim_Obj *o, Jim_Nvp **result)
12549 {
12550 int e;;
12551 jim_wide w;
12552
12553 e = Jim_GetWide(interp, o, &w);
12554 if (e != JIM_OK) {
12555 return e;
12556 }
12557
12558 return Jim_Nvp_value2name(interp, p, w, result);
12559 }
12560
12561 Jim_Nvp *
12562 Jim_Nvp_value2name_simple(const Jim_Nvp *p, int value)
12563 {
12564 while (p->name) {
12565 if (value == p->value) {
12566 break;
12567 }
12568 p++;
12569 }
12570 return ((Jim_Nvp *)(p));
12571 }
12572
12573
12574 int
12575 Jim_Nvp_value2name(Jim_Interp *interp, const Jim_Nvp *_p, int value, Jim_Nvp **result)
12576 {
12577 const Jim_Nvp *p;
12578
12579 p = Jim_Nvp_value2name_simple(_p, value);
12580
12581 if (result) {
12582 *result = (Jim_Nvp *)(p);
12583 }
12584
12585 if (p->name) {
12586 return JIM_OK;
12587 } else {
12588 return JIM_ERR;
12589 }
12590 }
12591
12592
12593 int
12594 Jim_GetOpt_Setup(Jim_GetOptInfo *p, Jim_Interp *interp, int argc, Jim_Obj * const * argv)
12595 {
12596 memset(p, 0, sizeof(*p));
12597 p->interp = interp;
12598 p->argc = argc;
12599 p->argv = argv;
12600
12601 return JIM_OK;
12602 }
12603
12604 void
12605 Jim_GetOpt_Debug(Jim_GetOptInfo *p)
12606 {
12607 int x;
12608
12609 Jim_fprintf(p->interp, p->interp->cookie_stderr, "---args---\n");
12610 for (x = 0 ; x < p->argc ; x++) {
12611 Jim_fprintf(p->interp, p->interp->cookie_stderr,
12612 "%2d) %s\n",
12613 x,
12614 Jim_GetString(p->argv[x], NULL));
12615 }
12616 Jim_fprintf(p->interp, p->interp->cookie_stderr, "-------\n");
12617 }
12618
12619
12620 int
12621 Jim_GetOpt_Obj(Jim_GetOptInfo *goi, Jim_Obj **puthere)
12622 {
12623 Jim_Obj *o;
12624
12625 o = NULL; // failure
12626 if (goi->argc) {
12627 // success
12628 o = goi->argv[0];
12629 goi->argc -= 1;
12630 goi->argv += 1;
12631 }
12632 if (puthere) {
12633 *puthere = o;
12634 }
12635 if (o != NULL) {
12636 return JIM_OK;
12637 } else {
12638 return JIM_ERR;
12639 }
12640 }
12641
12642 int
12643 Jim_GetOpt_String(Jim_GetOptInfo *goi, char **puthere, int *len)
12644 {
12645 int r;
12646 Jim_Obj *o;
12647 const char *cp;
12648
12649
12650 r = Jim_GetOpt_Obj(goi, &o);
12651 if (r == JIM_OK) {
12652 cp = Jim_GetString(o, len);
12653 if (puthere) {
12654 /* remove const */
12655 *puthere = (char *)(cp);
12656 }
12657 }
12658 return r;
12659 }
12660
12661 int
12662 Jim_GetOpt_Double(Jim_GetOptInfo *goi, double *puthere)
12663 {
12664 int r;
12665 Jim_Obj *o;
12666 double _safe;
12667
12668 if (puthere == NULL) {
12669 puthere = &_safe;
12670 }
12671
12672 r = Jim_GetOpt_Obj(goi, &o);
12673 if (r == JIM_OK) {
12674 r = Jim_GetDouble(goi->interp, o, puthere);
12675 if (r != JIM_OK) {
12676 Jim_SetResult_sprintf(goi->interp,
12677 "not a number: %s",
12678 Jim_GetString(o, NULL));
12679 }
12680 }
12681 return r;
12682 }
12683
12684 int
12685 Jim_GetOpt_Wide(Jim_GetOptInfo *goi, jim_wide *puthere)
12686 {
12687 int r;
12688 Jim_Obj *o;
12689 jim_wide _safe;
12690
12691 if (puthere == NULL) {
12692 puthere = &_safe;
12693 }
12694
12695 r = Jim_GetOpt_Obj(goi, &o);
12696 if (r == JIM_OK) {
12697 r = Jim_GetWide(goi->interp, o, puthere);
12698 }
12699 return r;
12700 }
12701
12702 int Jim_GetOpt_Nvp(Jim_GetOptInfo *goi,
12703 const Jim_Nvp *nvp,
12704 Jim_Nvp **puthere)
12705 {
12706 Jim_Nvp *_safe;
12707 Jim_Obj *o;
12708 int e;
12709
12710 if (puthere == NULL) {
12711 puthere = &_safe;
12712 }
12713
12714 e = Jim_GetOpt_Obj(goi, &o);
12715 if (e == JIM_OK) {
12716 e = Jim_Nvp_name2value_obj(goi->interp,
12717 nvp,
12718 o,
12719 puthere);
12720 }
12721
12722 return e;
12723 }
12724
12725 void
12726 Jim_GetOpt_NvpUnknown(Jim_GetOptInfo *goi,
12727 const Jim_Nvp *nvptable,
12728 int hadprefix)
12729 {
12730 if (hadprefix) {
12731 Jim_SetResult_NvpUnknown(goi->interp,
12732 goi->argv[-2],
12733 goi->argv[-1],
12734 nvptable);
12735 } else {
12736 Jim_SetResult_NvpUnknown(goi->interp,
12737 NULL,
12738 goi->argv[-1],
12739 nvptable);
12740 }
12741 }
12742
12743
12744 int
12745 Jim_GetOpt_Enum(Jim_GetOptInfo *goi,
12746 const char * const * lookup,
12747 int *puthere)
12748 {
12749 int _safe;
12750 Jim_Obj *o;
12751 int e;
12752
12753 if (puthere == NULL) {
12754 puthere = &_safe;
12755 }
12756 e = Jim_GetOpt_Obj(goi, &o);
12757 if (e == JIM_OK) {
12758 e = Jim_GetEnum(goi->interp,
12759 o,
12760 lookup,
12761 puthere,
12762 "option",
12763 JIM_ERRMSG);
12764 }
12765 return e;
12766 }
12767
12768
12769
12770 int
12771 Jim_SetResult_sprintf(Jim_Interp *interp, const char *fmt,...)
12772 {
12773 va_list ap;
12774 char *buf;
12775
12776 va_start(ap,fmt);
12777 buf = jim_vasprintf(fmt, ap);
12778 va_end(ap);
12779 if (buf) {
12780 Jim_SetResultString(interp, buf, -1);
12781 jim_vasprintf_done(buf);
12782 }
12783 return JIM_OK;
12784 }
12785
12786
12787 void
12788 Jim_SetResult_NvpUnknown(Jim_Interp *interp,
12789 Jim_Obj *param_name,
12790 Jim_Obj *param_value,
12791 const Jim_Nvp *nvp)
12792 {
12793 if (param_name) {
12794 Jim_SetResult_sprintf(interp,
12795 "%s: Unknown: %s, try one of: ",
12796 Jim_GetString(param_name, NULL),
12797 Jim_GetString(param_value, NULL));
12798 } else {
12799 Jim_SetResult_sprintf(interp,
12800 "Unknown param: %s, try one of: ",
12801 Jim_GetString(param_value, NULL));
12802 }
12803 while (nvp->name) {
12804 const char *a;
12805 const char *b;
12806
12807 if ((nvp + 1)->name) {
12808 a = nvp->name;
12809 b = ", ";
12810 } else {
12811 a = "or ";
12812 b = nvp->name;
12813 }
12814 Jim_AppendStrings(interp,
12815 Jim_GetResult(interp),
12816 a, b, NULL);
12817 nvp++;
12818 }
12819 }
12820
12821
12822 static Jim_Obj *debug_string_obj;
12823
12824 const char *
12825 Jim_Debug_ArgvString(Jim_Interp *interp, int argc, Jim_Obj *const *argv)
12826 {
12827 int x;
12828
12829 if (debug_string_obj) {
12830 Jim_FreeObj(interp, debug_string_obj);
12831 }
12832
12833 debug_string_obj = Jim_NewEmptyStringObj(interp);
12834 for (x = 0 ; x < argc ; x++) {
12835 Jim_AppendStrings(interp,
12836 debug_string_obj,
12837 Jim_GetString(argv[x], NULL),
12838 " ",
12839 NULL);
12840 }
12841
12842 return Jim_GetString(debug_string_obj, NULL);
12843 }
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