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1 /******************************************************************************
2 * Name: src/palmos/stdall.c
3 * Purpose: the missing functions of Palm OS for wxPalm
4 * Author: Yunhui Fu
5 * Created: 2007-10-18
6 * Modified by:
7 * RCS-ID: $Id$
8 * Copyright: (c) 2007 Yunhui Fu
9 * Licence: wxWindows licence
10 ******************************************************************************/
11
12 #include <Preferences.h> // Core/System/
13 #include <DateTime.h> //Core/System/, DateToAscii() etc.
14 #include <TimeMgr.h> //Core/System/, TimGetTicks()
15
16 #include "wx/defs.h"
17 #define PALMOS_TRACE(msg) ErrFatalErrorInContext(__FILE__, __LINE__, msg)
18
19 #if __WXPALMOS6__
20
21 #ifdef TARGET_PLATFORM
22 #if TARGET_PLATFORM != TARGET_PLATFORM_PALMSIM_WIN32
23 void
24 exit (int exitno)
25 {
26 }
27 #endif
28 #endif
29
30 #else
31
32 #define SEC_1904_1970 2082844800LU//0x7C25B080 // 0x7C25B080 == 2082844800LU
33
34 time_t
35 time (time_t *T)
36 {
37 UInt32 sec;
38 // UInt32 TimGetSeconds(void); // seconds since 1/1/1904
39 // void TimSetSeconds (UInt32 seconds); // seconds since 1/1/1904
40 // UInt32 TimGetTicks(void); // ticks since power on
41 sec = TimGetSeconds ();
42 if (T) {
43 *T = sec - SEC_1904_1970;
44 }
45 return (sec - SEC_1904_1970);
46 }
47
48 static struct tm *
49 palmtimet2unixtm (const time_t t, struct tm *ptm)
50 {
51 DateTimeType dt;
52 memset (&dt, 0, sizeof (dt));
53 memset (ptm, 0, sizeof (*ptm));
54 TimSecondsToDateTime (t, &dt);
55 ptm->tm_sec = dt.second;
56 ptm->tm_min = dt.minute;
57 ptm->tm_hour = dt.hour;
58 ptm->tm_mday = dt.day;
59 ptm->tm_mon = dt.month;
60 ptm->tm_year = dt.year;
61 ptm->tm_wday = dt.weekDay;
62
63 //ptm->tm_wday = DayOfWeek (dt.month, dt.day, dt.year);
64 //ptm->tm_mday = DayOfMonth (dt.month, dt.day, dt.year);
65 return ptm;
66 }
67
68 struct tm *
69 gmtime_r (const time_t *pt, struct tm *ptm)
70 {
71 UInt32 utcTime;
72 Int16 timeZone = PrefGetPreference(prefTimeZone);
73 Int16 daylightSavingAdjustment = PrefGetPreference(prefDaylightSavingAdjustment);
74
75 if ((NULL == pt) || (NULL == ptm)) {
76 return NULL;
77 }
78 utcTime = TimTimeZoneToUTC (*pt + SEC_1904_1970, timeZone, daylightSavingAdjustment);
79 palmtimet2unixtm (utcTime, ptm);
80 return ptm;
81 }
82
83 struct tm *
84 localtime_r (const time_t *pt, struct tm *ptm)
85 {
86 UInt32 utcTime;
87 Int16 timeZone = PrefGetPreference(prefTimeZone);
88 Int16 daylightSavingAdjustment = PrefGetPreference(prefDaylightSavingAdjustment);
89 if ((NULL == pt) || (NULL == ptm)) {
90 return NULL;
91 }
92 utcTime = TimUTCToTimeZone (*pt + SEC_1904_1970, timeZone, daylightSavingAdjustment);
93 palmtimet2unixtm (utcTime, ptm);
94 return ptm;
95 }
96 /*
97 static struct tm g_gmtime_info;
98
99 struct tm *
100 gmtime (const time_t *CLOCK)
101 {
102 if (NULL == CLOCK) {
103 return NULL;
104 }
105 if (NULL == gmtime_r (CLOCK, &g_gmtime_info)) {
106 return NULL;
107 }
108 return &g_gmtime_info;
109 }
110 */
111 static struct tm g_localtime_info;
112
113 struct tm *
114 localtime (const time_t *CLOCK)
115 {
116 if (NULL == CLOCK) {
117 return NULL;
118 }
119 if (NULL == localtime_r (CLOCK, &g_localtime_info)) {
120 return NULL;
121 }
122 return &g_localtime_info;
123 }
124
125 static char * g_strftime_wdayconv[][2] = {
126 {"Sun", "Sunday"},
127 {"Mon", "Monday"},
128 {"Tue", "Tuesday"},
129 {"Wed", "Wednesday"},
130 {"Thu", "Thursday"},
131 {"Fri", "Friday"},
132 {"Sat", "Saturday"},
133 };
134
135 static char * g_strftime_monconv[][2] = {
136 {"Jan", "January"},
137 {"Feb", "Febuary"},
138 {"Mar", "March"},
139 {"Apr", "April"},
140 {"May", "May"},
141 {"Jun", "June"},
142 {"Jul", "July"},
143 {"Aug", "August"},
144 {"Sep", "September"},
145 {"Oct", "October"},
146 {"Nov", "November"},
147 {"Dec", "December"},
148 };
149 #define SFCONV_ABBR 0
150 #define SFCONV_FULL 1
151
152 size_t
153 strftime (char *buf, size_t sz_buf, const char *fmt, const struct tm *ptm)
154 {
155 char *p;
156 char *pret;
157 if ((timeStringLength > sz_buf) || (strlen (fmt) < 1)) {
158 return 0;
159 }
160 memset (buf, 0, sz_buf);
161 p = fmt;
162 pret = buf;
163 for (; *p != '\0';) {
164 if ('%' == *p) {
165 p ++;
166 if (*p == '\0') {
167 break;
168 }
169 // FIXME: test the overflow of the buffer
170 switch (*p) {
171 case 'a':
172 strcpy (pret, g_strftime_wdayconv[ptm->tm_wday % 7][SFCONV_ABBR]);
173 pret += 3;
174 break;
175 case 'A':
176 strcpy (pret, g_strftime_wdayconv[ptm->tm_wday % 7][SFCONV_FULL]);
177 pret += strlen (g_strftime_wdayconv[ptm->tm_wday % 7][SFCONV_FULL]);
178 break;
179 case 'b':
180 strcpy (pret, g_strftime_monconv[ptm->tm_mon % 12][SFCONV_ABBR]);
181 pret += 3;
182 break;
183 case 'B':
184 strcpy (pret, g_strftime_monconv[ptm->tm_mon % 12][SFCONV_FULL]);
185 pret += strlen (g_strftime_monconv[ptm->tm_mon % 12][SFCONV_FULL]);
186 break;
187 case 'c':
188 strcpy (pret, g_strftime_wdayconv[ptm->tm_wday % 7][SFCONV_ABBR]);
189 pret += 3;
190 *pret = ' ';
191 pret ++;
192 strcpy (pret, g_strftime_monconv[ptm->tm_mon % 12][SFCONV_ABBR]);
193 pret += 3;
194 *pret = ' ';
195 pret ++;
196 sprintf (pret, "%d %02d:%02d:%02d %d", ptm->tm_mday,
197 ptm->tm_hour, ptm->tm_min, ptm->tm_sec, ptm->tm_year);
198 pret += strlen (pret);
199 break;
200 case 'd':
201 sprintf (pret, "%02d", ptm->tm_mday % 31);
202 pret += 2;
203 break;
204 case 'H':
205 sprintf (pret, "%02d", ptm->tm_hour % 24);
206 pret += 2;
207 break;
208 case 'I':
209 sprintf (pret, "%02d", (ptm->tm_hour % 12) + 1);
210 pret += 2;
211 break;
212 case 'j':
213 sprintf (pret, "%03d", ptm->tm_year % 400);
214 pret += 3;
215 break;
216 case 'm':
217 sprintf (pret, "%02d", (ptm->tm_mon % 12) + 1);
218 pret += 2;
219 break;
220 case 'M':
221 sprintf (pret, "%02d", ptm->tm_min % 60);
222 pret += 2;
223 break;
224 case 'p':
225 if (ptm->tm_hour > 12) {
226 strcpy (pret, "PM");
227 break;
228 }
229 strcpy (pret, "AM");
230 pret += 2;
231 break;
232 case 'S':
233 sprintf (pret, "%02d", ptm->tm_sec % 61);
234 pret += 2;
235 break;
236 case 'U':
237 // FIXME: Week number with the first Sunday as the first day of week one (00-53)
238 sprintf (pret, "%02d", ptm->tm_yday / 7);
239 pret += 2;
240 break;
241 case 'w':
242 sprintf (pret, "%d", ptm->tm_wday % 7);
243 pret += 1;
244 break;
245 case 'W':
246 // FIXME: Week number with the first Sunday as the first day of week one (00-53)
247 sprintf (pret, "%02d", ptm->tm_yday / 7);
248 pret += 2;
249 break;
250 case 'x':
251 sprintf (pret, "%02d/%02d/%02d",
252 ptm->tm_mon, ptm->tm_mday, ptm->tm_year - 1900);
253 pret += strlen (pret);
254 break;
255 case 'X':
256 sprintf (pret, "%02d:%02d:%02d",
257 ptm->tm_hour, ptm->tm_min, ptm->tm_sec);
258 pret += strlen (pret);
259 break;
260 case 'y':
261 sprintf (pret, "%02d", ptm->tm_year - 1900);
262 pret += 2;
263 break;
264 case 'Y':
265 sprintf (pret, "%02d", ptm->tm_year);
266 pret += strlen (pret);
267 break;
268 case 'Z':
269 {
270 LmLocaleType ll;
271 ll.language = lmAnyLanguage;
272 ll.country = 0;
273 TimeZoneToAscii (ptm->tm_gmtoff, &ll, pret);
274 }
275 pret += strlen (pret);
276 break;
277 case '%':
278 *pret = *p;
279 pret ++;
280 break;
281 }
282 } else {
283 *pret = *p;
284 pret ++;
285 }
286 p ++;
287 }
288 return 0;
289 }
290
291 time_t
292 mktime (struct tm *ptm)
293 {
294 DateTimeType dt;
295 if (NULL == ptm) {
296 return 0;
297 }
298 memset (&dt, 0, sizeof (dt));
299 dt.second = ptm->tm_sec;
300 dt.minute = ptm->tm_min;
301 dt.hour = ptm->tm_hour;
302 dt.day = ptm->tm_mday;
303 dt.month = ptm->tm_mon;
304 dt.year = ptm->tm_year;
305 dt.weekDay = ptm->tm_wday;
306 return TimDateTimeToSeconds (&dt);
307 }
308
309 int
310 vsscanf (const char *s, const char *format, va_list param)
311 {
312 return -1;
313 }
314
315 FILE * fopen (const char *_name, const char *_type) {return NULL;}
316 int fclose (FILE *fp) {return 0;}
317 size_t fread (void *buf, size_t _size, size_t _n, FILE *fp) {return 0;}
318 size_t fwrite (const void *buf , size_t _size, size_t _n, FILE *fp) {return 0;}
319 int fseek (FILE *fp, long offset, int whence) {return -1;}
320 long ftell (FILE *fp) {return -1;}
321 int feof (FILE *fp) {return -1;}
322 int ferror (FILE *fp) {return -1;}
323 void clearerr (FILE *fp) {}
324
325 #endif // __WXPALMOS6__
326
327 #define _BIT_ALPHA 0X0001
328 #define _BIT_BLANK 0X0002
329 #define _BIT_CNTRL 0X0004
330 #define _BIT_DIGIT 0X0008
331 #define _BIT_GRAPH 0X0010
332 #define _BIT_LOWER 0X0020
333 #define _BIT_PRINT 0X0040
334 #define _BIT_PUNCT 0X0080
335 #define _BIT_SPACE 0X0100
336 #define _BIT_UPPER 0X0200
337 #define _BIT_XDIGIT 0X0400
338
339 int iswalnum(wint_t C) {return 0;}
340 int iswalpha(wint_t C) {return 0;}
341 int iswcntrl(wint_t C) {return 0;}
342 int iswdigit(wint_t C) {return 0;}
343 int iswgraph(wint_t C) {return 0;}
344 int iswlower(wint_t C) {return 0;}
345 int iswprint(wint_t C) {return 0;}
346 int iswpunct(wint_t C) {return 0;}
347 int iswspace(wint_t C) {return 0;}
348 int iswupper(wint_t C) {return 0;}
349 int iswxdigit(wint_t C) {return 0;}
350
351 wint_t towlower(wint_t C) {return 0;}
352 wint_t towupper(wint_t C) {return 0;}
353 size_t wcsftime(wchar_t *strDest, size_t maxsize, const wchar_t *format, const struct tm *timeptr) {return 0;}
354
355 size_t
356 wcslen (const wchar_t * str)
357 {
358 size_t i;
359 for (i = 0; str[i] != 0; i ++);
360 return i;
361 }
362
363 wchar_t *
364 wcscpy (wchar_t * dst, const wchar_t * src)
365 {
366 size_t len;
367 len = wcslen (src);
368 if (len < 1) {
369 return NULL;
370 }
371 memmove (dst, src, len * sizeof (wchar_t));
372 dst[len] = 0;
373 return dst;
374 }
375
376 wchar_t *
377 wcsncpy (wchar_t * dst, const wchar_t * src, size_t len_max)
378 {
379 size_t len;
380 len = wcslen (src);
381 if (len < 1) {
382 return NULL;
383 }
384 if (len_max < len + 1) {
385 len = len_max - 1;
386 }
387 if (len > 0) {
388 memmove (dst, src, len * sizeof (wchar_t));
389 }
390 dst[len] = 0;
391 return dst;
392 }
393
394 wchar_t *
395 wcscat (wchar_t * dst, const wchar_t * src)
396 {
397 size_t len_dst;
398 len_dst = wcslen (dst);
399 return wcscpy (dst + len_dst, src);
400 }
401
402 wchar_t *
403 wcsncat (wchar_t * dst, const wchar_t * src, size_t n)
404 {
405 size_t len_dst;
406 len_dst = wcslen (dst);
407 return wcsncpy (dst + len_dst, src, n);
408 }
409
410 #define SYS_IS_BIGENDIAN 0
411
412 #if SYS_IS_BIGENDIAN
413 #define _wcmcmp(a,b,len) memcmp((a),(b),(len) * sizeof (wchar_t))
414 #else // SYS_IS_BIGENDIAN
415 int
416 _wcmcmp (const wchar_t * str1, const wchar_t * str2, size_t len)
417 {
418 size_t i;
419 for (i = 0; i < len; i ++) {
420 if (str1[i] == str2[i]) {
421 continue;
422 } else if (str1[i] < str2[i]) {
423 return -1;
424 }
425 return 1;
426 }
427 return 0;
428 }
429 #endif // SYS_IS_BIGENDIAN
430
431 int
432 wcscmp (const wchar_t * str1, const wchar_t * str2)
433 {
434 int ret;
435 size_t len;
436 size_t len1;
437 size_t len2;
438 len1 = wcslen (str1);
439 len2 = wcslen (str2);
440 len = len1;
441 if (len > len2) {
442 len = len2;
443 }
444 ret = _wcmcmp (str1, str2, len);
445 if (0 == ret) {
446 if (len1 > len2) {
447 return -1;
448 } else if (len1 == len2) {
449 return 0;
450 }
451 return 1;
452 }
453 return ret;
454 }
455
456 int
457 wcsncmp (const wchar_t * str1, const wchar_t * str2, size_t n)
458 {
459 int ret;
460 size_t len;
461 size_t len1;
462 size_t len2;
463 len1 = wcslen (str1);
464 len2 = wcslen (str2);
465 len = len1;
466 if (len > len2) {
467 len = len2;
468 }
469 if (len > n) {
470 len = n;
471 }
472 ret = _wcmcmp (str1, str2, len);
473 if (0 == ret) {
474 if (len >= n) {
475 return 0;
476 }
477 if (len1 > len2) {
478 return -1;
479 } else if (len1 == len2) {
480 return 0;
481 }
482 return 1;
483 }
484 return ret;
485 }
486
487 wchar_t *
488 wcschr (const wchar_t * str, const wchar_t chr)
489 {
490 wchar_t * str2 = (wchar_t *)str;
491 size_t i;
492 size_t len;
493 len = wcslen (str2);
494 for (i = 0; i < len; i ++) {
495 if (str2[i] == chr) {
496 str2 += i;
497 return str2;
498 }
499 }
500 return NULL;
501 }
502
503 int wcscoll (const wchar_t *str1, const wchar_t * str2) {return wcscmp(str1, str2);}
504
505 /*
506 * wcsxfrm: Transfom the wide-char str2 and place the result into the str1,
507 * return the length of the wide-char, return -1 on error.
508 */
509 size_t
510 wcsxfrm (wchar_t * str1, const wchar_t * str2, size_t n)
511 {
512 wcsncpy (str1, str2, n);
513 return wcslen (str1);
514 }
515
516 wchar_t *
517 wcsrchr (const wchar_t * str, wchar_t chr)
518 {
519 wchar_t * str2 = (wchar_t *)str;
520 ssize_t i;
521 i = wcslen (str2);
522 for (; i >= 0; i ++) {
523 if (str2[i] == chr) {
524 str2 += i;
525 return str2;
526 }
527 }
528 return NULL;
529 }
530
531 wchar_t *
532 wcspbrk (const wchar_t * str, const wchar_t * set)
533 {
534 wchar_t * str2 = (wchar_t *)str;
535 size_t i;
536 size_t j;
537 size_t len;
538 size_t len_set;
539 len = wcslen (str2);
540 len_set = wcslen (set);
541 for (i = 0; i < len; i ++) {
542 for (j = 0; j < len_set; j ++) {
543 if (str2[i] == set[j]) {
544 str2 += i;
545 return str2;
546 }
547 }
548 }
549 return NULL;
550 }
551
552 /*
553 * wcsspn: compute the maxinum initial segment of the wide-char str which consists entirely of wide-char codes from the set.
554 * returnt he length of the initial substring of str
555 * examples:
556 * str="13134abcde", set="1234567890", wcsspn(str,set)==5
557 * str="abcde", set="1234567890", wcsspn(str,set)==0
558 */
559 size_t
560 wcsspn (const wchar_t * str, const wchar_t * set)
561 {
562 size_t i;
563 size_t j;
564 size_t len;
565 size_t len_set;
566 len = wcslen (str);
567 len_set = wcslen (set);
568 for (i = 0; i < len; i ++) {
569 for (j = 0; j < len_set; j ++) {
570 if (str[i] == set[j]) {
571 break;
572 }
573 }
574 if (j >= len_set) {
575 return i;
576 }
577 }
578 return i;
579 }
580
581 /*
582 * wcscspn: determines the length of the initial segment of str which consists entirely of characters not found in set.
583 * examples:
584 * str="13134abcde", set="1234567890", wcsspn(str,set)==0
585 * str="abcde123", set="1234567890", wcsspn(str,set)==5
586 */
587 size_t
588 wcscspn (const wchar_t * str, const wchar_t * set)
589 {
590 size_t i;
591 size_t j;
592 size_t len;
593 size_t len_set;
594 len = wcslen (str);
595 len_set = wcslen (set);
596 for (i = 0; i < len; i ++) {
597 for (j = 0; j < len_set; j ++) {
598 if (str[i] == set[j]) {
599 break;
600 }
601 }
602 if (j < len_set) {
603 return i;
604 }
605 }
606 return i;
607 }
608
609 wchar_t *
610 wcsstr (const wchar_t * str, const wchar_t * pat)
611 {
612 // TODO: improvement the alg for search
613 wchar_t *p;
614 p = wcschr (str, pat[0]);
615 for (; NULL != p;) {
616 if (0 == wcscmp (p, pat)) {
617 return p;
618 }
619 p = wcschr (p, pat[0]);
620 }
621 return NULL;
622 }
623
624 wchar_t *
625 wcstok (wchar_t * str, const wchar_t * set, wchar_t ** a)
626 {
627 wchar_t * p;
628 if (NULL == str) {
629 if (NULL == a) {
630 return NULL;
631 }
632 str = *a;
633 }
634 if (NULL == str) {
635 return NULL;
636 }
637 p = wcspbrk (str, set);
638 if (NULL == p) {
639 return NULL;
640 }
641 *p = 0;
642 *a = p;
643 return str;
644 }
645
646 #define iswblank iswspace
647 //#define ULONG_MAX INT_MAX
648 unsigned long
649 wcstoul (const wchar_t *nptr, wchar_t **endptr, int base)
650 {
651 int flg_overflow;
652 //int val_remain;
653 unsigned long val_ch;
654 unsigned long val_old;
655 unsigned long val;
656 /* check the base */
657 if ((1 == base) || (base > 36) || (base < 0)) {
658 // error
659 return 0;
660 }
661 // skip blank
662 while (iswblank (*nptr)) {nptr ++;}
663 if (0 == *nptr) {
664 return 0;
665 }
666 if (0 == base) {
667 // auto detect
668 switch (*nptr) {
669 case '0':
670 if (('x' == *(nptr + 1)) || ('X' == *(nptr + 1))) {
671 base = 16;
672 nptr += 2;
673 } else {
674 nptr += 1;
675 base = 8;
676 }
677 break;
678 case '1':
679 case '2':
680 case '3':
681 case '4':
682 case '5':
683 case '6':
684 case '7':
685 case '8':
686 case '9':
687 base = 10;
688 break;
689 }
690 } else {
691 if (16 == base) {
692 // detect if it has '0x' or '0X'
693 if (('0' == *nptr) && (('x' == *(nptr + 1)) || ('x' == *(nptr + 1)))) {
694 nptr += 2;
695 }
696 }
697 }
698 if (0 == base) {
699 // error
700 return 0;
701 }
702 val = 0;
703 val_old = 0;
704 flg_overflow = 0;
705 //val_remain = ULONG_MAX % base;
706 for (; '\0' != *nptr; nptr ++) {
707 val_ch = *nptr;
708 if (('0' <= val_ch) && (val_ch <= '9')) {
709 val_ch -= '0';
710 } else if (('a' <= val_ch) && (val_ch <= 'z')) {
711 val_ch = val_ch - 'a' + 10;
712 } else if (('A' <= val_ch) && (val_ch <= 'Z')) {
713 val_ch = val_ch - 'A' + 10;
714 } else {
715 // val_ch = base + 1;
716 break;
717 }
718 if (val_ch >= base) {
719 break;
720 }
721 if (flg_overflow) continue;
722 val_old = val;
723 val *= base;
724 val += val_ch;
725 if (val_old > val) {
726 flg_overflow = 1;
727 }
728 }
729 if (flg_overflow) {
730 val = ULONG_MAX;
731 }
732 if (0L != endptr) {
733 *endptr = (wchar_t *)nptr;
734 }
735 return val;
736 }
737
738 long
739 wcstol (const wchar_t * str, wchar_t ** end, int base)
740 {
741 int sign = 0;
742 unsigned long val0;
743 long val;
744 wchar_t ch;
745 // skip blank
746 for (; iswblank (*str); str ++) {
747 }
748 for (ch = *str; (ch == '-') || (ch == '+'); str ++) {
749 }
750 // the sign
751 if ('-' == ch) {
752 sign = 1;
753 str ++;
754 }
755 val0 = wcstoul (str, end, base);
756 if (val0 >= LONG_MAX) {
757 // overflow
758 val = LONG_MAX;
759 if (sign) {
760 val = LONG_MIN;
761 }
762 } else {
763 val = val0;
764 if (sign) {
765 val = -val0;
766 }
767 }
768 return val;
769 }
770
771 double
772 wcstod (const wchar_t * str, wchar_t ** end)
773 {
774 double val;
775 double mantissa;
776 unsigned long divisor;
777 unsigned long power;
778 int sign;
779 int sign_power;
780 wchar_t *pend;
781 wchar_t ch;
782 // skip blank
783 for (; iswblank (*str); str ++) {
784 }
785 for (ch = *str; (ch == '-') || (ch == '+'); str ++) {
786 }
787 // the sign
788 sign = 0;
789 if ('-' == ch) {
790 sign = 1;
791 str ++;
792 }
793 // skip leading zero
794 for (; '0' == (*str); str ++) {
795 }
796 val = 0.0;
797 mantissa = 0.0;
798 divisor = 0;
799 power = 0.0;
800 // integer part
801 for (ch = *str; ('0' <= ch) && (ch <= '9'); str ++) {
802 ch -= '0';
803 val *= 10;
804 val += ch;
805 }
806 // floating point & mantissa
807 if ('.' == *str) {
808 str ++;
809 for (ch = *str; ('0' <= ch) && (ch <= '9'); str ++) {
810 ch -= '0';
811 mantissa *= 10.0;
812 mantissa += ch;
813 divisor ++;
814 }
815 }
816 for (; divisor > 0; divisor --) {
817 mantissa /= 10.0;
818 }
819 val += mantissa;
820 sign_power = 0;
821 if (('e' == *str) || ('E' == *str)) {
822 str ++;
823 if ('-' == ch) {
824 sign_power = 1;
825 str ++;
826 }
827 pend = NULL;
828 power = wcstoul (str, &pend, 10);
829 if (NULL != pend) {
830 str = pend;
831 }
832 }
833 if (power > 0) {
834 if (sign_power) {
835 for (; power > 0; power --) {
836 val /= 10.0;
837 }
838 } else {
839 for (; power > 0; power --) {
840 val *= 10.0;
841 }
842 }
843 }
844 if (sign) {
845 val = - val;
846 }
847 if (end) {
848 *end = (wchar_t *)str;
849 }
850 return val;
851 }
852
853 char * setlocale (int category, const char *locale) {return NULL;}
854
855 int
856 eof (int fd)
857 {
858 return 0;
859 }
860
861 int
862 remove (const char *fn)
863 {
864 return svfs_filedelete (fn);
865 }
866
867 // access(): check access permissions of a file or pathname
868 // R_OK: read permission
869 // W_OK: write permission
870 // X_OK: execute/search permission
871 // F_OK: existence test
872 //All components of the pathname path are checked for access permissions (including F_OK)
873 int access(const char *path, int amode) {return amode;}
874
875 off_t lseek(int fildes, off_t offset, int whence) {return 0;}