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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: src/common/wxchar.cpp
3 // Purpose: wxChar implementation
4 // Author: Ove Kaven
5 // Modified by: Ron Lee, Francesco Montorsi
6 // Created: 09/04/99
7 // RCS-ID: $Id$
8 // Copyright: (c) wxWidgets copyright
9 // Licence: wxWindows licence
10 /////////////////////////////////////////////////////////////////////////////
11
12 // ===========================================================================
13 // headers, declarations, constants
14 // ===========================================================================
15
16 // For compilers that support precompilation, includes "wx.h".
17 #include "wx/wxprec.h"
18
19 #ifdef __BORLANDC__
20 #pragma hdrstop
21 #endif
22
23 #include "wx/wxchar.h"
24
25 #define _ISOC9X_SOURCE 1 // to get vsscanf()
26 #define _BSD_SOURCE 1 // to still get strdup()
27
28 #include <stdio.h>
29 #include <stdlib.h>
30 #include <string.h>
31
32 #ifndef __WXWINCE__
33 #include <time.h>
34 #include <locale.h>
35 #else
36 #include "wx/msw/wince/time.h"
37 #endif
38
39 #ifndef WX_PRECOMP
40 #include "wx/string.h"
41 #include "wx/hash.h"
42 #include "wx/utils.h" // for wxMin and wxMax
43 #include "wx/log.h"
44 #endif
45
46 #if defined(__WIN32__) && defined(wxNEED_WX_CTYPE_H)
47 #include <windef.h>
48 #include <winbase.h>
49 #include <winnls.h>
50 #include <winnt.h>
51 #endif
52
53 #if defined(__MWERKS__) && __MSL__ >= 0x6000
54 namespace std {}
55 using namespace std ;
56 #endif
57
58 #if wxUSE_WCHAR_T
59 size_t WXDLLEXPORT wxMB2WC(wchar_t *buf, const char *psz, size_t n)
60 {
61 // assume that we have mbsrtowcs() too if we have wcsrtombs()
62 #ifdef HAVE_WCSRTOMBS
63 mbstate_t mbstate;
64 memset(&mbstate, 0, sizeof(mbstate_t));
65 #endif
66
67 if (buf) {
68 if (!n || !*psz) {
69 if (n) *buf = wxT('\0');
70 return 0;
71 }
72 #ifdef HAVE_WCSRTOMBS
73 return mbsrtowcs(buf, &psz, n, &mbstate);
74 #else
75 return wxMbstowcs(buf, psz, n);
76 #endif
77 }
78
79 // note that we rely on common (and required by Unix98 but unfortunately not
80 // C99) extension which allows to call mbs(r)towcs() with NULL output pointer
81 // to just get the size of the needed buffer -- this is needed as otherwise
82 // we have no idea about how much space we need and if the CRT doesn't
83 // support it (the only currently known example being Metrowerks, see
84 // wx/wxchar.h) we don't use its mbstowcs() at all
85 #ifdef HAVE_WCSRTOMBS
86 return mbsrtowcs((wchar_t *) NULL, &psz, 0, &mbstate);
87 #else
88 return wxMbstowcs((wchar_t *) NULL, psz, 0);
89 #endif
90 }
91
92 size_t WXDLLEXPORT wxWC2MB(char *buf, const wchar_t *pwz, size_t n)
93 {
94 #ifdef HAVE_WCSRTOMBS
95 mbstate_t mbstate;
96 memset(&mbstate, 0, sizeof(mbstate_t));
97 #endif
98
99 if (buf) {
100 if (!n || !*pwz) {
101 // glibc2.1 chokes on null input
102 if (n) *buf = '\0';
103 return 0;
104 }
105 #ifdef HAVE_WCSRTOMBS
106 return wcsrtombs(buf, &pwz, n, &mbstate);
107 #else
108 return wxWcstombs(buf, pwz, n);
109 #endif
110 }
111
112 #ifdef HAVE_WCSRTOMBS
113 return wcsrtombs((char *) NULL, &pwz, 0, &mbstate);
114 #else
115 return wxWcstombs((char *) NULL, pwz, 0);
116 #endif
117 }
118 #endif // wxUSE_WCHAR_T
119
120 bool WXDLLEXPORT wxOKlibc()
121 {
122 #if wxUSE_WCHAR_T && defined(__UNIX__) && defined(__GLIBC__) && !defined(__WINE__)
123 // glibc 2.0 uses UTF-8 even when it shouldn't
124 wchar_t res = 0;
125 if ((MB_CUR_MAX == 2) &&
126 (wxMB2WC(&res, "\xdd\xa5", 1) == 1) &&
127 (res==0x765)) {
128 // this is UTF-8 allright, check whether that's what we want
129 char *cur_locale = setlocale(LC_CTYPE, NULL);
130 if ((strlen(cur_locale) < 4) ||
131 (strcasecmp(cur_locale + strlen(cur_locale) - 4, "utf8")) ||
132 (strcasecmp(cur_locale + strlen(cur_locale) - 5, "utf-8"))) {
133 // nope, don't use libc conversion
134 return false;
135 }
136 }
137 #endif
138 return true;
139 }
140
141 // ============================================================================
142 // printf() functions business
143 // ============================================================================
144
145 // special test mode: define all functions below even if we don't really need
146 // them to be able to test them
147 #ifdef wxTEST_PRINTF
148 #undef wxFprintf
149 #undef wxPrintf
150 #undef wxSprintf
151 #undef wxVfprintf
152 #undef wxVsprintf
153 #undef wxVprintf
154 #undef wxVsnprintf_
155 #undef wxSnprintf_
156
157 #define wxNEED_WPRINTF
158
159 int wxVfprintf( FILE *stream, const wxChar *format, va_list argptr );
160 #endif
161
162 // ----------------------------------------------------------------------------
163 // implement [v]snprintf() if the system doesn't provide a safe one
164 // or if the system's one does not support positional parameters
165 // (very useful for i18n purposes)
166 // ----------------------------------------------------------------------------
167
168 #if !defined(wxVsnprintf_)
169
170 // wxUSE_STRUTILS says our wxVsnprintf_ implementation to use or not to
171 // use wxStrlen and wxStrncpy functions over one-char processing loops.
172 //
173 // Some benchmarking revealed that wxUSE_STRUTILS == 1 has the following
174 // effects:
175 // -> on Windows:
176 // when in ANSI mode, this setting does not change almost anything
177 // when in Unicode mode, it gives ~ 50% of slowdown !
178 // -> on Linux:
179 // both in ANSI and Unicode mode it gives ~ 60% of speedup !
180 //
181 #if defined(WIN32) && wxUSE_UNICODE
182 #define wxUSE_STRUTILS 0
183 #else
184 #define wxUSE_STRUTILS 1
185 #endif
186
187 // some limits of our implementation
188 #define wxMAX_SVNPRINTF_ARGUMENTS 64
189 #define wxMAX_SVNPRINTF_FLAGBUFFER_LEN 32
190 #define wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN 512
191
192 // prefer snprintf over sprintf
193 #if defined(__VISUALC__) || \
194 (defined(__BORLANDC__) && __BORLANDC__ >= 0x540)
195 #define system_sprintf(buff, max, flags, data) \
196 ::_snprintf(buff, max, flags, data)
197 #elif defined(HAVE_SNPRINTF)
198 #define system_sprintf(buff, max, flags, data) \
199 ::snprintf(buff, max, flags, data)
200 #else // NB: at least sprintf() should always be available
201 // since 'max' is not used in this case, wxVsnprintf() should always
202 // ensure that 'buff' is big enough for all common needs
203 // (see wxMAX_SVNPRINTF_FLAGBUFFER_LEN and wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN)
204 #define system_sprintf(buff, max, flags, data) \
205 ::sprintf(buff, flags, data)
206
207 #define SYSTEM_SPRINTF_IS_UNSAFE
208 #endif
209
210 // the conversion specifiers accepted by wxVsnprintf_
211 enum wxPrintfArgType {
212 wxPAT_INVALID = -1,
213
214 wxPAT_INT, // %d, %i, %o, %u, %x, %X
215 wxPAT_LONGINT, // %ld, etc
216 #if SIZEOF_LONG_LONG
217 wxPAT_LONGLONGINT, // %Ld, etc
218 #endif
219 wxPAT_SIZET, // %Zd, etc
220
221 wxPAT_DOUBLE, // %e, %E, %f, %g, %G
222 wxPAT_LONGDOUBLE, // %le, etc
223
224 wxPAT_POINTER, // %p
225
226 wxPAT_CHAR, // %hc (in ANSI mode: %c, too)
227 wxPAT_WCHAR, // %lc (in Unicode mode: %c, too)
228
229 wxPAT_PCHAR, // %s (related to a char *)
230 wxPAT_PWCHAR, // %s (related to a wchar_t *)
231
232 wxPAT_NINT, // %n
233 wxPAT_NSHORTINT, // %hn
234 wxPAT_NLONGINT // %ln
235 };
236
237 // an argument passed to wxVsnprintf_
238 typedef union {
239 int pad_int; // %d, %i, %o, %u, %x, %X
240 long int pad_longint; // %ld, etc
241 #if SIZEOF_LONG_LONG
242 long long int pad_longlongint; // %Ld, etc
243 #endif
244 size_t pad_sizet; // %Zd, etc
245
246 double pad_double; // %e, %E, %f, %g, %G
247 long double pad_longdouble; // %le, etc
248
249 void *pad_pointer; // %p
250
251 char pad_char; // %hc (in ANSI mode: %c, too)
252 wchar_t pad_wchar; // %lc (in Unicode mode: %c, too)
253
254 char *pad_pchar; // %s (related to a char *)
255 wchar_t *pad_pwchar; // %s (related to a wchar_t *)
256
257 int *pad_nint; // %n
258 short int *pad_nshortint; // %hn
259 long int *pad_nlongint; // %ln
260 } wxPrintfArg;
261
262
263 // Contains parsed data relative to a conversion specifier given to
264 // wxVsnprintf_ and parsed from the format string
265 // NOTE: in C++ there is almost no difference between struct & classes thus
266 // there is no performance gain by using a struct here...
267 class wxPrintfConvSpec
268 {
269 public:
270
271 // the position of the argument relative to this conversion specifier
272 size_t m_pos;
273
274 // the type of this conversion specifier
275 wxPrintfArgType m_type;
276
277 // the minimum and maximum width
278 // when one of this var is set to -1 it means: use the following argument
279 // in the stack as minimum/maximum width for this conversion specifier
280 int m_nMinWidth, m_nMaxWidth;
281
282 // does the argument need to the be aligned to left ?
283 bool m_bAlignLeft;
284
285 // pointer to the '%' of this conversion specifier in the format string
286 // NOTE: this points somewhere in the string given to the Parse() function -
287 // it's task of the caller ensure that memory is still valid !
288 const wxChar *m_pArgPos;
289
290 // pointer to the last character of this conversion specifier in the
291 // format string
292 // NOTE: this points somewhere in the string given to the Parse() function -
293 // it's task of the caller ensure that memory is still valid !
294 const wxChar *m_pArgEnd;
295
296 // a little buffer where formatting flags like #+\.hlqLZ are stored by Parse()
297 // for use in Process()
298 // NB: even if this buffer is used only for numeric conversion specifiers and
299 // thus could be safely declared as a char[] buffer, we want it to be wxChar
300 // so that in Unicode builds we can avoid to convert its contents to Unicode
301 // chars when copying it in user's buffer.
302 char m_szFlags[wxMAX_SVNPRINTF_FLAGBUFFER_LEN];
303
304
305 public:
306
307 // we don't declare this as a constructor otherwise it would be called
308 // automatically and we don't want this: to be optimized, wxVsnprintf_
309 // calls this function only on really-used instances of this class.
310 void Init();
311
312 // Parses the first conversion specifier in the given string, which must
313 // begin with a '%'. Returns false if the first '%' does not introduce a
314 // (valid) conversion specifier and thus should be ignored.
315 bool Parse(const wxChar *format);
316
317 // Process this conversion specifier and puts the result in the given
318 // buffer. Returns the number of characters written in 'buf' or -1 if
319 // there's not enough space.
320 int Process(wxChar *buf, size_t lenMax, wxPrintfArg *p);
321
322 // Loads the argument of this conversion specifier from given va_list.
323 bool LoadArg(wxPrintfArg *p, va_list &argptr);
324
325 private:
326 // An helper function of LoadArg() which is used to handle the '*' flag
327 void ReplaceAsteriskWith(int w);
328 };
329
330 void wxPrintfConvSpec::Init()
331 {
332 m_nMinWidth = 0;
333 m_nMaxWidth = 0xFFFF;
334 m_pos = 0;
335 m_bAlignLeft = false;
336 m_pArgPos = m_pArgEnd = NULL;
337 m_type = wxPAT_INVALID;
338
339 // this character will never be removed from m_szFlags array and
340 // is important when calling sprintf() in wxPrintfConvSpec::Process() !
341 m_szFlags[0] = '%';
342 }
343
344 bool wxPrintfConvSpec::Parse(const wxChar *format)
345 {
346 bool done = false;
347
348 // temporary parse data
349 size_t flagofs = 1;
350 bool in_prec, prec_dot;
351 int ilen = 0;
352
353 m_bAlignLeft = in_prec = prec_dot = false;
354 m_pArgPos = m_pArgEnd = format;
355 do
356 {
357 #define CHECK_PREC \
358 if (in_prec && !prec_dot) \
359 { \
360 m_szFlags[flagofs++] = '.'; \
361 prec_dot = true; \
362 }
363
364 // what follows '%'?
365 const wxChar ch = *(++m_pArgEnd);
366 switch ( ch )
367 {
368 case wxT('\0'):
369 return false; // not really an argument
370
371 case wxT('%'):
372 return false; // not really an argument
373
374 case wxT('#'):
375 case wxT('0'):
376 case wxT(' '):
377 case wxT('+'):
378 case wxT('\''):
379 CHECK_PREC
380 m_szFlags[flagofs++] = char(ch);
381 break;
382
383 case wxT('-'):
384 CHECK_PREC
385 m_bAlignLeft = true;
386 m_szFlags[flagofs++] = char(ch);
387 break;
388
389 case wxT('.'):
390 CHECK_PREC
391 in_prec = true;
392 prec_dot = false;
393 m_nMaxWidth = 0;
394 // dot will be auto-added to m_szFlags if non-negative
395 // number follows
396 break;
397
398 case wxT('h'):
399 ilen = -1;
400 CHECK_PREC
401 m_szFlags[flagofs++] = char(ch);
402 break;
403
404 case wxT('l'):
405 // NB: it's safe to use flagofs-1 as flagofs always start from 1
406 if (m_szFlags[flagofs-1] == 'l') // 'll' modifier is the same as 'L' or 'q'
407 ilen = 2;
408 else
409 ilen = 1;
410 CHECK_PREC
411 m_szFlags[flagofs++] = char(ch);
412 break;
413
414 case wxT('q'):
415 case wxT('L'):
416 ilen = 2;
417 CHECK_PREC
418 m_szFlags[flagofs++] = char(ch);
419 break;
420
421 case wxT('Z'):
422 ilen = 3;
423 CHECK_PREC
424 m_szFlags[flagofs++] = char(ch);
425 break;
426
427 case wxT('*'):
428 if (in_prec)
429 {
430 CHECK_PREC
431
432 // tell Process() to use the next argument
433 // in the stack as maxwidth...
434 m_nMaxWidth = -1;
435 }
436 else
437 {
438 // tell Process() to use the next argument
439 // in the stack as minwidth...
440 m_nMinWidth = -1;
441 }
442
443 // save the * in our formatting buffer...
444 // will be replaced later by Process()
445 m_szFlags[flagofs++] = char(ch);
446 break;
447
448 case wxT('1'): case wxT('2'): case wxT('3'):
449 case wxT('4'): case wxT('5'): case wxT('6'):
450 case wxT('7'): case wxT('8'): case wxT('9'):
451 {
452 int len = 0;
453 CHECK_PREC
454 while ( (*m_pArgEnd >= wxT('0')) &&
455 (*m_pArgEnd <= wxT('9')) )
456 {
457 m_szFlags[flagofs++] = char(*m_pArgEnd);
458 len = len*10 + (*m_pArgEnd - wxT('0'));
459 m_pArgEnd++;
460 }
461
462 if (in_prec)
463 m_nMaxWidth = len;
464 else
465 m_nMinWidth = len;
466
467 m_pArgEnd--; // the main loop pre-increments n again
468 }
469 break;
470
471 case wxT('$'): // a positional parameter (e.g. %2$s) ?
472 {
473 if (m_nMinWidth <= 0)
474 break; // ignore this formatting flag as no
475 // numbers are preceding it
476
477 // remove from m_szFlags all digits previously added
478 do {
479 flagofs--;
480 } while (m_szFlags[flagofs] >= '1' &&
481 m_szFlags[flagofs] <= '9');
482
483 // re-adjust the offset making it point to the
484 // next free char of m_szFlags
485 flagofs++;
486
487 m_pos = m_nMinWidth;
488 m_nMinWidth = 0;
489 }
490 break;
491
492 case wxT('d'):
493 case wxT('i'):
494 case wxT('o'):
495 case wxT('u'):
496 case wxT('x'):
497 case wxT('X'):
498 CHECK_PREC
499 m_szFlags[flagofs++] = char(ch);
500 m_szFlags[flagofs] = '\0';
501 if (ilen == 0)
502 m_type = wxPAT_INT;
503 else if (ilen == -1)
504 // NB: 'short int' value passed through '...'
505 // is promoted to 'int', so we have to get
506 // an int from stack even if we need a short
507 m_type = wxPAT_INT;
508 else if (ilen == 1)
509 m_type = wxPAT_LONGINT;
510 else if (ilen == 2)
511 #if SIZEOF_LONG_LONG
512 m_type = wxPAT_LONGLONGINT;
513 #else // !long long
514 m_type = wxPAT_LONGINT;
515 #endif // long long/!long long
516 else if (ilen == 3)
517 m_type = wxPAT_SIZET;
518 done = true;
519 break;
520
521 case wxT('e'):
522 case wxT('E'):
523 case wxT('f'):
524 case wxT('g'):
525 case wxT('G'):
526 CHECK_PREC
527 m_szFlags[flagofs++] = char(ch);
528 m_szFlags[flagofs] = '\0';
529 if (ilen == 2)
530 m_type = wxPAT_LONGDOUBLE;
531 else
532 m_type = wxPAT_DOUBLE;
533 done = true;
534 break;
535
536 case wxT('p'):
537 m_type = wxPAT_POINTER;
538 m_szFlags[flagofs++] = char(ch);
539 m_szFlags[flagofs] = '\0';
540 done = true;
541 break;
542
543 case wxT('c'):
544 if (ilen == -1)
545 {
546 // in Unicode mode %hc == ANSI character
547 // and in ANSI mode, %hc == %c == ANSI...
548 m_type = wxPAT_CHAR;
549 }
550 else if (ilen == 1)
551 {
552 // in ANSI mode %lc == Unicode character
553 // and in Unicode mode, %lc == %c == Unicode...
554 m_type = wxPAT_WCHAR;
555 }
556 else
557 {
558 #if wxUSE_UNICODE
559 // in Unicode mode, %c == Unicode character
560 m_type = wxPAT_WCHAR;
561 #else
562 // in ANSI mode, %c == ANSI character
563 m_type = wxPAT_CHAR;
564 #endif
565 }
566 done = true;
567 break;
568
569 case wxT('s'):
570 if (ilen == -1)
571 {
572 // Unicode mode wx extension: we'll let %hs mean non-Unicode
573 // strings (when in ANSI mode, %s == %hs == ANSI string)
574 m_type = wxPAT_PCHAR;
575 }
576 else if (ilen == 1)
577 {
578 // in Unicode mode, %ls == %s == Unicode string
579 // in ANSI mode, %ls == Unicode string
580 m_type = wxPAT_PWCHAR;
581 }
582 else
583 {
584 #if wxUSE_UNICODE
585 m_type = wxPAT_PWCHAR;
586 #else
587 m_type = wxPAT_PCHAR;
588 #endif
589 }
590 done = true;
591 break;
592
593 case wxT('n'):
594 if (ilen == 0)
595 m_type = wxPAT_NINT;
596 else if (ilen == -1)
597 m_type = wxPAT_NSHORTINT;
598 else if (ilen >= 1)
599 m_type = wxPAT_NLONGINT;
600 done = true;
601 break;
602
603 default:
604 // bad format, don't consider this an argument;
605 // leave it unchanged
606 return false;
607 }
608
609 if (flagofs == wxMAX_SVNPRINTF_FLAGBUFFER_LEN)
610 {
611 wxLogDebug(wxT("Too many flags specified for a single conversion specifier!"));
612 return false;
613 }
614 }
615 while (!done);
616
617 return true; // parsing was successful
618 }
619
620
621 void wxPrintfConvSpec::ReplaceAsteriskWith(int width)
622 {
623 char temp[wxMAX_SVNPRINTF_FLAGBUFFER_LEN];
624
625 // find the first * in our flag buffer
626 char *pwidth = strchr(m_szFlags, '*');
627 wxASSERT(pwidth);
628
629 // save what follows the * (the +1 is to skip the asterisk itself!)
630 strcpy(temp, pwidth+1);
631 if (width < 0)
632 {
633 pwidth[0] = wxT('-');
634 pwidth++;
635 }
636
637 // replace * with the actual integer given as width
638 #ifndef SYSTEM_SPRINTF_IS_UNSAFE
639 int maxlen = (m_szFlags + wxMAX_SVNPRINTF_FLAGBUFFER_LEN - pwidth) /
640 sizeof(*m_szFlags);
641 #endif
642 int offset = system_sprintf(pwidth, maxlen, "%d", abs(width));
643
644 // restore after the expanded * what was following it
645 strcpy(pwidth+offset, temp);
646 }
647
648 bool wxPrintfConvSpec::LoadArg(wxPrintfArg *p, va_list &argptr)
649 {
650 // did the '*' width/precision specifier was used ?
651 if (m_nMaxWidth == -1)
652 {
653 // take the maxwidth specifier from the stack
654 m_nMaxWidth = va_arg(argptr, int);
655 if (m_nMaxWidth < 0)
656 m_nMaxWidth = 0;
657 else
658 ReplaceAsteriskWith(m_nMaxWidth);
659 }
660
661 if (m_nMinWidth == -1)
662 {
663 // take the minwidth specifier from the stack
664 m_nMinWidth = va_arg(argptr, int);
665
666 ReplaceAsteriskWith(m_nMinWidth);
667 if (m_nMinWidth < 0)
668 {
669 m_bAlignLeft = !m_bAlignLeft;
670 m_nMinWidth = -m_nMinWidth;
671 }
672 }
673
674 switch (m_type) {
675 case wxPAT_INT:
676 p->pad_int = va_arg(argptr, int);
677 break;
678 case wxPAT_LONGINT:
679 p->pad_longint = va_arg(argptr, long int);
680 break;
681 #if SIZEOF_LONG_LONG
682 case wxPAT_LONGLONGINT:
683 p->pad_longlongint = va_arg(argptr, long long int);
684 break;
685 #endif
686 case wxPAT_SIZET:
687 p->pad_sizet = va_arg(argptr, size_t);
688 break;
689 case wxPAT_DOUBLE:
690 p->pad_double = va_arg(argptr, double);
691 break;
692 case wxPAT_LONGDOUBLE:
693 p->pad_longdouble = va_arg(argptr, long double);
694 break;
695 case wxPAT_POINTER:
696 p->pad_pointer = va_arg(argptr, void *);
697 break;
698
699 case wxPAT_CHAR:
700 p->pad_char = (char)va_arg(argptr, int); // char is promoted to int when passed through '...'
701 break;
702 case wxPAT_WCHAR:
703 p->pad_wchar = (wchar_t)va_arg(argptr, int); // char is promoted to int when passed through '...'
704 break;
705
706 case wxPAT_PCHAR:
707 p->pad_pchar = va_arg(argptr, char *);
708 break;
709 case wxPAT_PWCHAR:
710 p->pad_pwchar = va_arg(argptr, wchar_t *);
711 break;
712
713 case wxPAT_NINT:
714 p->pad_nint = va_arg(argptr, int *);
715 break;
716 case wxPAT_NSHORTINT:
717 p->pad_nshortint = va_arg(argptr, short int *);
718 break;
719 case wxPAT_NLONGINT:
720 p->pad_nlongint = va_arg(argptr, long int *);
721 break;
722
723 case wxPAT_INVALID:
724 default:
725 return false;
726 }
727
728 return true; // loading was successful
729 }
730
731 int wxPrintfConvSpec::Process(wxChar *buf, size_t lenMax, wxPrintfArg *p)
732 {
733 // buffer to avoid dynamic memory allocation each time for small strings;
734 // note that this buffer is used only to hold results of number formatting,
735 // %s directly writes user's string in buf, without using szScratch
736 char szScratch[wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN];
737 size_t lenScratch = 0, lenCur = 0;
738
739 #define APPEND_CH(ch) \
740 { \
741 if ( lenCur == lenMax ) \
742 return -1; \
743 \
744 buf[lenCur++] = ch; \
745 }
746
747 #define APPEND_STR(s) \
748 { \
749 for ( const wxChar *p = s; *p; p++ ) \
750 { \
751 APPEND_CH(*p); \
752 } \
753 }
754
755 switch ( m_type )
756 {
757 case wxPAT_INT:
758 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_int);
759 break;
760
761 case wxPAT_LONGINT:
762 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_longint);
763 break;
764
765 #if SIZEOF_LONG_LONG
766 case wxPAT_LONGLONGINT:
767 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_longlongint);
768 break;
769 #endif // SIZEOF_LONG_LONG
770
771 case wxPAT_SIZET:
772 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_sizet);
773 break;
774
775 case wxPAT_LONGDOUBLE:
776 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_longdouble);
777 break;
778
779 case wxPAT_DOUBLE:
780 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_double);
781 break;
782
783 case wxPAT_POINTER:
784 lenScratch = system_sprintf(szScratch, wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN, m_szFlags, p->pad_pointer);
785 break;
786
787 case wxPAT_CHAR:
788 case wxPAT_WCHAR:
789 {
790 wxChar val =
791 #if wxUSE_UNICODE
792 p->pad_wchar;
793
794 if (m_type == wxPAT_CHAR)
795 {
796 // user passed a character explicitely indicated as ANSI...
797 const char buf[2] = { p->pad_char, 0 };
798 val = wxString(buf, wxConvLibc)[0u];
799
800 //wprintf(L"converting ANSI=>Unicode"); // for debug
801 }
802 #else
803 p->pad_char;
804
805 #if wxUSE_WCHAR_T
806 if (m_type == wxPAT_WCHAR)
807 {
808 // user passed a character explicitely indicated as Unicode...
809 const wchar_t buf[2] = { p->pad_wchar, 0 };
810 val = wxString(buf, wxConvLibc)[0u];
811
812 //printf("converting Unicode=>ANSI"); // for debug
813 }
814 #endif
815 #endif
816
817 size_t i;
818
819 if (!m_bAlignLeft)
820 for (i = 1; i < (size_t)m_nMinWidth; i++)
821 APPEND_CH(_T(' '));
822
823 APPEND_CH(val);
824
825 if (m_bAlignLeft)
826 for (i = 1; i < (size_t)m_nMinWidth; i++)
827 APPEND_CH(_T(' '));
828 }
829 break;
830
831 case wxPAT_PCHAR:
832 case wxPAT_PWCHAR:
833 {
834 wxString s;
835 const wxChar *val =
836 #if wxUSE_UNICODE
837 p->pad_pwchar;
838
839 if (m_type == wxPAT_PCHAR)
840 {
841 // user passed a string explicitely indicated as ANSI...
842 val = s = wxString(p->pad_pchar, wxConvLibc);
843
844 //wprintf(L"converting ANSI=>Unicode"); // for debug
845 }
846 #else
847 p->pad_pchar;
848
849 #if wxUSE_WCHAR_T
850 if (m_type == wxPAT_PWCHAR)
851 {
852 // user passed a string explicitely indicated as Unicode...
853 val = s = wxString(p->pad_pwchar, wxConvLibc);
854
855 //printf("converting Unicode=>ANSI"); // for debug
856 }
857 #endif
858 #endif
859 int len;
860
861 if (val)
862 {
863 #if wxUSE_STRUTILS
864 // at this point we are sure that m_nMaxWidth is positive or null
865 // (see top of wxPrintfConvSpec::LoadArg)
866 len = wxMin((unsigned int)m_nMaxWidth, wxStrlen(val));
867 #else
868 for ( len = 0; val[len] && (len < m_nMaxWidth); len++ )
869 ;
870 #endif
871 }
872 else if (m_nMaxWidth >= 6)
873 {
874 val = wxT("(null)");
875 len = 6;
876 }
877 else
878 {
879 val = wxEmptyString;
880 len = 0;
881 }
882
883 int i;
884
885 if (!m_bAlignLeft)
886 {
887 for (i = len; i < m_nMinWidth; i++)
888 APPEND_CH(_T(' '));
889 }
890
891 #if wxUSE_STRUTILS
892 len = wxMin((unsigned int)len, lenMax-lenCur);
893 wxStrncpy(buf+lenCur, val, len);
894 lenCur += len;
895 #else
896 for (i = 0; i < len; i++)
897 APPEND_CH(val[i]);
898 #endif
899
900 if (m_bAlignLeft)
901 {
902 for (i = len; i < m_nMinWidth; i++)
903 APPEND_CH(_T(' '));
904 }
905 }
906 break;
907
908 case wxPAT_NINT:
909 *p->pad_nint = lenCur;
910 break;
911
912 case wxPAT_NSHORTINT:
913 *p->pad_nshortint = (short int)lenCur;
914 break;
915
916 case wxPAT_NLONGINT:
917 *p->pad_nlongint = lenCur;
918 break;
919
920 case wxPAT_INVALID:
921 default:
922 return -1;
923 }
924
925 // if we used system's sprintf() then we now need to append the s_szScratch
926 // buffer to the given one...
927 switch (m_type)
928 {
929 case wxPAT_INT:
930 case wxPAT_LONGINT:
931 #if SIZEOF_LONG_LONG
932 case wxPAT_LONGLONGINT:
933 #endif
934 case wxPAT_SIZET:
935 case wxPAT_LONGDOUBLE:
936 case wxPAT_DOUBLE:
937 case wxPAT_POINTER:
938 wxASSERT(lenScratch < wxMAX_SVNPRINTF_SCRATCHBUFFER_LEN);
939 #if !wxUSE_UNICODE
940 {
941 if (lenMax < lenScratch)
942 {
943 // fill output buffer and then return -1
944 wxStrncpy(buf, szScratch, lenMax);
945 return -1;
946 }
947 wxStrncpy(buf, szScratch, lenScratch);
948 lenCur += lenScratch;
949 }
950 #else
951 {
952 // Copy the char scratch to the wide output. This requires
953 // conversion, but we can optimise by making use of the fact
954 // that we are formatting numbers, this should mean only 7-bit
955 // ascii characters are involved.
956 wxChar *bufptr = buf;
957 const wxChar *bufend = buf + lenMax;
958 const char *scratchptr = szScratch;
959
960 // Simply copy each char to a wxChar, stopping on the first
961 // null or non-ascii byte. Checking '(signed char)*scratchptr
962 // > 0' is an extra optimisation over '*scratchptr != 0 &&
963 // isascii(*scratchptr)', though it assumes signed char is
964 // 8-bit 2 complement.
965 while ((signed char)*scratchptr > 0 && bufptr != bufend)
966 *bufptr++ = *scratchptr++;
967
968 if (bufptr == bufend)
969 return -1;
970
971 lenCur += bufptr - buf;
972
973 // check if the loop stopped on a non-ascii char, if yes then
974 // fall back to wxMB2WX
975 if (*scratchptr)
976 {
977 size_t len = wxMB2WX(bufptr, scratchptr, bufend - bufptr);
978
979 if (len && len != (size_t)(-1))
980 if (bufptr[len - 1])
981 return -1;
982 else
983 lenCur += len;
984 }
985 }
986 #endif
987 break;
988
989 default:
990 break; // all other cases were completed previously
991 }
992
993 return lenCur;
994 }
995
996 // differences from standard strncpy:
997 // 1) copies everything from 'source' except for '%%' sequence which is copied as '%'
998 // 2) returns the number of written characters in 'dest' as it could differ from given 'n'
999 // 3) much less optimized, unfortunately...
1000 static int wxCopyStrWithPercents(wxChar *dest, const wxChar *source, size_t n)
1001 {
1002 size_t written = 0;
1003
1004 if (n == 0)
1005 return 0;
1006
1007 size_t i;
1008 for ( i = 0; i < n-1; source++, i++)
1009 {
1010 dest[written++] = *source;
1011 if (*(source+1) == wxT('%'))
1012 {
1013 // skip this additional '%' character
1014 source++;
1015 i++;
1016 }
1017 }
1018
1019 if (i < n)
1020 // copy last character inconditionally
1021 dest[written++] = *source;
1022
1023 return written;
1024 }
1025
1026 int WXDLLEXPORT wxVsnprintf_(wxChar *buf, size_t lenMax,
1027 const wxChar *format, va_list argptr)
1028 {
1029 // useful for debugging, to understand if we are really using this function
1030 // rather than the system implementation
1031 #if 0
1032 wprintf(L"Using wxVsnprintf_\n");
1033 #endif
1034
1035 // required memory:
1036 wxPrintfConvSpec arg[wxMAX_SVNPRINTF_ARGUMENTS];
1037 wxPrintfArg argdata[wxMAX_SVNPRINTF_ARGUMENTS];
1038 wxPrintfConvSpec *pspec[wxMAX_SVNPRINTF_ARGUMENTS] = { NULL };
1039
1040 size_t i;
1041
1042 // number of characters in the buffer so far, must be less than lenMax
1043 size_t lenCur = 0;
1044
1045 size_t nargs = 0;
1046 const wxChar *toparse = format;
1047
1048 // parse the format string
1049 bool posarg_present = false, nonposarg_present = false;
1050 for (; *toparse != wxT('\0'); toparse++)
1051 {
1052 if (*toparse == wxT('%') )
1053 {
1054 arg[nargs].Init();
1055
1056 // let's see if this is a (valid) conversion specifier...
1057 if (arg[nargs].Parse(toparse))
1058 {
1059 // ...yes it is
1060 wxPrintfConvSpec *current = &arg[nargs];
1061
1062 // make toparse point to the end of this specifier
1063 toparse = current->m_pArgEnd;
1064
1065 if (current->m_pos > 0)
1066 {
1067 // the positionals start from number 1... adjust the index
1068 current->m_pos--;
1069 posarg_present = true;
1070 }
1071 else
1072 {
1073 // not a positional argument...
1074 current->m_pos = nargs;
1075 nonposarg_present = true;
1076 }
1077
1078 // this conversion specifier is tied to the pos-th argument...
1079 pspec[current->m_pos] = current;
1080 nargs++;
1081
1082 if (nargs == wxMAX_SVNPRINTF_ARGUMENTS)
1083 {
1084 wxLogDebug(wxT("A single call to wxVsnprintf() has more than %d arguments; ")
1085 wxT("ignoring all remaining arguments."), wxMAX_SVNPRINTF_ARGUMENTS);
1086 break; // cannot handle any additional conv spec
1087 }
1088 }
1089 else
1090 {
1091 // it's safe to look in the next character of toparse as at worst
1092 // we'll hit its \0
1093 if (*(toparse+1) == wxT('%'))
1094 toparse++; // the Parse() returned false because we've found a %%
1095 }
1096 }
1097 }
1098
1099 if (posarg_present && nonposarg_present)
1100 return -1; // format strings with both positional and
1101 // non-positional conversion specifier are unsupported !!
1102
1103 // on platforms where va_list is an array type, it is necessary to make a
1104 // copy to be able to pass it to LoadArg as a reference.
1105 bool ok = true;
1106 va_list ap;
1107 wxVaCopy(ap, argptr);
1108
1109 // now load arguments from stack
1110 for (i=0; i < nargs && ok; i++)
1111 {
1112 // !pspec[i] means that the user forgot a positional parameter (e.g. %$1s %$3s);
1113 // LoadArg == false means that wxPrintfConvSpec::Parse failed to set the
1114 // conversion specifier 'type' to a valid value...
1115 ok = pspec[i] && pspec[i]->LoadArg(&argdata[i], ap);
1116 }
1117
1118 va_end(ap);
1119
1120 // something failed while loading arguments from the variable list...
1121 if (!ok)
1122 return -1;
1123
1124 // finally, process each conversion specifier with its own argument
1125 toparse = format;
1126 for (i=0; i < nargs; i++)
1127 {
1128 // copy in the output buffer the portion of the format string between
1129 // last specifier and the current one
1130 size_t tocopy = ( arg[i].m_pArgPos - toparse );
1131 if (lenCur+tocopy >= lenMax)
1132 {
1133 // not enough space in the output buffer !
1134 // copy until the end of remaining space and then stop
1135 wxCopyStrWithPercents(buf+lenCur, toparse, lenMax - lenCur - 1);
1136 buf[lenMax-1] = wxT('\0');
1137 return -1;
1138 }
1139
1140 lenCur += wxCopyStrWithPercents(buf+lenCur, toparse, tocopy);
1141
1142 // process this specifier directly in the output buffer
1143 int n = arg[i].Process(buf+lenCur, lenMax - lenCur, &argdata[arg[i].m_pos]);
1144 if (n == -1)
1145 {
1146 buf[lenMax-1] = wxT('\0'); // be sure to always NUL-terminate the string
1147 return -1; // not enough space in the output buffer !
1148 }
1149 lenCur += n;
1150
1151 // the +1 is because wxPrintfConvSpec::m_pArgEnd points to the last character
1152 // of the format specifier, but we are not interested to it...
1153 toparse = arg[i].m_pArgEnd + 1;
1154 }
1155
1156 // copy portion of the format string after last specifier
1157 // NOTE: toparse is pointing to the character just after the last processed
1158 // conversion specifier
1159 // NOTE2: the +1 is because we want to copy also the '\0'
1160 size_t tocopy = wxStrlen(format) + 1 - ( toparse - format ) ;
1161 if (lenCur+tocopy >= lenMax)
1162 return -1; // not enough space in the output buffer !
1163
1164 // the -1 is because of the '\0'
1165 lenCur += wxCopyStrWithPercents(buf+lenCur, toparse, tocopy) - 1;
1166
1167 wxASSERT(lenCur == wxStrlen(buf));
1168 return lenCur;
1169 }
1170
1171 #undef APPEND_CH
1172 #undef APPEND_STR
1173 #undef CHECK_PREC
1174
1175 #endif // !wxVsnprintfA
1176
1177 #if !defined(wxSnprintf_)
1178 int WXDLLEXPORT wxSnprintf_(wxChar *buf, size_t len, const wxChar *format, ...)
1179 {
1180 va_list argptr;
1181 va_start(argptr, format);
1182
1183 int iLen = wxVsnprintf_(buf, len, format, argptr);
1184
1185 va_end(argptr);
1186
1187 return iLen;
1188 }
1189 #endif // wxSnprintf_
1190
1191 #if defined(__DMC__)
1192 /* Digital Mars adds count to _stprintf (C99) so convert */
1193 #if wxUSE_UNICODE
1194 int wxSprintf (wchar_t * __RESTRICT s, const wchar_t * __RESTRICT format, ... )
1195 {
1196 va_list arglist;
1197
1198 va_start( arglist, format );
1199 int iLen = swprintf ( s, -1, format, arglist );
1200 va_end( arglist );
1201 return iLen ;
1202 }
1203
1204 #endif // wxUSE_UNICODE
1205
1206 #endif //__DMC__
1207
1208 // ----------------------------------------------------------------------------
1209 // implement the standard IO functions for wide char if libc doesn't have them
1210 // ----------------------------------------------------------------------------
1211
1212 #ifdef wxNEED_FPUTS
1213 int wxFputs(const wchar_t *ws, FILE *stream)
1214 {
1215 // counting the number of wide characters written isn't worth the trouble,
1216 // simply distinguish between ok and error
1217 return fputs(wxConvLibc.cWC2MB(ws), stream) == -1 ? -1 : 0;
1218 }
1219 #endif // wxNEED_FPUTS
1220
1221 #ifdef wxNEED_PUTS
1222 int wxPuts(const wxChar *ws)
1223 {
1224 int rc = wxFputs(ws, stdout);
1225 if ( rc != -1 )
1226 {
1227 if ( wxFputs(L"\n", stdout) == -1 )
1228 return -1;
1229
1230 rc++;
1231 }
1232
1233 return rc;
1234 }
1235 #endif // wxNEED_PUTS
1236
1237 #ifdef wxNEED_PUTC
1238 int /* not wint_t */ wxPutc(wchar_t wc, FILE *stream)
1239 {
1240 wchar_t ws[2] = { wc, L'\0' };
1241
1242 return wxFputs(ws, stream);
1243 }
1244 #endif // wxNEED_PUTC
1245
1246 // NB: we only implement va_list functions here, the ones taking ... are
1247 // defined below for wxNEED_PRINTF_CONVERSION case anyhow and we reuse
1248 // the definitions there to avoid duplicating them here
1249 #ifdef wxNEED_WPRINTF
1250
1251 // TODO: implement the scanf() functions
1252 int vwscanf(const wxChar *format, va_list argptr)
1253 {
1254 wxFAIL_MSG( _T("TODO") );
1255
1256 return -1;
1257 }
1258
1259 int vswscanf(const wxChar *ws, const wxChar *format, va_list argptr)
1260 {
1261 // The best we can do without proper Unicode support in glibc is to
1262 // convert the strings into MB representation and run ANSI version
1263 // of the function. This doesn't work with %c and %s because of difference
1264 // in size of char and wchar_t, though.
1265
1266 wxCHECK_MSG( wxStrstr(format, _T("%s")) == NULL, -1,
1267 _T("incomplete vswscanf implementation doesn't allow %s") );
1268 wxCHECK_MSG( wxStrstr(format, _T("%c")) == NULL, -1,
1269 _T("incomplete vswscanf implementation doesn't allow %c") );
1270
1271 va_list argcopy;
1272 wxVaCopy(argcopy, argptr);
1273 return vsscanf(wxConvLibc.cWX2MB(ws), wxConvLibc.cWX2MB(format), argcopy);
1274 }
1275
1276 int vfwscanf(FILE *stream, const wxChar *format, va_list argptr)
1277 {
1278 wxFAIL_MSG( _T("TODO") );
1279
1280 return -1;
1281 }
1282
1283 #define vswprintf wxVsnprintf_
1284
1285 int vfwprintf(FILE *stream, const wxChar *format, va_list argptr)
1286 {
1287 wxString s;
1288 int rc = s.PrintfV(format, argptr);
1289
1290 if ( rc != -1 )
1291 {
1292 // we can't do much better without Unicode support in libc...
1293 if ( fprintf(stream, "%s", (const char*)s.mb_str() ) == -1 )
1294 return -1;
1295 }
1296
1297 return rc;
1298 }
1299
1300 int vwprintf(const wxChar *format, va_list argptr)
1301 {
1302 return wxVfprintf(stdout, format, argptr);
1303 }
1304
1305 #endif // wxNEED_WPRINTF
1306
1307 #ifdef wxNEED_PRINTF_CONVERSION
1308
1309 // ----------------------------------------------------------------------------
1310 // wxFormatConverter: class doing the "%s" -> "%ls" conversion
1311 // ----------------------------------------------------------------------------
1312
1313 /*
1314 Here are the gory details. We want to follow the Windows/MS conventions,
1315 that is to have
1316
1317 In ANSI mode:
1318
1319 format specifier results in
1320 -----------------------------------
1321 %c, %hc, %hC char
1322 %lc, %C, %lC wchar_t
1323
1324 In Unicode mode:
1325
1326 format specifier results in
1327 -----------------------------------
1328 %hc, %C, %hC char
1329 %c, %lc, %lC wchar_t
1330
1331
1332 while on POSIX systems we have %C identical to %lc and %c always means char
1333 (in any mode) while %lc always means wchar_t,
1334
1335 So to use native functions in order to get our semantics we must do the
1336 following translations in Unicode mode (nothing to do in ANSI mode):
1337
1338 wxWidgets specifier POSIX specifier
1339 ----------------------------------------
1340
1341 %hc, %C, %hC %c
1342 %c %lc
1343
1344
1345 And, of course, the same should be done for %s as well.
1346 */
1347
1348 class wxFormatConverter
1349 {
1350 public:
1351 wxFormatConverter(const wxChar *format);
1352
1353 // notice that we only translated the string if m_fmtOrig == NULL (as set
1354 // by CopyAllBefore()), otherwise we should simply use the original format
1355 operator const wxChar *() const
1356 { return m_fmtOrig ? m_fmtOrig : m_fmt.c_str(); }
1357
1358 private:
1359 // copy another character to the translated format: this function does the
1360 // copy if we are translating but doesn't do anything at all if we don't,
1361 // so we don't create the translated format string at all unless we really
1362 // need to (i.e. InsertFmtChar() is called)
1363 wxChar CopyFmtChar(wxChar ch)
1364 {
1365 if ( !m_fmtOrig )
1366 {
1367 // we're translating, do copy
1368 m_fmt += ch;
1369 }
1370 else
1371 {
1372 // simply increase the count which should be copied by
1373 // CopyAllBefore() later if needed
1374 m_nCopied++;
1375 }
1376
1377 return ch;
1378 }
1379
1380 // insert an extra character
1381 void InsertFmtChar(wxChar ch)
1382 {
1383 if ( m_fmtOrig )
1384 {
1385 // so far we haven't translated anything yet
1386 CopyAllBefore();
1387 }
1388
1389 m_fmt += ch;
1390 }
1391
1392 void CopyAllBefore()
1393 {
1394 wxASSERT_MSG( m_fmtOrig && m_fmt.empty(), _T("logic error") );
1395
1396 m_fmt = wxString(m_fmtOrig, m_nCopied);
1397
1398 // we won't need it any longer
1399 m_fmtOrig = NULL;
1400 }
1401
1402 static bool IsFlagChar(wxChar ch)
1403 {
1404 return ch == _T('-') || ch == _T('+') ||
1405 ch == _T('0') || ch == _T(' ') || ch == _T('#');
1406 }
1407
1408 void SkipDigits(const wxChar **ptpc)
1409 {
1410 while ( **ptpc >= _T('0') && **ptpc <= _T('9') )
1411 CopyFmtChar(*(*ptpc)++);
1412 }
1413
1414 // the translated format
1415 wxString m_fmt;
1416
1417 // the original format
1418 const wxChar *m_fmtOrig;
1419
1420 // the number of characters already copied
1421 size_t m_nCopied;
1422 };
1423
1424 wxFormatConverter::wxFormatConverter(const wxChar *format)
1425 {
1426 m_fmtOrig = format;
1427 m_nCopied = 0;
1428
1429 while ( *format )
1430 {
1431 if ( CopyFmtChar(*format++) == _T('%') )
1432 {
1433 // skip any flags
1434 while ( IsFlagChar(*format) )
1435 CopyFmtChar(*format++);
1436
1437 // and possible width
1438 if ( *format == _T('*') )
1439 CopyFmtChar(*format++);
1440 else
1441 SkipDigits(&format);
1442
1443 // precision?
1444 if ( *format == _T('.') )
1445 {
1446 CopyFmtChar(*format++);
1447 if ( *format == _T('*') )
1448 CopyFmtChar(*format++);
1449 else
1450 SkipDigits(&format);
1451 }
1452
1453 // next we can have a size modifier
1454 enum
1455 {
1456 Default,
1457 Short,
1458 Long
1459 } size;
1460
1461 switch ( *format )
1462 {
1463 case _T('h'):
1464 size = Short;
1465 format++;
1466 break;
1467
1468 case _T('l'):
1469 // "ll" has a different meaning!
1470 if ( format[1] != _T('l') )
1471 {
1472 size = Long;
1473 format++;
1474 break;
1475 }
1476 //else: fall through
1477
1478 default:
1479 size = Default;
1480 }
1481
1482 // and finally we should have the type
1483 switch ( *format )
1484 {
1485 case _T('C'):
1486 case _T('S'):
1487 // %C and %hC -> %c and %lC -> %lc
1488 if ( size == Long )
1489 CopyFmtChar(_T('l'));
1490
1491 InsertFmtChar(*format++ == _T('C') ? _T('c') : _T('s'));
1492 break;
1493
1494 case _T('c'):
1495 case _T('s'):
1496 // %c -> %lc but %hc stays %hc and %lc is still %lc
1497 if ( size == Default)
1498 InsertFmtChar(_T('l'));
1499 // fall through
1500
1501 default:
1502 // nothing special to do
1503 if ( size != Default )
1504 CopyFmtChar(*(format - 1));
1505 CopyFmtChar(*format++);
1506 }
1507 }
1508 }
1509 }
1510
1511 #else // !wxNEED_PRINTF_CONVERSION
1512 // no conversion necessary
1513 #define wxFormatConverter(x) (x)
1514 #endif // wxNEED_PRINTF_CONVERSION/!wxNEED_PRINTF_CONVERSION
1515
1516 #ifdef __WXDEBUG__
1517 // For testing the format converter
1518 wxString wxConvertFormat(const wxChar *format)
1519 {
1520 return wxString(wxFormatConverter(format));
1521 }
1522 #endif
1523
1524 // ----------------------------------------------------------------------------
1525 // wxPrintf(), wxScanf() and relatives
1526 // ----------------------------------------------------------------------------
1527
1528 #if defined(wxNEED_PRINTF_CONVERSION) || defined(wxNEED_WPRINTF)
1529
1530 int wxScanf( const wxChar *format, ... )
1531 {
1532 va_list argptr;
1533 va_start(argptr, format);
1534
1535 int ret = vwscanf(wxFormatConverter(format), argptr );
1536
1537 va_end(argptr);
1538
1539 return ret;
1540 }
1541
1542 int wxSscanf( const wxChar *str, const wxChar *format, ... )
1543 {
1544 va_list argptr;
1545 va_start(argptr, format);
1546
1547 int ret = vswscanf( str, wxFormatConverter(format), argptr );
1548
1549 va_end(argptr);
1550
1551 return ret;
1552 }
1553
1554 int wxFscanf( FILE *stream, const wxChar *format, ... )
1555 {
1556 va_list argptr;
1557 va_start(argptr, format);
1558 int ret = vfwscanf(stream, wxFormatConverter(format), argptr);
1559
1560 va_end(argptr);
1561
1562 return ret;
1563 }
1564
1565 int wxPrintf( const wxChar *format, ... )
1566 {
1567 va_list argptr;
1568 va_start(argptr, format);
1569
1570 int ret = vwprintf( wxFormatConverter(format), argptr );
1571
1572 va_end(argptr);
1573
1574 return ret;
1575 }
1576
1577 #ifndef wxSnprintf
1578 int wxSnprintf( wxChar *str, size_t size, const wxChar *format, ... )
1579 {
1580 va_list argptr;
1581 va_start(argptr, format);
1582
1583 int ret = vswprintf( str, size, wxFormatConverter(format), argptr );
1584
1585 // VsnprintfTestCase reveals that glibc's implementation of vswprintf
1586 // doesn't nul terminate on truncation.
1587 str[size - 1] = 0;
1588
1589 va_end(argptr);
1590
1591 return ret;
1592 }
1593 #endif // wxSnprintf
1594
1595 int wxSprintf( wxChar *str, const wxChar *format, ... )
1596 {
1597 va_list argptr;
1598 va_start(argptr, format);
1599
1600 // note that wxString::FormatV() uses wxVsnprintf(), not wxSprintf(), so
1601 // it's safe to implement this one in terms of it
1602 wxString s(wxString::FormatV(format, argptr));
1603 wxStrcpy(str, s);
1604
1605 va_end(argptr);
1606
1607 return s.length();
1608 }
1609
1610 int wxFprintf( FILE *stream, const wxChar *format, ... )
1611 {
1612 va_list argptr;
1613 va_start( argptr, format );
1614
1615 int ret = vfwprintf( stream, wxFormatConverter(format), argptr );
1616
1617 va_end(argptr);
1618
1619 return ret;
1620 }
1621
1622 int wxVsscanf( const wxChar *str, const wxChar *format, va_list argptr )
1623 {
1624 return vswscanf( str, wxFormatConverter(format), argptr );
1625 }
1626
1627 int wxVfprintf( FILE *stream, const wxChar *format, va_list argptr )
1628 {
1629 return vfwprintf( stream, wxFormatConverter(format), argptr );
1630 }
1631
1632 int wxVprintf( const wxChar *format, va_list argptr )
1633 {
1634 return vwprintf( wxFormatConverter(format), argptr );
1635 }
1636
1637 #ifndef wxVsnprintf
1638 int wxVsnprintf( wxChar *str, size_t size, const wxChar *format, va_list argptr )
1639 {
1640 return vswprintf( str, size, wxFormatConverter(format), argptr );
1641 }
1642 #endif // wxVsnprintf
1643
1644 int wxVsprintf( wxChar *str, const wxChar *format, va_list argptr )
1645 {
1646 // same as for wxSprintf()
1647 return vswprintf(str, INT_MAX / 4, wxFormatConverter(format), argptr);
1648 }
1649
1650 #endif // wxNEED_PRINTF_CONVERSION
1651
1652 #if wxUSE_WCHAR_T
1653
1654 // ----------------------------------------------------------------------------
1655 // ctype.h stuff (currently unused)
1656 // ----------------------------------------------------------------------------
1657
1658 #if defined(__WIN32__) && defined(wxNEED_WX_CTYPE_H)
1659 inline WORD wxMSW_ctype(wxChar ch)
1660 {
1661 WORD ret;
1662 GetStringTypeEx(LOCALE_USER_DEFAULT, CT_CTYPE1, &ch, 1, &ret);
1663 return ret;
1664 }
1665
1666 WXDLLEXPORT int wxIsalnum(wxChar ch) { return IsCharAlphaNumeric(ch); }
1667 WXDLLEXPORT int wxIsalpha(wxChar ch) { return IsCharAlpha(ch); }
1668 WXDLLEXPORT int wxIscntrl(wxChar ch) { return wxMSW_ctype(ch) & C1_CNTRL; }
1669 WXDLLEXPORT int wxIsdigit(wxChar ch) { return wxMSW_ctype(ch) & C1_DIGIT; }
1670 WXDLLEXPORT int wxIsgraph(wxChar ch) { return wxMSW_ctype(ch) & (C1_DIGIT|C1_PUNCT|C1_ALPHA); }
1671 WXDLLEXPORT int wxIslower(wxChar ch) { return IsCharLower(ch); }
1672 WXDLLEXPORT int wxIsprint(wxChar ch) { return wxMSW_ctype(ch) & (C1_DIGIT|C1_SPACE|C1_PUNCT|C1_ALPHA); }
1673 WXDLLEXPORT int wxIspunct(wxChar ch) { return wxMSW_ctype(ch) & C1_PUNCT; }
1674 WXDLLEXPORT int wxIsspace(wxChar ch) { return wxMSW_ctype(ch) & C1_SPACE; }
1675 WXDLLEXPORT int wxIsupper(wxChar ch) { return IsCharUpper(ch); }
1676 WXDLLEXPORT int wxIsxdigit(wxChar ch) { return wxMSW_ctype(ch) & C1_XDIGIT; }
1677 WXDLLEXPORT int wxTolower(wxChar ch) { return (wxChar)CharLower((LPTSTR)(ch)); }
1678 WXDLLEXPORT int wxToupper(wxChar ch) { return (wxChar)CharUpper((LPTSTR)(ch)); }
1679 #endif
1680
1681 #ifdef wxNEED_WX_MBSTOWCS
1682
1683 WXDLLEXPORT size_t wxMbstowcs (wchar_t * out, const char * in, size_t outlen)
1684 {
1685 if (!out)
1686 {
1687 size_t outsize = 0;
1688 while(*in++)
1689 outsize++;
1690 return outsize;
1691 }
1692
1693 const char* origin = in;
1694
1695 while (outlen-- && *in)
1696 {
1697 *out++ = (wchar_t) *in++;
1698 }
1699
1700 *out = '\0';
1701
1702 return in - origin;
1703 }
1704
1705 WXDLLEXPORT size_t wxWcstombs (char * out, const wchar_t * in, size_t outlen)
1706 {
1707 if (!out)
1708 {
1709 size_t outsize = 0;
1710 while(*in++)
1711 outsize++;
1712 return outsize;
1713 }
1714
1715 const wchar_t* origin = in;
1716
1717 while (outlen-- && *in)
1718 {
1719 *out++ = (char) *in++;
1720 }
1721
1722 *out = '\0';
1723
1724 return in - origin;
1725 }
1726
1727 #endif // wxNEED_WX_MBSTOWCS
1728
1729 #if defined(wxNEED_WX_CTYPE_H)
1730
1731 #include <CoreFoundation/CoreFoundation.h>
1732
1733 #define cfalnumset CFCharacterSetGetPredefined(kCFCharacterSetAlphaNumeric)
1734 #define cfalphaset CFCharacterSetGetPredefined(kCFCharacterSetLetter)
1735 #define cfcntrlset CFCharacterSetGetPredefined(kCFCharacterSetControl)
1736 #define cfdigitset CFCharacterSetGetPredefined(kCFCharacterSetDecimalDigit)
1737 //CFCharacterSetRef cfgraphset = kCFCharacterSetControl && !' '
1738 #define cflowerset CFCharacterSetGetPredefined(kCFCharacterSetLowercaseLetter)
1739 //CFCharacterSetRef cfprintset = !kCFCharacterSetControl
1740 #define cfpunctset CFCharacterSetGetPredefined(kCFCharacterSetPunctuation)
1741 #define cfspaceset CFCharacterSetGetPredefined(kCFCharacterSetWhitespaceAndNewline)
1742 #define cfupperset CFCharacterSetGetPredefined(kCFCharacterSetUppercaseLetter)
1743
1744 WXDLLEXPORT int wxIsalnum(wxChar ch) { return CFCharacterSetIsCharacterMember(cfalnumset, ch); }
1745 WXDLLEXPORT int wxIsalpha(wxChar ch) { return CFCharacterSetIsCharacterMember(cfalphaset, ch); }
1746 WXDLLEXPORT int wxIscntrl(wxChar ch) { return CFCharacterSetIsCharacterMember(cfcntrlset, ch); }
1747 WXDLLEXPORT int wxIsdigit(wxChar ch) { return CFCharacterSetIsCharacterMember(cfdigitset, ch); }
1748 WXDLLEXPORT int wxIsgraph(wxChar ch) { return !CFCharacterSetIsCharacterMember(cfcntrlset, ch) && ch != ' '; }
1749 WXDLLEXPORT int wxIslower(wxChar ch) { return CFCharacterSetIsCharacterMember(cflowerset, ch); }
1750 WXDLLEXPORT int wxIsprint(wxChar ch) { return !CFCharacterSetIsCharacterMember(cfcntrlset, ch); }
1751 WXDLLEXPORT int wxIspunct(wxChar ch) { return CFCharacterSetIsCharacterMember(cfpunctset, ch); }
1752 WXDLLEXPORT int wxIsspace(wxChar ch) { return CFCharacterSetIsCharacterMember(cfspaceset, ch); }
1753 WXDLLEXPORT int wxIsupper(wxChar ch) { return CFCharacterSetIsCharacterMember(cfupperset, ch); }
1754 WXDLLEXPORT int wxIsxdigit(wxChar ch) { return wxIsdigit(ch) || (ch>='a' && ch<='f') || (ch>='A' && ch<='F'); }
1755 WXDLLEXPORT int wxTolower(wxChar ch) { return (wxChar)tolower((char)(ch)); }
1756 WXDLLEXPORT int wxToupper(wxChar ch) { return (wxChar)toupper((char)(ch)); }
1757
1758 #endif // wxNEED_WX_CTYPE_H
1759
1760 #ifndef wxStrdupA
1761
1762 WXDLLEXPORT char *wxStrdupA(const char *s)
1763 {
1764 return strcpy((char *)malloc(strlen(s) + 1), s);
1765 }
1766
1767 #endif // wxStrdupA
1768
1769 #ifndef wxStrdupW
1770
1771 WXDLLEXPORT wchar_t * wxStrdupW(const wchar_t *pwz)
1772 {
1773 size_t size = (wxWcslen(pwz) + 1) * sizeof(wchar_t);
1774 wchar_t *ret = (wchar_t *) malloc(size);
1775 memcpy(ret, pwz, size);
1776 return ret;
1777 }
1778
1779 #endif // wxStrdupW
1780
1781 #ifndef wxStricmp
1782 int WXDLLEXPORT wxStricmp(const wxChar *psz1, const wxChar *psz2)
1783 {
1784 register wxChar c1, c2;
1785 do {
1786 c1 = wxTolower(*psz1++);
1787 c2 = wxTolower(*psz2++);
1788 } while ( c1 && (c1 == c2) );
1789 return c1 - c2;
1790 }
1791 #endif
1792
1793 #ifndef wxStricmp
1794 int WXDLLEXPORT wxStrnicmp(const wxChar *s1, const wxChar *s2, size_t n)
1795 {
1796 // initialize the variables just to suppress stupid gcc warning
1797 register wxChar c1 = 0, c2 = 0;
1798 while (n && ((c1 = wxTolower(*s1)) == (c2 = wxTolower(*s2)) ) && c1) n--, s1++, s2++;
1799 if (n) {
1800 if (c1 < c2) return -1;
1801 if (c1 > c2) return 1;
1802 }
1803 return 0;
1804 }
1805 #endif
1806
1807 #ifndef wxSetlocale
1808 WXDLLEXPORT wxWCharBuffer wxSetlocale(int category, const wxChar *locale)
1809 {
1810 char *localeOld = setlocale(category, wxConvLibc.cWX2MB(locale));
1811
1812 return wxWCharBuffer(wxConvLibc.cMB2WC(localeOld));
1813 }
1814 #endif
1815
1816 #if wxUSE_WCHAR_T && !defined(HAVE_WCSLEN)
1817 WXDLLEXPORT size_t wxWcslen(const wchar_t *s)
1818 {
1819 size_t n = 0;
1820 while ( *s++ )
1821 n++;
1822
1823 return n;
1824 }
1825 #endif
1826
1827 // ----------------------------------------------------------------------------
1828 // string.h functions
1829 // ----------------------------------------------------------------------------
1830
1831 #ifdef wxNEED_WX_STRING_H
1832
1833 // RN: These need to be c externed for the regex lib
1834 #ifdef __cplusplus
1835 extern "C" {
1836 #endif
1837
1838 WXDLLEXPORT wxChar * wxStrcat(wxChar *dest, const wxChar *src)
1839 {
1840 wxChar *ret = dest;
1841 while (*dest) dest++;
1842 while ((*dest++ = *src++));
1843 return ret;
1844 }
1845
1846 WXDLLEXPORT const wxChar * wxStrchr(const wxChar *s, wxChar c)
1847 {
1848 // be careful here as the terminating NUL makes part of the string
1849 while ( *s != c )
1850 {
1851 if ( !*s++ )
1852 return NULL;
1853 }
1854
1855 return s;
1856 }
1857
1858 WXDLLEXPORT int wxStrcmp(const wxChar *s1, const wxChar *s2)
1859 {
1860 while ((*s1 == *s2) && *s1) s1++, s2++;
1861 if ((wxUChar)*s1 < (wxUChar)*s2) return -1;
1862 if ((wxUChar)*s1 > (wxUChar)*s2) return 1;
1863 return 0;
1864 }
1865
1866 WXDLLEXPORT wxChar * wxStrcpy(wxChar *dest, const wxChar *src)
1867 {
1868 wxChar *ret = dest;
1869 while ((*dest++ = *src++));
1870 return ret;
1871 }
1872
1873 WXDLLEXPORT size_t wxStrlen_(const wxChar *s)
1874 {
1875 size_t n = 0;
1876 while ( *s++ )
1877 n++;
1878
1879 return n;
1880 }
1881
1882
1883 WXDLLEXPORT wxChar * wxStrncat(wxChar *dest, const wxChar *src, size_t n)
1884 {
1885 wxChar *ret = dest;
1886 while (*dest) dest++;
1887 while (n && (*dest++ = *src++)) n--;
1888 return ret;
1889 }
1890
1891 WXDLLEXPORT int wxStrncmp(const wxChar *s1, const wxChar *s2, size_t n)
1892 {
1893 while (n && (*s1 == *s2) && *s1) n--, s1++, s2++;
1894 if (n) {
1895 if ((wxUChar)*s1 < (wxUChar)*s2) return -1;
1896 if ((wxUChar)*s1 > (wxUChar)*s2) return 1;
1897 }
1898 return 0;
1899 }
1900
1901 WXDLLEXPORT wxChar * wxStrncpy(wxChar *dest, const wxChar *src, size_t n)
1902 {
1903 wxChar *ret = dest;
1904 while (n && (*dest++ = *src++)) n--;
1905 while (n) *dest++=0, n--; // the docs specify padding with zeroes
1906 return ret;
1907 }
1908
1909 WXDLLEXPORT const wxChar * wxStrpbrk(const wxChar *s, const wxChar *accept)
1910 {
1911 while (*s && !wxStrchr(accept, *s))
1912 s++;
1913
1914 return *s ? s : NULL;
1915 }
1916
1917 WXDLLEXPORT const wxChar * wxStrrchr(const wxChar *s, wxChar c)
1918 {
1919 const wxChar *ret = NULL;
1920 do
1921 {
1922 if ( *s == c )
1923 ret = s;
1924 s++;
1925 }
1926 while ( *s );
1927
1928 return ret;
1929 }
1930
1931 WXDLLEXPORT size_t wxStrspn(const wxChar *s, const wxChar *accept)
1932 {
1933 size_t len = 0;
1934 while (wxStrchr(accept, *s++)) len++;
1935 return len;
1936 }
1937
1938 WXDLLEXPORT const wxChar *wxStrstr(const wxChar *haystack, const wxChar *needle)
1939 {
1940 wxASSERT_MSG( needle != NULL, _T("NULL argument in wxStrstr") );
1941
1942 // VZ: this is not exactly the most efficient string search algorithm...
1943
1944 const size_t len = wxStrlen(needle);
1945
1946 while ( const wxChar *fnd = wxStrchr(haystack, *needle) )
1947 {
1948 if ( !wxStrncmp(fnd, needle, len) )
1949 return fnd;
1950
1951 haystack = fnd + 1;
1952 }
1953
1954 return NULL;
1955 }
1956
1957 #ifdef __cplusplus
1958 }
1959 #endif
1960
1961 WXDLLEXPORT double wxStrtod(const wxChar *nptr, wxChar **endptr)
1962 {
1963 const wxChar *start = nptr;
1964
1965 // FIXME: only correct for C locale
1966 while (wxIsspace(*nptr)) nptr++;
1967 if (*nptr == wxT('+') || *nptr == wxT('-')) nptr++;
1968 while (wxIsdigit(*nptr)) nptr++;
1969 if (*nptr == wxT('.')) {
1970 nptr++;
1971 while (wxIsdigit(*nptr)) nptr++;
1972 }
1973 if (*nptr == wxT('E') || *nptr == wxT('e')) {
1974 nptr++;
1975 if (*nptr == wxT('+') || *nptr == wxT('-')) nptr++;
1976 while (wxIsdigit(*nptr)) nptr++;
1977 }
1978
1979 wxString data(nptr, nptr-start);
1980 wxWX2MBbuf dat = data.mb_str(wxConvLibc);
1981 char *rdat = wxMBSTRINGCAST dat;
1982 double ret = strtod(dat, &rdat);
1983
1984 if (endptr) *endptr = (wxChar *)(start + (rdat - (const char *)dat));
1985
1986 return ret;
1987 }
1988
1989 WXDLLEXPORT long int wxStrtol(const wxChar *nptr, wxChar **endptr, int base)
1990 {
1991 const wxChar *start = nptr;
1992
1993 // FIXME: only correct for C locale
1994 while (wxIsspace(*nptr)) nptr++;
1995 if (*nptr == wxT('+') || *nptr == wxT('-')) nptr++;
1996 if (((base == 0) || (base == 16)) &&
1997 (nptr[0] == wxT('0') && nptr[1] == wxT('x'))) {
1998 nptr += 2;
1999 base = 16;
2000 }
2001 else if ((base == 0) && (nptr[0] == wxT('0'))) base = 8;
2002 else if (base == 0) base = 10;
2003
2004 while ((wxIsdigit(*nptr) && (*nptr - wxT('0') < base)) ||
2005 (wxIsalpha(*nptr) && (wxToupper(*nptr) - wxT('A') + 10 < base))) nptr++;
2006
2007 wxString data(start, nptr-start);
2008 wxWX2MBbuf dat = data.mb_str(wxConvLibc);
2009 char *rdat = wxMBSTRINGCAST dat;
2010 long int ret = strtol(dat, &rdat, base);
2011
2012 if (endptr) *endptr = (wxChar *)(start + (rdat - (const char *)dat));
2013
2014 return ret;
2015 }
2016
2017 WXDLLEXPORT unsigned long int wxStrtoul(const wxChar *nptr, wxChar **endptr, int base)
2018 {
2019 return (unsigned long int) wxStrtol(nptr, endptr, base);
2020 }
2021
2022 #endif // wxNEED_WX_STRING_H
2023
2024 #ifdef wxNEED_WX_STDIO_H
2025 WXDLLEXPORT FILE * wxFopen(const wxChar *path, const wxChar *mode)
2026 {
2027 char mode_buffer[10];
2028 for (size_t i = 0; i < wxStrlen(mode)+1; i++)
2029 mode_buffer[i] = (char) mode[i];
2030
2031 return fopen( wxConvFile.cWX2MB(path), mode_buffer );
2032 }
2033
2034 WXDLLEXPORT FILE * wxFreopen(const wxChar *path, const wxChar *mode, FILE *stream)
2035 {
2036 char mode_buffer[10];
2037 for (size_t i = 0; i < wxStrlen(mode)+1; i++)
2038 mode_buffer[i] = (char) mode[i];
2039
2040 return freopen( wxConvFile.cWX2MB(path), mode_buffer, stream );
2041 }
2042
2043 WXDLLEXPORT int wxRemove(const wxChar *path)
2044 {
2045 return remove( wxConvFile.cWX2MB(path) );
2046 }
2047
2048 WXDLLEXPORT int wxRename(const wxChar *oldpath, const wxChar *newpath)
2049 {
2050 return rename( wxConvFile.cWX2MB(oldpath), wxConvFile.cWX2MB(newpath) );
2051 }
2052 #endif
2053
2054 #ifndef wxAtof
2055 double WXDLLEXPORT wxAtof(const wxChar *psz)
2056 {
2057 #ifdef __WXWINCE__
2058 double d;
2059 wxString str(psz);
2060 if (str.ToDouble(& d))
2061 return d;
2062
2063 return 0.0;
2064 #else
2065 return atof(wxConvLibc.cWX2MB(psz));
2066 #endif
2067 }
2068 #endif
2069
2070 #ifdef wxNEED_WX_STDLIB_H
2071 int WXDLLEXPORT wxAtoi(const wxChar *psz)
2072 {
2073 return atoi(wxConvLibc.cWX2MB(psz));
2074 }
2075
2076 long WXDLLEXPORT wxAtol(const wxChar *psz)
2077 {
2078 return atol(wxConvLibc.cWX2MB(psz));
2079 }
2080
2081 wxChar * WXDLLEXPORT wxGetenv(const wxChar *name)
2082 {
2083 #if wxUSE_UNICODE
2084 // NB: buffer returned by getenv() is allowed to be overwritten next
2085 // time getenv() is called, so it is OK to use static string
2086 // buffer to hold the data.
2087 static wxWCharBuffer value((wxChar*)NULL);
2088 value = wxConvLibc.cMB2WX(getenv(wxConvLibc.cWX2MB(name)));
2089 return value.data();
2090 #else
2091 return getenv(name);
2092 #endif
2093 }
2094
2095 int WXDLLEXPORT wxSystem(const wxChar *psz)
2096 {
2097 return system(wxConvLibc.cWX2MB(psz));
2098 }
2099
2100 #endif // wxNEED_WX_STDLIB_H
2101
2102 #ifdef wxNEED_WX_TIME_H
2103 WXDLLEXPORT size_t
2104 wxStrftime(wxChar *s, size_t maxsize, const wxChar *fmt, const struct tm *tm)
2105 {
2106 if ( !maxsize )
2107 return 0;
2108
2109 wxCharBuffer buf(maxsize);
2110
2111 wxCharBuffer bufFmt(wxConvLibc.cWX2MB(fmt));
2112 if ( !bufFmt )
2113 return 0;
2114
2115 size_t ret = strftime(buf.data(), maxsize, bufFmt, tm);
2116 if ( !ret )
2117 return 0;
2118
2119 wxWCharBuffer wbuf = wxConvLibc.cMB2WX(buf);
2120 if ( !wbuf )
2121 return 0;
2122
2123 wxStrncpy(s, wbuf, maxsize);
2124 return wxStrlen(s);
2125 }
2126 #endif // wxNEED_WX_TIME_H
2127
2128 #ifndef wxCtime
2129 WXDLLEXPORT wxChar *wxCtime(const time_t *timep)
2130 {
2131 // normally the string is 26 chars but give one more in case some broken
2132 // DOS compiler decides to use "\r\n" instead of "\n" at the end
2133 static wxChar buf[27];
2134
2135 // ctime() is guaranteed to return a string containing only ASCII
2136 // characters, as its format is always the same for any locale
2137 wxStrncpy(buf, wxString::FromAscii(ctime(timep)), WXSIZEOF(buf));
2138 buf[WXSIZEOF(buf) - 1] = _T('\0');
2139
2140 return buf;
2141 }
2142 #endif // wxCtime
2143
2144 #endif // wxUSE_WCHAR_T
2145
2146 // ----------------------------------------------------------------------------
2147 // functions which we may need even if !wxUSE_WCHAR_T
2148 // ----------------------------------------------------------------------------
2149
2150 #ifndef wxStrtok
2151
2152 WXDLLEXPORT wxChar * wxStrtok(wxChar *psz, const wxChar *delim, wxChar **save_ptr)
2153 {
2154 if (!psz)
2155 {
2156 psz = *save_ptr;
2157 if ( !psz )
2158 return NULL;
2159 }
2160
2161 psz += wxStrspn(psz, delim);
2162 if (!*psz)
2163 {
2164 *save_ptr = (wxChar *)NULL;
2165 return (wxChar *)NULL;
2166 }
2167
2168 wxChar *ret = psz;
2169 psz = wxStrpbrk(psz, delim);
2170 if (!psz)
2171 {
2172 *save_ptr = (wxChar*)NULL;
2173 }
2174 else
2175 {
2176 *psz = wxT('\0');
2177 *save_ptr = psz + 1;
2178 }
2179
2180 return ret;
2181 }
2182
2183 #endif // wxStrtok
2184
2185 // ----------------------------------------------------------------------------
2186 // missing C RTL functions
2187 // ----------------------------------------------------------------------------
2188
2189 #ifdef wxNEED_STRDUP
2190
2191 char *strdup(const char *s)
2192 {
2193 char *dest = (char*) malloc( strlen( s ) + 1 ) ;
2194 if ( dest )
2195 strcpy( dest , s ) ;
2196 return dest ;
2197 }
2198 #endif // wxNEED_STRDUP
2199
2200 #if defined(__WXWINCE__) && (_WIN32_WCE <= 211)
2201
2202 void *calloc( size_t num, size_t size )
2203 {
2204 void** ptr = (void **)malloc(num * size);
2205 memset( ptr, 0, num * size);
2206 return ptr;
2207 }
2208
2209 #endif // __WXWINCE__ <= 211
2210
2211 #ifdef __WXWINCE__
2212
2213 int wxRemove(const wxChar *path)
2214 {
2215 return ::DeleteFile(path) == 0;
2216 }
2217
2218 #endif