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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: src/common/strconv.cpp
3 // Purpose: Unicode conversion classes
4 // Author: Ove Kaaven, Robert Roebling, Vadim Zeitlin, Vaclav Slavik,
5 // Ryan Norton, Fredrik Roubert (UTF7)
6 // Modified by:
7 // Created: 29/01/98
8 // RCS-ID: $Id$
9 // Copyright: (c) 1999 Ove Kaaven, Robert Roebling, Vaclav Slavik
10 // (c) 2000-2003 Vadim Zeitlin
11 // (c) 2004 Ryan Norton, Fredrik Roubert
12 // Licence: wxWindows licence
13 /////////////////////////////////////////////////////////////////////////////
14
15 // For compilers that support precompilation, includes "wx.h".
16 #include "wx/wxprec.h"
17
18 #ifdef __BORLANDC__
19 #pragma hdrstop
20 #endif //__BORLANDC__
21
22 #ifndef WX_PRECOMP
23 #include "wx/intl.h"
24 #include "wx/log.h"
25 #include "wx/utils.h"
26 #include "wx/hashmap.h"
27 #endif
28
29 #include "wx/strconv.h"
30
31 #ifndef __WXWINCE__
32 #include <errno.h>
33 #endif
34
35 #include <ctype.h>
36 #include <string.h>
37 #include <stdlib.h>
38
39 #if defined(__WIN32__) && !defined(__WXMICROWIN__)
40 #include "wx/msw/private.h"
41 #include "wx/msw/missing.h"
42 #define wxHAVE_WIN32_MB2WC
43 #endif
44
45 #ifdef HAVE_ICONV
46 #include <iconv.h>
47 #include "wx/thread.h"
48 #endif
49
50 #include "wx/encconv.h"
51 #include "wx/fontmap.h"
52
53 #ifdef __DARWIN__
54 #include "wx/osx/core/private/strconv_cf.h"
55 #endif //def __DARWIN__
56
57
58 #define TRACE_STRCONV wxT("strconv")
59
60 // WC_UTF16 is defined only if sizeof(wchar_t) == 2, otherwise it's supposed to
61 // be 4 bytes
62 #if SIZEOF_WCHAR_T == 2
63 #define WC_UTF16
64 #endif
65
66
67 // ============================================================================
68 // implementation
69 // ============================================================================
70
71 // helper function of cMB2WC(): check if n bytes at this location are all NUL
72 static bool NotAllNULs(const char *p, size_t n)
73 {
74 while ( n && *p++ == '\0' )
75 n--;
76
77 return n != 0;
78 }
79
80 // ----------------------------------------------------------------------------
81 // UTF-16 en/decoding to/from UCS-4 with surrogates handling
82 // ----------------------------------------------------------------------------
83
84 static size_t encode_utf16(wxUint32 input, wxUint16 *output)
85 {
86 if (input <= 0xffff)
87 {
88 if (output)
89 *output = (wxUint16) input;
90
91 return 1;
92 }
93 else if (input >= 0x110000)
94 {
95 return wxCONV_FAILED;
96 }
97 else
98 {
99 if (output)
100 {
101 *output++ = (wxUint16) ((input >> 10) + 0xd7c0);
102 *output = (wxUint16) ((input & 0x3ff) + 0xdc00);
103 }
104
105 return 2;
106 }
107 }
108
109 static size_t decode_utf16(const wxUint16* input, wxUint32& output)
110 {
111 if ((*input < 0xd800) || (*input > 0xdfff))
112 {
113 output = *input;
114 return 1;
115 }
116 else if ((input[1] < 0xdc00) || (input[1] > 0xdfff))
117 {
118 output = *input;
119 return wxCONV_FAILED;
120 }
121 else
122 {
123 output = ((input[0] - 0xd7c0) << 10) + (input[1] - 0xdc00);
124 return 2;
125 }
126 }
127
128 #ifdef WC_UTF16
129 typedef wchar_t wxDecodeSurrogate_t;
130 #else // !WC_UTF16
131 typedef wxUint16 wxDecodeSurrogate_t;
132 #endif // WC_UTF16/!WC_UTF16
133
134 // returns the next UTF-32 character from the wchar_t buffer and advances the
135 // pointer to the character after this one
136 //
137 // if an invalid character is found, *pSrc is set to NULL, the caller must
138 // check for this
139 static wxUint32 wxDecodeSurrogate(const wxDecodeSurrogate_t **pSrc)
140 {
141 wxUint32 out;
142 const size_t
143 n = decode_utf16(reinterpret_cast<const wxUint16 *>(*pSrc), out);
144 if ( n == wxCONV_FAILED )
145 *pSrc = NULL;
146 else
147 *pSrc += n;
148
149 return out;
150 }
151
152 // ----------------------------------------------------------------------------
153 // wxMBConv
154 // ----------------------------------------------------------------------------
155
156 size_t
157 wxMBConv::ToWChar(wchar_t *dst, size_t dstLen,
158 const char *src, size_t srcLen) const
159 {
160 // although new conversion classes are supposed to implement this function
161 // directly, the existing ones only implement the old MB2WC() and so, to
162 // avoid to have to rewrite all conversion classes at once, we provide a
163 // default (but not efficient) implementation of this one in terms of the
164 // old function by copying the input to ensure that it's NUL-terminated and
165 // then using MB2WC() to convert it
166 //
167 // moreover, some conversion classes simply can't implement ToWChar()
168 // directly, the primary example is wxConvLibc: mbstowcs() only handles
169 // NUL-terminated strings
170
171 // the number of chars [which would be] written to dst [if it were not NULL]
172 size_t dstWritten = 0;
173
174 // the number of NULs terminating this string
175 size_t nulLen = 0; // not really needed, but just to avoid warnings
176
177 // if we were not given the input size we just have to assume that the
178 // string is properly terminated as we have no way of knowing how long it
179 // is anyhow, but if we do have the size check whether there are enough
180 // NULs at the end
181 wxCharBuffer bufTmp;
182 const char *srcEnd;
183 if ( srcLen != wxNO_LEN )
184 {
185 // we need to know how to find the end of this string
186 nulLen = GetMBNulLen();
187 if ( nulLen == wxCONV_FAILED )
188 return wxCONV_FAILED;
189
190 // if there are enough NULs we can avoid the copy
191 if ( srcLen < nulLen || NotAllNULs(src + srcLen - nulLen, nulLen) )
192 {
193 // make a copy in order to properly NUL-terminate the string
194 bufTmp = wxCharBuffer(srcLen + nulLen - 1 /* 1 will be added */);
195 char * const p = bufTmp.data();
196 memcpy(p, src, srcLen);
197 for ( char *s = p + srcLen; s < p + srcLen + nulLen; s++ )
198 *s = '\0';
199
200 src = bufTmp;
201 }
202
203 srcEnd = src + srcLen;
204 }
205 else // quit after the first loop iteration
206 {
207 srcEnd = NULL;
208 }
209
210 // the idea of this code is straightforward: it converts a NUL-terminated
211 // chunk of the string during each iteration and updates the output buffer
212 // with the result
213 //
214 // all the complication come from the fact that this function, for
215 // historical reasons, must behave in 2 subtly different ways when it's
216 // called with a fixed number of characters and when it's called for the
217 // entire NUL-terminated string: in the former case (srcEnd != NULL) we
218 // must count all characters we convert, NUL or not; but in the latter we
219 // do not count the trailing NUL -- but still count all the NULs inside the
220 // string
221 //
222 // so for the (simple) former case we just always count the trailing NUL,
223 // but for the latter we need to wait until we see if there is going to be
224 // another loop iteration and only count it then
225 for ( ;; )
226 {
227 // try to convert the current chunk
228 size_t lenChunk = MB2WC(NULL, src, 0);
229 if ( lenChunk == wxCONV_FAILED )
230 return wxCONV_FAILED;
231
232 dstWritten += lenChunk;
233 if ( !srcEnd )
234 dstWritten++;
235
236 if ( !lenChunk )
237 {
238 // nothing left in the input string, conversion succeeded
239 break;
240 }
241
242 if ( dst )
243 {
244 if ( dstWritten > dstLen )
245 return wxCONV_FAILED;
246
247 // +1 is for trailing NUL
248 if ( MB2WC(dst, src, lenChunk + 1) == wxCONV_FAILED )
249 return wxCONV_FAILED;
250
251 dst += lenChunk;
252 if ( !srcEnd )
253 dst++;
254 }
255
256 if ( !srcEnd )
257 {
258 // we convert just one chunk in this case as this is the entire
259 // string anyhow (and we don't count the trailing NUL in this case)
260 break;
261 }
262
263 // advance the input pointer past the end of this chunk: notice that we
264 // will always stop before srcEnd because we know that the chunk is
265 // always properly NUL-terminated
266 while ( NotAllNULs(src, nulLen) )
267 {
268 // notice that we must skip over multiple bytes here as we suppose
269 // that if NUL takes 2 or 4 bytes, then all the other characters do
270 // too and so if advanced by a single byte we might erroneously
271 // detect sequences of NUL bytes in the middle of the input
272 src += nulLen;
273 }
274
275 // if the buffer ends before this NUL, we shouldn't count it in our
276 // output so skip the code below
277 if ( src == srcEnd )
278 break;
279
280 // do count this terminator as it's inside the buffer we convert
281 dstWritten++;
282 if ( dst )
283 dst++;
284
285 src += nulLen; // skip the terminator itself
286
287 if ( src >= srcEnd )
288 break;
289 }
290
291 return dstWritten;
292 }
293
294 size_t
295 wxMBConv::FromWChar(char *dst, size_t dstLen,
296 const wchar_t *src, size_t srcLen) const
297 {
298 // the number of chars [which would be] written to dst [if it were not NULL]
299 size_t dstWritten = 0;
300
301 // if we don't know its length we have no choice but to assume that it is
302 // NUL-terminated (notice that it can still be NUL-terminated even if
303 // explicit length is given but it doesn't change our return value)
304 const bool isNulTerminated = srcLen == wxNO_LEN;
305
306 // make a copy of the input string unless it is already properly
307 // NUL-terminated
308 wxWCharBuffer bufTmp;
309 if ( isNulTerminated )
310 {
311 srcLen = wxWcslen(src) + 1;
312 }
313 else if ( srcLen != 0 && src[srcLen - 1] != L'\0' )
314 {
315 // make a copy in order to properly NUL-terminate the string
316 bufTmp = wxWCharBuffer(srcLen);
317 memcpy(bufTmp.data(), src, srcLen * sizeof(wchar_t));
318 src = bufTmp;
319 }
320
321 const size_t lenNul = GetMBNulLen();
322 for ( const wchar_t * const srcEnd = src + srcLen;
323 src < srcEnd;
324 src++ /* skip L'\0' too */ )
325 {
326 // try to convert the current chunk
327 size_t lenChunk = WC2MB(NULL, src, 0);
328 if ( lenChunk == wxCONV_FAILED )
329 return wxCONV_FAILED;
330
331 dstWritten += lenChunk;
332
333 const wchar_t * const
334 chunkEnd = isNulTerminated ? srcEnd - 1 : src + wxWcslen(src);
335
336 // our return value accounts for the trailing NUL(s), unlike that of
337 // WC2MB(), however don't do it for the last NUL we artificially added
338 // ourselves above
339 if ( chunkEnd < srcEnd )
340 dstWritten += lenNul;
341
342 if ( dst )
343 {
344 if ( dstWritten > dstLen )
345 return wxCONV_FAILED;
346
347 // if we know that there is enough space in the destination buffer
348 // (because we accounted for lenNul in dstWritten above), we can
349 // convert directly in place -- but otherwise we need another
350 // temporary buffer to ensure that we don't overwrite the output
351 wxCharBuffer dstBuf;
352 char *dstTmp;
353 if ( chunkEnd == srcEnd )
354 {
355 dstBuf = wxCharBuffer(lenChunk + lenNul - 1);
356 dstTmp = dstBuf.data();
357 }
358 else
359 {
360 dstTmp = dst;
361 }
362
363 if ( WC2MB(dstTmp, src, lenChunk + lenNul) == wxCONV_FAILED )
364 return wxCONV_FAILED;
365
366 if ( dstTmp != dst )
367 {
368 // copy everything up to but excluding the terminating NUL(s)
369 // into the real output buffer
370 memcpy(dst, dstTmp, lenChunk);
371
372 // micro-optimization: if dstTmp != dst it means that chunkEnd
373 // == srcEnd and so we're done, no need to update anything below
374 break;
375 }
376
377 dst += lenChunk;
378 if ( chunkEnd < srcEnd )
379 dst += lenNul;
380 }
381
382 src = chunkEnd;
383 }
384
385 return dstWritten;
386 }
387
388 size_t wxMBConv::MB2WC(wchar_t *outBuff, const char *inBuff, size_t outLen) const
389 {
390 size_t rc = ToWChar(outBuff, outLen, inBuff);
391 if ( rc != wxCONV_FAILED )
392 {
393 // ToWChar() returns the buffer length, i.e. including the trailing
394 // NUL, while this method doesn't take it into account
395 rc--;
396 }
397
398 return rc;
399 }
400
401 size_t wxMBConv::WC2MB(char *outBuff, const wchar_t *inBuff, size_t outLen) const
402 {
403 size_t rc = FromWChar(outBuff, outLen, inBuff);
404 if ( rc != wxCONV_FAILED )
405 {
406 rc -= GetMBNulLen();
407 }
408
409 return rc;
410 }
411
412 wxMBConv::~wxMBConv()
413 {
414 // nothing to do here (necessary for Darwin linking probably)
415 }
416
417 const wxWCharBuffer wxMBConv::cMB2WC(const char *psz) const
418 {
419 if ( psz )
420 {
421 // calculate the length of the buffer needed first
422 const size_t nLen = ToWChar(NULL, 0, psz);
423 if ( nLen != wxCONV_FAILED )
424 {
425 // now do the actual conversion
426 wxWCharBuffer buf(nLen - 1 /* +1 added implicitly */);
427
428 // +1 for the trailing NULL
429 if ( ToWChar(buf.data(), nLen, psz) != wxCONV_FAILED )
430 return buf;
431 }
432 }
433
434 return wxWCharBuffer();
435 }
436
437 const wxCharBuffer wxMBConv::cWC2MB(const wchar_t *pwz) const
438 {
439 if ( pwz )
440 {
441 const size_t nLen = FromWChar(NULL, 0, pwz);
442 if ( nLen != wxCONV_FAILED )
443 {
444 wxCharBuffer buf(nLen - 1);
445 if ( FromWChar(buf.data(), nLen, pwz) != wxCONV_FAILED )
446 return buf;
447 }
448 }
449
450 return wxCharBuffer();
451 }
452
453 const wxWCharBuffer
454 wxMBConv::cMB2WC(const char *inBuff, size_t inLen, size_t *outLen) const
455 {
456 const size_t dstLen = ToWChar(NULL, 0, inBuff, inLen);
457 if ( dstLen != wxCONV_FAILED )
458 {
459 // notice that we allocate space for dstLen+1 wide characters here
460 // because we want the buffer to always be NUL-terminated, even if the
461 // input isn't (as otherwise the caller has no way to know its length)
462 wxWCharBuffer wbuf(dstLen);
463 wbuf.data()[dstLen] = L'\0';
464 if ( ToWChar(wbuf.data(), dstLen, inBuff, inLen) != wxCONV_FAILED )
465 {
466 if ( outLen )
467 {
468 *outLen = dstLen;
469
470 // we also need to handle NUL-terminated input strings
471 // specially: for them the output is the length of the string
472 // excluding the trailing NUL, however if we're asked to
473 // convert a specific number of characters we return the length
474 // of the resulting output even if it's NUL-terminated
475 if ( inLen == wxNO_LEN )
476 (*outLen)--;
477 }
478
479 return wbuf;
480 }
481 }
482
483 if ( outLen )
484 *outLen = 0;
485
486 return wxWCharBuffer();
487 }
488
489 const wxCharBuffer
490 wxMBConv::cWC2MB(const wchar_t *inBuff, size_t inLen, size_t *outLen) const
491 {
492 size_t dstLen = FromWChar(NULL, 0, inBuff, inLen);
493 if ( dstLen != wxCONV_FAILED )
494 {
495 const size_t nulLen = GetMBNulLen();
496
497 // as above, ensure that the buffer is always NUL-terminated, even if
498 // the input is not
499 wxCharBuffer buf(dstLen + nulLen - 1);
500 memset(buf.data() + dstLen, 0, nulLen);
501 if ( FromWChar(buf.data(), dstLen, inBuff, inLen) != wxCONV_FAILED )
502 {
503 if ( outLen )
504 {
505 *outLen = dstLen;
506
507 if ( inLen == wxNO_LEN )
508 {
509 // in this case both input and output are NUL-terminated
510 // and we're not supposed to count NUL
511 *outLen -= nulLen;
512 }
513 }
514
515 return buf;
516 }
517 }
518
519 if ( outLen )
520 *outLen = 0;
521
522 return wxCharBuffer();
523 }
524
525 const wxWCharBuffer wxMBConv::cMB2WC(const wxScopedCharBuffer& buf) const
526 {
527 const size_t srcLen = buf.length();
528 if ( srcLen )
529 {
530 const size_t dstLen = ToWChar(NULL, 0, buf, srcLen);
531 if ( dstLen != wxCONV_FAILED )
532 {
533 wxWCharBuffer wbuf(dstLen);
534 wbuf.data()[dstLen] = L'\0';
535 if ( ToWChar(wbuf.data(), dstLen, buf, srcLen) != wxCONV_FAILED )
536 return wbuf;
537 }
538 }
539
540 return wxScopedWCharBuffer::CreateNonOwned(L"", 0);
541 }
542
543 const wxCharBuffer wxMBConv::cWC2MB(const wxScopedWCharBuffer& wbuf) const
544 {
545 const size_t srcLen = wbuf.length();
546 if ( srcLen )
547 {
548 const size_t dstLen = FromWChar(NULL, 0, wbuf, srcLen);
549 if ( dstLen != wxCONV_FAILED )
550 {
551 wxCharBuffer buf(dstLen);
552 buf.data()[dstLen] = '\0';
553 if ( FromWChar(buf.data(), dstLen, wbuf, srcLen) != wxCONV_FAILED )
554 return buf;
555 }
556 }
557
558 return wxScopedCharBuffer::CreateNonOwned("", 0);
559 }
560
561 // ----------------------------------------------------------------------------
562 // wxMBConvLibc
563 // ----------------------------------------------------------------------------
564
565 size_t wxMBConvLibc::MB2WC(wchar_t *buf, const char *psz, size_t n) const
566 {
567 return wxMB2WC(buf, psz, n);
568 }
569
570 size_t wxMBConvLibc::WC2MB(char *buf, const wchar_t *psz, size_t n) const
571 {
572 return wxWC2MB(buf, psz, n);
573 }
574
575 // ----------------------------------------------------------------------------
576 // wxConvBrokenFileNames
577 // ----------------------------------------------------------------------------
578
579 #ifdef __UNIX__
580
581 wxConvBrokenFileNames::wxConvBrokenFileNames(const wxString& charset)
582 {
583 if ( wxStricmp(charset, wxT("UTF-8")) == 0 ||
584 wxStricmp(charset, wxT("UTF8")) == 0 )
585 m_conv = new wxMBConvUTF8(wxMBConvUTF8::MAP_INVALID_UTF8_TO_PUA);
586 else
587 m_conv = new wxCSConv(charset);
588 }
589
590 #endif // __UNIX__
591
592 // ----------------------------------------------------------------------------
593 // UTF-7
594 // ----------------------------------------------------------------------------
595
596 // Implementation (C) 2004 Fredrik Roubert
597 //
598 // Changes to work in streaming mode (C) 2008 Vadim Zeitlin
599
600 //
601 // BASE64 decoding table
602 //
603 static const unsigned char utf7unb64[] =
604 {
605 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
606 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
607 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
608 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
609 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
610 0xff, 0xff, 0xff, 0x3e, 0xff, 0xff, 0xff, 0x3f,
611 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x3a, 0x3b,
612 0x3c, 0x3d, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
613 0xff, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06,
614 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e,
615 0x0f, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16,
616 0x17, 0x18, 0x19, 0xff, 0xff, 0xff, 0xff, 0xff,
617 0xff, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f, 0x20,
618 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28,
619 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f, 0x30,
620 0x31, 0x32, 0x33, 0xff, 0xff, 0xff, 0xff, 0xff,
621 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
622 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
623 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
624 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
625 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
626 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
627 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
628 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
629 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
630 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
631 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
632 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
633 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
634 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
635 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
636 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff
637 };
638
639 size_t wxMBConvUTF7::ToWChar(wchar_t *dst, size_t dstLen,
640 const char *src, size_t srcLen) const
641 {
642 DecoderState stateOrig,
643 *statePtr;
644 if ( srcLen == wxNO_LEN )
645 {
646 // convert the entire string, up to and including the trailing NUL
647 srcLen = strlen(src) + 1;
648
649 // when working on the entire strings we don't update nor use the shift
650 // state from the previous call
651 statePtr = &stateOrig;
652 }
653 else // when working with partial strings we do use the shift state
654 {
655 statePtr = const_cast<DecoderState *>(&m_stateDecoder);
656
657 // also save the old state to be able to rollback to it on error
658 stateOrig = m_stateDecoder;
659 }
660
661 // but to simplify the code below we use this variable in both cases
662 DecoderState& state = *statePtr;
663
664
665 // number of characters [which would have been] written to dst [if it were
666 // not NULL]
667 size_t len = 0;
668
669 const char * const srcEnd = src + srcLen;
670
671 while ( (src < srcEnd) && (!dst || (len < dstLen)) )
672 {
673 const unsigned char cc = *src++;
674
675 if ( state.IsShifted() )
676 {
677 const unsigned char dc = utf7unb64[cc];
678 if ( dc == 0xff )
679 {
680 // end of encoded part, check that nothing was left: there can
681 // be up to 4 bits of 0 padding but nothing else (we also need
682 // to check isLSB as we count bits modulo 8 while a valid UTF-7
683 // encoded sequence must contain an integral number of UTF-16
684 // characters)
685 if ( state.isLSB || state.bit > 4 ||
686 (state.accum & ((1 << state.bit) - 1)) )
687 {
688 if ( !len )
689 state = stateOrig;
690
691 return wxCONV_FAILED;
692 }
693
694 state.ToDirect();
695
696 // re-parse this character normally below unless it's '-' which
697 // is consumed by the decoder
698 if ( cc == '-' )
699 continue;
700 }
701 else // valid encoded character
702 {
703 // mini base64 decoder: each character is 6 bits
704 state.bit += 6;
705 state.accum <<= 6;
706 state.accum += dc;
707
708 if ( state.bit >= 8 )
709 {
710 // got the full byte, consume it
711 state.bit -= 8;
712 unsigned char b = (state.accum >> state.bit) & 0x00ff;
713
714 if ( state.isLSB )
715 {
716 // we've got the full word, output it
717 if ( dst )
718 *dst++ = (state.msb << 8) | b;
719 len++;
720 state.isLSB = false;
721 }
722 else // MSB
723 {
724 // just store it while we wait for LSB
725 state.msb = b;
726 state.isLSB = true;
727 }
728 }
729 }
730 }
731
732 if ( state.IsDirect() )
733 {
734 // start of an encoded segment?
735 if ( cc == '+' )
736 {
737 if ( *src == '-' )
738 {
739 // just the encoded plus sign, don't switch to shifted mode
740 if ( dst )
741 *dst++ = '+';
742 len++;
743 src++;
744 }
745 else if ( utf7unb64[(unsigned)*src] == 0xff )
746 {
747 // empty encoded chunks are not allowed
748 if ( !len )
749 state = stateOrig;
750
751 return wxCONV_FAILED;
752 }
753 else // base-64 encoded chunk follows
754 {
755 state.ToShifted();
756 }
757 }
758 else // not '+'
759 {
760 // only printable 7 bit ASCII characters (with the exception of
761 // NUL, TAB, CR and LF) can be used directly
762 if ( cc >= 0x7f || (cc < ' ' &&
763 !(cc == '\0' || cc == '\t' || cc == '\r' || cc == '\n')) )
764 return wxCONV_FAILED;
765
766 if ( dst )
767 *dst++ = cc;
768 len++;
769 }
770 }
771 }
772
773 if ( !len )
774 {
775 // as we didn't read any characters we should be called with the same
776 // data (followed by some more new data) again later so don't save our
777 // state
778 state = stateOrig;
779
780 return wxCONV_FAILED;
781 }
782
783 return len;
784 }
785
786 //
787 // BASE64 encoding table
788 //
789 static const unsigned char utf7enb64[] =
790 {
791 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H',
792 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P',
793 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X',
794 'Y', 'Z', 'a', 'b', 'c', 'd', 'e', 'f',
795 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n',
796 'o', 'p', 'q', 'r', 's', 't', 'u', 'v',
797 'w', 'x', 'y', 'z', '0', '1', '2', '3',
798 '4', '5', '6', '7', '8', '9', '+', '/'
799 };
800
801 //
802 // UTF-7 encoding table
803 //
804 // 0 - Set D (directly encoded characters)
805 // 1 - Set O (optional direct characters)
806 // 2 - whitespace characters (optional)
807 // 3 - special characters
808 //
809 static const unsigned char utf7encode[128] =
810 {
811 0, 3, 3, 3, 3, 3, 3, 3, 3, 2, 2, 3, 3, 2, 3, 3,
812 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3,
813 2, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 3, 0, 0, 0, 3,
814 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 0,
815 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
816 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 3, 1, 1, 1,
817 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
818 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 3, 3
819 };
820
821 static inline bool wxIsUTF7Direct(wchar_t wc)
822 {
823 return wc < 0x80 && utf7encode[wc] < 1;
824 }
825
826 size_t wxMBConvUTF7::FromWChar(char *dst, size_t dstLen,
827 const wchar_t *src, size_t srcLen) const
828 {
829 EncoderState stateOrig,
830 *statePtr;
831 if ( srcLen == wxNO_LEN )
832 {
833 // we don't apply the stored state when operating on entire strings at
834 // once
835 statePtr = &stateOrig;
836
837 srcLen = wxWcslen(src) + 1;
838 }
839 else // do use the mode we left the output in previously
840 {
841 stateOrig = m_stateEncoder;
842 statePtr = const_cast<EncoderState *>(&m_stateEncoder);
843 }
844
845 EncoderState& state = *statePtr;
846
847
848 size_t len = 0;
849
850 const wchar_t * const srcEnd = src + srcLen;
851 while ( src < srcEnd && (!dst || len < dstLen) )
852 {
853 wchar_t cc = *src++;
854 if ( wxIsUTF7Direct(cc) )
855 {
856 if ( state.IsShifted() )
857 {
858 // pad with zeros the last encoded block if necessary
859 if ( state.bit )
860 {
861 if ( dst )
862 *dst++ = utf7enb64[((state.accum % 16) << (6 - state.bit)) % 64];
863 len++;
864 }
865
866 state.ToDirect();
867
868 if ( dst )
869 *dst++ = '-';
870 len++;
871 }
872
873 if ( dst )
874 *dst++ = (char)cc;
875 len++;
876 }
877 else if ( cc == '+' && state.IsDirect() )
878 {
879 if ( dst )
880 {
881 *dst++ = '+';
882 *dst++ = '-';
883 }
884
885 len += 2;
886 }
887 #ifndef WC_UTF16
888 else if (((wxUint32)cc) > 0xffff)
889 {
890 // no surrogate pair generation (yet?)
891 return wxCONV_FAILED;
892 }
893 #endif
894 else
895 {
896 if ( state.IsDirect() )
897 {
898 state.ToShifted();
899
900 if ( dst )
901 *dst++ = '+';
902 len++;
903 }
904
905 // BASE64 encode string
906 for ( ;; )
907 {
908 for ( unsigned lsb = 0; lsb < 2; lsb++ )
909 {
910 state.accum <<= 8;
911 state.accum += lsb ? cc & 0xff : (cc & 0xff00) >> 8;
912
913 for (state.bit += 8; state.bit >= 6; )
914 {
915 state.bit -= 6;
916 if ( dst )
917 *dst++ = utf7enb64[(state.accum >> state.bit) % 64];
918 len++;
919 }
920 }
921
922 if ( src == srcEnd || wxIsUTF7Direct(cc = *src) )
923 break;
924
925 src++;
926 }
927 }
928 }
929
930 // we need to restore the original encoder state if we were called just to
931 // calculate the amount of space needed as we will presumably be called
932 // again to really convert the data now
933 if ( !dst )
934 state = stateOrig;
935
936 return len;
937 }
938
939 // ----------------------------------------------------------------------------
940 // UTF-8
941 // ----------------------------------------------------------------------------
942
943 static const wxUint32 utf8_max[]=
944 { 0x7f, 0x7ff, 0xffff, 0x1fffff, 0x3ffffff, 0x7fffffff, 0xffffffff };
945
946 // boundaries of the private use area we use to (temporarily) remap invalid
947 // characters invalid in a UTF-8 encoded string
948 const wxUint32 wxUnicodePUA = 0x100000;
949 const wxUint32 wxUnicodePUAEnd = wxUnicodePUA + 256;
950
951 // this table gives the length of the UTF-8 encoding from its first character:
952 const unsigned char tableUtf8Lengths[256] = {
953 // single-byte sequences (ASCII):
954 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 00..0F
955 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 10..1F
956 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 20..2F
957 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 30..3F
958 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 40..4F
959 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 50..5F
960 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 60..6F
961 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, // 70..7F
962
963 // these are invalid:
964 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 80..8F
965 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 90..9F
966 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // A0..AF
967 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // B0..BF
968 0, 0, // C0,C1
969
970 // two-byte sequences:
971 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, // C2..CF
972 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, // D0..DF
973
974 // three-byte sequences:
975 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, // E0..EF
976
977 // four-byte sequences:
978 4, 4, 4, 4, 4, // F0..F4
979
980 // these are invalid again (5- or 6-byte
981 // sequences and sequences for code points
982 // above U+10FFFF, as restricted by RFC 3629):
983 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 // F5..FF
984 };
985
986 size_t
987 wxMBConvStrictUTF8::ToWChar(wchar_t *dst, size_t dstLen,
988 const char *src, size_t srcLen) const
989 {
990 wchar_t *out = dstLen ? dst : NULL;
991 size_t written = 0;
992
993 if ( srcLen == wxNO_LEN )
994 srcLen = strlen(src) + 1;
995
996 for ( const char *p = src; ; p++ )
997 {
998 if ( (srcLen == wxNO_LEN ? !*p : !srcLen) )
999 {
1000 // all done successfully, just add the trailing NULL if we are not
1001 // using explicit length
1002 if ( srcLen == wxNO_LEN )
1003 {
1004 if ( out )
1005 {
1006 if ( !dstLen )
1007 break;
1008
1009 *out = L'\0';
1010 }
1011
1012 written++;
1013 }
1014
1015 return written;
1016 }
1017
1018 if ( out && !dstLen-- )
1019 break;
1020
1021 wxUint32 code;
1022 unsigned char c = *p;
1023
1024 if ( c < 0x80 )
1025 {
1026 if ( srcLen == 0 ) // the test works for wxNO_LEN too
1027 break;
1028
1029 if ( srcLen != wxNO_LEN )
1030 srcLen--;
1031
1032 code = c;
1033 }
1034 else
1035 {
1036 unsigned len = tableUtf8Lengths[c];
1037 if ( !len )
1038 break;
1039
1040 if ( srcLen < len ) // the test works for wxNO_LEN too
1041 break;
1042
1043 if ( srcLen != wxNO_LEN )
1044 srcLen -= len;
1045
1046 // Char. number range | UTF-8 octet sequence
1047 // (hexadecimal) | (binary)
1048 // ----------------------+----------------------------------------
1049 // 0000 0000 - 0000 007F | 0xxxxxxx
1050 // 0000 0080 - 0000 07FF | 110xxxxx 10xxxxxx
1051 // 0000 0800 - 0000 FFFF | 1110xxxx 10xxxxxx 10xxxxxx
1052 // 0001 0000 - 0010 FFFF | 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
1053 //
1054 // Code point value is stored in bits marked with 'x',
1055 // lowest-order bit of the value on the right side in the diagram
1056 // above. (from RFC 3629)
1057
1058 // mask to extract lead byte's value ('x' bits above), by sequence
1059 // length:
1060 static const unsigned char leadValueMask[] = { 0x7F, 0x1F, 0x0F, 0x07 };
1061
1062 // mask and value of lead byte's most significant bits, by length:
1063 static const unsigned char leadMarkerMask[] = { 0x80, 0xE0, 0xF0, 0xF8 };
1064 static const unsigned char leadMarkerVal[] = { 0x00, 0xC0, 0xE0, 0xF0 };
1065
1066 len--; // it's more convenient to work with 0-based length here
1067
1068 // extract the lead byte's value bits:
1069 if ( (c & leadMarkerMask[len]) != leadMarkerVal[len] )
1070 break;
1071
1072 code = c & leadValueMask[len];
1073
1074 // all remaining bytes, if any, are handled in the same way
1075 // regardless of sequence's length:
1076 for ( ; len; --len )
1077 {
1078 c = *++p;
1079 if ( (c & 0xC0) != 0x80 )
1080 return wxCONV_FAILED;
1081
1082 code <<= 6;
1083 code |= c & 0x3F;
1084 }
1085 }
1086
1087 #ifdef WC_UTF16
1088 // cast is ok because wchar_t == wxUint16 if WC_UTF16
1089 if ( encode_utf16(code, (wxUint16 *)out) == 2 )
1090 {
1091 if ( out )
1092 out++;
1093 written++;
1094 }
1095 #else // !WC_UTF16
1096 if ( out )
1097 *out = code;
1098 #endif // WC_UTF16/!WC_UTF16
1099
1100 if ( out )
1101 out++;
1102
1103 written++;
1104 }
1105
1106 return wxCONV_FAILED;
1107 }
1108
1109 size_t
1110 wxMBConvStrictUTF8::FromWChar(char *dst, size_t dstLen,
1111 const wchar_t *src, size_t srcLen) const
1112 {
1113 char *out = dstLen ? dst : NULL;
1114 size_t written = 0;
1115
1116 for ( const wchar_t *wp = src; ; wp++ )
1117 {
1118 if ( (srcLen == wxNO_LEN ? !*wp : !srcLen) )
1119 {
1120 // all done successfully, just add the trailing NULL if we are not
1121 // using explicit length
1122 if ( srcLen == wxNO_LEN )
1123 {
1124 if ( out )
1125 {
1126 if ( !dstLen )
1127 break;
1128
1129 *out = '\0';
1130 }
1131
1132 written++;
1133 }
1134
1135 return written;
1136 }
1137
1138 if ( srcLen != wxNO_LEN )
1139 srcLen--;
1140
1141 wxUint32 code;
1142 #ifdef WC_UTF16
1143 // cast is ok for WC_UTF16
1144 if ( decode_utf16((const wxUint16 *)wp, code) == 2 )
1145 {
1146 // skip the next char too as we decoded a surrogate
1147 wp++;
1148 if ( srcLen != wxNO_LEN )
1149 srcLen--;
1150 }
1151 #else // wchar_t is UTF-32
1152 code = *wp & 0x7fffffff;
1153 #endif
1154
1155 unsigned len;
1156 if ( code <= 0x7F )
1157 {
1158 len = 1;
1159 if ( out )
1160 {
1161 if ( dstLen < len )
1162 break;
1163
1164 out[0] = (char)code;
1165 }
1166 }
1167 else if ( code <= 0x07FF )
1168 {
1169 len = 2;
1170 if ( out )
1171 {
1172 if ( dstLen < len )
1173 break;
1174
1175 // NB: this line takes 6 least significant bits, encodes them as
1176 // 10xxxxxx and discards them so that the next byte can be encoded:
1177 out[1] = 0x80 | (code & 0x3F); code >>= 6;
1178 out[0] = 0xC0 | code;
1179 }
1180 }
1181 else if ( code < 0xFFFF )
1182 {
1183 len = 3;
1184 if ( out )
1185 {
1186 if ( dstLen < len )
1187 break;
1188
1189 out[2] = 0x80 | (code & 0x3F); code >>= 6;
1190 out[1] = 0x80 | (code & 0x3F); code >>= 6;
1191 out[0] = 0xE0 | code;
1192 }
1193 }
1194 else if ( code <= 0x10FFFF )
1195 {
1196 len = 4;
1197 if ( out )
1198 {
1199 if ( dstLen < len )
1200 break;
1201
1202 out[3] = 0x80 | (code & 0x3F); code >>= 6;
1203 out[2] = 0x80 | (code & 0x3F); code >>= 6;
1204 out[1] = 0x80 | (code & 0x3F); code >>= 6;
1205 out[0] = 0xF0 | code;
1206 }
1207 }
1208 else
1209 {
1210 wxFAIL_MSG( wxT("trying to encode undefined Unicode character") );
1211 break;
1212 }
1213
1214 if ( out )
1215 {
1216 out += len;
1217 dstLen -= len;
1218 }
1219
1220 written += len;
1221 }
1222
1223 // we only get here if an error occurs during decoding
1224 return wxCONV_FAILED;
1225 }
1226
1227 size_t wxMBConvUTF8::ToWChar(wchar_t *buf, size_t n,
1228 const char *psz, size_t srcLen) const
1229 {
1230 if ( m_options == MAP_INVALID_UTF8_NOT )
1231 return wxMBConvStrictUTF8::ToWChar(buf, n, psz, srcLen);
1232
1233 size_t len = 0;
1234
1235 // The length can be either given explicitly or computed implicitly for the
1236 // NUL-terminated strings.
1237 const bool isNulTerminated = srcLen == wxNO_LEN;
1238 while ((isNulTerminated ? *psz : srcLen--) && ((!buf) || (len < n)))
1239 {
1240 const char *opsz = psz;
1241 bool invalid = false;
1242 unsigned char cc = *psz++, fc = cc;
1243 unsigned cnt;
1244 for (cnt = 0; fc & 0x80; cnt++)
1245 fc <<= 1;
1246
1247 if (!cnt)
1248 {
1249 // plain ASCII char
1250 if (buf)
1251 *buf++ = cc;
1252 len++;
1253
1254 // escape the escape character for octal escapes
1255 if ((m_options & MAP_INVALID_UTF8_TO_OCTAL)
1256 && cc == '\\' && (!buf || len < n))
1257 {
1258 if (buf)
1259 *buf++ = cc;
1260 len++;
1261 }
1262 }
1263 else
1264 {
1265 cnt--;
1266 if (!cnt)
1267 {
1268 // invalid UTF-8 sequence
1269 invalid = true;
1270 }
1271 else
1272 {
1273 unsigned ocnt = cnt - 1;
1274 wxUint32 res = cc & (0x3f >> cnt);
1275 while (cnt--)
1276 {
1277 cc = *psz;
1278 if ((cc & 0xC0) != 0x80)
1279 {
1280 // invalid UTF-8 sequence
1281 invalid = true;
1282 break;
1283 }
1284
1285 psz++;
1286 res = (res << 6) | (cc & 0x3f);
1287 }
1288
1289 if (invalid || res <= utf8_max[ocnt])
1290 {
1291 // illegal UTF-8 encoding
1292 invalid = true;
1293 }
1294 else if ((m_options & MAP_INVALID_UTF8_TO_PUA) &&
1295 res >= wxUnicodePUA && res < wxUnicodePUAEnd)
1296 {
1297 // if one of our PUA characters turns up externally
1298 // it must also be treated as an illegal sequence
1299 // (a bit like you have to escape an escape character)
1300 invalid = true;
1301 }
1302 else
1303 {
1304 #ifdef WC_UTF16
1305 // cast is ok because wchar_t == wxUint16 if WC_UTF16
1306 size_t pa = encode_utf16(res, (wxUint16 *)buf);
1307 if (pa == wxCONV_FAILED)
1308 {
1309 invalid = true;
1310 }
1311 else
1312 {
1313 if (buf)
1314 buf += pa;
1315 len += pa;
1316 }
1317 #else // !WC_UTF16
1318 if (buf)
1319 *buf++ = (wchar_t)res;
1320 len++;
1321 #endif // WC_UTF16/!WC_UTF16
1322 }
1323 }
1324
1325 if (invalid)
1326 {
1327 if (m_options & MAP_INVALID_UTF8_TO_PUA)
1328 {
1329 while (opsz < psz && (!buf || len < n))
1330 {
1331 #ifdef WC_UTF16
1332 // cast is ok because wchar_t == wxUuint16 if WC_UTF16
1333 size_t pa = encode_utf16((unsigned char)*opsz + wxUnicodePUA, (wxUint16 *)buf);
1334 wxASSERT(pa != wxCONV_FAILED);
1335 if (buf)
1336 buf += pa;
1337 opsz++;
1338 len += pa;
1339 #else
1340 if (buf)
1341 *buf++ = (wchar_t)(wxUnicodePUA + (unsigned char)*opsz);
1342 opsz++;
1343 len++;
1344 #endif
1345 }
1346 }
1347 else if (m_options & MAP_INVALID_UTF8_TO_OCTAL)
1348 {
1349 while (opsz < psz && (!buf || len < n))
1350 {
1351 if ( buf && len + 3 < n )
1352 {
1353 unsigned char on = *opsz;
1354 *buf++ = L'\\';
1355 *buf++ = (wchar_t)( L'0' + on / 0100 );
1356 *buf++ = (wchar_t)( L'0' + (on % 0100) / 010 );
1357 *buf++ = (wchar_t)( L'0' + on % 010 );
1358 }
1359
1360 opsz++;
1361 len += 4;
1362 }
1363 }
1364 else // MAP_INVALID_UTF8_NOT
1365 {
1366 return wxCONV_FAILED;
1367 }
1368 }
1369 }
1370 }
1371
1372 if ( isNulTerminated )
1373 {
1374 // Add the trailing NUL in this case if we have a large enough buffer.
1375 if ( buf && (len < n) )
1376 *buf = 0;
1377
1378 // And count it in any case.
1379 len++;
1380 }
1381
1382 return len;
1383 }
1384
1385 static inline bool isoctal(wchar_t wch)
1386 {
1387 return L'0' <= wch && wch <= L'7';
1388 }
1389
1390 size_t wxMBConvUTF8::FromWChar(char *buf, size_t n,
1391 const wchar_t *psz, size_t srcLen) const
1392 {
1393 if ( m_options == MAP_INVALID_UTF8_NOT )
1394 return wxMBConvStrictUTF8::FromWChar(buf, n, psz, srcLen);
1395
1396 size_t len = 0;
1397
1398 while ((srcLen == wxNO_LEN ? *psz : srcLen--) && ((!buf) || (len < n)))
1399 {
1400 wxUint32 cc;
1401
1402 #ifdef WC_UTF16
1403 // cast is ok for WC_UTF16
1404 size_t pa = decode_utf16((const wxUint16 *)psz, cc);
1405 psz += (pa == wxCONV_FAILED) ? 1 : pa;
1406 #else
1407 cc = (*psz++) & 0x7fffffff;
1408 #endif
1409
1410 if ( (m_options & MAP_INVALID_UTF8_TO_PUA)
1411 && cc >= wxUnicodePUA && cc < wxUnicodePUAEnd )
1412 {
1413 if (buf)
1414 *buf++ = (char)(cc - wxUnicodePUA);
1415 len++;
1416 }
1417 else if ( (m_options & MAP_INVALID_UTF8_TO_OCTAL)
1418 && cc == L'\\' && psz[0] == L'\\' )
1419 {
1420 if (buf)
1421 *buf++ = (char)cc;
1422 psz++;
1423 len++;
1424 }
1425 else if ( (m_options & MAP_INVALID_UTF8_TO_OCTAL) &&
1426 cc == L'\\' &&
1427 isoctal(psz[0]) && isoctal(psz[1]) && isoctal(psz[2]) )
1428 {
1429 if (buf)
1430 {
1431 *buf++ = (char) ((psz[0] - L'0') * 0100 +
1432 (psz[1] - L'0') * 010 +
1433 (psz[2] - L'0'));
1434 }
1435
1436 psz += 3;
1437 len++;
1438 }
1439 else
1440 {
1441 unsigned cnt;
1442 for (cnt = 0; cc > utf8_max[cnt]; cnt++)
1443 {
1444 }
1445
1446 if (!cnt)
1447 {
1448 // plain ASCII char
1449 if (buf)
1450 *buf++ = (char) cc;
1451 len++;
1452 }
1453 else
1454 {
1455 len += cnt + 1;
1456 if (buf)
1457 {
1458 *buf++ = (char) ((-128 >> cnt) | ((cc >> (cnt * 6)) & (0x3f >> cnt)));
1459 while (cnt--)
1460 *buf++ = (char) (0x80 | ((cc >> (cnt * 6)) & 0x3f));
1461 }
1462 }
1463 }
1464 }
1465
1466 if (srcLen == wxNO_LEN && buf && (len < n))
1467 *buf = 0;
1468
1469 return len + 1;
1470 }
1471
1472 // ============================================================================
1473 // UTF-16
1474 // ============================================================================
1475
1476 #ifdef WORDS_BIGENDIAN
1477 #define wxMBConvUTF16straight wxMBConvUTF16BE
1478 #define wxMBConvUTF16swap wxMBConvUTF16LE
1479 #else
1480 #define wxMBConvUTF16swap wxMBConvUTF16BE
1481 #define wxMBConvUTF16straight wxMBConvUTF16LE
1482 #endif
1483
1484 /* static */
1485 size_t wxMBConvUTF16Base::GetLength(const char *src, size_t srcLen)
1486 {
1487 if ( srcLen == wxNO_LEN )
1488 {
1489 // count the number of bytes in input, including the trailing NULs
1490 const wxUint16 *inBuff = reinterpret_cast<const wxUint16 *>(src);
1491 for ( srcLen = 1; *inBuff++; srcLen++ )
1492 ;
1493
1494 srcLen *= BYTES_PER_CHAR;
1495 }
1496 else // we already have the length
1497 {
1498 // we can only convert an entire number of UTF-16 characters
1499 if ( srcLen % BYTES_PER_CHAR )
1500 return wxCONV_FAILED;
1501 }
1502
1503 return srcLen;
1504 }
1505
1506 // case when in-memory representation is UTF-16 too
1507 #ifdef WC_UTF16
1508
1509 // ----------------------------------------------------------------------------
1510 // conversions without endianness change
1511 // ----------------------------------------------------------------------------
1512
1513 size_t
1514 wxMBConvUTF16straight::ToWChar(wchar_t *dst, size_t dstLen,
1515 const char *src, size_t srcLen) const
1516 {
1517 // set up the scene for using memcpy() (which is presumably more efficient
1518 // than copying the bytes one by one)
1519 srcLen = GetLength(src, srcLen);
1520 if ( srcLen == wxNO_LEN )
1521 return wxCONV_FAILED;
1522
1523 const size_t inLen = srcLen / BYTES_PER_CHAR;
1524 if ( dst )
1525 {
1526 if ( dstLen < inLen )
1527 return wxCONV_FAILED;
1528
1529 memcpy(dst, src, srcLen);
1530 }
1531
1532 return inLen;
1533 }
1534
1535 size_t
1536 wxMBConvUTF16straight::FromWChar(char *dst, size_t dstLen,
1537 const wchar_t *src, size_t srcLen) const
1538 {
1539 if ( srcLen == wxNO_LEN )
1540 srcLen = wxWcslen(src) + 1;
1541
1542 srcLen *= BYTES_PER_CHAR;
1543
1544 if ( dst )
1545 {
1546 if ( dstLen < srcLen )
1547 return wxCONV_FAILED;
1548
1549 memcpy(dst, src, srcLen);
1550 }
1551
1552 return srcLen;
1553 }
1554
1555 // ----------------------------------------------------------------------------
1556 // endian-reversing conversions
1557 // ----------------------------------------------------------------------------
1558
1559 size_t
1560 wxMBConvUTF16swap::ToWChar(wchar_t *dst, size_t dstLen,
1561 const char *src, size_t srcLen) const
1562 {
1563 srcLen = GetLength(src, srcLen);
1564 if ( srcLen == wxNO_LEN )
1565 return wxCONV_FAILED;
1566
1567 srcLen /= BYTES_PER_CHAR;
1568
1569 if ( dst )
1570 {
1571 if ( dstLen < srcLen )
1572 return wxCONV_FAILED;
1573
1574 const wxUint16 *inBuff = reinterpret_cast<const wxUint16 *>(src);
1575 for ( size_t n = 0; n < srcLen; n++, inBuff++ )
1576 {
1577 *dst++ = wxUINT16_SWAP_ALWAYS(*inBuff);
1578 }
1579 }
1580
1581 return srcLen;
1582 }
1583
1584 size_t
1585 wxMBConvUTF16swap::FromWChar(char *dst, size_t dstLen,
1586 const wchar_t *src, size_t srcLen) const
1587 {
1588 if ( srcLen == wxNO_LEN )
1589 srcLen = wxWcslen(src) + 1;
1590
1591 srcLen *= BYTES_PER_CHAR;
1592
1593 if ( dst )
1594 {
1595 if ( dstLen < srcLen )
1596 return wxCONV_FAILED;
1597
1598 wxUint16 *outBuff = reinterpret_cast<wxUint16 *>(dst);
1599 for ( size_t n = 0; n < srcLen; n += BYTES_PER_CHAR, src++ )
1600 {
1601 *outBuff++ = wxUINT16_SWAP_ALWAYS(*src);
1602 }
1603 }
1604
1605 return srcLen;
1606 }
1607
1608 #else // !WC_UTF16: wchar_t is UTF-32
1609
1610 // ----------------------------------------------------------------------------
1611 // conversions without endianness change
1612 // ----------------------------------------------------------------------------
1613
1614 size_t
1615 wxMBConvUTF16straight::ToWChar(wchar_t *dst, size_t dstLen,
1616 const char *src, size_t srcLen) const
1617 {
1618 srcLen = GetLength(src, srcLen);
1619 if ( srcLen == wxNO_LEN )
1620 return wxCONV_FAILED;
1621
1622 const size_t inLen = srcLen / BYTES_PER_CHAR;
1623 if ( !dst )
1624 {
1625 // optimization: return maximal space which could be needed for this
1626 // string even if the real size could be smaller if the buffer contains
1627 // any surrogates
1628 return inLen;
1629 }
1630
1631 size_t outLen = 0;
1632 const wxUint16 *inBuff = reinterpret_cast<const wxUint16 *>(src);
1633 for ( const wxUint16 * const inEnd = inBuff + inLen; inBuff < inEnd; )
1634 {
1635 const wxUint32 ch = wxDecodeSurrogate(&inBuff);
1636 if ( !inBuff )
1637 return wxCONV_FAILED;
1638
1639 if ( ++outLen > dstLen )
1640 return wxCONV_FAILED;
1641
1642 *dst++ = ch;
1643 }
1644
1645
1646 return outLen;
1647 }
1648
1649 size_t
1650 wxMBConvUTF16straight::FromWChar(char *dst, size_t dstLen,
1651 const wchar_t *src, size_t srcLen) const
1652 {
1653 if ( srcLen == wxNO_LEN )
1654 srcLen = wxWcslen(src) + 1;
1655
1656 size_t outLen = 0;
1657 wxUint16 *outBuff = reinterpret_cast<wxUint16 *>(dst);
1658 for ( size_t n = 0; n < srcLen; n++ )
1659 {
1660 wxUint16 cc[2] = { 0 };
1661 const size_t numChars = encode_utf16(*src++, cc);
1662 if ( numChars == wxCONV_FAILED )
1663 return wxCONV_FAILED;
1664
1665 outLen += numChars * BYTES_PER_CHAR;
1666 if ( outBuff )
1667 {
1668 if ( outLen > dstLen )
1669 return wxCONV_FAILED;
1670
1671 *outBuff++ = cc[0];
1672 if ( numChars == 2 )
1673 {
1674 // second character of a surrogate
1675 *outBuff++ = cc[1];
1676 }
1677 }
1678 }
1679
1680 return outLen;
1681 }
1682
1683 // ----------------------------------------------------------------------------
1684 // endian-reversing conversions
1685 // ----------------------------------------------------------------------------
1686
1687 size_t
1688 wxMBConvUTF16swap::ToWChar(wchar_t *dst, size_t dstLen,
1689 const char *src, size_t srcLen) const
1690 {
1691 srcLen = GetLength(src, srcLen);
1692 if ( srcLen == wxNO_LEN )
1693 return wxCONV_FAILED;
1694
1695 const size_t inLen = srcLen / BYTES_PER_CHAR;
1696 if ( !dst )
1697 {
1698 // optimization: return maximal space which could be needed for this
1699 // string even if the real size could be smaller if the buffer contains
1700 // any surrogates
1701 return inLen;
1702 }
1703
1704 size_t outLen = 0;
1705 const wxUint16 *inBuff = reinterpret_cast<const wxUint16 *>(src);
1706 for ( const wxUint16 * const inEnd = inBuff + inLen; inBuff < inEnd; )
1707 {
1708 wxUint32 ch;
1709 wxUint16 tmp[2];
1710
1711 tmp[0] = wxUINT16_SWAP_ALWAYS(*inBuff);
1712 inBuff++;
1713 tmp[1] = wxUINT16_SWAP_ALWAYS(*inBuff);
1714
1715 const size_t numChars = decode_utf16(tmp, ch);
1716 if ( numChars == wxCONV_FAILED )
1717 return wxCONV_FAILED;
1718
1719 if ( numChars == 2 )
1720 inBuff++;
1721
1722 if ( ++outLen > dstLen )
1723 return wxCONV_FAILED;
1724
1725 *dst++ = ch;
1726 }
1727
1728
1729 return outLen;
1730 }
1731
1732 size_t
1733 wxMBConvUTF16swap::FromWChar(char *dst, size_t dstLen,
1734 const wchar_t *src, size_t srcLen) const
1735 {
1736 if ( srcLen == wxNO_LEN )
1737 srcLen = wxWcslen(src) + 1;
1738
1739 size_t outLen = 0;
1740 wxUint16 *outBuff = reinterpret_cast<wxUint16 *>(dst);
1741 for ( const wchar_t *srcEnd = src + srcLen; src < srcEnd; src++ )
1742 {
1743 wxUint16 cc[2] = { 0 };
1744 const size_t numChars = encode_utf16(*src, cc);
1745 if ( numChars == wxCONV_FAILED )
1746 return wxCONV_FAILED;
1747
1748 outLen += numChars * BYTES_PER_CHAR;
1749 if ( outBuff )
1750 {
1751 if ( outLen > dstLen )
1752 return wxCONV_FAILED;
1753
1754 *outBuff++ = wxUINT16_SWAP_ALWAYS(cc[0]);
1755 if ( numChars == 2 )
1756 {
1757 // second character of a surrogate
1758 *outBuff++ = wxUINT16_SWAP_ALWAYS(cc[1]);
1759 }
1760 }
1761 }
1762
1763 return outLen;
1764 }
1765
1766 #endif // WC_UTF16/!WC_UTF16
1767
1768
1769 // ============================================================================
1770 // UTF-32
1771 // ============================================================================
1772
1773 #ifdef WORDS_BIGENDIAN
1774 #define wxMBConvUTF32straight wxMBConvUTF32BE
1775 #define wxMBConvUTF32swap wxMBConvUTF32LE
1776 #else
1777 #define wxMBConvUTF32swap wxMBConvUTF32BE
1778 #define wxMBConvUTF32straight wxMBConvUTF32LE
1779 #endif
1780
1781
1782 WXDLLIMPEXP_DATA_BASE(wxMBConvUTF32LE) wxConvUTF32LE;
1783 WXDLLIMPEXP_DATA_BASE(wxMBConvUTF32BE) wxConvUTF32BE;
1784
1785 /* static */
1786 size_t wxMBConvUTF32Base::GetLength(const char *src, size_t srcLen)
1787 {
1788 if ( srcLen == wxNO_LEN )
1789 {
1790 // count the number of bytes in input, including the trailing NULs
1791 const wxUint32 *inBuff = reinterpret_cast<const wxUint32 *>(src);
1792 for ( srcLen = 1; *inBuff++; srcLen++ )
1793 ;
1794
1795 srcLen *= BYTES_PER_CHAR;
1796 }
1797 else // we already have the length
1798 {
1799 // we can only convert an entire number of UTF-32 characters
1800 if ( srcLen % BYTES_PER_CHAR )
1801 return wxCONV_FAILED;
1802 }
1803
1804 return srcLen;
1805 }
1806
1807 // case when in-memory representation is UTF-16
1808 #ifdef WC_UTF16
1809
1810 // ----------------------------------------------------------------------------
1811 // conversions without endianness change
1812 // ----------------------------------------------------------------------------
1813
1814 size_t
1815 wxMBConvUTF32straight::ToWChar(wchar_t *dst, size_t dstLen,
1816 const char *src, size_t srcLen) const
1817 {
1818 srcLen = GetLength(src, srcLen);
1819 if ( srcLen == wxNO_LEN )
1820 return wxCONV_FAILED;
1821
1822 const wxUint32 *inBuff = reinterpret_cast<const wxUint32 *>(src);
1823 const size_t inLen = srcLen / BYTES_PER_CHAR;
1824 size_t outLen = 0;
1825 for ( size_t n = 0; n < inLen; n++ )
1826 {
1827 wxUint16 cc[2] = { 0 };
1828 const size_t numChars = encode_utf16(*inBuff++, cc);
1829 if ( numChars == wxCONV_FAILED )
1830 return wxCONV_FAILED;
1831
1832 outLen += numChars;
1833 if ( dst )
1834 {
1835 if ( outLen > dstLen )
1836 return wxCONV_FAILED;
1837
1838 *dst++ = cc[0];
1839 if ( numChars == 2 )
1840 {
1841 // second character of a surrogate
1842 *dst++ = cc[1];
1843 }
1844 }
1845 }
1846
1847 return outLen;
1848 }
1849
1850 size_t
1851 wxMBConvUTF32straight::FromWChar(char *dst, size_t dstLen,
1852 const wchar_t *src, size_t srcLen) const
1853 {
1854 if ( srcLen == wxNO_LEN )
1855 srcLen = wxWcslen(src) + 1;
1856
1857 if ( !dst )
1858 {
1859 // optimization: return maximal space which could be needed for this
1860 // string instead of the exact amount which could be less if there are
1861 // any surrogates in the input
1862 //
1863 // we consider that surrogates are rare enough to make it worthwhile to
1864 // avoid running the loop below at the cost of slightly extra memory
1865 // consumption
1866 return srcLen * BYTES_PER_CHAR;
1867 }
1868
1869 wxUint32 *outBuff = reinterpret_cast<wxUint32 *>(dst);
1870 size_t outLen = 0;
1871 for ( const wchar_t * const srcEnd = src + srcLen; src < srcEnd; )
1872 {
1873 const wxUint32 ch = wxDecodeSurrogate(&src);
1874 if ( !src )
1875 return wxCONV_FAILED;
1876
1877 outLen += BYTES_PER_CHAR;
1878
1879 if ( outLen > dstLen )
1880 return wxCONV_FAILED;
1881
1882 *outBuff++ = ch;
1883 }
1884
1885 return outLen;
1886 }
1887
1888 // ----------------------------------------------------------------------------
1889 // endian-reversing conversions
1890 // ----------------------------------------------------------------------------
1891
1892 size_t
1893 wxMBConvUTF32swap::ToWChar(wchar_t *dst, size_t dstLen,
1894 const char *src, size_t srcLen) const
1895 {
1896 srcLen = GetLength(src, srcLen);
1897 if ( srcLen == wxNO_LEN )
1898 return wxCONV_FAILED;
1899
1900 const wxUint32 *inBuff = reinterpret_cast<const wxUint32 *>(src);
1901 const size_t inLen = srcLen / BYTES_PER_CHAR;
1902 size_t outLen = 0;
1903 for ( size_t n = 0; n < inLen; n++, inBuff++ )
1904 {
1905 wxUint16 cc[2] = { 0 };
1906 const size_t numChars = encode_utf16(wxUINT32_SWAP_ALWAYS(*inBuff), cc);
1907 if ( numChars == wxCONV_FAILED )
1908 return wxCONV_FAILED;
1909
1910 outLen += numChars;
1911 if ( dst )
1912 {
1913 if ( outLen > dstLen )
1914 return wxCONV_FAILED;
1915
1916 *dst++ = cc[0];
1917 if ( numChars == 2 )
1918 {
1919 // second character of a surrogate
1920 *dst++ = cc[1];
1921 }
1922 }
1923 }
1924
1925 return outLen;
1926 }
1927
1928 size_t
1929 wxMBConvUTF32swap::FromWChar(char *dst, size_t dstLen,
1930 const wchar_t *src, size_t srcLen) const
1931 {
1932 if ( srcLen == wxNO_LEN )
1933 srcLen = wxWcslen(src) + 1;
1934
1935 if ( !dst )
1936 {
1937 // optimization: return maximal space which could be needed for this
1938 // string instead of the exact amount which could be less if there are
1939 // any surrogates in the input
1940 //
1941 // we consider that surrogates are rare enough to make it worthwhile to
1942 // avoid running the loop below at the cost of slightly extra memory
1943 // consumption
1944 return srcLen*BYTES_PER_CHAR;
1945 }
1946
1947 wxUint32 *outBuff = reinterpret_cast<wxUint32 *>(dst);
1948 size_t outLen = 0;
1949 for ( const wchar_t * const srcEnd = src + srcLen; src < srcEnd; )
1950 {
1951 const wxUint32 ch = wxDecodeSurrogate(&src);
1952 if ( !src )
1953 return wxCONV_FAILED;
1954
1955 outLen += BYTES_PER_CHAR;
1956
1957 if ( outLen > dstLen )
1958 return wxCONV_FAILED;
1959
1960 *outBuff++ = wxUINT32_SWAP_ALWAYS(ch);
1961 }
1962
1963 return outLen;
1964 }
1965
1966 #else // !WC_UTF16: wchar_t is UTF-32
1967
1968 // ----------------------------------------------------------------------------
1969 // conversions without endianness change
1970 // ----------------------------------------------------------------------------
1971
1972 size_t
1973 wxMBConvUTF32straight::ToWChar(wchar_t *dst, size_t dstLen,
1974 const char *src, size_t srcLen) const
1975 {
1976 // use memcpy() as it should be much faster than hand-written loop
1977 srcLen = GetLength(src, srcLen);
1978 if ( srcLen == wxNO_LEN )
1979 return wxCONV_FAILED;
1980
1981 const size_t inLen = srcLen/BYTES_PER_CHAR;
1982 if ( dst )
1983 {
1984 if ( dstLen < inLen )
1985 return wxCONV_FAILED;
1986
1987 memcpy(dst, src, srcLen);
1988 }
1989
1990 return inLen;
1991 }
1992
1993 size_t
1994 wxMBConvUTF32straight::FromWChar(char *dst, size_t dstLen,
1995 const wchar_t *src, size_t srcLen) const
1996 {
1997 if ( srcLen == wxNO_LEN )
1998 srcLen = wxWcslen(src) + 1;
1999
2000 srcLen *= BYTES_PER_CHAR;
2001
2002 if ( dst )
2003 {
2004 if ( dstLen < srcLen )
2005 return wxCONV_FAILED;
2006
2007 memcpy(dst, src, srcLen);
2008 }
2009
2010 return srcLen;
2011 }
2012
2013 // ----------------------------------------------------------------------------
2014 // endian-reversing conversions
2015 // ----------------------------------------------------------------------------
2016
2017 size_t
2018 wxMBConvUTF32swap::ToWChar(wchar_t *dst, size_t dstLen,
2019 const char *src, size_t srcLen) const
2020 {
2021 srcLen = GetLength(src, srcLen);
2022 if ( srcLen == wxNO_LEN )
2023 return wxCONV_FAILED;
2024
2025 srcLen /= BYTES_PER_CHAR;
2026
2027 if ( dst )
2028 {
2029 if ( dstLen < srcLen )
2030 return wxCONV_FAILED;
2031
2032 const wxUint32 *inBuff = reinterpret_cast<const wxUint32 *>(src);
2033 for ( size_t n = 0; n < srcLen; n++, inBuff++ )
2034 {
2035 *dst++ = wxUINT32_SWAP_ALWAYS(*inBuff);
2036 }
2037 }
2038
2039 return srcLen;
2040 }
2041
2042 size_t
2043 wxMBConvUTF32swap::FromWChar(char *dst, size_t dstLen,
2044 const wchar_t *src, size_t srcLen) const
2045 {
2046 if ( srcLen == wxNO_LEN )
2047 srcLen = wxWcslen(src) + 1;
2048
2049 srcLen *= BYTES_PER_CHAR;
2050
2051 if ( dst )
2052 {
2053 if ( dstLen < srcLen )
2054 return wxCONV_FAILED;
2055
2056 wxUint32 *outBuff = reinterpret_cast<wxUint32 *>(dst);
2057 for ( size_t n = 0; n < srcLen; n += BYTES_PER_CHAR, src++ )
2058 {
2059 *outBuff++ = wxUINT32_SWAP_ALWAYS(*src);
2060 }
2061 }
2062
2063 return srcLen;
2064 }
2065
2066 #endif // WC_UTF16/!WC_UTF16
2067
2068
2069 // ============================================================================
2070 // The classes doing conversion using the iconv_xxx() functions
2071 // ============================================================================
2072
2073 #ifdef HAVE_ICONV
2074
2075 // VS: glibc 2.1.3 is broken in that iconv() conversion to/from UCS4 fails with
2076 // E2BIG if output buffer is _exactly_ as big as needed. Such case is
2077 // (unless there's yet another bug in glibc) the only case when iconv()
2078 // returns with (size_t)-1 (which means error) and says there are 0 bytes
2079 // left in the input buffer -- when _real_ error occurs,
2080 // bytes-left-in-input buffer is non-zero. Hence, this alternative test for
2081 // iconv() failure.
2082 // [This bug does not appear in glibc 2.2.]
2083 #if defined(__GLIBC__) && __GLIBC__ == 2 && __GLIBC_MINOR__ <= 1
2084 #define ICONV_FAILED(cres, bufLeft) ((cres == (size_t)-1) && \
2085 (errno != E2BIG || bufLeft != 0))
2086 #else
2087 #define ICONV_FAILED(cres, bufLeft) (cres == (size_t)-1)
2088 #endif
2089
2090 #define ICONV_CHAR_CAST(x) ((ICONV_CONST char **)(x))
2091
2092 #define ICONV_T_INVALID ((iconv_t)-1)
2093
2094 #if SIZEOF_WCHAR_T == 4
2095 #define WC_BSWAP wxUINT32_SWAP_ALWAYS
2096 #define WC_ENC wxFONTENCODING_UTF32
2097 #elif SIZEOF_WCHAR_T == 2
2098 #define WC_BSWAP wxUINT16_SWAP_ALWAYS
2099 #define WC_ENC wxFONTENCODING_UTF16
2100 #else // sizeof(wchar_t) != 2 nor 4
2101 // does this ever happen?
2102 #error "Unknown sizeof(wchar_t): please report this to wx-dev@lists.wxwindows.org"
2103 #endif
2104
2105 // ----------------------------------------------------------------------------
2106 // wxMBConv_iconv: encapsulates an iconv character set
2107 // ----------------------------------------------------------------------------
2108
2109 class wxMBConv_iconv : public wxMBConv
2110 {
2111 public:
2112 wxMBConv_iconv(const char *name);
2113 virtual ~wxMBConv_iconv();
2114
2115 // implement base class virtual methods
2116 virtual size_t ToWChar(wchar_t *dst, size_t dstLen,
2117 const char *src, size_t srcLen = wxNO_LEN) const;
2118 virtual size_t FromWChar(char *dst, size_t dstLen,
2119 const wchar_t *src, size_t srcLen = wxNO_LEN) const;
2120 virtual size_t GetMBNulLen() const;
2121
2122 #if wxUSE_UNICODE_UTF8
2123 virtual bool IsUTF8() const;
2124 #endif
2125
2126 virtual wxMBConv *Clone() const
2127 {
2128 wxMBConv_iconv *p = new wxMBConv_iconv(m_name);
2129 p->m_minMBCharWidth = m_minMBCharWidth;
2130 return p;
2131 }
2132
2133 bool IsOk() const
2134 { return (m2w != ICONV_T_INVALID) && (w2m != ICONV_T_INVALID); }
2135
2136 protected:
2137 // the iconv handlers used to translate from multibyte
2138 // to wide char and in the other direction
2139 iconv_t m2w,
2140 w2m;
2141
2142 #if wxUSE_THREADS
2143 // guards access to m2w and w2m objects
2144 wxMutex m_iconvMutex;
2145 #endif
2146
2147 private:
2148 // the name (for iconv_open()) of a wide char charset -- if none is
2149 // available on this machine, it will remain NULL
2150 static wxString ms_wcCharsetName;
2151
2152 // true if the wide char encoding we use (i.e. ms_wcCharsetName) has
2153 // different endian-ness than the native one
2154 static bool ms_wcNeedsSwap;
2155
2156
2157 // name of the encoding handled by this conversion
2158 const char *m_name;
2159
2160 // cached result of GetMBNulLen(); set to 0 meaning "unknown"
2161 // initially
2162 size_t m_minMBCharWidth;
2163 };
2164
2165 // make the constructor available for unit testing
2166 WXDLLIMPEXP_BASE wxMBConv* new_wxMBConv_iconv( const char* name )
2167 {
2168 wxMBConv_iconv* result = new wxMBConv_iconv( name );
2169 if ( !result->IsOk() )
2170 {
2171 delete result;
2172 return 0;
2173 }
2174
2175 return result;
2176 }
2177
2178 wxString wxMBConv_iconv::ms_wcCharsetName;
2179 bool wxMBConv_iconv::ms_wcNeedsSwap = false;
2180
2181 wxMBConv_iconv::wxMBConv_iconv(const char *name)
2182 : m_name(wxStrdup(name))
2183 {
2184 m_minMBCharWidth = 0;
2185
2186 // check for charset that represents wchar_t:
2187 if ( ms_wcCharsetName.empty() )
2188 {
2189 wxLogTrace(TRACE_STRCONV, wxT("Looking for wide char codeset:"));
2190
2191 #if wxUSE_FONTMAP
2192 const wxChar *const *names = wxFontMapperBase::GetAllEncodingNames(WC_ENC);
2193 #else // !wxUSE_FONTMAP
2194 static const wxChar *const names_static[] =
2195 {
2196 #if SIZEOF_WCHAR_T == 4
2197 wxT("UCS-4"),
2198 #elif SIZEOF_WCHAR_T == 2
2199 wxT("UCS-2"),
2200 #endif
2201 NULL
2202 };
2203 const wxChar *const *names = names_static;
2204 #endif // wxUSE_FONTMAP/!wxUSE_FONTMAP
2205
2206 for ( ; *names && ms_wcCharsetName.empty(); ++names )
2207 {
2208 const wxString nameCS(*names);
2209
2210 // first try charset with explicit bytesex info (e.g. "UCS-4LE"):
2211 wxString nameXE(nameCS);
2212
2213 #ifdef WORDS_BIGENDIAN
2214 nameXE += wxT("BE");
2215 #else // little endian
2216 nameXE += wxT("LE");
2217 #endif
2218
2219 wxLogTrace(TRACE_STRCONV, wxT(" trying charset \"%s\""),
2220 nameXE.c_str());
2221
2222 m2w = iconv_open(nameXE.ToAscii(), name);
2223 if ( m2w == ICONV_T_INVALID )
2224 {
2225 // try charset w/o bytesex info (e.g. "UCS4")
2226 wxLogTrace(TRACE_STRCONV, wxT(" trying charset \"%s\""),
2227 nameCS.c_str());
2228 m2w = iconv_open(nameCS.ToAscii(), name);
2229
2230 // and check for bytesex ourselves:
2231 if ( m2w != ICONV_T_INVALID )
2232 {
2233 char buf[2], *bufPtr;
2234 wchar_t wbuf[2];
2235 size_t insz, outsz;
2236 size_t res;
2237
2238 buf[0] = 'A';
2239 buf[1] = 0;
2240 wbuf[0] = 0;
2241 insz = 2;
2242 outsz = SIZEOF_WCHAR_T * 2;
2243 char* wbufPtr = (char*)wbuf;
2244 bufPtr = buf;
2245
2246 res = iconv(
2247 m2w, ICONV_CHAR_CAST(&bufPtr), &insz,
2248 &wbufPtr, &outsz);
2249
2250 if (ICONV_FAILED(res, insz))
2251 {
2252 wxLogLastError(wxT("iconv"));
2253 wxLogError(_("Conversion to charset '%s' doesn't work."),
2254 nameCS.c_str());
2255 }
2256 else // ok, can convert to this encoding, remember it
2257 {
2258 ms_wcCharsetName = nameCS;
2259 ms_wcNeedsSwap = wbuf[0] != (wchar_t)buf[0];
2260 }
2261 }
2262 }
2263 else // use charset not requiring byte swapping
2264 {
2265 ms_wcCharsetName = nameXE;
2266 }
2267 }
2268
2269 wxLogTrace(TRACE_STRCONV,
2270 wxT("iconv wchar_t charset is \"%s\"%s"),
2271 ms_wcCharsetName.empty() ? wxString("<none>")
2272 : ms_wcCharsetName,
2273 ms_wcNeedsSwap ? wxT(" (needs swap)")
2274 : wxT(""));
2275 }
2276 else // we already have ms_wcCharsetName
2277 {
2278 m2w = iconv_open(ms_wcCharsetName.ToAscii(), name);
2279 }
2280
2281 if ( ms_wcCharsetName.empty() )
2282 {
2283 w2m = ICONV_T_INVALID;
2284 }
2285 else
2286 {
2287 w2m = iconv_open(name, ms_wcCharsetName.ToAscii());
2288 if ( w2m == ICONV_T_INVALID )
2289 {
2290 wxLogTrace(TRACE_STRCONV,
2291 wxT("\"%s\" -> \"%s\" works but not the converse!?"),
2292 ms_wcCharsetName.c_str(), name);
2293 }
2294 }
2295 }
2296
2297 wxMBConv_iconv::~wxMBConv_iconv()
2298 {
2299 free(const_cast<char *>(m_name));
2300
2301 if ( m2w != ICONV_T_INVALID )
2302 iconv_close(m2w);
2303 if ( w2m != ICONV_T_INVALID )
2304 iconv_close(w2m);
2305 }
2306
2307 size_t
2308 wxMBConv_iconv::ToWChar(wchar_t *dst, size_t dstLen,
2309 const char *src, size_t srcLen) const
2310 {
2311 if ( srcLen == wxNO_LEN )
2312 {
2313 // find the string length: notice that must be done differently for
2314 // NUL-terminated strings and UTF-16/32 which are terminated with 2/4
2315 // consecutive NULs
2316 const size_t nulLen = GetMBNulLen();
2317 switch ( nulLen )
2318 {
2319 default:
2320 return wxCONV_FAILED;
2321
2322 case 1:
2323 srcLen = strlen(src); // arguably more optimized than our version
2324 break;
2325
2326 case 2:
2327 case 4:
2328 // for UTF-16/32 not only we need to have 2/4 consecutive NULs
2329 // but they also have to start at character boundary and not
2330 // span two adjacent characters
2331 const char *p;
2332 for ( p = src; NotAllNULs(p, nulLen); p += nulLen )
2333 ;
2334 srcLen = p - src;
2335 break;
2336 }
2337
2338 // when we're determining the length of the string ourselves we count
2339 // the terminating NUL(s) as part of it and always NUL-terminate the
2340 // output
2341 srcLen += nulLen;
2342 }
2343
2344 // we express length in the number of (wide) characters but iconv always
2345 // counts buffer sizes it in bytes
2346 dstLen *= SIZEOF_WCHAR_T;
2347
2348 #if wxUSE_THREADS
2349 // NB: iconv() is MT-safe, but each thread must use its own iconv_t handle.
2350 // Unfortunately there are a couple of global wxCSConv objects such as
2351 // wxConvLocal that are used all over wx code, so we have to make sure
2352 // the handle is used by at most one thread at the time. Otherwise
2353 // only a few wx classes would be safe to use from non-main threads
2354 // as MB<->WC conversion would fail "randomly".
2355 wxMutexLocker lock(wxConstCast(this, wxMBConv_iconv)->m_iconvMutex);
2356 #endif // wxUSE_THREADS
2357
2358 size_t res, cres;
2359 const char *pszPtr = src;
2360
2361 if ( dst )
2362 {
2363 char* bufPtr = (char*)dst;
2364
2365 // have destination buffer, convert there
2366 size_t dstLenOrig = dstLen;
2367 cres = iconv(m2w,
2368 ICONV_CHAR_CAST(&pszPtr), &srcLen,
2369 &bufPtr, &dstLen);
2370
2371 // convert the number of bytes converted as returned by iconv to the
2372 // number of (wide) characters converted that we need
2373 res = (dstLenOrig - dstLen) / SIZEOF_WCHAR_T;
2374
2375 if (ms_wcNeedsSwap)
2376 {
2377 // convert to native endianness
2378 for ( unsigned i = 0; i < res; i++ )
2379 dst[i] = WC_BSWAP(dst[i]);
2380 }
2381 }
2382 else // no destination buffer
2383 {
2384 // convert using temp buffer to calculate the size of the buffer needed
2385 wchar_t tbuf[256];
2386 res = 0;
2387
2388 do
2389 {
2390 char* bufPtr = (char*)tbuf;
2391 dstLen = 8 * SIZEOF_WCHAR_T;
2392
2393 cres = iconv(m2w,
2394 ICONV_CHAR_CAST(&pszPtr), &srcLen,
2395 &bufPtr, &dstLen );
2396
2397 res += 8 - (dstLen / SIZEOF_WCHAR_T);
2398 }
2399 while ((cres == (size_t)-1) && (errno == E2BIG));
2400 }
2401
2402 if (ICONV_FAILED(cres, srcLen))
2403 {
2404 //VS: it is ok if iconv fails, hence trace only
2405 wxLogTrace(TRACE_STRCONV, wxT("iconv failed: %s"), wxSysErrorMsg(wxSysErrorCode()));
2406 return wxCONV_FAILED;
2407 }
2408
2409 return res;
2410 }
2411
2412 size_t wxMBConv_iconv::FromWChar(char *dst, size_t dstLen,
2413 const wchar_t *src, size_t srcLen) const
2414 {
2415 #if wxUSE_THREADS
2416 // NB: explained in MB2WC
2417 wxMutexLocker lock(wxConstCast(this, wxMBConv_iconv)->m_iconvMutex);
2418 #endif
2419
2420 if ( srcLen == wxNO_LEN )
2421 srcLen = wxWcslen(src) + 1;
2422
2423 size_t inbuflen = srcLen * SIZEOF_WCHAR_T;
2424 size_t outbuflen = dstLen;
2425 size_t res, cres;
2426
2427 wchar_t *tmpbuf = 0;
2428
2429 if (ms_wcNeedsSwap)
2430 {
2431 // need to copy to temp buffer to switch endianness
2432 // (doing WC_BSWAP twice on the original buffer won't work, as it
2433 // could be in read-only memory, or be accessed in some other thread)
2434 tmpbuf = (wchar_t *)malloc(inbuflen);
2435 for ( size_t i = 0; i < srcLen; i++ )
2436 tmpbuf[i] = WC_BSWAP(src[i]);
2437
2438 src = tmpbuf;
2439 }
2440
2441 char* inbuf = (char*)src;
2442 if ( dst )
2443 {
2444 // have destination buffer, convert there
2445 cres = iconv(w2m, ICONV_CHAR_CAST(&inbuf), &inbuflen, &dst, &outbuflen);
2446
2447 res = dstLen - outbuflen;
2448 }
2449 else // no destination buffer
2450 {
2451 // convert using temp buffer to calculate the size of the buffer needed
2452 char tbuf[256];
2453 res = 0;
2454 do
2455 {
2456 dst = tbuf;
2457 outbuflen = WXSIZEOF(tbuf);
2458
2459 cres = iconv(w2m, ICONV_CHAR_CAST(&inbuf), &inbuflen, &dst, &outbuflen);
2460
2461 res += WXSIZEOF(tbuf) - outbuflen;
2462 }
2463 while ((cres == (size_t)-1) && (errno == E2BIG));
2464 }
2465
2466 if (ms_wcNeedsSwap)
2467 {
2468 free(tmpbuf);
2469 }
2470
2471 if (ICONV_FAILED(cres, inbuflen))
2472 {
2473 wxLogTrace(TRACE_STRCONV, wxT("iconv failed: %s"), wxSysErrorMsg(wxSysErrorCode()));
2474 return wxCONV_FAILED;
2475 }
2476
2477 return res;
2478 }
2479
2480 size_t wxMBConv_iconv::GetMBNulLen() const
2481 {
2482 if ( m_minMBCharWidth == 0 )
2483 {
2484 wxMBConv_iconv * const self = wxConstCast(this, wxMBConv_iconv);
2485
2486 #if wxUSE_THREADS
2487 // NB: explained in MB2WC
2488 wxMutexLocker lock(self->m_iconvMutex);
2489 #endif
2490
2491 const wchar_t *wnul = L"";
2492 char buf[8]; // should be enough for NUL in any encoding
2493 size_t inLen = sizeof(wchar_t),
2494 outLen = WXSIZEOF(buf);
2495 char *inBuff = (char *)wnul;
2496 char *outBuff = buf;
2497 if ( iconv(w2m, ICONV_CHAR_CAST(&inBuff), &inLen, &outBuff, &outLen) == (size_t)-1 )
2498 {
2499 self->m_minMBCharWidth = (size_t)-1;
2500 }
2501 else // ok
2502 {
2503 self->m_minMBCharWidth = outBuff - buf;
2504 }
2505 }
2506
2507 return m_minMBCharWidth;
2508 }
2509
2510 #if wxUSE_UNICODE_UTF8
2511 bool wxMBConv_iconv::IsUTF8() const
2512 {
2513 return wxStricmp(m_name, "UTF-8") == 0 ||
2514 wxStricmp(m_name, "UTF8") == 0;
2515 }
2516 #endif
2517
2518 #endif // HAVE_ICONV
2519
2520
2521 // ============================================================================
2522 // Win32 conversion classes
2523 // ============================================================================
2524
2525 #ifdef wxHAVE_WIN32_MB2WC
2526
2527 // from utils.cpp
2528 #if wxUSE_FONTMAP
2529 extern WXDLLIMPEXP_BASE long wxCharsetToCodepage(const char *charset);
2530 extern WXDLLIMPEXP_BASE long wxEncodingToCodepage(wxFontEncoding encoding);
2531 #endif
2532
2533 class wxMBConv_win32 : public wxMBConv
2534 {
2535 public:
2536 wxMBConv_win32()
2537 {
2538 m_CodePage = CP_ACP;
2539 m_minMBCharWidth = 0;
2540 }
2541
2542 wxMBConv_win32(const wxMBConv_win32& conv)
2543 : wxMBConv()
2544 {
2545 m_CodePage = conv.m_CodePage;
2546 m_minMBCharWidth = conv.m_minMBCharWidth;
2547 }
2548
2549 #if wxUSE_FONTMAP
2550 wxMBConv_win32(const char* name)
2551 {
2552 m_CodePage = wxCharsetToCodepage(name);
2553 m_minMBCharWidth = 0;
2554 }
2555
2556 wxMBConv_win32(wxFontEncoding encoding)
2557 {
2558 m_CodePage = wxEncodingToCodepage(encoding);
2559 m_minMBCharWidth = 0;
2560 }
2561 #endif // wxUSE_FONTMAP
2562
2563 virtual size_t MB2WC(wchar_t *buf, const char *psz, size_t n) const
2564 {
2565 // note that we have to use MB_ERR_INVALID_CHARS flag as it without it
2566 // the behaviour is not compatible with the Unix version (using iconv)
2567 // and break the library itself, e.g. wxTextInputStream::NextChar()
2568 // wouldn't work if reading an incomplete MB char didn't result in an
2569 // error
2570 //
2571 // Moreover, MB_ERR_INVALID_CHARS is only supported on Win 2K SP4 or
2572 // Win XP or newer and it is not supported for UTF-[78] so we always
2573 // use our own conversions in this case. See
2574 // http://blogs.msdn.com/michkap/archive/2005/04/19/409566.aspx
2575 // http://msdn.microsoft.com/library/en-us/intl/unicode_17si.asp
2576 if ( m_CodePage == CP_UTF8 )
2577 {
2578 return wxMBConvUTF8().MB2WC(buf, psz, n);
2579 }
2580
2581 if ( m_CodePage == CP_UTF7 )
2582 {
2583 return wxMBConvUTF7().MB2WC(buf, psz, n);
2584 }
2585
2586 int flags = 0;
2587 if ( (m_CodePage < 50000 && m_CodePage != CP_SYMBOL) &&
2588 IsAtLeastWin2kSP4() )
2589 {
2590 flags = MB_ERR_INVALID_CHARS;
2591 }
2592
2593 const size_t len = ::MultiByteToWideChar
2594 (
2595 m_CodePage, // code page
2596 flags, // flags: fall on error
2597 psz, // input string
2598 -1, // its length (NUL-terminated)
2599 buf, // output string
2600 buf ? n : 0 // size of output buffer
2601 );
2602 if ( !len )
2603 {
2604 // function totally failed
2605 return wxCONV_FAILED;
2606 }
2607
2608 // if we were really converting and didn't use MB_ERR_INVALID_CHARS,
2609 // check if we succeeded, by doing a double trip:
2610 if ( !flags && buf )
2611 {
2612 const size_t mbLen = strlen(psz);
2613 wxCharBuffer mbBuf(mbLen);
2614 if ( ::WideCharToMultiByte
2615 (
2616 m_CodePage,
2617 0,
2618 buf,
2619 -1,
2620 mbBuf.data(),
2621 mbLen + 1, // size in bytes, not length
2622 NULL,
2623 NULL
2624 ) == 0 ||
2625 strcmp(mbBuf, psz) != 0 )
2626 {
2627 // we didn't obtain the same thing we started from, hence
2628 // the conversion was lossy and we consider that it failed
2629 return wxCONV_FAILED;
2630 }
2631 }
2632
2633 // note that it returns count of written chars for buf != NULL and size
2634 // of the needed buffer for buf == NULL so in either case the length of
2635 // the string (which never includes the terminating NUL) is one less
2636 return len - 1;
2637 }
2638
2639 virtual size_t WC2MB(char *buf, const wchar_t *pwz, size_t n) const
2640 {
2641 /*
2642 we have a problem here: by default, WideCharToMultiByte() may
2643 replace characters unrepresentable in the target code page with bad
2644 quality approximations such as turning "1/2" symbol (U+00BD) into
2645 "1" for the code pages which don't have it and we, obviously, want
2646 to avoid this at any price
2647
2648 the trouble is that this function does it _silently_, i.e. it won't
2649 even tell us whether it did or not... Win98/2000 and higher provide
2650 WC_NO_BEST_FIT_CHARS but it doesn't work for the older systems and
2651 we have to resort to a round trip, i.e. check that converting back
2652 results in the same string -- this is, of course, expensive but
2653 otherwise we simply can't be sure to not garble the data.
2654 */
2655
2656 // determine if we can rely on WC_NO_BEST_FIT_CHARS: according to MSDN
2657 // it doesn't work with CJK encodings (which we test for rather roughly
2658 // here...) nor with UTF-7/8 nor, of course, with Windows versions not
2659 // supporting it
2660 BOOL usedDef wxDUMMY_INITIALIZE(false);
2661 BOOL *pUsedDef;
2662 int flags;
2663 if ( CanUseNoBestFit() && m_CodePage < 50000 )
2664 {
2665 // it's our lucky day
2666 flags = WC_NO_BEST_FIT_CHARS;
2667 pUsedDef = &usedDef;
2668 }
2669 else // old system or unsupported encoding
2670 {
2671 flags = 0;
2672 pUsedDef = NULL;
2673 }
2674
2675 const size_t len = ::WideCharToMultiByte
2676 (
2677 m_CodePage, // code page
2678 flags, // either none or no best fit
2679 pwz, // input string
2680 -1, // it is (wide) NUL-terminated
2681 buf, // output buffer
2682 buf ? n : 0, // and its size
2683 NULL, // default "replacement" char
2684 pUsedDef // [out] was it used?
2685 );
2686
2687 if ( !len )
2688 {
2689 // function totally failed
2690 return wxCONV_FAILED;
2691 }
2692
2693 // we did something, check if we really succeeded
2694 if ( flags )
2695 {
2696 // check if the conversion failed, i.e. if any replacements
2697 // were done
2698 if ( usedDef )
2699 return wxCONV_FAILED;
2700 }
2701 else // we must resort to double tripping...
2702 {
2703 // first we need to ensure that we really have the MB data: this is
2704 // not the case if we're called with NULL buffer, in which case we
2705 // need to do the conversion yet again
2706 wxCharBuffer bufDef;
2707 if ( !buf )
2708 {
2709 bufDef = wxCharBuffer(len);
2710 buf = bufDef.data();
2711 if ( !::WideCharToMultiByte(m_CodePage, flags, pwz, -1,
2712 buf, len, NULL, NULL) )
2713 return wxCONV_FAILED;
2714 }
2715
2716 if ( !n )
2717 n = wcslen(pwz);
2718 wxWCharBuffer wcBuf(n);
2719 if ( MB2WC(wcBuf.data(), buf, n + 1) == wxCONV_FAILED ||
2720 wcscmp(wcBuf, pwz) != 0 )
2721 {
2722 // we didn't obtain the same thing we started from, hence
2723 // the conversion was lossy and we consider that it failed
2724 return wxCONV_FAILED;
2725 }
2726 }
2727
2728 // see the comment above for the reason of "len - 1"
2729 return len - 1;
2730 }
2731
2732 virtual size_t GetMBNulLen() const
2733 {
2734 if ( m_minMBCharWidth == 0 )
2735 {
2736 int len = ::WideCharToMultiByte
2737 (
2738 m_CodePage, // code page
2739 0, // no flags
2740 L"", // input string
2741 1, // translate just the NUL
2742 NULL, // output buffer
2743 0, // and its size
2744 NULL, // no replacement char
2745 NULL // [out] don't care if it was used
2746 );
2747
2748 wxMBConv_win32 * const self = wxConstCast(this, wxMBConv_win32);
2749 switch ( len )
2750 {
2751 default:
2752 wxLogDebug(wxT("Unexpected NUL length %d"), len);
2753 self->m_minMBCharWidth = (size_t)-1;
2754 break;
2755
2756 case 0:
2757 self->m_minMBCharWidth = (size_t)-1;
2758 break;
2759
2760 case 1:
2761 case 2:
2762 case 4:
2763 self->m_minMBCharWidth = len;
2764 break;
2765 }
2766 }
2767
2768 return m_minMBCharWidth;
2769 }
2770
2771 virtual wxMBConv *Clone() const { return new wxMBConv_win32(*this); }
2772
2773 bool IsOk() const { return m_CodePage != -1; }
2774
2775 private:
2776 static bool CanUseNoBestFit()
2777 {
2778 static int s_isWin98Or2k = -1;
2779
2780 if ( s_isWin98Or2k == -1 )
2781 {
2782 int verMaj, verMin;
2783 switch ( wxGetOsVersion(&verMaj, &verMin) )
2784 {
2785 case wxOS_WINDOWS_9X:
2786 s_isWin98Or2k = verMaj >= 4 && verMin >= 10;
2787 break;
2788
2789 case wxOS_WINDOWS_NT:
2790 s_isWin98Or2k = verMaj >= 5;
2791 break;
2792
2793 default:
2794 // unknown: be conservative by default
2795 s_isWin98Or2k = 0;
2796 break;
2797 }
2798
2799 wxASSERT_MSG( s_isWin98Or2k != -1, wxT("should be set above") );
2800 }
2801
2802 return s_isWin98Or2k == 1;
2803 }
2804
2805 static bool IsAtLeastWin2kSP4()
2806 {
2807 #ifdef __WXWINCE__
2808 return false;
2809 #else
2810 static int s_isAtLeastWin2kSP4 = -1;
2811
2812 if ( s_isAtLeastWin2kSP4 == -1 )
2813 {
2814 OSVERSIONINFOEX ver;
2815
2816 memset(&ver, 0, sizeof(ver));
2817 ver.dwOSVersionInfoSize = sizeof(ver);
2818 GetVersionEx((OSVERSIONINFO*)&ver);
2819
2820 s_isAtLeastWin2kSP4 =
2821 ((ver.dwMajorVersion > 5) || // Vista+
2822 (ver.dwMajorVersion == 5 && ver.dwMinorVersion > 0) || // XP/2003
2823 (ver.dwMajorVersion == 5 && ver.dwMinorVersion == 0 &&
2824 ver.wServicePackMajor >= 4)) // 2000 SP4+
2825 ? 1 : 0;
2826 }
2827
2828 return s_isAtLeastWin2kSP4 == 1;
2829 #endif
2830 }
2831
2832
2833 // the code page we're working with
2834 long m_CodePage;
2835
2836 // cached result of GetMBNulLen(), set to 0 initially meaning
2837 // "unknown"
2838 size_t m_minMBCharWidth;
2839 };
2840
2841 #endif // wxHAVE_WIN32_MB2WC
2842
2843
2844 // ============================================================================
2845 // wxEncodingConverter based conversion classes
2846 // ============================================================================
2847
2848 #if wxUSE_FONTMAP
2849
2850 class wxMBConv_wxwin : public wxMBConv
2851 {
2852 private:
2853 void Init()
2854 {
2855 // Refuse to use broken wxEncodingConverter code for Mac-specific encodings.
2856 // The wxMBConv_cf class does a better job.
2857 m_ok = (m_enc < wxFONTENCODING_MACMIN || m_enc > wxFONTENCODING_MACMAX) &&
2858 m2w.Init(m_enc, wxFONTENCODING_UNICODE) &&
2859 w2m.Init(wxFONTENCODING_UNICODE, m_enc);
2860 }
2861
2862 public:
2863 // temporarily just use wxEncodingConverter stuff,
2864 // so that it works while a better implementation is built
2865 wxMBConv_wxwin(const char* name)
2866 {
2867 if (name)
2868 m_enc = wxFontMapperBase::Get()->CharsetToEncoding(name, false);
2869 else
2870 m_enc = wxFONTENCODING_SYSTEM;
2871
2872 Init();
2873 }
2874
2875 wxMBConv_wxwin(wxFontEncoding enc)
2876 {
2877 m_enc = enc;
2878
2879 Init();
2880 }
2881
2882 size_t MB2WC(wchar_t *buf, const char *psz, size_t WXUNUSED(n)) const
2883 {
2884 size_t inbuf = strlen(psz);
2885 if (buf)
2886 {
2887 if (!m2w.Convert(psz, buf))
2888 return wxCONV_FAILED;
2889 }
2890 return inbuf;
2891 }
2892
2893 size_t WC2MB(char *buf, const wchar_t *psz, size_t WXUNUSED(n)) const
2894 {
2895 const size_t inbuf = wxWcslen(psz);
2896 if (buf)
2897 {
2898 if (!w2m.Convert(psz, buf))
2899 return wxCONV_FAILED;
2900 }
2901
2902 return inbuf;
2903 }
2904
2905 virtual size_t GetMBNulLen() const
2906 {
2907 switch ( m_enc )
2908 {
2909 case wxFONTENCODING_UTF16BE:
2910 case wxFONTENCODING_UTF16LE:
2911 return 2;
2912
2913 case wxFONTENCODING_UTF32BE:
2914 case wxFONTENCODING_UTF32LE:
2915 return 4;
2916
2917 default:
2918 return 1;
2919 }
2920 }
2921
2922 virtual wxMBConv *Clone() const { return new wxMBConv_wxwin(m_enc); }
2923
2924 bool IsOk() const { return m_ok; }
2925
2926 public:
2927 wxFontEncoding m_enc;
2928 wxEncodingConverter m2w, w2m;
2929
2930 private:
2931 // were we initialized successfully?
2932 bool m_ok;
2933
2934 wxDECLARE_NO_COPY_CLASS(wxMBConv_wxwin);
2935 };
2936
2937 // make the constructors available for unit testing
2938 WXDLLIMPEXP_BASE wxMBConv* new_wxMBConv_wxwin( const char* name )
2939 {
2940 wxMBConv_wxwin* result = new wxMBConv_wxwin( name );
2941 if ( !result->IsOk() )
2942 {
2943 delete result;
2944 return 0;
2945 }
2946
2947 return result;
2948 }
2949
2950 #endif // wxUSE_FONTMAP
2951
2952 // ============================================================================
2953 // wxCSConv implementation
2954 // ============================================================================
2955
2956 void wxCSConv::Init()
2957 {
2958 m_name = NULL;
2959 m_convReal = NULL;
2960 }
2961
2962 void wxCSConv::SetEncoding(wxFontEncoding encoding)
2963 {
2964 switch ( encoding )
2965 {
2966 case wxFONTENCODING_MAX:
2967 case wxFONTENCODING_SYSTEM:
2968 if ( m_name )
2969 {
2970 // It's ok to not have encoding value if we have a name for it.
2971 m_encoding = wxFONTENCODING_SYSTEM;
2972 }
2973 else // No name neither.
2974 {
2975 // Fall back to the system default encoding in this case (not
2976 // sure how much sense does this make but this is how the old
2977 // code used to behave).
2978 #if wxUSE_INTL
2979 m_encoding = wxLocale::GetSystemEncoding();
2980 if ( m_encoding == wxFONTENCODING_SYSTEM )
2981 #endif // wxUSE_INTL
2982 m_encoding = wxFONTENCODING_ISO8859_1;
2983 }
2984 break;
2985
2986 case wxFONTENCODING_DEFAULT:
2987 // wxFONTENCODING_DEFAULT is same as US-ASCII in this context
2988 m_encoding = wxFONTENCODING_ISO8859_1;
2989 break;
2990
2991 default:
2992 // Just use the provided encoding.
2993 m_encoding = encoding;
2994 }
2995 }
2996
2997 wxCSConv::wxCSConv(const wxString& charset)
2998 {
2999 Init();
3000
3001 if ( !charset.empty() )
3002 {
3003 SetName(charset.ToAscii());
3004 }
3005
3006 #if wxUSE_FONTMAP
3007 SetEncoding(wxFontMapperBase::GetEncodingFromName(charset));
3008 #else
3009 SetEncoding(wxFONTENCODING_SYSTEM);
3010 #endif
3011
3012 m_convReal = DoCreate();
3013 }
3014
3015 wxCSConv::wxCSConv(wxFontEncoding encoding)
3016 {
3017 if ( encoding == wxFONTENCODING_MAX || encoding == wxFONTENCODING_DEFAULT )
3018 {
3019 wxFAIL_MSG( wxT("invalid encoding value in wxCSConv ctor") );
3020
3021 encoding = wxFONTENCODING_SYSTEM;
3022 }
3023
3024 Init();
3025
3026 SetEncoding(encoding);
3027
3028 m_convReal = DoCreate();
3029 }
3030
3031 wxCSConv::~wxCSConv()
3032 {
3033 Clear();
3034 }
3035
3036 wxCSConv::wxCSConv(const wxCSConv& conv)
3037 : wxMBConv()
3038 {
3039 Init();
3040
3041 SetName(conv.m_name);
3042 SetEncoding(conv.m_encoding);
3043
3044 m_convReal = DoCreate();
3045 }
3046
3047 wxCSConv& wxCSConv::operator=(const wxCSConv& conv)
3048 {
3049 Clear();
3050
3051 SetName(conv.m_name);
3052 SetEncoding(conv.m_encoding);
3053
3054 m_convReal = DoCreate();
3055
3056 return *this;
3057 }
3058
3059 void wxCSConv::Clear()
3060 {
3061 free(m_name);
3062 m_name = NULL;
3063
3064 wxDELETE(m_convReal);
3065 }
3066
3067 void wxCSConv::SetName(const char *charset)
3068 {
3069 if ( charset )
3070 m_name = wxStrdup(charset);
3071 }
3072
3073 #if wxUSE_FONTMAP
3074
3075 WX_DECLARE_HASH_MAP( wxFontEncoding, wxString, wxIntegerHash, wxIntegerEqual,
3076 wxEncodingNameCache );
3077
3078 static wxEncodingNameCache gs_nameCache;
3079 #endif
3080
3081 wxMBConv *wxCSConv::DoCreate() const
3082 {
3083 #if wxUSE_FONTMAP
3084 wxLogTrace(TRACE_STRCONV,
3085 wxT("creating conversion for %s"),
3086 (m_name ? m_name
3087 : (const char*)wxFontMapperBase::GetEncodingName(m_encoding).mb_str()));
3088 #endif // wxUSE_FONTMAP
3089
3090 // check for the special case of ASCII or ISO8859-1 charset: as we have
3091 // special knowledge of it anyhow, we don't need to create a special
3092 // conversion object
3093 if ( m_encoding == wxFONTENCODING_ISO8859_1 )
3094 {
3095 // don't convert at all
3096 return NULL;
3097 }
3098
3099 // we trust OS to do conversion better than we can so try external
3100 // conversion methods first
3101 //
3102 // the full order is:
3103 // 1. OS conversion (iconv() under Unix or Win32 API)
3104 // 2. hard coded conversions for UTF
3105 // 3. wxEncodingConverter as fall back
3106
3107 // step (1)
3108 #ifdef HAVE_ICONV
3109 #if !wxUSE_FONTMAP
3110 if ( m_name )
3111 #endif // !wxUSE_FONTMAP
3112 {
3113 #if wxUSE_FONTMAP
3114 wxFontEncoding encoding(m_encoding);
3115 #endif
3116
3117 if ( m_name )
3118 {
3119 wxMBConv_iconv *conv = new wxMBConv_iconv(m_name);
3120 if ( conv->IsOk() )
3121 return conv;
3122
3123 delete conv;
3124
3125 #if wxUSE_FONTMAP
3126 encoding =
3127 wxFontMapperBase::Get()->CharsetToEncoding(m_name, false);
3128 #endif // wxUSE_FONTMAP
3129 }
3130 #if wxUSE_FONTMAP
3131 {
3132 const wxEncodingNameCache::iterator it = gs_nameCache.find(encoding);
3133 if ( it != gs_nameCache.end() )
3134 {
3135 if ( it->second.empty() )
3136 return NULL;
3137
3138 wxMBConv_iconv *conv = new wxMBConv_iconv(it->second.ToAscii());
3139 if ( conv->IsOk() )
3140 return conv;
3141
3142 delete conv;
3143 }
3144
3145 const wxChar* const* names = wxFontMapperBase::GetAllEncodingNames(encoding);
3146 // CS : in case this does not return valid names (eg for MacRoman)
3147 // encoding got a 'failure' entry in the cache all the same,
3148 // although it just has to be created using a different method, so
3149 // only store failed iconv creation attempts (or perhaps we
3150 // shoulnd't do this at all ?)
3151 if ( names[0] != NULL )
3152 {
3153 for ( ; *names; ++names )
3154 {
3155 // FIXME-UTF8: wxFontMapperBase::GetAllEncodingNames()
3156 // will need changes that will obsolete this
3157 wxString name(*names);
3158 wxMBConv_iconv *conv = new wxMBConv_iconv(name.ToAscii());
3159 if ( conv->IsOk() )
3160 {
3161 gs_nameCache[encoding] = *names;
3162 return conv;
3163 }
3164
3165 delete conv;
3166 }
3167
3168 gs_nameCache[encoding] = wxT(""); // cache the failure
3169 }
3170 }
3171 #endif // wxUSE_FONTMAP
3172 }
3173 #endif // HAVE_ICONV
3174
3175 #ifdef wxHAVE_WIN32_MB2WC
3176 {
3177 #if wxUSE_FONTMAP
3178 wxMBConv_win32 *conv = m_name ? new wxMBConv_win32(m_name)
3179 : new wxMBConv_win32(m_encoding);
3180 if ( conv->IsOk() )
3181 return conv;
3182
3183 delete conv;
3184 #else
3185 return NULL;
3186 #endif
3187 }
3188 #endif // wxHAVE_WIN32_MB2WC
3189
3190 #ifdef __DARWIN__
3191 {
3192 // leave UTF16 and UTF32 to the built-ins of wx
3193 if ( m_name || ( m_encoding < wxFONTENCODING_UTF16BE ||
3194 ( m_encoding >= wxFONTENCODING_MACMIN && m_encoding <= wxFONTENCODING_MACMAX ) ) )
3195 {
3196 #if wxUSE_FONTMAP
3197 wxMBConv_cf *conv = m_name ? new wxMBConv_cf(m_name)
3198 : new wxMBConv_cf(m_encoding);
3199 #else
3200 wxMBConv_cf *conv = new wxMBConv_cf(m_encoding);
3201 #endif
3202
3203 if ( conv->IsOk() )
3204 return conv;
3205
3206 delete conv;
3207 }
3208 }
3209 #endif // __DARWIN__
3210
3211 // step (2)
3212 wxFontEncoding enc = m_encoding;
3213 #if wxUSE_FONTMAP
3214 if ( enc == wxFONTENCODING_SYSTEM && m_name )
3215 {
3216 // use "false" to suppress interactive dialogs -- we can be called from
3217 // anywhere and popping up a dialog from here is the last thing we want to
3218 // do
3219 enc = wxFontMapperBase::Get()->CharsetToEncoding(m_name, false);
3220 }
3221 #endif // wxUSE_FONTMAP
3222
3223 switch ( enc )
3224 {
3225 case wxFONTENCODING_UTF7:
3226 return new wxMBConvUTF7;
3227
3228 case wxFONTENCODING_UTF8:
3229 return new wxMBConvUTF8;
3230
3231 case wxFONTENCODING_UTF16BE:
3232 return new wxMBConvUTF16BE;
3233
3234 case wxFONTENCODING_UTF16LE:
3235 return new wxMBConvUTF16LE;
3236
3237 case wxFONTENCODING_UTF32BE:
3238 return new wxMBConvUTF32BE;
3239
3240 case wxFONTENCODING_UTF32LE:
3241 return new wxMBConvUTF32LE;
3242
3243 default:
3244 // nothing to do but put here to suppress gcc warnings
3245 break;
3246 }
3247
3248 // step (3)
3249 #if wxUSE_FONTMAP
3250 {
3251 wxMBConv_wxwin *conv = m_name ? new wxMBConv_wxwin(m_name)
3252 : new wxMBConv_wxwin(m_encoding);
3253 if ( conv->IsOk() )
3254 return conv;
3255
3256 delete conv;
3257 }
3258
3259 wxLogTrace(TRACE_STRCONV,
3260 wxT("encoding \"%s\" is not supported by this system"),
3261 (m_name ? wxString(m_name)
3262 : wxFontMapperBase::GetEncodingName(m_encoding)));
3263 #endif // wxUSE_FONTMAP
3264
3265 return NULL;
3266 }
3267
3268 bool wxCSConv::IsOk() const
3269 {
3270 // special case: no convReal created for wxFONTENCODING_ISO8859_1
3271 if ( m_encoding == wxFONTENCODING_ISO8859_1 )
3272 return true; // always ok as we do it ourselves
3273
3274 // m_convReal->IsOk() is called at its own creation, so we know it must
3275 // be ok if m_convReal is non-NULL
3276 return m_convReal != NULL;
3277 }
3278
3279 size_t wxCSConv::ToWChar(wchar_t *dst, size_t dstLen,
3280 const char *src, size_t srcLen) const
3281 {
3282 if (m_convReal)
3283 return m_convReal->ToWChar(dst, dstLen, src, srcLen);
3284
3285 // latin-1 (direct)
3286 if ( srcLen == wxNO_LEN )
3287 srcLen = strlen(src) + 1; // take trailing NUL too
3288
3289 if ( dst )
3290 {
3291 if ( dstLen < srcLen )
3292 return wxCONV_FAILED;
3293
3294 for ( size_t n = 0; n < srcLen; n++ )
3295 dst[n] = (unsigned char)(src[n]);
3296 }
3297
3298 return srcLen;
3299 }
3300
3301 size_t wxCSConv::FromWChar(char *dst, size_t dstLen,
3302 const wchar_t *src, size_t srcLen) const
3303 {
3304 if (m_convReal)
3305 return m_convReal->FromWChar(dst, dstLen, src, srcLen);
3306
3307 // latin-1 (direct)
3308 if ( srcLen == wxNO_LEN )
3309 srcLen = wxWcslen(src) + 1;
3310
3311 if ( dst )
3312 {
3313 if ( dstLen < srcLen )
3314 return wxCONV_FAILED;
3315
3316 for ( size_t n = 0; n < srcLen; n++ )
3317 {
3318 if ( src[n] > 0xFF )
3319 return wxCONV_FAILED;
3320
3321 dst[n] = (char)src[n];
3322 }
3323
3324 }
3325 else // still need to check the input validity
3326 {
3327 for ( size_t n = 0; n < srcLen; n++ )
3328 {
3329 if ( src[n] > 0xFF )
3330 return wxCONV_FAILED;
3331 }
3332 }
3333
3334 return srcLen;
3335 }
3336
3337 size_t wxCSConv::GetMBNulLen() const
3338 {
3339 if ( m_convReal )
3340 return m_convReal->GetMBNulLen();
3341
3342 // otherwise, we are ISO-8859-1
3343 return 1;
3344 }
3345
3346 #if wxUSE_UNICODE_UTF8
3347 bool wxCSConv::IsUTF8() const
3348 {
3349 if ( m_convReal )
3350 return m_convReal->IsUTF8();
3351
3352 // otherwise, we are ISO-8859-1
3353 return false;
3354 }
3355 #endif
3356
3357
3358 #if wxUSE_UNICODE
3359
3360 wxWCharBuffer wxSafeConvertMB2WX(const char *s)
3361 {
3362 if ( !s )
3363 return wxWCharBuffer();
3364
3365 wxWCharBuffer wbuf(wxConvLibc.cMB2WX(s));
3366 if ( !wbuf )
3367 wbuf = wxMBConvUTF8().cMB2WX(s);
3368 if ( !wbuf )
3369 wbuf = wxConvISO8859_1.cMB2WX(s);
3370
3371 return wbuf;
3372 }
3373
3374 wxCharBuffer wxSafeConvertWX2MB(const wchar_t *ws)
3375 {
3376 if ( !ws )
3377 return wxCharBuffer();
3378
3379 wxCharBuffer buf(wxConvLibc.cWX2MB(ws));
3380 if ( !buf )
3381 buf = wxMBConvUTF8(wxMBConvUTF8::MAP_INVALID_UTF8_TO_OCTAL).cWX2MB(ws);
3382
3383 return buf;
3384 }
3385
3386 #endif // wxUSE_UNICODE
3387
3388 // ----------------------------------------------------------------------------
3389 // globals
3390 // ----------------------------------------------------------------------------
3391
3392 // NB: The reason why we create converted objects in this convoluted way,
3393 // using a factory function instead of global variable, is that they
3394 // may be used at static initialization time (some of them are used by
3395 // wxString ctors and there may be a global wxString object). In other
3396 // words, possibly _before_ the converter global object would be
3397 // initialized.
3398
3399 #undef wxConvLibc
3400 #undef wxConvUTF8
3401 #undef wxConvUTF7
3402 #undef wxConvLocal
3403 #undef wxConvISO8859_1
3404
3405 #define WX_DEFINE_GLOBAL_CONV2(klass, impl_klass, name, ctor_args) \
3406 WXDLLIMPEXP_DATA_BASE(klass*) name##Ptr = NULL; \
3407 WXDLLIMPEXP_BASE klass* wxGet_##name##Ptr() \
3408 { \
3409 static impl_klass name##Obj ctor_args; \
3410 return &name##Obj; \
3411 } \
3412 /* this ensures that all global converter objects are created */ \
3413 /* by the time static initialization is done, i.e. before any */ \
3414 /* thread is launched: */ \
3415 static klass* gs_##name##instance = wxGet_##name##Ptr()
3416
3417 #define WX_DEFINE_GLOBAL_CONV(klass, name, ctor_args) \
3418 WX_DEFINE_GLOBAL_CONV2(klass, klass, name, ctor_args)
3419
3420 #ifdef __INTELC__
3421 // disable warning "variable 'xxx' was declared but never referenced"
3422 #pragma warning(disable: 177)
3423 #endif // Intel C++
3424
3425 #ifdef __WINDOWS__
3426 WX_DEFINE_GLOBAL_CONV2(wxMBConv, wxMBConv_win32, wxConvLibc, wxEMPTY_PARAMETER_VALUE);
3427 #elif 0 // defined(__WXOSX__)
3428 WX_DEFINE_GLOBAL_CONV2(wxMBConv, wxMBConv_cf, wxConvLibc, (wxFONTENCODING_UTF8));
3429 #else
3430 WX_DEFINE_GLOBAL_CONV2(wxMBConv, wxMBConvLibc, wxConvLibc, wxEMPTY_PARAMETER_VALUE);
3431 #endif
3432
3433 // NB: we can't use wxEMPTY_PARAMETER_VALUE as final argument here because it's
3434 // passed to WX_DEFINE_GLOBAL_CONV2 after a macro expansion and so still
3435 // provokes an error message about "not enough macro parameters"; and we
3436 // can't use "()" here as the name##Obj declaration would be parsed as a
3437 // function declaration then, so use a semicolon and live with an extra
3438 // empty statement (and hope that no compilers warns about this)
3439 WX_DEFINE_GLOBAL_CONV(wxMBConvStrictUTF8, wxConvUTF8, ;);
3440 WX_DEFINE_GLOBAL_CONV(wxMBConvUTF7, wxConvUTF7, ;);
3441
3442 WX_DEFINE_GLOBAL_CONV(wxCSConv, wxConvLocal, (wxFONTENCODING_SYSTEM));
3443 WX_DEFINE_GLOBAL_CONV(wxCSConv, wxConvISO8859_1, (wxFONTENCODING_ISO8859_1));
3444
3445 WXDLLIMPEXP_DATA_BASE(wxMBConv *) wxConvCurrent = wxGet_wxConvLibcPtr();
3446 WXDLLIMPEXP_DATA_BASE(wxMBConv *) wxConvUI = wxGet_wxConvLocalPtr();
3447
3448 #ifdef __DARWIN__
3449 // It is important to use this conversion object under Darwin as it ensures
3450 // that Unicode strings are (re)composed correctly even though xnu kernel uses
3451 // decomposed form internally (at least for the file names).
3452 static wxMBConv_cf wxConvMacUTF8DObj(wxFONTENCODING_UTF8);
3453 #endif
3454
3455 WXDLLIMPEXP_DATA_BASE(wxMBConv *) wxConvFileName =
3456 #ifdef __DARWIN__
3457 &wxConvMacUTF8DObj;
3458 #else // !__DARWIN__
3459 wxGet_wxConvLibcPtr();
3460 #endif // __DARWIN__/!__DARWIN__