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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: src/common/arrstr.cpp
3 // Purpose: wxArrayString class
4 // Author: Vadim Zeitlin
5 // Modified by:
6 // Created: 29/01/98
7 // RCS-ID: $Id$
8 // Copyright: (c) 1998 Vadim Zeitlin <zeitlin@dptmaths.ens-cachan.fr>
9 // Licence: wxWindows licence
10 /////////////////////////////////////////////////////////////////////////////
11
12 // ===========================================================================
13 // headers, declarations, constants
14 // ===========================================================================
15
16 // For compilers that support precompilation, includes "wx.h".
17 #include "wx/wxprec.h"
18
19 #ifdef __BORLANDC__
20 #pragma hdrstop
21 #endif
22
23 #include "wx/arrstr.h"
24
25 #include "wx/beforestd.h"
26 #include <algorithm>
27 #include <functional>
28 #include "wx/afterstd.h"
29
30 // ============================================================================
31 // ArrayString
32 // ============================================================================
33
34 wxArrayString::wxArrayString(size_t sz, const char** a)
35 {
36 #if !wxUSE_STL
37 Init(false);
38 #endif
39 for (size_t i=0; i < sz; i++)
40 Add(a[i]);
41 }
42
43 wxArrayString::wxArrayString(size_t sz, const wchar_t** a)
44 {
45 #if !wxUSE_STL
46 Init(false);
47 #endif
48 for (size_t i=0; i < sz; i++)
49 Add(a[i]);
50 }
51
52 wxArrayString::wxArrayString(size_t sz, const wxString* a)
53 {
54 #if !wxUSE_STL
55 Init(false);
56 #endif
57 for (size_t i=0; i < sz; i++)
58 Add(a[i]);
59 }
60
61 #if !wxUSE_STL
62
63 // size increment = min(50% of current size, ARRAY_MAXSIZE_INCREMENT)
64 #define ARRAY_MAXSIZE_INCREMENT 4096
65
66 #ifndef ARRAY_DEFAULT_INITIAL_SIZE // also defined in dynarray.h
67 #define ARRAY_DEFAULT_INITIAL_SIZE (16)
68 #endif
69
70 // ctor
71 void wxArrayString::Init(bool autoSort)
72 {
73 m_nSize =
74 m_nCount = 0;
75 m_pItems = NULL;
76 m_autoSort = autoSort;
77 }
78
79 // copy ctor
80 wxArrayString::wxArrayString(const wxArrayString& src)
81 {
82 Init(src.m_autoSort);
83
84 *this = src;
85 }
86
87 // assignment operator
88 wxArrayString& wxArrayString::operator=(const wxArrayString& src)
89 {
90 if ( m_nSize > 0 )
91 Clear();
92
93 Copy(src);
94
95 m_autoSort = src.m_autoSort;
96
97 return *this;
98 }
99
100 void wxArrayString::Copy(const wxArrayString& src)
101 {
102 if ( src.m_nCount > ARRAY_DEFAULT_INITIAL_SIZE )
103 Alloc(src.m_nCount);
104
105 for ( size_t n = 0; n < src.m_nCount; n++ )
106 Add(src[n]);
107 }
108
109 // grow the array
110 void wxArrayString::Grow(size_t nIncrement)
111 {
112 // only do it if no more place
113 if ( (m_nSize - m_nCount) < nIncrement ) {
114 // if ARRAY_DEFAULT_INITIAL_SIZE were set to 0, the initially empty would
115 // be never resized!
116 #if ARRAY_DEFAULT_INITIAL_SIZE == 0
117 #error "ARRAY_DEFAULT_INITIAL_SIZE must be > 0!"
118 #endif
119
120 if ( m_nSize == 0 ) {
121 // was empty, alloc some memory
122 m_nSize = ARRAY_DEFAULT_INITIAL_SIZE;
123 if (m_nSize < nIncrement)
124 m_nSize = nIncrement;
125 m_pItems = new wxString[m_nSize];
126 }
127 else {
128 // otherwise when it's called for the first time, nIncrement would be 0
129 // and the array would never be expanded
130 // add 50% but not too much
131 size_t ndefIncrement = m_nSize < ARRAY_DEFAULT_INITIAL_SIZE
132 ? ARRAY_DEFAULT_INITIAL_SIZE : m_nSize >> 1;
133 if ( ndefIncrement > ARRAY_MAXSIZE_INCREMENT )
134 ndefIncrement = ARRAY_MAXSIZE_INCREMENT;
135 if ( nIncrement < ndefIncrement )
136 nIncrement = ndefIncrement;
137 m_nSize += nIncrement;
138 wxString *pNew = new wxString[m_nSize];
139
140 // copy data to new location
141 for ( size_t j = 0; j < m_nCount; j++ )
142 pNew[j] = m_pItems[j];
143
144 // delete old memory (but do not release the strings!)
145 delete [] m_pItems;
146
147 m_pItems = pNew;
148 }
149 }
150 }
151
152 // deletes all the strings from the list
153 void wxArrayString::Empty()
154 {
155 m_nCount = 0;
156 }
157
158 // as Empty, but also frees memory
159 void wxArrayString::Clear()
160 {
161 m_nSize =
162 m_nCount = 0;
163
164 wxDELETEA(m_pItems);
165 }
166
167 // dtor
168 wxArrayString::~wxArrayString()
169 {
170 delete [] m_pItems;
171 }
172
173 void wxArrayString::reserve(size_t nSize)
174 {
175 Alloc(nSize);
176 }
177
178 // pre-allocates memory (frees the previous data!)
179 void wxArrayString::Alloc(size_t nSize)
180 {
181 // only if old buffer was not big enough
182 if ( nSize > m_nSize ) {
183 wxString *pNew = new wxString[nSize];
184 if ( !pNew )
185 return;
186
187 for ( size_t j = 0; j < m_nCount; j++ )
188 pNew[j] = m_pItems[j];
189 delete [] m_pItems;
190
191 m_pItems = pNew;
192 m_nSize = nSize;
193 }
194 }
195
196 // minimizes the memory usage by freeing unused memory
197 void wxArrayString::Shrink()
198 {
199 // only do it if we have some memory to free
200 if( m_nCount < m_nSize ) {
201 // allocates exactly as much memory as we need
202 wxString *pNew = new wxString[m_nCount];
203
204 // copy data to new location
205 for ( size_t j = 0; j < m_nCount; j++ )
206 pNew[j] = m_pItems[j];
207 delete [] m_pItems;
208 m_pItems = pNew;
209 m_nSize = m_nCount;
210 }
211 }
212
213 // searches the array for an item (forward or backwards)
214 int wxArrayString::Index(const wxString& str, bool bCase, bool bFromEnd) const
215 {
216 if ( m_autoSort ) {
217 // use binary search in the sorted array
218 wxASSERT_MSG( bCase && !bFromEnd,
219 wxT("search parameters ignored for auto sorted array") );
220
221 size_t i,
222 lo = 0,
223 hi = m_nCount;
224 int res;
225 while ( lo < hi ) {
226 i = (lo + hi)/2;
227
228 res = str.compare(m_pItems[i]);
229 if ( res < 0 )
230 hi = i;
231 else if ( res > 0 )
232 lo = i + 1;
233 else
234 return i;
235 }
236
237 return wxNOT_FOUND;
238 }
239 else {
240 // use linear search in unsorted array
241 if ( bFromEnd ) {
242 if ( m_nCount > 0 ) {
243 size_t ui = m_nCount;
244 do {
245 if ( m_pItems[--ui].IsSameAs(str, bCase) )
246 return ui;
247 }
248 while ( ui != 0 );
249 }
250 }
251 else {
252 for( size_t ui = 0; ui < m_nCount; ui++ ) {
253 if( m_pItems[ui].IsSameAs(str, bCase) )
254 return ui;
255 }
256 }
257 }
258
259 return wxNOT_FOUND;
260 }
261
262 // add item at the end
263 size_t wxArrayString::Add(const wxString& str, size_t nInsert)
264 {
265 if ( m_autoSort ) {
266 // insert the string at the correct position to keep the array sorted
267 size_t i,
268 lo = 0,
269 hi = m_nCount;
270 int res;
271 while ( lo < hi ) {
272 i = (lo + hi)/2;
273
274 res = str.Cmp(m_pItems[i]);
275 if ( res < 0 )
276 hi = i;
277 else if ( res > 0 )
278 lo = i + 1;
279 else {
280 lo = hi = i;
281 break;
282 }
283 }
284
285 wxASSERT_MSG( lo == hi, wxT("binary search broken") );
286
287 Insert(str, lo, nInsert);
288
289 return (size_t)lo;
290 }
291 else {
292 Grow(nInsert);
293
294 for (size_t i = 0; i < nInsert; i++)
295 {
296 // just append
297 m_pItems[m_nCount + i] = str;
298 }
299 size_t ret = m_nCount;
300 m_nCount += nInsert;
301 return ret;
302 }
303 }
304
305 // add item at the given position
306 void wxArrayString::Insert(const wxString& str, size_t nIndex, size_t nInsert)
307 {
308 wxCHECK_RET( nIndex <= m_nCount, wxT("bad index in wxArrayString::Insert") );
309 wxCHECK_RET( m_nCount <= m_nCount + nInsert,
310 wxT("array size overflow in wxArrayString::Insert") );
311
312 Grow(nInsert);
313
314 for (int j = m_nCount - nIndex - 1; j >= 0; j--)
315 m_pItems[nIndex + nInsert + j] = m_pItems[nIndex + j];
316
317 for (size_t i = 0; i < nInsert; i++)
318 {
319 m_pItems[nIndex + i] = str;
320 }
321 m_nCount += nInsert;
322 }
323
324 // range insert (STL 23.2.4.3)
325 void
326 wxArrayString::insert(iterator it, const_iterator first, const_iterator last)
327 {
328 const int idx = it - begin();
329
330 // grow it once
331 Grow(last - first);
332
333 // reset "it" since it can change inside Grow()
334 it = begin() + idx;
335
336 while ( first != last )
337 {
338 it = insert(it, *first);
339
340 // insert returns an iterator to the last element inserted but we need
341 // insert the next after this one, that is before the next one
342 ++it;
343
344 ++first;
345 }
346 }
347
348 void wxArrayString::resize(size_type n, value_type v)
349 {
350 if ( n < m_nCount )
351 m_nCount = n;
352 else if ( n > m_nCount )
353 Add(v, n - m_nCount);
354 }
355
356 // expand the array
357 void wxArrayString::SetCount(size_t count)
358 {
359 Alloc(count);
360
361 wxString s;
362 while ( m_nCount < count )
363 m_pItems[m_nCount++] = s;
364 }
365
366 // removes item from array (by index)
367 void wxArrayString::RemoveAt(size_t nIndex, size_t nRemove)
368 {
369 wxCHECK_RET( nIndex < m_nCount, wxT("bad index in wxArrayString::Remove") );
370 wxCHECK_RET( nIndex + nRemove <= m_nCount,
371 wxT("removing too many elements in wxArrayString::Remove") );
372
373 for ( size_t j = 0; j < m_nCount - nIndex -nRemove; j++)
374 m_pItems[nIndex + j] = m_pItems[nIndex + nRemove + j];
375
376 m_nCount -= nRemove;
377 }
378
379 // removes item from array (by value)
380 void wxArrayString::Remove(const wxString& sz)
381 {
382 int iIndex = Index(sz);
383
384 wxCHECK_RET( iIndex != wxNOT_FOUND,
385 wxT("removing inexistent element in wxArrayString::Remove") );
386
387 RemoveAt(iIndex);
388 }
389
390 // ----------------------------------------------------------------------------
391 // sorting
392 // ----------------------------------------------------------------------------
393
394 // we need an adaptor as our predicates use qsort() convention and so return
395 // negative, null or positive value depending on whether the first item is less
396 // than, equal to or greater than the other one while we need a real boolean
397 // predicate now that we use std::sort()
398 struct wxSortPredicateAdaptor
399 {
400 wxSortPredicateAdaptor(wxArrayString::CompareFunction compareFunction)
401 : m_compareFunction(compareFunction)
402 {
403 }
404
405 bool operator()(const wxString& first, const wxString& second) const
406 {
407 return (*m_compareFunction)(first, second) < 0;
408 }
409
410 wxArrayString::CompareFunction m_compareFunction;
411 };
412
413 void wxArrayString::Sort(CompareFunction compareFunction)
414 {
415 wxCHECK_RET( !m_autoSort, wxT("can't use this method with sorted arrays") );
416
417 std::sort(m_pItems, m_pItems + m_nCount,
418 wxSortPredicateAdaptor(compareFunction));
419 }
420
421 struct wxSortPredicateAdaptor2
422 {
423 wxSortPredicateAdaptor2(wxArrayString::CompareFunction2 compareFunction)
424 : m_compareFunction(compareFunction)
425 {
426 }
427
428 bool operator()(const wxString& first, const wxString& second) const
429 {
430 return (*m_compareFunction)(const_cast<wxString *>(&first),
431 const_cast<wxString *>(&second)) < 0;
432 }
433
434 wxArrayString::CompareFunction2 m_compareFunction;
435 };
436
437 void wxArrayString::Sort(CompareFunction2 compareFunction)
438 {
439 std::sort(m_pItems, m_pItems + m_nCount,
440 wxSortPredicateAdaptor2(compareFunction));
441 }
442
443 void wxArrayString::Sort(bool reverseOrder)
444 {
445 if ( reverseOrder )
446 std::sort(m_pItems, m_pItems + m_nCount, std::greater<wxString>());
447 else // normal sort
448 std::sort(m_pItems, m_pItems + m_nCount);
449 }
450
451 bool wxArrayString::operator==(const wxArrayString& a) const
452 {
453 if ( m_nCount != a.m_nCount )
454 return false;
455
456 for ( size_t n = 0; n < m_nCount; n++ )
457 {
458 if ( Item(n) != a[n] )
459 return false;
460 }
461
462 return true;
463 }
464
465 #endif // !wxUSE_STL
466
467 // ===========================================================================
468 // wxJoin and wxSplit
469 // ===========================================================================
470
471 #include "wx/tokenzr.h"
472
473 wxString wxJoin(const wxArrayString& arr, const wxChar sep, const wxChar escape)
474 {
475 size_t count = arr.size();
476 if ( count == 0 )
477 return wxEmptyString;
478
479 wxString str;
480
481 // pre-allocate memory using the estimation of the average length of the
482 // strings in the given array: this is very imprecise, of course, but
483 // better than nothing
484 str.reserve(count*(arr[0].length() + arr[count-1].length()) / 2);
485
486 if ( escape == wxT('\0') )
487 {
488 // escaping is disabled:
489 for ( size_t i = 0; i < count; i++ )
490 {
491 if ( i )
492 str += sep;
493 str += arr[i];
494 }
495 }
496 else // use escape character
497 {
498 for ( size_t n = 0; n < count; n++ )
499 {
500 if ( n )
501 str += sep;
502
503 for ( wxString::const_iterator i = arr[n].begin(),
504 end = arr[n].end();
505 i != end;
506 ++i )
507 {
508 const wxChar ch = *i;
509 if ( ch == sep )
510 str += escape; // escape this separator
511 str += ch;
512 }
513 }
514 }
515
516 str.Shrink(); // release extra memory if we allocated too much
517 return str;
518 }
519
520 wxArrayString wxSplit(const wxString& str, const wxChar sep, const wxChar escape)
521 {
522 if ( escape == wxT('\0') )
523 {
524 // simple case: we don't need to honour the escape character
525 return wxStringTokenize(str, sep, wxTOKEN_RET_EMPTY_ALL);
526 }
527
528 wxArrayString ret;
529 wxString curr;
530 wxChar prev = wxT('\0');
531
532 for ( wxString::const_iterator i = str.begin(),
533 end = str.end();
534 i != end;
535 ++i )
536 {
537 const wxChar ch = *i;
538
539 if ( ch == sep )
540 {
541 if ( prev == escape )
542 {
543 // remove the escape character and don't consider this
544 // occurrence of 'sep' as a real separator
545 *curr.rbegin() = sep;
546 }
547 else // real separator
548 {
549 ret.push_back(curr);
550 curr.clear();
551 }
552 }
553 else // normal character
554 {
555 curr += ch;
556 }
557
558 prev = ch;
559 }
560
561 // add the last token
562 if ( !curr.empty() || prev == sep )
563 ret.Add(curr);
564
565 return ret;
566 }