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1 742 jeremybenn
// SGI's rope class implementation -*- C++ -*-
2
 
3
// Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010
4
// Free Software Foundation, Inc.
5
//
6
// This file is part of the GNU ISO C++ Library.  This library is free
7
// software; you can redistribute it and/or modify it under the
8
// terms of the GNU General Public License as published by the
9
// Free Software Foundation; either version 3, or (at your option)
10
// any later version.
11
 
12
// This library is distributed in the hope that it will be useful,
13
// but WITHOUT ANY WARRANTY; without even the implied warranty of
14
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15
// GNU General Public License for more details.
16
 
17
// Under Section 7 of GPL version 3, you are granted additional
18
// permissions described in the GCC Runtime Library Exception, version
19
// 3.1, as published by the Free Software Foundation.
20
 
21
// You should have received a copy of the GNU General Public License and
22
// a copy of the GCC Runtime Library Exception along with this program;
23
// see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
24
// <http://www.gnu.org/licenses/>.
25
 
26
/*
27
 * Copyright (c) 1997
28
 * Silicon Graphics Computer Systems, Inc.
29
 *
30
 * Permission to use, copy, modify, distribute and sell this software
31
 * and its documentation for any purpose is hereby granted without fee,
32
 * provided that the above copyright notice appear in all copies and
33
 * that both that copyright notice and this permission notice appear
34
 * in supporting documentation.  Silicon Graphics makes no
35
 * representations about the suitability of this software for any
36
 * purpose.  It is provided "as is" without express or implied warranty.
37
 */
38
 
39
/** @file ropeimpl.h
40
 *  This is an internal header file, included by other library headers.
41
 *  Do not attempt to use it directly. @headername{ext/rope}
42
 */
43
 
44
#include <cstdio>
45
#include <ostream>
46
#include <bits/functexcept.h>
47
 
48
#include <ext/algorithm> // For copy_n and lexicographical_compare_3way
49
#include <ext/memory> // For uninitialized_copy_n
50
#include <ext/numeric> // For power
51
 
52
namespace __gnu_cxx _GLIBCXX_VISIBILITY(default)
53
{
54
_GLIBCXX_BEGIN_NAMESPACE_VERSION
55
 
56
  using std::size_t;
57
  using std::printf;
58
  using std::basic_ostream;
59
  using std::__throw_length_error;
60
  using std::_Destroy;
61
  using std::uninitialized_fill_n;
62
 
63
  // Set buf_start, buf_end, and buf_ptr appropriately, filling tmp_buf
64
  // if necessary.  Assumes _M_path_end[leaf_index] and leaf_pos are correct.
65
  // Results in a valid buf_ptr if the iterator can be legitimately
66
  // dereferenced.
67
  template <class _CharT, class _Alloc>
68
    void
69
    _Rope_iterator_base<_CharT, _Alloc>::
70
    _S_setbuf(_Rope_iterator_base<_CharT, _Alloc>& __x)
71
    {
72
      const _RopeRep* __leaf = __x._M_path_end[__x._M_leaf_index];
73
      size_t __leaf_pos = __x._M_leaf_pos;
74
      size_t __pos = __x._M_current_pos;
75
 
76
      switch(__leaf->_M_tag)
77
        {
78
        case __detail::_S_leaf:
79
          __x._M_buf_start = ((_Rope_RopeLeaf<_CharT, _Alloc>*)__leaf)->_M_data;
80
          __x._M_buf_ptr = __x._M_buf_start + (__pos - __leaf_pos);
81
          __x._M_buf_end = __x._M_buf_start + __leaf->_M_size;
82
          break;
83
        case __detail::_S_function:
84
        case __detail::_S_substringfn:
85
          {
86
            size_t __len = _S_iterator_buf_len;
87
            size_t __buf_start_pos = __leaf_pos;
88
            size_t __leaf_end = __leaf_pos + __leaf->_M_size;
89
            char_producer<_CharT>* __fn = ((_Rope_RopeFunction<_CharT,
90
                                            _Alloc>*)__leaf)->_M_fn;
91
            if (__buf_start_pos + __len <= __pos)
92
              {
93
                __buf_start_pos = __pos - __len / 4;
94
                if (__buf_start_pos + __len > __leaf_end)
95
                  __buf_start_pos = __leaf_end - __len;
96
              }
97
            if (__buf_start_pos + __len > __leaf_end)
98
              __len = __leaf_end - __buf_start_pos;
99
            (*__fn)(__buf_start_pos - __leaf_pos, __len, __x._M_tmp_buf);
100
            __x._M_buf_ptr = __x._M_tmp_buf + (__pos - __buf_start_pos);
101
            __x._M_buf_start = __x._M_tmp_buf;
102
            __x._M_buf_end = __x._M_tmp_buf + __len;
103
          }
104
          break;
105
        default:
106
          break;
107
        }
108
    }
109
 
110
  // Set path and buffer inside a rope iterator.  We assume that
111
  // pos and root are already set.
112
  template <class _CharT, class _Alloc>
113
    void
114
    _Rope_iterator_base<_CharT, _Alloc>::
115
    _S_setcache(_Rope_iterator_base<_CharT, _Alloc>& __x)
116
    {
117
      const _RopeRep* __path[int(__detail::_S_max_rope_depth) + 1];
118
      const _RopeRep* __curr_rope;
119
      int __curr_depth = -1;  /* index into path    */
120
      size_t __curr_start_pos = 0;
121
      size_t __pos = __x._M_current_pos;
122
      unsigned char __dirns = 0; // Bit vector marking right turns in the path
123
 
124
      if (__pos >= __x._M_root->_M_size)
125
        {
126
          __x._M_buf_ptr = 0;
127
          return;
128
        }
129
      __curr_rope = __x._M_root;
130
      if (0 != __curr_rope->_M_c_string)
131
        {
132
          /* Treat the root as a leaf. */
133
          __x._M_buf_start = __curr_rope->_M_c_string;
134
          __x._M_buf_end = __curr_rope->_M_c_string + __curr_rope->_M_size;
135
          __x._M_buf_ptr = __curr_rope->_M_c_string + __pos;
136
          __x._M_path_end[0] = __curr_rope;
137
          __x._M_leaf_index = 0;
138
          __x._M_leaf_pos = 0;
139
          return;
140
        }
141
      for(;;)
142
        {
143
          ++__curr_depth;
144
          __path[__curr_depth] = __curr_rope;
145
          switch(__curr_rope->_M_tag)
146
            {
147
            case __detail::_S_leaf:
148
            case __detail::_S_function:
149
            case __detail::_S_substringfn:
150
              __x._M_leaf_pos = __curr_start_pos;
151
              goto done;
152
            case __detail::_S_concat:
153
              {
154
                _Rope_RopeConcatenation<_CharT, _Alloc>* __c =
155
                  (_Rope_RopeConcatenation<_CharT, _Alloc>*)__curr_rope;
156
                _RopeRep* __left = __c->_M_left;
157
                size_t __left_len = __left->_M_size;
158
 
159
                __dirns <<= 1;
160
                if (__pos >= __curr_start_pos + __left_len)
161
                  {
162
                    __dirns |= 1;
163
                    __curr_rope = __c->_M_right;
164
                    __curr_start_pos += __left_len;
165
                  }
166
                else
167
                  __curr_rope = __left;
168
              }
169
              break;
170
            }
171
        }
172
    done:
173
      // Copy last section of path into _M_path_end.
174
      {
175
        int __i = -1;
176
        int __j = __curr_depth + 1 - int(_S_path_cache_len);
177
 
178
        if (__j < 0) __j = 0;
179
        while (__j <= __curr_depth)
180
          __x._M_path_end[++__i] = __path[__j++];
181
        __x._M_leaf_index = __i;
182
      }
183
      __x._M_path_directions = __dirns;
184
      _S_setbuf(__x);
185
    }
186
 
187
  // Specialized version of the above.  Assumes that
188
  // the path cache is valid for the previous position.
189
  template <class _CharT, class _Alloc>
190
    void
191
    _Rope_iterator_base<_CharT, _Alloc>::
192
    _S_setcache_for_incr(_Rope_iterator_base<_CharT, _Alloc>& __x)
193
    {
194
      int __current_index = __x._M_leaf_index;
195
      const _RopeRep* __current_node = __x._M_path_end[__current_index];
196
      size_t __len = __current_node->_M_size;
197
      size_t __node_start_pos = __x._M_leaf_pos;
198
      unsigned char __dirns = __x._M_path_directions;
199
      _Rope_RopeConcatenation<_CharT, _Alloc>* __c;
200
 
201
      if (__x._M_current_pos - __node_start_pos < __len)
202
        {
203
          /* More stuff in this leaf, we just didn't cache it. */
204
          _S_setbuf(__x);
205
          return;
206
        }
207
      //  node_start_pos is starting position of last_node.
208
      while (--__current_index >= 0)
209
        {
210
          if (!(__dirns & 1) /* Path turned left */)
211
            break;
212
          __current_node = __x._M_path_end[__current_index];
213
          __c = (_Rope_RopeConcatenation<_CharT, _Alloc>*)__current_node;
214
          // Otherwise we were in the right child.  Thus we should pop
215
          // the concatenation node.
216
          __node_start_pos -= __c->_M_left->_M_size;
217
          __dirns >>= 1;
218
        }
219
      if (__current_index < 0)
220
        {
221
          // We underflowed the cache. Punt.
222
          _S_setcache(__x);
223
          return;
224
        }
225
      __current_node = __x._M_path_end[__current_index];
226
      __c = (_Rope_RopeConcatenation<_CharT, _Alloc>*)__current_node;
227
      // current_node is a concatenation node.  We are positioned on the first
228
      // character in its right child.
229
      // node_start_pos is starting position of current_node.
230
      __node_start_pos += __c->_M_left->_M_size;
231
      __current_node = __c->_M_right;
232
      __x._M_path_end[++__current_index] = __current_node;
233
      __dirns |= 1;
234
      while (__detail::_S_concat == __current_node->_M_tag)
235
        {
236
          ++__current_index;
237
          if (int(_S_path_cache_len) == __current_index)
238
            {
239
              int __i;
240
              for (__i = 0; __i < int(_S_path_cache_len) - 1; __i++)
241
                __x._M_path_end[__i] = __x._M_path_end[__i+1];
242
              --__current_index;
243
            }
244
          __current_node =
245
            ((_Rope_RopeConcatenation<_CharT, _Alloc>*)__current_node)->_M_left;
246
          __x._M_path_end[__current_index] = __current_node;
247
          __dirns <<= 1;
248
          // node_start_pos is unchanged.
249
        }
250
      __x._M_leaf_index = __current_index;
251
      __x._M_leaf_pos = __node_start_pos;
252
      __x._M_path_directions = __dirns;
253
      _S_setbuf(__x);
254
    }
255
 
256
  template <class _CharT, class _Alloc>
257
    void
258
    _Rope_iterator_base<_CharT, _Alloc>::
259
    _M_incr(size_t __n)
260
    {
261
      _M_current_pos += __n;
262
      if (0 != _M_buf_ptr)
263
        {
264
          size_t __chars_left = _M_buf_end - _M_buf_ptr;
265
          if (__chars_left > __n)
266
            _M_buf_ptr += __n;
267
          else if (__chars_left == __n)
268
            {
269
              _M_buf_ptr += __n;
270
              _S_setcache_for_incr(*this);
271
            }
272
          else
273
            _M_buf_ptr = 0;
274
        }
275
    }
276
 
277
  template <class _CharT, class _Alloc>
278
    void
279
    _Rope_iterator_base<_CharT, _Alloc>::
280
    _M_decr(size_t __n)
281
    {
282
      if (0 != _M_buf_ptr)
283
        {
284
          size_t __chars_left = _M_buf_ptr - _M_buf_start;
285
          if (__chars_left >= __n)
286
            _M_buf_ptr -= __n;
287
          else
288
            _M_buf_ptr = 0;
289
        }
290
      _M_current_pos -= __n;
291
    }
292
 
293
  template <class _CharT, class _Alloc>
294
    void
295
    _Rope_iterator<_CharT, _Alloc>::
296
    _M_check()
297
    {
298
      if (_M_root_rope->_M_tree_ptr != this->_M_root)
299
        {
300
          // _Rope was modified.  Get things fixed up.
301
          _RopeRep::_S_unref(this->_M_root);
302
          this->_M_root = _M_root_rope->_M_tree_ptr;
303
          _RopeRep::_S_ref(this->_M_root);
304
          this->_M_buf_ptr = 0;
305
        }
306
    }
307
 
308
  template <class _CharT, class _Alloc>
309
    inline
310
    _Rope_const_iterator<_CharT, _Alloc>::
311
    _Rope_const_iterator(const _Rope_iterator<_CharT, _Alloc>& __x)
312
    : _Rope_iterator_base<_CharT, _Alloc>(__x)
313
    { }
314
 
315
  template <class _CharT, class _Alloc>
316
    inline
317
    _Rope_iterator<_CharT, _Alloc>::
318
    _Rope_iterator(rope<_CharT, _Alloc>& __r, size_t __pos)
319
    : _Rope_iterator_base<_CharT,_Alloc>(__r._M_tree_ptr, __pos),
320
      _M_root_rope(&__r)
321
    { _RopeRep::_S_ref(this->_M_root); }
322
 
323
  template <class _CharT, class _Alloc>
324
    inline size_t
325
    rope<_CharT, _Alloc>::
326
    _S_char_ptr_len(const _CharT* __s)
327
    {
328
      const _CharT* __p = __s;
329
 
330
      while (!_S_is0(*__p))
331
        ++__p;
332
      return (__p - __s);
333
    }
334
 
335
 
336
#ifndef __GC
337
 
338
  template <class _CharT, class _Alloc>
339
    inline void
340
    _Rope_RopeRep<_CharT, _Alloc>::
341
    _M_free_c_string()
342
    {
343
      _CharT* __cstr = _M_c_string;
344
      if (0 != __cstr)
345
        {
346
          size_t __size = this->_M_size + 1;
347
          _Destroy(__cstr, __cstr + __size, _M_get_allocator());
348
          this->_Data_deallocate(__cstr, __size);
349
        }
350
    }
351
 
352
  template <class _CharT, class _Alloc>
353
    inline void
354
    _Rope_RopeRep<_CharT, _Alloc>::
355
    _S_free_string(_CharT* __s, size_t __n, allocator_type& __a)
356
    {
357
      if (!_S_is_basic_char_type((_CharT*)0))
358
        _Destroy(__s, __s + __n, __a);
359
 
360
      //  This has to be a static member, so this gets a bit messy
361
      __a.deallocate(__s,
362
                     _Rope_RopeLeaf<_CharT, _Alloc>::_S_rounded_up_size(__n));
363
    }
364
 
365
  //  There are several reasons for not doing this with virtual destructors
366
  //  and a class specific delete operator:
367
  //  - A class specific delete operator can't easily get access to
368
  //    allocator instances if we need them.
369
  //  - Any virtual function would need a 4 or byte vtable pointer;
370
  //    this only requires a one byte tag per object.
371
  template <class _CharT, class _Alloc>
372
    void
373
    _Rope_RopeRep<_CharT, _Alloc>::
374
    _M_free_tree()
375
    {
376
      switch(_M_tag)
377
        {
378
        case __detail::_S_leaf:
379
          {
380
            _Rope_RopeLeaf<_CharT, _Alloc>* __l
381
              = (_Rope_RopeLeaf<_CharT, _Alloc>*)this;
382
            __l->_Rope_RopeLeaf<_CharT, _Alloc>::~_Rope_RopeLeaf();
383
            this->_L_deallocate(__l, 1);
384
            break;
385
          }
386
        case __detail::_S_concat:
387
          {
388
            _Rope_RopeConcatenation<_CharT,_Alloc>* __c
389
              = (_Rope_RopeConcatenation<_CharT, _Alloc>*)this;
390
            __c->_Rope_RopeConcatenation<_CharT, _Alloc>::
391
              ~_Rope_RopeConcatenation();
392
            this->_C_deallocate(__c, 1);
393
            break;
394
          }
395
        case __detail::_S_function:
396
          {
397
            _Rope_RopeFunction<_CharT, _Alloc>* __f
398
              = (_Rope_RopeFunction<_CharT, _Alloc>*)this;
399
            __f->_Rope_RopeFunction<_CharT, _Alloc>::~_Rope_RopeFunction();
400
            this->_F_deallocate(__f, 1);
401
            break;
402
          }
403
        case __detail::_S_substringfn:
404
          {
405
            _Rope_RopeSubstring<_CharT, _Alloc>* __ss =
406
              (_Rope_RopeSubstring<_CharT, _Alloc>*)this;
407
            __ss->_Rope_RopeSubstring<_CharT, _Alloc>::
408
              ~_Rope_RopeSubstring();
409
            this->_S_deallocate(__ss, 1);
410
            break;
411
          }
412
        }
413
    }
414
#else
415
 
416
  template <class _CharT, class _Alloc>
417
    inline void
418
    _Rope_RopeRep<_CharT, _Alloc>::
419
    _S_free_string(const _CharT*, size_t, allocator_type)
420
    { }
421
 
422
#endif
423
 
424
  // Concatenate a C string onto a leaf rope by copying the rope data.
425
  // Used for short ropes.
426
  template <class _CharT, class _Alloc>
427
    typename rope<_CharT, _Alloc>::_RopeLeaf*
428
    rope<_CharT, _Alloc>::
429
    _S_leaf_concat_char_iter(_RopeLeaf* __r, const _CharT* __iter, size_t __len)
430
    {
431
      size_t __old_len = __r->_M_size;
432
      _CharT* __new_data = (_CharT*)
433
        rope::_Data_allocate(_S_rounded_up_size(__old_len + __len));
434
      _RopeLeaf* __result;
435
 
436
      uninitialized_copy_n(__r->_M_data, __old_len, __new_data);
437
      uninitialized_copy_n(__iter, __len, __new_data + __old_len);
438
      _S_cond_store_eos(__new_data[__old_len + __len]);
439
      __try
440
        {
441
          __result = _S_new_RopeLeaf(__new_data, __old_len + __len,
442
                                     __r->_M_get_allocator());
443
        }
444
      __catch(...)
445
        {
446
          _RopeRep::__STL_FREE_STRING(__new_data, __old_len + __len,
447
                                      __r->_M_get_allocator());
448
          __throw_exception_again;
449
        }
450
      return __result;
451
    }
452
 
453
#ifndef __GC
454
  // As above, but it's OK to clobber original if refcount is 1
455
  template <class _CharT, class _Alloc>
456
    typename rope<_CharT,_Alloc>::_RopeLeaf*
457
    rope<_CharT, _Alloc>::
458
    _S_destr_leaf_concat_char_iter(_RopeLeaf* __r, const _CharT* __iter,
459
                                   size_t __len)
460
    {
461
      if (__r->_M_ref_count > 1)
462
        return _S_leaf_concat_char_iter(__r, __iter, __len);
463
      size_t __old_len = __r->_M_size;
464
      if (_S_allocated_capacity(__old_len) >= __old_len + __len)
465
        {
466
          // The space has been partially initialized for the standard
467
          // character types.  But that doesn't matter for those types.
468
          uninitialized_copy_n(__iter, __len, __r->_M_data + __old_len);
469
          if (_S_is_basic_char_type((_CharT*)0))
470
            _S_cond_store_eos(__r->_M_data[__old_len + __len]);
471
          else if (__r->_M_c_string != __r->_M_data && 0 != __r->_M_c_string)
472
            {
473
              __r->_M_free_c_string();
474
              __r->_M_c_string = 0;
475
            }
476
          __r->_M_size = __old_len + __len;
477
          __r->_M_ref_count = 2;
478
          return __r;
479
        }
480
      else
481
        {
482
          _RopeLeaf* __result = _S_leaf_concat_char_iter(__r, __iter, __len);
483
          return __result;
484
        }
485
    }
486
#endif
487
 
488
  // Assumes left and right are not 0.
489
  // Does not increment (nor decrement on exception) child reference counts.
490
  // Result has ref count 1.
491
  template <class _CharT, class _Alloc>
492
    typename rope<_CharT, _Alloc>::_RopeRep*
493
    rope<_CharT, _Alloc>::
494
    _S_tree_concat(_RopeRep* __left, _RopeRep* __right)
495
    {
496
      _RopeConcatenation* __result = _S_new_RopeConcatenation(__left, __right,
497
                                                              __left->
498
                                                              _M_get_allocator());
499
      size_t __depth = __result->_M_depth;
500
 
501
      if (__depth > 20
502
          && (__result->_M_size < 1000
503
              || __depth > size_t(__detail::_S_max_rope_depth)))
504
        {
505
          _RopeRep* __balanced;
506
 
507
          __try
508
            {
509
              __balanced = _S_balance(__result);
510
              __result->_M_unref_nonnil();
511
            }
512
          __catch(...)
513
            {
514
              rope::_C_deallocate(__result,1);
515
              __throw_exception_again;
516
            }
517
          // In case of exception, we need to deallocate
518
          // otherwise dangling result node.  But caller
519
          // still owns its children.  Thus unref is
520
          // inappropriate.
521
          return __balanced;
522
        }
523
      else
524
        return __result;
525
    }
526
 
527
  template <class _CharT, class _Alloc>
528
    typename rope<_CharT, _Alloc>::_RopeRep*
529
    rope<_CharT, _Alloc>::
530
    _S_concat_char_iter(_RopeRep* __r, const _CharT*__s, size_t __slen)
531
    {
532
      _RopeRep* __result;
533
      if (0 == __slen)
534
        {
535
          _S_ref(__r);
536
          return __r;
537
        }
538
      if (0 == __r)
539
        return __STL_ROPE_FROM_UNOWNED_CHAR_PTR(__s, __slen,
540
                                                __r->_M_get_allocator());
541
      if (__r->_M_tag == __detail::_S_leaf
542
          && __r->_M_size + __slen <= size_t(_S_copy_max))
543
        {
544
          __result = _S_leaf_concat_char_iter((_RopeLeaf*)__r, __s, __slen);
545
          return __result;
546
        }
547
      if (__detail::_S_concat == __r->_M_tag
548
          && __detail::_S_leaf == ((_RopeConcatenation*) __r)->_M_right->_M_tag)
549
        {
550
          _RopeLeaf* __right =
551
            (_RopeLeaf* )(((_RopeConcatenation* )__r)->_M_right);
552
          if (__right->_M_size + __slen <= size_t(_S_copy_max))
553
            {
554
              _RopeRep* __left = ((_RopeConcatenation*)__r)->_M_left;
555
              _RopeRep* __nright =
556
                _S_leaf_concat_char_iter((_RopeLeaf*)__right, __s, __slen);
557
              __left->_M_ref_nonnil();
558
              __try
559
                { __result = _S_tree_concat(__left, __nright); }
560
              __catch(...)
561
                {
562
                  _S_unref(__left);
563
                  _S_unref(__nright);
564
                  __throw_exception_again;
565
                }
566
              return __result;
567
            }
568
        }
569
      _RopeRep* __nright =
570
        __STL_ROPE_FROM_UNOWNED_CHAR_PTR(__s, __slen, __r->_M_get_allocator());
571
      __try
572
        {
573
          __r->_M_ref_nonnil();
574
          __result = _S_tree_concat(__r, __nright);
575
        }
576
      __catch(...)
577
        {
578
          _S_unref(__r);
579
          _S_unref(__nright);
580
          __throw_exception_again;
581
        }
582
      return __result;
583
    }
584
 
585
#ifndef __GC
586
  template <class _CharT, class _Alloc>
587
    typename rope<_CharT,_Alloc>::_RopeRep*
588
    rope<_CharT,_Alloc>::
589
    _S_destr_concat_char_iter(_RopeRep* __r, const _CharT* __s, size_t __slen)
590
    {
591
      _RopeRep* __result;
592
      if (0 == __r)
593
        return __STL_ROPE_FROM_UNOWNED_CHAR_PTR(__s, __slen,
594
                                                __r->_M_get_allocator());
595
      size_t __count = __r->_M_ref_count;
596
      size_t __orig_size = __r->_M_size;
597
      if (__count > 1)
598
        return _S_concat_char_iter(__r, __s, __slen);
599
      if (0 == __slen)
600
        {
601
          __r->_M_ref_count = 2;      // One more than before
602
          return __r;
603
        }
604
      if (__orig_size + __slen <= size_t(_S_copy_max)
605
          && __detail::_S_leaf == __r->_M_tag)
606
        {
607
          __result = _S_destr_leaf_concat_char_iter((_RopeLeaf*)__r, __s,
608
                                                    __slen);
609
          return __result;
610
        }
611
      if (__detail::_S_concat == __r->_M_tag)
612
        {
613
          _RopeLeaf* __right = (_RopeLeaf*)(((_RopeConcatenation*)
614
                                             __r)->_M_right);
615
          if (__detail::_S_leaf == __right->_M_tag
616
              && __right->_M_size + __slen <= size_t(_S_copy_max))
617
            {
618
              _RopeRep* __new_right =
619
                _S_destr_leaf_concat_char_iter(__right, __s, __slen);
620
              if (__right == __new_right)
621
                __new_right->_M_ref_count = 1;
622
              else
623
                __right->_M_unref_nonnil();
624
              __r->_M_ref_count = 2;    // One more than before.
625
              ((_RopeConcatenation*)__r)->_M_right = __new_right;
626
              __r->_M_size = __orig_size + __slen;
627
              if (0 != __r->_M_c_string)
628
                {
629
                  __r->_M_free_c_string();
630
                  __r->_M_c_string = 0;
631
                }
632
              return __r;
633
            }
634
        }
635
      _RopeRep* __right =
636
        __STL_ROPE_FROM_UNOWNED_CHAR_PTR(__s, __slen, __r->_M_get_allocator());
637
      __r->_M_ref_nonnil();
638
      __try
639
        { __result = _S_tree_concat(__r, __right); }
640
      __catch(...)
641
        {
642
          _S_unref(__r);
643
          _S_unref(__right);
644
          __throw_exception_again;
645
        }
646
      return __result;
647
    }
648
#endif /* !__GC */
649
 
650
  template <class _CharT, class _Alloc>
651
    typename rope<_CharT, _Alloc>::_RopeRep*
652
    rope<_CharT, _Alloc>::
653
    _S_concat(_RopeRep* __left, _RopeRep* __right)
654
    {
655
      if (0 == __left)
656
        {
657
          _S_ref(__right);
658
          return __right;
659
        }
660
      if (0 == __right)
661
        {
662
          __left->_M_ref_nonnil();
663
          return __left;
664
        }
665
      if (__detail::_S_leaf == __right->_M_tag)
666
        {
667
          if (__detail::_S_leaf == __left->_M_tag)
668
            {
669
              if (__right->_M_size + __left->_M_size <= size_t(_S_copy_max))
670
                return _S_leaf_concat_char_iter((_RopeLeaf*)__left,
671
                                                ((_RopeLeaf*)__right)->_M_data,
672
                                                __right->_M_size);
673
            }
674
          else if (__detail::_S_concat == __left->_M_tag
675
                   && __detail::_S_leaf == ((_RopeConcatenation*)
676
                                                   __left)->_M_right->_M_tag)
677
            {
678
              _RopeLeaf* __leftright =
679
                (_RopeLeaf*)(((_RopeConcatenation*)__left)->_M_right);
680
              if (__leftright->_M_size
681
                  + __right->_M_size <= size_t(_S_copy_max))
682
                {
683
                  _RopeRep* __leftleft = ((_RopeConcatenation*)__left)->_M_left;
684
                  _RopeRep* __rest = _S_leaf_concat_char_iter(__leftright,
685
                                                              ((_RopeLeaf*)
686
                                                               __right)->
687
                                                              _M_data,
688
                                                              __right->_M_size);
689
                  __leftleft->_M_ref_nonnil();
690
                  __try
691
                    { return(_S_tree_concat(__leftleft, __rest)); }
692
                  __catch(...)
693
                    {
694
                      _S_unref(__leftleft);
695
                      _S_unref(__rest);
696
                      __throw_exception_again;
697
                    }
698
                }
699
            }
700
        }
701
      __left->_M_ref_nonnil();
702
      __right->_M_ref_nonnil();
703
      __try
704
        { return(_S_tree_concat(__left, __right)); }
705
      __catch(...)
706
        {
707
          _S_unref(__left);
708
          _S_unref(__right);
709
          __throw_exception_again;
710
        }
711
    }
712
 
713
  template <class _CharT, class _Alloc>
714
    typename rope<_CharT, _Alloc>::_RopeRep*
715
    rope<_CharT, _Alloc>::
716
    _S_substring(_RopeRep* __base, size_t __start, size_t __endp1)
717
    {
718
      if (0 == __base)
719
        return 0;
720
      size_t __len = __base->_M_size;
721
      size_t __adj_endp1;
722
      const size_t __lazy_threshold = 128;
723
 
724
      if (__endp1 >= __len)
725
        {
726
          if (0 == __start)
727
            {
728
              __base->_M_ref_nonnil();
729
              return __base;
730
            }
731
          else
732
            __adj_endp1 = __len;
733
 
734
        }
735
      else
736
        __adj_endp1 = __endp1;
737
 
738
      switch(__base->_M_tag)
739
        {
740
        case __detail::_S_concat:
741
            {
742
              _RopeConcatenation* __c = (_RopeConcatenation*)__base;
743
              _RopeRep* __left = __c->_M_left;
744
              _RopeRep* __right = __c->_M_right;
745
              size_t __left_len = __left->_M_size;
746
              _RopeRep* __result;
747
 
748
              if (__adj_endp1 <= __left_len)
749
                return _S_substring(__left, __start, __endp1);
750
              else if (__start >= __left_len)
751
                return _S_substring(__right, __start - __left_len,
752
                                    __adj_endp1 - __left_len);
753
              _Self_destruct_ptr __left_result(_S_substring(__left,
754
                                                            __start,
755
                                                            __left_len));
756
              _Self_destruct_ptr __right_result(_S_substring(__right, 0,
757
                                                             __endp1
758
                                                             - __left_len));
759
              __result = _S_concat(__left_result, __right_result);
760
              return __result;
761
            }
762
        case __detail::_S_leaf:
763
          {
764
            _RopeLeaf* __l = (_RopeLeaf*)__base;
765
            _RopeLeaf* __result;
766
            size_t __result_len;
767
            if (__start >= __adj_endp1)
768
              return 0;
769
            __result_len = __adj_endp1 - __start;
770
            if (__result_len > __lazy_threshold)
771
              goto lazy;
772
#ifdef __GC
773
            const _CharT* __section = __l->_M_data + __start;
774
            __result = _S_new_RopeLeaf(__section, __result_len,
775
                                       __base->_M_get_allocator());
776
            __result->_M_c_string = 0;  // Not eos terminated.
777
#else
778
            // We should sometimes create substring node instead.
779
            __result = __STL_ROPE_FROM_UNOWNED_CHAR_PTR(__l->_M_data + __start,
780
                                                        __result_len,
781
                                                        __base->
782
                                                        _M_get_allocator());
783
#endif
784
            return __result;
785
          }
786
        case __detail::_S_substringfn:
787
          // Avoid introducing multiple layers of substring nodes.
788
          {
789
            _RopeSubstring* __old = (_RopeSubstring*)__base;
790
            size_t __result_len;
791
            if (__start >= __adj_endp1)
792
              return 0;
793
            __result_len = __adj_endp1 - __start;
794
            if (__result_len > __lazy_threshold)
795
              {
796
                _RopeSubstring* __result =
797
                  _S_new_RopeSubstring(__old->_M_base,
798
                                       __start + __old->_M_start,
799
                                       __adj_endp1 - __start,
800
                                       __base->_M_get_allocator());
801
                return __result;
802
 
803
              } // *** else fall through: ***
804
          }
805
        case __detail::_S_function:
806
          {
807
            _RopeFunction* __f = (_RopeFunction*)__base;
808
            _CharT* __section;
809
            size_t __result_len;
810
            if (__start >= __adj_endp1)
811
              return 0;
812
            __result_len = __adj_endp1 - __start;
813
 
814
            if (__result_len > __lazy_threshold)
815
              goto lazy;
816
            __section = (_CharT*)
817
              rope::_Data_allocate(_S_rounded_up_size(__result_len));
818
            __try
819
              { (*(__f->_M_fn))(__start, __result_len, __section); }
820
            __catch(...)
821
              {
822
                _RopeRep::__STL_FREE_STRING(__section, __result_len,
823
                                            __base->_M_get_allocator());
824
                __throw_exception_again;
825
              }
826
            _S_cond_store_eos(__section[__result_len]);
827
            return _S_new_RopeLeaf(__section, __result_len,
828
                                   __base->_M_get_allocator());
829
          }
830
        }
831
    lazy:
832
      {
833
        // Create substring node.
834
        return _S_new_RopeSubstring(__base, __start, __adj_endp1 - __start,
835
                                    __base->_M_get_allocator());
836
      }
837
    }
838
 
839
  template<class _CharT>
840
    class _Rope_flatten_char_consumer
841
    : public _Rope_char_consumer<_CharT>
842
    {
843
    private:
844
      _CharT* _M_buf_ptr;
845
    public:
846
 
847
      _Rope_flatten_char_consumer(_CharT* __buffer)
848
      { _M_buf_ptr = __buffer; };
849
 
850
      ~_Rope_flatten_char_consumer() {}
851
 
852
      bool
853
      operator()(const _CharT* __leaf, size_t __n)
854
      {
855
        uninitialized_copy_n(__leaf, __n, _M_buf_ptr);
856
        _M_buf_ptr += __n;
857
        return true;
858
      }
859
    };
860
 
861
  template<class _CharT>
862
    class _Rope_find_char_char_consumer
863
    : public _Rope_char_consumer<_CharT>
864
    {
865
    private:
866
      _CharT _M_pattern;
867
    public:
868
      size_t _M_count;  // Number of nonmatching characters
869
 
870
      _Rope_find_char_char_consumer(_CharT __p)
871
      : _M_pattern(__p), _M_count(0) {}
872
 
873
      ~_Rope_find_char_char_consumer() {}
874
 
875
      bool
876
      operator()(const _CharT* __leaf, size_t __n)
877
      {
878
        size_t __i;
879
        for (__i = 0; __i < __n; __i++)
880
          {
881
            if (__leaf[__i] == _M_pattern)
882
              {
883
                _M_count += __i;
884
                return false;
885
              }
886
          }
887
        _M_count += __n; return true;
888
      }
889
    };
890
 
891
  template<class _CharT, class _Traits>
892
  // Here _CharT is both the stream and rope character type.
893
    class _Rope_insert_char_consumer
894
    : public _Rope_char_consumer<_CharT>
895
    {
896
    private:
897
      typedef basic_ostream<_CharT,_Traits> _Insert_ostream;
898
      _Insert_ostream& _M_o;
899
    public:
900
      _Rope_insert_char_consumer(_Insert_ostream& __writer)
901
        : _M_o(__writer) {};
902
      ~_Rope_insert_char_consumer() { };
903
      // Caller is presumed to own the ostream
904
      bool operator() (const _CharT* __leaf, size_t __n);
905
      // Returns true to continue traversal.
906
    };
907
 
908
  template<class _CharT, class _Traits>
909
    bool
910
    _Rope_insert_char_consumer<_CharT, _Traits>::
911
    operator()(const _CharT* __leaf, size_t __n)
912
    {
913
      size_t __i;
914
      //  We assume that formatting is set up correctly for each element.
915
      for (__i = 0; __i < __n; __i++)
916
        _M_o.put(__leaf[__i]);
917
      return true;
918
    }
919
 
920
  template <class _CharT, class _Alloc>
921
    bool
922
    rope<_CharT, _Alloc>::
923
    _S_apply_to_pieces(_Rope_char_consumer<_CharT>& __c,
924
                       const _RopeRep* __r, size_t __begin, size_t __end)
925
    {
926
      if (0 == __r)
927
        return true;
928
      switch(__r->_M_tag)
929
        {
930
        case __detail::_S_concat:
931
          {
932
            _RopeConcatenation* __conc = (_RopeConcatenation*)__r;
933
            _RopeRep* __left =  __conc->_M_left;
934
            size_t __left_len = __left->_M_size;
935
            if (__begin < __left_len)
936
              {
937
                size_t __left_end = std::min(__left_len, __end);
938
                if (!_S_apply_to_pieces(__c, __left, __begin, __left_end))
939
                  return false;
940
              }
941
            if (__end > __left_len)
942
              {
943
                _RopeRep* __right =  __conc->_M_right;
944
                size_t __right_start = std::max(__left_len, __begin);
945
                if (!_S_apply_to_pieces(__c, __right,
946
                                        __right_start - __left_len,
947
                                        __end - __left_len))
948
                  return false;
949
              }
950
          }
951
          return true;
952
        case __detail::_S_leaf:
953
          {
954
            _RopeLeaf* __l = (_RopeLeaf*)__r;
955
            return __c(__l->_M_data + __begin, __end - __begin);
956
          }
957
        case __detail::_S_function:
958
        case __detail::_S_substringfn:
959
            {
960
              _RopeFunction* __f = (_RopeFunction*)__r;
961
              size_t __len = __end - __begin;
962
              bool __result;
963
              _CharT* __buffer =
964
                (_CharT*)_Alloc().allocate(__len * sizeof(_CharT));
965
              __try
966
                {
967
                  (*(__f->_M_fn))(__begin, __len, __buffer);
968
                  __result = __c(__buffer, __len);
969
                  _Alloc().deallocate(__buffer, __len * sizeof(_CharT));
970
                }
971
              __catch(...)
972
                {
973
                  _Alloc().deallocate(__buffer, __len * sizeof(_CharT));
974
                  __throw_exception_again;
975
                }
976
              return __result;
977
            }
978
        default:
979
          return false;
980
        }
981
    }
982
 
983
  template<class _CharT, class _Traits>
984
    inline void
985
    _Rope_fill(basic_ostream<_CharT, _Traits>& __o, size_t __n)
986
    {
987
      char __f = __o.fill();
988
      size_t __i;
989
 
990
      for (__i = 0; __i < __n; __i++)
991
        __o.put(__f);
992
    }
993
 
994
 
995
  template <class _CharT>
996
    inline bool
997
    _Rope_is_simple(_CharT*)
998
    { return false; }
999
 
1000
  inline bool
1001
  _Rope_is_simple(char*)
1002
  { return true; }
1003
 
1004
  inline bool
1005
  _Rope_is_simple(wchar_t*)
1006
  { return true; }
1007
 
1008
  template<class _CharT, class _Traits, class _Alloc>
1009
    basic_ostream<_CharT, _Traits>&
1010
    operator<<(basic_ostream<_CharT, _Traits>& __o,
1011
               const rope<_CharT, _Alloc>& __r)
1012
    {
1013
      size_t __w = __o.width();
1014
      bool __left = bool(__o.flags() & std::ios::left);
1015
      size_t __pad_len;
1016
      size_t __rope_len = __r.size();
1017
      _Rope_insert_char_consumer<_CharT, _Traits> __c(__o);
1018
      bool __is_simple = _Rope_is_simple((_CharT*)0);
1019
 
1020
      if (__rope_len < __w)
1021
        __pad_len = __w - __rope_len;
1022
      else
1023
        __pad_len = 0;
1024
 
1025
      if (!__is_simple)
1026
        __o.width(__w / __rope_len);
1027
      __try
1028
        {
1029
          if (__is_simple && !__left && __pad_len > 0)
1030
            _Rope_fill(__o, __pad_len);
1031
          __r.apply_to_pieces(0, __r.size(), __c);
1032
          if (__is_simple && __left && __pad_len > 0)
1033
            _Rope_fill(__o, __pad_len);
1034
          if (!__is_simple)
1035
            __o.width(__w);
1036
        }
1037
      __catch(...)
1038
        {
1039
          if (!__is_simple)
1040
            __o.width(__w);
1041
          __throw_exception_again;
1042
        }
1043
      return __o;
1044
    }
1045
 
1046
  template <class _CharT, class _Alloc>
1047
    _CharT*
1048
    rope<_CharT, _Alloc>::
1049
    _S_flatten(_RopeRep* __r, size_t __start, size_t __len,
1050
               _CharT* __buffer)
1051
    {
1052
      _Rope_flatten_char_consumer<_CharT> __c(__buffer);
1053
      _S_apply_to_pieces(__c, __r, __start, __start + __len);
1054
      return(__buffer + __len);
1055
    }
1056
 
1057
  template <class _CharT, class _Alloc>
1058
    size_t
1059
    rope<_CharT, _Alloc>::
1060
    find(_CharT __pattern, size_t __start) const
1061
    {
1062
      _Rope_find_char_char_consumer<_CharT> __c(__pattern);
1063
      _S_apply_to_pieces(__c, this->_M_tree_ptr, __start, size());
1064
      size_type __result_pos = __start + __c._M_count;
1065
#ifndef __STL_OLD_ROPE_SEMANTICS
1066
      if (__result_pos == size())
1067
        __result_pos = npos;
1068
#endif
1069
      return __result_pos;
1070
    }
1071
 
1072
  template <class _CharT, class _Alloc>
1073
    _CharT*
1074
    rope<_CharT, _Alloc>::
1075
    _S_flatten(_RopeRep* __r, _CharT* __buffer)
1076
    {
1077
      if (0 == __r)
1078
        return __buffer;
1079
      switch(__r->_M_tag)
1080
        {
1081
        case __detail::_S_concat:
1082
          {
1083
            _RopeConcatenation* __c = (_RopeConcatenation*)__r;
1084
            _RopeRep* __left = __c->_M_left;
1085
            _RopeRep* __right = __c->_M_right;
1086
            _CharT* __rest = _S_flatten(__left, __buffer);
1087
            return _S_flatten(__right, __rest);
1088
          }
1089
        case __detail::_S_leaf:
1090
          {
1091
            _RopeLeaf* __l = (_RopeLeaf*)__r;
1092
            return copy_n(__l->_M_data, __l->_M_size, __buffer).second;
1093
          }
1094
        case __detail::_S_function:
1095
        case __detail::_S_substringfn:
1096
          // We don't yet do anything with substring nodes.
1097
          // This needs to be fixed before ropefiles will work well.
1098
          {
1099
            _RopeFunction* __f = (_RopeFunction*)__r;
1100
            (*(__f->_M_fn))(0, __f->_M_size, __buffer);
1101
            return __buffer + __f->_M_size;
1102
          }
1103
        default:
1104
          return 0;
1105
        }
1106
    }
1107
 
1108
  // This needs work for _CharT != char
1109
  template <class _CharT, class _Alloc>
1110
    void
1111
    rope<_CharT, _Alloc>::
1112
    _S_dump(_RopeRep* __r, int __indent)
1113
    {
1114
      for (int __i = 0; __i < __indent; __i++)
1115
        putchar(' ');
1116
      if (0 == __r)
1117
        {
1118
          printf("NULL\n");
1119
          return;
1120
        }
1121
      if (_S_concat == __r->_M_tag)
1122
        {
1123
          _RopeConcatenation* __c = (_RopeConcatenation*)__r;
1124
          _RopeRep* __left = __c->_M_left;
1125
          _RopeRep* __right = __c->_M_right;
1126
 
1127
#ifdef __GC
1128
          printf("Concatenation %p (depth = %d, len = %ld, %s balanced)\n",
1129
                 __r, __r->_M_depth, __r->_M_size,
1130
                 __r->_M_is_balanced? "" : "not");
1131
#else
1132
          printf("Concatenation %p (rc = %ld, depth = %d, "
1133
                 "len = %ld, %s balanced)\n",
1134
                 __r, __r->_M_ref_count, __r->_M_depth, __r->_M_size,
1135
                 __r->_M_is_balanced? "" : "not");
1136
#endif
1137
          _S_dump(__left, __indent + 2);
1138
          _S_dump(__right, __indent + 2);
1139
          return;
1140
        }
1141
      else
1142
        {
1143
          char* __kind;
1144
 
1145
          switch (__r->_M_tag)
1146
            {
1147
            case __detail::_S_leaf:
1148
              __kind = "Leaf";
1149
              break;
1150
            case __detail::_S_function:
1151
              __kind = "Function";
1152
              break;
1153
            case __detail::_S_substringfn:
1154
              __kind = "Function representing substring";
1155
              break;
1156
            default:
1157
              __kind = "(corrupted kind field!)";
1158
            }
1159
#ifdef __GC
1160
          printf("%s %p (depth = %d, len = %ld) ",
1161
                 __kind, __r, __r->_M_depth, __r->_M_size);
1162
#else
1163
          printf("%s %p (rc = %ld, depth = %d, len = %ld) ",
1164
                 __kind, __r, __r->_M_ref_count, __r->_M_depth, __r->_M_size);
1165
#endif
1166
          if (_S_is_one_byte_char_type((_CharT*)0))
1167
            {
1168
              const int __max_len = 40;
1169
              _Self_destruct_ptr __prefix(_S_substring(__r, 0, __max_len));
1170
              _CharT __buffer[__max_len + 1];
1171
              bool __too_big = __r->_M_size > __prefix->_M_size;
1172
 
1173
              _S_flatten(__prefix, __buffer);
1174
              __buffer[__prefix->_M_size] = _S_eos((_CharT*)0);
1175
              printf("%s%s\n", (char*)__buffer,
1176
                     __too_big? "...\n" : "\n");
1177
            }
1178
          else
1179
            printf("\n");
1180
        }
1181
    }
1182
 
1183
  template <class _CharT, class _Alloc>
1184
    const unsigned long
1185
    rope<_CharT, _Alloc>::
1186
    _S_min_len[int(__detail::_S_max_rope_depth) + 1] = {
1187
      /* 0 */1, /* 1 */2, /* 2 */3, /* 3 */5, /* 4 */8, /* 5 */13, /* 6 */21,
1188
      /* 7 */34, /* 8 */55, /* 9 */89, /* 10 */144, /* 11 */233, /* 12 */377,
1189
      /* 13 */610, /* 14 */987, /* 15 */1597, /* 16 */2584, /* 17 */4181,
1190
      /* 18 */6765, /* 19 */10946, /* 20 */17711, /* 21 */28657, /* 22 */46368,
1191
      /* 23 */75025, /* 24 */121393, /* 25 */196418, /* 26 */317811,
1192
      /* 27 */514229, /* 28 */832040, /* 29 */1346269, /* 30 */2178309,
1193
      /* 31 */3524578, /* 32 */5702887, /* 33 */9227465, /* 34 */14930352,
1194
      /* 35 */24157817, /* 36 */39088169, /* 37 */63245986, /* 38 */102334155,
1195
      /* 39 */165580141, /* 40 */267914296, /* 41 */433494437,
1196
      /* 42 */701408733, /* 43 */1134903170, /* 44 */1836311903,
1197
      /* 45 */2971215073u };
1198
  // These are Fibonacci numbers < 2**32.
1199
 
1200
  template <class _CharT, class _Alloc>
1201
    typename rope<_CharT, _Alloc>::_RopeRep*
1202
    rope<_CharT, _Alloc>::
1203
    _S_balance(_RopeRep* __r)
1204
    {
1205
      _RopeRep* __forest[int(__detail::_S_max_rope_depth) + 1];
1206
      _RopeRep* __result = 0;
1207
      int __i;
1208
      // Invariant:
1209
      // The concatenation of forest in descending order is equal to __r.
1210
      // __forest[__i]._M_size >= _S_min_len[__i]
1211
      // __forest[__i]._M_depth = __i
1212
      // References from forest are included in refcount.
1213
 
1214
      for (__i = 0; __i <= int(__detail::_S_max_rope_depth); ++__i)
1215
        __forest[__i] = 0;
1216
      __try
1217
        {
1218
          _S_add_to_forest(__r, __forest);
1219
          for (__i = 0; __i <= int(__detail::_S_max_rope_depth); ++__i)
1220
            if (0 != __forest[__i])
1221
              {
1222
#ifndef __GC
1223
                _Self_destruct_ptr __old(__result);
1224
#endif
1225
                __result = _S_concat(__forest[__i], __result);
1226
                __forest[__i]->_M_unref_nonnil();
1227
#if !defined(__GC) && defined(__EXCEPTIONS)
1228
                __forest[__i] = 0;
1229
#endif
1230
              }
1231
        }
1232
      __catch(...)
1233
        {
1234
          for(__i = 0; __i <= int(__detail::_S_max_rope_depth); __i++)
1235
            _S_unref(__forest[__i]);
1236
          __throw_exception_again;
1237
        }
1238
 
1239
      if (__result->_M_depth > int(__detail::_S_max_rope_depth))
1240
        __throw_length_error(__N("rope::_S_balance"));
1241
      return(__result);
1242
    }
1243
 
1244
  template <class _CharT, class _Alloc>
1245
    void
1246
    rope<_CharT, _Alloc>::
1247
    _S_add_to_forest(_RopeRep* __r, _RopeRep** __forest)
1248
    {
1249
      if (__r->_M_is_balanced)
1250
        {
1251
          _S_add_leaf_to_forest(__r, __forest);
1252
          return;
1253
        }
1254
 
1255
      {
1256
        _RopeConcatenation* __c = (_RopeConcatenation*)__r;
1257
 
1258
        _S_add_to_forest(__c->_M_left, __forest);
1259
        _S_add_to_forest(__c->_M_right, __forest);
1260
      }
1261
    }
1262
 
1263
 
1264
  template <class _CharT, class _Alloc>
1265
    void
1266
    rope<_CharT, _Alloc>::
1267
    _S_add_leaf_to_forest(_RopeRep* __r, _RopeRep** __forest)
1268
    {
1269
      _RopeRep* __insertee;             // included in refcount
1270
      _RopeRep* __too_tiny = 0;          // included in refcount
1271
      int __i;                          // forest[0..__i-1] is empty
1272
      size_t __s = __r->_M_size;
1273
 
1274
      for (__i = 0; __s >= _S_min_len[__i+1]/* not this bucket */; ++__i)
1275
        {
1276
          if (0 != __forest[__i])
1277
            {
1278
#ifndef __GC
1279
              _Self_destruct_ptr __old(__too_tiny);
1280
#endif
1281
              __too_tiny = _S_concat_and_set_balanced(__forest[__i],
1282
                                                      __too_tiny);
1283
              __forest[__i]->_M_unref_nonnil();
1284
              __forest[__i] = 0;
1285
            }
1286
        }
1287
      {
1288
#ifndef __GC
1289
        _Self_destruct_ptr __old(__too_tiny);
1290
#endif
1291
        __insertee = _S_concat_and_set_balanced(__too_tiny, __r);
1292
      }
1293
      // Too_tiny dead, and no longer included in refcount.
1294
      // Insertee is live and included.
1295
      for (;; ++__i)
1296
        {
1297
          if (0 != __forest[__i])
1298
            {
1299
#ifndef __GC
1300
              _Self_destruct_ptr __old(__insertee);
1301
#endif
1302
              __insertee = _S_concat_and_set_balanced(__forest[__i],
1303
                                                      __insertee);
1304
              __forest[__i]->_M_unref_nonnil();
1305
              __forest[__i] = 0;
1306
            }
1307
          if (__i == int(__detail::_S_max_rope_depth)
1308
              || __insertee->_M_size < _S_min_len[__i+1])
1309
            {
1310
              __forest[__i] = __insertee;
1311
              // refcount is OK since __insertee is now dead.
1312
              return;
1313
            }
1314
        }
1315
    }
1316
 
1317
  template <class _CharT, class _Alloc>
1318
    _CharT
1319
    rope<_CharT, _Alloc>::
1320
    _S_fetch(_RopeRep* __r, size_type __i)
1321
    {
1322
      __GC_CONST _CharT* __cstr = __r->_M_c_string;
1323
 
1324
      if (0 != __cstr)
1325
        return __cstr[__i];
1326
      for(;;)
1327
        {
1328
          switch(__r->_M_tag)
1329
            {
1330
            case __detail::_S_concat:
1331
              {
1332
                _RopeConcatenation* __c = (_RopeConcatenation*)__r;
1333
                _RopeRep* __left = __c->_M_left;
1334
                size_t __left_len = __left->_M_size;
1335
 
1336
                if (__i >= __left_len)
1337
                  {
1338
                    __i -= __left_len;
1339
                    __r = __c->_M_right;
1340
                  }
1341
                else
1342
                  __r = __left;
1343
              }
1344
              break;
1345
            case __detail::_S_leaf:
1346
              {
1347
                _RopeLeaf* __l = (_RopeLeaf*)__r;
1348
                return __l->_M_data[__i];
1349
              }
1350
            case __detail::_S_function:
1351
            case __detail::_S_substringfn:
1352
              {
1353
                _RopeFunction* __f = (_RopeFunction*)__r;
1354
                _CharT __result;
1355
 
1356
                (*(__f->_M_fn))(__i, 1, &__result);
1357
                return __result;
1358
              }
1359
            }
1360
        }
1361
    }
1362
 
1363
#ifndef __GC
1364
  // Return a uniquely referenced character slot for the given
1365
  // position, or 0 if that's not possible.
1366
  template <class _CharT, class _Alloc>
1367
    _CharT*
1368
    rope<_CharT, _Alloc>::
1369
    _S_fetch_ptr(_RopeRep* __r, size_type __i)
1370
    {
1371
      _RopeRep* __clrstack[__detail::_S_max_rope_depth];
1372
      size_t __csptr = 0;
1373
 
1374
      for(;;)
1375
        {
1376
          if (__r->_M_ref_count > 1)
1377
            return 0;
1378
          switch(__r->_M_tag)
1379
            {
1380
            case __detail::_S_concat:
1381
              {
1382
                _RopeConcatenation* __c = (_RopeConcatenation*)__r;
1383
                _RopeRep* __left = __c->_M_left;
1384
                size_t __left_len = __left->_M_size;
1385
 
1386
                if (__c->_M_c_string != 0)
1387
                  __clrstack[__csptr++] = __c;
1388
                if (__i >= __left_len)
1389
                  {
1390
                    __i -= __left_len;
1391
                    __r = __c->_M_right;
1392
                  }
1393
                else
1394
                  __r = __left;
1395
              }
1396
              break;
1397
            case __detail::_S_leaf:
1398
              {
1399
                _RopeLeaf* __l = (_RopeLeaf*)__r;
1400
                if (__l->_M_c_string != __l->_M_data && __l->_M_c_string != 0)
1401
                  __clrstack[__csptr++] = __l;
1402
                while (__csptr > 0)
1403
                  {
1404
                    -- __csptr;
1405
                    _RopeRep* __d = __clrstack[__csptr];
1406
                    __d->_M_free_c_string();
1407
                    __d->_M_c_string = 0;
1408
                  }
1409
                return __l->_M_data + __i;
1410
              }
1411
            case __detail::_S_function:
1412
            case __detail::_S_substringfn:
1413
              return 0;
1414
            }
1415
        }
1416
    }
1417
#endif /* __GC */
1418
 
1419
  // The following could be implemented trivially using
1420
  // lexicographical_compare_3way.
1421
  // We do a little more work to avoid dealing with rope iterators for
1422
  // flat strings.
1423
  template <class _CharT, class _Alloc>
1424
    int
1425
    rope<_CharT, _Alloc>::
1426
    _S_compare (const _RopeRep* __left, const _RopeRep* __right)
1427
    {
1428
      size_t __left_len;
1429
      size_t __right_len;
1430
 
1431
      if (0 == __right)
1432
        return 0 != __left;
1433
      if (0 == __left)
1434
        return -1;
1435
      __left_len = __left->_M_size;
1436
      __right_len = __right->_M_size;
1437
      if (__detail::_S_leaf == __left->_M_tag)
1438
        {
1439
          _RopeLeaf* __l = (_RopeLeaf*) __left;
1440
          if (__detail::_S_leaf == __right->_M_tag)
1441
            {
1442
              _RopeLeaf* __r = (_RopeLeaf*) __right;
1443
              return lexicographical_compare_3way(__l->_M_data,
1444
                                                  __l->_M_data + __left_len,
1445
                                                  __r->_M_data, __r->_M_data
1446
                                                  + __right_len);
1447
            }
1448
          else
1449
            {
1450
              const_iterator __rstart(__right, 0);
1451
              const_iterator __rend(__right, __right_len);
1452
              return lexicographical_compare_3way(__l->_M_data, __l->_M_data
1453
                                                  + __left_len,
1454
                                                  __rstart, __rend);
1455
            }
1456
        }
1457
      else
1458
        {
1459
          const_iterator __lstart(__left, 0);
1460
          const_iterator __lend(__left, __left_len);
1461
          if (__detail::_S_leaf == __right->_M_tag)
1462
            {
1463
              _RopeLeaf* __r = (_RopeLeaf*) __right;
1464
              return lexicographical_compare_3way(__lstart, __lend,
1465
                                                  __r->_M_data, __r->_M_data
1466
                                                  + __right_len);
1467
            }
1468
          else
1469
            {
1470
              const_iterator __rstart(__right, 0);
1471
              const_iterator __rend(__right, __right_len);
1472
              return lexicographical_compare_3way(__lstart, __lend,
1473
                                                  __rstart, __rend);
1474
            }
1475
        }
1476
    }
1477
 
1478
  // Assignment to reference proxies.
1479
  template <class _CharT, class _Alloc>
1480
    _Rope_char_ref_proxy<_CharT, _Alloc>&
1481
    _Rope_char_ref_proxy<_CharT, _Alloc>::
1482
    operator=(_CharT __c)
1483
    {
1484
      _RopeRep* __old = _M_root->_M_tree_ptr;
1485
#ifndef __GC
1486
      // First check for the case in which everything is uniquely
1487
      // referenced.  In that case we can do this destructively.
1488
      _CharT* __ptr = _My_rope::_S_fetch_ptr(__old, _M_pos);
1489
      if (0 != __ptr)
1490
        {
1491
          *__ptr = __c;
1492
          return *this;
1493
        }
1494
#endif
1495
      _Self_destruct_ptr __left(_My_rope::_S_substring(__old, 0, _M_pos));
1496
      _Self_destruct_ptr __right(_My_rope::_S_substring(__old, _M_pos + 1,
1497
                                                        __old->_M_size));
1498
      _Self_destruct_ptr __result_left(_My_rope::
1499
                                       _S_destr_concat_char_iter(__left,
1500
                                                                 &__c, 1));
1501
 
1502
      _RopeRep* __result = _My_rope::_S_concat(__result_left, __right);
1503
#ifndef __GC
1504
      _RopeRep::_S_unref(__old);
1505
#endif
1506
      _M_root->_M_tree_ptr = __result;
1507
      return *this;
1508
    }
1509
 
1510
  template <class _CharT, class _Alloc>
1511
    inline _Rope_char_ref_proxy<_CharT, _Alloc>::
1512
    operator _CharT() const
1513
    {
1514
      if (_M_current_valid)
1515
        return _M_current;
1516
      else
1517
        return _My_rope::_S_fetch(_M_root->_M_tree_ptr, _M_pos);
1518
    }
1519
 
1520
  template <class _CharT, class _Alloc>
1521
    _Rope_char_ptr_proxy<_CharT, _Alloc>
1522
    _Rope_char_ref_proxy<_CharT, _Alloc>::
1523
    operator&() const
1524
    { return _Rope_char_ptr_proxy<_CharT, _Alloc>(*this); }
1525
 
1526
  template <class _CharT, class _Alloc>
1527
    rope<_CharT, _Alloc>::
1528
    rope(size_t __n, _CharT __c, const allocator_type& __a)
1529
    : _Base(__a)
1530
    {
1531
      rope<_CharT,_Alloc> __result;
1532
      const size_t __exponentiate_threshold = 32;
1533
      size_t __exponent;
1534
      size_t __rest;
1535
      _CharT* __rest_buffer;
1536
      _RopeRep* __remainder;
1537
      rope<_CharT, _Alloc> __remainder_rope;
1538
 
1539
      if (0 == __n)
1540
        return;
1541
 
1542
      __exponent = __n / __exponentiate_threshold;
1543
      __rest = __n % __exponentiate_threshold;
1544
      if (0 == __rest)
1545
        __remainder = 0;
1546
      else
1547
        {
1548
          __rest_buffer = this->_Data_allocate(_S_rounded_up_size(__rest));
1549
          __uninitialized_fill_n_a(__rest_buffer, __rest, __c,
1550
                                   _M_get_allocator());
1551
          _S_cond_store_eos(__rest_buffer[__rest]);
1552
          __try
1553
            { __remainder = _S_new_RopeLeaf(__rest_buffer, __rest,
1554
                                            _M_get_allocator()); }
1555
          __catch(...)
1556
            {
1557
              _RopeRep::__STL_FREE_STRING(__rest_buffer, __rest,
1558
                                          _M_get_allocator());
1559
              __throw_exception_again;
1560
            }
1561
        }
1562
      __remainder_rope._M_tree_ptr = __remainder;
1563
      if (__exponent != 0)
1564
        {
1565
          _CharT* __base_buffer =
1566
            this->_Data_allocate(_S_rounded_up_size(__exponentiate_threshold));
1567
          _RopeLeaf* __base_leaf;
1568
          rope __base_rope;
1569
          __uninitialized_fill_n_a(__base_buffer, __exponentiate_threshold, __c,
1570
                                   _M_get_allocator());
1571
          _S_cond_store_eos(__base_buffer[__exponentiate_threshold]);
1572
          __try
1573
            {
1574
              __base_leaf = _S_new_RopeLeaf(__base_buffer,
1575
                                            __exponentiate_threshold,
1576
                                            _M_get_allocator());
1577
            }
1578
          __catch(...)
1579
            {
1580
              _RopeRep::__STL_FREE_STRING(__base_buffer,
1581
                                          __exponentiate_threshold,
1582
                                          _M_get_allocator());
1583
              __throw_exception_again;
1584
            }
1585
          __base_rope._M_tree_ptr = __base_leaf;
1586
          if (1 == __exponent)
1587
            __result = __base_rope;
1588
          else
1589
            __result = power(__base_rope, __exponent,
1590
                             _Rope_Concat_fn<_CharT, _Alloc>());
1591
 
1592
          if (0 != __remainder)
1593
            __result += __remainder_rope;
1594
        }
1595
      else
1596
        __result = __remainder_rope;
1597
 
1598
      this->_M_tree_ptr = __result._M_tree_ptr;
1599
      this->_M_tree_ptr->_M_ref_nonnil();
1600
    }
1601
 
1602
  template<class _CharT, class _Alloc>
1603
    _CharT
1604
    rope<_CharT, _Alloc>::_S_empty_c_str[1];
1605
 
1606
  template<class _CharT, class _Alloc>
1607
    const _CharT*
1608
    rope<_CharT, _Alloc>::
1609
    c_str() const
1610
    {
1611
      if (0 == this->_M_tree_ptr)
1612
        {
1613
          _S_empty_c_str[0] = _S_eos((_CharT*)0);  // Possibly redundant,
1614
                                                   // but probably fast.
1615
          return _S_empty_c_str;
1616
        }
1617
      __gthread_mutex_lock (&this->_M_tree_ptr->_M_c_string_lock);
1618
      __GC_CONST _CharT* __result = this->_M_tree_ptr->_M_c_string;
1619
      if (0 == __result)
1620
        {
1621
          size_t __s = size();
1622
          __result = this->_Data_allocate(__s + 1);
1623
          _S_flatten(this->_M_tree_ptr, __result);
1624
          __result[__s] = _S_eos((_CharT*)0);
1625
          this->_M_tree_ptr->_M_c_string = __result;
1626
        }
1627
      __gthread_mutex_unlock (&this->_M_tree_ptr->_M_c_string_lock);
1628
      return(__result);
1629
    }
1630
 
1631
  template<class _CharT, class _Alloc>
1632
    const _CharT* rope<_CharT, _Alloc>::
1633
    replace_with_c_str()
1634
    {
1635
      if (0 == this->_M_tree_ptr)
1636
        {
1637
          _S_empty_c_str[0] = _S_eos((_CharT*)0);
1638
          return _S_empty_c_str;
1639
        }
1640
      __GC_CONST _CharT* __old_c_string = this->_M_tree_ptr->_M_c_string;
1641
      if (__detail::_S_leaf == this->_M_tree_ptr->_M_tag
1642
          && 0 != __old_c_string)
1643
        return(__old_c_string);
1644
      size_t __s = size();
1645
      _CharT* __result = this->_Data_allocate(_S_rounded_up_size(__s));
1646
      _S_flatten(this->_M_tree_ptr, __result);
1647
      __result[__s] = _S_eos((_CharT*)0);
1648
      this->_M_tree_ptr->_M_unref_nonnil();
1649
      this->_M_tree_ptr = _S_new_RopeLeaf(__result, __s,
1650
                                          this->_M_get_allocator());
1651
      return(__result);
1652
    }
1653
 
1654
  // Algorithm specializations.  More should be added.
1655
 
1656
  template<class _Rope_iterator>  // was templated on CharT and Alloc
1657
    void                          // VC++ workaround
1658
    _Rope_rotate(_Rope_iterator __first,
1659
                 _Rope_iterator __middle,
1660
                 _Rope_iterator __last)
1661
    {
1662
      typedef typename _Rope_iterator::value_type _CharT;
1663
      typedef typename _Rope_iterator::_allocator_type _Alloc;
1664
 
1665
      rope<_CharT, _Alloc>& __r(__first.container());
1666
      rope<_CharT, _Alloc> __prefix = __r.substr(0, __first.index());
1667
      rope<_CharT, _Alloc> __suffix =
1668
        __r.substr(__last.index(), __r.size() - __last.index());
1669
      rope<_CharT, _Alloc> __part1 =
1670
        __r.substr(__middle.index(), __last.index() - __middle.index());
1671
      rope<_CharT, _Alloc> __part2 =
1672
        __r.substr(__first.index(), __middle.index() - __first.index());
1673
      __r = __prefix;
1674
      __r += __part1;
1675
      __r += __part2;
1676
      __r += __suffix;
1677
    }
1678
 
1679
#if !defined(__GNUC__)
1680
  // Appears to confuse g++
1681
  inline void
1682
  rotate(_Rope_iterator<char, __STL_DEFAULT_ALLOCATOR(char)> __first,
1683
         _Rope_iterator<char, __STL_DEFAULT_ALLOCATOR(char)> __middle,
1684
         _Rope_iterator<char, __STL_DEFAULT_ALLOCATOR(char)> __last)
1685
  { _Rope_rotate(__first, __middle, __last); }
1686
#endif
1687
 
1688
# if 0
1689
  // Probably not useful for several reasons:
1690
  // - for SGIs 7.1 compiler and probably some others,
1691
  //   this forces lots of rope<wchar_t, ...> instantiations, creating a
1692
  //   code bloat and compile time problem.  (Fixed in 7.2.)
1693
  // - wchar_t is 4 bytes wide on most UNIX platforms, making it
1694
  //   unattractive for unicode strings.  Unsigned short may be a better
1695
  //   character type.
1696
  inline void
1697
  rotate(_Rope_iterator<wchar_t, __STL_DEFAULT_ALLOCATOR(char)> __first,
1698
         _Rope_iterator<wchar_t, __STL_DEFAULT_ALLOCATOR(char)> __middle,
1699
         _Rope_iterator<wchar_t, __STL_DEFAULT_ALLOCATOR(char)> __last)
1700
  { _Rope_rotate(__first, __middle, __last); }
1701
# endif
1702
 
1703
_GLIBCXX_END_NAMESPACE_VERSION
1704
} // namespace

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