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1 /*-*- c++ -*-********************************************************
2 * kbList.h : a double linked list *
3 * *
4 * (C) 1998 by Karsten Ballüder (Ballueder@usa.net) *
5 * *
6 * $Id$
7 *
8 *******************************************************************/
9
10 #ifndef KBLIST_H
11 # define KBLIST_H
12
13 #ifdef __GNUG__
14 # pragma interface "kbList.h"
15 #endif
16
17 #ifndef NULL
18 # define NULL 0
19 #endif
20
21 /**@name Double linked list implementation. */
22 //@{
23
24 /** kbListNode is a class used by kbList. It represents a single
25 element in the list. It is not intended for general use outside
26 kbList functions.
27 */
28 struct kbListNode
29 {
30 /// pointer to next node or NULL
31 struct kbListNode *next;
32 /// pointer to previous node or NULL
33 struct kbListNode *prev;
34 /// pointer to the actual data
35 void *element;
36 /** Constructor - it automatically links the node into the list, if
37 the iprev, inext parameters are given.
38 @param ielement pointer to the data for this node (i.e. the data itself)
39 @param iprev if not NULL, use this as previous element in list
40 @param inext if not NULL, use this as next element in list
41 */
42 kbListNode( void *ielement,
43 kbListNode *iprev = NULL,
44 kbListNode *inext = NULL);
45 /// Destructor.
46 ~kbListNode();
47 };
48
49 /** The main list class, handling void pointers as data.
50 */
51
52 class kbList
53 {
54 public:
55 /// An iterator class for kbList, just like for the STL classes.
56 class iterator
57 {
58 protected:
59 /// the node to which this iterator points
60 kbListNode *node;
61 friend class kbList;
62 public:
63 /** Constructor.
64 @param n if not NULL, the node to which to point
65 */
66 iterator(kbListNode *n = NULL);
67 /** Dereference operator.
68 @return the data pointer of the node belonging to this
69 iterator
70 */
71 void * operator*();
72
73 /** This operator allows us to write if(i). It is <em>not</em> a
74 dereference operator and the result is always useless apart
75 from its logical value!
76 */
77 operator void*() const { return node == NULL ? (void*)0 : (void*)(-1); }
78
79 /** Increment operator - prefix, goes to next node in list.
80 @return itself
81 */
82 iterator & operator++();
83
84 /** Decrement operator - prefix, goes to previous node in list.
85 @return itself
86 */
87 iterator & operator--();
88
89 /** Increment operator - prefix, goes to next node in list.
90 @return itself
91 */
92 iterator & operator++(int); //postfix
93
94 /** Decrement operator - prefix, goes to previous node in list.
95 @return itself
96 */
97 iterator & operator--(int); //postfix
98
99 /** Comparison operator.
100 @return true if not equal.
101 */
102 bool operator !=(iterator const &) const;
103
104 /* Comparison operator.
105 @return true if equal
106 */
107 bool operator ==(iterator const &) const;
108
109 /** Returns a pointer to the node associated with this iterator.
110 This function is not for general use and should be
111 protected. However, if protected, it cannot be called from
112 derived classes' iterators. (Is this a bug in gcc/egcs?)
113 @return the node pointer
114 */
115 inline kbListNode * Node(void) const
116 { return node; }
117 };
118
119 /** Constructor.
120 @param ownsEntriesFlag if true, the list owns the entries and
121 will issue a delete on each of them when deleting them. If
122 false, the entries themselves will not get deleted. Do not use
123 this with array types!
124 */
125 kbList(bool ownsEntriesFlag = true);
126
127 /** Destructor.
128 If entries are owned, they will all get deleted from here.
129 */
130 ~kbList();
131
132 /** Tell list whether it owns objects. If owned, they can be
133 deleted by list. See the constructor for more details.
134 @param ownsflag if true, list will own entries
135 */
136 void ownsObjects(bool ownsflag = true)
137 { ownsEntries = ownsflag; }
138
139 /** Query whether list owns entries.
140 @return true if list owns entries
141 */
142 bool ownsObjects(void)
143 { return ownsEntries; }
144
145 /** Add an entry at the end of the list.
146 @param element pointer to data
147 */
148 void push_back(void *element);
149
150 /** Add an entry at the head of the list.
151 @param element pointer to data
152 */
153 void push_front(void *element);
154
155 /** Get element from end of the list and delete it.
156 NOTE: In this case the element's data will not get deleted by
157 the list. It is the responsibility of the caller to free it.
158 @return the element data
159 */
160 void *pop_back(void);
161
162 /** Get element from head of the list and delete it.
163 NOTE: In this case the element's data will not get deleted by
164 the list. It is the responsibility of the caller to free it.
165 @return the element data
166 */
167 void *pop_front(void);
168
169 /** Insert an element into the list.
170 @param i an iterator pointing to the element, before which the new one should be inserted
171 @param element the element data
172 */
173 void insert(iterator & i, void *element);
174
175 /** Remove an element from the list _without_ deleting the object.
176 @param i iterator pointing to the element to be deleted
177 @return the value of the element just removed
178 */
179 void *remove(iterator& i) { void *p = *i; doErase(i); return p; }
180
181 /** Erase an element, move iterator to following element.
182 @param i iterator pointing to the element to be deleted
183 */
184 void erase(iterator & i) { deleteContent(i); doErase(i); }
185
186 /* Get head of list.
187 @return iterator pointing to head of list
188 */
189 iterator begin(void) const;
190
191 /* Get end of list.
192 @return iterator pointing after the end of the list. This is an
193 invalid iterator which cannot be dereferenced or decremented. It is
194 only of use in comparisons. NOTE: this is different from STL!
195 @see tail
196 */
197 iterator end(void) const;
198
199 /* Get last element in list.
200 @return iterator pointing to the last element in the list.
201 @see end
202 */
203 iterator tail(void) const;
204
205 /* Get the number of elements in the list.
206 @return number of elements in the list
207 */
208 unsigned size(void) const;
209
210 /* Query whether list is empty.
211 @return true if list is empty
212 */
213 inline bool empty(void) const
214 { return first == NULL ; }
215
216 protected:
217 /// if true, list owns entries
218 bool ownsEntries;
219 /// pointer to first element in list
220 kbListNode *first;
221 /// pointer to last element in list
222 kbListNode *last;
223 protected:
224 /** Erase an element, move iterator to following element.
225 @param i iterator pointing to the element to be deleted
226 */
227 void doErase(iterator & i);
228
229 /** Deletes the actual content if ownsflag is set.
230 param iterator i
231 */
232 inline void deleteContent(iterator i)
233 { if(ownsEntries) delete *i; }
234
235
236 private:
237 /// forbid copy construction
238 kbList(kbList const &foo);
239 /// forbid assignments
240 kbList& operator=(const kbList& foo);
241 };
242
243 /// just for backward compatibility, will be removed soon
244 typedef kbList::iterator kbListIterator;
245 /// cast an iterator to a pointer, compatibility only to be removed
246 #define kbListICast(type, iterator) ((type *)*iterator)
247 /// cast an iterator to a const pointer, compatibility only to be removed
248 #define kbListIcCast(type, iterator) ((type const *)*iterator)
249
250 /** Macro to define a kbList with a given name, having elements of
251 pointer to the given type. I.e. KBLIST_DEFINE(Int,int) would
252 create a kbListInt type holding int pointers.
253 */
254 #define KBLIST_DEFINE(name,type) \
255 class name : public kbList \
256 { \
257 public: \
258 class iterator : public kbList::iterator \
259 { \
260 protected: \
261 inline iterator(kbList::iterator const & i) \
262 { node = i.Node(); } \
263 friend class name; \
264 public: \
265 inline iterator(kbListNode *n = NULL) \
266 : kbList::iterator(n) {} \
267 inline type * operator*() \
268 /* the cast is needed for MS VC++ 5.0 */ \
269 { return (type *)((kbList::iterator *)this)->operator*() ; } \
270 }; \
271 inline name(bool ownsEntriesFlag = TRUE) \
272 : kbList(ownsEntriesFlag) {} \
273 \
274 inline type *pop_back(void) \
275 { return (type *) kbList::pop_back(); } \
276 \
277 inline type *pop_front(void) \
278 { return (type *) kbList::pop_front(); } \
279 \
280 type *remove(iterator& i) \
281 { return (type *)kbList::remove(i); } \
282 inline void erase(iterator & i) \
283 { deleteContent(i); doErase(i); } \
284 \
285 inline iterator begin(void) const \
286 { return kbList::begin(); } \
287 \
288 inline iterator end(void) const \
289 { return kbList::end(); } \
290 \
291 inline iterator tail(void) const \
292 { return kbList::tail(); } \
293 ~name() \
294 { \
295 kbListNode *next; \
296 while ( first != NULL ) \
297 { \
298 next = first->next; \
299 if(ownsEntries) \
300 delete (type *)first->element; \
301 delete first; \
302 first = next; \
303 } \
304 } \
305 protected: \
306 inline void deleteContent(iterator i) \
307 { if(ownsEntries) delete *i; } \
308 }
309
310 #ifdef MCONFIG_H
311 /// define the most commonly used list type once:
312 KBLIST_DEFINE(kbStringList, String);
313 #endif
314 //@}
315 #endif // KBLIST_H