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1/////////////////////////////////////////////////////////////////////////////
2// Name: vector.h
e54c96f1 3// Purpose: interface of wxVector<T>
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4// Author: wxWidgets team
5// RCS-ID: $Id$
6// Licence: wxWindows license
7/////////////////////////////////////////////////////////////////////////////
8
9/**
7c913512 10
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11 wxVector<T> is a template class which implements most of the @c std::vector
12 class and can be used like it.
7c913512 13
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14 If wxWidgets is compiled in STL mode, wxVector will just be a typedef to
15 @c std::vector. Just like for @c std::vector, objects stored in wxVector<T>
16 need to be @e assignable but don't have to be @e "default constructible".
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17
18 Please refer to the STL documentation for further information.
7c913512 19
e18e78a7 20 @nolibrary
f016d3b4 21 @category{containers}
7c913512 22
09ad05fa 23 @see @ref overview_container, wxList<T>, wxArray<T>
23324ae1 24*/
f016d3b4 25template<typename T>
7c913512 26class wxVector<T>
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27{
28public:
f016d3b4 29 typedef size_t size_type;
946954d3 30 typedef size_t difference_type;
f016d3b4 31 typedef T value_type;
946954d3 32 typedef value_type* pointer;
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33 typedef value_type* iterator;
34 typedef const value_type* const_iterator;
35 typedef value_type& reference;
36
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37 /**
38 Reverse iterator interface
39 */
40 class reverse_iterator
41 {
42 public:
43 reverse_iterator();
44 explicit reverse_iterator(iterator it);
45 reverse_iterator(const reverse_iterator& it);
46 reference operator*() const;
47 pointer operator->() const;
48 iterator base() const;
49 reverse_iterator& operator++();
50 reverse_iterator operator++(int);
51 reverse_iterator& operator--();
52 reverse_iterator operator--(int);
53 reverse_iterator operator+(difference_type n) const;
54 reverse_iterator& operator+=(difference_type n);
55 reverse_iterator operator-(difference_type n) const;
56 reverse_iterator& operator-=(difference_type n);
57 reference operator[](difference_type n) const;
58 bool operator ==(const reverse_iterator& it) const;
59 bool operator !=(const reverse_iterator& it) const;
60 };
61
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62 /**
63 Constructor.
64 */
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65 wxVector();
66
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67 /**
68 Constructor initializing the vector with the given number of
69 default-constructed objects.
70 */
71 wxVector(size_type size);
72
73 /**
74 Constructor initializing the vector with the given number of
75 copies of the given object.
76 */
77 wxVector(size_type size, const value_type& value);
78
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79 /**
80 Copy onstructor.
81 */
82 wxVector(const wxVector<T>& c);
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83
84 /**
85 Destructor.
86 */
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87 ~wxVector();
88
89 /**
09ad05fa 90 Returns item at position @a idx.
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91 */
92 const value_type& at(size_type idx) const;
23324ae1 93
23324ae1 94 /**
09ad05fa 95 Returns item at position @a idx.
23324ae1 96 */
f016d3b4 97 value_type& at(size_type idx);
23324ae1 98
23324ae1 99 /**
f016d3b4 100 Return the last item.
23324ae1 101 */
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102 const value_type& back() const;
103
104 /**
105 Return the last item.
106 */
107 value_type& back();
108
109 /**
110 Return iterator to beginning of the vector.
111 */
112 const_iterator begin() const;
23324ae1 113
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114 /**
115 Return iterator to beginning of the vector.
116 */
f016d3b4 117 iterator begin();
23324ae1 118
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119 /**
120 Return reverse iterator to end of the vector.
121 */
122 reverse_iterator rbegin();
e068310a 123
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124 /**
125 Return reverse iterator to beginning of the vector.
126 */
127 reverse_iterator rend();
128
129
23324ae1 130 /**
f016d3b4 131 Returns vector's current capacity, i.e. how much memory is allocated.
3c4f71cc 132
f016d3b4 133 @see reserve()
23324ae1 134 */
328f5751 135 size_type capacity() const;
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136
137 /**
138 Clears the vector.
139 */
140 void clear();
141
142 /**
143 Returns @true if the vector is empty.
144 */
328f5751 145 bool empty() const;
23324ae1 146
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147 /**
148 Returns iterator to the end of the vector.
149 */
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150 const_iterator end() const;
151
152 /**
153 Returns iterator to the end of the vector.
154 */
155 iterator end();
23324ae1 156
23324ae1 157 /**
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158 Erase item pointed to by iterator @a it.
159
160 @return Iterator pointing to the item immediately after the erased one.
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161 */
162 iterator erase(iterator it);
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163
164 /**
165 Erase items in the range @a first to @a last (@a last is not erased).
166
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167 @return Iterator pointing to the item immediately after the erased
168 range.
f016d3b4 169 */
7c913512 170 iterator erase(iterator first, iterator last);
23324ae1 171
23324ae1 172 /**
f016d3b4 173 Returns the first item.
23324ae1 174 */
f016d3b4 175 const value_type& front() const;
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176
177 /**
f016d3b4 178 Returns the first item.
23324ae1 179 */
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180 value_type& front();
181
182 /**
183 Insert item @a v at given position @a it.
184
185 @return Iterator for the inserted item.
186 */
187 iterator insert(iterator it, const value_type& v = value_type());
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188
189 /**
190 Assignment operator.
191 */
09ad05fa 192 wxVector& operator=(const wxVector& vb);
23324ae1 193
23324ae1 194 /**
09ad05fa 195 Returns item at position @a idx.
23324ae1 196 */
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197 const value_type& operator[](size_type idx) const;
198
199 /**
09ad05fa 200 Returns item at position @a idx.
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201 */
202 value_type& operator[](size_type idx);
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203
204 /**
205 Removes the last item.
206 */
207 void pop_back();
208
209 /**
210 Adds an item to the end of the vector.
211 */
212 void push_back(const value_type& v);
213
214 /**
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215 Reserves memory for at least @a n items.
216
217 @see capacity()
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218 */
219 void reserve(size_type n);
09ad05fa 220
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221 /**
222 Makes the vector of size @a n.
223
224 If @a n is less than the current size(), the elements at the end of the
225 vector are erased. If it is greater, then the vector is completed with
226 either the copies of the given object @a v or @c value_type() objects
227 until it becomes of size @a n.
228 */
229 //@{
230 void resize(size_type n);
231 void resize(size_type n, const value_type& v);
232 //@}
233
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234 /**
235 Returns the size of the vector.
236 */
237 size_type size() const;
23324ae1 238};
e54c96f1 239