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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: hashmap.h
3 // Purpose: interface of wxHashMap
4 // Author: wxWidgets team
5 // Licence: wxWindows licence
6 /////////////////////////////////////////////////////////////////////////////
7
8 /**
9 @class wxHashMap
10
11 This is a simple, type-safe, and reasonably efficient hash map class,
12 whose interface is a subset of the interface of STL containers.
13 In particular, the interface is modelled after std::map, and the various,
14 non-standard, std::hash_map (http://www.cppreference.com/wiki/stl/map/start).
15
16 Example:
17 @code
18 class MyClass { ... };
19
20 // declare a hash map with string keys and int values
21 WX_DECLARE_STRING_HASH_MAP( int, MyHash5 );
22 // same, with int keys and MyClass* values
23 WX_DECLARE_HASH_MAP( int, MyClass*, wxIntegerHash, wxIntegerEqual, MyHash1 );
24 // same, with wxString keys and int values
25 WX_DECLARE_STRING_HASH_MAP( int, MyHash3 );
26 // same, with wxString keys and values
27 WX_DECLARE_STRING_HASH_MAP( wxString, MyHash2 );
28
29 MyHash1 h1;
30 MyHash2 h2;
31
32 // store and retrieve values
33 h1[1] = new MyClass( 1 );
34 h1[10000000] = NULL;
35 h1[50000] = new MyClass( 2 );
36 h2["Bill"] = "ABC";
37 wxString tmp = h2["Bill"];
38 // since element with key "Joe" is not present, this will return
39 // the default value, which is an empty string in the case of wxString
40 MyClass tmp2 = h2["Joe"];
41
42 // iterate over all the elements in the class
43 MyHash2::iterator it;
44 for( it = h2.begin(); it != h2.end(); ++it )
45 {
46 wxString key = it->first, value = it->second;
47 // do something useful with key and value
48 }
49 @endcode
50
51
52 @section hashmap_declaringnew Declaring new hash table types
53
54 @code
55 WX_DECLARE_STRING_HASH_MAP( VALUE_T, // type of the values
56 CLASSNAME ); // name of the class
57 @endcode
58 Declares a hash map class named CLASSNAME, with wxString keys and VALUE_T values.
59
60 @code
61 WX_DECLARE_VOIDPTR_HASH_MAP( VALUE_T, // type of the values
62 CLASSNAME ); // name of the class
63 @endcode
64 Declares a hash map class named CLASSNAME, with void* keys and VALUE_T values.
65
66 @code
67 WX_DECLARE_HASH_MAP( KEY_T, // type of the keys
68 VALUE_T, // type of the values
69 HASH_T, // hasher
70 KEY_EQ_T, // key equality predicate
71 CLASSNAME); // name of the class
72 @endcode
73 The HASH_T and KEY_EQ_T are the types used for the hashing function and
74 key comparison. wxWidgets provides three predefined hashing functions:
75 @c wxIntegerHash for integer types ( int, long, short, and their unsigned counterparts ),
76 @c wxStringHash for strings ( wxString, wxChar*, char* ), and @c wxPointerHash for
77 any kind of pointer.
78 Similarly three equality predicates: @c wxIntegerEqual, @c wxStringEqual,
79 @c wxPointerEqual are provided.
80 Using this you could declare a hash map mapping int values to wxString like this:
81
82 @code
83 WX_DECLARE_HASH_MAP( int,
84 wxString,
85 wxIntegerHash,
86 wxIntegerEqual,
87 MyHash );
88
89 // using an user-defined class for keys
90 class MyKey { ... };
91
92 // hashing function
93 class MyKeyHash
94 {
95 public:
96 MyKeyHash() { }
97
98 unsigned long operator()( const MyKey& k ) const
99 {
100 // compute the hash
101 }
102
103 MyKeyHash& operator=(const MyKeyHash&) { return *this; }
104 };
105
106 // comparison operator
107 class MyKeyEqual
108 {
109 public:
110 MyKeyEqual() { }
111 bool operator()( const MyKey& a, const MyKey& b ) const
112 {
113 // compare for equality
114 }
115
116 MyKeyEqual& operator=(const MyKeyEqual&) { return *this; }
117 };
118
119 WX_DECLARE_HASH_MAP( MyKey, // type of the keys
120 SOME_TYPE, // any type you like
121 MyKeyHash, // hasher
122 MyKeyEqual, // key equality predicate
123 CLASSNAME); // name of the class
124 @endcode
125
126
127 @section hashmap_types Types
128
129 In the documentation below you should replace wxHashMap with the name you used
130 in the class declaration.
131
132 - wxHashMap::key_type: Type of the hash keys.
133 - wxHashMap::mapped_type: Type of the values stored in the hash map.
134 - wxHashMap::value_type: Equivalent to struct { key_type first; mapped_type second }.
135 - wxHashMap::iterator: Used to enumerate all the elements in a hash map;
136 it is similar to a value_type*.
137 - wxHashMap::const_iterator: Used to enumerate all the elements in a constant
138 hash map; it is similar to a const value_type*.
139 - wxHashMap::size_type: Used for sizes.
140 - wxHashMap::Insert_Result: The return value for insert().
141
142
143 @section hashmap_iter Iterators
144
145 An iterator is similar to a pointer, and so you can use the usual pointer operations:
146 ++it ( and it++ ) to move to the next element, *it to access the element pointed to,
147 it->first ( it->second ) to access the key ( value ) of the element pointed to.
148
149 Hash maps provide forward only iterators, this means that you can't use --it,
150 it + 3, it1 - it2.
151
152
153 @section hashmap_predef Predefined hashmap types
154
155 wxWidgets defines the following hashmap types:
156 - wxLongToLongHashMap (uses long both for keys and values)
157 - wxStringToStringHashMap (uses wxString both for keys and values)
158
159
160 @library{wxbase}
161 @category{containers}
162 */
163 class wxHashMap
164 {
165 public:
166 /**
167 The size parameter is just a hint, the table will resize automatically
168 to preserve performance.
169 */
170 wxHashMap(size_type size = 10);
171
172 /**
173 Copy constructor.
174 */
175 wxHashMap(const wxHashMap& map);
176
177 //@{
178 /**
179 Returns an iterator pointing at the first element of the hash map.
180 Please remember that hash maps do not guarantee ordering.
181 */
182 const_iterator begin() const;
183 iterator begin();
184 //@}
185
186 /**
187 Removes all elements from the hash map.
188 */
189 void clear();
190
191 /**
192 Counts the number of elements with the given key present in the map.
193 This function returns only 0 or 1.
194 */
195 size_type count(const key_type& key) const;
196
197 /**
198 Returns @true if the hash map does not contain any elements, @false otherwise.
199 */
200 bool empty() const;
201
202 //@{
203 /**
204 Returns an iterator pointing at the one-after-the-last element of the hash map.
205 Please remember that hash maps do not guarantee ordering.
206 */
207 const_iterator end() const;
208 iterator end();
209 //@}
210
211 //@{
212 /**
213 Erases the element with the given key, and returns the number of elements
214 erased (either 0 or 1).
215 */
216 size_type erase(const key_type& key);
217
218 /**
219 Erases the element pointed to by the iterator. After the deletion
220 the iterator is no longer valid and must not be used.
221 */
222 void erase(iterator it);
223 void erase(const_iterator it);
224 //@}
225
226 //@{
227 /**
228 If an element with the given key is present, the functions returns an
229 iterator pointing at that element, otherwise an invalid iterator is
230 returned.
231
232 @code
233 hashmap.find( non_existent_key ) == hashmap.end()
234 @endcode
235 */
236 iterator find(const key_type& key) const;
237 const_iterator find(const key_type& key) const;
238 //@}
239
240 /**
241 Inserts the given value in the hash map.
242 The return value is equivalent to a
243 @code std::pair<wxHashMap::iterator, bool> @endcode
244 The iterator points to the inserted element, the boolean value is @true
245 if @a v was actually inserted.
246 */
247 Insert_Result insert(const value_type& v);
248
249 /**
250 Use the key as an array subscript.
251 The only difference is that if the given key is not present in the hash map,
252 an element with the default @c value_type() is inserted in the table.
253 */
254 mapped_type operator[](const key_type& key);
255
256 /**
257 Returns the number of elements in the map.
258 */
259 size_type size() const;
260 };
261