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1/////////////////////////////////////////////////////////////////////////////
2// Name: wx/scopedptr.h
3// Purpose: interface of wxScopedPtr
4// Author: wxWidgets team
5// RCS-ID: $Id$
6// Licence: wxWindows licence
7/////////////////////////////////////////////////////////////////////////////
8
9/**
10 @class wxScopedPtr
11
12 This is a simple scoped smart pointer implementation that is similar to
13 the Boost smart pointers (see http://www.boost.org) but rewritten
14 to use macros instead.
15
16 Since wxWidgets 2.9.0 there is also a templated version of this class
17 with the same name. See wxScopedPtr<T>.
18
19 A smart pointer holds a pointer to an object. The memory used by the object is
20 deleted when the smart pointer goes out of scope. This class is different from
21 the @c std::auto_ptr<> in so far as it doesn't provide copy constructor
22 nor assignment operator. This limits what you can do with it but is much less
23 surprising than the "destructive copy" behaviour of the standard class.
24
25 @b Example:
26
27 Below is an example of using a wxWidgets scoped smart pointer and pointer array.
28
29 @code
30 class MyClass{ ... };
31
32 // declare a smart pointer to a MyClass called wxMyClassPtr
33 wxDECLARE_SCOPED_PTR(MyClass, wxMyClassPtr)
34 // declare a smart pointer to an array of chars
35 wxDECLARE_SCOPED_ARRAY(char, wxCharArray)
36
37 ...
38
39 // define the first pointer class, must be complete
40 wxDEFINE_SCOPED_PTR(MyClass, wxMyClassPtr)
41 // define the second pointer class
42 wxDEFINE_SCOPED_ARRAY(char, wxCharArray)
43
44 // create an object with a new pointer to MyClass
45 wxMyClassPtr theObj(new MyClass());
46 // reset the pointer (deletes the previous one)
47 theObj.reset(new MyClass());
48
49 // access the pointer
50 theObj->MyFunc();
51
52 // create an object with a new array of chars
53 wxCharArray theCharObj(new char[100]);
54
55 // access the array
56 theCharObj[0] = "!";
57 @endcode
58
59 @section scopedptr_newpointers Declaring new smart pointer types
60
61 To declare the smart pointer class @c CLASSNAME containing pointes to
62 a (possibly incomplete) type @c TYPE you should use
63 @code
64 wxDECLARE_SCOPED_PTR( TYPE, // type of the values
65 CLASSNAME ); // name of the class
66 @endcode
67 And later, when @c TYPE is fully defined, you must also use
68 @code
69 wxDEFINE_SCOPED_PTR( TYPE, CLASSNAME );
70 @endcode
71 to implement the scoped pointer class.
72
73 The first argument of these macro is the pointer type, the second is the name
74 of the new smart pointer class being created. Below we will use wxScopedPtr
75 to represent the scoped pointer class, but the user may create the class with
76 any legal name.
77
78 Alternatively, if you don't have to separate the point of declaration and
79 definition of this class and if you accept the standard naming convention,
80 that is that the scoped pointer for the class @c Foo is called @c FooPtr,
81 you can use a single macro which replaces two macros above:
82 @code
83 wxDEFINE_SCOPED_PTR_TYPE( TYPE );
84 @endcode
85 Once again, in this cass @c CLASSNAME will be @c TYPEPtr.
86
87 @library{wxbase}
88 @category{smartpointers}
89
90 @see wxScopedArray
91*/
92class wxScopedPtr
93{
94public:
95 /**
96 Creates the smart pointer with the given pointer or none if @NULL.
97
98 On compilers that support it, this uses the explicit keyword.
99 */
100 explicit wxScopedPtr(type* T = NULL);
101
102 /**
103 Destructor frees the pointer help by this object if it is not @NULL.
104 */
105 ~wxScopedPtr();
106
107 /**
108 This operator gets the pointer stored in the smart pointer or returns
109 @NULL if there is none.
110 */
111 T* get() const;
112
113 /**
114 This operator works like the standard C++ pointer operator to return the object
115 being pointed to by the pointer.
116
117 If the internal pointer is @NULL this method will cause an assert in debug mode.
118 */
119 T& operator *() const;
120
121 /**
122 Smart pointer member access. Returns pointer to its object.
123
124 If the internal pointer is @NULL this method will cause an assert in debug mode.
125 */
126 T* operator ->() const;
127
128 /**
129 Returns the currently hold pointer and resets the smart pointer object to
130 @NULL.
131
132 @remarks
133 After a call to this function the caller is responsible for deleting the
134 pointer.
135 */
136 T* release();
137
138 /**
139 Deletes the currently held pointer and sets it to @a p or to @NULL if no
140 arguments are specified.
141
142 @note
143 This function does check to make sure that the pointer you are assigning
144 is not the same pointer that is already stored.
145 */
146 reset(T* p = NULL);
147
148 /**
149 Swap the pointer inside the smart pointer with @a other. The pointer being
150 swapped must be of the same type (hence the same class name).
151 */
152 swap(wxScopedPtr& other);
153};
154
155/**
156 @class wxScopedTiedPtr
157
158 This is a variation on the topic of wxScopedPtr. This class is also a smart pointer
159 but in addition it "ties" the pointer value to another variable. In other words,
160 during the life time of this class the value of that variable is set to be the same
161 as the value of the pointer itself and it is reset to its old value when the object
162 is destroyed. This class is especially useful when converting the existing code
163 (which may already store the pointers value in some variable) to the smart pointers.
164
165 @library{wxbase}
166 @category{smartpointers}
167*/
168class wxScopedTiedPtr : public wxScopedPtr
169{
170public:
171 /**
172 Constructor creates a smart pointer initialized with @a ptr and stores
173 @a ptr in the location specified by @a ppTie which must not be @NULL.
174 */
175 wxScopedTiedPtr(T** ppTie, T* ptr);
176
177 /**
178 Destructor frees the pointer help by this object and restores the value
179 stored at the tied location (as specified in the @ref wxScopedTiedPtr() constructor)
180 to the old value.
181
182 @warning
183 This location may now contain an uninitialized value if it hadn't been
184 initialized previously, in particular don't count on it magically being @NULL!
185 */
186 ~wxScopedTiedPtr();
187};
188
189
190
191/**
192 A scoped pointer template class.
193
194 It is the template version of the old-style @ref wxScopedPtr "scoped pointer macros".
195
196 Notice that objects of this class intentionally cannot be copied.
197
198 @library{wxbase}
199 @category{smartpointers}
200
201 @see wxSharedPtr<T>, wxWeakRef<T>
202*/
203template<typename T>
204class wxScopedPtr<T>
205{
206public:
207 /**
208 Constructor takes ownership of the pointer.
209
210 @param ptr
211 Pointer allocated with @c new or @NULL.
212 */
213 wxScopedPtr(T* ptr = NULL);
214
215 /**
216 Destructor deletes the pointer.
217 */
218 ~wxScopedPtr();
219
220 /**
221 Returns pointer to object or @NULL.
222 */
223 T* get() const;
224
225 /**
226 Conversion to a boolean expression (in a variant which is not
227 convertible to anything but a boolean expression).
228
229 If this class contains a valid pointer it will return @true, if it contains
230 a @NULL pointer it will return @false.
231 */
232 operator unspecified_bool_type() const;
233
234 /**
235 Returns a reference to the object.
236
237 If the internal pointer is @NULL this method will cause an assert in debug mode.
238 */
239 T& operator*() const;
240
241 /**
242 Smart pointer member access. Returns pointer to object.
243
244 If the internal pointer is @NULL this method will cause an assert in debug mode.
245 */
246 T* operator->() const;
247
248 /**
249 Releases the current pointer and returns it.
250
251 @remarks
252 Afterwards the caller is responsible for deleting
253 the data contained in the scoped pointer before.
254 */
255 T* release();
256
257 /**
258 Reset pointer to the value of @a ptr.
259 The previous pointer will be deleted.
260 */
261 void reset(T* ptr = NULL);
262
263 /**
264 Swaps pointers.
265 */
266 void swap(wxScopedPtr<T>& ot);
267};
268