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put both versions of wxGetMousePosition in one place so they can use one implementation
[wxWidgets.git] / interface / wx / buffer.h
1 /////////////////////////////////////////////////////////////////////////////
2 // Name: buffer.h
3 // Purpose: interface of wxMemoryBuffer
4 // Author: wxWidgets team
5 // RCS-ID: $Id$
6 // Licence: wxWindows licence
7 /////////////////////////////////////////////////////////////////////////////
8
9
10 /**
11 wxScopedCharTypeBuffer<T> is a template class for storing characters.
12
13 Data are stored in reference-counted buffer. In other words, making a copy
14 of wxScopedCharTypeBuffer<T> will @em not make another copy of the stored
15 string data, it will still point to the same location in memory.
16
17 wxScopedCharTypeBuffer<T> supports two storage modes: owned and non-owned.
18 "Owned" data buffer (created with CreateOwned() or wxCharTypeBuffer<T>
19 derived class) owns the data and frees them when the last buffer pointing
20 to them is destroyed.
21
22 "Non-owned" buffer (created with CreateNonOwned()), on the other hand,
23 references data owned by somebody else -- typical use is by
24 wxString::mb_str() or wxString::wc_str(), which may return non-owned buffer
25 pointing to wxString's internal store.
26
27 Because of this, the validity of data stored in wxScopedCharTypeBuffer<T>
28 is limited by the lifetime of the "parent" object that created the
29 buffer (e.g. the wxString on which mb_str() was called).
30
31 If you need to preserve the data for longer, assign it to
32 wxCharTypeBuffer<T> instead of wxScopedCharTypeBuffer<T>. On the other
33 hand, use wxScopedCharTypeBuffer<T> if the buffer is to be destroyed before
34 the "parent" object -- typical use would be creating it on the stack and
35 destroying when it goes out of scope (hence the class' name).
36
37 @tparam T
38 The type of the characters stored in this class.
39
40 @since 2.9.0
41
42 @nolibrary
43 @category{data}
44 */
45 template <typename T>
46 class wxScopedCharTypeBuffer
47 {
48 public:
49 /// Stored characters type.
50 typedef T CharType;
51
52 /// Default constructor, creates NULL buffer.
53 wxScopedCharTypeBuffer();
54
55 /**
56 Creates non-owned buffer from string data @a str.
57
58 The buffer's destructor will not destroy @a str. The returned buffer's
59 data is valid only as long as @a str is valid.
60
61 @param str String data.
62 @param len If specified, length of the string, otherwise the string
63 is considered to be NUL-terminated.
64 */
65 static const wxScopedCharTypeBuffer CreateNonOwned(const CharType *str, size_t len = wxNO_LEN);
66
67 /**
68 Creates owned buffer from @a str and takes ownership of it.
69
70 The buffer's destructor will free @a str when its reference count
71 reaches zero (initial count is 1).
72
73 @param str String data.
74 @param len If specified, length of the string, otherwise the string
75 is considered to be NUL-terminated.
76 */
77 static const wxScopedCharTypeBuffer CreateOwned(CharType *str, size_t len = wxNO_LEN);
78
79 /**
80 Copy constructor.
81
82 Increases reference count on the data, does @em not make wxStrdup()
83 copy of the data.
84 */
85 wxScopedCharTypeBuffer(const wxScopedCharTypeBuffer& src);
86
87 /// Assignment operator behaves in the same way as the copy constructor.
88 wxScopedCharTypeBuffer& operator=(const wxScopedCharTypeBuffer& src);
89
90 /**
91 Destructor. Frees stored data if it is in "owned" mode and data's
92 reference count reaches zero.
93 */
94 ~wxScopedCharTypeBuffer();
95
96 /// Resets the buffer to NULL, freeing the data if necessary.
97 void reset();
98
99 /// Returns pointer to the stored data.
100 CharType *data();
101
102 /// Returns const pointer to the stored data.
103 const CharType *data() const;
104
105 /// Returns length of the string stored.
106 size_t length() const;
107
108 /// Implicit conversion to C string.
109 operator const CharType *() const;
110
111 /// Random access to the stored C string.
112 CharType operator[](size_t n) const;
113 };
114
115 /// Scoped char buffer.
116 typedef wxScopedCharTypeBuffer<char> wxScopedCharBuffer;
117
118 /// Scoped wchar_t buffer.
119 typedef wxScopedCharTypeBuffer<wchar_t> wxScopedWCharBuffer;
120
121 /**
122 wxCharTypeBuffer<T> is a template class for storing characters.
123
124 The difference from wxScopedCharTypeBuffer<T> is that this class
125 doesn't have non-owned mode and the data stored in it are valid for
126 as long as the buffer instance exists. Other than that, this class'
127 behaviour is the same as wxScopedCharTypeBuffer<T>'s -- in particular,
128 the data are reference-counted and copying the buffer is cheap.
129
130 wxScopedCharTypeBuffer<T> buffers can be converted into wxCharTypeBuffer<T>.
131
132 @tparam T
133 The type of the characters stored in this class.
134
135 @since 2.9.0
136
137 @nolibrary
138 @category{data}
139 */
140 template <typename T>
141 class wxCharTypeBuffer : public wxScopedCharTypeBuffer<T>
142 {
143 public:
144 /**
145 Creates (owned) buffer from @a str and takes ownership of it.
146
147 @param str String data.
148 @param len If specified, length of the string, otherwise the string
149 is considered to be NUL-terminated.
150
151 @see wxScopedCharTypeBuffer<T>::CreateOwned()
152 */
153 wxCharTypeBuffer(const CharType *str = NULL, size_t len = wxNO_LEN);
154
155
156 /**
157 Creates (owned) buffer of size @a len.
158
159 @see wxScopedCharTypeBuffer<T>::CreateOwned()
160 */
161 wxCharTypeBuffer(size_t len);
162
163 /**
164 Copy constructor.
165
166 Increases reference count on the data, does @em not make wxStrdup()
167 copy of the data.
168 */
169 wxCharTypeBuffer(const wxCharTypeBuffer& src);
170
171 /**
172 Makes a copy of scoped buffer @a src.
173
174 If @a src is a non-owned buffer, a copy of its data is made using
175 wxStrdup(). If @a src is an owned buffer, this constructor behaves
176 in the usual way (reference count on buffer data is incremented).
177 */
178 wxCharTypeBuffer(const wxScopedCharTypeBuffer<T>& src);
179
180 /**
181 Assigns @a str to this buffer and takes ownership of it (i.e. the
182 buffer becomes "owned").
183 */
184 wxCharTypeBuffer& operator=(const CharType *str);
185
186 /// Assignment operator behaves in the same way as the copy constructor.
187 wxCharTypeBuffer& operator=(const wxCharTypeBuffer& src);
188
189 /**
190 Assigns a scoped buffer to this buffer.
191
192 If @a src is a non-owned buffer, a copy of its data is made using
193 wxStrdup(). If @a src is an owned buffer, the assignment behaves
194 in the usual way (reference count on buffer data is incremented).
195 */
196 wxCharTypeBuffer& operator=(const wxScopedCharTypeBuffer<T>& src);
197
198 /**
199 Extends the buffer to have size @a len.
200
201 Can only be called on buffers that don't share data with another
202 buffer (i.e. reference count of the data is 1).
203
204 @see shrink()
205 */
206 bool extend(size_t len);
207
208 /**
209 Shrinks the buffer to have size @a len and NUL-terminates the string
210 at this length.
211
212 Can only be called on buffers that don't share data with another
213 buffer (i.e. reference count of the data is 1).
214
215 @param len Length to shrink to. Must not be larger than current length.
216
217 @note The string is not reallocated to take less memory.
218
219 @since 2.9.0
220
221 @see extend()
222 */
223 bool shrink(size_t len);
224 };
225
226 /**
227 This is a specialization of wxCharTypeBuffer<T> for @c char type.
228
229 @nolibrary
230 @category{data}
231 */
232 class wxCharBuffer : public wxCharTypeBuffer<char>
233 {
234 public:
235 typedef wxCharTypeBuffer<char> wxCharTypeBufferBase;
236 typedef wxScopedCharTypeBuffer<char> wxScopedCharTypeBufferBase;
237
238 wxCharBuffer(const wxCharTypeBufferBase& buf);
239 wxCharBuffer(const wxScopedCharTypeBufferBase& buf);
240 wxCharBuffer(const CharType *str = NULL);
241 wxCharBuffer(size_t len);
242 wxCharBuffer(const wxCStrData& cstr);
243 };
244
245 /**
246 This is a specialization of wxCharTypeBuffer<T> for @c wchar_t type.
247
248 @nolibrary
249 @category{data}
250 */
251 class wxWCharBuffer : public wxCharTypeBuffer<wchar_t>
252 {
253 public:
254 typedef wxCharTypeBuffer<wchar_t> wxCharTypeBufferBase;
255 typedef wxScopedCharTypeBuffer<wchar_t> wxScopedCharTypeBufferBase;
256
257 wxWCharBuffer(const wxCharTypeBufferBase& buf);
258 wxWCharBuffer(const wxScopedCharTypeBufferBase& buf);
259 wxWCharBuffer(const CharType *str = NULL);
260 wxWCharBuffer(size_t len);
261 wxWCharBuffer(const wxCStrData& cstr);
262 };
263
264 /**
265 @class wxMemoryBuffer
266
267 A @b wxMemoryBuffer is a useful data structure for storing arbitrary sized
268 blocks of memory. wxMemoryBuffer guarantees deletion of the memory block when
269 the object is destroyed.
270
271 @library{wxbase}
272 @category{data}
273 */
274 class wxMemoryBuffer
275 {
276 public:
277 /**
278 Copy constructor, refcounting is used for performance, but wxMemoryBuffer
279 is not a copy-on-write structure so changes made to one buffer effect all
280 copies made from it.
281
282 @see @ref overview_refcount
283 */
284 wxMemoryBuffer(const wxMemoryBuffer& src);
285
286 /**
287 Create a new buffer.
288
289 @param size
290 size of the new buffer, 1KiB by default.
291 */
292 wxMemoryBuffer(size_t size = 1024);
293
294 /**
295 Append a single byte to the buffer.
296
297 @param data
298 New byte to append to the buffer.
299 */
300 void AppendByte(char data);
301
302 /**
303 Single call to append a data block to the buffer.
304
305 @param data
306 Pointer to block to append to the buffer.
307 @param len
308 Length of data to append.
309 */
310 void AppendData(const void *data, size_t len);
311
312 /**
313 Clear the buffer contents.
314
315 The buffer won't contain any data after this method is called.
316
317 @see IsEmpty()
318
319 @since 2.9.4
320 */
321 void Clear();
322
323 /**
324 Ensure that the buffer is big enough and return a pointer to the start
325 of the empty space in the buffer. This pointer can be used to directly
326 write data into the buffer, this new data will be appended to the
327 existing data.
328
329 @param sizeNeeded
330 Amount of extra space required in the buffer for
331 the append operation
332 */
333 void* GetAppendBuf(size_t sizeNeeded);
334
335 /**
336 Returns the size of the buffer.
337 */
338 size_t GetBufSize() const;
339
340 /**
341 Return a pointer to the data in the buffer.
342 */
343 void* GetData() const;
344
345 /**
346 Returns the length of the valid data in the buffer.
347 */
348 size_t GetDataLen() const;
349
350 /**
351 Ensure the buffer is big enough and return a pointer to the
352 buffer which can be used to directly write into the buffer
353 up to @a sizeNeeded bytes.
354 */
355 void* GetWriteBuf(size_t sizeNeeded);
356
357 /**
358 Returns true if the buffer contains no data.
359
360 @see Clear()
361
362 @since 2.9.4
363 */
364 bool IsEmpty() const;
365
366 /**
367 Ensures the buffer has at least @a size bytes available.
368 */
369 void SetBufSize(size_t size);
370
371 /**
372 Sets the length of the data stored in the buffer.
373 Mainly useful for truncating existing data.
374
375 @param size
376 New length of the valid data in the buffer. This is
377 distinct from the allocated size
378 */
379 void SetDataLen(size_t size);
380
381 /**
382 Update the length after completing a direct append, which
383 you must have used GetAppendBuf() to initialise.
384
385 @param sizeUsed
386 This is the amount of new data that has been
387 appended.
388 */
389 void UngetAppendBuf(size_t sizeUsed);
390
391 /**
392 Update the buffer after completing a direct write, which
393 you must have used GetWriteBuf() to initialise.
394
395 @param sizeUsed
396 The amount of data written in to buffer
397 by the direct write
398 */
399 void UngetWriteBuf(size_t sizeUsed);
400 };
401