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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: variant.h
3 // Purpose: interface of wxVariant
4 // Author: wxWidgets team
5 // RCS-ID: $Id$
6 // Licence: wxWindows license
7 /////////////////////////////////////////////////////////////////////////////
8
9 /**
10 @class wxVariant
11
12 The wxVariant class represents a container for any type. A variant's value
13 can be changed at run time, possibly to a different type of value.
14
15 As standard, wxVariant can store values of type bool, wxChar, double, long,
16 string, string list, time, date, void pointer, list of strings, and list of
17 variants. However, an application can extend wxVariant's capabilities by
18 deriving from the class wxVariantData and using the wxVariantData form of
19 the wxVariant constructor or assignment operator to assign this data to a
20 variant. Actual values for user-defined types will need to be accessed via
21 the wxVariantData object, unlike the case for basic data types where
22 convenience functions such as GetLong() can be used.
23
24 Pointers to any wxObject derived class can also easily be stored in a
25 wxVariant. wxVariant will then use wxWidgets' built-in RTTI system to set
26 the type name (returned by GetType()) and to perform type-safety checks at
27 runtime.
28
29 This class is useful for reducing the programming for certain tasks, such
30 as an editor for different data types, or a remote procedure call protocol.
31
32 An optional name member is associated with a wxVariant. This might be used,
33 for example, in CORBA or OLE automation classes, where named parameters are
34 required.
35
36 Note that as of wxWidgets 2.7.1, wxVariant is
37 @ref overview_refcount "reference counted". Additionally, the convenience
38 macros DECLARE_VARIANT_OBJECT() and IMPLEMENT_VARIANT_OBJECT() were added
39 so that adding (limited) support for conversion to and from wxVariant can
40 be very easily implemented without modifying either wxVariant or the class
41 to be stored by wxVariant. Since assignment operators cannot be declared
42 outside the class, the shift left operators are used like this:
43
44 @code
45 // in the header file
46 DECLARE_VARIANT_OBJECT(MyClass)
47
48 // in the implementation file
49 IMPLEMENT_VARIANT_OBJECT(MyClass)
50
51 // in the user code
52 wxVariant variant;
53 MyClass value;
54 variant << value;
55
56 // or
57 value << variant;
58 @endcode
59
60 For this to work, MyClass must derive from wxObject, implement the
61 @ref overview_rtti "wxWidgets RTTI system" and support the assignment
62 operator and equality operator for itself. Ideally, it should also be
63 reference counted to make copying operations cheap and fast. This can be
64 most easily implemented using the reference counting support offered by
65 wxObject itself. By default, wxWidgets already implements the shift
66 operator conversion for a few of its drawing related classes:
67
68 @code
69 IMPLEMENT_VARIANT_OBJECT(wxColour)
70 IMPLEMENT_VARIANT_OBJECT(wxImage)
71 IMPLEMENT_VARIANT_OBJECT(wxIcon)
72 IMPLEMENT_VARIANT_OBJECT(wxBitmap)
73 @endcode
74
75 Note that as of wxWidgets 2.9.0, wxVariantData no longer inherits from
76 wxObject and wxVariant no longer uses the type-unsafe wxList class for list
77 operations but the type-safe wxVariantList class. Also, wxVariantData now
78 supports the wxVariantData::Clone() function for implementing the Unshare()
79 function. wxVariantData::Clone() is implemented automatically by
80 IMPLEMENT_VARIANT_OBJECT().
81
82 Since wxVariantData no longer derives from wxObject, any code that tests
83 the type of the data using wxDynamicCast() will require adjustment. You can
84 use the macro wxDynamicCastVariantData() with the same arguments as
85 wxDynamicCast(), to use C++ RTTI type information instead of wxWidgets
86 RTTI.
87
88 @library{wxbase}
89 @category{data}
90
91 @see wxVariantData
92 */
93 class wxVariant : public wxObject
94 {
95 public:
96 /**
97 Default constructor.
98 */
99 wxVariant();
100
101 /**
102 Constructs a variant directly with a wxVariantData object. wxVariant
103 will take ownership of the wxVariantData and will not increase its
104 reference count.
105 */
106 wxVariant(wxVariantData* data, const wxString& name = wxEmptyString);
107
108 /**
109 Constructs a variant from another variant by increasing the reference
110 count.
111 */
112 wxVariant(const wxVariant& variant);
113
114 /**
115 Constructs a variant from a wide string literal.
116 */
117 wxVariant(const wxChar* value, const wxString& name = wxEmptyString);
118
119 /**
120 Constructs a variant from a string.
121 */
122 wxVariant(const wxString& value, const wxString& name = wxEmptyString);
123
124 /**
125 Constructs a variant from a wide char.
126 */
127 wxVariant(wxChar value, const wxString& name = wxEmptyString);
128
129 /**
130 Constructs a variant from a long.
131 */
132 wxVariant(long value, const wxString& name = wxEmptyString);
133
134 /**
135 Constructs a variant from a bool.
136 */
137 wxVariant(bool value, const wxString& name = wxEmptyString);
138
139 /**
140 Constructs a variant from a double.
141 */
142 wxVariant(double value, const wxString& name = wxEmptyString);
143
144 /**
145 Constructs a variant from a wxLongLong.
146 */
147 wxVariant(wxLongLong value, const wxString& name = wxEmptyString);
148
149 /**
150 Constructs a variant from a wxULongLong.
151 */
152 wxVariant(wxULongLong value, const wxString& name = wxEmptyString);
153
154 /**
155 Constructs a variant from a list of variants
156 */
157 wxVariant(const wxVariantList& value, const wxString& name = wxEmptyString);
158
159 /**
160 Constructs a variant from a void pointer.
161 */
162 wxVariant(void* value, const wxString& name = wxEmptyString);
163
164 /**
165 Constructs a variant from a pointer to an wxObject
166 derived class.
167 */
168 wxVariant(wxObject* value, const wxString& name = wxEmptyString);
169
170 /**
171 Constructs a variant from a wxDateTime.
172 */
173 wxVariant(const wxDateTime& val, const wxString& name = wxEmptyString);
174
175 /**
176 Constructs a variant from a wxArrayString.
177 */
178 wxVariant(const wxArrayString& val, const wxString& name = wxEmptyString);
179
180 /**
181 Destructor.
182
183 @note wxVariantData's destructor is protected, so wxVariantData cannot
184 usually be deleted. Instead, wxVariantData::DecRef() should be
185 called. See @ref overview_refcount_destruct
186 "reference-counted object destruction" for more info.
187 */
188 virtual ~wxVariant();
189
190
191 /**
192 @name List Functionality
193 */
194 //@{
195
196 /**
197 Returns the value at @a idx (zero-based).
198 */
199 wxVariant operator [](size_t idx) const;
200 /**
201 Returns a reference to the value at @a idx (zero-based). This can be
202 used to change the value at this index.
203 */
204 wxVariant& operator [](size_t idx);
205
206 /**
207 Appends a value to the list.
208 */
209 void Append(const wxVariant& value);
210
211 /**
212 Makes the variant null by deleting the internal data and set the name
213 to wxEmptyString.
214 */
215 void Clear();
216
217 /**
218 Deletes the contents of the list.
219 */
220 void ClearList();
221
222 /**
223 Deletes the zero-based @a item from the list.
224 */
225 bool Delete(size_t item);
226
227 /**
228 Returns the number of elements in the list.
229 */
230 size_t GetCount() const;
231
232 /**
233 Returns a reference to the wxVariantList class used by wxVariant if
234 this wxVariant is currently a list of variants.
235 */
236 wxVariantList& GetList() const;
237
238 /**
239 Inserts a value at the front of the list.
240 */
241 void Insert(const wxVariant& value);
242
243 /**
244 Makes an empty list. This differs from a null variant which has no
245 data; a null list is of type list, but the number of elements in the
246 list is zero.
247 */
248 void NullList();
249
250 //@}
251
252
253 //@{
254 /**
255 Retrieves and converts the value of this variant to the type that
256 @a value is.
257 */
258 bool Convert(long* value) const;
259 bool Convert(bool* value) const;
260 bool Convert(double* value) const;
261 bool Convert(wxString* value) const;
262 bool Convert(wxChar* value) const;
263 bool Convert(wxLongLong* value) const;
264 bool Convert(wxULongLong* value) const;
265 bool Convert(wxDateTime* value) const;
266 //@}
267
268 /**
269 Returns the string array value.
270 */
271 wxArrayString GetArrayString() const;
272
273 /**
274 Returns the boolean value.
275 */
276 bool GetBool() const;
277
278 /**
279 Returns the character value.
280 */
281 wxUniChar GetChar() const;
282
283 /**
284 Returns a pointer to the internal variant data. To take ownership of
285 this data, you must call its wxVariantData::IncRef() method. When you
286 stop using it, wxVariantData::DecRef() must be called as well.
287 */
288 wxVariantData* GetData() const;
289
290 /**
291 Returns the date value.
292 */
293 wxDateTime GetDateTime() const;
294
295 /**
296 Returns the floating point value.
297 */
298 double GetDouble() const;
299
300 /**
301 Returns the integer value.
302 */
303 long GetLong() const;
304
305 /**
306 Returns the signed 64-bit integer value.
307 */
308 wxLongLong GetLongLong() const;
309
310 /**
311 Returns a constant reference to the variant name.
312 */
313 const wxString& GetName() const;
314
315 /**
316 Gets the string value.
317 */
318 wxString GetString() const;
319
320 /**
321 Returns the value type as a string.
322
323 The built-in types are:
324 - "bool"
325 - "char"
326 - "datetime"
327 - "double"
328 - "list"
329 - "long"
330 - "longlong"
331 - "string"
332 - "ulonglong"
333 - "arrstring"
334 - "void*"
335
336 If the variant is null, the value type returned is the string "null"
337 (not the empty string).
338 */
339 wxString GetType() const;
340
341 /**
342 Returns the unsigned 64-bit integer value.
343 */
344 wxULongLong GetULongLong() const;
345
346 /**
347 Gets the void pointer value.
348
349 Notice that this method can be used for null objects (i.e. those for
350 which IsNull() returns @true) and will return @NULL for them.
351 */
352 void* GetVoidPtr() const;
353
354 /**
355 Gets the wxObject pointer value.
356 */
357 wxObject* GetWxObjectPtr() const;
358
359 /**
360 Returns @true if there is no data associated with this variant, @false
361 if there is data.
362 */
363 bool IsNull() const;
364
365 /**
366 Returns @true if @a type matches the type of the variant, @false
367 otherwise.
368 */
369 bool IsType(const wxString& type) const;
370
371 /**
372 Returns @true if the data is derived from the class described by
373 @a type, @false otherwise.
374 */
375 bool IsValueKindOf(const wxClassInfo* type) const;
376
377 /**
378 Makes the variant null by deleting the internal data.
379 */
380 void MakeNull();
381
382 /**
383 Makes a string representation of the variant value (for any type).
384 */
385 wxString MakeString() const;
386
387 /**
388 Returns @true if @a value matches an element in the list.
389 */
390 bool Member(const wxVariant& value) const;
391
392 /**
393 Sets the internal variant data, deleting the existing data if there is
394 any.
395 */
396 void SetData(wxVariantData* data);
397
398 /**
399 Makes sure that any data associated with this variant is not shared
400 with other variants. For this to work, wxVariantData::Clone() must be
401 implemented for the data types you are working with.
402 wxVariantData::Clone() is implemented for all the default data types.
403 */
404 bool Unshare();
405
406 //@{
407 /**
408 Inequality test operator.
409 */
410 bool operator !=(const wxVariant& value) const;
411 bool operator !=(const wxString& value) const;
412 bool operator !=(const wxChar* value) const;
413 bool operator !=(wxChar value) const;
414 bool operator !=(long value) const;
415 bool operator !=(bool value) const;
416 bool operator !=(double value) const;
417 bool operator !=(wxLongLong value) const;
418 bool operator !=(wxULongLong value) const;
419 bool operator !=(void* value) const;
420 bool operator !=(wxObject* value) const;
421 bool operator !=(const wxVariantList& value) const;
422 bool operator !=(const wxArrayString& value) const;
423 bool operator !=(const wxDateTime& value) const;
424 //@}
425
426 //@{
427 /**
428 Assignment operator, using @ref overview_refcount "reference counting"
429 if possible.
430 */
431 void operator =(const wxVariant& value);
432 void operator =(wxVariantData* value);
433 void operator =(const wxString& value);
434 void operator =(const wxChar* value);
435 void operator =(wxChar value);
436 void operator =(long value);
437 void operator =(bool value);
438 void operator =(double value);
439 bool operator =(wxLongLong value) const;
440 bool operator =(wxULongLong value) const;
441 void operator =(void* value);
442 void operator =(wxObject* value);
443 void operator =(const wxVariantList& value);
444 void operator =(const wxDateTime& value);
445 void operator =(const wxArrayString& value);
446 //@}
447
448 //@{
449 /**
450 Equality test operator.
451 */
452 bool operator ==(const wxVariant& value) const;
453 bool operator ==(const wxString& value) const;
454 bool operator ==(const wxChar* value) const;
455 bool operator ==(wxChar value) const;
456 bool operator ==(long value) const;
457 bool operator ==(bool value) const;
458 bool operator ==(double value) const;
459 bool operator ==(wxLongLong value) const;
460 bool operator ==(wxULongLong value) const;
461 bool operator ==(void* value) const;
462 bool operator ==(wxObject* value) const;
463 bool operator ==(const wxVariantList& value) const;
464 bool operator ==(const wxArrayString& value) const;
465 bool operator ==(const wxDateTime& value) const;
466 //@}
467
468 //@{
469 /**
470 Operators for implicit conversion, using appropriate getter member
471 function.
472 */
473 double operator double() const;
474 long operator long() const;
475 wxLongLong operator wxLongLong() const;
476 wxULongLong operator wxULongLong() const;
477 //@}
478
479 /**
480 Operator for implicit conversion to a pointer to a void, using
481 GetVoidPtr().
482 */
483 void* operator void*() const;
484
485 /**
486 Operator for implicit conversion to a wxChar, using GetChar().
487 */
488 char operator wxChar() const;
489
490 /**
491 Operator for implicit conversion to a pointer to a wxDateTime, using
492 GetDateTime().
493 */
494 void* operator wxDateTime() const;
495
496 /**
497 Operator for implicit conversion to a string, using MakeString().
498 */
499 wxString operator wxString() const;
500 };
501
502
503
504 /**
505 @class wxVariantData
506
507 The wxVariantData class is used to implement a new type for wxVariant.
508 Derive from wxVariantData, and override the pure virtual functions.
509
510 wxVariantData is @ref overview_refcount "reference counted", but you don't
511 normally have to care about this, as wxVariant manages the count
512 automatically. However, in case your application needs to take ownership of
513 wxVariantData, be aware that the object is created with a reference count
514 of 1, and passing it to wxVariant will not increase this. In other words,
515 IncRef() needs to be called only if you both take ownership of
516 wxVariantData and pass it to a wxVariant. Also note that the destructor is
517 protected, so you can never explicitly delete a wxVariantData instance.
518 Instead, DecRef() will delete the object automatically when the reference
519 count reaches zero.
520
521 @library{wxbase}
522 @category{data}
523
524 @see wxVariant, wxGetVariantCast()
525 */
526 class wxVariantData : public wxObjectRefData
527 {
528 public:
529 /**
530 Default constructor.
531 */
532 wxVariantData();
533
534 /**
535 This function can be overridden to clone the data. You must implement
536 this function in order for wxVariant::Unshare() to work for your data.
537 This function is implemented for all built-in data types.
538 */
539 virtual wxVariantData* Clone() const;
540
541 /**
542 Decreases reference count. If the count reaches zero, the object is
543 automatically deleted.
544
545 @note The destructor of wxVariantData is protected, so delete cannot be
546 used as normal. Instead, DecRef() should be called.
547 */
548 void DecRef();
549
550 /**
551 Returns @true if this object is equal to @a data.
552 */
553 virtual bool Eq(wxVariantData& data) const = 0;
554
555 /**
556 Returns the string type of the data.
557 */
558 virtual wxString GetType() const = 0;
559
560 /**
561 If the data is a wxObject returns a pointer to the objects wxClassInfo
562 structure, if the data isn't a wxObject the method returns @NULL.
563 */
564 virtual wxClassInfo* GetValueClassInfo();
565
566 /**
567 Increases reference count. Note that initially wxVariantData has
568 reference count of 1.
569 */
570 void IncRef();
571
572 /**
573 Reads the data from @a stream.
574 */
575 virtual bool Read(istream& stream);
576
577 /**
578 Reads the data from @a string.
579 */
580 virtual bool Read(wxString& string);
581
582 /**
583 Writes the data to @a stream.
584 */
585 virtual bool Write(ostream& stream) const;
586 /**
587 Writes the data to @a string.
588 */
589 virtual bool Write(wxString& string) const;
590 };
591
592
593
594 // ============================================================================
595 // Global functions/macros
596 // ============================================================================
597
598 /** @addtogroup group_funcmacro_rtti */
599 //@{
600
601 /**
602 This macro returns a pointer to the data stored in @a var (wxVariant) cast
603 to the type @a classname if the data is of this type (the check is done
604 during the run-time) or @NULL otherwise.
605
606 @header{wx/variant.h}
607
608 @see @ref overview_rtti, wxDynamicCast()
609 */
610 #define wxGetVariantCast(var, classname)
611
612 //@}
613