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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: gdicmn.h
3 // Purpose: interface of wxRealPoint
4 // Author: wxWidgets team
5 // RCS-ID: $Id$
6 // Licence: wxWindows license
7 /////////////////////////////////////////////////////////////////////////////
8
9
10 /**
11 Bitmap type flags. See wxBitmap and wxImage classes.
12 */
13 enum wxBitmapType
14 {
15 wxBITMAP_TYPE_INVALID,
16 wxBITMAP_TYPE_BMP,
17 wxBITMAP_TYPE_BMP_RESOURCE,
18 wxBITMAP_TYPE_RESOURCE = wxBITMAP_TYPE_BMP_RESOURCE,
19 wxBITMAP_TYPE_ICO,
20 wxBITMAP_TYPE_ICO_RESOURCE,
21 wxBITMAP_TYPE_CUR,
22 wxBITMAP_TYPE_CUR_RESOURCE,
23 wxBITMAP_TYPE_XBM,
24 wxBITMAP_TYPE_XBM_DATA,
25 wxBITMAP_TYPE_XPM,
26 wxBITMAP_TYPE_XPM_DATA,
27 wxBITMAP_TYPE_TIF,
28 wxBITMAP_TYPE_TIF_RESOURCE,
29 wxBITMAP_TYPE_GIF,
30 wxBITMAP_TYPE_GIF_RESOURCE,
31 wxBITMAP_TYPE_PNG,
32 wxBITMAP_TYPE_PNG_RESOURCE,
33 wxBITMAP_TYPE_JPEG,
34 wxBITMAP_TYPE_JPEG_RESOURCE,
35 wxBITMAP_TYPE_PNM,
36 wxBITMAP_TYPE_PNM_RESOURCE,
37 wxBITMAP_TYPE_PCX,
38 wxBITMAP_TYPE_PCX_RESOURCE,
39 wxBITMAP_TYPE_PICT,
40 wxBITMAP_TYPE_PICT_RESOURCE,
41 wxBITMAP_TYPE_ICON,
42 wxBITMAP_TYPE_ICON_RESOURCE,
43 wxBITMAP_TYPE_ANI,
44 wxBITMAP_TYPE_IFF,
45 wxBITMAP_TYPE_TGA,
46 wxBITMAP_TYPE_MACCURSOR,
47 wxBITMAP_TYPE_MACCURSOR_RESOURCE,
48 wxBITMAP_TYPE_ANY = 50
49 };
50
51 /**
52 Standard cursors. See wxCursor.
53 */
54 enum wxStockCursor
55 {
56 wxCURSOR_NONE,
57 wxCURSOR_ARROW, ///< A standard arrow cursor.
58 wxCURSOR_RIGHT_ARROW, ///< A standard arrow cursor pointing to the right.
59 wxCURSOR_BULLSEYE, ///< Bullseye cursor.
60 wxCURSOR_CHAR, ///< Rectangular character cursor.
61 wxCURSOR_CROSS, ///< A cross cursor.
62 wxCURSOR_HAND, ///< A hand cursor.
63 wxCURSOR_IBEAM, ///< An I-beam cursor (vertical line).
64 wxCURSOR_LEFT_BUTTON, ///< Represents a mouse with the left button depressed.
65 wxCURSOR_MAGNIFIER, ///< A magnifier icon.
66 wxCURSOR_MIDDLE_BUTTON, ///< Represents a mouse with the middle button depressed.
67 wxCURSOR_NO_ENTRY, ///< A no-entry sign cursor.
68 wxCURSOR_PAINT_BRUSH, ///< A paintbrush cursor.
69 wxCURSOR_PENCIL, ///< A pencil cursor.
70 wxCURSOR_POINT_LEFT, ///< A cursor that points left.
71 wxCURSOR_POINT_RIGHT, ///< A cursor that points right.
72 wxCURSOR_QUESTION_ARROW, ///< An arrow and question mark.
73 wxCURSOR_RIGHT_BUTTON, ///< Represents a mouse with the right button depressed.
74 wxCURSOR_SIZENESW, ///< A sizing cursor pointing NE-SW.
75 wxCURSOR_SIZENS, ///< A sizing cursor pointing N-S.
76 wxCURSOR_SIZENWSE, ///< A sizing cursor pointing NW-SE.
77 wxCURSOR_SIZEWE, ///< A sizing cursor pointing W-E.
78 wxCURSOR_SIZING, ///< A general sizing cursor.
79 wxCURSOR_SPRAYCAN, ///< A spraycan cursor.
80 wxCURSOR_WAIT, ///< A wait cursor.
81 wxCURSOR_WATCH, ///< A watch cursor.
82 wxCURSOR_BLANK, ///< Transparent cursor.
83 wxCURSOR_DEFAULT, ///< Standard X11 cursor (only in wxGTK).
84 wxCURSOR_COPY_ARROW , ///< MacOS Theme Plus arrow (only in wxMac).
85 wxCURSOR_CROSS_REVERSE, ///< Only available on wxX11.
86 wxCURSOR_DOUBLE_ARROW, ///< Only available on wxX11.
87 wxCURSOR_BASED_ARROW_UP, ///< Only available on wxX11.
88 wxCURSOR_BASED_ARROW_DOWN, ///< Only available on wxX11.
89 wxCURSOR_ARROWWAIT, ///< A wait cursor with a standard arrow.
90 wxCURSOR_MAX
91 };
92
93
94
95 /**
96 @class wxRealPoint
97 @wxheader{gdicmn.h}
98
99 A wxRealPoint is a useful data structure for graphics operations.
100
101 It contains floating point @e x and @e y members. See wxPoint for an
102 integer version.
103
104 @library{wxcore}
105 @category{data}
106
107 @see wxPoint
108 */
109 class wxRealPoint
110 {
111 public:
112 wxRealPoint();
113
114 /**
115 Initializes the point with the given coordinates.
116 */
117 wxRealPoint(double x, double y);
118
119 /**
120 X coordinate of this point.
121 */
122 double x;
123
124 /**
125 Y coordinate of this point.
126 */
127 double y;
128 };
129
130
131
132 /**
133 @class wxRect
134 @wxheader{gdicmn.h}
135
136 A class for manipulating rectangles.
137
138 @library{wxcore}
139 @category{data}
140
141 @see wxPoint, wxSize
142 */
143 class wxRect
144 {
145 public:
146 /**
147 Default constructor.
148 */
149 wxRect();
150 /**
151 Creates a wxRect object from @a x, @a y, @a width and @a height values.
152 */
153 wxRect(int x, int y, int width, int height);
154 /**
155 Creates a wxRect object from top-left and bottom-right points.
156 */
157 wxRect(const wxPoint& topLeft, const wxPoint& bottomRight);
158 /**
159 Creates a wxRect object from position and @a size values.
160 */
161 wxRect(const wxPoint& pos, const wxSize& size);
162 /**
163 Creates a wxRect object from @a size values at the origin.
164 */
165 wxRect(const wxSize& size);
166
167 //@{
168 /**
169 Returns the rectangle having the same size as this one but centered
170 relatively to the given rectangle @a r. By default, rectangle is
171 centred in both directions but if @a dir includes only @c wxVERTICAL or
172 only @c wxHORIZONTAL, then it is only centered in this direction while
173 the other component of its position remains unchanged.
174 */
175 wxRect CentreIn(const wxRect& r, int dir = wxBOTH) const;
176 wxRect CenterIn(const wxRect& r, int dir = wxBOTH) const;
177 //@}
178
179 /**
180 Returns @true if the given point is inside the rectangle (or on its
181 boundary) and @false otherwise.
182 */
183 bool Contains(int x, int y) const;
184 /**
185 Returns @true if the given point is inside the rectangle (or on its
186 boundary) and @false otherwise.
187 */
188 bool Contains(const wxPoint& pt) const;
189 /**
190 Returns @true if the given rectangle is completely inside this
191 rectangle (or touches its boundary) and @false otherwise.
192 */
193 bool Contains(const wxRect& rect) const;
194
195 //@{
196 /**
197 Decrease the rectangle size.
198
199 This method is the opposite from Inflate(): Deflate(a, b) is equivalent
200 to Inflate(-a, -b). Please refer to Inflate() for full description.
201 */
202 void Deflate(wxCoord dx, wxCoord dy);
203 void Deflate(const wxSize& diff);
204 void Deflate(wxCoord diff);
205 wxRect Deflate(wxCoord dx, wxCoord dy) const;
206 //@}
207
208 /**
209 Gets the bottom point of the rectangle.
210 */
211 int GetBottom() const;
212
213 /**
214 Gets the position of the bottom left corner.
215 */
216 wxPoint GetBottomLeft() const;
217
218 /**
219 Gets the position of the bottom right corner.
220 */
221 wxPoint GetBottomRight() const;
222
223 /**
224 Gets the height member.
225 */
226 int GetHeight() const;
227
228 /**
229 Gets the left point of the rectangle (the same as GetX()).
230 */
231 int GetLeft() const;
232
233 /**
234 Gets the position.
235 */
236 wxPoint GetPosition() const;
237
238 /**
239 Gets the right point of the rectangle.
240 */
241 int GetRight() const;
242
243 /**
244 Gets the size.
245
246 @see SetSize()
247 */
248 wxSize GetSize() const;
249
250 /**
251 Gets the top point of the rectangle (the same as GetY()).
252 */
253 int GetTop() const;
254
255 /**
256 Gets the position of the top left corner of the rectangle, same as
257 GetPosition().
258 */
259 wxPoint GetTopLeft() const;
260
261 /**
262 Gets the position of the top right corner.
263 */
264 wxPoint GetTopRight() const;
265
266 /**
267 Gets the width member.
268 */
269 int GetWidth() const;
270
271 /**
272 Gets the x member.
273 */
274 int GetX() const;
275
276 /**
277 Gets the y member.
278 */
279 int GetY() const;
280
281 //@{
282 /**
283 Increases the size of the rectangle.
284
285 The left border is moved farther left and the right border is moved
286 farther right by @a dx. The upper border is moved farther up and the
287 bottom border is moved farther down by @a dy. (Note the the width and
288 height of the rectangle thus change by 2*dx and 2*dy, respectively.) If
289 one or both of @a dx and @a dy are negative, the opposite happens: the
290 rectangle size decreases in the respective direction.
291
292 Inflating and deflating behaves "naturally". Defined more precisely,
293 that means:
294 -# "Real" inflates (that is, @a dx and/or @a dy = 0) are not
295 constrained. Thus inflating a rectangle can cause its upper left
296 corner to move into the negative numbers. (2.5.4 and older forced
297 the top left coordinate to not fall below (0, 0), which implied a
298 forced move of the rectangle.)
299 -# Deflates are clamped to not reduce the width or height of the
300 rectangle below zero. In such cases, the top-left corner is
301 nonetheless handled properly. For example, a rectangle at (10, 10)
302 with size (20, 40) that is inflated by (-15, -15) will become
303 located at (20, 25) at size (0, 10). Finally, observe that the width
304 and height are treated independently. In the above example, the
305 width is reduced by 20, whereas the height is reduced by the full 30
306 (rather than also stopping at 20, when the width reached zero).
307
308 @see Deflate()
309 */
310 void Inflate(wxCoord dx, wxCoord dy);
311 void Inflate(const wxSize& diff);
312 void Inflate(wxCoord diff);
313 wxRect Inflate(wxCoord dx, wxCoord dy) const;
314 //@}
315
316 //@{
317 /**
318 Modifies the rectangle to contain the overlapping box of this rectangle
319 and the one passed in as parameter.
320 */
321 wxRect Intersect(const wxRect& rect) const;
322 wxRect& Intersect(const wxRect& rect);
323 //@}
324
325 /**
326 Returns @true if this rectangle has a non-empty intersection with the
327 rectangle @a rect and @false otherwise.
328 */
329 bool Intersects(const wxRect& rect) const;
330
331 /**
332 Returns @true if this rectangle has a width or height less than or
333 equal to 0 and @false otherwise.
334 */
335 bool IsEmpty() const;
336
337 //@{
338 /**
339 Moves the rectangle by the specified offset. If @a dx is positive, the
340 rectangle is moved to the right, if @a dy is positive, it is moved to the
341 bottom, otherwise it is moved to the left or top respectively.
342 */
343 void Offset(wxCoord dx, wxCoord dy);
344 void Offset(const wxPoint& pt);
345 //@}
346
347 /**
348 Sets the height.
349 */
350 void SetHeight(int height);
351
352 /**
353 Sets the size.
354
355 @see GetSize()
356 */
357 void SetSize(const wxSize& s);
358
359 /**
360 Sets the width.
361 */
362 void SetWidth(int width);
363
364 /**
365 Sets the x position.
366 */
367 void SetX(int x);
368
369 /**
370 Sets the y position.
371 */
372 void SetY(int y);
373
374 //@{
375 /**
376 Modifies the rectangle to contain the bounding box of this rectangle
377 and the one passed in as parameter.
378 */
379 wxRect Union(const wxRect& rect) const;
380 wxRect& Union(const wxRect& rect);
381 //@}
382
383 /**
384 Inequality operator.
385 */
386 bool operator !=(const wxRect& r1, const wxRect& r2);
387
388 //@{
389 /**
390 Like Union(), but doesn't treat empty rectangles specially.
391 */
392 wxRect operator +(const wxRect& r1, const wxRect& r2);
393 wxRect& operator +=(const wxRect& r);
394 //@}
395
396 //@{
397 /**
398 Returns the intersection of two rectangles (which may be empty).
399 */
400 wxRect operator *(const wxRect& r1, const wxRect& r2);
401 wxRect& operator *=(const wxRect& r);
402 //@}
403
404 /**
405 Assignment operator.
406 */
407 void operator =(const wxRect& rect);
408
409 /**
410 Equality operator.
411 */
412 bool operator ==(const wxRect& r1, const wxRect& r2);
413
414 /**
415 Height member.
416 */
417 int height;
418
419 /**
420 Width member.
421 */
422 int width;
423
424 /**
425 x coordinate of the top-level corner of the rectangle.
426 */
427 int x;
428
429 /**
430 y coordinate of the top-level corner of the rectangle.
431 */
432 int y;
433 };
434
435
436
437 /**
438 @class wxPoint
439 @wxheader{gdicmn.h}
440
441 A wxPoint is a useful data structure for graphics operations.
442
443 It contains integer @e x and @e y members. See wxRealPoint for a floating
444 point version.
445
446 @library{wxcore}
447 @category{data}
448
449 @stdobjects
450 ::wxDefaultPosition
451
452 @see wxRealPoint
453 */
454 class wxPoint
455 {
456 public:
457 //@{
458 /**
459 Constructs a point.
460 */
461 wxPoint();
462 wxPoint(int x, int y);
463 //@}
464
465 /**
466 Assignment operator.
467 */
468 void operator =(const wxPoint& pt);
469
470 bool operator ==(const wxPoint& p1, const wxPoint& p2);
471 bool operator !=(const wxPoint& p1, const wxPoint& p2);
472
473 wxPoint operator +(const wxPoint& p1, const wxPoint& p2);
474 wxPoint operator -(const wxPoint& p1, const wxPoint& p2);
475
476 wxPoint& operator +=(const wxPoint& pt);
477 wxPoint& operator -=(const wxPoint& pt);
478
479 wxPoint operator +(const wxPoint& pt, const wxSize& sz);
480 wxPoint operator -(const wxPoint& pt, const wxSize& sz);
481 wxPoint operator +(const wxSize& sz, const wxPoint& pt);
482 wxPoint operator -(const wxSize& sz, const wxPoint& pt);
483
484 wxPoint& operator +=(const wxSize& sz);
485 wxPoint& operator -=(const wxSize& sz);
486
487 /**
488 x member.
489 */
490 int x;
491
492 /**
493 y member.
494 */
495 int y;
496 };
497
498 /**
499 Global istance of a wxPoint initialized with values (-1,-1).
500 */
501 wxPoint wxDefaultPosition;
502
503
504 /**
505 @class wxColourDatabase
506 @wxheader{gdicmn.h}
507
508 wxWidgets maintains a database of standard RGB colours for a predefined
509 set of named colours. The application may add to this set if desired by
510 using AddColour() and may use it to look up colours by names using Find()
511 or find the names for the standard colour using FindName().
512
513 There is one predefined, global instance of this class called
514 ::wxTheColourDatabase.
515
516 The standard database contains at least the following colours:
517
518 @beginTable
519 <tr><td>
520 AQUAMARINE
521 @n BLACK
522 @n BLUE
523 @n BLUE VIOLET
524 @n BROWN
525 @n CADET BLUE
526 @n CORAL
527 @n CORNFLOWER BLUE
528 @n CYAN
529 @n DARK GREY
530 @n DARK GREEN
531 @n DARK OLIVE GREEN
532 @n DARK ORCHID
533 @n DARK SLATE BLUE
534 @n DARK SLATE GREY
535 @n DARK TURQUOISE
536 @n DIM GREY
537 </td><td>
538 FIREBRICK
539 @n FOREST GREEN
540 @n GOLD
541 @n GOLDENROD
542 @n GREY
543 @n GREEN
544 @n GREEN YELLOW
545 @n INDIAN RED
546 @n KHAKI
547 @n LIGHT BLUE
548 @n LIGHT GREY
549 @n LIGHT STEEL BLUE
550 @n LIME GREEN
551 @n MAGENTA
552 @n MAROON
553 @n MEDIUM AQUAMARINE
554 @n MEDIUM BLUE
555 </td><td>
556 MEDIUM FOREST GREEN
557 @n MEDIUM GOLDENROD
558 @n MEDIUM ORCHID
559 @n MEDIUM SEA GREEN
560 @n MEDIUM SLATE BLUE
561 @n MEDIUM SPRING GREEN
562 @n MEDIUM TURQUOISE
563 @n MEDIUM VIOLET RED
564 @n MIDNIGHT BLUE
565 @n NAVY
566 @n ORANGE
567 @n ORANGE RED
568 @n ORCHID
569 @n PALE GREEN
570 @n PINK
571 @n PLUM
572 @n PURPLE
573 </td><td>
574 RED
575 @n SALMON
576 @n SEA GREEN
577 @n SIENNA
578 @n SKY BLUE
579 @n SLATE BLUE
580 @n SPRING GREEN
581 @n STEEL BLUE
582 @n TAN
583 @n THISTLE
584 @n TURQUOISE
585 @n VIOLET
586 @n VIOLET RED
587 @n WHEAT
588 @n WHITE
589 @n YELLOW
590 @n YELLOW GREEN
591 </td></tr>
592 @endTable
593
594 @library{wxcore}
595 @category{gdi}
596
597 @see wxColour
598 */
599 class wxColourDatabase
600 {
601 public:
602 /**
603 Constructs the colour database. It will be initialized at the first
604 use.
605 */
606 wxColourDatabase();
607
608 /**
609 Adds a colour to the database. If a colour with the same name already
610 exists, it is replaced.
611 */
612 void AddColour(const wxString& colourName, const wxColour& colour);
613
614 /**
615 Finds a colour given the name. Returns an invalid colour object (that
616 is, wxColour::IsOk() will return @false) if the colour wasn't found in
617 the database.
618 */
619 wxColour Find(const wxString& colourName);
620
621 /**
622 Finds a colour name given the colour. Returns an empty string if the
623 colour is not found in the database.
624 */
625 wxString FindName(const wxColour& colour) const;
626 };
627
628
629 /**
630 @class wxSize
631 @wxheader{gdicmn.h}
632
633 A wxSize is a useful data structure for graphics operations. It simply
634 contains integer @e width and @e height members.
635
636 wxSize is used throughout wxWidgets as well as wxPoint which, although
637 almost equivalent to wxSize, has a different meaning: wxPoint represents a
638 position while wxSize represents the size.
639
640 @beginWxPythonOnly
641 wxPython defines aliases for the @e x and @e y members named @e width and
642 @e height since it makes much more sense for sizes.
643 @endWxPythonOnly
644
645 @library{wxcore}
646 @category{data}
647
648 @stdobjects
649 ::wxDefaultSize
650
651 @see wxPoint, wxRealPoint
652 */
653 class wxSize
654 {
655 public:
656 //@{
657 /**
658 Creates a size object.
659 */
660 wxSize();
661 wxSize(int width, int height);
662 //@}
663
664 //@{
665 /**
666 Decreases the size in both x and y directions.
667
668 @see IncBy()
669 */
670 void DecBy(const wxSize& size);
671 void DecBy(int dx, int dy);
672 void DecBy(int d);
673 //@}
674
675 /**
676 Decrements this object so that both of its dimensions are not greater
677 than the corresponding dimensions of the @a size.
678
679 @see IncTo()
680 */
681 void DecTo(const wxSize& size);
682
683 /**
684 Gets the height member.
685 */
686 int GetHeight() const;
687
688 /**
689 Gets the width member.
690 */
691 int GetWidth() const;
692
693 //@{
694 /**
695 Increases the size in both x and y directions.
696
697 @see DecBy()
698 */
699 void IncBy(const wxSize& size);
700 void IncBy(int dx, int dy);
701 void IncBy(int d);
702 //@}
703
704 /**
705 Increments this object so that both of its dimensions are not less than
706 the corresponding dimensions of the @a size.
707
708 @see DecTo()
709 */
710 void IncTo(const wxSize& size);
711
712 /**
713 Returns @true if neither of the size object components is equal to -1,
714 which is used as default for the size values in wxWidgets (hence the
715 predefined ::wxDefaultSize has both of its components equal to -1).
716
717 This method is typically used before calling SetDefaults().
718 */
719 bool IsFullySpecified() const;
720
721 /**
722 Scales the dimensions of this object by the given factors. If you want
723 to scale both dimensions by the same factor you can also use
724 operator*=().
725
726 @return A reference to this object (so that you can concatenate other
727 operations in the same line).
728 */
729 wxSize& Scale(float xscale, float yscale);
730
731 /**
732 Sets the width and height members.
733 */
734 void Set(int width, int height);
735
736 /**
737 Combine this size object with another one replacing the default (i.e.
738 equal to -1) components of this object with those of the other. It is
739 typically used like this:
740
741 @code
742 if ( !size.IsFullySpecified() )
743 {
744 size.SetDefaults(GetDefaultSize());
745 }
746 @endcode
747
748 @see IsFullySpecified()
749 */
750 void SetDefaults(const wxSize& sizeDefault);
751
752 /**
753 Sets the height.
754 */
755 void SetHeight(int height);
756
757 /**
758 Sets the width.
759 */
760 void SetWidth(int width);
761
762 /**
763 Assignment operator.
764 */
765 void operator =(const wxSize& sz);
766
767 bool operator ==(const wxSize& s1, const wxSize& s2);
768 bool operator !=(const wxSize& s1, const wxSize& s2);
769
770 wxSize operator +(const wxSize& s1, const wxSize& s2);
771 wxSize operator -(const wxSize& s1, const wxSize& s2);
772 wxSize& operator +=(const wxSize& sz);
773 wxSize& operator -=(const wxSize& sz);
774
775 wxSize operator /(const wxSize& sz, int factor);
776 wxSize operator *(const wxSize& sz, int factor);
777 wxSize operator *(int factor, const wxSize& sz);
778 wxSize& operator /=(int factor);
779 wxSize& operator *=(int factor);
780 };
781
782 /**
783 Global instance of a wxSize object initialized to (-1,-1).
784 */
785 wxSize wxDefaultSize;
786
787
788
789
790 // ============================================================================
791 // Global functions/macros
792 // ============================================================================
793
794 /** @ingroup group_funcmacro_gdi */
795 //@{
796
797 /**
798 This macro loads a bitmap from either application resources (on the
799 platforms for which they exist, i.e. Windows and OS2) or from an XPM file.
800 This can help to avoid using @ifdef_ when creating bitmaps.
801
802 @see @ref overview_bitmap, wxICON()
803
804 @header{wx/gdicmn.h}
805 */
806 #define wxBITMAP(bitmapName)
807
808 /**
809 This macro loads an icon from either application resources (on the
810 platforms for which they exist, i.e. Windows and OS2) or from an XPM file.
811 This can help to avoid using @ifdef_ when creating icons.
812
813 @see @ref overview_bitmap, wxBITMAP()
814
815 @header{wx/gdicmn.h}
816 */
817 wxICON();
818
819 /**
820 Returns @true if the display is colour, @false otherwise.
821
822 @header{wx/gdicmn.h}
823 */
824 bool wxColourDisplay();
825
826 /**
827 Returns the depth of the display (a value of 1 denotes a monochrome
828 display).
829
830 @header{wx/gdicmn.h}
831 */
832 int wxDisplayDepth();
833
834 /**
835 Globally sets the cursor; only has an effect on Windows, Mac and GTK+. You
836 should call this function with wxNullCursor to restore the system cursor.
837
838 @see wxCursor, wxWindow::SetCursor()
839
840 @header{wx/gdicmn.h}
841 */
842 void wxSetCursor(const wxCursor& cursor);
843
844 //@}
845
846 /** @ingroup group_funcmacro_gdi */
847 //@{
848 /**
849 Returns the dimensions of the work area on the display. On Windows this
850 means the area not covered by the taskbar, etc. Other platforms are
851 currently defaulting to the whole display until a way is found to provide
852 this info for all window managers, etc.
853
854 @header{wx/gdicmn.h}
855 */
856 void wxClientDisplayRect(int* x, int* y, int* width, int* height);
857 wxRect wxGetClientDisplayRect();
858 //@}
859
860 /** @ingroup group_funcmacro_gdi */
861 //@{
862 /**
863 Returns the display size in pixels.
864
865 @header{wx/gdicmn.h}
866 */
867 void wxDisplaySize(int* width, int* height);
868 wxSize wxGetDisplaySize();
869 //@}
870
871 /** @ingroup group_funcmacro_gdi */
872 //@{
873 /**
874 Returns the display size in millimeters.
875
876 @header{wx/gdicmn.h}
877 */
878 void wxDisplaySizeMM(int* width, int* height);
879 wxSize wxGetDisplaySizeMM();
880 //@}
881