1wxDC(3) Erlang Module Definition wxDC(3)
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3
4
6 wxDC - Functions for wxDC class
7
9 A wxDC is a "device context" onto which graphics and text can be drawn.
10 It is intended to represent different output devices and offers a com‐
11 mon abstract API for drawing on any of them.
12
13 wxWidgets offers an alternative drawing API based on the modern drawing
14 backends GDI+, CoreGraphics, Cairo and Direct2D. See wxGraphicsContext,
15 wxGraphicsRenderer and related classes. There is also a wxGCDC linking
16 the APIs by offering the wxDC API on top of a wxGraphicsContext.
17
18 wxDC is an abstract base class and cannot be created directly. Use wx‐
19 PaintDC, wxClientDC, wxWindowDC, wxScreenDC, wxMemoryDC or wxPrinterDC
20 (not implemented in wx). Notice that device contexts which are associ‐
21 ated with windows (i.e. wxClientDC, wxWindowDC and wxPaintDC) use the
22 window font and colours by default (starting with wxWidgets 2.9.0) but
23 the other device context classes use system-default values so you al‐
24 ways must set the appropriate fonts and colours before using them.
25
26 In addition to the versions of the methods documented below, there are
27 also versions which accept single {X,Y} parameter instead of the two
28 wxCoord ones or {X,Y} and {Width,Height} instead of the four wxCoord
29 parameters.
30
31 Beginning with wxWidgets 2.9.0 the entire wxDC code has been reorga‐
32 nized. All platform dependent code (actually all drawing code) has been
33 moved into backend classes which derive from a common wxDCImpl class.
34 The user-visible classes such as wxClientDC and wxPaintDC merely for‐
35 ward all calls to the backend implementation.
36
37 Device and logical units
38
39 In the wxDC context there is a distinction between logical units and
40 device units.
41
42 Device units are the units native to the particular device; e.g. for a
43 screen, a device unit is a pixel. For a printer, the device unit is de‐
44 fined by the resolution of the printer (usually given in DPI: dot-per-
45 inch).
46
47 All wxDC functions use instead logical units, unless where explicitly
48 stated. Logical units are arbitrary units mapped to device units using
49 the current mapping mode (see setMapMode/2).
50
51 This mechanism allows reusing the same code which prints on e.g. a win‐
52 dow on the screen to print on e.g. a paper.
53
54 Support for Transparency / Alpha Channel
55
56 In general wxDC methods don't support alpha transparency and the alpha
57 component of wx_color() is simply ignored and you need to use wxGraph‐
58 icsContext for full transparency support. There are, however, a few ex‐
59 ceptions: first, under macOS and GTK+ 3 colours with alpha channel are
60 supported in all the normal wxDC-derived classes as they use wxGraphic‐
61 sContext internally. Second, under all platforms wxSVGFileDC (not im‐
62 plemented in wx) also fully supports alpha channel. In both of these
63 cases the instances of wxPen or wxBrush that are built from wx_color()
64 use the colour's alpha values when stroking or filling.
65
66 Support for Transformation Matrix
67
68 On some platforms (currently under MSW, GTK+ 3, macOS) wxDC has support
69 for applying an arbitrary affine transformation matrix to its coordi‐
70 nate system (since 3.1.1 this feature is also supported by wxGCDC in
71 all ports). Call CanUseTransformMatrix() (not implemented in wx) to
72 check if this support is available and then call SetTransformMatrix()
73 (not implemented in wx) if it is. If the transformation matrix is not
74 supported, SetTransformMatrix() (not implemented in wx) always simply
75 returns false and doesn't do anything.
76
77 This feature is only available when wxUSE_DC_TRANSFORM_MATRIX build op‐
78 tion is enabled.
79
80 See: Overview dc, wxGraphicsContext, wxDCFontChanger (not implemented
81 in wx), wxDCTextColourChanger (not implemented in wx), wxDCPenChanger
82 (not implemented in wx), wxDCBrushChanger (not implemented in wx), wxD‐
83 CClipper (not implemented in wx)
84
85 wxWidgets docs: wxDC
86
88 wxDC() = wx:wx_object()
89
91 blit(This, Dest, Size, Source, Src) -> boolean()
92
93 Types:
94
95 This = wxDC()
96 Dest = {X :: integer(), Y :: integer()}
97 Size = {W :: integer(), H :: integer()}
98 Source = wxDC()
99 Src = {X :: integer(), Y :: integer()}
100
101 blit(This, Dest, Size, Source, Src, Options :: [Option]) ->
102 boolean()
103
104 Types:
105
106 This = wxDC()
107 Dest = {X :: integer(), Y :: integer()}
108 Size = {W :: integer(), H :: integer()}
109 Source = wxDC()
110 Src = {X :: integer(), Y :: integer()}
111 Option =
112 {rop, wx:wx_enum()} |
113 {useMask, boolean()} |
114 {srcPtMask, {X :: integer(), Y :: integer()}}
115
116 Copy from a source DC to this DC.
117
118 With this method you can specify the destination coordinates and
119 the size of area to copy which will be the same for both the
120 source and target DCs. If you need to apply scaling while copy‐
121 ing, use StretchBlit() (not implemented in wx).
122
123 Notice that source DC coordinates xsrc and ysrc are interpreted
124 using the current source DC coordinate system, i.e. the scale,
125 origin position and axis directions are taken into account when
126 transforming them to physical (pixel) coordinates.
127
128 Remark: There is partial support for blit/6 in wxPostScriptDC,
129 under X.
130
131 See: StretchBlit() (not implemented in wx), wxMemoryDC,
132 wxBitmap, wxMask
133
134 calcBoundingBox(This, X, Y) -> ok
135
136 Types:
137
138 This = wxDC()
139 X = Y = integer()
140
141 Adds the specified point to the bounding box which can be re‐
142 trieved with minX/1, maxX/1 and minY/1, maxY/1 functions.
143
144 See: resetBoundingBox/1
145
146 clear(This) -> ok
147
148 Types:
149
150 This = wxDC()
151
152 Clears the device context using the current background brush.
153
154 Note that setBackground/2 method must be used to set the brush
155 used by clear/1, the brush used for filling the shapes set by
156 setBrush/2 is ignored by it.
157
158 If no background brush was set, solid white brush is used to
159 clear the device context.
160
161 crossHair(This, Pt) -> ok
162
163 Types:
164
165 This = wxDC()
166 Pt = {X :: integer(), Y :: integer()}
167
168 This is an overloaded member function, provided for convenience.
169 It differs from the above function only in what argument(s) it
170 accepts.
171
172 destroyClippingRegion(This) -> ok
173
174 Types:
175
176 This = wxDC()
177
178 Destroys the current clipping region so that none of the DC is
179 clipped.
180
181 See: setClippingRegion/3
182
183 deviceToLogicalX(This, X) -> integer()
184
185 Types:
186
187 This = wxDC()
188 X = integer()
189
190 Convert device X coordinate to logical coordinate, using the
191 current mapping mode, user scale factor, device origin and axis
192 orientation.
193
194 deviceToLogicalXRel(This, X) -> integer()
195
196 Types:
197
198 This = wxDC()
199 X = integer()
200
201 Convert device X coordinate to relative logical coordinate, us‐
202 ing the current mapping mode and user scale factor but ignoring
203 the axis orientation.
204
205 Use this for converting a width, for example.
206
207 deviceToLogicalY(This, Y) -> integer()
208
209 Types:
210
211 This = wxDC()
212 Y = integer()
213
214 Converts device Y coordinate to logical coordinate, using the
215 current mapping mode, user scale factor, device origin and axis
216 orientation.
217
218 deviceToLogicalYRel(This, Y) -> integer()
219
220 Types:
221
222 This = wxDC()
223 Y = integer()
224
225 Convert device Y coordinate to relative logical coordinate, us‐
226 ing the current mapping mode and user scale factor but ignoring
227 the axis orientation.
228
229 Use this for converting a height, for example.
230
231 drawArc(This, PtStart, PtEnd, Centre) -> ok
232
233 Types:
234
235 This = wxDC()
236 PtStart = PtEnd = Centre = {X :: integer(), Y :: integer()}
237
238 This is an overloaded member function, provided for convenience.
239 It differs from the above function only in what argument(s) it
240 accepts.
241
242 drawBitmap(This, Bmp, Pt) -> ok
243
244 Types:
245
246 This = wxDC()
247 Bmp = wxBitmap:wxBitmap()
248 Pt = {X :: integer(), Y :: integer()}
249
250 drawBitmap(This, Bmp, Pt, Options :: [Option]) -> ok
251
252 Types:
253
254 This = wxDC()
255 Bmp = wxBitmap:wxBitmap()
256 Pt = {X :: integer(), Y :: integer()}
257 Option = {useMask, boolean()}
258
259 This is an overloaded member function, provided for convenience.
260 It differs from the above function only in what argument(s) it
261 accepts.
262
263 drawCheckMark(This, Rect) -> ok
264
265 Types:
266
267 This = wxDC()
268 Rect =
269 {X :: integer(),
270 Y :: integer(),
271 W :: integer(),
272 H :: integer()}
273
274 This is an overloaded member function, provided for convenience.
275 It differs from the above function only in what argument(s) it
276 accepts.
277
278 drawCircle(This, Pt, Radius) -> ok
279
280 Types:
281
282 This = wxDC()
283 Pt = {X :: integer(), Y :: integer()}
284 Radius = integer()
285
286 This is an overloaded member function, provided for convenience.
287 It differs from the above function only in what argument(s) it
288 accepts.
289
290 drawEllipse(This, Rect) -> ok
291
292 Types:
293
294 This = wxDC()
295 Rect =
296 {X :: integer(),
297 Y :: integer(),
298 W :: integer(),
299 H :: integer()}
300
301 This is an overloaded member function, provided for convenience.
302 It differs from the above function only in what argument(s) it
303 accepts.
304
305 drawEllipse(This, Pt, Size) -> ok
306
307 Types:
308
309 This = wxDC()
310 Pt = {X :: integer(), Y :: integer()}
311 Size = {W :: integer(), H :: integer()}
312
313 This is an overloaded member function, provided for convenience.
314 It differs from the above function only in what argument(s) it
315 accepts.
316
317 drawEllipticArc(This, Pt, Sz, Sa, Ea) -> ok
318
319 Types:
320
321 This = wxDC()
322 Pt = {X :: integer(), Y :: integer()}
323 Sz = {W :: integer(), H :: integer()}
324 Sa = Ea = number()
325
326 This is an overloaded member function, provided for convenience.
327 It differs from the above function only in what argument(s) it
328 accepts.
329
330 drawIcon(This, Icon, Pt) -> ok
331
332 Types:
333
334 This = wxDC()
335 Icon = wxIcon:wxIcon()
336 Pt = {X :: integer(), Y :: integer()}
337
338 This is an overloaded member function, provided for convenience.
339 It differs from the above function only in what argument(s) it
340 accepts.
341
342 drawLabel(This, Text, Rect) -> ok
343
344 Types:
345
346 This = wxDC()
347 Text = unicode:chardata()
348 Rect =
349 {X :: integer(),
350 Y :: integer(),
351 W :: integer(),
352 H :: integer()}
353
354 drawLabel(This, Text, Rect, Options :: [Option]) -> ok
355
356 Types:
357
358 This = wxDC()
359 Text = unicode:chardata()
360 Rect =
361 {X :: integer(),
362 Y :: integer(),
363 W :: integer(),
364 H :: integer()}
365 Option = {alignment, integer()} | {indexAccel, integer()}
366
367 This is an overloaded member function, provided for convenience.
368 It differs from the above function only in what argument(s) it
369 accepts.
370
371 drawLine(This, Pt1, Pt2) -> ok
372
373 Types:
374
375 This = wxDC()
376 Pt1 = Pt2 = {X :: integer(), Y :: integer()}
377
378 This is an overloaded member function, provided for convenience.
379 It differs from the above function only in what argument(s) it
380 accepts.
381
382 drawLines(This, Points) -> ok
383
384 Types:
385
386 This = wxDC()
387 Points = [{X :: integer(), Y :: integer()}]
388
389 drawLines(This, Points, Options :: [Option]) -> ok
390
391 Types:
392
393 This = wxDC()
394 Points = [{X :: integer(), Y :: integer()}]
395 Option = {xoffset, integer()} | {yoffset, integer()}
396
397 Draws lines using an array of points of size n adding the op‐
398 tional offset coordinate.
399
400 The current pen is used for drawing the lines.
401
402 drawPolygon(This, Points) -> ok
403
404 Types:
405
406 This = wxDC()
407 Points = [{X :: integer(), Y :: integer()}]
408
409 drawPolygon(This, Points, Options :: [Option]) -> ok
410
411 Types:
412
413 This = wxDC()
414 Points = [{X :: integer(), Y :: integer()}]
415 Option =
416 {xoffset, integer()} |
417 {yoffset, integer()} |
418 {fillStyle, wx:wx_enum()}
419
420 Draws a filled polygon using an array of points of size n,
421 adding the optional offset coordinate.
422
423 The first and last points are automatically closed.
424
425 The last argument specifies the fill rule: wxODDEVEN_RULE (the
426 default) or wxWINDING_RULE.
427
428 The current pen is used for drawing the outline, and the current
429 brush for filling the shape. Using a transparent brush sup‐
430 presses filling.
431
432 drawPoint(This, Pt) -> ok
433
434 Types:
435
436 This = wxDC()
437 Pt = {X :: integer(), Y :: integer()}
438
439 This is an overloaded member function, provided for convenience.
440 It differs from the above function only in what argument(s) it
441 accepts.
442
443 drawRectangle(This, Rect) -> ok
444
445 Types:
446
447 This = wxDC()
448 Rect =
449 {X :: integer(),
450 Y :: integer(),
451 W :: integer(),
452 H :: integer()}
453
454 This is an overloaded member function, provided for convenience.
455 It differs from the above function only in what argument(s) it
456 accepts.
457
458 drawRectangle(This, Pt, Sz) -> ok
459
460 Types:
461
462 This = wxDC()
463 Pt = {X :: integer(), Y :: integer()}
464 Sz = {W :: integer(), H :: integer()}
465
466 This is an overloaded member function, provided for convenience.
467 It differs from the above function only in what argument(s) it
468 accepts.
469
470 drawRotatedText(This, Text, Point, Angle) -> ok
471
472 Types:
473
474 This = wxDC()
475 Text = unicode:chardata()
476 Point = {X :: integer(), Y :: integer()}
477 Angle = number()
478
479 This is an overloaded member function, provided for convenience.
480 It differs from the above function only in what argument(s) it
481 accepts.
482
483 drawRoundedRectangle(This, Rect, Radius) -> ok
484
485 Types:
486
487 This = wxDC()
488 Rect =
489 {X :: integer(),
490 Y :: integer(),
491 W :: integer(),
492 H :: integer()}
493 Radius = number()
494
495 This is an overloaded member function, provided for convenience.
496 It differs from the above function only in what argument(s) it
497 accepts.
498
499 drawRoundedRectangle(This, Pt, Sz, Radius) -> ok
500
501 Types:
502
503 This = wxDC()
504 Pt = {X :: integer(), Y :: integer()}
505 Sz = {W :: integer(), H :: integer()}
506 Radius = number()
507
508 This is an overloaded member function, provided for convenience.
509 It differs from the above function only in what argument(s) it
510 accepts.
511
512 drawText(This, Text, Pt) -> ok
513
514 Types:
515
516 This = wxDC()
517 Text = unicode:chardata()
518 Pt = {X :: integer(), Y :: integer()}
519
520 This is an overloaded member function, provided for convenience.
521 It differs from the above function only in what argument(s) it
522 accepts.
523
524 endDoc(This) -> ok
525
526 Types:
527
528 This = wxDC()
529
530 Ends a document (only relevant when outputting to a printer).
531
532 endPage(This) -> ok
533
534 Types:
535
536 This = wxDC()
537
538 Ends a document page (only relevant when outputting to a
539 printer).
540
541 floodFill(This, Pt, Col) -> boolean()
542
543 Types:
544
545 This = wxDC()
546 Pt = {X :: integer(), Y :: integer()}
547 Col = wx:wx_colour()
548
549 floodFill(This, Pt, Col, Options :: [Option]) -> boolean()
550
551 Types:
552
553 This = wxDC()
554 Pt = {X :: integer(), Y :: integer()}
555 Col = wx:wx_colour()
556 Option = {style, wx:wx_enum()}
557
558 This is an overloaded member function, provided for convenience.
559 It differs from the above function only in what argument(s) it
560 accepts.
561
562 getBackground(This) -> wxBrush:wxBrush()
563
564 Types:
565
566 This = wxDC()
567
568 Gets the brush used for painting the background.
569
570 See: setBackground/2
571
572 getBackgroundMode(This) -> integer()
573
574 Types:
575
576 This = wxDC()
577
578 Returns the current background mode: wxPENSTYLE_SOLID or wxPEN‐
579 STYLE_TRANSPARENT.
580
581 See: setBackgroundMode/2
582
583 getBrush(This) -> wxBrush:wxBrush()
584
585 Types:
586
587 This = wxDC()
588
589 Gets the current brush.
590
591 See: setBrush/2
592
593 getCharHeight(This) -> integer()
594
595 Types:
596
597 This = wxDC()
598
599 Gets the character height of the currently set font.
600
601 getCharWidth(This) -> integer()
602
603 Types:
604
605 This = wxDC()
606
607 Gets the average character width of the currently set font.
608
609 getClippingBox(This) -> Result
610
611 Types:
612
613 Result =
614 {X :: integer(),
615 Y :: integer(),
616 Width :: integer(),
617 Height :: integer()}
618 This = wxDC()
619
620 Gets the rectangle surrounding the current clipping region. If
621 no clipping region is set this function returns the extent of
622 the device context. @remarks Clipping region is given in logical
623 coordinates. @param x If non-<span class='literal'>NULL</span>,
624 filled in with the logical horizontal coordinate of the top left
625 corner of the clipping region if the function returns true or 0
626 otherwise. @param y If non-<span class='literal'>NULL</span>,
627 filled in with the logical vertical coordinate of the top left
628 corner of the clipping region if the function returns true or 0
629 otherwise. @param width If non-<span class='lit‐
630 eral'>NULL</span>, filled in with the width of the clipping re‐
631 gion if the function returns true or the device context width
632 otherwise. @param height If non-<span class='lit‐
633 eral'>NULL</span>, filled in with the height of the clipping re‐
634 gion if the function returns true or the device context height
635 otherwise.
636
637 Return: true if there is a clipping region or false if there is
638 no active clipping region (note that this return value is avail‐
639 able only since wxWidgets 3.1.2, this function didn't return
640 anything in the previous versions).
641
642 getFont(This) -> wxFont:wxFont()
643
644 Types:
645
646 This = wxDC()
647
648 Gets the current font.
649
650 Notice that even although each device context object has some
651 default font after creation, this method would return a ?wxNull‐
652 Font initially and only after calling setFont/2 a valid font is
653 returned.
654
655 getLayoutDirection(This) -> wx:wx_enum()
656
657 Types:
658
659 This = wxDC()
660
661 Gets the current layout direction of the device context.
662
663 On platforms where RTL layout is supported, the return value
664 will either be wxLayout_LeftToRight or wxLayout_RightToLeft. If
665 RTL layout is not supported, the return value will be wxLay‐
666 out_Default.
667
668 See: setLayoutDirection/2
669
670 getLogicalFunction(This) -> wx:wx_enum()
671
672 Types:
673
674 This = wxDC()
675
676 Gets the current logical function.
677
678 See: setLogicalFunction/2
679
680 getMapMode(This) -> wx:wx_enum()
681
682 Types:
683
684 This = wxDC()
685
686 Gets the current mapping mode for the device context.
687
688 See: setMapMode/2
689
690 getMultiLineTextExtent(This, String) ->
691 {W :: integer(), H :: integer()}
692
693 Types:
694
695 This = wxDC()
696 String = unicode:chardata()
697
698 Gets the dimensions of the string using the currently selected
699 font.
700
701 string is the text string to measure.
702
703 Return: The text extent as a {Width,Height} object.
704
705 Note: This function works with both single-line and multi-line
706 strings.
707
708 See: wxFont, setFont/2, getPartialTextExtents/2, getTextExtent/3
709
710 getMultiLineTextExtent(This, String, Options :: [Option]) ->
711 {W :: integer(),
712 H :: integer(),
713 HeightLine :: integer()}
714
715 Types:
716
717 This = wxDC()
718 String = unicode:chardata()
719 Option = {font, wxFont:wxFont()}
720
721 Gets the dimensions of the string using the currently selected
722 font.
723
724 string is the text string to measure, heightLine, if non NULL,
725 is where to store the height of a single line.
726
727 The text extent is set in the given w and h pointers.
728
729 If the optional parameter font is specified and valid, then it
730 is used for the text extent calculation, otherwise the currently
731 selected font is used.
732
733 If string is empty, its horizontal extent is 0 but, for conve‐
734 nience when using this function for allocating enough space for
735 a possibly multi-line string, its vertical extent is the same as
736 the height of an empty line of text. Please note that this be‐
737 haviour differs from that of getTextExtent/3.
738
739 Note: This function works with both single-line and multi-line
740 strings.
741
742 See: wxFont, setFont/2, getPartialTextExtents/2, getTextExtent/3
743
744 getPartialTextExtents(This, Text) -> Result
745
746 Types:
747
748 Result = {Res :: boolean(), Widths :: [integer()]}
749 This = wxDC()
750 Text = unicode:chardata()
751
752 Fills the widths array with the widths from the beginning of
753 text to the corresponding character of text.
754
755 The generic version simply builds a running total of the widths
756 of each character using getTextExtent/3, however if the various
757 platforms have a native API function that is faster or more ac‐
758 curate than the generic implementation then it should be used
759 instead.
760
761 See: getMultiLineTextExtent/3, getTextExtent/3
762
763 getPen(This) -> wxPen:wxPen()
764
765 Types:
766
767 This = wxDC()
768
769 Gets the current pen.
770
771 See: setPen/2
772
773 getPixel(This, Pos) -> Result
774
775 Types:
776
777 Result = {Res :: boolean(), Colour :: wx:wx_colour4()}
778 This = wxDC()
779 Pos = {X :: integer(), Y :: integer()}
780
781 Gets in colour the colour at the specified location.
782
783 This method isn't available for wxPostScriptDC or wxMetafileDC
784 (not implemented in wx) nor for any DC in wxOSX port and simply
785 returns false there.
786
787 Note: Setting a pixel can be done using drawPoint/2.
788
789 Note: This method shouldn't be used with wxPaintDC as accessing
790 the DC while drawing can result in unexpected results, notably
791 in wxGTK.
792
793 getPPI(This) -> {W :: integer(), H :: integer()}
794
795 Types:
796
797 This = wxDC()
798
799 Returns the resolution of the device in pixels per inch.
800
801 getSize(This) -> {W :: integer(), H :: integer()}
802
803 Types:
804
805 This = wxDC()
806
807 This is an overloaded member function, provided for convenience.
808 It differs from the above function only in what argument(s) it
809 accepts.
810
811 getSizeMM(This) -> {W :: integer(), H :: integer()}
812
813 Types:
814
815 This = wxDC()
816
817 This is an overloaded member function, provided for convenience.
818 It differs from the above function only in what argument(s) it
819 accepts.
820
821 getTextBackground(This) -> wx:wx_colour4()
822
823 Types:
824
825 This = wxDC()
826
827 Gets the current text background colour.
828
829 See: setTextBackground/2
830
831 getTextExtent(This, String) -> {W :: integer(), H :: integer()}
832
833 Types:
834
835 This = wxDC()
836 String = unicode:chardata()
837
838 This is an overloaded member function, provided for convenience.
839 It differs from the above function only in what argument(s) it
840 accepts.
841
842 getTextExtent(This, String, Options :: [Option]) -> Result
843
844 Types:
845
846 Result =
847 {W :: integer(),
848 H :: integer(),
849 Descent :: integer(),
850 ExternalLeading :: integer()}
851 This = wxDC()
852 String = unicode:chardata()
853 Option = {theFont, wxFont:wxFont()}
854
855 Gets the dimensions of the string using the currently selected
856 font.
857
858 string is the text string to measure, descent is the dimension
859 from the baseline of the font to the bottom of the descender,
860 and externalLeading is any extra vertical space added to the
861 font by the font designer (usually is zero).
862
863 The text extent is returned in w and h pointers or as a
864 {Width,Height} object depending on which version of this func‐
865 tion is used.
866
867 If the optional parameter font is specified and valid, then it
868 is used for the text extent calculation. Otherwise the currently
869 selected font is.
870
871 If string is empty, its extent is 0 in both directions, as ex‐
872 pected.
873
874 Note: This function only works with single-line strings.
875
876 See: wxFont, setFont/2, getPartialTextExtents/2, getMultiLine‐
877 TextExtent/3
878
879 getTextForeground(This) -> wx:wx_colour4()
880
881 Types:
882
883 This = wxDC()
884
885 Gets the current text foreground colour.
886
887 See: setTextForeground/2
888
889 getUserScale(This) -> {X :: number(), Y :: number()}
890
891 Types:
892
893 This = wxDC()
894
895 Gets the current user scale factor.
896
897 See: setUserScale/3
898
899 gradientFillConcentric(This, Rect, InitialColour, DestColour) ->
900 ok
901
902 Types:
903
904 This = wxDC()
905 Rect =
906 {X :: integer(),
907 Y :: integer(),
908 W :: integer(),
909 H :: integer()}
910 InitialColour = DestColour = wx:wx_colour()
911
912 Fill the area specified by rect with a radial gradient, starting
913 from initialColour at the centre of the circle and fading to
914 destColour on the circle outside.
915
916 The circle is placed at the centre of rect.
917
918 Note: Currently this function is very slow, don't use it for
919 real-time drawing.
920
921 gradientFillConcentric(This, Rect, InitialColour, DestColour,
922 CircleCenter) ->
923 ok
924
925 Types:
926
927 This = wxDC()
928 Rect =
929 {X :: integer(),
930 Y :: integer(),
931 W :: integer(),
932 H :: integer()}
933 InitialColour = DestColour = wx:wx_colour()
934 CircleCenter = {X :: integer(), Y :: integer()}
935
936 Fill the area specified by rect with a radial gradient, starting
937 from initialColour at the centre of the circle and fading to
938 destColour on the circle outside.
939
940 circleCenter are the relative coordinates of centre of the cir‐
941 cle in the specified rect.
942
943 Note: Currently this function is very slow, don't use it for
944 real-time drawing.
945
946 gradientFillLinear(This, Rect, InitialColour, DestColour) -> ok
947
948 Types:
949
950 This = wxDC()
951 Rect =
952 {X :: integer(),
953 Y :: integer(),
954 W :: integer(),
955 H :: integer()}
956 InitialColour = DestColour = wx:wx_colour()
957
958 gradientFillLinear(This, Rect, InitialColour, DestColour,
959 Options :: [Option]) ->
960 ok
961
962 Types:
963
964 This = wxDC()
965 Rect =
966 {X :: integer(),
967 Y :: integer(),
968 W :: integer(),
969 H :: integer()}
970 InitialColour = DestColour = wx:wx_colour()
971 Option = {nDirection, wx:wx_enum()}
972
973 Fill the area specified by rect with a linear gradient, starting
974 from initialColour and eventually fading to destColour.
975
976 The nDirection specifies the direction of the colour change, de‐
977 fault is to use initialColour on the left part of the rectangle
978 and destColour on the right one.
979
980 logicalToDeviceX(This, X) -> integer()
981
982 Types:
983
984 This = wxDC()
985 X = integer()
986
987 Converts logical X coordinate to device coordinate, using the
988 current mapping mode, user scale factor, device origin and axis
989 orientation.
990
991 logicalToDeviceXRel(This, X) -> integer()
992
993 Types:
994
995 This = wxDC()
996 X = integer()
997
998 Converts logical X coordinate to relative device coordinate, us‐
999 ing the current mapping mode and user scale factor but ignoring
1000 the axis orientation.
1001
1002 Use this for converting a width, for example.
1003
1004 logicalToDeviceY(This, Y) -> integer()
1005
1006 Types:
1007
1008 This = wxDC()
1009 Y = integer()
1010
1011 Converts logical Y coordinate to device coordinate, using the
1012 current mapping mode, user scale factor, device origin and axis
1013 orientation.
1014
1015 logicalToDeviceYRel(This, Y) -> integer()
1016
1017 Types:
1018
1019 This = wxDC()
1020 Y = integer()
1021
1022 Converts logical Y coordinate to relative device coordinate, us‐
1023 ing the current mapping mode and user scale factor but ignoring
1024 the axis orientation.
1025
1026 Use this for converting a height, for example.
1027
1028 maxX(This) -> integer()
1029
1030 Types:
1031
1032 This = wxDC()
1033
1034 Gets the maximum horizontal extent used in drawing commands so
1035 far.
1036
1037 maxY(This) -> integer()
1038
1039 Types:
1040
1041 This = wxDC()
1042
1043 Gets the maximum vertical extent used in drawing commands so
1044 far.
1045
1046 minX(This) -> integer()
1047
1048 Types:
1049
1050 This = wxDC()
1051
1052 Gets the minimum horizontal extent used in drawing commands so
1053 far.
1054
1055 minY(This) -> integer()
1056
1057 Types:
1058
1059 This = wxDC()
1060
1061 Gets the minimum vertical extent used in drawing commands so
1062 far.
1063
1064 isOk(This) -> boolean()
1065
1066 Types:
1067
1068 This = wxDC()
1069
1070 Returns true if the DC is ok to use.
1071
1072 resetBoundingBox(This) -> ok
1073
1074 Types:
1075
1076 This = wxDC()
1077
1078 Resets the bounding box: after a call to this function, the
1079 bounding box doesn't contain anything.
1080
1081 See: calcBoundingBox/3
1082
1083 setAxisOrientation(This, XLeftRight, YBottomUp) -> ok
1084
1085 Types:
1086
1087 This = wxDC()
1088 XLeftRight = YBottomUp = boolean()
1089
1090 Sets the x and y axis orientation (i.e. the direction from low‐
1091 est to highest values on the axis).
1092
1093 The default orientation is x axis from left to right and y axis
1094 from top down.
1095
1096 setBackground(This, Brush) -> ok
1097
1098 Types:
1099
1100 This = wxDC()
1101 Brush = wxBrush:wxBrush()
1102
1103 Sets the current background brush for the DC.
1104
1105 setBackgroundMode(This, Mode) -> ok
1106
1107 Types:
1108
1109 This = wxDC()
1110 Mode = integer()
1111
1112 mode may be one of wxPENSTYLE_SOLID and wxPENSTYLE_TRANSPARENT.
1113
1114 This setting determines whether text will be drawn with a back‐
1115 ground colour or not.
1116
1117 setBrush(This, Brush) -> ok
1118
1119 Types:
1120
1121 This = wxDC()
1122 Brush = wxBrush:wxBrush()
1123
1124 Sets the current brush for the DC.
1125
1126 If the argument is ?wxNullBrush (or another invalid brush; see
1127 wxBrush:isOk/1), the current brush is selected out of the device
1128 context (leaving wxDC without any valid brush), allowing the
1129 current brush to be destroyed safely.
1130
1131 See: wxBrush, wxMemoryDC, (for the interpretation of colours
1132 when drawing into a monochrome bitmap)
1133
1134 setClippingRegion(This, Rect) -> ok
1135
1136 Types:
1137
1138 This = wxDC()
1139 Rect =
1140 {X :: integer(),
1141 Y :: integer(),
1142 W :: integer(),
1143 H :: integer()}
1144
1145 This is an overloaded member function, provided for convenience.
1146 It differs from the above function only in what argument(s) it
1147 accepts.
1148
1149 setClippingRegion(This, Pt, Sz) -> ok
1150
1151 Types:
1152
1153 This = wxDC()
1154 Pt = {X :: integer(), Y :: integer()}
1155 Sz = {W :: integer(), H :: integer()}
1156
1157 This is an overloaded member function, provided for convenience.
1158 It differs from the above function only in what argument(s) it
1159 accepts.
1160
1161 setDeviceOrigin(This, X, Y) -> ok
1162
1163 Types:
1164
1165 This = wxDC()
1166 X = Y = integer()
1167
1168 Sets the device origin (i.e. the origin in pixels after scaling
1169 has been applied).
1170
1171 This function may be useful in Windows printing operations for
1172 placing a graphic on a page.
1173
1174 setFont(This, Font) -> ok
1175
1176 Types:
1177
1178 This = wxDC()
1179 Font = wxFont:wxFont()
1180
1181 Sets the current font for the DC.
1182
1183 If the argument is ?wxNullFont (or another invalid font; see wx‐
1184 Font:isOk/1), the current font is selected out of the device
1185 context (leaving wxDC without any valid font), allowing the cur‐
1186 rent font to be destroyed safely.
1187
1188 See: wxFont
1189
1190 setLayoutDirection(This, Dir) -> ok
1191
1192 Types:
1193
1194 This = wxDC()
1195 Dir = wx:wx_enum()
1196
1197 Sets the current layout direction for the device context.
1198
1199 See: getLayoutDirection/1
1200
1201 setLogicalFunction(This, Function) -> ok
1202
1203 Types:
1204
1205 This = wxDC()
1206 Function = wx:wx_enum()
1207
1208 Sets the current logical function for the device context.
1209
1210 Note: This function is not fully supported in all ports, due to
1211 the limitations of the underlying drawing model. Notably, wxIN‐
1212 VERT which was commonly used for drawing rubber bands or other
1213 moving outlines in the past, is not, and will not, be supported
1214 by wxGTK3 and wxMac. The suggested alternative is to draw tempo‐
1215 rarily objects normally and refresh the (affected part of the)
1216 window to remove them later.
1217
1218 It determines how a source pixel (from a pen or brush colour, or
1219 source device context if using blit/6) combines with a destina‐
1220 tion pixel in the current device context. Text drawing is not
1221 affected by this function.
1222
1223 See ?wxRasterOperationMode enumeration values for more info.
1224
1225 The default is wxCOPY, which simply draws with the current
1226 colour. The others combine the current colour and the background
1227 using a logical operation.
1228
1229 setMapMode(This, Mode) -> ok
1230
1231 Types:
1232
1233 This = wxDC()
1234 Mode = wx:wx_enum()
1235
1236 The mapping mode of the device context defines the unit of mea‐
1237 surement used to convert logical units to device units.
1238
1239 Note that in X, text drawing isn't handled consistently with the
1240 mapping mode; a font is always specified in point size. However,
1241 setting the user scale (see setUserScale/3) scales the text ap‐
1242 propriately. In Windows, scalable TrueType fonts are always
1243 used; in X, results depend on availability of fonts, but usually
1244 a reasonable match is found.
1245
1246 The coordinate origin is always at the top left of the
1247 screen/printer.
1248
1249 Drawing to a Windows printer device context uses the current
1250 mapping mode, but mapping mode is currently ignored for Post‐
1251 Script output.
1252
1253 setPalette(This, Palette) -> ok
1254
1255 Types:
1256
1257 This = wxDC()
1258 Palette = wxPalette:wxPalette()
1259
1260 If this is a window DC or memory DC, assigns the given palette
1261 to the window or bitmap associated with the DC.
1262
1263 If the argument is ?wxNullPalette, the current palette is se‐
1264 lected out of the device context, and the original palette re‐
1265 stored.
1266
1267 See: wxPalette
1268
1269 setPen(This, Pen) -> ok
1270
1271 Types:
1272
1273 This = wxDC()
1274 Pen = wxPen:wxPen()
1275
1276 Sets the current pen for the DC.
1277
1278 If the argument is ?wxNullPen (or another invalid pen; see wx‐
1279 Pen:isOk/1), the current pen is selected out of the device con‐
1280 text (leaving wxDC without any valid pen), allowing the current
1281 pen to be destroyed safely.
1282
1283 See: wxMemoryDC, for the interpretation of colours when drawing
1284 into a monochrome bitmap
1285
1286 setTextBackground(This, Colour) -> ok
1287
1288 Types:
1289
1290 This = wxDC()
1291 Colour = wx:wx_colour()
1292
1293 Sets the current text background colour for the DC.
1294
1295 setTextForeground(This, Colour) -> ok
1296
1297 Types:
1298
1299 This = wxDC()
1300 Colour = wx:wx_colour()
1301
1302 Sets the current text foreground colour for the DC.
1303
1304 See: wxMemoryDC, for the interpretation of colours when drawing
1305 into a monochrome bitmap
1306
1307 setUserScale(This, XScale, YScale) -> ok
1308
1309 Types:
1310
1311 This = wxDC()
1312 XScale = YScale = number()
1313
1314 Sets the user scaling factor, useful for applications which re‐
1315 quire 'zooming'.
1316
1317 startDoc(This, Message) -> boolean()
1318
1319 Types:
1320
1321 This = wxDC()
1322 Message = unicode:chardata()
1323
1324 Starts a document (only relevant when outputting to a printer).
1325
1326 message is a message to show while printing.
1327
1328 startPage(This) -> ok
1329
1330 Types:
1331
1332 This = wxDC()
1333
1334 Starts a document page (only relevant when outputting to a
1335 printer).
1336
1337
1338
1339wxWidgets team. wx 2.1.4 wxDC(3)