Provided by: erlang-manpages_25.2.3+dfsg-1_all bug

NAME

       wxDC - Functions for wxDC class

DESCRIPTION

       A  wxDC is a "device context" onto which graphics and text can be drawn. It is intended to
       represent different output devices and offers a common abstract API for drawing on any  of
       them.

       wxWidgets  offers  an  alternative  drawing API based on the modern drawing backends GDI+,
       CoreGraphics, Cairo and Direct2D. See wxGraphicsContext,  wxGraphicsRenderer  and  related
       classes.  There  is  also  a  wxGCDC linking the APIs by offering the wxDC API on top of a
       wxGraphicsContext.

       wxDC is an abstract base class and cannot be created directly. Use wxPaintDC,  wxClientDC,
       wxWindowDC,  wxScreenDC,  wxMemoryDC  or  wxPrinterDC (not implemented in wx). Notice that
       device contexts which  are  associated  with  windows  (i.e.  wxClientDC,  wxWindowDC  and
       wxPaintDC)  use the window font and colours by default (starting with wxWidgets 2.9.0) but
       the other device context classes use system-default values so  you  always  must  set  the
       appropriate fonts and colours before using them.

       In addition to the versions of the methods documented below, there are also versions which
       accept single {X,Y} parameter instead of the two wxCoord ones or {X,Y} and  {Width,Height}
       instead of the four wxCoord parameters.

       Beginning  with  wxWidgets  2.9.0  the entire wxDC code has been reorganized. All platform
       dependent code (actually all drawing code) has  been  moved  into  backend  classes  which
       derive  from  a  common  wxDCImpl  class.  The user-visible classes such as wxClientDC and
       wxPaintDC merely forward all calls to the backend implementation.

       Device and logical units

       In the wxDC context there is a distinction between logical units and device units.

       Device units are the units native to the particular device; e.g. for a  screen,  a  device
       unit  is  a  pixel.  For  a  printer,  the device unit is defined by the resolution of the
       printer (usually given in DPI: dot-per-inch).

       All wxDC functions use instead logical units,  unless  where  explicitly  stated.  Logical
       units  are  arbitrary  units  mapped  to  device units using the current mapping mode (see
       setMapMode/2).

       This mechanism allows reusing the same code which prints on e.g. a window on the screen to
       print on e.g. a paper.

       Support for Transparency / Alpha Channel

       In  general  wxDC  methods  don't  support  alpha  transparency and the alpha component of
       wx_color() is simply ignored and you need to use wxGraphicsContext for  full  transparency
       support.  There are, however, a few exceptions: first, under macOS and GTK+ 3 colours with
       alpha  channel  are  supported  in  all  the  normal  wxDC-derived  classes  as  they  use
       wxGraphicsContext  internally. Second, under all platforms wxSVGFileDC (not implemented in
       wx) also fully supports alpha channel. In both of these cases the instances  of  wxPen  or
       wxBrush  that  are  built  from  wx_color() use the colour's alpha values when stroking or
       filling.

       Support for Transformation Matrix

       On some platforms (currently under MSW, GTK+ 3, macOS) wxDC has support  for  applying  an
       arbitrary  affine transformation matrix to its coordinate system (since 3.1.1 this feature
       is also supported by wxGCDC in all ports). Call CanUseTransformMatrix()  (not  implemented
       in  wx)  to  check  if  this  support is available and then call SetTransformMatrix() (not
       implemented  in  wx)  if  it  is.  If  the  transformation  matrix   is   not   supported,
       SetTransformMatrix()  (not  implemented  in wx) always simply returns false and doesn't do
       anything.

       This feature is only available when wxUSE_DC_TRANSFORM_MATRIX build option is enabled.

       See:  Overview  dc,  wxGraphicsContext,   wxDCFontChanger   (not   implemented   in   wx),
       wxDCTextColourChanger  (not  implemented  in  wx), wxDCPenChanger (not implemented in wx),
       wxDCBrushChanger (not implemented in wx), wxDCClipper (not implemented in wx)

       wxWidgets docs: wxDC

DATA TYPES

       wxDC() = wx:wx_object()

EXPORTS

       blit(This, Dest, Size, Source, Src) -> boolean()

              Types:

                 This = wxDC()
                 Dest = {X :: integer(), Y :: integer()}
                 Size = {W :: integer(), H :: integer()}
                 Source = wxDC()
                 Src = {X :: integer(), Y :: integer()}

       blit(This, Dest, Size, Source, Src, Options :: [Option]) ->
               boolean()

              Types:

                 This = wxDC()
                 Dest = {X :: integer(), Y :: integer()}
                 Size = {W :: integer(), H :: integer()}
                 Source = wxDC()
                 Src = {X :: integer(), Y :: integer()}
                 Option =
                     {rop, wx:wx_enum()} |
                     {useMask, boolean()} |
                     {srcPtMask, {X :: integer(), Y :: integer()}}

              Copy from a source DC to this DC.

              With this method you can specify the destination coordinates and the size  of  area
              to  copy  which will be the same for both the source and target DCs. If you need to
              apply scaling while copying, use StretchBlit() (not implemented in wx).

              Notice that source DC coordinates xsrc and ysrc are interpreted using  the  current
              source  DC  coordinate  system, i.e. the scale, origin position and axis directions
              are taken into account when transforming them to physical (pixel) coordinates.

              Remark: There is partial support for blit/6 in wxPostScriptDC, under X.

              See: StretchBlit() (not implemented in wx), wxMemoryDC, wxBitmap, wxMask

       calcBoundingBox(This, X, Y) -> ok

              Types:

                 This = wxDC()
                 X = Y = integer()

              Adds the specified point to the bounding box which can be  retrieved  with  minX/1,
              maxX/1 and minY/1, maxY/1 functions.

              See: resetBoundingBox/1

       clear(This) -> ok

              Types:

                 This = wxDC()

              Clears the device context using the current background brush.

              Note that setBackground/2 method must be used to set the brush used by clear/1, the
              brush used for filling the shapes set by setBrush/2 is ignored by it.

              If no background brush was set, solid white brush  is  used  to  clear  the  device
              context.

       crossHair(This, Pt) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       destroyClippingRegion(This) -> ok

              Types:

                 This = wxDC()

              Destroys the current clipping region so that none of the DC is clipped.

              See: setClippingRegion/3

       deviceToLogicalX(This, X) -> integer()

              Types:

                 This = wxDC()
                 X = integer()

              Convert device X coordinate to logical coordinate, using the current mapping  mode,
              user scale factor, device origin and axis orientation.

       deviceToLogicalXRel(This, X) -> integer()

              Types:

                 This = wxDC()
                 X = integer()

              Convert  device  X  coordinate  to  relative  logical coordinate, using the current
              mapping mode and user scale factor but ignoring the axis orientation.

              Use this for converting a width, for example.

       deviceToLogicalY(This, Y) -> integer()

              Types:

                 This = wxDC()
                 Y = integer()

              Converts device Y coordinate to logical coordinate, using the current mapping mode,
              user scale factor, device origin and axis orientation.

       deviceToLogicalYRel(This, Y) -> integer()

              Types:

                 This = wxDC()
                 Y = integer()

              Convert  device  Y  coordinate  to  relative  logical coordinate, using the current
              mapping mode and user scale factor but ignoring the axis orientation.

              Use this for converting a height, for example.

       drawArc(This, PtStart, PtEnd, Centre) -> ok

              Types:

                 This = wxDC()
                 PtStart = PtEnd = Centre = {X :: integer(), Y :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawBitmap(This, Bmp, Pt) -> ok

              Types:

                 This = wxDC()
                 Bmp = wxBitmap:wxBitmap()
                 Pt = {X :: integer(), Y :: integer()}

       drawBitmap(This, Bmp, Pt, Options :: [Option]) -> ok

              Types:

                 This = wxDC()
                 Bmp = wxBitmap:wxBitmap()
                 Pt = {X :: integer(), Y :: integer()}
                 Option = {useMask, boolean()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawCheckMark(This, Rect) -> ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawCircle(This, Pt, Radius) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Radius = integer()

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawEllipse(This, Rect) -> ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawEllipse(This, Pt, Size) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Size = {W :: integer(), H :: integer()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawEllipticArc(This, Pt, Sz, Sa, Ea) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Sz = {W :: integer(), H :: integer()}
                 Sa = Ea = number()

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawIcon(This, Icon, Pt) -> ok

              Types:

                 This = wxDC()
                 Icon = wxIcon:wxIcon()
                 Pt = {X :: integer(), Y :: integer()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawLabel(This, Text, Rect) -> ok

              Types:

                 This = wxDC()
                 Text = unicode:chardata()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}

       drawLabel(This, Text, Rect, Options :: [Option]) -> ok

              Types:

                 This = wxDC()
                 Text = unicode:chardata()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}
                 Option = {alignment, integer()} | {indexAccel, integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawLine(This, Pt1, Pt2) -> ok

              Types:

                 This = wxDC()
                 Pt1 = Pt2 = {X :: integer(), Y :: integer()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawLines(This, Points) -> ok

              Types:

                 This = wxDC()
                 Points = [{X :: integer(), Y :: integer()}]

       drawLines(This, Points, Options :: [Option]) -> ok

              Types:

                 This = wxDC()
                 Points = [{X :: integer(), Y :: integer()}]
                 Option = {xoffset, integer()} | {yoffset, integer()}

              Draws lines using an  array  of  points  of  size  n  adding  the  optional  offset
              coordinate.

              The current pen is used for drawing the lines.

       drawPolygon(This, Points) -> ok

              Types:

                 This = wxDC()
                 Points = [{X :: integer(), Y :: integer()}]

       drawPolygon(This, Points, Options :: [Option]) -> ok

              Types:

                 This = wxDC()
                 Points = [{X :: integer(), Y :: integer()}]
                 Option =
                     {xoffset, integer()} |
                     {yoffset, integer()} |
                     {fillStyle, wx:wx_enum()}

              Draws  a  filled  polygon  using  an array of points of size n, adding the optional
              offset coordinate.

              The first and last points are automatically closed.

              The last  argument  specifies  the  fill  rule:  wxODDEVEN_RULE  (the  default)  or
              wxWINDING_RULE.

              The  current pen is used for drawing the outline, and the current brush for filling
              the shape. Using a transparent brush suppresses filling.

       drawPoint(This, Pt) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawRectangle(This, Rect) -> ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawRectangle(This, Pt, Sz) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Sz = {W :: integer(), H :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawRotatedText(This, Text, Point, Angle) -> ok

              Types:

                 This = wxDC()
                 Text = unicode:chardata()
                 Point = {X :: integer(), Y :: integer()}
                 Angle = number()

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawRoundedRectangle(This, Rect, Radius) -> ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}
                 Radius = number()

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       drawRoundedRectangle(This, Pt, Sz, Radius) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Sz = {W :: integer(), H :: integer()}
                 Radius = number()

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       drawText(This, Text, Pt) -> ok

              Types:

                 This = wxDC()
                 Text = unicode:chardata()
                 Pt = {X :: integer(), Y :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       endDoc(This) -> ok

              Types:

                 This = wxDC()

              Ends a document (only relevant when outputting to a printer).

       endPage(This) -> ok

              Types:

                 This = wxDC()

              Ends a document page (only relevant when outputting to a printer).

       floodFill(This, Pt, Col) -> boolean()

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Col = wx:wx_colour()

       floodFill(This, Pt, Col, Options :: [Option]) -> boolean()

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Col = wx:wx_colour()
                 Option = {style, wx:wx_enum()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       getBackground(This) -> wxBrush:wxBrush()

              Types:

                 This = wxDC()

              Gets the brush used for painting the background.

              See: setBackground/2

       getBackgroundMode(This) -> integer()

              Types:

                 This = wxDC()

              Returns the current background mode: wxPENSTYLE_SOLID or wxPENSTYLE_TRANSPARENT.

              See: setBackgroundMode/2

       getBrush(This) -> wxBrush:wxBrush()

              Types:

                 This = wxDC()

              Gets the current brush.

              See: setBrush/2

       getCharHeight(This) -> integer()

              Types:

                 This = wxDC()

              Gets the character height of the currently set font.

       getCharWidth(This) -> integer()

              Types:

                 This = wxDC()

              Gets the average character width of the currently set font.

       getClippingBox(This) -> Result

              Types:

                 Result =
                     {X :: integer(),
                      Y :: integer(),
                      Width :: integer(),
                      Height :: integer()}
                 This = wxDC()

               Gets the rectangle surrounding the current clipping region. If no clipping  region
              is  set  this  function returns the extent of the device context. @remarks Clipping
              region   is   given   in   logical   coordinates.    @param    x    If    non-<span
              class='literal'>NULL</span>,  filled  in  with the logical horizontal coordinate of
              the top left corner of the clipping region  if  the  function  returns  true  or  0
              otherwise.  @param  y  If non-<span class='literal'>NULL</span>, filled in with the
              logical vertical coordinate of the top left corner of the clipping  region  if  the
              function    returns    true   or   0   otherwise.   @param   width   If   non-<span
              class='literal'>NULL</span>, filled in with the width of the clipping region if the
              function  returns  true  or  the  device  context width otherwise. @param height If
              non-<span class='literal'>NULL</span>, filled in with the height  of  the  clipping
              region if the function returns true or the device context height otherwise.

              Return:  true if there is a clipping region or false if there is no active clipping
              region (note that this return value is available only since wxWidgets  3.1.2,  this
              function didn't return anything in the previous versions).

       getFont(This) -> wxFont:wxFont()

              Types:

                 This = wxDC()

              Gets the current font.

              Notice  that  even  although each device context object has some default font after
              creation, this method would return a ?wxNullFont initially and only  after  calling
              setFont/2 a valid font is returned.

       getLayoutDirection(This) -> wx:wx_enum()

              Types:

                 This = wxDC()

              Gets the current layout direction of the device context.

              On  platforms  where  RTL  layout  is  supported,  the  return value will either be
              wxLayout_LeftToRight or wxLayout_RightToLeft. If RTL layout is not  supported,  the
              return value will be wxLayout_Default.

              See: setLayoutDirection/2

       getLogicalFunction(This) -> wx:wx_enum()

              Types:

                 This = wxDC()

              Gets the current logical function.

              See: setLogicalFunction/2

       getMapMode(This) -> wx:wx_enum()

              Types:

                 This = wxDC()

              Gets the current mapping mode for the device context.

              See: setMapMode/2

       getMultiLineTextExtent(This, String) ->
                                 {W :: integer(), H :: integer()}

              Types:

                 This = wxDC()
                 String = unicode:chardata()

              Gets the dimensions of the string using the currently selected font.

              string is the text string to measure.

              Return: The text extent as a {Width,Height} object.

              Note: This function works with both single-line and multi-line strings.

              See: wxFont, setFont/2, getPartialTextExtents/2, getTextExtent/3

       getMultiLineTextExtent(This, String, Options :: [Option]) ->
                                 {W :: integer(),
                                  H :: integer(),
                                  HeightLine :: integer()}

              Types:

                 This = wxDC()
                 String = unicode:chardata()
                 Option = {font, wxFont:wxFont()}

              Gets the dimensions of the string using the currently selected font.

              string  is  the  text string to measure, heightLine, if non NULL, is where to store
              the height of a single line.

              The text extent is set in the given w and h pointers.

              If the optional parameter font is specified and valid, then it is used for the text
              extent calculation, otherwise the currently selected font is used.

              If string is empty, its horizontal extent is 0 but, for convenience when using this
              function for allocating enough space for a possibly multi-line string, its vertical
              extent  is  the  same as the height of an empty line of text. Please note that this
              behaviour differs from that of getTextExtent/3.

              Note: This function works with both single-line and multi-line strings.

              See: wxFont, setFont/2, getPartialTextExtents/2, getTextExtent/3

       getPartialTextExtents(This, Text) -> Result

              Types:

                 Result = {Res :: boolean(), Widths :: [integer()]}
                 This = wxDC()
                 Text = unicode:chardata()

              Fills the widths  array  with  the  widths  from  the  beginning  of  text  to  the
              corresponding character of text.

              The  generic  version simply builds a running total of the widths of each character
              using getTextExtent/3, however if the various platforms have a native API  function
              that  is  faster or more accurate than the generic implementation then it should be
              used instead.

              See: getMultiLineTextExtent/3, getTextExtent/3

       getPen(This) -> wxPen:wxPen()

              Types:

                 This = wxDC()

              Gets the current pen.

              See: setPen/2

       getPixel(This, Pos) -> Result

              Types:

                 Result = {Res :: boolean(), Colour :: wx:wx_colour4()}
                 This = wxDC()
                 Pos = {X :: integer(), Y :: integer()}

              Gets in colour the colour at the specified location.

              This method isn't available for wxPostScriptDC or wxMetafileDC (not implemented  in
              wx) nor for any DC in wxOSX port and simply returns false there.

              Note: Setting a pixel can be done using drawPoint/2.

              Note:  This  method  shouldn't  be  used  with  wxPaintDC as accessing the DC while
              drawing can result in unexpected results, notably in wxGTK.

       getPPI(This) -> {W :: integer(), H :: integer()}

              Types:

                 This = wxDC()

              Returns the resolution of the device in pixels per inch.

       getSize(This) -> {W :: integer(), H :: integer()}

              Types:

                 This = wxDC()

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       getSizeMM(This) -> {W :: integer(), H :: integer()}

              Types:

                 This = wxDC()

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       getTextBackground(This) -> wx:wx_colour4()

              Types:

                 This = wxDC()

              Gets the current text background colour.

              See: setTextBackground/2

       getTextExtent(This, String) -> {W :: integer(), H :: integer()}

              Types:

                 This = wxDC()
                 String = unicode:chardata()

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       getTextExtent(This, String, Options :: [Option]) -> Result

              Types:

                 Result =
                     {W :: integer(),
                      H :: integer(),
                      Descent :: integer(),
                      ExternalLeading :: integer()}
                 This = wxDC()
                 String = unicode:chardata()
                 Option = {theFont, wxFont:wxFont()}

              Gets the dimensions of the string using the currently selected font.

              string is the text string to measure, descent is the dimension from the baseline of
              the font to the bottom of the descender, and externalLeading is any extra  vertical
              space added to the font by the font designer (usually is zero).

              The  text  extent  is  returned  in  w and h pointers or as a {Width,Height} object
              depending on which version of this function is used.

              If the optional parameter font is specified and valid, then it is used for the text
              extent calculation. Otherwise the currently selected font is.

              If string is empty, its extent is 0 in both directions, as expected.

              Note: This function only works with single-line strings.

              See: wxFont, setFont/2, getPartialTextExtents/2, getMultiLineTextExtent/3

       getTextForeground(This) -> wx:wx_colour4()

              Types:

                 This = wxDC()

              Gets the current text foreground colour.

              See: setTextForeground/2

       getUserScale(This) -> {X :: number(), Y :: number()}

              Types:

                 This = wxDC()

              Gets the current user scale factor.

              See: setUserScale/3

       gradientFillConcentric(This, Rect, InitialColour, DestColour) ->
                                 ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}
                 InitialColour = DestColour = wx:wx_colour()

              Fill the area specified by rect with a radial gradient, starting from initialColour
              at the centre of the circle and fading to destColour on the circle outside.

              The circle is placed at the centre of rect.

              Note: Currently this function is very slow, don't use it for real-time drawing.

       gradientFillConcentric(This, Rect, InitialColour, DestColour,
                              CircleCenter) ->
                                 ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}
                 InitialColour = DestColour = wx:wx_colour()
                 CircleCenter = {X :: integer(), Y :: integer()}

              Fill the area specified by rect with a radial gradient, starting from initialColour
              at the centre of the circle and fading to destColour on the circle outside.

              circleCenter  are the relative coordinates of centre of the circle in the specified
              rect.

              Note: Currently this function is very slow, don't use it for real-time drawing.

       gradientFillLinear(This, Rect, InitialColour, DestColour) -> ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}
                 InitialColour = DestColour = wx:wx_colour()

       gradientFillLinear(This, Rect, InitialColour, DestColour,
                          Options :: [Option]) ->
                             ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}
                 InitialColour = DestColour = wx:wx_colour()
                 Option = {nDirection, wx:wx_enum()}

              Fill the area specified by rect with a linear gradient, starting from initialColour
              and eventually fading to destColour.

              The  nDirection  specifies  the  direction  of the colour change, default is to use
              initialColour on the left part of the rectangle and destColour on the right one.

       logicalToDeviceX(This, X) -> integer()

              Types:

                 This = wxDC()
                 X = integer()

              Converts logical X coordinate to device coordinate, using the current mapping mode,
              user scale factor, device origin and axis orientation.

       logicalToDeviceXRel(This, X) -> integer()

              Types:

                 This = wxDC()
                 X = integer()

              Converts  logical  X  coordinate  to  relative device coordinate, using the current
              mapping mode and user scale factor but ignoring the axis orientation.

              Use this for converting a width, for example.

       logicalToDeviceY(This, Y) -> integer()

              Types:

                 This = wxDC()
                 Y = integer()

              Converts logical Y coordinate to device coordinate, using the current mapping mode,
              user scale factor, device origin and axis orientation.

       logicalToDeviceYRel(This, Y) -> integer()

              Types:

                 This = wxDC()
                 Y = integer()

              Converts  logical  Y  coordinate  to  relative device coordinate, using the current
              mapping mode and user scale factor but ignoring the axis orientation.

              Use this for converting a height, for example.

       maxX(This) -> integer()

              Types:

                 This = wxDC()

              Gets the maximum horizontal extent used in drawing commands so far.

       maxY(This) -> integer()

              Types:

                 This = wxDC()

              Gets the maximum vertical extent used in drawing commands so far.

       minX(This) -> integer()

              Types:

                 This = wxDC()

              Gets the minimum horizontal extent used in drawing commands so far.

       minY(This) -> integer()

              Types:

                 This = wxDC()

              Gets the minimum vertical extent used in drawing commands so far.

       isOk(This) -> boolean()

              Types:

                 This = wxDC()

              Returns true if the DC is ok to use.

       resetBoundingBox(This) -> ok

              Types:

                 This = wxDC()

              Resets the bounding box: after a call to this function, the  bounding  box  doesn't
              contain anything.

              See: calcBoundingBox/3

       setAxisOrientation(This, XLeftRight, YBottomUp) -> ok

              Types:

                 This = wxDC()
                 XLeftRight = YBottomUp = boolean()

              Sets the x and y axis orientation (i.e. the direction from lowest to highest values
              on the axis).

              The default orientation is x axis from left to right and y axis from top down.

       setBackground(This, Brush) -> ok

              Types:

                 This = wxDC()
                 Brush = wxBrush:wxBrush()

              Sets the current background brush for the DC.

       setBackgroundMode(This, Mode) -> ok

              Types:

                 This = wxDC()
                 Mode = integer()

              mode may be one of wxPENSTYLE_SOLID and wxPENSTYLE_TRANSPARENT.

              This setting determines whether text will be drawn with a background colour or not.

       setBrush(This, Brush) -> ok

              Types:

                 This = wxDC()
                 Brush = wxBrush:wxBrush()

              Sets the current brush for the DC.

              If the argument is ?wxNullBrush (or another invalid brush; see wxBrush:isOk/1), the
              current brush is selected out of the device context (leaving wxDC without any valid
              brush), allowing the current brush to be destroyed safely.

              See: wxBrush, wxMemoryDC, (for the interpretation of colours when  drawing  into  a
              monochrome bitmap)

       setClippingRegion(This, Rect) -> ok

              Types:

                 This = wxDC()
                 Rect =
                     {X :: integer(),
                      Y :: integer(),
                      W :: integer(),
                      H :: integer()}

              This  is  an  overloaded member function, provided for convenience. It differs from
              the above function only in what argument(s) it accepts.

       setClippingRegion(This, Pt, Sz) -> ok

              Types:

                 This = wxDC()
                 Pt = {X :: integer(), Y :: integer()}
                 Sz = {W :: integer(), H :: integer()}

              This is an overloaded member function, provided for convenience.  It  differs  from
              the above function only in what argument(s) it accepts.

       setDeviceOrigin(This, X, Y) -> ok

              Types:

                 This = wxDC()
                 X = Y = integer()

              Sets the device origin (i.e. the origin in pixels after scaling has been applied).

              This function may be useful in Windows printing operations for placing a graphic on
              a page.

       setFont(This, Font) -> ok

              Types:

                 This = wxDC()
                 Font = wxFont:wxFont()

              Sets the current font for the DC.

              If the argument is ?wxNullFont (or another invalid font;  see  wxFont:isOk/1),  the
              current  font is selected out of the device context (leaving wxDC without any valid
              font), allowing the current font to be destroyed safely.

              See: wxFont

       setLayoutDirection(This, Dir) -> ok

              Types:

                 This = wxDC()
                 Dir = wx:wx_enum()

              Sets the current layout direction for the device context.

              See: getLayoutDirection/1

       setLogicalFunction(This, Function) -> ok

              Types:

                 This = wxDC()
                 Function = wx:wx_enum()

              Sets the current logical function for the device context.

              Note: This function is not fully supported in all ports, due to the limitations  of
              the underlying drawing model. Notably, wxINVERT which was commonly used for drawing
              rubber bands or other moving outlines in  the  past,  is  not,  and  will  not,  be
              supported  by  wxGTK3  and  wxMac. The suggested alternative is to draw temporarily
              objects normally and refresh the (affected part  of  the)  window  to  remove  them
              later.

              It  determines  how  a  source  pixel (from a pen or brush colour, or source device
              context if using blit/6) combines with a destination pixel in  the  current  device
              context. Text drawing is not affected by this function.

              See ?wxRasterOperationMode enumeration values for more info.

              The  default  is  wxCOPY,  which  simply  draws with the current colour. The others
              combine the current colour and the background using a logical operation.

       setMapMode(This, Mode) -> ok

              Types:

                 This = wxDC()
                 Mode = wx:wx_enum()

              The mapping mode of the device context defines the  unit  of  measurement  used  to
              convert logical units to device units.

              Note  that  in  X, text drawing isn't handled consistently with the mapping mode; a
              font is always specified in point  size.  However,  setting  the  user  scale  (see
              setUserScale/3)  scales the text appropriately. In Windows, scalable TrueType fonts
              are always used; in X, results depend on  availability  of  fonts,  but  usually  a
              reasonable match is found.

              The coordinate origin is always at the top left of the screen/printer.

              Drawing  to  a  Windows  printer  device context uses the current mapping mode, but
              mapping mode is currently ignored for PostScript output.

       setPalette(This, Palette) -> ok

              Types:

                 This = wxDC()
                 Palette = wxPalette:wxPalette()

              If this is a window DC or memory DC, assigns the given palette  to  the  window  or
              bitmap associated with the DC.

              If  the  argument  is  ?wxNullPalette,  the  current palette is selected out of the
              device context, and the original palette restored.

              See: wxPalette

       setPen(This, Pen) -> ok

              Types:

                 This = wxDC()
                 Pen = wxPen:wxPen()

              Sets the current pen for the DC.

              If the argument is ?wxNullPen (or  another  invalid  pen;  see  wxPen:isOk/1),  the
              current  pen  is selected out of the device context (leaving wxDC without any valid
              pen), allowing the current pen to be destroyed safely.

              See: wxMemoryDC, for the interpretation of colours when drawing into  a  monochrome
              bitmap

       setTextBackground(This, Colour) -> ok

              Types:

                 This = wxDC()
                 Colour = wx:wx_colour()

              Sets the current text background colour for the DC.

       setTextForeground(This, Colour) -> ok

              Types:

                 This = wxDC()
                 Colour = wx:wx_colour()

              Sets the current text foreground colour for the DC.

              See:  wxMemoryDC,  for the interpretation of colours when drawing into a monochrome
              bitmap

       setUserScale(This, XScale, YScale) -> ok

              Types:

                 This = wxDC()
                 XScale = YScale = number()

              Sets the user scaling factor, useful for applications which require 'zooming'.

       startDoc(This, Message) -> boolean()

              Types:

                 This = wxDC()
                 Message = unicode:chardata()

              Starts a document (only relevant when outputting to a printer).

              message is a message to show while printing.

       startPage(This) -> ok

              Types:

                 This = wxDC()

              Starts a document page (only relevant when outputting to a printer).