%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Name: renderer.tex %% Purpose: wxRenderer and wxRendererNative documentation %% Author: Vadim Zeitlin %% Modified by: %% Created: 06.08.03 %% RCS-ID: $Id$ %% Copyright: (c) 2003 Vadim Zeitlin %% License: wxWidgets license %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \section{\class{wxRendererNative}}\label{wxrenderernative} First, a brief introduction to wxRenderer and why it is needed. Usually wxWidgets uses the underlying low level GUI system to draw all the controls -- this is what we mean when we say that it is a ``native'' framework. However not all controls exist under all (or even any) platforms and in this case wxWidgets provides a default, generic, implementation of them written in wxWidgets itself. These controls don't have the native appearance if only the standard line drawing and other graphics primitives are used, because the native appearance is different under different platforms while the lines are always drawn in the same way. This is why we have renderers: wxRenderer is a class which virtualizes the drawing, i.e. it abstracts the drawing operations and allows you to draw say, a button, without caring about exactly how this is done. Of course, as we can draw the button differently in different renderers, this also allows us to emulate the native look and feel. So the renderers work by exposing a large set of high-level drawing functions which are used by the generic controls. There is always a default global renderer but it may be changed or extended by the user, see \helpref{Render sample}{samplerender}. All drawing functions take some standard parameters: \begin{itemize} \item \arg{win} is the window being drawn. It is normally not used and when it is it should only be used as a generic \helpref{wxWindow}{wxwindow} (in order to get its low level handle, for example), but you should \emph{not} assume that it is of some given type as the same renderer function may be reused for drawing different kinds of control. \item \arg{dc} is the \helpref{wxDC}{wxdc} to draw on. Only this device context should be used for drawing. It is not necessary to restore pens and brushes for it on function exit but, on the other hand, you shouldn't assume that it is in any specific state on function entry: the rendering functions should always prepare it. \item \arg{rect} the bounding rectangle for the element to be drawn. \item \arg{flags} the optional flags (none by default) which can be a combination of the \texttt{wxCONTROL\_XXX} constants below. \end{itemize} \wxheading{Constants} The following rendering flags are defined: \begin{verbatim} enum { wxCONTROL_DISABLED = 0x00000001, // control is disabled wxCONTROL_FOCUSED = 0x00000002, // currently has keyboard focus wxCONTROL_PRESSED = 0x00000004, // (button) is pressed wxCONTROL_ISDEFAULT = 0x00000008, // only applies to the buttons wxCONTROL_ISSUBMENU = wxCONTROL_ISDEFAULT, // only for menu items wxCONTROL_EXPANDED = wxCONTROL_ISDEFAULT, // only for the tree items wxCONTROL_CURRENT = 0x00000010, // mouse is currently over the control wxCONTROL_SELECTED = 0x00000020, // selected item in e.g. listbox wxCONTROL_CHECKED = 0x00000040, // (check/radio button) is checked wxCONTROL_CHECKABLE = 0x00000080 // (menu) item can be checked }; \end{verbatim} \wxheading{Derived from} No base class \wxheading{Include files} \latexignore{\rtfignore{\wxheading{Members}}} \membersection{wxRendererNative::\destruct{wxRendererNative}}\label{wxrenderernativedtor} \func{}{\destruct{wxRendererNative}}{\void} Virtual destructor as for any base class. \membersection{wxRendererNative::DrawHeaderButton}\label{wxrenderernativedrawheaderbutton} \func{void}{DrawHeaderButton}{\param{wxWindow* }{win}, \param{wxDC\& }{dc}, \param{const wxRect\& }{rect}, \param{int }{flags = 0}} Draw the header control button (used by \helpref{wxListCtrl}{wxlistctrl}). \membersection{wxRendererNative::DrawSplitterBorder}\label{wxrenderernativedrawsplitterborder} \func{void}{DrawSplitterBorder}{\param{wxWindow* }{win}, \param{wxDC\& }{dc}, \param{const wxRect\& }{rect}, \param{int }{flags = 0}} Draw the border for sash window: this border must be such that the sash drawn by \helpref{DrawSash}{wxrenderernativedrawsplittersash} blends into it well. \membersection{wxRendererNative::DrawSplitterSash}\label{wxrenderernativedrawsplittersash} \func{void}{DrawSplitterSash}{\param{wxWindow* }{win}, \param{wxDC\& }{dc}, \param{const wxSize\& }{size}, \param{wxCoord }{position}, \param{wxOrientation }{orient}, \param{int }{flags = 0}} Draw a sash. The \arg{orient} parameter defines whether the sash should be vertical or horizontal and how should the \arg{position} be interpreted. \membersection{wxRendererNative::DrawTreeItemButton}\label{wxrenderernativedrawtreeitembutton} \func{void}{DrawTreeItemButton}{\param{wxWindow* }{win}, \param{wxDC\& }{dc}, \param{const wxRect\& }{rect}, \param{int }{flags = 0}} Draw the expanded/collapsed icon for a tree control item. To draw an expanded button the \arg{flags} parameter must contain {\tt wxCONTROL\_EXPANDED} bit. \membersection{wxRendererNative::Get}\label{wxrenderernativeget} \func{wxRendererNative\&}{Get}{\void} Return the currently used renderer. \membersection{wxRendererNative::GetDefault}\label{wxrenderernativegetdefault} \func{wxRendererNative\&}{GetDefault}{\void} Return the default (native) implementation for this platform -- this is also the one used by default but this may be changed by calling \helpref{Set}{wxrenderernativeset} in which case the return value of this method may be different from the return value of \helpref{Get}{wxrenderernativeget}. \membersection{wxRendererNative::GetGeneric}\label{wxrenderernativegetgeneric} \func{wxRendererNative\&}{GetGeneric}{\void} Return the generic implementation of the renderer. Under some platforms, this is the default renderer implementation, others have platform-specific default renderer which can be retrieved by calling \helpref{GetDefault}{wxrenderernativegetdefault}. \membersection{wxRendererNative::GetSplitterParams}\label{wxrenderernativegetsplitterparams} \func{wxSplitterRenderParams}{GetSplitterParams}{\param{const wxWindow* }{win}} Get the splitter parameters, see \helpref{wxSplitterRenderParams}{wxsplitterrenderparams}. \membersection{wxRendererNative::GetVersion}\label{wxrenderernativegetversion} \constfunc{wxRendererVersion}{GetVersion}{\void} This function is used for version checking: \helpref{Load}{wxrenderernativeload} refuses to load any shared libraries implementing an older or incompatible version. The implementation of this method is always the same in all renderers (simply construct \helpref{wxRendererVersion}{wxrendererversion} using the {\tt wxRendererVersion::Current\_XXX} values), but it has to be in the derived, not base, class, to detect mismatches between the renderers versions and so you have to implement it anew in all renderers. \membersection{wxRendererNative::Load}\label{wxrenderernativeload} \func{wxRendererNative*}{Load}{\param{const wxString\& }{name}} Load the renderer from the specified DLL, the returned pointer must be deleted by caller if not {\tt NULL} when it is not used any more. The \arg{name} should be just the base name of the renderer and not the full name of the DLL file which is constructed differently (using \helpref{wxDynamicLibrary::CanonicalizePluginName}{wxdynamiclibrarycanonicalizepluginname}) on different systems. \membersection{wxRendererNative::Set}\label{wxrenderernativeset} \func{wxRendererNative*}{Set}{\param{wxRendererNative* }{renderer}} Set the renderer to use, passing {\tt NULL} reverts to using the default renderer (the global renderer must always exist). Return the previous renderer used with Set() or {\tt NULL} if none.