wxWidgets defines a common API across platforms, but uses the native graphical user interface (GUI) on each platform, so your program will take on the native look and feel that users are familiar with.
Unfortunately native toolkits and hardware do not always support the functionality that the wxWidgets API requires. This chapter collects notes about differences among supported platforms and ports.
wxGTK is a port of wxWidgets using the GTK+ library. It makes use of GTK+'s native widgets wherever possible and uses wxWidgets' generic controls when needed. GTK+ itself has been ported to a number of systems, but so far only the original X11 version is supported. Support for other GTK+ backends is planned, such as the new DirectFB backend.
All work is being done on GTK+ version 2.0 and above. Support for GTK+ 1.2 will be deprecated in a later release.
You will need GTK+ 2.6 or higher which is available from:
The newer version of GTK+ you use, the more native widgets and features will be utilized. We have gone to great lengths to allow compiling wxWidgets applications with the latest version of GTK+, with the resulting binary working on systems even with a much earlier version of GTK+. You will have to ensure that the application is launched with lazy symbol binding for that.
In order to configure wxWidgets to compile wxGTK you will need use the –with-gtk
argument to the configure
script. This is the default for many systems.
GTK+ 1.2 can still be used, albeit discouraged. For that you can pass –with-gtk=1
to the configure
script.
Support for GTK+ 3 is available starting with wxWidgets 2.9.4, use configure
option –with-gtk=3
to enable it.
For further information, please see the files in docs/gtk
in the distribution.
wxOSX/Carbon is a port of wxWidgets for the Macintosh OS platform. Currently OS X 10.5 or higher are supported. wxOSX/Carbon can be compiled both using Apple's command line developer tools as well as Apple's Xcode IDE. wxOSX/Carbon supports both the Intel and PowerPC architectures and can be used to produce "universal binaries" in order create application which can run both architecture. Unfortunately, wxOSX/Carbon does not support any 64-bit architecture since Apple decided not to port its Carbon API entirely to 64-bit.
For further information, please see the files in docs/osx
in the distribution.
wxOSX/Cocoa is another port of wxWidgets for the Macintosh OS platform. Currently OS X 10.5 or higher are supported. In contrast to wxOSX/Carbon, it uses the Cocoa API in place of Carbon. Much work has gone into this port and many controls are functional, but the port has not reached the maturity of the wxOSX/Carbon port yet. It is possible to use wxOSX/Cocoa on 64-bit architectures.
In order to configure wxWidgets to compile wxOSX/Cocoa you will need to type:
configure --with-osx_cocoa
For further information, please see the files in docs/osx
in the distribution.
docs/cocoa
in the distribution.wxOS2 is a port of wxWidgets for the IBM OS/2 Warp3 and Warp4 platforms. This port is currently under construction and in beta phase.
For further information, please see the files in docs/os2
in the distribution.
wxX11 is a port of wxWidgets using X11 (The X Window System) as the underlying graphics backend. wxX11 draws its widgets using the wxUniversal widget set which is now part of wxWidgets. wxX11 is well-suited for a number of special applications such as those running on systems with few resources (PDAs) or for applications which need to use a special themed look.
In order to configure wxWidgets to compile wxX11 you will need to type:
configure --with-x11 --with-universal
For further information, please see the files in docs/x11
in the distribution. There is also a page on the use of wxWidgets for embedded applications on the wxWidgets web site.
wxMotif is a port of wxWidgets for X11 systems using Motif libraries. Motif libraries provide a clean and fast user interface at the expense of the beauty and candy of newer interfaces like GTK.
For further information, please see the files in docs/motif
in the distribution.
wxMSW is a port of wxWidgets for the Windows platforms including Windows 95, 98, ME, 2000, NT, XP and Vista in ANSI and Unicode modes (for Windows 9x and ME through the MSLU extension library). wxMSW ensures native look and feel for XP when using wxWidgets version 2.3.3 or higher. wxMSW can be compiled with a great variety of compilers including Microsoft Studio VC++, Borland 5.5, MinGW32, Cygwin and Watcom as well as cross-compilation with a Linux-hosted MinGW32 tool chain.
For further information, please see the files in docs/msw in the distribution.
Starting with wxWidgets 2.8.5, you can specify the wxBORDER_THEME
style to have wxWidgets use a themed border. Using the default XP theme, this is a thin 1-pixel blue border, with an extra 1-pixel border in the window client background colour (usually white) to separate the client area's scrollbars from the border.
If you don't specify a border style for a wxTextCtrl in rich edit mode, wxWidgets now gives the control themed borders automatically, where previously they would take the Windows 95-style sunken border. Other native controls such as wxTextCtrl in non-rich edit mode, and wxComboBox already paint themed borders where appropriate. To use themed borders on other windows, such as wxPanel, pass the wxBORDER_THEME
style, or (apart from wxPanel) pass no border style.
In general, specifying wxBORDER_THEME
will cause a border of some kind to be used, chosen by the platform and control class. To leave the border decision entirely to wxWidgets, pass wxBORDER_DEFAULT
. This is not to be confused with specifying wxBORDER_NONE
, which says that there should definitely be no border.
The way that wxMSW decides whether to apply a themed border is as follows. The theming code calls wxWindow::GetBorder() to obtain a border. If no border style has been passed to the window constructor, GetBorder() calls GetDefaultBorder() for this window. If wxBORDER_THEME was passed to the window constructor, GetBorder() calls GetDefaultBorderForControl().
The implementation of wxWindow::GetDefaultBorder() on wxMSW calls wxWindow::CanApplyThemeBorder() which is a virtual function that tells wxWidgets whether a control can have a theme applied explicitly (some native controls already paint a theme in which case we should not apply it ourselves). Note that wxPanel is an exception to this rule because in many cases we wish to create a window with no border (for example, notebook pages). So wxPanel overrides GetDefaultBorder() in order to call the generic wxWindowBase::GetDefaultBorder(), returning wxBORDER_NONE.
wxWinCE is the name given to wxMSW when compiled on Windows CE devices; most of wxMSW is common to Win32 and Windows CE but there are some simplifications, enhancements, and differences in behaviour.
For building instructions, see docs/msw/wince in the distribution, also the section about Visual Studio 2005 project files below. The rest of this section documents issues you need to be aware of when programming for Windows CE devices.
Mobile applications generally have fewer features and simpler user interfaces. Simply omit whole sizers, static lines and controls in your dialogs, and use comboboxes instead of listboxes where appropriate. You also need to reduce the amount of spacing used by sizers, for which you can use a macro such as this:
There is only ever one instance of a Windows CE application running, and wxWidgets will take care of showing the current instance and shutting down the second instance if necessary.
You can test the return value of wxSystemSettings::GetScreenType() for a qualitative assessment of what kind of display is available, or use wxGetDisplaySize() if you need more information.
You can also use wxGetOsVersion to test for a version of Windows CE at run-time (see the next section). However, because different builds are currently required to target different kinds of device, these values are hard-wired according to the build, and you cannot dynamically adapt the same executable for different major Windows CE platforms. This would require a different approach to the way wxWidgets adapts its behaviour (such as for menubars) to suit the style of device.
See the "Life!" example (demos/life) for an example of an application that has been tailored for PocketPC and Smartphone use.
#include "wx/msw/wx.rc"
Use these preprocessor symbols to test for the different types of devices:
wxGetOsVersion() will return these values:
Top level windows (dialogs, frames) are created always full-screen. Fit() of sizers will not rescale top level windows but instead will scale window content.
If the screen orientation changes, the windows will automatically be resized so no further action needs to be taken (unless you want to change the layout according to the orientation, which you could detect in idle time, for example). When input panel (SIP) is shown, top level windows (frames and dialogs) resize accordingly (see wxTopLevelWindow::HandleSettingChange()).
You won't get a wxCloseEvent when the user clicks on the X in the titlebar on Smartphone and PocketPC; the window is simply hidden instead. However the system may send the event to force the application to close down.
Smartphone and PocketPC will send a wxEVT_HIBERNATE
to the application object in low memory conditions. Your application should release memory and close dialogs, and wake up again when the next wxEVT_ACTIVATE
or wxEVT_ACTIVATE_APP
message is received. (wxEVT_ACTIVATE_APP
is generated whenever a wxEVT_ACTIVATE
event is received in Smartphone and PocketPC, since these platforms do not support WM_ACTIVATEAPP
.)
Special hardware buttons are sent to a window via the wxEVT_HOTKEY
event under Smartphone and PocketPC. You should first register each required button with wxWindow::RegisterHotKey(), and unregister the button when you're done with it. For example:
You may have to register the buttons in a wxEVT_ACTIVATE
event handler since other applications will grab the buttons.
There is currently no method of finding out the names of the special buttons or how many there are.
PocketPC dialogs have an OK button on the caption, and so you should generally not repeat an OK button on the dialog. You can add a Cancel button if necessary, but some dialogs simply don't offer you the choice (the guidelines recommend you offer an Undo facility to make up for it). When the user clicks on the OK button, your dialog will receive a wxID_OK
event by default. If you wish to change this, call wxDialog::SetAffirmativeId() with the required identifier to be used. Or, override wxDialog::DoOK() (return false to have wxWidgets simply call Close to dismiss the dialog).
Smartphone dialogs do not have an OK button on the caption, and are closed using one of the two menu buttons. You need to assign these using wxTopLevelWindow::SetLeftMenu and wxTopLevelWindow::SetRightMenu(), for example:
For implementing property sheets (flat tabs), use a wxNotebook with wxNB_FLAT|wxNB_BOTTOM
and have the notebook left, top and right sides overlap the dialog by about 3 pixels to eliminate spurious borders. You can do this by using a negative spacing in your sizer Add() call. The cross-platform property sheet dialog wxPropertySheetDialog is provided, to show settings in the correct style on PocketPC and on other platforms.
Notifications (bubble HTML text with optional buttons and links) will also be implemented in the future for PocketPC.
Modeless dialogs probably don't make sense for PocketPC and Smartphone, since frames and dialogs are normally full-screen, and a modeless dialog is normally intended to co-exist with the main application frame.
On PocketPC, a frame must always have a menubar, even if it's empty. An empty menubar/toolbar is automatically provided for dialogs, to hide any existing menubar for the duration of the dialog.
Menubars and toolbars are implemented using a combined control, but you can use essentially the usual wxWidgets API; wxWidgets will combine the menubar and toolbar. However, there are some restrictions:
Unlike in all other ports, a wxDialog has a wxToolBar automatically created for you. You may either leave it blank, or access it with wxDialog::GetToolBar() and add buttons, then calling wxToolBar::Realize(). You cannot set or recreate the toolbar.
On Smartphone, there are only two menu buttons, so a menubar is simulated using a nested menu on the right menu button. Any toolbars are simply ignored on Smartphone.
The guidelines state that applications should not have a Quit menu item, since the user should not have to know whether an application is in memory or not. The close button on a window does not call the window's close handler; it simply hides the window. However, the guidelines say that the Ctrl+Q accelerator can be used to quit the application, so wxWidgets defines this accelerator by default and if your application handles wxID_EXIT, it will do the right thing.
To enable context menus in PocketPC, you currently need to call wxWindow::EnableContextMenu(), a wxWinCE-only function. Otherwise the context menu event (wxContextMenuEvent) will never be sent. This API is subject to change.
Context menus are not supported in Smartphone.
These controls and styles are specific to wxWinCE:
wxTE_CAPITALIZE
style causes a CAPEDIT control to be created, which capitalizes the first letter.These controls are missing from wxWinCE:
Tooltips are not currently supported for controls, since on PocketPC controls with tooltips are distinct controls, and it will be hard to add dynamic tooltip support.
Control borders on PocketPC and Smartphone should normally be specified with wxBORDER_SIMPLE
instead of wxBORDER_SUNKEN
. Controls will usually adapt appropriately by virtue of their GetDefaultBorder() function, but if you wish to specify a style explicitly you can use wxDEFAULT_CONTROL_BORDER
which will give a simple border on PocketPC and Smartphone, and the sunken border on other platforms.
You can use the help controller wxWinceHelpController which controls simple .htm files, usually installed in the Windows directory. See the Windows CE reference for how to format the HTML files.
To install your application, you need to build a CAB file using the parameters defined in a special .inf file. The CabWiz program in your SDK will compile the CAB file from the .inf file and files that it specifies.
For delivery, you can simply ask the user to copy the CAB file to the device and execute the CAB file using File Explorer. Or, you can write a program for the desktop PC that will find the ActiveSync Application Manager and install the CAB file on the device, which is obviously much easier for the user.
Here are some links that may help.
Windows CE Tools/wce420/POCKET PC 2003/Samples/Win32/AppInst
. You may also check out demos/life/setup/wince
which contains scripts to create a PocketPC installation for ARM-based devices. In particular, build.bat
builds the distribution and copies it to a directory called Deliver
.
Allowing the user to access files on memory cards, or on arbitrary parts of the filesystem, is a pain; the standard file dialog only shows folders under My Documents or folders on memory cards (not the system or card root directory, for example). This is a known problem for PocketPC developers.
If you need a file dialog that allows access to all folders, you can use wxGenericFileDialog instead. You will need to include wx/generic/filedlgg.h
.
Run-time type information
If you wish to use runtime type information (RTTI) with eVC++ 4, you need to download an extra library, ccrtrtti.lib
, and link with it. At the time of writing you can get it from here:
http://support.microsoft.com/kb/830482/en-us
Otherwise you will get linker errors similar to this:
wxwince26d.lib(control.obj) : error LNK2001: unresolved external symbol "const type_info::`vftable'" (??_7type_info@@6B@)
Windows Mobile 5.0 emulator
Note that there is no separate emulator configuration for Windows Mobile 5.0: the emulator runs the ARM code directly.
Visual Studio 2005 project files
Unfortunately, Visual Studio 2005, required to build Windows Mobile 5.0 applications, doesn't do a perfect job of converting the project files from eVC++ format.
When you have converted the wxWidgets workspace, edit the configuration properties for each configuration and in the Librarian, add a relative path
..\..\lib
to each library path. For example:
..\$(PlatformName)\$(ConfigurationName)\wx_mono.lib
Then, for a sample you want to compile, edit the configuration properties and make sure
..\..\lib\$(PlatformName)\$(ConfigurationName)
is in the Linker/General/Additional Library Directories property. Also change the Linker/Input/Additional Dependencies property to something like
coredll.lib wx_mono.lib wx_wxjpeg.lib wx_wxpng.lib wx_wxzlib.lib wx_wxexpat.lib commctrl.lib winsock.lib wininet.lib
since the library names in the wxWidgets workspace were changed by VS 2005.
Alternately, you could edit all the names to be identical to the original eVC++ names, but this will probably be more fiddly.
These are some of the remaining problems to be sorted out, and features to be supported.
WC_SIPREF
control. WM_PAINT
. wxCLOSE_BOX
to indicate when the OK button should be displayed. It's sometimes useful to interface directly with the underlying toolkit used by wxWidgets to e.g. use toolkit-specific features. In such case (or when you want to e.g. write a port-specific patch) it can be necessary to use the underlying toolkit API directly: