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This file outlines known issues and possible workarounds when using Qt on Mac OS X. Contact Qt's technical support team if you find additional issues which are not covered here. (See also the document Qt is Mac OS X Native.)
Mac OS X handles most applications as "bundles". A bundle is a directory structure that groups related files together (e.g., widgets.app/). GUI applications in particular must be run from a bundle or by using the open(1), because Mac OS X needs the bundle to dispatch events correctly, as well as for accessing the menu bar.
If you are using older versions of GDB you must run with the full path to the executable. Later versions allow you to pass the bundle name on the command line.
Mac OS X always double buffers the screen so the Qt::WA_PaintOnScreen attribute has no effect. Also it is impossible to paint outside of a paint event so Qt::WA_PaintOutsidePaintEvent has no effect either.
By default, Qt is built as a set of frameworks. Frameworks is the Mac OS X "preferred" way of distributing libraries. There are definite advantages to using them. See Apple's Framework Programming Guide for more information.
In general, this shouldn't be an issue because qmake takes care of the specifics for you. The Framework Programming Guide discusses issues to keep in mind when choosing frameworks over the more typical, dynamic libraries. However, one point to remember is: Frameworks always link with "release" versions of libraries.
If you actually want to use a debug version of a Qt framework, you must ensure that your application actually loads that debug version. This is often done by using the DYLD_IMAGE_SUFFIX environment variables, but that way often doesn't work so well. Instead, you can temporarily swap your debug and release versions, which is documented in Apple's "Debugging Magic" technical note.
If you don't want to use frameworks, simply configure Qt with -no-framework.
If you want to use some dynamic libraries in your Mac OS X application bundle (the application directory), create a subdirectory named "Frameworks" in the application bundle directory and place your dynamic libraries there. The application will find a dynamic library if it has the install name @executable_path/../Frameworks/libname.dylib.
If you use qmake and Makefiles, use the QMAKE_LFLAGS_SONAME setting:
Alternatively, you can modify the install name using the install_name_tool(1) on the command line. See its manpage for more information.
Note that the DYLD_LIBRARY_PATH environment variable will override these settings, and any other default paths, such as a lookup of dynamic libraries inside /usr/lib and similar default locations.
If you want to build a new dynamic library combining the Qt 4 dynamic libraries, you need to introduce the ld -r flag. Then relocation information is stored in the the output file, so that this file could be the subject of another ld run. This is done by setting the -r flag in the .pro file, and the LFLAGS settings.
dyld(1) calls global static initializers in the order they are linked into your application. If a library links against Qt and references globals in Qt (from global initializers in your own library), be sure to link your application against Qt before linking it against the library. Otherwise the result will be undefined because Qt's global initializers have not been called yet.
Two flags are helpful when you want to define Mac OS X specific code:
A third flag, Q_OS_MAC, is defined as a convenience whenever Q_OS_DARWIN is defined.
If you want to define code for specific versions of Mac OS X, use the availability macros defined in /usr/include/AvailabilityMacros.h.
See QSysInfo for information on runtime version checking.
The Mac OS X application is actually a directory (ending with .app). This directory contains sub-directories and files. It may be useful to place items (e.g. plugins, online-documentation, etc.) inside this bundle. You might then want to find out where the bundle resides on the disk. The following code returns the path of the application bundle:
Note: When OS X is set to use Japanese, a bug causes this sequence to fail and return an empty string. Therefore, always test the returned string.
For more information about using the CFBundle API, see Apple's Developer Website.
The items in the Application Menu will be merged correctly for your localized application, but they will not show up translated until you add a localized resource folder to the application bundle. The main thing you need to do is create a file called locversion.plist. Here is an example for Norwegian:
Now when you run the application with your preferred language set to Norwegian, you should see menu items like "Avslutt" instead of "Quit".
If you want to provide right-mouse click support for Mac OS X, use the QContextMenuEvent class. This will map to a context menu event, i.e., a menu that will display a pop-up selection. This is the most common use of right-mouse clicks, and maps to a control-click with the Mac OS X one-button mouse support.
Qt will automatically detect your menu bars for you and turn them into Mac native menu bars. Fitting this into your existing Qt application will normally be automatic. However, if you have special needs, the Qt implementation currently selects a menu bar by starting at the active window (i.e. QApplication::activeWindow()) and applying the following tests:
These tests are followed all the way up the parent window chain until one of the above rules is satisifed. If all else fails, a default menu bar will be created. Note the default menu bar on Qt is an empty menu bar. However, you can create a different default menu bar by creating a parentless QMenuBar. The first one created will be designated the default menu bar and will be used whenever a default menu bar is needed.
Note that using native menu bars introduces certain limitations on Qt classes. See the list of limitations below for more information about these.
To provide the expected behavior for Qt applications on Mac OS X, the Qt::Meta, Qt::MetaModifier, and Qt::META enum values correspond to the Control keys on the standard Macintosh keyboard, and the Qt::Control, Qt::ControlModifier, and Qt::CTRL enum values correspond to the Command keys.
Qt has support for sheets and drawers, represented in the window flags by Qt::Sheet and Qt::Drawer respectiviely. Brushed metal windows can also be created by using the Qt::WA_MacMetalStyle window attribute.
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