qt5base-lts/mkspecs/features/uikit/qt.prf

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qt_depends = $$resolve_depends(QT, "QT.")
!watchos:equals(TEMPLATE, app):contains(qt_depends, gui(-private)?) {
LIBS *= -L$$[QT_INSTALL_PLUGINS/get]/platforms
lib_name = qios
lib_path_and_base = $$[QT_INSTALL_PLUGINS/get]/platforms/lib$${lib_name}$$qtPlatformTargetSuffix()
LIBS += -l$${lib_name}$$qtPlatformTargetSuffix() $$fromfile($${lib_path_and_base}.prl, QMAKE_PRL_LIBS)
!bitcode {
# By marking qt_registerPlatformPlugin as undefined, we ensure that
# the plugin.o translation unit is considered for inclusion in
# the final binary, which in turn ensures that the plugin's
# static initializer is included and run.
QMAKE_LFLAGS += -u _qt_registerPlatformPlugin
# We do link and dependency resolution for the platform plugin
# manually, since we know we always need the plugin, so we don't
# need to generate an import for it.
QTPLUGIN.platforms = -
}
iOS: Change main-wrapper logic to not require changing the user's main Instead of using a define to rename the user's main() function during compilation, we leave the user code alone, and inject our wrapper one step earlier in the process, at the application entry point 'start'. This entry point is provided by crt1.o, which is normally linked into the application automatically. The start() function sets up some state and then calls main(), but we change the start() function to instead call our main wrapper. Instead of shipping our own crt1 binary/sources, we make a copy of the appropriate crt1.o at build time, and modify its symbol table in place. This is unproblematic as long as we keep the same length for the wrapper function name, as the symbol names are just entries in the global string table of the object file. The result is that for the regular Qt use-case the user won't see any changes to their main function, and we have more control over the startup sequence. For the hybrid use-case, we no longer rely on the fragile solution of having our back-up 'main' symbol in a single translation unit, which would break eg with --load_all, and we don't need to provide a dummy 'qt_user_main' symbol. OSX 10.8 and iOS 6.0 introduced a new load command called LC_MAIN, which places the state setup in the shared dyld, and then just calls main() directly. Once we bump the minimum deployment target to iOS 6.0 we can start using this loader instead of LC_UNIXTHREAD, but for now we force the classic loader using the -no_new_main flag. There's also a bug in the ld64 linker provided by the current Xcode toolchains that results in the -e linker flag (to set the entry point) having no effect, but hopefully this bug has been fixed (or Apple has switched to the LLVM lld linker) by the time we bump our deployment target. Change-Id: Ie0ba869c13ddc5277dc95c539aebaeb60e949dc2 Reviewed-by: Tor Arne Vestbø <tor.arne.vestbo@digia.com>
2013-09-06 21:16:28 +00:00
!no_main_wrapper {
# The LC_MAIN load command available in iOS 6.0 and above allows dyld to
# directly call the entrypoint instead of going through _start in crt.o.
# Passing -e to the linker changes the entrypoint from _main to our custom
# wrapper that calls UIApplicationMain and dispatches back to main() once
# the application has started up and is ready to initialize QApplication.
QMAKE_LFLAGS += -Wl,-e,_qt_main_wrapper
iOS: Change main-wrapper logic to not require changing the user's main Instead of using a define to rename the user's main() function during compilation, we leave the user code alone, and inject our wrapper one step earlier in the process, at the application entry point 'start'. This entry point is provided by crt1.o, which is normally linked into the application automatically. The start() function sets up some state and then calls main(), but we change the start() function to instead call our main wrapper. Instead of shipping our own crt1 binary/sources, we make a copy of the appropriate crt1.o at build time, and modify its symbol table in place. This is unproblematic as long as we keep the same length for the wrapper function name, as the symbol names are just entries in the global string table of the object file. The result is that for the regular Qt use-case the user won't see any changes to their main function, and we have more control over the startup sequence. For the hybrid use-case, we no longer rely on the fragile solution of having our back-up 'main' symbol in a single translation unit, which would break eg with --load_all, and we don't need to provide a dummy 'qt_user_main' symbol. OSX 10.8 and iOS 6.0 introduced a new load command called LC_MAIN, which places the state setup in the shared dyld, and then just calls main() directly. Once we bump the minimum deployment target to iOS 6.0 we can start using this loader instead of LC_UNIXTHREAD, but for now we force the classic loader using the -no_new_main flag. There's also a bug in the ld64 linker provided by the current Xcode toolchains that results in the -e linker flag (to set the entry point) having no effect, but hopefully this bug has been fixed (or Apple has switched to the LLVM lld linker) by the time we bump our deployment target. Change-Id: Ie0ba869c13ddc5277dc95c539aebaeb60e949dc2 Reviewed-by: Tor Arne Vestbø <tor.arne.vestbo@digia.com>
2013-09-06 21:16:28 +00:00
}
}
load(qt)