qt5base-lts/mkspecs/features/qt.prf

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# This avoids spurious errors when a project is explicitly disabled
# due to required Qt modules being missing.
!isEmpty(QMAKE_FAILED_REQUIREMENTS): return()
CONFIG *= thread
#handle defines
win32 {
qtConfig(shared) {
Update the macros for shared/DLL and static builds Up until now, we had a mess of different macros used for building DLLs, for building shared libraries on Unix systems and for building static libraries. Some of the macros were contradictory and did not work. From now on, there shall be only: - QT_STATIC: indicates that it's a static Qt build and the export macros should expand to empty - QT_SHARED: indicates that it's a shared / dynamic Qt build and the export macros should expand to Q_DECL_EXPORT or Q_DECL_IMPORT, depending on whether the macro corresponds to the current module being built (the QT_BUILD_XXXX_LIB macro comes from the module's .pro file) QT_BOOTSTRAPPED implies QT_STATIC since the bootstrapped tools link statically to some source code. QT_STATIC is recorded in qconfig.h by configure when Qt is configured for static builds. Nothing is recorded for a shared / dynamic build, so QT_SHARED is implied if nothing is defined. This allows for the existence of a static_and_shared build: with nothing recorded, defining QT_STATIC before qglobal.h causes the export macros to be that of the static form. Linking to the static libraries is out of the scope of this change (something for the buildsystem and linker to figure out). From this commit on, the proper way of declaring the export macros for a module called QtFoo is: #ifndef QT_STATIC # ifdef QT_BUILD_FOO_LIB # define Q_FOO_EXPORT Q_DECL_EXPORT # else # define Q_FOO_EXPORT Q_DECL_IMPORT # endif #else # define Q_FOO_EXPORT #endif The type of the Qt build is recorded in QT_CONFIG (in qconfig.pri) so all Qt modules build by default the same type of library. The keywords are "static" and "shared", used in both QT_CONFIG and CONFIG. The previous keyword of "staticlib" is deprecated and should not be used. Discussed-on: http://lists.qt-project.org/pipermail/development/2012-April/003172.html Change-Id: I127896607794795b681c98d08467efd8af49bcf3 Reviewed-by: Oswald Buddenhagen <oswald.buddenhagen@nokia.com> Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
2012-05-30 10:09:00 +00:00
# this variable is read by qmake in qmake/generators/win32/msvc_vcproj.cpp
# function VcprojGenerator::initDeploymentTool()
QMAKE_DLL_PATHS += $$[QT_INSTALL_BINS/get]
}
}
CONFIG(release, debug|release):DEFINES += QT_NO_DEBUG
qtConfig(force_asserts): DEFINES += QT_FORCE_ASSERTS
no_keywords:DEFINES += QT_NO_KEYWORDS
plugin { #Qt plugins
static:DEFINES += QT_STATICPLUGIN
DEFINES += QT_PLUGIN
}
qtestlib {
warning("CONFIG+=qtestlib is deprecated. Use QT+=testlib instead.")
QT += testlib
}
qdbus {
warning("CONFIG+=qdbus is deprecated. Use QT+=dbus instead.")
QT += dbus
}
help {
warning("CONFIG+=help is deprecated. Use QT+=help instead.")
QT += help-private # sic!
}
designer {
warning("CONFIG+=designer is deprecated. Use QT+=designer instead.")
QT += designer
}
uitools {
warning("CONFIG+=uitools is deprecated. Use QT+=uitools instead.")
QT += uitools
}
qaxcontainer {
warning("CONFIG+=qaxcontainer is deprecated. Use QT+=axcontainer instead.")
QT += axcontainer
}
qaxserver {
warning("CONFIG+=qaxserver is deprecated. Use QT+=axserver instead.")
QT += axserver
}
!import_qpa_plugin {
warning("CONFIG-=import_qpa_plugin is deprecated. Use QTPLUGIN.platforms=- instead.")
QTPLUGIN.platforms = -
} else: qpa_minimal_plugin {
warning("CONFIG+=qpa_minimal_plugin is deprecated. Use QTPLUGIN.platforms=qminimal instead.")
QTPLUGIN.platforms = qminimal
}
!force_import_plugins:!contains(TEMPLATE, ".*app"):!if(contains(TEMPLATE, ".*lib"):dll): \
CONFIG -= import_plugins
# qmake variables cannot contain dashes, so normalize the names first
CLEAN_QT = $$replace(QT, -private$, _private)
CLEAN_QT_PRIVATE = $$replace(QT_PRIVATE, -private$, _private)
qt_module_deps = $$CLEAN_QT $$CLEAN_QT_PRIVATE
all_qt_module_deps = $$resolve_depends(qt_module_deps, "QT.", ".depends" ".run_depends")
QTPLUGIN = $$unique($$list($$lower($$QTPLUGIN)))
import_plugins:qtConfig(static) {
manualplugs = $$QTPLUGIN # User may specify plugins. Mostly legacy.
autoplugs = # Auto-added plugins.
# First round: explicitly specified modules.
plugin_deps = $$all_qt_module_deps
for(ever) {
# Automatically link the default plugins for the linked Qt modules.
for (qtmod, plugin_deps) {
for (ptype, QT.$${qtmod}.plugin_types) {
nptype = $$replace(ptype, [-/], _)
isEmpty(QTPLUGIN.$$nptype) {
for (plug, QT_PLUGINS) {
equals(QT_PLUGIN.$${plug}.TYPE, $$ptype) {
for (dep, QT_PLUGIN.$${plug}.EXTENDS) {
!contains(all_qt_module_deps, $$dep) {
plug =
break()
}
}
autoplugs += $$plug
}
}
} else {
plug = $$eval(QTPLUGIN.$$nptype)
!equals(plug, -): \
autoplugs += $$plug
}
}
}
QTPLUGIN = $$manualplugs $$autoplugs
QTPLUGIN = $$unique(QTPLUGIN)
# Obtain the plugins' Qt dependencies ...
plugin_deps =
for (plug, QTPLUGIN): \
plugin_deps += $$eval(QT_PLUGIN.$${plug}.DEPENDS)
plugin_deps = $$resolve_depends(plugin_deps, "QT.", ".depends" ".run_depends")
plugin_deps -= $$all_qt_module_deps
isEmpty(plugin_deps): \
break()
# ... and start over if any new Qt modules appeared,
# as these may want to load plugins in turn.
all_qt_module_deps += $$plugin_deps
}
extraplugs = $$manualplugs
manualplugs -= $$autoplugs
extraplugs -= $$manualplugs
!isEmpty(extraplugs): \
warning("Redundant entries in QTPLUGIN: $$extraplugs")
!isEmpty(QTPLUGIN) {
IMPORT_FILE_CONT = \
"// This file is autogenerated by qmake. It imports static plugin classes for" \
"// static plugins specified using QTPLUGIN and QT_PLUGIN_CLASS.<plugin> variables." \
"$${LITERAL_HASH}include <QtPlugin>"
for (plug, QTPLUGIN) {
plug_class = $$eval(QT_PLUGIN.$${plug}.CLASS_NAME)
!isEmpty(plug_class): \
IMPORT_FILE_CONT += "Q_IMPORT_PLUGIN($$plug_class)"
else: \
warning("Plugin class name could not be determined for plugin '$$plug'.")
}
IMPORT_CPP = $$OUT_PWD/$$lower($$basename(TARGET))_plugin_import.cpp
write_file($$IMPORT_CPP, IMPORT_FILE_CONT)|error()
GENERATED_SOURCES += $$IMPORT_CPP
QMAKE_DISTCLEAN += $$IMPORT_CPP
}
}
# Only link against plugins in static builds
!isEmpty(QTPLUGIN):qtConfig(static) {
for (plug, QTPLUGIN) {
# Check if the plugin is known to Qt. We can use this to determine
# the plugin path. Unknown plugins must rely on the default link path.
plug_type = $$eval(QT_PLUGIN.$${plug}.TYPE)
!isEmpty(plug_type) {
plug_path = $$eval(QT_PLUGIN.$${plug}.PATH)
isEmpty(plug_path): \
plug_path = $$[QT_INSTALL_PLUGINS/get]
LIBS += -L$$plug_path/$$plug_type
}
LIBS += -l$${plug}$$qtPlatformTargetSuffix()
}
}
# target variable, flag source variable
defineTest(qtProcessModuleFlags) {
for(flag, $$2) {
contains(flag, ^-.*): \
$$1 -= $$replace(flag, ^-, )
else: \
$$1 += $$flag
}
export($$1)
}
unset(using_privates)
var_sfx =
for(ever) {
# Topological resolution of modules based on their QT.<module>.depends variable
FULL_QT$$var_sfx = $$resolve_depends(CLEAN_QT$$var_sfx, "QT.")
# Finally actually add the modules
unset(BAD_QT)
for(QTLIB, FULL_QT$$var_sfx) {
MODULE_NAME = $$eval(QT.$${QTLIB}.name)
MODULE_MODULE = $$eval(QT.$${QTLIB}.module)
MODULE_INCLUDES = $$eval(QT.$${QTLIB}.includes)
MODULE_LIBS = $$eval(QT.$${QTLIB}.libs)
MODULE_FRAMEWORKS = $$eval(QT.$${QTLIB}.frameworks)
MODULE_USES = $$eval(QT.$${QTLIB}.uses)
MODULE_CONFIG = $$eval(QT.$${QTLIB}.module_config)
isEmpty(MODULE_NAME) {
BAD_QT += $$QTLIB
next()
}
contains(MODULE_CONFIG, internal_module): \
using_privates = true
contains(MODULE_CONFIG, ltcg): \
CONFIG += link_ltcg
qtProcessModuleFlags(CONFIG, QT.$${QTLIB}.CONFIG)
qtProcessModuleFlags(DEFINES, QT.$${QTLIB}.DEFINES)
MODULE_INCLUDES -= $$QMAKE_DEFAULT_INCDIRS
MODULE_LIBS_ADD = $$MODULE_LIBS
MODULE_LIBS_ADD -= $$QMAKE_DEFAULT_LIBDIRS
# Frameworks shouldn't need include paths, but much code does not use
# module-qualified #includes, so by default we add paths which point
# directly into the frameworks. Private modules have somewhat convoluted
# header paths, so adding them is necessary in every case.
!if(contains(MODULE_CONFIG, lib_bundle):qt_no_framework_direct_includes) \
|contains(MODULE_CONFIG, internal_module): \
INCLUDEPATH *= $$MODULE_INCLUDES
QMAKE_FRAMEWORKPATH *= $$MODULE_FRAMEWORKS
!isEmpty(MODULE_MODULE) {
contains(MODULE_CONFIG, lib_bundle) {
macOS: Explicitly link to debug version of framework when needed When Qt is configured for both debug and release, and frameworks are enabled, we produce two dynamic libraries inside each framework, eg: QtCore.framework/QtCore QtCore.framework/QtCore_debug When building an executable against these frameworks, we pass -framework QtCore, and the resulting executable will have its LC_LOAD_DYLIB load commands pointing to e.g.: @rpath/QtCore.framework/Versions/5/QtCore When running the executable, the dynamic loader will load the dynamic library dependencies based on these load commands. By setting the DYLD_IMAGE_SUFFIX environment variable at runtime to '_debug', the dynamic loader will prefer the debug versions of each library inside the frameworks. Unfortunately the use of an environment variable to choose debug or release versions leaves room for mismatches between the executable and the libraries that are loaded. An executable built in debug mode will at runtime pick up the release versions of the Qt libraries unless the DYLD_IMAGE_SUFFIX has also been set to match the build configuration of the executable. This results in confusing situations such as building your application in debug mode, and then stepping into Qt code but not getting any symbols. Qt Creator has an option to run the application with DYLD_IMAGE_SUFFIX set, but this is not enabled by default due to the startup cost of loading the Qt debug libraries. More critically, it results in tests failing when the tests are using QTest::ignoreMessage to ignore warnings produced by Qt, and these calls are ifdefed (correctly) inside QT_NO_DEBUG, as the test (built in debug mode) will then expect warnings from Qt, but those warnings are not emittet, as the test is run against the release version of the Qt libraries. To mitigate this mismatch, we now link the Qt frameworks using an explicit suffix, just like we would for no-framework builds on macOS, for debug and release builds on Windows, and for normal builds on other Unixes, leaving the dependency chain for the application predictable: @rpath/QtCore.framework/Versions/5/QtCore_debug This also conceptually matches how Xcode builds applications and frameworks, where it never relies on DYLD_IMAGE_SUFFIX, and instead uses two separate build directories, one for each configuration. The change means that Qt Creator will always load the Qt debug libraries if the application is built in debug mode. For Qt development this is a good thing, as you expect to be able to step into Qt code. For our users, the added startup cost can be mitigated by shipping our binary packages as release-only, but with separate debug info enabled. Change-Id: Ib9f1f2dab90ed00b9fb011200e3a69c71955e399 Reviewed-by: Morten Johan Sørvig <morten.sorvig@qt.io> Reviewed-by: Thiago Macieira <thiago.macieira@intel.com> Reviewed-by: Oswald Buddenhagen <oswald.buddenhagen@qt.io>
2018-03-09 16:04:37 +00:00
framework = $$MODULE_MODULE
LIBS$$var_sfx += -framework $$framework
} else {
!isEmpty(MODULE_LIBS_ADD): \
LIBS$$var_sfx += -L$$MODULE_LIBS_ADD
lib = $$MODULE_MODULE$$qtPlatformTargetSuffix()
LIBS$$var_sfx += -l$$lib
contains(MODULE_CONFIG, staticlib): \
PRE_TARGETDEPS *= $$MODULE_LIBS/$${QMAKE_PREFIX_STATICLIB}$${lib}.$${QMAKE_EXTENSION_STATICLIB}
!isEmpty(QMAKE_LSB) {
!isEmpty(MODULE_LIBS_ADD): \
QMAKE_LFLAGS *= --lsb-libpath=$$MODULE_LIBS_ADD
QMAKE_LFLAGS *= --lsb-shared-libs=$$lib
QMAKE_LIBDIR *= /opt/lsb/lib
}
}
}
QMAKE_USE$$var_sfx += $$MODULE_USES
# Add capabilities as defined by modules used in the project
winrt {
MODULE_WINRT_CAPABILITIES = $$eval(QT.$${QTLIB}.winrt_capabilities)
!isEmpty(MODULE_WINRT_CAPABILITIES): \
WINRT_MANIFEST.capabilities_default += $$MODULE_WINRT_CAPABILITIES
MODULE_WINRT_CAPABILITIES_DEVICE = $$eval(QT.$${QTLIB}.winrt_capabilities_device)
!isEmpty(MODULE_WINRT_CAPABILITIES_DEVICE): \
WINRT_MANIFEST.capabilities_device_default += $$MODULE_WINRT_CAPABILITIES_DEVICE
}
}
!isEmpty(BAD_QT):error("Unknown module(s) in QT$$var_sfx: $$replace(BAD_QT, _private$, -private)")
!isEmpty(var_sfx): break()
var_sfx = _PRIVATE
}
!isEmpty(using_privates):!no_private_qt_headers_warning:!build_pass {
message("This project is using private headers and will therefore be tied to this specific Qt module build version.")
message("Running this project against other versions of the Qt modules may crash at any arbitrary point.")
message("This is not a bug, but a result of using Qt internals. You have been warned!")
}
!no_qt_rpath:!static:qtConfig(rpath):!qtConfig(static):\
contains(all_qt_module_deps, core) {
relative_qt_rpath:!isEmpty(QMAKE_REL_RPATH_BASE):contains(INSTALLS, target):\
isEmpty(target.files):isEmpty(target.commands):isEmpty(target.extra) {
# NOT the /dev property, as INSTALLS use host paths
QMAKE_RPATHDIR += $$relative_path($$[QT_INSTALL_LIBS], $$qtRelativeRPathBase())
} else {
QMAKE_RPATHDIR += $$[QT_INSTALL_LIBS/dev]
}
}
!isEmpty(QMAKE_LFLAGS_RPATHLINK):!qtConfig(static) {
# -rpath-link is used by the linker to find dependencies of dynamic
# libraries which were NOT specified on the command line.
# This means that paths of direct dependencies (QT & QT_PRIVATE)
# don't need to be listed, unlike their private dependencies' paths.
privdep = $$all_qt_module_deps
privdep -= $$resolve_depends(qt_module_deps, "QT.")
rpaths =
for(dep, privdep): \
rpaths += $$eval(QT.$${dep}.libs)
QMAKE_RPATHLINKDIR *= $$unique(rpaths)
}
# static builds: link qml import plugins into the target.
contains(all_qt_module_deps, qml): \
qtConfig(static):import_plugins:!host_build:!no_import_scan {
exists($$[QT_INSTALL_QML/get]): \
QMLPATHS *= $$[QT_INSTALL_QML/get]
# run qmlimportscanner
qtPrepareTool(QMLIMPORTSCANNER, qmlimportscanner, , system)
for (QMLPATH, QMLPATHS): \
IMPORTPATHS += -importPath $$system_quote($$QMLPATH)
#message(run $$QMLIMPORTSCANNER $$_PRO_FILE_PWD_ $$IMPORTPATHS)
JSON = $$system($$QMLIMPORTSCANNER $$system_quote($$_PRO_FILE_PWD_) $$IMPORTPATHS)
parseJson(JSON, IMPORTS)| error("Failed to parse qmlimportscanner output.")
!isEmpty(IMPORTS._KEYS_) {
# add import plugins to LIBS line
for (key, IMPORTS._KEYS_) {
PATH = $$eval(IMPORTS.$${key}.path)
PLUGIN = $$eval(IMPORTS.$${key}.plugin)
!isEmpty(PATH):!isEmpty(PLUGIN): LIBS *= -L$$PATH -l$${PLUGIN}$$qtPlatformTargetSuffix()
}
# create qml_plugin_import.cpp
IMPORT_FILE_CONT = \
"// This file is autogenerated by qmake. It imports static plugin classes for" \
"// static plugins used by QML imports." \
"$${LITERAL_HASH}include <QtPlugin>"
for (key, IMPORTS._KEYS_) {
PLUGIN = $$eval(IMPORTS.$${key}.plugin)
CLASSNAME = $$eval(IMPORTS.$${key}.classname)
!isEmpty(PLUGIN) {
!isEmpty(CLASSNAME) {
!contains(ADDED_IMPORTS, $$PLUGIN) {
ADDED_IMPORTS += $$PLUGIN
IMPORT_FILE_CONT += "Q_IMPORT_PLUGIN($$CLASSNAME)"
}
} else {
error("Plugin $$PLUGIN is missing a classname entry, please add one to the qmldir file.")
}
}
}
QML_IMPORT_CPP = $$OUT_PWD/$$lower($$basename(TARGET))_qml_plugin_import.cpp
write_file($$QML_IMPORT_CPP, IMPORT_FILE_CONT)|error()
GENERATED_SOURCES += $$QML_IMPORT_CPP
QMAKE_DISTCLEAN += $$QML_IMPORT_CPP
}
}