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qt5base-lts/mkspecs/features/qt_functions.prf
Romain Pokrzywka 84118ffa2c Fix accessing the rpath dir from included modules 
The wrong variable was used when reading the module settings

Change-Id: If35dc9694240a68393b24d7dba72520108cb9ac3
Reviewed-by: Oswald Buddenhagen <oswald.buddenhagen@digia.com>
2012-09-28 21:09:35 +02:00

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defineReplace(qtPlatformTargetSuffix) {
CONFIG(debug, debug|release) {
!debug_and_release|build_pass {
mac:return(_debug)
win32:return(d)
}
}
return()
}
defineReplace(qtLibraryTarget) {
unset(LIBRARY_NAME)
LIBRARY_NAME = $$1
mac:!static:contains(QT_CONFIG, qt_framework) {
QMAKE_FRAMEWORK_BUNDLE_NAME = $$LIBRARY_NAME
export(QMAKE_FRAMEWORK_BUNDLE_NAME)
}
unset(LIBRARY_SUFFIX)
contains(TEMPLATE, .*lib):LIBRARY_SUFFIX = $$qtPlatformTargetSuffix()
isEmpty(LIBRARY_SUFFIX):return($$LIBRARY_NAME)
else:return($$member(LIBRARY_NAME, 0)$$LIBRARY_SUFFIX)
}
defineTest(qtAddLibrary) {
warning("qtAddLibrary() is deprecated. Use qtAddModule() or QT+= instead.")
# Reverse-engineer the module name from the library name.
for(var, $$list($$find($$list($$enumerate_vars()), ^QT\\.[^.]+\\.name$))) {
isEqual($$var, $$1) {
var ~= s,^QT\\.([^.]+)\\.name$,\\1,
qtAddModule($$var, , LIBS):return(true):break()
return(false):break() # Yes, the break is insanity. But necessary.
}
}
error("No module matching library '$$1' found.")
}
# qt module, UsePrivate flag, libs variable
defineTest(qtAddModule) {
MODULE_NAME = $$eval(QT.$${1}.name)
MODULE_INCLUDES = $$eval(QT.$${1}.includes)
MODULE_LIBS = $$eval(QT.$${1}.libs)
MODULE_CONFIG = $$eval(QT.$${1}.module_config)
MODULE_MAJOR_VERSION = $$eval(QT.$${1}.MAJOR_VERSION)
CONFIG += $$eval(QT.$${1}.CONFIG)
DEFINES += $$eval(QT.$${1}.DEFINES)
MODULE_INCLUDES -= $$QMAKE_DEFAULT_INCDIRS
MODULE_LIBS -= $$QMAKE_DEFAULT_LIBDIRS
INCLUDEPATH *= $$MODULE_INCLUDES
auto_use_privates|isEqual(2, UsePrivate) { # Tests function parameter 2 ($$2) being equal to 'UsePrivate'
INCLUDEPATH += $$eval(QT.$${1}.private_includes)
}
unset(LINKAGE)
mac {
contains(MODULE_CONFIG, lib_bundle) {
FRAMEWORK_INCLUDE = $${MODULE_LIBS}/$${MODULE_NAME}.framework/Headers
!qt_no_framework_direct_includes:exists($$FRAMEWORK_INCLUDE) {
INCLUDEPATH *= $$FRAMEWORK_INCLUDE
LINKAGE = -F$${MODULE_LIBS}
} else {
QMAKE_FRAMEWORKPATH *= $${MODULE_LIBS}
}
LINKAGE += -framework $${MODULE_NAME}$${QT_LIBINFIX}
}
}
win32 {
# Make sure we link against the version pulled from the module's .pri
ver_var = QMAKE_$${upper($$MODULE_NAME$$QT_LIBINFIX)}_VERSION_OVERRIDE
dver_var = QMAKE_$${upper($$MODULE_NAME$$QT_LIBINFIX)}D_VERSION_OVERRIDE
$$ver_var = $$MODULE_MAJOR_VERSION
$$dver_var = $$MODULE_MAJOR_VERSION
export($$ver_var)
export($$dver_var)
}
isEmpty(LINKAGE) {
!isEmpty(MODULE_LIBS): LINKAGE = -L$$MODULE_LIBS
lib =
if(!debug_and_release|build_pass):CONFIG(debug, debug|release) {
win32: lib = -l$${MODULE_NAME}$${QT_LIBINFIX}d
mac: lib = -l$${MODULE_NAME}$${QT_LIBINFIX}_debug
}
isEmpty(lib): lib = -l$${MODULE_NAME}$${QT_LIBINFIX}
LINKAGE += $$lib
contains(QT_CONFIG, rpath) {
rpath = $$eval(QT.$${1}.rpath)
isEmpty(rpath): rpath = $$MODULE_LIBS
QMAKE_RPATHDIR *= $$rpath
}
# Make sure we can link to uninstalled libraries
unix:!mac:!isEmpty(QT.$${1}.libs) { # Use unmodified path, so /usr/lib also works
for(rpl, QT.$${1}.rpath_link): \
QMAKE_LFLAGS *= -Wl,-rpath-link,$$rpl
!auto_use_privates:!isEqual(2, UsePrivate): \
for(rpl, QT.$${1}.rpath_link_private): \
QMAKE_LFLAGS *= -Wl,-rpath-link,$$rpl
}
}
# Only link to this module if a libs directory is set, else this is just a module
# to give access to sources or include files, and not for linking.
!isEmpty(QT.$${1}.libs) { # Use unmodified path, so /usr/lib also works
!isEmpty(QMAKE_LSB) {
!isEmpty(MODULE_LIBS): QMAKE_LFLAGS *= --lsb-libpath=$$MODULE_LIBS
QMAKE_LIBDIR *= /opt/lsb/lib
QMAKE_LFLAGS *= --lsb-shared-libs=$${MODULE_NAME}$${QT_LIBINFIX}
}
$$3 += $$LINKAGE
}
export(CONFIG)
export(DEFINES)
export($$3)
export(INCLUDEPATH)
export(QMAKE_FRAMEWORKPATH)
export(QMAKE_LFLAGS)
export(QMAKE_LIBDIR)
export(QMAKE_RPATHDIR)
return(true)
}
# qt variable, libs variable
defineTest(qtAddModules) {
# Figure out from which modules we're wanting to use the private headers
NEWQT =
for(QTLIB, $$1) {
QTLIBRAW = $$replace(QTLIB, -private$, )
!isEqual(QTLIBRAW, $$QTLIB) {
want_var = QT.$${QTLIBRAW}.want_private
$$want_var = UsePrivate
using_privates = true
NEWQT += $$eval(QT.$${QTLIBRAW}.private_depends)
}
NEWQT += $$QTLIBRAW
contains(QT.$${QTLIBRAW}.CONFIG, auto_use_privates): CONFIG += auto_use_privates
}
# Topological resolution of modules based on their QT.<module>.depends variable
$$1 = $$resolve_depends(NEWQT, "QT.")
# Finally actually add the modules
unset(BAD_QT)
for(QTLIB, $$1) {
QTLIBNAME = $$eval(QT.$${QTLIB}.name)
isEmpty(QTLIBNAME) {
BAD_QT += $$QTLIB
next()
}
target_qt:isEqual(TARGET, $$QTLIBNAME) {
warning("$$TARGET cannot have a $$1 of $$QTLIB")
next()
}
qtAddModule($$QTLIB, $$eval(QT.$${QTLIB}.want_private), $$2)
}
!isEmpty(BAD_QT):error("Unknown module(s) in $$1: $$BAD_QT")
export(using_privates)
}
# variable, default
defineTest(qtPrepareTool) {
$$1 = $$eval(QT_TOOL.$${2}.command)
isEmpty($$1) {
$$1 = $$[QT_HOST_BINS/get]/$$2
contains(QMAKE_HOST.os, Windows):!contains($$1, .*\\.(exe|bat)$) {
exists($$eval($$1).bat) {
$$1 = $$eval($$1).bat
} else {
$$1 = $$eval($$1).exe
}
} else:contains(QMAKE_HOST.os, Darwin) {
BUNDLENAME = $$eval($$1).app/Contents/MacOS/$$2
exists($$BUNDLENAME) {
$$1 = $$BUNDLENAME
}
}
$$1 = $$shell_path($$eval($$1))
}
export($$1)
}
defineTest(qtAddToolEnv) {
for(env, 2) {
value = $$eval($${env}.value)
!isEmpty(value) {
name = $$eval($${env}.name)
equals(QMAKE_DIR_SEP, /) {
contains($${env}.CONFIG, prepend): infix = \${$$name:+:\$$$name}
else: infix =
$$1 = "$$name=$$join(value, :)$$infix $$eval($$1)"
} else {
# Escape closing parens when expanding the variable, otherwise cmd confuses itself.
contains($${env}.CONFIG, prepend): infix = ;%$$name:)=^)%
else: infix =
$$1 = "(set $$name=$$join(value, ;)$$infix) & $$eval($$1)"
}
}
}
export($$1)
}
defineTest(qtAddTargetEnv) {
deps = $$resolve_depends(QT, "QT.")
!isEmpty(deps) {
plugin_paths =
for(dep, deps) {
deppath += $$shell_path($$eval(QT.$${dep}.libs))
for(rpath, QT.$${dep}.rpath_link): \
deppath += $$shell_path($$rpath)
plugin_paths += $$eval(QT.$${dep}.plugin_path) $$eval(QT.$${dep}.plugins)
}
equals(QMAKE_HOST.os, Windows): \
deppath.name = PATH
else:contains(QMAKE_HOST.os, Linux|FreeBSD): \
deppath.name = LD_LIBRARY_PATH
else:equals(QMAKE_HOST.os, Darwin): \
deppath.name = DYLD_LIBRARY_PATH
else: \
error("Operating system not supported.")
deppath.value = $$unique(deppath)
deppath.CONFIG = prepend
pluginpath.name = QT_PLUGIN_PATH
pluginpath.value =
plugin_paths = $$unique(plugin_paths)
for(ppath, plugin_paths): \
exists($$ppath): \
pluginpath.value += $$shell_path($$ppath)
QT_TOOL_ENV += deppath pluginpath
}
qtAddToolEnv($$1, $$QT_TOOL_ENV)
}
defineReplace(pkgConfigExecutable) {
isEmpty(PKG_CONFIG) {
PKG_CONFIG = pkg-config
!isEmpty(PKG_CONFIG_SYSROOT_DIR) {
win32:isEmpty(MINGW_IN_SHELL):PKG_CONFIG = set PKG_CONFIG_SYSROOT_DIR=$$PKG_CONFIG_SYSROOT_DIR& $$PKG_CONFIG
else:PKG_CONFIG = PKG_CONFIG_SYSROOT_DIR=\"$$PKG_CONFIG_SYSROOT_DIR\" $$PKG_CONFIG
}
!isEmpty(PKG_CONFIG_LIBDIR) {
win32:isEmpty(MINGW_IN_SHELL):PKG_CONFIG = set PKG_CONFIG_LIBDIR=$$PKG_CONFIG_LIBDIR& $$PKG_CONFIG
else:PKG_CONFIG = PKG_CONFIG_LIBDIR=\"$$PKG_CONFIG_LIBDIR\" $$PKG_CONFIG
}
}
return($$PKG_CONFIG)
}
defineTest(packagesExist) {
# this can't be done in global scope here because qt_functions is loaded
# before the .pro is parsed, so if the .pro set PKG_CONFIG, we wouldn't know it
# yet. oops.
pkg_config = $$pkgConfigExecutable()
for(package, ARGS) {
!system($$pkg_config --exists $$package):return(false)
}
return(true)
}
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