qt5base-lts/configure.pri
Liang Qi a503bf5470 Merge remote-tracking branch 'origin/5.15' into dev
Conflicts:
	src/corelib/tools/qvector.h
		Make QVector(DataPointer dd) public to be able to properly merge
		5b4b437b30 from 5.15 into dev.
	src/widgets/kernel/qapplication.cpp
	tests/auto/tools/moc/allmocs_baseline_in.json

Done-With: Christian Ehrlicher <ch.ehrlicher@gmx.de>
Change-Id: I929ba7c036d570382d0454c2c75f6f0d96ddbc01
2020-01-04 15:32:34 +01:00

1389 lines
51 KiB
Plaintext

# this must be done outside any function
QT_SOURCE_TREE = $$PWD
QT_BUILD_TREE = $$shadowed($$PWD)
# custom command line handling
defineTest(qtConfCommandline_qmakeArgs) {
contains(1, QMAKE_[A-Z0-9_]+ *[-+]?=.*) {
config.input.qmakeArgs += $$1
export(config.input.qmakeArgs)
return(true)
}
return(false)
}
defineTest(qtConfCommandline_cxxstd) {
arg = $${1}
val = $${2}
isEmpty(val): val = $$qtConfGetNextCommandlineArg()
!contains(val, "^-.*"):!isEmpty(val) {
contains(val, "(c\+\+)?11") {
qtConfCommandlineSetInput("c++14", "no")
qtConfCommandlineSetInput("c++1z", "no")
qtConfCommandlineSetInput("c++2a", "no")
} else: contains(val, "(c\+\+)?(14|1y)") {
qtConfCommandlineSetInput("c++14", "yes")
qtConfCommandlineSetInput("c++1z", "no")
qtConfCommandlineSetInput("c++2a", "no")
} else: contains(val, "(c\+\+)?(17|1z)") {
qtConfCommandlineSetInput("c++14", "yes")
qtConfCommandlineSetInput("c++1z", "yes")
qtConfCommandlineSetInput("c++2a", "no")
} else: contains(val, "(c\+\+)?(2a)") {
qtConfCommandlineSetInput("c++14", "yes")
qtConfCommandlineSetInput("c++1z", "yes")
qtConfCommandlineSetInput("c++2a", "yes")
} else {
qtConfAddError("Invalid argument $$val to command line parameter $$arg")
}
} else {
qtConfAddError("Missing argument to command line parameter $$arg")
}
}
defineTest(qtConfCommandline_sanitize) {
arg = $${1}
val = $${2}
isEmpty(val): val = $$qtConfGetNextCommandlineArg()
!contains(val, "^-.*"):!isEmpty(val) {
equals(val, "address") {
qtConfCommandlineSetInput("sanitize_address", "yes")
} else: equals(val, "thread") {
qtConfCommandlineSetInput("sanitize_thread", "yes")
} else: equals(val, "memory") {
qtConfCommandlineSetInput("sanitize_memory", "yes")
} else: equals(val, "fuzzer-no-link") {
qtConfCommandlineSetInput("sanitize_fuzzer_no_link", "yes")
} else: equals(val, "undefined") {
qtConfCommandlineSetInput("sanitize_undefined", "yes")
} else {
qtConfAddError("Invalid argument $$val to command line parameter $$arg")
}
} else {
qtConfAddError("Missing argument to command line parameter $$arg")
}
}
defineTest(qtConfCommandline_coverage) {
arg = $${1}
val = $${2}
isEmpty(val): val = $$qtConfGetNextCommandlineArg()
!contains(val, "^-.*"):!isEmpty(val) {
equals(val, "trace-pc-guard") {
qtConfCommandlineSetInput("coverage_trace_pc_guard", "yes")
} else {
qtConfAddError("Invalid argument $$val to command line parameter $$arg")
}
} else {
qtConfAddError("Missing argument to command line parameter $$arg")
}
}
# callbacks
defineReplace(qtConfFunc_crossCompile) {
!isEmpty(config.input.sysroot): return(true)
spec = $$[QMAKE_SPEC]
!equals(spec, $$[QMAKE_XSPEC]): return(true)
return(false)
}
defineReplace(qtConfFunc_licenseCheck) {
exists($$QT_SOURCE_TREE/LICENSE.LGPL3)|exists($$QT_SOURCE_TREE/LICENSE.GPL2)|exists($$QT_SOURCE_TREE/LICENSE.GPL3): \
hasOpenSource = true
else: \
hasOpenSource = false
exists($$QT_SOURCE_TREE/LICENSE.QT-LICENSE-AGREEMENT): \
hasCommercial = true
else: \
hasCommercial = false
commercial = $$config.input.commercial
isEmpty(commercial) {
$$hasOpenSource {
$$hasCommercial {
logn()
logn("Selecting Qt Edition.")
logn()
logn("Type 'c' if you want to use the Commercial Edition.")
logn("Type 'o' if you want to use the Open Source Edition.")
logn()
for(ever) {
val = $$lower($$prompt("Which edition of Qt do you want to use? ", false))
equals(val, c) {
commercial = yes
QMAKE_SAVED_ARGS += -commercial
} else: equals(val, o) {
commercial = no
QMAKE_SAVED_ARGS += -opensource
} else {
next()
}
export(QMAKE_SAVED_ARGS)
break()
}
} else {
commercial = no
}
} else {
!$$hasCommercial: \
qtConfFatalError("No license files. Cannot proceed. Try re-installing Qt.")
commercial = yes
}
}
equals(commercial, no) {
!$$hasOpenSource: \
qtConfFatalError("This is the Qt Commercial Edition." \
"Cannot proceed with -opensource.")
logn()
logn("This is the Qt Open Source Edition.")
EditionString = "Open Source"
config.input.qt_edition = OpenSource
export(config.input.qt_edition)
} else {
!$$hasCommercial: \
qtConfFatalError("This is the Qt Open Source Edition." \
"Cannot proceed with -commercial.")
!exists($$QT_SOURCE_TREE/.release-timestamp) {
# Build from git
logn()
logn("This is the Qt Commercial Edition.")
EditionString = "Commercial"
config.input.qt_edition = Commercial
export(config.input.qt_edition)
} else {
# Build from a released source package
equals(QMAKE_HOST.os, Linux) {
!equals(QMAKE_HOST.arch, x86_64): \
Licheck = licheck32
else: \
Licheck = licheck64
} else: equals(QMAKE_HOST.os, Darwin) {
Licheck = licheck_mac
} else: equals(QMAKE_HOST.os, Windows) {
Licheck = licheck.exe
} else {
qtConfFatalError("Host operating system not supported by this edition of Qt.")
}
!qtRunLoggedCommand("$$system_quote($$QT_SOURCE_TREE/bin/$$Licheck) \
$$system_quote($$eval(config.input.confirm-license)) \
$$system_quote($$QT_SOURCE_TREE) $$system_quote($$QT_BUILD_TREE) \
$$[QMAKE_SPEC] $$[QMAKE_XSPEC]", \
LicheckOutput, false): \
return(false)
logn()
for (o, LicheckOutput) {
contains(o, "\\w+=.*"): \
eval($$o)
else: \
logn($$o)
}
config.input.qt_edition = $$Edition
config.input.qt_licheck = $$Licheck
config.input.qt_release_date = $$ReleaseDate
export(config.input.qt_edition)
export(config.input.qt_licheck)
export(config.input.qt_release_date)
return(true)
}
}
!isEmpty(config.input.confirm-license) {
logn()
logn("You have already accepted the terms of the $$EditionString license.")
return(true)
}
affix = the
equals(commercial, no) {
theLicense = "GNU Lesser General Public License (LGPL) version 3"
showWhat = "Type 'L' to view the GNU Lesser General Public License version 3 (LGPLv3)."
gpl2Ok = false
gpl3Ok = false
winrt {
notTheLicense = "Note: GPL version 2 is not available on WinRT."
} else: wasm {
gpl3Ok = true
theLicense = "GNU General Public License (GPL) version 3"
showWhat = "Type 'G' to view the GNU General Public License version 3 (GPLv3)."
} else: $$qtConfEvaluate("features.android-style-assets") {
notTheLicense = "Note: GPL version 2 is not available due to using Android style assets."
} else {
theLicense += "or the GNU General Public License (GPL) version 2"
showWhat += "Type 'G' to view the GNU General Public License version 2 (GPLv2)."
gpl2Ok = true
affix = either
}
} else {
theLicense = $$cat($$QT_SOURCE_TREE/LICENSE.QT-LICENSE-AGREEMENT, lines)
theLicense = $$first(theLicense)
showWhat = "Type '?' to view the $${theLicense}."
}
msg = \
" " \
"You are licensed to use this software under the terms of" \
"the "$$theLicense"." \
$$notTheLicense \
" " \
$$showWhat \
"Type 'y' to accept this license offer." \
"Type 'n' to decline this license offer." \
" "
for(ever) {
logn($$join(msg, $$escape_expand(\\n)))
for(ever) {
val = $$lower($$prompt("Do you accept the terms of $$affix license? ", false))
equals(val, y)|equals(val, yes) {
logn()
QMAKE_SAVED_ARGS += -confirm-license
export(QMAKE_SAVED_ARGS)
return(true)
} else: equals(val, n)|equals(val, no) {
return(false)
} else: equals(commercial, yes):equals(val, ?) {
licenseFile = $$QT_SOURCE_TREE/LICENSE.QT-LICENSE-AGREEMENT
} else: equals(commercial, no):equals(val, l) {
licenseFile = $$QT_SOURCE_TREE/LICENSE.LGPL3
} else: equals(commercial, no):equals(val, g):$$gpl2Ok {
licenseFile = $$QT_SOURCE_TREE/LICENSE.GPL2
} else: equals(commercial, no):equals(val, g):$$gpl3Ok {
licenseFile = $$QT_SOURCE_TREE/LICENSE.GPL3
} else {
next()
}
break()
}
system("more $$system_quote($$system_path($$licenseFile))")
logn()
logn()
}
}
# custom tests
# this is meant for linux device specs only
defineTest(qtConfTest_machineTuple) {
qtRunLoggedCommand("$$QMAKE_CXX -dumpmachine", $${1}.tuple)|return(false)
$${1}.cache += tuple
export($${1}.cache)
return(true)
}
defineTest(qtConfTest_verifySpec) {
qtConfTest_compile($$1): return(true)
qtConfFatalError("Cannot compile a minimal program. The toolchain or QMakeSpec is broken.", log)
}
defineTest(qtConfTest_architecture) {
!qtConfTest_compile($${1}): \
error("Could not determine $$eval($${1}.label). See config.log for details.")
test = $$eval($${1}.test)
output = $$eval($${1}.output)
test_out_dir = $$OUT_PWD/$$basename(QMAKE_CONFIG_TESTS_DIR)/$$test
test_out_file = $$test_out_dir/$$cat($$test_out_dir/$${output}.target.txt)
exists($$test_out_file): \
content = $$cat($$test_out_file, blob)
else: \
error("$$eval($${1}.label) detection binary not found.")
content = $$cat($$test_out_file, blob)
arch_magic = ".*==Qt=magic=Qt== Architecture:([^\\0]*).*"
subarch_magic = ".*==Qt=magic=Qt== Sub-architecture:([^\\0]*).*"
buildabi_magic = ".*==Qt=magic=Qt== Build-ABI:([^\\0]*).*"
!contains(content, $$arch_magic)|!contains(content, $$subarch_magic)|!contains(content, $$buildabi_magic): \
error("$$eval($${1}.label) detection binary does not contain expected data.")
$${1}.arch = $$replace(content, $$arch_magic, "\\1")
$${1}.subarch = $$replace(content, $$subarch_magic, "\\1")
$${1}.subarch = $$split($${1}.subarch, " ")
$${1}.buildabi = $$replace(content, $$buildabi_magic, "\\1")
export($${1}.arch)
export($${1}.subarch)
export($${1}.buildabi)
qtLog("Detected architecture: $$eval($${1}.arch) ($$eval($${1}.subarch))")
$${1}.cache += arch subarch buildabi
export($${1}.cache)
return(true)
}
defineTest(qtConfTest_gnumake) {
make = $$qtConfFindInPath("gmake")
isEmpty(make): make = $$qtConfFindInPath("make")
!isEmpty(make) {
qtRunLoggedCommand("$$make -v", version)|return(false)
contains(version, "^GNU Make.*"): return(true)
}
return(false)
}
defineTest(qtConfTest_detectPkgConfig) {
pkgConfig = $$getenv("PKG_CONFIG")
!isEmpty(pkgConfig): {
qtLog("Found pkg-config from environment variable: $$pkgConfig")
} else {
pkgConfig = $$QMAKE_PKG_CONFIG
!isEmpty(pkgConfig) {
qtLog("Found pkg-config from mkspec: $$pkgConfig")
} else {
pkgConfig = $$qtConfFindInPath("pkg-config")
isEmpty(pkgConfig): \
return(false)
qtLog("Found pkg-config from path: $$pkgConfig")
}
}
$$qtConfEvaluate("features.cross_compile") {
# cross compiling, check that pkg-config is set up sanely
sysroot = $$config.input.sysroot
pkgConfigLibdir = $$getenv("PKG_CONFIG_LIBDIR")
isEmpty(pkgConfigLibdir) {
isEmpty(sysroot) {
qtConfAddWarning("Cross compiling without sysroot. Disabling pkg-config")
return(false)
}
!exists("$$sysroot/usr/lib/pkgconfig") {
qtConfAddWarning( \
"Disabling pkg-config since PKG_CONFIG_LIBDIR is not set and" \
"the host's .pc files would be used (even if you set PKG_CONFIG_PATH)." \
"Set this variable to the directory that contains target .pc files" \
"for pkg-config to function correctly when cross-compiling or" \
"use -pkg-config to override this test.")
return(false)
}
pkgConfigLibdir = $$sysroot/usr/lib/pkgconfig:$$sysroot/usr/share/pkgconfig
machineTuple = $$eval($${currentConfig}.tests.machineTuple.tuple)
!isEmpty(machineTuple): \
pkgConfigLibdir = "$$pkgConfigLibdir:$$sysroot/usr/lib/$$machineTuple/pkgconfig"
qtConfAddNote("PKG_CONFIG_LIBDIR automatically set to $$pkgConfigLibdir")
}
pkgConfigSysrootDir = $$getenv("PKG_CONFIG_SYSROOT_DIR")
isEmpty(pkgConfigSysrootDir) {
isEmpty(sysroot) {
qtConfAddWarning( \
"Disabling pkg-config since PKG_CONFIG_SYSROOT_DIR is not set." \
"Set this variable to your sysroot for pkg-config to function correctly when" \
"cross-compiling or use -pkg-config to override this test.")
return(false)
}
pkgConfigSysrootDir = $$sysroot
qtConfAddNote("PKG_CONFIG_SYSROOT_DIR automatically set to $$pkgConfigSysrootDir")
}
$${1}.pkgConfigLibdir = $$pkgConfigLibdir
export($${1}.pkgConfigLibdir)
$${1}.pkgConfigSysrootDir = $$pkgConfigSysrootDir
export($${1}.pkgConfigSysrootDir)
$${1}.cache += pkgConfigLibdir pkgConfigSysrootDir
}
$${1}.pkgConfig = $$pkgConfig
export($${1}.pkgConfig)
$${1}.cache += pkgConfig
export($${1}.cache)
return(true)
}
defineTest(qtConfTest_buildParts) {
parts = $$config.input.make
isEmpty(parts) {
parts = libs examples
$$qtConfEvaluate("features.developer-build"): \
parts += tests
!$$qtConfEvaluate("features.cross_compile"): \
parts += tools
}
parts -= $$config.input.nomake
# always add libs, as it's required to build Qt
parts *= libs
$${1}.value = $$parts
export($${1}.value)
$${1}.cache = -
export($${1}.cache)
return(true)
}
defineTest(qtConfTest_x86Simd) {
simd = $$section(1, ".", -1) # last component
$${1}.args = CONFIG+=add_cflags DEFINES+=NO_ATTRIBUTE SIMD=$$simd
$${1}.test = x86_simd
qtConfTest_compile($${1})
}
defineTest(qtConfTest_x86SimdAlways) {
configs =
fpfx = $${currentConfig}.features
tpfx = $${currentConfig}.tests
# Make a list of all passing features whose tests have type=x86Simd
for (f, $${tpfx}._KEYS_) {
!equals($${tpfx}.$${f}.type, "x86Simd"): \
next()
qtConfCheckFeature($$f)
equals($${fpfx}.$${f}.available, true): configs += $$f
}
$${1}.literal_args = SIMD=$$join(configs, " ")
qtConfTest_compile($${1})
}
# custom outputs
# this reloads the qmakespec as completely as reasonably possible.
defineTest(reloadSpec) {
bypassNesting() {
for (f, QMAKE_INTERNAL_INCLUDED_FILES) {
contains(f, .*/mkspecs/.*):\
!contains(f, .*/(qt_build_config|qt_parts|qt_configure|configure_base)\\.prf): \
discard_from($$f)
}
# nobody's going to try to re-load the features above,
# so don't bother with being selective.
QMAKE_INTERNAL_INCLUDED_FEATURES = \
# loading it gets simulated below.
$$[QT_HOST_DATA/src]/mkspecs/features/device_config.prf \
# must be delayed until qdevice.pri is ready.
$$[QT_HOST_DATA/src]/mkspecs/features/mac/toolchain.prf \
$$[QT_HOST_DATA/src]/mkspecs/features/toolchain.prf
saved_variables = CONFIG QMAKE_CXXFLAGS
for (name, saved_variables): \
_SAVED_$$name = $$eval($$name)
load(spec_pre)
# qdevice.pri gets written too late (and we can't write it early
# enough, as it's populated in stages, with later ones depending
# on earlier ones). so inject its variables manually.
for (l, $${currentConfig}.output.devicePro): \
eval($$l)
include($$QMAKESPEC/qmake.conf)
load(spec_post)
for (name, saved_variables): \
$$name += $$eval(_SAVED_$$name)
load(default_pre)
# ensure pristine environment for configuration. again.
discard_from($$[QT_HOST_DATA/get]/mkspecs/qconfig.pri)
discard_from($$[QT_HOST_DATA/get]/mkspecs/qmodule.pri)
}
}
defineTest(qtConfOutput_prepareSpec) {
device = $$eval(config.input.device)
!isEmpty(device) {
devices = $$files($$[QT_HOST_DATA/src]/mkspecs/devices/*$$device*)
isEmpty(devices): \
qtConfFatalError("No device matching '$$device'.")
!count(devices, 1) {
err = "Multiple matches for device '$$device'. Candidates are:"
for (d, devices): \
err += " $$basename(d)"
qtConfFatalError($$err)
}
XSPEC = $$relative_path($$devices, $$[QT_HOST_DATA/src]/mkspecs)
}
xspec = $$eval(config.input.xplatform)
!isEmpty(xspec) {
!exists($$[QT_HOST_DATA/src]/mkspecs/$$xspec/qmake.conf): \
qtConfFatalError("Invalid target platform '$$xspec'.")
XSPEC = $$xspec
}
isEmpty(XSPEC): \
XSPEC = $$[QMAKE_SPEC]
export(XSPEC)
QMAKESPEC = $$[QT_HOST_DATA/src]/mkspecs/$$XSPEC
export(QMAKESPEC)
notes = $$cat($$OUT_PWD/.config.notes, lines)
!isEmpty(notes): \
qtConfAddNote("Also available for $$notes")
# deviceOptions() below contains conditionals coming form the spec,
# so this cannot be delayed for a batch reload.
reloadSpec()
}
defineTest(qtConfOutput_prepareOptions) {
$${currentConfig}.output.devicePro += \
$$replace(config.input.device-option, "^([^=]+) *= *(.*)$", "\\1 = \\2")
darwin:!isEmpty(config.input.sdk) {
$${currentConfig}.output.devicePro += \
"QMAKE_MAC_SDK = $$val_escape(config.input.sdk)"
}
android {
sdk_root = $$eval(config.input.android-sdk)
isEmpty(sdk_root): \
sdk_root = $$getenv(ANDROID_SDK_ROOT)
isEmpty(sdk_root) {
for(ever) {
equals(QMAKE_HOST.os, Linux): \
sdk_root = $$(HOME)/Android/Sdk
else: equals(QMAKE_HOST.os, Darwin): \
sdk_root = $$(HOME)/Library/Android/sdk
else: \
break()
!exists($$sdk_root): \
sdk_root =
break()
}
}
isEmpty(sdk_root): \
qtConfFatalError("Cannot find Android SDK." \
"Please use -android-sdk option to specify one.")
ndk_root = $$eval(config.input.android-ndk)
isEmpty(ndk_root): \
ndk_root = $$getenv(ANDROID_NDK_ROOT)
isEmpty(ndk_root) {
for(ever) {
exists($$sdk_root/ndk-bundle) {
ndk_root = $$sdk_root/ndk-bundle
break()
}
equals(QMAKE_HOST.os, Linux): \
ndk_root = $$(HOME)/Android/Sdk/ndk-bundle
else: equals(QMAKE_HOST.os, Darwin): \
ndk_root = $$(HOME)/Library/Android/sdk/ndk-bundle
else: \
break()
!exists($$ndk_root): \
ndk_root =
break()
}
}
isEmpty(ndk_root): \
qtConfFatalError("Cannot find Android NDK." \
"Please use -android-ndk option to specify one.")
ndk_tc_pfx = $$ndk_root/toolchains/llvm/prebuilt
ndk_host = $$eval(config.input.android-ndk-host)
isEmpty(ndk_host): \
ndk_host = $$getenv(ANDROID_NDK_HOST)
isEmpty(ndk_host) {
equals(QMAKE_HOST.os, Linux) {
ndk_host_64 = linux-x86_64
ndk_host_32 = linux-x86
} else: equals(QMAKE_HOST.os, Darwin) {
ndk_host_64 = darwin-x86_64
ndk_host_32 = darwin-x86
} else: equals(QMAKE_HOST.os, Windows) {
ndk_host_64 = windows-x86_64
ndk_host_32 = windows
} else {
qtConfFatalError("Host operating system not supported by Android.")
}
!exists($$ndk_tc_pfx/$$ndk_host_64/*): ndk_host_64 =
!exists($$ndk_tc_pfx/$$ndk_host_32/*): ndk_host_32 =
equals(QMAKE_HOST.arch, x86_64):!isEmpty(ndk_host_64) {
ndk_host = $$ndk_host_64
} else: equals(QMAKE_HOST.arch, x86):!isEmpty(ndk_host_32) {
ndk_host = $$ndk_host_32
} else {
!isEmpty(ndk_host_64): \
ndk_host = $$ndk_host_64
else: !isEmpty(ndk_host_32): \
ndk_host = $$ndk_host_32
else: \
qtConfFatalError("Cannot detect the Android host." \
"Please use -android-ndk-host option to specify one.")
qtConfAddNote("Available Android host does not match host architecture.")
}
} else {
!exists($$ndk_tc_pfx/$$ndk_host/*) {
err = "Specified Android NDK host '$$ndk_host' is invalid. Expected files in the following directory to exist:"
err += '$${ndk_tc_pfx}/$${ndk_host}/'
qtConfFatalError($$err)
}
}
android_abis = $$eval(config.input.android-abis)
isEmpty(android_abis): \
android_abis = $$eval(config.input.android-arch)
isEmpty(android_abis): \
android_abis = armeabi-v7a,arm64-v8a,x86,x86_64
platform = $$eval(config.input.android-ndk-platform)
isEmpty(platform): \
platform = android-21
$${currentConfig}.output.devicePro += \
"DEFAULT_ANDROID_SDK_ROOT = $$val_escape(sdk_root)" \
"DEFAULT_ANDROID_NDK_ROOT = $$val_escape(ndk_root)" \
"DEFAULT_ANDROID_PLATFORM = $$platform" \
"DEFAULT_ANDROID_NDK_HOST = $$ndk_host" \
"DEFAULT_ANDROID_ABIS = $$split(android_abis, ',')"
}
export($${currentConfig}.output.devicePro)
# if any settings were made, the spec will be reloaded later
# to make them take effect.
}
defineTest(qtConfOutput_machineTuple) {
$${currentConfig}.output.devicePro += \
"GCC_MACHINE_DUMP = $$eval($${currentConfig}.tests.machineTuple.tuple)"
export($${currentConfig}.output.devicePro)
# for completeness, one could reload the spec here,
# but no downstream users actually need that.
}
defineTest(qtConfOutput_commitOptions) {
# qdevice.pri needs to be written early, because the compile tests require it.
write_file($$QT_BUILD_TREE/mkspecs/qdevice.pri, $${currentConfig}.output.devicePro)|error()
}
# type (empty or 'host'), option name, default value
defineTest(processQtPath) {
out_var = config.rel_input.$${2}
path = $$eval(config.input.$${2})
isEmpty(path) {
$$out_var = $$3
} else {
path = $$absolute_path($$path, $$OUT_PWD)
rel = $$relative_path($$path, $$eval(config.input.$${1}prefix))
isEmpty(rel) {
$$out_var = .
} else: contains(rel, \.\..*) {
!equals(2, sysconfdir) {
PREFIX_COMPLAINTS += "-$$2 is not a subdirectory of -$${1}prefix."
export(PREFIX_COMPLAINTS)
!$$eval(have_$${1}prefix) {
PREFIX_REMINDER = true
export(PREFIX_REMINDER)
}
}
$$out_var = $$path
} else {
$$out_var = $$rel
}
}
export($$out_var)
}
defineTest(addConfStr) {
QT_CONFIGURE_STR_OFFSETS += " $$QT_CONFIGURE_STR_OFF,"
QT_CONFIGURE_STRS += " \"$$1\\0\""
QT_CONFIGURE_STR_OFF = $$num_add($$QT_CONFIGURE_STR_OFF, $$str_size($$1), 1)
export(QT_CONFIGURE_STR_OFFSETS)
export(QT_CONFIGURE_STRS)
export(QT_CONFIGURE_STR_OFF)
}
defineReplace(printInstallPath) {
val = $$eval(config.rel_input.$$2)
equals(val, $$3): return()
return("$$1=$$val")
}
defineReplace(printInstallPaths) {
ret = \
$$printInstallPath(Documentation, docdir, doc) \
$$printInstallPath(Headers, headerdir, include) \
$$printInstallPath(Libraries, libdir, lib) \
$$printInstallPath(LibraryExecutables, libexecdir, $$DEFAULT_LIBEXEC) \
$$printInstallPath(Binaries, bindir, bin) \
$$printInstallPath(Plugins, plugindir, plugins) \
$$printInstallPath(Qml2Imports, qmldir, qml) \
$$printInstallPath(ArchData, archdatadir, .) \
$$printInstallPath(Data, datadir, .) \
$$printInstallPath(Translations, translationdir, translations) \
$$printInstallPath(Examples, examplesdir, examples) \
$$printInstallPath(Tests, testsdir, tests)
return($$ret)
}
defineReplace(printHostPaths) {
ret = \
"HostPrefix=$$config.input.hostprefix" \
$$printInstallPath(HostBinaries, hostbindir, bin) \
$$printInstallPath(HostLibraries, hostlibdir, lib) \
$$printInstallPath(HostData, hostdatadir, .) \
"Sysroot=$$config.input.sysroot" \
"SysrootifyPrefix=$$qmake_sysrootify" \
"TargetSpec=$$XSPEC" \
"HostSpec=$$[QMAKE_SPEC]"
return($$ret)
}
defineTest(qtConfOutput_preparePaths) {
isEmpty(config.input.prefix) {
$$qtConfEvaluate("features.developer-build") {
config.input.prefix = $$QT_BUILD_TREE # In Development, we use sandboxed builds by default
} else {
win32: \
config.input.prefix = C:/Qt/Qt-$$[QT_VERSION]
else: \
config.input.prefix = /usr/local/Qt-$$[QT_VERSION]
}
have_prefix = false
} else {
equals(XSPEC, $$[QMAKE_SPEC]) {
# Only make the user-specified prefix absolute if we're not cross-compiling.
config.input.prefix = $$absolute_path($$config.input.prefix, $$OUT_PWD)
} else {
# But we still must normalize path separators.
config.input.prefix = $$replace(config.input.prefix, \\\\, /)
}
have_prefix = true
}
isEmpty(config.input.extprefix) {
config.input.extprefix = $$config.input.prefix
!isEmpty(config.input.sysroot): \
qmake_sysrootify = true
else: \
qmake_sysrootify = false
} else {
config.input.extprefix = $$absolute_path($$config.input.extprefix, $$OUT_PWD)
qmake_sysrootify = false
}
isEmpty(config.input.hostprefix) {
$$qmake_sysrootify: \
config.input.hostprefix = $$config.input.sysroot$$config.input.extprefix
else: \
config.input.hostprefix = $$config.input.extprefix
have_hostprefix = false
} else {
isEqual(config.input.hostprefix, yes): \
config.input.hostprefix = $$QT_BUILD_TREE
else: \
config.input.hostprefix = $$absolute_path($$config.input.hostprefix, $$OUT_PWD)
have_hostprefix = true
}
equals(config.input.prefix, $$config.input.extprefix): \
qmake_crossbuild = false
else: \
qmake_crossbuild = true
PREFIX_COMPLAINTS =
PREFIX_REMINDER = false
win32: \
DEFAULT_LIBEXEC = bin
else: \
DEFAULT_LIBEXEC = libexec
darwin: \
DEFAULT_SYSCONFDIR = /Library/Preferences/Qt
else: \
DEFAULT_SYSCONFDIR = etc/xdg
processQtPath("", headerdir, include)
processQtPath("", libdir, lib)
processQtPath("", bindir, bin)
processQtPath("", datadir, .)
!equals(config.rel_input.datadir, .): \
data_pfx = $$config.rel_input.datadir/
processQtPath("", docdir, $${data_pfx}doc)
processQtPath("", translationdir, $${data_pfx}translations)
processQtPath("", examplesdir, $${data_pfx}examples)
processQtPath("", testsdir, tests)
processQtPath("", archdatadir, .)
!equals(config.rel_input.archdatadir, .): \
archdata_pfx = $$config.rel_input.archdatadir/
processQtPath("", libexecdir, $${archdata_pfx}$$DEFAULT_LIBEXEC)
processQtPath("", plugindir, $${archdata_pfx}plugins)
processQtPath("", qmldir, $${archdata_pfx}qml)
processQtPath("", sysconfdir, $$DEFAULT_SYSCONFDIR)
$$have_hostprefix {
processQtPath(host, hostbindir, bin)
processQtPath(host, hostlibdir, lib)
processQtPath(host, hostdatadir, .)
} else {
processQtPath(host, hostbindir, $$config.rel_input.bindir)
processQtPath(host, hostlibdir, $$config.rel_input.libdir)
processQtPath(host, hostdatadir, $$config.rel_input.archdatadir)
}
win32:$$qtConfEvaluate("features.shared") {
# Windows DLLs are in the bin dir.
libloc_absolute_path = $$absolute_path($$config.rel_input.bindir, $$config.input.prefix)
} else {
libloc_absolute_path = $$absolute_path($$config.rel_input.libdir, $$config.input.prefix)
}
config.input.liblocation_to_prefix = $$relative_path($$config.input.prefix, $$libloc_absolute_path)
config.qtbase.features.shared.available =
export(config.qtbase.features.shared.available)
hostbindir_absolute_path = $$absolute_path($$config.rel_input.hostbindir, $$config.input.hostprefix)
config.input.hostbindir_to_hostprefix = $$relative_path($$config.input.hostprefix, $$hostbindir_absolute_path)
config.input.hostbindir_to_extprefix = $$relative_path($$config.input.extprefix, $$hostbindir_absolute_path)
!isEmpty(PREFIX_COMPLAINTS) {
PREFIX_COMPLAINTS = "$$join(PREFIX_COMPLAINTS, "$$escape_expand(\\n)Note: ")"
$$PREFIX_REMINDER: \
PREFIX_COMPLAINTS += "Maybe you forgot to specify -prefix/-hostprefix?"
qtConfAddNote($$PREFIX_COMPLAINTS)
}
# populate qconfig.cpp (for qtcore)
QT_CONFIGURE_STR_OFF = 0
QT_CONFIGURE_STR_OFFSETS =
QT_CONFIGURE_STRS =
addConfStr($$config.rel_input.docdir)
addConfStr($$config.rel_input.headerdir)
addConfStr($$config.rel_input.libdir)
addConfStr($$config.rel_input.libexecdir)
addConfStr($$config.rel_input.bindir)
addConfStr($$config.rel_input.plugindir)
addConfStr($$config.rel_input.qmldir)
addConfStr($$config.rel_input.archdatadir)
addConfStr($$config.rel_input.datadir)
addConfStr($$config.rel_input.translationdir)
addConfStr($$config.rel_input.examplesdir)
addConfStr($$config.rel_input.testsdir)
QT_CONFIGURE_STR_OFFSETS_ALL = $$QT_CONFIGURE_STR_OFFSETS
QT_CONFIGURE_STRS_ALL = $$QT_CONFIGURE_STRS
QT_CONFIGURE_STR_OFFSETS =
QT_CONFIGURE_STRS =
addConfStr($$config.input.sysroot)
addConfStr($$qmake_sysrootify)
addConfStr($$config.rel_input.hostbindir)
addConfStr($$config.rel_input.hostlibdir)
addConfStr($$config.rel_input.hostdatadir)
addConfStr($$XSPEC)
addConfStr($$[QMAKE_SPEC])
$${currentConfig}.output.qconfigSource = \
"/* Installation Info */" \
"static const char qt_configure_prefix_path_str [12+256] = \"qt_prfxpath=$$config.input.prefix\";" \
"$${LITERAL_HASH}ifdef QT_BUILD_QMAKE" \
"static const char qt_configure_ext_prefix_path_str [12+256] = \"qt_epfxpath=$$config.input.extprefix\";" \
"static const char qt_configure_host_prefix_path_str [12+256] = \"qt_hpfxpath=$$config.input.hostprefix\";" \
"$${LITERAL_HASH}endif" \
"" \
"static const short qt_configure_str_offsets[] = {" \
$$QT_CONFIGURE_STR_OFFSETS_ALL \
"$${LITERAL_HASH}ifdef QT_BUILD_QMAKE" \
$$QT_CONFIGURE_STR_OFFSETS \
"$${LITERAL_HASH}endif" \
"};" \
"static const char qt_configure_strs[] =" \
$$QT_CONFIGURE_STRS_ALL \
"$${LITERAL_HASH}ifdef QT_BUILD_QMAKE" \
$$QT_CONFIGURE_STRS \
"$${LITERAL_HASH}endif" \
";" \
"" \
"$${LITERAL_HASH}define QT_CONFIGURE_SETTINGS_PATH \"$$config.rel_input.sysconfdir\"" \
"$${LITERAL_HASH}define QT_CONFIGURE_LIBLOCATION_TO_PREFIX_PATH \"$$config.input.liblocation_to_prefix\"" \
"$${LITERAL_HASH}define QT_CONFIGURE_HOSTBINDIR_TO_EXTPREFIX_PATH \"$$config.input.hostbindir_to_extprefix\"" \
"$${LITERAL_HASH}define QT_CONFIGURE_HOSTBINDIR_TO_HOSTPREFIX_PATH \"$$config.input.hostbindir_to_hostprefix\"" \
"" \
"$${LITERAL_HASH}ifdef QT_BUILD_QMAKE" \
"$${LITERAL_HASH} define QT_CONFIGURE_SYSROOTIFY_PREFIX $$qmake_sysrootify" \
"$${LITERAL_HASH} define QT_CONFIGURE_CROSSBUILD $$qmake_crossbuild" \
"$${LITERAL_HASH}endif" \
"" \
"$${LITERAL_HASH}define QT_CONFIGURE_PREFIX_PATH qt_configure_prefix_path_str + 12" \
"$${LITERAL_HASH}ifdef QT_BUILD_QMAKE" \
"$${LITERAL_HASH} define QT_CONFIGURE_EXT_PREFIX_PATH qt_configure_ext_prefix_path_str + 12" \
"$${LITERAL_HASH} define QT_CONFIGURE_HOST_PREFIX_PATH qt_configure_host_prefix_path_str + 12" \
"$${LITERAL_HASH}endif"
export($${currentConfig}.output.qconfigSource)
# create bin/qt.conf. this doesn't use the regular file output
# mechanism, as the file is relied upon by configure tests.
cont = \
"[EffectivePaths]" \
"Prefix=.." \
"[DevicePaths]" \
"Prefix=$$config.input.prefix" \
$$printInstallPaths() \
"[Paths]" \
"Prefix=$$config.input.extprefix" \
$$printInstallPaths() \
$$printHostPaths()
!equals(QT_SOURCE_TREE, $$QT_BUILD_TREE): \
cont += \
"[EffectiveSourcePaths]" \
"Prefix=$$[QT_INSTALL_PREFIX/src]"
write_file($$QT_BUILD_TREE/bin/qt.conf, cont)|error()
reload_properties()
# if a sysroot was configured, the spec will be reloaded later,
# as some specs contain $$[SYSROOT] references.
}
defineTest(qtConfOutput_reloadSpec) {
!isEmpty($${currentConfig}.output.devicePro)| \
!isEmpty(config.input.sysroot): \
reloadSpec()
# toolchain.prf uses this.
dummy = $$qtConfEvaluate("features.cross_compile")
bypassNesting() {
QMAKE_INTERNAL_INCLUDED_FEATURES -= \
$$[QT_HOST_DATA/src]/mkspecs/features/mac/toolchain.prf \
$$[QT_HOST_DATA/src]/mkspecs/features/toolchain.prf
load(toolchain)
}
}
defineTest(qtConfOutput_shared) {
!$${2}: return()
# export this here, so later tests can use it
CONFIG += shared
export(CONFIG)
}
defineTest(qtConfOutput_sanitizer) {
!$${2}: return()
# Export this here, so that WebEngine can access it at configure time.
CONFIG += sanitizer
$$qtConfEvaluate("features.sanitize_address"): CONFIG += sanitize_address
$$qtConfEvaluate("features.sanitize_thread"): CONFIG += sanitize_thread
$$qtConfEvaluate("features.sanitize_memory"): CONFIG += sanitize_memory
$$qtConfEvaluate("features.sanitize_undefined"): CONFIG += sanitize_undefined
export(CONFIG)
}
defineTest(qtConfOutput_architecture) {
arch = $$qtConfEvaluate("tests.architecture.arch")
subarch = $$qtConfEvaluate('tests.architecture.subarch')
buildabi = $$qtConfEvaluate("tests.architecture.buildabi")
$$qtConfEvaluate("features.cross_compile") {
host_arch = $$qtConfEvaluate("tests.host_architecture.arch")
host_buildabi = $$qtConfEvaluate("tests.host_architecture.buildabi")
privatePro = \
"host_build {" \
" QT_CPU_FEATURES.$$host_arch = $$qtConfEvaluate('tests.host_architecture.subarch')" \
"} else {" \
" QT_CPU_FEATURES.$$arch = $$subarch" \
"}"
publicPro = \
"host_build {" \
" QT_ARCH = $$host_arch" \
" QT_BUILDABI = $$host_buildabi" \
" QT_TARGET_ARCH = $$arch" \
" QT_TARGET_BUILDABI = $$buildabi" \
"} else {" \
" QT_ARCH = $$arch" \
" QT_BUILDABI = $$buildabi" \
"}"
} else {
privatePro = \
"QT_CPU_FEATURES.$$arch = $$subarch"
publicPro = \
"QT_ARCH = $$arch" \
"QT_BUILDABI = $$buildabi"
}
$${currentConfig}.output.publicPro += $$publicPro
export($${currentConfig}.output.publicPro)
$${currentConfig}.output.privatePro += $$privatePro
export($${currentConfig}.output.privatePro)
# setup QT_ARCH and QT_CPU_FEATURES variables used by qtConfEvaluate
QT_ARCH = $$arch
export(QT_ARCH)
QT_CPU_FEATURES.$$arch = $$subarch
export(QT_CPU_FEATURES.$$arch)
}
defineTest(qtConfOutput_qreal) {
qreal = $$config.input.qreal
isEmpty(qreal): qreal = "double"
qreal_string = $$replace(qreal, [^a-zA-Z0-9], "_")
qtConfOutputVar(assign, "privatePro", "QT_COORD_TYPE", $$qreal)
!equals(qreal, "double") {
qtConfOutputSetDefine("publicHeader", "QT_COORD_TYPE", $$qreal)
qtConfOutputSetDefine("publicHeader", "QT_COORD_TYPE_STRING", "\"$$qreal_string\"")
}
}
defineTest(qtConfOutput_pkgConfig) {
!$${2}: return()
PKG_CONFIG_EXECUTABLE = $$eval($${currentConfig}.tests.pkg-config.pkgConfig)
qtConfOutputVar(assign, "privatePro", "PKG_CONFIG_EXECUTABLE", $$PKG_CONFIG_EXECUTABLE)
export(PKG_CONFIG_EXECUTABLE)
# this method also exports PKG_CONFIG_(LIB|SYSROOT)DIR, so that tests using pkgConfig will work correctly
PKG_CONFIG_SYSROOT_DIR = $$eval($${currentConfig}.tests.pkg-config.pkgConfigSysrootDir)
!isEmpty(PKG_CONFIG_SYSROOT_DIR) {
qtConfOutputVar(assign, "publicPro", "PKG_CONFIG_SYSROOT_DIR", $$PKG_CONFIG_SYSROOT_DIR)
export(PKG_CONFIG_SYSROOT_DIR)
}
PKG_CONFIG_LIBDIR = $$eval($${currentConfig}.tests.pkg-config.pkgConfigLibdir)
!isEmpty(PKG_CONFIG_LIBDIR) {
qtConfOutputVar(assign, "publicPro", "PKG_CONFIG_LIBDIR", $$PKG_CONFIG_LIBDIR)
export(PKG_CONFIG_LIBDIR)
}
}
defineTest(qtConfOutput_crossCompile) {
!$${2}: return()
# We need to preempt the output here, as subsequent tests rely on it
CONFIG += cross_compile
export(CONFIG)
}
defineTest(qtConfOutput_useBFDLinker) {
!$${2}: return()
# We need to preempt the output here, so that qtConfTest_linkerSupportsFlag can work properly in qtbase
CONFIG += use_bfd_linker
export(CONFIG)
}
defineTest(qtConfOutput_useGoldLinker) {
!$${2}: return()
# We need to preempt the output here, so that qtConfTest_linkerSupportsFlag can work properly in qtbase
CONFIG += use_gold_linker
export(CONFIG)
}
defineTest(qtConfOutput_useLLDLinker) {
!$${2}: return()
# We need to preempt the output here, so that qtConfTest_linkerSupportsFlag can work properly in qtbase
CONFIG += use_lld_linker
export(CONFIG)
}
defineTest(qtConfOutput_debugAndRelease) {
$$qtConfEvaluate("features.debug") {
qtConfOutputVar(append, "publicPro", "CONFIG", "debug")
$${2}: qtConfOutputVar(append, "publicPro", "QT_CONFIG", "release")
qtConfOutputVar(append, "publicPro", "QT_CONFIG", "debug")
} else {
qtConfOutputVar(append, "publicPro", "CONFIG", "release")
$${2}: qtConfOutputVar(append, "publicPro", "QT_CONFIG", "debug")
qtConfOutputVar(append, "publicPro", "QT_CONFIG", "release")
}
}
defineTest(qtConfOutput_compilerFlags) {
# this output also exports the variables locally, so that subsequent compiler tests can use them
output =
!isEmpty(config.input.wflags) {
wflags = $$join(config.input.wflags, " -W", "-W")
QMAKE_CFLAGS_WARN_ON += $$wflags
QMAKE_CXXFLAGS_WARN_ON += $$wflags
export(QMAKE_CFLAGS_WARN_ON)
export(QMAKE_CXXFLAGS_WARN_ON)
output += \
"QMAKE_CFLAGS_WARN_ON += $$wflags" \
"QMAKE_CXXFLAGS_WARN_ON += $$wflags"
}
!isEmpty(config.input.defines) {
EXTRA_DEFINES += $$config.input.defines
export(EXTRA_DEFINES)
output += "EXTRA_DEFINES += $$val_escape(config.input.defines)"
}
!isEmpty(config.input.includes) {
EXTRA_INCLUDEPATH += $$config.input.includes
export(EXTRA_INCLUDEPATH)
output += "EXTRA_INCLUDEPATH += $$val_escape(config.input.includes)"
}
!isEmpty(config.input.lpaths) {
EXTRA_LIBDIR += $$config.input.lpaths
export(EXTRA_LIBDIR)
output += "EXTRA_LIBDIR += $$val_escape(config.input.lpaths)"
}
darwin:!isEmpty(config.input.fpaths) {
EXTRA_FRAMEWORKPATH += $$config.input.fpaths
export(EXTRA_FRAMEWORKPATH)
output += "EXTRA_FRAMEWORKPATH += $$val_escape(config.input.fpaths)"
}
$${currentConfig}.output.privatePro += $$output
export($${currentConfig}.output.privatePro)
}
defineTest(qtConfOutput_gccSysroot) {
!$${2}: return()
# This variable also needs to be exported immediately, so the compilation tests
# can pick it up.
EXTRA_QMAKE_ARGS += \
"\"QMAKE_CFLAGS += --sysroot=$$config.input.sysroot\"" \
"\"QMAKE_CXXFLAGS += --sysroot=$$config.input.sysroot\"" \
"\"QMAKE_LFLAGS += --sysroot=$$config.input.sysroot\""
export(EXTRA_QMAKE_ARGS)
# This one is for qtConfToolchainSupportsFlag().
QMAKE_CXXFLAGS += --sysroot=$$config.input.sysroot
export(QMAKE_CXXFLAGS)
output = \
"!host_build {" \
" QMAKE_CFLAGS += --sysroot=\$\$[QT_SYSROOT]" \
" QMAKE_CXXFLAGS += --sysroot=\$\$[QT_SYSROOT]" \
" QMAKE_LFLAGS += --sysroot=\$\$[QT_SYSROOT]" \
"}"
$${currentConfig}.output.publicPro += $$output
export($${currentConfig}.output.publicPro)
}
defineTest(qtConfOutput_qmakeArgs) {
!$${2}: return()
$${currentConfig}.output.privatePro += "!host_build|!cross_compile {"
for (a, config.input.qmakeArgs) {
$${currentConfig}.output.privatePro += " $$a"
EXTRA_QMAKE_ARGS += $$system_quote($$a)
}
$${currentConfig}.output.privatePro += "}"
export(EXTRA_QMAKE_ARGS)
export($${currentConfig}.output.privatePro)
}
defineReplace(qtConfOutputPostProcess_publicPro) {
qt_version = $$[QT_VERSION]
output = \
$$1 \
"QT_VERSION = $$qt_version" \
"QT_MAJOR_VERSION = $$section(qt_version, '.', 0, 0)" \
"QT_MINOR_VERSION = $$section(qt_version, '.', 1, 1)" \
"QT_PATCH_VERSION = $$section(qt_version, '.', 2, 2)"
#libinfix and namespace
!isEmpty(config.input.qt_libinfix): output += "QT_LIBINFIX = $$config.input.qt_libinfix"
!isEmpty(config.input.qt_namespace): output += "QT_NAMESPACE = $$config.input.qt_namespace"
!isEmpty(QMAKE_GCC_MAJOR_VERSION) {
output += \
"QT_GCC_MAJOR_VERSION = $$QMAKE_GCC_MAJOR_VERSION" \
"QT_GCC_MINOR_VERSION = $$QMAKE_GCC_MINOR_VERSION" \
"QT_GCC_PATCH_VERSION = $$QMAKE_GCC_PATCH_VERSION"
}
!isEmpty(QMAKE_MAC_SDK_VERSION): \
output += "QT_MAC_SDK_VERSION = $$QMAKE_MAC_SDK_VERSION"
!isEmpty(QMAKE_CLANG_MAJOR_VERSION) {
output += \
"QT_CLANG_MAJOR_VERSION = $$QMAKE_CLANG_MAJOR_VERSION" \
"QT_CLANG_MINOR_VERSION = $$QMAKE_CLANG_MINOR_VERSION" \
"QT_CLANG_PATCH_VERSION = $$QMAKE_CLANG_PATCH_VERSION"
}
!isEmpty(QMAKE_APPLE_CLANG_MAJOR_VERSION) {
output += \
"QT_APPLE_CLANG_MAJOR_VERSION = $$QMAKE_APPLE_CLANG_MAJOR_VERSION" \
"QT_APPLE_CLANG_MINOR_VERSION = $$QMAKE_APPLE_CLANG_MINOR_VERSION" \
"QT_APPLE_CLANG_PATCH_VERSION = $$QMAKE_APPLE_CLANG_PATCH_VERSION"
}
!isEmpty(QMAKE_MSC_VER) {
output += \
"QT_MSVC_MAJOR_VERSION = $$replace(QMAKE_MSC_FULL_VER, "(..)(..)(.*)", "\\1")" \
"QT_MSVC_MINOR_VERSION = $$format_number($$replace(QMAKE_MSC_FULL_VER, "(..)(..)(.*)", "\\2"))" \
"QT_MSVC_PATCH_VERSION = $$replace(QMAKE_MSC_FULL_VER, "(..)(..)(.*)", "\\3")"
}
!isEmpty(QMAKE_ICC_VER) {
output += \
"QT_ICC_MAJOR_VERSION = $$replace(QMAKE_ICC_VER, "(..)(..)", "\\1")" \
"QT_ICC_MINOR_VERSION = $$format_number($$replace(QMAKE_ICC_VER, "(..)(..)", "\\2"))" \
"QT_ICC_PATCH_VERSION = $$QMAKE_ICC_UPDATE_VER"
}
!isEmpty(QMAKE_GHS_VERSION) {
output += \
"QT_GHS_MAJOR_VERSION = $$replace(QMAKE_GHS_VERSION, "(.*)(.)(.)", "\\1")" \
"QT_GHS_MINOR_VERSION = $$replace(QMAKE_GHS_VERSION, "(.*)(.)(.)", "\\2")" \
"QT_GHS_PATCH_VERSION = $$replace(QMAKE_GHS_VERSION, "(.*)(.)(.)", "\\3")"
}
output += "QT_EDITION = $$config.input.qt_edition"
!contains(config.input.qt_edition, "(OpenSource|Preview)") {
output += \
"QT_LICHECK = $$config.input.qt_licheck" \
"QT_RELEASE_DATE = $$config.input.qt_release_date"
}
wasm: {
qt_emcc_version = $$qtSystemEmccVersion()
output += \
"QT_EMCC_VERSION = $$qt_emcc_version"
}
return($$output)
}
defineReplace(qtConfOutputPostProcess_privatePro) {
output = $$1
!isEmpty(config.input.external-hostbindir): \
output += "HOST_QT_TOOLS = $$val_escape(config.input.external-hostbindir)"
return($$output)
}
defineReplace(qtConfOutputPostProcess_publicHeader) {
qt_version = $$[QT_VERSION]
output = \
$$1 \
"$${LITERAL_HASH}define QT_VERSION_STR \"$$qt_version\"" \
"$${LITERAL_HASH}define QT_VERSION_MAJOR $$section(qt_version, '.', 0, 0)" \
"$${LITERAL_HASH}define QT_VERSION_MINOR $$section(qt_version, '.', 1, 1)" \
"$${LITERAL_HASH}define QT_VERSION_PATCH $$section(qt_version, '.', 2, 2)"
!$$qtConfEvaluate("features.shared") {
output += \
"/* Qt was configured for a static build */" \
"$${LITERAL_HASH}if !defined(QT_SHARED) && !defined(QT_STATIC)" \
"$${LITERAL_HASH} define QT_STATIC" \
"$${LITERAL_HASH}endif"
}
!isEmpty(config.input.qt_libinfix): \
output += "$${LITERAL_HASH}define QT_LIBINFIX \"$$eval(config.input.qt_libinfix)\""
wasm: {
qt_emcc_version = $$qtSystemEmccVersion()
output += \
"$${LITERAL_HASH}define QT_EMCC_VERSION \"$$qt_emcc_version\""
}
return($$output)
}
# custom reporting
defineTest(qtConfReport_buildParts) {
qtConfReportPadded($${1}, $$qtConfEvaluate("tests.build_parts.value"))
}
defineReplace(qtConfReportArch) {
arch = $$qtConfEvaluate('tests.$${1}.arch')
subarch = $$qtConfEvaluate('tests.$${1}.subarch')
isEmpty(subarch): subarch = <none>
return("$$arch, CPU features: $$subarch")
}
defineReplace(qtConfReportCompiler) {
clang_cl: {
return("clang-cl $${QMAKE_CLANG_MAJOR_VERSION}.$${QMAKE_CLANG_MINOR_VERSION}.$${QMAKE_CLANG_PATCH_VERSION}")
} else: clang {
!isEmpty(QMAKE_APPLE_CLANG_MAJOR_VERSION) {
return("clang (Apple) $${QMAKE_APPLE_CLANG_MAJOR_VERSION}.$${QMAKE_APPLE_CLANG_MINOR_VERSION}.$${QMAKE_APPLE_CLANG_PATCH_VERSION}")
} else {
return("clang $${QMAKE_CLANG_MAJOR_VERSION}.$${QMAKE_CLANG_MINOR_VERSION}.$${QMAKE_CLANG_PATCH_VERSION}")
}
} else: intel_icc {
return("intel_icc $$QMAKE_ICC_VER")
} else: intel_icl {
return("intel_icl $$QMAKE_ICC_VER")
} else: rim_qcc {
return("rim_qcc $${QMAKE_GCC_MAJOR_VERSION}.$${QMAKE_GCC_MINOR_VERSION}.$${QMAKE_GCC_PATCH_VERSION}")
} else: gcc {
return("gcc $${QMAKE_GCC_MAJOR_VERSION}.$${QMAKE_GCC_MINOR_VERSION}.$${QMAKE_GCC_PATCH_VERSION}")
} else: msvc {
return("msvc $$QMAKE_MSC_FULL_VER")
} else: ghs {
return("ghs $$QMAKE_GHS_VERSION")
} else {
return("unknown ($$QMAKE_COMPILER)")
}
}
defineTest(qtConfReport_buildTypeAndConfig) {
!$$qtConfEvaluate("features.cross_compile") {
qtConfAddReport("Build type: $$[QMAKE_SPEC] ($$qtConfReportArch(architecture))")
qtConfAddReport("Compiler: $$qtConfReportCompiler()")
} else {
qtConfAddReport("Building on: $$[QMAKE_SPEC] ($$qtConfReportArch(host_architecture))")
qtConfAddReport("Building for: $$[QMAKE_XSPEC] ($$qtConfReportArch(architecture))")
qtConfAddReport("Target compiler: $$qtConfReportCompiler()")
}
qtConfAddReport()
qtConfAddReport("Configuration: $$eval($${currentConfig}.output.privatePro.append.CONFIG) $$eval($${currentConfig}.output.publicPro.append.QT_CONFIG)")
qtConfAddReport()
}
defineTest(qtConfReport_buildMode) {
$$qtConfEvaluate("features.force_debug_info"): \
release = "release (with debug info)"
else: \
release = "release"
$$qtConfEvaluate("features.debug") {
build_mode = "debug"
raw_build_mode = "debug"
} else {
build_mode = $$release
raw_build_mode = "release"
}
$$qtConfEvaluate("features.debug_and_release"): \
build_mode = "debug and $$release; default link: $$raw_build_mode"
$$qtConfEvaluate("features.release_tools"): \
build_mode = "$$build_mode; optimized tools"
qtConfReportPadded($$1, $$build_mode)
}
defineTest(qtConfReport_emccVersion) {
EMCC_VERSION = $$qtSystemEmccVersion()
REQ_VERSION = $$qtEmccRecommendedVersion()
!equals(EMCC_VERSION, $$REQ_VERSION) {
qtConfAddReport("You should use the recommended Emscripten version $$REQ_VERSION with this Qt. You have $$EMCC_VERSION $$QT_EMCC_VERSION")
}
}
# ensure pristine environment for configuration
discard_from($$[QT_HOST_DATA/get]/mkspecs/qconfig.pri)
discard_from($$[QT_HOST_DATA/get]/mkspecs/qmodule.pri)
# ... and cause them to be reloaded afterwards
QMAKE_POST_CONFIGURE += \
"include(\$\$[QT_HOST_DATA/get]/mkspecs/qconfig.pri)" \
"include(\$\$[QT_HOST_DATA/get]/mkspecs/qmodule.pri)"
defineTest(createConfigStatus) {
$$QMAKE_REDO_CONFIG: return()
cfg = $$relative_path($$_PRO_FILE_PWD_/configure, $$OUT_PWD)
ext =
equals(QMAKE_HOST.os, Windows) {
ext = .bat
cont = \
"$$system_quote($$system_path($$cfg)$$ext) -redo %*"
} else {
!contains(cfg, .*/.*): cfg = ./$$cfg
cont = \
"$${LITERAL_HASH}!/bin/sh" \
"exec $$system_quote($$cfg) -redo \"$@\""
}
write_file($$OUT_PWD/config.status$$ext, cont, exe)|error()
}
QMAKE_POST_CONFIGURE += \
"createConfigStatus()"