qt5base-lts/config_help.txt

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Usage: configure [options] [assignments]
Configure understands variable assignments like VAR=value on the command line.
Each uppercased library name (obtainable with -list-libraries) supports the
suffixes _INCDIR, _LIBDIR, _PREFIX (INCDIR=PREFIX/include, LIBDIR=PREFIX/lib),
_LIBS, and - on Windows and Darwin - _LIBS_DEBUG and _LIBS_RELEASE. E.g.,
ICU_PREFIX=/opt/icu42 ICU_LIBS="-licui18n -licuuc -licudata".
It is also possible to manipulate any QMAKE_* variable, to amend the values
from the mkspec for the build of Qt itself, e.g., QMAKE_CXXFLAGS+=-g3.
Note that the *_LIBS* and QMAKE_* assignments manipulate lists, so items
containing meta characters (spaces in particular) need to be quoted according
to qmake rules. On top of that, the assignments as a whole need to be quoted
according to shell rules. It is recommended to use single quotes for the inner
quoting and double quotes for the outer quoting.
Top-level installation directories:
-prefix <dir> ...... The deployment directory, as seen on the target device.
[/usr/local/Qt-$QT_VERSION; qtbase build directory if
-developer-build]
-extprefix <dir> ... The installation directory, as seen on the host machine.
[SYSROOT/PREFIX]
-hostprefix [dir] .. The installation directory for build tools running on
the host machine. If [dir] is not given, the current
build directory will be used. [EXTPREFIX]
-external-hostbindir <path> ... Path to Qt tools built for this machine.
Use this when -platform does not match the current
system, i.e., to make a Canadian Cross Build.
Fine tuning of installation directory layout. Note that all directories
except -sysconfdir should be located under -prefix/-hostprefix:
-bindir <dir> ......... Executables [PREFIX/bin]
-headerdir <dir> ...... Header files [PREFIX/include]
-libdir <dir> ......... Libraries [PREFIX/lib]
-archdatadir <dir> .... Arch-dependent data [PREFIX]
-plugindir <dir> ...... Plugins [ARCHDATADIR/plugins]
-libexecdir <dir> ..... Helper programs [ARCHDATADIR/bin on Windows,
ARCHDATADIR/libexec otherwise]
-qmldir <dir> ......... QML imports [ARCHDATADIR/qml]
-datadir <dir> ........ Arch-independent data [PREFIX]
-docdir <dir> ......... Documentation [DATADIR/doc]
-translationdir <dir> . Translations [DATADIR/translations]
-sysconfdir <dir> ..... Settings used by Qt programs [PREFIX/etc/xdg]
-examplesdir <dir> .... Examples [PREFIX/examples]
-testsdir <dir> ....... Tests [PREFIX/tests]
-hostbindir <dir> ..... Host executables [HOSTPREFIX/bin]
-hostlibdir <dir> ..... Host libraries [HOSTPREFIX/lib]
-hostdatadir <dir> .... Data used by qmake [HOSTPREFIX]
Conventions for the remaining options: When an option's description is
followed by a list of values in brackets, the interpretation is as follows:
'yes' represents the bare option; all other values are possible prefixes to
the option, e.g., -no-gui. Alternatively, the value can be assigned, e.g.,
--gui=yes. Values are listed in the order they are tried if not specified;
'auto' is a shorthand for 'yes/no'. Solitary 'yes' and 'no' represent binary
options without auto-detection.
Configure meta:
-help, -h ............ Display this help screen
-verbose, -v ......... Print verbose messages during configuration
-continue ............ Continue configure despite errors
-redo ................ Re-configure with previously used options.
Additional options may be passed, but will not be
saved for later use by -redo.
-recheck [test,...] .. Discard cached negative configure test results.
Use this after installing missing dependencies.
Alternatively, if tests are specified, only their
results are discarded.
-recheck-all ......... Discard all cached configure test results.
-feature-<feature> ... Enable <feature>
-no-feature-<feature> Disable <feature> [none]
-list-features ....... List available features. Note that some features
have dedicated command line options as well.
-list-libraries ...... List possible external dependencies.
Build options:
-opensource .......... Build the Open-Source Edition of Qt
-commercial .......... Build the Commercial Edition of Qt
-confirm-license ..... Automatically acknowledge the license
-cmake ............... Use the CMake build system instead of the qmake one.
-cmake-generator <name> ... Explicitly specify the build system generator for
CMake instead of auto-detecting one.
-cmake-use-default-generator ... Turn off auto-detection of the CMake build
system generator.
-no-guess-compiler ... Do not guess the compiler from the target mkspec.
Only applies to the CMake build.
-release ............. Build Qt with debugging turned off [yes]
-debug ............... Build Qt with debugging turned on [no]
-debug-and-release ... Build two versions of Qt, with and without
debugging turned on [yes] (Apple and Windows only)
-optimize-debug ...... Enable debug-friendly optimizations in debug builds
[auto] (Not supported with MSVC or Clang toolchains)
-optimize-size ....... Optimize release builds for size instead of speed [no]
-optimized-tools ..... Build optimized host tools even in debug build [no]
-force-debug-info .... Create symbol files for release builds [no]
-separate-debug-info . Split off debug information to separate files [no]
-gdb-index ........... Index the debug info to speed up GDB
[no; auto if -developer-build with debug info]
-strip ............... Strip release binaries of unneeded symbols [yes]
-gc-binaries ......... Place each function or data item into its own section
and enable linker garbage collection of unused
sections. [auto for static builds, otherwise no]
-force-asserts ....... Enable Q_ASSERT even in release builds [no]
-developer-build ..... Compile and link Qt for developing Qt itself
(exports for auto-tests, extra checks, etc.) [no]
-shared .............. Build shared Qt libraries [yes] (no for UIKit)
-static .............. Build static Qt libraries [no] (yes for UIKit)
-framework ........... Build Qt framework bundles [yes] (Apple only)
-platform <target> ... Select host mkspec [detected]
-xplatform <target> .. Select target mkspec when cross-compiling [PLATFORM]
-device <name> ....... Cross-compile for device <name>
-device-option <key=value> ... Add option for the device mkspec
-appstore-compliant .. Disable code that is not allowed in platform app stores.
This is on by default for platforms which require distribution
through an app store by default, in particular Android,
iOS, tvOS, and watchOS. [auto]
-qtnamespace <name> .. Wrap all Qt library code in 'namespace <name> {...}'.
-qtlibinfix <infix> .. Rename all libQt6*.so to libQt6*<infix>.so.
-testcocoon .......... Instrument with the TestCocoon code coverage tool [no]
-gcov ................ Instrument with the GCov code coverage tool [no]
-trace [backend] ..... Enable instrumentation with tracepoints.
Currently supported backends are 'etw' (Windows) and
'lttng' (Linux), or 'yes' for auto-detection. [no]
-sanitize {address|thread|memory|fuzzer-no-link|undefined}
Instrument with the specified compiler sanitizer.
Note that some sanitizers cannot be combined;
for example, -sanitize address cannot be combined with
-sanitize thread.
-coverage {trace-pc-guard|source-based}
Specify the 'trace-pc-guard' coverage instrumentation for
sanitizers or generate instrumented code to collect execution
counts and enable code coverage analysis, respectively. (Clang only)
-c++std <edition> .... Select C++ standard <edition> [c++2a/c++17/c++14/c++11]
(Not supported with MSVC 2015)
-sse2 ................ Use SSE2 instructions [auto]
-sse3/-ssse3/-sse4.1/-sse4.2/-avx/-avx2/-avx512
Enable use of particular x86 instructions [auto]
Enabled ones are still subject to runtime detection.
-mips_dsp/-mips_dspr2 Use MIPS DSP/rev2 instructions [auto]
-qreal <type> ........ typedef qreal to the specified type. [double]
Note: this affects binary compatibility.
-R <string> .......... Add an explicit runtime library path to the Qt
libraries. Supports paths relative to LIBDIR.
-rpath ............... Link Qt libraries and executables using the library
install path as a runtime library path. Similar to
-R LIBDIR. On Apple platforms, disabling this implies
using absolute install names (based in LIBDIR) for
dynamic libraries and frameworks. [auto]
-reduce-exports ...... Reduce amount of exported symbols [auto]
-reduce-relocations .. Reduce amount of relocations [auto] (Unix only)
-plugin-manifests .... Embed manifests into plugins [no] (Windows only)
-static-runtime ...... With -static, use static runtime [no] (Windows only)
-pch ................. Use precompiled headers [auto]
-ltcg ................ Use Link Time Code Generation [no]
-linker [bfd,gold,lld] Force use of the GNU ld, GNU gold or LLVM/LLD linker
instead of default one (GCC only)
-incredibuild-xge .... Use the IncrediBuild XGE [no] (Windows only)
-ccache .............. Use the ccache compiler cache [no] (Unix only)
-make-tool <tool> .... Use <tool> to build qmake [nmake] (Windows only)
-mp .................. Use multiple processors for compilation (MSVC only)
-warnings-are-errors . Treat warnings as errors [no; yes if -developer-build]
-silent .............. Reduce the build output so that warnings and errors
can be seen more easily
Build environment:
-sysroot <dir> ....... Set <dir> as the target sysroot
-gcc-sysroot ......... With -sysroot, pass --sysroot to the compiler [yes]
-pkg-config .......... Use pkg-config [auto] (Unix only)
-D <string> .......... Pass additional preprocessor define
-I <string> .......... Pass additional include path
-L <string> .......... Pass additional library path
-F <string> .......... Pass additional framework path (Apple only)
-sdk <sdk> ........... Build Qt using Apple provided SDK <sdk>. The argument
should be one of the available SDKs as listed by
'xcodebuild -showsdks'.
Note that the argument applies only to Qt libraries
and applications built using the target mkspec - not
host tools such as qmake, moc, rcc, etc.
-android-sdk path .... Set Android SDK root path [$ANDROID_SDK_ROOT]
-android-ndk path .... Set Android NDK root path [$ANDROID_NDK_ROOT]
-android-ndk-platform Set Android platform
-android-ndk-host .... Set Android NDK host (linux-x86, linux-x86_64, etc.)
[$ANDROID_NDK_HOST]
-android-abis ....... Comma separated Android abis, default is:
armeabi-v7a,arm64-v8a,x86,x86_64
-android-javac-target Set the javac build target version [8]
-android-javac-source Set the javac build source version [8]
-android-style-assets Automatically extract style assets from the device at
run time. This option makes the Android style behave
correctly, but also makes the Android platform plugin
incompatible with the LGPL2.1. [yes]
Component selection:
-skip <repo> ......... Exclude an entire repository from the build.
-make <part> ......... Add <part> to the list of parts to be built.
Specifying this option clears the default list first.
[libs and examples, also tools if not cross-building,
also tests if -developer-build]
-nomake <part> ....... Exclude <part> from the list of parts to be built.
-gui ................. Build the Qt GUI module and dependencies [yes]
-widgets ............. Build the Qt Widgets module and dependencies [yes]
-no-dbus ............. Do not build the Qt D-Bus module
[default on Android and Windows]
-dbus-linked ......... Build Qt D-Bus and link to libdbus-1 [auto]
-dbus-runtime ........ Build Qt D-Bus and dynamically load libdbus-1 [no]
-accessibility ....... Enable accessibility support [yes]
Note: Disabling accessibility is not recommended.
Qt comes with bundled copies of some 3rd party libraries. These are used
by default if auto-detection of the respective system library fails.
Core options:
-doubleconversion .... Select used double conversion library [system/qt/no]
No implies use of sscanf_l and snprintf_l (imprecise).
-glib ................ Enable Glib support [no; auto on Unix]
-eventfd ............. Enable eventfd support
-inotify ............. Enable inotify support
-icu ................. Enable ICU support [auto]
-pcre ................ Select used libpcre2 [system/qt/no]
-pps ................. Enable PPS support [auto] (QNX only)
-zlib ................ Select used zlib [system/qt]
Logging backends:
-journald .......... Enable journald support [no] (Unix only)
-syslog ............ Enable syslog support [no] (Unix only)
-slog2 ............. Enable slog2 support [auto] (QNX only)
Network options:
-ssl ................. Enable either SSL support method [auto]
-no-openssl .......... Do not use OpenSSL [default on Apple]
-openssl-linked ...... Use OpenSSL and link to libssl [no]
-openssl-runtime ..... Use OpenSSL and dynamically load libssl [auto]
-schannel ............ Use Secure Channel [no] (Windows only)
-securetransport ..... Use SecureTransport [auto] (Apple only)
-sctp ................ Enable SCTP support [no]
-libproxy ............ Enable use of libproxy [no]
-system-proxies ...... Use system network proxies by default [yes]
Gui, printing, widget options:
-cups ................ Enable CUPS support [auto] (Unix only)
-fontconfig .......... Enable Fontconfig support [auto] (Unix only)
-freetype ............ Select used FreeType [system/qt/no]
-harfbuzz ............ Select used HarfBuzz-NG [system/qt/no]
(Not auto-detected on Apple and Windows)
-gtk ................. Enable GTK platform theme support [auto]
-lgmon ............... Enable lgmon support [auto] (QNX only)
-no-opengl ........... Disable OpenGL support
-opengl <api> ........ Enable OpenGL support. Supported APIs:
Remove ANGLE This marks the end of EGL and OpenGL ES support on Windows. The concepts of -opengl dynamic, -opengl desktop, QT_OPENGL=software, etc. remain unchanged, with the exception of the disapperance of everything ANGLE related. CMake builds now work identically to qmake on Windows: they default to 'dynamic' OpenGL on Windows, unless -DINPUT_opengl=desktop is specified. On Windows, Qt 6 is expected to default to the "dynamic" OpenGL model by default, just like Qt 5.15. This can be changed by switching to "desktop" OpenGL, which will link to opengl32 (publicly, so other libs and applications will do so as well) and disallows using another OpenGL DLL. The "dynamic" mode is essential still because the fallback to a software rasterizer, such as the opengl32sw.dll we ship with the Qt packages, has to to work exactly like in Qt 5, the removal of ANGLE does not change this concept in any way (except of course that the middle option of using ANGLE is now gone) When it comes to the windows plugin's OpenGL blacklist feature, it works like before and accepts the ANGLE/D3D related keywords. They will then be ignored. Similarly, requesting QT_OPENGL=angle is ignored (but will show a warning). The D3D11 and DXGI configure time tests are removed: Qt 5.14 already depends on D3D 11.1 and DXGI 1.3 headers being available unconditionally on Win32 (in QRhi's D3D11 backend). No need to test for these. [ChangeLog][Windows] ANGLE is no longer included with Qt. Dynamic OpenGL builds work like before but ANGLE is no longer an option. OpenGL proper or an alternative opengl32 implementation are the two remaining options now. Attempting to set QT_OPENGL=angle or Qt::AA_UseOpenGLES will have no effect on Windows. Fixes: QTBUG-79103 Change-Id: Ia404e0d07f3fe191b27434d863c81180112ecb3b Reviewed-by: Oliver Wolff <oliver.wolff@qt.io>
2020-05-18 13:16:30 +00:00
es2, desktop (default on Unix),
dynamic (Windows only, default on Windows)
-opengles3 ........... Enable OpenGL ES 3.x support instead of ES 2.x [auto]
-egl ................. Enable EGL support [auto]
-qpa <name> .......... Select default QPA backend(s) (e.g., xcb, cocoa, windows)
A prioritized list separated by semi-colons.
-xcb-xlib............. Enable Xcb-Xlib support [auto]
Platform backends:
-direct2d .......... Enable Direct2D support [auto] (Windows only)
-directfb .......... Enable DirectFB support [no] (Unix only)
-eglfs ............. Enable EGLFS support [auto; no on Android and Windows]
-gbm ............... Enable backends for GBM [auto] (Linux only)
-kms ............... Enable backends for KMS [auto] (Linux only)
-linuxfb ........... Enable Linux Framebuffer support [auto] (Linux only)
3rdparty: remove xcb libs and bump minimal required version to 1.11 With libxcb 1.11 as minimal required version we can: (a) (Maybe) Enable threaded GL for MESA, see QTBUG-67277. (b) Avoid performance issues described in QTBUG-46017. Bundled xcb libs don't contain the more modern SHM fd passing APIs. The official binaries use "-qt-xcb", therefore we were shipping with the performance fix #ifdef-ed out. (c) Make xcb-xkb a mandatory dependency avoiding issues described in QTBUG-30911. Issues that appear when Qt was configure with "-no-xkb -xcb-xlib", but X server has the XKB extension. (d) Drop all, but xcb-xinput sources from src/3rdparty/xcb/, for which we need "xcb-xinput >= 1.12". This way we can reduce maintenance work. The xcb libraries were origianlly bundled because of lack of availability on supported distributions. This is not the case anymore: CI for Qt 5.13 has: Ubuntu 18.04 - libxcb 1.13 RHEL 7.4 - libxcb 1.13 openSUSE 15.0 - libxcb 1.13 CI for Qt 5.12 has: Ubuntu 16.04 - libxcb 1.11 RHEL 7.4 - libxcb 1.13 openSUSE 42.3 - libxcb 1.11 RHEL 6.x - not relevant because it was dropped from supported platforms. Why 1.11 (released on Aug, 2014), but not 1.13 (released on March 2018)? Based on what we have in CI for 5.13 and 5.14 we could update to 1.13, but it means that Qt would require a very recent version of 3rd party dependency. [ChangeLog][Configure][X11] The minimal required version of libxcb now is 1.11. [ChangeLog][Third-Party Code][X11] Removed all bundled XCB libs, with the exception of xcb-xinput, which is not available on systems with libxcb 1.11. [ChangeLog][Configure][X11] Removed -qt-xcb, -system-xcb, -xkb, -xcb-xinput switches. [ChangeLog][Platform Specific Changes][X11] XKB and XInput2 now are mandatory dependencies for XCB plugin. XCB-XKB is a part of libxcb 1.11 releases. XCB-XInput is not part of libxcb 1.11 releases, but Qt builders can use -bundled-xcb-xinput switch. Fixes: QTBUG-73862 Fixes: QTBUG-73888 Task-number: QTBUG-67277 Task-number: QTBUG-30939 Change-Id: I4c2bd2a0e667220d32fd1fbfa1419c844f17fcce Reviewed-by: Lars Knoll <lars.knoll@qt.io>
2019-02-19 09:09:19 +00:00
-xcb ............... Enable X11 support [auto] (Linux only)
Input backends:
-libudev............ Enable udev support [auto]
-evdev ............. Enable evdev support [auto]
-imf ............... Enable IMF support [auto] (QNX only)
-libinput .......... Enable libinput support [auto]
-mtdev ............. Enable mtdev support [auto]
-tslib ............. Enable tslib support [auto]
3rdparty: remove xcb libs and bump minimal required version to 1.11 With libxcb 1.11 as minimal required version we can: (a) (Maybe) Enable threaded GL for MESA, see QTBUG-67277. (b) Avoid performance issues described in QTBUG-46017. Bundled xcb libs don't contain the more modern SHM fd passing APIs. The official binaries use "-qt-xcb", therefore we were shipping with the performance fix #ifdef-ed out. (c) Make xcb-xkb a mandatory dependency avoiding issues described in QTBUG-30911. Issues that appear when Qt was configure with "-no-xkb -xcb-xlib", but X server has the XKB extension. (d) Drop all, but xcb-xinput sources from src/3rdparty/xcb/, for which we need "xcb-xinput >= 1.12". This way we can reduce maintenance work. The xcb libraries were origianlly bundled because of lack of availability on supported distributions. This is not the case anymore: CI for Qt 5.13 has: Ubuntu 18.04 - libxcb 1.13 RHEL 7.4 - libxcb 1.13 openSUSE 15.0 - libxcb 1.13 CI for Qt 5.12 has: Ubuntu 16.04 - libxcb 1.11 RHEL 7.4 - libxcb 1.13 openSUSE 42.3 - libxcb 1.11 RHEL 6.x - not relevant because it was dropped from supported platforms. Why 1.11 (released on Aug, 2014), but not 1.13 (released on March 2018)? Based on what we have in CI for 5.13 and 5.14 we could update to 1.13, but it means that Qt would require a very recent version of 3rd party dependency. [ChangeLog][Configure][X11] The minimal required version of libxcb now is 1.11. [ChangeLog][Third-Party Code][X11] Removed all bundled XCB libs, with the exception of xcb-xinput, which is not available on systems with libxcb 1.11. [ChangeLog][Configure][X11] Removed -qt-xcb, -system-xcb, -xkb, -xcb-xinput switches. [ChangeLog][Platform Specific Changes][X11] XKB and XInput2 now are mandatory dependencies for XCB plugin. XCB-XKB is a part of libxcb 1.11 releases. XCB-XInput is not part of libxcb 1.11 releases, but Qt builders can use -bundled-xcb-xinput switch. Fixes: QTBUG-73862 Fixes: QTBUG-73888 Task-number: QTBUG-67277 Task-number: QTBUG-30939 Change-Id: I4c2bd2a0e667220d32fd1fbfa1419c844f17fcce Reviewed-by: Lars Knoll <lars.knoll@qt.io>
2019-02-19 09:09:19 +00:00
-bundled-xcb-xinput Use bundled XInput2 support [auto]
-xkbcommon ......... Enable key mapping support [auto]
Image formats:
-gif ............... Enable reading support for GIF [auto]
-ico ............... Enable support for ICO [yes]
-libpng ............ Select used libpng [system/qt/no]
-libjpeg ........... Select used libjpeg [system/qt/no]
Database options:
-sql-<driver> ........ Enable SQL <driver> plugin. Supported drivers:
db2 ibase mysql oci odbc psql sqlite
[all auto]
-sqlite .............. Select used sqlite [system/qt]