Qt: Difference between revisions
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* [https://stackoverflow.com/questions/18663331 How to check the selected version of Qt in a .pro file?] | * [https://stackoverflow.com/questions/18663331 How to check the selected version of Qt in a .pro file?] | ||
== Hello world involving QML, Qt5, cmake | == Hello world involving QML, Qt5, nix and cmake, qmake or meson == | ||
You can find [https://gist.github.com/tobiasBora/04d0febda0b3f09707b5e1b7b85390a5 here] a minimal example to use QML, cmake, nix and Qt5, and [https://gist.github.com/tobiasBora/6f114cca1affb5528c872ca01d7e28c1 here] is the same example with qmake instead. There is nothing special to nix there, but note that if you provide the qml file using something like <code>qrc:///main.qml</code>, then you need to write a qrc file that lists all the resources that must be included in the qt resource manager. This file is then used to compile the resources and include them in the binary (you have to compile the binaries, either automatically with cmake or qmake, or manually using rcc). With cmake you compile it using <code>qt5_add_resources(SOURCES qml.qrc)</code> ([https://doc.qt.io/qt-5/qtcore-cmake-qt5-add-resources.html doc]) as illustrated in the above example (make sure to use a variable as the source and to reuse the same variable in <code>add_executable</code>). | You can find [https://gist.github.com/tobiasBora/04d0febda0b3f09707b5e1b7b85390a5 here] a minimal example to use QML, cmake, nix and Qt5, and [https://gist.github.com/tobiasBora/6f114cca1affb5528c872ca01d7e28c1 here] is the same example with qmake instead and [https://gist.github.com/tobiasBora/812701e8741814393f3df7b23a11eb4b here] is the same with meson instead. There is nothing special to nix there, but note that if you provide the qml file using something like <code>qrc:///main.qml</code>, then you need to write a qrc file that lists all the resources that must be included in the qt resource manager. This file is then used to compile the resources and include them in the binary (you have to compile the binaries, either automatically with cmake or qmake, or manually using rcc). With cmake you compile it using <code>qt5_add_resources(SOURCES qml.qrc)</code> ([https://doc.qt.io/qt-5/qtcore-cmake-qt5-add-resources.html doc]) as illustrated in the above example (make sure to use a variable as the source and to reuse the same variable in <code>add_executable</code>). | ||
Latest revision as of 01:30, 18 November 2022
Development
If you want to develop qt applications in nixos you have to use nix-shell or direnv. For using nix-shell just run this command in the terminal:
nix-shell -p qt5Full -p qtcreator --run qtcreator
Tip: if it finds no Qt Kits, rm -rf ~/.config/QtProject*
and start again. Sometimes it finds a kit, but cannot find a suitable qt version for it, in this case you can also type which qmake
in your nix-shell and add a new entry in the QT-Versions
tab in Tools->Options->Kits
.
For using direnv, create a shell.nix file in the root of your project and paste these lines into it:
# shell.nix
{ pkgs ? import <nixpkgs> {} }:
pkgs.mkShell {
buildInputs = [
pkgs.qt5.full
pkgs.qtcreator
];
}
Tip: if you want use clang-format, add clang-format to buildinputs list.
Also create .envrc file and paste: use_nix
into it.
Happy qt coding :)
Packaging
See for the entry in the nixpkgs manual.
Qt applications can't be called with callPackage
, since they expect more inputs. Namely qtbase
and wrapQtAppsHook
. Instead they should be called with libsForQt5.callPackage
.
./build/default.nix
{ stdenv, lib, qtbase, wrapQtAppsHook }:
stdenv.mkDerivation {
pname = "myapp";
version = "1.0";
buildInputs = [ qtbase ];
nativeBuildInputs = [ wrapQtAppsHook ];
}
#nix-repl
myapp = callPackage ./build/myapp/default.nix { } # Will complain it wasn't called with qtbase, etc.
myapp = libsForQt5.callPackage ./build/myapp/default.nix { } # Should work
Projects using python (e.g. PyQt5)
It's possible to package a program that uses internally python and Qt (like PyQt5) by providing a python executable with the appropriate libraries like that myPython = python3.withPackages (pkgs: with pkgs; [ pyqt5 ]);
. `wrapQtAppsHook
` even seems to be optional when using `mkderivation` (at least this program can be run without) since anyway it does not patch scripts.
{ mkDerivation,
lib,
stdenv,
fetchFromGitHub,
jack2,
which,
python3,
qtbase,
qttools,
wrapQtAppsHook,
liblo,
git,
}:
let
myPython = python3.withPackages (pkgs: with pkgs; [ pyqt5 liblo pyliblo pyxdg ]);
in
mkDerivation rec {
pname = "RaySession";
version = "0.11.1";
src = fetchFromGitHub {
owner = "Houston4444";
repo = pname;
rev = "v${version}";
sha256 = "sha256-EbDBuOcF0JQq/LOrakb040Yfrpdi3FOB1iczQTeXBkc=";
};
# This patch is required to be able to create a new session, but not a problem to compile and start the program
# patches = [ ./copy_template_writable.patch ];
# Otherwise lrelease-qt is not found:
postPatch = ''
substituteInPlace Makefile \
--replace "lrelease-qt4" "${qttools.dev}/bin/lrelease" \
--replace '$(DESTDIR)/' '$(DESTDIR)$(PREFIX)' # Otherwise problem with installing manual etc...
'';
nativeBuildInputs = [
myPython
wrapQtAppsHook # Not really useful since it will not pack scripts. And actually it seems that it's not required?
which
qttools
];
propagatedBuildInputs = [ myPython qtbase jack2 git ];
# Prefix must be set correctly due to sed -i "s?X-PREFIX-X?$(PREFIX)?"
makeFlags = [ "PREFIX=$(out)" ]; # prefix does not work since due to line "install -d $(DESTDIR)/etc/xdg/"
}
Call it with
{ pkgs ? import <nixpkgs> {} }:
pkgs.libsForQt5.callPackage ./derivation.nix {}
For actual python applications, you may also use something like that (to test) :
python3.pkgs.buildPythonApplication {
pname = "blabla";
version = "3.32.2";
nativeBuildInputs = [
wrapQtAppsHook
...
];
dontWrapQtApps = true; # wrapQtApps won't patch script anyway. TODO: save to use if it contains executables?
# Arguments to be passed to `makeWrapper`, only used by buildPython*
preFixup = ''
qtWrapperArgs+=("''${gappsWrapperArgs[@]}")
# You can manually patch scripts using: wrapQtApp "$out/bin/myapp". TODO: check when it's required.
'';
}
Migrating apps from Qt5 to Qt6
- Replace
libsForQt5.callPackage
withqt6Packages.callPackage
- Add the dependency qt5compat
- Hope for the best ; )
qt5compat
is only needed for Qt5 projects, which are not-yet migrated to Qt6.
Maybe add libraries like qtwayland
Conditional blocks in qmake *.pro
files
lessThan(QT_MAJOR_VERSION, 6) {
# qt5, qt4, ...
QT += x11extras
}
equals(QT_MAJOR_VERSION, 6) {
# qt6
QT += core-private
}
See also:
Hello world involving QML, Qt5, nix and cmake, qmake or meson
You can find here a minimal example to use QML, cmake, nix and Qt5, and here is the same example with qmake instead and here is the same with meson instead. There is nothing special to nix there, but note that if you provide the qml file using something like qrc:///main.qml
, then you need to write a qrc file that lists all the resources that must be included in the qt resource manager. This file is then used to compile the resources and include them in the binary (you have to compile the binaries, either automatically with cmake or qmake, or manually using rcc). With cmake you compile it using qt5_add_resources(SOURCES qml.qrc)
(doc) as illustrated in the above example (make sure to use a variable as the source and to reuse the same variable in add_executable
).
Troubleshooting
Cannot mix incompatible Qt library (version 0x_____) with this library (version 0x_____)
This is a known issue, see #30551 for the current status.
Starting with the 19.09 release, the issue should be fixed by #65526
This application failed to start because it could not find or load the Qt platform plugin ??? in ""
qt4
Qt4 depends on the environment variable QT_PLUGIN_PATH
to find plugins. It is normally already
present in the environment on NixOS at least, but for example systemd user units are launched in a pretty empty environment. A solution is to use the command
systemctl --user import-environment QT_PLUGIN_PATH
from a sane environment. For example add it to the services.xserver.displayManager.sessionCommands
option.
qt5
Qt5 seems (?) to look for plugins in the PATH
. This will fail from a systemd user unit for example, because their path is nearly empty by default. As an example, here is a workaround to have usbguard-applet
launched from a systemd user unit:
/etc/nixos/configuration.nix
systemd.user.services.usbguard-applet = {
description = "USBGuard applet";
partOf = [ "graphical-session.target" ];
wantedBy = [ "graphical-session.target" ];
path = [ "/run/current-system/sw/" ]; ### Fix empty PATH to find qt plugins
serviceConfig = {
ExecStart = "${pkgs.usbguard}/bin/usbguard-applet-qt";
};
};
qt.qpa.plugin: Could not find the Qt platform plugin "xcb" in ""
Here is a concrete example:
qt.qpa.plugin: Could not find the Qt platform plugin "xcb" in "" This application failed to start because no Qt platform plugin could be initialized. Reinstalling the application may fix this problem.
The package will need to be fixed to use [the new https://github.com/NixOS/nixpkgs/issues/65399 wrapQtAppsHook
]. The hook wraps every qt application with adding QT_PLUGIN_PATH
and XDG_DATA_DIRS
as well as XDG_CONFIG_DIRS
.See wrap-qt-apps-hook.sh in nixpkgs
Debugging methods
As a general rule, exporting QT_DEBUG_PLUGINS=1
make qt print where it looks for plugins.
If a plugin exists in a directory but is ignored with a message like QLibraryPrivate::loadPlugin failed on "/nix/store/...-teamspeak-client-3.1.6/lib/teamspeak/platforms/libqxcb.so" : "Cannot load library /nix/store/...-client-3.1.6/lib/teamspeak/platforms/libqxcb.so: "
it can be that the library cannot be dlopen()
ed because of dependencies/rpath issues and needs patchelf
ing. Exporting LD_DEBUG=libs
may prove helpful in this scenario.