// Copyright (C) 2021 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GFDL-1.3-no-invariants-only /*! \page qt-deploy-runtime-dependencies.html \ingroup cmake-commands-qtcore \title qt_deploy_runtime_dependencies \keyword qt6_deploy_runtime_dependencies \summary {Deploy Qt plugins, Qt and non-Qt libraries needed by an executable.} \include cmake-find-package-core.qdocinc Unlike most other CMake commands provided by Qt, \c{qt_deploy_runtime_dependencies()} can only be called from a deployment script. It cannot be called directly by the project during the configure stage. \cmakecommandsince 6.3 \note This command does not usually need to be called directly. It is used internally by other higher level commands, but projects wishing to implement more customized deployment logic may find it useful. \section1 Synopsis \badcode qt_deploy_runtime_dependencies( EXECUTABLE executable [ADDITIONAL_EXECUTABLES files...] [ADDITIONAL_LIBRARIES files...] [ADDITIONAL_MODULES files...] [GENERATE_QT_CONF] [BIN_DIR bin_dir] [LIBEXEC_DIR libexec_dir] [LIB_DIR lib_dir] [PLUGINS_DIR plugins_dir] [QML_DIR qml_dir] [VERBOSE] [NO_OVERWRITE] [NO_APP_STORE_COMPLIANCE] [NO_TRANSLATIONS] [NO_COMPILER_RUNTIME] [DEPLOY_TOOL_OPTIONS] [PRE_INCLUDE_REGEXES regexes...] [PRE_EXCLUDE_REGEXES regexes...] [POST_INCLUDE_REGEXES regexes...] [POST_EXCLUDE_REGEXES regexes...] [POST_INCLUDE_FILES files...] [POST_EXCLUDE_FILES files...] ) \endcode \section1 Description When installing an application, it may be desirable to also install the libraries and plugins it depends on. When the application is a macOS app bundle or a Windows executable, \c{qt_deploy_runtime_dependencies()} can be called from an install-time script to deploy those dependencies. It will install non-system Qt libraries plus an appropriate set of Qt plugins. On Linux, the command will deploy additional libraries, beyond just those related to Qt, that are included with the project. However, when executed on macOS or Windows, the command will use either \c macdeployqt or \c windeployqt, which will only deploy libraries that are specific to Qt. This command only considers runtime dependencies for which linking relationships exist in the underlying binaries. It does not deploy QML modules, see \l{qt6_deploy_qml_imports}{qt_deploy_qml_imports()} for that. \section1 Arguments The \c{EXECUTABLE} option must be provided. The \c{executable} argument should be the path to the executable file in the build directory. For example, \c{${CMAKE_CURRENT_BINARY_DIR}/MyApp.exe}, or more dynamically \c{$}. Specifying raw target names not wrapped in a generator expression like \c{} is not supported. For macOS app bundles, the \c{executable} argument should be a path to the bundle directory, relative to the base install location. For example \c{MyApp.app}, or more dynamically \c{$.app}. Specifying raw target names not wrapped in a generator epxression like \c{} is not supported. It may also be desirable to install dependencies for other binaries related to the \c{executable}. For example, plugins provided by the project might have further dependencies, but because those plugins won't be linked directly to the executable, \c{qt_deploy_runtime_dependencies()} won't automatically discover them. The \c{ADDITIONAL_EXECUTABLES}, \c{ADDITIONAL_LIBRARIES}, and \c{ADDITIONAL_MODULES} options can be used to specify additional binaries whose dependencies should also be deployed (installing the named binaries themselves is still the project's responsibility). The naming of these keywords follows CMake's conventions, so Qt plugins would be specified using \c{ADDITIONAL_MODULES}. Each value should be a path relative to the base install location. The values can use generator expressions, same as with the \c{EXECUTABLE} option. Specifying raw target names not wrapped in a generator epxression like \c{} is not supported. When installing a Windows application, it is common to need a \l{Using qt.conf}{qt.conf} file when following CMake's default install directory structure. If the \c{GENERATE_QT_CONF} option is given, an appropriate \c{qt.conf} file will be written to the same directory as the \c{executable}. The paths in that \c{qt.conf} file will be based on the \c{CMAKE_INSTALL_xxxDIR} variables, whose defaults are provided by CMake's \l{GNUInstallDirs} module. You can override some of those defaults with the parameters in the following table, all of which are expected to be relative to the base install location. \table \header \li parameter \li affected variable \li notes \row \li \c BIN_DIR \li \l QT_DEPLOY_BIN_DIR \li \row \li \c LIBEXEC_DIR \li \l QT_DEPLOY_LIBEXEC_DIR \li since Qt 6.7 \row \li \c LIB_DIR \li \l QT_DEPLOY_LIB_DIR \li \row \li \c PLUGINS_DIR \li \l QT_DEPLOY_PLUGINS_DIR \li \row \li \c QML_DIR \li \l QT_DEPLOY_QML_DIR \li \endtable A \c{qt.conf} file is always written if \c{executable} is a macOS app bundle, regardless of whether or not \c{GENERATE_QT_CONF} is provided. The \c{..._DIR} options are also ignored in that case, since the directory layout of an app bundle is dictated by Apple's requirements. More verbose output about the deployment steps can be enabled by providing the \c{VERBOSE} option. Alternatively, the \l{QT_ENABLE_VERBOSE_DEPLOYMENT} variable can be set in the project before the first \c{find_package(Qt6)} call to make deployment output verbose by default. The \c{qt_deploy_runtime_dependencies()} command overwrites existing files by default (some warnings may still be issued). Use the \c{NO_OVERWRITE} option to prevent overwriting existing files. Note that this option currently only affects macOS and Windows deployments. By default, if \c{executable} is a macOS app bundle, only Qt plugins and Qt libraries that comply with Apple's app store requirements are deployed. The \c{NO_APP_STORE_COMPLIANCE} option can be given to disable that constraint. On platforms other than macOS, Qt translations are automatically deployed. To inhibit this behavior, specify \c{NO_TRANSLATIONS}. Use \l{qt6_deploy_translations}{qt_deploy_translations()} to deploy translations in a customized way. For Windows desktop applications, the required runtime files for the compiler are also installed by default. To prevent this, specify \c{NO_COMPILER_RUNTIME}. Since Qt 6.7, you can use \c{DEPLOY_TOOL_OPTIONS} to pass additional options to the underlying deployment tool. This only has an effect if the underlying deployment tool is either macdeployqt or windeployqt. On Linux, deploying runtime dependencies is based on CMake's \c{file(GET_RUNTIME_DEPENDENCIES)} command. The options \c{PRE_INCLUDE_REGEXES}, \c{PRE_EXCLUDE_REGEXES}, \c{POST_INCLUDE_REGEXES}, \c{POST_EXCLUDE_REGEXES}, \c{POST_INCLUDE_FILES}, and \c{POST_EXCLUDE_FILES} are only meaningful in this context and are forwarded unaltered to \c{file(GET_RUNTIME_DEPENDENCIES)}. See the documentation of that command for details. On Linux, runtime dependencies that are located in system library directories are not deployed by default. If \c{POST_EXCLUDE_REGEXES} is specified, this automatic exclusion is not performed. The default value of \c{POST_EXCLUDE_REGEXES} is constructed from the value of \l{QT_DEPLOY_IGNORED_LIB_DIRS}. \sa {qt6_generate_deploy_app_script}{qt_generate_deploy_app_script()}, {qt6_deploy_qt_conf}{qt_deploy_qt_conf()}, {qt6_deploy_qml_imports}{qt_deploy_qml_imports()} \section1 Example The following example shows how to deploy an application \c{MyApp}. \include cmake-deploy-runtime-dependencies.qdocinc The following example shows how to use the \c{DEPLOY_TOOL_OPTIONS} parameter to pass different options to macdeployqt and windeployqt. \include cmake-deploy-runtime-dependencies-deploy-tool-options.qdocinc */