原文链接install — CMake 3.28.1 Documentation
Contents
install
Synopsis
Introduction
Signatures
Examples
Example: Install Targets with Per-Artifact Components
Example: Install Targets to Per-Config Destinations
Generated Installation Script
Specify rules to run at install time.
install(TARGETS... [...]) 常用 install(IMPORTED_RUNTIME_ARTIFACTS ... [...]) install({FILES | PROGRAMS} ... [...]) install(DIRECTORY ... [...]) 常用 install(SCRIPT [...]) install(CODE [...]) install(EXPORT
[...]) install(RUNTIME_DEPENDENCY_SET [...])
This command generates installation rules for a project.(这个install函数主要管project安装) Install rules specified by calls to the install()
command within a source directory are executed in order during installation.
Changed in version 3.14: Install rules in subdirectories added by calls to the add_subdirectory() command are interleaved with those in the parent directory to run in the order declared (see policy CMP0082).
Changed in version 3.22: The environment variable CMAKE_INSTALL_MODE can override the default copying behavior of install()
.
There are multiple signatures for this command. Some of them define installation options for files and targets. Options common to multiple signatures are covered here but they are valid only for signatures that specify them. The common options are:
DESTINATION
Specify the directory on disk to which a file will be installed. Arguments can be relative or absolute paths.
举例:install(TARGET a_exe DESTINATION bin/${PROJECT_NAME})
或者install(DIRECTORY launch urdf DESTINATION share/${PROJECT_NAME})
其实不指定位置也是可以的install(TARGET a_ext)
install(DIRECTORY launch urdf);注意上边提供的是相对路径,不是绝对路径
If a relative path is given it is interpreted relative to the value of the CMAKE_INSTALL_PREFIX variable. The prefix can be relocated at install time using the DESTDIR
mechanism explained in the CMAKE_INSTALL_PREFIX variable documentation.
使用相对路径的路径是${CMAKE_INSTALL_PREFIX}+相对路径
If an absolute path (with a leading slash or drive letter) is given it is used verbatim.
As absolute paths are not supported by cpack installer generators, it is preferable to use relative paths throughout. In particular, there is no need to make paths absolute by prepending CMAKE_INSTALL_PREFIX; this prefix is used by default if the DESTINATION is a relative path.
建议使用相对路径,因为有些软件不支持绝对路径
PERMISSIONS
Specify permissions for installed files. Valid permissions are OWNER_READ
, OWNER_WRITE
, OWNER_EXECUTE
, GROUP_READ
, GROUP_WRITE
, GROUP_EXECUTE
, WORLD_READ
, WORLD_WRITE
, WORLD_EXECUTE
, SETUID
, and SETGID
. Permissions that do not make sense on certain platforms are ignored on those platforms.
If this option is used multiple times in a single call, its list of permissions accumulates. If an install(TARGETS) call uses
CONFIGURATIONS
Specify a list of build configurations for which the install rule applies (Debug, Release, etc.).
If this option is used multiple times in a single call, its list of configurations accumulates. If an install(TARGETS) call uses
COMPONENT
Specify an installation component name with which the install rule is associated, such as Runtime
or Development
. During component-specific installation only install rules associated with the given component name will be executed. During a full installation all components are installed unless marked with EXCLUDE_FROM_ALL
. If COMPONENT
is not provided a default component "Unspecified" is created. The default component name may be controlled with the CMAKE_INSTALL_DEFAULT_COMPONENT_NAME variable.
EXCLUDE_FROM_ALL
New in version 3.6.
Specify that the file is excluded from a full installation and only installed as part of a component-specific installation
RENAME
Specify a name for an installed file that may be different from the original file. Renaming is allowed only when a single file is installed by the command.
OPTIONAL
Specify that it is not an error if the file to be installed does not exist.
New in version 3.1: Command signatures that install files may print messages during installation. Use the CMAKE_INSTALL_MESSAGE variable to control which messages are printed.
New in version 3.11: Many of the install()
variants implicitly create the directories containing the installed files. If CMAKE_INSTALL_DEFAULT_DIRECTORY_PERMISSIONS is set, these directories will be created with the permissions specified. Otherwise, they will be created according to the uname rules on Unix-like platforms. Windows platforms are unaffected.
install(TARGETS
Install target Output Artifacts and associated files:
install(TARGETS... [EXPORT ] [RUNTIME_DEPENDENCIES ...|RUNTIME_DEPENDENCY_SET ] [ ...] [ ...]... [INCLUDES DESTINATION [ ...]] )
where
group may contain:这个artifact-option约等于”自定义选项“
[DESTINATION] 常用 [PERMISSIONS ...] [CONFIGURATIONS ...] [COMPONENT ] [NAMELINK_COMPONENT ] [OPTIONAL] [EXCLUDE_FROM_ALL] [NAMELINK_ONLY|NAMELINK_SKIP] 例如install(targets a_exe destination bin/${PROJECT_NAME})
The first
group applies to target Output Artifacts that do not have a dedicated group specified later in the same call.
Each
group applies to Output Artifacts of the specified artifact kind:
ARCHIVE
Target artifacts of this kind include:
Static libraries (except on macOS when marked as FRAMEWORK
, see below);
DLL import libraries (on all Windows-based systems including Cygwin; they have extension .lib
, in contrast to the .dll
libraries that go to RUNTIME
);
On AIX, the linker import file created for executables with ENABLE_EXPORTS enabled.
On macOS, the linker import file created for shared libraries with ENABLE_EXPORTS enabled (except when marked as FRAMEWORK
, see below).
LIBRARY
Target artifacts of this kind include:
Shared libraries, except
DLLs (these go to RUNTIME
, see below),
on macOS when marked as FRAMEWORK
(see below).
RUNTIME
Target artifacts of this kind include:
Executables (except on macOS when marked as MACOSX_BUNDLE
, see BUNDLE
below);
DLLs (on all Windows-based systems including Cygwin; note that the accompanying import libraries are of kind ARCHIVE
).
OBJECTS
New in version 3.9.
Object files associated with object libraries.
FRAMEWORK
Both static and shared libraries marked with the FRAMEWORK
property are treated as FRAMEWORK
targets on macOS.
BUNDLE
Executables marked with the MACOSX_BUNDLE property are treated as BUNDLE
targets on macOS.
PUBLIC_HEADER
Any PUBLIC_HEADER files associated with a library are installed in the destination specified by the PUBLIC_HEADER
argument on non-Apple platforms. Rules defined by this argument are ignored for FRAMEWORK libraries on Apple platforms because the associated files are installed into the appropriate locations inside the framework folder. See PUBLIC_HEADER for details.
PRIVATE_HEADER
Similar to PUBLIC_HEADER
, but for PRIVATE_HEADER
files. See PRIVATE_HEADER for details.
RESOURCE
Similar to PUBLIC_HEADER
and PRIVATE_HEADER
, but for RESOURCE
files. See RESOURCE for details.
FILE_SET
New in version 3.23.
File sets are defined by the target_sources(FILE_SET) command. If the file set
exists and is PUBLIC
or INTERFACE
, any files in the set are installed under the destination (see below). The directory structure relative to the file set's base directories is preserved. For example, a file added to the file set as /blah/include/myproj/here.h
with a base directory /blah/include
would be installed to myproj/here.h
below the destination.
CXX_MODULES_BMI
New in version 3.28.
Any module files from C++ modules from PUBLIC
sources in a file set of type CXX_MODULES
will be installed to the given DESTINATION
. All modules are placed directly in the destination as no directory structure is derived from the names of the modules. An empty DESTINATION
may be used to suppress installing these files (for use in generic code).
For regular executables, static libraries and shared libraries, the DESTINATION
argument is not required. For these target types, when DESTINATION
is omitted, a default destination will be taken from the appropriate variable from GNUInstallDirs, or set to a built-in default value if that variable is not defined. The same is true for file sets, and the public and private headers associated with the installed targets through the PUBLIC_HEADER and PRIVATE_HEADER target properties. A destination must always be provided for module libraries, Apple bundles and frameworks. A destination can be omitted for interface and object libraries, but they are handled differently (see the discussion of this topic toward the end of this section).
For shared libraries on DLL platforms, if neither RUNTIME
nor ARCHIVE
destinations are specified, both the RUNTIME
and ARCHIVE
components are installed to their default destinations. If either a RUNTIME
or ARCHIVE
destination is specified, the component is installed to that destination, and the other component is not installed. If both RUNTIME
and ARCHIVE
destinations are specified, then both components are installed to their respective destinations.
The following table shows the target types with their associated variables and built-in defaults that apply when no destination is given:
Target Type |
GNUInstallDirs Variable |
Built-In Default |
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Projects wishing to follow the common practice of installing headers into a project-specific subdirectory may prefer using file sets with appropriate paths and base directories. Otherwise, they must provide a DESTINATION
instead of being able to rely on the above (see next example below).
To make packages compliant with distribution filesystem layout policies, if projects must specify a DESTINATION
, it is recommended that they use a path that begins with the appropriate GNUInstallDirs variable. This allows package maintainers to control the install destination by setting the appropriate cache variables. The following example shows a static library being installed to the default destination provided by GNUInstallDirs, but with its headers installed to a project-specific subdirectory without using file sets:
add_library(mylib STATIC ...) set_target_properties(mylib PROPERTIES PUBLIC_HEADER mylib.h) include(GNUInstallDirs) install(TARGETS mylib PUBLIC_HEADER DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/myproj )
In addition to the common options listed above, each target can accept the following additional arguments:
NAMELINK_COMPONENT
New in version 3.12.
On some platforms a versioned shared library has a symbolic link such as:
lib.so -> lib .so.1
where lib
is the soname of the library and lib
is a "namelink" allowing linkers to find the library when given -l
. The NAMELINK_COMPONENT
option is similar to the COMPONENT
option, but it changes the installation component of a shared library namelink if one is generated. If not specified, this defaults to the value of COMPONENT
. It is an error to use this parameter outside of a LIBRARY
block.
Changed in version 3.27: This parameter is also usable for an ARCHIVE
block to manage the linker import file created, on macOS, for shared libraries with ENABLE_EXPORTS enabled.
See the Example: Install Targets with Per-Artifact Components for an example using NAMELINK_COMPONENT
.
This option is typically used for package managers that have separate runtime and development packages. For example, on Debian systems, the library is expected to be in the runtime package, and the headers and namelink are expected to be in the development package.
See the VERSION and SOVERSION target properties for details on creating versioned shared libraries.
NAMELINK_ONLY
This option causes the installation of only the namelink when a library target is installed. On platforms where versioned shared libraries do not have namelinks or when a library is not versioned, the NAMELINK_ONLY
option installs nothing. It is an error to use this parameter outside of a LIBRARY
block.
Changed in version 3.27: This parameter is also usable for an ARCHIVE
block to manage the linker import file created, on macOS, for shared libraries with ENABLE_EXPORTS enabled.
When NAMELINK_ONLY
is given, either NAMELINK_COMPONENT
or COMPONENT
may be used to specify the installation component of the namelink, but COMPONENT
should generally be preferred.
NAMELINK_SKIP
Similar to NAMELINK_ONLY
, but it has the opposite effect: it causes the installation of library files other than the namelink when a library target is installed. When neither NAMELINK_ONLY
or NAMELINK_SKIP
are given, both portions are installed. On platforms where versioned shared libraries do not have symlinks or when a library is not versioned, NAMELINK_SKIP
installs the library. It is an error to use this parameter outside of a LIBRARY
block.
Changed in version 3.27: This parameter is also usable for an ARCHIVE
block to manage the linker import file created, on macOS, for shared libraries with ENABLE_EXPORTS enabled.
If NAMELINK_SKIP
is specified, NAMELINK_COMPONENT
has no effect. It is not recommended to use NAMELINK_SKIP
in conjunction with NAMELINK_COMPONENT
.
The install(TARGETS) command can also accept the following options at the top level:
EXPORT
This option associates the installed target files with an export called
. It must appear before any target options. To actually install the export file itself, call install(EXPORT), documented below. See documentation of the EXPORT_NAME target property to change the name of the exported target.
If EXPORT
is used and the targets include PUBLIC
or INTERFACE
file sets, all of them must be specified with FILE_SET
arguments. All PUBLIC
or INTERFACE
file sets associated with a target are included in the export.
INCLUDES DESTINATION
This option specifies a list of directories which will be added to the INTERFACE_INCLUDE_DIRECTORIES target property of the
when exported by the install(EXPORT) command. If a relative path is specified, it is treated as relative to the $
RUNTIME_DEPENDENCY_SET
New in version 3.21.
This option causes all runtime dependencies of installed executable, shared library, and module targets to be added to the specified runtime dependency set. This set can then be installed with an install(RUNTIME_DEPENDENCY_SET) command.
This keyword and the RUNTIME_DEPENDENCIES
keyword are mutually exclusive.
RUNTIME_DEPENDENCIES
New in version 3.21.
This option causes all runtime dependencies of installed executable, shared library, and module targets to be installed along with the targets themselves. The RUNTIME
, LIBRARY
, FRAMEWORK
, and generic arguments are used to determine the properties (DESTINATION
, COMPONENT
, etc.) of the installation of these dependencies.
RUNTIME_DEPENDENCIES
is semantically equivalent to the following pair of calls:
install(TARGETS ... RUNTIME_DEPENDENCY_SET) install(RUNTIME_DEPENDENCY_SET ...)
where
will be a randomly generated set name.
may include any of the following keywords supported by the install(RUNTIME_DEPENDENCY_SET) command:
DIRECTORIES
PRE_INCLUDE_REGEXES
PRE_EXCLUDE_REGEXES
POST_INCLUDE_REGEXES
POST_EXCLUDE_REGEXES
POST_INCLUDE_FILES
POST_EXCLUDE_FILES
The RUNTIME_DEPENDENCIES
and RUNTIME_DEPENDENCY_SET
keywords are mutually exclusive.
Interface Libraries may be listed among the targets to install. They install no artifacts but will be included in an associated EXPORT
. If Object Libraries are listed but given no destination for their object files, they will be exported as Interface Libraries. This is sufficient to satisfy transitive usage requirements of other targets that link to the object libraries in their implementation.
Installing a target with the EXCLUDE_FROM_ALL target property set to TRUE
has undefined behavior.
New in version 3.3: An install destination given as a DESTINATION
argument may use "generator expressions" with the syntax $<...>
. See the cmake-generator-expressions(7) manual for available expressions.
New in version 3.13: install(TARGETS) can install targets that were created in other directories. When using such cross-directory install rules, running make install
(or similar) from a subdirectory will not guarantee that targets from other directories are up-to-date. You can use target_link_libraries() or add_dependencies() to ensure that such out-of-directory targets are built before the subdirectory-specific install rules are run.
install(IMPORTED_RUNTIME_ARTIFACTS
New in version 3.21.
Install runtime artifacts of imported targets:
install(IMPORTED_RUNTIME_ARTIFACTS... [RUNTIME_DEPENDENCY_SET ] [[LIBRARY|RUNTIME|FRAMEWORK|BUNDLE] [DESTINATION ] [PERMISSIONS ...] [CONFIGURATIONS ...] [COMPONENT ] [OPTIONAL] [EXCLUDE_FROM_ALL] ] [...] )
The IMPORTED_RUNTIME_ARTIFACTS
form specifies rules for installing the runtime artifacts of imported targets. Projects may do this if they want to bundle outside executables or modules inside their installation. The LIBRARY
, RUNTIME
, FRAMEWORK
, and BUNDLE
arguments have the same semantics that they do in the TARGETS mode. Only the runtime artifacts of imported targets are installed (except in the case of FRAMEWORK libraries, MACOSX_BUNDLE executables, and BUNDLE CFBundles.) For example, headers and import libraries associated with DLLs are not installed. In the case of FRAMEWORK libraries, MACOSX_BUNDLE executables, and BUNDLE CFBundles, the entire directory is installed.
The RUNTIME_DEPENDENCY_SET
option causes the runtime artifacts of the imported executable, shared library, and module library targets
to be added to the
runtime dependency set. This set can then be installed with an install(RUNTIME_DEPENDENCY_SET) command.
install(FILES
install(PROGRAMS
Note
If installing header files, consider using file sets defined by target_sources(FILE_SET) instead. File sets associate headers with a target and they install as part of the target.
Install files or programs:
install(... TYPE | DESTINATION [PERMISSIONS ...] [CONFIGURATIONS ...] [COMPONENT ] [RENAME ] [OPTIONAL] [EXCLUDE_FROM_ALL])
The FILES
form specifies rules for installing files for a project. File names given as relative paths are interpreted with respect to the current source directory. Files installed by this form are by default given permissions OWNER_WRITE
, OWNER_READ
, GROUP_READ
, and WORLD_READ
if no PERMISSIONS
argument is given.
The PROGRAMS
form is identical to the FILES
form except that the default permissions for the installed file also include OWNER_EXECUTE
, GROUP_EXECUTE
, and WORLD_EXECUTE
. This form is intended to install programs that are not targets, such as shell scripts. Use the TARGETS
form to install targets built within the project.
The list of files...
given to FILES
or PROGRAMS
may use "generator expressions" with the syntax $<...>
. See the cmake-generator-expressions(7) manual for available expressions. However, if any item begins in a generator expression it must evaluate to a full path.
Either a TYPE
or a DESTINATION
must be provided, but not both. A TYPE
argument specifies the generic file type of the files being installed. A destination will then be set automatically by taking the corresponding variable from GNUInstallDirs, or by using a built-in default if that variable is not defined. See the table below for the supported file types and their corresponding variables and built-in defaults. Projects can provide a DESTINATION
argument instead of a file type if they wish to explicitly define the install destination.
|
GNUInstallDirs Variable |
Built-In Default |
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Projects wishing to follow the common practice of installing headers into a project-specific subdirectory will need to provide a destination rather than rely on the above. Using file sets for headers instead of install(FILES)
would be even better (see target_sources(FILE_SET)).
Note that some of the types' built-in defaults use the DATAROOT
directory as a prefix. The DATAROOT
prefix is calculated similarly to the types, with CMAKE_INSTALL_DATAROOTDIR
as the variable and share
as the built-in default. You cannot use DATAROOT
as a TYPE
parameter; please use DATA
instead.
To make packages compliant with distribution filesystem layout policies, if projects must specify a DESTINATION
, it is recommended that they use a path that begins with the appropriate GNUInstallDirs variable. This allows package maintainers to control the install destination by setting the appropriate cache variables. The following example shows how to follow this advice while installing an image to a project-specific documentation subdirectory:
include(GNUInstallDirs) install(FILES logo.png DESTINATION ${CMAKE_INSTALL_DOCDIR}/myproj )
New in version 3.4: An install destination given as a DESTINATION
argument may use "generator expressions" with the syntax $<...>
. See the cmake-generator-expressions(7) manual for available expressions.
New in version 3.20: An install rename given as a RENAME
argument may use "generator expressions" with the syntax $<...>
. See the cmake-generator-expressions(7) manual for available expressions.
install(DIRECTORY
Note
To install a directory sub-tree of headers, consider using file sets defined by target_sources(FILE_SET) instead. File sets not only preserve directory structure, they also associate headers with a target and install as part of the target.
Install the contents of one or more directories:
install(DIRECTORY dirs... TYPE| DESTINATION [FILE_PERMISSIONS ...] [DIRECTORY_PERMISSIONS ...] [USE_SOURCE_PERMISSIONS] [OPTIONAL] [MESSAGE_NEVER] [CONFIGURATIONS ...] [COMPONENT ] [EXCLUDE_FROM_ALL] [FILES_MATCHING] [[PATTERN | REGEX ] [EXCLUDE] [PERMISSIONS ...]] [...])
The DIRECTORY
form installs contents of one or more directories to a given destination. The directory structure is copied verbatim to the destination. The last component of each directory name is appended to the destination directory but a trailing slash may be used to avoid this because it leaves the last component empty. Directory names given as relative paths are interpreted with respect to the current source directory. If no input directory names are given the destination directory will be created but nothing will be installed into it. The FILE_PERMISSIONS
and DIRECTORY_PERMISSIONS
options specify permissions given to files and directories in the destination. If USE_SOURCE_PERMISSIONS
is specified and FILE_PERMISSIONS
is not, file permissions will be copied from the source directory structure. If no permissions are specified files will be given the default permissions specified in the FILES
form of the command, and the directories will be given the default permissions specified in the PROGRAMS
form of the command.
New in version 3.1: The MESSAGE_NEVER
option disables file installation status output.
Installation of directories may be controlled with fine granularity using the PATTERN
or REGEX
options. These "match" options specify a globbing pattern or regular expression to match directories or files encountered within input directories. They may be used to apply certain options (see below) to a subset of the files and directories encountered. The full path to each input file or directory (with forward slashes) is matched against the expression. A PATTERN
will match only complete file names: the portion of the full path matching the pattern must occur at the end of the file name and be preceded by a slash. A REGEX
will match any portion of the full path but it may use /
and $
to simulate the PATTERN
behavior. By default all files and directories are installed whether or not they are matched. The FILES_MATCHING
option may be given before the first match option to disable installation of files (but not directories) not matched by any expression. For example, the code
install(DIRECTORY src/ DESTINATION doc/myproj FILES_MATCHING PATTERN "*.png")
will extract and install images from a source tree.
Some options may follow a PATTERN
or REGEX
expression as described under string(REGEX) and are applied only to files or directories matching them. The EXCLUDE
option will skip the matched file or directory. The PERMISSIONS
option overrides the permissions setting for the matched file or directory. For example the code
install(DIRECTORY icons scripts/ DESTINATION share/myproj PATTERN "CVS" EXCLUDE PATTERN "scripts/*" PERMISSIONS OWNER_EXECUTE OWNER_WRITE OWNER_READ GROUP_EXECUTE GROUP_READ)
will install the icons
directory to share/myproj/icons
and the scripts
directory to share/myproj
. The icons will get default file permissions, the scripts will be given specific permissions, and any CVS
directories will be excluded.
Either a TYPE
or a DESTINATION
must be provided, but not both. A TYPE
argument specifies the generic file type of the files within the listed directories being installed. A destination will then be set automatically by taking the corresponding variable from GNUInstallDirs, or by using a built-in default if that variable is not defined. See the table below for the supported file types and their corresponding variables and built-in defaults. Projects can provide a DESTINATION
argument instead of a file type if they wish to explicitly define the install destination.
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GNUInstallDirs Variable |
Built-In Default |
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Note that some of the types' built-in defaults use the DATAROOT
directory as a prefix. The DATAROOT
prefix is calculated similarly to the types, with CMAKE_INSTALL_DATAROOTDIR
as the variable and share
as the built-in default. You cannot use DATAROOT
as a TYPE
parameter; please use DATA
instead.
To make packages compliant with distribution filesystem layout policies, if projects must specify a DESTINATION
, it is recommended that they use a path that begins with the appropriate GNUInstallDirs variable. This allows package maintainers to control the install destination by setting the appropriate cache variables.
New in version 3.4: An install destination given as a DESTINATION
argument may use "generator expressions" with the syntax $<...>
. See the cmake-generator-expressions(7) manual for available expressions.
New in version 3.5: The list of dirs...
given to DIRECTORY
may use "generator expressions" too.
install(SCRIPT
install(CODE [...])
Invoke CMake scripts or code during installation:
install([[SCRIPT] [CODE ]] [ALL_COMPONENTS | COMPONENT
] [EXCLUDE_FROM_ALL] [...])
The SCRIPT
form will invoke the given CMake script files during installation. If the script file name is a relative path it will be interpreted with respect to the current source directory. The CODE
form will invoke the given CMake code during installation. Code is specified as a single argument inside a double-quoted string. For example, the code
install(CODE "MESSAGE(\"Sample install message.\")")
will print a message during installation.
New in version 3.21: When the ALL_COMPONENTS
option is given, the custom installation script code will be executed for every component of a component-specific installation. This option is mutually exclusive with the COMPONENT
option.
New in version 3.14:
or may use "generator expressions" with the syntax
$<...>
(in the case of
, this refers to their use in the file name, not the file's contents). See the cmake-generator-expressions(7) manual for available expressions.
install(EXPORT
Install a CMake file exporting targets for dependent projects:
install(EXPORTDESTINATION [NAMESPACE ] [FILE .cmake] [PERMISSIONS ...] [CONFIGURATIONS ...] [CXX_MODULES_DIRECTORY ] [EXPORT_LINK_INTERFACE_LIBRARIES] [COMPONENT ] [EXCLUDE_FROM_ALL]) install(EXPORT_ANDROID_MK DESTINATION [...])
The EXPORT
form generates and installs a CMake file containing code to import targets from the installation tree into another project. Target installations are associated with the export
using the EXPORT
option of the install(TARGETS) signature documented above. The NAMESPACE
option will prepend
to the target names as they are written to the import file. By default the generated file will be called
but the FILE
option may be used to specify a different name. The value given to the FILE
option must be a file name with the .cmake
extension. If a CONFIGURATIONS
option is given then the file will only be installed when one of the named configurations is installed. Additionally, the generated import file will reference only the matching target configurations. See the CMAKE_MAP_IMPORTED_CONFIG_EXPORT_LINK_INTERFACE_LIBRARIES
keyword, if present, causes the contents of the properties matching (IMPORTED_)?LINK_INTERFACE_LIBRARIES(_
to be exported, when policy CMP0022 is NEW
.
Note
The installed
file may come with additional per-configuration
files to be loaded by globbing. Do not use an export name that is the same as the package name in combination with installing a
file or the latter may be incorrectly matched by the glob and loaded.
When a COMPONENT
option is given, the listed
implicitly depends on all components mentioned in the export set. The exported
file will require each of the exported components to be present in order for dependent projects to build properly. For example, a project may define components Runtime
and Development
, with shared libraries going into the Runtime
component and static libraries and headers going into the Development
component. The export set would also typically be part of the Development
component, but it would export targets from both the Runtime
and Development
components. Therefore, the Runtime
component would need to be installed if the Development
component was installed, but not vice versa. If the Development
component was installed without the Runtime
component, dependent projects that try to link against it would have build errors. Package managers, such as APT and RPM, typically handle this by listing the Runtime
component as a dependency of the Development
component in the package metadata, ensuring that the library is always installed if the headers and CMake export file are present.
New in version 3.7: In addition to cmake language files, the EXPORT_ANDROID_MK
mode may be used to specify an export to the android ndk build system. This mode accepts the same options as the normal export mode. The Android NDK supports the use of prebuilt libraries, both static and shared. This allows cmake to build the libraries of a project and make them available to an ndk build system complete with transitive dependencies, include flags and defines required to use the libraries.
CXX_MODULES_DIRECTORY
New in version 3.28.
Specify a subdirectory to store C++ module information for targets in the export set. This directory will be populated with files which add the necessary target property information to the relevant targets. Note that without this information, none of the C++ modules which are part of the targets in the export set will support being imported in consuming targets.
The EXPORT
form is useful to help outside projects use targets built and installed by the current project. For example, the code
install(TARGETS myexe EXPORT myproj DESTINATION bin) install(EXPORT myproj NAMESPACE mp_ DESTINATION lib/myproj) install(EXPORT_ANDROID_MK myproj DESTINATION share/ndk-modules)
will install the executable myexe
to
and code to import it in the file
and
. An outside project may load this file with the include command and reference the myexe
executable from the installation tree using the imported target name mp_myexe
as if the target were built in its own tree.
Note
This command supersedes the install_targets() command and the PRE_INSTALL_SCRIPT and POST_INSTALL_SCRIPT target properties. It also replaces the FILES
forms of the install_files() and install_programs() commands. The processing order of these install rules relative to those generated by install_targets(), install_files(), and install_programs() commands is not defined.
install(RUNTIME_DEPENDENCY_SET
New in version 3.21.
Installs a runtime dependency set:
install(RUNTIME_DEPENDENCY_SET[[LIBRARY|RUNTIME|FRAMEWORK] [DESTINATION ] [PERMISSIONS ...] [CONFIGURATIONS ...] [COMPONENT ] [NAMELINK_COMPONENT ] [OPTIONAL] [EXCLUDE_FROM_ALL] ] [...] [PRE_INCLUDE_REGEXES ...] [PRE_EXCLUDE_REGEXES ...] [POST_INCLUDE_REGEXES ...] [POST_EXCLUDE_REGEXES ...] [POST_INCLUDE_FILES ...] [POST_EXCLUDE_FILES ...] [DIRECTORIES ...] )
Installs a runtime dependency set previously created by one or more install(TARGETS) or install(IMPORTED_RUNTIME_ARTIFACTS) commands. The dependencies of targets belonging to a runtime dependency set are installed in the RUNTIME
destination and component on DLL platforms, and in the LIBRARY
destination and component on non-DLL platforms. macOS frameworks are installed in the FRAMEWORK
destination and component. Targets built within the build tree will never be installed as runtime dependencies, nor will their own dependencies, unless the targets themselves are installed with install(TARGETS).
The generated install script calls file(GET_RUNTIME_DEPENDENCIES) on the build-tree files to calculate the runtime dependencies. The build-tree executable files are passed as the EXECUTABLES
argument, the build-tree shared libraries as the LIBRARIES
argument, and the build-tree modules as the MODULES
argument. On macOS, if one of the executables is a MACOSX_BUNDLE, that executable is passed as the BUNDLE_EXECUTABLE
argument. At most one such bundle executable may be in the runtime dependency set on macOS. The MACOSX_BUNDLE property has no effect on other platforms. Note that file(GET_RUNTIME_DEPENDENCIES) only supports collecting the runtime dependencies for Windows, Linux and macOS platforms, so install(RUNTIME_DEPENDENCY_SET)
has the same limitation.
The following sub-arguments are forwarded through as the corresponding arguments to file(GET_RUNTIME_DEPENDENCIES) (for those that provide a non-empty list of directories, regular expressions or files). They all support generator expressions.
DIRECTORIES
PRE_INCLUDE_REGEXES
PRE_EXCLUDE_REGEXES
POST_INCLUDE_REGEXES
POST_EXCLUDE_REGEXES
POST_INCLUDE_FILES
POST_EXCLUDE_FILES
Consider a project that defines targets with different artifact kinds:
add_executable(myExe myExe.c) add_library(myStaticLib STATIC myStaticLib.c) target_sources(myStaticLib PUBLIC FILE_SET HEADERS FILES myStaticLib.h) add_library(mySharedLib SHARED mySharedLib.c) target_sources(mySharedLib PUBLIC FILE_SET HEADERS FILES mySharedLib.h) set_property(TARGET mySharedLib PROPERTY SOVERSION 1)
We may call install(TARGETS) with
install(TARGETS myExe mySharedLib myStaticLib RUNTIME # Following options apply to runtime artifacts. COMPONENT Runtime LIBRARY # Following options apply to library artifacts. COMPONENT Runtime NAMELINK_COMPONENT Development ARCHIVE # Following options apply to archive artifacts. COMPONENT Development DESTINATION lib/static FILE_SET HEADERS # Following options apply to file set HEADERS. COMPONENT Development )
This will:
Install myExe
to
, the default RUNTIME artifact destination, as part of the Runtime
component.
On non-DLL platforms:
Install libmySharedLib.so.1
to
, the default LIBRARY artifact destination, as part of the Runtime
component.
Install the libmySharedLib.so
"namelink" (symbolic link) to
, the default LIBRARY artifact destination, as part of the Development
component.
On DLL platforms:
Install mySharedLib.dll
to
, the default RUNTIME artifact destination, as part of the Runtime
component.
Install mySharedLib.lib
to
, the specified ARCHIVE artifact destination, as part of the Development
component.
Install myStaticLib
to
, the specified ARCHIVE artifact destination, as part of the Development
component.
Install mySharedLib.h
and myStaticLib.h
to
, the default destination for a file set of type HEADERS, as part of the Development
component.
Each install(TARGETS) call installs a given target output artifact to at most one DESTINATION
, but the install rule itself may be filtered by the CONFIGURATIONS
option. In order to install to a different destination for each configuration, one call per configuration is needed. For example, the code:
install(TARGETS myExe CONFIGURATIONS Debug RUNTIME DESTINATION Debug/bin ) install(TARGETS myExe CONFIGURATIONS Release RUNTIME DESTINATION Release/bin )
will install myExe
to
in the Debug configuration, and to
in the Release configuration.
Note
Use of this feature is not recommended. Please consider using the cmake --install instead.
The install()
command generates a file, cmake_install.cmake
, inside the build directory, which is used internally by the generated install target and by CPack. You can also invoke this script manually with cmake -P. This script accepts several variables:
COMPONENT
Set this variable to install only a single CPack component as opposed to all of them. For example, if you only want to install the Development
component, run cmake -DCOMPONENT=Development -P cmake_install.cmake
.
BUILD_TYPE
Set this variable to change the build type if you are using a multi-config generator. For example, to install with the Debug
configuration, run cmake -DBUILD_TYPE=Debug -P cmake_install.cmake
.
DESTDIR
This is an environment variable rather than a CMake variable. It allows you to change the installation prefix on UNIX systems. See DESTDIR for details.