CMAKE_LINK_LIBRARY_USING_<FEATURE>¶
New in version 3.24.
This variable defines how to link a library or framework for the specified
<FEATURE>
when a LINK_LIBRARY
generator expression is used.
Both of the following conditions must be met for this variable to have any
effect:
The associated
CMAKE_LINK_LIBRARY_USING_<FEATURE>_SUPPORTED
variable must be set to true.There is no language-specific definition for the same
<FEATURE>
. This meansCMAKE_<LANG>_LINK_LIBRARY_USING_<FEATURE>_SUPPORTED
cannot be true for the link language used by the target for which theLINK_LIBRARY
generator expression is evaluated.
Feature names are case-sensitive and may only contain letters, numbers and underscores. Feature names defined in all uppercase are reserved for CMake's own built-in features (see Predefined Features further below).
Some aspects of feature behavior can be defined by the
CMAKE_<LANG>_LINK_LIBRARY_<FEATURE>_ATTRIBUTES
and
CMAKE_LINK_LIBRARY_<FEATURE>_ATTRIBUTES
variables.
Feature Definitions¶
A library feature definition is a list that contains one or three elements:
[<PREFIX>] <LIBRARY_EXPRESSION> [<SUFFIX>]
When <PREFIX>
and <SUFFIX>
are specified, they precede and follow
respectively the whole list of libraries specified in the
LINK_LIBRARY
expression, not each library item individually.
There is no guarantee that the list of specified libraries will be kept
grouped together though, so the <PREFIX>
and <SUFFIX>
may appear
more than once if the library list is reorganized by CMake to satisfy other
constraints. This means constructs like --start-group
and --end-group
,
as supported by the GNU ld
linker, cannot be used in this way. The
LINK_GROUP
generator expression should be used instead for such
constructs.
<LIBRARY_EXPRESSION>
is used to specify the pattern for constructing the
corresponding fragment on the linker command line for each library.
The following placeholders can be used in the expression:
<LIBRARY>
is expanded to the full path to the library for CMake targets, or to a platform-specific value based on the item otherwise (the same as<LINK_ITEM>
on Windows, or the library base name for other platforms).<LINK_ITEM>
is expanded to how the library would normally be linked on the linker command line.<LIB_ITEM>
is expanded to the full path to the library for CMake targets, or the item itself exactly as specified in the<LIBRARY_EXPRESSION>
otherwise.
In addition to the above, it is possible to have one pattern for paths
(CMake targets and external libraries specified with file paths) and another
for other items specified by name only. The PATH{}
and NAME{}
wrappers
can be used to provide the expansion for those two cases, respectively.
When wrappers are used, both must be present. For example:
set(CMAKE_LINK_LIBRARY_USING_weak_library
"PATH{-weak_library <LIBRARY>}NAME{LINKER:-weak-l<LIB_ITEM>}"
)
For all three elements of this variable (<PREFIX>
, <LIBRARY_EXPRESSION>
,
and <SUFFIX>
), the LINKER:
prefix can be used.
To pass options to the linker tool, each compiler driver has its own syntax.
The LINKER:
prefix and ,
separator can be used to specify, in a portable
way, options to pass to the linker tool. LINKER:
is replaced by the
appropriate driver option and ,
by the appropriate driver separator.
The driver prefix and driver separator are given by the values of the
CMAKE_<LANG>_LINKER_WRAPPER_FLAG
and
CMAKE_<LANG>_LINKER_WRAPPER_FLAG_SEP
variables.
For example, "LINKER:-z,defs"
becomes -Xlinker -z -Xlinker defs
for
Clang
and -Wl,-z,defs
for GNU GCC
.
The LINKER:
prefix can be specified as part of a SHELL:
prefix
expression.
The LINKER:
prefix supports, as an alternative syntax, specification of
arguments using the SHELL:
prefix and space as separator. The previous
example then becomes "LINKER:SHELL:-z defs"
.
Note
Specifying the SHELL:
prefix anywhere other than at the beginning of the
LINKER:
prefix is not supported.
Examples¶
Loading a whole static library¶
A common need is to prevent the linker from discarding any symbols from a
static library. Different linkers use different syntax for achieving this.
The following example shows how this may be implemented for some linkers.
Note that this is for illustration purposes only. Projects should use the
built-in WHOLE_ARCHIVE
feature instead (see Predefined Features), which
provides a more complete and more robust implementation of this functionality.
set(CMAKE_C_LINK_LIBRARY_USING_load_archive_SUPPORTED TRUE)
if(CMAKE_C_COMPILER_ID STREQUAL "AppleClang")
set(CMAKE_C_LINK_LIBRARY_USING_load_archive "-force_load <LIB_ITEM>")
elseif(CMAKE_C_COMPILER_ID STREQUAL "GNU" AND CMAKE_SYSTEM_NAME STREQUAL "Linux")
set(CMAKE_C_LINK_LIBRARY_USING_load_archive
"LINKER:--push-state,--whole-archive"
"<LINK_ITEM>"
"LINKER:--pop-state"
)
elseif(CMAKE_C_COMPILER_ID STREQUAL "MSVC")
set(CMAKE_C_LINK_LIBRARY_USING_load_archive "/WHOLEARCHIVE:<LIBRARY>")
else()
# feature not yet supported for the other environments
set(CMAKE_C_LINK_LIBRARY_USING_load_archive_SUPPORTED FALSE)
endif()
add_library(lib1 STATIC ...)
add_library(lib2 SHARED ...)
if(CMAKE_C_LINK_LIBRARY_USING_load_archive_SUPPORTED)
# The -force_load Apple linker option requires a file name
set(external_lib
"$<IF:$<LINK_LANG_AND_ID:C,AppleClang>,libexternal.a,external>"
)
target_link_libraries(lib2 PRIVATE
"$<LINK_LIBRARY:load_archive,lib1,${external_lib}>"
)
else()
target_link_libraries(lib2 PRIVATE lib1 external)
endif()
CMake will generate the following link expressions:
AppleClang
:-force_load /path/to/lib1.a -force_load libexternal.a
GNU
:-Wl,--push-state,--whole-archive /path/to/lib1.a -lexternal -Wl,--pop-state
MSVC
:/WHOLEARCHIVE:/path/to/lib1.lib /WHOLEARCHIVE:external.lib
Linking a library as weak¶
On macOS, it is possible to link a library in weak mode (the library and all
references are marked as weak imports). Different flags must be used for a
library specified by file path compared to one specified by name.
This constraint can be solved using PATH{}
and NAME{}
wrappers.
Again, the following example shows how this may be implemented for some
linkers, but it is for illustration purposes only. Projects should use the
built-in WEAK_FRAMEWORK
or WEAK_LIBRARY
features instead (see
Predefined Features), which provide more complete and more robust
implementations of this functionality.
if (CMAKE_C_COMPILER_ID STREQUAL "AppleClang")
set(CMAKE_LINK_LIBRARY_USING_weak_library
"PATH{-weak_library <LIBRARY>}NAME{LINKER:-weak-l<LIB_ITEM>}"
)
set(CMAKE_LINK_LIBRARY_USING_weak_library_SUPPORTED TRUE)
endif()
add_library(lib SHARED ...)
add_executable(main ...)
if(CMAKE_LINK_LIBRARY_USING_weak_library_SUPPORTED)
target_link_libraries(main PRIVATE "$<LINK_LIBRARY:weak_library,lib,external>")
else()
target_link_libraries(main PRIVATE lib external)
endif()
CMake will generate the following linker command line fragment when linking
main
using the AppleClang
toolchain:
-weak_library /path/to/lib -Xlinker -weak-lexternal
.
Predefined Features¶
The following built-in library features are pre-defined by CMake:
DEFAULT
This feature corresponds to standard linking, essentially equivalent to using no feature at all. It is typically only used with the
LINK_LIBRARY_OVERRIDE
andLINK_LIBRARY_OVERRIDE_<LIBRARY>
target properties.WHOLE_ARCHIVE
Force inclusion of all members of a static library. This feature is only supported for the following platforms, with limitations as noted:
Linux.
All BSD variants.
SunOS.
All Apple variants. The library must be specified as a CMake target name, a library file name (such as
libfoo.a
), or a library file path (such as/path/to/libfoo.a
). Due to a limitation of the Apple linker, it cannot be specified as a plain library name likefoo
, wherefoo
is not a CMake target.Windows. When using a MSVC or MSVC-like toolchain, the MSVC version must be greater than 1900.
Cygwin.
MSYS.
FRAMEWORK
This option tells the linker to search for the specified framework using the
-framework
linker option. It can only be used on Apple platforms, and only with a linker that understands the option used (i.e. the linker provided with Xcode, or one compatible with it).The framework can be specified as a CMake framework target, a bare framework name, or a file path. If a target is given, that target must have the
FRAMEWORK
target property set to true. For a file path, if it contains a directory part, that directory will be added as a framework search path.add_library(lib SHARED ...) target_link_libraries(lib PRIVATE "$<LINK_LIBRARY:FRAMEWORK,/path/to/my_framework>") # The constructed linker command line will contain: # -F/path/to -framework my_framework
File paths must conform to one of the following patterns (
*
is a wildcard, and optional parts are shown as[...]
):[/path/to/]FwName[.framework]
[/path/to/]FwName.framework/FwName[suffix]
[/path/to/]FwName.framework/Versions/*/FwName[suffix]
Note that CMake recognizes and automatically handles framework targets, even without using the
$<LINK_LIBRARY:FRAMEWORK,...>
expression. The generator expression can still be used with a CMake target if the project wants to be explicit about it, but it is not required to do so. The linker command line may have some differences between using the generator expression or not, but the final result should be the same. On the other hand, if a file path is given, CMake will recognize some paths automatically, but not all cases. The project may want to use$<LINK_LIBRARY:FRAMEWORK,...>
for file paths so that the expected behavior is clear.New in version 3.25: The
FRAMEWORK_MULTI_CONFIG_POSTFIX_<CONFIG>
target property as well as thesuffix
of the framework library name are now supported by theFRAMEWORK
features.NEEDED_FRAMEWORK
This is similar to the
FRAMEWORK
feature, except it forces the linker to link with the framework even if no symbols are used from it. It uses the-needed_framework
option and has the same linker constraints asFRAMEWORK
.REEXPORT_FRAMEWORK
This is similar to the
FRAMEWORK
feature, except it tells the linker that the framework should be available to clients linking to the library being created. It uses the-reexport_framework
option and has the same linker constraints asFRAMEWORK
.WEAK_FRAMEWORK
This is similar to the
FRAMEWORK
feature, except it forces the linker to mark the framework and all references to it as weak imports. It uses the-weak_framework
option and has the same linker constraints asFRAMEWORK
.NEEDED_LIBRARY
This is similar to the
NEEDED_FRAMEWORK
feature, except it is for use with non-framework targets or libraries (Apple platforms only). It uses the-needed_library
or-needed-l
option as appropriate, and has the same linker constraints asNEEDED_FRAMEWORK
.REEXPORT_LIBRARY
This is similar to the
REEXPORT_FRAMEWORK
feature, except it is for use with non-framework targets or libraries (Apple platforms only). It uses the-reexport_library
or-reexport-l
option as appropriate, and has the same linker constraints asREEXPORT_FRAMEWORK
.WEAK_LIBRARY
This is similar to the
WEAK_FRAMEWORK
feature, except it is for use with non-framework targets or libraries (Apple platforms only). It uses the-weak_library
or-weak-l
option as appropriate, and has the same linker constraints asWEAK_FRAMEWORK
.