cmake-generator-expressions(7)¶
Contents
Introduction¶
Generator expressions are evaluated during build system generation to produce information specific to each build configuration.
Generator expressions are allowed in the context of many target properties,
such as LINK_LIBRARIES
, INCLUDE_DIRECTORIES
,
COMPILE_DEFINITIONS
and others. They may also be used when using
commands to populate those properties, such as target_link_libraries()
,
target_include_directories()
, target_compile_definitions()
and others.
They enable conditional linking, conditional definitions used when compiling, conditional include directories, and more. The conditions may be based on the build configuration, target properties, platform information or any other queryable information.
Generator expressions have the form $<...>
. To avoid confusion, this page
deviates from most of the CMake documentation in that it omits angular brackets
<...>
around placeholders like condition
, string
, target
,
among others.
Generator expressions can be nested, as shown in most of the examples below.
Boolean Generator Expressions¶
Boolean expressions evaluate to either 0
or 1
.
They are typically used to construct the condition in a conditional
generator expression.
Available boolean expressions are:
Logical Operators¶
$<BOOL:string>
Converts
string
to0
or1
. Evaluates to0
if any of the following is true:string
is empty,string
is a case-insensitive equal of0
,FALSE
,OFF
,N
,NO
,IGNORE
, orNOTFOUND
, orstring
ends in the suffix-NOTFOUND
(case-sensitive).
Otherwise evaluates to
1
.$<AND:conditions>
where
conditions
is a comma-separated list of boolean expressions. Evaluates to1
if all conditions are1
. Otherwise evaluates to0
.$<OR:conditions>
where
conditions
is a comma-separated list of boolean expressions. Evaluates to1
if at least one of the conditions is1
. Otherwise evaluates to0
.$<NOT:condition>
0
ifcondition
is1
, else1
.
String Comparisons¶
$<STREQUAL:string1,string2>
1
ifstring1
andstring2
are equal, else0
. The comparison is case-sensitive. For a case-insensitive comparison, combine with a string transforming generator expression,$<STREQUAL:$<UPPER_CASE:${foo}>,"BAR"> # "1" if ${foo} is any of "BAR", "Bar", "bar", ...
$<EQUAL:value1,value2>
1
ifvalue1
andvalue2
are numerically equal, else0
.$<IN_LIST:string,list>
1
ifstring
is member of the semicolon-separatedlist
, else0
. Uses case-sensitive comparisons.$<VERSION_LESS:v1,v2>
1
ifv1
is a version less thanv2
, else0
.$<VERSION_GREATER:v1,v2>
1
ifv1
is a version greater thanv2
, else0
.$<VERSION_EQUAL:v1,v2>
1
ifv1
is the same version asv2
, else0
.$<VERSION_LESS_EQUAL:v1,v2>
1
ifv1
is a version less than or equal tov2
, else0
.$<VERSION_GREATER_EQUAL:v1,v2>
1
ifv1
is a version greater than or equal tov2
, else0
.
Variable Queries¶
$<TARGET_EXISTS:target>
1
iftarget
exists, else0
.$<CONFIG:cfg>
1
if config iscfg
, else0
. This is a case-insensitive comparison. The mapping inMAP_IMPORTED_CONFIG_<CONFIG>
is also considered by this expression when it is evaluated on a property on anIMPORTED
target.$<PLATFORM_ID:platform_ids>
where
platform_ids
is a comma-separated list.1
if the CMake’s platform id matches any one of the entries inplatform_ids
, otherwise0
. See also theCMAKE_SYSTEM_NAME
variable.$<C_COMPILER_ID:compiler_ids>
where
compiler_ids
is a comma-separated list.1
if the CMake’s compiler id of the C compiler matches any one of the entries incompiler_ids
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_ID
variable.$<CXX_COMPILER_ID:compiler_ids>
where
compiler_ids
is a comma-separated list.1
if the CMake’s compiler id of the CXX compiler matches any one of the entries incompiler_ids
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_ID
variable.$<CUDA_COMPILER_ID:compiler_ids>
where
compiler_ids
is a comma-separated list.1
if the CMake’s compiler id of the CUDA compiler matches any one of the entries incompiler_ids
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_ID
variable.$<OBJC_COMPILER_ID:compiler_ids>
where
compiler_ids
is a comma-separated list.1
if the CMake’s compiler id of the Objective-C compiler matches any one of the entries incompiler_ids
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_ID
variable.$<OBJCXX_COMPILER_ID:compiler_ids>
where
compiler_ids
is a comma-separated list.1
if the CMake’s compiler id of the Objective-C++ compiler matches any one of the entries incompiler_ids
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_ID
variable.$<Fortran_COMPILER_ID:compiler_ids>
where
compiler_ids
is a comma-separated list.1
if the CMake’s compiler id of the Fortran compiler matches any one of the entries incompiler_ids
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_ID
variable.$<C_COMPILER_VERSION:version>
1
if the version of the C compiler matchesversion
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_VERSION
variable.$<CXX_COMPILER_VERSION:version>
1
if the version of the CXX compiler matchesversion
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_VERSION
variable.$<CUDA_COMPILER_VERSION:version>
1
if the version of the CXX compiler matchesversion
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_VERSION
variable.$<OBJC_COMPILER_VERSION:version>
1
if the version of the OBJC compiler matchesversion
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_VERSION
variable.$<OBJCXX_COMPILER_VERSION:version>
1
if the version of the OBJCXX compiler matchesversion
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_VERSION
variable.$<Fortran_COMPILER_VERSION:version>
1
if the version of the Fortran compiler matchesversion
, otherwise0
. See also theCMAKE_<LANG>_COMPILER_VERSION
variable.$<TARGET_POLICY:policy>
1
if thepolicy
was NEW when the ‘head’ target was created, else0
. If thepolicy
was not set, the warning message for the policy will be emitted. This generator expression only works for a subset of policies.$<COMPILE_FEATURES:features>
where
features
is a comma-spearated list. Evaluates to1
if all of thefeatures
are available for the ‘head’ target, and0
otherwise. If this expression is used while evaluating the link implementation of a target and if any dependency transitively increases the requiredC_STANDARD
orCXX_STANDARD
for the ‘head’ target, an error is reported. See thecmake-compile-features(7)
manual for information on compile features and a list of supported compilers.
$<COMPILE_LANG_AND_ID:language,compiler_ids>
1
when the language used for compilation unit matcheslanguage
and the CMake’s compiler id of the language compiler matches any one of the entries incompiler_ids
, otherwise0
. This expression is a short form for the combination of$<COMPILE_LANGUAGE:language>
and$<LANG_COMPILER_ID:compiler_ids>
. This expression may be used to specify compile options, compile definitions, and include directories for source files of a particular language and compiler combination in a target. For example:add_executable(myapp main.cpp foo.c bar.cpp zot.cu) target_compile_definitions(myapp PRIVATE $<$<COMPILE_LANG_AND_ID:CXX,AppleClang,Clang>:COMPILING_CXX_WITH_CLANG> $<$<COMPILE_LANG_AND_ID:CXX,Intel>:COMPILING_CXX_WITH_INTEL> $<$<COMPILE_LANG_AND_ID:C,Clang>:COMPILING_C_WITH_CLANG> )
This specifies the use of different compile definitions based on both the compiler id and compilation language. This example will have a
COMPILING_CXX_WITH_CLANG
compile definition when Clang is the CXX compiler, andCOMPILING_CXX_WITH_INTEL
when Intel is the CXX compiler. Likewise when the C compiler is Clang it will only see theCOMPILING_C_WITH_CLANG
definition.Without the
COMPILE_LANG_AND_ID
generator expression the same logic would be expressed as:target_compile_definitions(myapp PRIVATE $<$<AND:$<COMPILE_LANGUAGE:CXX>,$<CXX_COMPILER_ID:AppleClang,Clang>>:COMPILING_CXX_WITH_CLANG> $<$<AND:$<COMPILE_LANGUAGE:CXX>,$<CXX_COMPILER_ID:Intel>>:COMPILING_CXX_WITH_INTEL> $<$<AND:$<COMPILE_LANGUAGE:C>,$<C_COMPILER_ID:Clang>>:COMPILING_C_WITH_CLANG> )
$<COMPILE_LANGUAGE:languages>
1
when the language used for compilation unit matches any of the entries inlanguages
, otherwise0
. This expression may be used to specify compile options, compile definitions, and include directories for source files of a particular language in a target. For example:add_executable(myapp main.cpp foo.c bar.cpp zot.cu) target_compile_options(myapp PRIVATE $<$<COMPILE_LANGUAGE:CXX>:-fno-exceptions> ) target_compile_definitions(myapp PRIVATE $<$<COMPILE_LANGUAGE:CXX>:COMPILING_CXX> $<$<COMPILE_LANGUAGE:CUDA>:COMPILING_CUDA> ) target_include_directories(myapp PRIVATE $<$<COMPILE_LANGUAGE:CXX,CUDA>:/opt/foo/headers> )
This specifies the use of the
-fno-exceptions
compile option,COMPILING_CXX
compile definition, andcxx_headers
include directory for C++ only (compiler id checks elided). It also specifies aCOMPILING_CUDA
compile definition for CUDA.Note that with Visual Studio Generators and
Xcode
there is no way to represent target-wide compile definitions or include directories separately forC
andCXX
languages. Also, with Visual Studio Generators there is no way to represent target-wide flags separately forC
andCXX
languages. Under these generators, expressions for both C and C++ sources will be evaluated usingCXX
if there are any C++ sources and otherwise usingC
. A workaround is to create separate libraries for each source file language instead:add_library(myapp_c foo.c) add_library(myapp_cxx bar.cpp) target_compile_options(myapp_cxx PUBLIC -fno-exceptions) add_executable(myapp main.cpp) target_link_libraries(myapp myapp_c myapp_cxx)
$<LINK_LANG_AND_ID:language,compiler_ids>
1
when the language used for link step matcheslanguage
and the CMake’s compiler id of the language linker matches any one of the entries incompiler_ids
, otherwise0
. This expression is a short form for the combination of$<LINK_LANGUAGE:language>
and$<LANG_COMPILER_ID:compiler_ids>
. This expression may be used to specify link libraries, link options, link directories and link dependencies of a particular language and linker combination in a target. For example:add_library(libC_Clang ...) add_library(libCXX_Clang ...) add_library(libC_Intel ...) add_library(libCXX_Intel ...) add_executable(myapp main.c) if (CXX_CONFIG) target_sources(myapp PRIVATE file.cxx) endif() target_link_libraries(myapp PRIVATE $<$<LINK_LANG_AND_ID:CXX,Clang,AppleClang>:libCXX_Clang> $<$<LINK_LANG_AND_ID:C,Clang,AppleClang>:libC_Clang> $<$<LINK_LANG_AND_ID:CXX,Intel>:libCXX_Intel> $<$<LINK_LANG_AND_ID:C,Intel>:libC_Intel>)
This specifies the use of different link libraries based on both the compiler id and link language. This example will have target
libCXX_Clang
as link dependency whenClang
orAppleClang
is theCXX
linker, andlibCXX_Intel
whenIntel
is theCXX
linker. Likewise when theC
linker isClang
orAppleClang
, targetlibC_Clang
will be added as link dependency andlibC_Intel
whenIntel
is theC
linker.See the note related to
$<LINK_LANGUAGE:language>
for constraints about the usage of this generator expression.$<LINK_LANGUAGE:languages>
1
when the language used for link step matches any of the entries inlanguages
, otherwise0
. This expression may be used to specify link libraries, link options, link directories and link dependencies of a particular language in a target. For example:add_library(api_C ...) add_library(api_CXX ...) add_library(api INTERFACE) target_link_options(api INTERFACE $<$<LINK_LANGUAGE:C>:-opt_c> $<$<LINK_LANGUAGE:CXX>:-opt_cxx>) target_link_libraries(api INTERFACE $<$<LINK_LANGUAGE:C>:api_C> $<$<LINK_LANGUAGE:CXX>:api_CXX>) add_executable(myapp1 main.c) target_link_options(myapp1 PRIVATE api) add_executable(myapp2 main.cpp) target_link_options(myapp2 PRIVATE api)
This specifies to use the
api
target for linking targetsmyapp1
andmyapp2
. In practice,myapp1
will link with targetapi_C
and option-opt_c
because it will useC
as link language. Andmyapp2
will link withapi_CXX
and option-opt_cxx
becauseCXX
will be the link language.Note
To determine the link language of a target, it is required to collect, transitively, all the targets which will be linked to it. So, for link libraries properties, a double evaluation will be done. During the first evaluation,
$<LINK_LANGUAGE:..>
expressions will always return0
. The link language computed after this first pass will be used to do the second pass. To avoid inconsistency, it is required that the second pass do not change the link language. Moreover, to avoid unexpected side-effects, it is required to specify complete entities as part of the$<LINK_LANGUAGE:..>
expression. For example:add_library(lib STATIC file.cxx) add_library(libother STATIC file.c) # bad usage add_executable(myapp1 main.c) target_link_libraries(myapp1 PRIVATE lib$<$<LINK_LANGUAGE:C>:other>) # correct usage add_executable(myapp2 main.c) target_link_libraries(myapp2 PRIVATE $<$<LINK_LANGUAGE:C>:libother>)
In this example, for
myapp1
, the first pass will, unexpectedly, determine that the link language isCXX
because the evaluation of the generator expression will be an empty string somyapp1
will depends on targetlib
which isC++
. On the contrary, formyapp2
, the first evaluation will giveC
as link language, so the second pass will correctly add targetlibother
as link dependency.$<DEVICE_LINK:list>
Returns the list if it is the device link step, an empty list otherwise. The device link step is controlled by
CUDA_SEPARABLE_COMPILATION
andCUDA_RESOLVE_DEVICE_SYMBOLS
properties and policyCMP0105
. This expression can only be used to specify link options.$<HOST_LINK:list>
Returns the list if it is the normal link step, an empty list otherwise. This expression is mainly useful when a device link step is also involved (see
$<DEVICE_LINK:list>
generator expression). This expression can only be used to specify link options.
String-Valued Generator Expressions¶
These expressions expand to some string. For example,
include_directories(/usr/include/$<CXX_COMPILER_ID>/)
expands to /usr/include/GNU/
or /usr/include/Clang/
etc, depending on
the compiler identifier.
String-valued expressions may also be combined with other expressions. Here an example for a string-valued expression within a boolean expressions within a conditional expression:
$<$<VERSION_LESS:$<CXX_COMPILER_VERSION>,4.2.0>:OLD_COMPILER>
expands to OLD_COMPILER
if the
CMAKE_CXX_COMPILER_VERSION
is less
than 4.2.0.
And here two nested string-valued expressions:
-I$<JOIN:$<TARGET_PROPERTY:INCLUDE_DIRECTORIES>, -I>
generates a string of the entries in the INCLUDE_DIRECTORIES
target
property with each entry preceded by -I
.
Expanding on the previous example, if one first wants to check if the
INCLUDE_DIRECTORIES
property is non-empty, then it is advisable to
introduce a helper variable to keep the code readable:
set(prop "$<TARGET_PROPERTY:INCLUDE_DIRECTORIES>") # helper variable
$<$<BOOL:${prop}>:-I$<JOIN:${prop}, -I>>
The following string-valued generator expressions are available:
Escaped Characters¶
String literals to escape the special meaning a character would otherwise have:
$<ANGLE-R>
A literal
>
. Used for example to compare strings that contain a>
.$<COMMA>
A literal
,
. Used for example to compare strings which contain a,
.$<SEMICOLON>
A literal
;
. Used to prevent list expansion on an argument with;
.
Conditional Expressions¶
Conditional generator expressions depend on a boolean condition
that must be 0
or 1
.
$<condition:true_string>
Evaluates to
true_string
ifcondition
is1
. Otherwise evaluates to the empty string.$<IF:condition,true_string,false_string>
Evaluates to
true_string
ifcondition
is1
. Otherwise evaluates tofalse_string
.
Typically, the condition
is a boolean generator expression. For instance,
$<$<CONFIG:Debug>:DEBUG_MODE>
expands to DEBUG_MODE
when the Debug
configuration is used, and
otherwise expands to the empty string.
String Transformations¶
$<JOIN:list,string>
Joins the list with the content of
string
.$<REMOVE_DUPLICATES:list>
Removes duplicated items in the given
list
.$<FILTER:list,INCLUDE|EXCLUDE,regex>
Includes or removes items from
list
that match the regular expressionregex
.$<LOWER_CASE:string>
Content of
string
converted to lower case.$<UPPER_CASE:string>
Content of
string
converted to upper case.$<GENEX_EVAL:expr>
Content of
expr
evaluated as a generator expression in the current context. This enables consumption of generator expressions whose evaluation results itself in generator expressions.$<TARGET_GENEX_EVAL:tgt,expr>
Content of
expr
evaluated as a generator expression in the context oftgt
target. This enables consumption of custom target properties that themselves contain generator expressions.Having the capability to evaluate generator expressions is very useful when you want to manage custom properties supporting generator expressions. For example:
add_library(foo ...) set_property(TARGET foo PROPERTY CUSTOM_KEYS $<$<CONFIG:DEBUG>:FOO_EXTRA_THINGS> ) add_custom_target(printFooKeys COMMAND ${CMAKE_COMMAND} -E echo $<TARGET_PROPERTY:foo,CUSTOM_KEYS> )
This naive implementation of the
printFooKeys
custom command is wrong becauseCUSTOM_KEYS
target property is not evaluated and the content is passed as is (i.e.$<$<CONFIG:DEBUG>:FOO_EXTRA_THINGS>
).To have the expected result (i.e.
FOO_EXTRA_THINGS
if config isDebug
), it is required to evaluate the output of$<TARGET_PROPERTY:foo,CUSTOM_KEYS>
:add_custom_target(printFooKeys COMMAND ${CMAKE_COMMAND} -E echo $<TARGET_GENEX_EVAL:foo,$<TARGET_PROPERTY:foo,CUSTOM_KEYS>> )
Variable Queries¶
$<CONFIG>
Configuration name.
$<CONFIGURATION>
Configuration name. Deprecated since CMake 3.0. Use
CONFIG
instead.$<PLATFORM_ID>
The current system’s CMake platform id. See also the
CMAKE_SYSTEM_NAME
variable.$<C_COMPILER_ID>
The CMake’s compiler id of the C compiler used. See also the
CMAKE_<LANG>_COMPILER_ID
variable.$<CXX_COMPILER_ID>
The CMake’s compiler id of the CXX compiler used. See also the
CMAKE_<LANG>_COMPILER_ID
variable.$<CUDA_COMPILER_ID>
The CMake’s compiler id of the CUDA compiler used. See also the
CMAKE_<LANG>_COMPILER_ID
variable.$<OBJC_COMPILER_ID>
The CMake’s compiler id of the OBJC compiler used. See also the
CMAKE_<LANG>_COMPILER_ID
variable.$<OBJCXX_COMPILER_ID>
The CMake’s compiler id of the OBJCXX compiler used. See also the
CMAKE_<LANG>_COMPILER_ID
variable.$<Fortran_COMPILER_ID>
The CMake’s compiler id of the Fortran compiler used. See also the
CMAKE_<LANG>_COMPILER_ID
variable.$<C_COMPILER_VERSION>
The version of the C compiler used. See also the
CMAKE_<LANG>_COMPILER_VERSION
variable.$<CXX_COMPILER_VERSION>
The version of the CXX compiler used. See also the
CMAKE_<LANG>_COMPILER_VERSION
variable.$<CUDA_COMPILER_VERSION>
The version of the CUDA compiler used. See also the
CMAKE_<LANG>_COMPILER_VERSION
variable.$<OBJC_COMPILER_VERSION>
The version of the OBJC compiler used. See also the
CMAKE_<LANG>_COMPILER_VERSION
variable.$<OBJCXX_COMPILER_VERSION>
The version of the OBJCXX compiler used. See also the
CMAKE_<LANG>_COMPILER_VERSION
variable.$<Fortran_COMPILER_VERSION>
The version of the Fortran compiler used. See also the
CMAKE_<LANG>_COMPILER_VERSION
variable.$<COMPILE_LANGUAGE>
The compile language of source files when evaluating compile options. See the related boolean expression
$<COMPILE_LANGUAGE:language>
for notes about the portability of this generator expression.$<LINK_LANGUAGE>
The link language of target when evaluating link options. See the related boolean expression
$<LINK_LANGUAGE:language>
for notes about the portability of this generator expression.Note
This generator expression is not supported by the link libraries properties to avoid side-effects due to the double evaluation of these properties.
Target-Dependent Queries¶
These queries refer to a target tgt
. This can be any runtime artifact,
namely:
an executable target created by
add_executable()
a shared library target (
.so
,.dll
but not their.lib
import library) created byadd_library()
a static library target created by
add_library()
In the following, “the tgt
filename” means the name of the tgt
binary file. This has to be distinguished from “the target name”,
which is just the string tgt
.
$<TARGET_NAME_IF_EXISTS:tgt>
The target name
tgt
if the target exists, an empty string otherwise.$<TARGET_FILE:tgt>
Full path to the
tgt
binary file.$<TARGET_FILE_BASE_NAME:tgt>
Base name of
tgt
, i.e.$<TARGET_FILE_NAME:tgt>
without prefix and suffix. For example, if thetgt
filename islibbase.so
, the base name isbase
.See also the
OUTPUT_NAME
,ARCHIVE_OUTPUT_NAME
,LIBRARY_OUTPUT_NAME
andRUNTIME_OUTPUT_NAME
target properties and their configuration specific variantsOUTPUT_NAME_<CONFIG>
,ARCHIVE_OUTPUT_NAME_<CONFIG>
,LIBRARY_OUTPUT_NAME_<CONFIG>
andRUNTIME_OUTPUT_NAME_<CONFIG>
.The
<CONFIG>_POSTFIX
andDEBUG_POSTFIX
target properties can also be considered.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_FILE_PREFIX:tgt>
Prefix of the
tgt
filename (such aslib
).See also the
PREFIX
target property.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_FILE_SUFFIX:tgt>
Suffix of the
tgt
filename (extension such as.so
or.exe
).See also the
SUFFIX
target property.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_FILE_NAME:tgt>
The
tgt
filename.$<TARGET_FILE_DIR:tgt>
Directory of the
tgt
binary file.$<TARGET_LINKER_FILE:tgt>
File used when linking to the
tgt
target. This will usually be the library thattgt
represents (.a
,.lib
,.so
), but for a shared library on DLL platforms, it would be the.lib
import library associated with the DLL.$<TARGET_LINKER_FILE_BASE_NAME:tgt>
Base name of file used to link the target
tgt
, i.e.$<TARGET_LINKER_FILE_NAME:tgt>
without prefix and suffix. For example, if target file name islibbase.a
, the base name isbase
.See also the
OUTPUT_NAME
,ARCHIVE_OUTPUT_NAME
, andLIBRARY_OUTPUT_NAME
target properties and their configuration specific variantsOUTPUT_NAME_<CONFIG>
,ARCHIVE_OUTPUT_NAME_<CONFIG>
andLIBRARY_OUTPUT_NAME_<CONFIG>
.The
<CONFIG>_POSTFIX
andDEBUG_POSTFIX
target properties can also be considered.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_LINKER_FILE_PREFIX:tgt>
Prefix of file used to link target
tgt
.See also the
PREFIX
andIMPORT_PREFIX
target properties.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_LINKER_FILE_SUFFIX:tgt>
Suffix of file used to link where
tgt
is the name of a target.The suffix corresponds to the file extension (such as “.so” or “.lib”).
See also the
SUFFIX
andIMPORT_SUFFIX
target properties.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_LINKER_FILE_NAME:tgt>
Name of file used to link target
tgt
.$<TARGET_LINKER_FILE_DIR:tgt>
Directory of file used to link target
tgt
.$<TARGET_SONAME_FILE:tgt>
File with soname (
.so.3
) wheretgt
is the name of a target.$<TARGET_SONAME_FILE_NAME:tgt>
Name of file with soname (
.so.3
).$<TARGET_SONAME_FILE_DIR:tgt>
Directory of with soname (
.so.3
).$<TARGET_PDB_FILE:tgt>
Full path to the linker generated program database file (.pdb) where
tgt
is the name of a target.See also the
PDB_NAME
andPDB_OUTPUT_DIRECTORY
target properties and their configuration specific variantsPDB_NAME_<CONFIG>
andPDB_OUTPUT_DIRECTORY_<CONFIG>
.$<TARGET_PDB_FILE_BASE_NAME:tgt>
Base name of the linker generated program database file (.pdb) where
tgt
is the name of a target.The base name corresponds to the target PDB file name (see
$<TARGET_PDB_FILE_NAME:tgt>
) without prefix and suffix. For example, if target file name isbase.pdb
, the base name isbase
.See also the
PDB_NAME
target property and its configuration specific variantPDB_NAME_<CONFIG>
.The
<CONFIG>_POSTFIX
andDEBUG_POSTFIX
target properties can also be considered.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_PDB_FILE_NAME:tgt>
Name of the linker generated program database file (.pdb).
$<TARGET_PDB_FILE_DIR:tgt>
Directory of the linker generated program database file (.pdb).
$<TARGET_BUNDLE_DIR:tgt>
Full path to the bundle directory (
my.app
,my.framework
, ormy.bundle
) wheretgt
is the name of a target.$<TARGET_BUNDLE_CONTENT_DIR:tgt>
Full path to the bundle content directory where
tgt
is the name of a target. For the macOS SDK it leads tomy.app/Contents
,my.framework
, ormy.bundle/Contents
. For all other SDKs (e.g. iOS) it leads tomy.app
,my.framework
, ormy.bundle
due to the flat bundle structure.$<TARGET_PROPERTY:tgt,prop>
Value of the property
prop
on the targettgt
.Note that
tgt
is not added as a dependency of the target this expression is evaluated on.$<TARGET_PROPERTY:prop>
Value of the property
prop
on the target for which the expression is being evaluated. Note that for generator expressions in Transitive Usage Requirements this is the consuming target rather than the target specifying the requirement.$<INSTALL_PREFIX>
Content of the install prefix when the target is exported via
install(EXPORT)
, or when evaluated inINSTALL_NAME_DIR
, and empty otherwise.
Debugging¶
Since generator expressions are evaluated during generation of the buildsystem,
and not during processing of CMakeLists.txt
files, it is not possible to
inspect their result with the message()
command.
One possible way to generate debug messages is to add a custom target,
add_custom_target(genexdebug COMMAND ${CMAKE_COMMAND} -E echo "$<...>")
The shell command make genexdebug
(invoked after execution of cmake
)
would then print the result of $<...>
.
Another way is to write debug messages to a file:
file(GENERATE OUTPUT filename CONTENT "$<...>")