CMake/Tests/ExportImport/Import/A/CMakeLists.txt

# Import targets from the exported build tree.
include(${Import_BINARY_DIR}/../Export/ExportBuildTree.cmake)

# Import targets from the exported install tree.
include(${CMAKE_INSTALL_PREFIX}/lib/exp/exp.cmake)

# Import two exports, where the Depends one depends on an exported target from the Required one:
include(${CMAKE_INSTALL_PREFIX}/lib/cmake/testLibRequired/testLibRequiredConfig.cmake)
include(${CMAKE_INSTALL_PREFIX}/lib/cmake/testLibDepends/testLibDependsConfig.cmake)

# Try referencing an executable imported from the install tree.
add_custom_command(
  OUTPUT ${Import_BINARY_DIR}/exp_generated.c
  COMMAND exp_testExe1 ${Import_BINARY_DIR}/exp_generated.c
  DEPENDS exp_testExe1
  )
add_custom_command(
  OUTPUT ${Import_BINARY_DIR}/exp_generated3.c
  COMMAND exp_testExe3 ${Import_BINARY_DIR}/exp_generated3.c
  DEPENDS exp_testExe3
  )

add_executable(imp_testExe1
  imp_testExe1.c
  ${Import_BINARY_DIR}/exp_generated.c
  ${Import_BINARY_DIR}/exp_generated3.c
  )

# Try linking to a library imported from the install tree.
target_link_libraries(imp_testExe1
  exp_testLib2
  exp_testLib3
  exp_testLib4
  exp_testLib5
  exp_testLib6
  exp_testLibCycleA
  )

# Try building a plugin to an executable imported from the install tree.
add_library(imp_mod1 MODULE imp_mod1.c)
target_link_libraries(imp_mod1 exp_testExe2)

# Try referencing an executable imported from the build tree.
add_custom_command(
  OUTPUT ${Import_BINARY_DIR}/bld_generated.c
  COMMAND bld_testExe1 ${Import_BINARY_DIR}/bld_generated.c
  DEPENDS bld_testExe1
  )
add_custom_command(
  OUTPUT ${Import_BINARY_DIR}/bld_generated3.c
  COMMAND bld_testExe3 ${Import_BINARY_DIR}/bld_generated3.c
  DEPENDS bld_testExe3
  )

add_executable(imp_testExe1b
  imp_testExe1.c
  ${Import_BINARY_DIR}/bld_generated.c
  ${Import_BINARY_DIR}/bld_generated3.c
  )

# Try linking to a library imported from the build tree.
target_link_libraries(imp_testExe1b
  bld_testLib2
  bld_testLib3
  bld_testLib4
  bld_testLib5
  bld_testLib6
  bld_testLibCycleA
  )

# Try building a plugin to an executable imported from the build tree.
add_library(imp_mod1b MODULE imp_mod1.c)
target_link_libraries(imp_mod1b bld_testExe2)

# Export/CMakeLists.txt pretends the RelWithDebInfo (as well as Debug)
# configuration should link to debug libs.
foreach(c DEBUG RELWITHDEBINFO)
  set_property(TARGET imp_testExe1 PROPERTY COMPILE_DEFINITIONS_${c} EXE_DBG)
  set_property(TARGET imp_testExe1b PROPERTY COMPILE_DEFINITIONS_${c} EXE_DBG)
endforeach()

#-----------------------------------------------------------------------------
# Create a custom target to generate a header for the libraries below.
# Drive the header generation through an indirect chain of imported
# target dependencies.

# testLib2tmp1.h
add_custom_command(
  OUTPUT testLib2tmp1.h
  VERBATIM COMMAND
    ${CMAKE_COMMAND} -E echo "extern int testLib2(void);" > testLib2tmp1.h
  )

# hdr_testLib2tmp1 needs testLib2tmp1.h
add_custom_target(hdr_testLib2tmp1 DEPENDS testLib2tmp1.h)

# exp_testExe2 needs hdr_testLib2tmp1
add_dependencies(exp_testExe2 hdr_testLib2tmp1)

# testLib2tmp.h needs exp_testExe2
add_custom_command(
  OUTPUT testLib2tmp.h
  VERBATIM COMMAND exp_testExe2
  COMMAND ${CMAKE_COMMAND} -E copy testLib2tmp1.h testLib2tmp.h
  )

# hdr_testLib2tmp needs testLib2tmp.h
add_custom_target(hdr_testLib2tmp DEPENDS testLib2tmp.h)

add_library(dep_testLib2tmp UNKNOWN IMPORTED)
set_property(TARGET dep_testLib2tmp PROPERTY
  IMPORTED_LOCATION ${CMAKE_CURRENT_BINARY_DIR}/testLib2tmp.h)

# dep_testLib2tmp needs hdr_testLib2tmp
add_dependencies(dep_testLib2tmp hdr_testLib2tmp)

# testLib2.h needs dep_testLib2tmp
add_custom_command(
  OUTPUT testLib2.h
  VERBATIM COMMAND ${CMAKE_COMMAND} -E copy testLib2tmp.h testLib2.h
  DEPENDS dep_testLib2tmp
  )

# hdr_testLib2 needs testLib2.h
add_custom_target(hdr_testLib2 DEPENDS testLib2.h)

add_library(dep_testLib2 UNKNOWN IMPORTED)

# dep_testLib2 needs hdr_testLib2
add_dependencies(dep_testLib2 hdr_testLib2)

# exp_testLib2 and bld_testLib2 both need dep_testLib2
add_dependencies(bld_testLib2 dep_testLib2)
add_dependencies(exp_testLib2 dep_testLib2)

#-----------------------------------------------------------------------------
# Create a library to be linked by another directory in this project
# to test transitive linking to otherwise invisible imported targets.
include_directories(${CMAKE_CURRENT_BINARY_DIR})
add_library(imp_lib1 STATIC imp_lib1.c)
target_link_libraries(imp_lib1 exp_testLib2)
add_library(imp_lib1b STATIC imp_lib1.c)
target_link_libraries(imp_lib1b bld_testLib2)

#-----------------------------------------------------------------------------
# Test that handling imported targets, including transitive dependencies,
# works in CheckFunctionExists (...and hopefully all other try_compile() checks
include(CheckFunctionExists)
unset(HAVE_TESTLIB1_FUNCTION CACHE)
set(CMAKE_REQUIRED_LIBRARIES exp_testLib2)
check_function_exists(testLib1 HAVE_TESTLIB1_FUNCTION)
if (NOT HAVE_TESTLIB1_FUNCTION)
  message(SEND_ERROR "Using imported target testLib2 in check_function_exists() failed !")
endif()

#-----------------------------------------------------------------------------
# Test that dependent imported targets have usable
# INTERFACE_COMPILE_DEFINITIONS and INTERFACE_INCLUDE_DIRECTORIES

add_executable(deps_iface deps_iface.c)
target_link_libraries(deps_iface testLibDepends)
target_include_directories(deps_iface PRIVATE testLibDepends)
target_compile_definitions(deps_iface PRIVATE testLibDepends)

add_executable(deps_shared_iface deps_shared_iface.cpp)
target_link_libraries(deps_shared_iface testSharedLibDepends)
target_include_directories(deps_shared_iface PRIVATE testSharedLibDepends)
target_compile_definitions(deps_shared_iface PRIVATE testSharedLibDepends)

#-----------------------------------------------------------------------------
# Test that targets imported from the build tree have their dependencies
# evaluated correctly. The above already tests the same for the install tree.

add_executable(deps_shared_iface2 deps_shared_iface.cpp)
target_link_libraries(deps_shared_iface2 bld_testSharedLibDepends bld_subdirlib)
target_include_directories(deps_shared_iface2 PRIVATE bld_testSharedLibDepends bld_subdirlib)
target_compile_definitions(deps_shared_iface2
  PRIVATE bld_testSharedLibDepends TEST_SUBDIR_LIB
)
ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00			`# Import targets from the exported build tree.`
			`include(${Import_BINARY_DIR}/../Export/ExportBuildTree.cmake)`

			`# Import targets from the exported install tree.`
			`include(${CMAKE_INSTALL_PREFIX}/lib/exp/exp.cmake)`

exports: add a test for exporting dependent targets The test exports two libraries into two separate exports, and then include()s the generated export files. This must not fail. Alex 2012-09-23 21:19:55 +04:00			`# Import two exports, where the Depends one depends on an exported target from the Required one:`
			`include(${CMAKE_INSTALL_PREFIX}/lib/cmake/testLibRequired/testLibRequiredConfig.cmake)`
			`include(${CMAKE_INSTALL_PREFIX}/lib/cmake/testLibDepends/testLibDependsConfig.cmake)`

ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00			`# Try referencing an executable imported from the install tree.`
			`add_custom_command(`
			`OUTPUT ${Import_BINARY_DIR}/exp_generated.c`
			`COMMAND exp_testExe1 ${Import_BINARY_DIR}/exp_generated.c`
			`DEPENDS exp_testExe1`
			`)`
			`add_custom_command(`
			`OUTPUT ${Import_BINARY_DIR}/exp_generated3.c`
			`COMMAND exp_testExe3 ${Import_BINARY_DIR}/exp_generated3.c`
			`DEPENDS exp_testExe3`
			`)`

			`add_executable(imp_testExe1`
			`imp_testExe1.c`
			`${Import_BINARY_DIR}/exp_generated.c`
			`${Import_BINARY_DIR}/exp_generated3.c`
			`)`

			`# Try linking to a library imported from the install tree.`
ENH: Allow IMPORTED_IMPLIB w/o IMPORTED_LOCATION Linking to a Windows shared library (.dll) requires only its import library (.lib). This teaches CMake to recognize SHARED IMPORTED library targets that set only IMPORTED_IMPLIB and not IMPORTED_LOCATION. 2009-04-09 00:29:04 +04:00			`target_link_libraries(imp_testExe1`
			`exp_testLib2`
			`exp_testLib3`
			`exp_testLib4`
			`exp_testLib5`
ENH: Test export/import of link interface languages This extends the ExportImport test. The Export project creates a C++ static library and exports it. Then the Import project links the library into a C executable. On most platforms the executable will link only if the C++ linker is chosen correctly. 2009-07-11 18:10:51 +04:00			`exp_testLib6`
Test link multiplicity export/import We test that LINK_INTERFACE_MULTIPLICITY propagates through export() and install(EXPORT) into dependent projects. A simple cycle of two archives that need to be scanned three times ensures that the importing project uses the multiplicity correctly. 2009-09-01 18:38:36 +04:00			`exp_testLibCycleA`
ENH: Allow IMPORTED_IMPLIB w/o IMPORTED_LOCATION Linking to a Windows shared library (.dll) requires only its import library (.lib). This teaches CMake to recognize SHARED IMPORTED library targets that set only IMPORTED_IMPLIB and not IMPORTED_LOCATION. 2009-04-09 00:29:04 +04:00			`)`
ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00
			`# Try building a plugin to an executable imported from the install tree.`
			`add_library(imp_mod1 MODULE imp_mod1.c)`
			`target_link_libraries(imp_mod1 exp_testExe2)`

			`# Try referencing an executable imported from the build tree.`
			`add_custom_command(`
			`OUTPUT ${Import_BINARY_DIR}/bld_generated.c`
			`COMMAND bld_testExe1 ${Import_BINARY_DIR}/bld_generated.c`
			`DEPENDS bld_testExe1`
			`)`
			`add_custom_command(`
			`OUTPUT ${Import_BINARY_DIR}/bld_generated3.c`
			`COMMAND bld_testExe3 ${Import_BINARY_DIR}/bld_generated3.c`
			`DEPENDS bld_testExe3`
			`)`

			`add_executable(imp_testExe1b`
			`imp_testExe1.c`
			`${Import_BINARY_DIR}/bld_generated.c`
			`${Import_BINARY_DIR}/bld_generated3.c`
			`)`

			`# Try linking to a library imported from the build tree.`
ENH: Allow IMPORTED_IMPLIB w/o IMPORTED_LOCATION Linking to a Windows shared library (.dll) requires only its import library (.lib). This teaches CMake to recognize SHARED IMPORTED library targets that set only IMPORTED_IMPLIB and not IMPORTED_LOCATION. 2009-04-09 00:29:04 +04:00			`target_link_libraries(imp_testExe1b`
			`bld_testLib2`
			`bld_testLib3`
			`bld_testLib4`
			`bld_testLib5`
ENH: Test export/import of link interface languages This extends the ExportImport test. The Export project creates a C++ static library and exports it. Then the Import project links the library into a C executable. On most platforms the executable will link only if the C++ linker is chosen correctly. 2009-07-11 18:10:51 +04:00			`bld_testLib6`
Test link multiplicity export/import We test that LINK_INTERFACE_MULTIPLICITY propagates through export() and install(EXPORT) into dependent projects. A simple cycle of two archives that need to be scanned three times ensures that the importing project uses the multiplicity correctly. 2009-09-01 18:38:36 +04:00			`bld_testLibCycleA`
ENH: Allow IMPORTED_IMPLIB w/o IMPORTED_LOCATION Linking to a Windows shared library (.dll) requires only its import library (.lib). This teaches CMake to recognize SHARED IMPORTED library targets that set only IMPORTED_IMPLIB and not IMPORTED_LOCATION. 2009-04-09 00:29:04 +04:00			`)`
ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00
			`# Try building a plugin to an executable imported from the build tree.`
			`add_library(imp_mod1b MODULE imp_mod1.c)`
			`target_link_libraries(imp_mod1b bld_testExe2)`

			`# Export/CMakeLists.txt pretends the RelWithDebInfo (as well as Debug)`
			`# configuration should link to debug libs.`
			`foreach(c DEBUG RELWITHDEBINFO)`
			`set_property(TARGET imp_testExe1 PROPERTY COMPILE_DEFINITIONS_${c} EXE_DBG)`
			`set_property(TARGET imp_testExe1b PROPERTY COMPILE_DEFINITIONS_${c} EXE_DBG)`
Remove CMake-language block-end command arguments Ancient versions of CMake required else(), endif(), and similar block termination commands to have arguments matching the command starting the block. This is no longer the preferred style. Run the following shell code: for c in else endif endforeach endfunction endmacro endwhile; do echo 's/\b'"$c"'\(\s\)(.\+)/'"$c"'\1()/' done >convert.sed && git ls-files -z -- bootstrap '.cmake' '.cmake.in' 'CMakeLists.txt' \| egrep -z -v '^(Utilities/cm\|Source/kwsys/)' \| egrep -z -v 'Tests/CMakeTests/While-Endwhile-' \| xargs -0 sed -i -f convert.sed && rm convert.sed 2012-08-13 21:50:14 +04:00			`endforeach()`
ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00			`#-----------------------------------------------------------------------------`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`# Create a custom target to generate a header for the libraries below.`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00			`# Drive the header generation through an indirect chain of imported`
			`# target dependencies.`

			`# testLib2tmp1.h`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`add_custom_command(`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00			`OUTPUT testLib2tmp1.h`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`VERBATIM COMMAND`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00			`${CMAKE_COMMAND} -E echo "extern int testLib2(void);" > testLib2tmp1.h`
			`)`

			`# hdr_testLib2tmp1 needs testLib2tmp1.h`
			`add_custom_target(hdr_testLib2tmp1 DEPENDS testLib2tmp1.h)`

			`# exp_testExe2 needs hdr_testLib2tmp1`
			`add_dependencies(exp_testExe2 hdr_testLib2tmp1)`

			`# testLib2tmp.h needs exp_testExe2`
			`add_custom_command(`
			`OUTPUT testLib2tmp.h`
			`VERBATIM COMMAND exp_testExe2`
			`COMMAND ${CMAKE_COMMAND} -E copy testLib2tmp1.h testLib2tmp.h`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`)`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00
			`# hdr_testLib2tmp needs testLib2tmp.h`
			`add_custom_target(hdr_testLib2tmp DEPENDS testLib2tmp.h)`

			`add_library(dep_testLib2tmp UNKNOWN IMPORTED)`
			`set_property(TARGET dep_testLib2tmp PROPERTY`
			`IMPORTED_LOCATION ${CMAKE_CURRENT_BINARY_DIR}/testLib2tmp.h)`

			`# dep_testLib2tmp needs hdr_testLib2tmp`
			`add_dependencies(dep_testLib2tmp hdr_testLib2tmp)`

			`# testLib2.h needs dep_testLib2tmp`
			`add_custom_command(`
			`OUTPUT testLib2.h`
			`VERBATIM COMMAND ${CMAKE_COMMAND} -E copy testLib2tmp.h testLib2.h`
			`DEPENDS dep_testLib2tmp`
			`)`

			`# hdr_testLib2 needs testLib2.h`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`add_custom_target(hdr_testLib2 DEPENDS testLib2.h)`

			`add_library(dep_testLib2 UNKNOWN IMPORTED)`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00
			`# dep_testLib2 needs hdr_testLib2`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`add_dependencies(dep_testLib2 hdr_testLib2)`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00
			`# exp_testLib2 and bld_testLib2 both need dep_testLib2`
Allow add_dependencies() on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-11-19 21:36:11 +03:00			`add_dependencies(bld_testLib2 dep_testLib2)`
			`add_dependencies(exp_testLib2 dep_testLib2)`

Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00			`#-----------------------------------------------------------------------------`
ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00			`# Create a library to be linked by another directory in this project`
			`# to test transitive linking to otherwise invisible imported targets.`
Honor custom command dependencies on imported targets (#10395) Imported targets do not themselves build, but we can follow dependencies through them to find real targets. This allows imported targets to depend on custom targets that provide the underlying files at build time. 2010-12-08 20:22:13 +03:00			`include_directories(${CMAKE_CURRENT_BINARY_DIR})`
ENH: Test transitive link to subdir-imported lib This tests linking to an imported target that is not visible but is a transitive dependency of a target that is visible. See issue #8843. 2009-04-06 19:11:33 +04:00			`add_library(imp_lib1 STATIC imp_lib1.c)`
			`target_link_libraries(imp_lib1 exp_testLib2)`
			`add_library(imp_lib1b STATIC imp_lib1.c)`
			`target_link_libraries(imp_lib1b bld_testLib2)`
Check.cmake: Expand imported targets in CMAKE_REQUIRED_LIBRARIES Add the function cmake_expand_imported_targets() to expand imported targets in a list of libraries into their on-disk file names for a particular configuration. Adapt the implementation from KDE's HANDLE_IMPORTED_TARGETS_IN_CMAKE_REQUIRED_LIBRARIES which has been in use for over 2 years. Call the function from all the Check.cmake macros to handle imported targets named in CMAKE_REQUIRED_LIBRARIES. Alex 2012-02-17 02:35:43 +04:00
			`#-----------------------------------------------------------------------------`
			`# Test that handling imported targets, including transitive dependencies,`
			`# works in CheckFunctionExists (...and hopefully all other try_compile() checks`
			`include(CheckFunctionExists)`
			`unset(HAVE_TESTLIB1_FUNCTION CACHE)`
			`set(CMAKE_REQUIRED_LIBRARIES exp_testLib2)`
			`check_function_exists(testLib1 HAVE_TESTLIB1_FUNCTION)`
			`if (NOT HAVE_TESTLIB1_FUNCTION)`
			`message(SEND_ERROR "Using imported target testLib2 in check_function_exists() failed !")`
			`endif()`
Handle INTERFACE properties transitively for includes and defines. Contextually, the behavior is as if the properties content from another target is included in the string and then the result is evaluated. 2012-09-23 15:45:17 +04:00
			`#-----------------------------------------------------------------------------`
			`# Test that dependent imported targets have usable`
			`# INTERFACE_COMPILE_DEFINITIONS and INTERFACE_INCLUDE_DIRECTORIES`

Fix linking to imported libraries test. Make a C executable instead of attempting to make a C++ static library (and not really succeeding). This was introduced in commit 894f52f3 (Handle INTERFACE properties transitively for includes and defines., 2012-09-23). 2013-01-10 20:11:12 +04:00			`add_executable(deps_iface deps_iface.c)`
			`target_link_libraries(deps_iface testLibDepends)`
Add a test for the interfaces in targets exported from the build tree. 2013-01-12 03:00:42 +04:00			`target_include_directories(deps_iface PRIVATE testLibDepends)`
			`target_compile_definitions(deps_iface PRIVATE testLibDepends)`
Allow generator expressions in LINK_INTERFACE_LIBRARIES. The Config and IMPORTED_ variants may also contain generator expressions. If 'the implementation is the interface', then the result of evaluating the expressions at generate time is used to populate the IMPORTED_LINK_INTERFACE_LIBRARIES property. 1) In the case of non-static libraries, this is fine because the user still has the option to populate the LINK_INTERFACE_LIBRARIES with generator expressions if that is what is wanted. 2) In the case of static libraries, this prevents a footgun, enforcing that the interface and the implementation are really the same. Otherwise, the LINK_LIBRARIES could contain a generator expression which is evaluated with a different context at build time, and when used as an imported target. That would mean that the result of evaluating the INTERFACE_LINK_LIBRARIES property for a static library would not necessarily be the 'link implementation'. For example: add_library(libone STATIC libone.cpp) add_library(libtwo STATIC libtwo.cpp) add_library(libthree STATIC libthree.cpp) target_link_libraries(libtwo $<$<STREQUAL:$<TARGET_PROPERTY:TYPE>,STATIC_LIBRARY>:libone>) target_link_libraries(libthree libtwo) If the LINK_LIBRARIES content was simply copied to the IMPORTED_LINK_INTERFACE_LIBRARIES, then libthree links to libone, but executables linking to libthree will not link to libone. 3) As the 'implementation is the interface' concept is to be deprecated in the future anyway, this should be fine. 2013-01-04 16:36:18 +04:00
			`add_executable(deps_shared_iface deps_shared_iface.cpp)`
			`target_link_libraries(deps_shared_iface testSharedLibDepends)`
Add a test for the interfaces in targets exported from the build tree. 2013-01-12 03:00:42 +04:00			`target_include_directories(deps_shared_iface PRIVATE testSharedLibDepends)`
			`target_compile_definitions(deps_shared_iface PRIVATE testSharedLibDepends)`

			`#-----------------------------------------------------------------------------`
			`# Test that targets imported from the build tree have their dependencies`
			`# evaluated correctly. The above already tests the same for the install tree.`

			`add_executable(deps_shared_iface2 deps_shared_iface.cpp)`
Make the BUILD_INTERFACE of export()ed targets work. The existing BUILD_INTERFACE code is executed at generate time, which is too late for export(). 2013-01-12 15:11:29 +04:00			`target_link_libraries(deps_shared_iface2 bld_testSharedLibDepends bld_subdirlib)`
			`target_include_directories(deps_shared_iface2 PRIVATE bld_testSharedLibDepends bld_subdirlib)`
			`target_compile_definitions(deps_shared_iface2`
			`PRIVATE bld_testSharedLibDepends TEST_SUBDIR_LIB`
			`)`