Same source, all that, just want a static and shared version both. Easy to do?

  • 9
    All the answers to this question are wrong or incomplete. I wrote a blog post about this here. Thanks to PIC (among other things), the best thing to do is just create one target and build twice. Commented Mar 10, 2021 at 9:14

5 Answers 5


Since CMake version 2.8.8, you can use "object libraries" to avoid the duplicated compilation of the object files. Using Christopher Bruns' example of a library with two source files:

# list of source files
set(libsrc source1.c source2.c)

# this is the "object library" target: compiles the sources only once
add_library(objlib OBJECT ${libsrc})

# shared libraries need PIC

# shared and static libraries built from the same object files
add_library(MyLib_shared SHARED $<TARGET_OBJECTS:objlib>)
add_library(MyLib_static STATIC $<TARGET_OBJECTS:objlib>)

From the CMake docs:

An object library compiles source files but does not archive or link their object files into a library. Instead other targets created by add_library() or add_executable() may reference the objects using an expression of the form $<TARGET_OBJECTS:objlib> as a source, where objlib is the object library name.

Simply put, the add_library(objlib OBJECT ${libsrc}) command instructs CMake to compile the source files to *.o object files. This collection of *.o files is then referred to as $<TARGET_OBJECT:objlib> in the two add_library(...) commands that invoke the appropriate library creation commands that build the shared and static libraries from the same set of object files. If you have lots of source files, then compiling the *.o files can take quite long; with object libraries you compile them only once.

The price you pay is that the object files must be built as position-independent code because shared libraries need this (static libs don't care). Note that position-independent code may be less efficient, so if you aim for maximal performance then you'd go for static libraries. Furthermore, it is easier to distribute statically linked executables.

  • 4
    This worked like a charm for me – the only caveat was subsequent target_link_libraries() calls that depend on your library can’t use the “object library” to link against; those must target the new shared or static libraries (and might be duplicated). But contrary to the first commenters’ experience this was quite useful, and allowed me to remove all the duplicated targets and cut all my CMakeLists.txt files by close to half.
    – fish2000
    Commented May 24, 2016 at 1:35
  • 1
    Do you need to "escape" the obblib when setting the target properties? i.e. set_property(TARGET ${objlib} PROPERTY ...) vs set_property(TARGET objlib PROPERTY ...)
    – gnac
    Commented Sep 8, 2016 at 21:56
  • 1
    @user465139 Perhaps you should explain why it should work to re-use object files for both static and shared target. Especially, general knowledge in SO is still very confusing about it, old/archives don't help to clarify it either, eg. cmake.org/pipermail/cmake/2008-March/020315.html A solid explanation of the status quo is needed. p.s. It wasn't me who downvoted
    – mloskot
    Commented Mar 27, 2017 at 13:58
  • 2
    @gnac I cannot confirm this. In my case, the set_property only worked when I used objlib and not when using ${objlib}. So maybe this answer could be corrected?
    – josch
    Commented May 12, 2017 at 9:24
  • 2
    shouldn't PIC property be applied to MyLib_shared only?
    – mkaptur
    Commented Sep 22, 2017 at 13:39

Yes, it's moderately easy. Just use two "add_library" commands:

add_library(MyLib SHARED source1.c source2.c)
add_library(MyLibStatic STATIC source1.c source2.c)

Even if you have many source files, you can place the list of sources in a Cmake variable, so it's still easy to do.

On Windows you should probably give each library a different name, since there is a ".lib" file for both shared and static. But on Linux and Mac you can even give both libraries the same name (e.g. libMyLib.a and libMyLib.so):

set_target_properties(MyLibStatic PROPERTIES OUTPUT_NAME MyLib)

But I don't recommend giving both the static and dynamic versions of the library the same name. I prefer to use different names because that makes it easier to choose static vs. dynamic linkage on the compile line for tools that link to the library. Usually I choose names like libMyLib.so (shared) and libMyLib_static.a (static). (Those would be the names on linux.)

  • Was hoping for them to have the same name, but oh well. Another question: Can you tell CMake to link static libraries into the shared library when possible?
    – gct
    Commented Jan 28, 2010 at 4:24
  • More about "same name": If you are on Windows and want the same name for both libraries and you don't need the shared .lib file, it is possible to create a static .lib and a shared .dll. But you need that shared .lib file if you are using your library for ordinary compile time linking. Commented Jan 28, 2010 at 4:29
  • 1
    I'm not sure I understand your question about linking static libraries into the shared library. Commented Jan 28, 2010 at 4:30
  • 10
    Note that this is not the suggested way to do it anymore. For non-trivially sized projects (ones that take minutes, not seconds to compile), avoiding doubling the compile time is wondrous. See user465139 answer below for Object Library usage or the docs: cmake.org/cmake/help/v3.8/command/…
    – KymikoLoco
    Commented Jun 5, 2017 at 21:01
  • 5
    @KymikoLoco: The Object Library approach does indeed reduce compilation time by half, but it requires static libraries be built as Position Independent Code (i.e. with -fPIC), which adds a small amount of runtime overhead when those static libraries are used. So for maximum performance, this answer is still the best. Commented Jul 24, 2017 at 9:54

There is generally no need to duplicate ADD_LIBRARY calls for your purpose. Just make use of

$> man cmake | grep -A6 '^ *BUILD_SHARED_LIBS$' 
          Global flag to cause add_library to create shared libraries if on.

          If present and true, this will cause all libraries to be built shared unless the library was
          explicitly added as a static library.  This variable is often added to projects as an OPTION
          so  that each user of a project can decide if they want to build the project using shared or
          static libraries.

while building, first (in one out-of-source directory) with -DBUILD_SHARED_LIBS:BOOL=ON, and with OFF in the other.

  • 63
    This doesn't seem to build BOTH static and shared versions, which I think is what this question is getting at. Commented Jul 7, 2015 at 19:17
  • 1
    To clarify: The project is built twice, once with static and once with shared libraries. This a solution, if it is the exception to need both cases. But it works for all CMake projects without adaptation is the most "natural" or "CMake" way.
    – usr1234567
    Commented Sep 17, 2020 at 15:59
  • Indeed, it is the very presence of this option that seems to cause all the problems. There are many projects that rely on this and so can only be built either share or static and not both, which leads to problems if mulitple other projects depend on them and some require shared and others require static, the dependencies become impossible to meet.
    – Chris Dodd
    Commented Jan 25 at 4:08

Please be aware that previous answers won't work with MSVC:

add_library(test SHARED ${SOURCES})
add_library(testStatic STATIC ${SOURCES})
set_target_properties(testStatic PROPERTIES OUTPUT_NAME test)

CMake will create test.dll together with test.lib and test.exp for shared target. Than it will create test.lib in the same directory for static target and replace previous one. If you will try to link some executable with shared target it will fail with error like:

error LNK2001: unresolved external symbol __impl_*.`.

Please use ARCHIVE_OUTPUT_DIRECTORY and use some unique output directory for static target:

add_library(test SHARED ${SOURCES})
add_library(testStatic STATIC ${SOURCES})
  testStatic PROPERTIES

test.lib will be created in testStatic directory and won't override test.lib from test target. It works perfect with MSVC.

  • hey - where will .dll be created in this case?
    – vel
    Commented May 26, 2023 at 9:28
  • dll will be created in current directory for libraries, static will be created in testStatic subdirectory.
    – puchu
    Commented May 28, 2023 at 23:18

It's possible to pack eveything in the same compilation breath, as suggested in the previous answers, but I would advise against it, because in the end it's a hack that works only for simple projects. For example, you may need at some point different flags for different versions of the library (esp. on Windows where flags are typically used to switch between exporting symbols or not). Or as mentionned above, you may want to put .lib files into different directories depending on whether they correspond to static or shared libraries. Each of those hurdles will require a new hack.

It may be obvious, but one alternative that has not been mentionned previously is to make the type of the library a parameter:

set( ${PROJECT_NAME}_LIBTYPE CACHE STRING "library type" )

Having shared and static versions of the library in two different binary trees makes it easier to handle different compilation options. I don't see any serious drawback in keeping compilation trees distinct, especially if your compilations are automated.

Note that even if you intend to mutualize compilations using an intermediate OBJECT library (with the caveats mentionned above, so you need a compelling reason to do so), you could still have end libraries put in two different projects.

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