48

I have a very similar problem to one described on the cmake mailing list where we have a project dependent on many static libraries (all built from source in individual submodules, each with their own CMakeLists.txt describing the build process for each library) that I'd like to combine into a single static library for release to the consumers. The dependencies of my library are subject to change, and I do not want to burden developers further down the chain with those changes. The neat solution would be to bundle all of the libs into one single lib.

Interestingly, the target_link_libraries command does not combine all of the statics when setting the target to mylib and using it like so . .

target_link_libraries(mylib a b c d)

However, bizarrely, if I make the mylib project a submodule of an executable project, and only link against mylib in the top level executable CMAkeLists.txt, the library does seem to be combined. I.e. mylib is 27 MB, instead of the 3MB when I set the target to only build mylib.

There are solutions describing unpacking of the libs into object files and recombining (here, and here), but this seems remarkably clumsy when CMake seems perfectly capable of automatically merging the libs as described in the above example. It there a magic command I'm missing, or a recommended elegant way of making a release library?

8
  • But what will you do with all these include files and dirs? Jun 20, 2016 at 13:59
  • @Drop they are all pimpled off or hidden behind the public interface of mylib. The deps should be invisible to the consumers
    – learnvst
    Jun 20, 2016 at 14:01
  • If you are using gcc, and don't require your makefile to be compiler independent, you could try the --whole-archive option. Jun 20, 2016 at 14:11
  • @KarstenKoop needs to be both Apple Clang and GCC
    – learnvst
    Jun 20, 2016 at 14:12
  • 1
    Hmmm @n.m. I was hoping to have CMake do this in a platform independent way seeing as that is the whole point of the tool. My answer below works, but sucks because of its platform dependence
    – learnvst
    Jun 21, 2016 at 10:29

6 Answers 6

18

Given the most simple working example I can think of: 2 classes, a and b, where a depends on b . .

a.h

#ifndef A_H
#define A_H

class aclass
{
public:
    int method(int x, int y);
};

#endif

a.cpp

#include "a.h"
#include "b.h"

int aclass::method(int x, int y) {
    bclass b;
    return x * b.method(x,y);
}

b.h

#ifndef B_H
#define B_H

class bclass
{
public:
    int method(int x, int y);
};

#endif

b.cpp

#include "b.h"

int bclass::method(int x, int y) {
    return x+y;
}

main.cpp

#include "a.h"
#include <iostream>

int main()
{
    aclass a;
    std::cout << a.method(3,4) << std::endl;

    return 0;
}

It is possible to compile these into separate static libs, and then combine the static libs using a custom target.

cmake_minimum_required(VERSION 2.8.7)

add_library(b b.cpp b.h)
add_library(a a.cpp a.h)
add_executable(main main.cpp)

set(C_LIB ${CMAKE_BINARY_DIR}/libcombi.a)

add_custom_target(combined
        COMMAND ar -x $<TARGET_FILE:a>
        COMMAND ar -x $<TARGET_FILE:b>
        COMMAND ar -qcs ${C_LIB} *.o
        WORKING_DIRECTORY ${CMAKE_BINARY_DIR}
        DEPENDS a b
        )

add_library(c STATIC IMPORTED GLOBAL)
add_dependencies(c combined)

set_target_properties(c
        PROPERTIES
        IMPORTED_LOCATION ${C_LIB}
        )

target_link_libraries(main c)

It also works just fine using Apple's libtool version of the custom target . . .

add_custom_target(combined
        COMMAND libtool -static -o ${C_LIB} $<TARGET_FILE:a> $<TARGET_FILE:b>
        WORKING_DIRECTORY ${CMAKE_BINARY_DIR}
        DEPENDS a b
        )

Still seams as though there should be a neater way . .

4
  • 1
    This doesn't answer the question. This reply is about combining several object files while the question is about combining several libraries.
    – ctc chen
    Nov 30, 2016 at 8:57
  • 1
    @ctcchen: Well, it looks like the CMakeLists.txt will result in a combined library, libcombi.a. But my question to learnvst is: Does this really require a custom target? Isn't there a more standard mechanism?
    – einpoklum
    Apr 2, 2017 at 12:26
  • 4
    @ctcchen Nope, he creates 2 libraries "a" and "b" from a.cpp and b.cpp, he then combines them into library "c". Sep 20, 2018 at 14:02
  • Thanks! the corresponding way to do it on Windows is to add a custom command "lib.exe /OUT:combi.lib a.lib b.lib" (good to know that CMake does not provide any helper method, and that we have to manually support each platform separately)
    – Top-Master
    Jul 11, 2021 at 19:30
10

You can use this function to join any number of libraries.

function(combine_archives output_archive list_of_input_archives)
    set(mri_file ${TEMP_DIR}/${output_archive}.mri)
    set(FULL_OUTPUT_PATH ${CMAKE_ARCHIVE_OUTPUT_DIRECTORY}/lib${output_archive}.a)
    file(WRITE ${mri_file} "create ${FULL_OUTPUT_PATH}\n")
    FOREACH(in_archive ${list_of_input_archives})
        file(APPEND ${mri_file} "addlib ${CMAKE_ARCHIVE_OUTPUT_DIRECTORY}/lib${in_archive}.a\n")
    ENDFOREACH()
    file(APPEND ${mri_file} "save\n")
    file(APPEND ${mri_file} "end\n")

    set(output_archive_dummy_file ${TEMP_DIR}/${output_archive}.dummy.cpp)
    add_custom_command(OUTPUT ${output_archive_dummy_file}
                       COMMAND touch ${output_archive_dummy_file}
                       DEPENDS ${list_of_input_archives})

    add_library(${output_archive} STATIC ${output_archive_dummy_file})
    add_custom_command(TARGET ${output_archive}
                       POST_BUILD
                       COMMAND ar -M < ${mri_file})
endfunction(combine_archives)

It has the benefits of using add_custom_command and not add_custom_target. This way, the library (and it's dependencies) are only built when needed and not every time. The drawback is the print of the generation of the dummy file.

4
  • While this is good for combining the object files, I think it could be improved by adding a target_link_libraries call to get transitive dependencies. Sep 24, 2019 at 7:56
  • 1
    Can you elaborate? Which dependencies are missing?
    – zbut
    Sep 27, 2019 at 8:00
  • 2
    doesn't work on macos. The -M doesn't exist in the ar command on macos :( Aug 30, 2020 at 20:38
  • This should be the accepted answer, thanks! Can easily modify the above to use libtool for MacOS, allowing it to work on all Unix-like OS.
    – cyrusbehr
    Aug 27, 2021 at 17:37
6

This doesn't directly answer the question, but I found it useful:

https://cristianadam.eu/20190501/bundling-together-static-libraries-with-cmake/

Basic, define a CMake function that will collect all the static libs required by a target and combine them into a single static lib:

add_library(awesome_lib STATIC ...);
bundle_static_library(awesome_lib awesome_lib_bundled)

Here's a copy & paste of the actual function:

function(bundle_static_library tgt_name bundled_tgt_name)
  list(APPEND static_libs ${tgt_name})

  function(_recursively_collect_dependencies input_target)
    set(_input_link_libraries LINK_LIBRARIES)
    get_target_property(_input_type ${input_target} TYPE)
    if (${_input_type} STREQUAL "INTERFACE_LIBRARY")
      set(_input_link_libraries INTERFACE_LINK_LIBRARIES)
    endif()
    get_target_property(public_dependencies ${input_target} ${_input_link_libraries})
    foreach(dependency IN LISTS public_dependencies)
      if(TARGET ${dependency})
        get_target_property(alias ${dependency} ALIASED_TARGET)
        if (TARGET ${alias})
          set(dependency ${alias})
        endif()
        get_target_property(_type ${dependency} TYPE)
        if (${_type} STREQUAL "STATIC_LIBRARY")
          list(APPEND static_libs ${dependency})
        endif()

        get_property(library_already_added
          GLOBAL PROPERTY _${tgt_name}_static_bundle_${dependency})
        if (NOT library_already_added)
          set_property(GLOBAL PROPERTY _${tgt_name}_static_bundle_${dependency} ON)
          _recursively_collect_dependencies(${dependency})
        endif()
      endif()
    endforeach()
    set(static_libs ${static_libs} PARENT_SCOPE)
  endfunction()

  _recursively_collect_dependencies(${tgt_name})

  list(REMOVE_DUPLICATES static_libs)

  set(bundled_tgt_full_name 
    ${CMAKE_BINARY_DIR}/${CMAKE_STATIC_LIBRARY_PREFIX}${bundled_tgt_name}${CMAKE_STATIC_LIBRARY_SUFFIX})

  if (CMAKE_CXX_COMPILER_ID MATCHES "^(Clang|GNU)$")
    file(WRITE ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar.in
      "CREATE ${bundled_tgt_full_name}\n" )
        
    foreach(tgt IN LISTS static_libs)
      file(APPEND ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar.in
        "ADDLIB $<TARGET_FILE:${tgt}>\n")
    endforeach()
    
    file(APPEND ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar.in "SAVE\n")
    file(APPEND ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar.in "END\n")

    file(GENERATE
      OUTPUT ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar
      INPUT ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar.in)

    set(ar_tool ${CMAKE_AR})
    if (CMAKE_INTERPROCEDURAL_OPTIMIZATION)
      set(ar_tool ${CMAKE_CXX_COMPILER_AR})
    endif()

    add_custom_command(
      COMMAND ${ar_tool} -M < ${CMAKE_BINARY_DIR}/${bundled_tgt_name}.ar
      OUTPUT ${bundled_tgt_full_name}
      COMMENT "Bundling ${bundled_tgt_name}"
      VERBATIM)
  elseif(MSVC)
    find_program(lib_tool lib)

    foreach(tgt IN LISTS static_libs)
      list(APPEND static_libs_full_names $<TARGET_FILE:${tgt}>)
    endforeach()

    add_custom_command(
      COMMAND ${lib_tool} /NOLOGO /OUT:${bundled_tgt_full_name} ${static_libs_full_names}
      OUTPUT ${bundled_tgt_full_name}
      COMMENT "Bundling ${bundled_tgt_name}"
      VERBATIM)
  else()
    message(FATAL_ERROR "Unknown bundle scenario!")
  endif()

  add_custom_target(bundling_target ALL DEPENDS ${bundled_tgt_full_name})
  add_dependencies(bundling_target ${tgt_name})

  add_library(${bundled_tgt_name} STATIC IMPORTED)
  set_target_properties(${bundled_tgt_name} 
    PROPERTIES 
      IMPORTED_LOCATION ${bundled_tgt_full_name}
      INTERFACE_INCLUDE_DIRECTORIES $<TARGET_PROPERTY:${tgt_name},INTERFACE_INCLUDE_DIRECTORIES>)
  add_dependencies(${bundled_tgt_name} bundling_target)

endfunction()
1
  • Thanks for sharing this! A small improvement to make sure that the target library is generated when one of the dependencies have changed: Add this line to the 'add_custom_command' lines: DEPENDS ${static_libs}
    – fredvanl
    Mar 24 at 6:29
4

If the libraries you are trying to merge are from third parties, then (following learnvst example) this code take care of possible .o file replacements (if for instance both liba and libb have a file name zzz.o)

## Create static library (by joining the new objects and the dependencies)
ADD_LIBRARY("${PROJECT_NAME}-static" STATIC ${SOURCES})
add_custom_command(OUTPUT lib${PROJECT_NAME}.a
                   COMMAND rm ARGS -f *.o
                   COMMAND ar ARGS -x ${CMAKE_BINARY_DIR}/lib${PROJECT_NAME}-static.a
                   COMMAND rename ARGS 's/^/lib${PROJECT_NAME}-static./g' *.o
                   COMMAND rename ARGS 's/\\.o/.otmp/g' *.o
                   COMMAND ar ARGS -x ${CMAKE_SOURCE_DIR}/lib/a/liba.a
                   COMMAND rename ARGS 's/^/liba./g' *.o
                   COMMAND rename ARGS 's/\\.o/.otmp/g' *.o
                   COMMAND ar ARGS -x ${CMAKE_SOURCE_DIR}/lib/b/libb.a
                   COMMAND rename ARGS 's/^/libb./g' *.o
                   COMMAND rename ARGS 's/\\.o/.otmp/g' *.o
                   COMMAND rename ARGS 's/\\.otmp/.o/g' *.otmp
                   COMMAND ar ARGS -r lib${PROJECT_NAME}.a *.o
                   COMMAND rm ARGS -f *.o
                   DEPENDS "${PROJECT_NAME}-static")

add_custom_target(${PROJECT_NAME} ALL DEPENDS lib${PROJECT_NAME}.a)

Otherwise, if the libraries are yours, you should use CMake OBJECT libraries, that are a pretty good mechanism to get them merged.

1
  • 1
    You should almost certainly use PROJECT_BINARY_DIR and PROJECT_SOURCE_DIR instead of the CMAKE_... variants. It's getting increasingly popular to import other CMake projects into a "superbuild" and the answer above breaks in that scenario. Apr 14, 2020 at 22:18
2

https://cmake.org/pipermail/cmake/2018-September/068263.html

It seems CMake doesn't support that.

0

The proper way to do this is not to fudge around with combining static libraries, but to provide CMake Config files to the user that contain all the necessary bits that link everything the way it's supposed to be linked. CMake can be used to generate these files, or generate pkg-config files, and probably other formats of "tell me how to link with this and that library" tools.

Chances are some users will be interested in what libraries yours link to, and they might even be using their own copies/versions of the same exact libraries when linking yours. It is in exactly this case that your solution is terrible and prevents users from integrating multiple pieces of code, because you decided they must absolutely use your copy of that dependency (which is what you do when you combine static library dependencies into one static library).

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