Let's say I have a C++ unit-test project using cmake like this:

$ tree
├── C-API-ConditionVariable-unit-test
│   ├── C-API-ConditionVariable-compile-link-test.c
│   ├── C-API-ConditionVariable-unit-test-0.cpp
│   └── C-API-ConditionVariable-unit-test-1.cpp
├── C-API-Mutex-unit-test
│   ├── C-API-Mutex-compile-link-test.c
│   ├── C-API-Mutex-unit-test-0.cpp
│   └── C-API-Mutex-unit-test-1.cpp
├── some
│   └── deeply
│       └── nested
│           └── path
│               └── SomeFeature-unit-test
│                   ├── SomeFeature-compile-link-test.c
│                   ├── SomeFeature-unit-test-0.cpp
│                   └── SomeFeature-unit-test-1.cpp
└── CMakeLists.txt

Each source file from the subfolders creates a separate executable. I would like to have each subfolder in the project to be a non-standalone module - that is each subfolder is (more-or-less) self-contained, but is NOT a standalone cmake project which can be compiled separately. I would like to be able to only build everything or nothing. For example I don't want to make an impression that you could run cmake only from some/deeply/nested/path/SomeFeature-unit-test to build only that.

Which option should I choose?

  1. CMakeLists.txt file in each subfolder + add_subdirectory() in top-level CmakeLists.txt;
  2. some-random-name.cmake in each subfolder + include() in top-level CmakeLists.txt;
  3. ignore my idea for each subfolder to be self-contained and put all relevant build info in the top-level CMakeLists.txt, additional cmake files only as helpers (macros, functions, ...);

The first option is the most convenient, but it suggests that each subfolder is actually a standalone project which could be compiled separately.

The second option seems to clearly suggest that there is only one cmake project here. But then in each some-random-name.cmake in subfolders I have to use full path to source files, which is against my desire for each of them to be self contained. If there's only one level of nesting (like for first two example subfolders) it is ok, but for some/deeply/nested/path/SomeFeature-unit-test this is not so nice. I would also have to prefix the names of output files.

The third option seems like an easy way to quickly create a CMakeLists.txt file with a length of a spaghetti, so it possible I would prefer something else.

I would like know which is the "preferred" way in a "modern" cmake project. All the tutorials I could find for multi-directory project deal with the case when there's a standalone library in one folder, standalone application using that library in another folder and standalone tests using the same library in yet another directory. Looking at projects using cmake I see no consistency, so this doesn't help much.

(I'm a cmake noob, trying to convert a relatively large project to use cmake)

  • I would like know which is the "preferred" way in a "modern" cmake project. - There is no single "preferred" way. Choose the one which seems to be convenient to you, and implement it. BTW, the way with add_subdirectory by itself doesn't implies subproject to be standalone. – Tsyvarev Jan 29 '18 at 21:21
  • @Tsyvarev - as a complete cmake noob I would prefer to base my choices on some kind of common knowledge instead of my own preferences (; You say that my understanding that CMakeLists.txt implies the folder to be standalone is wrong? But then if a particular repository would contain a few cmake projects, how can you tell which CMakeLists.txt should you use to build something without reading the documentation? – Freddie Chopin Jan 29 '18 at 21:29
  • "But then if a particular repository would contain a few cmake projects, how can you tell which CMakeLists.txt should you use to build something without reading the documentation?" - No way. On may guess that top-level CMakeLists.txt will be the needed one. But it could be that required CMakeLists.txt is in the some other project; e.g. in the case when given project provides a plugin. – Tsyvarev Jan 29 '18 at 22:27

The most commonly used rule is "One CMakeLists.txt per target". So your option No. 1.

To achieve this your project structure may have to adapt, if "each source file from the subfolders creates a separate executable".

And the root CMakeLists.txt is your starting point and contains the project() command.

It's important to note that

  • CMake will mirror your add_subdirectory() and CMakeLists.txt directory structure in its generated build environment
  • CMake will create a new variable scope with each add_subdirectory() call (the big difference to using include() command)

What you should avoid is having to reference source files out of other subdirectories with something like ../some_other_dir/some_other_source.cpp. It shows that your CMake structure is not setup according to the rule of thumb quoted above.

Documentation Extracts

  1. CMake: add_subdirectory() command

    Add a subdirectory to the build. The source_dir specifies the directory in which the source CMakeLists.txt and code files are located.

  2. CLion: CMakeLists File

    When a project has the complex structure and includes one or more subdirectories (project root and subdirectories), you can create subdirectory CMakeList.txt files. Subdirectory CMakeLists.txt files describe the build, contents, and target rules for a subdirectory.

  3. C++Now 2017: Daniel Pfeifer "Effective CMake: a random seletion of best practices

    Directories that contain a CMakeLists.txt are the entry point for the build system generator. Subdirectories may be added with add_subdirectory() and must contain a CMakeLists.txt too.


  • 1
    Thank you Florian. This is a fantastic answer. I wish I had've found this before reading everything else. – Seth Aug 27 '18 at 5:16

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