I'm not asking this for just myself. I hope this question will be a reference for the many newbies who like me, found it utterly perplexing about what exactly what was going on behind the scenes when for such a small CMakeLists.txt file

cmake_minimum_required (VERSION 2.6)
add_executable(Tutorial tutorial.cpp)

and such a small tutorial.cpp

int main() { return 0; } 

there are so many files generated

CMakeCache.txt  cmake_install.cmake  Makefile
CMakeLists.txt  tutorial.cpp

and a CMakeFiles folder with so many files and folders

CMakeCCompiler.cmake               CMakeOutput.log    Makefile.cmake
cmake.check_cache                  CMakeSystem.cmake  progress.marks
CMakeCXXCompiler.cmake             CMakeTmp           TargetDirectories.txt
CMakeDetermineCompilerABI_C.bin    CompilerIdC        Tutorial.dir
CMakeDetermineCompilerABI_CXX.bin  CompilerIdCXX
CMakeDirectoryInformation.cmake    Makefile2

Not understanding what was going on behind the scenes (i.e: why so may files had to be generated and what their purpose was), was the biggest obstacle in being able to learn CMake.

If anyone knows, could you please explain it for the sake of posterity? What is the purpose of these files, and when I type cmake ., what exactly is cmake configuring and generating before it builds the project?

  • I'm aware of out-of-source builds. In case anyone did not do an out of source build and is still looking for a way to clean generated files, this technique works well: stackoverflow.com/a/12055610/453673 – Nav Jul 9 '13 at 3:13
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    There's wonderful description at : aosabook.org/en/cmake.html and probably in-depth answer to question (which cannot be summarized in short here). – parasrish Jun 8 '16 at 11:08
  • @SebTu Broken link. The cmake.html page does not exist. – Nav Mar 1 '17 at 5:01
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    @Nav Yap, messed up the markup syntax, sorry. Thus, here the corrected version: For people new to cmake I really recommend reading architecture of cmake. It provides just enough information to get a feeling how cmake works without loosing itself into details. – SebNag Mar 2 '17 at 10:17

The secret is that you don't have to understand what the generated files do.

CMake introduces a lot of complexity into the build system, most of which only pays off if you use it for building complex software projects.

The good news is that CMake does a good job of keeping a lot of this messiness away from you: Use out-of-source builds and you don't even have to look at the generated files. If you didn't do this so far (which I guess is the case, since you wrote cmake .), please check them out before proceeding. Mixing the build and source directory is really painful with CMake and is not how the system is supposed to be used.

In a nutshell: Instead of

cd <source_dir>
cmake .

always use

cd <build_dir_different_from_source_dir>
cmake <source_dir>

instead. I usually use an empty subfolder build inside my source directory as build directory.

To ease your pain, let me give a quick overview of the relevant files which CMake generates:

  • Project files/Makefiles - What you are actually interested in: The files required to build your project under the selected generator. This can be anything from a Unix Makefile to a Visual Studio solution.
  • CMakeCache.txt - This is a persistent key/value string storage which is used to cache value between runs. Values stored in here can be paths to library dependencies or whether an optional component is to be built at all. The list of variables is mostly identical to the one you see when running ccmake or cmake-gui. This can be useful to look at from time to time, but I would recommend to use the aforementioned tools for changing any of the values if possible.
  • Generated files - This can be anything from autogenerated source files to export macros that help you re-integrate your built project with other CMake projects. Most of these are only generated on demand and will not appear in a simple project such as the one from your question.
  • Anything else is pretty much noise to keep the build system happy. In particular, I never needed to care about anything that is going on inside the CMakeFiles subdirectory.

In general you should not mess with any of the files that CMake generates for you. All problems can be solved from within CMakeLists.txt in one way or the other. As long as the result builds your project as expected, you are probably fine. Do not worry too much about the gory details - as this is what CMake was trying to spare you of in the first place.

  • Thanks. Was aware of the out of source builds, but as you'd see, the objective of asking this question was to understand more. The CMakeCache.txt part of your answer really helped. It's this kind of explanation that I was looking for. Also, the last sentence of my question: "what exactly is cmake configuring and generating before it builds the project" – Nav Jul 9 '13 at 3:03
  • CMakeFiles directory contains CMakeError.log and CMakeOutput.log important for troubleshooting CMake builds. – Serge Rogatch Aug 16 '16 at 18:11
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    Two things that sometimes you need to check in the CMakeFiles/target_name.dir directory are the flags.make and link.txt files. I've had to check these in complex project, which inherited flags/linked-stuff from upstream projects. E.g,: I had some errors because TPL A had a dependency on TPL B. Also my project had a dependency on B, which I installed locally; but A used a version of B from my system (rather than my local install) which had different enabled options, and it came first, causing errors in my project. Only looking at link.txt I was able to find out this was happening. – bartgol Feb 6 at 20:28

As stated on its website:

Cmake is cross-platform, open-source build system for managing the build process of software using a compiler-independent method

In most cases it is used to generate project/make files - in your example it has produced Makefile which are used to build your software (mostly on Linux/Unix platform).

Cmake allows to provide cross platform build files that would generate platform specific project/make files for particular compilation/platform.

For instance you may to try to compile your software on Windows with Visual Studio then with proper syntax in your CMakeLists.txt file you can launch

cmake .

inside your project's directory on Windows platform,Cmake will generate all the necessary project/solution files (.sln etc.).

If you would like to build your software on Linux/Unix platform you would simply go to source directory where you have your CMakeLists.txt file and trigger the same cmake . and it will generate all files necessary for you to build software via simple make or make all.

Here you have some very good presentation about key Cmake functionalities http://www.elpauer.org/stuff/learning_cmake.pdf


If you'd like to make platform dependent library includes / variable definitions etc. you can use this syntax in CMakeLists.txt file

   ...do something...
   ...do something else...

There is also a lot of commands with use of which you are able to prevent the build from failing and in place Cmake will notify you that for instance you do not have boost libraries filesystem and regex installed on your system. To do that you can use the following syntax:

find_package(Boost 1.45.0 COMPONENTS filesystem regex)

Having checked that it will generate the makefiles for appropriate system/IDE/compiler.

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    Thanks Patryk. Helpful answer, but the pdf you linked to, explains mostly the second stage of learning CMake, which is basically implementation of CMake. I'm asking about the explanation of the first stage, where a person has to understand what on earth is going on in CMake! – Nav Jul 8 '13 at 11:28
  • @Nav I have expanded my answer a little. You can still search the web for more information. – Patryk Jul 8 '13 at 11:40

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