I see more and more people who set
CMAKE_C_COMPILER and other compiler-related variables in the
CMakeLists.txt after the
project call and wonder why this approach breaks sometimes.
What happens actually
When CMake executes the
project() call, it looks for a default compiler executable and determines the way for use it: default compiler flags, default linker flags, compile features, etc.
And CMake stores path to that default compiler executable in the
When one sets
CMAKE_C_COMPILER variable after the
project() call, this only changes the compiler executable: default flags, features all remains set for the default compiler.
AS RESULT: When the project is built, a build system calls the project-specified compiler executable but with parameters suitable for the default compiler.
As one could guess, this approach would work only when one replaces a default compiler with a highly compatible one. E.g. replacement of
clang could work sometimes.
This approach will never work for replacement of
cl compiler (used in Visual Studio) with
gcc one. Nor this will work when replacing a native compiler with a cross-compiler.
What to do
Never set a compiler in
If you want, e.g., to use
clang instead of defaulted
gcc, then either:
cmake when configure the project. That way CMake will use this compiler instead of default one and on the
project() call it will adjust all flags for the specified compiler.
CC environment variable (
CXX for C++ compiler). CMake checks this variable when selects a default compiler.
(Only in rare cases) Set
CMAKE_C_COMPILER variable before the
project() call. This approach is similar to the first one, but makes the project less flexible.
If the ways above do not work
If on setting
CMAKE_C_COMPILER in the command line CMake errors that a compiler cannot "compile a simple project", then something wrong in your environment.. or you specify a compiler incompatible for chosen generator or platform.
- Visual Studio generators work with
cl compiler but cannot work with
- A MinGW compiler usually requires MinGW Makefiles generator.
Incompatible generator cannot be fixed in
CMakeLists.txt. One need to pass the proper
-G option to the
cmake executable (or select the proper generator in CMake GUI).
Cross-compiling usually requires setting CMAKE_SYSTEM_NAME variable, and this setting should normally be done in the toolchain file. That toolchain file is also responsible for set a compiler.
CMAKE_SYSTEM_NAME in the
CMakeLists.txt is almost always an error.