21

I have embedded project using cross compiler. I would like to introduce Google test, compiled with native GCC compiler. Additionally build some unit test targets with CTC compiler.

Briefly:
I have 3 different targets and compile them with 3 different compilers. How to express it in CMakeLists.txt? I Tried SET_TARGET_PROPERTIES;
but it seems impossible to set CXX variable with this command!

3 Answers 3

14

I just had the same issue right now, but the other answer didn't help me. I'm also cross-compiling, and I need some utility programs to be compiled with GCC, but my core code to be compiled with avr-gcc.

Basically, if you have a CMakeLists.txt, and you want all targets in this file to be compiled with another compiler, you can just set the variables by hand.

Define these macros somewhere:

macro(use_host_compiler)
  if (${CURRENT_COMPILER} STREQUAL "NATIVE")
    # Save current native flags
    set(NATIVE_C_FLAGS ${CMAKE_C_FLAGS} CACHE STRING "GCC flags for the native compiler." FORCE)

    # Change compiler
    set(CMAKE_SYSTEM_NAME ${CMAKE_HOST_SYSTEM_NAME})
    set(CMAKE_SYSTEM_PROCESSOR ${CMAKE_HOST_SYSTEM_PROCESSOR})
    set(CMAKE_C_COMPILER ${HOST_C_COMPILER})
    set(CMAKE_C_FLAGS ${HOST_C_FLAGS})
    set(CURRENT_COMPILER "HOST" CACHE STRING "Which compiler we are using." FORCE)
  endif()
endmacro()


macro(use_native_compiler)
  if (CMAKE_CROSSCOMPILING AND ${CURRENT_COMPILER} STREQUAL "HOST")
    # Save current host flags
    set(HOST_C_FLAGS ${CMAKE_C_FLAGS} CACHE STRING "GCC flags for the host compiler." FORCE)

    # Change compiler
    set(CMAKE_SYSTEM_NAME ${NATIVE_SYSTEM_NAME})
    set(CMAKE_SYSTEM_PROCESSOR ${NATIVE_SYSTEM_PROCESSOR})
    set(CMAKE_C_COMPILER ${NATIVE_C_COMPILER})
    set(CMAKE_C_FLAGS ${NATIVE_C_FLAGS})
    set(CURRENT_COMPILER "NATIVE" CACHE STRING "Which compiler we are using." FORCE)
  endif()
endmacro()

At the very beginning of your CMakeLists.txt script (or in a toolchain file), set the following variables according to what you need:

  • CURRENT_COMPILER
  • HOST_C_COMPILER
  • HOST_C_FLAGS
  • NATIVE_SYSTEM_NAME
  • NATIVE_C_COMPILER
  • NATIVE_C_FLAGS

The idea is that CMAKE_C_COMPILER (and company) is a variable like any other, so setting it inside a certain scope will only leave it changed within that scope.


Example usage:

use_host_compiler()
add_executable(foo foo.c) # Compiled with your host (computer)'s compiler.
use_native_compiler()
add_executable(bar bar.c) # Compiled with your native compiler (e.g. `avr-gcc`).
7
  • I'm in the same boat where I need different compilers for different targets. I've tried your example, but cannot get this to work. The added executable always is built with clang instead of my alternative compiler. Any suggestions to make this work?
    – acronce
    Apr 29, 2019 at 18:59
  • It's difficult to say when you don't have access to the code, but you can try printing out the variables' values with message() just before calling add_executable (or add_library or whatever you are using) to see if they are still set according to your needs at that moment. Also make sure you use macro() and not function(), since setting a variable within a function would leave it unchanged in the caller's scope, whereas a variable that is set within a macro() stays at that value in the caller scope. Apr 29, 2019 at 19:59
  • Thanks for the reply. Yes, I did this in a macro not a function. And I already tried printing out the the variable values. Here's the output just before defining the executable -- Switching compiler to TEST... -- CMAKE_SYSTEM_NAME: TEST_SYSTEM -- CMAKE_SYSTEM_PROCESSOR: -- CMAKE_C_COMPILER: /home/me/scripts/clang_wrapper.py -- CMAKE_CXX_COMPILER: /home/me/scripts/clang_wrapper++.py -- CMAKE_C_FLAGS: -- CMAKE_CXX_FLAGS: -- CURRENT_COMPILER: TEST
    – acronce
    Apr 29, 2019 at 23:04
  • I'm not familiar with this clang_wrapper.py of yours. It's possible that clang_wrapper.py does not accept the same kind of arguments as gcc/g++, which would cause CMake to call it with gcc's arguments, like -o outputfile.o -c inputfile.c, which may be invalid arguments to clang_wrapper.py. Apr 30, 2019 at 1:07
  • Our wrapper script was designed to handle clang/gcc arguments. There's no indication that that is failing. What it seems like is it just isn't possible to have N compilers defined for the same CMake configured build. I can't find any way to do this without multiple config passes, specifying the compiler and a different build dir for each pass. I've decided to turn the problem around, and build all of our targets with our wrapper, where for most targets it just calls through to clang, and in other cases it does the special stuff that we need to do. That works around the problem for me.
    – acronce
    May 1, 2019 at 0:44
5

There is no proper way to change compiler for individual target.

According to cmake manual "Once set, you can not change this variable". This is about CMAKE_<LANG>_COMPILER.

The solution suggested by AnthonyD973 does not seem to work, which is sad of course. The ability to use several compilers in a project without custom_command things is very useful.

4
  • IMO this should not be posted as answer but as comment.
    – pix
    Aug 14, 2019 at 15:04
  • I haven't tried to reproduce, but perhaps a CMake update broke this if it no longer works. It definitely used to work ; we built a project that would cross-compile some of the programs with the code I posted in my answer. Sep 2, 2019 at 20:52
  • Which CMake version were you using where the code from the other answer didn't work? Oct 1, 2019 at 8:48
  • I have 3.13.4 on my Ubuntu 19.04. Oct 2, 2019 at 19:58
-8

CMake is a make file generator. It generates a file that you can then use to build. If you want to more than one target platform, you need to run CMake multiple times with different generators.

So what you want to do is not possible in CMake, but with CMake: You can create a shell script that invokes CMake multiple times.

1
  • I tend to agree with this, but you could create custom_target which invokes cmake with some other toolchain file, build and install it to some intermediate stage dir, export-import executables... Although probably more difficult then external script, this may look nicer from outside.
    – Slava
    Mar 22, 2018 at 10:41

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