26

I'd basically like to achieve the same as http://blog.alexrp.com/2013/09/26/clangs-static-analyzer-and-automake, but with CMake.

analyze_srcs = foo.c
analyze_plists = $(analyze_srcs:%.c=%.plist)
CLEANFILES = $(analyze_plists)

$(analyze_plists): %.plist: %.c
  @echo "  CCSA  " $@
  @$(COMPILE) --analyze $< -o $@

analyze: $(analyze_plists)
.PHONY: analyze

So you can run

make analyze
make clean

I guess I need to use add_custom_command/add_custom_target and somehow change the "object file" extension just for that target.

Afterwards get a list of the generated files to perhaps pass them to a script for combining them into 1 output file.

Can anyone point me in the right direction?

3 Answers 3

34

You can use scan-build when running cmake.

scan-build cmake /path/to/source
scan-build make

scan-build sets the CC and CXX environment variables which are picked up by cmake.

3
  • 3
    And remember to erase the CMake cache beforehand (otherwise the command will have no effect)
    – Escualo
    Apr 24, 2018 at 19:36
  • 1
    If you use a custom toolchain file, I'm not sure this works. Nov 16, 2020 at 5:16
  • Which requires its own build rather than being a part of the normal build as a separate target. And it's a perl script.
    – Trass3r
    Jun 14, 2022 at 22:32
6

I found a way:

function(add_clang_static_analysis target)
    get_target_property(SRCs ${target} SOURCES)
    add_library(${target}_analyze OBJECT EXCLUDE_FROM_ALL ${SRCs})
    set_target_properties(${target}_analyze PROPERTIES
                          COMPILE_OPTIONS "--analyze"
                          EXCLUDE_FROM_DEFAULT_BUILD true)
endfunction()

Combining clang's plist files (which get extension .o this way) into a report is still open ($<TARGET_OBJECTS:objlibtarget>?).

2
  • 1
    The build fails because of missing compilation flags (like INCLUDE_DIRECTORIES, DEFINITIONS), that are not copied from the source target. Sep 27, 2021 at 12:40
  • True, you'd need to copy the whole target basically.
    – Trass3r
    Sep 28, 2021 at 13:06
6

The following solution has the drawback of compiling and analyzing the entire project, not the specific targets.

set(on_side_build_path ${CMAKE_BINARY_DIR}/clang_static_analysis)
set(scan_build_path scan-build)
set(reports_path ${CMAKE_BINARY_DIR}/clang_static_analysis_reports)

# Creates clean directory where the analysis will be built.
add_custom_target(clang_static_analysis_prepare
    COMMAND ${CMAKE_COMMAND} -E rm -rf ${on_side_build_path}
    COMMAND ${CMAKE_COMMAND} -E make_directory ${on_side_build_path}
    WORKING_DIRECTORY ${CMAKE_BINARY_DIR}
)

# Runs the analysis from the path created specifically for that task. Use 'my own' project source directory as the source directory.
add_custom_target(clang_static_analysis
    # scan-build wants Debug build, for better analysis.
    COMMAND ${scan_build_path} ${CMAKE_COMMAND} ${CMAKE_SOURCE_DIR} -DCMAKE_BUILD_TYPE=Debug
    COMMAND ${scan_build_path}
                -v -v -o ${reports_path} 
                ${CMAKE_COMMAND} --build .
    WORKING_DIRECTORY ${on_side_build_path}
)

# Run the *_prepare target always before the analysis
add_dependencies(clang_static_analysis clang_static_analysis_prepare)

Invoke it with:

cmake --build . --target clang_static_analysis

Bonus #1: Allowing custom toolchains to work

scan-build injects the CC and CXX environment variables to specify the replaced compilers, which are ccc-analyzer and c++-analyzer. When defining CMAKE_C_COMPILER and CMAKE_CXX_COMPILER the CC and CXX variables will be ignored. What you need to do to support scan-build is to point CMAKE_C*_COMPILER variables to use the one from environment, if defined. So having that in your toolchain file:

set(CMAKE_C_COMPILER some/path/to/c_compiler)
set(CMAKE_Cxx_COMPILER some/path/to/cxx_compiler)

Replace it with:

if(DEFINED ENV{CC})
    set(CMAKE_C_COMPILER $ENV{CC})
else()
    set(CMAKE_C_COMPILER some/path/to/c_compiler)
endif()

if(DEFINED ENV{CXX})
    set(CMAKE_CXX_COMPILER $ENV{CXX})
else()
    set(CMAKE_CXX_COMPILER some/path/to/cxx_compiler)
endif()

Bonus #2: Using scan-build from the LLVM toolchain

If your custom toolchain is LLVM, then most probably you want to use the scan-build command from the toolchain. To enable it, simply define the path to toolchain path using cmake's cache variables:

set(LLVM_TOOLCHAIN_PATH "some/path/here" CACHE PATH "Path to the LLVM toolchain") 

or from the command line:

cmake -DLLVM_TOOLCHAIN_PATH=some/path/here ...

and then reuse the path from the custom target:

set(scan_build_path ${LLVM_TOOLCHAIN_PATH}/bin/scan-build)

Bonus #3: Adding test command

Note: enable_testing shall be called before add_test. enable_testing() must be called from the project's top level CMakeLists.txt for ctest to resolve paths to tests.

add_test(
    NAME clang_static_analysis
    COMMAND ${CMAKE_COMMAND} --build . --target clang_static_analysis
)

Run it like that:

# Fire configure and generate stages
cmake ../source/dir
ctest -R clang_static_analysis --verbose

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.