fsfw/contrib/fsfw_contrib/Catch2-3.7.1/CMake/Findcodecov.cmake

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# This file is part of CMake-codecov.
#
# Copyright (c)
# 2015-2017 RWTH Aachen University, Federal Republic of Germany
#
# See the LICENSE file in the package base directory for details
#
# Written by Alexander Haase, alexander.haase@rwth-aachen.de
#
# Add an option to choose, if coverage should be enabled or not. If enabled
# marked targets will be build with coverage support and appropriate targets
# will be added. If disabled coverage will be ignored for *ALL* targets.
option(ENABLE_COVERAGE "Enable coverage build." OFF)
set(COVERAGE_FLAG_CANDIDATES
# gcc and clang
"-O0 -g -fprofile-arcs -ftest-coverage"
# gcc and clang fallback
"-O0 -g --coverage"
)
# Add coverage support for target ${TNAME} and register target for coverage
# evaluation. If coverage is disabled or not supported, this function will
# simply do nothing.
#
# Note: This function is only a wrapper to define this function always, even if
# coverage is not supported by the compiler or disabled. This function must
# be defined here, because the module will be exited, if there is no coverage
# support by the compiler or it is disabled by the user.
function (add_coverage TNAME)
# only add coverage for target, if coverage is support and enabled.
if (ENABLE_COVERAGE)
foreach (TNAME ${ARGV})
add_coverage_target(${TNAME})
endforeach ()
endif ()
endfunction (add_coverage)
# Add global target to gather coverage information after all targets have been
# added. Other evaluation functions could be added here, after checks for the
# specific module have been passed.
#
# Note: This function is only a wrapper to define this function always, even if
# coverage is not supported by the compiler or disabled. This function must
# be defined here, because the module will be exited, if there is no coverage
# support by the compiler or it is disabled by the user.
function (coverage_evaluate)
# add lcov evaluation
if (LCOV_FOUND)
lcov_capture_initial()
lcov_capture()
endif (LCOV_FOUND)
endfunction ()
# Exit this module, if coverage is disabled. add_coverage is defined before this
# return, so this module can be exited now safely without breaking any build-
# scripts.
if (NOT ENABLE_COVERAGE)
return()
endif ()
# Find the reuired flags foreach language.
set(CMAKE_REQUIRED_QUIET_SAVE ${CMAKE_REQUIRED_QUIET})
set(CMAKE_REQUIRED_QUIET ${codecov_FIND_QUIETLY})
get_property(ENABLED_LANGUAGES GLOBAL PROPERTY ENABLED_LANGUAGES)
foreach (LANG ${ENABLED_LANGUAGES})
# Coverage flags are not dependent on language, but the used compiler. So
# instead of searching flags foreach language, search flags foreach compiler
# used.
set(COMPILER ${CMAKE_${LANG}_COMPILER_ID})
if (NOT COVERAGE_${COMPILER}_FLAGS)
foreach (FLAG ${COVERAGE_FLAG_CANDIDATES})
if(NOT CMAKE_REQUIRED_QUIET)
message(STATUS "Try ${COMPILER} code coverage flag = [${FLAG}]")
endif()
set(CMAKE_REQUIRED_FLAGS "${FLAG}")
unset(COVERAGE_FLAG_DETECTED CACHE)
if (${LANG} STREQUAL "C")
include(CheckCCompilerFlag)
check_c_compiler_flag("${FLAG}" COVERAGE_FLAG_DETECTED)
elseif (${LANG} STREQUAL "CXX")
include(CheckCXXCompilerFlag)
check_cxx_compiler_flag("${FLAG}" COVERAGE_FLAG_DETECTED)
elseif (${LANG} STREQUAL "Fortran")
# CheckFortranCompilerFlag was introduced in CMake 3.x. To be
# compatible with older Cmake versions, we will check if this
# module is present before we use it. Otherwise we will define
# Fortran coverage support as not available.
include(CheckFortranCompilerFlag OPTIONAL
RESULT_VARIABLE INCLUDED)
if (INCLUDED)
check_fortran_compiler_flag("${FLAG}"
COVERAGE_FLAG_DETECTED)
elseif (NOT CMAKE_REQUIRED_QUIET)
message("-- Performing Test COVERAGE_FLAG_DETECTED")
message("-- Performing Test COVERAGE_FLAG_DETECTED - Failed"
" (Check not supported)")
endif ()
endif()
if (COVERAGE_FLAG_DETECTED)
set(COVERAGE_${COMPILER}_FLAGS "${FLAG}"
CACHE STRING "${COMPILER} flags for code coverage.")
mark_as_advanced(COVERAGE_${COMPILER}_FLAGS)
break()
else ()
message(WARNING "Code coverage is not available for ${COMPILER}"
" compiler. Targets using this compiler will be "
"compiled without it.")
endif ()
endforeach ()
endif ()
endforeach ()
set(CMAKE_REQUIRED_QUIET ${CMAKE_REQUIRED_QUIET_SAVE})
# Helper function to get the language of a source file.
function (codecov_lang_of_source FILE RETURN_VAR)
get_filename_component(FILE_EXT "${FILE}" EXT)
string(TOLOWER "${FILE_EXT}" FILE_EXT)
string(SUBSTRING "${FILE_EXT}" 1 -1 FILE_EXT)
get_property(ENABLED_LANGUAGES GLOBAL PROPERTY ENABLED_LANGUAGES)
foreach (LANG ${ENABLED_LANGUAGES})
list(FIND CMAKE_${LANG}_SOURCE_FILE_EXTENSIONS "${FILE_EXT}" TEMP)
if (NOT ${TEMP} EQUAL -1)
set(${RETURN_VAR} "${LANG}" PARENT_SCOPE)
return()
endif ()
endforeach()
set(${RETURN_VAR} "" PARENT_SCOPE)
endfunction ()
# Helper function to get the relative path of the source file destination path.
# This path is needed by FindGcov and FindLcov cmake files to locate the
# captured data.
function (codecov_path_of_source FILE RETURN_VAR)
string(REGEX MATCH "TARGET_OBJECTS:([^ >]+)" _source ${FILE})
# If expression was found, SOURCEFILE is a generator-expression for an
# object library. Currently we found no way to call this function automatic
# for the referenced target, so it must be called in the directoryso of the
# object library definition.
if (NOT "${_source}" STREQUAL "")
set(${RETURN_VAR} "" PARENT_SCOPE)
return()
endif ()
string(REPLACE "${CMAKE_CURRENT_BINARY_DIR}/" "" FILE "${FILE}")
if(IS_ABSOLUTE ${FILE})
file(RELATIVE_PATH FILE ${CMAKE_CURRENT_SOURCE_DIR} ${FILE})
endif()
# get the right path for file
string(REPLACE ".." "__" PATH "${FILE}")
set(${RETURN_VAR} "${PATH}" PARENT_SCOPE)
endfunction()
# Add coverage support for target ${TNAME} and register target for coverage
# evaluation.
function(add_coverage_target TNAME)
# Check if all sources for target use the same compiler. If a target uses
# e.g. C and Fortran mixed and uses different compilers (e.g. clang and
# gfortran) this can trigger huge problems, because different compilers may
# use different implementations for code coverage.
get_target_property(TSOURCES ${TNAME} SOURCES)
set(TARGET_COMPILER "")
set(ADDITIONAL_FILES "")
foreach (FILE ${TSOURCES})
# If expression was found, FILE is a generator-expression for an object
# library. Object libraries will be ignored.
string(REGEX MATCH "TARGET_OBJECTS:([^ >]+)" _file ${FILE})
if ("${_file}" STREQUAL "")
codecov_lang_of_source(${FILE} LANG)
if (LANG)
list(APPEND TARGET_COMPILER ${CMAKE_${LANG}_COMPILER_ID})
list(APPEND ADDITIONAL_FILES "${FILE}.gcno")
list(APPEND ADDITIONAL_FILES "${FILE}.gcda")
endif ()
endif ()
endforeach ()
list(REMOVE_DUPLICATES TARGET_COMPILER)
list(LENGTH TARGET_COMPILER NUM_COMPILERS)
if (NUM_COMPILERS GREATER 1)
message(WARNING "Can't use code coverage for target ${TNAME}, because "
"it will be compiled by incompatible compilers. Target will be "
"compiled without code coverage.")
return()
elseif (NUM_COMPILERS EQUAL 0)
message(WARNING "Can't use code coverage for target ${TNAME}, because "
"it uses an unknown compiler. Target will be compiled without "
"code coverage.")
return()
elseif (NOT DEFINED "COVERAGE_${TARGET_COMPILER}_FLAGS")
# A warning has been printed before, so just return if flags for this
# compiler aren't available.
return()
endif()
# enable coverage for target
set_property(TARGET ${TNAME} APPEND_STRING
PROPERTY COMPILE_FLAGS " ${COVERAGE_${TARGET_COMPILER}_FLAGS}")
set_property(TARGET ${TNAME} APPEND_STRING
PROPERTY LINK_FLAGS " ${COVERAGE_${TARGET_COMPILER}_FLAGS}")
# Add gcov files generated by compiler to clean target.
set(CLEAN_FILES "")
foreach (FILE ${ADDITIONAL_FILES})
codecov_path_of_source(${FILE} FILE)
list(APPEND CLEAN_FILES "CMakeFiles/${TNAME}.dir/${FILE}")
endforeach()
set_directory_properties(PROPERTIES ADDITIONAL_MAKE_CLEAN_FILES
"${CLEAN_FILES}")
add_gcov_target(${TNAME})
add_lcov_target(${TNAME})
endfunction(add_coverage_target)
# Include modules for parsing the collected data and output it in a readable
# format (like gcov and lcov).
find_package(Gcov)
find_package(Lcov)