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CMake Boilerplate Scripts

license apache 2.0

license bsd 3 clause

This contains a collection of boilerplate CMake scripts and marcos.

Note: this package is not specific to ROS-Industrial and is usable with any package which uses CMake. The prefix was added to facilitate releasing this into different ROS distributions.

The following process will generate a Debian or NuGet package leveraging CMake and CPack based on the OS.

The package should be located in the current directory.

` bash cd <workspace directory> catkin build -DRICB_PACKAGE=ON ./src/ros_industrial_cmake_boilerplate/.run-cpack `

This CMake macro will extract the package name and version from a package.xml file. It will create two cmake variable ${PREFIX_ARG}_extracted_name and ${PREFIX_ARG}_extracted_version.

extract_package_metadata(${PREFIX_ARG})

This CMake macro will add clang-tidy to all targets

clang_tidy(ARGUMENTS ${ARGN})
# or
clang_tidy(ARGUMENTS ${ARGN} ENABLE ${USER_ENABLE_ARG})

This CMake macro will add clang-tidy to all targets with default arguments.

clang_tidy(ARGUMENTS ${DEFAULT_CLANG_TIDY_CHECKS})
# or
clang_tidy(ARGUMENTS ${DEFAULT_CLANG_TIDY_CHECKS} ENABLE ${USER_ENABLE_ARG})

Clears clang-tidy so it is not called on any following defined code compilation. It can be re-enabled by another call to clang_tidy().

reset_clang_tidy()

This CMake macro will add clang-tidy to a provided target.

Note

Each of the macros can take an ENABLE ON/OFF so they can easily be enabled by an external flag. If not provided it is automatically enabled.

Single Argument Keywords:

Keyword Type Description
ENABLE ON/OFF Enable/Disable clang-tidy
WARNINGS_AS_ERRORS ON/OFF Treat warnings as errors. If ERROR_CHECKS is not provided, it will use CHECKS to treat as errors.
HEADER_FILTER String Default to '.*' if not provided. Regular expression matching the names of the headers to output diagnostics from.
LINE_FILTER String List of files with line ranges to filter the warnings.
CHECKS String Comma-separated list of globs with optional '-' prefix. Globs are processed in order of appearance in the list. Globs without the '-' prefix add checks with matching names to the set, globs with the '-' prefix remove checks with matching names from the set of enabled checks. This option's value is appended to the value of the 'Checks' option in the .clang-tidy file, if any.
CONFIG String YAML/JSON format. If not provided, clang-tidy will attempt to find a file named .clang-tidy for each source file in its parent directories.
ERROR_CHECKS String Upgrades warnings to errors. Same format as 'CHECKS'. This option's value is appended to the value of the 'WarningsAsErrors' option in the .clang-tidy file, if any.

Multip Value Argument Keywords:

Keyword Type Description
ARGUMENTS String This supports adding additional arguments to be passed to the clang-tidy. You could just use this if desired over the single keywords except for the ENABLE to pass all arguments to clang-tidy if desired.

This configures clang-tidy with default arguments where any violation will produce compiler warnings.

target_clang_tidy(${PACKAGE_NAME} CHECKS ${DEFAULT_CLANG_TIDY_CHECKS})

This configures clang-tidy with default arguments where any violation will produce compiler errors.

target_clang_tidy(${PACKAGE_NAME} CHECKS ${DEFAULT_CLANG_TIDY_CHECKS} WARNINGS_AS_ERRORS ON)

This configures clang-tidy with custom error checks which can be different from the warning checks where any violation will produce compiler errors.

target_clang_tidy(${PACKAGE_NAME} CHECKS ${DEFAULT_CLANG_TIDY_CHECKS} ERROR_CHECKS ${DEFAULT_CLANG_TIDY_CHECKS})

This configures clang-tidy with a header filter. If not provided it will default to ".*".

target_clang_tidy(${PACKAGE_NAME} HEADER_FILTER ".*")

This configures clang-tidy with line filter as a JSON array of objects.

target_clang_tidy(${PACKAGE_NAME} LINE_FILTER "[{"name":"file1.cpp","lines":[[1,3],[5,7]]},{"name":"file2.h"}]")

This configures clang-tidy with config in YAML/JSON format.

target_clang_tidy(${PACKAGE_NAME} CONFIG ""{Checks: '*', CheckOptions: [{key: x, value: y}]}")

This configures clang-tidy to use a .clang-tidy file if no arguments are provided

target_clang_tidy(${PACKAGE_NAME})

This configures clang-tidy with arguments list.

target_clang_tidy(${PACKAGE_NAME} ARGUMENTS ${ARGN})

Note

In some situations, you may want to disable clang-tidy which is explained here.

This CMake macro will add IWYU to a given target

Note

Each of the macros can take an ENABLE ON/OFF so they can easily be enabled by an external flag. If not provided it is automatically enabled.

target_include_what_you_use(${PACKAGE_NAME} ARGUMENTS ${ARGN})

This CMake macro will add IWYU to a given target with default arguments.

target_include_what_you_use(${PACKAGE_NAME} ARGUMENTS ${DEFAULT_IWYU_ARGS})

This CMake macro will add IWYU to all targets

include_what_you_use(ARGUMENTS ${ARGN})
# or
include_what_you_use(ARGUMENTS ${ARGN} ENABLE ${USER_ENABLE_ARG})

This CMake macro will add IWYU to all targets with default arguments.

include_what_you_use(ARGUMENTS ${DEFAULT_IWYU_ARGS})
# or
include_what_you_use(ARGUMENTS ${DEFAULT_IWYU_ARGS} ENABLE ${USER_ENABLE_ARG})

Clears IWYU so it is not called on any following defined code compilation. It can be re-enabled by another call to include_what_you_use().

reset_include_what_you_use()

This CMake macro will add CppCheck to a given target

Note

Each of the macros can take an ENABLE ON/OFF so they can easily be enabled by the external flag. If not provided it is automatically enabled.

target_cppcheck(${PACKAGE_NAME} ARGUMENTS ${ARGN})

This CMake macro will add CppCheck to a given target with default arguments.

target_cppcheck(${PACKAGE_NAME} ARGUMENTS ${DEFAULT_CPPCHECK_ARGS})

This CMake macro will add CppCheck to all targets

cppcheck(ARGUMENTS ${ARGN})
# or
cppcheck(ARGUMENTS ${ARGN} ENABLE ${USER_ENABLE_ARG})

This CMake macro will add CppCheck to all targets with default arguments.

cppcheck(ARGUMENTS ${DEFAULT_CPPCHECK_ARGS})
# or
cppcheck(ARGUMENTS ${DEFAULT_CPPCHECK_ARGS} ENABLE ${USER_ENABLE_ARG})

Clears CppCheck so it is not called on any following defined code compilation. It can be re-enabled by another call to cppcheck().

reset_cppcheck()

Sanitizers are tools that perform checks during a program’s runtime and returns issues, and as such, along with unit testing, code coverage and static analysis, is another tool to add to the programmers toolbox. And of course, like the previous tools, are tragically simple to add into any project using CMake, allowing any project and developer to quickly and easily use.

A quick rundown of the tools available, and what they do:

  • LeakSanitizer detects memory leaks, or issues where memory is allocated and never deallocated, causing programs to slowly consume more and more memory, eventually leading to a crash.
  • AddressSanitizer is a fast memory error detector. It is useful for detecting most issues dealing with memory, such as:
    • Out of bounds accesses to heap, stack, global
    • Use after free
    • Use after return
    • Use after scope
    • Double-free, invalid free
    • Memory leaks (using LeakSanitizer)
  • ThreadSanitizer detects data races for multi-threaded code.
  • UndefinedBehaviourSanitizer detects the use of various features of C/C++ that are explicitly listed as resulting in undefined behaviour. Most notably:
    • Using misaligned or null pointer.
    • Signed integer overflow
    • Conversion to, from, or between floating-point types which would overflow the destination
    • Division by zero
    • Unreachable code
  • MemorySanitizer detects uninitialized reads.
  • Control Flow Integrity is designed to detect certain forms of undefined behaviour that can potentially allow attackers to subvert the program's control flow.

These are used by declaring the USE_SANITIZER CMake variable as string containing any of:

  • Address
  • Memory
  • MemoryWithOrigins
  • Undefined
  • Thread
  • Leak
  • CFI

Multiple values are allowed, e.g. -DUSE_SANITIZER=Address,Leak but some sanitizers cannot be combined together, e.g. -DUSE_SANITIZER=Address,Memory will result in configuration error. The delimeter character is not required and -DUSE_SANITIZER=AddressLeak would work as well.

Configure package for cpack which does not leverage components

  • One Value Args:
    • VERSION - The package version
    • MAINTAINER_NAME - The package maintainer name
    • MAINTAINER_EMAIL - The package maintainer email
    • VENDOR - The package vender
    • DESCRIPTION - The package description
    • LICENSE_FILE - The package license file
    • README_FILE - The package readme
    • PACKAGE_PREFIX - The package prefix applied to all cpack generated files
  • Multi Value Args:
    • LINUX_BUILD_DEPENDS - The linux build dependencies required via apt install (If not provided LINUX_DEPENDS is used)
    • WINDOWS_BUILD_DEPENDS - The windows build dependencies required via nuget install (If not provided WINDOWS_DEPENDS is used)
    • LINUX_DEPENDS - The linux dependencies required via apt install
    • WINDOWS_DEPENDS - The windows dependencies required via nuget install
cpack(
  VERSION ${pkg_extracted_version}
  MAINTAINER <https://github.com/ros-industrial-consortium/tesseract>
  DESCRIPTION ${pkg_extracted_description}
  LICENSE_FILE ${CMAKE_CURRENT_LIST_DIR}/../LICENSE
  README_FILE ${CMAKE_CURRENT_LIST_DIR}/../README.md
  LINUX_DEPENDS
    "libboost-system-dev"
    "libboost-filesystem-dev"
    "libboost-serialization-dev"
    "libconsole-bridge-dev"
    "libtinyxml2-dev"
    "libeigen3-dev"
    "libyaml-cpp-dev"
  WINDOWS_DEPENDS
    "boost_system"
    "boost_filesystem;"
    "boost_serialization"
    "console-bridge"
    "tinyxml2"
    "Eigen3"
    "yaml-cpp")

This requires two macros one used in the components cmake file another for the top most package cmake file.

Configure components for cpack

  • One Value Args:
    • COMPONENT - The component name
    • VERSION - The package version
    • DESCRIPTION - The package description
    • PACKAGE_PREFIX - The package prefix applied to all cpack generated files
  • Multi Value Args:
    • LINUX_BUILD_DEPENDS - The linux build dependencies required via apt install (If not provided LINUX_DEPENDS is used)
    • WINDOWS_BUILD_DEPENDS - The windows build dependencies required via nuget install (If not provided WINDOWS_DEPENDS is used)
    • LINUX_DEPENDS - The linux dependencies required via apt install
    • WINDOWS_DEPENDS - The windows dependencies required via nuget install
    • COMPONENT_DEPENDS - The component dependencies required from this package
cpack_component(
  COMPONENT IKFAST # must be uppercase
  VERSION ${pkg_extracted_version}
  DESCRIPTION "Tesseract Kinematics ikfast implementation"
  COMPONENT_DEPENDS core)

Configure package leveraging components for cpack

  • One Value Args:
    • VERSION - The package version
    • MAINTAINER_NAME - The package maintainer name
    • MAINTAINER_EMAIL - The package maintainer email
    • VENDOR - The package vender
    • DESCRIPTION - The package description
    • LICENSE_FILE - The package license file
    • README_FILE - The package readme
    • PACKAGE_PREFIX - The package prefix applied to all cpack generated files
  • Multi Value Args:
    • COMPONENT_DEPENDS - The component dependencies required from this package
cpack_component_package(
  VERSION ${pkg_extracted_version}
  MAINTAINER <https://github.com/ros-industrial-consortium/tesseract>
  DESCRIPTION ${pkg_extracted_description}
  LICENSE_FILE ${CMAKE_CURRENT_LIST_DIR}/../LICENSE
  README_FILE ${CMAKE_CURRENT_LIST_DIR}/../README.md)

Create debian source package leveraging cpack for upload to ppa like launchpad.net

  • One Value Args:
    • CHANGLELOG (Required) - The file path to the package CHANGELOG.rst
    • PACKAGE_PREFIX (Optional) - The package prefix applied to all cpack generated files
    • UPLOAD (Optional) - Indicate if it should be uploaded to ppa
    • DEBIAN_INCREMENT - The debian increment to be used, default is zero
    • DPUT_HOST (Optional/Required) - The ppa to upload to. Only required if UPLOAD is enabled
    • DPUT_CONFIG_IN (Optional) - The dput config.in file. If not provide one is created.
  • Multi Value Args:
    • DISTRIBUTIONS - The linux distrabution to deploy
  • Leveraged CPack Variable: When using the cpack macros above these are automatically set
    • CPACK_PACKAGE_DESCRIPTION (Required)
    • CPACK_PACKAGE_VERSION (Required)
    • CPACK_PACKAGE_DESCRIPTION_FILE (Optional)
    • CPACK_SOURCE_IGNORE_FILES (Optional)
    • CPACK_DEBIAN_PACKAGE_NAME (Required)
    • CPACK_DEBIAN_PACKAGE_SECTION (Required)
    • CPACK_DEBIAN_PACKAGE_PRIORITY (Required)
    • CPACK_DEBIAN_PACKAGE_MAINTAINER (Required)
    • CPACK_DEBIAN_PACKAGE_MAINTAINER_NAME (Required)
    • CPACK_DEBIAN_PACKAGE_MAINTAINER_EMAIL (Required)
    • CPACK_DEBIAN_PACKAGE_ARCHITECTURE (Required)
    • CPACK_DEBIAN_PACKAGE_DESCRIPTION (Optional)
    • CPACK_DEBIAN_PACKAGE_BUILD_DEPENDS (Optional)
    • CPACK_DEBIAN_PACKAGE_DEPENDS (Optional)
    • CPACK_DEBIAN_PACKAGE_HOMEPAGE (Optional)
    • CPACK_COMPONENT_<COMPONENT>_DEPENDS (Reqired if components exist and enabled)
    • CPACK_DEBIAN_<COMPONENT>_PACKAGE_ARCHITECTURE (Reqired if components exist and enabled)
    • CPACK_DEBIAN_<COMPONENT>_DESCRIPTION (Reqired if components exist and enabled)
    • CPACK_DEBIAN_<COMPONENT>_PACKAGE_ARCHITECTURE (Reqired if components exist and enabled)
    • CPACK_DEBIAN_<COMPONENT>_PACKAGE_DEPENDS (Reqired if components exist and enabled)
    • CPACK_DEBIAN_<COMPONENT>_PACKAGE_BUILD_DEPENDS (Reqired if components exist and enabled)
cpack_debian_source_package(
  CHANGLELOG ${CMAKE_CURRENT_LIST_DIR}/CHANGELOG.rst
  UPLOAD ${RICB_PACKAGE_SOURCE_UPLOAD}
  DPUT_HOST ${RICB_PACKAGE_SOURCE_DPUT_HOST}
  DEBIAN_INCREMENT ${RICB_PACKAGE_SOURCE_DEBIAN_INCREMENT}
  DISTRIBUTIONS ${RICB_PACKAGE_SOURCE_DISTRIBUTIONS}
)

This CMake macro simplifies the CMake package configure and install by performing multiple operations

Performs multiple operation so other packages may find a package

If Namespace is provided but no targets it is assumed targets were installed and must be exported

  • One Value Args:
    • NAMESPACE - This will prepend <namespace>:: to the target names as they are written to the import file
  • Multi Value Args:
    • TARGETS - The targets from the project to be installed
    • COMPONENTS - The packages supported find_package components if any
    • DEPENDENCIES - The dependencies to be written to the packages Config.cmake file
    • CFG_EXTRAS - The extra cmake files to be include in the packages Config.cmake file
  • Usage:
    • It installs the provided targets
    • It exports the provided targets under the provided namespace
    • It installs the package.xml file
    • It creates and installs the ${PROJECT_NAME}-config.cmake and ${PROJECT_NAME}-config-version.cmake
configure_package(
  NAMESPACE <PACKAGE_NAMESPACE>
  TARGETS <TARGET_NAME_A> <TARGET_NAME_B>
  COMPONENTS <COMPONENT_NAME_A> <COMPONENT_NAME_B>
  DEPENDENCIES <deps>...
  CFG_EXTRAS <cmake files>...
)

Example:

configure_package(
  NAMESPACE
    tesseract
  TARGETS
    ${PROJECT_NAME}
  DEPENDENCIES
    Eigen3
    TinyXML2
    yaml-cpp
    "Boost COMPONENTS system filesystem serialization"
  CFG_EXTRAS
    cmake/tesseract_common-extras.cmake
)

To create the config cmake file, the macro by default looks for a configuration template cmake/${PROJECT_NAME}-config.cmake.in provided by the package. If not present, a default one will be generated. If generated automatically, package dependencies will be included from the arguments listed by DEPENDENCIES. Additional configuration CMake scripts can also be included with relative paths listed in the CFG_EXTRAS argument. The scripts should be installed alongside the generated package config file, in lib/cmake/${PROJECT_NAME}.

Performs multiple operation so other packages may find a package's component

If Namespace is provided but no targets it is assumed targets were installed and must be exported

  • One Value Args:
    • NAMESPACE - This will prepend <namespace>:: to the target names as they are written to the import file
    • COMPONENT - The component name
  • Multi Value Args:
    • TARGETS - The targets from the project to be installed
    • DEPENDENCIES - The dependencies to be written to the packages Config.cmake file
    • CFG_EXTRAS - The extra cmake files to be include in the packages Config.cmake file
  • Usage:
    • It installs the provided targets
    • It exports the provided targets under the provided namespace
configure_component(
  COMPONENT <COMPONENT_NAME>
  NAMESPACE <PACKAGE_NAMESPACE>
  TARGETS <TARGET_NAME_A> <TARGET_NAME_B>
  DEPENDENCIES <deps>...
  CFG_EXTRAS <cmake files>...
)

Example:

configure_component(
  COMPONENT
    kdl
  NAMESPACE
    tesseract
  TARGETS
    ${PROJECT_NAME}_kdl ${PROJECT_NAME}_kdl_factories
  DEPENDENCIES
    Eigen3
    TinyXML2
    yaml-cpp
    "Boost COMPONENTS system filesystem serialization"
  CFG_EXTRAS
    cmake/tesseract_common-extras.cmake
)

To create the config cmake file, the macro by default looks for a configuration template cmake/<COMPONENT_NAME>-config.cmake.in provided by the package. If not present, a default one will be generated. If generated automatically, package dependencies will be included from the arguments listed by DEPENDENCIES. Additional configuration CMake scripts can also be included with relative paths listed in the CFG_EXTRAS argument. The scripts should be installed alongside the generated package config file, in lib/cmake/${PROJECT_NAME}.

The following macros are used by configure_package and can be used independently if needed

This will install targets along associated with the provided component and export them to ${ARG_COMPONENT}-targets

  • One Value Args:
    • COMPONENT (Optional) - The component name to associate the targets with, if not provided ${PROJECT_NAME} is used
  • Multi Value Args:
    • TARGETS - The targets from the project to be installed
install_targets(TARGETS targetA targetb)

This will install the package.xml file

install_pkgxml()

Performs multiple operation so other packages may find a package and package components The default export name is ${PROJECT_NAME} but it can be overriden by providing EXPORT_NAME

  • Options:
    • EXPORT - indicate if trargets should be exported
  • One Value Args:
    • COMPONENT (Optional) - the name given to the export ${ARG_COMPONENT}-targets, if not provided PROJECT_NAME is used
    • CONFIG_NAME (Optional) - the name given to the export ${ARG_COMPONENT}-config.cmake, if not provided COMPONENT is used
    • NAMESPACE (Optional) - the namespace assigned for exported targets
  • Multi Value Args:
    • DEPENDENCIES (Optional) - list of dependencies to be loaded in the package config
    • CFG_EXTRAS (Optional) - list of extra cmake config files to be loaded in package config
    • SUPPORTED_COMPONENTS (Optional) - list of supported components
  • Usage:
    • generate_package_config(EXPORT NAMSPACE namespace) Install export targets with provided namespace
    • generate_package_config(EXPORT) Install export targets with no namespace
    • generate_package_config() Install cmake config files and not install export targets
    • It exports the provided targets under the provided namespace ${ARG_COMPONENT}-targets, if EXPORT option is set
    • It creates and install the ${ARG_CONFIG_NAME}-config.cmake
    • In not component, it create and installs ${ARG_CONFIG_NAME}-config-version.cmake
# Install and export targets with provided namespace
generate_package_config(EXPORT NAMSPACE namespace)

#Install and export targets with no namespace
generate_package_config(EXPORT)

# Install CMake config files and not install export targets
generate_package_config() Install CMake config files and not install export targets

# Install and export targets for package with components
generate_package_config(EXPORT CONFIG_NAME ${PROJECT_NAME} SUPPORTED_COMPONENTS componentA componentB)

# Install and export targets for component
generate_package_config(EXPORT
  COMPONENT kdl
  NAMESPACE namespace
  DEPENDENCIES packageA packageB
  CFG_EXTRAS extraA.cmake extraB.cmake)

Additionally, DEPENDENCIES, CFG_EXTRAS and SUPPORTED_COMPONENTS are passed for generated CMake config files.

Allows Colcon to find non-Ament packages when using workspace underlays

install_ament_hooks()

This CMake macro simplifies setting the CXX version for the target

target_cxx_version(${PACKAGE_NAME} <INTERFACE|PRIVATE|PUBLIC> VERSION <CXX_VERSION>)

Example: Set the version to 14 and PUBLIC.

target_cxx_version(${PACKAGE_NAME} PUBLIC VERSION 14)

This CMake macro calls find_package(GTest REQUIRED) and checks for the GTest::GTest and GTest::Main targets. If the targets are missing it will create the targets using the CMake variables.

find_gtest()

This CMake macro adds a custom target that will run the tests after they are finished building. You may pass an optional argument true|false adding the ability to disable the running of tests as part of the build for CI which calls make test.

Add run test target (These will automatically run the test after build finishes)

add_run_tests_target(<TARGET_NAME>)
add_run_tests_target(<TARGET_NAME> true)

Add empty run test target

add_run_tests_target(<TARGET_NAME> false)

This CMake macro call the appropriate GTest function to add a test based on the CMake version

add_gtest_discover_tests(<TARGET_NAME>)

This CMake macro adds a custom target that will run the benchmarks after they are finished building.

Add run benchmark target (These will automatically run the benchmark after build finishes)

add_run_benchmark_target(<TARGET_NAME>)
add_run_benchmark_target(<TARGET_NAME> true)

Add empty run benchmark target

add_run_benchmark_target(<TARGET_NAME> false)

These CMake macros add code coverage.

Note

Must call initialize_code_coverage() after project() in the CMakeLists.txt. This is required for all examples below.

From this point, there are two primary methods for adding instrumentation to targets: 1. A blanket instrumentation by calling add_code_coverage(), where all targets in that directory and all subdirectories are automatically instrumented. 2. Per-target instrumentation by calling target_code_coverage(<TARGET_NAME>), where the target is given and thus only that target is instrumented. This applies to both libraries and executables.

To add coverage targets, such as calling make ccov to generate the actual coverage information for perusal or consumption, call target_code_coverage(<TARGET_NAME>) on an executable target.

Note

Each of the macros can take an ENABLE ON/OFF so they can easily be enabled by an external flag. If not provided it is automatically enabled.

Keyword Description
LCOV_EXCL_LINE Lines containing this marker will be excluded.
LCOV_EXCL_START Marks the beginning of an excluded section. The current line is part of this section.
LCOV_EXCL_STOP Marks the end of an excluded section. The current line not part of this section.

Note

You can replace LCOV above with GCOV or GCOVR.

In this case, the coverage information reported will be that of the theLib library target and theExe executable.

add_code_coverage() # Adds instrumentation to all targets
add_library(theLib lib.cpp)
add_executable(theExe main.cpp)
target_link_libraries(theExe PRIVATE theLib)
target_code_coverage(theExe) # As an executable target, adds the 'ccov-theExe' target (instrumentation already added via global anyways) for generating code coverage reports.
add_library(theLib lib.cpp)
target_code_coverage(theLib) # As a library target, adds coverage instrumentation but no targets.
add_executable(theExe main.cpp)
target_link_libraries(theExe PRIVATE theLib)
target_code_coverage(theExe) # As an executable target, adds the 'ccov-theExe' target and instrumentation for generating code coverage reports.
add_executable(theExe main.cpp non_covered.cpp)
target_code_coverage(theExe EXCLUDE non_covered.cpp test/*) # As an executable target, the reports will exclude the non-covered.cpp file, and any files in a test/ folder.
add_code_coverage_all_targets(EXCLUDE test/*) # Adds the 'ccov-all' target set and sets it to exclude all files in test/ folders.
add_executable(theExe main.cpp non_covered.cpp)
target_code_coverage(theExe AUTO ALL EXCLUDE non_covered.cpp test/*) # As an executable target, adds to the 'ccov' and ccov-all' targets, and the reports will exclude the non-covered.cpp file, and any files in a test/ folder.
add_rostest_gtest(test_node test/test_node.test test/test_node.cpp)
target_include_directories(test_node SYSTEM PUBLIC {catkin_INCLUDE_DIRS})
target_link_libraries(test_node ${catkin_LIBRARIES})
target_code_coverage(
  test_node
  ALL
  RUN_COMMAND rostest test_node test_node.test
  EXCLUDE ${COVERAGE_EXCLUDE}
  ENABLE ${ENABLE_CODE_COVERAGE})

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