# The MIT License (MIT) # # Copyright (c) 2024 JFrog # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in all # copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. set(CONAN_MINIMUM_VERSION 2.0.5) # Create a new policy scope and set the minimum required cmake version so the # features behind a policy setting like if(... IN_LIST ...) behaves as expected # even if the parent project does not specify a minimum cmake version or a minimum # version less than this module requires (e.g. 3.0) before the first project() call. # (see: https://cmake.org/cmake/help/latest/variable/CMAKE_PROJECT_TOP_LEVEL_INCLUDES.html) # # The policy-affecting calls like cmake_policy(SET...) or `cmake_minimum_required` only # affects the current policy scope, i.e. between the PUSH and POP in this case. # # https://cmake.org/cmake/help/book/mastering-cmake/chapter/Policies.html#the-policy-stack cmake_policy(PUSH) cmake_minimum_required(VERSION 3.24) function(detect_os OS OS_API_LEVEL OS_SDK OS_SUBSYSTEM OS_VERSION) # it could be cross compilation message(STATUS "CMake-Conan: cmake_system_name=${CMAKE_SYSTEM_NAME}") if(CMAKE_SYSTEM_NAME AND NOT CMAKE_SYSTEM_NAME STREQUAL "Generic") if(CMAKE_SYSTEM_NAME STREQUAL "Darwin") set(${OS} Macos PARENT_SCOPE) elseif(CMAKE_SYSTEM_NAME STREQUAL "QNX") set(${OS} Neutrino PARENT_SCOPE) elseif(CMAKE_SYSTEM_NAME STREQUAL "CYGWIN") set(${OS} Windows PARENT_SCOPE) set(${OS_SUBSYSTEM} cygwin PARENT_SCOPE) elseif(CMAKE_SYSTEM_NAME MATCHES "^MSYS") set(${OS} Windows PARENT_SCOPE) set(${OS_SUBSYSTEM} msys2 PARENT_SCOPE) else() set(${OS} ${CMAKE_SYSTEM_NAME} PARENT_SCOPE) endif() if(CMAKE_SYSTEM_NAME STREQUAL "Android") if(DEFINED ANDROID_PLATFORM) string(REGEX MATCH "[0-9]+" _OS_API_LEVEL ${ANDROID_PLATFORM}) elseif(DEFINED CMAKE_SYSTEM_VERSION) set(_OS_API_LEVEL ${CMAKE_SYSTEM_VERSION}) endif() message(STATUS "CMake-Conan: android api level=${_OS_API_LEVEL}") set(${OS_API_LEVEL} ${_OS_API_LEVEL} PARENT_SCOPE) endif() if(CMAKE_SYSTEM_NAME MATCHES "Darwin|iOS|tvOS|watchOS") # CMAKE_OSX_SYSROOT contains the full path to the SDK for MakeFile/Ninja # generators, but just has the original input string for Xcode. if(NOT IS_DIRECTORY ${CMAKE_OSX_SYSROOT}) set(_OS_SDK ${CMAKE_OSX_SYSROOT}) else() if(CMAKE_OSX_SYSROOT MATCHES Simulator) set(apple_platform_suffix simulator) else() set(apple_platform_suffix os) endif() if(CMAKE_OSX_SYSROOT MATCHES AppleTV) set(_OS_SDK "appletv${apple_platform_suffix}") elseif(CMAKE_OSX_SYSROOT MATCHES iPhone) set(_OS_SDK "iphone${apple_platform_suffix}") elseif(CMAKE_OSX_SYSROOT MATCHES Watch) set(_OS_SDK "watch${apple_platform_suffix}") endif() endif() if(DEFINED _OS_SDK) message(STATUS "CMake-Conan: cmake_osx_sysroot=${CMAKE_OSX_SYSROOT}") set(${OS_SDK} ${_OS_SDK} PARENT_SCOPE) endif() if(DEFINED CMAKE_OSX_DEPLOYMENT_TARGET) message(STATUS "CMake-Conan: cmake_osx_deployment_target=${CMAKE_OSX_DEPLOYMENT_TARGET}") set(${OS_VERSION} ${CMAKE_OSX_DEPLOYMENT_TARGET} PARENT_SCOPE) endif() endif() endif() endfunction() function(detect_arch ARCH) # CMAKE_OSX_ARCHITECTURES can contain multiple architectures, but Conan only supports one. # Therefore this code only finds one. If the recipes support multiple architectures, the # build will work. Otherwise, there will be a linker error for the missing architecture(s). if(DEFINED CMAKE_OSX_ARCHITECTURES) string(REPLACE " " ";" apple_arch_list "${CMAKE_OSX_ARCHITECTURES}") list(LENGTH apple_arch_list apple_arch_count) if(apple_arch_count GREATER 1) message(WARNING "CMake-Conan: Multiple architectures detected, this will only work if Conan recipe(s) produce fat binaries.") endif() endif() if(CMAKE_SYSTEM_NAME MATCHES "Darwin|iOS|tvOS|watchOS" AND NOT CMAKE_OSX_ARCHITECTURES STREQUAL "") set(host_arch ${CMAKE_OSX_ARCHITECTURES}) elseif(MSVC) set(host_arch ${CMAKE_CXX_COMPILER_ARCHITECTURE_ID}) else() set(host_arch ${CMAKE_SYSTEM_PROCESSOR}) endif() if(host_arch MATCHES "aarch64|arm64|ARM64") set(_ARCH armv8) elseif(host_arch MATCHES "armv7|armv7-a|armv7l|ARMV7") set(_ARCH armv7) elseif(host_arch MATCHES armv7s) set(_ARCH armv7s) elseif(host_arch MATCHES "i686|i386|X86") set(_ARCH x86) elseif(host_arch MATCHES "AMD64|amd64|x86_64|x64") set(_ARCH x86_64) endif() message(STATUS "CMake-Conan: cmake_system_processor=${_ARCH}") set(${ARCH} ${_ARCH} PARENT_SCOPE) endfunction() function(detect_cxx_standard CXX_STANDARD) set(${CXX_STANDARD} ${CMAKE_CXX_STANDARD} PARENT_SCOPE) if(CMAKE_CXX_EXTENSIONS) set(${CXX_STANDARD} "gnu${CMAKE_CXX_STANDARD}" PARENT_SCOPE) endif() endfunction() macro(detect_gnu_libstdcxx) # _CONAN_IS_GNU_LIBSTDCXX true if GNU libstdc++ check_cxx_source_compiles(" #include #if !defined(__GLIBCXX__) && !defined(__GLIBCPP__) static_assert(false); #endif int main(){}" _CONAN_IS_GNU_LIBSTDCXX) # _CONAN_GNU_LIBSTDCXX_IS_CXX11_ABI true if C++11 ABI check_cxx_source_compiles(" #include static_assert(sizeof(std::string) != sizeof(void*), \"using libstdc++\"); int main () {}" _CONAN_GNU_LIBSTDCXX_IS_CXX11_ABI) set(_CONAN_GNU_LIBSTDCXX_SUFFIX "") if(_CONAN_GNU_LIBSTDCXX_IS_CXX11_ABI) set(_CONAN_GNU_LIBSTDCXX_SUFFIX "11") endif() unset (_CONAN_GNU_LIBSTDCXX_IS_CXX11_ABI) endmacro() macro(detect_libcxx) # _CONAN_IS_LIBCXX true if LLVM libc++ check_cxx_source_compiles(" #include #if !defined(_LIBCPP_VERSION) static_assert(false); #endif int main(){}" _CONAN_IS_LIBCXX) endmacro() function(detect_lib_cxx LIB_CXX) if(CMAKE_SYSTEM_NAME STREQUAL "Android") message(STATUS "CMake-Conan: android_stl=${CMAKE_ANDROID_STL_TYPE}") set(${LIB_CXX} ${CMAKE_ANDROID_STL_TYPE} PARENT_SCOPE) return() endif() include(CheckCXXSourceCompiles) if(CMAKE_CXX_COMPILER_ID MATCHES "GNU") detect_gnu_libstdcxx() set(${LIB_CXX} "libstdc++${_CONAN_GNU_LIBSTDCXX_SUFFIX}" PARENT_SCOPE) elseif(CMAKE_CXX_COMPILER_ID MATCHES "AppleClang") set(${LIB_CXX} "libc++" PARENT_SCOPE) elseif(CMAKE_CXX_COMPILER_ID MATCHES "Clang" AND NOT CMAKE_SYSTEM_NAME MATCHES "Windows") # Check for libc++ detect_libcxx() if(_CONAN_IS_LIBCXX) set(${LIB_CXX} "libc++" PARENT_SCOPE) return() endif() # Check for libstdc++ detect_gnu_libstdcxx() if(_CONAN_IS_GNU_LIBSTDCXX) set(${LIB_CXX} "libstdc++${_CONAN_GNU_LIBSTDCXX_SUFFIX}" PARENT_SCOPE) return() endif() # TODO: it would be an error if we reach this point elseif(CMAKE_CXX_COMPILER_ID MATCHES "MSVC") # Do nothing - compiler.runtime and compiler.runtime_type # should be handled separately: https://github.com/conan-io/cmake-conan/pull/516 return() else() # TODO: unable to determine, ask user to provide a full profile file instead endif() endfunction() function(detect_compiler COMPILER COMPILER_VERSION COMPILER_RUNTIME COMPILER_RUNTIME_TYPE) if(DEFINED CMAKE_CXX_COMPILER_ID) set(_COMPILER ${CMAKE_CXX_COMPILER_ID}) set(_COMPILER_VERSION ${CMAKE_CXX_COMPILER_VERSION}) else() if(NOT DEFINED CMAKE_C_COMPILER_ID) message(FATAL_ERROR "C or C++ compiler not defined") endif() set(_COMPILER ${CMAKE_C_COMPILER_ID}) set(_COMPILER_VERSION ${CMAKE_C_COMPILER_VERSION}) endif() message(STATUS "CMake-Conan: CMake compiler=${_COMPILER}") message(STATUS "CMake-Conan: CMake compiler version=${_COMPILER_VERSION}") if(_COMPILER MATCHES MSVC) set(_COMPILER "msvc") string(SUBSTRING ${MSVC_VERSION} 0 3 _COMPILER_VERSION) # Configure compiler.runtime and compiler.runtime_type settings for MSVC if(CMAKE_MSVC_RUNTIME_LIBRARY) set(_msvc_runtime_library ${CMAKE_MSVC_RUNTIME_LIBRARY}) else() set(_msvc_runtime_library MultiThreaded$<$:Debug>DLL) # default value documented by CMake endif() set(_KNOWN_MSVC_RUNTIME_VALUES "") list(APPEND _KNOWN_MSVC_RUNTIME_VALUES MultiThreaded MultiThreadedDLL) list(APPEND _KNOWN_MSVC_RUNTIME_VALUES MultiThreadedDebug MultiThreadedDebugDLL) list(APPEND _KNOWN_MSVC_RUNTIME_VALUES MultiThreaded$<$:Debug> MultiThreaded$<$:Debug>DLL) # only accept the 6 possible values, otherwise we don't don't know to map this if(NOT _msvc_runtime_library IN_LIST _KNOWN_MSVC_RUNTIME_VALUES) message(FATAL_ERROR "CMake-Conan: unable to map MSVC runtime: ${_msvc_runtime_library} to Conan settings") endif() # Runtime is "dynamic" in all cases if it ends in DLL if(_msvc_runtime_library MATCHES ".*DLL$") set(_COMPILER_RUNTIME "dynamic") else() set(_COMPILER_RUNTIME "static") endif() message(STATUS "CMake-Conan: CMake compiler.runtime=${_COMPILER_RUNTIME}") # Only define compiler.runtime_type when explicitly requested # If a generator expression is used, let Conan handle it conditional on build_type if(NOT _msvc_runtime_library MATCHES ":Debug>") if(_msvc_runtime_library MATCHES "Debug") set(_COMPILER_RUNTIME_TYPE "Debug") else() set(_COMPILER_RUNTIME_TYPE "Release") endif() message(STATUS "CMake-Conan: CMake compiler.runtime_type=${_COMPILER_RUNTIME_TYPE}") endif() unset(_KNOWN_MSVC_RUNTIME_VALUES) elseif(_COMPILER MATCHES AppleClang) set(_COMPILER "apple-clang") string(REPLACE "." ";" VERSION_LIST ${CMAKE_CXX_COMPILER_VERSION}) list(GET VERSION_LIST 0 _COMPILER_VERSION) elseif(_COMPILER MATCHES Clang) set(_COMPILER "clang") string(REPLACE "." ";" VERSION_LIST ${CMAKE_CXX_COMPILER_VERSION}) list(GET VERSION_LIST 0 _COMPILER_VERSION) elseif(_COMPILER MATCHES GNU) set(_COMPILER "gcc") string(REPLACE "." ";" VERSION_LIST ${CMAKE_CXX_COMPILER_VERSION}) list(GET VERSION_LIST 0 _COMPILER_VERSION) endif() message(STATUS "CMake-Conan: [settings] compiler=${_COMPILER}") message(STATUS "CMake-Conan: [settings] compiler.version=${_COMPILER_VERSION}") if (_COMPILER_RUNTIME) message(STATUS "CMake-Conan: [settings] compiler.runtime=${_COMPILER_RUNTIME}") endif() if (_COMPILER_RUNTIME_TYPE) message(STATUS "CMake-Conan: [settings] compiler.runtime_type=${_COMPILER_RUNTIME_TYPE}") endif() set(${COMPILER} ${_COMPILER} PARENT_SCOPE) set(${COMPILER_VERSION} ${_COMPILER_VERSION} PARENT_SCOPE) set(${COMPILER_RUNTIME} ${_COMPILER_RUNTIME} PARENT_SCOPE) set(${COMPILER_RUNTIME_TYPE} ${_COMPILER_RUNTIME_TYPE} PARENT_SCOPE) endfunction() function(detect_build_type BUILD_TYPE) get_property(_MULTICONFIG_GENERATOR GLOBAL PROPERTY GENERATOR_IS_MULTI_CONFIG) if(NOT _MULTICONFIG_GENERATOR) # Only set when we know we are in a single-configuration generator # Note: we may want to fail early if `CMAKE_BUILD_TYPE` is not defined set(${BUILD_TYPE} ${CMAKE_BUILD_TYPE} PARENT_SCOPE) endif() endfunction() macro(set_conan_compiler_if_appleclang lang command output_variable) if(CMAKE_${lang}_COMPILER_ID STREQUAL "AppleClang") execute_process(COMMAND xcrun --find ${command} OUTPUT_VARIABLE _xcrun_out OUTPUT_STRIP_TRAILING_WHITESPACE) cmake_path(GET _xcrun_out PARENT_PATH _xcrun_toolchain_path) cmake_path(GET CMAKE_${lang}_COMPILER PARENT_PATH _compiler_parent_path) if ("${_xcrun_toolchain_path}" STREQUAL "${_compiler_parent_path}") set(${output_variable} "") endif() unset(_xcrun_out) unset(_xcrun_toolchain_path) unset(_compiler_parent_path) endif() endmacro() macro(append_compiler_executables_configuration) set(_conan_c_compiler "") set(_conan_cpp_compiler "") if(CMAKE_C_COMPILER) set(_conan_c_compiler "\"c\":\"${CMAKE_C_COMPILER}\",") set_conan_compiler_if_appleclang(C cc _conan_c_compiler) else() message(WARNING "CMake-Conan: The C compiler is not defined. " "Please define CMAKE_C_COMPILER or enable the C language.") endif() if(CMAKE_CXX_COMPILER) set(_conan_cpp_compiler "\"cpp\":\"${CMAKE_CXX_COMPILER}\"") set_conan_compiler_if_appleclang(CXX c++ _conan_cpp_compiler) else() message(WARNING "CMake-Conan: The C++ compiler is not defined. " "Please define CMAKE_CXX_COMPILER or enable the C++ language.") endif() if(NOT "x${_conan_c_compiler}${_conan_cpp_compiler}" STREQUAL "x") string(APPEND PROFILE "tools.build:compiler_executables={${_conan_c_compiler}${_conan_cpp_compiler}}\n") endif() unset(_conan_c_compiler) unset(_conan_cpp_compiler) endmacro() function(detect_host_profile output_file) detect_os(MYOS MYOS_API_LEVEL MYOS_SDK MYOS_SUBSYSTEM MYOS_VERSION) detect_arch(MYARCH) detect_compiler(MYCOMPILER MYCOMPILER_VERSION MYCOMPILER_RUNTIME MYCOMPILER_RUNTIME_TYPE) detect_cxx_standard(MYCXX_STANDARD) detect_lib_cxx(MYLIB_CXX) detect_build_type(MYBUILD_TYPE) set(PROFILE "") string(APPEND PROFILE "[settings]\n") if(MYARCH) string(APPEND PROFILE arch=${MYARCH} "\n") endif() if(MYOS) string(APPEND PROFILE os=${MYOS} "\n") endif() if(MYOS_API_LEVEL) string(APPEND PROFILE os.api_level=${MYOS_API_LEVEL} "\n") endif() if(MYOS_VERSION) string(APPEND PROFILE os.version=${MYOS_VERSION} "\n") endif() if(MYOS_SDK) string(APPEND PROFILE os.sdk=${MYOS_SDK} "\n") endif() if(MYOS_SUBSYSTEM) string(APPEND PROFILE os.subsystem=${MYOS_SUBSYSTEM} "\n") endif() if(MYCOMPILER) string(APPEND PROFILE compiler=${MYCOMPILER} "\n") endif() if(MYCOMPILER_VERSION) string(APPEND PROFILE compiler.version=${MYCOMPILER_VERSION} "\n") endif() if(MYCOMPILER_RUNTIME) string(APPEND PROFILE compiler.runtime=${MYCOMPILER_RUNTIME} "\n") endif() if(MYCOMPILER_RUNTIME_TYPE) string(APPEND PROFILE compiler.runtime_type=${MYCOMPILER_RUNTIME_TYPE} "\n") endif() if(MYCXX_STANDARD) string(APPEND PROFILE compiler.cppstd=${MYCXX_STANDARD} "\n") endif() if(MYLIB_CXX) string(APPEND PROFILE compiler.libcxx=${MYLIB_CXX} "\n") endif() if(MYBUILD_TYPE) string(APPEND PROFILE "build_type=${MYBUILD_TYPE}\n") endif() if(NOT DEFINED output_file) set(_FN "${CMAKE_BINARY_DIR}/profile") else() set(_FN ${output_file}) endif() string(APPEND PROFILE "[conf]\n") string(APPEND PROFILE "tools.cmake.cmaketoolchain:generator=${CMAKE_GENERATOR}\n") # propagate compilers via profile append_compiler_executables_configuration() if(MYOS STREQUAL "Android") string(APPEND PROFILE "tools.android:ndk_path=${CMAKE_ANDROID_NDK}\n") endif() message(STATUS "CMake-Conan: Creating profile ${_FN}") file(WRITE ${_FN} ${PROFILE}) message(STATUS "CMake-Conan: Profile: \n${PROFILE}") endfunction() function(conan_profile_detect_default) message(STATUS "CMake-Conan: Checking if a default profile exists") execute_process(COMMAND ${CONAN_COMMAND} profile path default RESULT_VARIABLE return_code OUTPUT_VARIABLE conan_stdout ERROR_VARIABLE conan_stderr ECHO_ERROR_VARIABLE # show the text output regardless ECHO_OUTPUT_VARIABLE WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) if(NOT ${return_code} EQUAL "0") message(STATUS "CMake-Conan: The default profile doesn't exist, detecting it.") execute_process(COMMAND ${CONAN_COMMAND} profile detect RESULT_VARIABLE return_code OUTPUT_VARIABLE conan_stdout ERROR_VARIABLE conan_stderr ECHO_ERROR_VARIABLE # show the text output regardless ECHO_OUTPUT_VARIABLE WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) endif() endfunction() function(conan_install) cmake_parse_arguments(ARGS CONAN_ARGS ${ARGN}) set(CONAN_OUTPUT_FOLDER ${CMAKE_BINARY_DIR}/conan) # Invoke "conan install" with the provided arguments set(CONAN_ARGS ${CONAN_ARGS} -of=${CONAN_OUTPUT_FOLDER}) message(STATUS "CMake-Conan: conan install ${CMAKE_SOURCE_DIR} ${CONAN_ARGS} ${ARGN}") # In case there was not a valid cmake executable in the PATH, we inject the # same we used to invoke the provider to the PATH if(DEFINED PATH_TO_CMAKE_BIN) set(_OLD_PATH $ENV{PATH}) set(ENV{PATH} "$ENV{PATH}:${PATH_TO_CMAKE_BIN}") endif() execute_process(COMMAND ${CONAN_COMMAND} install ${CMAKE_SOURCE_DIR} ${CONAN_ARGS} ${ARGN} --format=json RESULT_VARIABLE return_code OUTPUT_VARIABLE conan_stdout ERROR_VARIABLE conan_stderr ECHO_ERROR_VARIABLE # show the text output regardless WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) if(DEFINED PATH_TO_CMAKE_BIN) set(ENV{PATH} "${_OLD_PATH}") endif() if(NOT "${return_code}" STREQUAL "0") message(FATAL_ERROR "Conan install failed='${return_code}'") endif() # the files are generated in a folder that depends on the layout used, if # one is specified, but we don't know a priori where this is. # TODO: this can be made more robust if Conan can provide this in the json output string(JSON CONAN_GENERATORS_FOLDER GET ${conan_stdout} graph nodes 0 generators_folder) cmake_path(CONVERT ${CONAN_GENERATORS_FOLDER} TO_CMAKE_PATH_LIST CONAN_GENERATORS_FOLDER) # message("conan stdout: ${conan_stdout}") message(STATUS "CMake-Conan: CONAN_GENERATORS_FOLDER=${CONAN_GENERATORS_FOLDER}") set_property(GLOBAL PROPERTY CONAN_GENERATORS_FOLDER "${CONAN_GENERATORS_FOLDER}") # reconfigure on conanfile changes string(JSON CONANFILE GET ${conan_stdout} graph nodes 0 label) message(STATUS "CMake-Conan: CONANFILE=${CMAKE_SOURCE_DIR}/${CONANFILE}") set_property(DIRECTORY ${CMAKE_SOURCE_DIR} APPEND PROPERTY CMAKE_CONFIGURE_DEPENDS "${CMAKE_SOURCE_DIR}/${CONANFILE}") # success set_property(GLOBAL PROPERTY CONAN_INSTALL_SUCCESS TRUE) endfunction() function(conan_get_version conan_command conan_current_version) execute_process( COMMAND ${conan_command} --version OUTPUT_VARIABLE conan_output RESULT_VARIABLE conan_result OUTPUT_STRIP_TRAILING_WHITESPACE ) if(conan_result) message(FATAL_ERROR "CMake-Conan: Error when trying to run Conan") endif() string(REGEX MATCH "[0-9]+\\.[0-9]+\\.[0-9]+" conan_version ${conan_output}) set(${conan_current_version} ${conan_version} PARENT_SCOPE) endfunction() function(conan_version_check) set(options ) set(oneValueArgs MINIMUM CURRENT) set(multiValueArgs ) cmake_parse_arguments(CONAN_VERSION_CHECK "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN}) if(NOT CONAN_VERSION_CHECK_MINIMUM) message(FATAL_ERROR "CMake-Conan: Required parameter MINIMUM not set!") endif() if(NOT CONAN_VERSION_CHECK_CURRENT) message(FATAL_ERROR "CMake-Conan: Required parameter CURRENT not set!") endif() if(CONAN_VERSION_CHECK_CURRENT VERSION_LESS CONAN_VERSION_CHECK_MINIMUM) message(FATAL_ERROR "CMake-Conan: Conan version must be ${CONAN_VERSION_CHECK_MINIMUM} or later") endif() endfunction() macro(construct_profile_argument argument_variable profile_list) set(${argument_variable} "") if("${profile_list}" STREQUAL "CONAN_HOST_PROFILE") set(_arg_flag "--profile:host=") elseif("${profile_list}" STREQUAL "CONAN_BUILD_PROFILE") set(_arg_flag "--profile:build=") endif() set(_profile_list "${${profile_list}}") list(TRANSFORM _profile_list REPLACE "auto-cmake" "${CMAKE_BINARY_DIR}/conan_host_profile") list(TRANSFORM _profile_list PREPEND ${_arg_flag}) set(${argument_variable} ${_profile_list}) unset(_arg_flag) unset(_profile_list) endmacro() macro(conan_provide_dependency method package_name) set_property(GLOBAL PROPERTY CONAN_PROVIDE_DEPENDENCY_INVOKED TRUE) get_property(_conan_install_success GLOBAL PROPERTY CONAN_INSTALL_SUCCESS) if(NOT _conan_install_success) find_program(CONAN_COMMAND "conan" REQUIRED) conan_get_version(${CONAN_COMMAND} CONAN_CURRENT_VERSION) conan_version_check(MINIMUM ${CONAN_MINIMUM_VERSION} CURRENT ${CONAN_CURRENT_VERSION}) message(STATUS "CMake-Conan: first find_package() found. Installing dependencies with Conan") if("default" IN_LIST CONAN_HOST_PROFILE OR "default" IN_LIST CONAN_BUILD_PROFILE) conan_profile_detect_default() endif() if("auto-cmake" IN_LIST CONAN_HOST_PROFILE) detect_host_profile(${CMAKE_BINARY_DIR}/conan_host_profile) endif() construct_profile_argument(_host_profile_flags CONAN_HOST_PROFILE) construct_profile_argument(_build_profile_flags CONAN_BUILD_PROFILE) if(EXISTS "${CMAKE_SOURCE_DIR}/conanfile.py") file(READ "${CMAKE_SOURCE_DIR}/conanfile.py" outfile) if(NOT "${outfile}" MATCHES ".*CMakeDeps.*") message(WARNING "Cmake-conan: CMakeDeps generator was not defined in the conanfile") endif() set(generator "") elseif (EXISTS "${CMAKE_SOURCE_DIR}/conanfile.txt") file(READ "${CMAKE_SOURCE_DIR}/conanfile.txt" outfile) if(NOT "${outfile}" MATCHES ".*CMakeDeps.*") message(WARNING "Cmake-conan: CMakeDeps generator was not defined in the conanfile. " "Please define the generator as it will be mandatory in the future") endif() set(generator "-g;CMakeDeps") endif() get_property(_multiconfig_generator GLOBAL PROPERTY GENERATOR_IS_MULTI_CONFIG) if(NOT _multiconfig_generator) message(STATUS "CMake-Conan: Installing single configuration ${CMAKE_BUILD_TYPE}") conan_install(${_host_profile_flags} ${_build_profile_flags} ${CONAN_INSTALL_ARGS} ${generator}) else() message(STATUS "CMake-Conan: Installing both Debug and Release") conan_install(${_host_profile_flags} ${_build_profile_flags} -s build_type=Release ${CONAN_INSTALL_ARGS} ${generator}) conan_install(${_host_profile_flags} ${_build_profile_flags} -s build_type=Debug ${CONAN_INSTALL_ARGS} ${generator}) endif() unset(_host_profile_flags) unset(_build_profile_flags) unset(_multiconfig_generator) unset(_conan_install_success) else() message(STATUS "CMake-Conan: find_package(${ARGV1}) found, 'conan install' already ran") unset(_conan_install_success) endif() get_property(_conan_generators_folder GLOBAL PROPERTY CONAN_GENERATORS_FOLDER) # Ensure that we consider Conan-provided packages ahead of any other, # irrespective of other settings that modify the search order or search paths # This follows the guidelines from the find_package documentation # (https://cmake.org/cmake/help/latest/command/find_package.html): # find_package ( PATHS paths... NO_DEFAULT_PATH) # find_package () # Filter out `REQUIRED` from the argument list, as the first call may fail set(_find_args_${package_name} "${ARGN}") list(REMOVE_ITEM _find_args_${package_name} "REQUIRED") if(NOT "MODULE" IN_LIST _find_args_${package_name}) find_package(${package_name} ${_find_args_${package_name}} BYPASS_PROVIDER PATHS "${_conan_generators_folder}" NO_DEFAULT_PATH NO_CMAKE_FIND_ROOT_PATH) unset(_find_args_${package_name}) endif() # Invoke find_package a second time - if the first call succeeded, # this will simply reuse the result. If not, fall back to CMake default search # behaviour, also allowing modules to be searched. if(NOT ${package_name}_FOUND) list(FIND CMAKE_MODULE_PATH "${_conan_generators_folder}" _index) if(_index EQUAL -1) list(PREPEND CMAKE_MODULE_PATH "${_conan_generators_folder}") endif() unset(_index) find_package(${package_name} ${ARGN} BYPASS_PROVIDER) list(REMOVE_ITEM CMAKE_MODULE_PATH "${_conan_generators_folder}") endif() endmacro() cmake_language( SET_DEPENDENCY_PROVIDER conan_provide_dependency SUPPORTED_METHODS FIND_PACKAGE ) macro(conan_provide_dependency_check) set(_CONAN_PROVIDE_DEPENDENCY_INVOKED FALSE) get_property(_CONAN_PROVIDE_DEPENDENCY_INVOKED GLOBAL PROPERTY CONAN_PROVIDE_DEPENDENCY_INVOKED) if(NOT _CONAN_PROVIDE_DEPENDENCY_INVOKED) message(WARNING "Conan is correctly configured as dependency provider, " "but Conan has not been invoked. Please add at least one " "call to `find_package()`.") if(DEFINED CONAN_COMMAND) # supress warning in case `CONAN_COMMAND` was specified but unused. set(_CONAN_COMMAND ${CONAN_COMMAND}) unset(_CONAN_COMMAND) endif() endif() unset(_CONAN_PROVIDE_DEPENDENCY_INVOKED) endmacro() # Add a deferred call at the end of processing the top-level directory # to check if the dependency provider was invoked at all. cmake_language(DEFER DIRECTORY "${CMAKE_SOURCE_DIR}" CALL conan_provide_dependency_check) # Configurable variables for Conan profiles set(CONAN_HOST_PROFILE "default;auto-cmake" CACHE STRING "Conan host profile") set(CONAN_BUILD_PROFILE "default" CACHE STRING "Conan build profile") set(CONAN_INSTALL_ARGS "--build=missing" CACHE STRING "Command line arguments for conan install") find_program(_cmake_program NAMES cmake NO_PACKAGE_ROOT_PATH NO_CMAKE_PATH NO_CMAKE_ENVIRONMENT_PATH NO_CMAKE_SYSTEM_PATH NO_CMAKE_FIND_ROOT_PATH) if(NOT _cmake_program) get_filename_component(PATH_TO_CMAKE_BIN "${CMAKE_COMMAND}" DIRECTORY) set(PATH_TO_CMAKE_BIN "${PATH_TO_CMAKE_BIN}" CACHE INTERNAL "Path where the CMake executable is") endif() cmake_policy(POP)