macro(z_vcpkg_determine_autotools_host_cpu out_var) # TODO: the host system processor architecture can differ from the host triplet target architecture if(DEFINED ENV{PROCESSOR_ARCHITEW6432}) set(host_arch $ENV{PROCESSOR_ARCHITEW6432}) elseif(DEFINED ENV{PROCESSOR_ARCHITECTURE}) set(host_arch $ENV{PROCESSOR_ARCHITECTURE}) else() set(host_arch "${VCPKG_DETECTED_CMAKE_HOST_SYSTEM_PROCESSOR}") endif() if(host_arch MATCHES "(amd|AMD)64") set(${out_var} x86_64) elseif(host_arch MATCHES "(x|X)86") set(${out_var} i686) elseif(host_arch MATCHES "^(ARM|arm)64$") set(${out_var} aarch64) elseif(host_arch MATCHES "^(ARM|arm)$") set(${out_var} arm) else() message(FATAL_ERROR "Unsupported host architecture ${host_arch} in z_vcpkg_determine_autotools_host_cpu!" ) endif() unset(host_arch) endmacro() macro(z_vcpkg_determine_autotools_target_cpu out_var) if(VCPKG_TARGET_ARCHITECTURE MATCHES "(x|X)64") set(${out_var} x86_64) elseif(VCPKG_TARGET_ARCHITECTURE MATCHES "(x|X)86") set(${out_var} i686) elseif(VCPKG_TARGET_ARCHITECTURE MATCHES "^(ARM|arm)64$") set(${out_var} aarch64) elseif(VCPKG_TARGET_ARCHITECTURE MATCHES "^(ARM|arm)$") set(${out_var} arm) else() message(FATAL_ERROR "Unsupported VCPKG_TARGET_ARCHITECTURE architecture ${VCPKG_TARGET_ARCHITECTURE} in z_vcpkg_determine_autotools_target_cpu!" ) endif() endmacro() macro(z_vcpkg_set_arch_mac out_var value) # Better match the arch behavior of config.guess # See: https://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.guess;hb=HEAD if("${value}" MATCHES "^(ARM|arm)64$") set(${out_var} "aarch64") else() set(${out_var} "${value}") endif() endmacro() macro(z_vcpkg_determine_autotools_host_arch_mac out_var) z_vcpkg_set_arch_mac(${out_var} "${VCPKG_DETECTED_CMAKE_HOST_SYSTEM_PROCESSOR}") endmacro() macro(z_vcpkg_determine_autotools_target_arch_mac out_var) list(LENGTH VCPKG_OSX_ARCHITECTURES osx_archs_num) if(osx_archs_num EQUAL 0) z_vcpkg_set_arch_mac(${out_var} "${VCPKG_DETECTED_CMAKE_HOST_SYSTEM_PROCESSOR}") elseif(osx_archs_num GREATER_EQUAL 2) set(${out_var} "universal") else() z_vcpkg_set_arch_mac(${out_var} "${VCPKG_OSX_ARCHITECTURES}") endif() unset(osx_archs_num) endmacro() macro(z_vcpkg_extract_cpp_flags_and_set_cflags_and_cxxflags flag_suffix) string(REGEX MATCHALL "( |^)(-D|-isysroot|--sysroot=|-isystem|-m?[Aa][Rr][Cc][Hh]|--target=|-target) ?[^ ]+" CPPFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_C_FLAGS_${flag_suffix}}") string(REGEX MATCHALL "( |^)(-D|-isysroot|--sysroot=|-isystem|-m?[Aa][Rr][Cc][Hh]|--target=|-target) ?[^ ]+" CXXPPFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_CXX_FLAGS_${flag_suffix}}") list(JOIN CXXPPFLAGS_${flag_suffix} "|" CXXREGEX) if(CXXREGEX) list(FILTER CPPFLAGS_${flag_suffix} INCLUDE REGEX "(${CXXREGEX})") else() set(CPPFLAGS_${flag_suffix}) endif() list(JOIN CPPFLAGS_${flag_suffix} "|" CPPREGEX) list(JOIN CPPFLAGS_${flag_suffix} " " CPPFLAGS_${flag_suffix}) set(CPPFLAGS_${flag_suffix} "${CPPFLAGS_${flag_suffix}}") if(CPPREGEX) string(REGEX REPLACE "(${CPPREGEX})" "" CFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_C_FLAGS_${flag_suffix}}") string(REGEX REPLACE "(${CPPREGEX})" "" CXXFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_CXX_FLAGS_${flag_suffix}}") else() set(CFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_C_FLAGS_${flag_suffix}}") set(CXXFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_CXX_FLAGS_${flag_suffix}}") endif() string(REGEX REPLACE " +" " " CPPFLAGS_${flag_suffix} "${CPPFLAGS_${flag_suffix}}") string(REGEX REPLACE " +" " " CFLAGS_${flag_suffix} "${CFLAGS_${flag_suffix}}") string(REGEX REPLACE " +" " " CXXFLAGS_${flag_suffix} "${CXXFLAGS_${flag_suffix}}") string(STRIP "${CPPFLAGS_${flag_suffix}}" CPPFLAGS_${flag_suffix}) string(STRIP "${CFLAGS_${flag_suffix}}" CFLAGS_${flag_suffix}) string(STRIP "${CXXFLAGS_${flag_suffix}}" CXXFLAGS_${flag_suffix}) # libtool tries to filter CFLAGS passed to the link stage via a whitelist. # that approach is flawed since it fails to pass flags unknown to libtool # but required for linking to the link stage (e.g. -fsanitize=). # libtool has an -R option so we need to guard against -RTC by using -Xcompiler # while configuring there might be a lot of unknown compiler option warnings due to that # just ignore them. if(VCPKG_DETECTED_CMAKE_C_COMPILER_FRONTEND_VARIANT STREQUAL "MSVC" OR VCPKG_DETECTED_CMAKE_C_COMPILER_ID STREQUAL "MSVC") separate_arguments(CFLAGS_LIST NATIVE_COMMAND "${CFLAGS_${flag_suffix}}") list(JOIN CFLAGS_LIST " -Xcompiler " CFLAGS_${var_suffix}) string(PREPEND CFLAGS_${var_suffix} "-Xcompiler ") endif() if(VCPKG_DETECTED_CMAKE_CXX_COMPILER_FRONTEND_VARIANT STREQUAL "MSVC" OR VCPKG_DETECTED_CMAKE_CXX_COMPILER_ID STREQUAL "MSVC") separate_arguments(CXXFLAGS_LIST NATIVE_COMMAND "${CXXFLAGS_${flag_suffix}}") list(JOIN CXXFLAGS_LIST " -Xcompiler " CXXFLAGS_${var_suffix}) string(PREPEND CXXFLAGS_${var_suffix} "-Xcompiler ") endif() debug_message("CPPFLAGS_${flag_suffix}: ${CPPFLAGS_${flag_suffix}}") debug_message("CFLAGS_${flag_suffix}: ${CFLAGS_${flag_suffix}}") debug_message("CXXFLAGS_${flag_suffix}: ${CXXFLAGS_${flag_suffix}}") endmacro() macro(z_vcpkg_append_to_configure_environment inoutstring var defaultval) # Allows to overwrite settings in custom triplets via the environment on windows if(CMAKE_HOST_WIN32 AND DEFINED ENV{${var}}) string(APPEND ${inoutstring} " ${var}='$ENV{${var}}'") else() string(APPEND ${inoutstring} " ${var}='${defaultval}'") endif() endmacro() macro(z_convert_to_list input output) string(REGEX MATCHALL "(( +|^ *)[^ ]+)" ${output} "${${input}}") endmacro() function(vcpkg_configure_make) # parse parameters such that semicolons in options arguments to COMMAND don't get erased cmake_parse_arguments(PARSE_ARGV 0 arg "AUTOCONFIG;SKIP_CONFIGURE;COPY_SOURCE;DISABLE_VERBOSE_FLAGS;NO_ADDITIONAL_PATHS;ADD_BIN_TO_PATH;NO_DEBUG;USE_WRAPPERS;NO_WRAPPERS;DETERMINE_BUILD_TRIPLET" "SOURCE_PATH;PROJECT_SUBPATH;PRERUN_SHELL;BUILD_TRIPLET" "OPTIONS;OPTIONS_DEBUG;OPTIONS_RELEASE;CONFIGURE_ENVIRONMENT_VARIABLES;CONFIG_DEPENDENT_ENVIRONMENT;ADDITIONAL_MSYS_PACKAGES" ) if(DEFINED arg_UNPARSED_ARGUMENTS) message(WARNING "${CMAKE_CURRENT_FUNCTION} was passed extra arguments: ${arg_UNPARSED_ARGUMENTS}") endif() if(arg_USE_WRAPPERS AND arg_NO_WRAPPERS) message(FATAL_ERROR "${CMAKE_CURRENT_FUNCTION} was passed conflicting options USE_WRAPPERS and NO_WRAPPERS. Please remove one of them!") endif() z_vcpkg_get_cmake_vars(cmake_vars_file) debug_message("Including cmake vars from: ${cmake_vars_file}") include("${cmake_vars_file}") # Remove outer quotes from cmake variables which will be forwarded via makefile/shell variables # substituted into makefile commands (e.g. Android NDK has "--sysroot=...") foreach(var IN ITEMS VCPKG_DETECTED_CMAKE_C_FLAGS_DEBUG VCPKG_DETECTED_CMAKE_C_FLAGS_RELEASE VCPKG_DETECTED_CMAKE_CXX_FLAGS_DEBUG VCPKG_DETECTED_CMAKE_CXX_FLAGS_RELEASE VCPKG_DETECTED_CMAKE_SHARED_LINKER_FLAGS_DEBUG VCPKG_DETECTED_CMAKE_SHARED_LINKER_FLAGS_RELEASE VCPKG_DETECTED_CMAKE_STATIC_LINKER_FLAGS_DEBUG VCPKG_DETECTED_CMAKE_STATIC_LINKER_FLAGS_RELEASE VCPKG_DETECTED_CMAKE_C_STANDARD_LIBRARIES VCPKG_DETECTED_CMAKE_CXX_STANDARD_LIBRARIES ) separate_arguments(cmake_list NATIVE_COMMAND "${${var}}") list(JOIN cmake_list " " "${var}") endforeach() if(DEFINED VCPKG_MAKE_BUILD_TRIPLET) set(arg_BUILD_TRIPLET ${VCPKG_MAKE_BUILD_TRIPLET}) # Triplet overwrite for crosscompiling endif() set(src_dir "${arg_SOURCE_PATH}/${arg_PROJECT_SUBPATH}") set(requires_autogen OFF) # use autogen.sh set(requires_autoconfig OFF) # use autotools and configure.ac if(EXISTS "${src_dir}/configure" AND EXISTS "${src_dir}/configure.ac" AND arg_AUTOCONFIG) # remove configure; rerun autoconf set(requires_autoconfig ON) file(REMOVE "${SRC_DIR}/configure") # remove possible outdated configure scripts elseif(EXISTS "${src_dir}/configure" AND NOT arg_SKIP_CONFIGURE) # run normally; no autoconf or autogen required elseif(EXISTS "${src_dir}/configure.ac") # Run autoconfig set(requires_autoconfig ON) set(arg_AUTOCONFIG ON) elseif(EXISTS "${src_dir}/autogen.sh") # Run autogen set(requires_autogen ON) else() message(FATAL_ERROR "Could not determine method to configure make") endif() debug_message("requires_autogen:${requires_autogen}") debug_message("requires_autoconfig:${requires_autoconfig}") if(CMAKE_HOST_WIN32 AND VCPKG_DETECTED_CMAKE_C_COMPILER MATCHES "cl.exe") #only applies to windows (clang-)cl and lib if(arg_AUTOCONFIG) set(arg_USE_WRAPPERS ON) else() # Keep the setting from portfiles. # Without autotools we assume a custom configure script which correctly handles cl and lib. # Otherwise the port needs to set CC|CXX|AR and probably CPP. endif() else() set(arg_USE_WRAPPERS OFF) endif() if(arg_NO_WRAPPERS) set(arg_USE_WRAPPERS OFF) endif() # Backup environment variables # CCAS CC C CPP CXX FC FF GC LD LF LIBTOOL OBJC OBJCXX R UPC Y set(cm_FLAGS AR AS CCAS CC C CPP CXX FC FF GC LD LF LIBTOOL OBJC OBJXX R UPC Y RC) list(TRANSFORM cm_FLAGS APPEND "FLAGS") vcpkg_backup_env_variables(VARS ${cm_FLAGS}) # FC fotran compiler | FF Fortran 77 compiler # LDFLAGS -> pass -L flags # LIBS -> pass -l flags #Used by gcc/linux vcpkg_backup_env_variables(VARS C_INCLUDE_PATH CPLUS_INCLUDE_PATH LIBRARY_PATH LD_LIBRARY_PATH) #Used by cl vcpkg_backup_env_variables(VARS INCLUDE LIB LIBPATH) set(vcm_paths_with_spaces OFF) if(CURRENT_PACKAGES_DIR MATCHES " " OR CURRENT_INSTALLED_DIR MATCHES " ") # Don't bother with whitespace. The tools will probably fail and I tried very hard trying to make it work (no success so far)! message(WARNING "Detected whitespace in root directory. Please move the path to one without whitespaces! The required tools do not handle whitespaces correctly and the build will most likely fail") set(vcm_paths_with_spaces ON) endif() set(configure_env "V=1") # Establish a bash environment as expected by autotools. if(CMAKE_HOST_WIN32) list(APPEND msys_require_packages binutils libtool autoconf automake-wrapper automake1.16 m4 which) vcpkg_acquire_msys(MSYS_ROOT PACKAGES ${msys_require_packages} ${arg_ADDITIONAL_MSYS_PACKAGES}) set(base_cmd "${MSYS_ROOT}/usr/bin/bash.exe" --noprofile --norc --debug) vcpkg_list(SET add_to_env) if(arg_USE_WRAPPERS AND VCPKG_TARGET_IS_WINDOWS) vcpkg_list(APPEND add_to_env "${SCRIPTS}/buildsystems/make_wrapper") # Other required wrappers are also located there vcpkg_list(APPEND add_to_env "${MSYS_ROOT}/usr/share/automake-1.16") endif() cmake_path(CONVERT "$ENV{PATH}" TO_CMAKE_PATH_LIST path_list NORMALIZE) cmake_path(CONVERT "$ENV{SystemRoot}" TO_CMAKE_PATH_LIST system_root NORMALIZE) cmake_path(CONVERT "$ENV{LOCALAPPDATA}" TO_CMAKE_PATH_LIST local_app_data NORMALIZE) file(REAL_PATH "${system_root}" system_root) message(DEBUG "path_list:${path_list}") # Just to have --trace-expand output vcpkg_list(SET find_system_dirs "${system_root}/system32" "${system_root}/System32" "${system_root}/system32/" "${system_root}/System32/" "${local_app_data}/Microsoft/WindowsApps" "${local_app_data}/Microsoft/WindowsApps/" ) string(TOUPPER "${find_system_dirs}" find_system_dirs_upper) set(index 0) set(appending TRUE) foreach(item IN LISTS path_list) if(item IN_LIST find_system_dirs OR item IN_LIST find_system_dirs_upper) set(appending FALSE) break() endif() math(EXPR index "${index} + 1") endforeach() if(appending) message(WARNING "Unable to find system dir in the PATH variable! Appending required msys paths!") endif() vcpkg_list(INSERT path_list "${index}" ${add_to_env} "${MSYS_ROOT}/usr/bin") cmake_path(CONVERT "${path_list}" TO_NATIVE_PATH_LIST native_path_list) set(ENV{PATH} "${native_path_list}") else() find_program(base_cmd bash REQUIRED) endif() # macOS - cross-compiling support if(VCPKG_TARGET_IS_OSX OR VCPKG_TARGET_IS_IOS) if (requires_autoconfig AND NOT arg_BUILD_TRIPLET OR arg_DETERMINE_BUILD_TRIPLET) z_vcpkg_determine_autotools_host_arch_mac(BUILD_ARCH) # machine you are building on => --build= z_vcpkg_determine_autotools_target_arch_mac(TARGET_ARCH) # --build: the machine you are building on # --host: the machine you are building for # --target: the machine that CC will produce binaries for # https://stackoverflow.com/questions/21990021/how-to-determine-host-value-for-configure-when-using-cross-compiler # Only for ports using autotools so we can assume that they follow the common conventions for build/target/host if(NOT "${TARGET_ARCH}" STREQUAL "${BUILD_ARCH}" OR NOT VCPKG_TARGET_IS_OSX) # we don't need to specify the additional flags if we build natively. set(arg_BUILD_TRIPLET "--host=${TARGET_ARCH}-apple-darwin") # (Host activates crosscompilation; The name given here is just the prefix of the host tools for the target) endif() debug_message("Using make triplet: ${arg_BUILD_TRIPLET}") endif() endif() # Linux - cross-compiling support if(VCPKG_TARGET_IS_LINUX) if (requires_autoconfig AND NOT arg_BUILD_TRIPLET OR arg_DETERMINE_BUILD_TRIPLET) # The regex below takes the prefix from the resulting CMAKE_C_COMPILER variable eg. arm-linux-gnueabihf-gcc # set in the common toolchains/linux.cmake # This is used via --host as a prefix for all other bin tools as well. # Setting the compiler directly via CC=arm-linux-gnueabihf-gcc does not work acording to: # https://www.gnu.org/software/autoconf/manual/autoconf-2.65/html_node/Specifying-Target-Triplets.html if(VCPKG_DETECTED_CMAKE_C_COMPILER MATCHES "([^\/]*)-gcc$" AND CMAKE_MATCH_1) set(arg_BUILD_TRIPLET "--host=${CMAKE_MATCH_1}") # (Host activates crosscompilation; The name given here is just the prefix of the host tools for the target) endif() debug_message("Using make triplet: ${arg_BUILD_TRIPLET}") endif() endif() # Pre-processing windows configure requirements if (VCPKG_TARGET_IS_WINDOWS) if (arg_DETERMINE_BUILD_TRIPLET OR NOT arg_BUILD_TRIPLET) z_vcpkg_determine_autotools_host_cpu(BUILD_ARCH) # VCPKG_HOST => machine you are building on => --build= z_vcpkg_determine_autotools_target_cpu(TARGET_ARCH) # --build: the machine you are building on # --host: the machine you are building for # --target: the machine that CC will produce binaries for # https://stackoverflow.com/questions/21990021/how-to-determine-host-value-for-configure-when-using-cross-compiler # Only for ports using autotools so we can assume that they follow the common conventions for build/target/host if(CMAKE_HOST_WIN32) # Respect host triplet when determining --build if(NOT VCPKG_CROSSCOMPILING) set(_win32_build_arch "${TARGET_ARCH}") else() set(_win32_build_arch "${BUILD_ARCH}") endif() # This is required since we are running in a msys # shell which will be otherwise identified as ${BUILD_ARCH}-pc-msys set(arg_BUILD_TRIPLET "--build=${_win32_build_arch}-pc-mingw32") endif() if(NOT TARGET_ARCH MATCHES "${BUILD_ARCH}" OR NOT CMAKE_HOST_WIN32) # we don't need to specify the additional flags if we build nativly, this does not hold when we are not on windows string(APPEND arg_BUILD_TRIPLET " --host=${TARGET_ARCH}-pc-mingw32") # (Host activates crosscompilation; The name given here is just the prefix of the host tools for the target) endif() if(VCPKG_TARGET_IS_UWP AND NOT arg_BUILD_TRIPLET MATCHES "--host") # Needs to be different from --build to enable cross builds. string(APPEND arg_BUILD_TRIPLET " --host=${TARGET_ARCH}-unknown-mingw32") endif() debug_message("Using make triplet: ${arg_BUILD_TRIPLET}") endif() # Remove full filepaths due to spaces and prepend filepaths to PATH (cross-compiling tools are unlikely on path by default) set(progs VCPKG_DETECTED_CMAKE_C_COMPILER VCPKG_DETECTED_CMAKE_CXX_COMPILER VCPKG_DETECTED_CMAKE_AR VCPKG_DETECTED_CMAKE_LINKER VCPKG_DETECTED_CMAKE_RANLIB VCPKG_DETECTED_CMAKE_OBJDUMP VCPKG_DETECTED_CMAKE_STRIP VCPKG_DETECTED_CMAKE_NM VCPKG_DETECTED_CMAKE_DLLTOOL VCPKG_DETECTED_CMAKE_RC_COMPILER) foreach(prog IN LISTS progs) if(${prog}) set(path "${${prog}}") unset(prog_found CACHE) get_filename_component(${prog} "${${prog}}" NAME) find_program(prog_found ${${prog}} PATHS ENV PATH NO_DEFAULT_PATH) if(NOT path STREQUAL prog_found) get_filename_component(path "${path}" DIRECTORY) vcpkg_add_to_path(PREPEND ${path}) endif() endif() endforeach() if (arg_USE_WRAPPERS) z_vcpkg_append_to_configure_environment(configure_env CPP "compile ${VCPKG_DETECTED_CMAKE_C_COMPILER} -E") z_vcpkg_append_to_configure_environment(configure_env CC "compile ${VCPKG_DETECTED_CMAKE_C_COMPILER}") if(NOT arg_BUILD_TRIPLET MATCHES "--host") z_vcpkg_append_to_configure_environment(configure_env CC_FOR_BUILD "compile ${VCPKG_DETECTED_CMAKE_C_COMPILER}") z_vcpkg_append_to_configure_environment(configure_env CPP_FOR_BUILD "compile ${VCPKG_DETECTED_CMAKE_C_COMPILER} -E") z_vcpkg_append_to_configure_environment(configure_env CXX_FOR_BUILD "compile ${VCPKG_DETECTED_CMAKE_CXX_COMPILER}") else() # Silly trick to make configure accept CC_FOR_BUILD but in reallity CC_FOR_BUILD is deactivated. z_vcpkg_append_to_configure_environment(configure_env CC_FOR_BUILD "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true") z_vcpkg_append_to_configure_environment(configure_env CPP_FOR_BUILD "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true") z_vcpkg_append_to_configure_environment(configure_env CXX_FOR_BUILD "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true") endif() z_vcpkg_append_to_configure_environment(configure_env CXX "compile ${VCPKG_DETECTED_CMAKE_CXX_COMPILER}") z_vcpkg_append_to_configure_environment(configure_env RC "windres-rc ${VCPKG_DETECTED_CMAKE_RC_COMPILER}") z_vcpkg_append_to_configure_environment(configure_env WINDRES "windres-rc ${VCPKG_DETECTED_CMAKE_RC_COMPILER}") if(VCPKG_DETECTED_CMAKE_AR) z_vcpkg_append_to_configure_environment(configure_env AR "ar-lib ${VCPKG_DETECTED_CMAKE_AR}") else() z_vcpkg_append_to_configure_environment(configure_env AR "ar-lib lib.exe -verbose") endif() else() z_vcpkg_append_to_configure_environment(configure_env CPP "${VCPKG_DETECTED_CMAKE_C_COMPILER} -E") z_vcpkg_append_to_configure_environment(configure_env CC "${VCPKG_DETECTED_CMAKE_C_COMPILER}") if(NOT arg_BUILD_TRIPLET MATCHES "--host") z_vcpkg_append_to_configure_environment(configure_env CC_FOR_BUILD "${VCPKG_DETECTED_CMAKE_C_COMPILER}") z_vcpkg_append_to_configure_environment(configure_env CPP_FOR_BUILD "${VCPKG_DETECTED_CMAKE_C_COMPILER} -E") z_vcpkg_append_to_configure_environment(configure_env CXX_FOR_BUILD "${VCPKG_DETECTED_CMAKE_CXX_COMPILER}") else() z_vcpkg_append_to_configure_environment(configure_env CC_FOR_BUILD "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true") z_vcpkg_append_to_configure_environment(configure_env CPP_FOR_BUILD "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true") z_vcpkg_append_to_configure_environment(configure_env CXX_FOR_BUILD "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true") endif() z_vcpkg_append_to_configure_environment(configure_env CXX "${VCPKG_DETECTED_CMAKE_CXX_COMPILER}") z_vcpkg_append_to_configure_environment(configure_env RC "${VCPKG_DETECTED_CMAKE_RC_COMPILER}") z_vcpkg_append_to_configure_environment(configure_env WINDRES "${VCPKG_DETECTED_CMAKE_RC_COMPILER}") if(VCPKG_DETECTED_CMAKE_AR) z_vcpkg_append_to_configure_environment(configure_env AR "${VCPKG_DETECTED_CMAKE_AR}") else() z_vcpkg_append_to_configure_environment(configure_env AR "lib.exe -verbose") endif() endif() z_vcpkg_append_to_configure_environment(configure_env LD "${VCPKG_DETECTED_CMAKE_LINKER} -verbose") if(VCPKG_DETECTED_CMAKE_RANLIB) z_vcpkg_append_to_configure_environment(configure_env RANLIB "${VCPKG_DETECTED_CMAKE_RANLIB}") # Trick to ignore the RANLIB call else() z_vcpkg_append_to_configure_environment(configure_env RANLIB ":") endif() if(VCPKG_DETECTED_CMAKE_OBJDUMP) #Objdump is required to make shared libraries. Otherwise define lt_cv_deplibs_check_method=pass_all z_vcpkg_append_to_configure_environment(configure_env OBJDUMP "${VCPKG_DETECTED_CMAKE_OBJDUMP}") # Trick to ignore the RANLIB call endif() if(VCPKG_DETECTED_CMAKE_STRIP) # If required set the ENV variable STRIP in the portfile correctly z_vcpkg_append_to_configure_environment(configure_env STRIP "${VCPKG_DETECTED_CMAKE_STRIP}") else() z_vcpkg_append_to_configure_environment(configure_env STRIP ":") list(APPEND arg_OPTIONS ac_cv_prog_ac_ct_STRIP=:) endif() if(VCPKG_DETECTED_CMAKE_NM) # If required set the ENV variable NM in the portfile correctly z_vcpkg_append_to_configure_environment(configure_env NM "${VCPKG_DETECTED_CMAKE_NM}") else() # Would be better to have a true nm here! Some symbols (mainly exported variables) get not properly imported with dumpbin as nm # and require __declspec(dllimport) for some reason (same problem CMake has with WINDOWS_EXPORT_ALL_SYMBOLS) z_vcpkg_append_to_configure_environment(configure_env NM "dumpbin.exe -symbols -headers") endif() if(VCPKG_DETECTED_CMAKE_DLLTOOL) # If required set the ENV variable DLLTOOL in the portfile correctly z_vcpkg_append_to_configure_environment(configure_env DLLTOOL "${VCPKG_DETECTED_CMAKE_DLLTOOL}") else() z_vcpkg_append_to_configure_environment(configure_env DLLTOOL "link.exe -verbose -dll") endif() z_vcpkg_append_to_configure_environment(configure_env CCAS ":") # If required set the ENV variable CCAS in the portfile correctly z_vcpkg_append_to_configure_environment(configure_env AS ":") # If required set the ENV variable AS in the portfile correctly foreach(_env IN LISTS arg_CONFIGURE_ENVIRONMENT_VARIABLES) z_vcpkg_append_to_configure_environment(configure_env ${_env} "${${_env}}") endforeach() debug_message("configure_env: '${configure_env}'") # Other maybe interesting variables to control # COMPILE This is the command used to actually compile a C source file. The file name is appended to form the complete command line. # LINK This is the command used to actually link a C program. # CXXCOMPILE The command used to actually compile a C++ source file. The file name is appended to form the complete command line. # CXXLINK The command used to actually link a C++ program. # Variables not correctly detected by configure. 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ARFLAGS doesn't need -L search paths since it just bundles object files endif() if(ARFLAGS_${var_suffix}) # ARFLAGS need to know the command for creating an archive (Maybe needs user customization?) # or extract it from CMake via CMAKE_${lang}_ARCHIVE_CREATE ? # or from CMAKE_${lang}_${rule} with rule being one of CREATE_SHARED_MODULE CREATE_SHARED_LIBRARY LINK_EXECUTABLE string(PREPEND ARFLAGS_${var_suffix} "cr ") endif() string(STRIP "${LDFLAGS_${var_suffix}}" LDFLAGS_${var_suffix}) string(STRIP "${ARFLAGS_${var_suffix}}" ARFLAGS_${var_suffix}) if(VCPKG_TARGET_IS_WINDOWS AND VCPKG_DETECTED_CMAKE_LINKER MATCHES [[link\.exe$]]) # Do not touch autotools quirks incoming! # -Xlinker is repeated three times because: # - libtool script eats -Xlinker # - the compile wrapper eats -Xlinker # - passing through both tools requires 3 -Xlinker; two being eaten in the first script. # passing only through one script will keep one -Xlinker (done in configure) # but cl will just ignore those with a warning. 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