vcpkg/scripts/cmake/vcpkg_configure_make.cmake
Kai Pastor 215a253559
[z_vcpkg_setup_pkgconfig_path] debug needs share/pkgconfig (#36151)
Pass `share/pkgconfig` instead of `debug/share/pkgconfig`: The `share`
location is for config-independent data.
Integrate `CURRENT_PACKAGES_DIR` locations.
Change the function interface to take a CONFIG parameter instead of
prefix list (suggested below).
Use `z_vcpkg_setup_pkgconfig_path` also for `vcpkg_fixup_pkgconfig`
(which already had proper handling of `CURRENT_PACKAGES_DIR` and
`share`).
Remove redundant trailing slash.
Extend unit test.

Fixes consuming `wayland-protocols` and similar.
2024-03-01 16:35:37 -08:00

913 lines
48 KiB
CMake

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} "${VCPKG_OSX_ARCHITECTURES}")
endif()
unset(osx_archs_num)
endmacro()
# Define variables used in both vcpkg_configure_make and vcpkg_build_make:
# short_name_<CONFIG>: unique abbreviation for the given build type (rel, dbg)
# path_suffix_<CONFIG>: installation path suffix for the given build type ('', /debug)
# current_installed_dir_escaped: CURRENT_INSTALLED_DIR with escaped space characters
# current_installed_dir_msys: CURRENT_INSTALLED_DIR with unprotected spaces, but drive letters transformed for msys
macro(z_vcpkg_configure_make_common_definitions)
set(short_name_RELEASE "rel")
set(short_name_DEBUG "dbg")
set(path_suffix_RELEASE "")
set(path_suffix_DEBUG "/debug")
# Some PATH handling for dealing with spaces....some tools will still fail with that!
# In particular, the libtool install command is unable to install correctly to paths with spaces.
string(REPLACE " " "\\ " current_installed_dir_escaped "${CURRENT_INSTALLED_DIR}")
set(current_installed_dir_msys "${CURRENT_INSTALLED_DIR}")
if(CMAKE_HOST_WIN32)
string(REGEX REPLACE "^([a-zA-Z]):/" "/\\1/" current_installed_dir_msys "${current_installed_dir_msys}")
endif()
endmacro()
# Initializes well-known and auxiliary variables for flags
# - CPPFLAGS_<CONFIG>: preprocessor flags common to C and CXX
# - CFLAGS_<CONFIG>
# - CXXFLAGS_<CONFIG>
# - LDFLAGS_<CONFIG>
# - ARFLAGS_<CONFIG>
# - LINK_ENV_${var_suffix}
# Prerequisite: VCPKG_DETECTED_CMAKE_... vars loaded
function(z_vcpkg_configure_make_process_flags var_suffix)
# separate_arguments is needed to remove outer quotes from detected cmake variables.
# (e.g. Android NDK has "--sysroot=...")
separate_arguments(CFLAGS NATIVE_COMMAND "Z_VCM_WRAP ${VCPKG_DETECTED_CMAKE_C_FLAGS_${var_suffix}} Z_VCM_WRAP")
separate_arguments(CXXFLAGS NATIVE_COMMAND "Z_VCM_WRAP ${VCPKG_DETECTED_CMAKE_CXX_FLAGS_${var_suffix}} Z_VCM_WRAP")
separate_arguments(LDFLAGS NATIVE_COMMAND "${VCPKG_DETECTED_CMAKE_SHARED_LINKER_FLAGS_${var_suffix}}")
separate_arguments(ARFLAGS NATIVE_COMMAND "${VCPKG_DETECTED_CMAKE_STATIC_LINKER_FLAGS_${var_suffix}}")
foreach(var IN ITEMS CFLAGS CXXFLAGS LDFLAGS ARFLAGS)
vcpkg_list(APPEND z_vcm_all_flags ${${var}})
endforeach()
set(z_vcm_all_flags "${z_vcm_all_flags}" PARENT_SCOPE)
# Filter common CPPFLAGS out of CFLAGS and CXXFLAGS
vcpkg_list(SET CPPFLAGS)
vcpkg_list(SET pattern)
foreach(arg IN LISTS CXXFLAGS)
if(arg STREQUAL "Z_VCM_WRAP")
continue()
elseif(NOT pattern STREQUAL "")
vcpkg_list(APPEND pattern "${arg}")
elseif(arg MATCHES "^-(D|isystem).")
vcpkg_list(SET pattern "${arg}")
elseif(arg MATCHES "^-(D|isystem)\$")
vcpkg_list(SET pattern "${arg}")
continue()
elseif(arg MATCHES "^-(-sysroot|-target|m?[Aa][Rr][Cc][Hh])=.")
vcpkg_list(SET pattern "${arg}")
elseif(arg MATCHES "^-(isysroot|m32|m64|m?[Aa][Rr][Cc][Hh]|target)\$")
vcpkg_list(SET pattern "${arg}")
continue()
else()
continue()
endif()
string(FIND "${CFLAGS}" ";${pattern};" index)
if(NOT index STREQUAL "-1")
vcpkg_list(APPEND CPPFLAGS ${pattern})
string(REPLACE ";${pattern};" ";" CFLAGS "${CFLAGS}")
string(REPLACE ";${pattern};" ";" CXXFLAGS "${CXXFLAGS}")
endif()
vcpkg_list(SET pattern)
endforeach()
vcpkg_list(SET pattern)
foreach(arg IN LISTS CFLAGS)
if(arg STREQUAL "Z_VCM_WRAP")
continue()
elseif(NOT pattern STREQUAL "")
vcpkg_list(APPEND pattern "${arg}")
elseif(arg MATCHES "^-(D|isystem)\$")
vcpkg_list(SET pattern "${arg}")
continue()
elseif(arg MATCHES "^-(D|isystem).")
vcpkg_list(SET pattern "${arg}")
elseif(arg MATCHES "^-(-sysroot|-target|m?[Aa][Rr][Cc][Hh])=.")
vcpkg_list(SET pattern "${arg}")
elseif(arg MATCHES "^-(isysroot|m32|m64|m?[Aa][Rr][Cc][Hh]|target)\$")
vcpkg_list(SET pattern "${arg}")
continue()
else()
continue()
endif()
string(FIND "${CXXFLAGS}" ";${pattern};" index)
if(NOT index STREQUAL "-1")
vcpkg_list(APPEND CPPFLAGS ${pattern})
string(REPLACE ";${pattern};" ";" CFLAGS "${CFLAGS}")
string(REPLACE ";${pattern};" ";" CXXFLAGS "${CXXFLAGS}")
endif()
vcpkg_list(SET pattern)
endforeach()
# Remove start/end placeholders
foreach(list IN ITEMS CFLAGS CXXFLAGS)
vcpkg_list(REMOVE_ITEM ${list} "Z_VCM_WRAP")
endforeach()
# libtool tries to filter CFLAGS passed to the link stage via a whitelist.
# This approach is flawed since it fails to pass flags unknown to libtool
# but required for linking to the link stage (e.g. -fsanitize=<x>).
# libtool has an -R option so we need to guard against -RTC by using -Xcompiler.
# While configuring there might be a lot of unknown compiler option warnings
# due to that; just ignore them.
set(compiler_flag_escape "")
if(VCPKG_DETECTED_CMAKE_C_COMPILER_FRONTEND_VARIANT STREQUAL "MSVC" OR VCPKG_DETECTED_CMAKE_C_COMPILER_ID STREQUAL "MSVC")
set(compiler_flag_escape "-Xcompiler ")
endif()
if(compiler_flag_escape)
list(TRANSFORM CFLAGS PREPEND "${compiler_flag_escape}")
list(TRANSFORM CXXFLAGS PREPEND "${compiler_flag_escape}")
endif()
# Could use a future VCPKG_DETECTED_CMAKE_LIBRARY_PATH_FLAG
set(library_path_flag "-L")
# Could use a future VCPKG_DETECTED_MSVC
if(VCPKG_TARGET_IS_WINDOWS AND VCPKG_DETECTED_CMAKE_LINKER MATCHES [[link\.exe$]])
set(library_path_flag "-LIBPATH:")
endif()
set(linker_flag_escape "")
if(VCPKG_TARGET_IS_WINDOWS AND VCPKG_DETECTED_CMAKE_C_COMPILER MATCHES [[cl\.exe$]])
# Removed by libtool
set(linker_flag_escape "-Xlinker ")
if(arg_USE_WRAPPERS)
# 1st and 3rd are removed by libtool, 2nd by wrapper
set(linker_flag_escape "-Xlinker -Xlinker -Xlinker ")
endif()
if(VCPKG_LIBRARY_LINKAGE STREQUAL "static")
string(STRIP "$ENV{_LINK_} ${VCPKG_DETECTED_CMAKE_STATIC_LINKER_FLAGS_${var_suffix}}" LINK_ENV)
else()
string(STRIP "$ENV{_LINK_} ${VCPKG_DETECTED_CMAKE_SHARED_LINKER_FLAGS_${var_suffix}}" LINK_ENV)
endif()
endif()
if(linker_flag_escape)
list(TRANSFORM LDFLAGS PREPEND "${linker_flag_escape}")
endif()
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${var_suffix}}/lib/manual-link")
vcpkg_list(PREPEND LDFLAGS "${linker_flag_escape}${library_path_flag}${current_installed_dir_escaped}${path_suffix_${var_suffix}}/lib/manual-link")
endif()
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${var_suffix}}/lib")
vcpkg_list(PREPEND LDFLAGS "${linker_flag_escape}${library_path_flag}${current_installed_dir_escaped}${path_suffix_${var_suffix}}/lib")
endif()
if(ARFLAGS)
# ARFLAGS need to know the command for creating an archive (Maybe needs user customization?)
# or extract it from CMake via CMAKE_${lang}_ARCHIVE_CREATE ?
# or from CMAKE_${lang}_${rule} with rule being one of CREATE_SHARED_MODULE CREATE_SHARED_LIBRARY LINK_EXECUTABLE
vcpkg_list(PREPEND ARFLAGS "cr")
endif()
foreach(var IN ITEMS CPPFLAGS CFLAGS CXXFLAGS LDFLAGS ARFLAGS)
list(JOIN ${var} " " string)
set(${var}_${var_suffix} "${string}" PARENT_SCOPE)
endforeach()
endfunction()
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()
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}")
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(arg_SKIP_CONFIGURE)
# no action requested
elseif(EXISTS "${src_dir}/configure")
# run normally; no autoconf or autogen required
elseif(EXISTS "${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 ${cm_FLAGS})
# FC fotran compiler | FF Fortran 77 compiler
# LDFLAGS -> pass -L flags
# LIBS -> pass -l flags
# Used by gcc/linux
vcpkg_backup_env_variables(VARS C_INCLUDE_PATH CPLUS_INCLUDE_PATH LIBRARY_PATH LD_LIBRARY_PATH)
# Used by cl
vcpkg_backup_env_variables(VARS INCLUDE LIB LIBPATH)
vcpkg_list(SET z_vcm_paths_with_spaces)
if(CURRENT_PACKAGES_DIR MATCHES " ")
vcpkg_list(APPEND z_vcm_paths_with_spaces "${CURRENT_PACKAGES_DIR}")
endif()
if(CURRENT_INSTALLED_DIR MATCHES " ")
vcpkg_list(APPEND z_vcm_paths_with_spaces "${CURRENT_INSTALLED_DIR}")
endif()
if(z_vcm_paths_with_spaces)
# Don't bother with whitespace. The tools will probably fail and I tried very hard trying to make it work (no success so far)!
vcpkg_list(APPEND z_vcm_paths_with_spaces "Please move the path to one without whitespaces!")
list(JOIN z_vcm_paths_with_spaces "\n " z_vcm_paths_with_spaces)
message(STATUS "Warning: Paths with embedded space may be handled incorrectly by configure:\n ${z_vcm_paths_with_spaces}")
endif()
set(configure_env "V=1")
# Establish a bash environment as expected by autotools.
if(CMAKE_HOST_WIN32)
list(APPEND msys_require_packages autoconf-wrapper automake-wrapper binutils libtool make pkgconf 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"
"${system_root}/System32/"
"${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)
string(TOUPPER "${item}" item_upper)
if(item_upper IN_LIST find_system_dirs_upper)
set(appending FALSE)
break()
endif()
math(EXPR index "${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: ${arg_BUILD_TRIPLET}")
endif()
# Remove full filepaths due to spaces and prepend filepaths to PATH (cross-compiling tools are unlikely on path by default)
set(progs VCPKG_DETECTED_CMAKE_C_COMPILER VCPKG_DETECTED_CMAKE_CXX_COMPILER VCPKG_DETECTED_CMAKE_AR
VCPKG_DETECTED_CMAKE_LINKER VCPKG_DETECTED_CMAKE_RANLIB VCPKG_DETECTED_CMAKE_OBJDUMP
VCPKG_DETECTED_CMAKE_STRIP VCPKG_DETECTED_CMAKE_NM VCPKG_DETECTED_CMAKE_DLLTOOL VCPKG_DETECTED_CMAKE_RC_COMPILER)
foreach(prog IN LISTS progs)
set(filepath "${${prog}}")
if(filepath MATCHES " ")
cmake_path(GET filepath FILENAME ${prog})
find_program(z_vcm_prog_found NAMES "${${prog}}" PATHS ENV PATH NO_DEFAULT_PATH NO_CACHE)
if(NOT z_vcm_prog_found STREQUAL filepath)
cmake_path(GET filepath PARENT_PATH dir)
vcpkg_add_to_path(PREPEND "${dir}")
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. In release builds.
list(APPEND arg_OPTIONS gl_cv_double_slash_root=yes
ac_cv_func_memmove=yes)
#list(APPEND arg_OPTIONS lt_cv_deplibs_check_method=pass_all) # Just ignore libtool checks
if(VCPKG_TARGET_ARCHITECTURE MATCHES "^[Aa][Rr][Mm]64$")
list(APPEND arg_OPTIONS gl_cv_host_cpu_c_abi=no)
# Currently needed for arm64 because objdump yields: "unrecognised machine type (0xaa64) in Import Library Format archive"
list(APPEND arg_OPTIONS lt_cv_deplibs_check_method=pass_all)
elseif(VCPKG_TARGET_ARCHITECTURE MATCHES "^[Aa][Rr][Mm]$")
# Currently needed for arm because objdump yields: "unrecognised machine type (0x1c4) in Import Library Format archive"
list(APPEND arg_OPTIONS lt_cv_deplibs_check_method=pass_all)
endif()
else()
# OSX dosn't like CMAKE_C(XX)_COMPILER (cc) in CC/CXX and rather wants to have gcc/g++
vcpkg_list(SET z_vcm_all_tools)
function(z_vcpkg_make_set_env envvar cmakevar)
set(prog "${VCPKG_DETECTED_CMAKE_${cmakevar}}")
if(NOT DEFINED ENV{${envvar}} AND NOT prog STREQUAL "")
vcpkg_list(APPEND z_vcm_all_tools "${prog}")
if(ARGN)
string(APPEND prog " ${ARGN}")
endif()
set(z_vcm_all_tools "${z_vcm_all_tools}" PARENT_SCOPE)
set(ENV{${envvar}} "${prog}")
endif()
endfunction()
z_vcpkg_make_set_env(CC C_COMPILER)
if(NOT arg_BUILD_TRIPLET MATCHES "--host")
z_vcpkg_make_set_env(CC_FOR_BUILD C_COMPILER)
z_vcpkg_make_set_env(CPP_FOR_BUILD C_COMPILER "-E")
z_vcpkg_make_set_env(CXX_FOR_BUILD C_COMPILER)
else()
set(ENV{CC_FOR_BUILD} "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true")
set(ENV{CPP_FOR_BUILD} "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true")
set(ENV{CXX_FOR_BUILD} "touch a.out | touch conftest${VCPKG_HOST_EXECUTABLE_SUFFIX} | true")
endif()
z_vcpkg_make_set_env(CXX CXX_COMPILER)
z_vcpkg_make_set_env(NM NM)
z_vcpkg_make_set_env(RC RC)
z_vcpkg_make_set_env(WINDRES RC)
z_vcpkg_make_set_env(DLLTOOL DLLTOOL)
z_vcpkg_make_set_env(STRIP STRIP)
z_vcpkg_make_set_env(OBJDUMP OBJDUMP)
z_vcpkg_make_set_env(RANLIB RANLIB)
z_vcpkg_make_set_env(AR AR)
z_vcpkg_make_set_env(LD LINKER)
unset(z_vcpkg_make_set_env)
endif()
list(FILTER z_vcm_all_tools INCLUDE REGEX " ")
if(z_vcm_all_tools)
list(REMOVE_DUPLICATES z_vcm_all_tools)
list(JOIN z_vcm_all_tools "\n " tools)
message(STATUS "Warning: Tools with embedded space may be handled incorrectly by configure:\n ${tools}")
endif()
z_vcpkg_configure_make_common_definitions()
# Cleanup previous build dirs
file(REMOVE_RECURSE "${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}-${short_name_RELEASE}"
"${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}-${short_name_DEBUG}"
"${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}")
# Set configure paths
vcpkg_list(APPEND arg_OPTIONS_RELEASE "--prefix=${current_installed_dir_msys}")
vcpkg_list(APPEND arg_OPTIONS_DEBUG "--prefix=${current_installed_dir_msys}${path_suffix_DEBUG}")
if(NOT arg_NO_ADDITIONAL_PATHS)
# ${prefix} has an extra backslash to prevent early expansion when calling `bash -c configure "..."`.
vcpkg_list(APPEND arg_OPTIONS_RELEASE
# Important: These should all be relative to prefix!
"--bindir=\\\${prefix}/tools/${PORT}/bin"
"--sbindir=\\\${prefix}/tools/${PORT}/sbin"
"--libdir=\\\${prefix}/lib" # On some Linux distributions lib64 is the default
#"--includedir='\${prefix}'/include" # already the default!
"--mandir=\\\${prefix}/share/${PORT}"
"--docdir=\\\${prefix}/share/${PORT}"
"--datarootdir=\\\${prefix}/share/${PORT}")
vcpkg_list(APPEND arg_OPTIONS_DEBUG
# Important: These should all be relative to prefix!
"--bindir=\\\${prefix}/../tools/${PORT}${path_suffix_DEBUG}/bin"
"--sbindir=\\\${prefix}/../tools/${PORT}${path_suffix_DEBUG}/sbin"
"--libdir=\\\${prefix}/lib" # On some Linux distributions lib64 is the default
"--includedir=\\\${prefix}/../include"
"--datarootdir=\\\${prefix}/share/${PORT}")
endif()
# Setup common options
if(NOT arg_DISABLE_VERBOSE_FLAGS)
list(APPEND arg_OPTIONS --disable-silent-rules --verbose)
endif()
if(VCPKG_LIBRARY_LINKAGE STREQUAL dynamic)
list(APPEND arg_OPTIONS --enable-shared --disable-static)
else()
list(APPEND arg_OPTIONS --disable-shared --enable-static)
endif()
# Can be set in the triplet to append options for configure
if(DEFINED VCPKG_CONFIGURE_MAKE_OPTIONS)
list(APPEND arg_OPTIONS ${VCPKG_CONFIGURE_MAKE_OPTIONS})
endif()
if(DEFINED VCPKG_CONFIGURE_MAKE_OPTIONS_RELEASE)
list(APPEND arg_OPTIONS_RELEASE ${VCPKG_CONFIGURE_MAKE_OPTIONS_RELEASE})
endif()
if(DEFINED VCPKG_CONFIGURE_MAKE_OPTIONS_DEBUG)
list(APPEND arg_OPTIONS_DEBUG ${VCPKG_CONFIGURE_MAKE_OPTIONS_DEBUG})
endif()
file(RELATIVE_PATH relative_build_path "${CURRENT_BUILDTREES_DIR}" "${arg_SOURCE_PATH}/${arg_PROJECT_SUBPATH}")
# Used by CL
vcpkg_host_path_list(PREPEND ENV{INCLUDE} "${CURRENT_INSTALLED_DIR}/include")
# Used by GCC
vcpkg_host_path_list(PREPEND ENV{C_INCLUDE_PATH} "${CURRENT_INSTALLED_DIR}/include")
vcpkg_host_path_list(PREPEND ENV{CPLUS_INCLUDE_PATH} "${CURRENT_INSTALLED_DIR}/include")
# Flags should be set in the toolchain instead (Setting this up correctly requires a function named vcpkg_determined_cmake_compiler_flags which can also be used to setup CC and CXX etc.)
if(VCPKG_TARGET_IS_WINDOWS)
vcpkg_backup_env_variables(VARS _CL_ _LINK_)
# TODO: Should be CPP flags instead -> rewrite when vcpkg_determined_cmake_compiler_flags defined
if(VCPKG_TARGET_IS_UWP)
# Be aware that configure thinks it is crosscompiling due to:
# error while loading shared libraries: VCRUNTIME140D_APP.dll:
# cannot open shared object file: No such file or directory
# IMPORTANT: The only way to pass linker flags through libtool AND the compile wrapper
# is to use the CL and LINK environment variables !!!
# (This is due to libtool and compiler wrapper using the same set of options to pass those variables around)
file(TO_CMAKE_PATH "$ENV{VCToolsInstallDir}" VCToolsInstallDir)
set(_replacement -FU\"${VCToolsInstallDir}/lib/x86/store/references/platform.winmd\")
string(REPLACE "${_replacement}" "" VCPKG_DETECTED_CMAKE_CXX_FLAGS_DEBUG "${VCPKG_DETECTED_CMAKE_CXX_FLAGS_DEBUG}")
string(REPLACE "${_replacement}" "" VCPKG_DETECTED_CMAKE_C_FLAGS_DEBUG "${VCPKG_DETECTED_CMAKE_C_FLAGS_DEBUG}")
string(REPLACE "${_replacement}" "" VCPKG_DETECTED_CMAKE_CXX_FLAGS_RELEASE "${VCPKG_DETECTED_CMAKE_CXX_FLAGS_RELEASE}")
string(REPLACE "${_replacement}" "" VCPKG_DETECTED_CMAKE_C_FLAGS_RELEASE "${VCPKG_DETECTED_CMAKE_C_FLAGS_RELEASE}")
# Can somebody please check if CMake's compiler flags for UWP are correct?
set(ENV{_CL_} "$ENV{_CL_} -FU\"${VCToolsInstallDir}/lib/x86/store/references/platform.winmd\"")
set(ENV{_LINK_} "$ENV{_LINK_} ${VCPKG_DETECTED_CMAKE_C_STANDARD_LIBRARIES} ${VCPKG_DETECTED_CMAKE_CXX_STANDARD_LIBRARIES}")
endif()
endif()
# Remove outer quotes from cmake variables which will be forwarded via makefile/shell variables
# substituted into makefile commands (e.g. Android NDK has "--sysroot=...")
separate_arguments(c_libs_list NATIVE_COMMAND "${VCPKG_DETECTED_CMAKE_C_STANDARD_LIBRARIES}")
separate_arguments(cxx_libs_list NATIVE_COMMAND "${VCPKG_DETECTED_CMAKE_CXX_STANDARD_LIBRARIES}")
list(REMOVE_ITEM cxx_libs_list ${c_libs_list})
set(all_libs_list ${cxx_libs_list} ${c_libs_list})
#Do lib list transformation from name.lib to -lname if necessary
set(x_vcpkg_transform_libs ON)
if(VCPKG_TARGET_IS_UWP)
set(x_vcpkg_transform_libs OFF)
# Avoid libtool choke: "Warning: linker path does not have real file for library -lWindowsApp."
# The problem with the choke is that libtool always falls back to built a static library even if a dynamic was requested.
# Note: Env LIBPATH;LIB are on the search path for libtool by default on windows.
# It even does unix/dos-short/unix transformation with the path to get rid of spaces.
endif()
if(x_vcpkg_transform_libs)
list(TRANSFORM all_libs_list REPLACE "[.](dll[.]lib|lib|a|so)$" "")
if(VCPKG_TARGET_IS_WINDOWS)
list(REMOVE_ITEM all_libs_list "uuid")
endif()
list(TRANSFORM all_libs_list REPLACE "^([^-].*)" "-l\\1")
if(VCPKG_TARGET_IS_MINGW AND VCPKG_LIBRARY_LINKAGE STREQUAL "dynamic")
# libtool must be told explicitly that there is no dynamic linkage for uuid.
# The "-Wl,..." syntax is understood by libtool and gcc, but no by ld.
list(TRANSFORM all_libs_list REPLACE "^-luuid\$" "-Wl,-Bstatic,-luuid,-Bdynamic")
endif()
endif()
if(all_libs_list)
list(JOIN all_libs_list " " all_libs_string)
if(DEFINED ENV{LIBS})
set(ENV{LIBS} "$ENV{LIBS} ${all_libs_string}")
else()
set(ENV{LIBS} "${all_libs_string}")
endif()
endif()
debug_message("ENV{LIBS}:$ENV{LIBS}")
# Run autoconf if necessary
if (arg_AUTOCONFIG OR requires_autoconfig AND NOT arg_NO_AUTOCONFIG)
find_program(AUTORECONF autoreconf)
if(NOT AUTORECONF)
message(FATAL_ERROR "${PORT} requires autoconf from the system package manager (example: \"sudo apt-get install autoconf\")")
endif()
message(STATUS "Generating configure for ${TARGET_TRIPLET}")
if (CMAKE_HOST_WIN32)
vcpkg_execute_required_process(
COMMAND ${base_cmd} -c "autoreconf -vfi"
WORKING_DIRECTORY "${src_dir}"
LOGNAME "autoconf-${TARGET_TRIPLET}"
)
else()
vcpkg_execute_required_process(
COMMAND "${AUTORECONF}" -vfi
WORKING_DIRECTORY "${src_dir}"
LOGNAME "autoconf-${TARGET_TRIPLET}"
)
endif()
message(STATUS "Finished generating configure for ${TARGET_TRIPLET}")
endif()
if(requires_autogen)
message(STATUS "Generating configure for ${TARGET_TRIPLET} via autogen.sh")
if (CMAKE_HOST_WIN32)
vcpkg_execute_required_process(
COMMAND ${base_cmd} -c "./autogen.sh"
WORKING_DIRECTORY "${src_dir}"
LOGNAME "autoconf-${TARGET_TRIPLET}"
)
else()
vcpkg_execute_required_process(
COMMAND "./autogen.sh"
WORKING_DIRECTORY "${src_dir}"
LOGNAME "autoconf-${TARGET_TRIPLET}"
)
endif()
message(STATUS "Finished generating configure for ${TARGET_TRIPLET}")
endif()
if (arg_PRERUN_SHELL)
message(STATUS "Prerun shell with ${TARGET_TRIPLET}")
if (CMAKE_HOST_WIN32)
vcpkg_execute_required_process(
COMMAND ${base_cmd} -c "${arg_PRERUN_SHELL}"
WORKING_DIRECTORY "${src_dir}"
LOGNAME "prerun-${TARGET_TRIPLET}"
)
else()
vcpkg_execute_required_process(
COMMAND "${base_cmd}" -c "${arg_PRERUN_SHELL}"
WORKING_DIRECTORY "${src_dir}"
LOGNAME "prerun-${TARGET_TRIPLET}"
)
endif()
endif()
if(NOT DEFINED VCPKG_BUILD_TYPE OR VCPKG_BUILD_TYPE STREQUAL "debug" AND NOT arg_NO_DEBUG)
list(APPEND all_buildtypes DEBUG)
z_vcpkg_configure_make_process_flags(DEBUG)
endif()
if(NOT DEFINED VCPKG_BUILD_TYPE OR VCPKG_BUILD_TYPE STREQUAL "release")
list(APPEND all_buildtypes RELEASE)
z_vcpkg_configure_make_process_flags(RELEASE)
endif()
list(FILTER z_vcm_all_flags INCLUDE REGEX " ")
if(z_vcm_all_flags)
list(REMOVE_DUPLICATES z_vcm_all_flags)
list(JOIN z_vcm_all_flags "\n " flags)
message(STATUS "Warning: Arguments with embedded space may be handled incorrectly by configure:\n ${flags}")
endif()
foreach(var IN ITEMS arg_OPTIONS arg_OPTIONS_RELEASE arg_OPTIONS_DEBUG)
vcpkg_list(SET tmp)
foreach(element IN LISTS "${var}")
string(REPLACE [["]] [[\"]] element "${element}")
vcpkg_list(APPEND tmp "\"${element}\"")
endforeach()
vcpkg_list(JOIN tmp " " "${var}")
endforeach()
foreach(current_buildtype IN LISTS all_buildtypes)
foreach(ENV_VAR ${arg_CONFIG_DEPENDENT_ENVIRONMENT})
if(DEFINED ENV{${ENV_VAR}})
set(backup_config_${ENV_VAR} "$ENV{${ENV_VAR}}")
endif()
set(ENV{${ENV_VAR}} "${${ENV_VAR}_${current_buildtype}}")
endforeach()
set(target_dir "${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}-${short_name_${current_buildtype}}")
file(MAKE_DIRECTORY "${target_dir}")
file(RELATIVE_PATH relative_build_path "${target_dir}" "${src_dir}")
if(arg_COPY_SOURCE)
file(COPY "${src_dir}/" DESTINATION "${target_dir}")
set(relative_build_path .)
endif()
# Setup PKG_CONFIG_PATH
z_vcpkg_setup_pkgconfig_path(CONFIG "${current_buildtype}")
# Setup environment
set(ENV{CPPFLAGS} "${CPPFLAGS_${current_buildtype}}")
set(ENV{CPPFLAGS_FOR_BUILD} "${CPPFLAGS_${current_buildtype}}")
set(ENV{CFLAGS} "${CFLAGS_${current_buildtype}}")
set(ENV{CFLAGS_FOR_BUILD} "${CFLAGS_${current_buildtype}}")
set(ENV{CXXFLAGS} "${CXXFLAGS_${current_buildtype}}")
#set(ENV{CXXFLAGS_FOR_BUILD} "${CXXFLAGS_${current_buildtype}}") -> doesn't exist officially
set(ENV{RCFLAGS} "${VCPKG_DETECTED_CMAKE_RC_FLAGS_${current_buildtype}}")
set(ENV{LDFLAGS} "${LDFLAGS_${current_buildtype}}")
set(ENV{LDFLAGS_FOR_BUILD} "${LDFLAGS_${current_buildtype}}")
if(ARFLAGS_${current_buildtype} AND NOT (arg_USE_WRAPPERS AND VCPKG_TARGET_IS_WINDOWS))
# Target windows with wrappers enabled cannot forward ARFLAGS since it breaks the wrapper
set(ENV{ARFLAGS} "${ARFLAGS_${current_buildtype}}")
endif()
if(VCPKG_TARGET_IS_OSX OR VCPKG_TARGET_IS_IOS)
# configure not using all flags to check if compiler works ...
set(ENV{CC} "$ENV{CC} $ENV{CPPFLAGS} $ENV{CFLAGS}")
set(ENV{CC_FOR_BUILD} "$ENV{CC_FOR_BUILD} $ENV{CPPFLAGS} $ENV{CFLAGS}")
endif()
if(LINK_ENV_${current_buildtype})
set(link_config_backup "$ENV{_LINK_}")
set(ENV{_LINK_} "${LINK_ENV_${current_buildtype}}")
else()
unset(link_config_backup)
endif()
vcpkg_list(APPEND lib_env_vars LIB LIBPATH LIBRARY_PATH) # LD_LIBRARY_PATH)
foreach(lib_env_var IN LISTS lib_env_vars)
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${current_buildtype}}/lib")
vcpkg_host_path_list(PREPEND ENV{${lib_env_var}} "${CURRENT_INSTALLED_DIR}${path_suffix_${current_buildtype}}/lib")
endif()
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${current_buildtype}}/lib/manual-link")
vcpkg_host_path_list(PREPEND ENV{${lib_env_var}} "${CURRENT_INSTALLED_DIR}${path_suffix_${current_buildtype}}/lib/manual-link")
endif()
endforeach()
unset(lib_env_vars)
set(command "${base_cmd}" -c "${configure_env} ./${relative_build_path}/configure ${arg_BUILD_TRIPLET} ${arg_OPTIONS} ${arg_OPTIONS_${current_buildtype}}")
if(arg_ADD_BIN_TO_PATH)
set(path_backup $ENV{PATH})
vcpkg_add_to_path("${CURRENT_INSTALLED_DIR}${path_suffix_${current_buildtype}}/bin")
endif()
debug_message("Configure command:'${command}'")
if (NOT arg_SKIP_CONFIGURE)
message(STATUS "Configuring ${TARGET_TRIPLET}-${short_name_${current_buildtype}}")
vcpkg_execute_required_process(
COMMAND ${command}
WORKING_DIRECTORY "${target_dir}"
LOGNAME "config-${TARGET_TRIPLET}-${short_name_${current_buildtype}}"
SAVE_LOG_FILES config.log
)
if(VCPKG_TARGET_IS_WINDOWS AND NOT VCPKG_TARGET_IS_MINGW AND VCPKG_LIBRARY_LINKAGE STREQUAL dynamic)
file(GLOB_RECURSE libtool_files "${target_dir}*/libtool")
foreach(lt_file IN LISTS libtool_files)
file(READ "${lt_file}" _contents)
string(REPLACE ".dll.lib" ".lib" _contents "${_contents}")
file(WRITE "${lt_file}" "${_contents}")
endforeach()
endif()
endif()
z_vcpkg_restore_pkgconfig_path()
if(DEFINED link_config_backup)
set(ENV{_LINK_} "${link_config_backup}")
endif()
if(arg_ADD_BIN_TO_PATH)
set(ENV{PATH} "${path_backup}")
endif()
# Restore environment (config dependent)
foreach(ENV_VAR IN LISTS ${arg_CONFIG_DEPENDENT_ENVIRONMENT})
if(backup_config_${ENV_VAR})
set(ENV{${ENV_VAR}} "${backup_config_${ENV_VAR}}")
else()
unset(ENV{${ENV_VAR}})
endif()
endforeach()
endforeach()
# Export matching make program for vcpkg_build_make (cache variable)
if(CMAKE_HOST_WIN32 AND MSYS_ROOT)
find_program(Z_VCPKG_MAKE make PATHS "${MSYS_ROOT}/usr/bin" NO_DEFAULT_PATH REQUIRED)
elseif(VCPKG_HOST_IS_FREEBSD OR VCPKG_HOST_IS_OPENBSD)
find_program(Z_VCPKG_MAKE gmake REQUIRED)
else()
find_program(Z_VCPKG_MAKE make REQUIRED)
endif()
# Restore environment
vcpkg_restore_env_variables(VARS ${cm_FLAGS} LIB LIBPATH LIBRARY_PATH LD_LIBRARY_PATH)
set(_VCPKG_PROJECT_SOURCE_PATH ${arg_SOURCE_PATH} PARENT_SCOPE)
set(_VCPKG_PROJECT_SUBPATH ${arg_PROJECT_SUBPATH} PARENT_SCOPE)
set(_VCPKG_MAKE_NO_DEBUG ${arg_NO_DEBUG} PARENT_SCOPE)
endfunction()