vcpkg/scripts/cmake/vcpkg_configure_make.cmake

879 lines
46 KiB
CMake

#[===[.md:
# vcpkg_configure_make
Configure configure for Debug and Release builds of a project.
## Usage
```cmake
vcpkg_configure_make(
SOURCE_PATH <${SOURCE_PATH}>
[AUTOCONFIG]
[USE_WRAPPERS]
[DETERMINE_BUILD_TRIPLET]
[BUILD_TRIPLET "--host=x64 --build=i686-unknown-pc"]
[NO_ADDITIONAL_PATHS]
[CONFIG_DEPENDENT_ENVIRONMENT <SOME_VAR>...]
[CONFIGURE_ENVIRONMENT_VARIABLES <SOME_ENVVAR>...]
[ADD_BIN_TO_PATH]
[NO_DEBUG]
[SKIP_CONFIGURE]
[PROJECT_SUBPATH <${PROJ_SUBPATH}>]
[PRERUN_SHELL <${SHELL_PATH}>]
[OPTIONS <-DUSE_THIS_IN_ALL_BUILDS=1>...]
[OPTIONS_RELEASE <-DOPTIMIZE=1>...]
[OPTIONS_DEBUG <-DDEBUGGABLE=1>...]
)
```
## Parameters
### SOURCE_PATH
Specifies the directory containing the `configure`/`configure.ac`.
By convention, this is usually set in the portfile as the variable `SOURCE_PATH`.
### PROJECT_SUBPATH
Specifies the directory containing the ``configure`/`configure.ac`.
By convention, this is usually set in the portfile as the variable `SOURCE_PATH`.
### SKIP_CONFIGURE
Skip configure process
### USE_WRAPPERS
Use autotools ar-lib and compile wrappers (only applies to windows cl and lib)
### BUILD_TRIPLET
Used to pass custom --build/--target/--host to configure. Can be globally overwritten by VCPKG_MAKE_BUILD_TRIPLET
### DETERMINE_BUILD_TRIPLET
For ports having a configure script following the autotools rules for selecting the triplet
### NO_ADDITIONAL_PATHS
Don't pass any additional paths except for --prefix to the configure call
### AUTOCONFIG
Need to use autoconfig to generate configure file.
### PRERUN_SHELL
Script that needs to be called before configuration (do not use for batch files which simply call autoconf or configure)
### ADD_BIN_TO_PATH
Adds the appropriate Release and Debug `bin\` directories to the path during configure such that executables can run against the in-tree DLLs.
## DISABLE_VERBOSE_FLAGS
do not pass '--disable-silent-rules --verbose' to configure
### OPTIONS
Additional options passed to configure during the configuration.
### OPTIONS_RELEASE
Additional options passed to configure during the Release configuration. These are in addition to `OPTIONS`.
### OPTIONS_DEBUG
Additional options passed to configure during the Debug configuration. These are in addition to `OPTIONS`.
### CONFIG_DEPENDENT_ENVIRONMENT
List of additional configuration dependent environment variables to set.
Pass SOMEVAR to set the environment and have SOMEVAR_(DEBUG|RELEASE) set in the portfile to the appropriate values
General environment variables can be set from within the portfile itself.
### CONFIGURE_ENVIRONMENT_VARIABLES
List of additional environment variables to pass via the configure call.
## Notes
This command supplies many common arguments to configure. To see the full list, examine the source.
## Examples
* [x264](https://github.com/Microsoft/vcpkg/blob/master/ports/x264/portfile.cmake)
* [tcl](https://github.com/Microsoft/vcpkg/blob/master/ports/tcl/portfile.cmake)
* [freexl](https://github.com/Microsoft/vcpkg/blob/master/ports/freexl/portfile.cmake)
* [libosip2](https://github.com/Microsoft/vcpkg/blob/master/ports/libosip2/portfile.cmake)
#]===]
macro(z_vcpkg_determine_host_mingw out_var)
if(DEFINED ENV{PROCESSOR_ARCHITEW6432})
set(host_arch $ENV{PROCESSOR_ARCHITEW6432})
else()
set(host_arch $ENV{PROCESSOR_ARCHITECTURE})
endif()
if(host_arch MATCHES "(amd|AMD)64")
set(${out_var} mingw64)
elseif(host_arch MATCHES "(x|X)86")
set(${out_var} mingw32)
else()
message(FATAL_ERROR "Unsupported mingw architecture ${host_arch} in z_vcpkg_determine_autotools_host_cpu!" )
endif()
unset(host_arch)
endmacro()
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 ${VCPKG_TARGET_ARCHITECTURE} in z_vcpkg_determine_autotools_target_cpu!" )
endif()
endmacro()
macro(z_vcpkg_determine_autotools_host_arch_mac out_var)
set(${out_var} "${VCPKG_DETECTED_CMAKE_HOST_SYSTEM_PROCESSOR}")
endmacro()
macro(z_vcpkg_determine_autotools_target_arch_mac out_var)
list(LENGTH VCPKG_OSX_ARCHITECTURES osx_archs_num)
if(osx_archs_num EQUAL 0)
set(${out_var} "${VCPKG_DETECTED_CMAKE_HOST_SYSTEM_PROCESSOR}")
elseif(osx_archs_num GREATER_EQUAL 2)
set(${out_var} "universal")
else()
# 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(VCPKG_OSX_ARCHITECTURES MATCHES "^(ARM|arm)64$")
set(${out_var} "aarch64")
else()
set(${out_var} "${VCPKG_OSX_ARCHITECTURES}")
endif()
endif()
unset(osx_archs_num)
endmacro()
macro(z_vcpkg_extract_cpp_flags_and_set_cflags_and_cxxflags flag_suffix)
string(REGEX MATCHALL "( |^)-D[^ ]+" CPPFLAGS_${flag_suffix} "${VCPKG_DETECTED_CMAKE_C_FLAGS_${flag_suffix}}")
string(REGEX MATCHALL "( |^)-D[^ ]+" CXXPPFLAGS_${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_${flag_suffix}}")
# libtool has and -R option so we need to guard against -RTC by using -Xcompiler
# while configuring there might be a lot of unknown compiler option warnings due to that
# just ignore them.
string(REGEX REPLACE "((-|/)RTC[^ ]+)" "-Xcompiler \\1" CFLAGS_${flag_suffix} "${CFLAGS_${flag_suffix}}")
string(REGEX REPLACE "((-|/)RTC[^ ]+)" "-Xcompiler \\1" 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})
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()
# Setup include environment (since these are buildtype independent restoring them is unnecessary)
macro(z_prepend_include_path var)
unset(ENV{${var}})
if(NOT DEFINED z_vcpkg_env_backup_${var} OR "${z_vcpkg_env_backup_${var}}" STREQUAL "")
vcpkg_host_path_list(APPEND ENV{${var}} "${CURRENT_INSTALLED_DIR}/include")
else()
foreach (one_bk IN ITEMS ${z_vcpkg_env_backup_${var}})
vcpkg_host_path_list(PREPEND ENV{${var}} "${one_bk}")
endforeach()
vcpkg_host_path_list(PREPEND ENV{${var}} "${CURRENT_INSTALLED_DIR}/include")
endif()
endmacro()
macro(z_convert_to_list input output)
string(REGEX MATCHALL "(( +|^ *)[^ ]+)" ${output} "${${input}}")
endmacro()
function(vcpkg_configure_make)
# parse parameters such that semicolons in options arguments to COMMAND don't get erased
cmake_parse_arguments(PARSE_ARGV 0 arg
"AUTOCONFIG;SKIP_CONFIGURE;COPY_SOURCE;DISABLE_VERBOSE_FLAGS;NO_ADDITIONAL_PATHS;ADD_BIN_TO_PATH;NO_DEBUG;USE_WRAPPERS;DETERMINE_BUILD_TRIPLET"
"SOURCE_PATH;PROJECT_SUBPATH;PRERUN_SHELL;BUILD_TRIPLET"
"OPTIONS;OPTIONS_DEBUG;OPTIONS_RELEASE;CONFIGURE_ENVIRONMENT_VARIABLES;CONFIG_DEPENDENT_ENVIRONMENT;ADDITIONAL_MSYS_PACKAGES"
)
if(DEFINED arg_UNPARSED_ARGUMENTS)
message(WARNING "${CMAKE_CURRENT_FUNCTION} was passed extra arguments: ${arg_UNPARSED_ARGUMENTS}")
endif()
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 "${src_dir}/configure.ac") # remove configure; rerun autoconf
if(NOT VCPKG_MAINTAINER_SKIP_AUTOCONFIG) # If fixing bugs skipping autoconfig saves a lot of time
set(requires_autoconfig ON)
file(REMOVE "${SRC_DIR}/configure") # remove possible autodated configure scripts
set(arg_AUTOCONFIG ON)
endif()
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()
# Backup environment variables
# CCAS CC C CPP CXX FC FF GC LD LF LIBTOOL OBJC OBJCXX R UPC Y
set(cm_FLAGS 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")
# Pre-processing windows configure requirements
if (VCPKG_TARGET_IS_WINDOWS)
if(CMAKE_HOST_WIN32)
list(APPEND msys_require_packages binutils libtool autoconf automake-wrapper automake1.16 m4)
vcpkg_acquire_msys(MSYS_ROOT PACKAGES ${msys_require_packages} ${arg_ADDITIONAL_MSYS_PACKAGES})
endif()
if (arg_DETERMINE_BUILD_TRIPLET OR NOT arg_BUILD_TRIPLET)
z_vcpkg_determine_autotools_host_cpu(BUILD_ARCH) # VCPKG_HOST => machine you are building on => --build=
z_vcpkg_determine_autotools_target_cpu(TARGET_ARCH)
# --build: the machine you are building on
# --host: the machine you are building for
# --target: the machine that CC will produce binaries for
# https://stackoverflow.com/questions/21990021/how-to-determine-host-value-for-configure-when-using-cross-compiler
# Only for ports using autotools so we can assume that they follow the common conventions for build/target/host
if(CMAKE_HOST_WIN32)
set(arg_BUILD_TRIPLET "--build=${BUILD_ARCH}-pc-mingw32") # This is required since we are running in a msys
# shell which will be otherwise identified as ${BUILD_ARCH}-pc-msys
endif()
if(NOT TARGET_ARCH MATCHES "${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: ${arg_BUILD_TRIPLET}")
endif()
if(CMAKE_HOST_WIN32)
set(append_env)
if(arg_USE_WRAPPERS)
set(append_env ";${MSYS_ROOT}/usr/share/automake-1.16")
string(APPEND append_env ";${SCRIPTS}/buildsystems/make_wrapper") # Other required wrappers are also located there
endif()
# This inserts msys before system32 (which masks sort.exe and find.exe) but after MSVC (which avoids masking link.exe)
string(REPLACE ";$ENV{SystemRoot}\\System32;" "${append_env};${MSYS_ROOT}/usr/bin;$ENV{SystemRoot}\\System32;" NEWPATH "$ENV{PATH}")
string(REPLACE ";$ENV{SystemRoot}\\system32;" "${append_env};${MSYS_ROOT}/usr/bin;$ENV{SystemRoot}\\system32;" NEWPATH "$ENV{PATH}")
set(ENV{PATH} "${NEWPATH}")
set(bash_executable "${MSYS_ROOT}/usr/bin/bash.exe")
endif()
# Remove full filepaths due to spaces and prepend filepaths to PATH (cross-compiling tools are unlikely on path by default)
set(progs VCPKG_DETECTED_CMAKE_C_COMPILER VCPKG_DETECTED_CMAKE_CXX_COMPILER VCPKG_DETECTED_CMAKE_AR
VCPKG_DETECTED_CMAKE_LINKER VCPKG_DETECTED_CMAKE_RANLIB VCPKG_DETECTED_CMAKE_OBJDUMP
VCPKG_DETECTED_CMAKE_STRIP VCPKG_DETECTED_CMAKE_NM VCPKG_DETECTED_CMAKE_DLLTOOL VCPKG_DETECTED_CMAKE_RC_COMPILER)
foreach(prog IN LISTS progs)
if(${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}")
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 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 "${VCPKG_DETECTED_CMAKE_C_COMPILER}")
z_vcpkg_append_to_configure_environment(configure_env CC_FOR_BUILD "${VCPKG_DETECTED_CMAKE_C_COMPILER}")
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()
endif()
# 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.
# CURRENT_INSTALLED_DIR: Pristine native path (unprotected spaces, Windows drive letters)
# z_vcpkg_installed_path: Native path with escaped space characters
# z_vcpkg_prefix_path: Path with unprotected spaces, but drive letters transformed for mingw/msys
string(REPLACE " " "\\ " z_vcpkg_installed_path "${CURRENT_INSTALLED_DIR}")
if(CMAKE_HOST_WIN32)
string(REGEX REPLACE "([a-zA-Z]):/" "/\\1/" z_vcpkg_prefix_path "${CURRENT_INSTALLED_DIR}")
else()
set(z_vcpkg_prefix_path "${CURRENT_INSTALLED_DIR}")
endif()
# macOS - cross-compiling support
if(VCPKG_TARGET_IS_OSX)
if (requires_autoconfig AND NOT arg_BUILD_TRIPLET OR arg_DETERMINE_BUILD_TRIPLET)
z_vcpkg_determine_autotools_host_arch_mac(BUILD_ARCH) # machine you are building on => --build=
z_vcpkg_determine_autotools_target_arch_mac(TARGET_ARCH)
# --build: the machine you are building on
# --host: the machine you are building for
# --target: the machine that CC will produce binaries for
# https://stackoverflow.com/questions/21990021/how-to-determine-host-value-for-configure-when-using-cross-compiler
# Only for ports using autotools so we can assume that they follow the common conventions for build/target/host
if(NOT "${TARGET_ARCH}" STREQUAL "${BUILD_ARCH}") # we don't need to specify the additional flags if we build natively.
set(arg_BUILD_TRIPLET "--host=${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: ${arg_BUILD_TRIPLET}")
endif()
endif()
# Cleanup previous build dirs
file(REMOVE_RECURSE "${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}-rel"
"${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}-dbg"
"${CURRENT_BUILDTREES_DIR}/${TARGET_TRIPLET}")
# Set configure paths
set(arg_OPTIONS_RELEASE ${arg_OPTIONS_RELEASE} "--prefix=${z_vcpkg_prefix_path}")
set(arg_OPTIONS_DEBUG ${arg_OPTIONS_DEBUG} "--prefix=${z_vcpkg_prefix_path}/debug")
if(NOT arg_NO_ADDITIONAL_PATHS)
# ${prefix} has an extra backslash to prevent early expansion when calling `bash -c configure "..."`.
set(arg_OPTIONS_RELEASE ${arg_OPTIONS_RELEASE}
# Important: These should all be relative to prefix!
"--bindir=\\\${prefix}/tools/${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}")
set(arg_OPTIONS_DEBUG ${arg_OPTIONS_DEBUG}
# Important: These should all be relative to prefix!
"--bindir=\\\${prefix}/../tools/${PORT}/debug/bin"
"--sbindir=\\\${prefix}/../tools/${PORT}/debug/sbin"
"--libdir=\\\${prefix}/lib" # On some Linux distributions lib64 is the default
"--includedir=\\\${prefix}/../include"
"--datarootdir=\\\${prefix}/share/${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}")
set(base_cmd)
if(CMAKE_HOST_WIN32)
set(base_cmd ${bash_executable} --noprofile --norc --debug)
else()
find_program(base_cmd bash REQUIRED)
endif()
# Used by CL
z_prepend_include_path(INCLUDE)
# Used by GCC
z_prepend_include_path(C_INCLUDE_PATH)
z_prepend_include_path(CPLUS_INCLUDE_PATH)
# Flags should be set in the toolchain instead (Setting this up correctly requires a function named vcpkg_determined_cmake_compiler_flags which can also be used to setup CC and CXX etc.)
if(VCPKG_TARGET_IS_WINDOWS)
vcpkg_backup_env_variables(VARS _CL_ _LINK_)
# TODO: Should be CPP flags instead -> rewrite when vcpkg_determined_cmake_compiler_flags defined
if(VCPKG_TARGET_IS_UWP)
# Be aware that configure thinks it is crosscompiling due to:
# error while loading shared libraries: VCRUNTIME140D_APP.dll:
# cannot open shared object file: No such file or directory
# IMPORTANT: The only way to pass linker flags through libtool AND the compile wrapper
# is to use the CL and LINK environment variables !!!
# (This is due to libtool and compiler wrapper using the same set of options to pass those variables around)
file(TO_CMAKE_PATH "$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()
z_convert_to_list(VCPKG_DETECTED_CMAKE_C_STANDARD_LIBRARIES c_libs_list)
z_convert_to_list(VCPKG_DETECTED_CMAKE_CXX_STANDARD_LIBRARIES cxx_libs_list)
set(all_libs_list ${c_libs_list} ${cxx_libs_list})
list(REMOVE_DUPLICATES all_libs_list)
list(TRANSFORM all_libs_list STRIP)
#Do lib list transformation from name.lib to -lname if necessary
set(x_vcpkg_transform_libs ON)
if(VCPKG_TARGET_IS_UWP)
set(x_vcpkg_transform_libs OFF)
# Avoid libtool choke: "Warning: linker path does not have real file for library -lWindowsApp."
# The problem with the choke is that libtool always falls back to built a static library even if a dynamic was requested.
# Note: Env LIBPATH;LIB are on the search path for libtool by default on windows.
# It even does unix/dos-short/unix transformation with the path to get rid of spaces.
endif()
set(l_prefix)
if(x_vcpkg_transform_libs)
set(l_prefix "-l")
list(TRANSFORM all_libs_list REPLACE "(.dll.lib|.lib|.a|.so)$" "")
if(VCPKG_TARGET_IS_WINDOWS)
list(REMOVE_ITEM all_libs_list "uuid")
endif()
list(TRANSFORM all_libs_list REPLACE "^(${l_prefix})" "")
endif()
list(JOIN all_libs_list " ${l_prefix}" all_libs_string)
if(VCPKG_TARGET_IS_MINGW AND VCPKG_LIBRARY_LINKAGE STREQUAL "dynamic")
# libtool must be told explicitly that there is no dynamic linkage for uuid.
# The "-Wl,..." syntax is understood by libtool and gcc, but no by ld.
string(REPLACE " -luuid" " -Wl,-Bstatic,-luuid,-Bdynamic" all_libs_string "${all_libs_string}")
endif()
if(all_libs_string)
set(all_libs_string "${l_prefix}${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}:$ENV{LIBS}")
vcpkg_find_acquire_program(PKGCONFIG)
if(VCPKG_LIBRARY_LINKAGE STREQUAL "static" AND NOT PKGCONFIG STREQUAL "--static")
set(PKGCONFIG "${PKGCONFIG} --static") # Is this still required or was the PR changing the pc files accordingly merged?
endif()
# Run autoconf if necessary
if (arg_AUTOCONFIG OR requires_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)
set(var_suffix DEBUG)
set(path_suffix_${var_suffix} "/debug")
set(short_name_${var_suffix} "dbg")
list(APPEND all_buildtypes ${var_suffix})
if(VCPKG_LIBRARY_LINKAGE STREQUAL "static")
set(LINKER_FLAGS_${var_suffix} "${VCPKG_DETECTED_CMAKE_STATIC_LINKER_FLAGS_${var_suffix}}")
else() # dynamic
set(LINKER_FLAGS_${var_suffix} "${VCPKG_DETECTED_CMAKE_SHARED_LINKER_FLAGS_${var_suffix}}")
endif()
z_vcpkg_extract_cpp_flags_and_set_cflags_and_cxxflags(${var_suffix})
if (CMAKE_HOST_WIN32 AND VCPKG_DETECTED_CMAKE_C_COMPILER MATCHES "cl.exe")
if(NOT vcm_paths_with_spaces)
set(LDFLAGS_${var_suffix} "-L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib -L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib/manual-link")
endif()
if(DEFINED ENV{_LINK_})
set(LINK_ENV_${var_suffix} "$ENV{_LINK_} ${LINKER_FLAGS_${var_suffix}}")
else()
set(LINK_ENV_${var_suffix} "${LINKER_FLAGS_${var_suffix}}")
endif()
else()
set(link_required_dirs)
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${var_suffix}}/lib")
set(link_required_dirs "-L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib")
endif()
if(EXISTS "{CURRENT_INSTALLED_DIR}${path_suffix_${var_suffix}}/lib/manual-link")
set(link_required_dirs "${link_required_dirs} -L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib/manual-link")
endif()
string(STRIP "${link_required_dirs}" link_required_dirs)
set(LDFLAGS_${var_suffix} "${link_required_dirs} ${LINKER_FLAGS_${var_suffix}}")
endif()
unset(var_suffix)
endif()
if(NOT DEFINED VCPKG_BUILD_TYPE OR VCPKG_BUILD_TYPE STREQUAL "release")
set(var_suffix RELEASE)
set(path_suffix_${var_suffix} "")
set(short_name_${var_suffix} "rel")
list(APPEND all_buildtypes ${var_suffix})
if(VCPKG_LIBRARY_LINKAGE STREQUAL "static")
set(LINKER_FLAGS_${var_suffix} "${VCPKG_DETECTED_CMAKE_STATIC_LINKER_FLAGS_${var_suffix}}")
else() # dynamic
set(LINKER_FLAGS_${var_suffix} "${VCPKG_DETECTED_CMAKE_SHARED_LINKER_FLAGS_${var_suffix}}")
endif()
z_vcpkg_extract_cpp_flags_and_set_cflags_and_cxxflags(${var_suffix})
if (CMAKE_HOST_WIN32 AND VCPKG_DETECTED_CMAKE_C_COMPILER MATCHES "cl.exe")
if(NOT vcm_paths_with_spaces)
set(LDFLAGS_${var_suffix} "-L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib -L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib/manual-link")
endif()
if(DEFINED ENV{_LINK_})
set(LINK_ENV_${var_suffix} "$ENV{_LINK_} ${LINKER_FLAGS_${var_suffix}}")
else()
set(LINK_ENV_${var_suffix} "${LINKER_FLAGS_${var_suffix}}")
endif()
else()
set(link_required_dirs "")
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${var_suffix}}/lib")
set(link_required_dirs "-L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib")
endif()
if(EXISTS "${CURRENT_INSTALLED_DIR}${path_suffix_${var_suffix}}/lib/manual-link")
set(link_required_dirs "${link_required_dirs} -L${z_vcpkg_installed_path}${path_suffix_${var_suffix}}/lib/manual-link")
endif()
string(STRIP "${link_required_dirs}" link_required_dirs)
set(LDFLAGS_${var_suffix} "${link_required_dirs} ${LINKER_FLAGS_${var_suffix}}")
endif()
unset(var_suffix)
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
set(pkgconfig_installed_dir "${CURRENT_INSTALLED_DIR}${path_suffix_${current_buildtype}}/lib/pkgconfig")
set(pkgconfig_installed_share_dir "${CURRENT_INSTALLED_DIR}/share/pkgconfig")
if(ENV{PKG_CONFIG_PATH})
set(backup_env_pkg_config_path_${current_buildtype} $ENV{PKG_CONFIG_PATH})
set(ENV{PKG_CONFIG_PATH} "${pkgconfig_installed_dir}${VCPKG_HOST_PATH_SEPARATOR}${pkgconfig_installed_share_dir}${VCPKG_HOST_PATH_SEPARATOR}$ENV{PKG_CONFIG_PATH}")
else()
set(ENV{PKG_CONFIG_PATH} "${pkgconfig_installed_dir}${VCPKG_HOST_PATH_SEPARATOR}${pkgconfig_installed_share_dir}")
endif()
# Setup environment
set(ENV{CPPFLAGS} "${CPPFLAGS_${current_buildtype}}")
set(ENV{CFLAGS} "${CFLAGS_${current_buildtype}}")
set(ENV{CXXFLAGS} "${CXXFLAGS_${current_buildtype}}")
set(ENV{RCFLAGS} "${VCPKG_DETECTED_CMAKE_RC_FLAGS_${current_buildtype}}")
set(ENV{LDFLAGS} "${LDFLAGS_${current_buildtype}}")
# https://www.gnu.org/software/libtool/manual/html_node/Link-mode.html
# -avoid-version is handled specially by libtool link mode, this flag is not forwarded to linker,
# and libtool tries to avoid versioning for shared libraries and no symbolic links are created.
if(VCPKG_TARGET_IS_ANDROID)
set(ENV{LDFLAGS} "-avoid-version $ENV{LDFLAGS}")
endif()
if(LINK_ENV_${current_buildtype})
set(link_config_backup "$ENV{_LINK_}")
set(ENV{_LINK_} "${LINK_ENV_${current_buildtype}}")
endif()
set(ENV{PKG_CONFIG} "${PKGCONFIG}")
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_${current_buildtype}}"
)
if(VCPKG_TARGET_IS_WINDOWS AND NOT VCPKG_TARGET_IS_MINGW AND VCPKG_LIBRARY_LINKAGE STREQUAL dynamic)
file(GLOB_RECURSE libtool_files "${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()
if(EXISTS "${target_dir}/config.log")
file(RENAME "${target_dir}/config.log" "${CURRENT_BUILDTREES_DIR}/config.log-${TARGET_TRIPLET}-${short_name_${current_buildtype}}.log")
endif()
endif()
if(backup_env_pkg_config_path_${current_buildtype})
set(ENV{PKG_CONFIG_PATH} "${backup_env_pkg_config_path_${current_buildtype}}")
else()
unset(ENV{PKG_CONFIG_PATH})
endif()
unset(backup_env_pkg_config_path_${current_buildtype})
if(link_config_backup)
set(ENV{_LINK_} "${link_config_backup}")
unset(link_config_backup)
endif()
if(arg_ADD_BIN_TO_PATH)
set(ENV{PATH} "${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_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()