# Mark variables as used so cmake doesn't complain about them mark_as_advanced(CMAKE_TOOLCHAIN_FILE) # NOTE: to figure out what cmake versions are required for different things, # grep for `CMake 3`. All version requirement comments should follow that format. # Attention: Changes to this file do not affect ABI hashing. #[===[.md: # z_vcpkg_add_fatal_error Add a fatal error. ```cmake z_vcpkg_add_fatal_error(...) ``` We use this system, instead of `message(FATAL_ERROR)`, since cmake prints a lot of nonsense if the toolchain errors out before it's found the build tools. This `Z_VCPKG_HAS_FATAL_ERROR` must be checked before any filesystem operations are done, since otherwise you might be doing something with bad variables set up. #]===] # this is defined above everything else so that it can be used. set(Z_VCPKG_FATAL_ERROR) set(Z_VCPKG_HAS_FATAL_ERROR OFF) function(z_vcpkg_add_fatal_error ERROR) if(NOT Z_VCPKG_HAS_FATAL_ERROR) set(Z_VCPKG_HAS_FATAL_ERROR ON PARENT_SCOPE) set(Z_VCPKG_FATAL_ERROR "${ERROR}" PARENT_SCOPE) else() string(APPEND Z_VCPKG_FATAL_ERROR "\n${ERROR}") endif() endfunction() set(Z_VCPKG_CMAKE_REQUIRED_MINIMUM_VERSION "3.7.2") if(CMAKE_VERSION VERSION_LESS Z_VCPKG_CMAKE_REQUIRED_MINIMUM_VERSION) message(FATAL_ERROR "vcpkg.cmake requires at least CMake ${Z_VCPKG_CMAKE_REQUIRED_MINIMUM_VERSION}.") endif() cmake_policy(PUSH) cmake_policy(VERSION 3.7.2) include(CMakeDependentOption) # VCPKG toolchain options. option(VCPKG_VERBOSE "Enables messages from the VCPKG toolchain for debugging purposes." OFF) mark_as_advanced(VCPKG_VERBOSE) option(VCPKG_APPLOCAL_DEPS "Automatically copy dependencies into the output directory for executables." ON) option(X_VCPKG_APPLOCAL_DEPS_SERIALIZED "(experimental) Add USES_TERMINAL to VCPKG_APPLOCAL_DEPS to force serialization." OFF) # requires CMake 3.14 option(X_VCPKG_APPLOCAL_DEPS_INSTALL "(experimental) Automatically copy dependencies into the install target directory for executables. Requires CMake 3.14." OFF) option(VCPKG_PREFER_SYSTEM_LIBS "Appends the vcpkg paths to CMAKE_PREFIX_PATH, CMAKE_LIBRARY_PATH and CMAKE_FIND_ROOT_PATH so that vcpkg libraries/packages are found after toolchain/system libraries/packages." OFF) if(VCPKG_PREFER_SYSTEM_LIBS) message(WARNING "VCPKG_PREFER_SYSTEM_LIBS has been deprecated. Use empty overlay ports instead.") endif() # Manifest options and settings if(NOT DEFINED VCPKG_MANIFEST_DIR) if(EXISTS "${CMAKE_SOURCE_DIR}/vcpkg.json") set(VCPKG_MANIFEST_DIR "${CMAKE_SOURCE_DIR}") endif() endif() set(VCPKG_MANIFEST_DIR "${VCPKG_MANIFEST_DIR}" CACHE PATH "The path to the vcpkg manifest directory." FORCE) if(DEFINED VCPKG_MANIFEST_DIR AND NOT VCPKG_MANIFEST_DIR STREQUAL "") set(Z_VCPKG_HAS_MANIFEST_DIR ON) else() set(Z_VCPKG_HAS_MANIFEST_DIR OFF) endif() option(VCPKG_MANIFEST_MODE "Use manifest mode, as opposed to classic mode." "${Z_VCPKG_HAS_MANIFEST_DIR}") if(VCPKG_MANIFEST_MODE AND NOT Z_VCPKG_HAS_MANIFEST_DIR) z_vcpkg_add_fatal_error( "vcpkg manifest mode was enabled, but we couldn't find a manifest file (vcpkg.json) in the current source directory (${CMAKE_CURRENT_SOURCE_DIR}). Please add a manifest, or disable manifests by turning off VCPKG_MANIFEST_MODE." ) endif() if(NOT DEFINED CACHE{Z_VCPKG_CHECK_MANIFEST_MODE}) set(Z_VCPKG_CHECK_MANIFEST_MODE "${VCPKG_MANIFEST_MODE}" CACHE INTERNAL "Making sure VCPKG_MANIFEST_MODE doesn't change") endif() if(NOT VCPKG_MANIFEST_MODE AND Z_VCPKG_CHECK_MANIFEST_MODE) z_vcpkg_add_fatal_error([[ vcpkg manifest mode was disabled for a build directory where it was initially enabled. This is not supported. Please delete the build directory and reconfigure. ]]) elseif(VCPKG_MANIFEST_MODE AND NOT Z_VCPKG_CHECK_MANIFEST_MODE) z_vcpkg_add_fatal_error([[ vcpkg manifest mode was enabled for a build directory where it was initially disabled. This is not supported. Please delete the build directory and reconfigure. ]]) endif() CMAKE_DEPENDENT_OPTION(VCPKG_MANIFEST_INSTALL [[ Install the dependencies listed in your manifest: If this is off, you will have to manually install your dependencies. See https://github.com/microsoft/vcpkg/tree/master/docs/specifications/manifests.md for more info. ]] ON "VCPKG_MANIFEST_MODE" OFF) if(VCPKG_MANIFEST_INSTALL) set(VCPKG_BOOTSTRAP_OPTIONS "${VCPKG_BOOTSTRAP_OPTIONS}" CACHE STRING "Additional options to bootstrap vcpkg" FORCE) set(VCPKG_OVERLAY_PORTS "${VCPKG_OVERLAY_PORTS}" CACHE STRING "Overlay ports to use for vcpkg install in manifest mode" FORCE) set(VCPKG_OVERLAY_TRIPLETS "${VCPKG_OVERLAY_TRIPLETS}" CACHE STRING "Overlay triplets to use for vcpkg install in manifest mode" FORCE) set(VCPKG_INSTALL_OPTIONS "${VCPKG_INSTALL_OPTIONS}" CACHE STRING "Additional install options to pass to vcpkg" FORCE) set(Z_VCPKG_UNUSED VCPKG_BOOTSTRAP_OPTIONS) set(Z_VCPKG_UNUSED VCPKG_OVERLAY_PORTS) set(Z_VCPKG_UNUSED VCPKG_OVERLAY_TRIPLETS) set(Z_VCPKG_UNUSED VCPKG_INSTALL_OPTIONS) endif() # CMake helper utilities #[===[.md: # z_vcpkg_function_arguments Get a list of the arguments which were passed in. Unlike `ARGV`, which is simply the arguments joined with `;`, so that `(A B)` is not distinguishable from `("A;B")`, this macro gives `"A;B"` for the first argument list, and `"A\;B"` for the second. ```cmake z_vcpkg_function_arguments( []) ``` `z_vcpkg_function_arguments` gets the arguments between `ARGV` and the last argument. `` defaults to `0`, so that all arguments are taken. ## Example: ```cmake function(foo_replacement) z_vcpkg_function_arguments(ARGS) foo(${ARGS}) ... endfunction() ``` #]===] # NOTE: this function definition is copied directly from scripts/cmake/z_vcpkg_function_arguments.cmake # do not make changes here without making the same change there. macro(z_vcpkg_function_arguments OUT_VAR) if("${ARGC}" EQUAL "1") set(z_vcpkg_function_arguments_FIRST_ARG "0") elseif("${ARGC}" EQUAL "2") set(z_vcpkg_function_arguments_FIRST_ARG "${ARGV1}") else() # vcpkg bug message(FATAL_ERROR "z_vcpkg_function_arguments: invalid arguments (${ARGV})") endif() set("${OUT_VAR}" "") # this allows us to get the value of the enclosing function's ARGC set(z_vcpkg_function_arguments_ARGC_NAME "ARGC") set(z_vcpkg_function_arguments_ARGC "${${z_vcpkg_function_arguments_ARGC_NAME}}") math(EXPR z_vcpkg_function_arguments_LAST_ARG "${z_vcpkg_function_arguments_ARGC} - 1") if(z_vcpkg_function_arguments_LAST_ARG GREATER_EQUAL z_vcpkg_function_arguments_FIRST_ARG) foreach(z_vcpkg_function_arguments_N RANGE "${z_vcpkg_function_arguments_FIRST_ARG}" "${z_vcpkg_function_arguments_LAST_ARG}") string(REPLACE ";" "\\;" z_vcpkg_function_arguments_ESCAPED_ARG "${ARGV${z_vcpkg_function_arguments_N}}") # adds an extra `;` on the first time through set("${OUT_VAR}" "${${OUT_VAR}};${z_vcpkg_function_arguments_ESCAPED_ARG}") endforeach() # remove leading `;` string(SUBSTRING "${${OUT_VAR}}" "1" "-1" "${OUT_VAR}") endif() endmacro() #[===[.md: # z_vcpkg_set_powershell_path Gets either the path to powershell or powershell core, and places it in the variable Z_VCPKG_POWERSHELL_PATH. #]===] function(z_vcpkg_set_powershell_path) # Attempt to use pwsh if it is present; otherwise use powershell if(NOT DEFINED Z_VCPKG_POWERSHELL_PATH) find_program(Z_VCPKG_PWSH_PATH pwsh) if(Z_VCPKG_PWSH_PATH) set(Z_VCPKG_POWERSHELL_PATH "${Z_VCPKG_PWSH_PATH}" CACHE INTERNAL "The path to the PowerShell implementation to use.") else() message(DEBUG "vcpkg: Could not find PowerShell Core; falling back to PowerShell") find_program(Z_VCPKG_BUILTIN_POWERSHELL_PATH powershell REQUIRED) if(Z_VCPKG_BUILTIN_POWERSHELL_PATH) set(Z_VCPKG_POWERSHELL_PATH "${Z_VCPKG_BUILTIN_POWERSHELL_PATH}" CACHE INTERNAL "The path to the PowerShell implementation to use.") else() message(WARNING "vcpkg: Could not find PowerShell; using static string 'powershell.exe'") set(Z_VCPKG_POWERSHELL_PATH "powershell.exe" CACHE INTERNAL "The path to the PowerShell implementation to use.") endif() endif() endif() # Z_VCPKG_POWERSHELL_PATH endfunction() # Determine whether the toolchain is loaded during a try-compile configuration get_property(Z_VCPKG_CMAKE_IN_TRY_COMPILE GLOBAL PROPERTY IN_TRY_COMPILE) if(VCPKG_CHAINLOAD_TOOLCHAIN_FILE) include("${VCPKG_CHAINLOAD_TOOLCHAIN_FILE}") endif() if(VCPKG_TOOLCHAIN) cmake_policy(POP) return() endif() #If CMake does not have a mapping for MinSizeRel and RelWithDebInfo in imported targets #it will map those configuration to the first valid configuration in CMAKE_CONFIGURATION_TYPES or the targets IMPORTED_CONFIGURATIONS. #In most cases this is the debug configuration which is wrong. if(NOT DEFINED CMAKE_MAP_IMPORTED_CONFIG_MINSIZEREL) set(CMAKE_MAP_IMPORTED_CONFIG_MINSIZEREL "MinSizeRel;Release;") if(VCPKG_VERBOSE) message(STATUS "VCPKG-Info: CMAKE_MAP_IMPORTED_CONFIG_MINSIZEREL set to MinSizeRel;Release;") endif() endif() if(NOT DEFINED CMAKE_MAP_IMPORTED_CONFIG_RELWITHDEBINFO) set(CMAKE_MAP_IMPORTED_CONFIG_RELWITHDEBINFO "RelWithDebInfo;Release;") if(VCPKG_VERBOSE) message(STATUS "VCPKG-Info: CMAKE_MAP_IMPORTED_CONFIG_RELWITHDEBINFO set to RelWithDebInfo;Release;") endif() endif() if(VCPKG_TARGET_TRIPLET) # This is required since a user might do: 'set(VCPKG_TARGET_TRIPLET somevalue)' [no CACHE] before the first project() call # Latter within the toolchain file we do: 'set(VCPKG_TARGET_TRIPLET somevalue CACHE STRING "")' which # will otherwise override the user setting of VCPKG_TARGET_TRIPLET in the current scope of the toolchain since the CACHE value # did not exist previously. Since the value is newly created CMake will use the CACHE value within this scope since it is the more # recently created value in directory scope. This 'strange' behaviour only happens on the very first configure call since subsequent # configure call will see the user value as the more recent value. The same logic must be applied to all cache values within this file! # The FORCE keyword is required to ALWAYS lift the user provided/previously set value into a CACHE value. set(VCPKG_TARGET_TRIPLET "${VCPKG_TARGET_TRIPLET}" CACHE STRING "Vcpkg target triplet (ex. x86-windows)" FORCE) elseif(CMAKE_GENERATOR_PLATFORM MATCHES "^[Ww][Ii][Nn]32$") set(Z_VCPKG_TARGET_TRIPLET_ARCH x86) elseif(CMAKE_GENERATOR_PLATFORM MATCHES "^[Xx]64$") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(CMAKE_GENERATOR_PLATFORM MATCHES "^[Aa][Rr][Mm]$") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm) elseif(CMAKE_GENERATOR_PLATFORM MATCHES "^[Aa][Rr][Mm]64$") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64) else() if(CMAKE_GENERATOR STREQUAL "Visual Studio 14 2015 Win64") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 14 2015 ARM") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 14 2015") set(Z_VCPKG_TARGET_TRIPLET_ARCH x86) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 15 2017 Win64") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 15 2017 ARM") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 15 2017") set(Z_VCPKG_TARGET_TRIPLET_ARCH x86) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 16 2019" AND CMAKE_VS_PLATFORM_NAME_DEFAULT STREQUAL "ARM64") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 16 2019") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 17 2022" AND CMAKE_VS_PLATFORM_NAME_DEFAULT STREQUAL "ARM64") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64) elseif(CMAKE_GENERATOR STREQUAL "Visual Studio 17 2022") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) else() find_program(Z_VCPKG_CL cl) if(Z_VCPKG_CL MATCHES "amd64/cl.exe$" OR Z_VCPKG_CL MATCHES "x64/cl.exe$") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(Z_VCPKG_CL MATCHES "arm/cl.exe$") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm) elseif(Z_VCPKG_CL MATCHES "arm64/cl.exe$") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64) elseif(Z_VCPKG_CL MATCHES "bin/cl.exe$" OR Z_VCPKG_CL MATCHES "x86/cl.exe$") set(Z_VCPKG_TARGET_TRIPLET_ARCH x86) elseif(CMAKE_HOST_SYSTEM_NAME STREQUAL "Darwin" AND DEFINED CMAKE_SYSTEM_NAME AND NOT CMAKE_SYSTEM_NAME STREQUAL "Darwin") list(LENGTH CMAKE_OSX_ARCHITECTURES Z_VCPKG_OSX_ARCH_COUNT) if(Z_VCPKG_OSX_ARCH_COUNT EQUAL "0") message(WARNING "Unable to determine target architecture. " "Consider providing a value for the CMAKE_OSX_ARCHITECTURES cache variable. " "Continuing without vcpkg.") set(VCPKG_TOOLCHAIN ON) cmake_policy(POP) return() endif() if(Z_VCPKG_OSX_ARCH_COUNT GREATER "1") message(WARNING "Detected more than one target architecture. Using the first one.") endif() list(GET CMAKE_OSX_ARCHITECTURES "0" Z_VCPKG_OSX_TARGET_ARCH) if(Z_VCPKG_OSX_TARGET_ARCH STREQUAL "arm64") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64) elseif(Z_VCPKG_OSX_TARGET_ARCH STREQUAL "arm64s") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64s) elseif(Z_VCPKG_OSX_TARGET_ARCH STREQUAL "armv7s") set(Z_VCPKG_TARGET_TRIPLET_ARCH armv7s) elseif(Z_VCPKG_OSX_TARGET_ARCH STREQUAL "armv7") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm) elseif(Z_VCPKG_OSX_TARGET_ARCH STREQUAL "x86_64") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(Z_VCPKG_OSX_TARGET_ARCH STREQUAL "i386") set(Z_VCPKG_TARGET_TRIPLET_ARCH x86) else() message(WARNING "Unable to determine target architecture, continuing without vcpkg.") set(VCPKG_TOOLCHAIN ON) cmake_policy(POP) return() endif() elseif(CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "x86_64" OR CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "AMD64" OR CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "amd64") set(Z_VCPKG_TARGET_TRIPLET_ARCH x64) elseif(CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "s390x") set(Z_VCPKG_TARGET_TRIPLET_ARCH s390x) elseif(CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "ppc64le") set(Z_VCPKG_TARGET_TRIPLET_ARCH ppc64le) elseif(CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "armv7l") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm) elseif(CMAKE_HOST_SYSTEM_PROCESSOR MATCHES "^(aarch64|arm64|ARM64)$") set(Z_VCPKG_TARGET_TRIPLET_ARCH arm64) elseif(CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "riscv32") set(Z_VCPKG_TARGET_TRIPLET_ARCH riscv32) elseif(CMAKE_HOST_SYSTEM_PROCESSOR STREQUAL "riscv64") set(Z_VCPKG_TARGET_TRIPLET_ARCH riscv64) else() if(Z_VCPKG_CMAKE_IN_TRY_COMPILE) message(STATUS "Unable to determine target architecture, continuing without vcpkg.") else() message(WARNING "Unable to determine target architecture, continuing without vcpkg.") endif() set(VCPKG_TOOLCHAIN ON) cmake_policy(POP) return() endif() endif() endif() if(CMAKE_SYSTEM_NAME STREQUAL "WindowsStore" OR CMAKE_SYSTEM_NAME STREQUAL "WindowsPhone") set(Z_VCPKG_TARGET_TRIPLET_PLAT uwp) elseif(CMAKE_SYSTEM_NAME STREQUAL "Linux" OR (NOT CMAKE_SYSTEM_NAME AND CMAKE_HOST_SYSTEM_NAME STREQUAL "Linux")) set(Z_VCPKG_TARGET_TRIPLET_PLAT linux) elseif(CMAKE_SYSTEM_NAME STREQUAL "Darwin" OR (NOT CMAKE_SYSTEM_NAME AND CMAKE_HOST_SYSTEM_NAME STREQUAL "Darwin")) set(Z_VCPKG_TARGET_TRIPLET_PLAT osx) elseif(CMAKE_SYSTEM_NAME STREQUAL "iOS") set(Z_VCPKG_TARGET_TRIPLET_PLAT ios) elseif(MINGW) set(Z_VCPKG_TARGET_TRIPLET_PLAT mingw-dynamic) elseif(CMAKE_SYSTEM_NAME STREQUAL "Windows" OR (NOT CMAKE_SYSTEM_NAME AND CMAKE_HOST_SYSTEM_NAME STREQUAL "Windows")) if(XBOX_CONSOLE_TARGET STREQUAL "scarlett") set(Z_VCPKG_TARGET_TRIPLET_PLAT xbox-scarlett) elseif(XBOX_CONSOLE_TARGET STREQUAL "xboxone") set(Z_VCPKG_TARGET_TRIPLET_PLAT xbox-xboxone) else() set(Z_VCPKG_TARGET_TRIPLET_PLAT windows) endif() elseif(CMAKE_SYSTEM_NAME STREQUAL "FreeBSD" OR (NOT CMAKE_SYSTEM_NAME AND CMAKE_HOST_SYSTEM_NAME STREQUAL "FreeBSD")) set(Z_VCPKG_TARGET_TRIPLET_PLAT freebsd) endif() if(EMSCRIPTEN) set(Z_VCPKG_TARGET_TRIPLET_ARCH wasm32) set(Z_VCPKG_TARGET_TRIPLET_PLAT emscripten) endif() set(VCPKG_TARGET_TRIPLET "${Z_VCPKG_TARGET_TRIPLET_ARCH}-${Z_VCPKG_TARGET_TRIPLET_PLAT}" CACHE STRING "Vcpkg target triplet (ex. x86-windows)") set(Z_VCPKG_TOOLCHAIN_DIR "${CMAKE_CURRENT_LIST_DIR}") # Detect .vcpkg-root to figure VCPKG_ROOT_DIR set(Z_VCPKG_ROOT_DIR_CANDIDATE "${CMAKE_CURRENT_LIST_DIR}") while(NOT DEFINED Z_VCPKG_ROOT_DIR) if(EXISTS "${Z_VCPKG_ROOT_DIR_CANDIDATE}/.vcpkg-root") set(Z_VCPKG_ROOT_DIR "${Z_VCPKG_ROOT_DIR_CANDIDATE}" CACHE INTERNAL "Vcpkg root directory") elseif(IS_DIRECTORY "${Z_VCPKG_ROOT_DIR_CANDIDATE}") get_filename_component(Z_VCPKG_ROOT_DIR_TEMP "${Z_VCPKG_ROOT_DIR_CANDIDATE}" DIRECTORY) if(Z_VCPKG_ROOT_DIR_TEMP STREQUAL Z_VCPKG_ROOT_DIR_CANDIDATE) break() # If unchanged, we have reached the root of the drive without finding vcpkg. endif() SET(Z_VCPKG_ROOT_DIR_CANDIDATE "${Z_VCPKG_ROOT_DIR_TEMP}") unset(Z_VCPKG_ROOT_DIR_TEMP) else() break() endif() endwhile() unset(Z_VCPKG_ROOT_DIR_CANDIDATE) if(NOT Z_VCPKG_ROOT_DIR) z_vcpkg_add_fatal_error("Could not find .vcpkg-root") endif() if(DEFINED VCPKG_INSTALLED_DIR) # do nothing elseif(DEFINED _VCPKG_INSTALLED_DIR) set(VCPKG_INSTALLED_DIR "${_VCPKG_INSTALLED_DIR}") elseif(VCPKG_MANIFEST_MODE) set(VCPKG_INSTALLED_DIR "${CMAKE_BINARY_DIR}/vcpkg_installed") else() set(VCPKG_INSTALLED_DIR "${Z_VCPKG_ROOT_DIR}/installed") endif() set(VCPKG_INSTALLED_DIR "${VCPKG_INSTALLED_DIR}" CACHE PATH "The directory which contains the installed libraries for each triplet" FORCE) set(_VCPKG_INSTALLED_DIR "${VCPKG_INSTALLED_DIR}" CACHE PATH "The directory which contains the installed libraries for each triplet" FORCE) function(z_vcpkg_add_vcpkg_to_cmake_path list suffix) set(vcpkg_paths "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}${suffix}" "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/debug${suffix}" ) if(NOT DEFINED CMAKE_BUILD_TYPE OR CMAKE_BUILD_TYPE MATCHES "^[Dd][Ee][Bb][Uu][Gg]$") list(REVERSE vcpkg_paths) # Debug build: Put Debug paths before Release paths. endif() if(VCPKG_PREFER_SYSTEM_LIBS) list(APPEND "${list}" "${vcpkg_paths}") else() list(INSERT "${list}" "0" "${vcpkg_paths}") # CMake 3.15 is required for list(PREPEND ...). endif() set("${list}" "${${list}}" PARENT_SCOPE) endfunction() z_vcpkg_add_vcpkg_to_cmake_path(CMAKE_PREFIX_PATH "") z_vcpkg_add_vcpkg_to_cmake_path(CMAKE_LIBRARY_PATH "/lib/manual-link") z_vcpkg_add_vcpkg_to_cmake_path(CMAKE_FIND_ROOT_PATH "") if(NOT VCPKG_PREFER_SYSTEM_LIBS) set(CMAKE_FIND_FRAMEWORK "LAST") # we assume that frameworks are usually system-wide libs, not vcpkg-built set(CMAKE_FIND_APPBUNDLE "LAST") # we assume that appbundles are usually system-wide libs, not vcpkg-built endif() # If one CMAKE_FIND_ROOT_PATH_MODE_* variables is set to ONLY, to make sure that ${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET} # and ${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/debug are searched, it is not sufficient to just add them to CMAKE_FIND_ROOT_PATH, # as CMAKE_FIND_ROOT_PATH specify "one or more directories to be prepended to all other search directories", so to make sure that # the libraries are searched as they are, it is necessary to add "/" to the CMAKE_PREFIX_PATH if(CMAKE_FIND_ROOT_PATH_MODE_INCLUDE STREQUAL "ONLY" OR CMAKE_FIND_ROOT_PATH_MODE_LIBRARY STREQUAL "ONLY" OR CMAKE_FIND_ROOT_PATH_MODE_PACKAGE STREQUAL "ONLY") list(APPEND CMAKE_PREFIX_PATH "/") endif() set(VCPKG_CMAKE_FIND_ROOT_PATH "${CMAKE_FIND_ROOT_PATH}") # CMAKE_EXECUTABLE_SUFFIX is not yet defined if(CMAKE_HOST_SYSTEM_NAME STREQUAL "Windows") set(Z_VCPKG_EXECUTABLE "${Z_VCPKG_ROOT_DIR}/vcpkg.exe") set(Z_VCPKG_BOOTSTRAP_SCRIPT "${Z_VCPKG_ROOT_DIR}/bootstrap-vcpkg.bat") else() set(Z_VCPKG_EXECUTABLE "${Z_VCPKG_ROOT_DIR}/vcpkg") set(Z_VCPKG_BOOTSTRAP_SCRIPT "${Z_VCPKG_ROOT_DIR}/bootstrap-vcpkg.sh") endif() if(VCPKG_MANIFEST_MODE AND VCPKG_MANIFEST_INSTALL AND NOT Z_VCPKG_CMAKE_IN_TRY_COMPILE AND NOT Z_VCPKG_HAS_FATAL_ERROR) if(NOT EXISTS "${Z_VCPKG_EXECUTABLE}" AND NOT Z_VCPKG_HAS_FATAL_ERROR) message(STATUS "Bootstrapping vcpkg before install") set(Z_VCPKG_BOOTSTRAP_LOG "${CMAKE_BINARY_DIR}/vcpkg-bootstrap.log") file(TO_NATIVE_PATH "${Z_VCPKG_BOOTSTRAP_LOG}" Z_NATIVE_VCPKG_BOOTSTRAP_LOG) execute_process( COMMAND "${Z_VCPKG_BOOTSTRAP_SCRIPT}" ${VCPKG_BOOTSTRAP_OPTIONS} OUTPUT_FILE "${Z_VCPKG_BOOTSTRAP_LOG}" ERROR_FILE "${Z_VCPKG_BOOTSTRAP_LOG}" RESULT_VARIABLE Z_VCPKG_BOOTSTRAP_RESULT) if(Z_VCPKG_BOOTSTRAP_RESULT EQUAL "0") message(STATUS "Bootstrapping vcpkg before install - done") else() message(STATUS "Bootstrapping vcpkg before install - failed") z_vcpkg_add_fatal_error("vcpkg install failed. See logs for more information: ${Z_NATIVE_VCPKG_BOOTSTRAP_LOG}") endif() endif() if(NOT Z_VCPKG_HAS_FATAL_ERROR) message(STATUS "Running vcpkg install") set(Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS) if(DEFINED VCPKG_HOST_TRIPLET AND NOT VCPKG_HOST_TRIPLET STREQUAL "") list(APPEND Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS "--host-triplet=${VCPKG_HOST_TRIPLET}") endif() if(VCPKG_OVERLAY_PORTS) foreach(Z_VCPKG_OVERLAY_PORT IN LISTS VCPKG_OVERLAY_PORTS) list(APPEND Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS "--overlay-ports=${Z_VCPKG_OVERLAY_PORT}") endforeach() endif() if(VCPKG_OVERLAY_TRIPLETS) foreach(Z_VCPKG_OVERLAY_TRIPLET IN LISTS VCPKG_OVERLAY_TRIPLETS) list(APPEND Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS "--overlay-triplets=${Z_VCPKG_OVERLAY_TRIPLET}") endforeach() endif() if(DEFINED VCPKG_FEATURE_FLAGS OR DEFINED CACHE{VCPKG_FEATURE_FLAGS}) list(JOIN VCPKG_FEATURE_FLAGS "," Z_VCPKG_FEATURE_FLAGS) set(Z_VCPKG_FEATURE_FLAGS "--feature-flags=${Z_VCPKG_FEATURE_FLAGS}") endif() foreach(Z_VCPKG_FEATURE IN LISTS VCPKG_MANIFEST_FEATURES) list(APPEND Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS "--x-feature=${Z_VCPKG_FEATURE}") endforeach() if(VCPKG_MANIFEST_NO_DEFAULT_FEATURES) list(APPEND Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS "--x-no-default-features") endif() if(CMAKE_VERSION VERSION_GREATER_EQUAL "3.18") set(Z_VCPKG_MANIFEST_INSTALL_ECHO_PARAMS ECHO_OUTPUT_VARIABLE ECHO_ERROR_VARIABLE) else() set(Z_VCPKG_MANIFEST_INSTALL_ECHO_PARAMS) endif() execute_process( COMMAND "${Z_VCPKG_EXECUTABLE}" install --triplet "${VCPKG_TARGET_TRIPLET}" --vcpkg-root "${Z_VCPKG_ROOT_DIR}" "--x-wait-for-lock" "--x-manifest-root=${VCPKG_MANIFEST_DIR}" "--x-install-root=${_VCPKG_INSTALLED_DIR}" "${Z_VCPKG_FEATURE_FLAGS}" ${Z_VCPKG_ADDITIONAL_MANIFEST_PARAMS} ${VCPKG_INSTALL_OPTIONS} OUTPUT_VARIABLE Z_VCPKG_MANIFEST_INSTALL_LOGTEXT ERROR_VARIABLE Z_VCPKG_MANIFEST_INSTALL_LOGTEXT RESULT_VARIABLE Z_VCPKG_MANIFEST_INSTALL_RESULT ${Z_VCPKG_MANIFEST_INSTALL_ECHO_PARAMS} ) set(Z_VCPKG_MANIFEST_INSTALL_LOGFILE "${CMAKE_BINARY_DIR}/vcpkg-manifest-install.log") file(TO_NATIVE_PATH "${Z_VCPKG_MANIFEST_INSTALL_LOGFILE}" Z_NATIVE_VCPKG_MANIFEST_INSTALL_LOGFILE) file(WRITE "${Z_VCPKG_MANIFEST_INSTALL_LOGFILE}" "${Z_VCPKG_MANIFEST_INSTALL_LOGTEXT}") if(Z_VCPKG_MANIFEST_INSTALL_RESULT EQUAL "0") message(STATUS "Running vcpkg install - done") set_property(DIRECTORY APPEND PROPERTY CMAKE_CONFIGURE_DEPENDS "${VCPKG_MANIFEST_DIR}/vcpkg.json") if(EXISTS "${VCPKG_MANIFEST_DIR}/vcpkg-configuration.json") set_property(DIRECTORY APPEND PROPERTY CMAKE_CONFIGURE_DEPENDS "${VCPKG_MANIFEST_DIR}/vcpkg-configuration.json") endif() else() message(STATUS "Running vcpkg install - failed") z_vcpkg_add_fatal_error("vcpkg install failed. See logs for more information: ${Z_NATIVE_VCPKG_MANIFEST_INSTALL_LOGFILE}") endif() endif() endif() option(VCPKG_SETUP_CMAKE_PROGRAM_PATH "Enable the setup of CMAKE_PROGRAM_PATH to vcpkg paths" ON) set(VCPKG_CAN_USE_HOST_TOOLS OFF) if(DEFINED VCPKG_HOST_TRIPLET AND NOT VCPKG_HOST_TRIPLET STREQUAL "") set(VCPKG_CAN_USE_HOST_TOOLS ON) endif() cmake_dependent_option(VCPKG_USE_HOST_TOOLS "Setup CMAKE_PROGRAM_PATH to use host tools" ON "VCPKG_CAN_USE_HOST_TOOLS" OFF) unset(VCPKG_CAN_USE_HOST_TOOLS) if(VCPKG_SETUP_CMAKE_PROGRAM_PATH) set(tools_base_path "${VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/tools") if(VCPKG_USE_HOST_TOOLS) set(tools_base_path "${VCPKG_INSTALLED_DIR}/${VCPKG_HOST_TRIPLET}/tools") endif() list(APPEND CMAKE_PROGRAM_PATH "${tools_base_path}") file(GLOB Z_VCPKG_TOOLS_DIRS LIST_DIRECTORIES true "${tools_base_path}/*") file(GLOB Z_VCPKG_TOOLS_FILES LIST_DIRECTORIES false "${tools_base_path}/*") file(GLOB Z_VCPKG_TOOLS_DIRS_BIN LIST_DIRECTORIES true "${tools_base_path}/*/bin") file(GLOB Z_VCPKG_TOOLS_FILES_BIN LIST_DIRECTORIES false "${tools_base_path}/*/bin") list(REMOVE_ITEM Z_VCPKG_TOOLS_DIRS ${Z_VCPKG_TOOLS_FILES} "") # need at least one item for REMOVE_ITEM if CMake <= 3.19 list(REMOVE_ITEM Z_VCPKG_TOOLS_DIRS_BIN ${Z_VCPKG_TOOLS_FILES_BIN} "") string(REPLACE "/bin" "" Z_VCPKG_TOOLS_DIRS_TO_REMOVE "${Z_VCPKG_TOOLS_DIRS_BIN}") list(REMOVE_ITEM Z_VCPKG_TOOLS_DIRS ${Z_VCPKG_TOOLS_DIRS_TO_REMOVE} "") list(APPEND Z_VCPKG_TOOLS_DIRS ${Z_VCPKG_TOOLS_DIRS_BIN}) foreach(Z_VCPKG_TOOLS_DIR IN LISTS Z_VCPKG_TOOLS_DIRS) list(APPEND CMAKE_PROGRAM_PATH "${Z_VCPKG_TOOLS_DIR}") endforeach() unset(Z_VCPKG_TOOLS_DIR) unset(Z_VCPKG_TOOLS_DIRS) unset(Z_VCPKG_TOOLS_FILES) unset(Z_VCPKG_TOOLS_DIRS_BIN) unset(Z_VCPKG_TOOLS_FILES_BIN) unset(Z_VCPKG_TOOLS_DIRS_TO_REMOVE) unset(tools_base_path) endif() cmake_policy(POP) # Any policies applied to the below macros and functions appear to leak into consumers function(add_executable) z_vcpkg_function_arguments(ARGS) _add_executable(${ARGS}) set(target_name "${ARGV0}") list(FIND ARGV "IMPORTED" IMPORTED_IDX) list(FIND ARGV "ALIAS" ALIAS_IDX) list(FIND ARGV "MACOSX_BUNDLE" MACOSX_BUNDLE_IDX) if(IMPORTED_IDX EQUAL "-1" AND ALIAS_IDX EQUAL "-1") if(VCPKG_APPLOCAL_DEPS) if(Z_VCPKG_TARGET_TRIPLET_PLAT MATCHES "windows|uwp|xbox") z_vcpkg_set_powershell_path() set(EXTRA_OPTIONS "") if(X_VCPKG_APPLOCAL_DEPS_SERIALIZED) set(EXTRA_OPTIONS USES_TERMINAL) endif() add_custom_command(TARGET "${target_name}" POST_BUILD COMMAND "${Z_VCPKG_POWERSHELL_PATH}" -noprofile -executionpolicy Bypass -file "${Z_VCPKG_TOOLCHAIN_DIR}/msbuild/applocal.ps1" -targetBinary "$" -installedDir "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}$<$:/debug>/bin" -OutVariable out VERBATIM ${EXTRA_OPTIONS} ) elseif(Z_VCPKG_TARGET_TRIPLET_PLAT MATCHES "osx") if(NOT MACOSX_BUNDLE_IDX EQUAL "-1") find_package(Python COMPONENTS Interpreter) add_custom_command(TARGET "${target_name}" POST_BUILD COMMAND "${Python_EXECUTABLE}" "${Z_VCPKG_TOOLCHAIN_DIR}/osx/applocal.py" "$" "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}$<$:/debug>" VERBATIM ) endif() endif() endif() set_target_properties("${target_name}" PROPERTIES VS_USER_PROPS do_not_import_user.props) set_target_properties("${target_name}" PROPERTIES VS_GLOBAL_VcpkgEnabled false) endif() endfunction() function(add_library) z_vcpkg_function_arguments(ARGS) _add_library(${ARGS}) set(target_name "${ARGV0}") list(FIND ARGS "IMPORTED" IMPORTED_IDX) list(FIND ARGS "INTERFACE" INTERFACE_IDX) list(FIND ARGS "ALIAS" ALIAS_IDX) if(IMPORTED_IDX EQUAL "-1" AND INTERFACE_IDX EQUAL "-1" AND ALIAS_IDX EQUAL "-1") get_target_property(IS_LIBRARY_SHARED "${target_name}" TYPE) if(VCPKG_APPLOCAL_DEPS AND Z_VCPKG_TARGET_TRIPLET_PLAT MATCHES "windows|uwp|xbox" AND (IS_LIBRARY_SHARED STREQUAL "SHARED_LIBRARY" OR IS_LIBRARY_SHARED STREQUAL "MODULE_LIBRARY")) z_vcpkg_set_powershell_path() add_custom_command(TARGET "${target_name}" POST_BUILD COMMAND "${Z_VCPKG_POWERSHELL_PATH}" -noprofile -executionpolicy Bypass -file "${Z_VCPKG_TOOLCHAIN_DIR}/msbuild/applocal.ps1" -targetBinary "$" -installedDir "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}$<$:/debug>/bin" -OutVariable out VERBATIM ) endif() set_target_properties("${target_name}" PROPERTIES VS_USER_PROPS do_not_import_user.props) set_target_properties("${target_name}" PROPERTIES VS_GLOBAL_VcpkgEnabled false) endif() endfunction() # This is an experimental function to enable applocal install of dependencies as part of the `make install` process # Arguments: # TARGETS - a list of installed targets to have dependencies copied for # DESTINATION - the runtime directory for those targets (usually `bin`) # COMPONENT - the component this install command belongs to (optional) # # Note that this function requires CMake 3.14 for policy CMP0087 function(x_vcpkg_install_local_dependencies) if(CMAKE_VERSION VERSION_LESS "3.14") message(FATAL_ERROR "x_vcpkg_install_local_dependencies and X_VCPKG_APPLOCAL_DEPS_INSTALL require at least CMake 3.14 (current version: ${CMAKE_VERSION})" ) endif() cmake_parse_arguments(PARSE_ARGV "0" arg "" "DESTINATION;COMPONENT" "TARGETS" ) if(DEFINED arg_UNPARSED_ARGUMENTS) message(FATAL_ERROR "${CMAKE_CURRENT_FUNCTION} was passed extra arguments: ${arg_UNPARSED_ARGUMENTS}") endif() if(NOT DEFINED arg_DESTINATION) message(FATAL_ERROR "DESTINATION must be specified") endif() if(Z_VCPKG_TARGET_TRIPLET_PLAT MATCHES "^(windows|uwp|xbox-.*)$") # Install CODE|SCRIPT allow the use of generator expressions cmake_policy(SET CMP0087 NEW) # CMake 3.14 z_vcpkg_set_powershell_path() if(NOT IS_ABSOLUTE "${arg_DESTINATION}") set(arg_DESTINATION "\${CMAKE_INSTALL_PREFIX}/${arg_DESTINATION}") endif() set(component_param "") if(DEFINED arg_COMPONENT) set(component_param COMPONENT "${arg_COMPONENT}") endif() foreach(target IN LISTS arg_TARGETS) get_target_property(target_type "${target}" TYPE) if(NOT target_type STREQUAL "INTERFACE_LIBRARY") install(CODE "message(\"-- Installing app dependencies for ${target}...\") execute_process(COMMAND \"${Z_VCPKG_POWERSHELL_PATH}\" -noprofile -executionpolicy Bypass -file \"${Z_VCPKG_TOOLCHAIN_DIR}/msbuild/applocal.ps1\" -targetBinary \"${arg_DESTINATION}/$\" -installedDir \"${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}$<$:/debug>/bin\" -OutVariable out)" ${component_param} ) endif() endforeach() endif() endfunction() if(X_VCPKG_APPLOCAL_DEPS_INSTALL) function(install) z_vcpkg_function_arguments(ARGS) _install(${ARGS}) if(ARGV0 STREQUAL "TARGETS") # Will contain the list of targets set(parsed_targets "") # Destination - [RUNTIME] DESTINATION argument overrides this set(destination "bin") set(component_param "") # Parse arguments given to the install function to find targets and (runtime) destination set(modifier "") # Modifier for the command in the argument set(last_command "") # Last command we found to process foreach(arg IN LISTS ARGS) if(arg MATCHES "^(ARCHIVE|LIBRARY|RUNTIME|OBJECTS|FRAMEWORK|BUNDLE|PRIVATE_HEADER|PUBLIC_HEADER|RESOURCE|INCLUDES)$") set(modifier "${arg}") continue() endif() if(arg MATCHES "^(TARGETS|DESTINATION|PERMISSIONS|CONFIGURATIONS|COMPONENT|NAMELINK_COMPONENT|OPTIONAL|EXCLUDE_FROM_ALL|NAMELINK_ONLY|NAMELINK_SKIP|EXPORT)$") set(last_command "${arg}") continue() endif() if(last_command STREQUAL "TARGETS") list(APPEND parsed_targets "${arg}") endif() if(last_command STREQUAL "DESTINATION" AND (modifier STREQUAL "" OR modifier STREQUAL "RUNTIME")) set(destination "${arg}") endif() if(last_command STREQUAL "COMPONENT") set(component_param "COMPONENT" "${arg}") endif() endforeach() x_vcpkg_install_local_dependencies( TARGETS ${parsed_targets} DESTINATION "${destination}" ${component_param} ) endif() endfunction() endif() option(VCPKG_TRACE_FIND_PACKAGE "Trace calls to find_package()" OFF) if(NOT DEFINED VCPKG_OVERRIDE_FIND_PACKAGE_NAME) set(VCPKG_OVERRIDE_FIND_PACKAGE_NAME find_package) endif() # NOTE: this is not a function, which means that arguments _are not_ perfectly forwarded # this is fine for `find_package`, since there are no usecases for `;` in arguments, # so perfect forwarding is not important set(z_vcpkg_find_package_backup_id "0") macro("${VCPKG_OVERRIDE_FIND_PACKAGE_NAME}" z_vcpkg_find_package_package_name) if(VCPKG_TRACE_FIND_PACKAGE) string(REPEAT " " "${z_vcpkg_find_package_backup_id}" z_vcpkg_find_package_indent) string(JOIN " " z_vcpkg_find_package_argn ${ARGN}) message(STATUS "${z_vcpkg_find_package_indent}find_package(${z_vcpkg_find_package_package_name} ${z_vcpkg_find_package_argn})") unset(z_vcpkg_find_package_argn) unset(z_vcpkg_find_package_indent) endif() math(EXPR z_vcpkg_find_package_backup_id "${z_vcpkg_find_package_backup_id} + 1") set(z_vcpkg_find_package_package_name "${z_vcpkg_find_package_package_name}") set(z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN "${ARGN}") set(z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_vars "") # Workaround to set the ROOT_PATH until upstream CMake stops overriding # the ROOT_PATH at apple OS initialization phase. # See https://gitlab.kitware.com/cmake/cmake/merge_requests/3273 # Fixed in CMake 3.15 if(CMAKE_SYSTEM_NAME STREQUAL "iOS") list(APPEND z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_vars "CMAKE_FIND_ROOT_PATH") if(DEFINED CMAKE_FIND_ROOT_PATH) set(z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_CMAKE_FIND_ROOT_PATH "${CMAKE_FIND_ROOT_PATH}") endif() list(APPEND CMAKE_FIND_ROOT_PATH "${VCPKG_CMAKE_FIND_ROOT_PATH}") endif() string(TOLOWER "${z_vcpkg_find_package_package_name}" z_vcpkg_find_package_lowercase_package_name) set(z_vcpkg_find_package_vcpkg_cmake_wrapper_path "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/share/${z_vcpkg_find_package_lowercase_package_name}/vcpkg-cmake-wrapper.cmake") if(EXISTS "${z_vcpkg_find_package_vcpkg_cmake_wrapper_path}") if(VCPKG_TRACE_FIND_PACKAGE) string(REPEAT " " "${z_vcpkg_find_package_backup_id}" z_vcpkg_find_package_indent) message(STATUS "${z_vcpkg_find_package_indent}using share/${z_vcpkg_find_package_lowercase_package_name}/vcpkg-cmake-wrapper.cmake") unset(z_vcpkg_find_package_indent) endif() list(APPEND z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_vars "ARGS") if(DEFINED ARGS) set(z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_ARGS "${ARGS}") endif() set(ARGS "${z_vcpkg_find_package_package_name};${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}") include("${z_vcpkg_find_package_vcpkg_cmake_wrapper_path}") elseif(z_vcpkg_find_package_package_name STREQUAL "Boost" AND EXISTS "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/include/boost") # Checking for the boost headers disables this wrapper unless the user has installed at least one boost library # these intentionally are not backed up set(Boost_USE_STATIC_LIBS OFF) set(Boost_USE_MULTITHREADED ON) set(Boost_NO_BOOST_CMAKE ON) set(Boost_USE_STATIC_RUNTIME) unset(Boost_USE_STATIC_RUNTIME CACHE) if(CMAKE_VS_PLATFORM_TOOLSET STREQUAL "v120") set(Boost_COMPILER "-vc120") else() set(Boost_COMPILER "-vc140") endif() _find_package("${z_vcpkg_find_package_package_name}" ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}) elseif(z_vcpkg_find_package_package_name STREQUAL "ICU" AND EXISTS "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/include/unicode/utf.h") list(FIND z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN "COMPONENTS" z_vcpkg_find_package_COMPONENTS_IDX) if(NOT z_vcpkg_find_package_COMPONENTS_IDX EQUAL "-1") _find_package("${z_vcpkg_find_package_package_name}" ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN} COMPONENTS data) else() _find_package("${z_vcpkg_find_package_package_name}" ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}) endif() elseif(z_vcpkg_find_package_package_name STREQUAL "GSL" AND EXISTS "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/include/gsl") _find_package("${z_vcpkg_find_package_package_name}" ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}) if(GSL_FOUND AND TARGET GSL::gsl) set_property( TARGET GSL::gslcblas APPEND PROPERTY IMPORTED_CONFIGURATIONS Release ) set_property( TARGET GSL::gsl APPEND PROPERTY IMPORTED_CONFIGURATIONS Release ) if( EXISTS "${GSL_LIBRARY_DEBUG}" AND EXISTS "${GSL_CBLAS_LIBRARY_DEBUG}") set_property( TARGET GSL::gsl APPEND PROPERTY IMPORTED_CONFIGURATIONS Debug ) set_target_properties( GSL::gsl PROPERTIES IMPORTED_LOCATION_DEBUG "${GSL_LIBRARY_DEBUG}" ) set_property( TARGET GSL::gslcblas APPEND PROPERTY IMPORTED_CONFIGURATIONS Debug ) set_target_properties( GSL::gslcblas PROPERTIES IMPORTED_LOCATION_DEBUG "${GSL_CBLAS_LIBRARY_DEBUG}" ) endif() endif() elseif("${z_vcpkg_find_package_package_name}" STREQUAL "CURL" AND EXISTS "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/include/curl") _find_package("${z_vcpkg_find_package_package_name}" ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}) if(CURL_FOUND) if(EXISTS "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/lib/nghttp2.lib") list(APPEND CURL_LIBRARIES "debug" "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/debug/lib/nghttp2.lib" "optimized" "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/lib/nghttp2.lib") endif() endif() elseif("${z_vcpkg_find_package_lowercase_package_name}" STREQUAL "grpc" AND EXISTS "${_VCPKG_INSTALLED_DIR}/${VCPKG_TARGET_TRIPLET}/share/grpc") _find_package(gRPC ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}) else() _find_package("${z_vcpkg_find_package_package_name}" ${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_ARGN}) endif() # Do not use z_vcpkg_find_package_package_name beyond this point since it might have changed! # Only variables using z_vcpkg_find_package_backup_id can used correctly below! foreach(z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_var IN LISTS z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_vars) if(DEFINED z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_var}) set("${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_var}" "${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_var}}") else() unset("${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_var}") endif() unset("z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_${z_vcpkg_find_package_${z_vcpkg_find_package_backup_id}_backup_var}") endforeach() math(EXPR z_vcpkg_find_package_backup_id "${z_vcpkg_find_package_backup_id} - 1") if(z_vcpkg_find_package_backup_id LESS "0") message(FATAL_ERROR "[vcpkg]: find_package ended with z_vcpkg_find_package_backup_id being less than 0! This is a logical error and should never happen. Please provide a cmake trace log via cmake cmd line option '--trace-expand'!") endif() endmacro() cmake_policy(PUSH) cmake_policy(VERSION 3.7.2) set(VCPKG_TOOLCHAIN ON) set(Z_VCPKG_UNUSED "${CMAKE_ERROR_ON_ABSOLUTE_INSTALL_DESTINATION}") set(Z_VCPKG_UNUSED "${CMAKE_EXPORT_NO_PACKAGE_REGISTRY}") set(Z_VCPKG_UNUSED "${CMAKE_FIND_PACKAGE_NO_PACKAGE_REGISTRY}") set(Z_VCPKG_UNUSED "${CMAKE_FIND_PACKAGE_NO_SYSTEM_PACKAGE_REGISTRY}") set(Z_VCPKG_UNUSED "${CMAKE_INSTALL_SYSTEM_RUNTIME_LIBS_SKIP}") # Propogate these values to try-compile configurations so the triplet and toolchain load if(NOT Z_VCPKG_CMAKE_IN_TRY_COMPILE) list(APPEND CMAKE_TRY_COMPILE_PLATFORM_VARIABLES VCPKG_TARGET_TRIPLET VCPKG_TARGET_ARCHITECTURE VCPKG_APPLOCAL_DEPS VCPKG_CHAINLOAD_TOOLCHAIN_FILE Z_VCPKG_ROOT_DIR ) endif() if(Z_VCPKG_HAS_FATAL_ERROR) message(FATAL_ERROR "${Z_VCPKG_FATAL_ERROR}") endif() cmake_policy(POP)