qt5base-lts/cmake/QtFeature.cmake
Allan Sandfeld Jensen dc3b2ac81d C++23/c++2b support
Change-Id: I33b2a48312ae94e3d5ebb4097e50c4953e14d533
Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-06-08 19:43:34 +02:00

1259 lines
49 KiB
CMake

include(QtFeatureCommon)
include(CheckCXXCompilerFlag)
function(qt_feature_module_begin)
qt_parse_all_arguments(arg "qt_feature_module_begin"
"NO_MODULE;ONLY_EVALUATE_FEATURES"
"LIBRARY;PRIVATE_FILE;PUBLIC_FILE" "PUBLIC_DEPENDENCIES;PRIVATE_DEPENDENCIES" ${ARGN})
if(NOT arg_ONLY_EVALUATE_FEATURES)
if ("${arg_LIBRARY}" STREQUAL "" AND (NOT ${arg_NO_MODULE}))
message(FATAL_ERROR
"qt_feature_begin_module needs a LIBRARY name! (or specify NO_MODULE)")
endif()
if ("${arg_PUBLIC_FILE}" STREQUAL "")
message(FATAL_ERROR "qt_feature_begin_module needs a PUBLIC_FILE name!")
endif()
if ("${arg_PRIVATE_FILE}" STREQUAL "")
message(FATAL_ERROR "qt_feature_begin_module needs a PRIVATE_FILE name!")
endif()
set(__QtFeature_only_evaluate_features OFF PARENT_SCOPE)
else()
set(__QtFeature_only_evaluate_features ON PARENT_SCOPE)
endif()
set(__QtFeature_library "${arg_LIBRARY}" PARENT_SCOPE)
set(__QtFeature_public_features "" PARENT_SCOPE)
set(__QtFeature_private_features "" PARENT_SCOPE)
set(__QtFeature_internal_features "" PARENT_SCOPE)
set(__QtFeature_private_file "${arg_PRIVATE_FILE}" PARENT_SCOPE)
set(__QtFeature_public_file "${arg_PUBLIC_FILE}" PARENT_SCOPE)
set(__QtFeature_private_extra "" PARENT_SCOPE)
set(__QtFeature_public_extra "" PARENT_SCOPE)
set(__QtFeature_config_definitions "" PARENT_SCOPE)
set(__QtFeature_define_definitions "" PARENT_SCOPE)
endfunction()
function(qt_feature feature)
set(original_name "${feature}")
qt_feature_normalize_name("${feature}" feature)
set_property(GLOBAL PROPERTY QT_FEATURE_ORIGINAL_NAME_${feature} "${original_name}")
qt_parse_all_arguments(arg "qt_feature"
"PRIVATE;PUBLIC"
"LABEL;PURPOSE;SECTION;" "AUTODETECT;CONDITION;ENABLE;DISABLE;EMIT_IF" ${ARGN})
set(_QT_FEATURE_DEFINITION_${feature} ${ARGN} PARENT_SCOPE)
# Register feature for future use:
if (arg_PUBLIC)
list(APPEND __QtFeature_public_features "${feature}")
endif()
if (arg_PRIVATE)
list(APPEND __QtFeature_private_features "${feature}")
endif()
if (NOT arg_PUBLIC AND NOT arg_PRIVATE)
list(APPEND __QtFeature_internal_features "${feature}")
endif()
set(__QtFeature_public_features ${__QtFeature_public_features} PARENT_SCOPE)
set(__QtFeature_private_features ${__QtFeature_private_features} PARENT_SCOPE)
set(__QtFeature_internal_features ${__QtFeature_internal_features} PARENT_SCOPE)
endfunction()
function(qt_evaluate_to_boolean expressionVar)
if(${${expressionVar}})
set(${expressionVar} ON PARENT_SCOPE)
else()
set(${expressionVar} OFF PARENT_SCOPE)
endif()
endfunction()
function(qt_evaluate_config_expression resultVar)
set(result "")
set(nestingLevel 0)
set(skipNext OFF)
set(expression "${ARGN}")
list(LENGTH expression length)
math(EXPR length "${length}-1")
foreach(memberIdx RANGE ${length})
if(${skipNext})
set(skipNext OFF)
continue()
endif()
list(GET expression ${memberIdx} member)
if("${member}" STREQUAL "(")
if(${nestingLevel} GREATER 0)
list(APPEND result ${member})
endif()
math(EXPR nestingLevel "${nestingLevel} + 1")
continue()
elseif("${member}" STREQUAL ")")
math(EXPR nestingLevel "${nestingLevel} - 1")
if(nestingLevel LESS 0)
break()
endif()
if(${nestingLevel} EQUAL 0)
qt_evaluate_config_expression(result ${result})
else()
list(APPEND result ${member})
endif()
continue()
elseif(${nestingLevel} GREATER 0)
list(APPEND result ${member})
continue()
elseif("${member}" STREQUAL "NOT")
list(APPEND result ${member})
continue()
elseif("${member}" STREQUAL "AND")
qt_evaluate_to_boolean(result)
if(NOT ${result})
break()
endif()
set(result "")
elseif("${member}" STREQUAL "OR")
qt_evaluate_to_boolean(result)
if(${result})
break()
endif()
set(result "")
elseif("${member}" STREQUAL "STREQUAL" AND memberIdx LESS ${length})
# Unfortunately the semantics for STREQUAL in if() are broken when the
# RHS is an empty string and the parameters to if are coming through a variable.
# So we expect people to write the empty string with single quotes and then we
# do the comparison manually here.
list(LENGTH result lhsIndex)
math(EXPR lhsIndex "${lhsIndex}-1")
list(GET result ${lhsIndex} lhs)
list(REMOVE_AT result ${lhsIndex})
set(lhs "${${lhs}}")
math(EXPR rhsIndex "${memberIdx}+1")
set(skipNext ON)
list(GET expression ${rhsIndex} rhs)
# We can't pass through an empty string with double quotes through various
# stages of substitution, so instead it is represented using single quotes
# and resolve here.
string(REGEX REPLACE "'(.*)'" "\\1" rhs "${rhs}")
string(COMPARE EQUAL "${lhs}" "${rhs}" stringCompareResult)
list(APPEND result ${stringCompareResult})
else()
string(FIND "${member}" "QT_FEATURE_" idx)
if(idx EQUAL 0)
# Remove the QT_FEATURE_ prefix
string(SUBSTRING "${member}" 11 -1 feature)
qt_evaluate_feature(${feature})
endif()
list(APPEND result ${member})
endif()
endforeach()
# The 'TARGET Gui' case is handled by qt_evaluate_to_boolean, by passing those tokens verbatim
# to if().
if("${result}" STREQUAL "")
set(result ON)
else()
qt_evaluate_to_boolean(result)
endif()
set(${resultVar} ${result} PARENT_SCOPE)
endfunction()
function(_qt_internal_dump_expression_values expression_dump expression)
set(dump "")
set(skipNext FALSE)
set(isTargetExpression FALSE)
set(keywords "EQUAL" "LESS" "LESS_EQUAL" "GREATER" "GREATER_EQUAL" "STREQUAL" "STRLESS"
"STRLESS_EQUAL" "STRGREATER" "STRGREATER_EQUAL" "VERSION_EQUAL" "VERSION_LESS"
"VERSION_LESS_EQUAL" "VERSION_GREATER" "VERSION_GREATER_EQUAL" "MATCHES"
"EXISTS" "COMMAND" "DEFINED" "NOT" "AND" "OR" "TARGET" "EXISTS" "IN_LIST" "(" ")")
list(LENGTH expression length)
math(EXPR length "${length}-1")
if(${length} LESS 0)
return()
endif()
foreach(memberIdx RANGE ${length})
if(${skipNext})
set(skipNext FALSE)
continue()
endif()
list(GET expression ${memberIdx} member)
if(NOT "${member}" IN_LIST keywords)
string(FIND "${member}" "QT_FEATURE_" idx)
if(idx EQUAL 0)
if(NOT DEFINED ${member})
list(APPEND dump "${member} not evaluated")
else()
list(APPEND dump "${member} = \"${${member}}\"")
endif()
elseif(isTargetExpression)
set(targetExpression "TARGET;${member}")
if(${targetExpression})
list(APPEND dump "TARGET ${member} found")
else()
list(APPEND dump "TARGET ${member} not found")
endif()
else()
list(APPEND dump "${member} = \"${${member}}\"")
endif()
set(isTargetExpression FALSE)
set(skipNext FALSE)
elseif("${member}" STREQUAL "TARGET")
set(isTargetExpression TRUE)
elseif("${member}" STREQUAL "STREQUAL")
set(skipNext TRUE)
else()
set(skipNext FALSE)
set(isTargetExpression FALSE)
endif()
endforeach()
string(JOIN "\n " ${expression_dump} ${dump})
set(${expression_dump} "${${expression_dump}}" PARENT_SCOPE)
endfunction()
# Stores the user provided value to FEATURE_${feature} if provided.
# If not provided, stores ${computed} instead.
# ${computed} is also stored when reconfiguring and the condition does not align with the user
# provided value.
#
function(qt_feature_check_and_save_user_provided_value resultVar feature condition computed label)
if (DEFINED "FEATURE_${feature}")
# Revisit new user provided value
set(user_value "${FEATURE_${feature}}")
set(result "${user_value}")
# If the build is marked as dirty and the user_value doesn't meet the new condition,
# reset it to the computed one.
get_property(dirty_build GLOBAL PROPERTY _qt_dirty_build)
if(NOT condition AND result AND dirty_build)
set(result "${computed}")
message(WARNING "Reset FEATURE_${feature} value to ${result}, because it doesn't \
meet its condition after reconfiguration.")
endif()
set(bool_values OFF NO FALSE N ON YES TRUE Y)
if ((result IN_LIST bool_values) OR (result GREATER_EQUAL 0))
# All good!
else()
message(FATAL_ERROR
"Sanity check failed: FEATURE_${feature} has invalid value \"${result}\"!")
endif()
# Fix-up user-provided values
set("FEATURE_${feature}" "${result}" CACHE BOOL "${label}" FORCE)
else()
# Initial setup:
set(result "${computed}")
set("FEATURE_${feature}" "${result}" CACHE BOOL "${label}")
endif()
set("${resultVar}" "${result}" PARENT_SCOPE)
endfunction()
# Saves the final user value to QT_FEATURE_${feature}, after checking that the condition is met.
macro(qt_feature_check_and_save_internal_value
feature saved_user_value condition label conditionExpression)
if(${saved_user_value})
set(result ON)
else()
set(result OFF)
endif()
if ((NOT condition) AND result)
_qt_internal_dump_expression_values(conditionDump "${conditionExpression}")
string(JOIN " " conditionString ${conditionExpression})
qt_configure_add_report_error("Feature \"${feature}\": Forcing to \"${result}\" breaks its \
condition:\n ${conditionString}\nCondition values dump:\n ${conditionDump}\n" RECORD_ON_FEATURE_EVALUATION)
endif()
if (DEFINED "QT_FEATURE_${feature}")
message(FATAL_ERROR "Feature ${feature} is already defined when evaluating configure.cmake features for ${target}.")
endif()
set(QT_FEATURE_${feature} "${result}" CACHE INTERNAL "Qt feature: ${feature}")
# Add feature to build feature collection
list(APPEND QT_KNOWN_FEATURES "${feature}")
set(QT_KNOWN_FEATURES "${QT_KNOWN_FEATURES}" CACHE INTERNAL "" FORCE)
endmacro()
# The build system stores 2 CMake cache variables for each feature, to allow detecting value changes
# during subsequent reconfigurations.
#
#
# `FEATURE_foo` stores the user provided feature value for the current configuration run.
# It can be set directly by the user, or derived from INPUT_foo (also set by the user).
#
# If a value is not provided on initial configuration, the value will be auto-computed based on the
# various conditions of the feature.
# TODO: Document the various conditions and how they relate to each other.
#
#
# `QT_FEATURE_foo` stores the value of the feature from the previous configuration run.
# Its value is updated once with the newest user provided value after some checks are performed.
#
# This variable also serves as the main source of truth throughout the build system code to check
# if the feature is enabled, e.g. if(QT_FEATURE_foo)
#
# It is not meant to be set by the user. It is only modified by the build system.
#
# Comparing the values of QT_FEATURE_foo and FEATURE_foo, the build system can detect whether
# the user changed the value for a feature and thus recompute any dependent features.
#
function(qt_evaluate_feature feature)
# If the feature was already evaluated as dependency nothing to do here.
if(DEFINED "QT_FEATURE_${feature}")
return()
endif()
if(NOT DEFINED _QT_FEATURE_DEFINITION_${feature})
qt_debug_print_variables(DEDUP MATCH "^QT_FEATURE")
message(FATAL_ERROR "Attempting to evaluate feature ${feature} but its definition is missing. Either the feature does not exist or a dependency to the module that defines it is missing")
endif()
cmake_parse_arguments(arg
"PRIVATE;PUBLIC"
"LABEL;PURPOSE;SECTION;" "AUTODETECT;CONDITION;ENABLE;DISABLE;EMIT_IF" ${_QT_FEATURE_DEFINITION_${feature}})
if("${arg_ENABLE}" STREQUAL "")
set(arg_ENABLE OFF)
endif()
if("${arg_DISABLE}" STREQUAL "")
set(arg_DISABLE OFF)
endif()
if("${arg_AUTODETECT}" STREQUAL "")
set(arg_AUTODETECT ON)
endif()
if("${arg_CONDITION}" STREQUAL "")
set(condition ON)
else()
qt_evaluate_config_expression(condition ${arg_CONDITION})
endif()
qt_evaluate_config_expression(disable_result ${arg_DISABLE})
qt_evaluate_config_expression(enable_result ${arg_ENABLE})
qt_evaluate_config_expression(auto_detect ${arg_AUTODETECT})
if(${disable_result})
set(computed OFF)
elseif((${enable_result}) OR (${auto_detect}))
set(computed ${condition})
else()
# feature not auto-detected and not explicitly enabled
set(computed OFF)
endif()
if("${arg_EMIT_IF}" STREQUAL "")
set(emit_if ON)
else()
qt_evaluate_config_expression(emit_if ${arg_EMIT_IF})
endif()
# If FEATURE_ is not defined trying to use INPUT_ variable to enable/disable feature.
if ((NOT DEFINED "FEATURE_${feature}") AND (DEFINED "INPUT_${feature}")
AND (NOT "${INPUT_${feature}}" STREQUAL "undefined")
AND (NOT "${INPUT_${feature}}" STREQUAL ""))
if(INPUT_${feature})
set(FEATURE_${feature} ON)
else()
set(FEATURE_${feature} OFF)
endif()
endif()
# Warn about a feature which is not emitted, but the user explicitly provided a value for it.
if(NOT emit_if AND DEFINED FEATURE_${feature})
set(msg "")
string(APPEND msg
"Feature ${feature} is insignificant in this configuration, "
"ignoring related command line option(s).")
qt_configure_add_report_entry(TYPE WARNING MESSAGE "${msg}")
# Remove the cache entry so that the warning is not persisted and shown on every
# reconfiguration.
unset(FEATURE_${feature} CACHE)
endif()
# Only save the user provided value if the feature was emitted.
if(emit_if)
qt_feature_check_and_save_user_provided_value(
saved_user_value "${feature}" "${condition}" "${computed}" "${arg_LABEL}")
else()
# Make sure the feature internal value is OFF if not emitted.
set(saved_user_value OFF)
endif()
qt_feature_check_and_save_internal_value(
"${feature}" "${saved_user_value}" "${condition}" "${arg_LABEL}" "${arg_CONDITION}")
# Store each feature's label for summary info.
set(QT_FEATURE_LABEL_${feature} "${arg_LABEL}" CACHE INTERNAL "")
endfunction()
function(qt_feature_config feature config_var_name)
qt_feature_normalize_name("${feature}" feature)
qt_parse_all_arguments(arg "qt_feature_config" "NEGATE" "NAME" "" ${ARGN})
# Store all the config related info in a unique variable key.
set(key_name "_QT_FEATURE_CONFIG_DEFINITION_${feature}_${config_var_name}")
set(${key_name} "FEATURE;${feature};CONFIG_VAR_NAME;${config_var_name};${ARGN}" PARENT_SCOPE)
# Store the key for later evaluation.
list(APPEND __QtFeature_config_definitions "${key_name}")
set(__QtFeature_config_definitions ${__QtFeature_config_definitions} PARENT_SCOPE)
endfunction()
function(qt_evaluate_qmake_config_values key)
if(NOT DEFINED ${key})
qt_debug_print_variables(DEDUP MATCH "^_QT_FEATURE_CONFIG_DEFINITION")
message(FATAL_ERROR
"Attempting to evaluate feature config ${key} but its definition is missing. ")
endif()
cmake_parse_arguments(arg
"NEGATE"
"FEATURE;NAME;CONFIG_VAR_NAME"
"" ${${key}})
# If no custom name is specified, then the config value is the same as the feature name.
if(NOT arg_NAME)
set(arg_NAME "${arg_FEATURE}")
endif()
set(expected "NOT")
if (arg_NEGATE)
set(expected "")
if(arg_NAME MATCHES "^no_(.*)")
set(arg_NAME "${CMAKE_MATCH_1}")
else()
string(PREPEND arg_NAME "no_")
endif()
endif()
# The feature condition is false, there is no need to export any config values.
if(${expected} ${QT_FEATURE_${arg_FEATURE}})
return()
endif()
if(arg_CONFIG_VAR_NAME STREQUAL "QMAKE_PUBLIC_CONFIG")
list(APPEND __QtFeature_qmake_public_config "${arg_NAME}")
set(__QtFeature_qmake_public_config "${__QtFeature_qmake_public_config}" PARENT_SCOPE)
endif()
if(arg_CONFIG_VAR_NAME STREQUAL "QMAKE_PRIVATE_CONFIG")
list(APPEND __QtFeature_qmake_private_config "${arg_NAME}")
set(__QtFeature_qmake_private_config "${__QtFeature_qmake_private_config}" PARENT_SCOPE)
endif()
if(arg_CONFIG_VAR_NAME STREQUAL "QMAKE_PUBLIC_QT_CONFIG")
list(APPEND __QtFeature_qmake_public_qt_config "${arg_NAME}")
set(__QtFeature_qmake_public_qt_config "${__QtFeature_qmake_public_qt_config}" PARENT_SCOPE)
endif()
endfunction()
function(qt_feature_definition feature name)
qt_feature_normalize_name("${feature}" feature)
qt_parse_all_arguments(arg "qt_feature_definition" "NEGATE" "VALUE;PREREQUISITE" "" ${ARGN})
# Store all the define related info in a unique variable key.
set(key_name "_QT_FEATURE_DEFINE_DEFINITION_${feature}_${name}")
set(${key_name} "FEATURE;${feature};NAME;${name};${ARGN}" PARENT_SCOPE)
# Store the key for later evaluation and subsequent define generation:
list(APPEND __QtFeature_define_definitions "${key_name}")
set(__QtFeature_define_definitions ${__QtFeature_define_definitions} PARENT_SCOPE)
endfunction()
function(qt_evaluate_feature_definition key)
if(NOT DEFINED ${key})
qt_debug_print_variables(DEDUP MATCH "^_QT_FEATURE_DEFINE_DEFINITION")
message(FATAL_ERROR "Attempting to evaluate feature define ${key} but its definition is missing. ")
endif()
cmake_parse_arguments(arg
"NEGATE;"
"FEATURE;NAME;VALUE;PREREQUISITE" "" ${${key}})
set(expected ON)
if (arg_NEGATE)
set(expected OFF)
endif()
set(actual OFF)
if(QT_FEATURE_${arg_FEATURE})
set(actual ON)
endif()
set(msg "")
if(actual STREQUAL expected)
set(indent "")
if(arg_PREREQUISITE)
string(APPEND msg "#if ${arg_PREREQUISITE}\n")
set(indent " ")
endif()
if (arg_VALUE)
string(APPEND msg "${indent}#define ${arg_NAME} ${arg_VALUE}\n")
else()
string(APPEND msg "${indent}#define ${arg_NAME}\n")
endif()
if(arg_PREREQUISITE)
string(APPEND msg "#endif\n")
endif()
string(APPEND __QtFeature_public_extra "${msg}")
endif()
set(__QtFeature_public_extra ${__QtFeature_public_extra} PARENT_SCOPE)
endfunction()
function(qt_extra_definition name value)
qt_parse_all_arguments(arg "qt_extra_definition" "PUBLIC;PRIVATE" "" "" ${ARGN})
if (arg_PUBLIC)
string(APPEND __QtFeature_public_extra "\n#define ${name} ${value}\n")
elseif(arg_PRIVATE)
string(APPEND __QtFeature_private_extra "\n#define ${name} ${value}\n")
endif()
set(__QtFeature_public_extra ${__QtFeature_public_extra} PARENT_SCOPE)
set(__QtFeature_private_extra ${__QtFeature_private_extra} PARENT_SCOPE)
endfunction()
function(qt_internal_generate_feature_line line feature)
string(TOUPPER "${QT_FEATURE_${feature}}" value)
if (value STREQUAL "ON")
set(line "#define QT_FEATURE_${feature} 1\n\n" PARENT_SCOPE)
elseif(value STREQUAL "OFF")
set(line "#define QT_FEATURE_${feature} -1\n\n" PARENT_SCOPE)
elseif(value STREQUAL "UNSET")
set(line "#define QT_FEATURE_${feature} 0\n\n" PARENT_SCOPE)
else()
message(FATAL_ERROR "${feature} has unexpected value \"${QT_FEATURE_${feature}}\"! "
"Valid values are ON, OFF and UNSET.")
endif()
endfunction()
function(qt_internal_feature_write_file file features extra)
set(contents "")
foreach(it ${features})
qt_internal_generate_feature_line(line "${it}")
string(APPEND contents "${line}")
endforeach()
string(APPEND contents "${extra}")
file(GENERATE OUTPUT "${file}" CONTENT "${contents}")
endfunction()
# Helper function which evaluates features from a given list of configure.cmake paths
# and creates the feature cache entries.
# Should not be used directly, unless features need to be available in a directory scope before the
# associated module evaluates the features.
# E.g. qtbase/src.pro needs access to Core features before src/corelib/CMakeLists.txt is parsed.
function(qt_feature_evaluate_features list_of_paths)
qt_feature_module_begin(ONLY_EVALUATE_FEATURES)
foreach(path ${list_of_paths})
include("${path}")
endforeach()
qt_feature_module_end(ONLY_EVALUATE_FEATURES)
endfunction()
function(qt_feature_record_summary_entries list_of_paths)
# Clean up any stale state just in case.
qt_feature_unset_state_vars()
set(__QtFeature_only_record_summary_entries TRUE)
foreach(path ${list_of_paths})
include("${path}")
endforeach()
qt_feature_unset_state_vars()
endfunction()
function(qt_feature_module_end)
set(flags ONLY_EVALUATE_FEATURES)
set(options OUT_VAR_PREFIX)
set(multiopts)
cmake_parse_arguments(arg "${flags}" "${options}" "${multiopts}" ${ARGN})
set(target ${arg_UNPARSED_ARGUMENTS})
# The value of OUT_VAR_PREFIX is used as a prefix for output variables that should be
# set in the parent scope.
if(NOT arg_OUT_VAR_PREFIX)
set(arg_OUT_VAR_PREFIX "")
endif()
set(all_features ${__QtFeature_public_features} ${__QtFeature_private_features} ${__QtFeature_internal_features})
list(REMOVE_DUPLICATES all_features)
foreach(feature ${all_features})
qt_evaluate_feature(${feature})
endforeach()
# Evaluate custom cache assignments.
foreach(cache_var_name ${__QtFeature_custom_enabled_cache_variables})
set(${cache_var_name} ON CACHE BOOL "Force enabled by platform requirements." FORCE)
endforeach()
foreach(cache_var_name ${__QtFeature_custom_disabled_cache_variables})
set(${cache_var_name} OFF CACHE BOOL "Force disabled by platform requirements." FORCE)
endforeach()
set(enabled_public_features "")
set(disabled_public_features "")
set(enabled_private_features "")
set(disabled_private_features "")
foreach(feature ${__QtFeature_public_features})
if(QT_FEATURE_${feature})
list(APPEND enabled_public_features ${feature})
else()
list(APPEND disabled_public_features ${feature})
endif()
endforeach()
foreach(feature ${__QtFeature_private_features})
if(QT_FEATURE_${feature})
list(APPEND enabled_private_features ${feature})
else()
list(APPEND disabled_private_features ${feature})
endif()
endforeach()
foreach(key ${__QtFeature_config_definitions})
qt_evaluate_qmake_config_values(${key})
unset(${key} PARENT_SCOPE)
endforeach()
foreach(key ${__QtFeature_define_definitions})
qt_evaluate_feature_definition(${key})
unset(${key} PARENT_SCOPE)
endforeach()
foreach(feature ${all_features})
unset(_QT_FEATURE_DEFINITION_${feature} PARENT_SCOPE)
endforeach()
if(NOT arg_ONLY_EVALUATE_FEATURES)
qt_internal_feature_write_file("${CMAKE_CURRENT_BINARY_DIR}/${__QtFeature_private_file}"
"${__QtFeature_private_features}" "${__QtFeature_private_extra}"
)
qt_internal_feature_write_file("${CMAKE_CURRENT_BINARY_DIR}/${__QtFeature_public_file}"
"${__QtFeature_public_features}" "${__QtFeature_public_extra}"
)
endif()
# Extra header injections which have to have forwarding headers created by
# qt_install_injections.
# Skip creating forwarding headers if qt_feature_module_begin was called with NO_MODULE, aka
# there is no include/<module_name> so there's no place to put the forwarding headers.
if(__QtFeature_library)
set(injections "")
qt_compute_injection_forwarding_header("${__QtFeature_library}"
SOURCE "${__QtFeature_public_file}"
OUT_VAR injections)
qt_compute_injection_forwarding_header("${__QtFeature_library}"
SOURCE "${__QtFeature_private_file}" PRIVATE
OUT_VAR injections)
set(${arg_OUT_VAR_PREFIX}extra_library_injections ${injections} PARENT_SCOPE)
endif()
if (NOT ("${target}" STREQUAL "NO_MODULE") AND NOT arg_ONLY_EVALUATE_FEATURES)
get_target_property(targetType "${target}" TYPE)
if("${targetType}" STREQUAL "INTERFACE_LIBRARY")
set(propertyPrefix "INTERFACE_")
else()
set(propertyPrefix "")
set_property(TARGET "${target}" APPEND PROPERTY EXPORT_PROPERTIES "QT_ENABLED_PUBLIC_FEATURES;QT_DISABLED_PUBLIC_FEATURES;QT_ENABLED_PRIVATE_FEATURES;QT_DISABLED_PRIVATE_FEATURES;QT_QMAKE_PUBLIC_CONFIG;QT_QMAKE_PRIVATE_CONFIG;QT_QMAKE_PUBLIC_QT_CONFIG")
endif()
foreach(visibility public private)
string(TOUPPER "${visibility}" capitalVisibility)
foreach(state enabled disabled)
string(TOUPPER "${state}" capitalState)
set_property(TARGET "${target}" PROPERTY ${propertyPrefix}QT_${capitalState}_${capitalVisibility}_FEATURES "${${state}_${visibility}_features}")
endforeach()
endforeach()
set_property(TARGET "${target}"
PROPERTY ${propertyPrefix}QT_QMAKE_PUBLIC_CONFIG
"${__QtFeature_qmake_public_config}")
set_property(TARGET "${target}"
PROPERTY ${propertyPrefix}QT_QMAKE_PRIVATE_CONFIG
"${__QtFeature_qmake_private_config}")
set_property(TARGET "${target}"
PROPERTY ${propertyPrefix}QT_QMAKE_PUBLIC_QT_CONFIG
"${__QtFeature_qmake_public_qt_config}")
# Config values were the old-school features before actual configure.json features were
# implemented. Therefore "CONFIG+=foo" values should be considered features as well,
# so that CMake can find them when building qtmultimedia for example.
if(__QtFeature_qmake_public_config)
set_property(TARGET "${target}"
APPEND PROPERTY ${propertyPrefix}QT_ENABLED_PUBLIC_FEATURES
${__QtFeature_qmake_public_config})
endif()
if(__QtFeature_qmake_private_config)
set_property(TARGET "${target}"
APPEND PROPERTY ${propertyPrefix}QT_ENABLED_PRIVATE_FEATURES
${__QtFeature_qmake_private_config})
endif()
if(__QtFeature_qmake_public_qt_config)
set_property(TARGET "${target}"
APPEND PROPERTY ${propertyPrefix}QT_ENABLED_PUBLIC_FEATURES
${__QtFeature_qmake_public_qt_config})
endif()
qt_feature_copy_global_config_features_to_core(${target})
endif()
qt_feature_unset_state_vars()
endfunction()
macro(qt_feature_unset_state_vars)
unset(__QtFeature_library PARENT_SCOPE)
unset(__QtFeature_public_features PARENT_SCOPE)
unset(__QtFeature_private_features PARENT_SCOPE)
unset(__QtFeature_internal_features PARENT_SCOPE)
unset(__QtFeature_private_file PARENT_SCOPE)
unset(__QtFeature_public_file PARENT_SCOPE)
unset(__QtFeature_private_extra PARENT_SCOPE)
unset(__QtFeature_public_extra PARENT_SCOPE)
unset(__QtFeature_define_definitions PARENT_SCOPE)
unset(__QtFeature_custom_enabled_features PARENT_SCOPE)
unset(__QtFeature_custom_disabled_features PARENT_SCOPE)
unset(__QtFeature_only_evaluate_features PARENT_SCOPE)
unset(__QtFeature_only_record_summary_entries PARENT_SCOPE)
endmacro()
function(qt_feature_copy_global_config_features_to_core target)
# CMake doesn't support setting custom properties on exported INTERFACE libraries
# See https://gitlab.kitware.com/cmake/cmake/issues/19261.
# To circumvent that, copy the properties from GlobalConfig to Core target.
# This way the global features actually get set in the generated CoreTargets.cmake file.
if(target STREQUAL Core)
foreach(visibility public private)
string(TOUPPER "${visibility}" capitalVisibility)
foreach(state enabled disabled)
string(TOUPPER "${state}" capitalState)
set(core_property_name "QT_${capitalState}_${capitalVisibility}_FEATURES")
set(global_property_name "INTERFACE_${core_property_name}")
get_property(core_values TARGET Core PROPERTY ${core_property_name})
get_property(global_values TARGET GlobalConfig PROPERTY ${global_property_name})
set(total_values ${core_values} ${global_values})
set_property(TARGET Core PROPERTY ${core_property_name} ${total_values})
endforeach()
endforeach()
set(config_property_names
QT_QMAKE_PUBLIC_CONFIG QT_QMAKE_PRIVATE_CONFIG QT_QMAKE_PUBLIC_QT_CONFIG )
foreach(property_name ${config_property_names})
set(core_property_name "${property_name}")
set(global_property_name "INTERFACE_${core_property_name}")
get_property(core_values TARGET Core PROPERTY ${core_property_name})
get_property(global_values TARGET GlobalConfig PROPERTY ${global_property_name})
set(total_values ${core_values} ${global_values})
set_property(TARGET Core PROPERTY ${core_property_name} ${total_values})
endforeach()
endif()
endfunction()
function(qt_config_compile_test name)
if(DEFINED "TEST_${name}")
return()
endif()
cmake_parse_arguments(arg "" "LABEL;PROJECT_PATH;C_STANDARD;CXX_STANDARD"
"COMPILE_OPTIONS;LIBRARIES;CODE;PACKAGES;CMAKE_FLAGS" ${ARGN})
if(arg_PROJECT_PATH)
message(STATUS "Performing Test ${arg_LABEL}")
set(flags "")
qt_get_platform_try_compile_vars(platform_try_compile_vars)
list(APPEND flags ${platform_try_compile_vars})
# If the repo has its own cmake modules, include those in the module path, so that various
# find_package calls work.
if(EXISTS "${PROJECT_SOURCE_DIR}/cmake")
set(must_append_module_path_flag TRUE)
set(flags_copy "${flags}")
set(flags)
foreach(flag IN LISTS flags_copy)
if(flag MATCHES "^-DCMAKE_MODULE_PATH:STRING=")
set(must_append_module_path_flag FALSE)
set(flag "${flag}\\;${PROJECT_SOURCE_DIR}/cmake")
endif()
list(APPEND flags "${flag}")
endforeach()
if(must_append_module_path_flag)
list(APPEND flags "-DCMAKE_MODULE_PATH:STRING=${PROJECT_SOURCE_DIR}/cmake")
endif()
endif()
# Pass which packages need to be found.
if(arg_PACKAGES)
set(packages_list "")
# Parse the package names, version, etc. An example would be:
# PACKAGE Foo 6 REQUIRED
# PACKAGE Bar 2 COMPONENTS Baz
foreach(p ${arg_PACKAGES})
if(p STREQUAL PACKAGE)
if(package_entry)
# Encode the ";" into "\;" to separate the arguments of a find_package call.
string(REPLACE ";" "\\;" package_entry_string "${package_entry}")
list(APPEND packages_list "${package_entry_string}")
endif()
set(package_entry "")
else()
list(APPEND package_entry "${p}")
endif()
endforeach()
# Parse final entry.
if(package_entry)
string(REPLACE ";" "\\;" package_entry_string "${package_entry}")
list(APPEND packages_list "${package_entry_string}")
endif()
# Encode the ";" again.
string(REPLACE ";" "\\;" packages_list "${packages_list}")
# The flags are separated by ';', the find_package entries by '\;',
# and the package parts of an entry by '\\;'.
# Example:
# WrapFoo\\;6\\;COMPONENTS\\;bar\;WrapBaz\\;5
list(APPEND flags "-DQT_CONFIG_COMPILE_TEST_PACKAGES:STRING=${packages_list}")
# Inside the project, the value of QT_CONFIG_COMPILE_TEST_PACKAGES is used in a foreach
# loop that calls find_package() for each package entry, and thus the variable expansion
# ends up calling something like find_package(WrapFoo;6;COMPONENTS;bar) aka
# find_package(WrapFoo 6 COMPONENTS bar).
endif()
# Pass which libraries need to be linked against.
if(arg_LIBRARIES)
set(link_flags "")
set(library_targets "")
# Separate targets from link flags or paths. This is to prevent configuration failures
# when the targets are not found due to missing packages.
foreach(lib ${arg_LIBRARIES})
string(FIND "${lib}" "::" is_library_target)
if(is_library_target EQUAL -1)
list(APPEND link_flags "${lib}")
else()
list(APPEND library_targets "${lib}")
endif()
endforeach()
if(link_flags)
list(APPEND flags "-DQT_CONFIG_COMPILE_TEST_LIBRARIES:STRING=${link_flags}")
endif()
if(library_targets)
list(APPEND flags
"-DQT_CONFIG_COMPILE_TEST_LIBRARY_TARGETS:STRING=${library_targets}")
endif()
endif()
# Pass override values for CMAKE_SYSTEM_{PREFIX|FRAMEWORK}_PATH.
if(DEFINED QT_CMAKE_SYSTEM_PREFIX_PATH_BACKUP)
set(path_list ${CMAKE_SYSTEM_PREFIX_PATH})
string(REPLACE ";" "\\;" path_list "${path_list}")
list(APPEND flags "-DQT_CONFIG_COMPILE_TEST_CMAKE_SYSTEM_PREFIX_PATH=${path_list}")
endif()
if(DEFINED QT_CMAKE_SYSTEM_FRAMEWORK_PATH_BACKUP)
set(path_list ${CMAKE_SYSTEM_FRAMEWORK_PATH})
string(REPLACE ";" "\\;" path_list "${path_list}")
list(APPEND flags "-DQT_CONFIG_COMPILE_TEST_CMAKE_SYSTEM_FRAMEWORK_PATH=${path_list}")
endif()
if(NOT arg_CMAKE_FLAGS)
set(arg_CMAKE_FLAGS "")
endif()
# CI passes the project dir of the Qt repository as absolute path without drive letter:
# \Users\qt\work\qt\qtbase
# Ensure that arg_PROJECT_PATH is an absolute path with drive letter:
# C:/Users/qt/work/qt/qtbase
# This works around CMake upstream issue #22534.
if(CMAKE_HOST_WIN32)
get_filename_component(arg_PROJECT_PATH "${arg_PROJECT_PATH}" REALPATH)
endif()
try_compile(HAVE_${name} "${CMAKE_BINARY_DIR}/config.tests/${name}" "${arg_PROJECT_PATH}"
"${name}" CMAKE_FLAGS ${flags} ${arg_CMAKE_FLAGS})
if(${HAVE_${name}})
set(status_label "Success")
else()
set(status_label "Failed")
endif()
message(STATUS "Performing Test ${arg_LABEL} - ${status_label}")
else()
foreach(library IN ITEMS ${arg_LIBRARIES})
if(NOT TARGET "${library}")
# If the dependency looks like a cmake target, then make this compile test
# fail instead of cmake abort later via CMAKE_REQUIRED_LIBRARIES.
string(FIND "${library}" "::" cmake_target_namespace_separator)
if(NOT cmake_target_namespace_separator EQUAL -1)
set(HAVE_${name} FALSE)
break()
endif()
endif()
endforeach()
if(NOT DEFINED HAVE_${name})
set(_save_CMAKE_C_STANDARD "${CMAKE_C_STANDARD}")
set(_save_CMAKE_CXX_STANDARD "${CMAKE_CXX_STANDARD}")
set(_save_CMAKE_REQUIRED_FLAGS "${CMAKE_REQUIRED_FLAGS}")
set(_save_CMAKE_TRY_COMPILE_PLATFORM_VARIABLES "${CMAKE_TRY_COMPILE_PLATFORM_VARIABLES}")
if(arg_C_STANDARD)
set(CMAKE_C_STANDARD "${arg_C_STANDARD}")
endif()
if(arg_CXX_STANDARD)
if(${arg_CXX_STANDARD} LESS 23 OR ${CMAKE_VERSION} VERSION_GREATER_EQUAL "3.20")
set(CMAKE_CXX_STANDARD "${arg_CXX_STANDARD}")
endif()
endif()
set(CMAKE_REQUIRED_FLAGS ${arg_COMPILE_OPTIONS})
# Pass -stdlib=libc++ on if necessary
if (INPUT_stdlib_libcpp OR QT_FEATURE_stdlib_libcpp)
list(APPEND CMAKE_REQUIRED_FLAGS "-stdlib=libc++")
endif()
# For MSVC we need to explicitly pass -Zc:__cplusplus to get correct __cplusplus
# define values. According to common/msvc-version.conf the flag is supported starting
# with 1913.
# https://developercommunity.visualstudio.com/content/problem/139261/msvc-incorrectly-defines-cplusplus.html
# No support for the flag in upstream CMake as of 3.17.
# https://gitlab.kitware.com/cmake/cmake/issues/18837
if(CMAKE_CXX_COMPILER_ID STREQUAL "MSVC" AND MSVC_VERSION GREATER_EQUAL 1913)
list(APPEND CMAKE_REQUIRED_FLAGS "-Zc:__cplusplus")
endif()
# Let CMake load our custom platform modules.
if(NOT QT_AVOID_CUSTOM_PLATFORM_MODULES)
list(APPEND CMAKE_TRY_COMPILE_PLATFORM_VARIABLES CMAKE_MODULE_PATH)
endif()
set(_save_CMAKE_REQUIRED_LIBRARIES "${CMAKE_REQUIRED_LIBRARIES}")
set(CMAKE_REQUIRED_LIBRARIES "${arg_LIBRARIES}")
check_cxx_source_compiles("${arg_UNPARSED_ARGUMENTS} ${arg_CODE}" HAVE_${name})
set(CMAKE_REQUIRED_LIBRARIES "${_save_CMAKE_REQUIRED_LIBRARIES}")
set(CMAKE_C_STANDARD "${_save_CMAKE_C_STANDARD}")
set(CMAKE_CXX_STANDARD "${_save_CMAKE_CXX_STANDARD}")
set(CMAKE_REQUIRED_FLAGS "${_save_CMAKE_REQUIRED_FLAGS}")
set(CMAKE_TRY_COMPILE_PLATFORM_VARIABLES "${_save_CMAKE_TRY_COMPILE_PLATFORM_VARIABLES}")
endif()
endif()
set(TEST_${name} "${HAVE_${name}}" CACHE INTERNAL "${arg_LABEL}")
endfunction()
# This function should be used for passing required try compile platform variables to the
# project-based try_compile() call.
# out_var will be a list of -Dfoo=bar strings, suitable to pass to CMAKE_FLAGS.
function(qt_get_platform_try_compile_vars out_var)
# Use the regular variables that are used for source-based try_compile() calls.
set(flags "${CMAKE_TRY_COMPILE_PLATFORM_VARIABLES}")
# Pass custom flags.
list(APPEND flags "CMAKE_C_FLAGS")
list(APPEND flags "CMAKE_C_FLAGS_DEBUG")
list(APPEND flags "CMAKE_C_FLAGS_RELEASE")
list(APPEND flags "CMAKE_C_FLAGS_RELWITHDEBINFO")
list(APPEND flags "CMAKE_CXX_FLAGS")
list(APPEND flags "CMAKE_CXX_FLAGS_DEBUG")
list(APPEND flags "CMAKE_CXX_FLAGS_RELEASE")
list(APPEND flags "CMAKE_CXX_FLAGS_RELWITHDEBINFO")
list(APPEND flags "CMAKE_OBJCOPY")
# Pass toolchain files.
if(CMAKE_TOOLCHAIN_FILE)
list(APPEND flags "CMAKE_TOOLCHAIN_FILE")
endif()
if(VCPKG_CHAINLOAD_TOOLCHAIN_FILE)
list(APPEND flags "VCPKG_CHAINLOAD_TOOLCHAIN_FILE")
endif()
# Pass language standard flags.
list(APPEND flags "CMAKE_C_STANDARD")
list(APPEND flags "CMAKE_CXX_STANDARD")
# Pass -stdlib=libc++ on if necessary
if (INPUT_stdlib_libcpp OR QT_FEATURE_stdlib_libcpp)
if(CMAKE_CXX_FLAGS)
string(APPEND CMAKE_CXX_FLAGS " -stdlib=libc++")
else()
set(CMAKE_CXX_FLAGS "-stdlib=libc++")
endif()
endif()
# Assemble the list with regular options.
set(flags_cmd_line "")
foreach(flag ${flags})
if(${flag})
list(APPEND flags_cmd_line "-D${flag}=${${flag}}")
endif()
endforeach()
# Let CMake load our custom platform modules.
if(NOT QT_AVOID_CUSTOM_PLATFORM_MODULES)
list(APPEND flags_cmd_line "-DCMAKE_MODULE_PATH:STRING=${QT_CMAKE_DIR}/platforms")
endif()
# Pass darwin specific options.
# The architectures need to be passed explicitly to project-based try_compile calls even on
# macOS, so that arm64 compilation works on Apple silicon.
qt_internal_get_first_osx_arch(osx_first_arch)
if(osx_first_arch)
# Do what qmake does, aka when doing a simulator_and_device build, build the
# target architecture test only with the first given architecture, which should be the
# device architecture, aka some variation of "arm" (armv7, arm64).
list(APPEND flags_cmd_line "-DCMAKE_OSX_ARCHITECTURES:STRING=${osx_first_arch}")
endif()
if(UIKIT)
# Specify the sysroot, but only if not doing a simulator_and_device build.
# So keep the sysroot empty for simulator_and_device builds.
if(QT_UIKIT_SDK)
list(APPEND flags_cmd_line "-DCMAKE_OSX_SYSROOT:STRING=${QT_UIKIT_SDK}")
endif()
endif()
if(QT_NO_USE_FIND_PACKAGE_SYSTEM_ENVIRONMENT_PATH)
list(APPEND flags_cmd_line "-DCMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH:BOOL=OFF")
endif()
set("${out_var}" "${flags_cmd_line}" PARENT_SCOPE)
endfunction()
# Set out_var to the first value of CMAKE_OSX_ARCHITECTURES.
# Sets an empty string if no architecture is present.
function(qt_internal_get_first_osx_arch out_var)
set(value "")
if(CMAKE_OSX_ARCHITECTURES)
list(GET CMAKE_OSX_ARCHITECTURES 0 value)
endif()
set(${out_var} "${value}" PARENT_SCOPE)
endfunction()
function(qt_config_compile_test_x86simd extension label)
if (DEFINED TEST_X86SIMD_${extension})
return()
endif()
set(flags "-DSIMD:string=${extension}")
qt_get_platform_try_compile_vars(platform_try_compile_vars)
list(APPEND flags ${platform_try_compile_vars})
message(STATUS "Performing Test ${label} intrinsics")
try_compile("TEST_X86SIMD_${extension}"
"${CMAKE_CURRENT_BINARY_DIR}/config.tests/x86_simd_${extension}"
"${CMAKE_CURRENT_SOURCE_DIR}/config.tests/x86_simd"
x86_simd
CMAKE_FLAGS ${flags})
if(${TEST_X86SIMD_${extension}})
set(status_label "Success")
else()
set(status_label "Failed")
endif()
message(STATUS "Performing Test ${label} intrinsics - ${status_label}")
set(TEST_subarch_${extension} "${TEST_X86SIMD_${extension}}" CACHE INTERNAL "${label}")
endfunction()
function(qt_config_compile_test_machine_tuple label)
if(DEFINED TEST_MACHINE_TUPLE OR NOT (LINUX OR HURD) OR ANDROID)
return()
endif()
message(STATUS "Performing Test ${label}")
execute_process(COMMAND "${CMAKE_CXX_COMPILER}" -dumpmachine
OUTPUT_VARIABLE output
OUTPUT_STRIP_TRAILING_WHITESPACE
RESULT_VARIABLE exit_code)
if(exit_code EQUAL 0)
set(status_label "Success")
else()
set(status_label "Failed")
endif()
message(STATUS "Performing Test ${label} - ${status_label}")
set(TEST_machine_tuple "${output}" CACHE INTERNAL "${label}")
endfunction()
function(qt_config_compiler_supports_flag_test name)
if(DEFINED "TEST_${name}")
return()
endif()
cmake_parse_arguments(arg "" "LABEL;FLAG" "" ${ARGN})
check_cxx_compiler_flag("${arg_FLAG}" TEST_${name})
set(TEST_${name} "${TEST_${name}}" CACHE INTERNAL "${label}")
endfunction()
# gcc expects -fuse-ld=mold (no absolute path can be given) (gcc >= 12.1)
# or an 'ld' symlink to 'mold' in a dir that is passed via -B flag (gcc < 12.1)
#
# clang expects -fuse-ld=mold
# or -fuse-ld=<mold-abs-path>
# or --ldpath=<mold-abs-path> (clang >= 12)
# https://github.com/rui314/mold/#how-to-use
# TODO: In the gcc < 12.1 case, the qt_internal_check_if_linker_is_available(mold) check will
# always return TRUE because gcc will not error out if it is given a -B flag pointing to an
# invalid dir, as well as when the the symlink to the linker in the -B dir is not actually
# a valid linker.
# It would be nice to handle that case in a better way, but it's not that important
# given that gcc > 12.1 now supports -fuse-ld=mold
# NOTE: In comparison to clang, in the gcc < 12.1 case, we pass the full path to where mold is
# and that is recorded in PlatformCommonInternal's INTERFACE_LINK_OPTIONS target.
# Moving such a Qt to a different machine and trying to build another repo won't
# work because the recorded path will be invalid. This is not a problem with
# the gcc >= 12.1 case
function(qt_internal_get_mold_linker_flags out_var)
cmake_parse_arguments(PARSE_ARGV 1 arg "ERROR_IF_EMPTY" "" "")
find_program(QT_INTERNAL_LINKER_MOLD mold)
set(flag "")
if(QT_INTERNAL_LINKER_MOLD)
if(GCC)
if(CMAKE_CXX_COMPILER_VERSION VERSION_GREATER_EQUAL "12.1")
set(flag "-fuse-ld=mold")
else()
set(mold_linker_dir "${CMAKE_CURRENT_BINARY_DIR}/.qt_linker")
set(mold_linker_path "${mold_linker_dir}/ld")
if(NOT EXISTS "${mold_linker_dir}")
file(MAKE_DIRECTORY "${mold_linker_dir}")
endif()
if(NOT EXISTS "${mold_linker_path}")
file(CREATE_LINK
"${QT_INTERNAL_LINKER_MOLD}"
"${mold_linker_path}"
SYMBOLIC)
endif()
set(flag "-B${mold_linker_dir}")
endif()
elseif(CLANG)
if(CMAKE_CXX_COMPILER_VERSION VERSION_GREATER_EQUAL "12")
set(flag "--ld-path=mold")
else()
set(flag "-fuse-ld=mold")
endif()
endif()
endif()
if(arg_ERROR_IS_EMPTY AND NOT flag)
message(FATAL_ERROR "Could not determine the flags to use the mold linker.")
endif()
set(${out_var} "${flag}" PARENT_SCOPE)
endfunction()
function(qt_internal_get_active_linker_flags out_var)
set(flags "")
if(GCC OR CLANG)
if(QT_FEATURE_use_gold_linker)
list(APPEND flags "-fuse-ld=gold")
elseif(QT_FEATURE_use_bfd_linker)
list(APPEND flags "-fuse-ld=bfd")
elseif(QT_FEATURE_use_lld_linker)
list(APPEND flags "-fuse-ld=lld")
elseif(QT_FEATURE_use_mold_linker)
qt_internal_get_mold_linker_flags(mold_flags ERROR_IF_EMPTY)
list(APPEND flags "${mold_flags}")
endif()
endif()
set(${out_var} "${flags}" PARENT_SCOPE)
endfunction()
function(qt_internal_check_if_linker_is_available name)
if(DEFINED "TEST_${name}")
return()
endif()
cmake_parse_arguments(arg "" "LABEL;FLAG" "" ${ARGN})
set(flags "${arg_FLAG}")
set(CMAKE_REQUIRED_LINK_OPTIONS ${flags})
check_cxx_source_compiles("int main() { return 0; }" TEST_${name})
set(TEST_${name} "${TEST_${name}}" CACHE INTERNAL "${label}")
endfunction()
function(qt_config_linker_supports_flag_test name)
if(DEFINED "TEST_${name}")
return()
endif()
cmake_parse_arguments(arg "" "LABEL;FLAG" "" ${ARGN})
set(flags "-Wl,${arg_FLAG}")
# Pass the linker that the main project uses to the compile test.
qt_internal_get_active_linker_flags(linker_flags)
if(linker_flags)
list(PREPEND flags ${linker_flags})
endif()
set(CMAKE_REQUIRED_LINK_OPTIONS ${flags})
check_cxx_source_compiles("int main() { return 0; }" TEST_${name})
set(TEST_${name} "${TEST_${name}}" CACHE INTERNAL "${label}")
endfunction()
function(qt_make_features_available target)
if(NOT "${target}" MATCHES "^${QT_CMAKE_EXPORT_NAMESPACE}::[a-zA-Z0-9_-]*$")
message(FATAL_ERROR "${target} does not match ${QT_CMAKE_EXPORT_NAMESPACE}::[a-zA-Z0-9_-]*. INVALID NAME.")
endif()
if(NOT TARGET ${target})
message(FATAL_ERROR "${target} not found.")
endif()
get_target_property(target_type "${target}" TYPE)
if("${target_type}" STREQUAL "INTERFACE_LIBRARY")
set(property_prefix "INTERFACE_")
else()
set(property_prefix "")
endif()
foreach(visibility IN ITEMS PUBLIC PRIVATE)
set(value ON)
foreach(state IN ITEMS ENABLED DISABLED)
get_target_property(features "${target}" ${property_prefix}QT_${state}_${visibility}_FEATURES)
if("${features}" STREQUAL "features-NOTFOUND")
continue()
endif()
foreach(feature IN ITEMS ${features})
if (DEFINED "QT_FEATURE_${feature}" AND NOT "${QT_FEATURE_${feature}}" STREQUAL "${value}")
message(FATAL_ERROR "Feature ${feature} is already defined to be \"${QT_FEATURE_${feature}}\" and should now be set to \"${value}\" when importing features from ${target}.")
endif()
set(QT_FEATURE_${feature} "${value}" CACHE INTERNAL "Qt feature: ${feature} (from target ${target})")
endforeach()
set(value OFF)
endforeach()
endforeach()
endfunction()