qt5base-lts/cmake/QtBuildInformation.cmake

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# Copyright (C) 2022 The Qt Company Ltd.
# SPDX-License-Identifier: BSD-3-Clause
function(qt_print_feature_summary)
if(QT_SUPERBUILD)
qt_internal_set_message_log_level(message_log_level)
if(message_log_level)
# In a top-level build, ensure that the feature_summary is affected by the
# selected log-level.
set(CMAKE_MESSAGE_LOG_LEVEL "${message_log_level}")
endif()
endif()
include(FeatureSummary)
# Show which packages were found.
feature_summary(INCLUDE_QUIET_PACKAGES
WHAT PACKAGES_FOUND
REQUIRED_PACKAGES_NOT_FOUND
RECOMMENDED_PACKAGES_NOT_FOUND
OPTIONAL_PACKAGES_NOT_FOUND
RUNTIME_PACKAGES_NOT_FOUND
FATAL_ON_MISSING_REQUIRED_PACKAGES)
CMake: Work around build rpath issue when CMAKE_STAGING_PREFIX is set CMake has logic to rewrite build rpaths that contain CMAKE_STAGING_PREFIX to instead point to CMAKE_INSTALL_PREFIX. This breaks running executables from the build directory, because their build rpath will point to a location where the libraries might not exist yet (we didn't install Qt yet). Work around this by setting CMAKE_STAGING_PREFIX to a fake path, so that CMake does not do the rewriting anymore. CMAKE_STAGING_PREFIX needs to be set at subdirectory scope, not function scope, which is why qt_internal_apply_staging_prefix_build_rpath_workaround() is a macro that is called from within each Qt internal function that creates a target. The workaround can be disabled by configuring with -DQT_NO_STAGING_PREFIX_BUILD_RPATH_WORKAROUND=ON The downside of this workaround is that it breaks per-subdirectory install rules like 'ninja src/gui/install'. Regular global installation like 'ninja install' works fine. This is similar to what we do for tests in qt_set_up_fake_standalone_tests_install_prefix() introduced by 20292250d44e08437306096e9096fc655cc9fb8b The reason it's not as good for other target types is because in contrast to tests, we do want to install them. In case if someone does call `ninja src/gui/install' they will most likely get a permission error, telling them it's not possible to install into /qt_fake_staging_prefix/ check_qt_internal_apply_staging_prefix_build_rpath_workaround Fixes: QTBUG-102592 Change-Id: I6ce78dde1924a8d830ef5c62808ff674c9639d65 Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-04-14 16:04:41 +00:00
qt_internal_run_additional_summary_checks()
qt_configure_print_summary()
endfunction()
CMake: Work around build rpath issue when CMAKE_STAGING_PREFIX is set CMake has logic to rewrite build rpaths that contain CMAKE_STAGING_PREFIX to instead point to CMAKE_INSTALL_PREFIX. This breaks running executables from the build directory, because their build rpath will point to a location where the libraries might not exist yet (we didn't install Qt yet). Work around this by setting CMAKE_STAGING_PREFIX to a fake path, so that CMake does not do the rewriting anymore. CMAKE_STAGING_PREFIX needs to be set at subdirectory scope, not function scope, which is why qt_internal_apply_staging_prefix_build_rpath_workaround() is a macro that is called from within each Qt internal function that creates a target. The workaround can be disabled by configuring with -DQT_NO_STAGING_PREFIX_BUILD_RPATH_WORKAROUND=ON The downside of this workaround is that it breaks per-subdirectory install rules like 'ninja src/gui/install'. Regular global installation like 'ninja install' works fine. This is similar to what we do for tests in qt_set_up_fake_standalone_tests_install_prefix() introduced by 20292250d44e08437306096e9096fc655cc9fb8b The reason it's not as good for other target types is because in contrast to tests, we do want to install them. In case if someone does call `ninja src/gui/install' they will most likely get a permission error, telling them it's not possible to install into /qt_fake_staging_prefix/ check_qt_internal_apply_staging_prefix_build_rpath_workaround Fixes: QTBUG-102592 Change-Id: I6ce78dde1924a8d830ef5c62808ff674c9639d65 Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
2022-04-14 16:04:41 +00:00
function(qt_internal_run_additional_summary_checks)
get_property(
rpath_workaround_enabled
GLOBAL PROPERTY _qt_internal_staging_prefix_build_rpath_workaround)
if(rpath_workaround_enabled)
set(message
"Due to CMAKE_STAGING_PREFIX usage and an unfixed CMake bug,
to ensure correct build time rpaths, directory-level install
rules like ninja src/gui/install will not work.
Check QTBUG-102592 for further details.")
qt_configure_add_report_entry(
TYPE NOTE
MESSAGE "${message}"
)
endif()
endfunction()
function(qt_print_build_instructions)
if((NOT PROJECT_NAME STREQUAL "QtBase" AND
NOT PROJECT_NAME STREQUAL "Qt") OR
QT_BUILD_STANDALONE_TESTS)
return()
endif()
if(QT_SUPERBUILD)
qt_internal_set_message_log_level(message_log_level)
if(message_log_level)
# In a top-level build, ensure that qt_print_build_instructions is affected by the
# selected log-level.
set(CMAKE_MESSAGE_LOG_LEVEL "${message_log_level}")
endif()
endif()
set(build_command "cmake --build . --parallel")
set(install_command "cmake --install .")
# Suggest "ninja install" for Multi-Config builds
# until https://gitlab.kitware.com/cmake/cmake/-/issues/21475 is fixed.
if(CMAKE_GENERATOR STREQUAL "Ninja Multi-Config")
set(install_command "ninja install")
endif()
set(configure_module_command "qt-configure-module")
if(CMAKE_HOST_WIN32)
string(APPEND configure_module_command ".bat")
endif()
if("${CMAKE_STAGING_PREFIX}" STREQUAL "")
set(local_install_prefix "${CMAKE_INSTALL_PREFIX}")
else()
set(local_install_prefix "${CMAKE_STAGING_PREFIX}")
endif()
set(msg "\n")
list(APPEND msg "Qt is now configured for building. Just run '${build_command}'\n")
if(QT_WILL_INSTALL)
list(APPEND msg "Once everything is built, you must run '${install_command}'")
list(APPEND msg "Qt will be installed into '${CMAKE_INSTALL_PREFIX}'")
else()
list(APPEND msg
"Once everything is built, Qt is installed. You should NOT run '${install_command}'")
list(APPEND msg
"Note that this build cannot be deployed to other machines or devices.")
endif()
list(APPEND msg
"\nTo configure and build other Qt modules, you can use the following convenience script:
${local_install_prefix}/${INSTALL_BINDIR}/${configure_module_command}")
list(APPEND msg "\nIf reconfiguration fails for some reason, try removing 'CMakeCache.txt' \
from the build directory \n")
list(JOIN msg "\n" msg)
if(NOT QT_INTERNAL_BUILD_INSTRUCTIONS_SHOWN)
qt_configure_print_build_instructions_helper("${msg}")
endif()
set(QT_INTERNAL_BUILD_INSTRUCTIONS_SHOWN "TRUE" CACHE STRING "" FORCE)
CMake: Reconfigure faster by not looking for missing packages Instead of constantly trying to find packages by calling qt_find_package on each reconfiguration, record which packages were found during initial configuration. Then on a second reconfiguration, skip looking for packages that were not found on the initial configuration. This speeds up reconfiguration on certain platforms and repos. Here are some stats for my macOS qtbase build. not skip 3.69s user 4.96s system 98% cpu 8.750 total skip 2.69s user 1.00s system 97% cpu 3.792 total Top-level build with -submodules=qtquick3d not skip 15.03s user 10.58s system 97% cpu 26.334 total skip 13.87s user 5.16s system 96% cpu 19.724 total Note this is a behavior change from how find_package is used in most CMake projects, where if a package was previously missing, the developer can just install the package and reconfigure to pick it up. With this change, they will first have to remove their CMakeCache.txt file and configure from scratch, or remove the QT_INTERNAL_PREVIOUSLY_FOUND_PACKAGES cache variable and reconfigure. For this reason, we enable this behavior by default only in -developer-builds. Builders can also opt in or out by setting the QT_INTERNAL_SAVE_PREVIOUSLY_FOUND_PACKAGES variable to either ON or OFF. Note this behavior does not apply to user projects, or direct find_package calls (as opposed to qt_find_package). Fixes: QTBUG-107251 Change-Id: Iee9c5d120eb09e2a94eebb059a2174ef6b241e03 Reviewed-by: Kai Köhne <kai.koehne@qt.io> Reviewed-by: Amir Masoud Abdol <amir.abdol@qt.io> Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
2022-09-27 16:20:49 +00:00
if(QT_SUPERBUILD)
qt_internal_save_previously_found_packages()
endif()
endfunction()
function(qt_configure_print_summary_helper summary_reports force_show)
# We force show the summary by temporarily (within the scope of the function) resetting the
# current log level.
if(force_show)
set(CMAKE_MESSAGE_LOG_LEVEL "STATUS")
endif()
message(STATUS "Configure summary:\n${__qt_configure_reports}")
endfunction()
function(qt_configure_print_build_instructions_helper msg)
# We want to ensure build instructions are always shown the first time, regardless of the
# current log level.
set(CMAKE_MESSAGE_LOG_LEVEL "STATUS")
message(STATUS "${msg}")
endfunction()
function(qt_configure_print_summary)
# Evaluate all recorded commands.
qt_configure_eval_commands()
set(summary_file "${CMAKE_BINARY_DIR}/config.summary")
file(WRITE "${summary_file}" "")
get_property(features_possibly_changed GLOBAL PROPERTY _qt_dirty_build)
# Show Qt-specific configuration summary.
if(__qt_configure_reports)
# We want to show the the summary file and log level messages only on first configuration
# or when we detect a feature change, to keep most reconfiguration output as quiet as
# possible. Currently feature change detection is not entirely reliable.
if(NOT QT_INTERNAL_SUMMARY_INSTRUCTIONS_SHOWN OR features_possibly_changed)
message("")
message(
"-- Configuration summary shown below. It has also been written to"
" ${CMAKE_BINARY_DIR}/config.summary")
message(
"-- Configure with --log-level=STATUS or higher to increase "
"CMake's message verbosity. "
"The log level does not persist across reconfigurations.")
endif()
# Need 2 flushes to ensure no interleaved input is printed due to a mix of message(STATUS)
# and message(NOTICE) calls.
execute_process(COMMAND ${CMAKE_COMMAND} -E echo " ")
# We want to show the configuration summary only on first configuration or when we detect
# a feature change, to keep most reconfiguration output as quiet as possible.
# Currently feature change detection is not entirely reliable.
if(NOT QT_INTERNAL_SUMMARY_INSTRUCTIONS_SHOWN OR features_possibly_changed)
set(force_show_summary TRUE)
else()
set(force_show_summary FALSE)
endif()
qt_configure_print_summary_helper(
"Configuration summary:\n${__qt_configure_reports}"
${force_show_summary})
execute_process(COMMAND ${CMAKE_COMMAND} -E echo " ")
file(APPEND "${summary_file}" "${__qt_configure_reports}")
endif()
# Show Qt specific notes, warnings, errors.
if(__qt_configure_notes)
message("${__qt_configure_notes}")
file(APPEND "${summary_file}" "${__qt_configure_notes}")
endif()
if(__qt_configure_warnings)
message("${__qt_configure_warnings}")
file(APPEND "${summary_file}" "${__qt_configure_warnings}")
endif()
if(__qt_configure_errors)
message("${__qt_configure_errors}")
file(APPEND "${summary_file}" "${__qt_configure_errors}")
endif()
message("")
if(__qt_configure_an_error_occurred)
message(FATAL_ERROR "Check the configuration messages for an error that has occurred.")
endif()
file(APPEND "${summary_file}" "\n")
set(QT_INTERNAL_SUMMARY_INSTRUCTIONS_SHOWN "TRUE" CACHE STRING "" FORCE)
endfunction()
# Takes a list of arguments, and saves them to be evaluated at the end of the configuration
# phase when the configuration summary is shown.
#
# RECORD_ON_FEATURE_EVALUATION option allows to record the command even while the feature
# evaluation-only stage.
function(qt_configure_record_command)
cmake_parse_arguments(arg "RECORD_ON_FEATURE_EVALUATION"
""
"" ${ARGV})
# Don't record commands when only evaluating features of a configure.cmake file.
if(__QtFeature_only_evaluate_features AND NOT arg_RECORD_ON_FEATURE_EVALUATION)
return()
endif()
get_property(command_count GLOBAL PROPERTY qt_configure_command_count)
if(NOT DEFINED command_count)
set(command_count 0)
endif()
set_property(GLOBAL PROPERTY qt_configure_command_${command_count} "${arg_UNPARSED_ARGUMENTS}")
math(EXPR command_count "${command_count}+1")
set_property(GLOBAL PROPERTY qt_configure_command_count "${command_count}")
endfunction()
function(qt_configure_eval_commands)
get_property(command_count GLOBAL PROPERTY qt_configure_command_count)
if(NOT command_count)
set(command_count 0)
endif()
set(command_index 0)
while(command_index LESS command_count)
get_property(command_args GLOBAL PROPERTY qt_configure_command_${command_index})
if(NOT command_args)
message(FATAL_ERROR
"Empty arguments encountered while processing qt configure reports.")
endif()
list(POP_FRONT command_args command_name)
if(command_name STREQUAL ADD_SUMMARY_SECTION)
qt_configure_process_add_summary_section(${command_args})
elseif(command_name STREQUAL END_SUMMARY_SECTION)
qt_configure_process_end_summary_section(${command_args})
elseif(command_name STREQUAL ADD_REPORT_ENTRY)
qt_configure_process_add_report_entry(${command_args})
elseif(command_name STREQUAL ADD_SUMMARY_ENTRY)
qt_configure_process_add_summary_entry(${command_args})
elseif(command_name STREQUAL ADD_BUILD_TYPE_AND_CONFIG)
qt_configure_process_add_summary_build_type_and_config(${command_args})
elseif(command_name STREQUAL ADD_BUILD_MODE)
qt_configure_process_add_summary_build_mode(${command_args})
elseif(command_name STREQUAL ADD_BUILD_PARTS)
qt_configure_process_add_summary_build_parts(${command_args})
endif()
math(EXPR command_index "${command_index}+1")
endwhile()
# Propagate content to parent.
set(__qt_configure_reports "${__qt_configure_reports}" PARENT_SCOPE)
set(__qt_configure_notes "${__qt_configure_notes}" PARENT_SCOPE)
set(__qt_configure_warnings "${__qt_configure_warnings}" PARENT_SCOPE)
set(__qt_configure_errors "${__qt_configure_errors}" PARENT_SCOPE)
set(__qt_configure_an_error_occurred "${__qt_configure_an_error_occurred}" PARENT_SCOPE)
endfunction()
macro(qt_configure_add_report message)
string(APPEND __qt_configure_reports "\n${message}")
set(__qt_configure_reports "${__qt_configure_reports}" PARENT_SCOPE)
endmacro()
macro(qt_configure_add_report_padded label message)
qt_configure_get_padded_string("${__qt_configure_indent}${label}" "${message}" padded_message)
string(APPEND __qt_configure_reports "\n${padded_message}")
set(__qt_configure_reports "${__qt_configure_reports}" PARENT_SCOPE)
endmacro()
# Pad 'label' and 'value' with dots like this:
# "label ............... value"
#
# PADDING_LENGTH specifies the number of characters from the start to the last dot.
# Default is 30.
# MIN_PADDING specifies the minimum number of dots that are used for the padding.
# Default is 0.
function(qt_configure_get_padded_string label value out_var)
cmake_parse_arguments(arg "" "PADDING_LENGTH;MIN_PADDING" "" ${ARGN})
if("${arg_MIN_PADDING}" STREQUAL "")
set(arg_MIN_PADDING 0)
endif()
if(arg_PADDING_LENGTH)
set(pad_string "")
math(EXPR n "${arg_PADDING_LENGTH} - 1")
foreach(i RANGE ${n})
string(APPEND pad_string ".")
endforeach()
else()
set(pad_string ".........................................")
endif()
string(LENGTH "${label}" label_len)
string(LENGTH "${pad_string}" pad_len)
math(EXPR pad_len "${pad_len}-${label_len}")
if(pad_len LESS "0")
set(pad_len ${arg_MIN_PADDING})
endif()
string(SUBSTRING "${pad_string}" 0 "${pad_len}" pad_string)
set(output "${label} ${pad_string} ${value}")
set("${out_var}" "${output}" PARENT_SCOPE)
endfunction()
function(qt_configure_add_summary_entry)
qt_configure_record_command(ADD_SUMMARY_ENTRY ${ARGV})
endfunction()
function(qt_configure_process_add_summary_entry)
qt_parse_all_arguments(arg "qt_configure_add_summary_entry"
""
"ARGS;TYPE;MESSAGE" "CONDITION" ${ARGN})
if(NOT arg_TYPE)
set(arg_TYPE "feature")
endif()
if(NOT "${arg_CONDITION}" STREQUAL "")
qt_evaluate_config_expression(condition_result ${arg_CONDITION})
if(NOT condition_result)
return()
endif()
endif()
if(arg_TYPE STREQUAL "firstAvailableFeature")
set(first_feature_found FALSE)
set(message "")
string(REPLACE " " ";" args_list "${arg_ARGS}")
foreach(feature ${args_list})
qt_feature_normalize_name("${feature}" feature)
if(NOT DEFINED QT_FEATURE_${feature})
message(FATAL_ERROR "Asking for a report on undefined feature ${feature}.")
endif()
if(QT_FEATURE_${feature})
set(first_feature_found TRUE)
set(message "${QT_FEATURE_LABEL_${feature}}")
break()
endif()
endforeach()
if(NOT first_feature_found)
set(message "<none>")
endif()
qt_configure_add_report_padded("${arg_MESSAGE}" "${message}")
elseif(arg_TYPE STREQUAL "featureList")
set(available_features "")
string(REPLACE " " ";" args_list "${arg_ARGS}")
foreach(feature ${args_list})
qt_feature_normalize_name("${feature}" feature)
if(NOT DEFINED QT_FEATURE_${feature})
message(FATAL_ERROR "Asking for a report on undefined feature ${feature}.")
endif()
if(QT_FEATURE_${feature})
list(APPEND available_features "${QT_FEATURE_LABEL_${feature}}")
endif()
endforeach()
if(NOT available_features)
set(message "<none>")
else()
list(JOIN available_features " " message)
endif()
qt_configure_add_report_padded("${arg_MESSAGE}" "${message}")
elseif(arg_TYPE STREQUAL "feature")
qt_feature_normalize_name("${arg_ARGS}" feature)
set(label "${QT_FEATURE_LABEL_${feature}}")
if(NOT label)
set(label "${feature}")
endif()
if(QT_FEATURE_${feature})
set(value "yes")
else()
set(value "no")
endif()
qt_configure_add_report_padded("${label}" "${value}")
elseif(arg_TYPE STREQUAL "message")
qt_configure_add_report_padded("${arg_ARGS}" "${arg_MESSAGE}")
endif()
endfunction()
function(qt_configure_add_summary_build_type_and_config)
qt_configure_record_command(ADD_BUILD_TYPE_AND_CONFIG ${ARGV})
endfunction()
function(qt_configure_process_add_summary_build_type_and_config)
get_property(subarch_summary GLOBAL PROPERTY qt_configure_subarch_summary)
if(APPLE AND (CMAKE_OSX_ARCHITECTURES MATCHES ";"))
set(message
"Building for: ${QT_QMAKE_TARGET_MKSPEC} (${CMAKE_OSX_ARCHITECTURES}), ${TEST_architecture_arch} features: ${subarch_summary})")
else()
set(message
"Building for: ${QT_QMAKE_TARGET_MKSPEC} (${TEST_architecture_arch}, CPU features: ${subarch_summary})")
endif()
qt_configure_add_report("${message}")
set(message "Compiler: ")
if(CMAKE_CXX_COMPILER_ID STREQUAL "AppleClang")
string(APPEND message "clang (Apple)")
elseif(CMAKE_CXX_COMPILER_ID STREQUAL "IntelLLVM")
string(APPEND message "clang (Intel LLVM)")
elseif(CLANG)
string(APPEND message "clang")
elseif(QCC)
string(APPEND message "rim_qcc")
elseif(GCC)
string(APPEND message "gcc")
elseif(MSVC)
string(APPEND message "msvc")
elseif(CMAKE_CXX_COMPILER_ID STREQUAL "GHS")
string(APPEND message "ghs")
else()
string(APPEND message "unknown (${CMAKE_CXX_COMPILER_ID})")
endif()
string(APPEND message " ${CMAKE_CXX_COMPILER_VERSION}")
qt_configure_add_report("${message}")
endfunction()
function(qt_configure_add_summary_build_mode)
qt_configure_record_command(ADD_BUILD_MODE ${ARGV})
endfunction()
function(qt_configure_process_add_summary_build_mode label)
set(message "")
if(DEFINED CMAKE_BUILD_TYPE)
if(CMAKE_BUILD_TYPE STREQUAL "Debug")
string(APPEND message "debug")
elseif(CMAKE_BUILD_TYPE STREQUAL "Release")
string(APPEND message "release")
elseif(CMAKE_BUILD_TYPE STREQUAL "RelWithDebInfo")
string(APPEND message "release (with debug info)")
else()
string(APPEND message "${CMAKE_BUILD_TYPE}")
endif()
elseif(DEFINED CMAKE_CONFIGURATION_TYPES)
if("Release" IN_LIST CMAKE_CONFIGURATION_TYPES
AND "Debug" IN_LIST CMAKE_CONFIGURATION_TYPES)
string(APPEND message "debug and release")
elseif("RelWithDebInfo" IN_LIST CMAKE_CONFIGURATION_TYPES
AND "Debug" IN_LIST CMAKE_CONFIGURATION_TYPES)
string(APPEND message "debug and release (with debug info)")
else()
string(APPEND message "${CMAKE_CONFIGURATION_TYPES}")
endif()
endif()
qt_configure_add_report_padded("${label}" "${message}")
endfunction()
function(qt_configure_add_summary_build_parts)
qt_configure_record_command(ADD_BUILD_PARTS ${ARGV})
endfunction()
function(qt_configure_process_add_summary_build_parts label)
qt_get_build_parts(parts)
string(REPLACE ";" " " message "${parts}")
qt_configure_add_report_padded("${label}" "${message}")
endfunction()
function(qt_configure_add_summary_section)
qt_configure_record_command(ADD_SUMMARY_SECTION ${ARGV})
endfunction()
function(qt_configure_process_add_summary_section)
qt_parse_all_arguments(arg "qt_configure_add_summary_section"
"" "NAME" "" ${ARGN})
qt_configure_add_report("${__qt_configure_indent}${arg_NAME}:")
if(NOT DEFINED __qt_configure_indent)
set(__qt_configure_indent " " PARENT_SCOPE)
else()
set(__qt_configure_indent "${__qt_configure_indent} " PARENT_SCOPE)
endif()
endfunction()
function(qt_configure_end_summary_section)
qt_configure_record_command(END_SUMMARY_SECTION ${ARGV})
endfunction()
function(qt_configure_process_end_summary_section)
string(LENGTH "${__qt_configure_indent}" indent_len)
if(indent_len GREATER_EQUAL 2)
string(SUBSTRING "${__qt_configure_indent}" 2 -1 __qt_configure_indent)
set(__qt_configure_indent "${__qt_configure_indent}" PARENT_SCOPE)
endif()
endfunction()
function(qt_configure_add_report_entry)
qt_configure_record_command(ADD_REPORT_ENTRY ${ARGV})
endfunction()
function(qt_configure_add_report_error error)
message(SEND_ERROR "${error}")
qt_configure_add_report_entry(TYPE ERROR MESSAGE "${error}" CONDITION TRUE ${ARGN})
endfunction()
function(qt_configure_process_add_report_entry)
qt_parse_all_arguments(arg "qt_configure_add_report_entry"
""
"TYPE;MESSAGE" "CONDITION" ${ARGN})
set(possible_types NOTE WARNING ERROR FATAL_ERROR)
if(NOT "${arg_TYPE}" IN_LIST possible_types)
message(FATAL_ERROR "qt_configure_add_report_entry: '${arg_TYPE}' is not a valid type.")
endif()
if(NOT arg_MESSAGE)
message(FATAL_ERROR "qt_configure_add_report_entry: Empty message given.")
endif()
if(arg_TYPE STREQUAL "NOTE")
set(contents_var "__qt_configure_notes")
set(prefix "Note: ")
elseif(arg_TYPE STREQUAL "WARNING")
set(contents_var "__qt_configure_warnings")
set(prefix "WARNING: ")
elseif(arg_TYPE STREQUAL "ERROR")
set(contents_var "__qt_configure_errors")
set(prefix "ERROR: ")
elseif(arg_TYPE STREQUAL "FATAL_ERROR")
set(contents_var "__qt_configure_errors")
set(prefix "FATAL ERROR: ")
endif()
if(NOT "${arg_CONDITION}" STREQUAL "")
qt_evaluate_config_expression(condition_result ${arg_CONDITION})
endif()
if("${arg_CONDITION}" STREQUAL "" OR condition_result)
set(new_report "${prefix}${arg_MESSAGE}")
string(APPEND "${contents_var}" "\n${new_report}")
if(arg_TYPE STREQUAL "ERROR" OR arg_TYPE STREQUAL "FATAL_ERROR")
set(__qt_configure_an_error_occurred "TRUE" PARENT_SCOPE)
endif()
endif()
set("${contents_var}" "${${contents_var}}" PARENT_SCOPE)
endfunction()