#
#//===----------------------------------------------------------------------===//
#//
#// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
#// See https://llvm.org/LICENSE.txt for license information.
#// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#//
#//===----------------------------------------------------------------------===//
#
if("${CMAKE_SOURCE_DIR}" STREQUAL "${CMAKE_CURRENT_SOURCE_DIR}")
message(FATAL_ERROR "Direct configuration not supported, please use parent directory!")
endif()
# Add cmake directory to search for custom cmake functions
set(CMAKE_MODULE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/cmake ${CMAKE_MODULE_PATH})
# Set libomp version
set(LIBOMP_VERSION_MAJOR 5)
set(LIBOMP_VERSION_MINOR 0)
# These include files are in the cmake/ subdirectory
include(LibompUtils)
include(LibompGetArchitecture)
include(LibompHandleFlags)
include(LibompDefinitions)
# Determine the target architecture
if(${OPENMP_STANDALONE_BUILD})
# If adding a new architecture, take a look at cmake/LibompGetArchitecture.cmake
libomp_get_architecture(LIBOMP_DETECTED_ARCH)
set(LIBOMP_ARCH ${LIBOMP_DETECTED_ARCH} CACHE STRING
"The architecture to build for (x86_64/i386/arm/ppc/ppc64/ppc64le/aarch64/aarch64_32/mic/mips/mips64/riscv64/loongarch64/ve/s390x/wasm32).")
# Should assertions be enabled? They are on by default.
set(LIBOMP_ENABLE_ASSERTIONS TRUE CACHE BOOL
"enable assertions?")
string(TOUPPER "${CMAKE_BUILD_TYPE}" uppercase_CMAKE_BUILD_TYPE)
else() # Part of LLVM build
# Determine the native architecture from LLVM.
string(TOLOWER "${LLVM_TARGET_ARCH}" LIBOMP_NATIVE_ARCH)
if( LIBOMP_NATIVE_ARCH STREQUAL "host" )
string(REGEX MATCH "^[^-]*" LIBOMP_NATIVE_ARCH ${LLVM_HOST_TRIPLE})
endif ()
if(LIBOMP_NATIVE_ARCH MATCHES "i[2-6]86")
set(LIBOMP_ARCH i386)
elseif(LIBOMP_NATIVE_ARCH STREQUAL "x86")
set(LIBOMP_ARCH i386)
elseif(LIBOMP_NATIVE_ARCH STREQUAL "amd64")
set(LIBOMP_ARCH x86_64)
elseif(LIBOMP_NATIVE_ARCH STREQUAL "x86_64")
set(LIBOMP_ARCH x86_64)
elseif(LIBOMP_NATIVE_ARCH MATCHES "powerpc64le")
set(LIBOMP_ARCH ppc64le)
elseif(LIBOMP_NATIVE_ARCH MATCHES "powerpc64")
set(LIBOMP_ARCH ppc64)
elseif(LIBOMP_NATIVE_ARCH MATCHES "powerpc")
set(LIBOMP_ARCH ppc)
elseif(LIBOMP_NATIVE_ARCH MATCHES "aarch64_32")
set(LIBOMP_ARCH aarch64_32)
elseif(LIBOMP_NATIVE_ARCH MATCHES "aarch64")
set(LIBOMP_ARCH aarch64)
elseif(LIBOMP_NATIVE_ARCH MATCHES "arm64")
set(LIBOMP_ARCH aarch64)
elseif(LIBOMP_NATIVE_ARCH MATCHES "arm")
set(LIBOMP_ARCH arm)
elseif(LIBOMP_NATIVE_ARCH MATCHES "riscv64")
set(LIBOMP_ARCH riscv64)
elseif(LIBOMP_NATIVE_ARCH MATCHES "loongarch64")
set(LIBOMP_ARCH loongarch64)
elseif(LIBOMP_NATIVE_ARCH MATCHES "ve")
set(LIBOMP_ARCH ve)
elseif(LIBOMP_NATIVE_ARCH MATCHES "s390x")
set(LIBOMP_ARCH s390x)
elseif(LIBOMP_NATIVE_ARCH MATCHES "wasm")
set(LIBOMP_ARCH wasm32)
else()
# last ditch effort
libomp_get_architecture(LIBOMP_ARCH)
endif ()
set(LIBOMP_ENABLE_ASSERTIONS ${LLVM_ENABLE_ASSERTIONS})
endif()
# Time profiling support
set(LIBOMP_PROFILING_SUPPORT ${OPENMP_ENABLE_LIBOMP_PROFILING})
# FUJITSU A64FX is a special processor because its cache line size is 256.
# We need to pass this information into kmp_config.h.
if(LIBOMP_ARCH STREQUAL "aarch64")
libomp_is_aarch64_a64fx(LIBOMP_DETECT_AARCH64_A64FX)
if (LIBOMP_DETECT_AARCH64_A64FX)
set(LIBOMP_ARCH "aarch64_a64fx")
set(LIBOMP_ARCH_AARCH64_A64FX TRUE)
endif()
endif()
libomp_check_variable(LIBOMP_ARCH 32e x86_64 32 i386 arm ppc ppc64 ppc64le aarch64 aarch64_32 aarch64_a64fx mic mips mips64 riscv64 loongarch64 ve s390x wasm32)
set(LIBOMP_LIB_TYPE normal CACHE STRING
"Performance,Profiling,Stubs library (normal/profile/stubs)")
libomp_check_variable(LIBOMP_LIB_TYPE normal profile stubs)
# Set the OpenMP Year and Month associated with version
set(LIBOMP_OMP_YEAR_MONTH 201611)
set(LIBOMP_MIC_ARCH knc CACHE STRING
"Intel(R) Many Integrated Core Architecture (Intel(R) MIC Architecture) (knf/knc). Ignored if not Intel(R) MIC Architecture build.")
if("${LIBOMP_ARCH}" STREQUAL "mic")
libomp_check_variable(LIBOMP_MIC_ARCH knf knc)
endif()
set(LIBOMP_FORTRAN_MODULES FALSE CACHE BOOL
"Create Fortran module files? (requires fortran compiler)")
# - Support for universal fat binary builds on Mac
# - Having this extra variable allows people to build this library as a universal library
# without forcing a universal build of the llvm/clang compiler.
set(LIBOMP_OSX_ARCHITECTURES "${CMAKE_OSX_ARCHITECTURES}" CACHE STRING
"For Mac builds, semicolon separated list of architectures to build for universal fat binary.")
set(CMAKE_OSX_ARCHITECTURES ${LIBOMP_OSX_ARCHITECTURES})
# Should @rpath be used for dynamic libraries on Mac?
# The if(NOT DEFINED) is there to guard a cached value of the variable if one
# exists so there is no interference with what the user wants. Also, no cache entry
# is created so there are no inadvertant effects on other parts of LLVM.
if(NOT DEFINED CMAKE_MACOSX_RPATH)
set(CMAKE_MACOSX_RPATH TRUE)
endif()
# User specified flags. These are appended to the configured flags.
set(LIBOMP_CXXFLAGS "" CACHE STRING
"Appended user specified C++ compiler flags.")
set(LIBOMP_CPPFLAGS "" CACHE STRING
"Appended user specified C preprocessor flags.")
set(LIBOMP_ASMFLAGS "" CACHE STRING
"Appended user specified assembler flags.")
set(LIBOMP_LDFLAGS "" CACHE STRING
"Appended user specified linker flags.")
if(${CMAKE_SYSTEM_NAME} MATCHES "AIX")
set(LIBOMP_LIBFLAGS "-lperfstat" CACHE STRING
"Appended user specified linked libs flags. (e.g., -lm)")
if("${LIBOMP_ARCH}" STREQUAL "ppc")
# PPC (32-bit) on AIX needs libatomic for __atomic_load_8, etc.
set(LIBOMP_LIBFLAGS "${LIBOMP_LIBFLAGS} -latomic")
endif()
else()
set(LIBOMP_LIBFLAGS "" CACHE STRING
"Appended user specified linked libs flags. (e.g., -lm)")
endif()
set(LIBOMP_FFLAGS "" CACHE STRING
"Appended user specified Fortran compiler flags. These are only used if LIBOMP_FORTRAN_MODULES==TRUE.")
# Should the libomp library and generated headers be copied into the original source exports/ directory
# Turning this to FALSE aids parallel builds to not interfere with each other.
# Currently, the testsuite module expects the just built OpenMP library to be located inside the exports/
# directory. TODO: have testsuite run under llvm-lit directly. We can then get rid of copying to exports/
set(LIBOMP_COPY_EXPORTS FALSE CACHE STRING
"Should exports be copied into source exports/ directory?")
# HWLOC-support
set(LIBOMP_USE_HWLOC FALSE CACHE BOOL
"Use Hwloc (http://www.open-mpi.org/projects/hwloc/) library for affinity?")
set(LIBOMP_HWLOC_INSTALL_DIR /usr/local CACHE PATH
"Install path for hwloc library")
# Get the build number from kmp_version.cpp
libomp_get_build_number("${CMAKE_CURRENT_SOURCE_DIR}" LIBOMP_VERSION_BUILD)
math(EXPR LIBOMP_VERSION_BUILD_YEAR "${LIBOMP_VERSION_BUILD}/10000")
math(EXPR LIBOMP_VERSION_BUILD_MONTH_DAY "${LIBOMP_VERSION_BUILD}%10000")
# Currently don't record any timestamps
set(LIBOMP_BUILD_DATE "No_Timestamp")
# Architecture
set(IA32 FALSE)
set(INTEL64 FALSE)
set(ARM FALSE)
set(AARCH64 FALSE)
set(AARCH64_32 FALSE)
set(AARCH64_A64FX FALSE)
set(PPC64BE FALSE)
set(PPC64LE FALSE)
set(PPC64 FALSE)
set(MIC FALSE)
set(MIPS64 FALSE)
set(MIPS FALSE)
set(RISCV64 FALSE)
set(LOONGARCH64 FALSE)
set(VE FALSE)
set(S390X FALSE)
set(WASM FALSE)
set(PPC FALSE)
if("${LIBOMP_ARCH}" STREQUAL "i386" OR "${LIBOMP_ARCH}" STREQUAL "32") # IA-32 architecture
set(IA32 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "x86_64" OR "${LIBOMP_ARCH}" STREQUAL "32e") # Intel(R) 64 architecture
set(INTEL64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "arm") # ARM architecture
set(ARM TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "ppc") # PPC32 architecture
set(PPC TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "ppc64") # PPC64BE architecture
set(PPC64BE TRUE)
set(PPC64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "ppc64le") # PPC64LE architecture
set(PPC64LE TRUE)
set(PPC64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "aarch64") # AARCH64 architecture
set(AARCH64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "aarch64_32") # AARCH64_32 architecture
set(AARCH64_32 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "aarch64_a64fx") # AARCH64_A64FX architecture
set(AARCH64_A64FX TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "mic") # Intel(R) Many Integrated Core Architecture
set(MIC TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "mips") # MIPS architecture
set(MIPS TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "mips64") # MIPS64 architecture
set(MIPS64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "riscv64") # RISCV64 architecture
set(RISCV64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "loongarch64") # LoongArch64 architecture
set(LOONGARCH64 TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "ve") # VE architecture
set(VE TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "s390x") # S390x (Z) architecture
set(S390X TRUE)
elseif("${LIBOMP_ARCH}" STREQUAL "wasm32") # WebAssembly architecture
set(WASM TRUE)
endif()
# Set some flags based on build_type
set(RELEASE_BUILD FALSE)
set(DEBUG_BUILD FALSE)
set(RELWITHDEBINFO_BUILD FALSE)
set(MINSIZEREL_BUILD FALSE)
if("${uppercase_CMAKE_BUILD_TYPE}" STREQUAL "RELEASE")
set(RELEASE_BUILD TRUE)
elseif("${uppercase_CMAKE_BUILD_TYPE}" STREQUAL "DEBUG")
set(DEBUG_BUILD TRUE)
elseif("${uppercase_CMAKE_BUILD_TYPE}" STREQUAL "RELWITHDEBINFO")
set(RELWITHDEBINFO_BUILD TRUE)
elseif("${uppercase_CMAKE_BUILD_TYPE}" STREQUAL "MINSIZEREL")
set(MINSIZEREL_BUILD TRUE)
endif()
# Include itt notify interface?
set(LIBOMP_USE_ITT_NOTIFY TRUE CACHE BOOL
"Enable ITT notify?")
# normal, profile, stubs library.
set(NORMAL_LIBRARY FALSE)
set(STUBS_LIBRARY FALSE)
set(PROFILE_LIBRARY FALSE)
if("${LIBOMP_LIB_TYPE}" STREQUAL "normal")
set(NORMAL_LIBRARY TRUE)
elseif("${LIBOMP_LIB_TYPE}" STREQUAL "profile")
set(PROFILE_LIBRARY TRUE)
elseif("${LIBOMP_LIB_TYPE}" STREQUAL "stubs")
set(STUBS_LIBRARY TRUE)
endif()
# Setting directory names
set(LIBOMP_BASE_DIR ${CMAKE_CURRENT_SOURCE_DIR})
set(LIBOMP_SRC_DIR ${LIBOMP_BASE_DIR}/src)
set(LIBOMP_TOOLS_DIR ${LIBOMP_BASE_DIR}/tools)
set(LIBOMP_INC_DIR ${LIBOMP_SRC_DIR}/include)
set(LIBOMP_BINARY_DIR ${CMAKE_CURRENT_BINARY_DIR})
# Enabling Fortran if it is needed
if(${LIBOMP_FORTRAN_MODULES})
enable_language(Fortran)
endif()
# Enable MASM Compiler if it is needed (Windows only)
if(WIN32)
enable_language(ASM_MASM)
endif()
# Getting legal type/arch
libomp_get_legal_type(LIBOMP_LEGAL_TYPE)
libomp_get_legal_arch(LIBOMP_LEGAL_ARCH)
# Compiler flag checks, library checks, threading check, etc.
include(config-ix)
# Is there a quad precision data type available?
# TODO: Make this a real feature check
set(LIBOMP_USE_QUAD_PRECISION "${LIBOMP_HAVE_QUAD_PRECISION}" CACHE BOOL
"Should 128-bit precision entry points be built?")
if(LIBOMP_USE_QUAD_PRECISION AND (NOT LIBOMP_HAVE_QUAD_PRECISION))
libomp_error_say("128-bit quad precision functionality requested but not available")
endif()
# libgomp drop-in compatibility requires versioned symbols
set(LIBOMP_USE_VERSION_SYMBOLS "${LIBOMP_HAVE_VERSION_SYMBOLS}" CACHE BOOL
"Should version symbols be used? These provide binary compatibility with libgomp.")
if(LIBOMP_USE_VERSION_SYMBOLS AND (NOT LIBOMP_HAVE_VERSION_SYMBOLS))
libomp_error_say("Version symbols functionality requested but not available")
endif()
# On multinode systems, larger alignment is desired to avoid false sharing
set(LIBOMP_USE_INTERNODE_ALIGNMENT FALSE CACHE BOOL
"Should larger alignment (4096 bytes) be used for some locks and data structures?")
# Build code that allows the OpenMP library to conveniently interface with debuggers
set(LIBOMP_USE_DEBUGGER FALSE CACHE BOOL
"Enable debugger interface code?")
# Should we link to C++ library?
set(LIBOMP_USE_STDCPPLIB FALSE CACHE BOOL
"Should we link to C++ library?")
# Intel(R) Transactional Synchronization Extensions (Intel(R) TSX) based locks have
# __asm code which can be troublesome for some compilers. This feature is also x86 specific.
# TODO: Make this a real feature check
set(LIBOMP_USE_ADAPTIVE_LOCKS "${LIBOMP_HAVE_ADAPTIVE_LOCKS}" CACHE BOOL
"Should Intel(R) TSX lock be compiled (adaptive lock in kmp_lock.cpp). These are x86 specific.")
if(LIBOMP_USE_ADAPTIVE_LOCKS AND (NOT LIBOMP_HAVE_ADAPTIVE_LOCKS))
libomp_error_say("Adaptive locks (Intel(R) TSX) functionality is only supported on x86 Architecture")
endif()
# - stats-gathering enables OpenMP stats where things like the number of
# parallel regions, clock ticks spent in particular openmp regions are recorded.
set(LIBOMP_STATS FALSE CACHE BOOL
"Stats-Gathering functionality?")
if(LIBOMP_STATS AND (NOT LIBOMP_HAVE_STATS))
libomp_error_say("Stats-gathering functionality requested but not available")
endif()
# The stats functionality requires the std c++ library
if(LIBOMP_STATS)
set(LIBOMP_USE_STDCPPLIB TRUE)
endif()
# Shared library can be switched to a static library
set(LIBOMP_ENABLE_SHARED TRUE CACHE BOOL
"Shared library instead of static library?")
if(WASM)
libomp_warning_say("The WebAssembly build currently only supports static libraries; forcing LIBOMP_ENABLE_SHARED to false")
set(LIBOMP_ENABLE_SHARED FALSE)
endif()
if(WIN32 AND NOT LIBOMP_ENABLE_SHARED)
libomp_error_say("Static libraries requested but not available on Windows")
endif()
if(LIBOMP_USE_ITT_NOTIFY AND NOT LIBOMP_ENABLE_SHARED)
message(STATUS "ITT Notify not supported for static libraries - forcing ITT Notify off")
set(LIBOMP_USE_ITT_NOTIFY FALSE)
endif()
if(LIBOMP_USE_VERSION_SYMBOLS AND (NOT LIBOMP_ENABLE_SHARED) )
message(STATUS "Version symbols not supported for static libraries - forcing Version symbols functionality off")
set (LIBOMP_USE_VERSION_SYMBOLS FALSE)
endif()
# OMPT-support defaults to ON for OpenMP 5.0+ and if the requirements in
# cmake/config-ix.cmake are fulfilled.
set(OMPT_DEFAULT FALSE)
if ((LIBOMP_HAVE_OMPT_SUPPORT) AND (NOT WIN32))
set(OMPT_DEFAULT TRUE)
endif()
set(LIBOMP_OMPT_SUPPORT ${OMPT_DEFAULT} CACHE BOOL
"OMPT-support?")
set(LIBOMP_OMPT_DEBUG FALSE CACHE BOOL
"Trace OMPT initialization?")
set(LIBOMP_OMPT_OPTIONAL TRUE CACHE BOOL
"OMPT-optional?")
if(LIBOMP_OMPT_SUPPORT AND (NOT LIBOMP_HAVE_OMPT_SUPPORT))
libomp_error_say("OpenMP Tools Interface requested but not available in this implementation")
endif()
# OMPD-support
# Enable if OMPT SUPPORT is ON
set(OMPD_DEFAULT FALSE)
if (LIBOMP_HAVE_OMPT_SUPPORT AND ("${CMAKE_SYSTEM_NAME}" STREQUAL "Linux"))
set(OMPD_DEFAULT TRUE)
endif()
set(LIBOMP_OMPD_SUPPORT ${OMPD_DEFAULT} CACHE BOOL
"OMPD-support?")
if(LIBOMP_OMPD_SUPPORT AND ((NOT LIBOMP_OMPT_SUPPORT) OR (NOT "${CMAKE_SYSTEM_NAME}" STREQUAL "Linux")))
libomp_warning_say("OpenMP Debug Interface(OMPD) requested but not available in this implementation")
set(LIBOMP_OMPD_SUPPORT FALSE)
endif()
# OMPX Taskgraph support
# Whether to build with OMPX Taskgraph (e.g. task record & replay)
set(LIBOMP_OMPX_TASKGRAPH FALSE CACHE BOOL "OMPX-taskgraph (task record & replay)?")
# Error check hwloc support after config-ix has run
if(LIBOMP_USE_HWLOC AND (NOT LIBOMP_HAVE_HWLOC))
libomp_error_say("Hwloc requested but not available")
endif()
# Hierarchical scheduling support
set(LIBOMP_USE_HIER_SCHED FALSE CACHE BOOL
"Hierarchical scheduling support?")
# Setting final library name
set(LIBOMP_DEFAULT_LIB_NAME libomp)
if(${PROFILE_LIBRARY})
set(LIBOMP_DEFAULT_LIB_NAME ${LIBOMP_DEFAULT_LIB_NAME}prof)
endif()
if(${STUBS_LIBRARY})
set(LIBOMP_DEFAULT_LIB_NAME ${LIBOMP_DEFAULT_LIB_NAME}stubs)
endif()
set(LIBOMP_LIB_NAME ${LIBOMP_DEFAULT_LIB_NAME} CACHE STRING "Base OMP library name")
if (OPENMP_MSVC_NAME_SCHEME)
# MSVC_TOOLS_VERSION corresponds to the version of the VC++ toolset.
set(MSVC_TOOLS_VERSION 140)
set(LIBOMP_LIB_NAME ${LIBOMP_LIB_NAME}${MSVC_TOOLS_VERSION}.${LIBOMP_ARCH})
endif()
if(${LIBOMP_ENABLE_SHARED})
set(LIBOMP_LIBRARY_SUFFIX ${CMAKE_SHARED_LIBRARY_SUFFIX})
set(LIBOMP_LIBRARY_KIND SHARED)
set(LIBOMP_INSTALL_KIND LIBRARY)
else()
set(LIBOMP_LIBRARY_SUFFIX ${CMAKE_STATIC_LIBRARY_SUFFIX})
set(LIBOMP_LIBRARY_KIND STATIC)
set(LIBOMP_INSTALL_KIND ARCHIVE)
endif()
set(LIBOMP_LIB_FILE ${LIBOMP_LIB_NAME}${LIBOMP_LIBRARY_SUFFIX})
# Optional backwards compatibility aliases.
set(LIBOMP_INSTALL_ALIASES TRUE CACHE BOOL
"Install libgomp and libiomp5 library aliases for backwards compatibility")
# Print configuration after all variables are set.
if(${OPENMP_STANDALONE_BUILD})
libomp_say("Operating System -- ${CMAKE_SYSTEM_NAME}")
libomp_say("Target Architecture -- ${LIBOMP_ARCH}")
if(${MIC})
libomp_say("Intel(R) MIC Architecture -- ${LIBOMP_MIC_ARCH}")
endif()
libomp_say("Build Type -- ${CMAKE_BUILD_TYPE}")
libomp_say("Library Kind -- ${LIBOMP_LIBRARY_KIND}")
libomp_say("Library Type -- ${LIBOMP_LIB_TYPE}")
libomp_say("Fortran Modules -- ${LIBOMP_FORTRAN_MODULES}")
# will say development if all zeros
if(${LIBOMP_VERSION_BUILD} STREQUAL 00000000)
set(LIBOMP_BUILD Development)
else()
set(LIBOMP_BUILD ${LIBOMP_VERSION_BUILD})
endif()
libomp_say("Build -- ${LIBOMP_BUILD}")
libomp_say("Use Stats-gathering -- ${LIBOMP_STATS}")
libomp_say("Use Debugger-support -- ${LIBOMP_USE_DEBUGGER}")
libomp_say("Use ITT notify -- ${LIBOMP_USE_ITT_NOTIFY}")
libomp_say("Use OMPT-support -- ${LIBOMP_OMPT_SUPPORT}")
if(${LIBOMP_OMPT_SUPPORT})
libomp_say("Use OMPT-optional -- ${LIBOMP_OMPT_OPTIONAL}")
endif()
libomp_say("Use OMPD-support -- ${LIBOMP_OMPD_SUPPORT}")
libomp_say("Use Adaptive locks -- ${LIBOMP_USE_ADAPTIVE_LOCKS}")
libomp_say("Use quad precision -- ${LIBOMP_USE_QUAD_PRECISION}")
libomp_say("Use Hwloc library -- ${LIBOMP_USE_HWLOC}")
libomp_say("Use OMPX-taskgraph -- ${LIBOMP_OMPX_TASKGRAPH}")
endif()
add_subdirectory(src)
add_subdirectory(test)
# make these variables available for tools:
set(LIBOMP_LIBRARY_DIR ${LIBOMP_LIBRARY_DIR} PARENT_SCOPE)
set(LIBOMP_INCLUDE_DIR ${LIBOMP_INCLUDE_DIR} PARENT_SCOPE)
set(LIBOMP_OMP_TOOLS_INCLUDE_DIR ${LIBOMP_OMP_TOOLS_INCLUDE_DIR} PARENT_SCOPE)
# make these variables available for tools/libompd:
set(LIBOMP_SRC_DIR ${LIBOMP_SRC_DIR} PARENT_SCOPE)
set(LIBOMP_OMPD_SUPPORT ${LIBOMP_OMPD_SUPPORT} PARENT_SCOPE)