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eigen / mirror / 5de0f2f89e5240df5eab223b9a8efc3a63322941 / . / cmake / EigenTesting.cmake
blob: 2022cf0018511b6bb1621d58af05659ce615ba4f [file] [log] [blame]
macro(ei_add_property prop value)
get_property(previous GLOBAL PROPERTY ${prop})
if ((NOT previous) OR (previous STREQUAL ""))
set_property(GLOBAL PROPERTY ${prop} "${value}")
else()
set_property(GLOBAL PROPERTY ${prop} "${previous} ${value}")
endif()
endmacro()
#internal. See documentation of ei_add_test for details.
macro(ei_add_test_internal testname testname_with_suffix)
set(targetname ${testname_with_suffix})
if(EIGEN_ADD_TEST_FILENAME_EXTENSION)
set(filename ${testname}.${EIGEN_ADD_TEST_FILENAME_EXTENSION})
else()
set(filename ${testname}.cpp)
endif()
# Add the current target to the list of subtest targets
get_property(EIGEN_SUBTESTS_LIST GLOBAL PROPERTY EIGEN_SUBTESTS_LIST)
set(EIGEN_SUBTESTS_LIST "${EIGEN_SUBTESTS_LIST}${targetname}\n")
set_property(GLOBAL PROPERTY EIGEN_SUBTESTS_LIST "${EIGEN_SUBTESTS_LIST}")
set(is_gpu_test OFF)
if(EIGEN_ADD_TEST_FILENAME_EXTENSION STREQUAL cu)
set(is_gpu_test ON)
if(EIGEN_TEST_HIP)
hip_reset_flags()
hip_add_executable(${targetname} ${filename} HIPCC_OPTIONS -std=c++14)
target_compile_definitions(${targetname} PRIVATE -DEIGEN_USE_HIP)
set_property(TARGET ${targetname} PROPERTY HIP_ARCHITECTURES gfx900 gfx906 gfx908 gfx90a gfx1030)
elseif(EIGEN_TEST_CUDA_CLANG)
set_source_files_properties(${filename} PROPERTIES LANGUAGE CXX)
if(CUDA_64_BIT_DEVICE_CODE AND (EXISTS "${CUDA_TOOLKIT_ROOT_DIR}/lib64"))
link_directories("${CUDA_TOOLKIT_ROOT_DIR}/lib64")
else()
link_directories("${CUDA_TOOLKIT_ROOT_DIR}/lib")
endif()
add_executable(${targetname} ${filename})
set(CUDA_CLANG_LINK_LIBRARIES "cudart_static" "cuda" "dl" "pthread")
if (CMAKE_SYSTEM_NAME STREQUAL "Linux")
set(CUDA_CLANG_LINK_LIBRARIES ${CUDA_CLANG_LINK_LIBRARIES} "rt")
endif()
target_link_libraries(${targetname} ${CUDA_CLANG_LINK_LIBRARIES})
else()
cuda_add_executable(${targetname} ${filename})
endif()
else()
add_executable(${targetname} ${filename})
endif()
add_dependencies(buildtests ${targetname})
if (is_gpu_test)
add_dependencies(buildtests_gpu ${targetname})
endif()
if(EIGEN_NO_ASSERTION_CHECKING)
target_compile_definitions(${targetname} PRIVATE EIGEN_NO_ASSERTION_CHECKING=1)
else()
if(EIGEN_DEBUG_ASSERTS)
target_compile_definitions(${targetname} PRIVATE EIGEN_DEBUG_ASSERTS=1)
endif()
endif()
target_compile_definitions(${targetname} PRIVATE EIGEN_TEST_MAX_SIZE=${EIGEN_TEST_MAX_SIZE})
if(MSVC)
target_compile_options(${targetname} PRIVATE "/bigobj")
endif()
# let the user pass flags.
if(${ARGC} GREATER 2)
target_compile_options(${targetname} PRIVATE ${ARGV2})
endif()
if(EIGEN_TEST_CUSTOM_CXX_FLAGS)
target_compile_options(${targetname} PRIVATE ${EIGEN_TEST_CUSTOM_CXX_FLAGS})
endif()
if(EIGEN_STANDARD_LIBRARIES_TO_LINK_TO)
target_link_libraries(${targetname} ${EIGEN_STANDARD_LIBRARIES_TO_LINK_TO})
endif()
if(EXTERNAL_LIBS)
target_link_libraries(${targetname} ${EXTERNAL_LIBS})
endif()
if(EIGEN_TEST_CUSTOM_LINKER_FLAGS)
target_link_libraries(${targetname} ${EIGEN_TEST_CUSTOM_LINKER_FLAGS})
endif()
if(${ARGC} GREATER 3)
set(libs_to_link ${ARGV3})
# it could be that some cmake module provides a bad library string " " (just spaces),
# and that severely breaks target_link_libraries ("can't link to -l-lstdc++" errors).
# so we check for strings containing only spaces.
string(STRIP "${libs_to_link}" libs_to_link_stripped)
string(LENGTH "${libs_to_link_stripped}" libs_to_link_stripped_length)
if(${libs_to_link_stripped_length} GREATER 0)
# notice: no double quotes around ${libs_to_link} here. It may be a list.
target_link_libraries(${targetname} ${libs_to_link})
endif()
endif()
add_test(${testname_with_suffix} "${targetname}")
# Specify target and test labels according to EIGEN_CURRENT_SUBPROJECT
get_property(current_subproject GLOBAL PROPERTY EIGEN_CURRENT_SUBPROJECT)
if ((current_subproject) AND (NOT (current_subproject STREQUAL "")))
set_property(TARGET ${targetname} PROPERTY LABELS "Build${current_subproject}")
add_dependencies("Build${current_subproject}" ${targetname})
set_property(TEST ${testname_with_suffix} PROPERTY LABELS "${current_subproject}")
endif()
if (is_gpu_test)
# Add gpu tag for testing only GPU tests.
set_property(TEST ${testname_with_suffix} APPEND PROPERTY LABELS "gpu")
endif()
if(EIGEN_SYCL)
# Force include of the SYCL file at the end to avoid errors.
set_property(TARGET ${targetname} PROPERTY COMPUTECPP_INCLUDE_AFTER 1)
# Link against pthread and add sycl to target
set(THREADS_PREFER_PTHREAD_FLAG ON)
find_package(Threads REQUIRED)
target_link_libraries(${targetname} Threads::Threads)
add_sycl_to_target(TARGET ${targetname} SOURCES ${filename})
endif(EIGEN_SYCL)
endmacro(ei_add_test_internal)
# Macro to add a test
#
# the unique mandatory parameter testname must correspond to a file
# <testname>.cpp which follows this pattern:
#
# #include "main.h"
# void test_<testname>() { ... }
#
# Depending on the contents of that file, this macro can have 2 behaviors,
# see below.
#
# The optional 2nd parameter is libraries to link to.
#
# A. Default behavior
#
# this macro adds an executable <testname> as well as a ctest test
# named <testname> too.
#
# On platforms with bash simply run:
# "ctest -V" or "ctest -V -R <testname>"
# On other platform use ctest as usual
#
# B. Multi-part behavior
#
# If the source file matches the regexp
# CALL_SUBTEST_[0-9]+|EIGEN_TEST_PART_[0-9]+
# then it is interpreted as a multi-part test. The behavior then depends on the
# CMake option EIGEN_SPLIT_LARGE_TESTS, which is ON by default.
#
# If EIGEN_SPLIT_LARGE_TESTS is OFF, the behavior is the same as in A (the multi-part
# aspect is ignored).
#
# If EIGEN_SPLIT_LARGE_TESTS is ON, the test is split into multiple executables
# test_<testname>_<N>
# where N runs from 1 to the greatest occurrence found in the source file. Each of these
# executables is built passing -DEIGEN_TEST_PART_N. This allows to split large tests
# into smaller executables.
#
# Moreover, targets <testname> are still generated, they
# have the effect of building all the parts of the test.
#
# Again, ctest -R allows to run all matching tests.
macro(ei_add_test testname)
get_property(EIGEN_TESTS_LIST GLOBAL PROPERTY EIGEN_TESTS_LIST)
set(EIGEN_TESTS_LIST "${EIGEN_TESTS_LIST}${testname}\n")
set_property(GLOBAL PROPERTY EIGEN_TESTS_LIST "${EIGEN_TESTS_LIST}")
if(EIGEN_ADD_TEST_FILENAME_EXTENSION)
set(filename ${testname}.${EIGEN_ADD_TEST_FILENAME_EXTENSION})
else()
set(filename ${testname}.cpp)
endif()
file(READ "${filename}" test_source)
string(REGEX MATCHALL "CALL_SUBTEST_[0-9]+|EIGEN_TEST_PART_[0-9]+|EIGEN_SUFFIXES(;[0-9]+)+"
occurrences "${test_source}")
string(REGEX REPLACE "CALL_SUBTEST_|EIGEN_TEST_PART_|EIGEN_SUFFIXES" "" suffixes "${occurrences}")
list(REMOVE_DUPLICATES suffixes)
set(explicit_suffixes "")
if( (NOT EIGEN_SPLIT_LARGE_TESTS) AND suffixes)
# Check whether we have EIGEN_TEST_PART_* statements, in which case we likely must enforce splitting.
# For instance, indexed_view activate a different c++ version for each part.
string(REGEX MATCHALL "EIGEN_TEST_PART_[0-9]+" occurrences "${test_source}")
string(REGEX REPLACE "EIGEN_TEST_PART_" "" explicit_suffixes "${occurrences}")
list(REMOVE_DUPLICATES explicit_suffixes)
endif()
if( (EIGEN_SPLIT_LARGE_TESTS AND suffixes) OR explicit_suffixes)
add_custom_target(${testname})
foreach(suffix ${suffixes})
ei_add_test_internal(${testname} ${testname}_${suffix} "${ARGV1}" "${ARGV2}")
add_dependencies(${testname} ${testname}_${suffix})
target_compile_definitions(${testname}_${suffix} PRIVATE -DEIGEN_TEST_PART_${suffix}=1)
endforeach()
else()
ei_add_test_internal(${testname} ${testname} "${ARGV1}" "${ARGV2}")
target_compile_definitions(${testname} PRIVATE -DEIGEN_TEST_PART_ALL=1)
endif()
endmacro()
# adds a failtest, i.e. a test that succeed if the program fails to compile
# note that the test runner for these is CMake itself, when passed -DEIGEN_FAILTEST=ON
# so here we're just running CMake commands immediately, we're not adding any targets.
macro(ei_add_failtest testname)
set(test_target_ok ${testname}_ok)
set(test_target_ko ${testname}_ko)
# Add executables
add_executable(${test_target_ok} ${testname}.cpp)
add_executable(${test_target_ko} ${testname}.cpp)
# Remove them from the normal build process
set_target_properties(${test_target_ok} ${test_target_ko} PROPERTIES
EXCLUDE_FROM_ALL TRUE
EXCLUDE_FROM_DEFAULT_BUILD TRUE)
# Configure the failing test
target_compile_definitions(${test_target_ko} PRIVATE EIGEN_SHOULD_FAIL_TO_BUILD)
# Add the tests to ctest.
add_test(NAME ${test_target_ok}
COMMAND ${CMAKE_COMMAND} --build . --target ${test_target_ok} --config $<CONFIG>
WORKING_DIRECTORY ${CMAKE_BINARY_DIR})
add_test(NAME ${test_target_ko}
COMMAND ${CMAKE_COMMAND} --build . --target ${test_target_ko} --config $<CONFIG>
WORKING_DIRECTORY ${CMAKE_BINARY_DIR})
# Expect the second test to fail
set_tests_properties(${test_target_ko} PROPERTIES WILL_FAIL TRUE)
endmacro()
# print a summary of the different options
macro(ei_testing_print_summary)
message(STATUS "************************************************************")
message(STATUS "*** Eigen's unit tests configuration summary ***")
message(STATUS "************************************************************")
message(STATUS "")
message(STATUS "Build type: ${CMAKE_BUILD_TYPE}")
message(STATUS "Build site: ${SITE}")
message(STATUS "Build string: ${BUILDNAME}")
get_property(EIGEN_TESTING_SUMMARY GLOBAL PROPERTY EIGEN_TESTING_SUMMARY)
get_property(EIGEN_TESTED_BACKENDS GLOBAL PROPERTY EIGEN_TESTED_BACKENDS)
get_property(EIGEN_MISSING_BACKENDS GLOBAL PROPERTY EIGEN_MISSING_BACKENDS)
message(STATUS "Enabled backends: ${EIGEN_TESTED_BACKENDS}")
message(STATUS "Disabled backends: ${EIGEN_MISSING_BACKENDS}")
if(EIGEN_DEFAULT_TO_ROW_MAJOR)
message(STATUS "Default order: Row-major")
else()
message(STATUS "Default order: Column-major")
endif()
if(EIGEN_TEST_NO_EXPLICIT_ALIGNMENT)
message(STATUS "Explicit alignment (hence vectorization) disabled")
elseif(EIGEN_TEST_NO_EXPLICIT_VECTORIZATION)
message(STATUS "Explicit vectorization disabled (alignment kept enabled)")
else()
message(STATUS "Maximal matrix/vector size: ${EIGEN_TEST_MAX_SIZE}")
if(EIGEN_TEST_SSE2)
message(STATUS "SSE2: ON")
else()
message(STATUS "SSE2: Using architecture defaults")
endif()
if(EIGEN_TEST_SSE3)
message(STATUS "SSE3: ON")
else()
message(STATUS "SSE3: Using architecture defaults")
endif()
if(EIGEN_TEST_SSSE3)
message(STATUS "SSSE3: ON")
else()
message(STATUS "SSSE3: Using architecture defaults")
endif()
if(EIGEN_TEST_SSE4_1)
message(STATUS "SSE4.1: ON")
else()
message(STATUS "SSE4.1: Using architecture defaults")
endif()
if(EIGEN_TEST_SSE4_2)
message(STATUS "SSE4.2: ON")
else()
message(STATUS "SSE4.2: Using architecture defaults")
endif()
if(EIGEN_TEST_AVX)
message(STATUS "AVX: ON")
else()
message(STATUS "AVX: Using architecture defaults")
endif()
if(EIGEN_TEST_AVX2)
message(STATUS "AVX2: ON")
else()
message(STATUS "AVX2: Using architecture defaults")
endif()
if(EIGEN_TEST_FMA)
message(STATUS "FMA: ON")
else()
message(STATUS "FMA: Using architecture defaults")
endif()
if(EIGEN_TEST_AVX512)
message(STATUS "AVX512: ON")
else()
message(STATUS "AVX512: Using architecture defaults")
endif()
if(EIGEN_TEST_AVX512DQ)
message(STATUS "AVX512DQ: ON")
else()
message(STATUS "AVX512DQ: Using architecture defaults")
endif()
if(EIGEN_TEST_ALTIVEC)
message(STATUS "Altivec: ON")
else()
message(STATUS "Altivec: Using architecture defaults")
endif()
if(EIGEN_TEST_VSX)
message(STATUS "VSX: ON")
else()
message(STATUS "VSX: Using architecture defaults")
endif()
if(EIGEN_TEST_MSA)
message(STATUS "MIPS MSA: ON")
else()
message(STATUS "MIPS MSA: Using architecture defaults")
endif()
if(EIGEN_TEST_NEON)
message(STATUS "ARM NEON: ON")
else()
message(STATUS "ARM NEON: Using architecture defaults")
endif()
if(EIGEN_TEST_NEON64)
message(STATUS "ARMv8 NEON: ON")
else()
message(STATUS "ARMv8 NEON: Using architecture defaults")
endif()
if(EIGEN_TEST_ZVECTOR)
message(STATUS "S390X ZVECTOR: ON")
else()
message(STATUS "S390X ZVECTOR: Using architecture defaults")
endif()
if(EIGEN_TEST_SYCL)
if(EIGEN_SYCL_TRISYCL)
message(STATUS "SYCL: ON (using triSYCL)")
elseif(EIGEN_SYCL_ComputeCpp)
message(STATUS "SYCL: ON (using computeCPP)")
elseif(EIGEN_SYCL_DPCPP)
message(STATUS "SYCL: ON (using DPCPP)")
endif()
else()
message(STATUS "SYCL: OFF")
endif()
if(EIGEN_TEST_CUDA)
if(EIGEN_TEST_CUDA_CLANG)
message(STATUS "CUDA: ON (using clang)")
else()
message(STATUS "CUDA: ON (using nvcc)")
endif()
else()
message(STATUS "CUDA: OFF")
endif()
if(EIGEN_TEST_HIP)
message(STATUS "HIP: ON (using hipcc)")
else()
message(STATUS "HIP: OFF")
endif()
endif() # vectorization / alignment options
message(STATUS "\n${EIGEN_TESTING_SUMMARY}")
message(STATUS "************************************************************")
endmacro()
macro(ei_init_testing)
define_property(GLOBAL PROPERTY EIGEN_CURRENT_SUBPROJECT BRIEF_DOCS " " FULL_DOCS " ")
define_property(GLOBAL PROPERTY EIGEN_TESTED_BACKENDS BRIEF_DOCS " " FULL_DOCS " ")
define_property(GLOBAL PROPERTY EIGEN_MISSING_BACKENDS BRIEF_DOCS " " FULL_DOCS " ")
define_property(GLOBAL PROPERTY EIGEN_TESTING_SUMMARY BRIEF_DOCS " " FULL_DOCS " ")
define_property(GLOBAL PROPERTY EIGEN_TESTS_LIST BRIEF_DOCS " " FULL_DOCS " ")
define_property(GLOBAL PROPERTY EIGEN_SUBTESTS_LIST BRIEF_DOCS " " FULL_DOCS " ")
set_property(GLOBAL PROPERTY EIGEN_TESTED_BACKENDS "")
set_property(GLOBAL PROPERTY EIGEN_MISSING_BACKENDS "")
set_property(GLOBAL PROPERTY EIGEN_TESTING_SUMMARY "")
set_property(GLOBAL PROPERTY EIGEN_TESTS_LIST "")
set_property(GLOBAL PROPERTY EIGEN_SUBTESTS_LIST "")
define_property(GLOBAL PROPERTY EIGEN_FAILTEST_FAILURE_COUNT BRIEF_DOCS " " FULL_DOCS " ")
define_property(GLOBAL PROPERTY EIGEN_FAILTEST_COUNT BRIEF_DOCS " " FULL_DOCS " ")
set_property(GLOBAL PROPERTY EIGEN_FAILTEST_FAILURE_COUNT "0")
set_property(GLOBAL PROPERTY EIGEN_FAILTEST_COUNT "0")
# uncomment anytime you change the ei_get_compilerver_from_cxx_version_string macro
# ei_test_get_compilerver_from_cxx_version_string()
endmacro()
macro(ei_set_sitename)
# if the sitename is not yet set, try to set it
if(NOT ${SITE} OR ${SITE} STREQUAL "")
set(eigen_computername $ENV{COMPUTERNAME})
set(eigen_hostname $ENV{HOSTNAME})
if(eigen_hostname)
set(SITE ${eigen_hostname})
elseif(eigen_computername)
set(SITE ${eigen_computername})
endif()
endif()
# in case it is already set, enforce lower case
if(SITE)
string(TOLOWER ${SITE} SITE)
endif()
endmacro()
macro(ei_get_compilerver VAR)
if(MSVC)
set(${VAR} "${CMAKE_CXX_COMPILER_VERSION}")
elseif(${CMAKE_CXX_COMPILER_ID} MATCHES "PGI")
set(${VAR} "${CMAKE_CXX_COMPILER_ID}-${CMAKE_CXX_COMPILER_VERSION}")
else()
# on all other system we rely on ${CMAKE_CXX_COMPILER}
# supporting a "--version" or "/version" flag
if(WIN32 AND ${CMAKE_CXX_COMPILER_ID} EQUAL "Intel")
set(EIGEN_CXX_FLAG_VERSION "/version")
else()
set(EIGEN_CXX_FLAG_VERSION "--version")
endif()
execute_process(COMMAND ${CMAKE_CXX_COMPILER} ${EIGEN_CXX_FLAG_VERSION}
OUTPUT_VARIABLE eigen_cxx_compiler_version_string OUTPUT_STRIP_TRAILING_WHITESPACE)
string(REGEX REPLACE "^[ \n\r]+" "" eigen_cxx_compiler_version_string ${eigen_cxx_compiler_version_string})
string(REGEX REPLACE "[\n\r].*" "" eigen_cxx_compiler_version_string ${eigen_cxx_compiler_version_string})
ei_get_compilerver_from_cxx_version_string("${eigen_cxx_compiler_version_string}" CNAME CVER)
set(${VAR} "${CNAME}-${CVER}")
endif()
endmacro()
# Extract compiler name and version from a raw version string
# WARNING: if you edit this macro, then please test it by uncommenting
# the testing macro call in ei_init_testing() of the EigenTesting.cmake file.
# See also the ei_test_get_compilerver_from_cxx_version_string macro at the end
# of the file
macro(ei_get_compilerver_from_cxx_version_string VERSTRING CNAME CVER)
# extract possible compiler names
string(REGEX MATCH "g\\+\\+" ei_has_gpp ${VERSTRING})
string(REGEX MATCH "llvm|LLVM" ei_has_llvm ${VERSTRING})
string(REGEX MATCH "gcc|GCC" ei_has_gcc ${VERSTRING})
string(REGEX MATCH "icpc|ICC" ei_has_icpc ${VERSTRING})
string(REGEX MATCH "clang|CLANG" ei_has_clang ${VERSTRING})
string(REGEX MATCH "mingw32" ei_has_mingw ${VERSTRING})
# combine them
if((ei_has_llvm) AND (ei_has_gpp OR ei_has_gcc))
set(${CNAME} "llvm-g++")
elseif((ei_has_llvm) AND (ei_has_clang))
set(${CNAME} "llvm-clang++")
elseif(ei_has_clang)
set(${CNAME} "clang++")
elseif ((ei_has_mingw) AND (ei_has_gpp OR ei_has_gcc))
set(${CNAME} "mingw32-g++")
elseif(ei_has_icpc)
set(${CNAME} "icpc")
elseif(ei_has_gpp OR ei_has_gcc)
set(${CNAME} "g++")
else()
set(${CNAME} "_")
endif()
# extract possible version numbers
# first try to extract 3 isolated numbers:
string(REGEX MATCH " [0-9]+\\.[0-9]+\\.[0-9]+" eicver ${VERSTRING})
if(NOT eicver)
# try to extract 2 isolated ones:
string(REGEX MATCH " [0-9]+\\.[0-9]+" eicver ${VERSTRING})
if(NOT eicver)
# try to extract 3:
string(REGEX MATCH "[^0-9][0-9]+\\.[0-9]+\\.[0-9]+" eicver ${VERSTRING})
if(NOT eicver)
# try to extract 2:
string(REGEX MATCH "[^0-9][0-9]+\\.[0-9]+" eicver ${VERSTRING})
if (NOT eicver AND ei_has_mingw)
# try to extract 1 number plus suffix:
string(REGEX MATCH "[^0-9][0-9]+-win32" eicver ${VERSTRING})
endif()
endif()
endif()
endif()
if (NOT eicver)
set(eicver " _")
endif()
string(REGEX REPLACE ".(.*)" "\\1" ${CVER} ${eicver})
endmacro()
macro(ei_get_cxxflags VAR)
set(${VAR} "")
ei_is_64bit_env(IS_64BIT_ENV)
if(EIGEN_TEST_NEON)
set(${VAR} NEON)
elseif(EIGEN_TEST_NEON64)
set(${VAR} NEON)
elseif(EIGEN_TEST_ZVECTOR)
set(${VAR} ZVECTOR)
elseif(EIGEN_TEST_VSX)
set(${VAR} VSX)
elseif(EIGEN_TEST_ALTIVEC)
set(${VAR} ALVEC)
elseif(EIGEN_TEST_FMA)
set(${VAR} FMA)
elseif(EIGEN_TEST_AVX)
set(${VAR} AVX)
elseif(EIGEN_TEST_SSE4_2)
set(${VAR} SSE42)
elseif(EIGEN_TEST_SSE4_1)
set(${VAR} SSE41)
elseif(EIGEN_TEST_SSSE3)
set(${VAR} SSSE3)
elseif(EIGEN_TEST_SSE3)
set(${VAR} SSE3)
elseif(EIGEN_TEST_SSE2 OR IS_64BIT_ENV)
set(${VAR} SSE2)
elseif(EIGEN_TEST_MSA)
set(${VAR} MSA)
endif()
if(EIGEN_TEST_OPENMP)
if (${VAR} STREQUAL "")
set(${VAR} OMP)
else()
set(${VAR} ${${VAR}}-OMP)
endif()
endif()
if(EIGEN_DEFAULT_TO_ROW_MAJOR)
if (${VAR} STREQUAL "")
set(${VAR} ROW)
else()
set(${VAR} ${${VAR}}-ROWMAJ)
endif()
endif()
endmacro()
macro(ei_set_build_string)
ei_get_compilerver(LOCAL_COMPILER_VERSION)
ei_get_cxxflags(LOCAL_COMPILER_FLAGS)
set(TMP_BUILD_STRING ${CMAKE_SYSTEM}-${LOCAL_COMPILER_VERSION})
if (NOT ${LOCAL_COMPILER_FLAGS} STREQUAL "")
set(TMP_BUILD_STRING ${TMP_BUILD_STRING}-${LOCAL_COMPILER_FLAGS})
endif()
if(EIGEN_TEST_EXTERNAL_BLAS)
set(TMP_BUILD_STRING ${TMP_BUILD_STRING}-external_blas)
endif()
ei_is_64bit_env(IS_64BIT_ENV)
if(NOT IS_64BIT_ENV)
set(TMP_BUILD_STRING ${TMP_BUILD_STRING}-32bit)
else()
set(TMP_BUILD_STRING ${TMP_BUILD_STRING}-64bit)
endif()
if(EIGEN_BUILD_STRING_SUFFIX)
set(TMP_BUILD_STRING ${TMP_BUILD_STRING}-${EIGEN_BUILD_STRING_SUFFIX})
endif()
string(TOLOWER ${TMP_BUILD_STRING} BUILDNAME)
endmacro()
macro(ei_is_64bit_env VAR)
if(CMAKE_SIZEOF_VOID_P EQUAL 8)
set(${VAR} 1)
elseif(CMAKE_SIZEOF_VOID_P EQUAL 4)
set(${VAR} 0)
else()
message(WARNING "Unsupported pointer size. Please contact the authors.")
endif()
endmacro()
# helper macro for testing ei_get_compilerver_from_cxx_version_string
# STR: raw version string
# REFNAME: expected compiler name
# REFVER: expected compiler version
macro(ei_test1_get_compilerver_from_cxx_version_string STR REFNAME REFVER)
ei_get_compilerver_from_cxx_version_string(${STR} CNAME CVER)
if((NOT ${REFNAME} STREQUAL ${CNAME}) OR (NOT ${REFVER} STREQUAL ${CVER}))
message("STATUS ei_get_compilerver_from_cxx_version_string error:")
message("Expected \"${REFNAME}-${REFVER}\", got \"${CNAME}-${CVER}\"")
endif()
endmacro()
# macro for testing ei_get_compilerver_from_cxx_version_string
# feel free to add more version strings
macro(ei_test_get_compilerver_from_cxx_version_string)
ei_test1_get_compilerver_from_cxx_version_string("g++ (SUSE Linux) 4.5.3 20110428 [gcc-4_5-branch revision 173117]" "g++" "4.5.3")
ei_test1_get_compilerver_from_cxx_version_string("c++ (GCC) 4.5.1 20100924 (Red Hat 4.5.1-4)" "g++" "4.5.1")
ei_test1_get_compilerver_from_cxx_version_string("icpc (ICC) 11.0 20081105" "icpc" "11.0")
ei_test1_get_compilerver_from_cxx_version_string("g++-3.4 (GCC) 3.4.6" "g++" "3.4.6")
ei_test1_get_compilerver_from_cxx_version_string("SUSE Linux clang version 3.0 (branches/release_30 145598) (based on LLVM 3.0)" "llvm-clang++" "3.0")
ei_test1_get_compilerver_from_cxx_version_string("icpc (ICC) 12.0.5 20110719" "icpc" "12.0.5")
ei_test1_get_compilerver_from_cxx_version_string("Apple clang version 2.1 (tags/Apple/clang-163.7.1) (based on LLVM 3.0svn)" "llvm-clang++" "2.1")
ei_test1_get_compilerver_from_cxx_version_string("i686-apple-darwin11-llvm-g++-4.2 (GCC) 4.2.1 (Based on Apple Inc. build 5658) (LLVM build 2335.15.00)" "llvm-g++" "4.2.1")
ei_test1_get_compilerver_from_cxx_version_string("g++-mp-4.4 (GCC) 4.4.6" "g++" "4.4.6")
ei_test1_get_compilerver_from_cxx_version_string("g++-mp-4.4 (GCC) 2011" "g++" "4.4")
ei_test1_get_compilerver_from_cxx_version_string("x86_64-w64-mingw32-g++ (GCC) 10-win32 20210110" "mingw32-g++" "10-win32")
endmacro()
# Split all tests listed in EIGEN_TESTS_LIST into num_splits many targets
# named buildtestspartN with N = { 0, ..., num_splits-1}.
#
# The intention behind the existence of this macro is the size of Eigen's
# testsuite. Together with the relatively big compile-times building all tests
# can take a substantial amount of time depending on the available hardware.
#
# The last buildtestspartN target will build possible remaining tests.
#
# An example:
#
# EIGEN_TESTS_LIST= [ test1, test2, test3, test4, test5, test6, test7 ]
#
# A call to ei_split_testsuite(3) creates the following targets with dependencies
#
# Target Dependencies
# ------ ------------
# buildtestspart0 test1, test2
# buildtestspart1 test3, test4
# buildtestspart2 test5, test6, test7
#
macro(ei_split_testsuite num_splits)
get_property(EIGEN_TESTS_LIST GLOBAL PROPERTY EIGEN_TESTS_LIST)
# Translate EIGEN_TESTS_LIST into a CMake list
string(REGEX REPLACE "\n" " " EIGEN_TESTS_LIST "${EIGEN_TESTS_LIST}")
set(EIGEN_TESTS_LIST "${EIGEN_TESTS_LIST}")
separate_arguments(EIGEN_TESTS_LIST)
set(eigen_test_count "0")
foreach(t IN ITEMS ${EIGEN_TESTS_LIST})
math(EXPR eigen_test_count "${eigen_test_count}+1")
endforeach()
# Get number of tests per target
math(EXPR num_tests_per_target "${eigen_test_count}/${num_splits} - ${eigen_test_count}/${num_splits} % 1")
set(test_idx "0")
math(EXPR target_bound "${num_splits}-1")
foreach(part RANGE "0" "${target_bound}")
# Create target
set(current_target "buildtestspart${part}")
add_custom_target("${current_target}")
math(EXPR upper_bound "${test_idx} + ${num_tests_per_target} - 1")
foreach(test_idx RANGE "${test_idx}" "${upper_bound}")
list(GET EIGEN_TESTS_LIST "${test_idx}" curr_test)
add_dependencies("${current_target}" "${curr_test}")
endforeach()
math(EXPR test_idx "${test_idx} + ${num_tests_per_target}")
endforeach()
# Handle the possibly remaining tests
math(EXPR test_idx "${num_splits} * ${num_tests_per_target}")
math(EXPR target_bound "${eigen_test_count} - 1")
foreach(test_idx RANGE "${test_idx}" "${target_bound}")
list(GET EIGEN_TESTS_LIST "${test_idx}" curr_test)
add_dependencies("${current_target}" "${curr_test}")
endforeach()
endmacro(ei_split_testsuite num_splits)
# Defines the custom command buildsmoketests to build a number of tests
# specified in smoke_test_list.
#
# Test in smoke_test_list can be either test targets (e.g. packetmath) or
# subtests targets (e.g. packetmath_2). If any of the test are not available
# in the current configuration they are just skipped.
#
# All tests added via this macro are labeled with the smoketest label. This
# allows running smoketests only using ctest.
#
# Smoke tests are intended to be run before the whole test suite is invoked,
# e.g., to smoke test patches.
macro(ei_add_smoke_tests smoke_test_list)
# Set the build target to build smoketests
set(buildtarget "buildsmoketests")
add_custom_target("${buildtarget}")
# Get list of all tests and translate it into a CMake list
get_property(EIGEN_TESTS_LIST GLOBAL PROPERTY EIGEN_TESTS_LIST)
string(REGEX REPLACE "\n" " " EIGEN_TESTS_LIST "${EIGEN_TESTS_LIST}")
set(EIGEN_TESTS_LIST "${EIGEN_TESTS_LIST}")
separate_arguments(EIGEN_TESTS_LIST)
# Check if the test in smoke_test_list is a currently valid test target
foreach(test IN ITEMS ${smoke_test_list})
# Add tests in smoke_test_list to our smoke test target but only if the test
# is currently available, i.e., is in EIGEN_SUBTESTS_LIST
if ("${test}" IN_LIST EIGEN_TESTS_LIST)
add_dependencies("${buildtarget}" "${test}")
# In the case of a test we match all subtests
set(ctest_regex "${ctest_regex}^${test}_[0-9]+$$|")
endif()
endforeach()
# Get list of all subtests and translate it into a CMake list
get_property(EIGEN_SUBTESTS_LIST GLOBAL PROPERTY EIGEN_SUBTESTS_LIST)
string(REGEX REPLACE "\n" " " EIGEN_SUBTESTS_LIST "${EIGEN_SUBTESTS_LIST}")
set(EIGEN_SUBTESTS_LIST "${EIGEN_SUBTESTS_LIST}")
separate_arguments(EIGEN_SUBTESTS_LIST)
# Check if the test in smoke_test_list is a currently valid subtest target
foreach(test IN ITEMS ${smoke_test_list})
# Add tests in smoke_test_list to our smoke test target but only if the test
# is currently available, i.e., is in EIGEN_SUBTESTS_LIST
if ("${test}" IN_LIST EIGEN_SUBTESTS_LIST)
add_dependencies("${buildtarget}" "${test}")
# Add label smoketest to be able to run smoketests using ctest
set_property(TEST ${test} APPEND PROPERTY LABELS "smoketest")
endif()
endforeach()
endmacro(ei_add_smoke_tests)