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3 Commits
master ... release/20

Author SHA1 Message Date
Arne Morten Kvarving
73186e9894 bump packaging versions for 2016.04 final 2016-04-29 14:21:52 +02:00
Arne Morten Kvarving
fb5c72688c bump packaging versions for 2016.04-rc1 2016-04-22 10:08:44 +02:00
Atgeirr Flø Rasmussen
da601681ef Bumped version for release. 2016-04-21 14:12:49 +02:00
2979 changed files with 6042 additions and 1529876 deletions
Show Stats Expand all files Collapse all files

19
.clang-format
View File

@ -1,19 +0,0 @@
{
BasedOnStyle: WebKit,
AlignConsecutiveAssignments: false,
AlignConsecutiveDeclarations: false,
AlignAfterOpenBracket: Align,
AllowShortBlocksOnASingleLine: false,
AllowShortFunctionsOnASingleLine: None,
AlwaysBreakAfterReturnType: TopLevelDefinitions,
AlwaysBreakTemplateDeclarations: Yes,
BinPackArguments: false,
BinPackParameters: false,
BreakBeforeBraces: Linux,
BreakConstructorInitializers: BeforeComma,
ColumnLimit: 120,
Cpp11BracedListStyle: true,
FixNamespaceComments: true,
MaxEmptyLinesToKeep: 5,
NamespaceIndentation: Inner,
}

29
.gitignore vendored
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@ -44,32 +44,3 @@ Testing/
# Build directory in source.
build/
gmon.out
log.log
build
install
.cproject
.project
/testdata/statoil
.idea
/Debug/
# Compiled Dynamic libraries
*.so
*.dylib
# Compiled Static libraries
*.lai
*.la
*.a
# Mac OS X debug info
*.dSYM
# emacs directory setting:
.dir-locals.el
*.pyc
*.eggs
*.egg-info

0
.gitmodules vendored
View File

21
.travis.yml Normal file
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@ -0,0 +1,21 @@
language: cpp
compiler:
- gcc
addons:
apt:
sources:
- boost-latest
- ubuntu-toolchain-r-test
packages:
- libboost1.55-all-dev
- gcc-4.8
- g++-4.8
- gfortran-4.8
before_script:
- export CXX="g++-4.8" CC="gcc-4.8" FC="gfortran-4.8"
- cd ..
script: opm-common/travis/build-and-test-opm-common.sh

443
CMakeLists.txt
View File

@ -1,164 +1,41 @@
project(opm-common C CXX)
cmake_minimum_required (VERSION 3.10)
cmake_minimum_required (VERSION 2.8)
option(SIBLING_SEARCH "Search for other modules in sibling directories?" ON)
list(APPEND CMAKE_MODULE_PATH ${PROJECT_SOURCE_DIR}/cmake/Modules)
set(OPM_MACROS_ROOT ${PROJECT_SOURCE_DIR})
option(ENABLE_ECL_INPUT "Enable eclipse input support?" ON)
option(ENABLE_ECL_OUTPUT "Enable eclipse output support?" ON)
option(ENABLE_MOCKSIM "Build the mock simulator for io testing" ON)
option(OPM_ENABLE_PYTHON "Enable python bindings?" OFF)
option(OPM_INSTALL_PYTHON "Install python bindings?" ON)
option(OPM_ENABLE_EMBEDDED_PYTHON "Enable embedded python?" OFF)
# Output implies input
if(ENABLE_ECL_OUTPUT)
set(ENABLE_ECL_INPUT ON)
endif()
# And likewise, no input means no output
if(NOT ENABLE_ECL_INPUT)
set(ENABLE_ECL_OUTPUT OFF)
endif()
# not the same location as most of the other projects; this hook overrides
macro (dir_hook)
endmacro (dir_hook)
# We need to define this variable in the installed cmake config file.
set(OPM_PROJECT_EXTRA_CODE_INSTALLED "#ENABLE_ECL_INPUT is needed by opm-common-prereq.cmake
set(ENABLE_ECL_INPUT ${ENABLE_ECL_INPUT})
set(OPM_MACROS_ROOT ${CMAKE_INSTALL_PREFIX}/share/opm)
list(APPEND CMAKE_MODULE_PATH \${OPM_MACROS_ROOT}/cmake/Modules)
include(OpmPackage) #Make macros available after find_package(opm-common)")
set(OPM_PROJECT_EXTRA_CODE_INSTALLED "set(OPM_MACROS_ROOT ${CMAKE_INSTALL_PREFIX}/share/opm)
list(APPEND CMAKE_MODULE_PATH \${OPM_MACROS_ROOT}/cmake/Modules)")
set(OPM_PROJECT_EXTRA_CODE_INTREE "#ENABLE_ECL_INPUT is needed by opm-common-prereq.cmake
set(ENABLE_ECL_INPUT ${ENABLE_ECL_INPUT})
set(OPM_MACROS_ROOT ${OPM_MACROS_ROOT})
list(APPEND CMAKE_MODULE_PATH \${OPM_MACROS_ROOT}/cmake/Modules)
include(OpmPackage) #Make macros available after find_package(opm-common)")
if(ENABLE_ECL_OUTPUT)
set(OPM_PROJECT_EXTRA_CODE_INSTALLED "${OPM_PROJECT_EXTRA_CODE_INSTALLED}
set(COMPARE_ECL_COMMAND ${CMAKE_INSTALL_PREFIX}/bin${${name}_VER_DIR}/compareECL)
set(OPM_PACK_COMMAND ${CMAKE_INSTALL_PREFIX}/bin${${name}_VER_DIR}/opmpack)
set(RST_DECK_COMMAND ${CMAKE_INSTALL_PREFIX}/bin${${name}_VER_DIR}/rst_deck)")
set(OPM_PROJECT_EXTRA_CODE_INTREE "${OPM_PROJECT_EXTRA_CODE_INTREE}
set(COMPARE_ECL_COMMAND ${PROJECT_BINARY_DIR}/bin/compareECL)
set(OPM_PACK_COMMAND ${PROJECT_BINARY_DIR}/bin/opmpack)
set(RST_DECK_COMMAND ${PROJECT_BINARY_DIR}/bin/rst_deck)")
endif()
set(OPM_PROJECT_EXTRA_CODE_INTREE "set(OPM_MACROS_ROOT ${OPM_COMMON_ROOT})
list(APPEND CMAKE_MODULE_PATH \${OPM_MACROS_ROOT}/cmake/Modules)")
# project information is in dune.module. Read this file and set variables.
# we cannot generate dune.module since it is read by dunecontrol before
# the build starts, so it makes sense to keep the data there then.
include (OpmInit)
OpmSetPolicies()
# Look for the opm-tests repository; if found the variable
# HAVE_OPM_TESTS will be set to true.
include(Findopm-tests)
# list of prerequisites for this particular project; this is in a
# separate file (in cmake/Modules sub-directory) because it is shared
# with the find module
include (${project}-prereqs)
# source_hook runs before config_hook and the former needs fmt, hence this
# needs to be here.
if(fmt_FOUND)
# OpmSatellites will not add the library, do it here.
list(APPEND opm-common_LIBRARIES fmt::fmt)
else()
include(DownloadFmt)
endif()
if(OPM_ENABLE_EMBEDDED_PYTHON AND NOT OPM_ENABLE_PYTHON)
# This needs to be here to run before source_hook
message(WARNING "Inconsistent settings: OPM_ENABLE_PYTHON=OFF and "
"OPM_ENABLE_EMBEDDED_PYTHON=ON. Please use OPM_ENABLE_PYTHON=ON to "
"activate. Will disable embedded python in this run.")
set(OPM_ENABLE_EMBEDDED_PYTHON OFF CACHE BOOL "Enable embedded python?" FORCE)
endif()
# read the list of components from this file (in the project directory);
# it should set various lists with the names of the files to include
include (CMakeLists_files.cmake)
macro (config_hook)
if(ENABLE_ECL_INPUT)
# For this project
include_directories(${EXTRA_INCLUDES} ${PROJECT_BINARY_DIR}/include)
# For downstreams
list(APPEND EXTRA_INCLUDES ${PROJECT_BINARY_DIR}/include)
set(OPM_PROJECT_EXTRA_CODE_INTREE "${OPM_PROJECT_EXTRA_CODE_INTREE}
list(APPEND opm-common_INCLUDE_DIRS ${EXTRA_INCLUDES})")
if(ENABLE_ECL_INPUT)
set(OPM_PROJECT_EXTRA_CODE_INTREE "${OPM_PROJECT_EXTRA_CODE_INTREE}
set(HAVE_ECL_INPUT 1)")
set(OPM_PROJECT_EXTRA_CODE_INSTALLED "${OPM_PROJECT_EXTRA_CODE_INSTALLED}
set(HAVE_ECL_INPUT 1)")
set(HAVE_ECL_INPUT 1)
endif()
if(ENABLE_ECL_OUTPUT)
set(OPM_PROJECT_EXTRA_CODE_INTREE "${OPM_PROJECT_EXTRA_CODE_INTREE}
set(HAVE_ECL_OUTPUT 1)")
set(OPM_PROJECT_EXTRA_CODE_INSTALLED "${OPM_PROJECT_EXTRA_CODE_INSTALLED}
set(HAVE_ECL_OUTPUT 1)")
endif()
# We need to use the correct search mode. Otherwise not finding one
# boost component beloq will mark the previously found ones as not
# found again. (Code stolen from UseDynamicBoost.cmake
if(Boost_DIR)
set(_Boost_CONFIG_MODE CONFIG)
endif()
find_package(Boost COMPONENTS filesystem regex system unit_test_framework ${_Boost_CONFIG_MODE})
if (HAVE_DYNAMIC_BOOST_TEST)
set_target_properties(Boost::unit_test_framework PROPERTIES INTERFACE_COMPILE_DEFINITIONS BOOST_TEST_DYN_LINK=1)
endif()
endif()
endmacro (config_hook)
macro (prereqs_hook)
endmacro (prereqs_hook)
macro (sources_hook)
if(NOT cjson_FOUND)
include(DownloadCjson)
include_directories(${cjson_SOURCE_DIR})
list(APPEND opm-common_SOURCES ${cjson_SOURCE_DIR}/cJSON.c)
endif()
if(ENABLE_ECL_INPUT)
# Keyword generation
include(GenerateKeywords.cmake)
# Append generated sources
list(INSERT opm-common_SOURCES 0 ${PROJECT_BINARY_DIR}/ParserInit.cpp)
foreach (name A B C D E F G H I J K L M N O P Q R S T U V W X Y Z)
list(INSERT opm-common_SOURCES 0 ${PROJECT_BINARY_DIR}/ParserKeywords/${name}.cpp)
list(INSERT opm-common_SOURCES 0 ${PROJECT_BINARY_DIR}/ParserKeywords/ParserInit${name}.cpp)
list(INSERT opm-common_SOURCES 0 ${PROJECT_BINARY_DIR}/ParserKeywords/Builtin${name}.cpp)
list(INSERT opm-common_HEADERS 0 ${PROJECT_BINARY_DIR}/include/opm/input/eclipse/Parser/ParserKeywords/${name}.hpp)
endforeach()
if (OPM_ENABLE_EMBEDDED_PYTHON)
list(INSERT opm-common_SOURCES 0 ${PROJECT_BINARY_DIR}/python/cxx/builtin_pybind11.cpp)
endif()
endif()
set_source_files_properties(src/opm/input/eclipse/Python/Python.cpp
PROPERTIES COMPILE_FLAGS -Wno-shadow)
if(QuadMath_FOUND)
get_target_property(qm_defs QuadMath::QuadMath INTERFACE_COMPILE_DEFINITIONS)
get_target_property(qm_options QuadMath::QuadMath INTERFACE_COMPILE_OPTIONS)
set_source_files_properties(src/opm/material/components/CO2.cpp
src/opm/material/densead/Evaluation.cpp
PROPERTIES COMPILE_DEFINITIONS "${qm_defs}"
COMPILE_OPTIONS "${qm_options}")
endif()
endmacro (sources_hook)
macro (fortran_hook)
@ -168,316 +45,10 @@ macro (files_hook)
endmacro (files_hook)
macro (tests_hook)
if(ENABLE_ECL_INPUT)
include(ExtraTests.cmake)
endif()
endmacro (tests_hook)
macro (install_hook)
install(DIRECTORY ${PROJECT_BINARY_DIR}/include/
DESTINATION include
PATTERN *.hpp)
endmacro (install_hook)
# Used to append entries from one list to another.
# The output list is suitable for use in setup.py subtitution
macro(append_quoted OUT IN)
foreach(ENTRY ${${IN}})
list(APPEND ${OUT} "'${ARGN}${ENTRY}'")
endforeach()
endmacro()
# If opm-common is configured to embed the python interpreter we must make sure
# that all downstream modules link libpython transitively. Due to the required
# integration with Python+cmake machinery provided by pybind11 this is done by
# manually adding to the opm-common_LIBRARIES variable here, and not in the
# OpmLibMain function. Here only the library dependency is implemented, the
# bulk of the python configuration is further down in the file.
if (OPM_ENABLE_PYTHON)
# We need to be compatible with older CMake versions
# that do not offer FindPython3
# e.g. Ubuntu LTS 18.04 uses cmake 3.10
if(${CMAKE_VERSION} VERSION_LESS "3.12.0")
find_package(PythonInterp REQUIRED)
if (OPM_ENABLE_EMBEDDED_PYTHON)
find_package(PythonLibs REQUIRED)
list(APPEND opm-common_LIBRARIES ${PYTHON_LIBRARIES})
endif()
if(PYTHON_VERSION_MAJOR LESS 3)
message(SEND_ERROR "OPM requires version 3 of Python but only version ${PYTHON_VERSION_STRING} was found")
endif()
set(Python3_EXECUTABLE ${PYTHON_EXECUTABLE})
set(Python3_LIBRARIES ${PYTHON_LIBRARIES})
set(Python3_VERSION "${PYTHON_VERSION_STRING}")
set(Python3_VERSION_MINOR ${PYTHON_VERSION_MINOR})
else()
# Be backwards compatible.
if(PYTHON_EXECUTABLE AND NOT Python3_EXECUTABLE)
set(Python3_EXECUTABLE ${PYTHON_EXECUTABLE})
endif()
# We always need to search for Development as we use
# pybind11_add_module even if don't embed Python
if (NOT OPM_ENABLE_EMBEDDED_PYTHON)
if(${CMAKE_VERSION} VERSION_LESS "3.18.0")
find_package(Python3 REQUIRED COMPONENTS Interpreter Development)
else()
find_package(Python3 REQUIRED COMPONENTS Interpreter Development.Module)
endif()
else()
if(${CMAKE_VERSION} VERSION_LESS "3.18.0")
find_package(Python3 REQUIRED COMPONENTS Interpreter Development)
else()
find_package(Python3 REQUIRED COMPONENTS Interpreter Development.Embed Development.Module)
endif()
get_target_property(_lib_path Python3::Python IMPORTED_LOCATION)
set(PYTHON_LIBRARY ${_lib_path})
set(PYTHON_LIBRARIES {PYTHON_LIBRARY})
list(APPEND opm-common_LIBRARIES ${PYTHON_LIBRARY})
set(PYTHON_INCLUDE_DIRS ${Python3_INCLUDE_DIRS})
endif()
if(Python3_VERSION_MINOR LESS 3)
# Python native namespace packages requires python >= 3.3
message(SEND_ERROR "OPM requires python >= 3.3 but only version ${Python3_VERSION} was found")
endif()
# Compatibility settings for PythonInterp and PythonLibs
# used e.g. in FindCwrap, pybind11
set(PYTHON_EXECUTABLE ${Python3_EXECUTABLE})
# Directory to install common (for opm modules) python scripts
include (GNUInstallDirs)
set(OPM_PYTHON_COMMON_DIR "${CMAKE_INSTALL_DATAROOTDIR}/opm/python")
set(OPM_PROJECT_EXTRA_CODE_INTREE "${OPM_PROJECT_EXTRA_CODE_INTREE}
set(opm-common_PYTHON_COMMON_DIR ${PROJECT_SOURCE_DIR}/python)")
set(OPM_PROJECT_EXTRA_CODE_INSTALLED "${OPM_PROJECT_EXTRA_CODE_INSTALLED}
set(opm-common_PYTHON_COMMON_DIR ${CMAKE_INSTALL_PREFIX}/${OPM_PYTHON_COMMON_DIR})")
endif()
# We always need the PYTHON_INCLUDE_DIR. Unfortunately
# When we build pypi packages CMake will fail to determine
# these via the usual find_package(PythonLibs or
# find_package(Python3 REQUIRED COMPONENTS Interpreter Development)
# Hence we overwrite them here.
if(NOT PYTHON_INCLUDE_DIRS)
execute_process(COMMAND "${PYTHON_EXECUTABLE}" "-c" "from distutils import sysconfig; print(sysconfig.get_python_inc(plat_specific=True), end=\"\");"
RESULT_VARIABLE _PYTHON_DIR_SUCCESS
OUTPUT_VARIABLE PYTHON_INCLUDE_DIR
ERROR_VARIABLE _PYTHON_ERROR_VALUE)
if(NOT _PYTHON_DIR_SUCCESS MATCHES 0)
message(FATAL_ERROR "Could not determine Python include directory. Error: ${_PYTHON_ERROR_VALUE}.")
endif()
set(PYTHON_INCLUDE_DIRS ${PYTHON_INCLUDE_DIR})
endif()
find_package(pybind11 2.2 CONFIG)
if (NOT pybind11_FOUND)
include(DownloadPyBind11)
endif()
endif()
# all setup common to the OPM library modules is done here
include (OpmLibMain)
if (ENABLE_MOCKSIM AND ENABLE_ECL_INPUT)
add_library(mocksim
msim/src/msim.cpp)
target_link_libraries(mocksim opmcommon)
target_include_directories(mocksim PUBLIC msim/include)
add_executable(msim examples/msim.cpp)
target_link_libraries(msim mocksim)
if (Boost_UNIT_TEST_FRAMEWORK_FOUND)
set(_libs mocksim opmcommon
${Boost_UNIT_TEST_FRAMEWORK_LIBRARY})
foreach( test test_msim test_msim_ACTIONX test_msim_EXIT)
opm_add_test(${test} SOURCES tests/msim/${test}.cpp
LIBRARIES ${_libs}
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}/tests
CONDITION ${HAVE_ECL_INPUT})
endforeach()
endif()
endif()
# Build the compare utilities
if(ENABLE_ECL_INPUT)
add_executable(compareECL
test_util/EclFilesComparator.cpp
test_util/EclRegressionTest.cpp
test_util/compareECL.cpp
)
add_executable(convertECL
test_util/convertECL.cpp
)
add_executable(summary
test_util/summary.cpp
)
add_executable(arraylist
test_util/arraylist.cpp
)
add_executable(rewriteEclFile
test_util/rewriteEclFile.cpp
)
foreach(target compareECL convertECL summary rewriteEclFile arraylist)
target_link_libraries(${target} opmcommon)
install(TARGETS ${target} DESTINATION bin)
endforeach()
# Add the tests
set(_libs opmcommon
${Boost_UNIT_TEST_FRAMEWORK_LIBRARY})
opm_add_test(test_EclFilesComparator
CONDITION
ENABLE_ECL_INPUT AND Boost_UNIT_TEST_FRAMEWORK_FOUND
SOURCES
tests/test_EclFilesComparator.cpp
test_util/EclFilesComparator.cpp
LIBRARIES
${_libs}
WORKING_DIRECTORY
${PROJECT_BINARY_DIR}/tests
)
opm_add_test(test_EclRegressionTest
CONDITION
ENABLE_ECL_INPUT AND Boost_UNIT_TEST_FRAMEWORK_FOUND
SOURCES
tests/test_EclRegressionTest.cpp
test_util/EclFilesComparator.cpp
test_util/EclRegressionTest.cpp
LIBRARIES
${_libs}
WORKING_DIRECTORY
${PROJECT_BINARY_DIR}/tests
)
endif()
# Explicitly link tests needing dune-common.
# To avoid pulling dune-common into the opm-common interface
find_package(dune-common REQUIRED)
opm_need_version_of ("dune-common")
target_include_directories(dunecommon INTERFACE ${dune-common_INCLUDE_DIRS})
string(REPLACE " " ";" dflags "${dune-common_CXX_FLAGS}")
target_compile_options(dunecommon INTERFACE ${dflags})
target_compile_definitions(dunecommon INTERFACE DUNE_COMMON_VERSION_MAJOR=${DUNE_COMMON_VERSION_MAJOR})
target_compile_definitions(dunecommon INTERFACE DUNE_COMMON_VERSION_MINOR=${DUNE_COMMON_VERSION_MINOR})
target_compile_definitions(dunecommon INTERFACE DUNE_COMMON_VERSION_REVISION=${DUNE_COMMON_VERSION_REVISION})
if(Boost_UNIT_TEST_FRAMEWORK_FOUND)
foreach(src ${DUNE_TEST_SOURCE_FILES})
get_filename_component(tgt ${src} NAME_WE)
target_link_libraries(${tgt} dunecommon)
endforeach()
endif()
if(BUILD_EXAMPLES)
target_link_libraries(co2brinepvt dunecommon)
install(TARGETS co2brinepvt DESTINATION bin)
endif()
# Install build system files and documentation
install(DIRECTORY cmake
DESTINATION share/opm USE_SOURCE_PERMISSIONS
PATTERN "OPM-CMake.md" EXCLUDE)
install(FILES cmake/OPM-CMake.md
DESTINATION ${CMAKE_INSTALL_DOCDIR})
# Install tab completion skeleton
install(FILES etc/opm_bash_completion.sh.in DESTINATION share/opm/etc)
if (OPM_ENABLE_PYTHON)
make_directory(${PROJECT_BINARY_DIR}/python)
set(opm-common_PYTHON_PACKAGE_VERSION ${OPM_PYTHON_PACKAGE_VERSION_TAG})
add_custom_target(copy_python ALL
COMMAND ${Python3_EXECUTABLE} ${PROJECT_SOURCE_DIR}/python/install.py ${PROJECT_SOURCE_DIR}/python ${PROJECT_BINARY_DIR} 0)
file(COPY ${PROJECT_SOURCE_DIR}/python/README.md DESTINATION ${PROJECT_BINARY_DIR}/python)
pybind11_add_module(opmcommon_python
${PYTHON_CXX_SOURCE_FILES}
${PROJECT_BINARY_DIR}/python/cxx/builtin_pybind11.cpp)
target_link_libraries(opmcommon_python PRIVATE
opmcommon)
if(TARGET pybind11::pybind11)
target_link_libraries(opmcommon_python PRIVATE
pybind11::pybind11)
else()
target_include_directories(opmcommon_python SYSTEM PRIVATE ${pybind11_INCLUDE_DIRS})
endif()
set_target_properties(opmcommon_python PROPERTIES
LIBRARY_OUTPUT_DIRECTORY python/opm)
add_dependencies(opmcommon_python copy_python)
# Generate versioned setup.py
configure_file(${PROJECT_SOURCE_DIR}/python/setup.py.in
${PROJECT_BINARY_DIR}/python/setup.py.tmp)
file(GENERATE OUTPUT ${PROJECT_BINARY_DIR}/python/setup.py
INPUT ${PROJECT_BINARY_DIR}/python/setup.py.tmp)
# Since the installation of Python code is nonstandard it is protected by an
# extra cmake switch, OPM_INSTALL_PYTHON. If you prefer you can still invoke
# setup.py install manually - optionally with the generated script
# setup-install.sh - and completely bypass cmake in the installation phase.
if (OPM_INSTALL_PYTHON)
include(PyInstallPrefix)
install(TARGETS opmcommon_python DESTINATION ${DEST_PREFIX}${CMAKE_INSTALL_PREFIX}/${PYTHON_INSTALL_PREFIX}/opm)
install(
CODE "execute_process(
COMMAND ${PYTHON_EXECUTABLE}
python/install.py
${PROJECT_BINARY_DIR}/python/opm
${DEST_PREFIX}${CMAKE_INSTALL_PREFIX}/${PYTHON_INSTALL_PREFIX} 1)")
## Need to install this Python script such that it can be used by opm-simulators when building against an installed
## opm-common
install( PROGRAMS "python/install.py" DESTINATION "${OPM_PYTHON_COMMON_DIR}" )
endif()
# Observe that if the opmcommon library has been built as a shared library the
# python library opmcommon_python will in general not find it runtime while
# testing.
add_test(NAME python_tests
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}/python
COMMAND ${CMAKE_COMMAND} -E env LD_LIBRARY_PATH=${PROJECT_BINARY_DIR}/lib ${Python3_EXECUTABLE} -m unittest discover
)
set_target_properties(opmcommon PROPERTIES POSITION_INDEPENDENT_CODE ON)
set_directory_properties(PROPERTIES ADDITIONAL_MAKE_CLEAN_FILES ${PROJECT_BINARY_DIR}/python)
# -------------------------------------------------------------------------
# Let cmake configure some small shell scripts which can be used to simplify
# building, testing and installation of the Python extensions.
configure_file(python/setup-build.sh.in tmp/setup-build.sh)
file( COPY ${PROJECT_BINARY_DIR}/tmp/setup-build.sh
DESTINATION ${PROJECT_BINARY_DIR}
FILE_PERMISSIONS OWNER_READ OWNER_WRITE OWNER_EXECUTE )
configure_file(python/setup-test.sh.in tmp/setup-test.sh)
file( COPY ${PROJECT_BINARY_DIR}/tmp/setup-test.sh
DESTINATION ${PROJECT_BINARY_DIR}
FILE_PERMISSIONS OWNER_READ OWNER_WRITE OWNER_EXECUTE )
configure_file(python/setup-install.sh.in tmp/setup-install.sh)
file( COPY ${PROJECT_BINARY_DIR}/tmp/setup-install.sh
DESTINATION ${PROJECT_BINARY_DIR}
FILE_PERMISSIONS OWNER_READ OWNER_WRITE OWNER_EXECUTE )
configure_file(python/enable-python.sh.in enable-python.sh)
# -------------------------------------------------------------------------
# 2: Embed the Python interpreter for keywords like PYACTION and PYINPUT
target_include_directories(opmcommon SYSTEM PRIVATE "${pybind11_INCLUDE_DIRS}")
if (OPM_ENABLE_EMBEDDED_PYTHON)
target_link_libraries(opmcommon PUBLIC ${PYTHON_LIBRARY})
add_definitions(-DEMBEDDED_PYTHON)
endif()
endif()
install(DIRECTORY docs/man1 DESTINATION ${CMAKE_INSTALL_MANDIR}
FILES_MATCHING PATTERN "*.1")
# Install build system files
install(DIRECTORY cmake DESTINATION share/opm)

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CMakeLists_files.cmake
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40
CopyHeaders.cmake
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@ -1,40 +0,0 @@
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/ParserInit.cpp
${BASE_DIR}/ParserInit.cpp)
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/TestKeywords.cpp
${BASE_DIR}/TestKeywords.cpp)
if (EXISTS ${BASE_DIR}/python/cxx)
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/builtin_pybind11.cpp
${BASE_DIR}/python/cxx/builtin_pybind11.cpp)
endif()
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/include/opm/input/eclipse/Parser/ParserKeywords/Builtin.hpp
${BASE_DIR}/include/opm/input/eclipse/Parser/ParserKeywords/Builtin.hpp)
file(GLOB HDRS ${BASE_DIR}/tmp_gen/include/opm/input/eclipse/Parser/ParserKeywords/*.hpp)
foreach(HDR ${HDRS})
file(RELATIVE_PATH hdr ${BASE_DIR}/tmp_gen/include/opm/input/eclipse/Parser/ParserKeywords ${HDR})
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${HDR}
${BASE_DIR}/include/opm/input/eclipse/Parser/ParserKeywords/${hdr})
endforeach()
foreach (name A B C D E F G H I J K L M N O P Q R S T U V W X Y Z)
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/ParserKeywords/${name}.cpp
${BASE_DIR}/ParserKeywords/${name}.cpp)
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/ParserKeywords/ParserInit${name}.cpp
${BASE_DIR}/ParserKeywords/ParserInit${name}.cpp)
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_if_different
${BASE_DIR}/tmp_gen/ParserKeywords/Builtin${name}.cpp
${BASE_DIR}/ParserKeywords/Builtin${name}.cpp)
endforeach()

136
ExtraTests.cmake
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@ -1,136 +0,0 @@
# Libs to link tests against
set(TEST_LIBS opmcommon Boost::unit_test_framework)
set(EXTRA_TESTS)
if (Boost_UNIT_TEST_FRAMEWORK_FOUND)
# Generated source, needs to be here
opm_add_test(InlineKeywordTest
EXE_NAME TestKeywords
SOURCES ${PROJECT_BINARY_DIR}/TestKeywords.cpp
LIBRARIES ${TEST_LIBS})
list(APPEND EXTRA_TESTS TestKeywords)
# Extra compile definitions and extra parameters
include(cmake/Modules/CheckCaseSensitiveFileSystem.cmake)
set(_testdir ${PROJECT_SOURCE_DIR}/tests/parser/data)
opm_add_test(ParserTests
SOURCES tests/parser/ParserTests.cpp
LIBRARIES ${TEST_LIBS}
TEST_ARGS -- ${_testdir}/)
list(APPEND EXTRA_TESTS ParserTests)
opm_add_test(ParserIncludeTests
SOURCES tests/parser/ParserIncludeTests.cpp
LIBRARIES ${TEST_LIBS}
TEST_ARGS -- ${_testdir}/parser/)
target_compile_definitions(ParserIncludeTests PRIVATE
-DHAVE_CASE_SENSITIVE_FILESYSTEM=${HAVE_CASE_SENSITIVE_FILESYSTEM})
list(APPEND EXTRA_TESTS ParserIncludeTests)
opm_add_test(PvtxTableTests
SOURCES tests/parser/PvtxTableTests.cpp
LIBRARIES ${TEST_LIBS}
TEST_ARGS -- ${_testdir}/integration_tests/)
list(APPEND EXTRA_TESTS PvtxTableTests)
opm_add_test(EclipseStateTests
SOURCES tests/parser/EclipseStateTests.cpp
LIBRARIES ${TEST_LIBS}
TEST_ARGS -- ${_testdir}/integration_tests/)
list(APPEND EXTRA_TESTS EclipseStateTests)
foreach (test BoxTest
CarfinTest
CheckDeckValidity
EclipseGridCreateFromDeck
IncludeTest
IntegrationTests
IOConfigIntegrationTest
ParseKEYWORD
Polymer
ScheduleCreateFromDeck
TransMultIntegrationTests)
opm_add_test(${test}
SOURCES tests/parser/integration/${test}.cpp
LIBRARIES ${TEST_LIBS}
TEST_ARGS -- ${_testdir}/integration_tests/)
list(APPEND EXTRA_TESTS ${test})
endforeach ()
add_test( NAME rst_deck_test
COMMAND ${PROJECT_SOURCE_DIR}/tests/rst_test_driver.sh ${PROJECT_BINARY_DIR}/bin/rst_deck ${PROJECT_BINARY_DIR}/bin/opmhash
${PROJECT_SOURCE_DIR}/tests/SPE1CASE2_INCLUDE.DATA)
add_test( NAME rst_deck_test2
COMMAND ${PROJECT_SOURCE_DIR}/tests/rst_test_driver2.sh
${PROJECT_BINARY_DIR}/bin/rst_deck
${PROJECT_BINARY_DIR}/bin/opmi
${PROJECT_SOURCE_DIR}/tests/ACTIONX_M1.DATA
${PROJECT_SOURCE_DIR}/tests/ACTIONX_M1_MULTIPLE.DATA
${PROJECT_SOURCE_DIR}/tests/ACTIONX_M1.UNRST
${PROJECT_SOURCE_DIR}/tests/ACTIONX_M1.X0010 )
# opm-tests dependent tests
if(HAVE_OPM_TESTS)
opm_add_test(parse_write ONLY_COMPILE
SOURCES tests/parser/integration/parse_write.cpp
LIBRARIES ${TEST_LIBS})
list(APPEND EXTRA_TESTS parse_write)
foreach (deck ${OPM_TESTS_ROOT}/norne/NORNE_ATW2013.DATA
${OPM_TESTS_ROOT}/spe1_solvent/SPE1CASE2_SOLVENT.DATA
${OPM_TESTS_ROOT}/spe9_solvent/SPE9_CP_SOLVENT_CO2.DATA
${OPM_TESTS_ROOT}/spe5/SPE5CASE1.DATA
${OPM_TESTS_ROOT}/polymer_simple2D/2D_THREEPHASE_POLY_HETER.DATA
${OPM_TESTS_ROOT}/spe1/SPE1CASE1.DATA
${OPM_TESTS_ROOT}/spe1/SPE1CASE2.DATA
${OPM_TESTS_ROOT}/spe1/SPE1CASE2_FAMII.DATA
${OPM_TESTS_ROOT}/spe1/SPE1CASE2_SLGOF.DATA
${OPM_TESTS_ROOT}/spe3/SPE3CASE1.DATA
${OPM_TESTS_ROOT}/spe3/SPE3CASE2.DATA
${OPM_TESTS_ROOT}/spe9/SPE9_CP.DATA
${OPM_TESTS_ROOT}/spe9/SPE9_CP_GROUP.DATA
${OPM_TESTS_ROOT}/spe9/SPE9_CP_SHORT.DATA
${OPM_TESTS_ROOT}/spe9/SPE9.DATA
${OPM_TESTS_ROOT}/msw_2d_h/2D_H__.DATA
${OPM_TESTS_ROOT}/model2/0_BASE_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/1_MULTREGT_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/2_MULTXYZ_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/3_MULTFLT_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/4_MINPVV_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/5_SWATINIT_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/6_ENDSCALE_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/7_HYSTERESIS_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/8_MULTIPLY_TRANXYZ_MODEL2.DATA
${OPM_TESTS_ROOT}/model2/9_EDITNNC_MODEL2.DATA)
get_filename_component(test_name ${deck} NAME_WE)
opm_add_test(${test_name} NO_COMPILE
EXE_NAME parse_write
TEST_ARGS ${deck})
endforeach()
opm_add_test("SPE9_CP_GROUP2" NO_COMPILE EXE_NAME parse_write TEST_ARGS "${OPM_TESTS_ROOT}/spe9group/SPE9_CP_GROUP.DATA")
set_property(TEST NORNE_ATW2013
PROPERTY ENVIRONMENT "OPM_ERRORS_IGNORE=PARSE_RANDOM_SLASH")
add_test( NAME rst_deck_test_norne
COMMAND ${PROJECT_SOURCE_DIR}/tests/rst_test_driver.sh ${PROJECT_BINARY_DIR}/bin/rst_deck ${PROJECT_BINARY_DIR}/bin/opmhash
${OPM_TESTS_ROOT}/norne/NORNE_ATW2013.DATA)
set_property(TEST rst_deck_test_norne
PROPERTY ENVIRONMENT "OPM_ERRORS_IGNORE=PARSE_RANDOM_SLASH")
endif()
# JSON tests
opm_add_test(jsonTests
SOURCES tests/json/jsonTests.cpp
LIBRARIES ${TEST_LIBS}
TEST_ARGS ${PROJECT_SOURCE_DIR}/tests/json/example1.json)
list(APPEND EXTRA_TESTS jsonTests)
endif()

94
GenerateKeywords.cmake
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@ -1,94 +0,0 @@
set(genkw_SOURCES src/opm/json/JsonObject.cpp
src/opm/input/eclipse/Parser/createDefaultKeywordList.cpp
src/opm/input/eclipse/Deck/UDAValue.cpp
src/opm/input/eclipse/Deck/DeckTree.cpp
src/opm/input/eclipse/Deck/DeckValue.cpp
src/opm/input/eclipse/Deck/Deck.cpp
src/opm/input/eclipse/Deck/DeckView.cpp
src/opm/input/eclipse/Deck/DeckItem.cpp
src/opm/input/eclipse/Deck/DeckKeyword.cpp
src/opm/input/eclipse/Deck/DeckRecord.cpp
src/opm/input/eclipse/Deck/DeckOutput.cpp
src/opm/input/eclipse/Generator/KeywordGenerator.cpp
src/opm/input/eclipse/Generator/KeywordLoader.cpp
src/opm/input/eclipse/Schedule/UDQ/UDQEnums.cpp
src/opm/input/eclipse/Parser/ErrorGuard.cpp
src/opm/input/eclipse/Parser/ParseContext.cpp
src/opm/input/eclipse/Parser/ParserEnums.cpp
src/opm/input/eclipse/Parser/ParserItem.cpp
src/opm/input/eclipse/Parser/ParserKeyword.cpp
src/opm/input/eclipse/Parser/ParserRecord.cpp
src/opm/input/eclipse/Parser/raw/RawKeyword.cpp
src/opm/input/eclipse/Parser/raw/RawRecord.cpp
src/opm/input/eclipse/Parser/raw/StarToken.cpp
src/opm/input/eclipse/Units/Dimension.cpp
src/opm/input/eclipse/Units/UnitSystem.cpp
src/opm/common/utility/OpmInputError.cpp
src/opm/common/utility/shmatch.cpp
src/opm/common/utility/String.cpp
src/opm/common/OpmLog/OpmLog.cpp
src/opm/common/OpmLog/Logger.cpp
src/opm/common/OpmLog/StreamLog.cpp
src/opm/common/OpmLog/LogBackend.cpp
src/opm/common/OpmLog/LogUtil.cpp
)
if(NOT cjson_FOUND)
list(APPEND genkw_SOURCES ${cjson_SOURCE_DIR}/cJSON.c)
endif()
add_executable(genkw ${genkw_SOURCES})
target_link_libraries(genkw ${opm-common_LIBRARIES})
# Generate keyword list
include(src/opm/input/eclipse/share/keywords/keyword_list.cmake)
string(REGEX REPLACE "([^;]+)" "${PROJECT_SOURCE_DIR}/src/opm/input/eclipse/share/keywords/\\1" keyword_files "${keywords}")
configure_file(src/opm/input/eclipse/keyword_list.argv.in keyword_list.argv)
# Generate keyword source
set( genkw_argv keyword_list.argv
${PROJECT_BINARY_DIR}/tmp_gen/ParserKeywords
${PROJECT_BINARY_DIR}/tmp_gen/ParserInit.cpp
${PROJECT_BINARY_DIR}/tmp_gen/include/
opm/input/eclipse/Parser/ParserKeywords
${PROJECT_BINARY_DIR}/tmp_gen/TestKeywords.cpp)
foreach (name A B C D E F G H I J K L M N O P Q R S T U V W X Y Z)
list(APPEND _tmp_output ${PROJECT_BINARY_DIR}/tmp_gen/ParserKeywords/${name}.cpp
${PROJECT_BINARY_DIR}/tmp_gen/include/opm/input/eclipse/Parser/ParserKeywords/${name}.hpp
${PROJECT_BINARY_DIR}/tmp_gen/ParserKeywords/ParserInit${name}.cpp
${PROJECT_BINARY_DIR}/tmp_gen/ParserKeywords/Builtin${name}.cpp
${PROJECT_BINARY_DIR}/tmp_gen/include/opm/input/eclipse/Parser/ParserKeywords/ParserInit${name}.hpp)
list(APPEND _target_output ${PROJECT_BINARY_DIR}/ParserKeywords/${name}.cpp
${PROJECT_BINARY_DIR}/include/opm/input/eclipse/Parser/ParserKeywords/${name}.hpp
${PROJECT_BINARY_DIR}/ParserKeywords/ParserInit${name}.cpp
${PROJECT_BINARY_DIR}/ParserKeywords/Builtin${name}.cpp
${PROJECT_BINARY_DIR}/include/opm/input/eclipse/Parser/ParserKeywords/ParserInit${name}.hpp)
endforeach()
foreach(name TestKeywords.cpp ParserInit.cpp)
list(APPEND _target_output ${PROJECT_BINARY_DIR}/${name})
list(APPEND _tmp_output ${PROJECT_BINARY_DIR}/tmp_gen/${name})
endforeach()
list(APPEND _target_output ${PROJECT_BINARY_DIR}/include/opm/input/eclipse/Parser/ParserKeywords/Builtin.hpp)
list(APPEND _tmp_output ${PROJECT_BINARY_DIR}/tmp_gen/include/opm/input/eclipse/Parser/ParserKeywords/Builtin.hpp)
set(GEN_DEPS ${_tmp_output})
if (OPM_ENABLE_PYTHON)
list(APPEND genkw_argv ${PROJECT_BINARY_DIR}/tmp_gen/builtin_pybind11.cpp)
list(APPEND _tmp_output ${PROJECT_BINARY_DIR}/tmp_gen/builtin_pybind11.cpp)
list(APPEND _target_output ${PROJECT_BINARY_DIR}/python/cxx/builtin_pybind11.cpp)
list(APPEND GEN_DEPS copy_python)
endif()
add_custom_command( OUTPUT
${_tmp_output}
COMMAND genkw ${genkw_argv}
DEPENDS genkw ${keyword_files} src/opm/input/eclipse/share/keywords/keyword_list.cmake)
# To avoid some rebuilds
add_custom_command(OUTPUT
${_target_output}
DEPENDS ${GEN_DEPS}
COMMAND ${CMAKE_COMMAND} -DBASE_DIR=${PROJECT_BINARY_DIR} -P ${PROJECT_SOURCE_DIR}/CopyHeaders.cmake)

26
README.md
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@ -1,23 +1,3 @@
# opm-common: Tools for Eclipse reservoir simulation files
The Open Porous Media (OPM) software suite provides libraries and
tools for modeling and simulation of porous media processes,
especially for simulating CO2 sequestration and improved and enhanced
oil recovery. The Eclipse file format is widely used in the reservoir
simulation community. This package provides a library containing code
for processing files in Eclipse format, Python binding for accessing
Eclipse files and utility code used by other OPM modules (e.g. CMake
modules used).
License
-------
The library is distributed under the GNU General Public License,
version 3 or later (GPLv3+).
Requirements
-----------
- C++17 compatible compiler
- CMake >= 3.10
- Posix compatibility
# opm-common ![alt text](https://travis-ci.org/OPM/opm-common.svg?branch=master "TravisCI Build Status")
Contains common components used throughout all of OPM,
in particular CMake modules for the build system.

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bin/genEvalSpecializations.py
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# Changelog
A short month-by-month synopsis of change highlights. Most bugfixes won't make
it in here, only the bigger features and interface changes.
# Important changes between release 2019.04 and 2019.10
* opm-common and the rest of OPM does not use libecl anymore and
supports reading and writing Eclipse files directly
* Improved Eclipse compatible restart, support for unified and non unified
files, and formatted and unformatted files
* Support for reading and checking various additional keywords was introduced (those
starting with A - M, R, T, V, W, Z).
* ACTIONX support implemented
* NUPCOL support implemented
* UDA, UDQ support implemented
* Implemented writing saturation function scaled end-point arrays (e.g., SWL, SGU,
SOWCR, KRORW, PCG) to INIT file
* Fixes concerning interaction of WELOPEN and WCON* with WECON and
WTEST
* Added support for FOAM keywords (FOAMMOB, FOAMROCK, WFOAM)
* Refactored and reimplemented Well representation in deck
# 2016.12
* ZCORN adjustments improved, considers cell-cell relations
* Slightly more robust compilation - won't crash if locales are broken
* Accessing the PVTW table has a richer interface
* FAULTS face direction accepts X+, I+, Y+, J+, Z+ and K+
* WELOPEN can be controlled with completion numbers (last two parameters)
* COMPLUMP is now supported
* Don't crash on aquifer keywords
* GMWSET and FMWSET are expanded properly
* Don't crash on DEBUG
* Read support for COORDSYS, GRUPRIG, LGR, PRORDER, TRACERS, TUNINGDP,
WDFACCOR, WEFAC, and WORKLIM, no longer crashes.
* RS and RV support.
* Support for DENSITY, PVTW, and ROCK tables
* JFUNC is understood and exposed
# 2016.11
* A new class, Runspec, for the RUNSPEC section, has been introduced
* Nodes in the FIELD group are no longer added to the Summary config
* WCONHIST only adds phases present in the deck
* cJSON can now be installed externally
* DeckItem and ParserItem internals refactored
* Build time reduced by only giving necessary source files to the json compiler
* Support for OPERATE, WSEGITER and GCONPROD
* Internal shared_ptrs removed from Schedule and children; interface updated
* Schedule is now copyable with regular C++ copy semantics - no internal refs
* Well head I/J is now time step dependent
* Well reference depth is time step dependent
* Some ZCORN issues fixed
* gas/oil and oil/gas ratio unit fixed for FIELD units
# 2016.10
* Significant improvements in overall parser performance
* shared_ptr has largely been removed from all public interfaces
* JFUNC keyword can be parsed
* Boolean conversions are explicit
* The Units.hpp header from core is moved here, replacing ConversionFactors
* The ConstPtr and Ptr shared pointer aliases are removed
* UnitSystem, Eclipse3DProperties, and OilVaporizationProperties are default
constructible

29
cmake/Modules/CheckCaseSensitiveFileSystem.cmake
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#
# Module to check whether the file system is case sensitive or not
#
# Sets the following variable:
#
# HAVE_CASE_SENSITIVE_FILESYSTEM True if the file system honors the case of files
message(STATUS "Checking whether the file system is case-sensitive")
# create a file containing uppercase characters
file(WRITE "${CMAKE_BINARY_DIR}/UPPER" "Foo")
# check if the all-lowercase file with the same name can be opened
set(FooContents "")
if (EXISTS "${CMAKE_BINARY_DIR}/upper")
file(READ "${CMAKE_BINARY_DIR}/upper" FooContents)
endif()
# remove the file again in order not to have it dangling around...
file(REMOVE "${CMAKE_BINARY_DIR}/UPPER")
# check the contents of the file opened with lower-case. If it is
# empty, the file system is case sensitive.
if ("${FooContents}" STREQUAL "Foo")
message(STATUS "File system is not case-sensitive")
set(HAVE_CASE_SENSITIVE_FILESYSTEM 0)
else()
message(STATUS "File system is case-sensitive")
set(HAVE_CASE_SENSITIVE_FILESYSTEM 1)
endif()

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cmake/Modules/ConfigVars.cmake
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@ -78,17 +78,7 @@ function (configure_vars obj syntax filename verb)
# write a CMake statements that warns if the value has changed
if ("${syntax}" STREQUAL "CMAKE")
set (_db "\${") # to avoid parsing problems
# special case: if we have a truth variable HAVE_ and this is
# either just defined (as is), or set to 1 explicitly, then both
# of these count as "true", so put in a check that also accepts
# both of these values.
if (("${_var}" MATCHES "^HAVE_.*") AND
(("${${_var}}" STREQUAL "") OR ("${${_var}}" STREQUAL "1")))
set (_cond "(\"${_db}${_var}}\" STREQUAL \"\") OR (\"${_db}${_var}}\" STREQUAL \"1\")")
else ()
set (_cond "\"${_db}${_var}}\" STREQUAL \"${${_var}}\"")
endif ()
file (APPEND "${filename}" "if (DEFINED ${_var} AND NOT (${_cond}))\n")
file (APPEND "${filename}" "if (DEFINED ${_var} AND NOT \"${_db}${_var}}\" STREQUAL \"${${_var}}\")\n")
file (APPEND "${filename}" "\tmessage (WARNING \"Incompatible value \\\"${_db}${_var}}\\\" of variable \\\"${_var}\\\"\")\n")
file (APPEND "${filename}" "endif ()\n")
endif ()

18
cmake/Modules/DownloadCjson.cmake
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@ -1,18 +0,0 @@
include(FetchContent)
FetchContent_Declare(cjson
DOWNLOAD_EXTRACT_TIMESTAMP ON
URL https://github.com/DaveGamble/cJSON/archive/refs/tags/v1.7.16.tar.gz
URL_HASH SHA512=3a894de03c33d89f1e7ee572418d5483c844d38e1e64aa4f6297ddaa01f4111f07601f8d26617b424b5af15d469e3955dae075d9f30b5c25e16ec348fdb06e6f)
FetchContent_Populate(cjson)
# set(ENABLE_CJSON_TEST OFF CACHE BOOL "")
# set(BUILD_SHARED_AND_STATIC_LIBS OFF CACHE BOOL "")
# set(CJSON_BUILD_SHARED_LIBS OFF CACHE BOOL "")
# set(CJSON_OVERRIDE_BUILD_SHARED_LIBS ON CACHE BOOL "")
# add_subdirectory(${cjson_SOURCE_DIR} ${cjson_BINARY_DIR})
# add_library(cjson::cjson STATIC IMPORTED)
# set_target_properties(cjson::cjson PROPERTIES
# INTERFACE_INCLUDE_DIRECTORIES ${cjson_SOURCE_DIR}
# IMPORTED_LOCATION lib/libcjson.a)

17
cmake/Modules/DownloadFmt.cmake
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@ -1,17 +0,0 @@
include(FetchContent)
if(NOT fmt_POPULATED)
FetchContent_Declare(fmt
DOWNLOAD_EXTRACT_TIMESTAMP ON
URL https://github.com/fmtlib/fmt/archive/refs/tags/10.1.1.tar.gz
URL_HASH SHA512=288c349baac5f96f527d5b1bed0fa5f031aa509b4526560c684281388e91909a280c3262a2474d963b5d1bf7064b1c9930c6677fe54a0d8f86982d063296a54c)
FetchContent_Populate(fmt)
endif()
# We do not want to use the target directly as that means it ends up
# in our depends list for downstream modules and the installation list.
# Instead, we just download and use header only mode.
add_compile_definitions(FMT_HEADER_ONLY)
include_directories(${fmt_SOURCE_DIR}/include)
set(fmt_POPULATED ${fmt_POPULATED} PARENT_SCOPE)
set(fmt_SOURCE_DIR ${fmt_SOURCE_DIR} PARENT_SCOPE)

6
cmake/Modules/DownloadPyBind11.cmake
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@ -1,6 +0,0 @@
include(FetchContent)
FetchContent_Declare(pybind11
DOWNLOAD_EXTRACT_TIMESTAMP ON
URL https://github.com/pybind/pybind11/archive/refs/tags/v2.11.1.tar.gz
URL_HASH SHA512=ed1512ff0bca3bc0a45edc2eb8c77f8286ab9389f6ff1d5cb309be24bc608abbe0df6a7f5cb18c8f80a3bfa509058547c13551c3cd6a759af708fd0cdcdd9e95)
FetchContent_MakeAvailable(pybind11)

47
cmake/Modules/DuneCompat.cmake Normal file
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@ -0,0 +1,47 @@
# - Dunecontrol compatibility
#
# Enables this build to be a part of a dunecontrol chain. The
# DUNE_CHECK_MODULES macro greps the top-level Makefile for the
# presence of the abs_top_srcdir variable (!) and uses that as
# the include directory of a module. Also, the contents are not
# checked so if the variable is not present, it generates an
# invalid command line (-I without argument) which causes the
# autoconf probe to fail. This module patches our Makefile (!!)
# so the necessary string will be there; in itself this string
# has no use for us, it is solemnly to satisfy the M4 scripts.
if (CMAKE_GENERATOR MATCHES "Unix Makefiles")
# we need an up-to-date, patched Makefile. this is always checked when
# the makefile is run, thus the need for a marker file to keep a
# timestamp to see when it was last patched (by us)
# amazingly, nothing depends on the generated Makefile, so this can be
# run whenever in the build without trigging a compile of e.g. config.h
add_custom_target (dune-compat ALL
COMMAND ${CMAKE_COMMAND} -DCMAKE_HOME_DIRECTORY=${CMAKE_HOME_DIRECTORY} -P ${OPM_MACROS_ROOT}/cmake/Scripts/DuneCompat2.cmake
COMMENT "Patching Makefile to be DUNE compatible"
)
endif (CMAKE_GENERATOR MATCHES "Unix Makefiles")
# dunecontrol refuses to use a build tree as module directory unless
# there is a dune.module in it. however, if we are in a sub-dir. of
# the source, we are probably using dunecontrol with a --build-dir
# argument, and won't call dunecontrol from the parent (which is the
# source dir and most likely doesn't contain other projects) anyway,
# i.e. we only copy if we are truly out-of-source
string (LENGTH "${PROJECT_SOURCE_DIR}/" _src_dir_len)
string (LENGTH "${PROJECT_BINARY_DIR}/" _bin_dir_len)
if (_src_dir_len GREATER _bin_dir_len)
set (_not_substring TRUE)
else (_src_dir_len GREATER _bin_dir_len)
string (SUBSTRING "${PROJECT_BINARY_DIR}/" 0 ${_src_dir_len} _proj_prefix)
if ("${PROJECT_SOURCE_DIR}/" STREQUAL "${_proj_prefix}")
set (_not_substring FALSE)
else ("${PROJECT_SOURCE_DIR}/" STREQUAL "${_proj_prefix}")
set (_not_substring TRUE)
endif ("${PROJECT_SOURCE_DIR}/" STREQUAL "${_proj_prefix}")
endif (_src_dir_len GREATER _bin_dir_len)
if (_not_substring)
execute_process (COMMAND
${CMAKE_COMMAND} -E copy_if_different ${PROJECT_SOURCE_DIR}/dune.module ${PROJECT_BINARY_DIR}/dune.module
)
endif (_not_substring)

150
cmake/Modules/FindALUGrid.cmake Normal file
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#find_package(PkgConfig)
include(CheckLibraryExists)
macro(_opm_set_alugrid val)
set(ALUGRID_FOUND ${val})
if(NOT ALUGRID_FOUND AND ALUGRID_FIND_REQUIRED)
message(FATAL_ERROR "Could not find required libary ALUGrid")
endif()
# print status message if requested
if(NOT ALUGRID_FIND_QUIETLY)
if(ALUGRID_FOUND)
message(STATUS "Found ALUGrid")
else()
message(STATUS "Could not find ALUGrid")
endif()
endif()
endmacro()
if(ALUGRID_ROOT)
find_path(ALUGRID_PKGCONFIG_DIR alugrid.pc PATHS ${ALUGRID_ROOT}
PATH_SUFFIXES lib/pkgconfig/ alugrid/lib/pkgconfig
NO_DEFAULT_PATH)
find_file(ALUGRID_VERSION alugridversion PATHS ${ALUGRID_ROOT}/bin
NO_DEFAULT_PATH)
else()
find_path(ALUGRID_PKGCONFIG_DIR alugrid.pc
PATH_SUFFIXES lib/pkgconfig/ alugrid/lib/pkgconfig)
get_filename_component(_GUESSED_ALUGRID_ROOT ${ALUGRID_PKGCONFIG_DIR}/../../ ABSOLUTE)
find_file(ALUGRID_VERSION alugridversion PATHS ${_GUESSED_ALUGRID_ROOT}/bin NO_DEFAULT_PATH)
if(ALUGRID_VERSION)
set(ALUGRID_ROOT ${_GUESSED_ALUGRID_ROOT})
else(ALUGRID_VERSION_PATH)
get_filename_component(_GUESSED_ALUGRID_ROOT ${ALUGRID_PKGCONFIG_DIR}/../../.. ABSOLUTE)
find_file(ALUGRID_VERSION alugridversion
PATHS ${_GUESSED_ALUGRID_ROOT}
PATH_SUFFIXES bin
NO_DEFAULT_PATH)
if(ALUGRID_VERSION)
set(ALUGRID_ROOT ${_GUESSED_ALUGRID_ROOT})
endif(ALUGRID_VERSION)
endif(ALUGRID_VERSION)
endif()
unset(ALUGRID_PKGCONFIG_DIR CACHE)
set(ALUGRID_VERSION_REQUIRED 1.50)
if(NOT ALUGRID_VERSION)
message(STATUS "Could not find ALUGrid.")
_opm_set_alugrid(0)
return()
endif(NOT ALUGRID_VERSION)
execute_process(COMMAND ${ALUGRID_VERSION} -c ${ALUGRID_VERSION_REQUIRED} OUTPUT_VARIABLE ALUGRID_VERSION)
if(ALUGRID_VERSION LESS 0)
message(STATUS "ALUGrid version is less than ${ALUGRID_VERSION_REQUIRED}")
_opm_set_alugrid(0)
unset(ALUGRID_VERSION CACHE)
return()
else()
message(STATUS "ALUGrid version is compatible")
endif()
unset(ALUGRID_VERSION CACHE)
find_path(ALUGRID_INCLUDE_DIR "alugrid_serial.h"
PATHS "${ALUGRID_ROOT}" PATH_SUFFIXES "include" "include/serial"
NO_DEFAULT_PATH DOC "Include path of serial alugrid headers.")
if (NOT ALUGRID_INCLUDE_DIR)
message(STATUS "Could not deterimine ALUGrid include directory")
_opm_set_alugrid(0)
return()
endif()
mark_as_advanced(ALUGRID_INCLUDE_DIR)
find_library(ALUGRID_LIBRARY alugrid
PATHS "${ALUGRID_ROOT}"
PATH_SUFFIXES lib lib32 lib64
DOC "ALUGrid library"
NO_DEFAULT_PATH)
if (NOT ALUGRID_LIBRARY)
message(STATUS "Could not find ALUGrid usable library")
_opm_set_alugrid(0)
return()
endif()
set(ALUGRID_LIBRARIES ${ALUGRID_LIBRARY})
mark_as_advanced(ALUGRID_LIBRARIES)
set(ALUGRID_INCLUDE_DIRS
${ALUGRID_INCLUDE_DIR}
${ALUGRID_INCLUDE_DIR}/serial
${ALUGRID_INCLUDE_DIR}/duneinterface)
set(CMAKE_REQUIRED_INCLUDES ${CMAKE_REQUIRED_INCLUDES} ${ALUGRID_INCLUDE_DIRS})
set(CMAKE_REQUIRED_LIBRARIES ${CMAKE_REQUIRED_LIBRARIES} ${ALUGRID_LIBRARIES})
check_include_file_cxx(stlheaders.h ALUGRID_SERIAL_FOUND)
if(ALUGRID_SERIAL_FOUND)
check_cxx_source_compiles("#include <alugrid_defineparallel.h>
#if ALU3DGRID_BUILD_FOR_PARALLEL == 0
#error
#endif
int main(){}"
ALUGRID_PARALLEL_FOUND)
else()
message(STATUS "alugrid_serial.h found, but could not be compiled.")
_opm_set_alugrid(0)
return()
endif()
if(ALUGRID_PARALLEL_FOUND AND MPI_FOUND)
# must link with METIS if we are going to use parallel ALUGrid
find_package(METIS)
if (METIS_FOUND)
list(APPEND ALUGRID_LIBRARIES ${METIS_LIBRARIES})
# check for parallel ALUGrid
find_path(ALUGRID_PARALLEL_INCLUDE_PATH "alumetis.hh"
PATHS ${ALUGRID_INCLUDE_DIR}
PATH_SUFFIXES "parallel"
NO_DEFAULT_PATH)
if(ALUGRID_PARALLEL_INCLUDE_PATH)
list(APPEND ALUGRID_INCLUDE_DIRS ${ALUGRID_PARALLEL_INCLUDE_PATH})
set(CMAKE_REQUIRED_INCLUDES ${CMAKE_REQUIRED_INCLUDES} ${ALUGRID_INCLUDE_DIRS})
set(CMAKE_REQUIRED_LIBRARIES ${CMAKE_REQUIRED_LIBRARIES} ${ALUGRID_LIBRARIES})
#set(CMAKE_REQUIRED_DEFINITIONS ${CMAKE_REQUIRED_DEFINITIONS} -DSOME_MORE_DEF)
check_include_file_cxx(alugrid_parallel.h ALUGRID_PARALLEL_FOUND)
unset(ALUGRID_PARALLEL_INCLUDE_PATH CACHE)
if(NOT ALUGRID_PARALLEL_FOUND)
message(STATUS "alumetis.hh not found in ${ALUGRID_PARALLEL_INCLUDE_PATH}")
endif()
else()
message (STATUS "METIS not found, parallel ALUGrid disabled")
set (ALUGRID_PARALLEL_FOUND 0)
endif()
else()
message(STATUS "alumetis.hh not found (required by parallel alugrid).")
set(ALUGRID_PARALLEL_FOUND 0)
endif()
endif()
if(ALUGRID_SERIAL_FOUND)
_opm_set_alugrid(1)
endif(ALUGRID_SERIAL_FOUND)

46
cmake/Modules/FindAlberta.cmake
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@ -1,46 +0,0 @@
find_library(ALBERTA_LTDL_LIB
NAMES ltdl
PATH_SUFFIXES lib lib32 lib64
)
find_path(ALBERTA_INCLUDE_DIR
NAMES alberta/alberta.h
PATHS ${ALBERTA_ROOT}
PATH_SUFFIXES alberta include NO_DEFAULT_PATH
DOC "Include path of Alberta")
find_path(ALBERTA_INCLUDE_DIR
NAMES
alberta/alberta.h
PATHS /usr/local /opt
PATH_SUFFIXES alberta)
#look for libraries
find_library(ALBERTA_UTIL_LIB
NAMES alberta_util alberta_utilities
PATHS ${ALBERTA_ROOT}
PATH_SUFFIXES lib lib32 lib64
NO_DEFAULT_PATH)
find_library(ALBERTA_UTIL_LIB
NAMES alberta_util alberta_utilities
PATH_SUFFIXES lib lib32 lib64)
foreach(dim RANGE 1 9)
find_library(ALBERTA_${dim}D_LIB alberta_${dim}d
PATHS ${ALBERTA_ROOT}
PATH_SUFFIXES lib lib32 lib64
Cache FILEPATH DOC "Alberta lib for ${dim}D" NO_DEFAULT_PATH)
find_library(ALBERTA_${dim}D_LIB alberta_${dim}d PATH_SUFFIXES lib lib32 lib64)
if(ALBERTA_${dim}D_LIB)
set(ALBERTA_LIBRARIES ${ALBERTA_LIBRARIES} ${ALBERTA_${dim}D_LIB})
endif()
endforeach(dim RANGE 1 9)
if(ALBERTA_LIBRARIES AND ALBERTA_INCLUDE_DIR)
set(ALBERTA_INCLUDE_DIRS ${ALBERTA_INCLUDE_DIR})
set(ALBERTA_LIBRARIES ${ALBERTA_LIBRARIES} ${ALBERTA_UTIL_LIB} ${ALBERTA_LTDL_LIB})
set(ALBERTA_FOUND ON)
set(Alberta_FOUND ON)
set(HAVE_ALBERTA 1)
set(DUNE_ALBERTA_VERSION 0x300)
else()
set(ALBERTA_FOUND OFF)
set(Alberta_FOUND OFF)
endif()

470
cmake/Modules/FindCXX11Features.cmake Normal file
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@ -0,0 +1,470 @@
#
# Module that checks for supported C++11 (former C++0x) features.
#
# Sets the follwing variable:
#
# HAVE_FINAL True if the compiler supports the "final" quantifier
# HAVE_TYPE_TRAITS True if the <type_traits> header is available and implements sufficient functionality
# HAVE_SHARED_PTR True if std::shared_ptr is available
# HAVE_UNIQUE_PTR True if std::unique_ptr is available
# HAVE_NULLPTR True if nullptr is available
# HAVE_REGEX True if std::regex available and sufficiently usable
# HAVE_ARRAY True if header <array> and fill() are available
# HAVE_ATTRIBUTE_ALWAYS_INLINE True if attribute always inline is supported
# HAS_ATTRIBUTE_UNUSED True if attribute unused is supported
# HAS_ATTRIBUTE_DEPRECATED True if attribute deprecated is supported
# HAS_ATTRIBUTE_DEPRECATED_MSG True if attribute deprecated("msg") is supported
# HAVE_CONSTEXPR True if constexpr attribute is available
# HAVE_INTEGRAL_CONSTANT True if compiler supports integral_constant
# HAVE_STATIC_ASSERT True if static_assert is available
# HAVE_AUTO True if the compiler supports the auto keyword
# HAVE_VARIADIC_TEMPLATES True if variadic templates are supported
# HAVE_VARIADIC_CONSTRUCTOR_SFINAE True if variadic constructor sfinae is supported
# HAVE_RVALUE_REFERENCES True if rvalue references are supported
# HAVE_TUPLE True if std::tuple is available
# HAVE_TR1_TUPLE True if std::tr1::tuple is available
include(CheckCXXSourceCompiles)
include(CheckCXXSourceRuns)
# test for C++11 flags
include(TestCXXAcceptsFlag)
include(CheckIncludeFileCXX)
# macro to only add option once
include(AddOptions)
# try to use compiler flag -std=c++11
CHECK_CXX_ACCEPTS_FLAG("-std=c++11" CXX_FLAG_CXX11)
if(CXX_FLAG_CXX11)
add_options (CXX ALL_BUILDS "-std=c++11")
set(CXX_STD0X_FLAGS "-std=c++11")
else()
# try to use compiler flag -std=c++0x for older compilers
CHECK_CXX_ACCEPTS_FLAG("-std=c++0x" CXX_FLAG_CXX0X)
if(CXX_FLAG_CXX0X)
add_options (CXX ALL_BUILDS "-std=c++0x")
set(CXX_STD0X_FLAGS "-std=c++0x")
endif(CXX_FLAG_CXX0X)
endif(CXX_FLAG_CXX11)
# if we are building with an Apple toolchain in MacOS X,
# we cannot use the old GCC 4.2 fork, but must use the
# new runtime library
set (CXX_STDLIB_FLAGS)
string (TOUPPER "${CMAKE_CXX_COMPILER_ID}" _comp_id)
if (APPLE AND (_comp_id MATCHES "CLANG"))
CHECK_CXX_ACCEPTS_FLAG ("-stdlib=libc++" CXX_FLAG_STDLIB_LIBCXX)
if (CXX_FLAG_STDLIB_LIBCXX)
add_options (CXX ALL_BUILDS "-stdlib=libc++")
set (CXX_STDLIB_FLAGS "-stdlib=libc++")
endif (CXX_FLAG_STDLIB_LIBCXX)
endif (APPLE AND (_comp_id MATCHES "CLANG"))
# to format the command-line options pretty, we have an optional space
if (CXX_STD0X_FLAGS AND CXX_STDLIB_FLAGS)
set (CXX_SPACE " ")
else (CXX_STD0X_FLAGS AND CXX_STDLIB_FLAGS)
set (CXX_SPACE)
endif (CXX_STD0X_FLAGS AND CXX_STDLIB_FLAGS)
# perform tests
include(CheckCXXSourceCompiles)
# the "final" method specifier
CHECK_CXX_SOURCE_COMPILES("
struct Base {
virtual void foo() = 0;
};
struct Derived : public Base {
virtual void foo() final {};
};
int main()
{
return 0;
}
" HAVE_FINAL
)
# std::is_convertible, std::is_base_of
CHECK_CXX_SOURCE_COMPILES("
#include <type_traits>
class Base {};
class Derived : public Base {};
int main()
{
bool foo = std::is_convertible<int, double>::value;
bool bar = std::is_base_of<Base, Derived>::value;
bool foobar = std::is_integral<double>::value;
return 0;
}
" HAVE_TYPE_TRAITS
)
# nullptr
CHECK_CXX_SOURCE_COMPILES("
#include <memory>
int main(void)
{
std::shared_ptr<int> foo(new int(123));
return 0;
}
" HAVE_SHARED_PTR
)
# this is required by dune-common to avoid linker errors. "fun"!
if (HAVE_SHARED_PTR)
set(HAVE_MAKE_SHARED 1)
set(SHARED_PTR_HEADER "<memory>")
set(SHARED_PTR_NAMESPACE "std")
endif()
# nullptr
CHECK_CXX_SOURCE_COMPILES("
#include <memory>
int main(void)
{
std::unique_ptr<int> foo(new int(123));
return 0;
}
" HAVE_UNIQUE_PTR
)
# nullptr
CHECK_CXX_SOURCE_COMPILES("
int main(void)
{
char* ch = nullptr;
return 0;
}
" HAVE_NULLPTR
)
# <regex>
CHECK_CXX_SOURCE_RUNS("
#include <regex>
int main(void)
{
std::regex r(\"AB.*|BC+|DE.+\", std::regex::extended);
if (!std::regex_match(\"AB\", r))
return 1;
if (!std::regex_match(\"ABC\", r))
return 2;
if (!std::regex_match(\"ABC!#\", r))
return 3;
if (std::regex_match(\"B\", r))
return 4;
if (!std::regex_match(\"BC\", r))
return 5;
if (std::regex_match(\"BCE\", r))
return 6;
if (std::regex_match(\"DE\", r))
return 7;
if (!std::regex_match(\"DEF\", r))
return 8;
return 0;
}
" HAVE_REGEX
)
# constexpr
CHECK_CXX_SOURCE_COMPILES("
template <class T>
inline constexpr int foo(T bar) { return bar*2; }
int main(void)
{
constexpr int foobar = foo(100);
return 0;
}
" HAVE_CONSTEXPR
)
# array and fill
CHECK_CXX_SOURCE_COMPILES("
#include <array>
int main(void)
{
std::array<int,2> a;
a.fill(9);
return 0;
}
" HAVE_ARRAY
)
# Check whether if std::integral_constant< T, v > is supported and casts into T
CHECK_CXX_SOURCE_COMPILES("
#include <type_traits>
void f( int ){}
int main(void){
f( std::integral_constant< int, 42 >() );
}
" HAVE_INTEGRAL_CONSTANT
)
# Check whether if <tuple> is available
check_include_file_cxx("tuple" HAVE_TUPLE)
# Check whether if <tr1/tuple> is available
check_include_file_cxx("tr1/tuple" HAVE_TR1_TUPLE)
# __attribute__((always_inline))
CHECK_CXX_SOURCE_COMPILES("
void __attribute__((always_inline)) foo(void) {}
int main(void)
{
foo();
return 0;
};
" HAVE_ATTRIBUTE_ALWAYS_INLINE
)
# __attribute__((unused))
CHECK_CXX_SOURCE_COMPILES("
int main(void)
{
int __attribute__((unused)) foo;
return 0;
};
" HAS_ATTRIBUTE_UNUSED
)
# __attribute__((deprecated))
CHECK_CXX_SOURCE_COMPILES("
#define DEP __attribute__((deprecated))
class bar
{
bar() DEP;
};
class peng { } DEP;
template <class T>
class t_bar
{
t_bar() DEP;
};
template <class T>
class t_peng {
t_peng() {};
} DEP;
void foo() DEP;
void foo() {};
int main(void)
{
return 0;
};
" HAS_ATTRIBUTE_DEPRECATED
)
# __attribute__((deprecated("msg")))
CHECK_CXX_SOURCE_COMPILES("
#define DEP __attribute__((deprecated(\"message\")))
class bar {
bar() DEP;
};
class peng { } DEP;
template <class T>
class t_bar
{
t_bar() DEP;
};
template <class T>
class t_peng
{
t_peng() {};
} DEP;
void foo() DEP;
void foo() {};
int main(void)
{
return 0;
};
" HAS_ATTRIBUTE_DEPRECATED_MSG
)
# static assert
CHECK_CXX_SOURCE_COMPILES("
int main(void)
{
static_assert(true,\"MSG\");
return 0;
}
" HAVE_STATIC_ASSERT
)
# auto keyword
CHECK_CXX_SOURCE_COMPILES("
int main(void)
{
auto foo = 1.23;
return 0;
}
" HAVE_AUTO
)
# variadic template support
CHECK_CXX_SOURCE_COMPILES("
#include <cassert>
template<typename... T>
int addints(T... x);
int add_ints()
{
return 0;
}
template<typename T1, typename... T>
int add_ints(T1 t1, T... t)
{
return t1 + add_ints(t...);
}
int main(void)
{
assert( 5 == add_ints(9,3,-5,-2) );
return 0;
}
" HAVE_VARIADIC_TEMPLATES
)
# SFINAE on variadic template constructors within template classes
CHECK_CXX_SOURCE_COMPILES("
#include <functional>
template<typename... U>
struct A
{
template<typename... T,
typename = typename std::enable_if<(sizeof...(T) < 2)>::type
>
A(T... t)
: i(1)
{}
template<typename... T,
typename = typename std::enable_if<(sizeof...(T) >= 2)>::type,
typename = void
>
A(T... t)
: i(-1)
{}
A()
: i(1)
{}
int i;
};
int main(void)
{
return (A<int>().i + A<int>(2).i + A<int>(\"foo\",3.4).i + A<int>(8,'a',A<int>()).i == 0 ? 0 : 1);
}
" HAVE_VARIADIC_CONSTRUCTOR_SFINAE
)
# rvalue references
CHECK_CXX_SOURCE_COMPILES("
#include <cassert>
#include <utility>
int foo(int&& x) { return 1; }
int foo(const int& x) { return -1; }
template<typename T>
int forward(T&& x)
{
return foo(std::forward<T>(x));
}
int main(void)
{
int i = 0;
assert( forward(i) + forward(int(2)) == 0);
return 0;
}
" HAVE_RVALUE_REFERENCES
)
include(CheckIncludeFile)
include(CheckIncludeFileCXX)
# Search for some tr1 headers
foreach(_HEADER tuple tr1/tuple type_traits tr1/type_traits)
string(REPLACE "/" "_" _HEADER_VAR ${_HEADER})
string(TOUPPER ${_HEADER_VAR} _HEADER_VAR )
check_include_file_cxx(${_HEADER} "HAVE_${_HEADER_VAR}")
endforeach(_HEADER tuple tr1/tuple tr1/type_traits)
# make sure that the C++-11 features implemented by the compiler are a
# superset of those provided by GCC 4.4. This makes the test fail on
# all GCC compilers before 4.4.
set(CXX_FEATURES_MISSING "")
if (NOT HAVE_TYPE_TRAITS)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Sufficiently conformant type traits (defined by the 'type_traits' header file)\n")
endif()
if (NOT HAVE_SHARED_PTR)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Shared pointers (the std::shared_ptr class)\n")
endif()
if (NOT HAVE_UNIQUE_PTR)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Unique pointers (the std::unique_ptr class)\n")
endif()
if (NOT HAVE_ARRAY)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Statically sized arrays (the std::array class)\n")
endif()
if (NOT HAVE_STATIC_ASSERT)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Static assertations (the static_assert() mechanism)\n")
endif()
if (NOT HAVE_AUTO)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Automatically typed variables (the 'auto' keyword)\n")
endif()
if (NOT HAVE_VARIADIC_TEMPLATES)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Variable number of template arguments\n")
endif()
if (NOT HAVE_VARIADIC_CONSTRUCTOR_SFINAE)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Constructors with variable number of template arguments obeying the SFINAE (specialization failure is not an error) rule\n")
endif()
if (NOT HAVE_RVALUE_REFERENCES)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - References to rvalue objects\n")
endif()
if (NOT HAVE_TUPLE)
set(CXX_FEATURES_MISSING
"${CXX_FEATURES_MISSING} - Tuples (the std::tuple class)\n")
endif()
if(CXX_FEATURES_MISSING)
set (CXX11FEATURES_FOUND FALSE)
if (CXX11Features_FIND_REQUIRED)
message(FATAL_ERROR
"Your C++ compiler does not support the minimum set of C++-2011 features required. "
"Make sure to use a compiler which implements all C++-2011 features provided by GCC 4.4. "
"Your compiler does not seem to implement the following features:\n"
"${CXX_FEATURES_MISSING}")
endif()
else ()
set (CXX11FEATURES_FOUND TRUE)
endif()

11
cmake/Modules/FindClangCheck.cmake
View File

@ -1,11 +0,0 @@
# Find clang-check.
#
# This module defines:
# CLANGCHECK_PROGRAM, the clang-check executable.
# CLANGHCECK_FOUND, If false, do not try to use cppcheck.
#
find_program(CLANGCHECK_PROGRAM NAMES clang-check clang-check-3.8)
find_package_handle_standard_args(ClangCheck DEFAULT_MSG CLANGCHECK_PROGRAM)
mark_as_advanced(CLANGCHECK_PROGRAM)

11
cmake/Modules/FindCppCheck.cmake
View File

@ -1,11 +0,0 @@
# Find CppCheck.
#
# This module defines:
# CPPCHECK_PROGRAM, the cppcheck executable.
# CPPCHECK_FOUND, If false, do not try to use cppcheck.
#
find_program(CPPCHECK_PROGRAM NAMES cppcheck)
find_package_handle_standard_args(CppCheck DEFAULT_MSG CPPCHECK_PROGRAM)
mark_as_advanced(CPPCHECK_PROGRAM)

268
cmake/Modules/FindERT.cmake Normal file
View File

@ -0,0 +1,268 @@
# - Find the Ensemble-based Reservoir Tool (ERT)
#
# Set the cache variable ERT_ROOT to the install location of the ERT
# libraries and header files.
#
# If found, it sets these variables:
#
# ERT_INCLUDE_DIRS Header file directories
# ERT_LIBRARIES Archives and shared objects
# ERT_CONFIG_VARS Definitions that goes in config.h
# ERT_LINKER_FLAGS Options that must be passed to linker
#
# It will also add to CMAKE_C_FLAGS and CMAKE_CXX_FLAGS if necessary to
# link with the ERT libraries.
# variables to pass on to other packages
if (FIND_QUIETLY)
set (ERT_QUIET "QUIET")
else (FIND_QUIETLY)
set (ERT_QUIET "")
endif (FIND_QUIETLY)
# if a directory has been specified by the user, then don't go look
# in the system directories as well
if (ERT_ROOT)
set (_no_default_path "NO_DEFAULT_PATH")
else (ERT_ROOT)
set (_no_default_path "")
endif (ERT_ROOT)
# ERT doesn't have any config-mode file, so we need to specify the root
# directory in its own variable
find_path (ERT_ECL_INCLUDE_DIR
NAMES "ert/ecl/ecl_util.h"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_SOURCE_DIR}/../ert"
PATH_SUFFIXES "devel/libecl/include/" "include"
DOC "Path to ERT Eclipse library header files"
${_no_default_path}
)
find_path (ERT_ECL_WELL_INCLUDE_DIR
NAMES "ert/ecl_well/well_const.h"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_SOURCE_DIR}/../ert"
PATH_SUFFIXES "devel/libecl_well/include/" "include"
DOC "Path to ERT Eclipse library header files"
${_no_default_path}
)
find_path (ERT_ECLXX_INCLUDE_DIR
NAMES "ert/ecl/EclKW.hpp"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_SOURCE_DIR}/../ert"
PATH_SUFFIXES "devel/libeclxx/include/" "include"
DOC "Path to ERT Eclipse C++ library header files"
${_no_default_path}
)
find_path (ERT_UTIL_INCLUDE_DIR
NAMES "ert/util/stringlist.h"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_SOURCE_DIR}/../ert"
PATH_SUFFIXES "devel/libert_util/include/" "include"
DOC "Path to ERT Eclipse library header files"
${_no_default_path}
)
find_path (ERT_UTILXX_INCLUDE_DIR
NAMES "ert/util/ert_unique_ptr.hpp"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_SOURCE_DIR}/../ert"
PATH_SUFFIXES "devel/libert_utilxx/include/" "include"
DOC "Path to ERT Eclipse C++ library header files"
${_no_default_path}
)
find_path (ERT_GEN_INCLUDE_DIR
NAMES "ert/util/int_vector.h"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_SOURCE_DIR}/../ert"
PATH_SUFFIXES "devel/libert_util/include"
"include" "build/libert_util/include"
DOC "Path to ERT generated library header files"
${_no_default_path}
)
# need all of these libraries
if (CMAKE_SIZEOF_VOID_P)
math (EXPR _BITS "8 * ${CMAKE_SIZEOF_VOID_P}")
endif (CMAKE_SIZEOF_VOID_P)
find_library (ERT_LIBRARY_ECL
NAMES "ecl"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_BINARY_DIR}/../ert"
"${PROJECT_SOURCE_DIR}/../ert/build"
"${PROJECT_SOURCE_DIR}/../ert/devel/build"
"${PROJECT_BINARY_DIR}/../ert-build"
"${PROJECT_BINARY_DIR}/../ert/devel"
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
DOC "Path to ERT Eclipse library archive/shared object files"
${_no_default_path}
)
find_library (ERT_LIBRARY_ECLXX
NAMES "eclxx"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_BINARY_DIR}/../ert"
"${PROJECT_SOURCE_DIR}/../ert/build"
"${PROJECT_SOURCE_DIR}/../ert/devel/build"
"${PROJECT_BINARY_DIR}/../ert-build"
"${PROJECT_BINARY_DIR}/../ert/devel"
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
DOC "Path to ERT Eclipse C++ library archive/shared object files"
${_no_default_path}
)
find_library (ERT_LIBRARY_ECL_WELL
NAMES "ecl_well"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_BINARY_DIR}/../ert"
"${PROJECT_SOURCE_DIR}/../ert/build"
"${PROJECT_SOURCE_DIR}/../ert/devel/build"
"${PROJECT_BINARY_DIR}/../ert-build"
"${PROJECT_BINARY_DIR}/../ert/devel"
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
DOC "Path to ERT Eclipse library archive/shared object files"
${_no_default_path}
)
find_library (ERT_LIBRARY_GEOMETRY
NAMES "ert_geometry"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_BINARY_DIR}/../ert"
"${PROJECT_SOURCE_DIR}/../ert/build"
"${PROJECT_SOURCE_DIR}/../ert/devel/build"
"${PROJECT_BINARY_DIR}/../ert-build"
"${PROJECT_BINARY_DIR}/../ert/devel"
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
DOC "Path to ERT Geometry library archive/shared object files"
${_no_default_path}
)
find_library (ERT_LIBRARY_UTIL
NAMES "ert_util"
HINTS "${ERT_ROOT}"
PATHS "${PROJECT_BINARY_DIR}/../ert"
"${PROJECT_SOURCE_DIR}/../ert/build"
"${PROJECT_SOURCE_DIR}/../ert/devel/build"
"${PROJECT_BINARY_DIR}/../ert-build"
"${PROJECT_BINARY_DIR}/../ert/devel"
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
DOC "Path to ERT Utilities library archive/shared object files"
${_no_default_path}
)
# the "library" found here is actually a list of several files
list (APPEND ERT_INCLUDE_DIR
${ERT_ECL_INCLUDE_DIR}
${ERT_ECL_WELL_INCLUDE_DIR}
${ERT_ECLXX_INCLUDE_DIR}
${ERT_UTIL_INCLUDE_DIR}
${ERT_UTILXX_INCLUDE_DIR}
${ERT_GEN_INCLUDE_DIR}
)
list (APPEND ERT_LIBRARY
${ERT_LIBRARY_ECL}
${ERT_LIBRARY_ECLXX}
${ERT_LIBRARY_ECL_WELL}
${ERT_LIBRARY_GEOMETRY}
${ERT_LIBRARY_UTIL}
)
list (APPEND ERT_LIBRARIES ${ERT_LIBRARY})
list (APPEND ERT_INCLUDE_DIRS ${ERT_INCLUDE_DIR})
# if we didn't find any files, then don't proceed through the entire dependency list
include (FindPackageHandleStandardArgs)
if (ERT_INCLUDE_DIR MATCHES "-NOTFOUND" OR ERT_LIBRARIES MATCHES "-NOTFOUND")
find_package_handle_standard_args (ERT
DEFAULT_MSG
ERT_INCLUDE_DIR ERT_LIBRARY
)
# clear the cache so the find probe is attempted again if files becomes
# available (only upon a unsuccessful *compile* should we disable further
# probing)
set (HAVE_ERT)
unset (HAVE_ERT CACHE)
return ()
endif (ERT_INCLUDE_DIR MATCHES "-NOTFOUND" OR ERT_LIBRARIES MATCHES "-NOTFOUND")
# dependencies
# parallel programming
include (UseOpenMP)
find_openmp (ERT)
# compression library
find_package (ZLIB ${ERT_QUIET})
if (ZLIB_FOUND)
list (APPEND ERT_INCLUDE_DIRS ${ZLIB_INCLUDE_DIRS})
list (APPEND ERT_LIBRARIES ${ZLIB_LIBRARIES})
endif (ZLIB_FOUND)
# numerics
find_package (BLAS ${ERT_QUIET})
if (BLAS_FOUND)
list (APPEND ERT_INCLUDE_DIRS ${BLAS_INCLUDE_DIRS})
list (APPEND ERT_LIBRARIES ${BLAS_LIBRARIES})
list (APPEND ERT_LINKER_FLAGS ${BLAS_LINKER_FLAGS})
endif (BLAS_FOUND)
find_package (LAPACK ${ERT_QUIET})
if (LAPACK_FOUND)
list (APPEND ERT_INCLUDE_DIRS ${LAPACK_INCLUDE_DIRS})
list (APPEND ERT_LIBRARIES ${LAPACK_LIBRARIES})
list (APPEND ERT_LINKER_FLAGS ${LAPACK_LINKER_FLAGS})
endif (LAPACK_FOUND)
# math library (should exist on all unices; automatically linked on Windows)
if (UNIX)
find_library (MATH_LIBRARY
NAMES "m"
)
list (APPEND ERT_LIBRARIES ${MATH_LIBRARY})
endif (UNIX)
# if shared libraries are disabled on linux, explcitly linking to the
# pthreads library is required by ERT
find_package(Threads ${ERT_QUIET})
if (CMAKE_THREAD_LIBS_INIT)
list (APPEND ERT_LIBRARIES ${CMAKE_THREAD_LIBS_INIT})
endif()
# Platform specific library where dlopen with friends lives
list (APPEND ERT_LIBRARIES ${CMAKE_DL_LIBS})
# since OpenMP often implies pthreads, we need to tidy up
# (last instance of library must be left standing, thus reversing that
# list before removing duplicates)
include (Duplicates)
remove_dup_deps (ERT)
# see if we can compile a minimum example
# CMake logical test doesn't handle lists (sic)
if (NOT (ERT_INCLUDE_DIR MATCHES "-NOTFOUND" OR ERT_LIBRARIES MATCHES "-NOTFOUND"))
include (CMakePushCheckState)
include (CheckCSourceCompiles)
cmake_push_check_state ()
set (CMAKE_REQUIRED_INCLUDES ${ERT_INCLUDE_DIR})
set (CMAKE_REQUIRED_LIBRARIES ${ERT_LIBRARIES})
check_cxx_source_compiles (
"#include <ert/ecl/EclKW.hpp>
int main ( ) {
ERT::EclKW<int> kw(\"SATNUM\" , 1000);
kw[0] = 10;
return 0;
}" HAVE_ERT)
cmake_pop_check_state ()
else (NOT (ERT_INCLUDE_DIR MATCHES "-NOTFOUND" OR ERT_LIBRARIES MATCHES "-NOTFOUND"))
# clear the cache so the find probe is attempted again if files becomes
# available (only upon a unsuccessful *compile* should we disable further
# probing)
set (HAVE_ERT)
unset (HAVE_ERT CACHE)
endif (NOT (ERT_INCLUDE_DIR MATCHES "-NOTFOUND" OR ERT_LIBRARIES MATCHES "-NOTFOUND"))
# if the test program didn't compile, but was required to do so, bail
# out now and display an error; otherwise limp on
find_package_handle_standard_args (ERT
DEFAULT_MSG
ERT_INCLUDE_DIR ERT_LIBRARY HAVE_ERT
)

55
cmake/Modules/FindERTPython.cmake Normal file
View File

@ -0,0 +1,55 @@
# - Find the Python wrappers for Ensemble-based Reservoir Tool (ERT)
#
# Set the cache variable ERT_PYTHON_PATH to the install location of
# the root ert package.
find_package(PythonInterp)
if(PYTHONINTERP_FOUND)
# We try to find the ert Python distribution. This is done by running
# Python code which tries to 'import ert' and prints out the path to
# the module if the import succeeds.
#
# The normal Python import machinery is employed, so if you have
# installed ert python in a default location, or alternatively set the
# PYTHONPATH variable the ert Python distribution will eventually be
# found there, independently of the alternatives which are tested with
# the ${PATH_LIST} variable.
if (EXISTS "/etc/debian_version")
set( PYTHON_PACKAGE_PATH "dist-packages")
else()
set( PYTHON_PACKAGE_PATH "site-packages")
endif()
set(PYTHON_INSTALL_PREFIX "lib/python${PYTHON_VERSION_MAJOR}.${PYTHON_VERSION_MINOR}/${PYTHON_PACKAGE_PATH}" CACHE STRING "Subdirectory to install Python modules in")
if (ERT_ROOT)
set( start_path "${ERT_ROOT}/${PYTHON_INSTALL_PREFIX}" )
else()
set( start_path "DEFAULT_PATH")
endif()
set( PATH_LIST "${start_path}"
"${PROJECT_SOURCE_DIR}/../ert/build/${PYTHON_INSTALL_PREFIX}"
"${PROJECT_SOURCE_DIR}/../ert/devel/build/${PYTHON_INSTALL_PREFIX}"
"${PROJECT_BINARY_DIR}/../ert-build/${PYTHON_INSTALL_PREFIX}"
"${PROJECT_BINARY_DIR}/../ert/devel/${PYTHON_INSTALL_PREFIX}")
foreach( PATH ${PATH_LIST})
set( python_code "import sys; sys.path.insert(0 , '${PATH}'); import os.path; import inspect; import ert; print os.path.dirname(os.path.dirname(inspect.getfile(ert)))")
execute_process( COMMAND ${PYTHON_EXECUTABLE} -c "${python_code}"
RESULT_VARIABLE import_result
OUTPUT_VARIABLE stdout_output
ERROR_VARIABLE stderr_output
OUTPUT_STRIP_TRAILING_WHITESPACE )
if (${import_result} EQUAL 0)
set( ERT_PYTHON_PATH ${stdout_output} CACHE PATH "Python path for ERT Python" )
break()
endif()
endforeach()
endif()
find_package_handle_standard_args("ERTPython" DEFAULT_MSG ERT_PYTHON_PATH)

31
cmake/Modules/FindGMP.cmake
View File

@ -1,31 +0,0 @@
# - Find the GNU Multiprecision library.
#
# Will define the following imported target for usage:
# - GMP::gmp Target for linking/compiling with C library
# - GMP::gmpxx Target for linking/compiling with C++ library
find_path(GMP_INCLUDE_DIR gmp.h)
find_library(GMP_LIBRARY gmp)
find_path(GMPXX_INCLUDE_DIR gmpxx.h)
find_library(GMPXX_LIBRARY gmpxx)
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(GMP
DEFAULT_MSG
GMPXX_LIBRARY GMPXX_INCLUDE_DIR GMP_INCLUDE_DIR GMP_LIBRARY)
if(GMP_FOUND)
if(NOT TARGET GMP::gmp)
add_library(GMP::gmp UNKNOWN IMPORTED GLOBAL)
set_target_properties(GMP::gmp PROPERTIES
IMPORTED_LOCATION ${GMP_LIBRARY}
INTERFACE_INCLUDE_DIRECTORIES ${GMP_INCLUDE_DIR})
endif()
if(NOT TARGET GMP::gmpxx)
add_library(GMP::gmpxx UNKNOWN IMPORTED GLOBAL)
set_target_properties(GMP::gmpxx PROPERTIES
IMPORTED_LOCATION ${GMPXX_LIBRARY}
INTERFACE_INCLUDE_DIRECTORIES ${GMPXX_INCLUDE_DIR}
TARGET_LINK_LIBRARIES GMP::gmp)
endif()
endif()

24
cmake/Modules/FindMETIS.cmake
View File

@ -8,11 +8,7 @@
# HAVE_METIS - like METIS_FOUND, but for the inclusion in config.h
# METIS_INCLUDE_DIRS - incude paths to use libMETIS
# METIS_LIBRARIES - Link these to use libMETIS
# METIS::METIS - Imported metis target needed for DUNE 2.8.0
# METIS_API_VERSION - The METIS api version scotch is supporting.
set(METIS_API_VERSION 0 CACHE STRING
"METIS API version provided by METIS or scotch-metis library")
set(METIS_SEARCH_PATH "/usr" "/usr/local" "/opt" "/opt/local")
set(METIS_NO_DEFAULT_PATH "")
if(METIS_ROOT)
@ -39,29 +35,9 @@ find_library(METIS_LIBRARIES
${METIS_NO_DEFAULT_PATH})
set (METIS_FOUND FALSE)
if (METIS_INCLUDE_DIRS OR METIS_LIBRARIES)
set(METIS_FOUND TRUE)
set(HAVE_METIS TRUE)
file(READ "${METIS_INCLUDE_DIRS}/metis.h" metisheader)
string(REGEX MATCH "#define METIS_VER_MAJOR[ ]+([0-9]+)" METIS_MAJOR_VERSION ${metisheader})
if(NOT METIS_API_VERSION AND METIS_MAJOR_VERSION)
string(REGEX REPLACE ".*#define METIS_VER_MAJOR[ ]+([0-9]+).*" "\\1"
METIS_MAJOR_VERSION "${metisheader}")
if(METIS_MAJOR_VERSION GREATER_EQUAL 3 AND METIS_MAJOR_VERSION LESS 5)
set(METIS_API_VERSION "3")
else()
set(METIS_API_VERSION "${METIS_MAJOR_VERSION}")
endif()
endif()
if (NOT TARGET METIS::METIS)
add_library(METIS::METIS UNKNOWN IMPORTED)
set_target_properties(METIS::METIS PROPERTIES
IMPORTED_LOCATION ${METIS_LIBRARIES}
INTERFACE_INCLUDE_DIRECTORIES ${METIS_INCLUDE_DIRS}
INTERFACE_COMPILE_DEFINITIONS METIS_API_VERSION=${METIS_API_VERSION})
endif()
endif()
# print a message to indicate status of this package

48
cmake/Modules/FindPETSc.cmake
View File

@ -16,11 +16,6 @@
# find out the size of a pointer. this is required to only search for
# libraries in the directories relevant for the architecture
if(NOT USE_PETSC)
return()
endif()
if (CMAKE_SIZEOF_VOID_P)
math (EXPR _BITS "8 * ${CMAKE_SIZEOF_VOID_P}")
endif (CMAKE_SIZEOF_VOID_P)
@ -112,35 +107,22 @@ if (Petsc_ROOT)
set (PETSC_ROOT "${Petsc_ROOT}")
endif (Petsc_ROOT)
find_package(PkgConfig)
if(PKG_CONFIG_FOUND)
set(OLD_PKG $ENV{PKG_CONFIG_PATH})
set(ENV{PKG_CONFIG_PATH} $ENV{PETSC_DIR}/$ENV{PETSC_ARCH}/lib/pkgconfig)
pkg_check_modules(PETSC PETSc>=3.4.0)
set(ENV{PKG_CONFIG_PATH} ${OLD_PKG})
set(PETSC_LIBRARIES ${PETSC_STATIC_LDFLAGS})
set(PETSC_LIBRARY ${PETSC_LIBRARIES})
set(PETSC_INCLUDE_DIR ${PETSC_INCLUDE_DIRS})
endif()
find_path (PETSC_NORMAL_INCLUDE_DIR
NAMES "petsc.h"
PATHS ${PETSC_ROOT}
PATH_SUFFIXES "include" "petsc"
${_no_default_path}
)
if(NOT PETSC_FOUND)
find_path (PETSC_NORMAL_INCLUDE_DIR
NAMES "petsc.h"
PATHS ${PETSC_ROOT}
PATH_SUFFIXES "include" "petsc"
${_no_default_path}
)
list(APPEND PETSC_INCLUDE_DIR ${PETSC_NORMAL_INCLUDE_DIR})
list(APPEND PETSC_INCLUDE_DIR ${PETSC_NORMAL_INCLUDE_DIR})
# look for actual Petsc library
find_library(PETSC_LIBRARY
NAMES "petsc-3.4.3" "petsc-3.4.4" "petsc"
PATHS ${PETSC_ROOT}
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
${_no_default_path}
)
endif()
# look for actual Petsc library
find_library(PETSC_LIBRARY
NAMES "petsc-3.4.3" "petsc-3.4.4" "petsc"
PATHS ${PETSC_ROOT}
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
${_no_default_path}
)
if(NOT PETSC_LIBRARY)
message(STATUS "Could not find the PETSc library")
@ -154,7 +136,7 @@ mark_as_advanced(PETSC_INCLUDE_DIR PETSC_LIBRARY)
# if both headers and library are found, store results
if(PETSC_FOUND)
set(PETSC_INCLUDE_DIRS ${PETSC_INCLUDE_DIR})
set(PETSC_INCLUDE_DIRS ${PETSC_INCLUDE_DIR})
list(APPEND PETSC_INCLUDE_DIRS ${PETSC_MPI_INCLUDE_DIRS})
set(PETSC_LIBRARIES ${PETSC_LIBRARY})

14
cmake/Modules/FindPTScotch.cmake
View File

@ -70,20 +70,6 @@ if(PTSCOTCH_FOUND)
set(PTSCOCH_LINK_FLAGS "${DUNE_MPI_LINK_FLAGS}"
CACHE STRING "PT-Scotch link flags")
set(HAVE_PTSCOTCH 1)
if(NOT TARGET PTScotch::Scotch)
add_library(PTScotch::Scotch UNKNOWN IMPORTED GLOBAL)
set_target_properties(PTScotch::Scotch PROPERTIES
IMPORTED_LOCATION "${SCOTCH_LIBRARY}"
INCLUDE_DIRECTORIES "${PTSCOTCH_INCLUDE_DIRS}"
INTERFACE_LINK_LIBRARIES "${PTSCOTCHERR_LIBRARY}")
endif()
if(NOT TARGET PTScotch::PTScotch)
add_library(PTScotch::PTScotch UNKNOWN IMPORTED GLOBAL)
set_target_properties(PTScotch::PTScotch PROPERTIES
IMPORTED_LOCATION "${PTSCOTCH_LIBRARY}"
INCLUDE_DIRECTORIES "${PTSCOTCH_INCLUDE_DIRS}"
INTERFACE_LINK_LIBRARIES "PTScotch::Scotch;${MPI_DUNE_LIBRARIES}")
endif()
# log result
file(APPEND ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/CMakeOutput.log
"Determing location of PT-Scotch succeded:\n"

23
cmake/Modules/FindParMETIS.cmake
View File

@ -58,21 +58,7 @@ if(PARMETIS_INCLUDE_DIR)
endif()
set(CMAKE_REQUIRED_FLAGS "${CMAKE_REQUIRED_FLAGS} ${MPI_C_COMPILE_FLAGS}")
include(CheckIncludeFile)
check_include_file(parmetis.h PARMETIS_FOUND)
if(NOT PARMETIS_FOUND)
# If we are using the ParMETIS bindings of PTScotch, we need
# to use the scotch include path as partmetis.h includes scotch.h
find_package(PTScotch)
set(CMAKE_REQUIRED_INCLUDES ${CMAKE_REQUIRED_INCLUDES} ${PTSCOTCH_INCLUDE_DIR})
unset(PARMETIS_FOUND CACHE) # force recheck of include file
check_include_file(parmetis.h PARMETIS_FOUND)
if(PARMETIS_FOUND)
set(PARMETIS_SCOTCH_INCLUDE_DIRS ${PTSCOTCH_INCLUDE_DIRS})
endif()
endif()
_search_parmetis_lib(PARMETIS_LIBRARY parmetis "The main ParMETIS library.")
# behave like a CMake module is supposed to behave
@ -90,7 +76,7 @@ find_package_handle_standard_args(
cmake_pop_check_state()
if(PARMETIS_FOUND)
set(PARMETIS_INCLUDE_DIRS ${PARMETIS_INCLUDE_DIR} ${PARMETIS_SCOTCH_INCLUDE_DIRS})
set(PARMETIS_INCLUDE_DIRS ${PARMETIS_INCLUDE_DIR})
set(PARMETIS_LIBRARIES ${PARMETIS_LIBRARY} ${METIS_LIBRARIES} ${MPI_C_LIBRARIES}
CACHE FILEPATH "All libraries needed to link programs using ParMETIS")
set(PARMETIS_LINK_FLAGS "${DUNE_C_LINK_FLAGS}"
@ -102,13 +88,6 @@ if(PARMETIS_FOUND)
"Include directory: ${PARMETIS_INCLUDE_DIRS}\n"
"Library directory: ${PARMETIS_LIBRARIES}\n\n")
if(NOT TARGET ParMETIS::ParMETIS)
add_library(ParMETIS::ParMETIS UNKNOWN IMPORTED GLOBAL)
set_target_properties(ParMETIS::ParMETIS PROPERTIES
IMPORTED_LOCATION ${PARMETIS_LIBRARY}
INCLUDE_DIRECTORIES "${PARMETIS_INCLUDE_DIRS}"
INTERFACE_LINK_LIBRARIES "${METIS_LIBRARIES};${MPI_C_LIBRARIES}")
endif()
endif(PARMETIS_FOUND)
mark_as_advanced(PARMETIS_INCLUDE_DIRS PARMETIS_LIBRARIES HAVE_PARMETIS)

49
cmake/Modules/FindQuadMath.cmake
View File

@ -1,49 +0,0 @@
# Module that checks whether the compiler supports the
# quadruple precision floating point math
#
# Adds target QuadMath::QuadMath if found
#
# perform tests
include(CheckCXXSourceCompiles)
include(CMakePushCheckState)
cmake_push_check_state()
set(CMAKE_REQUIRED_LIBRARIES quadmath)
if(${CMAKE_CXX_COMPILER_ID} STREQUAL GNU)
set(CMAKE_REQUIRED_FLAGS "-fext-numeric-literals")
endif()
check_cxx_source_compiles("
#include <quadmath.h>
int main ()
{
__float128 r = 1.0q;
r = strtoflt128(\"1.2345678\", NULL);
return 0;
}" QuadMath_COMPILES)
cmake_pop_check_state() # Reset CMAKE_REQUIRED_XXX variables
if(QuadMath_COMPILES)
# Use additional variable for better report message
set(QuadMath_VAR "(Supported by compiler)")
endif()
# Report that package was found
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(QuadMath
DEFAULT_MSG
QuadMath_VAR QuadMath_COMPILES
)
# add imported target for quadmath
if(QuadMath_FOUND AND NOT TARGET QuadMath::QuadMath)
# Compiler supports QuadMath: Add appropriate linker flag
add_library(QuadMath::QuadMath INTERFACE IMPORTED)
target_link_libraries(QuadMath::QuadMath INTERFACE quadmath)
target_compile_definitions(QuadMath::QuadMath INTERFACE
_GLIBCXX_USE_FLOAT128 HAVE_QUAD=1
)
target_compile_options(QuadMath::QuadMath INTERFACE
$<$<CXX_COMPILER_ID:GNU>:-fext-numeric-literals>
)
endif()

49
cmake/Modules/FindQuadmath.cmake Normal file
View File

@ -0,0 +1,49 @@
# Module that checks whether the compiler supports the
# quadruple precision floating point math
#
# Sets the following variables:
# HAVE_QUAD
# QUADMATH_LIBRARIES
#
# perform tests
include(CheckCSourceCompiles)
include(CheckCXXSourceCompiles)
include(CMakePushCheckState)
include(CheckCXXCompilerFlag)
if(NOT DEFINED USE_QUADMATH OR USE_QUADMATH)
if(NOT DEFINED HAVE_EXTENDED_NUMERIC_LITERALS)
check_cxx_compiler_flag("-Werror -fext-numeric-literals" HAVE_EXTENDED_NUMERIC_LITERALS)
endif()
if (HAVE_EXTENDED_NUMERIC_LITERALS)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fext-numeric-literals")
endif()
cmake_push_check_state(RESET)
list(APPEND CMAKE_REQUIRED_LIBRARIES "quadmath")
CHECK_CXX_SOURCE_COMPILES("
#include <quadmath.h>
int main(void){
__float128 foo = sqrtq(123.456);
foo = FLT128_MIN;
}" QUADMATH_FOUND)
cmake_pop_check_state()
if (QUADMATH_FOUND)
set(QUADMATH_LIBRARIES "quadmath")
set(HAVE_QUAD "${QUADMATH_FOUND}")
endif()
endif()
if (USE_QUADMATH AND NOT QUADMATH_FOUND)
message(FATAL_ERROR "Quadruple precision math support was explicitly requested but is unavailable!")
endif()
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(QuadMath
DEFAULT_MSG
QUADMATH_LIBRARIES
HAVE_QUAD
)

30
cmake/Modules/FindSuiteSparse.cmake
View File

@ -259,9 +259,9 @@ foreach (module IN LISTS SuiteSparse_FIND_COMPONENTS)
set (SuiteSparse_FOUND FALSE)
# use empty string instead of zero, so it can be tested with #ifdef
# as well as #if in the source code
set (HAVE_SUITESPARSE_${MODULE}_H "" CACHE STRING "Is ${module} header present?")
set (HAVE_SUITESPARSE_${MODULE}_H "" CACHE INT "Is ${module} header present?")
else (NOT SuiteSparse_${MODULE}_FOUND)
set (HAVE_SUITESPARSE_${MODULE}_H 1 CACHE STRING "Is ${module} header present?")
set (HAVE_SUITESPARSE_${MODULE}_H 1 CACHE INT "Is ${module} header present?")
list (APPEND SuiteSparse_LIBRARIES "${${MODULE}_LIBRARIES}")
list (APPEND SuiteSparse_LINKER_FLAGS "${${MODULE}_LINKER_FLAGS}")
list (APPEND SuiteSparse_INCLUDE_DIRS "${${MODULE}_INCLUDE_DIRS}")
@ -280,32 +280,6 @@ if (SuiteSparse_LIBRARIES)
list (REVERSE SuiteSparse_LIBRARIES)
endif (SuiteSparse_LIBRARIES)
if(SuiteSparse_FOUND)
if(NOT TARGET SuiteSparse::SuiteSparse)
add_library(SuiteSparse::SuiteSparse INTERFACE IMPORTED GLOBAL)
set_property(TARGET SuiteSparse::SuiteSparse PROPERTY
INTERFACE_INCLUDE_DIRECTORIES ${SuiteSparse_INCLUDE_DIRS})
if(config_LIBRARY)
set_property(TARGET SuiteSparse::SuiteSparse PROPERTY
INTERFACE_LINK_LIBRARIES ${config_LIBRARY})
endif()
endif()
foreach(_module ${SuiteSparse_MODULES})
string (TOUPPER ${_module} _MODULE)
if(SuiteSparse_${_MODULE}_FOUND)
if(NOT TARGET SuiteSparse::${_module})
message(STATUS "Creating target SuiteSparse::${_module}")
add_library(SuiteSparse::${_module} UNKNOWN IMPORTED GLOBAL)
set_target_properties(SuiteSparse::${_module} PROPERTIES
IMPORTED_LOCATION ${${_MODULE}_LIBRARY}
INCLUDE_DIRECTORIES ${${_MODULE}_INCLUDE_DIRS}
INTERFACE_LINK_LIBRARIES "${config_LIBRARY}")
target_link_libraries(SuiteSparse::SuiteSparse
INTERFACE SuiteSparse::${_module})
endif()
endif()
endforeach(_module)
endif()
# print a message to indicate status of this package
include (FindPackageHandleStandardArgs)
find_package_handle_standard_args (SuiteSparse

48
cmake/Modules/FindSuperLU.cmake
View File

@ -15,18 +15,12 @@
# SUPERLU_LIBRARIES Name to the SuperLU library.
#
if(NOT USE_SUPERLU)
return()
endif()
include(CheckIncludeFiles)
include(CMakePushCheckState)
include(CheckCSourceCompiles)
cmake_push_check_state()
set(SUPERLU_FOUND "FALSE")
# find out the size of a pointer. this is required to only search for
# libraries in the directories relevant for the architecture
if (CMAKE_SIZEOF_VOID_P)
@ -122,19 +116,6 @@ int main(void)
return 0;
}"
SUPERLU_POST_2005_VERSION)
# check whether version is at least 5.0
CHECK_C_SOURCE_COMPILES("
typedef int int_t;
#include <supermatrix.h>
#include <slu_util.h>
int main(void)
{
GlobalLU_t glu;
return 0;
}"
SUPERLU_MIN_VERSION_5)
cmake_pop_check_state()
if(SUPERLU_MIN_VERSION_4_3)
@ -145,17 +126,6 @@ else()
"Human readable string containing SuperLU version information.")
endif()
if(SUPERLU_MIN_VERSION_5)
include(UseDuneVer)
find_dune_version("dune" "istl")
set(DUNE_ISTL_VERSION ${DUNE_ISTL_VERSION_MAJOR}.${DUNE_ISTL_VERSION_MINOR}.${DUNE_ISTL_VERSION_REVISION})
if(DUNE_ISTL_VERSION VERSION_LESS 2.5)
message(STATUS "SuperLU requested, but version found not compatible with dune-istl ${DUNE_ISTL_VERSION}")
set(SUPERLU_LIBRARY "")
set(SUPERLU_INCLUDE_DIR "")
endif()
endif()
# behave like a CMake module is supposed to behave
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(
@ -170,26 +140,10 @@ mark_as_advanced(SUPERLU_INCLUDE_DIR SUPERLU_LIBRARY)
if(SUPERLU_FOUND)
set(SUPERLU_INCLUDE_DIRS ${SUPERLU_INCLUDE_DIR})
set(SUPERLU_LIBRARIES ${SUPERLU_LIBRARY})
set(SUPERLU_INT_TYPE int)
if(SUPERLU_MIN_VERSION_4_3)
set(HAVE_SLU_DDEFS_H 1)
check_include_files(slu_sdefs.h HAVE_SLU_SDEFS_H)
check_include_files(slu_cdefs.h HAVE_SLU_CDEFS_H)
check_include_files(slu_zdefs.h HAVE_SLU_ZDEFS_H)
endif()
if (SUPERLU_BLAS_LIBRARY)
list(APPEND SUPERLU_LIBRARIES ${SUPERLU_BLAS_LIBRARY})
endif()
if(NOT TARGET SuperLU::SuperLU)
add_library(SuperLU::SuperLU UNKNOWN IMPORTED GLOBAL)
set_target_properties(SuperLU::SuperLU PROPERTIES
IMPORTED_LOCATION ${SUPERLU_LIBRARY}
INCLUDE_DIRECTORIES ${SUPERLU_INCLUDE_DIRS})
if(SUPERLU_BLAS_LIBRARY)
set_property(TARGET SuperLU::SuperLU PROPERTY
INTERFACE_LINK_LIBRARIES ${SUPERLU_BLAS_LIBRARY})
endif()
endif()
endif()
cmake_pop_check_state()

34
cmake/Modules/FindTBB.cmake
View File

@ -1,34 +0,0 @@
# Poor man's FindTBB that will create the CMake targets
# used by DUNE.
# If the TBB version is new enough it will ship its own
# TBBConfig.cmake and we are good
find_package(TBB QUIET CONFIG)
if(NOT TBB_FOUND)
# Fall back to using pkgconfig
find_package(PkgConfig QUIET)
if (PKG_CONFIG_FOUND)
pkg_check_modules(PkgConfigTBB IMPORTED_TARGET GLOBAL tbb QUIET)
if(NOT TARGET PkgConfig::PkgConfigTBB)
# workaround bug in old FindPkgConfig.cmake which adds
# pkgcfg_lib_PkgConfigTBB_atomic-NOTFOUND because it cannot
# find the atomic lib of the compiler (not in platforms default
# library path. It will therefore not create the target and we
# try that manually.
string(REPLACE ";pkgcfg_lib_PkgConfigTBB_atomic-NOTFOUND" "" _find_tbb_libs "${PkgConfigTBB_LINK_LIBRARIES}")
if(_find_tbb_libs)
add_library(PkgConfig::PkgConfigTBB INTERFACE IMPORTED GLOBAL)
set_property(TARGET PkgConfig::PkgConfigTBB PROPERTY
INTERFACE_LINK_LIBRARIES "${_find_tbb_libs}")
endif()
endif()
if(TARGET PkgConfig::PkgConfigTBB)
if(NOT TARGET TBB::tbb)
message(STATUS "Found TBB library using pkg config")
add_library(TBB::tbb ALIAS PkgConfig::PkgConfigTBB)
endif()
endif()
endif(PKG_CONFIG_FOUND)
else()
message(STATUS "Found TBB library using config mode")
endif(NOT TBB_FOUND)

37
cmake/Modules/FindTinyXML.cmake Normal file
View File

@ -0,0 +1,37 @@
# - Find TinyXML library
#
# Defines the following variables:
# TinyXML_INCLUDE_DIRS Directory of header files
# TinyXML_LIBRARIES Directory of shared object files
# TinyXML_DEFINITIONS Defines that must be set to compile
# Copyright (C) 2012 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (OpmPackage)
find_opm_package (
# module name
"TinyXML"
# dependencies
""
# header to search for
"tinyxml.h"
# library to search for
"tinyxml"
# defines to be added to compilations
""
# test program
"#include <tinyxml.h>
int main (void) {
TiXmlDocument doc;
return 0;
}
"
# config variables
"")

7
cmake/Modules/FindValgrind.cmake
View File

@ -3,10 +3,13 @@
# This module defines:
# VALGRIND_INCLUDE_DIR, where to find valgrind/memcheck.h, etc.
# VALGRIND_PROGRAM, the valgrind executable.
# Valgrind_FOUND, If false, do not try to use valgrind.
# VALGRIND_FOUND, If false, do not try to use valgrind.
#
# If you have valgrind installed in a non-standard place, you can define
# VALGRIND_ROOT to tell cmake where it is.
if (VALGRIND_FOUND)
return()
endif()
find_path(VALGRIND_INCLUDE_DIR valgrind/memcheck.h
/usr/include /usr/local/include ${VALGRIND_ROOT}/include)
@ -15,7 +18,7 @@ find_path(VALGRIND_INCLUDE_DIR valgrind/memcheck.h
# path, but this does not hurt...
find_program(VALGRIND_PROGRAM NAMES valgrind PATH ${VALGRIND_ROOT}/bin)
find_package_handle_standard_args(Valgrind DEFAULT_MSG
find_package_handle_standard_args(VALGRIND DEFAULT_MSG
VALGRIND_INCLUDE_DIR
VALGRIND_PROGRAM)

33
cmake/Modules/FindZOLTAN.cmake
View File

@ -16,15 +16,12 @@ if(ZOLTAN_ROOT)
set(ZOLTAN_NO_DEFAULT_PATH "NO_DEFAULT_PATH")
endif()
# We only need zoltan with MPI. Otherwise usage of alugrid is broken.
find_package(MPI)
# Make sure we have checked for the underlying partitioners.
find_package(PTScotch)
#find_package(ParMETIS)
# search for files which implements this module
find_path (ZOLTAN_INCLUDE_DIR
find_path (ZOLTAN_INCLUDE_DIRS
NAMES "zoltan.h"
PATHS ${ZOLTAN_SEARCH_PATH}
PATH_SUFFIXES include trilinos
@ -35,35 +32,27 @@ if (CMAKE_SIZEOF_VOID_P)
math (EXPR _BITS "8 * ${CMAKE_SIZEOF_VOID_P}")
endif (CMAKE_SIZEOF_VOID_P)
find_library(ZOLTAN_LIBRARY
find_library(ZOLTAN_LIBRARIES
NAMES zoltan trilinos_zoltan
PATHS ${ZOLTAN_SEARCH_PATH}
PATH_SUFFIXES "lib/.libs" "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
${ZOLTAN_NO_DEFAULT_PATH})
set (ZOLTAN_FOUND FALSE)
if (ZOLTAN_INCLUDE_DIRS OR ZOLTAN_LIBRARIES)
set(ZOLTAN_FOUND TRUE)
set(HAVE_ZOLTAN 1)
set(ZOLTAN_LIBRARIES ${ZOLTAN_LIBRARIES} ${PARMETIS_LIBRARIES} ${PTSCOTCH_LIBRARIES})
set(ZOLTAN_INCLUDE_DIRS ${ZOLTAN_INCLUDE_DIRS} ${PARMETIS_INCLUDE_DIRS}
${PTSCOTCH_INCLUDE_DIRS})
endif()
set (ZOLTAN_CONFIG_VAR HAVE_ZOLTAN)
# print a message to indicate status of this package
include (FindPackageHandleStandardArgs)
find_package_handle_standard_args(ZOLTAN
DEFAULT_MSG
ZOLTAN_LIBRARY
ZOLTAN_INCLUDE_DIR
MPI_FOUND
ZOLTAN_LIBRARIES
ZOLTAN_INCLUDE_DIRS
)
if (ZOLTAN_FOUND)
set(HAVE_ZOLTAN 1)
set(ZOLTAN_LIBRARIES ${ZOLTAN_LIBRARY} ${PARMETIS_LIBRARIES} ${PTSCOTCH_LIBRARIES})
set(ZOLTAN_INCLUDE_DIRS ${ZOLTAN_INCLUDE_DIR} ${PARMETIS_INCLUDE_DIRS}
${PTSCOTCH_INCLUDE_DIRS})
# log result
file(APPEND ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/CMakeOutput.log
"Determing location of ZOLTAN succeeded:\n"
" Include directory: ${ZOLTAN_INCLUDE_DIRS}\n"
" Library directory: ${ZOLTAN_LIBRARIES}\n\n")
endif()

24
cmake/Modules/Findcjson.cmake
View File

@ -6,6 +6,10 @@
include (FindPackageHandleStandardArgs)
if ((NOT CJSON_ROOT) AND OPM_PARSER_ROOT)
set( CJSON_ROOT ${OPM_PARSER_ROOT})
endif()
if (CJSON_ROOT)
set (_no_default_path "NO_DEFAULT_PATH")
else (CJSON_ROOT)
@ -14,9 +18,10 @@ endif (CJSON_ROOT)
find_path (CJSON_INCLUDE_DIR
NAMES "cJSON.h"
NAMES "cjson/cJSON.h"
HINTS "${CJSON_ROOT}"
PATH_SUFFIXES "cjson"
PATHS "${PROJECT_SOURCE_DIR}" "${PROJECT_SOURCE_DIR}/../opm-parser"
PATH_SUFFIXES "include" "opm/json"
DOC "Path to cjson library header files"
${_no_default_path} )
@ -31,13 +36,17 @@ string(REGEX REPLACE "${PROJECT_SOURCE_DIR}/?(.*)" "\\1" BUILD_DIR_SUFFIX "${PR
find_library (CJSON_LIBRARY
NAMES "cjson"
HINTS "${CJSON_ROOT}"
PATHS "${PROJECT_BINARY_DIR}/../opm-parser"
"${PROJECT_BINARY_DIR}/../opm-parser${BUILD_DIR_SUFFIX}"
"${PROJECT_BINARY_DIR}/../../opm-parser/${BUILD_DIR_SUFFIX}"
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
"opm/json"
DOC "Path to cjson library archive/shared object files"
${_no_default_path} )
# setup list of all required libraries to link with cjson
set (cjson_INCLUDE_DIRS ${CJSON_INCLUDE_DIR})
set (cjson_LIBRARIES ${CJSON_LIBRARY})
set (CJSON_INCLUDE_DIRS ${CJSON_INCLUDE_DIR})
set (CJSON_LIBRARIES ${CJSON_LIBRARY})
# math library (should exist on all unices; automatically linked on Windows)
if (UNIX)
@ -72,7 +81,10 @@ endif ()
# if the test program didn't compile, but was required to do so, bail
# out now and display an error; otherwise limp on
find_package_handle_standard_args (cjson
set (CJSON_FIND_REQUIRED ${cjson_FIND_REQUIRED})
set (CJSON_FIND_QUIETLY ${cjson_FIND_QUIETLY})
find_package_handle_standard_args (CJSON
DEFAULT_MSG
cjson_INCLUDE_DIRS cjson_LIBRARIES HAVE_CJSON
CJSON_INCLUDE_DIRS CJSON_LIBRARIES HAVE_CJSON
)
set (cjson_FOUND ${CJSON_FOUND})

3
cmake/Modules/Finddune-alugrid.cmake
View File

@ -20,7 +20,8 @@ find_opm_package (
# TODO: we should probe for all the HAVE_* values listed below;
# however, we don't actually use them in our implementation, so
# we just include them to forward here in case anyone else does
"dune-grid REQUIRED;
"CXX11Features REQUIRED;
dune-grid REQUIRED;
ZLIB;
ZOLTAN;
METIS

21
cmake/Modules/Finddune-common.cmake
View File

@ -16,12 +16,11 @@ find_opm_package (
"dune-common"
# dependencies
"BLAS REQUIRED;
"CXX11Features REQUIRED;
BLAS REQUIRED;
LAPACK REQUIRED;
CxaDemangle;
MPI;
TBB;
GMP
MPI
"
# header to search for
"dune/common/fvector.hh"
@ -30,7 +29,7 @@ find_opm_package (
"dunecommon"
# defines to be added to compilations
""
"DUNE_COMMON_FIELDVECTOR_SIZE_IS_METHOD=1"
# test program
"#include <dune/common/fvector.hh>
@ -58,7 +57,6 @@ int main (void) {
HAVE_NULLPTR;
HAVE_STATIC_ASSERT;
HAVE_SHARED_PTR;
MPI_2;
SHARED_PTR_HEADER;
SHARED_PTR_NAMESPACE;
HAVE_TYPE_TRAITS;
@ -68,17 +66,6 @@ int main (void) {
")
#debug_find_vars ("dune-common")
if(MPI_C_FOUND)
# check for MPI version 2
include(CMakePushCheckState)
include(CheckFunctionExists)
cmake_push_check_state()
set(CMAKE_REQUIRED_LIBRARIES ${CMAKE_REQUIRED_LIBRARIES};${MPI_C_LIBRARIES})
set(CMAKE_REQUIRED_INCLUDES ${CMAKE_REQUIRED_INCLUDES};${MPI_C_INCLUDES})
check_function_exists(MPI_Finalized MPI_2)
cmake_pop_check_state()
endif(MPI_C_FOUND)
# make version number available in config.h
include (UseDuneVer)
find_dune_version ("dune" "common")

7
cmake/Modules/Finddune-fem.cmake
View File

@ -19,14 +19,13 @@ find_opm_package (
# TODO: we should probe for all the HAVE_* values listed below;
# however, we don't actually use them in our implementation, so
# we just include them to forward here in case anyone else does
"dune-common REQUIRED;
"CXX11Features REQUIRED;
dune-common REQUIRED;
dune-grid REQUIRED;
dune-alugrid;
dune-polygongrid;
ZLIB;
ZOLTAN;
METIS;
QuadMath
METIS
"
# header to search for
"dune/fem/space/shapefunctionset/legendre.hh"

6
cmake/Modules/Finddune-geometry.cmake
View File

@ -19,7 +19,8 @@ find_opm_package (
# TODO: we should probe for all the HAVE_* values listed below;
# however, we don't actually use them in our implementation, so
# we just include them to forward here in case anyone else does
"dune-common REQUIRED
"CXX11Features REQUIRED;
dune-common REQUIRED
"
# header to search for
"dune/geometry/quadraturerules.hh"
@ -33,7 +34,8 @@ find_opm_package (
# test program
"#include <dune/geometry/quadraturerules.hh>
int main (void) {
Dune::GeometryType gt = Dune::GeometryTypes::quadrilateral;
Dune::GeometryType gt;
gt.makeQuadrilateral();
Dune::QuadratureRules<double, 2>::rule(gt, 2).size();
return 0;
}

14
cmake/Modules/Finddune-grid.cmake
View File

@ -22,12 +22,12 @@ find_opm_package (
# TODO: we should probe for all the HAVE_* values listed below;
# however, we don't actually use them in our implementation, so
# we just include them to forward here in case anyone else does
"dune-common REQUIRED;
"CXX11Features REQUIRED;
dune-common REQUIRED;
dune-geometry REQUIRED;
dune-uggrid;
MPI;
UG;
Alberta
ALUGrid;
UG
"
# header to search for
"dune/grid/onedgrid.hh"
@ -42,21 +42,21 @@ find_opm_package (
"#include <dune/grid/onedgrid.hh>
int main (void) {
Dune::OneDGrid grid(1, 0., 1.);
return grid.size(0);
return grid.lbegin<0>(0) == grid.lend<0>(0);
}
"
# config variables
"HAVE_MPI;
HAVE_UG;
HAVE_DUNE_FEM;
HAVE_ALUGRID;
HAVE_GRIDTYPE;
HAVE_GRAPE;
HAVE_PSURFACE;
HAVE_AMIRAMESH;
HAVE_ALBERTA;
HAVE_STDINT_H;
DUNE_GRID_EXPERIMENTAL_GRID_EXTENSIONS;
DUNE_ALBERTA_VERSION
DUNE_GRID_EXPERIMENTAL_GRID_EXTENSIONS
")
#debug_find_vars ("dune-grid")

9
cmake/Modules/Finddune-istl.cmake
View File

@ -19,7 +19,7 @@ find_opm_package (
"dune-common REQUIRED;
ParMETIS;
SuperLU;
SuiteSparse COMPONENTS umfpack REQUIRED
SuiteSparse COMPONENTS umfpack
"
# header to search for
"dune/istl/bcrsmatrix.hh"
@ -52,14 +52,7 @@ int main (void) {
HAVE_PARMETIS;
HAVE_SUPERLU;
HAVE_UMFPACK;
HAVE_SUITESPARSE_UMFPACK;
SUPERLU_INT_TYPE;
HAVE_SLU_CDEFS_H;
HAVE_SLU_DDEFS_H;
HAVE_SLU_SDEFS_H;
HAVE_SLU_ZDEFS_H;
SUPERLU_MIN_VERSION_4_3;
SUPERLU_MIN_VERSION_5;
SUPERLU_POST_2005_VERSION
")
#debug_find_vars ("dune-istl")

46
cmake/Modules/Finddune-polygongrid.cmake
View File

@ -1,46 +0,0 @@
# - Find DUNE Fem library
#
# Defines the following variables:
# dune-polygongrid_INCLUDE_DIRS Directory of header files
# dune-polygongrid_LIBRARIES Directory of shared object files
# dune-polygongrid_DEFINITIONS Defines that must be set to compile
# dune-alugrid_CONFIG_VARS List of defines that should be in config.h
# HAVE_DUNE_POLYGONGRID Binary value to use in config.h
# Copyright (C) 2015 IRIS AS
# This code is licensed under The GNU General Public License v3.0
include (OpmPackage)
find_opm_package (
# module name
"dune-polygongrid"
# dependencies
# TODO: we should probe for all the HAVE_* values listed below;
# however, we don't actually use them in our implementation, so
# we just include them to forward here in case anyone else does
"dune-common REQUIRED"
# header to search for
"dune/polygongrid/mesh.hh"
# library to search for
"dunepolygongrid"
# defines to be added to compilations
""
# test program
"#include <dune/polygongrid/mesh.hh>
int main (void) {
return 0;
}
"
# config variables
"HAVE_DUNE_POLYGONGRID
")
#debug_find_vars ("dune-polygongrid")
# make version number available in config.h
include (UseDuneVer)
find_dune_version ("dune" "polygongrid")

33
cmake/Modules/Finddune-uggrid.cmake
View File

@ -1,33 +0,0 @@
include (OpmPackage)
find_opm_package (
# module name
"dune-uggrid"
# dependencies
# TODO: we should probe for all the HAVE_* values listed below;
# however, we don't actually use them in our implementation, so
"dune-common REQUIRED
"
# header to search for
""
# library to search for
"duneuggrid"
# defines to be added to compilations
""
# test program
""
# config variable
"")
#debug_find_vars ("dune-uggrid")
# make version number available in config.h
include (UseDuneVer)
find_dune_version ("dune" "uggrid")
# deactivate search for UG
set(UG_FOUND ${dune-uggrid_FOUND})

42
cmake/Modules/Findewoms.cmake Normal file
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# - Find OPM eWoms module
#
# Defines the following variables:
# ewoms_INCLUDE_DIRS Directory of header files
# ewoms_LIBRARIES Directory of shared object files
# ewoms_DEFINITIONS Defines that must be set to compile
# ewoms_CONFIG_VARS List of defines that should be in config.h
# HAVE_EWOMS Binary value to use in config.h
# Copyright (C) 2012 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (ewoms-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"ewoms"
# dependencies
"${ewoms_DEPS}"
# header to search for
"ewoms/common/start.hh"
# library to search for
""
# defines to be added to compilations
""
# test program
"#include <ewoms/common/start.hh>
int main (void) {
return 0;
}
"
# config variables
"${ewoms_CONFIG_VAR}"
)
#include (UseDynamicBoost)
#debug_find_vars ("ewoms")

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cmake/Modules/Findopm-common.cmake Normal file
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# - Find the opm-common module
#
# Defines the following variables:
# opm-common_INCLUDE_DIRS Directory of header files
# opm-common_LIBRARIES Directory of shared object files
# opm-common_DEFINITIONS Defines that must be set to compile
# opm-common_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_COMMON Binary value to use in config.h
# Copyright (C) 2013 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (opm-common-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-common"
# dependencies
"${opm-common_DEPS}"
# header to search for
"opm/common/utility/platform_dependent/disable_warnings.h"
# library to search for
"opmcommon"
# defines to be added to compilations
""
# test program
"#include <opm/common/utility/platform_dependent/disable_warnings.h>
int main (void) {
return 0;
}
"
# config variables
"${opm-common_CONFIG_VAR}"
)
include (UseDynamicBoost)
#debug_find_vars ("opm-common")

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cmake/Modules/Findopm-core.cmake Normal file
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# - Find OPM core library
#
# Defines the following variables:
# opm-core_INCLUDE_DIRS Directory of header files
# opm-core_LIBRARIES Directory of shared object files
# opm-core_DEFINITIONS Defines that must be set to compile
# opm-core_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_CORE Binary value to use in config.h
# Copyright (C) 2012 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (opm-core-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-core"
# dependencies
"${opm-core_DEPS}"
# header to search for
"opm/core/grid.h"
# library to search for
"opmcore"
# defines to be added to compilations
""
# test program
"#include <opm/core/grid.h>
int main (void) {
struct UnstructuredGrid *g;
g = create_grid_empty ();
destroy_grid (g);
return 0;
}
"
# config variables
"${opm-core_CONFIG_VAR}"
)
include (UseDynamicBoost)
#debug_find_vars ("opm-core")

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cmake/Modules/Findopm-data.cmake Normal file
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# This module searches for the opm-data repository. Since the opm-data
# has no libraries or header files the find implementation is quite
# naive.
#
# If the opm-data repository is found, the following variables are set:
#
# HAVE_OPM_DATA
# OPM_DATA_ROOT
if (OPM_DATA_ROOT)
set( _opm_data_root ${OPM_DATA_ROOT})
else()
set( _opm_data_root "${PROJECT_SOURCE_DIR}/../opm-data")
endif()
if (EXISTS "${_opm_data_root}/norne/NORNE_ATW2013.DATA")
set( HAVE_OPM_DATA True )
set( OPM_DATA_ROOT ${_opm_data_root} )
message( "-- Setting OPM_DATA_ROOT: ${OPM_DATA_ROOT}")
else()
set( HAVE_OPM_DATA False )
message( "opm-data not found - integration tests using opm-data will be skipped.")
endif()

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cmake/Modules/Findopm-flowdiagnostics.cmake
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@ -1,48 +0,0 @@
# - Find OPM Flow Diagnostics Library
#
# Defines the following variables:
# opm-flowdiagnostics_INCLUDE_DIRS Directory of header files
# opm-flowdiagnostics_LIBRARIES Directory of shared object files
# opm-flowdiagnostics_DEFINITIONS Defines that must be set to compile
# opm-flowdiagnostics_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_FLOWDIAGNOSTICS Binary value to use in config.h
# Copyright (C) 2012 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (opm-flowdiagnostics-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-flowdiagnostics"
# dependencies
"${opm-flowdiagnostics_DEPS}"
# header to search for
"opm/flowdiagnostics/Toolbox.hpp"
# library to search for
"opmflowdiagnostics"
# defines to be added to compilations
""
# test program
"#include <opm/flowdiagnostics/Toolbox.hpp>
#include <vector>
int main()
{
using FDT = Opm::FlowDiagnostics::Toolbox;
const auto pv = std::vector<double>(10, 0.3);
}
"
# config variables
"${opm-flowdiagnostics_CONFIG_VAR}"
)

42
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# - Find OPM corner-point grid library
#
# Defines the following variables:
# opm-grid_INCLUDE_DIRS Directory of header files
# opm-grid_LIBRARIES Directory of shared object files
# opm-grid_DEFINITIONS Defines that must be set to compile
# opm-grid_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_GRID Binary value to use in config.h
# Copyright (C) 2013 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
include (opm-grid-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-grid"
# dependencies
"${opm-grid_DEPS}"
# header to search for
"dune/grid/CpGrid.hpp"
# library to search for
"opmgrid"
# defines to be added to compilations
"HAVE_OPM_GRID"
# test program
"#include <dune/grid/CpGrid.hpp>
int main (void) {
Dune::CpGrid g;
return 0;
}
"
# config variables
"${opm-grid_CONFIG_VAR}"
)
#debug_find_vars ("opm-grid")

43
cmake/Modules/Findopm-material.cmake Normal file
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# - Find OPM materials library
#
# Defines the following variables:
# opm-material_INCLUDE_DIRS Directory of header files
# opm-material_LIBRARIES Directory of shared object files
# opm-material_DEFINITIONS Defines that must be set to compile
# opm-material_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_MATERIAL Binary value to use in config.h
# Copyright (C) 2013 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (opm-material-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-material"
# dependencies
"${opm-material_DEPS}"
# header to search for
"opm/material/Constants.hpp"
# library to search for
""
# defines to be added to compilations
""
# test program
"#include <opm/material/Constants.hpp>
int main (void) {
double c = Opm::Constants<double>::c;
return 0;
}
"
# config variables
"${opm-material_CONFIG_VAR}"
)
include (UseDynamicBoost)
#debug_find_vars ("opm-material")

42
cmake/Modules/Findopm-output.cmake Normal file
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@ -0,0 +1,42 @@
# - Find OPM output library
#
# Defines the following variables:
# opm-output_INCLUDE_DIRS Directory of header files
# opm-output_LIBRARIES Directory of shared object files
# opm-output_DEFINITIONS Defines that must be set to compile
# opm-output_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_OUTPUT Binary value to use in config.h
# Copyright (C) 2012 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (opm-output-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-output"
# dependencies
"${opm-output_DEPS}"
# header to search for
"opm/output/OutputWriter.hpp"
# library to search for
"opmoutput"
# defines to be added to compilations
""
# test program
"#include <opm/output/OutputWriter.hpp>
int main (void) {
return 0;
}
"
# config variables
"${opm-output_CONFIG_VAR}"
)
include (UseDynamicBoost)
#debug_find_vars ("opm-output")

169
cmake/Modules/Findopm-parser.cmake Normal file
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# Find the OPM Eclipse input parser.
#
# Set the cache variable OPM_PARSER_ROOT to the install location of the
# library, or OPM_ROOT to the parent directory of the build tree.
#
# If found, it sets these variables:
#
# HAVE_OPM_PARSER Defined if a test program compiled
# OPM_PARSER_INCLUDE_DIRS Header file directories
# OPM_PARSER_LIBRARIES Archives and shared objects
include (FindPackageHandleStandardArgs)
# variables to pass on to other packages
if (FIND_QUIETLY)
set (OPM_PARSER_QUIET "QUIET")
else ()
set (OPM_PARSER_QUIET "")
endif ()
# use lowercase versions of the variables if those are set
if (opm-parser_ROOT)
set (OPM_PARSER_ROOT ${opm-parser_ROOT})
endif ()
if (opm_ROOT)
set (OPM_ROOT ${opm_ROOT})
endif ()
# inherit "suite" root if not specifically set for this library
if ((NOT OPM_PARSER_ROOT) AND OPM_ROOT)
set (OPM_PARSER_ROOT "${OPM_ROOT}/opm-parser")
endif ()
# Detect the build dir suffix or subdirectory
string(REGEX REPLACE "${PROJECT_SOURCE_DIR}/?(.*)" "\\1" BUILD_DIR_SUFFIX "${PROJECT_BINARY_DIR}")
# if a root is specified, then don't search in system directories
# or in relative directories to this one
if (OPM_PARSER_ROOT)
set (_no_default_path "NO_DEFAULT_PATH")
set (_opm_parser_source "")
set (_opm_parser_build "")
else ()
set (_no_default_path "")
set (_opm_parser_source
"${PROJECT_SOURCE_DIR}/../opm-parser")
set (_opm_parser_build
"${PROJECT_BINARY_DIR}/../opm-parser"
"${PROJECT_BINARY_DIR}/../opm-parser${BUILD_DIR_SUFFIX}"
"${PROJECT_BINARY_DIR}/../../opm-parser/${BUILD_DIR_SUFFIX}")
endif ()
# use this header as signature
find_path (OPM_PARSER_INCLUDE_DIR
NAMES "opm/parser/eclipse/Parser/Parser.hpp"
HINTS "${OPM_PARSER_ROOT}"
PATHS ${_opm_parser_source}
PATH_SUFFIXES "include"
DOC "Path to OPM parser header files"
${_no_default_path} )
find_path (OPM_PARSER_GEN_INCLUDE_DIR
NAMES "opm/parser/eclipse/Parser/ParserKeywords.hpp"
HINTS "${OPM_PARSER_ROOT}"
PATHS ${_opm_parser_build}
PATH_SUFFIXES "generated-source/include" "include"
DOC "Path to OPM parser generated header files"
${_no_default_path} )
# backup: if we didn't find any headers there, but a CMakeCache.txt,
# then it is probably a build directory; read the CMake cache of
# opm-parser to figure out where the source directory is
if ((NOT OPM_PARSER_INCLUDE_DIR) AND
(OPM_PARSER_ROOT AND (EXISTS "${OPM_PARSER_ROOT}/CMakeCache.txt")))
set (_regex "^OPMParser_SOURCE_DIR:STATIC=\(.*\)$")
file (STRINGS
"${OPM_PARSER_ROOT}/CMakeCache.txt"
_cache_entry
REGEX "${_regex}")
string(REGEX REPLACE "${_regex}" "\\1"
OPM_PARSER_INCLUDE_DIR
"${_cache_entry}")
if (OPM_PARSER_INCLUDE_DIR)
set (OPM_PARSER_INCLUDE_DIR "${OPM_PARSER_INCLUDE_DIR}"
CACHE PATH "Path to OPM parser header files" FORCE)
endif ()
endif ()
# find out the size of a pointer. this is required to only search for
# libraries in the directories relevant for the architecture
if (CMAKE_SIZEOF_VOID_P)
math (EXPR _BITS "8 * ${CMAKE_SIZEOF_VOID_P}")
endif ()
# these libraries constitute the parser core
find_library (OPM_PARSER_LIBRARY
NAMES "opmparser"
HINTS "${OPM_PARSER_ROOT}"
PATHS ${_opm_parser_build}
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
"opm/parser/eclipse"
DOC "Path to OPM parser library archive/shared object files"
${_no_default_path} )
# find the OPM-parser wrapper library around cJSON
find_library (OPM_JSON_LIBRARY
NAMES "opmjson"
HINTS "${OPM_PARSER_ROOT}"
PATHS ${_opm_parser_build}
PATH_SUFFIXES "lib" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}"
"opm/json"
DOC "Path to OPM JSON library archive/shared object files"
${_no_default_path} )
# get the prerequisite ERT libraries
if (NOT ERT_FOUND)
find_package(ERT ${OPM_PARSER_QUIET})
endif ()
# get the prerequisite Boost libraries
find_package(Boost 1.44.0 COMPONENTS filesystem date_time system unit_test_framework regex ${OPM_PARSER_QUIET})
if (ERT_FOUND AND Boost_FOUND AND
OPM_PARSER_LIBRARY AND OPM_JSON_LIBRARY AND OPM_PARSER_INCLUDE_DIR)
# setup list of all required libraries to link with opm-parser. notice that
# we use the plural form to get *all* the libraries needed by cjson
set (opm-parser_INCLUDE_DIRS
${OPM_PARSER_INCLUDE_DIR}
${OPM_PARSER_GEN_INCLUDE_DIR}
${Boost_INCLUDE_DIRS}
${ERT_INCLUDE_DIRS})
set (opm-parser_LIBRARIES
${OPM_PARSER_LIBRARY}
${OPM_JSON_LIBRARY}
${Boost_LIBRARIES}
${ERT_LIBRARIES})
# see if we can compile a minimum example
# CMake logical test doesn't handle lists (sic)
include (CMakePushCheckState)
include (CheckCSourceCompiles)
cmake_push_check_state ()
set (CMAKE_REQUIRED_INCLUDES ${opm-parser_INCLUDE_DIRS})
set (CMAKE_REQUIRED_LIBRARIES ${opm-parser_LIBRARIES})
check_cxx_source_compiles (
"#include <cstdlib>
#include <opm/parser/eclipse/Deck/Deck.hpp>
int main (void) {
return EXIT_SUCCESS;
}" HAVE_OPM_PARSER)
cmake_pop_check_state ()
endif()
# if the test program didn't compile, but was required to do so, bail
# out now and display an error; otherwise limp on
set (OPM_PARSER_FIND_REQUIRED ${opm-parser_FIND_REQUIRED})
find_package_handle_standard_args (opm-parser
DEFAULT_MSG
opm-parser_INCLUDE_DIRS opm-parser_LIBRARIES HAVE_OPM_PARSER
)
set (opm-parser_CONFIG_VARS "HAVE_OPM_PARSER;HAVE_REGEX")
set (opm-parser_FOUND ${OPM-PARSER_FOUND})
mark_as_advanced(opm-parser_LIBRARIES opm-parser_INCLUDE_DIRS OPM-PARSER_FOUND)

44
cmake/Modules/Findopm-simulators.cmake Normal file
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@ -0,0 +1,44 @@
# - Find OPM automatic differentiation library
#
# Defines the following variables:
# opm-simulators_INCLUDE_DIRS Directory of header files
# opm-simulators_LIBRARIES Directory of shared object files
# opm-simulators_DEFINITIONS Defines that must be set to compile
# opm-simulators_CONFIG_VARS List of defines that should be in config.h
# HAVE_OPM_SIMULATORS Binary value to use in config.h
# Copyright (C) 2012 Uni Research AS
# This code is licensed under The GNU General Public License v3.0
# use the generic find routine
include (opm-simulators-prereqs)
include (OpmPackage)
find_opm_package (
# module name
"opm-simulators"
# dependencies
"${opm-simulators_DEPS}"
# header to search for
"opm/autodiff/AutoDiff.hpp"
# library to search for
"opmsimulators"
# defines to be added to compilations
""
# test program
"#include <opm/autodiff/AutoDiff.hpp>
int main (void) {
Opm::AutoDiff<double> x = Opm::AutoDiff<double>::constant(42.);
(void) x;
return 0;
}
"
# config variables
"${opm-simulators_CONFIG_VAR}"
)
include (UseDynamicBoost)
#debug_find_vars ("opm-simulators")

27
cmake/Modules/Findopm-tests.cmake
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@ -1,27 +0,0 @@
# This module searches for the opm-tests repository. Since opm-tests
# has no libraries or header files the find implementation is quite
# naive.
#
# If the opm-tests repository is found, the following variables are set:
#
# HAVE_OPM_TESTS
# OPM_TESTS_ROOT
if (OPM_TESTS_ROOT)
set( _opm_tests_root ${OPM_TESTS_ROOT})
else()
set( _opm_tests_root "${PROJECT_SOURCE_DIR}/../opm-tests")
endif()
if (EXISTS "${_opm_tests_root}/norne/NORNE_ATW2013.DATA")
set( HAVE_OPM_DATA True )
set( HAVE_OPM_TESTS True )
set( OPM_TESTS_ROOT ${_opm_tests_root} )
set( OPM_DATA_ROOT ${_opm_tests_root} )
message(STATUS "Setting OPM_TESTS_ROOT: ${OPM_TESTS_ROOT}")
else()
set( HAVE_OPM_TESTS False )
set( HAVE_OPM_DATA False )
message(WARNING "opm-tests not found - integration tests using opm-tests will be skipped.")
endif()

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cmake/Modules/LibtoolArchives.cmake Normal file
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@ -0,0 +1,165 @@
# translate a list of libraries into a command-line that can be passed to the
# compiler/linker. first parameter is the name of the variable that will
# receive this list, the rest is considered the list of libraries
function (linker_cmdline what INTO outvar FROM)
# if we are going to put these in regexps, we must escape period
string (REPLACE "." "\\." esc_dl_pref "${CMAKE_SHARED_LIBRARY_PREFIX}")
string (REPLACE "." "\\." esc_dl_suff "${CMAKE_SHARED_LIBRARY_SUFFIX}")
string (REPLACE "." "\\." esc_ar_pref "${CMAKE_STATIC_LIBRARY_PREFIX}")
string (REPLACE "." "\\." esc_ar_suff "${CMAKE_STATIC_LIBRARY_PREFIX}")
# CMake loves absolute paths, whereas libtool won't have any of it!
# (you get an error message about argument not parsed). translate each
# of the libraries into a linker option
set (deplib_list "")
foreach (deplib IN LISTS ARGN)
# starts with a hyphen already? then just add it
string (SUBSTRING ${deplib} 0 1 dash)
if (${dash} STREQUAL "-")
list (APPEND deplib_list ${deplib})
else (${dash} STREQUAL "-")
# otherwise, parse the name into a directory and a name
get_filename_component (deplib_dir ${deplib} PATH)
get_filename_component (deplib_orig ${deplib} NAME)
string (REGEX REPLACE
"^${esc_dl_pref}(.*)${esc_dl_suff}$"
"\\1"
deplib_name
${deplib_orig}
)
string (REGEX REPLACE
"^${esc_ar_pref}(.*)${esc_ar_suff}$"
"\\1"
deplib_name
${deplib_name}
)
# directory and name each on their own; this is somewhat
# unsatisfactory because it may be that a system dir is specified
# by an earlier directory and you start picking up libraries from
# there instead of the "closest" path here. also, the soversion
# is more or less lost. remove system default path, to lessen the
# chance that we pick the wrong library
if (NOT ((deplib_dir STREQUAL "/usr/lib") OR
(deplib_dir STREQUAL "/usr/${CMAKE_INSTALL_LIBDIR}")))
list (APPEND deplib_list "-L${deplib_dir}")
endif (NOT ((deplib_dir STREQUAL "/usr/lib") OR
(deplib_dir STREQUAL "/usr/${CMAKE_INSTALL_LIBDIR}")))
# if there was no translation of the name, the library is named
# unconventionally (.so.3gf, I'm looking at you), so pass this
# name unmodified to the linker switch
if (deplib_orig STREQUAL deplib_name)
list (APPEND deplib_list "-l:${deplib_orig}")
else (deplib_orig STREQUAL deplib_name)
list (APPEND deplib_list "-l${deplib_name}")
endif (deplib_orig STREQUAL deplib_name)
endif (${dash} STREQUAL "-")
endforeach (deplib)
# caller determines whether we want it returned as a list or a string
if ("${what}" STREQUAL "LIST")
set (${outvar} ${deplib_list})
else ("${what}" STREQUAL "LIST")
set (${outvar} "${deplib_list}")
string (REPLACE ";" " " ${outvar} "${${outvar}}")
endif ("${what}" STREQUAL "LIST")
set (${outvar} "${${outvar}}" PARENT_SCOPE)
endfunction (linker_cmdline what INTO outvar FROM)
function (configure_la name target)
if (NOT (UNIX OR MSYS OR MINGW))
return ()
endif (NOT (UNIX OR MSYS OR MINGW))
# these generic variables are initialized from the project info
set (current "${${name}_VERSION_MAJOR}")
set (age "${${name}_VERSION_MINOR}")
set (inherited_linker_flags "${${name}_LINKER_FLAGS}")
set (dependency_libs "${${name}_LIBRARIES}")
# translate list of libraries to command line
linker_cmdline (LIST INTO dependency_libs FROM ${dependency_libs})
# convert from CMake list (i.e. semi-colon separated)
string (REPLACE ";" " " inherited_linker_flags "${inherited_linker_flags}")
string (REPLACE ";" " " dependency_libs "${dependency_libs}")
# this is the preferred installation path
set (libdir "${CMAKE_INSTALL_PREFIX}/${CMAKE_INSTALL_LIBDIR}")
# ${name}_LIBRARY_TYPE is either SHARED or STATIC
if (${name}_LIBRARY_TYPE STREQUAL "SHARED")
set (libprefix "${CMAKE_SHARED_LIBRARY_PREFIX}")
set (libsuffix "${CMAKE_SHARED_LIBRARY_SUFFIX}")
set (libname "${CMAKE_SHARED_LIBRARY_PREFIX}${target}${CMAKE_SHARED_LIBRARY_SUFFIX}")
# only Unix has soversion in library names
if (UNIX)
set (dlname "${libname}.${current}")
set (library_names "${libname}.${current}.${age} ${libname}.${current} ${libname}")
else (UNIX)
set (dlname "${libname}")
set (library_names "${libname}")
endif (UNIX)
set (old_library "")
else (${name}_LIBRARY_TYPE STREQUAL "SHARED")
set (dlname "")
set (library_names "")
set (old_library "${CMAKE_STATIC_LIBRARY_PREFIX}${target}${CMAKE_STATIC_LIBRARY_SUFFIX}")
endif (${name}_LIBRARY_TYPE STREQUAL "SHARED")
# get the version of libtool installed on the system; this is
# necessary because libtool checks that the file contains its own
# signature(!)
if (NOT libtool_MAIN)
find_file (
libtool_MAIN
ltmain.sh
PATHS /usr
PATH_SUFFIXES share/libtool/config/
DOC "Location of libtool"
)
mark_as_advanced (libtool_MAIN)
# notify the user if it not found after we explicitly searched
if (NOT libtool_MAIN)
message (STATUS "Libtool not found!")
endif (NOT libtool_MAIN)
endif (NOT libtool_MAIN)
if (libtool_MAIN)
file (STRINGS
${libtool_MAIN}
ltversion_STRING
REGEX "^VERSION=\".*\""
)
endif (libtool_MAIN)
if (ltversion_STRING)
string (REGEX REPLACE
"^VERSION=\"?(.*)\"?"
"\\1"
ltversion
${ltversion_STRING}
)
endif (ltversion_STRING)
# assume that we are in cmake/Modules, and that the template have been
# put in cmake/Templates. we cannot use CMAKE_CURRENT_LIST_DIR because
# this is in a function, and we cannot know who's calling us
set (templ_dir "${OPM_MACROS_ROOT}/cmake/Templates")
# only write an .la if libtool is found; otherwise we have no use
# for it.
if (ltversion)
set (la_file "lib${target}.la")
message (STATUS "Writing libtool archive for ${target}")
configure_file (
${templ_dir}/la.in
${CMAKE_ARCHIVE_OUTPUT_DIRECTORY}/${la_file}
@ONLY@
)
else (ltversion)
set (la_file "")
endif (ltversion)
# return this variable to the caller
if (ARGV2)
set (${ARGV2} "${la_file}" PARENT_SCOPE)
endif (ARGV2)
endfunction (configure_la target)

1
cmake/Modules/OpmAliases.cmake
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@ -9,7 +9,6 @@ function (set_aliases)
# are separated by space
set (aliases
"HAVE_UMFPACK HAVE_SUITESPARSE_UMFPACK_H"
"HAVE_SUITESPARSE_UMFPACK HAVE_SUITESPARSE_UMFPACK_H"
"HAVE_DUNE_BOOST HAVE_BOOST"
)
foreach (alias IN LISTS aliases)

16
cmake/Modules/OpmBashCompletion.cmake
View File

@ -1,16 +0,0 @@
# Installs bash tab completion for a product
macro(opm_add_bash_completion binary)
option(USE_BASH_COMPLETIONS_DIR
"Whether to use the new bash completion dir (/usr/share/bash-completion/completions) with load on demand"
OFF)
if(USE_BASH_COMPLETIONS_DIR)
set(_BASH_COMPLETION_FILE ${binary})
set(_BASH_COMPLETION_INSTALL_DIR ${CMAKE_INSTALL_DATAROOTDIR}/bash-completion/completions)
else()
set(_BASH_COMPLETION_FILE ${binary}_bash_completion.sh)
set(_BASH_COMPLETION_INSTALL_DIR ${CMAKE_INSTALL_SYSCONFDIR}/bash_completion.d)
endif()
set(PRODUCT ${binary})
configure_file(${OPM_MACROS_ROOT}/etc/opm_bash_completion.sh.in ${_BASH_COMPLETION_FILE} @ONLY)
install(FILES ${PROJECT_BINARY_DIR}/${_BASH_COMPLETION_FILE} DESTINATION ${_BASH_COMPLETION_INSTALL_DIR})
endmacro()

51
cmake/Modules/OpmCompile.cmake
View File

@ -13,59 +13,28 @@ macro (opm_compile opm)
# all public header files are together with the source. prepend our own
# source path to the one of the dependencies so that our version of any
# ambigious paths are used.
option(SILENCE_CROSSMODULE_WARNINGS "Disable warnings from cross-module includes" OFF)
if (SILENCE_CROSSMODULE_WARNINGS)
include_directories("${PROJECT_SOURCE_DIR}")
include_directories (SYSTEM ${${opm}_INCLUDE_DIRS})
set (${opm}_INCLUDE_DIR "${PROJECT_SOURCE_DIR}")
set (${opm}_INCLUDE_DIRS ${${opm}_INCLUDE_DIR} ${${opm}_INCLUDE_DIRS})
else()
set (${opm}_INCLUDE_DIR "${PROJECT_SOURCE_DIR}")
set (${opm}_INCLUDE_DIRS ${${opm}_INCLUDE_DIR} ${${opm}_INCLUDE_DIRS})
include_directories (${${opm}_INCLUDE_DIRS})
endif()
set (${opm}_INCLUDE_DIR "${PROJECT_SOURCE_DIR}")
set (${opm}_INCLUDE_DIRS ${${opm}_INCLUDE_DIR} ${${opm}_INCLUDE_DIRS})
# create this library, if there are any compilation units
include_directories (${${opm}_INCLUDE_DIRS})
link_directories (${${opm}_LIBRARY_DIRS})
if(CMAKE_VERSION VERSION_GREATER_EQUAL "3.12")
# Some modules may still export definitions using -D, strip it
string(REGEX REPLACE "-D" "" _clean_defs "${${opm}_DEFINITIONS}")
add_compile_definitions(${_clean_defs})
else()
add_definitions(${${opm}_DEFINITIONS})
endif()
add_definitions (${${opm}_DEFINITIONS})
set (${opm}_VERSION "${${opm}_VERSION_MAJOR}.${${opm}_VERSION_MINOR}")
if (${opm}_SOURCES)
add_library (${${opm}_TARGET} ${${opm}_LIBRARY_TYPE} ${${opm}_SOURCES} ${${opm}_HEADERS})
set_target_properties (${${opm}_TARGET} PROPERTIES
SOVERSION ${${opm}_VERSION}
VERSION ${${opm}_VERSION}
LINK_FLAGS "${${opm}_LINKER_FLAGS_STR}"
add_library (${${opm}_TARGET} ${${opm}_LIBRARY_TYPE} ${${opm}_SOURCES})
set_target_properties (${${opm}_TARGET} PROPERTIES
SOVERSION ${${opm}_VERSION_MAJOR}
VERSION ${${opm}_VERSION}
LINK_FLAGS "${${opm}_LINKER_FLAGS_STR}"
POSITION_INDEPENDENT_CODE TRUE
)
if (${${opm}_LIBRARY_TYPE} STREQUAL "SHARED")
# libs that will be linked with the main lib
string(REGEX REPLACE "([;^])[^;]+\\.a[;$]" "\\1" _public_libs
"${${opm}_LIBRARIES}")
# libs that will not actually linked to the library but
# transitively linked to binaries that link to the main library
string(REGEX REPLACE "([^;]+\\.[^a][a-zA-Z0-9]*|-[a-z]*)[;$]" "" _interface_libs
"${${opm}_LIBRARIES}")
else()
# Use all libs for real and transitive linking
set(_public_libs ${${opm}_LIBRARIES})
unset(_interface)
endif()
target_link_libraries (${${opm}_TARGET} PUBLIC ${_public_libs}
INTERFACE ${_interface_libs})
target_link_libraries (${${opm}_TARGET} ${${opm}_LIBRARIES})
if (STRIP_DEBUGGING_SYMBOLS)
# queue this executable to be stripped
strip_debug_symbols (${${opm}_TARGET} ${opm}_DEBUG)
endif()
add_static_analysis_tests(${opm}_SOURCES ${opm}_INCLUDE_DIRS)
else (${opm}_SOURCES)
# unset this variable to signal that no library is generated
set (${opm}_TARGET)

104
cmake/Modules/OpmCompilerChecks.cmake
View File

@ -1,104 +0,0 @@
# Check for various compiler extensions
# HAVE_ATTRIBUTE_ALWAYS_INLINE True if attribute always inline is supported
# HAS_ATTRIBUTE_UNUSED True if attribute unused is supported
# HAS_ATTRIBUTE_DEPRECATED True if attribute deprecated is supported
# HAS_ATTRIBUTE_DEPRECATED_MSG True if attribute deprecated("msg") is supported
include(CheckCXXSourceCompiles)
# __attribute__((always_inline))
CHECK_CXX_SOURCE_COMPILES("
void __attribute__((always_inline)) foo(void) {}
int main(void)
{
foo();
return 0;
};
" HAVE_ATTRIBUTE_ALWAYS_INLINE
)
# __attribute__((unused))
CHECK_CXX_SOURCE_COMPILES("
int main(void)
{
int __attribute__((unused)) foo;
return 0;
};
" HAS_ATTRIBUTE_UNUSED
)
# __attribute__((deprecated))
CHECK_CXX_SOURCE_COMPILES("
#define DEP __attribute__((deprecated))
class bar
{
bar() DEP;
};
class peng { } DEP;
template <class T>
class t_bar
{
t_bar() DEP;
};
template <class T>
class t_peng {
t_peng() {};
} DEP;
void foo() DEP;
void foo() {};
int main(void)
{
return 0;
};
" HAS_ATTRIBUTE_DEPRECATED
)
# __attribute__((deprecated("msg")))
CHECK_CXX_SOURCE_COMPILES("
#define DEP __attribute__((deprecated(\"message\")))
class bar {
bar() DEP;
};
class peng { } DEP;
template <class T>
class t_bar
{
t_bar() DEP;
};
template <class T>
class t_peng
{
t_peng() {};
} DEP;
void foo() DEP;
void foo() {};
int main(void)
{
return 0;
};
" HAS_ATTRIBUTE_DEPRECATED_MSG
)
if(CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
if (CMAKE_CXX_COMPILER_VERSION VERSION_LESS 9.0)
list(APPEND ${project}_LIBRARIES stdc++fs)
endif()
endif()
option(OPM_CLANG_WITH_STDC++FS "Using libstdc++ with clang and we want to link to stdc++fs" OFF)
if(CMAKE_CXX_COMPILER_ID STREQUAL "Clang" AND OPM_CLANG_WITH_STDC++FS)
list(APPEND ${project}_LIBRARIES stdc++fs)
endif()

4
cmake/Modules/OpmDefaults.cmake
View File

@ -5,8 +5,6 @@ is_compiler_gcc_compatible ()
include(TestCXXAcceptsFlag)
macro (opm_defaults opm)
message("Processing opm_defaults ${opm}")
# if we are installing a development version (default when checking out of
# VCS), then remember which directories were used when configuring. package
# distribution should disable this option.
@ -49,7 +47,7 @@ macro (opm_defaults opm)
endif(NOT PRECOMPILE_HEADERS)
# Use of OpenMP is considered experimental
set (USE_OPENMP_DEFAULT ON)
set (USE_OPENMP_DEFAULT OFF)
# if we are on a system where CMake 2.6 is the default (Hi RHEL 6!),
# the configuration files for Boost will trip up the library paths

6
cmake/Modules/OpmFiles.cmake
View File

@ -2,10 +2,8 @@
macro (opm_out_dirs)
# put libraries in lib/ (no multi-arch support in build tree)
if(MAIN_SOURCE_FILES)
set (CMAKE_LIBRARY_OUTPUT_DIRECTORY "${PROJECT_BINARY_DIR}/lib")
set (CMAKE_ARCHIVE_OUTPUT_DIRECTORY "${PROJECT_BINARY_DIR}/lib")
endif()
set (CMAKE_LIBRARY_OUTPUT_DIRECTORY "${PROJECT_BINARY_DIR}/lib")
set (CMAKE_ARCHIVE_OUTPUT_DIRECTORY "${PROJECT_BINARY_DIR}/lib")
set (CMAKE_RUNTIME_OUTPUT_DIRECTORY "${PROJECT_BINARY_DIR}/bin")
set (CMAKE_Fortran_MODULE_DIRECTORY "${PROJECT_BINARY_DIR}/CMakeFiles")
endmacro (opm_out_dirs)

127
cmake/Modules/OpmFind.cmake
View File

@ -33,7 +33,6 @@
# )
include (Duplicates)
include (OpmSiblingSearch)
# list of suffixes for all the project variables
set (_opm_proj_vars
@ -54,6 +53,18 @@ foreach (name IN LISTS _opm_proj_vars)
endif (NOT DEFINED ${CMAKE_PROJECT_NAME}_${name})
endforeach (name)
# these dependencies must always be handled by the find module
set (_opm_proj_exemptions
dune-common
dune-istl
dune-grid
dune-geometry
opm-parser
)
# although a DUNE module, it is delivered in the OPM suite
set (opm-core_SUITE "opm")
set (ewoms_SUITE "opm")
# insert this boilerplate whenever we are going to find a new package
macro (find_and_append_package_to prefix name)
@ -104,72 +115,44 @@ macro (find_and_append_package_to prefix name)
endif (EXISTS ${${NAME}_ROOT}/${name}-config.cmake OR EXISTS ${${NAME}_ROOT}/${name}Config.cmake)
endif (NOT DEFINED ${name}_DIR AND (DEFINED ${name}_ROOT OR DEFINED ${NAME}_ROOT))
# these libraries need special handling which is not provided in
# the -config.cmake file, but which must be provided by this project,
# something which is done in our find module
list (FIND _opm_proj_exemptions "${name}" _${name}_exempted)
if ((NOT (_${name}_exempted EQUAL -1)) AND (DEFINED ${name}_DIR))
set (${name}_ROOT "${${name}_DIR}")
# store this for later, in case we reconfigure
set (${name}_ROOT "${${name}_ROOT}" CACHE LOCATION "Path to ${name}")
# clear this to not use config mode
unset (${name}_DIR)
# variables that are given on the command-line is also put in the cache
# removing the local copy only "unshadows" this one
unset (${name}_DIR CACHE)
endif ((NOT (_${name}_exempted EQUAL -1)) AND (DEFINED ${name}_DIR))
# if we're told not to look for the package, pretend it was never found
if (CMAKE_DISABLE_FIND_PACKAGE_${name})
# If required send an error
cmake_parse_arguments(FIND "REQUIRED" "" "" ${ARGN} )
set (${name}_FOUND FALSE)
set (${NAME}_FOUND FALSE)
if (FIND_REQUIRED)
message(SEND_ERROR "package ${name} but disable with CMAKE_DISABLE_FIND_PACKAGE_${name}")
endif ()
set (${name}_FOUND FALSE)
set (${NAME}_FOUND FALSE)
else ()
# List of components might differ for every module. Therefore we will
# need to research for a library multiple times. _search_components
# will hold the index of the string COMPONENTS in the list
set(_ARGN_LIST ${ARGN}) # Create a real list to use with list commands
list(FIND _ARGN_LIST "COMPONENTS" _search_components)
# using config mode is better than using module (aka. find) mode
# because then the package has already done all its probes and
# stored them in the config file for us
# For dune and opm modules and exempted packages we force module mode.
# For dune and opm it will use config mode underneath.
# We even need to repeat the search for opm-common once as this is done
# in the top most CMakeLists.txt without querying defines, setting dependencies
# and the likes which is only done via opm_find_package
string(REGEX MATCH "(opm)-.*" _is_opm ${name})
if(NOT _is_opm)
# When using Boost >= 1.70 and e.g. CMake 3.18 we need to make sure that
# subsequent searches are using config mode too. Otherwise the library
# list will be completely messed up. We use a set Boost_Dir to detect that
# previous searches were done using config mode.
if("${name}" STREQUAL "Boost" AND Boost_DIR)
set(_CONFIG_MODE CONFIG)
else()
set(_CONFIG_MODE "")
endif()
find_package (${name} ${ARGN} ${_CONFIG_MODE})
else()
if(${name}_DIR)
find_package (${name} ${${prefix}_VERSION_MAJOR}.${${prefix}_VERSION_MINOR} ${ARGN} NO_MODULE PATHS ${${name}_DIR} NO_DEFAULT_PATH)
else()
find_package (${name} ${${prefix}_VERSION_MAJOR}.${${prefix}_VERSION_MINOR} ${ARGN} NO_MODULE)
endif()
include(FindPackageHandleStandardArgs)
if( CMAKE_VERSION VERSION_GREATER_EQUAL "3.17")
# For some reason we will e.g. call
# find_package_handle_standard_args(opm-common)
# in a find_package(opm-material) call and this will
# usuallly print an annoying warnig. Prevent this at least
# for cmake >=3.17
# \todo Check why/whether these calls are even needed.
set(_NAME_MISMATCHED "NAME_MISMATCHED")
endif()
if(${name}_FOUND AND ${name}_LIBRARY STREQUAL "")
find_package_handle_standard_args(${name}
REQUIRED_VARS ${name}_INCLUDE_DIRS ${_NAME_MISMATCHED})
else()
find_package_handle_standard_args(${name}
REQUIRED_VARS ${name}_LIBRARY ${_NAME_MISMATCHED})
endif()
endif ()
if (NOT DEFINED ${name}_FOUND)
set (${name}_FOUND "${${NAME}_FOUND}")
endif ()
if (NOT DEFINED ${NAME}_FOUND)
set (${NAME}_FOUND "${${name}_FOUND}")
endif ()
# using config mode is better than using module (aka. find) mode
# because then the package has already done all its probes and
# stored them in the config file for us
if (NOT DEFINED ${name}_FOUND AND NOT DEFINED ${NAME}_FOUND)
if (${name}_DIR)
message (STATUS "Finding package ${name} using config mode")
find_package (${name} ${ARGN} NO_MODULE PATHS ${${name}_DIR} NO_DEFAULT_PATH)
else ()
message (STATUS "Finding package ${name} using module mode")
find_package (${name} ${ARGN})
endif ()
endif ()
if (NOT DEFINED ${name}_FOUND)
set (${name}_FOUND "${${NAME}_FOUND}")
endif ()
if (NOT DEFINED ${NAME}_FOUND)
set (${NAME}_FOUND "${${name}_FOUND}")
endif ()
endif ()
# the variable "NAME" may be replaced during find_package (as this is
@ -178,21 +161,7 @@ macro (find_and_append_package_to prefix name)
string (REPLACE "-" "_" NAME "${NAME}")
if (${name}_FOUND OR ${NAME}_FOUND)
foreach (var IN LISTS _opm_proj_vars)
if("${var}" STREQUAL "DEFINITIONS"
AND CMAKE_VERSION VERSION_LESS "3.12")
# For old Cmake versions we use add_definitions which
# requires -D qualifier add that
set(_defs)
foreach(_def IN LISTS ${name}_${var})
if(_def MATCHES "^[a-zA-Z].*")
list(APPEND _defs "-D${_def}")
else()
list(APPEND _defs "${_def}")
endif()
endforeach()
set(${name}_${var} "${_defs}")
endif()
foreach (var IN LISTS _opm_proj_vars)
if (DEFINED ${name}_${var})
list (APPEND ${prefix}_${var} ${${name}_${var}})
# some packages define an uppercase version of their own name

79
cmake/Modules/OpmInit.cmake
View File

@ -12,59 +12,6 @@
# This module should be the first to be included in the project,
# because most of the others (OpmXxx.cmake) use these variables.
# for CMake >= 3.0, we need to change a few policies:
#
# - CMP0026 to allow access to the LOCATION target property
# - CMP0048 to indicate that we want to deal with the *VERSION*
# variables ourselves
# - CMP0064 to indicate that we want TEST if conditions to be evaluated
# - CMP0074 to indicate that <PackageName>_ROOT can be used to find package
# config files
macro(OpmSetPolicies)
if (POLICY CMP0026)
# Needed as we query LOCATION in OpmCompile.cmake and OpmSatellites.cmake
cmake_policy(SET CMP0026 OLD)
endif()
if (POLICY CMP0048)
# We do not set version. Hence NEW should work and this can be removed later
cmake_policy(SET CMP0048 NEW)
endif()
if(POLICY CMP0064)
cmake_policy(SET CMP0064 NEW)
endif()
# set the behavior of the policy 0054 to NEW. (i.e. do not implicitly
# expand variables in if statements)
if (POLICY CMP0054)
cmake_policy(SET CMP0054 NEW)
endif()
# set the behavior of policy 0074 to new as we always used <PackageName>_ROOT as the
# root of the installation
if(POLICY CMP0074)
cmake_policy(SET CMP0074 NEW)
endif()
# include special
if (CMAKE_VERSION VERSION_LESS "2.8.3")
message (STATUS "Enabling compatibility modules for CMake 2.8.3")
list (APPEND CMAKE_MODULE_PATH "${OPM_MACROS_ROOT}/cmake/Modules/compat-2.8.3")
endif (CMAKE_VERSION VERSION_LESS "2.8.3")
if (CMAKE_VERSION VERSION_LESS "2.8.5")
message (STATUS "Enabling compatibility modules for CMake 2.8.5")
list (APPEND CMAKE_MODULE_PATH "${OPM_MACROS_ROOT}/cmake/Modules/compat-2.8.5")
endif (CMAKE_VERSION VERSION_LESS "2.8.5")
if (CMAKE_VERSION VERSION_LESS "2.8.7")
message (STATUS "Enabling compatibility modules for CMake 2.8.7")
list (APPEND CMAKE_MODULE_PATH "${OPM_MACROS_ROOT}/cmake/Modules/compat-2.8.7")
endif (CMAKE_VERSION VERSION_LESS "2.8.7")
endmacro()
# helper macro to retrieve a single field of a dune.module file
macro(OpmGetDuneModuleDirective field variable contents)
string (REGEX MATCH ".*${field}:[ ]*([^\n]+).*" ${variable} "${contents}")
@ -110,16 +57,9 @@ macro (OpmInitDirVars)
endif (COMMAND dir_hook)
endmacro ()
if("${CMAKE_SIZEOF_VOID_P}" LESS 8)
message(FATAL_ERROR "OPM will only work correctly on 64bit (or higher) systems!")
endif()
OpmInitProjVars ()
OpmInitDirVars ()
list(APPEND CMAKE_MODULE_PATH ${PROJECT_SOURCE_DIR})
include(OpmPackage)
# if we are backporting this release to a system which already have an
# earlier version, set this flag to have everything scoped into a directory
# which incorporates the label of the release. this is done by interjecting
@ -131,22 +71,3 @@ if (USE_VERSIONED_DIR)
else ()
set (${project}_VER_DIR "")
endif ()
# parallel computing must be explicitly enabled
# This needs to be in OpmInit as prereqs is called before OpmLibMain is included.
option (USE_MPI "Use Message Passing Interface for parallel computing" ON)
if (NOT USE_MPI)
set (CMAKE_DISABLE_FIND_PACKAGE_MPI TRUE)
endif ()
# Compiler standard version needs to be requested here as prereqs is included
# before OpmLibMain and some tests need/use CXX_STANDARD_VERSION (e.g. pybind11)
# Languages and global compiler settings
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_CXX_EXTENSIONS OFF)
option (USE_SUPERLU "Use SuperLU direct solvers for AMG (if umfpack is not found)" ON)
if (NOT USE_SUPERLU)
set (CMAKE_DISABLE_FIND_PACKAGE_SuperLU TRUE)
endif ()

18
cmake/Modules/OpmInstall.cmake
View File

@ -8,7 +8,7 @@
# _TARGET CMake target which builds the library
# _LIBRARY_TYPE Static or shared library
# _DEBUG File containing debug symbols
include (GNUInstallDirs)
include (UseMultiArch)
macro (opm_install opm)
foreach (_hdr IN LISTS ${opm}_HEADERS)
@ -20,16 +20,10 @@ macro (opm_install opm)
)
endforeach (_hdr)
install (
TARGETS ${${opm}_TARGET} ${${opm}_EXTRA_TARGETS}
EXPORT ${opm}-targets
TARGETS ${${opm}_TARGET}
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR}${${opm}_VER_DIR}
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR}${${opm}_VER_DIR}
)
if(NOT "${${opm}_TARGET}" STREQUAL "")
export(TARGETS ${${opm}_TARGET} ${${opm}_EXTRA_TARGETS}
FILE ${opm}-targets.cmake)
install(EXPORT ${opm}-targets DESTINATION "share/cmake/${opm}")
endif()
# only /usr/lib/debug seems to be searched for debug info; if we have
# write access to that directory (package installation), then default
# to use it; otherwise put the debug files together with the library
@ -40,7 +34,7 @@ macro (opm_install opm)
set (_sys_dbg_def OFF)
endif (CMAKE_INSTALL_PREFIX STREQUAL "/usr")
option (SYSTEM_DEBUG "Put .debug files in GDB debug file directory" ${_sys_dbg_def})
set (DEBUG_FILE_DIRECTORY /usr/lib/debug CACHE PATH "GDB debug file directory")
set (DEBUG_FILE_DIRECTORY /usr/lib/debug CACHE LOCATION "GDB debug file directory")
mark_as_advanced (DEBUG_FILE_DIRECTORY)
if (SYSTEM_DEBUG AND NOT APPLE)
set (_dbg_prefix "${DEBUG_FILE_DIRECTORY}/")
@ -65,10 +59,6 @@ macro (opm_install opm)
# multiarch-aware and will thus put in lib64/ on RHEL and lib/ on Debian
install (
FILES ${PROJECT_SOURCE_DIR}/dune.module
DESTINATION lib/${${opm}_VER_DIR}/dunecontrol/${${opm}_NAME}
DESTINATION ${LIBDIR_MULTIARCH_UNAWARE}${${opm}_VER_DIR}/dunecontrol/${${opm}_NAME}
)
install (
FILES ${PROJECT_SOURCE_DIR}/${CMAKE_PROJECT_NAME}-prereqs.cmake
DESTINATION ${CMAKE_INSTALL_PREFIX}/share/opm/cmake/Modules
)
endmacro (opm_install opm)

80
cmake/Modules/OpmLibMain.cmake
View File

@ -15,13 +15,43 @@
# tests_hook Do special processing before tests are compiled
# files_hook Do special processing before final targets are added
# for CMake >= 3.0, we need to change a few policies:
#
# - CMP0026 to allow access to the LOCATION target property
# - CMP0048 to indicate that we want to deal with the *VERSION*
# variables ourselves
if (POLICY CMP0026)
cmake_policy(SET CMP0026 OLD)
endif()
if (POLICY CMP0048)
cmake_policy(SET CMP0048 OLD)
endif()
# include special
if (CMAKE_VERSION VERSION_LESS "2.8.3")
message (STATUS "Enabling compatibility modules for CMake 2.8.3")
list (APPEND CMAKE_MODULE_PATH "${OPM_MACROS_ROOT}/cmake/Modules/compat-2.8.3")
endif (CMAKE_VERSION VERSION_LESS "2.8.3")
if (CMAKE_VERSION VERSION_LESS "2.8.5")
message (STATUS "Enabling compatibility modules for CMake 2.8.5")
list (APPEND CMAKE_MODULE_PATH "${OPM_MACROS_ROOT}/cmake/Modules/compat-2.8.5")
endif (CMAKE_VERSION VERSION_LESS "2.8.5")
if (CMAKE_VERSION VERSION_LESS "2.8.7")
message (STATUS "Enabling compatibility modules for CMake 2.8.7")
list (APPEND CMAKE_MODULE_PATH "${OPM_MACROS_ROOT}/cmake/Modules/compat-2.8.7")
endif (CMAKE_VERSION VERSION_LESS "2.8.7")
# don't write default flags into the cache, preserve that for user set values
include (AddOptions)
no_default_options ()
# Various compiler extension checks
include(OpmCompilerChecks)
# C++ project
project (${${project}_NAME})
enable_language (C)
enable_language (CXX)
# print system information to better pinpoint issues from log alone
include (UseSystemInfo)
@ -52,23 +82,17 @@ include (UseOptimization)
# turn on all warnings; this must be done before adding any
# dependencies, in case they alter the list of warnings
option(OPM_DISABLE_WARNINGS "Disable warning flags" OFF)
if(NOT OPM_DISABLE_WARNINGS)
include (UseWarnings)
endif()
include (UseWarnings)
# parallel computing must be explicitly enabled
option (USE_MPI "Use Message Passing Interface for parallel computing" OFF)
if (NOT USE_MPI)
set (CMAKE_DISABLE_FIND_PACKAGE_MPI TRUE)
endif (NOT USE_MPI)
# parallel programming
include (UseOpenMP)
find_openmp (${project})
include (UseThreads)
find_threads (${project})
# PETSc is optional
option (USE_PETSC "Use PETSc iterative solvers" OFF)
# static code analysis
include(UseStaticAnalysis)
setup_static_analysis_tools()
# callback hook to setup additional dependencies
if (COMMAND prereqs_hook)
@ -96,7 +120,7 @@ include (UseDebugSymbols)
include (UseDynamicBoost)
# needed for Debian installation scheme
include (GNUInstallDirs)
include (UseMultiArch)
# Run conditional file hook
files_hook()
@ -220,13 +244,9 @@ macro (cond_disable_test name)
endif ((NOT DEFINED HAVE_${name}) OR (NOT HAVE_${name}))
endmacro (cond_disable_test name)
# use this target to run all tests, with parallel execution
cmake_host_system_information(RESULT TESTJOBS QUERY NUMBER_OF_PHYSICAL_CORES)
if(TESTJOBS EQUAL 0)
set(TESTJOBS 1)
endif()
# use this target to run all tests
add_custom_target (check
COMMAND ${CMAKE_CTEST_COMMAND} -j${TESTJOBS}
COMMAND ${CMAKE_CTEST_COMMAND}
DEPENDS test-suite
COMMENT "Checking if library is functional"
VERBATIM
@ -238,11 +258,10 @@ if (COMMAND tests_hook)
endif (COMMAND tests_hook)
# make datafiles necessary for tests available in output directory
opm_data (tests datafiles "${tests_DIR}")
if(NOT BUILD_TESTING)
set(excl_all EXCLUDE_FROM_ALL)
endif()
opm_compile_satellites (${project} tests "${excl_all}" "${tests_REGEXP}")
if (BUILD_TESTING)
opm_data (tests datafiles "${tests_DIR}")
opm_compile_satellites (${project} tests "" "${tests_REGEXP}")
endif (BUILD_TESTING)
# use this target to check local git commits
add_custom_target(check-commits
@ -256,6 +275,13 @@ add_custom_target(check-commits
include (OpmDoc)
opm_doc (${project} ${doxy_dir})
# provide compatibility with using this build in dunecontrol
include (DuneCompat)
include (LibtoolArchives)
if (${project}_TARGET)
configure_la (${project} ${${project}_TARGET} ${project}_LIBTOOL_ARCHIVE)
endif ()
### clean in-source builds ###
include (OpmDistClean)
opm_dist_clean (${project})

389
cmake/Modules/OpmPackage.cmake
View File

@ -37,7 +37,9 @@
# <http://www.vtk.org/Wiki/CMake:How_To_Find_Libraries>
include (OpmFind)
include (OpmSiblingSearch)
option (SIBLING_SEARCH "Search sibling directories before system paths" ON)
mark_as_advanced (SIBLING_SEARCH)
# append all items from src into dst; both must be *names* of lists
macro (append_found src dst)
@ -55,11 +57,8 @@ macro (find_opm_package module deps header lib defs prog conf)
string (REPLACE "-" "_" MODULE "${MODULE_UPPER}")
# if someone else has included this test, don't do it again
# one exception is opm-common which is already found in the
# top most CMakeLists.txt but we still need to search for its
# dependencies
if (${MODULE}_FOUND OR ${module}_FOUND)
return ()
return ()
endif ()
# variables to pass on to other packages
@ -74,122 +73,210 @@ macro (find_opm_package module deps header lib defs prog conf)
set (_${module}_required "")
endif (${module}_FIND_REQUIRED)
create_module_dir_var(${module})
# see if there is a pkg-config entry for this package, and use those
# settings as a starting point
find_package (PkgConfig)
pkg_check_modules (PkgConf_${module} QUIET ${module})
# This will also set all the needed variables with the exception of
# ${module}_CONFIG_VARS for dune modules.
find_package(${module} ${_${module}_quiet} ${_${module}_required} CONFIG)
# these variables have non-standard names in FindPkgConfig (sic)
set (${module}_DEFINITIONS ${PkgConf_${module}_CFLAGS_OTHER})
set (${module}_LINKER_FLAG ${PkgConf_${module}_LDFLAGS_OTHER})
if(NOT ${module}_DEPS)
# set the dependencies used in find_package_deps
set(${module}_DEPS "${deps}")
# try to figure out whether we are in a subdir build tree, and attempt
# to put the same name as the appropriate build tree for the module
get_filename_component (_build_dir "${CMAKE_CURRENT_BINARY_DIR}" NAME)
# don't bother if we are in a project specific directory already
# (assuming no-one wants to name the build dir after another module!)
if ("${_build_dir}" STREQUAL "${PROJECT_NAME}")
set (_build_dir "")
endif ("${_build_dir}" STREQUAL "${PROJECT_NAME}")
# if the user hasn't specified any location, and it isn't found
# in standard system locations either, then start to wander
# about and look for it in proximity to ourself. Qt Creator likes
# to put the build-directories as siblings to the source trees,
# but with a -build suffix, DUNE likes to have the the build tree
# in a "build-cmake" sub-directory of each module
set(workaround_cmake_bug 0)
if(${module}_DIR})
set(workaround_cmake_bug 1)
endif()
find_package_deps(${module})
# since find_and_append_package_to is a macro, this variable have
# probably been overwritten (due to its common name); it is now
# this module's last dependency instead of the name of the module
# itself, so it must be restored
string (TOUPPER "${module}" MODULE_UPPER)
string (REPLACE "-" "_" MODULE "${MODULE_UPPER}")
# compile with this option to avoid avalanche of warnings
set (${module}_DEFINITIONS "${${module}_DEFINITIONS}")
# -D to compile definitions for older CMake versions
set (_D_PREFIX "")
if(CMAKE_VERSION VERSION_LESS "3.12")
set(_D_PREFIX "-D")
if(${module}_ROOT})
set(workaround_cmake_bug 1)
endif()
foreach (_def IN ITEMS ${defs})
if(_def MATCHES "^[A-Za-z].*")
list (APPEND ${module}_DEFINITIONS "${_D_PREFIX}${_def}")
endif()
endforeach (_def)
list (APPEND ${module}_DEFINITIONS ${defs})
# tidy the lists before returning them
remove_dup_deps (${module})
# these defines are used in dune/${module} headers, and should be put
# in config.h when we include those
foreach (_var IN ITEMS ${conf})
# massage the name to remove source code formatting
string (REGEX REPLACE "^[\n\t\ ]+" "" _var "${_var}")
string (REGEX REPLACE "[\n\t\ ]+$" "" _var "${_var}")
list (APPEND ${module}_CONFIG_VARS ${_var})
endforeach (_var)
# these are the defines that should be set when compiling
# without config.h
config_cmd_line (${module}_CMD_CONFIG ${module}_CONFIG_VARS)
if(prog) # always evaluates to false, but makes tests with DUNE 2.6-2.7 work
# check that we can compile a small test-program
include (CMakePushCheckState)
cmake_push_check_state ()
include (CheckCXXSourceCompiles)
# only add these if they are actually found; otherwise it won't
# compile and the variable won't be set
append_found (${module}_INCLUDE_DIRS CMAKE_REQUIRED_INCLUDES)
append_found (${module}_LIBRARIES CMAKE_REQUIRED_LIBRARIES)
# since we don't have any config.h yet
list (APPEND CMAKE_REQUIRED_DEFINITIONS ${${module}_DEFINITIONS})
list (APPEND CMAKE_REQUIRED_DEFINITIONS ${${module}_CMD_CONFIG})
check_cxx_source_compiles ("${prog}" HAVE_${MODULE})
cmake_pop_check_state ()
else()
if(${module}_FOUND)
# No test code provided, mark compilation as successful
# if module was found
# Has to be cached because of scope. Otherwise it is not accessible
# where it is used.
set(HAVE_${MODULE} 1 CACHE BOOL "${module} found")
mark_as_advanced(HAVE_${MODULE})
endif(${module}_FOUND)
if(${MODULE}_ROOT})
set(workaround_cmake_bug 1)
endif()
if (NOT workaround_cmake_bug)
string (TOLOWER "${module}" _module_lower)
set (_guess
"../${module}"
"../${_module_lower}"
)
set (_guess_bin_only
"../${module}-build"
"../${_module_lower}-build"
)
# write status message in the same manner as everyone else
include (FindPackageHandleStandardArgs)
find_package_handle_standard_args (
${module}
DEFAULT_MSG
${module}_INCLUDE_DIRS ${module}_LIBRARIES ${module}_FOUND ${module}_ALL_PREREQS HAVE_${MODULE}
)
# look in similar dirs for the other module
if (_build_dir)
list (APPEND _guess_bin_only
"../../${module}/${_build_dir}"
"../../${_module_lower}/${_build_dir}"
)
endif (_build_dir)
# some genius that coded the FindPackageHandleStandardArgs figured out
# that the module name should be in uppercase (?!)
set (${module}_FOUND "${${MODULE_UPPER}_FOUND}")
set (${MODULE}_FOUND "${${MODULE_UPPER}_FOUND}")
# generate items that are in the build, not source dir
set (_guess_bin)
foreach (_item IN ITEMS ${_guess} ${_guess_bin_only})
list (APPEND _guess_bin "${PROJECT_BINARY_DIR}/${_item}")
endforeach (_item)
set (_no_system "")
else ()
# start looking at the paths in this order
set (_guess_bin
${${module}_DIR}
${${module}_ROOT}
${${MODULE}_ROOT}
)
# if every package is installed directly in the "suite" directory
# (e.g. /usr) then allow us to back-track one directory from the
# module sub-dir that was added by OpmFind (this happens incidently
# already for the source do to the out-of-source support)
if ("${${MODULE}_ROOT}" MATCHES "/${module}$")
get_filename_component (_suite_parent ${${MODULE}_ROOT} PATH)
list (APPEND _guess_bin
${_suite_parent}
${_suite_parent}/${module}
${_suite_parent}/${module}/${_build_dir}
)
endif ("${${MODULE}_ROOT}" MATCHES "/${module}$")
# when we look for the source, it may be that we have been specified
# a build directory which is a sub-dir of the source, so we look in
# the parent also
set (_guess
${${module}_DIR}
${${module}_ROOT}
${${MODULE}_ROOT}
)
# only add parent directories for those variants that are actually set
# (otherwise, we'll inadvertedly add the root directory (=all))
if (${module}_DIR)
list (APPEND _guess ${${module}_DIR}/..)
endif (${module}_DIR)
if (${module}_ROOT)
list (APPEND _guess ${${module}_ROOT}/..)
endif (${module}_ROOT)
if (${MODULE}_ROOT)
list (APPEND _guess ${${MODULE}_ROOT}/..)
endif (${MODULE}_ROOT)
# don't search the system paths! that would be dangerous; if there
# is a problem in our own specified directory, we don't necessarily
# want an old version that is left in one of the system paths!
set (_no_system "NO_DEFAULT_PATH")
endif ()
# This variable is used by UseDuneVer
list(GET ${module}_INCLUDE_DIRS 0 ${module}_INCLUDE_DIR)
# print everything out if we're asked to
if (${module}_DEBUG)
debug_find_vars (${module})
endif (${module}_DEBUG)
endmacro (find_opm_package module deps header lib defs prog conf)
# by specifying _guess in the HINTS section, it gets searched before
# the system locations as well. the CMake documentation has a cloudy
# recommendation, but it ends up like this: if NO_DEFAULT_PATH is
# specified, then PATHS is used. Otherwise, it looks in HINTS, then in
# system paths, and the finally in PATHS (!)
if (SIBLING_SEARCH)
set (_guess_hints ${_guess})
set (_guess_hints_bin ${_guess_bin})
else (SIBLING_SEARCH)
set (_guess_hints)
set (_guess_hints_bin)
endif (SIBLING_SEARCH)
macro (find_package_deps module)
# if an include directory is specified directly (e.g. OPM_CORE_INCLUDE_DIR=
# /usr/include/opm-2013.03) then this overrides everything else. Notice that
# this variable uses the fully capitalized version of the name.
if (${MODULE}_INCLUDE_DIR)
set (_guess "${${MODULE}_INCLUDE_DIR}")
set (_no_system_incl "NO_DEFAULT_PATH")
else ()
set (_no_system_incl "${_no_system}")
endif ()
# search for this include and library file to get the installation
# directory of the package; hints are searched before the system locations,
# paths are searched afterwards
find_path (${module}_INCLUDE_DIR
NAMES "${header}"
PATHS ${_guess}
HINTS ${PkgConf_${module}_INCLUDE_DIRS} ${_guess_hints}
PATH_SUFFIXES "include"
${_no_system_incl}
)
# some modules are all in headers
if (NOT "${lib}" STREQUAL "")
if (CMAKE_SIZEOF_VOID_P)
math (EXPR _BITS "8 * ${CMAKE_SIZEOF_VOID_P}")
endif (CMAKE_SIZEOF_VOID_P)
# again, we may directly override the location of the library alone by
# specifying e.g. OPM_CORE_LIB_DIR. notice that this is a *directory*
# and not the name of the library
if (${MODULE}_LIB_DIR)
set (_guess_bin "${${MODULE}_LIB_DIR}")
set (_no_system_lib "NO_DEFAULT_PATH")
else ()
set (_no_system_lib "${_no_system}")
endif ()
# if there is more than one library, then look for all of them, putting
# them in variables with the name of the library appended. however, the
# first entry is assumed to be the "primary" library and will be named
# like the module. thus, with a lib entry of "foo;bar", the first library
# is called ${module}_LIBRARY and the second ${module}_LIBRARY_bar
foreach (_lib IN ITEMS ${lib})
# don't include any suffix if it is the first one
if ("${lib}" MATCHES "^${_lib}")
set (_which)
else ()
set (_which "_${_lib}")
endif ()
find_library (${module}_LIBRARY${_which}
NAMES "${_lib}"
PATHS ${_guess_bin}
HINTS ${PkgConf_${module}_LIBRARY_DIRS} ${_guess_hints_bin}
PATH_SUFFIXES "lib" "lib/.libs" ".libs" "lib${_BITS}" "lib/${CMAKE_LIBRARY_ARCHITECTURE}" "build-cmake/lib"
${_no_system_lib}
)
# debug info if we didn't find the desired library
if (NOT ${module}_LIBRARY${_which})
message (STATUS "Failed to find library \"${_lib}\" for module ${module}")
endif ()
endforeach (_lib)
else (NOT "${lib}" STREQUAL "")
set (${module}_LIBRARY "")
endif (NOT "${lib}" STREQUAL "")
# add dependencies so that our result variables are complete
# list of necessities to build with the software
set (${module}_INCLUDE_DIRS "${${module}_INCLUDE_DIR}")
foreach (_lib IN ITEMS ${lib})
if ("${lib}" MATCHES "^${_lib}")
set (${module}_LIBRARIES "${${module}_LIBRARY}")
else ()
list (APPEND ${module}_LIBRARIES "${${module}_LIBRARY_${_lib}}")
endif ()
endforeach (_lib)
# period because it should be something that evaluates to true
# in find_package_handle_standard_args
set (${module}_ALL_PREREQS ".")
foreach (_dep IN ITEMS ${${module}_DEPS})
separate_arguments (_${module}_args UNIX_COMMAND "${_dep}")
foreach (_dep IN ITEMS ${deps})
separate_arguments (_${module}_args UNIX_COMMAND ${_dep})
if (_${module}_args)
# keep REQUIRED in the arguments only if we were required ourself
# "required-ness" is not transitive as far as CMake is concerned
# (i.e. if an optional package requests a package to be required,
# the build will fail if it's not found)
# keep REQUIRED in the arguments only if we were required ourself
# "required-ness" is not transitive as far as CMake is concerned
# (i.e. if an optional package requests a package to be required,
# the build will fail if it's not found)
string (REPLACE "REQUIRED" "${_${module}_required}" _args_req "${_${module}_args}")
if(_dep MATCHES "opm-")
set(deplist ${_dep})
string(STRIP "${_dep}" _dep)
string(REPLACE " " ";" deplist "${_dep}")
list(GET deplist 0 depname)
create_module_dir_var(${depname})
endif()
find_and_append_package_to (${module} ${_${module}_args} ${_${module}_quiet})
find_and_append_package_to (${module} ${_args_req} ${_${module}_quiet})
list (GET _${module}_args 0 _name_only)
string (TOUPPER "${_name_only}" _NAME_ONLY)
string (REPLACE "-" "_" _NAME_ONLY "${_NAME_ONLY}")
@ -203,29 +290,101 @@ macro (find_package_deps module)
endif ()
endforeach (_dep)
# since find_and_append_package_to is a macro, this variable have
# probably been overwritten (due to its common name); it is now
# this module's last dependency instead of the name of the module
# itself, so it must be restored
string (TOUPPER "${module}" MODULE_UPPER)
string (REPLACE "-" "_" MODULE "${MODULE_UPPER}")
# compile with this option to avoid avalanche of warnings
set (${module}_DEFINITIONS "${${module}_DEFINITIONS}")
foreach (_def IN ITEMS ${defs})
list (APPEND ${module}_DEFINITIONS "-D${_def}")
endforeach (_def)
# tidy the lists before returning them
remove_dup_deps (${module})
# these defines are used in dune/${module} headers, and should be put
# in config.h when we include those
foreach (_var IN ITEMS ${conf})
# massage the name to remove source code formatting
string (REGEX REPLACE "^[\n\t\ ]+" "" _var "${_var}")
string (REGEX REPLACE "[\n\t\ ]+$" "" _var "${_var}")
list (APPEND ${module}_CONFIG_VARS ${_var})
# massage the name to remove source code formatting
string (REGEX REPLACE "^[\n\t\ ]+" "" _var "${_var}")
string (REGEX REPLACE "[\n\t\ ]+$" "" _var "${_var}")
list (APPEND ${module}_CONFIG_VARS ${_var})
endforeach (_var)
# these are the defines that should be set when compiling
# without config.h
config_cmd_line (${module}_CMD_CONFIG ${module}_CONFIG_VARS)
# This variable is used by UseDuneVer
list(GET ${module}_INCLUDE_DIRS 0 ${module}_INCLUDE_DIR)
# check that we can compile a small test-program
include (CMakePushCheckState)
cmake_push_check_state ()
include (CheckCXXSourceCompiles)
# only add these if they are actually found; otherwise it won't
# compile and the variable won't be set
append_found (${module}_INCLUDE_DIRS CMAKE_REQUIRED_INCLUDES)
append_found (${module}_LIBRARIES CMAKE_REQUIRED_LIBRARIES)
# since we don't have any config.h yet
list (APPEND CMAKE_REQUIRED_DEFINITIONS ${${module}_DEFINITIONS})
list (APPEND CMAKE_REQUIRED_DEFINITIONS ${${module}_CMD_CONFIG})
check_cxx_source_compiles ("${prog}" HAVE_${MODULE})
cmake_pop_check_state ()
# write status message in the same manner as everyone else
include (FindPackageHandleStandardArgs)
if ("${lib}" STREQUAL "")
set (_lib_var "")
set (_and_lib_var)
else ("${lib}" STREQUAL "")
foreach (_lib IN ITEMS ${lib})
if ("${lib}" MATCHES "^${_lib}")
set (_lib_var "${module}_LIBRARY")
set (_and_lib_var AND ${_lib_var})
else ()
list (APPEND _lib_var "${module}_LIBRARY_${_lib}")
set (_and_lib_var ${_and_lib_var} AND "${module}_LIBRARY_${_lib}")
endif ()
endforeach (_lib)
endif ("${lib}" STREQUAL "")
# if the search is going to fail, then write these variables to
# the console as well as a diagnostics
if ((NOT (${module}_INCLUDE_DIR ${_and_lib_var} AND HAVE_${MODULE}))
AND (_${module}_required OR NOT _${module}_quiet))
if (DEFINED ${module}_DIR)
message (STATUS "${module}_DIR = ${${module}_DIR}")
elseif (DEFINED ${module}_ROOT)
message (STATUS "${module}_ROOT = ${${module}_ROOT}")
elseif (DEFINED ${MODULE}_ROOT)
message (STATUS "${MODULE}_ROOT = ${${MODULE}_ROOT}")
endif (DEFINED ${module}_DIR)
endif ((NOT (${module}_INCLUDE_DIR ${_and_lib_var} AND HAVE_${MODULE}))
AND (_${module}_required OR NOT _${module}_quiet))
if ("${${module}_ALL_PREREQS}" MATCHES "-NOTFOUND")
message (STATUS "${module} prereqs: ${${module}_ALL_PREREQS}")
endif ()
find_package_handle_standard_args (
${module}
DEFAULT_MSG
${module}_INCLUDE_DIR ${_lib_var} HAVE_${MODULE} ${module}_ALL_PREREQS
)
# allow the user to override these from user interface
mark_as_advanced (${module}_INCLUDE_DIR)
mark_as_advanced (${module}_LIBRARY)
# some genius that coded the FindPackageHandleStandardArgs figured out
# that the module name should be in uppercase (?!)
set (${module}_FOUND "${${MODULE_UPPER}_FOUND}")
set (${MODULE}_FOUND "${${MODULE_UPPER}_FOUND}")
# print everything out if we're asked to
if (${module}_DEBUG)
debug_find_vars (${module})
endif (${module}_DEBUG)
endmacro ()
endmacro (find_opm_package module deps header lib defs prog conf)
# print all variables defined by the above macro
function (debug_find_vars module)
@ -236,7 +395,7 @@ function (debug_find_vars module)
message (STATUS "${module}_CONFIG_VARS = ${${module}_CONFIG_VARS}")
message (STATUS "${module}_LINKER_FLAGS = ${${module}_LINKER_FLAGS}")
string (TOUPPER ${module} MODULE)
string (REPLACE "-" "_" MODULE ${MODULE})
string (REPLACE "-" "_" MODULE ${MODULE})
message (STATUS "HAVE_${MODULE} = ${HAVE_${MODULE}}")
endfunction (debug_find_vars module)

110
cmake/Modules/OpmProject.cmake
View File

@ -1,5 +1,39 @@
# - Helper routines for opm-core like projects
include (LibtoolArchives) # linker_cmdline
# convert a list back to a command-line string
function (unseparate_args var_name prefix value)
separate_arguments (value)
foreach (item IN LISTS value)
set (prefixed_item "${prefix}${item}")
if (${var_name})
set (${var_name} "${${var_name}} ${prefixed_item}")
else (${var_name})
set (${var_name} "${prefixed_item}")
endif (${var_name})
endforeach (item)
set (${var_name} "${${var_name}}" PARENT_SCOPE)
endfunction (unseparate_args var_name prefix value)
# wrapper to set variables in pkg-config file
function (configure_pc_file name source dest prefix libdir includedir)
# escape set of standard strings
unseparate_args (includes "-I" "${${name}_INCLUDE_DIRS}")
unseparate_args (defs "" "${${name}_DEFINITIONS}")
linker_cmdline (STRING INTO libs FROM ${${name}_LIBRARIES})
# necessary to make these variables visible to configure_file
set (name "${${name}_NAME}")
set (description "${${name}_DESCRIPTION}")
set (major "${${name}_VERSION_MAJOR}")
set (minor "${${name}_VERSION_MINOR}")
set (target "${${name}_LIBRARY}")
linker_cmdline (STRING INTO target from ${target})
configure_file (${source} ${dest} @ONLY)
endfunction (configure_pc_file name source dist prefix libdir includedir)
function (configure_cmake_file name variant version)
# declarative list of the variable names that are used in the template
# and that must be defined in the project to be exported
@ -21,16 +55,7 @@ function (configure_cmake_file name variant version)
foreach (suffix IN LISTS variable_suffices)
set (opm-project_${suffix} "${${name}_${suffix}}")
endforeach (suffix)
if (BUILD_SHARED_LIBS)
# No need to list shared libraries as the linker information is alread
# in the shared lib
string(REGEX REPLACE ";?[^;]*.so" "" opm-project_LIBRARIES "${opm-project_LIBRARIES}")
endif()
set (opm-project_NAME "${${name}_NAME}")
set (opm-project_NAME_UC "${${name}_NAME}")
string(TOUPPER "${opm-project_NAME}" opm-project_NAME_UC)
string(REPLACE "-" "_" opm-project_NAME_UC "${opm-project_NAME_UC}")
# make the file substitutions
configure_file (
@ -48,9 +73,7 @@ function (opm_cmake_config name)
set (template_dir "${OPM_MACROS_ROOT}/cmake/Templates")
# write configuration file to locate library
set(DUNE_PREFIX ${PROJECT_SOURCE_DIR})
set(OPM_PROJECT_EXTRA_CODE ${OPM_PROJECT_EXTRA_CODE_INTREE})
set(PREREQ_LOCATION "${PROJECT_SOURCE_DIR}")
configure_cmake_file (${name} "config" "")
configure_cmake_file (${name} "config" "-version")
configure_vars (
@ -58,29 +81,24 @@ function (opm_cmake_config name)
APPEND "${${name}_CONFIG_VARS}"
)
# The next replace will result in bogus entries if install directory is
# a subdirectory of source tree,
# and we have existing entries pointing to that install directory.
# Since they will yield a duplicate in next replace anyways, we filter them out first
# to get avoid those the bogus entries.
# First with trailing / to change /usr/include/package to package and not /package
# Fixes broken pkg-config files for Debian/Ubuntu packaging.
string(FIND "${${name}_INCLUDE_DIRS}" "${PROJECT_SOURCE_DIR}" _source_in_include)
# config-mode .pc file; use this to find the build tree
configure_pc_file (
${name}
${template_dir}/opm-project.pc.in
${PROJECT_BINARY_DIR}/${${name}_NAME}.pc
${PROJECT_BINARY_DIR}
${CMAKE_LIBRARY_OUTPUT_DIRECTORY}
${PROJECT_SOURCE_DIR}
)
if(_source_in_include GREATER "-1")
string(REGEX REPLACE "${CMAKE_INSTALL_PREFIX}/include${${name}_VER_DIR}[;$]" "" ${name}_INCLUDE_DIRS "${${name}_INCLUDE_DIRS}")
# Get rid of empty entries
string(REPLACE ";;" ";" ${name}_INCLUDE_DIRS "${${name}_INCLUDE_DIRS}")
# replace the build directory with the target directory in the
# variables that contains build paths
string (REPLACE
"${PROJECT_SOURCE_DIR}"
"${CMAKE_INSTALL_PREFIX}/include${${name}_VER_DIR}"
${name}_INCLUDE_DIRS
"${${name}_INCLUDE_DIRS}"
)
endif()
# replace the build directory with the target directory in the
# variables that contains build paths
string (REPLACE
"${PROJECT_SOURCE_DIR}"
"${CMAKE_INSTALL_PREFIX}/include${${name}_VER_DIR}"
${name}_INCLUDE_DIRS
"${${name}_INCLUDE_DIRS}"
)
string (REPLACE
"${CMAKE_LIBRARY_OUTPUT_DIRECTORY}"
"${CMAKE_INSTALL_PREFIX}/${CMAKE_INSTALL_LIBDIR}${${name}_VER_DIR}"
@ -93,8 +111,6 @@ function (opm_cmake_config name)
# create a config mode file which targets the install directory instead
# of the build directory (using the same input template)
set(OPM_PROJECT_EXTRA_CODE ${OPM_PROJECT_EXTRA_CODE_INSTALLED})
set(PREREQ_LOCATION "${CMAKE_INSTALL_PREFIX}/share/opm/cmake/Modules")
set(DUNE_PREFIX ${CMAKE_INSTALL_PREFIX})
configure_cmake_file (${name} "install" "")
configure_vars (
FILE CMAKE "${PROJECT_BINARY_DIR}/${${name}_NAME}-install.cmake"
@ -111,4 +127,28 @@ function (opm_cmake_config name)
FILES ${PROJECT_BINARY_DIR}/${${name}_NAME}-config-version.cmake
DESTINATION share/cmake${${name}_VER_DIR}/${${name}_NAME}
)
# find-mode .pc file; use this to locate system installation
configure_pc_file (
${name}
${template_dir}/opm-project.pc.in
${PROJECT_BINARY_DIR}/${${name}_NAME}-install.pc
${CMAKE_INSTALL_PREFIX}
${CMAKE_INSTALL_PREFIX}/${CMAKE_INSTALL_LIBDIR}${${name}_VER_DIR}
${CMAKE_INSTALL_PREFIX}/include${${name}_VER_DIR}
)
# put this in the right system location; if we have binaries then it
# should go in the arch-specific lib/ directory, otherwise use the
# common/noarch lib/ directory (these targets come from UseMultiArch)
if (${name}_TARGET)
set (_pkg_dir ${CMAKE_INSTALL_LIBDIR})
else ()
set (_pkg_dir ${LIBDIR_MULTIARCH_UNAWARE})
endif ()
install (
FILES ${PROJECT_BINARY_DIR}/${${name}_NAME}-install.pc
DESTINATION ${CMAKE_INSTALL_PREFIX}/${_pkg_dir}/pkgconfig${${name}_VER_DIR}/
RENAME ${${name}_NAME}.pc
)
endfunction (opm_cmake_config name)

7
cmake/Modules/OpmPythonTest.cmake
View File

@ -1,7 +0,0 @@
function (opm_add_python_test TEST_NAME TEST_SCRIPT)
add_test(NAME ${TEST_NAME}
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}
COMMAND ${TEST_SCRIPT} ${ARGN})
set_property(TEST ${TEST_NAME} PROPERTY ENVIRONMENT "PYTHONPATH=${ERT_PYTHON_PATH}:${CWRAP_PYTHON_PATH}:${PYTHONPATH}")
endfunction(opm_add_python_test)

279
cmake/Modules/OpmSatellites.cmake
View File

@ -1,5 +1,4 @@
# - Build satellites that are dependent of main library
#
# Enumerate all source code in a "satellite" directory such as tests/,
# compile each of them and optionally set them as a test for CTest to
@ -8,139 +7,135 @@
# The following suffices must be defined for the opm prefix passed as
# parameter:
#
# _LINKER_FLAGS Necessary flags to link with this library
# _TARGET CMake target which creates the library
# _LIBRARIES Other dependencies that must also be linked
# _LINKER_FLAGS Necessary flags to link with this library
# _TARGET CMake target which creates the library
# _LIBRARIES Other dependencies that must also be linked
# Synopsis:
# opm_compile_satellites (opm satellite excl_all test_regexp)
# opm_compile_satellites (opm satellite excl_all test_regexp)
#
# Parameters:
# opm Prefix of the variable which contain information
# about the library these satellites depends on, e.g.
# pass "opm-core" if opm-core_TARGET is the name of
# the target the builds this library. Variables with
# suffixes _TARGET and _LIBRARIES must exist.
# opm Prefix of the variable which contain information
# about the library these satellites depends on, e.g.
# pass "opm-core" if opm-core_TARGET is the name of
# the target the builds this library. Variables with
# suffixes _TARGET and _LIBRARIES must exist.
#
# satellite Prefix of variable which contain the names of the
# files, e.g. pass "tests" if the files are in the
# variable tests_SOURCES. Variables with suffixes
# _DATAFILES, _SOURCES and _DIR should exist. This
# name is also used as name of the target that builds
# all these files.
# satellite Prefix of variable which contain the names of the
# files, e.g. pass "tests" if the files are in the
# variable tests_SOURCES. Variables with suffixes
# _DATAFILES, _SOURCES and _DIR should exist. This
# name is also used as name of the target that builds
# all these files.
#
# excl_all EXCLUDE_FROM_ALL if these targets should not be built by
# default, otherwise empty string.
# excl_all EXCLUDE_FROM_ALL if these targets should not be built by
# default, otherwise empty string.
#
# test_regexp Regular expression which picks the name of a test
# out of the filename, or blank if no test should be
# setup.
# test_regexp Regular expression which picks the name of a test
# out of the filename, or blank if no test should be
# setup.
#
# Example:
# opm_compile_satellites (opm-core test "" "^test_([^/]*)$")
# opm_compile_satellites (opm-core test "" "^test_([^/]*)$")
#
macro (opm_compile_satellites opm satellite excl_all test_regexp)
# if we are going to build the tests always, then make sure that
# the datafiles are present too
if (NOT (${excl_all} MATCHES "EXCLUDE_FROM_ALL"))
set (_incl_all "ALL")
set (_incl_all "ALL")
else (NOT (${excl_all} MATCHES "EXCLUDE_FROM_ALL"))
set (_incl_all "")
set (_incl_all "")
endif (NOT (${excl_all} MATCHES "EXCLUDE_FROM_ALL"))
# if a set of datafiles has been setup, pull those in
add_custom_target (${satellite} ${_incl_all})
if (${satellite}_DATAFILES)
add_dependencies (${satellite} ${${satellite}_DATAFILES})
add_dependencies (${satellite} ${${satellite}_DATAFILES})
endif (${satellite}_DATAFILES)
# compile each of these separately
foreach (_sat_FILE IN LISTS ${satellite}_SOURCES)
if (NOT "${test_regexp}" STREQUAL "" AND NOT Boost_UNIT_TEST_FRAMEWORK_FOUND)
continue()
endif()
get_filename_component (_sat_NAME "${_sat_FILE}" NAME_WE)
add_executable (${_sat_NAME} ${excl_all} ${_sat_FILE})
add_dependencies (${satellite} ${_sat_NAME})
set_target_properties (${_sat_NAME} PROPERTIES
LINK_FLAGS "${${opm}_LINKER_FLAGS_STR}")
if(HAVE_DYNAMIC_BOOST_TEST)
set_target_properties (${_sat_NAME} PROPERTIES
COMPILE_DEFINITIONS BOOST_TEST_DYN_LINK)
endif()
# are we building a test? luckily, the testing framework doesn't
# require anything else, so we don't have to figure out where it
# should go in the library list
if (NOT "${test_regexp}" STREQUAL "")
set (_test_lib "${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}")
else (NOT "${test_regexp}" STREQUAL "")
set (_test_lib "")
add_static_analysis_tests(_sat_FILE ${opm}_INCLUDE_DIRS)
endif (NOT "${test_regexp}" STREQUAL "")
target_link_libraries (${_sat_NAME} ${${opm}_TARGET} ${${opm}_LIBRARIES} ${_test_lib})
if (STRIP_DEBUGGING_SYMBOLS)
strip_debug_symbols (${_sat_NAME} _sat_DEBUG)
list (APPEND ${satellite}_DEBUG ${_sat_DEBUG})
endif()
# variable with regular expression doubles as a flag for
# whether tests should be setup or not
set(_sat_FANCY)
if (NOT "${test_regexp}" STREQUAL "")
foreach (_regexp IN ITEMS ${test_regexp})
if ("${_sat_NAME}" MATCHES "${_regexp}")
string (REGEX REPLACE "${_regexp}" "\\1" _sat_FANCY "${_sat_NAME}")
elseif(NOT _sat_FANCY)
set(_sat_FANCY ${_sat_NAME})
get_filename_component (_sat_NAME "${_sat_FILE}" NAME_WE)
add_executable (${_sat_NAME} ${excl_all} ${_sat_FILE})
add_dependencies (${satellite} ${_sat_NAME})
set_target_properties (${_sat_NAME} PROPERTIES
LINK_FLAGS "${${opm}_LINKER_FLAGS_STR}"
)
# are we building a test? luckily, the testing framework doesn't
# require anything else, so we don't have to figure out where it
# should go in the library list
if (NOT "${test_regexp}" STREQUAL "")
set (_test_lib "${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}")
else (NOT "${test_regexp}" STREQUAL "")
set (_test_lib "")
endif (NOT "${test_regexp}" STREQUAL "")
target_link_libraries (${_sat_NAME} ${${opm}_TARGET} ${${opm}_LIBRARIES} ${_test_lib})
if (STRIP_DEBUGGING_SYMBOLS)
strip_debug_symbols (${_sat_NAME} _sat_DEBUG)
list (APPEND ${satellite}_DEBUG ${_sat_DEBUG})
endif()
endforeach (_regexp)
get_target_property (_sat_LOC ${_sat_NAME} LOCATION)
# Run tests through mpi-run. Ubuntu 14.04 provided mpi libs will crash
# in the MPI_Finalize() call otherwise.
if(MPI_FOUND)
set(_sat_LOC ${MPIEXEC} ${MPIEXEC_NUMPROC_FLAG} 1 ${_sat_LOC})
endif()
if (CMAKE_VERSION VERSION_LESS "2.8.4")
add_test (NAME ${_sat_FANCY}
COMMAND ${CMAKE_COMMAND} -E chdir "${PROJECT_BINARY_DIR}/${${satellite}_DIR}" ${_sat_LOC})
else (CMAKE_VERSION VERSION_LESS "2.8.4")
add_test (${_sat_FANCY} ${_sat_LOC})
# run the test in the directory where the data files are
set_tests_properties (${_sat_FANCY} PROPERTIES
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}/${${satellite}_DIR})
endif (CMAKE_VERSION VERSION_LESS "2.8.4")
if(NOT TARGET test-suite)
add_custom_target(test-suite)
endif()
add_dependencies(test-suite "${_sat_NAME}")
endif(NOT "${test_regexp}" STREQUAL "")
# if this program on the list of files that should be distributed?
# we check by the name of the source file
list (FIND ${satellite}_SOURCES_DIST "${_sat_FILE}" _is_util)
if (NOT (_is_util EQUAL -1))
install (TARGETS ${_sat_NAME} RUNTIME
DESTINATION bin${${opm}_VER_DIR}/)
endif (NOT (_is_util EQUAL -1))
# variable with regular expression doubles as a flag for
# whether tests should be setup or not
if (NOT "${test_regexp}" STREQUAL "")
foreach (_regexp IN ITEMS ${test_regexp})
if ("${_sat_NAME}" MATCHES "${_regexp}")
string (REGEX REPLACE "${_regexp}" "\\1" _sat_FANCY "${_sat_NAME}")
endif ("${_sat_NAME}" MATCHES "${_regexp}")
endforeach (_regexp)
get_target_property (_sat_LOC ${_sat_NAME} LOCATION)
# Run tests through mpi-run. Ubuntu 14.04 provided mpi libs will crash
# in the MPI_Finalize() call otherwise.
if(MPI_FOUND)
set(_sat_LOC ${MPIEXEC} ${MPIEXEC_NUMPROC_FLAG} 1 ${_sat_LOC})
endif()
if (CMAKE_VERSION VERSION_LESS "2.8.4")
add_test (
NAME ${_sat_FANCY}
COMMAND ${CMAKE_COMMAND} -E chdir "${PROJECT_BINARY_DIR}/${${satellite}_DIR}" ${_sat_LOC}
)
else (CMAKE_VERSION VERSION_LESS "2.8.4")
add_test (${_sat_FANCY} ${_sat_LOC})
# run the test in the directory where the data files are
set_tests_properties (${_sat_FANCY} PROPERTIES
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}/${${satellite}_DIR}
)
endif (CMAKE_VERSION VERSION_LESS "2.8.4")
if(NOT TARGET test-suite)
add_custom_target(test-suite)
endif()
add_dependencies(test-suite "${_sat_NAME}")
endif(NOT "${test_regexp}" STREQUAL "")
# if this program on the list of files that should be distributed?
# we check by the name of the source file
list (FIND ${satellite}_SOURCES_DIST "${_sat_FILE}" _is_util)
if (NOT (_is_util EQUAL -1))
install (TARGETS ${_sat_NAME} RUNTIME
DESTINATION bin${${opm}_VER_DIR}/
)
endif (NOT (_is_util EQUAL -1))
endforeach (_sat_FILE)
endmacro (opm_compile_satellites opm prefix)
# Synopsis:
# opm_data (satellite target dirname files)
# opm_data (satellite target dirname files)
#
# provides these output variables:
#
# ${satellite}_INPUT_FILES List of all files that are copied
# ${satellite}_DATAFILES Name of target which copies these files
# ${satellite}_INPUT_FILES List of all files that are copied
# ${satellite}_DATAFILES Name of target which copies these files
#
# Example:
#
# opm_data (tests datafiles "tests/")
# opm_data (tests datafiles "tests/")
#
macro (opm_data satellite target dirname)
# even if there are no datafiles, create the directory so the
# satellite programs have a homedir to run in
execute_process (COMMAND ${CMAKE_COMMAND} -E make_directory ${PROJECT_BINARY_DIR}/${dirname})
execute_process (
COMMAND ${CMAKE_COMMAND} -E make_directory ${dirname}
)
# if ever huge test datafiles are necessary, then change this
# into "create_symlink" (on UNIX only, apparently)
@ -150,27 +145,26 @@ macro (opm_data satellite target dirname)
# to a tests/ directory in the output tree (if different)
set (${satellite}_INPUT_FILES)
if (NOT PROJECT_SOURCE_DIR STREQUAL PROJECT_BINARY_DIR)
foreach (input_datafile IN LISTS ${satellite}_DATA)
if (IS_ABSOLUTE ${input_datafile})
file (RELATIVE_PATH rel_datafile "${PROJECT_SOURCE_DIR}" ${input_datafile})
else()
set(rel_datafile ${input_datafile})
endif()
set (output_datafile "${PROJECT_BINARY_DIR}/${rel_datafile}")
add_custom_command (OUTPUT ${output_datafile}
COMMAND ${CMAKE_COMMAND}
ARGS -E ${make_avail} ${input_datafile} ${output_datafile}
DEPENDS ${input_datafile}
VERBATIM)
list (APPEND ${satellite}_INPUT_FILES "${output_datafile}")
endforeach (input_datafile)
foreach (input_datafile IN LISTS ${satellite}_DATA)
file (RELATIVE_PATH rel_datafile "${PROJECT_SOURCE_DIR}" ${input_datafile})
set (output_datafile "${PROJECT_BINARY_DIR}/${rel_datafile}")
add_custom_command (
OUTPUT ${output_datafile}
COMMAND ${CMAKE_COMMAND}
ARGS -E ${make_avail} ${input_datafile} ${output_datafile}
DEPENDS ${input_datafile}
VERBATIM
)
list (APPEND ${satellite}_INPUT_FILES "${output_datafile}")
endforeach (input_datafile)
endif(NOT PROJECT_SOURCE_DIR STREQUAL PROJECT_BINARY_DIR)
# setup a target which does all the copying
set (${satellite}_DATAFILES "${target}")
add_custom_target (${${satellite}_DATAFILES}
DEPENDS ${${satellite}_INPUT_FILES}
COMMENT "Making \"${satellite}\" data available in output tree")
DEPENDS ${${satellite}_INPUT_FILES}
COMMENT "Making \"${satellite}\" data available in output tree"
)
if(NOT TARGET test-suite)
add_custom_target(test-suite)
endif()
@ -185,7 +179,6 @@ endmacro (opm_data satellite target dirname files)
# Parameters:
# TestName Name of test
# ONLY_COMPILE Only build test but do not run it (optional)
# DEFAULT_ENABLE_IF Only enable by default if a given condition is true (optional)
# ALWAYS_ENABLE Force enabling test even if -DBUILD_TESTING=OFF was set (optional)
# EXE_NAME Name of test executable (optional, default: ./bin/${TestName})
# CONDITION Condition to enable test (optional, cmake code)
@ -198,7 +191,6 @@ endmacro (opm_data satellite target dirname files)
# TEST_DEPENDS Other tests which must be run before running this test (optional, default: None)
# LIBRARIES Libraries to link test against (optional)
# WORKING_DIRECTORY Working directory for test (optional, default: ${PROJECT_BINARY_DIR})
# CONFIGURATION Configuration to add test to
#
# Example:
#
@ -212,8 +204,8 @@ include(CMakeParseArguments)
macro(opm_add_test TestName)
cmake_parse_arguments(CURTEST
"NO_COMPILE;ONLY_COMPILE;ALWAYS_ENABLE" # flags
"EXE_NAME;PROCESSORS;WORKING_DIRECTORY;CONFIGURATION" # one value args
"CONDITION;DEFAULT_ENABLE_IF;TEST_DEPENDS;DRIVER;DRIVER_ARGS;DEPENDS;TEST_ARGS;SOURCES;LIBRARIES" # multi-value args
"EXE_NAME;PROCESSORS;WORKING_DIRECTORY" # one value args
"CONDITION;TEST_DEPENDS;DRIVER;DRIVER_ARGS;DEPENDS;TEST_ARGS;SOURCES;LIBRARIES" # multi-value args
${ARGN})
set(BUILD_TESTING "${BUILD_TESTING}")
@ -223,13 +215,6 @@ macro(opm_add_test TestName)
set(CURTEST_EXE_NAME ${TestName})
endif()
# Strip test_ prefix from name
if ("${TestName}" MATCHES "^test_([^/]*)$")
string (REGEX REPLACE "^test_([^/]*)$" "\\1" _FANCY "${TestName}")
else()
set(_FANCY ${TestName})
endif()
# try to auto-detect the name of the source file if SOURCES are not
# explicitly specified.
if (NOT CURTEST_SOURCES)
@ -261,11 +246,6 @@ macro(opm_add_test TestName)
# case. They can still be build using 'make test-suite' and they can
# be build and run using 'make check'
set(CURTEST_EXCLUDE_FROM_ALL "")
if (NOT "AND OR ${CURTEST_DEFAULT_ENABLE_IF}" STREQUAL "AND OR ")
if (NOT ${CURTEST_DEFAULT_ENABLE_IF})
set(CURTEST_EXCLUDE_FROM_ALL "EXCLUDE_FROM_ALL")
endif()
endif()
if (NOT BUILD_TESTING AND NOT CURTEST_ALWAYS_ENABLE)
set(CURTEST_EXCLUDE_FROM_ALL "EXCLUDE_FROM_ALL")
endif()
@ -282,7 +262,7 @@ macro(opm_add_test TestName)
# the libraries to link against
if (NOT CURTEST_LIBRARIES)
SET(CURTEST_LIBRARIES "${${project}_LIBRARIES}")
SET(CURTEST_LIBRARIES "${${CMAKE_PROJECT_NAME}_LIBRARIES}")
endif()
# determine if the test should be completely ignored, i.e., the
@ -303,15 +283,7 @@ macro(opm_add_test TestName)
# only compile the binary but do not run it as a test
add_executable("${CURTEST_EXE_NAME}" ${CURTEST_EXCLUDE_FROM_ALL} ${CURTEST_SOURCES})
target_link_libraries (${CURTEST_EXE_NAME} ${CURTEST_LIBRARIES})
get_property(dirs DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR} PROPERTY INCLUDE_DIRECTORIES)
add_static_analysis_tests(CURTEST_SOURCES dirs)
if(HAVE_DYNAMIC_BOOST_TEST)
set_target_properties (${CURTEST_EXE_NAME} PROPERTIES
COMPILE_DEFINITIONS BOOST_TEST_DYN_LINK)
endif()
if(TARGET ${project}_prepare)
add_dependencies("${CURTEST_EXE_NAME}" ${project}_prepare)
endif()
if(CURTEST_DEPENDS)
add_dependencies("${CURTEST_EXE_NAME}" ${CURTEST_DEPENDS})
endif()
@ -321,27 +293,23 @@ macro(opm_add_test TestName)
# run-only case occurs if the binary is already compiled by an
# earlier test.)
add_executable("${CURTEST_EXE_NAME}" ${CURTEST_EXCLUDE_FROM_ALL} ${CURTEST_SOURCES})
if(HAVE_DYNAMIC_BOOST_TEST)
set_target_properties (${CURTEST_EXE_NAME} PROPERTIES
COMPILE_DEFINITIONS BOOST_TEST_DYN_LINK)
endif()
target_link_libraries (${CURTEST_EXE_NAME} ${CURTEST_LIBRARIES})
get_property(dirs DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR} PROPERTY INCLUDE_DIRECTORIES)
add_static_analysis_tests(CURTEST_SOURCES dirs)
if(CURTEST_DEPENDS)
add_dependencies("${CURTEST_EXE_NAME}" ${CURTEST_DEPENDS})
endif()
if(TARGET ${project}_prepare)
add_dependencies("${CURTEST_EXE_NAME}" ${project}_prepare)
if(NOT TARGET test-suite)
add_custom_target(test-suite)
endif()
add_dependencies(test-suite "${CURTEST_EXE_NAME}")
endif()
# figure out how the test should be run. if a test driver script
# has been specified to supervise the test binary, use it else
# run the test binary "naked".
if (CURTEST_DRIVER)
set(CURTEST_COMMAND ${CURTEST_DRIVER} ${CURTEST_DRIVER_ARGS} -e ${CURTEST_EXE_NAME} -- ${CURTEST_TEST_ARGS})
set(CURTEST_COMMAND ${CURTEST_DRIVER} ${CURTEST_DRIVER_ARGS} ${CURTEST_EXE_NAME} ${CURTEST_TEST_ARGS})
else()
set(CURTEST_COMMAND ${PROJECT_BINARY_DIR}/bin/${CURTEST_EXE_NAME})
if (CURTEST_TEST_ARGS)
@ -349,27 +317,28 @@ macro(opm_add_test TestName)
endif()
endif()
add_test(NAME ${_FANCY}
add_test(NAME ${TestName}
WORKING_DIRECTORY "${CURTEST_WORKING_DIRECTORY}"
COMMAND ${CURTEST_COMMAND}
CONFIGURATIONS ${CURTEST_CONFIGURATION})
COMMAND ${CURTEST_COMMAND})
# specify the dependencies between the tests
if (CURTEST_TEST_DEPENDS)
set_tests_properties(${_FANCY} PROPERTIES DEPENDS "${CURTEST_TEST_DEPENDS}")
set_tests_properties(${TestName} PROPERTIES DEPENDS "${CURTEST_TEST_DEPENDS}")
endif()
# tell ctest how many cores it should reserve to run the test
if (CURTEST_PROCESSORS)
set_tests_properties(${_FANCY} PROPERTIES PROCESSORS "${CURTEST_PROCESSORS}")
set_tests_properties(${TestName} PROPERTIES PROCESSORS "${CURTEST_PROCESSORS}")
endif()
endif()
if (NOT CURTEST_NO_COMPILE)
if(NOT TARGET test-suite)
add_custom_target(test-suite)
endif()
add_dependencies(test-suite "${CURTEST_EXE_NAME}")
else() # test is skipped
# the following causes the test to appear as 'skipped' in the
# CDash dashboard. it this is removed, the test is just silently
# ignored.
if (NOT CURTEST_ONLY_COMPILE)
add_test(${TestName} skip_test_dummy)
endif()
endif()
endmacro()

32
cmake/Modules/OpmSiblingSearch.cmake
View File

@ -1,32 +0,0 @@
option (SIBLING_SEARCH "Search sibling directories before system paths" ON)
mark_as_advanced (SIBLING_SEARCH)
macro(create_module_dir_var module)
if(SIBLING_SEARCH AND NOT ${module}_DIR)
# guess the sibling dir
get_filename_component(_leaf_dir_name ${PROJECT_BINARY_DIR} NAME)
get_filename_component(_parent_full_dir ${PROJECT_BINARY_DIR} DIRECTORY)
get_filename_component(_parent_dir_name ${_parent_full_dir} NAME)
#Try if <module-name>/<build-dir> is used
get_filename_component(_modules_dir ${_parent_full_dir} DIRECTORY)
set(_clone_dir "${module}")
if(IS_DIRECTORY ${_modules_dir}/${_clone_dir}/${_leaf_dir_name})
set(${module}_DIR ${_modules_dir}/${_clone_dir}/${_leaf_dir_name})
else()
string(REPLACE ${PROJECT_NAME} ${_clone_dir} _module_leaf ${_leaf_dir_name})
if(NOT _leaf_dir_name STREQUAL _module_leaf
AND IS_DIRECTORY ${_parent_full_dir}/${_module_leaf})
# We are using build directories named <prefix><module-name><postfix>
set(${module}_DIR ${_parent_full_dir}/${_module_leaf})
elseif(IS_DIRECTORY ${_parent_full_dir}/${_clone_dir} AND
EXISTS ${_parent_full_dir}/${_clone_dir}/CMakeCache.txt)
# All modules are in a common build dir
set(${module}_DIR "${_parent_full_dir}/${_clone_dir}")
endif()
endif()
endif()
if(${module}_DIR AND NOT IS_DIRECTORY ${${module}_DIR})
message(WARNING "Value ${${module}_DIR} passed to variable"
" ${module}_DIR is not a directory")
endif()
endmacro()

103
cmake/Modules/OpmStaticTargets.cmake Normal file
View File

@ -0,0 +1,103 @@
####################################################################
# #
# Setup static targets for all submodules. #
# Useful when building a static benchmark executable #
# #
####################################################################
# Macros
# Clone a git and build it statically
# If ARGN is specified installation is skipped, ARGN0 is
# a build-system target name and the rest of ARGN are build tool parameters
function(opm_from_git repo name revision)
if(ARGN)
list(GET ARGN 0 target)
list(REMOVE_AT ARGN 0)
# This is used for top build of benchmarks.
# Clones the local source tree and builds it against the static libraries,
# skipping the install step. Note that in pricinple URL instead of GIT_REPOSITORY
# could have been used, but externalproject cannot handle build directories
# which are a subdirectory of the source tree, and since that is typically the case
# we work-around by re-cloning the local git.
# The ommision of GIT_TAG ensures that we build the tip of the local git.
set(COMMANDS BUILD_COMMAND ${CMAKE_COMMAND} --build <BINARY_DIR> --target ${target} -- ${ARGN}
GIT_TAG ${revision}
INSTALL_COMMAND)
else()
# This is used with "normal" static builds.
set(COMMANDS GIT_TAG ${revision})
endif()
externalproject_add(${name}-static
GIT_REPOSITORY ${repo}
PREFIX static/${name}
CONFIGURE_COMMAND PKG_CONFIG_PATH=${CMAKE_BINARY_DIR}/static/installed/lib/pkgconfig:${CMAKE_BINARY_DIR}/static/installed/${CMAKE_INSTALL_LIBDIR}/pkgconfig:$ENV{PKG_CONFIG_PATH}
${CMAKE_COMMAND} -DCMAKE_INSTALL_PREFIX=${CMAKE_BINARY_DIR}/static/installed
-DCMAKE_TOOLCHAIN_FILE=${CMAKE_TOOLCHAIN_FILE}
-DCMAKE_BUILD_TYPE=${CMAKE_BUILD_TYPE}
-DBUILD_SHARED_LIBS=0
-DBUILD_TESTING=0 -DBUILD_EXAMPLES=0 <SOURCE_DIR>
-G ${CMAKE_GENERATOR}
${COMMANDS} "")
set_target_properties(${name}-static PROPERTIES EXCLUDE_FROM_ALL 1)
endfunction()
# Convenience macro for adding dependencies without having to include the -static all over
macro(opm_static_add_dependencies target)
foreach(arg ${ARGN})
add_dependencies(${target}-static ${arg}-static)
endforeach()
endmacro()
include(ExternalProject)
include(UseMultiArch)
# Defaults to building master
if(NOT OPM_BENCHMARK_VERSION)
set(OPM_BENCHMARK_VERSION "origin/master")
endif()
# ERT
externalproject_add(ert-static
GIT_REPOSITORY https://github.com/Ensembles/ert
PREFIX static/ert
GIT_TAG ${revision}
CONFIGURE_COMMAND ${CMAKE_COMMAND}
-DCMAKE_INSTALL_PREFIX=${CMAKE_BINARY_DIR}/static/installed
-DCMAKE_BUILD_TYPE=${CMAKE_BUILD_TYPE}
-DBUILD_SHARED_LIBS=0 <SOURCE_DIR>/devel)
set_target_properties(ert-static PROPERTIES EXCLUDE_FROM_ALL 1)
# 2015.04 release used dune v2.3.1
if(OPM_BENCHMARK_VERSION STREQUAL "release/2015.04/final")
set(DUNE_VERSION v2.3.1)
endif()
# Master currently uses dune v2.3.1
if(OPM_BENCHMARK_VERSION STREQUAL "origin/master")
set(DUNE_VERSION v2.3.1)
endif()
# Fallback
if(NOT DUNE_VERSION)
set(DUNE_VERSION v2.3.1)
endif()
# Dune
foreach(dune_repo dune-common dune-geometry dune-grid dune-istl)
opm_from_git(http://git.dune-project.org/repositories/${dune_repo} ${dune_repo} ${DUNE_VERSION})
endforeach()
opm_static_add_dependencies(dune-istl dune-common)
opm_static_add_dependencies(dune-geometry dune-common)
opm_static_add_dependencies(dune-grid dune-geometry)
# OPM
foreach(opm_repo opm-common opm-parser opm-core opm-output opm-grid opm-material
opm-upscaling)
opm_from_git(https://github.com/OPM/${opm_repo} ${opm_repo} ${OPM_BENCHMARK_VERSION})
endforeach()
opm_static_add_dependencies(opm-parser opm-common ert)
opm_static_add_dependencies(opm-core opm-parser dune-istl)
opm_static_add_dependencies(opm-grid opm-core dune-grid)
opm_static_add_dependencies(opm-material opm-core)
opm_static_add_dependencies(opm-upscaling opm-grid opm-material)

28
cmake/Modules/PyInstallPrefix.cmake
View File

@ -1,28 +0,0 @@
# We make this a cmake module so it can be used from opm-simulators' CMakeLists.txt also
execute_process(COMMAND ${PYTHON_EXECUTABLE} -c "
import site, sys
try:
sys.stdout.write(site.getsitepackages()[-1])
except e:
sys.stdout.write('')" OUTPUT_VARIABLE PYTHON_SITE_PACKAGES_PATH)
# -------------------------------------------------------------------------
# 1: Wrap C++ functionality in Python
if (PYTHON_SITE_PACKAGES_PATH MATCHES ".*/dist-packages/?" AND
CMAKE_INSTALL_PREFIX MATCHES "^/usr.*")
# dist-packages is only used if we install below /usr and python's site packages
# path matches dist-packages
set(PYTHON_PACKAGE_PATH "dist-packages")
else()
set(PYTHON_PACKAGE_PATH "site-packages")
endif()
if(PYTHON_VERSION_MAJOR)
set(PY_MAJOR ${PYTHON_VERSION_MAJOR})
else()
set(PY_MAJOR ${Python3_VERSION_MAJOR})
endif()
if(PYTHON_VERSION_MINOR)
set(PY_MINOR ${PYTHON_VERSION_MINOR})
else()
set(PY_MINOR ${Python3_VERSION_MINOR})
endif()
set(PYTHON_INSTALL_PREFIX "lib/python${PY_MAJOR}.${PY_MINOR}/${PYTHON_PACKAGE_PATH}" CACHE STRING "Subdirectory to install Python modules in")

27
cmake/Modules/UseDamaris.cmake
View File

@ -1,27 +0,0 @@
if(USE_DAMARIS_LIB AND MPI_FOUND)
if (Damaris_FOUND)
set(HAVE_DAMARIS 1)
message(STATUS "The Damaris library was found: ${Damaris_VERSION} ${Damaris_DIR}")
if (Damaris_HAS_HDF5)
message(STATUS "The Damaris library has HDF5 support: ${HDF5_VERSION}")
else()
message(STATUS "The Damaris library does NOT have HDF5 support")
endif()
if (Damaris_HAS_VISIT)
message(STATUS "The Damaris library has VisIt support: ${VisIt_VERSION}")
else()
message(STATUS "The Damaris library does NOT have VisIt support")
endif()
if (Damaris_HAS_CATALYST)
message(STATUS "The Damaris library has Catalyst support: ${Catalyst_VERSION} ${Paraview_VERSION}")
else()
message(STATUS "The Damaris library does NOT have Catalyst support")
endif()
else()
message(FATAL_ERROR "The Damaris library was requested but NOT found")
endif()
else() # User did not request Damaris support
unset(HAVE_DAMARIS)
endif()
mark_as_advanced(HAVE_DAMARIS)

138
cmake/Modules/UseDuneVer.cmake
View File

@ -14,19 +14,139 @@
# Add these variables to ${project}_CONFIG_IMPL_VARS in CMakeLists.txt
# if you need these in the code.
include (UseMultiArch)
function (find_dune_version suite module)
# CMake's find_package will set <package>_VERSION_(MAJOR|MINOR|REVISION)
# we simply rely on that.
# the _ROOT variable may or may not be set, but the include
# variable should always be; get the prefix from the header path
# if we have a multilib installation where the package maintainer
# have installed it in e.g. /usr/include/dune-2.2/dune/istl, then
# stash this extra indirection and add it back later in lib/
set (_inc_path "${${suite}-${module}_INCLUDE_DIR}")
file (TO_CMAKE_PATH _inc_path "${_inc_path}")
set (_multilib_regexp "(.*)/include(/${suite}[^/]+)?")
if (_inc_path MATCHES "${_multilib_regexp}")
set (_orig_inc "${_inc_path}")
string (REGEX REPLACE "${_multilib_regexp}" "\\1" _inc_path "${_orig_inc}")
# only get the second group if it is really there (there is
# probably a better way to do this in CMake)
if ("${_inc_path}/include" STREQUAL "${_orig_inc}")
set (_multilib "")
else ()
string (REGEX REPLACE "${_multilib_regexp}" "\\2" _multilib "${_orig_inc}")
endif ()
else ()
set (_multilib "")
endif ()
# some modules does not have a library, use the directory of the
# header files to find what would be the library dir.
# note that when we refer to a build tree, then the libraries always
# go into lib/, but we don't care about that because in that case,
# dune.module isn't in the lib/ directory anyway but must be retrieved
# from the source. hence, we only have to worry about the library
# directory of a system installation here.
if (NOT ${suite}-${module}_LIBRARY)
# this suffix is gotten from UseMultiArch.cmake
set (_lib_path "${_inc_path}/${CMAKE_INSTALL_LIBDIR}")
else ()
get_filename_component (_lib_path "${${suite}-${module}_LIBRARY}" PATH)
endif ()
# if we have a source tree, dune.module is available there
set (_dune_mod "${_inc_path}/dune.module")
if (NOT EXISTS "${_dune_mod}")
set (_last_dune_mod_src "${_dune_mod}")
set (_dune_mod "")
endif ()
if (NOT _dune_mod)
# look for the build tree; if we found the library, then the
# dune.module file should be in a sub-directory
get_filename_component (_immediate "${_lib_path}" NAME)
if ("${_immediate}" STREQUAL ".libs")
# remove autotools internal path
get_filename_component (_lib_path "${_lib_path}" PATH)
endif ()
get_filename_component (_immediate "${_lib_path}" NAME)
if ("${_immediate}" STREQUAL "${CMAKE_LIBRARY_ARCHITECTURE}")
# remove multi-arch part of the library path to get parent
get_filename_component (_lib_path "${_lib_path}" PATH)
endif ()
get_filename_component (_immediate "${_lib_path}" NAME)
if (("${_immediate}" STREQUAL "${CMAKE_INSTALL_LIBDIR}")
OR ("${_immediate}" STREQUAL "lib")
OR ("${_immediate}" STREQUAL "${LIBDIR_MULTIARCH_UNAWARE}"))
# remove library part of the path; this also undo the suffix
# we added if we used the library as a standin
get_filename_component (_lib_path "${_lib_path}" PATH)
endif ()
# from this point on, _lib_path does not contain an architecture-
# specific component anymore; dune.module is always put in straight
# noarch lib/ since it does not contain any paths to binaries
set (_suffix "${_multilib}/dunecontrol/${suite}-${module}/dune.module")
set (_dune_mod "${_lib_path}/${LIBDIR_MULTIARCH_UNAWARE}${_suffix}")
if (NOT EXISTS "${_dune_mod}")
set (_last_dune_mod_bld "${_dune_mod}")
# one more try, if we have a private install, then it doesn't use
# e.g. lib64 but always lib (!)
if ("${LIBDIR_MULTIARCH_UNAWARE}" STREQUAL "lib")
set (_dune_mod "")
else ()
set (_dune_mod "${_lib_path}/lib${_suffix}")
if (NOT EXISTS "${_dune_mod}")
set (_last_dune_mod_pri "${_dune_mod}")
# use the name itself as a flag for whether it was found or not
set (_dune_mod "")
endif ()
endif ()
endif ()
endif ()
# if it is not available, it may make havoc having empty defines in the source
# code later, so we bail out early
if (NOT _dune_mod)
if (${suite}-${module}_FOUND)
set (_searched_paths "\"${_last_dune_mod_src}\"")
if (NOT ("${_last_dune_mod_bld}" STREQUAL ""))
set (_searched_paths "either ${_searched_paths} or \"${_last_dune_mod_bld}\"")
endif ()
if (NOT ("${_last_dune_mod_pri}" STREQUAL ""))
set (_searched_paths "${_searched_paths} or \"${_last_dune_mod_pri}\"")
endif ()
message (FATAL_ERROR "Failed to locate dune.module for ${suite}-${module} (looking for ${_searched_paths})")
else ()
return ()
endif ()
endif ()
# parse the file for the Version: field
set (_ver_regexp "[ ]*Version:[ ]*([0-9]+)\\.([0-9]+)(.*)")
file (STRINGS "${_dune_mod}" _ver_field REGEX "${_ver_regexp}")
string (REGEX REPLACE "${_ver_regexp}" "\\1" _major "${_ver_field}")
string (REGEX REPLACE "${_ver_regexp}" "\\2" _minor "${_ver_field}")
string (REGEX REPLACE "${_ver_regexp}" "\\3" _revision "${_ver_field}")
# revision may or may not be there
set (_rev_regexp "\\.([0-9]+).*")
if (_revision MATCHES "${_rev_regexp}")
string (REGEX REPLACE "${_rev_regexp}" "\\1" _revision "${_revision}")
else ()
set (_revision "0")
endif ()
# generate variable for what we have found
string (TOUPPER "${suite}" _SUITE)
string (TOUPPER "${module}" _MODULE)
string (REPLACE "-" "_" _MODULE "${_MODULE}")
set (${_SUITE}_${_MODULE}_VERSION_MAJOR "${${suite}-${module}_VERSION_MAJOR}" PARENT_SCOPE)
set (${_SUITE}_${_MODULE}_VERSION_MINOR "${${suite}-${module}_VERSION_MINOR}" PARENT_SCOPE)
set (${_SUITE}_${_MODULE}_VERSION_REVISION "${${suite}-${module}_VERSION_PATCH}" PARENT_SCOPE)
if ((NOT DEFINED ${_SUITE}_${_MODULE}_VERSION_MAJOR) AND
(NOT DEFINED ${_SUITE}_${_MODULE}_VERSION_MINOR) AND
(NOT DEFINED ${_SUITE}_${_MODULE}_VERSION_REVISION))
set (${_SUITE}_${_MODULE}_VERSION_MAJOR "${_major}" PARENT_SCOPE)
set (${_SUITE}_${_MODULE}_VERSION_MINOR "${_minor}" PARENT_SCOPE)
set (${_SUITE}_${_MODULE}_VERSION_REVISION "${_revision}" PARENT_SCOPE)
endif ()
if( ${suite}-${module}_FOUND )
# print the version number we detected in the configuration log
message (STATUS "Version ${${suite}-${module}_VERSION_MAJOR}.${${suite}-${module}_VERSION_MINOR}.${${suite}-${module}_VERSION_PATCH} of ${suite}-${module} from ${${suite}-${module}_DIR}")
endif()
# print the version number we detected in the configuration log
message (STATUS "Version ${_major}.${_minor}.${_revision} of ${suite}-${module} from ${_dune_mod}")
endfunction (find_dune_version suite module)

11
cmake/Modules/UseDynamicBoost.cmake
View File

@ -1,11 +1,6 @@
# When using Boost >= 1.70 and e.g. CMake 3.18 we need to make sure that
# subsequent searches are using config mode too. Otherwise the library
# list will be completely messed up. We use a set Boost_Dir to detect that
# previous searches were done using config mode.
if(Boost_DIR)
set(_Boost_CONFIG_MODE CONFIG)
endif()
find_package (Boost 1.44.0 COMPONENTS unit_test_framework QUIET ${_Boost_CONFIG_MODE})
if (NOT Boost_UNIT_TEST_FRAMEWORK_FOUND)
find_package (Boost 1.44.0 COMPONENTS unit_test_framework QUIET)
endif ()
if (Boost_UNIT_TEST_FRAMEWORK_FOUND)
# setup to do a test compile

35
cmake/Modules/UseMultiArch.cmake Normal file
View File

@ -0,0 +1,35 @@
# - Multiarch support in object code library directories
#
# This module sets the following variable
# CMAKE_INSTALL_LIBDIR to lib, lib64 or lib/x86_64-linux-gnu
# depending on the platform; use this path
# for platform-specific binaries.
#
# Note that it will override the results of GNUInstallDirs if included after
# that module.
# default if we need to put something in the library directory for a
# component that is *not* multiarch-aware
set (LIBDIR_MULTIARCH_UNAWARE "lib")
# Fedora uses lib64/ for 64-bit systems, Debian uses lib/x86_64-linux-gnu
if ("${CMAKE_SYSTEM_NAME}" MATCHES "Linux")
# Debian or Ubuntu?
if (EXISTS "/etc/debian_version")
set (_libdir_def "lib/${CMAKE_LIBRARY_ARCHITECTURE}")
else (EXISTS "/etc/debian_version")
# 64-bit system?
if (CMAKE_SIZEOF_VOID_P EQUAL 8)
set (_libdir_def "lib64")
set (LIBDIR_MULTIARCH_UNAWARE "${_libdir_def}")
else (CMAKE_SIZEOF_VOID_P EQUAL 8)
set (_libdir_def "lib")
endif (CMAKE_SIZEOF_VOID_P EQUAL 8)
endif (EXISTS "/etc/debian_version")
else ("${CMAKE_SYSTEM_NAME}" MATCHES "Linux")
set (_libdir_def "lib")
endif ("${CMAKE_SYSTEM_NAME}" MATCHES "Linux")
# let the user override if somewhere else is desirable
set (CMAKE_INSTALL_LIBDIR "${_libdir_def}" CACHE PATH "Object code libraries")
mark_as_advanced (CMAKE_INSTALL_LIBDIR)

8
cmake/Modules/UseOpenMP.cmake
View File

@ -42,13 +42,7 @@ macro (find_openmp opm)
# enabling OpenMP is supposedly enough to make the compiler link with
# the appropriate libraries
find_package (OpenMP ${${opm}_QUIET})
if(OpenMP_CXX_FOUND)
list (APPEND ${opm}_LIBRARIES OpenMP::OpenMP_CXX)
else()
list (APPEND ${opm}_LIBRARIES ${OpenMP_LIBRARIES})
endif()
list (APPEND ${opm}_LIBRARIES ${OpenMP_LIBRARIES})
if (OPENMP_FOUND)
add_options (C ALL_BUILDS "${OpenMP_C_FLAGS}")
add_options (CXX ALL_BUILDS "${OpenMP_CXX_FLAGS}")

41
cmake/Modules/UseOptimization.cmake
View File

@ -21,28 +21,10 @@ if (CXX_COMPAT_GCC)
# disabled due to widespread bugs in the linker plugin
option (WHOLE_PROG_OPTIM "Whole program optimization (lto)" OFF)
if (WHOLE_PROG_OPTIM)
check_cxx_accepts_flag ("-flto" HAVE_LINK_OPTS)
check_cxx_accepts_flag ("-fuse-linker-plugin" HAVE_LINK_PLUGIN)
if (HAVE_LINK_OPTS)
list (APPEND _opt_flags "-flto")
endif (HAVE_LINK_OPTS)
if (HAVE_LINK_PLUGIN)
list (APPEND _opt_flags "-fuse-linker-plugin")
endif (HAVE_LINK_PLUGIN)
if(HAVE_LINK_OPTS AND CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
string(REPLACE "." ";" VERSION_LIST "${CMAKE_C_COMPILER_VERSION}")
list(GET VERSION_LIST 0 VER_MAJOR)
find_program(LTO_AR_COMMAND NAMES ${CMAKE_C_COMPILER}-ar gcc-ar-${VER_MAJOR} gcc-ar)
find_program(LTO_RANLIB_COMMAND NAMES ${CMAKE_C_COMPILER}-ranlib gcc-ranlib-${VER_MAJOR} gcc-ranlib)
if(LTO_AR_COMMAND)
set(CMAKE_AR ${LTO_AR_COMMAND})
message(STATUS "Using LTO-enabled ar: ${CMAKE_AR}")
endif()
if(LTO_RANLIB_COMMAND)
set(CMAKE_RANLIB ${LTO_RANLIB_COMMAND})
message(STATUS "Using LTO-enabled ranlib: ${CMAKE_RANLIB}")
endif()
endif()
check_cxx_accepts_flag ("-flto" HAVE_LINK_OPTS)
if (HAVE_LINK_OPTS)
list (APPEND _opt_flags "-flto")
endif (HAVE_LINK_OPTS)
endif (WHOLE_PROG_OPTIM)
# native instruction set tuning
@ -56,24 +38,13 @@ if (CXX_COMPAT_GCC)
# default optimization flags, if not set by user
set_default_option (CXX _opt_dbg "-O0" "(^|\ )-O")
set_default_option (CXX _opt_rel "-O3" "(^|\ )-O")
set_default_option (CXX _opt_rel "-O2" "(^|\ )-O")
# use these options for debug builds - no optimizations
add_options (ALL_LANGUAGES "${_prof_DEBUG}" ${_opt_dbg} "-DDEBUG")
# use these options for release builds - full optimization
add_options (ALL_LANGUAGES "${_prof_RELEASE}" ${_opt_rel} ${_opt_flags})
option(WITH_NDEBUG "Disable asserts in release mode" OFF)
if(WITH_NDEBUG)
foreach(type ${_prof_RELEASE})
string(TOUPPER ${type} type)
string(REPLACE -UNDEBUG "" CMAKE_CXX_FLAGS_${type} "${CMAKE_CXX_FLAGS_${type}}")
string(REPLACE -UNDEBUG "" CMAKE_C_FLAGS_${type} "${CMAKE_C_FLAGS_${type}}")
string(REPLACE -UNDEBUG "" CMAKE_Fortran_FLAGS_${type} "${CMAKE_Fortran_FLAGS_${type}}")
endforeach()
else()
add_options (ALL_LANGUAGES "${_prof_RELEASE}" -UNDEBUG)
endif()
add_options (ALL_LANGUAGES "${_prof_RELEASE}" ${_opt_rel} "-DNDEBUG" ${_opt_flags})
else ()
# default information from system

63
cmake/Modules/UseStaticAnalysis.cmake
View File

@ -1,63 +0,0 @@
# Add static analysis tests for a given source file
macro(setup_static_analysis_tools)
find_package(CppCheck)
if(CMAKE_EXPORT_COMPILE_COMMANDS)
find_package(ClangCheck)
else()
message(STATUS "Disabling clang-check as CMAKE_EXPORT_COMPILE_COMMANDS is not enabled")
endif()
if(OPM_COMMON_ROOT)
set(DIR ${OPM_COMMON_ROOT})
elseif(OPM_MACROS_ROOT)
set(DIR ${OPM_MACROS_ROOT})
else()
set(DIR ${CMAKE_CURRENT_SOURCE_DIR})
endif()
if(CPPCHECK_FOUND)
file(COPY ${DIR}/cmake/Scripts/cppcheck-test.sh
DESTINATION bin
FILE_PERMISSIONS OWNER_READ OWNER_WRITE OWNER_EXECUTE GROUP_READ GROUP_EXECUTE WORLD_READ WORLD_EXECUTE)
endif()
if(CLANGCHECK_FOUND AND CMAKE_EXPORT_COMPILE_COMMANDS)
configure_file(${DIR}/cmake/Scripts/clang-check-test.sh.in
${CMAKE_BINARY_DIR}/CMakeFiles/clang-check-test.sh)
file(COPY ${CMAKE_BINARY_DIR}/CMakeFiles/clang-check-test.sh
DESTINATION bin
FILE_PERMISSIONS OWNER_READ OWNER_WRITE OWNER_EXECUTE GROUP_READ GROUP_EXECUTE WORLD_READ WORLD_EXECUTE)
endif()
endmacro()
function(add_static_analysis_tests sources includes)
if(CPPCHECK_FOUND OR (CLANGCHECK_FOUND AND CMAKE_EXPORT_COMPILE_COMMANDS))
foreach(dep ${${includes}})
list(APPEND IPATHS -I ${dep})
endforeach()
foreach(src ${${sources}})
if(src MATCHES "TARGET_OBJECTS:")
string(REGEX REPLACE "\\$<TARGET_OBJECTS:(.*)>" "\\1" TGT ${src})
get_target_property(src ${TGT} SOURCES)
endif()
if(IS_ABSOLUTE ${src})
file(RELATIVE_PATH name ${PROJECT_SOURCE_DIR} ${src})
else()
set(name ${src})
set(src ${PROJECT_SOURCE_DIR}/${src})
endif()
if(CPPCHECK_FOUND)
if(NOT TEST cppcheck+${name})
add_test(NAME cppcheck+${name}
COMMAND bin/cppcheck-test.sh ${CPPCHECK_PROGRAM} ${src} ${IPATHS}
CONFIGURATIONS analyze cppcheck)
endif()
endif()
if(CLANGCHECK_FOUND AND CMAKE_EXPORT_COMPILE_COMMANDS)
if(NOT TEST clang-check+${name})
add_test(NAME clang-check+${name}
COMMAND bin/clang-check-test.sh ${CLANGCHECK_PROGRAM} ${src}
CONFIGURATIONS analyze clang-check)
endif()
endif()
endforeach()
endif()
endfunction()

53
cmake/Modules/UseThreads.cmake
View File

@ -1,53 +0,0 @@
# - Use PThread features
#
# Synopsis:
#
# find_threads (module)
#
# where:
#
# module Name of the module to which Threads support
# etc. should be added, e.g. "opm-core".
#
# Note: Compiler flags are always added globally, to avoid ABI
# incompatibility problems.
#
# It is assumed that the following variables are available
#
# ${module}_QUIET Verbosity level of the parent's find module
# ${module}_LIBRARIES List of libraries to which Thread support will be added
#
# Example:
# find_threads (opm-core)
include (AddOptions)
include (UseCompVer)
is_compiler_gcc_compatible ()
macro(find_threads opm)
# default is that Threads are added
option(USE_PTHREAD "Use pthreads" ON)
# if USE_PTHREAD is enabled then check and set HAVE_PTHREAD
if( USE_PTHREAD )
# threading library
set (CMAKE_THREAD_PREFER_PTHREAD TRUE)
find_package (Threads ${${opm}_QUIET})
if (CMAKE_USE_PTHREADS_INIT)
list (APPEND ${opm}_LIBRARIES ${CMAKE_THREAD_LIBS_INIT})
if (CXX_COMPAT_GCC)
check_cxx_accepts_flag ("-pthread" HAVE_PTHREAD)
if(HAVE_PTHREAD)
add_options (ALL_LANGUAGES ALL_BUILDS "-pthread")
set(HAVE_PTHREAD "1")
endif(HAVE_PTHREAD)
endif (CXX_COMPAT_GCC)
else(CMAKE_USE_PTHREADS_INIT)
set(USE_PTHREAD OFF)
endif (CMAKE_USE_PTHREADS_INIT)
else( USE_PTHREAD )
# reset HAVE_PTHREAD
set(HAVE_PTHREAD "")
endif( USE_PTHREAD )
endmacro(find_threads opm)

45
cmake/Modules/UseVersion.cmake
View File

@ -14,12 +14,8 @@
# makes changes to any of the unit tests.
message("-- Writing version information to local header project-version.h")
string (TIMESTAMP build_timestamp "%Y-%m-%d at %H:%M:%S hrs")
string (TOUPPER "${CMAKE_BUILD_TYPE}" cmake_build_type_upper_)
set(OPM_BINARY_PACKAGE_VERSION "" CACHE STRING
"Version of the binary Linux package built (will be printed in PRT file of flow if not empty)")
string(LENGTH "${OPM_BINARY_PACKAGE_VERSION}" _BINARY_PACKAGE_VERSION_LENGTH)
if (cmake_build_type_upper_ MATCHES DEBUG)
file (WRITE "${PROJECT_BINARY_DIR}/project-version.h"
"#ifndef OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
@ -29,14 +25,6 @@ if (cmake_build_type_upper_ MATCHES DEBUG)
"#define PROJECT_VERSION \"${${project}_LABEL} (debug)\"\n"
"#endif // OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
)
# Write header file with build timestamp
file (WRITE "${PROJECT_BINARY_DIR}/project-timestamp.h"
"#ifndef OPM_GENERATED_OPM_TIMESTAMP_HEADER_INCLUDED\n"
"#define OPM_GENERATED_OPM_TIMESTAMP_HEADER_INCLUDED\n"
"#define BUILD_TIMESTAMP \"${build_timestamp}\"\n"
"#endif // OPM_GENERATED_OPM_TIMESTAMP_HEADER_INCLUDED\n"
)
else ()
if (NOT GIT_FOUND)
find_package (Git)
@ -46,30 +34,15 @@ else ()
# system, so there is "no" way we can update the SHA. notice
# that this is a slightly different version of the label than
# above.
if (NOT GIT_FOUND OR NOT EXISTS ${PROJECT_SOURCE_DIR}/.git)
if(_BINARY_PACKAGE_VERSION_LENGTH GREATER 0)
set(_PROJECT_VERSION_HASH "${OPM_BINARY_PACKAGE_VERSION}")
else()
set(_PROJECT_VERSION_HASH "unknown git version")
endif()
file (WRITE "${PROJECT_BINARY_DIR}/project-version.h"
"#ifndef OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
"#define OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
"#define PROJECT_VERSION_NAME \"${${project}_LABEL}\"\n"
"#define PROJECT_VERSION_HASH \"${_PROJECT_VERSION_HASH}\"\n"
"#define PROJECT_VERSION \"${${project}_LABEL} (${_PROJECT_VERSION_HASH})\"\n"
"#endif // OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
)
# Write header file with build timestamp
file (WRITE "${PROJECT_BINARY_DIR}/project-timestamp.h"
"#ifndef OPM_GENERATED_OPM_TIMESTAMP_HEADER_INCLUDED\n"
"#define OPM_GENERATED_OPM_TIMESTAMP_HEADER_INCLUDED\n")
if (_BINARY_PACKAGE_VERSION_LENGTH EQUAL 0)
file(APPEND "${PROJECT_BINARY_DIR}/project-timestamp.h"
"#define BUILD_TIMESTAMP \"${build_timestamp}\"\n")
endif()
file(APPEND "${PROJECT_BINARY_DIR}/project-timestamp.h"
"#endif // OPM_GENERATED_OPM_TIMESTAMP_HEADER_INCLUDED\n")
if (NOT GIT_FOUND)
file (WRITE "${PROJECT_BINARY_DIR}/project-version.h"
"#ifndef OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
"#define OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
"#define PROJECT_VERSION_NAME \"${${project}_LABEL}\"\n"
"#define PROJECT_VERSION_HASH \"unknown git version\"\n"
"#define PROJECT_VERSION \"${${project}_LABEL} (unknown git version)\"\n"
"#endif // OPM_GENERATED_OPM_VERSION_HEADER_INCLUDED\n"
)
else ()
add_custom_target (update-version ALL
COMMAND ${CMAKE_COMMAND}

2
cmake/Modules/UseWarnings.cmake
View File

@ -6,7 +6,7 @@ is_compiler_gcc_compatible ()
if (CXX_COMPAT_GCC)
# default warnings flags, if not set by user
set_default_option (CXX _warn_flag "-Wall -Wextra -Wshadow" "(^|\ )-W")
set_default_option (CXX _warn_flag "-Wall" "(^|\ )-W")
if (_warn_flag)
message (STATUS "All warnings enabled: ${_warn_flag}")
add_options (ALL_LANGUAGES ALL_BUILDS "${_warn_flag}")

138
cmake/Modules/compat-2.8.3/CMakeParseArguments.cmake Normal file
View File

@ -0,0 +1,138 @@
# CMAKE_PARSE_ARGUMENTS(<prefix> <options> <one_value_keywords> <multi_value_keywords> args...)
#
# CMAKE_PARSE_ARGUMENTS() is intended to be used in macros or functions for
# parsing the arguments given to that macro or function.
# It processes the arguments and defines a set of variables which hold the
# values of the respective options.
#
# The <options> argument contains all options for the respective macro,
# i.e. keywords which can be used when calling the macro without any value
# following, like e.g. the OPTIONAL keyword of the install() command.
#
# The <one_value_keywords> argument contains all keywords for this macro
# which are followed by one value, like e.g. DESTINATION keyword of the
# install() command.
#
# The <multi_value_keywords> argument contains all keywords for this macro
# which can be followed by more than one value, like e.g. the TARGETS or
# FILES keywords of the install() command.
#
# When done, CMAKE_PARSE_ARGUMENTS() will have defined for each of the
# keywords listed in <options>, <one_value_keywords> and
# <multi_value_keywords> a variable composed of the given <prefix>
# followed by "_" and the name of the respective keyword.
# These variables will then hold the respective value from the argument list.
# For the <options> keywords this will be TRUE or FALSE.
#
# All remaining arguments are collected in a variable
# <prefix>_UNPARSED_ARGUMENTS, this can be checked afterwards to see whether
# your macro was called with unrecognized parameters.
#
# As an example here a my_install() macro, which takes similar arguments as the
# real install() command:
#
# function(MY_INSTALL)
# set(options OPTIONAL FAST)
# set(oneValueArgs DESTINATION RENAME)
# set(multiValueArgs TARGETS CONFIGURATIONS)
# cmake_parse_arguments(MY_INSTALL "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN} )
# ...
#
# Assume my_install() has been called like this:
# my_install(TARGETS foo bar DESTINATION bin OPTIONAL blub)
#
# After the cmake_parse_arguments() call the macro will have set the following
# variables:
# MY_INSTALL_OPTIONAL = TRUE
# MY_INSTALL_FAST = FALSE (this option was not used when calling my_install()
# MY_INSTALL_DESTINATION = "bin"
# MY_INSTALL_RENAME = "" (was not used)
# MY_INSTALL_TARGETS = "foo;bar"
# MY_INSTALL_CONFIGURATIONS = "" (was not used)
# MY_INSTALL_UNPARSED_ARGUMENTS = "blub" (no value expected after "OPTIONAL"
#
# You can the continue and process these variables.
#
# Keywords terminate lists of values, e.g. if directly after a one_value_keyword
# another recognized keyword follows, this is interpreted as the beginning of
# the new option.
# E.g. my_install(TARGETS foo DESTINATION OPTIONAL) would result in
# MY_INSTALL_DESTINATION set to "OPTIONAL", but MY_INSTALL_DESTINATION would
# be empty and MY_INSTALL_OPTIONAL would be set to TRUE therefor.
#=============================================================================
# Copyright 2010 Alexander Neundorf <neundorf@kde.org>
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
if(__CMAKE_PARSE_ARGUMENTS_INCLUDED)
return()
endif()
set(__CMAKE_PARSE_ARGUMENTS_INCLUDED TRUE)
function(CMAKE_PARSE_ARGUMENTS prefix _optionNames _singleArgNames _multiArgNames)
# first set all result variables to empty/FALSE
foreach(arg_name ${_singleArgNames} ${_multiArgNames})
set(${prefix}_${arg_name})
endforeach(arg_name)
foreach(option ${_optionNames})
set(${prefix}_${option} FALSE)
endforeach(option)
set(${prefix}_UNPARSED_ARGUMENTS)
set(insideValues FALSE)
set(currentArgName)
# now iterate over all arguments and fill the result variables
foreach(currentArg ${ARGN})
list(FIND _optionNames "${currentArg}" optionIndex) # ... then this marks the end of the arguments belonging to this keyword
list(FIND _singleArgNames "${currentArg}" singleArgIndex) # ... then this marks the end of the arguments belonging to this keyword
list(FIND _multiArgNames "${currentArg}" multiArgIndex) # ... then this marks the end of the arguments belonging to this keyword
if(${optionIndex} EQUAL -1 AND ${singleArgIndex} EQUAL -1 AND ${multiArgIndex} EQUAL -1)
if(insideValues)
if("${insideValues}" STREQUAL "SINGLE")
set(${prefix}_${currentArgName} ${currentArg})
set(insideValues FALSE)
elseif("${insideValues}" STREQUAL "MULTI")
list(APPEND ${prefix}_${currentArgName} ${currentArg})
endif()
else(insideValues)
list(APPEND ${prefix}_UNPARSED_ARGUMENTS ${currentArg})
endif(insideValues)
else()
if(NOT ${optionIndex} EQUAL -1)
set(${prefix}_${currentArg} TRUE)
set(insideValues FALSE)
elseif(NOT ${singleArgIndex} EQUAL -1)
set(currentArgName ${currentArg})
set(${prefix}_${currentArgName})
set(insideValues "SINGLE")
elseif(NOT ${multiArgIndex} EQUAL -1)
set(currentArgName ${currentArg})
set(${prefix}_${currentArgName})
set(insideValues "MULTI")
endif()
endif()
endforeach(currentArg)
# propagate the result variables to the caller:
foreach(arg_name ${_singleArgNames} ${_multiArgNames} ${_optionNames})
set(${prefix}_${arg_name} ${${prefix}_${arg_name}} PARENT_SCOPE)
endforeach(arg_name)
set(${prefix}_UNPARSED_ARGUMENTS ${${prefix}_UNPARSED_ARGUMENTS} PARENT_SCOPE)
endfunction(CMAKE_PARSE_ARGUMENTS _options _singleArgs _multiArgs)

47
cmake/Modules/compat-2.8.5/FindGit.cmake Normal file
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# The module defines the following variables:
# GIT_EXECUTABLE - path to git command line client
# GIT_FOUND - true if the command line client was found
# Example usage:
# find_package(Git)
# if(GIT_FOUND)
# message("git found: ${GIT_EXECUTABLE}")
# endif()
#=============================================================================
# Copyright 2010 Kitware, Inc.
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
# Look for 'git' or 'eg' (easy git)
#
set(git_names git eg)
# Prefer .cmd variants on Windows unless running in a Makefile
# in the MSYS shell.
#
if(WIN32)
if(NOT CMAKE_GENERATOR MATCHES "MSYS")
set(git_names git.cmd git eg.cmd eg)
endif()
endif()
find_program(GIT_EXECUTABLE
NAMES ${git_names}
PATH_SUFFIXES Git/cmd Git/bin
DOC "git command line client"
)
mark_as_advanced(GIT_EXECUTABLE)
# Handle the QUIETLY and REQUIRED arguments and set GIT_FOUND to TRUE if
# all listed variables are TRUE
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(Git DEFAULT_MSG GIT_EXECUTABLE)

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# This module defines two macros:
# CMAKE_PUSH_CHECK_STATE()
# and
# CMAKE_POP_CHECK_STATE()
# These two macros can be used to save and restore the state of the variables
# CMAKE_REQUIRED_FLAGS, CMAKE_REQUIRED_DEFINITIONS, CMAKE_REQUIRED_LIBRARIES
# and CMAKE_REQUIRED_INCLUDES used by the various Check-files coming with CMake,
# like e.g. check_function_exists() etc.
# The variable contents are pushed on a stack, pushing multiple times is supported.
# This is useful e.g. when executing such tests in a Find-module, where they have to be set,
# but after the Find-module has been executed they should have the same value
# as they had before.
#
# Usage:
# cmake_push_check_state()
# set(CMAKE_REQUIRED_DEFINITIONS ${CMAKE_REQUIRED_DEFINITIONS} -DSOME_MORE_DEF)
# check_function_exists(...)
# cmake_pop_check_state()
#=============================================================================
# Copyright 2006-2011 Alexander Neundorf, <neundorf@kde.org>
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
MACRO(CMAKE_PUSH_CHECK_STATE)
IF(NOT DEFINED _CMAKE_PUSH_CHECK_STATE_COUNTER)
SET(_CMAKE_PUSH_CHECK_STATE_COUNTER 0)
ENDIF()
MATH(EXPR _CMAKE_PUSH_CHECK_STATE_COUNTER "${_CMAKE_PUSH_CHECK_STATE_COUNTER}+1")
SET(_CMAKE_REQUIRED_INCLUDES_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER} ${CMAKE_REQUIRED_INCLUDES})
SET(_CMAKE_REQUIRED_DEFINITIONS_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER} ${CMAKE_REQUIRED_DEFINITIONS})
SET(_CMAKE_REQUIRED_LIBRARIES_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER} ${CMAKE_REQUIRED_LIBRARIES})
SET(_CMAKE_REQUIRED_FLAGS_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER} ${CMAKE_REQUIRED_FLAGS})
ENDMACRO(CMAKE_PUSH_CHECK_STATE)
MACRO(CMAKE_POP_CHECK_STATE)
# don't pop more than we pushed
IF("${_CMAKE_PUSH_CHECK_STATE_COUNTER}" GREATER "0")
SET(CMAKE_REQUIRED_INCLUDES ${_CMAKE_REQUIRED_INCLUDES_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER}})
SET(CMAKE_REQUIRED_DEFINITIONS ${_CMAKE_REQUIRED_DEFINITIONS_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER}})
SET(CMAKE_REQUIRED_LIBRARIES ${_CMAKE_REQUIRED_LIBRARIES_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER}})
SET(CMAKE_REQUIRED_FLAGS ${_CMAKE_REQUIRED_FLAGS_SAVE_${_CMAKE_PUSH_CHECK_STATE_COUNTER}})
MATH(EXPR _CMAKE_PUSH_CHECK_STATE_COUNTER "${_CMAKE_PUSH_CHECK_STATE_COUNTER}-1")
ENDIF()
ENDMACRO(CMAKE_POP_CHECK_STATE)

624
cmake/Modules/compat-2.8.7/FindBLAS.cmake Normal file
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# - Find BLAS library
# This module finds an installed fortran library that implements the BLAS
# linear-algebra interface (see http://www.netlib.org/blas/).
# The list of libraries searched for is taken
# from the autoconf macro file, acx_blas.m4 (distributed at
# http://ac-archive.sourceforge.net/ac-archive/acx_blas.html).
#
# This module sets the following variables:
# BLAS_FOUND - set to true if a library implementing the BLAS interface
# is found
# BLAS_LINKER_FLAGS - uncached list of required linker flags (excluding -l
# and -L).
# BLAS_LIBRARIES - uncached list of libraries (using full path name) to
# link against to use BLAS
# BLAS95_LIBRARIES - uncached list of libraries (using full path name)
# to link against to use BLAS95 interface
# BLAS95_FOUND - set to true if a library implementing the BLAS f95 interface
# is found
# BLA_STATIC if set on this determines what kind of linkage we do (static)
# BLA_VENDOR if set checks only the specified vendor, if not set checks
# all the possibilities
# BLA_F95 if set on tries to find the f95 interfaces for BLAS/LAPACK
##########
### List of vendors (BLA_VENDOR) valid in this module
## Goto,ATLAS PhiPACK,CXML,DXML,SunPerf,SCSL,SGIMATH,IBMESSL,Intel10_32 (intel mkl v10 32 bit),Intel10_64lp (intel mkl v10 64 bit,lp thread model, lp64 model),
## Intel( older versions of mkl 32 and 64 bit), ACML,ACML_MP,ACML_GPU,Apple, NAS, Generic
# C/CXX should be enabled to use Intel mkl
#=============================================================================
# Copyright 2007-2009 Kitware, Inc.
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
include(CheckFunctionExists)
include(CheckFortranFunctionExists)
set(_blas_ORIG_CMAKE_FIND_LIBRARY_SUFFIXES ${CMAKE_FIND_LIBRARY_SUFFIXES})
# Check the language being used
get_property( _LANGUAGES_ GLOBAL PROPERTY ENABLED_LANGUAGES )
if( _LANGUAGES_ MATCHES Fortran )
set( _CHECK_FORTRAN TRUE )
elseif( (_LANGUAGES_ MATCHES C) OR (_LANGUAGES_ MATCHES CXX) )
set( _CHECK_FORTRAN FALSE )
else()
if(BLAS_FIND_REQUIRED)
message(FATAL_ERROR "FindBLAS requires Fortran, C, or C++ to be enabled.")
else(BLAS_FIND_REQUIRED)
message(STATUS "Looking for BLAS... - NOT found (Unsupported languages)")
return()
endif(BLAS_FIND_REQUIRED)
endif( )
macro(Check_Fortran_Libraries LIBRARIES _prefix _name _flags _list _thread)
# This macro checks for the existence of the combination of fortran libraries
# given by _list. If the combination is found, this macro checks (using the
# Check_Fortran_Function_Exists macro) whether can link against that library
# combination using the name of a routine given by _name using the linker
# flags given by _flags. If the combination of libraries is found and passes
# the link test, LIBRARIES is set to the list of complete library paths that
# have been found. Otherwise, LIBRARIES is set to FALSE.
# N.B. _prefix is the prefix applied to the names of all cached variables that
# are generated internally and marked advanced by this macro.
set(_libdir ${ARGN})
set(_libraries_work TRUE)
set(${LIBRARIES})
set(_combined_name)
if (NOT _libdir)
if (WIN32)
set(_libdir ENV LIB)
elseif (APPLE)
set(_libdir /usr/local/lib /usr/lib /usr/local/lib64 /usr/lib64 ENV DYLD_LIBRARY_PATH)
else ()
set(_libdir /usr/local/lib /usr/lib /usr/local/lib64 /usr/lib64 ENV LD_LIBRARY_PATH)
endif ()
endif ()
foreach(_library ${_list})
set(_combined_name ${_combined_name}_${_library})
if(_libraries_work)
if (BLA_STATIC)
if (WIN32)
set(CMAKE_FIND_LIBRARY_SUFFIXES .lib ${CMAKE_FIND_LIBRARY_SUFFIXES})
endif ( WIN32 )
if (APPLE)
set(CMAKE_FIND_LIBRARY_SUFFIXES .lib ${CMAKE_FIND_LIBRARY_SUFFIXES})
else (APPLE)
set(CMAKE_FIND_LIBRARY_SUFFIXES .a ${CMAKE_FIND_LIBRARY_SUFFIXES})
endif (APPLE)
else (BLA_STATIC)
if (CMAKE_SYSTEM_NAME STREQUAL "Linux")
# for ubuntu's libblas3gf and liblapack3gf packages
set(CMAKE_FIND_LIBRARY_SUFFIXES ${CMAKE_FIND_LIBRARY_SUFFIXES} .so.3gf)
endif ()
endif (BLA_STATIC)
find_library(${_prefix}_${_library}_LIBRARY
NAMES ${_library}
PATHS ${_libdir}
)
mark_as_advanced(${_prefix}_${_library}_LIBRARY)
set(${LIBRARIES} ${${LIBRARIES}} ${${_prefix}_${_library}_LIBRARY})
set(_libraries_work ${${_prefix}_${_library}_LIBRARY})
endif(_libraries_work)
endforeach(_library ${_list})
if(_libraries_work)
# Test this combination of libraries.
set(CMAKE_REQUIRED_LIBRARIES ${_flags} ${${LIBRARIES}} ${_threads})
# message("DEBUG: CMAKE_REQUIRED_LIBRARIES = ${CMAKE_REQUIRED_LIBRARIES}")
if (_CHECK_FORTRAN)
check_fortran_function_exists("${_name}" ${_prefix}${_combined_name}_WORKS)
else()
check_function_exists("${_name}_" ${_prefix}${_combined_name}_WORKS)
endif()
set(CMAKE_REQUIRED_LIBRARIES)
mark_as_advanced(${_prefix}${_combined_name}_WORKS)
set(_libraries_work ${${_prefix}${_combined_name}_WORKS})
endif(_libraries_work)
if(NOT _libraries_work)
set(${LIBRARIES} FALSE)
endif(NOT _libraries_work)
#message("DEBUG: ${LIBRARIES} = ${${LIBRARIES}}")
endmacro(Check_Fortran_Libraries)
set(BLAS_LINKER_FLAGS)
set(BLAS_LIBRARIES)
set(BLAS95_LIBRARIES)
if ($ENV{BLA_VENDOR} MATCHES ".+")
set(BLA_VENDOR $ENV{BLA_VENDOR})
else ($ENV{BLA_VENDOR} MATCHES ".+")
if(NOT BLA_VENDOR)
set(BLA_VENDOR "All")
endif(NOT BLA_VENDOR)
endif ($ENV{BLA_VENDOR} MATCHES ".+")
if (BLA_VENDOR STREQUAL "Goto" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
# gotoblas (http://www.tacc.utexas.edu/tacc-projects/gotoblas2)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"goto2"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "Goto" OR BLA_VENDOR STREQUAL "All")
if (BLA_VENDOR STREQUAL "ATLAS" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
# BLAS in ATLAS library? (http://math-atlas.sourceforge.net/)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
dgemm
""
"f77blas;atlas"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "ATLAS" OR BLA_VENDOR STREQUAL "All")
# BLAS in PhiPACK libraries? (requires generic BLAS lib, too)
if (BLA_VENDOR STREQUAL "PhiPACK" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"sgemm;dgemm;blas"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "PhiPACK" OR BLA_VENDOR STREQUAL "All")
# BLAS in Alpha CXML library?
if (BLA_VENDOR STREQUAL "CXML" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"cxml"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "CXML" OR BLA_VENDOR STREQUAL "All")
# BLAS in Alpha DXML library? (now called CXML, see above)
if (BLA_VENDOR STREQUAL "DXML" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"dxml"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "DXML" OR BLA_VENDOR STREQUAL "All")
# BLAS in Sun Performance library?
if (BLA_VENDOR STREQUAL "SunPerf" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
"-xlic_lib=sunperf"
"sunperf;sunmath"
""
)
if(BLAS_LIBRARIES)
set(BLAS_LINKER_FLAGS "-xlic_lib=sunperf")
endif(BLAS_LIBRARIES)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "SunPerf" OR BLA_VENDOR STREQUAL "All")
# BLAS in SCSL library? (SGI/Cray Scientific Library)
if (BLA_VENDOR STREQUAL "SCSL" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"scsl"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "SCSL" OR BLA_VENDOR STREQUAL "All")
# BLAS in SGIMATH library?
if (BLA_VENDOR STREQUAL "SGIMATH" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"complib.sgimath"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "SGIMATH" OR BLA_VENDOR STREQUAL "All")
# BLAS in IBM ESSL library? (requires generic BLAS lib, too)
if (BLA_VENDOR STREQUAL "IBMESSL" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"essl;blas"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "IBMESSL" OR BLA_VENDOR STREQUAL "All")
#BLAS in acml library?
if (BLA_VENDOR MATCHES "ACML.*" OR BLA_VENDOR STREQUAL "All")
if( ((BLA_VENDOR STREQUAL "ACML") AND (NOT BLAS_ACML_LIB_DIRS)) OR
((BLA_VENDOR STREQUAL "ACML_MP") AND (NOT BLAS_ACML_MP_LIB_DIRS)) OR
((BLA_VENDOR STREQUAL "ACML_GPU") AND (NOT BLAS_ACML_GPU_LIB_DIRS))
)
# try to find acml in "standard" paths
if( WIN32 )
file( GLOB _ACML_ROOT "C:/AMD/acml*/ACML-EULA.txt" )
else()
file( GLOB _ACML_ROOT "/opt/acml*/ACML-EULA.txt" )
endif()
if( WIN32 )
file( GLOB _ACML_GPU_ROOT "C:/AMD/acml*/GPGPUexamples" )
else()
file( GLOB _ACML_GPU_ROOT "/opt/acml*/GPGPUexamples" )
endif()
list(GET _ACML_ROOT 0 _ACML_ROOT)
list(GET _ACML_GPU_ROOT 0 _ACML_GPU_ROOT)
if( _ACML_ROOT )
get_filename_component( _ACML_ROOT ${_ACML_ROOT} PATH )
if( SIZEOF_INTEGER EQUAL 8 )
set( _ACML_PATH_SUFFIX "_int64" )
else()
set( _ACML_PATH_SUFFIX "" )
endif()
if( CMAKE_Fortran_COMPILER_ID STREQUAL "Intel" )
set( _ACML_COMPILER32 "ifort32" )
set( _ACML_COMPILER64 "ifort64" )
elseif( CMAKE_Fortran_COMPILER_ID STREQUAL "SunPro" )
set( _ACML_COMPILER32 "sun32" )
set( _ACML_COMPILER64 "sun64" )
elseif( CMAKE_Fortran_COMPILER_ID STREQUAL "PGI" )
set( _ACML_COMPILER32 "pgi32" )
if( WIN32 )
set( _ACML_COMPILER64 "win64" )
else()
set( _ACML_COMPILER64 "pgi64" )
endif()
elseif( CMAKE_Fortran_COMPILER_ID STREQUAL "Open64" )
# 32 bit builds not supported on Open64 but for code simplicity
# We'll just use the same directory twice
set( _ACML_COMPILER32 "open64_64" )
set( _ACML_COMPILER64 "open64_64" )
elseif( CMAKE_Fortran_COMPILER_ID STREQUAL "NAG" )
set( _ACML_COMPILER32 "nag32" )
set( _ACML_COMPILER64 "nag64" )
else() #if( CMAKE_Fortran_COMPILER_ID STREQUAL "GNU" )
set( _ACML_COMPILER32 "gfortran32" )
set( _ACML_COMPILER64 "gfortran64" )
endif()
if( BLA_VENDOR STREQUAL "ACML_MP" )
set(_ACML_MP_LIB_DIRS
"${_ACML_ROOT}/${_ACML_COMPILER32}_mp${_ACML_PATH_SUFFIX}/lib"
"${_ACML_ROOT}/${_ACML_COMPILER64}_mp${_ACML_PATH_SUFFIX}/lib" )
else() #if( _BLAS_VENDOR STREQUAL "ACML" )
set(_ACML_LIB_DIRS
"${_ACML_ROOT}/${_ACML_COMPILER32}${_ACML_PATH_SUFFIX}/lib"
"${_ACML_ROOT}/${_ACML_COMPILER64}${_ACML_PATH_SUFFIX}/lib" )
endif()
endif()
elseif(BLAS_${BLA_VENDOR}_LIB_DIRS)
set(_${BLA_VENDOR}_LIB_DIRS ${BLAS_${BLA_VENDOR}_LIB_DIRS})
endif()
if( BLA_VENDOR STREQUAL "ACML_MP" )
foreach( BLAS_ACML_MP_LIB_DIRS ${_ACML_MP_LIB_DIRS})
check_fortran_libraries (
BLAS_LIBRARIES
BLAS
sgemm
"" "acml_mp;acml_mv" "" ${BLAS_ACML_MP_LIB_DIRS}
)
if( BLAS_LIBRARIES )
break()
endif()
endforeach()
elseif( BLA_VENDOR STREQUAL "ACML_GPU" )
foreach( BLAS_ACML_GPU_LIB_DIRS ${_ACML_GPU_LIB_DIRS})
check_fortran_libraries (
BLAS_LIBRARIES
BLAS
sgemm
"" "acml;acml_mv;CALBLAS" "" ${BLAS_ACML_GPU_LIB_DIRS}
)
if( BLAS_LIBRARIES )
break()
endif()
endforeach()
else() #if( _BLAS_VENDOR STREQUAL "ACML" )
foreach( BLAS_ACML_LIB_DIRS ${_ACML_LIB_DIRS} )
check_fortran_libraries (
BLAS_LIBRARIES
BLAS
sgemm
"" "acml;acml_mv" "" ${BLAS_ACML_LIB_DIRS}
)
if( BLAS_LIBRARIES )
break()
endif()
endforeach()
endif()
# Either acml or acml_mp should be in LD_LIBRARY_PATH but not both
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"acml;acml_mv"
""
)
endif(NOT BLAS_LIBRARIES)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"acml_mp;acml_mv"
""
)
endif(NOT BLAS_LIBRARIES)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"acml;acml_mv;CALBLAS"
""
)
endif(NOT BLAS_LIBRARIES)
endif () # ACML
# Apple BLAS library?
if (BLA_VENDOR STREQUAL "Apple" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
dgemm
""
"Accelerate"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "Apple" OR BLA_VENDOR STREQUAL "All")
if (BLA_VENDOR STREQUAL "NAS" OR BLA_VENDOR STREQUAL "All")
if ( NOT BLAS_LIBRARIES )
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
dgemm
""
"vecLib"
""
)
endif ( NOT BLAS_LIBRARIES )
endif (BLA_VENDOR STREQUAL "NAS" OR BLA_VENDOR STREQUAL "All")
# Generic BLAS library?
if (BLA_VENDOR STREQUAL "Generic" OR BLA_VENDOR STREQUAL "All")
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"blas"
""
)
endif(NOT BLAS_LIBRARIES)
endif (BLA_VENDOR STREQUAL "Generic" OR BLA_VENDOR STREQUAL "All")
#BLAS in intel mkl 10 library? (em64t 64bit)
if (BLA_VENDOR MATCHES "Intel*" OR BLA_VENDOR STREQUAL "All")
if (NOT WIN32)
set(LM "-lm")
endif ()
if (_LANGUAGES_ MATCHES C OR _LANGUAGES_ MATCHES CXX)
if(BLAS_FIND_QUIETLY OR NOT BLAS_FIND_REQUIRED)
find_package(Threads)
else(BLAS_FIND_QUIETLY OR NOT BLAS_FIND_REQUIRED)
find_package(Threads REQUIRED)
endif(BLAS_FIND_QUIETLY OR NOT BLAS_FIND_REQUIRED)
if (WIN32)
if(BLA_F95)
if(NOT BLAS95_LIBRARIES)
check_fortran_libraries(
BLAS95_LIBRARIES
BLAS
sgemm
""
"mkl_blas95;mkl_intel_c;mkl_intel_thread;mkl_core;libguide40"
""
)
endif(NOT BLAS95_LIBRARIES)
else(BLA_F95)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
SGEMM
""
"mkl_c_dll;mkl_intel_thread_dll;mkl_core_dll;libguide40"
""
)
endif(NOT BLAS_LIBRARIES)
endif(BLA_F95)
else(WIN32)
if (BLA_VENDOR STREQUAL "Intel10_32" OR BLA_VENDOR STREQUAL "All")
if(BLA_F95)
if(NOT BLAS95_LIBRARIES)
check_fortran_libraries(
BLAS95_LIBRARIES
BLAS
sgemm
""
"mkl_blas95;mkl_intel;mkl_intel_thread;mkl_core;guide"
"${CMAKE_THREAD_LIBS_INIT};${LM}"
)
endif(NOT BLAS95_LIBRARIES)
else(BLA_F95)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"mkl_intel;mkl_intel_thread;mkl_core;guide"
"${CMAKE_THREAD_LIBS_INIT}"
"${LM}"
)
endif(NOT BLAS_LIBRARIES)
endif(BLA_F95)
endif (BLA_VENDOR STREQUAL "Intel10_32" OR BLA_VENDOR STREQUAL "All")
if (BLA_VENDOR STREQUAL "Intel10_64lp" OR BLA_VENDOR STREQUAL "All")
if(BLA_F95)
if(NOT BLAS95_LIBRARIES)
check_fortran_libraries(
BLAS95_LIBRARIES
BLAS
sgemm
""
"mkl_blas95;mkl_intel_lp64;mkl_intel_thread;mkl_core;guide"
"${CMAKE_THREAD_LIBS_INIT};${LM}"
)
endif(NOT BLAS95_LIBRARIES)
else(BLA_F95)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"mkl_intel_lp64;mkl_intel_thread;mkl_core;guide"
"${CMAKE_THREAD_LIBS_INIT};${LM}"
)
endif(NOT BLAS_LIBRARIES)
endif(BLA_F95)
endif (BLA_VENDOR STREQUAL "Intel10_64lp" OR BLA_VENDOR STREQUAL "All")
endif (WIN32)
#older vesions of intel mkl libs
# BLAS in intel mkl library? (shared)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"mkl;guide"
"${CMAKE_THREAD_LIBS_INIT};${LM}"
)
endif(NOT BLAS_LIBRARIES)
#BLAS in intel mkl library? (static, 32bit)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"mkl_ia32;guide"
"${CMAKE_THREAD_LIBS_INIT};${LM}"
)
endif(NOT BLAS_LIBRARIES)
#BLAS in intel mkl library? (static, em64t 64bit)
if(NOT BLAS_LIBRARIES)
check_fortran_libraries(
BLAS_LIBRARIES
BLAS
sgemm
""
"mkl_em64t;guide"
"${CMAKE_THREAD_LIBS_INIT};${LM}"
)
endif(NOT BLAS_LIBRARIES)
endif (_LANGUAGES_ MATCHES C OR _LANGUAGES_ MATCHES CXX)
endif (BLA_VENDOR MATCHES "Intel*" OR BLA_VENDOR STREQUAL "All")
if(BLA_F95)
if(BLAS95_LIBRARIES)
set(BLAS95_FOUND TRUE)
else(BLAS95_LIBRARIES)
set(BLAS95_FOUND FALSE)
endif(BLAS95_LIBRARIES)
if(NOT BLAS_FIND_QUIETLY)
if(BLAS95_FOUND)
message(STATUS "A library with BLAS95 API found.")
else(BLAS95_FOUND)
if(BLAS_FIND_REQUIRED)
message(FATAL_ERROR
"A required library with BLAS95 API not found. Please specify library location.")
else(BLAS_FIND_REQUIRED)
message(STATUS
"A library with BLAS95 API not found. Please specify library location.")
endif(BLAS_FIND_REQUIRED)
endif(BLAS95_FOUND)
endif(NOT BLAS_FIND_QUIETLY)
set(BLAS_FOUND TRUE)
set(BLAS_LIBRARIES "${BLAS95_LIBRARIES}")
else(BLA_F95)
if(BLAS_LIBRARIES)
set(BLAS_FOUND TRUE)
else(BLAS_LIBRARIES)
set(BLAS_FOUND FALSE)
endif(BLAS_LIBRARIES)
if(NOT BLAS_FIND_QUIETLY)
if(BLAS_FOUND)
message(STATUS "A library with BLAS API found.")
else(BLAS_FOUND)
if(BLAS_FIND_REQUIRED)
message(FATAL_ERROR
"A required library with BLAS API not found. Please specify library location."
)
else(BLAS_FIND_REQUIRED)
message(STATUS
"A library with BLAS API not found. Please specify library location."
)
endif(BLAS_FIND_REQUIRED)
endif(BLAS_FOUND)
endif(NOT BLAS_FIND_QUIETLY)
endif(BLA_F95)
set(CMAKE_FIND_LIBRARY_SUFFIXES ${_blas_ORIG_CMAKE_FIND_LIBRARY_SUFFIXES})

307
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# - Find LAPACK library
# This module finds an installed fortran library that implements the LAPACK
# linear-algebra interface (see http://www.netlib.org/lapack/).
#
# The approach follows that taken for the autoconf macro file, acx_lapack.m4
# (distributed at http://ac-archive.sourceforge.net/ac-archive/acx_lapack.html).
#
# This module sets the following variables:
# LAPACK_FOUND - set to true if a library implementing the LAPACK interface
# is found
# LAPACK_LINKER_FLAGS - uncached list of required linker flags (excluding -l
# and -L).
# LAPACK_LIBRARIES - uncached list of libraries (using full path name) to
# link against to use LAPACK
# LAPACK95_LIBRARIES - uncached list of libraries (using full path name) to
# link against to use LAPACK95
# LAPACK95_FOUND - set to true if a library implementing the LAPACK f95
# interface is found
# BLA_STATIC if set on this determines what kind of linkage we do (static)
# BLA_VENDOR if set checks only the specified vendor, if not set checks
# all the possibilities
# BLA_F95 if set on tries to find the f95 interfaces for BLAS/LAPACK
### List of vendors (BLA_VENDOR) valid in this module
## Intel(mkl), ACML,Apple, NAS, Generic
#=============================================================================
# Copyright 2007-2009 Kitware, Inc.
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
set(_lapack_ORIG_CMAKE_FIND_LIBRARY_SUFFIXES ${CMAKE_FIND_LIBRARY_SUFFIXES})
get_property(_LANGUAGES_ GLOBAL PROPERTY ENABLED_LANGUAGES)
if (NOT _LANGUAGES_ MATCHES Fortran)
include(CheckFunctionExists)
else (NOT _LANGUAGES_ MATCHES Fortran)
include(CheckFortranFunctionExists)
endif (NOT _LANGUAGES_ MATCHES Fortran)
set(LAPACK_FOUND FALSE)
set(LAPACK95_FOUND FALSE)
# TODO: move this stuff to separate module
macro(Check_Lapack_Libraries LIBRARIES _prefix _name _flags _list _blas _threads)
# This macro checks for the existence of the combination of fortran libraries
# given by _list. If the combination is found, this macro checks (using the
# Check_Fortran_Function_Exists macro) whether can link against that library
# combination using the name of a routine given by _name using the linker
# flags given by _flags. If the combination of libraries is found and passes
# the link test, LIBRARIES is set to the list of complete library paths that
# have been found. Otherwise, LIBRARIES is set to FALSE.
# N.B. _prefix is the prefix applied to the names of all cached variables that
# are generated internally and marked advanced by this macro.
set(_libraries_work TRUE)
set(${LIBRARIES})
set(_combined_name)
if (NOT _libdir)
if (WIN32)
set(_libdir ENV LIB)
elseif (APPLE)
set(_libdir /usr/local/lib /usr/lib /usr/local/lib64 /usr/lib64 ENV DYLD_LIBRARY_PATH)
else ()
set(_libdir /usr/local/lib /usr/lib /usr/local/lib64 /usr/lib64 ENV LD_LIBRARY_PATH)
endif ()
endif ()
foreach(_library ${_list})
set(_combined_name ${_combined_name}_${_library})
if(_libraries_work)
if (BLA_STATIC)
if (WIN32)
set(CMAKE_FIND_LIBRARY_SUFFIXES .lib ${CMAKE_FIND_LIBRARY_SUFFIXES})
endif ( WIN32 )
if (APPLE)
set(CMAKE_FIND_LIBRARY_SUFFIXES .lib ${CMAKE_FIND_LIBRARY_SUFFIXES})
else (APPLE)
set(CMAKE_FIND_LIBRARY_SUFFIXES .a ${CMAKE_FIND_LIBRARY_SUFFIXES})
endif (APPLE)
else (BLA_STATIC)
if (CMAKE_SYSTEM_NAME STREQUAL "Linux")
# for ubuntu's libblas3gf and liblapack3gf packages
set(CMAKE_FIND_LIBRARY_SUFFIXES ${CMAKE_FIND_LIBRARY_SUFFIXES} .so.3gf)
endif ()
endif (BLA_STATIC)
find_library(${_prefix}_${_library}_LIBRARY
NAMES ${_library}
PATHS ${_libdir}
)
mark_as_advanced(${_prefix}_${_library}_LIBRARY)
set(${LIBRARIES} ${${LIBRARIES}} ${${_prefix}_${_library}_LIBRARY})
set(_libraries_work ${${_prefix}_${_library}_LIBRARY})
endif(_libraries_work)
endforeach(_library ${_list})
if(_libraries_work)
# Test this combination of libraries.
if(UNIX AND BLA_STATIC)
set(CMAKE_REQUIRED_LIBRARIES ${_flags} "-Wl,--start-group" ${${LIBRARIES}} ${_blas} "-Wl,--end-group" ${_threads})
else(UNIX AND BLA_STATIC)
set(CMAKE_REQUIRED_LIBRARIES ${_flags} ${${LIBRARIES}} ${_blas} ${_threads})
endif(UNIX AND BLA_STATIC)
# message("DEBUG: CMAKE_REQUIRED_LIBRARIES = ${CMAKE_REQUIRED_LIBRARIES}")
if (NOT _LANGUAGES_ MATCHES Fortran)
check_function_exists("${_name}_" ${_prefix}${_combined_name}_WORKS)
else (NOT _LANGUAGES_ MATCHES Fortran)
check_fortran_function_exists(${_name} ${_prefix}${_combined_name}_WORKS)
endif (NOT _LANGUAGES_ MATCHES Fortran)
set(CMAKE_REQUIRED_LIBRARIES)
mark_as_advanced(${_prefix}${_combined_name}_WORKS)
set(_libraries_work ${${_prefix}${_combined_name}_WORKS})
#message("DEBUG: ${LIBRARIES} = ${${LIBRARIES}}")
endif(_libraries_work)
if(_libraries_work)
set(${LIBRARIES} ${${LIBRARIES}} ${_blas} ${_threads})
else(_libraries_work)
set(${LIBRARIES} FALSE)
endif(_libraries_work)
endmacro(Check_Lapack_Libraries)
set(LAPACK_LINKER_FLAGS)
set(LAPACK_LIBRARIES)
set(LAPACK95_LIBRARIES)
if(LAPACK_FIND_QUIETLY OR NOT LAPACK_FIND_REQUIRED)
find_package(BLAS)
else(LAPACK_FIND_QUIETLY OR NOT LAPACK_FIND_REQUIRED)
find_package(BLAS REQUIRED)
endif(LAPACK_FIND_QUIETLY OR NOT LAPACK_FIND_REQUIRED)
if(BLAS_FOUND)
set(LAPACK_LINKER_FLAGS ${BLAS_LINKER_FLAGS})
if ($ENV{BLA_VENDOR} MATCHES ".+")
set(BLA_VENDOR $ENV{BLA_VENDOR})
else ($ENV{BLA_VENDOR} MATCHES ".+")
if(NOT BLA_VENDOR)
set(BLA_VENDOR "All")
endif(NOT BLA_VENDOR)
endif ($ENV{BLA_VENDOR} MATCHES ".+")
if (BLA_VENDOR STREQUAL "Goto" OR BLA_VENDOR STREQUAL "All")
if(NOT LAPACK_LIBRARIES)
check_lapack_libraries(
LAPACK_LIBRARIES
LAPACK
cheev
""
"goto2"
"${BLAS_LIBRARIES}"
""
)
endif(NOT LAPACK_LIBRARIES)
endif (BLA_VENDOR STREQUAL "Goto" OR BLA_VENDOR STREQUAL "All")
#acml lapack
if (BLA_VENDOR MATCHES "ACML.*" OR BLA_VENDOR STREQUAL "All")
if (BLAS_LIBRARIES MATCHES ".+acml.+")
set (LAPACK_LIBRARIES ${BLAS_LIBRARIES})
endif ()
endif ()
# Apple LAPACK library?
if (BLA_VENDOR STREQUAL "Apple" OR BLA_VENDOR STREQUAL "All")
if(NOT LAPACK_LIBRARIES)
check_lapack_libraries(
LAPACK_LIBRARIES
LAPACK
cheev
""
"Accelerate"
"${BLAS_LIBRARIES}"
""
)
endif(NOT LAPACK_LIBRARIES)
endif (BLA_VENDOR STREQUAL "Apple" OR BLA_VENDOR STREQUAL "All")
if (BLA_VENDOR STREQUAL "NAS" OR BLA_VENDOR STREQUAL "All")
if ( NOT LAPACK_LIBRARIES )
check_lapack_libraries(
LAPACK_LIBRARIES
LAPACK
cheev
""
"vecLib"
"${BLAS_LIBRARIES}"
""
)
endif ( NOT LAPACK_LIBRARIES )
endif (BLA_VENDOR STREQUAL "NAS" OR BLA_VENDOR STREQUAL "All")
# Generic LAPACK library?
if (BLA_VENDOR STREQUAL "Generic" OR
BLA_VENDOR STREQUAL "ATLAS" OR
BLA_VENDOR STREQUAL "All")
if ( NOT LAPACK_LIBRARIES )
check_lapack_libraries(
LAPACK_LIBRARIES
LAPACK
cheev
""
"lapack"
"${BLAS_LIBRARIES}"
""
)
endif ( NOT LAPACK_LIBRARIES )
endif ()
#intel lapack
if (BLA_VENDOR MATCHES "Intel*" OR BLA_VENDOR STREQUAL "All")
if (_LANGUAGES_ MATCHES C OR _LANGUAGES_ MATCHES CXX)
if(LAPACK_FIND_QUIETLY OR NOT LAPACK_FIND_REQUIRED)
find_PACKAGE(Threads)
else(LAPACK_FIND_QUIETLY OR NOT LAPACK_FIND_REQUIRED)
find_package(Threads REQUIRED)
endif(LAPACK_FIND_QUIETLY OR NOT LAPACK_FIND_REQUIRED)
if (BLA_F95)
if(NOT LAPACK95_LIBRARIES)
check_lapack_libraries(
LAPACK95_LIBRARIES
LAPACK
cheev
""
"mkl_lapack95"
"${BLAS95_LIBRARIES}"
"${CMAKE_THREAD_LIBS_INIT}"
)
endif(NOT LAPACK95_LIBRARIES)
else(BLA_F95)
if(NOT LAPACK_LIBRARIES)
check_lapack_libraries(
LAPACK_LIBRARIES
LAPACK
cheev
""
"mkl_lapack"
"${BLAS_LIBRARIES}"
"${CMAKE_THREAD_LIBS_INIT}"
)
endif(NOT LAPACK_LIBRARIES)
endif(BLA_F95)
endif (_LANGUAGES_ MATCHES C OR _LANGUAGES_ MATCHES CXX)
endif(BLA_VENDOR MATCHES "Intel*" OR BLA_VENDOR STREQUAL "All")
else(BLAS_FOUND)
message(STATUS "LAPACK requires BLAS")
endif(BLAS_FOUND)
if(BLA_F95)
if(LAPACK95_LIBRARIES)
set(LAPACK95_FOUND TRUE)
else(LAPACK95_LIBRARIES)
set(LAPACK95_FOUND FALSE)
endif(LAPACK95_LIBRARIES)
if(NOT LAPACK_FIND_QUIETLY)
if(LAPACK95_FOUND)
message(STATUS "A library with LAPACK95 API found.")
else(LAPACK95_FOUND)
if(LAPACK_FIND_REQUIRED)
message(FATAL_ERROR
"A required library with LAPACK95 API not found. Please specify library location."
)
else(LAPACK_FIND_REQUIRED)
message(STATUS
"A library with LAPACK95 API not found. Please specify library location."
)
endif(LAPACK_FIND_REQUIRED)
endif(LAPACK95_FOUND)
endif(NOT LAPACK_FIND_QUIETLY)
set(LAPACK_FOUND "${LAPACK95_FOUND}")
set(LAPACK_LIBRARIES "${LAPACK95_LIBRARIES}")
else(BLA_F95)
if(LAPACK_LIBRARIES)
set(LAPACK_FOUND TRUE)
else(LAPACK_LIBRARIES)
set(LAPACK_FOUND FALSE)
endif(LAPACK_LIBRARIES)
if(NOT LAPACK_FIND_QUIETLY)
if(LAPACK_FOUND)
message(STATUS "A library with LAPACK API found.")
else(LAPACK_FOUND)
if(LAPACK_FIND_REQUIRED)
message(FATAL_ERROR
"A required library with LAPACK API not found. Please specify library location."
)
else(LAPACK_FIND_REQUIRED)
message(STATUS
"A library with LAPACK API not found. Please specify library location."
)
endif(LAPACK_FIND_REQUIRED)
endif(LAPACK_FOUND)
endif(NOT LAPACK_FIND_QUIETLY)
endif(BLA_F95)
set(CMAKE_FIND_LIBRARY_SUFFIXES ${_lapack_ORIG_CMAKE_FIND_LIBRARY_SUFFIXES})

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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# this avoids an annoying deprecation warning on DUNE 2.4 (which we
# are not interested in anyway)
set(DUNE_AVOID_CAPABILITIES_IS_PARALLEL_DEPRECATION_WARNING 1)
# defines that must be present in config.h for our headers
set (ewoms_CONFIG_VAR
HAVE_QUAD
HAVE_VALGRIND
HAVE_DUNE_COMMON
HAVE_DUNE_GEOMETRY
HAVE_DUNE_GRID
HAVE_DUNE_LOCALFUNCTIONS
HAVE_DUNE_ISTL
HAVE_DUNE_ALUGRID
HAVE_DUNE_FEM
DUNE_AVOID_CAPABILITIES_IS_PARALLEL_DEPRECATION_WARNING
)
# dependencies
set (ewoms_DEPS
# compile with C++0x/11 support if available
"CXX11Features REQUIRED"
# DUNE prerequisites
"dune-common REQUIRED"
"dune-localfunctions REQUIRED"
"dune-geometry REQUIRED"
"dune-grid REQUIRED"
"dune-istl REQUIRED"
"opm-common REQUIRED"
"opm-material REQUIRED"
"dune-alugrid"
"dune-fem"
"opm-grid"
# librt (on some systems necessary for clock_gettime())
"librt REQUIRED"
# valgrind client requests
"Valgrind"
# quadruple precision floating point calculations
"Quadmath"
)

19
cmake/Modules/opm-benchmarks-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-benchmarks_CONFIG_VAR
)
# dependencies
set (opm-benchmarks_DEPS
# compile with C++0x/11 support if available
"CXX11Features REQUIRED"
# various runtime library enhancements
"Boost 1.44.0
COMPONENTS date_time filesystem system unit_test_framework REQUIRED"
# OPM dependency
"opm-common"
"opm-core REQUIRED"
"opm-upscaling REQUIRED"
)

17
cmake/Modules/opm-common-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-common_CONFIG_VAR
)
# dependencies
set (opm-common_DEPS
# compile with C99 support if available
"C99"
# compile with C++0x/11 support if available
"CXX11Features REQUIRED"
# various runtime library enhancements
"Boost 1.44.0
COMPONENTS system unit_test_framework REQUIRED"
)

45
cmake/Modules/opm-core-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-core_CONFIG_VAR
HAVE_ERT
HAVE_SUITESPARSE_UMFPACK_H
HAVE_DUNE_ISTL
HAVE_MPI
HAVE_PETSC
)
# dependencies
set (opm-core_DEPS
# compile with C99 support if available
"C99"
# compile with C++0x/11 support if available
"CXX11Features REQUIRED"
# various runtime library enhancements
"Boost 1.44.0
COMPONENTS date_time filesystem system unit_test_framework REQUIRED"
# matrix library
"BLAS REQUIRED"
"LAPACK REQUIRED"
# Tim Davis' SuiteSparse archive
"SuiteSparse COMPONENTS umfpack"
# solver
"SuperLU"
# xml processing (for config parsing)
"TinyXML"
# Ensembles-based Reservoir Tools (ERT)
"ERT REQUIRED"
# Look for MPI support
"MPI"
# PETSc numerical backend
"PETSc"
# DUNE dependency
"dune-common"
"dune-istl"
"opm-common REQUIRED"
# Parser library for ECL-type simulation models
"opm-parser REQUIRED"
# the code which implements the material laws
"opm-material REQUIRED"
)

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cmake/Modules/opm-grid-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-grid_CONFIG_VAR
DUNE_GRID_VERSION_MAJOR
DUNE_GRID_VERSION_MINOR
DUNE_GRID_VERSION_REVISION
DUNE_COMMON_VERSION_MAJOR
DUNE_COMMON_VERSION_MINOR
DUNE_COMMON_VERSION_REVISION
HAVE_ZOLTAN
)
# dependencies
set (opm-grid_DEPS
# compile with C99 support if available
"C99"
# compile with C++0x/11 support if available
"CXX11Features"
# various runtime library enhancements
"Boost 1.44.0
COMPONENTS date_time filesystem system unit_test_framework REQUIRED"
# DUNE dependency
"dune-common REQUIRED;
dune-grid REQUIRED;
dune-geometry REQUIRED"
# OPM dependency
"opm-common REQUIRED;
opm-core REQUIRED"
"ZOLTAN"
)

23
cmake/Modules/opm-material-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-material_CONFIG_VAR
HAVE_MPI
HAVE_TYPE_TRAITS
HAVE_VALGRIND
HAVE_FINAL
)
# dependencies
set (opm-material_DEPS
# compile with C99 support if available
"C99"
# compile with C++0x/11 support if available
"CXX11Features REQUIRED"
# prerequisite OPM modules
"opm-parser"
"opm-common REQUIRED"
# DUNE dependency
"dune-common REQUIRED"
)

26
cmake/Modules/opm-output-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-core_CONFIG_VAR
HAVE_ERT
)
# dependencies
set (opm-output_DEPS
# compile with C99 support if available
"C99"
# compile with C++0x/11 support if available
"CXX11Features REQUIRED"
# various runtime library enhancements
"Boost 1.44.0
COMPONENTS date_time filesystem system unit_test_framework REQUIRED"
# Ensembles-based Reservoir Tools (ERT)
"ERT REQUIRED"
# Look for MPI support
"opm-common REQUIRED"
# Parser library for ECL-type simulation models
"opm-parser REQUIRED"
# TODO remove this dependancy
"opm-core REQUIRED"
)

29
cmake/Modules/opm-simulators-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-simulators_CONFIG_VAR
HAVE_OPM_GRID
)
# dependencies
set (opm-simulators_DEPS
# Compile with C99 support if available
"C99"
# Compile with C++0x/11 support if available
"CXX11Features"
# Various runtime library enhancements
"Boost 1.44.0
COMPONENTS date_time filesystem system unit_test_framework REQUIRED"
# DUNE prerequisites
"dune-common REQUIRED;
dune-istl REQUIRED"
# OPM dependency
"opm-common REQUIRED;
opm-parser REQUIRED;
opm-core REQUIRED;
opm-output REQUIRED;
opm-grid"
# Eigen
"Eigen3 3.2.0"
)

32
cmake/Modules/opm-upscaling-prereqs.cmake Normal file
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# -*- mode: cmake; tab-width: 2; indent-tabs-mode: t; truncate-lines: t; compile-command: "cmake -Wdev" -*-
# vim: set filetype=cmake autoindent tabstop=2 shiftwidth=2 noexpandtab softtabstop=2 nowrap:
# defines that must be present in config.h for our headers
set (opm-upscaling_CONFIG_VAR
HAVE_SUPERLU
)
# dependencies
set (opm-upscaling_DEPS
# compile with C99 support if available
"C99"
# compile with C++0x/11 support if available
"CXX11Features"
# various runtime library enhancements
"Boost 1.44.0
COMPONENTS date_time filesystem system iostreams unit_test_framework REQUIRED"
# matrix library
"BLAS REQUIRED"
"LAPACK REQUIRED"
# solver
"SuperLU"
# DUNE dependency
"dune-common REQUIRED;
dune-istl REQUIRED;
dune-geometry REQUIRED;
dune-grid REQUIRED;
opm-common REQUIRED;
opm-core REQUIRED;
opm-grid REQUIRED;
opm-output REQUIRED"
)

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