###########################################################################
#                                                                         #
# Note: The bulk of the build system is located in the cmake/ directory.  #
#       This file only contains the specializations for this particular   #
#       project. Most likely you are interested in editing one of these   #
#       files instead:                                                    #
#                                                                         #
#       dune.module                              Name and version number  #
#       CMakeLists_files.cmake                   Path of source files     #
#       cmake/Modules/${project}-prereqs.cmake   Dependencies             #
#                                                                         #
###########################################################################

# Mandatory call to project

project(opm-simulators C CXX)

cmake_minimum_required (VERSION 3.10)


option(SIBLING_SEARCH "Search for other modules in sibling directories?" ON)
set( USE_OPENMP_DEFAULT OFF ) # Use of OpenMP is considered experimental
option(BUILD_FLOW "Build the production oriented flow simulator?" ON)
option(BUILD_FLOW_BLACKOIL_ONLY "Build the production oriented flow simulator only supporting the blackoil model?" OFF)
option(BUILD_FLOW_VARIANTS "Build the variants for flow by default?" OFF)
option(BUILD_EBOS "Build the research oriented ebos simulator?" ON)
option(BUILD_EBOS_EXTENSIONS "Build the variants for various extensions of ebos by default?" OFF)
option(BUILD_EBOS_DEBUG_EXTENSIONS "Build the ebos variants which are purely for debugging by default?" OFF)
option(BUILD_FLOW_POLY_GRID "Build flow blackoil with polyhedral grid" OFF)
option(OPM_ENABLE_PYTHON "Enable python bindings?" OFF)
option(OPM_ENABLE_PYTHON_TESTS "Enable tests for the python bindings?" ON)
option(ENABLE_FPGA "Enable FPGA kernels integration?" OFF)

if(SIBLING_SEARCH AND NOT opm-common_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)
  if(IS_DIRECTORY ${_modules_dir}/opm-common/${_leaf_dir_name})
    set(opm-common_DIR ${_modules_dir}/opm-common/${_leaf_dir_name})
  else()
    string(REPLACE ${PROJECT_NAME} opm-common _opm_common_leaf ${_leaf_dir_name})
    if(NOT _leaf_dir_name STREQUAL _opm_common_leaf
        AND IS_DIRECTORY ${_parent_full_dir}/${_opm_common_leaf})
      # We are using build directories named <prefix><module-name><postfix>
      set(opm-common_DIR ${_parent_full_dir}/${_opm_common_leaf})
    elseif(IS_DIRECTORY ${_parent_full_dir}/opm-common)
      # All modules are in a common build dir
      set(opm-common_DIR "${_parent_full_dir}/opm-common")
    endif()
  endif()
endif()
if(opm-common_DIR AND NOT IS_DIRECTORY ${opm-common_DIR})
  message(WARNING "Value ${opm-common_DIR} passed to variable"
    " opm-common_DIR is not a directory")
endif()

find_package(opm-common REQUIRED)

include(OpmInit)
OpmSetPolicies()

# not the same location as most of the other projects? this hook overrides
macro (dir_hook)
endmacro (dir_hook)

# 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)

# 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")

# Make sure we are using the same compiler underneath
# NVCC as for the rest. In the case that NVCC does not support
# that compiler it will error out. Unfortunately this will only
# work for CMake >= 3.8. We found no way to make FindCUDA.cmake error
# out. It seems to ignore CMAKE_NVCC_FLAGS and CMAKE. Additionally
# our way of specifying cuda source files never worked for CMake
# version < 3.8. Hence we deactivate cuda for these versions.
# We use "CMAKE_VERSION VERSION_GREATER 3.7.9" instead of
# CMAKE_VERSION VERSION_GREATER_EQUAL 3.8, because of backwards
# compatibility to cmake 3.6 and lower.
if(NOT CMAKE_DISABLE_FIND_PACKAGE_CUDA AND
    CMAKE_VERSION VERSION_GREATER 3.7.9)
  if(CMAKE_BUILD_TYPE)
    set(_flags_suffix "_${CMAKE_BUILD_TYPE}")
  endif()
  if(NOT DEFINED ENV{CUDAHOSTCXX} AND NOT DEFINED CMAKE_CUDA_HOST_COMPILER AND
      (NOT CMAKE_CUDA_FLAGS${_flags_suffix} OR NOT CMAKE_CUDA_FLAGS${_flags_suffix} MATCHES ".*-ccbin .*"))
    message(STATUS "Setting CUDA host compiler CMAKE_CUDA_HOST_COMPILER to ${CMAKE_CXX_COMPILER} to "
      "prevent incompatibilities. Note that this might report that there "
      "is not CUDA compiler if your system's CUDA compiler does not support "
      "${CMAKE_CXX_COMPILER}.")
    # check_language does not seem to care about ${CMAKE_CUDA_FLAGS} or $(CUDA_NVCC_FLAGS}.
    # Hence we set CMAKE_CUDA_HOST_COMPILER to our C++ compiler.
    # In check_language(CUDA) we will get an error if we in addition put
    # "-ccbin ${CMAKE_CXX_COMPILER}" into CMAKE_CUDA_FLAGS. It results
    # in "${NVCC} -ccbin=${CMAKE_CXX_COMPILER}   -ccbin ${CMAKE_CXX_COMPILER}"
    # which causes nvcc to abort
    set(CMAKE_CUDA_HOST_COMPILER ${CMAKE_CXX_COMPILER})
    set(ENV{CUDAHOSTCXX} ${CMAKE_CUDA_HOST_COMPILER}) # The only thing honored by check_language(CUDA)!
  endif()
  include(CheckLanguage)
  check_language(CUDA)
  if(CMAKE_CUDA_COMPILER)
    # OPTIONAL is ignored. Hence the magic above to check whether enabling CUDA works
    enable_language(CUDA OPTIONAL)
    # While the documentation says that it is deprecated, FindCUDA seems the
    # only easy way to determine the cublas and cusparse libraries.
    # Hence we call it unconditionally
    # The WellContributions kernel uses __shfl_down_sync, which was introduced in CUDA 9.0
    find_package(CUDA)
  endif()
  if(CUDA_FOUND AND CUDA_VERSION VERSION_LESS "9.0")
    set(CUDA_FOUND OFF)
    message(WARNING "Deactivating CUDA as we require version 9.0 or newer."
      " Found only CUDA version ${CUDA_VERSION}.")
  endif()
endif()

if(CUDA_FOUND)
  set(HAVE_CUDA 1)
  include_directories(${CUDA_INCLUDE_DIRS})
endif()

find_package(OpenCL)

# include FPGA target only when ENABLE_FPGA is set to ON
if(ENABLE_FPGA)
  # must include opencl.h which is a wrapper for all the OpenCL extensions
  find_file(OPENCL_H CL/opencl.h HINTS ${OpenCL_INCLUDE_DIRS})

  # FIXME: devise a check for the presence of the "FPGA" module; currently looking for makefile in <opm-simulators>/../FPGA
  find_file(FPGA_MODULE linearalgebra/ilu0bicgstab/xilinx/alveo_u280/vitis_20192/OPM-integration/makefile HINTS ${opm-simulators_SOURCE_DIR}/../FPGA)

  # this code only runs if the user explicitly enabled the FPGA
  # hence fatal_error instead of warning
  if(NOT OPENCL_H OR NOT OpenCL_FOUND)
    set(HAVE_FPGA 0)
    message(FATAL_ERROR " OpenCL packages/headers were not found. Make sure CL/opencl.h exists or deactivate FPGA.")
  elseif(NOT FPGA_MODULE)
    set(HAVE_FPGA 0)
    message(FATAL_ERROR " FPGA module was not found. Make sure FPGA repository exists or deactivate FPGA.")
  elseif(NOT DEFINED ENV{XILINX_XRT})
    # Xilinx XRT must be installed and properly setup
    set(HAVE_FPGA 0)
    message(FATAL_ERROR " Xilinx XRT not found. Make sure it is installed and setup (check its documentation) or deactivate FPGA.")
  else()
    set(HAVE_FPGA 1)
    message(STATUS "FPGA library and kernel integration active.")

    # FIXME: set the correct path to the FPGA module
    set(FPGA_SOURCE_DIR ${opm-simulators_SOURCE_DIR}/../FPGA)

    # configuration variables with default values: they can be overridden on the cmake command line
    # FPGA_PORTS_CONFIG selects the kernel's memory ports configuration; must be in sync with available kernel bitstream
    if(NOT FPGA_PORTS_CONFIG)
      set(FPGA_PORTS_CONFIG 2r_3r3w_ddr)
    endif()
    # FPGA_DEBUG_LEVEL sets the debug messages level for FPGA library functions (should be set to 0 for Release build)
    if(NOT FPGA_DEBUG_LEVEL)
      set(FPGA_DEBUG_LEVEL 0)
    endif()
    message(STATUS "Using the following settings for the FPGA library compilation: "
      "FPGA_PORTS_CONFIG=${FPGA_PORTS_CONFIG}, "
      "FPGA_DEBUG_LEVEL=${FPGA_DEBUG_LEVEL}")
    add_compile_options(-DPORTS_CONFIG=PORTS_${FPGA_PORTS_CONFIG})
    add_compile_options(-DBDA_DEBUG_LEVEL=${FPGA_DEBUG_LEVEL})
    # include directories for the FPGA library
    include_directories(${FPGA_SOURCE_DIR})
    include_directories(${FPGA_SOURCE_DIR}/linearalgebra/ilu0bicgstab/xilinx/src/sda_app)
    include_directories(${FPGA_SOURCE_DIR}/linearalgebra/ilu0bicgstab/xilinx/src/sda_app/common)
    # add external project to compile the FPGA library
    include (ExternalProject)
    ExternalProject_Add(FPGA_library
      # force the build step to always be run because source dependencies cannot be made explicit
      BUILD_ALWAYS 1
      DOWNLOAD_COMMAND ""
      UPDATE_COMMAND ""
      CONFIGURE_COMMAND ""
      BUILD_COMMAND make
        -f ${FPGA_SOURCE_DIR}/linearalgebra/ilu0bicgstab/xilinx/alveo_u280/vitis_20192/OPM-integration/makefile
        SRCDIR=${FPGA_SOURCE_DIR}/linearalgebra/ilu0bicgstab/xilinx/src/sda_app
        PORTS_CONFIG=${FPGA_PORTS_CONFIG}
        DEBUG_LEVEL=${FPGA_DEBUG_LEVEL}
      INSTALL_COMMAND ""
      TEST_COMMAND ""
    )
  endif()
endif()

if(OpenCL_FOUND)
  # the current OpenCL implementation relies on cl2.hpp, not cl.hpp
  # make sure it is available, otherwise disable OpenCL
  find_file(CL2_HPP CL/cl2.hpp HINTS ${OpenCL_INCLUDE_DIRS})
  if(CL2_HPP)
    set(HAVE_OPENCL 1)
    include_directories(${OpenCL_INCLUDE_DIRS})
  else()
    message(WARNING " OpenCL was found, but this version of opm-simulators relies on CL/cl2.hpp, which implements OpenCL 1.0, 1.1 and 1.2.\n Deactivating OpenCL")
    set(OpenCL_FOUND OFF)
    set(OPENCL_FOUND OFF)
  endif()
endif()

find_package(amgcl)
if(amgcl_FOUND)
  set(HAVE_AMGCL 1)
  # Linking to target angcl::amgcl drags in OpenMP and -fopenmp as a compile
  # flag. With that nvcc fails as it does not that flag.
  # Hence we set AMGCL_INCLUDE_DIRS.
  get_property(AMGCL_INCLUDE_DIRS TARGET amgcl::amgcl PROPERTY INTERFACE_INCLUDE_DIRECTORIES)
  include_directories(SYSTEM ${AMGCL_INCLUDE_DIRS})
endif()

if(OpenCL_FOUND)
  find_package(VexCL)
  if(VexCL_FOUND)
    set(HAVE_VEXCL 1)
    # generator expressions in vexcl do not seem to work and therefore
    # we cannot use the imported target. Hence we exract the needed info
    # from the targets
    get_property(VEXCL_INCLUDE_DIRS TARGET VexCL::Common PROPERTY INTERFACE_INCLUDE_DIRECTORIES)
    get_property(VEXCL_LINK_LIBRARIES TARGET VexCL::Common PROPERTY INTERFACE_LINK_LIBRARIES)
    get_property(VEXCL_COMPILE_DEFINITIONS TARGET VexCL::OpenCL PROPERTY INTERFACE_COMPILE_DEFINITIONS)
    set(VEXCL_LINK_LIBRARIES "${VEXCL_LINK_LIBRARIES};OpenCL::OpenCL")
    add_library(OPM::VexCL::OpenCL INTERFACE IMPORTED)
    set_target_properties(OPM::VexCL::OpenCL PROPERTIES
      INTERFACE_COMPILE_DEFINITIONS "${VEXCL_COMPILE_DEFINITIONS}"
      INTERFACE_LINK_LIBRARIES "${VEXCL_LINK_LIBRARIES}")
    target_include_directories(OPM::VexCL::OpenCL SYSTEM INTERFACE "${VEXCL_INCLUDE_DIRS}")
  endif()
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)
  opm_need_version_of ("dune-common")
  opm_need_version_of ("dune-istl")
  if(dune-fem_FOUND)
      opm_need_version_of ("dune-fem")
  endif()
  opm_need_version_of ("opm-models")

  if(NOT fmt_FOUND)
    add_definitions(-DFMT_HEADER_ONLY)
    list(APPEND EXTRA_INCLUDES SYSTEM ${PROJECT_SOURCE_DIR}/external/fmtlib/include)
  endif()
  include_directories(${EXTRA_INCLUDES})
endmacro (config_hook)

macro (prereqs_hook)
endmacro (prereqs_hook)

macro (sources_hook)
endmacro (sources_hook)

macro (fortran_hook)
endmacro (fortran_hook)

macro (files_hook)
endmacro (files_hook)

macro (tests_hook)
endmacro (tests_hook)

# all setup common to the OPM library modules is done here
include (OpmLibMain)

if (HAVE_OPM_TESTS)
    include (${CMAKE_CURRENT_SOURCE_DIR}/compareECLFiles.cmake)
endif()

opm_set_test_driver(${CMAKE_CURRENT_SOURCE_DIR}/tests/run-parallel-unitTest.sh "")

opm_add_test(test_gatherconvergencereport
  DEPENDS "opmsimulators"
  LIBRARIES opmsimulators ${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}
  SOURCES
    tests/test_gatherconvergencereport.cpp
  CONDITION
    MPI_FOUND AND Boost_UNIT_TEST_FRAMEWORK_FOUND
  DRIVER_ARGS
    4 ${PROJECT_BINARY_DIR}
)

opm_add_test(test_gatherdeferredlogger
  DEPENDS "opmsimulators"
  LIBRARIES opmsimulators ${Boost_UNIT_TEST_FRAMEWORK_LIBRARY}
  SOURCES
    tests/test_gatherdeferredlogger.cpp
  CONDITION
    MPI_FOUND AND Boost_UNIT_TEST_FRAMEWORK_FOUND
  DRIVER_ARGS
    4 ${PROJECT_BINARY_DIR}
)

opm_add_test(test_parallelwellinfo_mpi
  EXE_NAME
    test_parallelwellinfo
  CONDITION
    MPI_FOUND AND Boost_UNIT_TEST_FRAMEWORK_FOUND
  DRIVER_ARGS
    4 ${PROJECT_BINARY_DIR}
  NO_COMPILE
    )

include(OpmBashCompletion)

if (NOT BUILD_FLOW)
  set(FLOW_DEFAULT_ENABLE_IF "FALSE")
else()
  set(FLOW_DEFAULT_ENABLE_IF "TRUE")
endif()

if (NOT BUILD_FLOW_VARIANTS)
  set(FLOW_VARIANTS_DEFAULT_ENABLE_IF "FALSE")
else()
  set(FLOW_VARIANTS_DEFAULT_ENABLE_IF "TRUE")
endif()

if (NOT BUILD_FLOW_POLY_GRID)
  set(FLOW_POLY_ONLY_DEFAULT_ENABLE_IF "FALSE")
else()
  set(FLOW_POLY_ONLY_DEFAULT_ENABLE_IF "TRUE")
endif()

add_library(moduleVersion OBJECT opm/simulators/utils/moduleVersion.cpp)
set_property(TARGET moduleVersion PROPERTY POSITION_INDEPENDENT_CODE ON)

# Strictly we only depend on the update-version target,
# but this is not exposed in a super-build.
add_dependencies(moduleVersion opmsimulators)

set(COMMON_MODELS brine energy extbo foam gasoil gaswater oilwater oilwater_polymer polymer solvent)
set(FLOW_MODELS   blackoil oilwater_brine oilwater_polymer_injectivity micp)

set(FLOW_TGTS)
foreach(OBJ ${COMMON_MODELS} ${FLOW_MODELS})
  add_library(flow_lib${OBJ} OBJECT flow/flow_ebos_${OBJ}.cpp)
  list(APPEND FLOW_TGTS $<TARGET_OBJECTS:flow_lib${OBJ}>)
  if(TARGET fmt::fmt)
    target_link_libraries(flow_lib${OBJ} fmt::fmt)
  endif()
endforeach()
set_property(TARGET flow_libblackoil PROPERTY POSITION_INDEPENDENT_CODE ON)

add_library(flow_libonephase_energy OBJECT flow/flow_ebos_onephase_energy.cpp)
add_library(flow_libonephase OBJECT flow/flow_ebos_onephase.cpp)
if(TARGET fmt::fmt)
  target_link_libraries(flow_libonephase_energy fmt::fmt)
  target_link_libraries(flow_libonephase fmt::fmt)
endif()
set_property(TARGET flow_libonephase PROPERTY EXCLUDE_FROM_ALL ${FLOW_VARIANTS_DEFAULT_ENABLE_IF})
set_property(TARGET flow_libonephase_energy PROPERTY EXCLUDE_FROM_ALL ${FLOW_VARIANTS_DEFAULT_ENABLE_IF})

add_library(flow_libblackoil_poly OBJECT flow/flow_ebos_blackoil_poly.cpp)
if(TARGET fmt::fmt)
  target_link_libraries(flow_libblackoil_poly fmt::fmt)
 endif()
set_property(TARGET flow_libblackoil_poly PROPERTY EXCLUDE_FROM_ALL ${FLOW_POLY_ONLY_DEFAULT_ENABLE_IF})

# the production oriented general-purpose ECL simulator
opm_add_test(flow
  ONLY_COMPILE
  ALWAYS_ENABLE
  DEFAULT_ENABLE_IF ${FLOW_DEFAULT_ENABLE_IF}
  DEPENDS opmsimulators
  LIBRARIES opmsimulators
  SOURCES
  flow/flow.cpp
  ${FLOW_TGTS}
  $<TARGET_OBJECTS:moduleVersion>
  )


if (NOT BUILD_FLOW_BLACKOIL_ONLY)
  set(FLOW_BLACKOIL_ONLY_DEFAULT_ENABLE_IF "FALSE")
else()
  set(FLOW_BLACKOIL_ONLY_DEFAULT_ENABLE_IF "TRUE")
endif()

# the production oriented general-purpose ECL simulator
opm_add_test(flow_blackoil
  ONLY_COMPILE
  ALWAYS_ENABLE
  DEFAULT_ENABLE_IF ${FLOW_BLACKOIL_ONLY_DEFAULT_ENABLE_IF}
  DEPENDS opmsimulators
  LIBRARIES opmsimulators
  SOURCES
  flow/flow.cpp
  $<TARGET_OBJECTS:flow_libblackoil>
  $<TARGET_OBJECTS:moduleVersion>)
target_compile_definitions(flow_blackoil PRIVATE "FLOW_BLACKOIL_ONLY")

# the production oriented general-purpose ECL simulator
opm_add_test(flow_poly
  ONLY_COMPILE
  ALWAYS_ENABLE
  DEFAULT_ENABLE_IF ${FLOW_POLY_ONLY_DEFAULT_ENABLE_IF}
  DEPENDS opmsimulators
  LIBRARIES opmsimulators
  SOURCES
  flow/flow_blackoil_poly.cpp
  $<TARGET_OBJECTS:flow_libblackoil_poly>
  $<TARGET_OBJECTS:moduleVersion>)
target_compile_definitions(flow_poly PRIVATE USE_POLYHEDRALGRID)

# the production oriented general-purpose ECL simulator
opm_add_test(flow_distribute_z
  ONLY_COMPILE
  ALWAYS_ENABLE
  DEFAULT_ENABLE_IF ${FLOW_DEFAULT_ENABLE_IF}
  DEPENDS opmsimulators
  LIBRARIES opmsimulators
  SOURCES
  flow/flow_distribute_z.cpp
  ${FLOW_TGTS}
  $<TARGET_OBJECTS:moduleVersion>
  )

# Variant versions of Flow.
opm_add_test(flow_blackoil_dunecpr
  ONLY_COMPILE
  DEFAULT_ENABLE_IF ${FLOW_VARIANTS_DEFAULT_ENABLE_IF}
  SOURCES
  flow/flow_blackoil_dunecpr.cpp
  $<TARGET_OBJECTS:moduleVersion>
  EXE_NAME flow_blackoil_dunecpr
  DEPENDS opmsimulators
  LIBRARIES opmsimulators)

opm_add_test(flow_onephase
  ONLY_COMPILE
  DEFAULT_ENABLE_IF ${FLOW_VARIANTS_DEFAULT_ENABLE_IF}
  SOURCES
  flow/flow_onephase.cpp
  $<TARGET_OBJECTS:moduleVersion>
  $<TARGET_OBJECTS:flow_libonephase>
  EXE_NAME flow_onephase
  DEPENDS opmsimulators
  LIBRARIES opmsimulators)

opm_add_test(flow_onephase_energy
  ONLY_COMPILE
  DEFAULT_ENABLE_IF ${FLOW_VARIANTS_DEFAULT_ENABLE_IF}
  SOURCES
  flow/flow_onephase_energy.cpp
  $<TARGET_OBJECTS:moduleVersion>
  $<TARGET_OBJECTS:flow_libonephase_energy>
  EXE_NAME flow_onephase_energy
  DEPENDS opmsimulators flow_libonephase_energy
  LIBRARIES opmsimulators)

if (BUILD_FLOW)
  install(TARGETS flow DESTINATION bin)
  opm_add_bash_completion(flow)

  add_test(NAME flow__version
    COMMAND flow --version)
  set_tests_properties(flow__version PROPERTIES
    PASS_REGULAR_EXPRESSION "${${project}_LABEL}")
endif()

if (NOT BUILD_EBOS)
  set(EBOS_DEFAULT_ENABLE_IF "FALSE")
else()
  set(EBOS_DEFAULT_ENABLE_IF "TRUE")
endif()

# the research oriented general-purpose ECL simulator ("ebos" == &ecl
# &black-&oil &simulator)
set(MEBOS_TARGETS "")
foreach(OBJ ${COMMON_MODELS} blackoil)
  add_library(ebos_lib${OBJ} OBJECT EXCLUDE_FROM_ALL ebos/ebos_${OBJ}.cc)
  if(TARGET fmt::fmt)
    target_link_libraries(ebos_lib${OBJ} fmt::fmt)
  endif()
  list(APPEND MEBOS_TARGETS $<TARGET_OBJECTS:ebos_lib${OBJ}>)
endforeach()

opm_add_test(ebos
  ONLY_COMPILE
  DEFAULT_ENABLE_IF ${EBOS_DEFAULT_ENABLE_IF}
  ALWAYS_ENABLE
  EXE_NAME ebos
  LIBRARIES opmsimulators
  SOURCES ebos/ebos_main.cc $<TARGET_OBJECTS:ebos_libblackoil>)

if (NOT BUILD_EBOS_EXTENSIONS)
  set(EBOS_EXTENSIONS_DEFAULT_ENABLE_IF "FALSE")
else()
  set(EBOS_EXTENSIONS_DEFAULT_ENABLE_IF "TRUE")
endif()

foreach(OBJ ${COMMON_MODELS})
  opm_add_test(ebos_${OBJ}
    ONLY_COMPILE
    DEFAULT_ENABLE_IF ${EBOS_EXTENSIONS_DEFAULT_ENABLE_IF}
    SOURCES ebos/ebos_${OBJ}_main.cc $<TARGET_OBJECTS:ebos_lib${OBJ}>
    EXE_NAME ebos_${OBJ}
    LIBRARIES opmsimulators)
endforeach()

opm_add_test(mebos
  ONLY_COMPILE
  DEFAULT_ENABLE_IF ${EBOS_EXTENSIONS_DEFAULT_ENABLE_IF}
  SOURCES ebos/mebos_main.cc
          ${MEBOS_TARGETS}
  EXE_NAME mebos
  LIBRARIES opmsimulators)

if (NOT BUILD_EBOS_DEBUG_EXTENSIONS)
  set(EBOS_DEBUG_EXTENSIONS_DEFAULT_ENABLE_IF "FALSE")
else()
  set(EBOS_DEBUG_EXTENSIONS_DEFAULT_ENABLE_IF "TRUE")
endif()

if (OPM_ENABLE_PYTHON)
  add_subdirectory(python)
endif()

add_custom_target(extra_test ${CMAKE_CTEST_COMMAND} -C ExtraTests)

# must link libraries after target 'opmsimulators' has been defined

if(CUDA_FOUND)
  target_link_libraries( opmsimulators PUBLIC ${CUDA_cusparse_LIBRARY} )
  target_link_libraries( opmsimulators PUBLIC ${CUDA_cublas_LIBRARY} )
endif()

if(OpenCL_FOUND)
  target_link_libraries( opmsimulators PUBLIC ${OpenCL_LIBRARIES} )
endif()

if(VexCL_FOUND)
  target_link_libraries( opmsimulators PUBLIC OPM::VexCL::OpenCL )
endif()
if(HAVE_FPGA)
  add_dependencies(opmsimulators FPGA_library)
  ExternalProject_Get_Property(FPGA_library binary_dir)
  target_link_libraries(opmsimulators PUBLIC ${binary_dir}/fpga_lib_alveo_u280.a)
endif()