##============================================================================ ## Copyright (c) Kitware, Inc. ## All rights reserved. ## See LICENSE.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 above copyright notice for more information. ##============================================================================ #add the directory that contains the VTK-m config file to the cmake #path so that our tutorial can find VTK-m #Normally when running CMake, you need to set the VTKm_DIR to #find the VTKmConfig.cmake file. Because we already know where this #file is, we can add the location to look to CMAKE_PREFIX_PATH. set(CMAKE_PREFIX_PATH ${VTKm_BINARY_DIR}/${VTKm_INSTALL_CONFIG_DIR}) cmake_minimum_required(VERSION 3.12...3.15 FATAL_ERROR) project(VTKm_tut) #Find the VTK-m package find_package(VTKm REQUIRED QUIET) if (VTKm_ENABLE_TUTORIALS) # VTK-m tutorial targets expect vtkm libraries to be namespaced with the prefix vtkm::. # However, as the tutorial can also be built as part of the VTK-m code, # those prefix are not added to the targets (This happens during the # installation). To workaround this issue here, we create IMPORTED libs linking # to the vtkm libraries used by the tutorial targets with the expected vtkm:: prefix. vtkm_module_get_list(module_list) foreach(tgt IN LISTS module_list) if(TARGET ${tgt}) # The reason of creating this phony IMPORTED libraries instead of making # ALIAS libraries is that ALIAS libraries are GLOBAL whereas IMPORTED are # local at the directory level where they are created. We do not want these # phony targets to be visible outside of the tutorial directory. vtkm_target_mangle(tgt_name_mangled ${tgt}) add_library("vtkm::${tgt_name_mangled}" INTERFACE IMPORTED) target_link_libraries("vtkm::${tgt_name_mangled}" INTERFACE ${tgt}) endif() endforeach() endif() add_executable(io io.cxx) target_link_libraries(io vtkm::io) add_executable(contour contour.cxx) target_link_libraries(contour vtkm::filter_core vtkm::filter_contour vtkm::io) add_executable(contour_two_fields contour_two_fields.cxx) target_link_libraries(contour_two_fields vtkm::filter_core vtkm::filter_contour vtkm::io) add_executable(two_filters two_filters.cxx) target_link_libraries(two_filters vtkm::filter_core vtkm::filter_contour vtkm::io) add_executable(mag_grad mag_grad.cxx) target_link_libraries(mag_grad vtkm::filter_core vtkm::filter_vector_analysis vtkm::io) # Because mag_grad.cxx creates a worklet with code that # runs on a GPU, it needs additional information. vtkm_add_target_information(mag_grad DROP_UNUSED_SYMBOLS MODIFY_CUDA_FLAGS DEVICE_SOURCES mag_grad.cxx) if (VTKm_ENABLE_RENDERING) add_executable(rendering rendering.cxx) target_link_libraries(rendering vtkm::io vtkm::rendering) endif () add_executable(error_handling error_handling.cxx) target_link_libraries(error_handling vtkm::filter_core vtkm::filter_contour vtkm::io) add_executable(logging logging.cxx) target_link_libraries(logging vtkm::io) add_executable(point_to_cell point_to_cell.cxx) target_link_libraries(point_to_cell vtkm::worklet vtkm::filter_core vtkm::io) vtkm_add_target_information(point_to_cell DROP_UNUSED_SYMBOLS MODIFY_CUDA_FLAGS DEVICE_SOURCES point_to_cell.cxx) add_executable(extract_edges extract_edges.cxx) target_link_libraries(extract_edges vtkm::cont vtkm::filter_core vtkm::filter_contour vtkm::worklet vtkm::io) vtkm_add_target_information(extract_edges DROP_UNUSED_SYMBOLS MODIFY_CUDA_FLAGS DEVICE_SOURCES extract_edges.cxx) # Copy the data file to be adjacent to the binaries file(GENERATE OUTPUT "$/data/kitchen.vtk" INPUT "${CMAKE_CURRENT_SOURCE_DIR}/data/kitchen.vtk")